diff --git a/go.mod b/go.mod index 70ea48ea2a..b2f4232a53 100644 --- a/go.mod +++ b/go.mod @@ -22,7 +22,7 @@ require ( github.com/opencontainers/image-spec v1.1.1 github.com/operator-framework/api v0.42.0 github.com/operator-framework/helm-operator-plugins v0.8.0 - github.com/operator-framework/operator-registry v1.65.0 + github.com/operator-framework/operator-registry v1.66.0 github.com/prometheus/client_golang v1.23.2 github.com/prometheus/common v0.67.5 github.com/santhosh-tekuri/jsonschema/v6 v6.0.2 @@ -35,13 +35,13 @@ require ( golang.org/x/sync v0.20.0 golang.org/x/tools v0.44.0 helm.sh/helm/v3 v3.20.2 - k8s.io/api v0.35.3 - k8s.io/apiextensions-apiserver v0.35.3 - k8s.io/apimachinery v0.35.3 - k8s.io/apiserver v0.35.3 + k8s.io/api v0.35.4 + k8s.io/apiextensions-apiserver v0.35.4 + k8s.io/apimachinery v0.35.4 + k8s.io/apiserver v0.35.4 k8s.io/cli-runtime v0.35.1 k8s.io/client-go v1.5.2 - k8s.io/component-base v0.35.3 + k8s.io/component-base v0.35.4 k8s.io/klog/v2 v2.140.0 k8s.io/kubernetes v1.35.0 k8s.io/utils v0.0.0-20260319190234-28399d86e0b5 @@ -97,7 +97,7 @@ require ( github.com/cyphar/filepath-securejoin v0.6.1 // indirect github.com/davecgh/go-spew v1.1.2-0.20180830191138-d8f796af33cc // indirect github.com/distribution/reference v0.6.0 // indirect - github.com/docker/cli v29.4.0+incompatible // indirect + github.com/docker/cli v29.4.1+incompatible // indirect github.com/docker/distribution v2.8.3+incompatible // indirect github.com/docker/docker v28.5.2+incompatible // indirect github.com/docker/docker-credential-helpers v0.9.5 // indirect @@ -145,7 +145,7 @@ require ( github.com/gorilla/websocket v1.5.4-0.20250319132907-e064f32e3674 // indirect github.com/gosuri/uitable v0.0.4 // indirect github.com/gregjones/httpcache v0.0.0-20190611155906-901d90724c79 // indirect - github.com/grpc-ecosystem/grpc-gateway/v2 v2.27.7 // indirect + github.com/grpc-ecosystem/grpc-gateway/v2 v2.28.0 // indirect github.com/h2non/filetype v1.1.3 // indirect github.com/h2non/go-is-svg v0.0.0-20160927212452-35e8c4b0612c // indirect github.com/hashicorp/errwrap v1.1.0 // indirect @@ -167,7 +167,7 @@ require ( github.com/mattn/go-colorable v0.1.14 // indirect github.com/mattn/go-isatty v0.0.20 // indirect github.com/mattn/go-runewidth v0.0.19 // indirect - github.com/mattn/go-sqlite3 v1.14.37 // indirect + github.com/mattn/go-sqlite3 v1.14.42 // indirect github.com/miekg/pkcs11 v1.1.2 // indirect github.com/mitchellh/copystructure v1.2.0 // indirect github.com/mitchellh/go-homedir v1.1.0 // indirect @@ -218,15 +218,15 @@ require ( go.etcd.io/bbolt v1.4.3 // indirect go.opencensus.io v0.24.0 // indirect go.opentelemetry.io/auto/sdk v1.2.1 // indirect - go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.65.0 // indirect + go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.67.0 // indirect go.opentelemetry.io/otel v1.43.0 // indirect - go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.40.0 // indirect - go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.40.0 // indirect + go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.42.0 // indirect + go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.42.0 // indirect go.opentelemetry.io/otel/metric v1.43.0 // indirect go.opentelemetry.io/otel/sdk v1.43.0 // indirect go.opentelemetry.io/otel/trace v1.43.0 // indirect go.opentelemetry.io/proto/otlp v1.9.0 // indirect - go.podman.io/common v0.67.0 // indirect + go.podman.io/common v0.67.1 // indirect go.podman.io/storage v1.62.0 // indirect go.yaml.in/yaml/v2 v2.4.4 // indirect go.yaml.in/yaml/v3 v3.0.4 // indirect @@ -239,9 +239,9 @@ require ( golang.org/x/time v0.15.0 // indirect gomodules.xyz/jsonpatch/v2 v2.5.0 // indirect google.golang.org/genproto v0.0.0-20260209200024-4cfbd4190f57 // indirect - google.golang.org/genproto/googleapis/api v0.0.0-20260209200024-4cfbd4190f57 // indirect + google.golang.org/genproto/googleapis/api v0.0.0-20260226221140-a57be14db171 // indirect google.golang.org/genproto/googleapis/rpc v0.0.0-20260319201613-d00831a3d3e7 // indirect - google.golang.org/grpc v1.79.3 // indirect + google.golang.org/grpc v1.80.0 // indirect google.golang.org/protobuf v1.36.11 // indirect gopkg.in/evanphx/json-patch.v4 v4.13.0 // indirect gopkg.in/inf.v0 v0.9.1 // indirect diff --git a/go.sum b/go.sum index 86a1c4d88a..ba6e4e9eef 100644 --- a/go.sum +++ b/go.sum @@ -108,14 +108,14 @@ github.com/davecgh/go-spew v1.1.2-0.20180830191138-d8f796af33cc h1:U9qPSI2PIWSS1 github.com/davecgh/go-spew v1.1.2-0.20180830191138-d8f796af33cc/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38= github.com/dgryski/go-rendezvous v0.0.0-20200823014737-9f7001d12a5f h1:lO4WD4F/rVNCu3HqELle0jiPLLBs70cWOduZpkS1E78= github.com/dgryski/go-rendezvous v0.0.0-20200823014737-9f7001d12a5f/go.mod h1:cuUVRXasLTGF7a8hSLbxyZXjz+1KgoB3wDUb6vlszIc= -github.com/distribution/distribution/v3 v3.0.0 h1:q4R8wemdRQDClzoNNStftB2ZAfqOiN6UX90KJc4HjyM= -github.com/distribution/distribution/v3 v3.0.0/go.mod h1:tRNuFoZsUdyRVegq8xGNeds4KLjwLCRin/tTo6i1DhU= +github.com/distribution/distribution/v3 v3.1.0 h1:u1v788HreKTLGdNY6s7px8Exgrs9mZ9UrCDjSrpCM8g= +github.com/distribution/distribution/v3 v3.1.0/go.mod h1:73BuF5/ziMHNVt7nnL1roYpH4Eg/FgUlKZm3WryIx/o= github.com/distribution/reference v0.6.0 h1:0IXCQ5g4/QMHHkarYzh5l+u8T3t73zM5QvfrDyIgxBk= github.com/distribution/reference v0.6.0/go.mod h1:BbU0aIcezP1/5jX/8MP0YiH4SdvB5Y4f/wlDRiLyi3E= github.com/dlclark/regexp2 v1.11.0 h1:G/nrcoOa7ZXlpoa/91N3X7mM3r8eIlMBBJZvsz/mxKI= github.com/dlclark/regexp2 v1.11.0/go.mod h1:DHkYz0B9wPfa6wondMfaivmHpzrQ3v9q8cnmRbL6yW8= -github.com/docker/cli v29.4.0+incompatible h1:+IjXULMetlvWJiuSI0Nbor36lcJ5BTcVpUmB21KBoVM= -github.com/docker/cli v29.4.0+incompatible/go.mod h1:JLrzqnKDaYBop7H2jaqPtU4hHvMKP+vjCwu2uszcLI8= +github.com/docker/cli v29.4.1+incompatible h1:02RT8QqqwtGRn+6SYypv8IUEbD/ltY6sfKCJIoUcGzk= +github.com/docker/cli v29.4.1+incompatible/go.mod h1:JLrzqnKDaYBop7H2jaqPtU4hHvMKP+vjCwu2uszcLI8= github.com/docker/distribution v2.8.3+incompatible h1:AtKxIZ36LoNK51+Z6RpzLpddBirtxJnzDrHLEKxTAYk= github.com/docker/distribution v2.8.3+incompatible/go.mod h1:J2gT2udsDAN96Uj4KfcMRqY0/ypR+oyYUYmja8H+y+w= github.com/docker/docker v28.5.2+incompatible h1:DBX0Y0zAjZbSrm1uzOkdr1onVghKaftjlSWt4AFexzM= @@ -284,8 +284,8 @@ github.com/gregjones/httpcache v0.0.0-20190611155906-901d90724c79 h1:+ngKgrYPPJr github.com/gregjones/httpcache v0.0.0-20190611155906-901d90724c79/go.mod h1:FecbI9+v66THATjSRHfNgh1IVFe/9kFxbXtjV0ctIMA= github.com/grpc-ecosystem/go-grpc-prometheus v1.2.1-0.20210315223345-82c243799c99 h1:JYghRBlGCZyCF2wNUJ8W0cwaQdtpcssJ4CgC406g+WU= github.com/grpc-ecosystem/go-grpc-prometheus v1.2.1-0.20210315223345-82c243799c99/go.mod h1:3bDW6wMZJB7tiONtC/1Xpicra6Wp5GgbTbQWCbI5fkc= -github.com/grpc-ecosystem/grpc-gateway/v2 v2.27.7 h1:X+2YciYSxvMQK0UZ7sg45ZVabVZBeBuvMkmuI2V3Fak= -github.com/grpc-ecosystem/grpc-gateway/v2 v2.27.7/go.mod h1:lW34nIZuQ8UDPdkon5fmfp2l3+ZkQ2me/+oecHYLOII= +github.com/grpc-ecosystem/grpc-gateway/v2 v2.28.0 h1:HWRh5R2+9EifMyIHV7ZV+MIZqgz+PMpZ14Jynv3O2Zs= +github.com/grpc-ecosystem/grpc-gateway/v2 v2.28.0/go.mod h1:JfhWUomR1baixubs02l85lZYYOm7LV6om4ceouMv45c= github.com/h2non/filetype v1.1.3 h1:FKkx9QbD7HR/zjK1Ia5XiBsq9zdLi5Kf3zGyFTAFkGg= github.com/h2non/filetype v1.1.3/go.mod h1:319b3zT68BvV+WRj7cwy856M2ehB3HqNOt6sy1HndBY= github.com/h2non/go-is-svg v0.0.0-20160927212452-35e8c4b0612c h1:fEE5/5VNnYUoBOj2I9TP8Jc+a7lge3QWn9DKE7NCwfc= @@ -357,8 +357,8 @@ github.com/mattn/go-isatty v0.0.20/go.mod h1:W+V8PltTTMOvKvAeJH7IuucS94S2C6jfK/D github.com/mattn/go-runewidth v0.0.19 h1:v++JhqYnZuu5jSKrk9RbgF5v4CGUjqRfBm05byFGLdw= github.com/mattn/go-runewidth v0.0.19/go.mod h1:XBkDxAl56ILZc9knddidhrOlY5R/pDhgLpndooCuJAs= github.com/mattn/go-sqlite3 v1.14.22/go.mod h1:Uh1q+B4BYcTPb+yiD3kU8Ct7aC0hY9fxUwlHK0RXw+Y= -github.com/mattn/go-sqlite3 v1.14.37 h1:3DOZp4cXis1cUIpCfXLtmlGolNLp2VEqhiB/PARNBIg= -github.com/mattn/go-sqlite3 v1.14.37/go.mod h1:Uh1q+B4BYcTPb+yiD3kU8Ct7aC0hY9fxUwlHK0RXw+Y= +github.com/mattn/go-sqlite3 v1.14.42 h1:MigqEP4ZmHw3aIdIT7T+9TLa90Z6smwcthx+Azv4Cgo= +github.com/mattn/go-sqlite3 v1.14.42/go.mod h1:pjEuOr8IwzLJP2MfGeTb0A35jauH+C2kbHKBr7yXKVQ= github.com/miekg/dns v1.1.72 h1:vhmr+TF2A3tuoGNkLDFK9zi36F2LS+hKTRW0Uf8kbzI= github.com/miekg/dns v1.1.72/go.mod h1:+EuEPhdHOsfk6Wk5TT2CzssZdqkmFhf8r+aVyDEToIs= github.com/miekg/pkcs11 v1.1.2 h1:/VxmeAX5qU6Q3EwafypogwWbYryHFmF2RpkJmw3m4MQ= @@ -421,8 +421,8 @@ github.com/operator-framework/helm-operator-plugins v0.8.0 h1:0f6HOQC5likkf0b/Ov github.com/operator-framework/helm-operator-plugins v0.8.0/go.mod h1:Sc+8bE38xTCgCChBUvtq/PxatEg9fAypr7S5iAw8nlA= github.com/operator-framework/operator-lib v0.19.0 h1:az6ogYj21rtU0SF9uYctRLyKp2dtlqTsmpfehFy6Ce8= github.com/operator-framework/operator-lib v0.19.0/go.mod h1:KxycAjFnHt0DBtHmH3Jm7yHcY5sdrshPKTqM/HKAQ08= -github.com/operator-framework/operator-registry v1.65.0 h1:SBNp8qPRWHwMVk4WBBWeQ5pOAq/fBusacIn5zVH03rk= -github.com/operator-framework/operator-registry v1.65.0/go.mod h1:psQG9kYyTR+2RNHgdwTvGjSbebmk9/Lzk3jS3kI36bc= +github.com/operator-framework/operator-registry v1.66.0 h1:qxvT35WHDAU1OMhdwtKTM7js8sH20w+e+PeqWDEGz3E= +github.com/operator-framework/operator-registry v1.66.0/go.mod h1:+zkDD/xCnoc8GEK8I3HYmK0xecg7sSvVK4LvR2PdHB0= github.com/otiai10/copy v1.14.1 h1:5/7E6qsUMBaH5AnQ0sSLzzTg1oTECmcCmT6lvF45Na8= github.com/otiai10/copy v1.14.1/go.mod h1:oQwrEDDOci3IM8dJF0d8+jnbfPDllW6vUjNc3DoZm9I= github.com/otiai10/mint v1.6.3 h1:87qsV/aw1F5as1eH1zS/yqHY85ANKVMgkDrf9rcxbQs= @@ -533,54 +533,54 @@ go.opencensus.io v0.24.0 h1:y73uSU6J157QMP2kn2r30vwW1A2W2WFwSCGnAVxeaD0= go.opencensus.io v0.24.0/go.mod h1:vNK8G9p7aAivkbmorf4v+7Hgx+Zs0yY+0fOtgBfjQKo= go.opentelemetry.io/auto/sdk v1.2.1 h1:jXsnJ4Lmnqd11kwkBV2LgLoFMZKizbCi5fNZ/ipaZ64= go.opentelemetry.io/auto/sdk v1.2.1/go.mod h1:KRTj+aOaElaLi+wW1kO/DZRXwkF4C5xPbEe3ZiIhN7Y= -go.opentelemetry.io/contrib/bridges/prometheus v0.65.0 h1:I/7S/yWobR3QHFLqHsJ8QOndoiFsj1VgHpQiq43KlUI= -go.opentelemetry.io/contrib/bridges/prometheus v0.65.0/go.mod h1:jPF6gn3y1E+nozCAEQj3c6NZ8KY+tvAgSVfvoOJUFac= -go.opentelemetry.io/contrib/exporters/autoexport v0.65.0 h1:2gApdml7SznX9szEKFjKjM4qGcGSvAybYLBY319XG3g= -go.opentelemetry.io/contrib/exporters/autoexport v0.65.0/go.mod h1:0QqAGlbHXhmPYACG3n5hNzO5DnEqqtg4VcK5pr22RI0= +go.opentelemetry.io/contrib/bridges/prometheus v0.67.0 h1:dkBzNEAIKADEaFnuESzcXvpd09vxvDZsOjx11gjUqLk= +go.opentelemetry.io/contrib/bridges/prometheus v0.67.0/go.mod h1:Z5RIwRkZgauOIfnG5IpidvLpERjhTninpP1dTG2jTl4= +go.opentelemetry.io/contrib/exporters/autoexport v0.67.0 h1:4fnRcNpc6YFtG3zsFw9achKn3XgmxPxuMuqIL5rE8e8= +go.opentelemetry.io/contrib/exporters/autoexport v0.67.0/go.mod h1:qTvIHMFKoxW7HXg02gm6/Wofhq5p3Ib/A/NNt1EoBSQ= go.opentelemetry.io/contrib/instrumentation/google.golang.org/grpc/otelgrpc v0.63.0 h1:YH4g8lQroajqUwWbq/tr2QX1JFmEXaDLgG+ew9bLMWo= go.opentelemetry.io/contrib/instrumentation/google.golang.org/grpc/otelgrpc v0.63.0/go.mod h1:fvPi2qXDqFs8M4B4fmJhE92TyQs9Ydjlg3RvfUp+NbQ= -go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.65.0 h1:7iP2uCb7sGddAr30RRS6xjKy7AZ2JtTOPA3oolgVSw8= -go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.65.0/go.mod h1:c7hN3ddxs/z6q9xwvfLPk+UHlWRQyaeR1LdgfL/66l0= +go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.67.0 h1:OyrsyzuttWTSur2qN/Lm0m2a8yqyIjUVBZcxFPuXq2o= +go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.67.0/go.mod h1:C2NGBr+kAB4bk3xtMXfZ94gqFDtg/GkI7e9zqGh5Beg= go.opentelemetry.io/otel v1.43.0 h1:mYIM03dnh5zfN7HautFE4ieIig9amkNANT+xcVxAj9I= go.opentelemetry.io/otel v1.43.0/go.mod h1:JuG+u74mvjvcm8vj8pI5XiHy1zDeoCS2LB1spIq7Ay0= -go.opentelemetry.io/otel/exporters/otlp/otlplog/otlploggrpc v0.16.0 h1:ZVg+kCXxd9LtAaQNKBxAvJ5NpMf7LpvEr4MIZqb0TMQ= -go.opentelemetry.io/otel/exporters/otlp/otlplog/otlploggrpc v0.16.0/go.mod h1:hh0tMeZ75CCXrHd9OXRYxTlCAdxcXioWHFIpYw2rZu8= -go.opentelemetry.io/otel/exporters/otlp/otlplog/otlploghttp v0.16.0 h1:djrxvDxAe44mJUrKataUbOhCKhR3F8QCyWucO16hTQs= -go.opentelemetry.io/otel/exporters/otlp/otlplog/otlploghttp v0.16.0/go.mod h1:dt3nxpQEiSoKvfTVxp3TUg5fHPLhKtbcnN3Z1I1ePD0= -go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetricgrpc v1.40.0 h1:NOyNnS19BF2SUDApbOKbDtWZ0IK7b8FJ2uAGdIWOGb0= -go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetricgrpc v1.40.0/go.mod h1:VL6EgVikRLcJa9ftukrHu/ZkkhFBSo1lzvdBC9CF1ss= -go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetrichttp v1.40.0 h1:9y5sHvAxWzft1WQ4BwqcvA+IFVUJ1Ya75mSAUnFEVwE= -go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetrichttp v1.40.0/go.mod h1:eQqT90eR3X5Dbs1g9YSM30RavwLF725Ris5/XSXWvqE= -go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.40.0 h1:QKdN8ly8zEMrByybbQgv8cWBcdAarwmIPZ6FThrWXJs= -go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.40.0/go.mod h1:bTdK1nhqF76qiPoCCdyFIV+N/sRHYXYCTQc+3VCi3MI= -go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.40.0 h1:DvJDOPmSWQHWywQS6lKL+pb8s3gBLOZUtw4N+mavW1I= -go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.40.0/go.mod h1:EtekO9DEJb4/jRyN4v4Qjc2yA7AtfCBuz2FynRUWTXs= -go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracehttp v1.40.0 h1:wVZXIWjQSeSmMoxF74LzAnpVQOAFDo3pPji9Y4SOFKc= -go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracehttp v1.40.0/go.mod h1:khvBS2IggMFNwZK/6lEeHg/W57h/IX6J4URh57fuI40= -go.opentelemetry.io/otel/exporters/prometheus v0.62.0 h1:krvC4JMfIOVdEuNPTtQ0ZjCiXrybhv+uOHMfHRmnvVo= -go.opentelemetry.io/otel/exporters/prometheus v0.62.0/go.mod h1:fgOE6FM/swEnsVQCqCnbOfRV4tOnWPg7bVeo4izBuhQ= -go.opentelemetry.io/otel/exporters/stdout/stdoutlog v0.16.0 h1:ivlbaajBWJqhcCPniDqDJmRwj4lc6sRT+dCAVKNmxlQ= -go.opentelemetry.io/otel/exporters/stdout/stdoutlog v0.16.0/go.mod h1:u/G56dEKDDwXNCVLsbSrllB2o8pbtFLUC4HpR66r2dc= -go.opentelemetry.io/otel/exporters/stdout/stdoutmetric v1.40.0 h1:ZrPRak/kS4xI3AVXy8F7pipuDXmDsrO8Lg+yQjBLjw0= -go.opentelemetry.io/otel/exporters/stdout/stdoutmetric v1.40.0/go.mod h1:3y6kQCWztq6hyW8Z9YxQDDm0Je9AJoFar2G0yDcmhRk= -go.opentelemetry.io/otel/exporters/stdout/stdouttrace v1.40.0 h1:MzfofMZN8ulNqobCmCAVbqVL5syHw+eB2qPRkCMA/fQ= -go.opentelemetry.io/otel/exporters/stdout/stdouttrace v1.40.0/go.mod h1:E73G9UFtKRXrxhBsHtG00TB5WxX57lpsQzogDkqBTz8= -go.opentelemetry.io/otel/log v0.16.0 h1:DeuBPqCi6pQwtCK0pO4fvMB5eBq6sNxEnuTs88pjsN4= -go.opentelemetry.io/otel/log v0.16.0/go.mod h1:rWsmqNVTLIA8UnwYVOItjyEZDbKIkMxdQunsIhpUMes= +go.opentelemetry.io/otel/exporters/otlp/otlplog/otlploggrpc v0.18.0 h1:deI9UQMoGFgrg5iLPgzueqFPHevDl+28YKfSpPTI6rY= +go.opentelemetry.io/otel/exporters/otlp/otlplog/otlploggrpc v0.18.0/go.mod h1:PFx9NgpNUKXdf7J4Q3agRxMs3Y07QhTCVipKmLsMKnU= +go.opentelemetry.io/otel/exporters/otlp/otlplog/otlploghttp v0.18.0 h1:icqq3Z34UrEFk2u+HMhTtRsvo7Ues+eiJVjaJt62njs= +go.opentelemetry.io/otel/exporters/otlp/otlplog/otlploghttp v0.18.0/go.mod h1:W2m8P+d5Wn5kipj4/xmbt9uMqezEKfBjzVJadfABSBE= +go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetricgrpc v1.42.0 h1:MdKucPl/HbzckWWEisiNqMPhRrAOQX8r4jTuGr636gk= +go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetricgrpc v1.42.0/go.mod h1:RolT8tWtfHcjajEH5wFIZ4Dgh5jpPdFXYV9pTAk/qjc= +go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetrichttp v1.42.0 h1:H7O6RlGOMTizyl3R08Kn5pdM06bnH8oscSj7o11tmLA= +go.opentelemetry.io/otel/exporters/otlp/otlpmetric/otlpmetrichttp v1.42.0/go.mod h1:mBFWu/WOVDkWWsR7Tx7h6EpQB8wsv7P0Yrh0Pb7othc= +go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.42.0 h1:THuZiwpQZuHPul65w4WcwEnkX2QIuMT+UFoOrygtoJw= +go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.42.0/go.mod h1:J2pvYM5NGHofZ2/Ru6zw/TNWnEQp5crgyDeSrYpXkAw= +go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.42.0 h1:zWWrB1U6nqhS/k6zYB74CjRpuiitRtLLi68VcgmOEto= +go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.42.0/go.mod h1:2qXPNBX1OVRC0IwOnfo1ljoid+RD0QK3443EaqVlsOU= +go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracehttp v1.42.0 h1:uLXP+3mghfMf7XmV4PkGfFhFKuNWoCvvx5wP/wOXo0o= +go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracehttp v1.42.0/go.mod h1:v0Tj04armyT59mnURNUJf7RCKcKzq+lgJs6QSjHjaTc= +go.opentelemetry.io/otel/exporters/prometheus v0.64.0 h1:g0LRDXMX/G1SEZtK8zl8Chm4K6GBwRkjPKE36LxiTYs= +go.opentelemetry.io/otel/exporters/prometheus v0.64.0/go.mod h1:UrgcjnarfdlBDP3GjDIJWe6HTprwSazNjwsI+Ru6hro= +go.opentelemetry.io/otel/exporters/stdout/stdoutlog v0.18.0 h1:KJVjPD3rcPb98rIs3HznyJlrfx9ge5oJvxxlGR+P/7s= +go.opentelemetry.io/otel/exporters/stdout/stdoutlog v0.18.0/go.mod h1:K3kRa2ckmHWQaTWQdPRHc7qGXASuVuoEQXzrvlA98Ws= +go.opentelemetry.io/otel/exporters/stdout/stdoutmetric v1.42.0 h1:lSZHgNHfbmQTPfuTmWVkEu8J8qXaQwuV30pjCcAUvP8= +go.opentelemetry.io/otel/exporters/stdout/stdoutmetric v1.42.0/go.mod h1:so9ounLcuoRDu033MW/E0AD4hhUjVqswrMF5FoZlBcw= +go.opentelemetry.io/otel/exporters/stdout/stdouttrace v1.42.0 h1:s/1iRkCKDfhlh1JF26knRneorus8aOwVIDhvYx9WoDw= +go.opentelemetry.io/otel/exporters/stdout/stdouttrace v1.42.0/go.mod h1:UI3wi0FXg1Pofb8ZBiBLhtMzgoTm1TYkMvn71fAqDzs= +go.opentelemetry.io/otel/log v0.18.0 h1:XgeQIIBjZZrliksMEbcwMZefoOSMI1hdjiLEiiB0bAg= +go.opentelemetry.io/otel/log v0.18.0/go.mod h1:KEV1kad0NofR3ycsiDH4Yjcoj0+8206I6Ox2QYFSNgI= go.opentelemetry.io/otel/metric v1.43.0 h1:d7638QeInOnuwOONPp4JAOGfbCEpYb+K6DVWvdxGzgM= go.opentelemetry.io/otel/metric v1.43.0/go.mod h1:RDnPtIxvqlgO8GRW18W6Z/4P462ldprJtfxHxyKd2PY= go.opentelemetry.io/otel/sdk v1.43.0 h1:pi5mE86i5rTeLXqoF/hhiBtUNcrAGHLKQdhg4h4V9Dg= go.opentelemetry.io/otel/sdk v1.43.0/go.mod h1:P+IkVU3iWukmiit/Yf9AWvpyRDlUeBaRg6Y+C58QHzg= -go.opentelemetry.io/otel/sdk/log v0.16.0 h1:e/b4bdlQwC5fnGtG3dlXUrNOnP7c8YLVSpSfEBIkTnI= -go.opentelemetry.io/otel/sdk/log v0.16.0/go.mod h1:JKfP3T6ycy7QEuv3Hj8oKDy7KItrEkus8XJE6EoSzw4= +go.opentelemetry.io/otel/sdk/log v0.18.0 h1:n8OyZr7t7otkeTnPTbDNom6rW16TBYGtvyy2Gk6buQw= +go.opentelemetry.io/otel/sdk/log v0.18.0/go.mod h1:C0+wxkTwKpOCZLrlJ3pewPiiQwpzycPI/u6W0Z9fuYk= go.opentelemetry.io/otel/sdk/metric v1.43.0 h1:S88dyqXjJkuBNLeMcVPRFXpRw2fuwdvfCGLEo89fDkw= go.opentelemetry.io/otel/sdk/metric v1.43.0/go.mod h1:C/RJtwSEJ5hzTiUz5pXF1kILHStzb9zFlIEe85bhj6A= go.opentelemetry.io/otel/trace v1.43.0 h1:BkNrHpup+4k4w+ZZ86CZoHHEkohws8AY+WTX09nk+3A= go.opentelemetry.io/otel/trace v1.43.0/go.mod h1:/QJhyVBUUswCphDVxq+8mld+AvhXZLhe+8WVFxiFff0= go.opentelemetry.io/proto/otlp v1.9.0 h1:l706jCMITVouPOqEnii2fIAuO3IVGBRPV5ICjceRb/A= go.opentelemetry.io/proto/otlp v1.9.0/go.mod h1:xE+Cx5E/eEHw+ISFkwPLwCZefwVjY+pqKg1qcK03+/4= -go.podman.io/common v0.67.0 h1:6Ci5oU1ek08OAxBLkHEqSyWmjNh5zf03PRqZ04cPdwU= -go.podman.io/common v0.67.0/go.mod h1:sB9L8LMtmf5Hpek2qkEyRrcSzpb+gYpG3vq5Khima3U= +go.podman.io/common v0.67.1 h1:HddYLJfkfFUmFJ0V3PVoewguFM9eHkqk0g+fOc2B9R4= +go.podman.io/common v0.67.1/go.mod h1:XVmSLtnhJwGb+ImYn6BXiozxVE3mYZJgiiBuDOiOquk= go.podman.io/image/v5 v5.39.2 h1:EJua/pRtvgLV/a5y8/RvA+ekKukZh0UuKMvLdTmEWFk= go.podman.io/image/v5 v5.39.2/go.mod h1:SlaR6Pra1ATIx4BcuZ16oafb3QcCHISaKcJbtlN/G/0= go.podman.io/storage v1.62.0 h1:0QjX1XlzVmbiaulb+aR/CG6p9+pzaqwIeZPe3tEjHbY= @@ -721,8 +721,8 @@ golang.org/x/xerrors v0.0.0-20191204190536-9bdfabe68543/go.mod h1:I/5z698sn9Ka8T golang.org/x/xerrors v0.0.0-20200804184101-5ec99f83aff1/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0= gomodules.xyz/jsonpatch/v2 v2.5.0 h1:JELs8RLM12qJGXU4u/TO3V25KW8GreMKl9pdkk14RM0= gomodules.xyz/jsonpatch/v2 v2.5.0/go.mod h1:AH3dM2RI6uoBZxn3LVrfvJ3E0/9dG4cSrbuBJT4moAY= -gonum.org/v1/gonum v0.16.0 h1:5+ul4Swaf3ESvrOnidPp4GZbzf0mxVQpDCYUQE7OJfk= -gonum.org/v1/gonum v0.16.0/go.mod h1:fef3am4MQ93R2HHpKnLk4/Tbh/s0+wqD5nfa6Pnwy4E= +gonum.org/v1/gonum v0.17.0 h1:VbpOemQlsSMrYmn7T2OUvQ4dqxQXU+ouZFQsZOx50z4= +gonum.org/v1/gonum v0.17.0/go.mod h1:El3tOrEuMpv2UdMrbNlKEh9vd86bmQ6vqIcDwxEOc1E= google.golang.org/appengine v1.1.0/go.mod h1:EbEs0AVv82hx2wNQdGPgUI5lhzA/G0D9YwlJXL52JkM= google.golang.org/appengine v1.4.0/go.mod h1:xpcJRLb0r/rnEns0DIKYYv+WjYCduHsrkT7/EB5XEv4= google.golang.org/genproto v0.0.0-20180817151627-c66870c02cf8/go.mod h1:JiN7NxoALGmiZfu7CAH4rXhgtRTLTxftemlI0sWmxmc= @@ -730,8 +730,8 @@ google.golang.org/genproto v0.0.0-20190819201941-24fa4b261c55/go.mod h1:DMBHOl98 google.golang.org/genproto v0.0.0-20200526211855-cb27e3aa2013/go.mod h1:NbSheEEYHJ7i3ixzK3sjbqSGDJWnxyFXZblF3eUsNvo= google.golang.org/genproto v0.0.0-20260209200024-4cfbd4190f57 h1:uZSB/r2MjH9IsqpG2vRNSV1Juteix90oHe8oTcLW9tk= google.golang.org/genproto v0.0.0-20260209200024-4cfbd4190f57/go.mod h1:nGuPfp0lnDJcJD0J47StV0Skgnw3qMSQhjsLKiejq5Y= -google.golang.org/genproto/googleapis/api v0.0.0-20260209200024-4cfbd4190f57 h1:JLQynH/LBHfCTSbDWl+py8C+Rg/k1OVH3xfcaiANuF0= -google.golang.org/genproto/googleapis/api v0.0.0-20260209200024-4cfbd4190f57/go.mod h1:kSJwQxqmFXeo79zOmbrALdflXQeAYcUbgS7PbpMknCY= +google.golang.org/genproto/googleapis/api v0.0.0-20260226221140-a57be14db171 h1:tu/dtnW1o3wfaxCOjSLn5IRX4YDcJrtlpzYkhHhGaC4= +google.golang.org/genproto/googleapis/api v0.0.0-20260226221140-a57be14db171/go.mod h1:M5krXqk4GhBKvB596udGL3UyjL4I1+cTbK0orROM9ng= google.golang.org/genproto/googleapis/rpc v0.0.0-20260319201613-d00831a3d3e7 h1:ndE4FoJqsIceKP2oYSnUZqhTdYufCYYkqwtFzfrhI7w= google.golang.org/genproto/googleapis/rpc v0.0.0-20260319201613-d00831a3d3e7/go.mod h1:4Hqkh8ycfw05ld/3BWL7rJOSfebL2Q+DVDeRgYgxUU8= google.golang.org/grpc v1.19.0/go.mod h1:mqu4LbDTu4XGKhr4mRzUsmM4RtVoemTSY81AxZiDr8c= @@ -739,8 +739,8 @@ google.golang.org/grpc v1.23.0/go.mod h1:Y5yQAOtifL1yxbo5wqy6BxZv8vAUGQwXBOALyac google.golang.org/grpc v1.25.1/go.mod h1:c3i+UQWmh7LiEpx4sFZnkU36qjEYZ0imhYfXVyQciAY= google.golang.org/grpc v1.27.0/go.mod h1:qbnxyOmOxrQa7FizSgH+ReBfzJrCY1pSN7KXBS8abTk= google.golang.org/grpc v1.33.2/go.mod h1:JMHMWHQWaTccqQQlmk3MJZS+GWXOdAesneDmEnv2fbc= -google.golang.org/grpc v1.79.3 h1:sybAEdRIEtvcD68Gx7dmnwjZKlyfuc61Dyo9pGXXkKE= -google.golang.org/grpc v1.79.3/go.mod h1:KmT0Kjez+0dde/v2j9vzwoAScgEPx/Bw1CYChhHLrHQ= +google.golang.org/grpc v1.80.0 h1:Xr6m2WmWZLETvUNvIUmeD5OAagMw3FiKmMlTdViWsHM= +google.golang.org/grpc v1.80.0/go.mod h1:ho/dLnxwi3EDJA4Zghp7k2Ec1+c2jqup0bFkw07bwF4= google.golang.org/protobuf v0.0.0-20200109180630-ec00e32a8dfd/go.mod h1:DFci5gLYBciE7Vtevhsrf46CRTquxDuWsQurQQe4oz8= google.golang.org/protobuf v0.0.0-20200221191635-4d8936d0db64/go.mod h1:kwYJMbMJ01Woi6D6+Kah6886xMZcty6N08ah7+eCXa0= google.golang.org/protobuf v0.0.0-20200228230310-ab0ca4ff8a60/go.mod h1:cfTl7dwQJ+fmap5saPgwCLgHXTUD7jkjRqWcaiX5VyM= diff --git a/helm/olmv1/templates/poddisruptionbudget-olmv1-system-catalogd.yml b/helm/olmv1/templates/poddisruptionbudget-olmv1-system-catalogd.yml index 7e6ec2e332..3fd4700311 100644 --- a/helm/olmv1/templates/poddisruptionbudget-olmv1-system-catalogd.yml +++ b/helm/olmv1/templates/poddisruptionbudget-olmv1-system-catalogd.yml @@ -16,6 +16,7 @@ spec: {{- if .Values.options.catalogd.podDisruptionBudget.maxUnavailable }} maxUnavailable: {{ .Values.options.catalogd.podDisruptionBudget.maxUnavailable }} {{- end }} + unhealthyPodEvictionPolicy: AlwaysAllow selector: matchLabels: control-plane: catalogd-controller-manager diff --git a/helm/olmv1/templates/poddisruptionbudget-olmv1-system-operator-controller.yml b/helm/olmv1/templates/poddisruptionbudget-olmv1-system-operator-controller.yml index 0d98d528f4..cf38a205d8 100644 --- a/helm/olmv1/templates/poddisruptionbudget-olmv1-system-operator-controller.yml +++ b/helm/olmv1/templates/poddisruptionbudget-olmv1-system-operator-controller.yml @@ -16,6 +16,7 @@ spec: {{- if .Values.options.operatorController.podDisruptionBudget.maxUnavailable }} maxUnavailable: {{ .Values.options.operatorController.podDisruptionBudget.maxUnavailable }} {{- end }} + unhealthyPodEvictionPolicy: AlwaysAllow selector: matchLabels: control-plane: operator-controller-controller-manager diff --git a/manifests/experimental-e2e.yaml b/manifests/experimental-e2e.yaml index fcd40e2d4e..6c3aa302ed 100644 --- a/manifests/experimental-e2e.yaml +++ b/manifests/experimental-e2e.yaml @@ -100,6 +100,7 @@ metadata: olm.operatorframework.io/feature-set: experimental-e2e spec: minAvailable: 1 + unhealthyPodEvictionPolicy: AlwaysAllow selector: matchLabels: control-plane: catalogd-controller-manager @@ -117,6 +118,7 @@ metadata: olm.operatorframework.io/feature-set: experimental-e2e spec: minAvailable: 1 + unhealthyPodEvictionPolicy: AlwaysAllow selector: matchLabels: control-plane: operator-controller-controller-manager diff --git a/manifests/experimental.yaml b/manifests/experimental.yaml index 0561ea4ac1..954fcd2744 100644 --- a/manifests/experimental.yaml +++ b/manifests/experimental.yaml @@ -100,6 +100,7 @@ metadata: olm.operatorframework.io/feature-set: experimental spec: minAvailable: 1 + unhealthyPodEvictionPolicy: AlwaysAllow selector: matchLabels: control-plane: catalogd-controller-manager @@ -117,6 +118,7 @@ metadata: olm.operatorframework.io/feature-set: experimental spec: minAvailable: 1 + unhealthyPodEvictionPolicy: AlwaysAllow selector: matchLabels: control-plane: operator-controller-controller-manager diff --git a/manifests/standard-e2e.yaml b/manifests/standard-e2e.yaml index a3a72e89f9..66c65b5ae0 100644 --- a/manifests/standard-e2e.yaml +++ b/manifests/standard-e2e.yaml @@ -100,6 +100,7 @@ metadata: olm.operatorframework.io/feature-set: standard-e2e spec: minAvailable: 1 + unhealthyPodEvictionPolicy: AlwaysAllow selector: matchLabels: control-plane: catalogd-controller-manager @@ -117,6 +118,7 @@ metadata: olm.operatorframework.io/feature-set: standard-e2e spec: minAvailable: 1 + unhealthyPodEvictionPolicy: AlwaysAllow selector: matchLabels: control-plane: operator-controller-controller-manager diff --git a/manifests/standard.yaml b/manifests/standard.yaml index ad02f96e2e..84b940f5ee 100644 --- a/manifests/standard.yaml +++ b/manifests/standard.yaml @@ -100,6 +100,7 @@ metadata: olm.operatorframework.io/feature-set: standard spec: minAvailable: 1 + unhealthyPodEvictionPolicy: AlwaysAllow selector: matchLabels: control-plane: catalogd-controller-manager @@ -117,6 +118,7 @@ metadata: olm.operatorframework.io/feature-set: standard spec: minAvailable: 1 + unhealthyPodEvictionPolicy: AlwaysAllow selector: matchLabels: control-plane: operator-controller-controller-manager diff --git a/openshift/tests-extension/go.mod b/openshift/tests-extension/go.mod index 6c37e0b648..c8965e8f03 100644 --- a/openshift/tests-extension/go.mod +++ b/openshift/tests-extension/go.mod @@ -18,10 +18,10 @@ require ( github.com/tidwall/gjson v1.18.0 github.com/tidwall/pretty v1.2.1 gopkg.in/yaml.v3 v3.0.1 - k8s.io/api v0.35.3 - k8s.io/apiextensions-apiserver v0.35.3 - k8s.io/apimachinery v0.35.3 - k8s.io/apiserver v0.35.3 + k8s.io/api v0.35.4 + k8s.io/apiextensions-apiserver v0.35.4 + k8s.io/apimachinery v0.35.4 + k8s.io/apiserver v0.35.4 k8s.io/client-go v1.5.2 k8s.io/kubernetes v1.35.0 k8s.io/utils v0.0.0-20260319190234-28399d86e0b5 @@ -64,7 +64,7 @@ require ( github.com/google/pprof v0.0.0-20260115054156-294ebfa9ad83 // indirect github.com/google/uuid v1.6.0 // indirect github.com/gorilla/websocket v1.5.4-0.20250319132907-e064f32e3674 // indirect - github.com/grpc-ecosystem/grpc-gateway/v2 v2.27.7 // indirect + github.com/grpc-ecosystem/grpc-gateway/v2 v2.28.0 // indirect github.com/inconshreveable/mousetrap v1.1.0 // indirect github.com/json-iterator/go v1.1.12 // indirect github.com/kylelemons/godebug v1.1.0 // indirect @@ -83,10 +83,10 @@ require ( github.com/tidwall/match v1.1.1 // indirect github.com/x448/float16 v0.8.4 // indirect go.opentelemetry.io/auto/sdk v1.2.1 // indirect - go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.65.0 // indirect + go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.67.0 // indirect go.opentelemetry.io/otel v1.43.0 // indirect - go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.40.0 // indirect - go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.40.0 // indirect + go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.42.0 // indirect + go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.42.0 // indirect go.opentelemetry.io/otel/metric v1.43.0 // indirect go.opentelemetry.io/otel/sdk v1.43.0 // indirect go.opentelemetry.io/otel/trace v1.43.0 // indirect @@ -103,14 +103,14 @@ require ( golang.org/x/text v0.36.0 // indirect golang.org/x/time v0.15.0 // indirect golang.org/x/tools v0.44.0 // indirect - google.golang.org/genproto/googleapis/api v0.0.0-20260209200024-4cfbd4190f57 // indirect + google.golang.org/genproto/googleapis/api v0.0.0-20260226221140-a57be14db171 // indirect google.golang.org/genproto/googleapis/rpc v0.0.0-20260319201613-d00831a3d3e7 // indirect - google.golang.org/grpc v1.79.3 // indirect + google.golang.org/grpc v1.80.0 // indirect google.golang.org/protobuf v1.36.11 // indirect gopkg.in/evanphx/json-patch.v4 v4.13.0 // indirect gopkg.in/inf.v0 v0.9.1 // indirect gopkg.in/yaml.v2 v2.4.0 // indirect - k8s.io/component-base v0.35.3 // indirect + k8s.io/component-base v0.35.4 // indirect k8s.io/component-helpers v0.35.0 // indirect k8s.io/controller-manager v0.33.2 // indirect k8s.io/klog/v2 v2.140.0 // indirect diff --git a/openshift/tests-extension/go.sum b/openshift/tests-extension/go.sum index eefb23ab00..8eb837d1ff 100644 --- a/openshift/tests-extension/go.sum +++ b/openshift/tests-extension/go.sum @@ -90,8 +90,8 @@ github.com/google/uuid v1.6.0 h1:NIvaJDMOsjHA8n1jAhLSgzrAzy1Hgr+hNrb57e+94F0= github.com/google/uuid v1.6.0/go.mod h1:TIyPZe4MgqvfeYDBFedMoGGpEw/LqOeaOT+nhxU+yHo= github.com/gorilla/websocket v1.5.4-0.20250319132907-e064f32e3674 h1:JeSE6pjso5THxAzdVpqr6/geYxZytqFMBCOtn/ujyeo= github.com/gorilla/websocket v1.5.4-0.20250319132907-e064f32e3674/go.mod h1:r4w70xmWCQKmi1ONH4KIaBptdivuRPyosB9RmPlGEwA= -github.com/grpc-ecosystem/grpc-gateway/v2 v2.27.7 h1:X+2YciYSxvMQK0UZ7sg45ZVabVZBeBuvMkmuI2V3Fak= -github.com/grpc-ecosystem/grpc-gateway/v2 v2.27.7/go.mod h1:lW34nIZuQ8UDPdkon5fmfp2l3+ZkQ2me/+oecHYLOII= +github.com/grpc-ecosystem/grpc-gateway/v2 v2.28.0 h1:HWRh5R2+9EifMyIHV7ZV+MIZqgz+PMpZ14Jynv3O2Zs= +github.com/grpc-ecosystem/grpc-gateway/v2 v2.28.0/go.mod h1:JfhWUomR1baixubs02l85lZYYOm7LV6om4ceouMv45c= github.com/inconshreveable/mousetrap v1.1.0 h1:wN+x4NVGpMsO7ErUn/mUI3vEoE6Jt13X2s0bqwp9tc8= github.com/inconshreveable/mousetrap v1.1.0/go.mod h1:vpF70FUmC8bwa3OWnCshd2FqLfsEA9PFc4w1p2J65bw= github.com/json-iterator/go v1.1.12 h1:PV8peI4a0ysnczrg+LtxykD8LfKY9ML6u2jnxaEnrnM= @@ -198,14 +198,14 @@ github.com/yuin/goldmark v1.1.27/go.mod h1:3hX8gzYuyVAZsxl0MRgGTJEmQBFcNTphYh9de github.com/yuin/goldmark v1.2.1/go.mod h1:3hX8gzYuyVAZsxl0MRgGTJEmQBFcNTphYh9decYSb74= go.opentelemetry.io/auto/sdk v1.2.1 h1:jXsnJ4Lmnqd11kwkBV2LgLoFMZKizbCi5fNZ/ipaZ64= go.opentelemetry.io/auto/sdk v1.2.1/go.mod h1:KRTj+aOaElaLi+wW1kO/DZRXwkF4C5xPbEe3ZiIhN7Y= -go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.65.0 h1:7iP2uCb7sGddAr30RRS6xjKy7AZ2JtTOPA3oolgVSw8= -go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.65.0/go.mod h1:c7hN3ddxs/z6q9xwvfLPk+UHlWRQyaeR1LdgfL/66l0= +go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.67.0 h1:OyrsyzuttWTSur2qN/Lm0m2a8yqyIjUVBZcxFPuXq2o= +go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.67.0/go.mod h1:C2NGBr+kAB4bk3xtMXfZ94gqFDtg/GkI7e9zqGh5Beg= go.opentelemetry.io/otel v1.43.0 h1:mYIM03dnh5zfN7HautFE4ieIig9amkNANT+xcVxAj9I= go.opentelemetry.io/otel v1.43.0/go.mod h1:JuG+u74mvjvcm8vj8pI5XiHy1zDeoCS2LB1spIq7Ay0= -go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.40.0 h1:QKdN8ly8zEMrByybbQgv8cWBcdAarwmIPZ6FThrWXJs= -go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.40.0/go.mod h1:bTdK1nhqF76qiPoCCdyFIV+N/sRHYXYCTQc+3VCi3MI= -go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.40.0 h1:DvJDOPmSWQHWywQS6lKL+pb8s3gBLOZUtw4N+mavW1I= -go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.40.0/go.mod h1:EtekO9DEJb4/jRyN4v4Qjc2yA7AtfCBuz2FynRUWTXs= +go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.42.0 h1:THuZiwpQZuHPul65w4WcwEnkX2QIuMT+UFoOrygtoJw= +go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.42.0/go.mod h1:J2pvYM5NGHofZ2/Ru6zw/TNWnEQp5crgyDeSrYpXkAw= +go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.42.0 h1:zWWrB1U6nqhS/k6zYB74CjRpuiitRtLLi68VcgmOEto= +go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.42.0/go.mod h1:2qXPNBX1OVRC0IwOnfo1ljoid+RD0QK3443EaqVlsOU= go.opentelemetry.io/otel/metric v1.43.0 h1:d7638QeInOnuwOONPp4JAOGfbCEpYb+K6DVWvdxGzgM= go.opentelemetry.io/otel/metric v1.43.0/go.mod h1:RDnPtIxvqlgO8GRW18W6Z/4P462ldprJtfxHxyKd2PY= go.opentelemetry.io/otel/sdk v1.43.0 h1:pi5mE86i5rTeLXqoF/hhiBtUNcrAGHLKQdhg4h4V9Dg= @@ -271,14 +271,14 @@ golang.org/x/xerrors v0.0.0-20190717185122-a985d3407aa7/go.mod h1:I/5z698sn9Ka8T golang.org/x/xerrors v0.0.0-20191011141410-1b5146add898/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0= golang.org/x/xerrors v0.0.0-20191204190536-9bdfabe68543/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0= golang.org/x/xerrors v0.0.0-20200804184101-5ec99f83aff1/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0= -gonum.org/v1/gonum v0.16.0 h1:5+ul4Swaf3ESvrOnidPp4GZbzf0mxVQpDCYUQE7OJfk= -gonum.org/v1/gonum v0.16.0/go.mod h1:fef3am4MQ93R2HHpKnLk4/Tbh/s0+wqD5nfa6Pnwy4E= -google.golang.org/genproto/googleapis/api v0.0.0-20260209200024-4cfbd4190f57 h1:JLQynH/LBHfCTSbDWl+py8C+Rg/k1OVH3xfcaiANuF0= -google.golang.org/genproto/googleapis/api v0.0.0-20260209200024-4cfbd4190f57/go.mod h1:kSJwQxqmFXeo79zOmbrALdflXQeAYcUbgS7PbpMknCY= +gonum.org/v1/gonum v0.17.0 h1:VbpOemQlsSMrYmn7T2OUvQ4dqxQXU+ouZFQsZOx50z4= +gonum.org/v1/gonum v0.17.0/go.mod h1:El3tOrEuMpv2UdMrbNlKEh9vd86bmQ6vqIcDwxEOc1E= +google.golang.org/genproto/googleapis/api v0.0.0-20260226221140-a57be14db171 h1:tu/dtnW1o3wfaxCOjSLn5IRX4YDcJrtlpzYkhHhGaC4= +google.golang.org/genproto/googleapis/api v0.0.0-20260226221140-a57be14db171/go.mod h1:M5krXqk4GhBKvB596udGL3UyjL4I1+cTbK0orROM9ng= google.golang.org/genproto/googleapis/rpc v0.0.0-20260319201613-d00831a3d3e7 h1:ndE4FoJqsIceKP2oYSnUZqhTdYufCYYkqwtFzfrhI7w= google.golang.org/genproto/googleapis/rpc v0.0.0-20260319201613-d00831a3d3e7/go.mod h1:4Hqkh8ycfw05ld/3BWL7rJOSfebL2Q+DVDeRgYgxUU8= -google.golang.org/grpc v1.79.3 h1:sybAEdRIEtvcD68Gx7dmnwjZKlyfuc61Dyo9pGXXkKE= -google.golang.org/grpc v1.79.3/go.mod h1:KmT0Kjez+0dde/v2j9vzwoAScgEPx/Bw1CYChhHLrHQ= +google.golang.org/grpc v1.80.0 h1:Xr6m2WmWZLETvUNvIUmeD5OAagMw3FiKmMlTdViWsHM= +google.golang.org/grpc v1.80.0/go.mod h1:ho/dLnxwi3EDJA4Zghp7k2Ec1+c2jqup0bFkw07bwF4= google.golang.org/protobuf v1.36.11 h1:fV6ZwhNocDyBLK0dj+fg8ektcVegBBuEolpbTQyBNVE= google.golang.org/protobuf v1.36.11/go.mod h1:HTf+CrKn2C3g5S8VImy6tdcUvCska2kB7j23XfzDpco= gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0= diff --git a/openshift/tests-extension/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/handler.go b/openshift/tests-extension/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/handler.go index 2f0b9e9e0f..4c9083d790 100644 --- a/openshift/tests-extension/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/handler.go +++ b/openshift/tests-extension/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/handler.go @@ -28,7 +28,9 @@ func ForwardResponseStream(ctx context.Context, mux *ServeMux, marshaler Marshal } handleForwardResponseServerMetadata(w, mux, md) - w.Header().Set("Transfer-Encoding", "chunked") + if !mux.disableChunkedEncoding { + w.Header().Set("Transfer-Encoding", "chunked") + } if err := handleForwardResponseOptions(ctx, w, nil, opts); err != nil { HTTPError(ctx, mux, marshaler, w, req, err) return diff --git a/openshift/tests-extension/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/mux.go b/openshift/tests-extension/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/mux.go index 3eb1616717..4e684c7de6 100644 --- a/openshift/tests-extension/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/mux.go +++ b/openshift/tests-extension/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/mux.go @@ -73,6 +73,7 @@ type ServeMux struct { disablePathLengthFallback bool unescapingMode UnescapingMode writeContentLength bool + disableChunkedEncoding bool } // ServeMuxOption is an option that can be given to a ServeMux on construction. @@ -125,6 +126,16 @@ func WithMiddlewares(middlewares ...Middleware) ServeMuxOption { } } +// WithDisableChunkedEncoding disables the Transfer-Encoding: chunked header +// for streaming responses. This is useful for streaming implementations that use +// Content-Length, which is mutually exclusive with Transfer-Encoding:chunked. +// Note that this option will not automatically add Content-Length headers, so it should be used with caution. +func WithDisableChunkedEncoding() ServeMuxOption { + return func(mux *ServeMux) { + mux.disableChunkedEncoding = true + } +} + // SetQueryParameterParser sets the query parameter parser, used to populate message from query parameters. // Configuring this will mean the generated OpenAPI output is no longer correct, and it should be // done with careful consideration. diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/config.go b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/config.go index f7338b7e52..a7d4b2a815 100644 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/config.go +++ b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/config.go @@ -194,6 +194,9 @@ func WithServerName(server string) Option { // WithMetricAttributesFn returns an Option to set a function that maps an HTTP request to a slice of attribute.KeyValue. // These attributes will be included in metrics for every request. +// +// Deprecated: WithMetricAttributesFn is deprecated and will be removed in a +// future release. Use [Labeler] instead. func WithMetricAttributesFn(metricAttributesFn func(r *http.Request) []attribute.KeyValue) Option { return optionFunc(func(c *config) { c.MetricAttributesFn = metricAttributesFn diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/handler.go b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/handler.go index 1ecd4be2dd..a269fce0f7 100644 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/handler.go +++ b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/handler.go @@ -184,30 +184,26 @@ func (h *middleware) serveHTTP(w http.ResponseWriter, r *http.Request, next http statusCode := rww.StatusCode() bytesWritten := rww.BytesWritten() span.SetStatus(h.semconv.Status(statusCode)) + bytesRead := bw.BytesRead() span.SetAttributes(h.semconv.ResponseTraceAttrs(semconv.ResponseTelemetry{ StatusCode: statusCode, - ReadBytes: bw.BytesRead(), + ReadBytes: bytesRead, ReadError: bw.Error(), WriteBytes: bytesWritten, WriteError: rww.Error(), })...) - // Use floating point division here for higher precision (instead of Millisecond method). - elapsedTime := float64(time.Since(requestStartTime)) / float64(time.Millisecond) - - metricAttributes := semconv.MetricAttributes{ - Req: r, - StatusCode: statusCode, - AdditionalAttributes: append(labeler.Get(), h.metricAttributesFromRequest(r)...), - } - h.semconv.RecordMetrics(ctx, semconv.ServerMetricData{ - ServerName: h.server, - ResponseSize: bytesWritten, - MetricAttributes: metricAttributes, + ServerName: h.server, + ResponseSize: bytesWritten, + MetricAttributes: semconv.MetricAttributes{ + Req: r, + StatusCode: statusCode, + AdditionalAttributes: append(labeler.Get(), h.metricAttributesFromRequest(r)...), + }, MetricData: semconv.MetricData{ - RequestSize: bw.BytesRead(), - ElapsedTime: elapsedTime, + RequestSize: bytesRead, + RequestDuration: time.Since(requestStartTime), }, }) } diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/request/resp_writer_wrapper.go b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/request/resp_writer_wrapper.go index ca2e4c14c7..f29f9b7c96 100644 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/request/resp_writer_wrapper.go +++ b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/request/resp_writer_wrapper.go @@ -61,7 +61,7 @@ func (w *RespWriterWrapper) Write(p []byte) (int, error) { // WriteHeader persists initial statusCode for span attribution. // All calls to WriteHeader will be propagated to the underlying ResponseWriter -// and will persist the statusCode from the first call. +// and will persist the statusCode from the first call (except for informational response status codes). // Blocking consecutive calls to WriteHeader alters expected behavior and will // remove warning logs from net/http where developers will notice incorrect handler implementations. func (w *RespWriterWrapper) WriteHeader(statusCode int) { @@ -77,6 +77,13 @@ func (w *RespWriterWrapper) WriteHeader(statusCode int) { // parent method. func (w *RespWriterWrapper) writeHeader(statusCode int) { if !w.wroteHeader { + // Ignore informational response status codes. + // Based on https://github.com/golang/go/blob/go1.24.1/src/net/http/server.go#L1216 + if statusCode >= 100 && statusCode <= 199 && statusCode != http.StatusSwitchingProtocols { + w.ResponseWriter.WriteHeader(statusCode) + return + } + w.wroteHeader = true w.statusCode = statusCode } diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/client.go b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/client.go index 29d6f508c1..1398d85c2e 100644 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/client.go +++ b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/client.go @@ -19,11 +19,11 @@ import ( "go.opentelemetry.io/otel/attribute" "go.opentelemetry.io/otel/codes" "go.opentelemetry.io/otel/metric" - "go.opentelemetry.io/otel/semconv/v1.39.0" - "go.opentelemetry.io/otel/semconv/v1.39.0/httpconv" + "go.opentelemetry.io/otel/semconv/v1.40.0" + "go.opentelemetry.io/otel/semconv/v1.40.0/httpconv" ) -type HTTPClient struct{ +type HTTPClient struct { requestBodySize httpconv.ClientRequestBodySize requestDuration httpconv.ClientRequestDuration } @@ -57,14 +57,14 @@ func (n HTTPClient) Status(code int) (codes.Code, string) { // RequestTraceAttrs returns trace attributes for an HTTP request made by a client. func (n HTTPClient) RequestTraceAttrs(req *http.Request) []attribute.KeyValue { /* - below attributes are returned: - - http.request.method - - http.request.method.original - - url.full - - server.address - - server.port - - network.protocol.name - - network.protocol.version + below attributes are returned: + - http.request.method + - http.request.method.original + - url.full + - server.address + - server.port + - network.protocol.name + - network.protocol.version */ numOfAttributes := 3 // URL, server address, proto, and method. @@ -139,9 +139,9 @@ func (n HTTPClient) RequestTraceAttrs(req *http.Request) []attribute.KeyValue { // ResponseTraceAttrs returns trace attributes for an HTTP response made by a client. func (n HTTPClient) ResponseTraceAttrs(resp *http.Response) []attribute.KeyValue { /* - below attributes are returned: - - http.response.status_code - - error.type + below attributes are returned: + - http.response.status_code + - error.type */ var count int if resp.StatusCode > 0 { @@ -247,22 +247,26 @@ func (o MetricOpts) AddOptions() metric.AddOption { return o.addOptions } -func (n HTTPClient) MetricOptions(ma MetricAttributes) map[string]MetricOpts { - opts := map[string]MetricOpts{} - +func (n HTTPClient) MetricOptions(ma MetricAttributes) MetricOpts { attributes := n.MetricAttributes(ma.Req, ma.StatusCode, ma.AdditionalAttributes) set := metric.WithAttributeSet(attribute.NewSet(attributes...)) - opts["new"] = MetricOpts{ + + return MetricOpts{ measurement: set, addOptions: set, } - - return opts } -func (n HTTPClient) RecordMetrics(ctx context.Context, md MetricData, opts map[string]MetricOpts) { - n.requestBodySize.Inst().Record(ctx, md.RequestSize, opts["new"].MeasurementOption()) - n.requestDuration.Inst().Record(ctx, md.ElapsedTime/1000, opts["new"].MeasurementOption()) +func (n HTTPClient) RecordMetrics(ctx context.Context, md MetricData, opts MetricOpts) { + recordOpts := metricRecordOptionPool.Get().(*[]metric.RecordOption) + defer func() { + *recordOpts = (*recordOpts)[:0] + metricRecordOptionPool.Put(recordOpts) + }() + *recordOpts = append(*recordOpts, opts.MeasurementOption()) + + n.requestBodySize.Inst().Record(ctx, md.RequestSize, *recordOpts...) + n.requestDuration.Inst().Record(ctx, durationToSeconds(md.RequestDuration), *recordOpts...) } // TraceAttributes returns attributes for httptrace. diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/server.go b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/server.go index e0e9ebc05d..6dcf1b5b52 100644 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/server.go +++ b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/server.go @@ -15,12 +15,13 @@ import ( "slices" "strings" "sync" + "time" "go.opentelemetry.io/otel/attribute" "go.opentelemetry.io/otel/codes" "go.opentelemetry.io/otel/metric" - "go.opentelemetry.io/otel/semconv/v1.39.0" - "go.opentelemetry.io/otel/semconv/v1.39.0/httpconv" + "go.opentelemetry.io/otel/semconv/v1.40.0" + "go.opentelemetry.io/otel/semconv/v1.40.0/httpconv" ) type RequestTraceAttrsOpts struct { @@ -36,7 +37,7 @@ type ResponseTelemetry struct { WriteError error } -type HTTPServer struct{ +type HTTPServer struct { requestBodySizeHistogram httpconv.ServerRequestBodySize responseBodySizeHistogram httpconv.ServerResponseBodySize requestDurationHistogram httpconv.ServerRequestDuration @@ -245,19 +246,11 @@ type MetricAttributes struct { } type MetricData struct { - RequestSize int64 - - // The request duration, in milliseconds - ElapsedTime float64 + RequestSize int64 + RequestDuration time.Duration } var ( - metricAddOptionPool = &sync.Pool{ - New: func() any { - return &[]metric.AddOption{} - }, - } - metricRecordOptionPool = &sync.Pool{ New: func() any { return &[]metric.RecordOption{} @@ -272,7 +265,7 @@ func (n HTTPServer) RecordMetrics(ctx context.Context, md ServerMetricData) { *recordOpts = append(*recordOpts, o) n.requestBodySizeHistogram.Inst().Record(ctx, md.RequestSize, *recordOpts...) n.responseBodySizeHistogram.Inst().Record(ctx, md.ResponseSize, *recordOpts...) - n.requestDurationHistogram.Inst().Record(ctx, md.ElapsedTime/1000.0, o) + n.requestDurationHistogram.Inst().Record(ctx, durationToSeconds(md.RequestDuration), o) *recordOpts = (*recordOpts)[:0] metricRecordOptionPool.Put(recordOpts) } @@ -373,8 +366,8 @@ func (n HTTPServer) MetricAttributes(server string, req *http.Request, statusCod } if route != "" { - num++ - } + num++ + } attributes := slices.Grow(additionalAttributes, num) attributes = append(attributes, @@ -397,7 +390,7 @@ func (n HTTPServer) MetricAttributes(server string, req *http.Request, statusCod } if route != "" { - attributes = append(attributes, semconv.HTTPRoute(route)) - } + attributes = append(attributes, semconv.HTTPRoute(route)) + } return attributes } diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/util.go b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/util.go index 131fda489b..2eab2ecabd 100644 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/util.go +++ b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/util.go @@ -11,10 +11,11 @@ import ( "net/http" "strconv" "strings" + "time" "go.opentelemetry.io/otel" "go.opentelemetry.io/otel/attribute" - semconvNew "go.opentelemetry.io/otel/semconv/v1.39.0" + semconvNew "go.opentelemetry.io/otel/semconv/v1.40.0" ) // SplitHostPort splits a network address hostport of the form "host", @@ -125,3 +126,8 @@ func standardizeHTTPMethod(method string) string { } return method } + +func durationToSeconds(d time.Duration) float64 { + // Use floating point division here for higher precision (instead of Seconds method). + return float64(d) / float64(time.Second) +} diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/transport.go b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/transport.go index 59b6c5498d..d8d204d1f8 100644 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/transport.go +++ b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/transport.go @@ -5,7 +5,6 @@ package otelhttp // import "go.opentelemetry.io/contrib/instrumentation/net/http import ( "context" - "fmt" "io" "net/http" "net/http/httptrace" @@ -16,7 +15,7 @@ import ( "go.opentelemetry.io/otel/attribute" "go.opentelemetry.io/otel/codes" "go.opentelemetry.io/otel/propagation" - otelsemconv "go.opentelemetry.io/otel/semconv/v1.39.0" + otelsemconv "go.opentelemetry.io/otel/semconv/v1.40.0" "go.opentelemetry.io/otel/trace" "go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/request" @@ -85,8 +84,6 @@ func defaultTransportFormatter(_ string, r *http.Request) string { // RoundTrip creates a Span and propagates its context via the provided request's headers // before handing the request to the configured base RoundTripper. The created span will // end when the response body is closed or when a read from the body returns io.EOF. -// If GetBody returns an error, the error is reported via otel.Handle and the request -// continues with the original Body. func (t *Transport) RoundTrip(r *http.Request) (*http.Response, error) { requestStartTime := time.Now() for _, f := range t.filters { @@ -106,9 +103,7 @@ func (t *Transport) RoundTrip(r *http.Request) (*http.Response, error) { } } - opts := append([]trace.SpanStartOption{}, t.spanStartOptions...) // start with the configured options - - ctx, span := tracer.Start(r.Context(), t.spanNameFormatter("", r), opts...) + ctx, span := tracer.Start(r.Context(), t.spanNameFormatter("", r), t.spanStartOptions...) if t.clientTrace != nil { ctx = httptrace.WithClientTrace(ctx, t.clientTrace(ctx)) @@ -121,23 +116,26 @@ func (t *Transport) RoundTrip(r *http.Request) (*http.Response, error) { r = r.Clone(ctx) // According to RoundTripper spec, we shouldn't modify the origin request. - // GetBody is preferred over direct access to Body if the function is set. - // If the resulting body is nil or is NoBody, we don't want to mutate the body as it - // will affect the identity of it in an unforeseeable way because we assert - // ReadCloser fulfills a certain interface and it is indeed nil or NoBody. - body := r.Body - if r.GetBody != nil { - b, err := r.GetBody() - if err != nil { - otel.Handle(fmt.Errorf("http.Request GetBody returned an error: %w", err)) - } else { - body = b + var lastBW *request.BodyWrapper // Records the last body wrapper. Can be nil. + maybeWrapBody := func(body io.ReadCloser) io.ReadCloser { + if body == nil || body == http.NoBody { + return body } + bw := request.NewBodyWrapper(body, func(int64) {}) + lastBW = bw + return bw } - - bw := request.NewBodyWrapper(body, func(int64) {}) - if body != nil && body != http.NoBody { - r.Body = bw + r.Body = maybeWrapBody(r.Body) + if r.GetBody != nil { + originalGetBody := r.GetBody + r.GetBody = func() (io.ReadCloser, error) { + b, err := originalGetBody() + if err != nil { + lastBW = nil // The underlying transport will fail to make a retry request, hence, record no data. + return nil, err + } + return maybeWrapBody(b), nil + } } span.SetAttributes(t.semconv.RequestTraceAttrs(r)...) @@ -145,35 +143,27 @@ func (t *Transport) RoundTrip(r *http.Request) (*http.Response, error) { res, err := t.rt.RoundTrip(r) - // Defer metrics recording function to record the metrics on error or no error. - defer func() { - metricAttributes := semconv.MetricAttributes{ + // Record the metrics on error or no error. + statusCode := 0 + if err == nil { + statusCode = res.StatusCode + } + var requestSize int64 + if lastBW != nil { + requestSize = lastBW.BytesRead() + } + t.semconv.RecordMetrics( + ctx, + semconv.MetricData{ + RequestSize: requestSize, + RequestDuration: time.Since(requestStartTime), + }, + t.semconv.MetricOptions(semconv.MetricAttributes{ Req: r, + StatusCode: statusCode, AdditionalAttributes: append(labeler.Get(), t.metricAttributesFromRequest(r)...), - } - - if err == nil { - metricAttributes.StatusCode = res.StatusCode - } - - metricOpts := t.semconv.MetricOptions(metricAttributes) - - metricData := semconv.MetricData{ - RequestSize: bw.BytesRead(), - } - - if err == nil { - readRecordFunc := func(int64) {} - res.Body = newWrappedBody(span, readRecordFunc, res.Body) - } - - // Use floating point division here for higher precision (instead of Millisecond method). - elapsedTime := float64(time.Since(requestStartTime)) / float64(time.Millisecond) - - metricData.ElapsedTime = elapsedTime - - t.semconv.RecordMetrics(ctx, metricData, metricOpts) - }() + }), + ) if err != nil { span.SetAttributes(otelsemconv.ErrorType(err)) @@ -183,6 +173,8 @@ func (t *Transport) RoundTrip(r *http.Request) (*http.Response, error) { return res, err } + readRecordFunc := func(int64) {} + res.Body = newWrappedBody(span, readRecordFunc, res.Body) // traces span.SetAttributes(t.semconv.ResponseTraceAttrs(res)...) span.SetStatus(t.semconv.Status(res.StatusCode)) diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/version.go b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/version.go index d0107952e1..1d90fc264d 100644 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/version.go +++ b/openshift/tests-extension/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/version.go @@ -4,4 +4,4 @@ package otelhttp // import "go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp" // Version is the current release version of the otelhttp instrumentation. -const Version = "0.65.0" +const Version = "0.67.0" diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/client.go b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/client.go index 76b7cd461b..258d0ca6a5 100644 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/client.go +++ b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/client.go @@ -62,7 +62,7 @@ func NewClient(opts ...Option) otlptrace.Client { func newClient(opts ...Option) *client { cfg := otlpconfig.NewGRPCConfig(asGRPCOptions(opts)...) - ctx, cancel := context.WithCancel(context.Background()) + ctx, cancel := context.WithCancel(context.Background()) //nolint:gosec // cancel called in client shutdown. c := &client{ endpoint: cfg.Traces.Endpoint, @@ -248,7 +248,7 @@ func (c *client) exportContext(parent context.Context) (context.Context, context if c.exportTimeout > 0 { ctx, cancel = context.WithTimeoutCause(parent, c.exportTimeout, errors.New("exporter export timeout")) } else { - ctx, cancel = context.WithCancel(parent) + ctx, cancel = context.WithCancel(parent) //nolint:gosec // cancel called by caller when export is complete. } if c.metadata.Len() > 0 { diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/observ/instrumentation.go b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/observ/instrumentation.go index d4a69f4d7c..a84733174e 100644 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/observ/instrumentation.go +++ b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/observ/instrumentation.go @@ -18,8 +18,8 @@ import ( "go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/x" "go.opentelemetry.io/otel/internal/global" "go.opentelemetry.io/otel/metric" - semconv "go.opentelemetry.io/otel/semconv/v1.39.0" - "go.opentelemetry.io/otel/semconv/v1.39.0/otelconv" + semconv "go.opentelemetry.io/otel/semconv/v1.40.0" + "go.opentelemetry.io/otel/semconv/v1.40.0/otelconv" ) const ( @@ -208,10 +208,12 @@ func BaseAttrs(id int64, target string) []attribute.KeyValue { func (i *Instrumentation) ExportSpans(ctx context.Context, nSpans int) ExportOp { start := time.Now() - addOpt := get[metric.AddOption](addOptPool) - defer put(addOptPool, addOpt) - *addOpt = append(*addOpt, i.addOpt) - i.inflightSpans.Add(ctx, int64(nSpans), *addOpt...) + if i.inflightSpans.Enabled(ctx) { + addOpt := get[metric.AddOption](addOptPool) + defer put(addOptPool, addOpt) + *addOpt = append(*addOpt, i.addOpt) + i.inflightSpans.Add(ctx, int64(nSpans), *addOpt...) + } return ExportOp{ ctx: ctx, @@ -244,14 +246,18 @@ func (e ExportOp) End(err error, code codes.Code) { defer put(addOptPool, addOpt) *addOpt = append(*addOpt, e.inst.addOpt) - e.inst.inflightSpans.Add(e.ctx, -e.nSpans, *addOpt...) + if e.inst.inflightSpans.Enabled(e.ctx) { + e.inst.inflightSpans.Add(e.ctx, -e.nSpans, *addOpt...) + } success := successful(e.nSpans, err) // Record successfully exported spans, even if the value is 0 which are // meaningful to distribution aggregations. - e.inst.exportedSpans.Add(e.ctx, success, *addOpt...) + if e.inst.exportedSpans.Enabled(e.ctx) { + e.inst.exportedSpans.Add(e.ctx, success, *addOpt...) + } - if err != nil { + if err != nil && e.inst.exportedSpans.Enabled(e.ctx) { attrs := get[attribute.KeyValue](measureAttrsPool) defer put(measureAttrsPool, attrs) *attrs = append(*attrs, e.inst.attrs...) @@ -266,12 +272,14 @@ func (e ExportOp) End(err error, code codes.Code) { e.inst.exportedSpans.Add(e.ctx, e.nSpans-success, *addOpt...) } - recOpt := get[metric.RecordOption](recordOptPool) - defer put(recordOptPool, recOpt) - *recOpt = append(*recOpt, e.inst.recordOption(err, code)) + if e.inst.opDuration.Enabled(e.ctx) { + recOpt := get[metric.RecordOption](recordOptPool) + defer put(recordOptPool, recOpt) + *recOpt = append(*recOpt, e.inst.recordOption(err, code)) - d := time.Since(e.start).Seconds() - e.inst.opDuration.Record(e.ctx, d, *recOpt...) + d := time.Since(e.start).Seconds() + e.inst.opDuration.Record(e.ctx, d, *recOpt...) + } } // recordOption returns a RecordOption with attributes representing the diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/version.go b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/version.go index 19fac1b725..9d4b311920 100644 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/version.go +++ b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/version.go @@ -5,4 +5,4 @@ package internal // import "go.opentelemetry.io/otel/exporters/otlp/otlptrace/ot // Version is the current release version of the OpenTelemetry OTLP gRPC trace // exporter in use. -const Version = "1.40.0" +const Version = "1.42.0" diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/version.go b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/version.go index 370cd2a6f8..d1b43c3ba4 100644 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/version.go +++ b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/version.go @@ -5,5 +5,5 @@ package otlptrace // import "go.opentelemetry.io/otel/exporters/otlp/otlptrace" // Version is the current release version of the OpenTelemetry OTLP trace exporter in use. func Version() string { - return "1.40.0" + return "1.42.0" } diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/MIGRATION.md b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/MIGRATION.md deleted file mode 100644 index fed7013e6f..0000000000 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/MIGRATION.md +++ /dev/null @@ -1,78 +0,0 @@ - -# Migration from v1.38.0 to v1.39.0 - -The `go.opentelemetry.io/otel/semconv/v1.39.0` package should be a drop-in replacement for `go.opentelemetry.io/otel/semconv/v1.38.0` with the following exceptions. - -## Removed - -The following declarations have been removed. -Refer to the [OpenTelemetry Semantic Conventions documentation] for deprecation instructions. - -If the type is not listed in the documentation as deprecated, it has been removed in this version due to lack of applicability or use. -If you use any of these non-deprecated declarations in your Go application, please [open an issue] describing your use-case. - -- `LinuxMemorySlabStateKey` -- `LinuxMemorySlabStateReclaimable` -- `LinuxMemorySlabStateUnreclaimable` -- `PeerService` -- `PeerServiceKey` -- `RPCConnectRPCErrorCodeAborted` -- `RPCConnectRPCErrorCodeAlreadyExists` -- `RPCConnectRPCErrorCodeCancelled` -- `RPCConnectRPCErrorCodeDataLoss` -- `RPCConnectRPCErrorCodeDeadlineExceeded` -- `RPCConnectRPCErrorCodeFailedPrecondition` -- `RPCConnectRPCErrorCodeInternal` -- `RPCConnectRPCErrorCodeInvalidArgument` -- `RPCConnectRPCErrorCodeKey` -- `RPCConnectRPCErrorCodeNotFound` -- `RPCConnectRPCErrorCodeOutOfRange` -- `RPCConnectRPCErrorCodePermissionDenied` -- `RPCConnectRPCErrorCodeResourceExhausted` -- `RPCConnectRPCErrorCodeUnauthenticated` -- `RPCConnectRPCErrorCodeUnavailable` -- `RPCConnectRPCErrorCodeUnimplemented` -- `RPCConnectRPCErrorCodeUnknown` -- `RPCConnectRPCRequestMetadata` -- `RPCConnectRPCResponseMetadata` -- `RPCGRPCRequestMetadata` -- `RPCGRPCResponseMetadata` -- `RPCGRPCStatusCodeAborted` -- `RPCGRPCStatusCodeAlreadyExists` -- `RPCGRPCStatusCodeCancelled` -- `RPCGRPCStatusCodeDataLoss` -- `RPCGRPCStatusCodeDeadlineExceeded` -- `RPCGRPCStatusCodeFailedPrecondition` -- `RPCGRPCStatusCodeInternal` -- `RPCGRPCStatusCodeInvalidArgument` -- `RPCGRPCStatusCodeKey` -- `RPCGRPCStatusCodeNotFound` -- `RPCGRPCStatusCodeOk` -- `RPCGRPCStatusCodeOutOfRange` -- `RPCGRPCStatusCodePermissionDenied` -- `RPCGRPCStatusCodeResourceExhausted` -- `RPCGRPCStatusCodeUnauthenticated` -- `RPCGRPCStatusCodeUnavailable` -- `RPCGRPCStatusCodeUnimplemented` -- `RPCGRPCStatusCodeUnknown` -- `RPCJSONRPCErrorCode` -- `RPCJSONRPCErrorCodeKey` -- `RPCJSONRPCErrorMessage` -- `RPCJSONRPCErrorMessageKey` -- `RPCJSONRPCRequestID` -- `RPCJSONRPCRequestIDKey` -- `RPCJSONRPCVersion` -- `RPCJSONRPCVersionKey` -- `RPCService` -- `RPCServiceKey` -- `RPCSystemApacheDubbo` -- `RPCSystemConnectRPC` -- `RPCSystemDotnetWcf` -- `RPCSystemGRPC` -- `RPCSystemJSONRPC` -- `RPCSystemJavaRmi` -- `RPCSystemKey` -- `RPCSystemOncRPC` - -[OpenTelemetry Semantic Conventions documentation]: https://github.com/open-telemetry/semantic-conventions -[open an issue]: https://github.com/open-telemetry/opentelemetry-go/issues/new?template=Blank+issue diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/README.md b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/README.md deleted file mode 100644 index 4b0e6f7f3e..0000000000 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/README.md +++ /dev/null @@ -1,3 +0,0 @@ -# Semconv v1.39.0 - -[![PkgGoDev](https://pkg.go.dev/badge/go.opentelemetry.io/otel/semconv/v1.39.0)](https://pkg.go.dev/go.opentelemetry.io/otel/semconv/v1.39.0) diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/attribute_group.go b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/attribute_group.go deleted file mode 100644 index 080365fc19..0000000000 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/attribute_group.go +++ /dev/null @@ -1,16239 +0,0 @@ -// Copyright The OpenTelemetry Authors -// SPDX-License-Identifier: Apache-2.0 - -// Code generated from semantic convention specification. DO NOT EDIT. - -package semconv // import "go.opentelemetry.io/otel/semconv/v1.39.0" - -import "go.opentelemetry.io/otel/attribute" - -// Namespace: android -const ( - // AndroidAppStateKey is the attribute Key conforming to the "android.app.state" - // semantic conventions. It represents the this attribute represents the state - // of the application. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "created" - // Note: The Android lifecycle states are defined in - // [Activity lifecycle callbacks], and from which the `OS identifiers` are - // derived. - // - // [Activity lifecycle callbacks]: https://developer.android.com/guide/components/activities/activity-lifecycle#lc - AndroidAppStateKey = attribute.Key("android.app.state") - - // AndroidOSAPILevelKey is the attribute Key conforming to the - // "android.os.api_level" semantic conventions. It represents the uniquely - // identifies the framework API revision offered by a version (`os.version`) of - // the android operating system. More information can be found in the - // [Android API levels documentation]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "33", "32" - // - // [Android API levels documentation]: https://developer.android.com/guide/topics/manifest/uses-sdk-element#ApiLevels - AndroidOSAPILevelKey = attribute.Key("android.os.api_level") -) - -// AndroidOSAPILevel returns an attribute KeyValue conforming to the -// "android.os.api_level" semantic conventions. It represents the uniquely -// identifies the framework API revision offered by a version (`os.version`) of -// the android operating system. More information can be found in the -// [Android API levels documentation]. -// -// [Android API levels documentation]: https://developer.android.com/guide/topics/manifest/uses-sdk-element#ApiLevels -func AndroidOSAPILevel(val string) attribute.KeyValue { - return AndroidOSAPILevelKey.String(val) -} - -// Enum values for android.app.state -var ( - // Any time before Activity.onResume() or, if the app has no Activity, - // Context.startService() has been called in the app for the first time. - // - // Stability: development - AndroidAppStateCreated = AndroidAppStateKey.String("created") - // Any time after Activity.onPause() or, if the app has no Activity, - // Context.stopService() has been called when the app was in the foreground - // state. - // - // Stability: development - AndroidAppStateBackground = AndroidAppStateKey.String("background") - // Any time after Activity.onResume() or, if the app has no Activity, - // Context.startService() has been called when the app was in either the created - // or background states. - // - // Stability: development - AndroidAppStateForeground = AndroidAppStateKey.String("foreground") -) - -// Namespace: app -const ( - // AppBuildIDKey is the attribute Key conforming to the "app.build_id" semantic - // conventions. It represents the unique identifier for a particular build or - // compilation of the application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "6cff0a7e-cefc-4668-96f5-1273d8b334d0", - // "9f2b833506aa6973a92fde9733e6271f", "my-app-1.0.0-code-123" - AppBuildIDKey = attribute.Key("app.build_id") - - // AppInstallationIDKey is the attribute Key conforming to the - // "app.installation.id" semantic conventions. It represents a unique identifier - // representing the installation of an application on a specific device. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2ab2916d-a51f-4ac8-80ee-45ac31a28092" - // Note: Its value SHOULD persist across launches of the same application - // installation, including through application upgrades. - // It SHOULD change if the application is uninstalled or if all applications of - // the vendor are uninstalled. - // Additionally, users might be able to reset this value (e.g. by clearing - // application data). - // If an app is installed multiple times on the same device (e.g. in different - // accounts on Android), each `app.installation.id` SHOULD have a different - // value. - // If multiple OpenTelemetry SDKs are used within the same application, they - // SHOULD use the same value for `app.installation.id`. - // Hardware IDs (e.g. serial number, IMEI, MAC address) MUST NOT be used as the - // `app.installation.id`. - // - // For iOS, this value SHOULD be equal to the [vendor identifier]. - // - // For Android, examples of `app.installation.id` implementations include: - // - // - [Firebase Installation ID]. - // - A globally unique UUID which is persisted across sessions in your - // application. - // - [App set ID]. - // - [`Settings.getString(Settings.Secure.ANDROID_ID)`]. - // - // More information about Android identifier best practices can be found in the - // [Android user data IDs guide]. - // - // [vendor identifier]: https://developer.apple.com/documentation/uikit/uidevice/identifierforvendor - // [Firebase Installation ID]: https://firebase.google.com/docs/projects/manage-installations - // [App set ID]: https://developer.android.com/identity/app-set-id - // [`Settings.getString(Settings.Secure.ANDROID_ID)`]: https://developer.android.com/reference/android/provider/Settings.Secure#ANDROID_ID - // [Android user data IDs guide]: https://developer.android.com/training/articles/user-data-ids - AppInstallationIDKey = attribute.Key("app.installation.id") - - // AppJankFrameCountKey is the attribute Key conforming to the - // "app.jank.frame_count" semantic conventions. It represents a number of frame - // renders that experienced jank. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 9, 42 - // Note: Depending on platform limitations, the value provided MAY be - // approximation. - AppJankFrameCountKey = attribute.Key("app.jank.frame_count") - - // AppJankPeriodKey is the attribute Key conforming to the "app.jank.period" - // semantic conventions. It represents the time period, in seconds, for which - // this jank is being reported. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1.0, 5.0, 10.24 - AppJankPeriodKey = attribute.Key("app.jank.period") - - // AppJankThresholdKey is the attribute Key conforming to the - // "app.jank.threshold" semantic conventions. It represents the minimum - // rendering threshold for this jank, in seconds. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0.016, 0.7, 1.024 - AppJankThresholdKey = attribute.Key("app.jank.threshold") - - // AppScreenCoordinateXKey is the attribute Key conforming to the - // "app.screen.coordinate.x" semantic conventions. It represents the x - // (horizontal) coordinate of a screen coordinate, in screen pixels. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0, 131 - AppScreenCoordinateXKey = attribute.Key("app.screen.coordinate.x") - - // AppScreenCoordinateYKey is the attribute Key conforming to the - // "app.screen.coordinate.y" semantic conventions. It represents the y - // (vertical) component of a screen coordinate, in screen pixels. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 12, 99 - AppScreenCoordinateYKey = attribute.Key("app.screen.coordinate.y") - - // AppScreenIDKey is the attribute Key conforming to the "app.screen.id" - // semantic conventions. It represents an identifier that uniquely - // differentiates this screen from other screens in the same application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "f9bc787d-ff05-48ad-90e1-fca1d46130b3", - // "com.example.app.MainActivity", "com.example.shop.ProductDetailFragment", - // "MyApp.ProfileView", "MyApp.ProfileViewController" - // Note: A screen represents only the part of the device display drawn by the - // app. It typically contains multiple widgets or UI components and is larger in - // scope than individual widgets. Multiple screens can coexist on the same - // display simultaneously (e.g., split view on tablets). - AppScreenIDKey = attribute.Key("app.screen.id") - - // AppScreenNameKey is the attribute Key conforming to the "app.screen.name" - // semantic conventions. It represents the name of an application screen. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "MainActivity", "ProductDetailFragment", "ProfileView", - // "ProfileViewController" - // Note: A screen represents only the part of the device display drawn by the - // app. It typically contains multiple widgets or UI components and is larger in - // scope than individual widgets. Multiple screens can coexist on the same - // display simultaneously (e.g., split view on tablets). - AppScreenNameKey = attribute.Key("app.screen.name") - - // AppWidgetIDKey is the attribute Key conforming to the "app.widget.id" - // semantic conventions. It represents an identifier that uniquely - // differentiates this widget from other widgets in the same application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "f9bc787d-ff05-48ad-90e1-fca1d46130b3", "submit_order_1829" - // Note: A widget is an application component, typically an on-screen visual GUI - // element. - AppWidgetIDKey = attribute.Key("app.widget.id") - - // AppWidgetNameKey is the attribute Key conforming to the "app.widget.name" - // semantic conventions. It represents the name of an application widget. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "submit", "attack", "Clear Cart" - // Note: A widget is an application component, typically an on-screen visual GUI - // element. - AppWidgetNameKey = attribute.Key("app.widget.name") -) - -// AppBuildID returns an attribute KeyValue conforming to the "app.build_id" -// semantic conventions. It represents the unique identifier for a particular -// build or compilation of the application. -func AppBuildID(val string) attribute.KeyValue { - return AppBuildIDKey.String(val) -} - -// AppInstallationID returns an attribute KeyValue conforming to the -// "app.installation.id" semantic conventions. It represents a unique identifier -// representing the installation of an application on a specific device. -func AppInstallationID(val string) attribute.KeyValue { - return AppInstallationIDKey.String(val) -} - -// AppJankFrameCount returns an attribute KeyValue conforming to the -// "app.jank.frame_count" semantic conventions. It represents a number of frame -// renders that experienced jank. -func AppJankFrameCount(val int) attribute.KeyValue { - return AppJankFrameCountKey.Int(val) -} - -// AppJankPeriod returns an attribute KeyValue conforming to the -// "app.jank.period" semantic conventions. It represents the time period, in -// seconds, for which this jank is being reported. -func AppJankPeriod(val float64) attribute.KeyValue { - return AppJankPeriodKey.Float64(val) -} - -// AppJankThreshold returns an attribute KeyValue conforming to the -// "app.jank.threshold" semantic conventions. It represents the minimum rendering -// threshold for this jank, in seconds. -func AppJankThreshold(val float64) attribute.KeyValue { - return AppJankThresholdKey.Float64(val) -} - -// AppScreenCoordinateX returns an attribute KeyValue conforming to the -// "app.screen.coordinate.x" semantic conventions. It represents the x -// (horizontal) coordinate of a screen coordinate, in screen pixels. -func AppScreenCoordinateX(val int) attribute.KeyValue { - return AppScreenCoordinateXKey.Int(val) -} - -// AppScreenCoordinateY returns an attribute KeyValue conforming to the -// "app.screen.coordinate.y" semantic conventions. It represents the y (vertical) -// component of a screen coordinate, in screen pixels. -func AppScreenCoordinateY(val int) attribute.KeyValue { - return AppScreenCoordinateYKey.Int(val) -} - -// AppScreenID returns an attribute KeyValue conforming to the "app.screen.id" -// semantic conventions. It represents an identifier that uniquely differentiates -// this screen from other screens in the same application. -func AppScreenID(val string) attribute.KeyValue { - return AppScreenIDKey.String(val) -} - -// AppScreenName returns an attribute KeyValue conforming to the -// "app.screen.name" semantic conventions. It represents the name of an -// application screen. -func AppScreenName(val string) attribute.KeyValue { - return AppScreenNameKey.String(val) -} - -// AppWidgetID returns an attribute KeyValue conforming to the "app.widget.id" -// semantic conventions. It represents an identifier that uniquely differentiates -// this widget from other widgets in the same application. -func AppWidgetID(val string) attribute.KeyValue { - return AppWidgetIDKey.String(val) -} - -// AppWidgetName returns an attribute KeyValue conforming to the -// "app.widget.name" semantic conventions. It represents the name of an -// application widget. -func AppWidgetName(val string) attribute.KeyValue { - return AppWidgetNameKey.String(val) -} - -// Namespace: artifact -const ( - // ArtifactAttestationFilenameKey is the attribute Key conforming to the - // "artifact.attestation.filename" semantic conventions. It represents the - // provenance filename of the built attestation which directly relates to the - // build artifact filename. This filename SHOULD accompany the artifact at - // publish time. See the [SLSA Relationship] specification for more information. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "golang-binary-amd64-v0.1.0.attestation", - // "docker-image-amd64-v0.1.0.intoto.json1", "release-1.tar.gz.attestation", - // "file-name-package.tar.gz.intoto.json1" - // - // [SLSA Relationship]: https://slsa.dev/spec/v1.0/distributing-provenance#relationship-between-artifacts-and-attestations - ArtifactAttestationFilenameKey = attribute.Key("artifact.attestation.filename") - - // ArtifactAttestationHashKey is the attribute Key conforming to the - // "artifact.attestation.hash" semantic conventions. It represents the full - // [hash value (see glossary)], of the built attestation. Some envelopes in the - // [software attestation space] also refer to this as the **digest**. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1b31dfcd5b7f9267bf2ff47651df1cfb9147b9e4df1f335accf65b4cda498408" - // - // [hash value (see glossary)]: https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-5.pdf - // [software attestation space]: https://github.com/in-toto/attestation/tree/main/spec - ArtifactAttestationHashKey = attribute.Key("artifact.attestation.hash") - - // ArtifactAttestationIDKey is the attribute Key conforming to the - // "artifact.attestation.id" semantic conventions. It represents the id of the - // build [software attestation]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "123" - // - // [software attestation]: https://slsa.dev/attestation-model - ArtifactAttestationIDKey = attribute.Key("artifact.attestation.id") - - // ArtifactFilenameKey is the attribute Key conforming to the - // "artifact.filename" semantic conventions. It represents the human readable - // file name of the artifact, typically generated during build and release - // processes. Often includes the package name and version in the file name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "golang-binary-amd64-v0.1.0", "docker-image-amd64-v0.1.0", - // "release-1.tar.gz", "file-name-package.tar.gz" - // Note: This file name can also act as the [Package Name] - // in cases where the package ecosystem maps accordingly. - // Additionally, the artifact [can be published] - // for others, but that is not a guarantee. - // - // [Package Name]: https://slsa.dev/spec/v1.0/terminology#package-model - // [can be published]: https://slsa.dev/spec/v1.0/terminology#software-supply-chain - ArtifactFilenameKey = attribute.Key("artifact.filename") - - // ArtifactHashKey is the attribute Key conforming to the "artifact.hash" - // semantic conventions. It represents the full [hash value (see glossary)], - // often found in checksum.txt on a release of the artifact and used to verify - // package integrity. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "9ff4c52759e2c4ac70b7d517bc7fcdc1cda631ca0045271ddd1b192544f8a3e9" - // Note: The specific algorithm used to create the cryptographic hash value is - // not defined. In situations where an artifact has multiple - // cryptographic hashes, it is up to the implementer to choose which - // hash value to set here; this should be the most secure hash algorithm - // that is suitable for the situation and consistent with the - // corresponding attestation. The implementer can then provide the other - // hash values through an additional set of attribute extensions as they - // deem necessary. - // - // [hash value (see glossary)]: https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-5.pdf - ArtifactHashKey = attribute.Key("artifact.hash") - - // ArtifactPurlKey is the attribute Key conforming to the "artifact.purl" - // semantic conventions. It represents the [Package URL] of the - // [package artifact] provides a standard way to identify and locate the - // packaged artifact. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "pkg:github/package-url/purl-spec@1209109710924", - // "pkg:npm/foo@12.12.3" - // - // [Package URL]: https://github.com/package-url/purl-spec - // [package artifact]: https://slsa.dev/spec/v1.0/terminology#package-model - ArtifactPurlKey = attribute.Key("artifact.purl") - - // ArtifactVersionKey is the attribute Key conforming to the "artifact.version" - // semantic conventions. It represents the version of the artifact. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "v0.1.0", "1.2.1", "122691-build" - ArtifactVersionKey = attribute.Key("artifact.version") -) - -// ArtifactAttestationFilename returns an attribute KeyValue conforming to the -// "artifact.attestation.filename" semantic conventions. It represents the -// provenance filename of the built attestation which directly relates to the -// build artifact filename. This filename SHOULD accompany the artifact at -// publish time. See the [SLSA Relationship] specification for more information. -// -// [SLSA Relationship]: https://slsa.dev/spec/v1.0/distributing-provenance#relationship-between-artifacts-and-attestations -func ArtifactAttestationFilename(val string) attribute.KeyValue { - return ArtifactAttestationFilenameKey.String(val) -} - -// ArtifactAttestationHash returns an attribute KeyValue conforming to the -// "artifact.attestation.hash" semantic conventions. It represents the full -// [hash value (see glossary)], of the built attestation. Some envelopes in the -// [software attestation space] also refer to this as the **digest**. -// -// [hash value (see glossary)]: https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-5.pdf -// [software attestation space]: https://github.com/in-toto/attestation/tree/main/spec -func ArtifactAttestationHash(val string) attribute.KeyValue { - return ArtifactAttestationHashKey.String(val) -} - -// ArtifactAttestationID returns an attribute KeyValue conforming to the -// "artifact.attestation.id" semantic conventions. It represents the id of the -// build [software attestation]. -// -// [software attestation]: https://slsa.dev/attestation-model -func ArtifactAttestationID(val string) attribute.KeyValue { - return ArtifactAttestationIDKey.String(val) -} - -// ArtifactFilename returns an attribute KeyValue conforming to the -// "artifact.filename" semantic conventions. It represents the human readable -// file name of the artifact, typically generated during build and release -// processes. Often includes the package name and version in the file name. -func ArtifactFilename(val string) attribute.KeyValue { - return ArtifactFilenameKey.String(val) -} - -// ArtifactHash returns an attribute KeyValue conforming to the "artifact.hash" -// semantic conventions. It represents the full [hash value (see glossary)], -// often found in checksum.txt on a release of the artifact and used to verify -// package integrity. -// -// [hash value (see glossary)]: https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-5.pdf -func ArtifactHash(val string) attribute.KeyValue { - return ArtifactHashKey.String(val) -} - -// ArtifactPurl returns an attribute KeyValue conforming to the "artifact.purl" -// semantic conventions. It represents the [Package URL] of the -// [package artifact] provides a standard way to identify and locate the packaged -// artifact. -// -// [Package URL]: https://github.com/package-url/purl-spec -// [package artifact]: https://slsa.dev/spec/v1.0/terminology#package-model -func ArtifactPurl(val string) attribute.KeyValue { - return ArtifactPurlKey.String(val) -} - -// ArtifactVersion returns an attribute KeyValue conforming to the -// "artifact.version" semantic conventions. It represents the version of the -// artifact. -func ArtifactVersion(val string) attribute.KeyValue { - return ArtifactVersionKey.String(val) -} - -// Namespace: aws -const ( - // AWSBedrockGuardrailIDKey is the attribute Key conforming to the - // "aws.bedrock.guardrail.id" semantic conventions. It represents the unique - // identifier of the AWS Bedrock Guardrail. A [guardrail] helps safeguard and - // prevent unwanted behavior from model responses or user messages. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "sgi5gkybzqak" - // - // [guardrail]: https://docs.aws.amazon.com/bedrock/latest/userguide/guardrails.html - AWSBedrockGuardrailIDKey = attribute.Key("aws.bedrock.guardrail.id") - - // AWSBedrockKnowledgeBaseIDKey is the attribute Key conforming to the - // "aws.bedrock.knowledge_base.id" semantic conventions. It represents the - // unique identifier of the AWS Bedrock Knowledge base. A [knowledge base] is a - // bank of information that can be queried by models to generate more relevant - // responses and augment prompts. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "XFWUPB9PAW" - // - // [knowledge base]: https://docs.aws.amazon.com/bedrock/latest/userguide/knowledge-base.html - AWSBedrockKnowledgeBaseIDKey = attribute.Key("aws.bedrock.knowledge_base.id") - - // AWSDynamoDBAttributeDefinitionsKey is the attribute Key conforming to the - // "aws.dynamodb.attribute_definitions" semantic conventions. It represents the - // JSON-serialized value of each item in the `AttributeDefinitions` request - // field. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{ "AttributeName": "string", "AttributeType": "string" }" - AWSDynamoDBAttributeDefinitionsKey = attribute.Key("aws.dynamodb.attribute_definitions") - - // AWSDynamoDBAttributesToGetKey is the attribute Key conforming to the - // "aws.dynamodb.attributes_to_get" semantic conventions. It represents the - // value of the `AttributesToGet` request parameter. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "lives", "id" - AWSDynamoDBAttributesToGetKey = attribute.Key("aws.dynamodb.attributes_to_get") - - // AWSDynamoDBConsistentReadKey is the attribute Key conforming to the - // "aws.dynamodb.consistent_read" semantic conventions. It represents the value - // of the `ConsistentRead` request parameter. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - AWSDynamoDBConsistentReadKey = attribute.Key("aws.dynamodb.consistent_read") - - // AWSDynamoDBConsumedCapacityKey is the attribute Key conforming to the - // "aws.dynamodb.consumed_capacity" semantic conventions. It represents the - // JSON-serialized value of each item in the `ConsumedCapacity` response field. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{ "CapacityUnits": number, "GlobalSecondaryIndexes": { "string" : - // { "CapacityUnits": number, "ReadCapacityUnits": number, "WriteCapacityUnits": - // number } }, "LocalSecondaryIndexes": { "string" : { "CapacityUnits": number, - // "ReadCapacityUnits": number, "WriteCapacityUnits": number } }, - // "ReadCapacityUnits": number, "Table": { "CapacityUnits": number, - // "ReadCapacityUnits": number, "WriteCapacityUnits": number }, "TableName": - // "string", "WriteCapacityUnits": number }" - AWSDynamoDBConsumedCapacityKey = attribute.Key("aws.dynamodb.consumed_capacity") - - // AWSDynamoDBCountKey is the attribute Key conforming to the - // "aws.dynamodb.count" semantic conventions. It represents the value of the - // `Count` response parameter. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 10 - AWSDynamoDBCountKey = attribute.Key("aws.dynamodb.count") - - // AWSDynamoDBExclusiveStartTableKey is the attribute Key conforming to the - // "aws.dynamodb.exclusive_start_table" semantic conventions. It represents the - // value of the `ExclusiveStartTableName` request parameter. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Users", "CatsTable" - AWSDynamoDBExclusiveStartTableKey = attribute.Key("aws.dynamodb.exclusive_start_table") - - // AWSDynamoDBGlobalSecondaryIndexUpdatesKey is the attribute Key conforming to - // the "aws.dynamodb.global_secondary_index_updates" semantic conventions. It - // represents the JSON-serialized value of each item in the - // `GlobalSecondaryIndexUpdates` request field. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{ "Create": { "IndexName": "string", "KeySchema": [ { - // "AttributeName": "string", "KeyType": "string" } ], "Projection": { - // "NonKeyAttributes": [ "string" ], "ProjectionType": "string" }, - // "ProvisionedThroughput": { "ReadCapacityUnits": number, "WriteCapacityUnits": - // number } }" - AWSDynamoDBGlobalSecondaryIndexUpdatesKey = attribute.Key("aws.dynamodb.global_secondary_index_updates") - - // AWSDynamoDBGlobalSecondaryIndexesKey is the attribute Key conforming to the - // "aws.dynamodb.global_secondary_indexes" semantic conventions. It represents - // the JSON-serialized value of each item of the `GlobalSecondaryIndexes` - // request field. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{ "IndexName": "string", "KeySchema": [ { "AttributeName": - // "string", "KeyType": "string" } ], "Projection": { "NonKeyAttributes": [ - // "string" ], "ProjectionType": "string" }, "ProvisionedThroughput": { - // "ReadCapacityUnits": number, "WriteCapacityUnits": number } }" - AWSDynamoDBGlobalSecondaryIndexesKey = attribute.Key("aws.dynamodb.global_secondary_indexes") - - // AWSDynamoDBIndexNameKey is the attribute Key conforming to the - // "aws.dynamodb.index_name" semantic conventions. It represents the value of - // the `IndexName` request parameter. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "name_to_group" - AWSDynamoDBIndexNameKey = attribute.Key("aws.dynamodb.index_name") - - // AWSDynamoDBItemCollectionMetricsKey is the attribute Key conforming to the - // "aws.dynamodb.item_collection_metrics" semantic conventions. It represents - // the JSON-serialized value of the `ItemCollectionMetrics` response field. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{ "string" : [ { "ItemCollectionKey": { "string" : { "B": blob, - // "BOOL": boolean, "BS": [ blob ], "L": [ "AttributeValue" ], "M": { "string" : - // "AttributeValue" }, "N": "string", "NS": [ "string" ], "NULL": boolean, "S": - // "string", "SS": [ "string" ] } }, "SizeEstimateRangeGB": [ number ] } ] }" - AWSDynamoDBItemCollectionMetricsKey = attribute.Key("aws.dynamodb.item_collection_metrics") - - // AWSDynamoDBLimitKey is the attribute Key conforming to the - // "aws.dynamodb.limit" semantic conventions. It represents the value of the - // `Limit` request parameter. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 10 - AWSDynamoDBLimitKey = attribute.Key("aws.dynamodb.limit") - - // AWSDynamoDBLocalSecondaryIndexesKey is the attribute Key conforming to the - // "aws.dynamodb.local_secondary_indexes" semantic conventions. It represents - // the JSON-serialized value of each item of the `LocalSecondaryIndexes` request - // field. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{ "IndexArn": "string", "IndexName": "string", "IndexSizeBytes": - // number, "ItemCount": number, "KeySchema": [ { "AttributeName": "string", - // "KeyType": "string" } ], "Projection": { "NonKeyAttributes": [ "string" ], - // "ProjectionType": "string" } }" - AWSDynamoDBLocalSecondaryIndexesKey = attribute.Key("aws.dynamodb.local_secondary_indexes") - - // AWSDynamoDBProjectionKey is the attribute Key conforming to the - // "aws.dynamodb.projection" semantic conventions. It represents the value of - // the `ProjectionExpression` request parameter. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Title", "Title, Price, Color", "Title, Description, RelatedItems, - // ProductReviews" - AWSDynamoDBProjectionKey = attribute.Key("aws.dynamodb.projection") - - // AWSDynamoDBProvisionedReadCapacityKey is the attribute Key conforming to the - // "aws.dynamodb.provisioned_read_capacity" semantic conventions. It represents - // the value of the `ProvisionedThroughput.ReadCapacityUnits` request parameter. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1.0, 2.0 - AWSDynamoDBProvisionedReadCapacityKey = attribute.Key("aws.dynamodb.provisioned_read_capacity") - - // AWSDynamoDBProvisionedWriteCapacityKey is the attribute Key conforming to the - // "aws.dynamodb.provisioned_write_capacity" semantic conventions. It represents - // the value of the `ProvisionedThroughput.WriteCapacityUnits` request - // parameter. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1.0, 2.0 - AWSDynamoDBProvisionedWriteCapacityKey = attribute.Key("aws.dynamodb.provisioned_write_capacity") - - // AWSDynamoDBScanForwardKey is the attribute Key conforming to the - // "aws.dynamodb.scan_forward" semantic conventions. It represents the value of - // the `ScanIndexForward` request parameter. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - AWSDynamoDBScanForwardKey = attribute.Key("aws.dynamodb.scan_forward") - - // AWSDynamoDBScannedCountKey is the attribute Key conforming to the - // "aws.dynamodb.scanned_count" semantic conventions. It represents the value of - // the `ScannedCount` response parameter. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 50 - AWSDynamoDBScannedCountKey = attribute.Key("aws.dynamodb.scanned_count") - - // AWSDynamoDBSegmentKey is the attribute Key conforming to the - // "aws.dynamodb.segment" semantic conventions. It represents the value of the - // `Segment` request parameter. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 10 - AWSDynamoDBSegmentKey = attribute.Key("aws.dynamodb.segment") - - // AWSDynamoDBSelectKey is the attribute Key conforming to the - // "aws.dynamodb.select" semantic conventions. It represents the value of the - // `Select` request parameter. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "ALL_ATTRIBUTES", "COUNT" - AWSDynamoDBSelectKey = attribute.Key("aws.dynamodb.select") - - // AWSDynamoDBTableCountKey is the attribute Key conforming to the - // "aws.dynamodb.table_count" semantic conventions. It represents the number of - // items in the `TableNames` response parameter. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 20 - AWSDynamoDBTableCountKey = attribute.Key("aws.dynamodb.table_count") - - // AWSDynamoDBTableNamesKey is the attribute Key conforming to the - // "aws.dynamodb.table_names" semantic conventions. It represents the keys in - // the `RequestItems` object field. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Users", "Cats" - AWSDynamoDBTableNamesKey = attribute.Key("aws.dynamodb.table_names") - - // AWSDynamoDBTotalSegmentsKey is the attribute Key conforming to the - // "aws.dynamodb.total_segments" semantic conventions. It represents the value - // of the `TotalSegments` request parameter. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 100 - AWSDynamoDBTotalSegmentsKey = attribute.Key("aws.dynamodb.total_segments") - - // AWSECSClusterARNKey is the attribute Key conforming to the - // "aws.ecs.cluster.arn" semantic conventions. It represents the ARN of an - // [ECS cluster]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "arn:aws:ecs:us-west-2:123456789123:cluster/my-cluster" - // - // [ECS cluster]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/clusters.html - AWSECSClusterARNKey = attribute.Key("aws.ecs.cluster.arn") - - // AWSECSContainerARNKey is the attribute Key conforming to the - // "aws.ecs.container.arn" semantic conventions. It represents the Amazon - // Resource Name (ARN) of an [ECS container instance]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "arn:aws:ecs:us-west-1:123456789123:container/32624152-9086-4f0e-acae-1a75b14fe4d9" - // - // [ECS container instance]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ECS_instances.html - AWSECSContainerARNKey = attribute.Key("aws.ecs.container.arn") - - // AWSECSLaunchtypeKey is the attribute Key conforming to the - // "aws.ecs.launchtype" semantic conventions. It represents the [launch type] - // for an ECS task. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [launch type]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/launch_types.html - AWSECSLaunchtypeKey = attribute.Key("aws.ecs.launchtype") - - // AWSECSTaskARNKey is the attribute Key conforming to the "aws.ecs.task.arn" - // semantic conventions. It represents the ARN of a running [ECS task]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "arn:aws:ecs:us-west-1:123456789123:task/10838bed-421f-43ef-870a-f43feacbbb5b", - // "arn:aws:ecs:us-west-1:123456789123:task/my-cluster/task-id/23ebb8ac-c18f-46c6-8bbe-d55d0e37cfbd" - // - // [ECS task]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-account-settings.html#ecs-resource-ids - AWSECSTaskARNKey = attribute.Key("aws.ecs.task.arn") - - // AWSECSTaskFamilyKey is the attribute Key conforming to the - // "aws.ecs.task.family" semantic conventions. It represents the family name of - // the [ECS task definition] used to create the ECS task. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "opentelemetry-family" - // - // [ECS task definition]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html - AWSECSTaskFamilyKey = attribute.Key("aws.ecs.task.family") - - // AWSECSTaskIDKey is the attribute Key conforming to the "aws.ecs.task.id" - // semantic conventions. It represents the ID of a running ECS task. The ID MUST - // be extracted from `task.arn`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "10838bed-421f-43ef-870a-f43feacbbb5b", - // "23ebb8ac-c18f-46c6-8bbe-d55d0e37cfbd" - AWSECSTaskIDKey = attribute.Key("aws.ecs.task.id") - - // AWSECSTaskRevisionKey is the attribute Key conforming to the - // "aws.ecs.task.revision" semantic conventions. It represents the revision for - // the task definition used to create the ECS task. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "8", "26" - AWSECSTaskRevisionKey = attribute.Key("aws.ecs.task.revision") - - // AWSEKSClusterARNKey is the attribute Key conforming to the - // "aws.eks.cluster.arn" semantic conventions. It represents the ARN of an EKS - // cluster. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "arn:aws:ecs:us-west-2:123456789123:cluster/my-cluster" - AWSEKSClusterARNKey = attribute.Key("aws.eks.cluster.arn") - - // AWSExtendedRequestIDKey is the attribute Key conforming to the - // "aws.extended_request_id" semantic conventions. It represents the AWS - // extended request ID as returned in the response header `x-amz-id-2`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "wzHcyEWfmOGDIE5QOhTAqFDoDWP3y8IUvpNINCwL9N4TEHbUw0/gZJ+VZTmCNCWR7fezEN3eCiQ=" - AWSExtendedRequestIDKey = attribute.Key("aws.extended_request_id") - - // AWSKinesisStreamNameKey is the attribute Key conforming to the - // "aws.kinesis.stream_name" semantic conventions. It represents the name of the - // AWS Kinesis [stream] the request refers to. Corresponds to the - // `--stream-name` parameter of the Kinesis [describe-stream] operation. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "some-stream-name" - // - // [stream]: https://docs.aws.amazon.com/streams/latest/dev/introduction.html - // [describe-stream]: https://docs.aws.amazon.com/cli/latest/reference/kinesis/describe-stream.html - AWSKinesisStreamNameKey = attribute.Key("aws.kinesis.stream_name") - - // AWSLambdaInvokedARNKey is the attribute Key conforming to the - // "aws.lambda.invoked_arn" semantic conventions. It represents the full invoked - // ARN as provided on the `Context` passed to the function ( - // `Lambda-Runtime-Invoked-Function-Arn` header on the - // `/runtime/invocation/next` applicable). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "arn:aws:lambda:us-east-1:123456:function:myfunction:myalias" - // Note: This may be different from `cloud.resource_id` if an alias is involved. - AWSLambdaInvokedARNKey = attribute.Key("aws.lambda.invoked_arn") - - // AWSLambdaResourceMappingIDKey is the attribute Key conforming to the - // "aws.lambda.resource_mapping.id" semantic conventions. It represents the UUID - // of the [AWS Lambda EvenSource Mapping]. An event source is mapped to a lambda - // function. It's contents are read by Lambda and used to trigger a function. - // This isn't available in the lambda execution context or the lambda runtime - // environtment. This is going to be populated by the AWS SDK for each language - // when that UUID is present. Some of these operations are - // Create/Delete/Get/List/Update EventSourceMapping. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "587ad24b-03b9-4413-8202-bbd56b36e5b7" - // - // [AWS Lambda EvenSource Mapping]: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-lambda-eventsourcemapping.html - AWSLambdaResourceMappingIDKey = attribute.Key("aws.lambda.resource_mapping.id") - - // AWSLogGroupARNsKey is the attribute Key conforming to the - // "aws.log.group.arns" semantic conventions. It represents the Amazon Resource - // Name(s) (ARN) of the AWS log group(s). - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "arn:aws:logs:us-west-1:123456789012:log-group:/aws/my/group:*" - // Note: See the [log group ARN format documentation]. - // - // [log group ARN format documentation]: https://docs.aws.amazon.com/AmazonCloudWatch/latest/logs/iam-access-control-overview-cwl.html#CWL_ARN_Format - AWSLogGroupARNsKey = attribute.Key("aws.log.group.arns") - - // AWSLogGroupNamesKey is the attribute Key conforming to the - // "aws.log.group.names" semantic conventions. It represents the name(s) of the - // AWS log group(s) an application is writing to. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/aws/lambda/my-function", "opentelemetry-service" - // Note: Multiple log groups must be supported for cases like multi-container - // applications, where a single application has sidecar containers, and each - // write to their own log group. - AWSLogGroupNamesKey = attribute.Key("aws.log.group.names") - - // AWSLogStreamARNsKey is the attribute Key conforming to the - // "aws.log.stream.arns" semantic conventions. It represents the ARN(s) of the - // AWS log stream(s). - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "arn:aws:logs:us-west-1:123456789012:log-group:/aws/my/group:log-stream:logs/main/10838bed-421f-43ef-870a-f43feacbbb5b" - // Note: See the [log stream ARN format documentation]. One log group can - // contain several log streams, so these ARNs necessarily identify both a log - // group and a log stream. - // - // [log stream ARN format documentation]: https://docs.aws.amazon.com/AmazonCloudWatch/latest/logs/iam-access-control-overview-cwl.html#CWL_ARN_Format - AWSLogStreamARNsKey = attribute.Key("aws.log.stream.arns") - - // AWSLogStreamNamesKey is the attribute Key conforming to the - // "aws.log.stream.names" semantic conventions. It represents the name(s) of the - // AWS log stream(s) an application is writing to. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "logs/main/10838bed-421f-43ef-870a-f43feacbbb5b" - AWSLogStreamNamesKey = attribute.Key("aws.log.stream.names") - - // AWSRequestIDKey is the attribute Key conforming to the "aws.request_id" - // semantic conventions. It represents the AWS request ID as returned in the - // response headers `x-amzn-requestid`, `x-amzn-request-id` or - // `x-amz-request-id`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "79b9da39-b7ae-508a-a6bc-864b2829c622", "C9ER4AJX75574TDJ" - AWSRequestIDKey = attribute.Key("aws.request_id") - - // AWSS3BucketKey is the attribute Key conforming to the "aws.s3.bucket" - // semantic conventions. It represents the S3 bucket name the request refers to. - // Corresponds to the `--bucket` parameter of the [S3 API] operations. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "some-bucket-name" - // Note: The `bucket` attribute is applicable to all S3 operations that - // reference a bucket, i.e. that require the bucket name as a mandatory - // parameter. - // This applies to almost all S3 operations except `list-buckets`. - // - // [S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/index.html - AWSS3BucketKey = attribute.Key("aws.s3.bucket") - - // AWSS3CopySourceKey is the attribute Key conforming to the - // "aws.s3.copy_source" semantic conventions. It represents the source object - // (in the form `bucket`/`key`) for the copy operation. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "someFile.yml" - // Note: The `copy_source` attribute applies to S3 copy operations and - // corresponds to the `--copy-source` parameter - // of the [copy-object operation within the S3 API]. - // This applies in particular to the following operations: - // - // - [copy-object] - // - [upload-part-copy] - // - // - // [copy-object operation within the S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/copy-object.html - // [copy-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/copy-object.html - // [upload-part-copy]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part-copy.html - AWSS3CopySourceKey = attribute.Key("aws.s3.copy_source") - - // AWSS3DeleteKey is the attribute Key conforming to the "aws.s3.delete" - // semantic conventions. It represents the delete request container that - // specifies the objects to be deleted. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "Objects=[{Key=string,VersionId=string},{Key=string,VersionId=string}],Quiet=boolean" - // Note: The `delete` attribute is only applicable to the [delete-object] - // operation. - // The `delete` attribute corresponds to the `--delete` parameter of the - // [delete-objects operation within the S3 API]. - // - // [delete-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/delete-object.html - // [delete-objects operation within the S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/delete-objects.html - AWSS3DeleteKey = attribute.Key("aws.s3.delete") - - // AWSS3KeyKey is the attribute Key conforming to the "aws.s3.key" semantic - // conventions. It represents the S3 object key the request refers to. - // Corresponds to the `--key` parameter of the [S3 API] operations. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "someFile.yml" - // Note: The `key` attribute is applicable to all object-related S3 operations, - // i.e. that require the object key as a mandatory parameter. - // This applies in particular to the following operations: - // - // - [copy-object] - // - [delete-object] - // - [get-object] - // - [head-object] - // - [put-object] - // - [restore-object] - // - [select-object-content] - // - [abort-multipart-upload] - // - [complete-multipart-upload] - // - [create-multipart-upload] - // - [list-parts] - // - [upload-part] - // - [upload-part-copy] - // - // - // [S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/index.html - // [copy-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/copy-object.html - // [delete-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/delete-object.html - // [get-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/get-object.html - // [head-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/head-object.html - // [put-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/put-object.html - // [restore-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/restore-object.html - // [select-object-content]: https://docs.aws.amazon.com/cli/latest/reference/s3api/select-object-content.html - // [abort-multipart-upload]: https://docs.aws.amazon.com/cli/latest/reference/s3api/abort-multipart-upload.html - // [complete-multipart-upload]: https://docs.aws.amazon.com/cli/latest/reference/s3api/complete-multipart-upload.html - // [create-multipart-upload]: https://docs.aws.amazon.com/cli/latest/reference/s3api/create-multipart-upload.html - // [list-parts]: https://docs.aws.amazon.com/cli/latest/reference/s3api/list-parts.html - // [upload-part]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part.html - // [upload-part-copy]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part-copy.html - AWSS3KeyKey = attribute.Key("aws.s3.key") - - // AWSS3PartNumberKey is the attribute Key conforming to the - // "aws.s3.part_number" semantic conventions. It represents the part number of - // the part being uploaded in a multipart-upload operation. This is a positive - // integer between 1 and 10,000. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 3456 - // Note: The `part_number` attribute is only applicable to the [upload-part] - // and [upload-part-copy] operations. - // The `part_number` attribute corresponds to the `--part-number` parameter of - // the - // [upload-part operation within the S3 API]. - // - // [upload-part]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part.html - // [upload-part-copy]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part-copy.html - // [upload-part operation within the S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part.html - AWSS3PartNumberKey = attribute.Key("aws.s3.part_number") - - // AWSS3UploadIDKey is the attribute Key conforming to the "aws.s3.upload_id" - // semantic conventions. It represents the upload ID that identifies the - // multipart upload. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "dfRtDYWFbkRONycy.Yxwh66Yjlx.cph0gtNBtJ" - // Note: The `upload_id` attribute applies to S3 multipart-upload operations and - // corresponds to the `--upload-id` parameter - // of the [S3 API] multipart operations. - // This applies in particular to the following operations: - // - // - [abort-multipart-upload] - // - [complete-multipart-upload] - // - [list-parts] - // - [upload-part] - // - [upload-part-copy] - // - // - // [S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/index.html - // [abort-multipart-upload]: https://docs.aws.amazon.com/cli/latest/reference/s3api/abort-multipart-upload.html - // [complete-multipart-upload]: https://docs.aws.amazon.com/cli/latest/reference/s3api/complete-multipart-upload.html - // [list-parts]: https://docs.aws.amazon.com/cli/latest/reference/s3api/list-parts.html - // [upload-part]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part.html - // [upload-part-copy]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part-copy.html - AWSS3UploadIDKey = attribute.Key("aws.s3.upload_id") - - // AWSSecretsmanagerSecretARNKey is the attribute Key conforming to the - // "aws.secretsmanager.secret.arn" semantic conventions. It represents the ARN - // of the Secret stored in the Secrets Mangger. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "arn:aws:secretsmanager:us-east-1:123456789012:secret:SecretName-6RandomCharacters" - AWSSecretsmanagerSecretARNKey = attribute.Key("aws.secretsmanager.secret.arn") - - // AWSSNSTopicARNKey is the attribute Key conforming to the "aws.sns.topic.arn" - // semantic conventions. It represents the ARN of the AWS SNS Topic. An Amazon - // SNS [topic] is a logical access point that acts as a communication channel. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "arn:aws:sns:us-east-1:123456789012:mystack-mytopic-NZJ5JSMVGFIE" - // - // [topic]: https://docs.aws.amazon.com/sns/latest/dg/sns-create-topic.html - AWSSNSTopicARNKey = attribute.Key("aws.sns.topic.arn") - - // AWSSQSQueueURLKey is the attribute Key conforming to the "aws.sqs.queue.url" - // semantic conventions. It represents the URL of the AWS SQS Queue. It's a - // unique identifier for a queue in Amazon Simple Queue Service (SQS) and is - // used to access the queue and perform actions on it. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "https://sqs.us-east-1.amazonaws.com/123456789012/MyQueue" - AWSSQSQueueURLKey = attribute.Key("aws.sqs.queue.url") - - // AWSStepFunctionsActivityARNKey is the attribute Key conforming to the - // "aws.step_functions.activity.arn" semantic conventions. It represents the ARN - // of the AWS Step Functions Activity. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "arn:aws:states:us-east-1:123456789012:activity:get-greeting" - AWSStepFunctionsActivityARNKey = attribute.Key("aws.step_functions.activity.arn") - - // AWSStepFunctionsStateMachineARNKey is the attribute Key conforming to the - // "aws.step_functions.state_machine.arn" semantic conventions. It represents - // the ARN of the AWS Step Functions State Machine. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "arn:aws:states:us-east-1:123456789012:stateMachine:myStateMachine:1" - AWSStepFunctionsStateMachineARNKey = attribute.Key("aws.step_functions.state_machine.arn") -) - -// AWSBedrockGuardrailID returns an attribute KeyValue conforming to the -// "aws.bedrock.guardrail.id" semantic conventions. It represents the unique -// identifier of the AWS Bedrock Guardrail. A [guardrail] helps safeguard and -// prevent unwanted behavior from model responses or user messages. -// -// [guardrail]: https://docs.aws.amazon.com/bedrock/latest/userguide/guardrails.html -func AWSBedrockGuardrailID(val string) attribute.KeyValue { - return AWSBedrockGuardrailIDKey.String(val) -} - -// AWSBedrockKnowledgeBaseID returns an attribute KeyValue conforming to the -// "aws.bedrock.knowledge_base.id" semantic conventions. It represents the unique -// identifier of the AWS Bedrock Knowledge base. A [knowledge base] is a bank of -// information that can be queried by models to generate more relevant responses -// and augment prompts. -// -// [knowledge base]: https://docs.aws.amazon.com/bedrock/latest/userguide/knowledge-base.html -func AWSBedrockKnowledgeBaseID(val string) attribute.KeyValue { - return AWSBedrockKnowledgeBaseIDKey.String(val) -} - -// AWSDynamoDBAttributeDefinitions returns an attribute KeyValue conforming to -// the "aws.dynamodb.attribute_definitions" semantic conventions. It represents -// the JSON-serialized value of each item in the `AttributeDefinitions` request -// field. -func AWSDynamoDBAttributeDefinitions(val ...string) attribute.KeyValue { - return AWSDynamoDBAttributeDefinitionsKey.StringSlice(val) -} - -// AWSDynamoDBAttributesToGet returns an attribute KeyValue conforming to the -// "aws.dynamodb.attributes_to_get" semantic conventions. It represents the value -// of the `AttributesToGet` request parameter. -func AWSDynamoDBAttributesToGet(val ...string) attribute.KeyValue { - return AWSDynamoDBAttributesToGetKey.StringSlice(val) -} - -// AWSDynamoDBConsistentRead returns an attribute KeyValue conforming to the -// "aws.dynamodb.consistent_read" semantic conventions. It represents the value -// of the `ConsistentRead` request parameter. -func AWSDynamoDBConsistentRead(val bool) attribute.KeyValue { - return AWSDynamoDBConsistentReadKey.Bool(val) -} - -// AWSDynamoDBConsumedCapacity returns an attribute KeyValue conforming to the -// "aws.dynamodb.consumed_capacity" semantic conventions. It represents the -// JSON-serialized value of each item in the `ConsumedCapacity` response field. -func AWSDynamoDBConsumedCapacity(val ...string) attribute.KeyValue { - return AWSDynamoDBConsumedCapacityKey.StringSlice(val) -} - -// AWSDynamoDBCount returns an attribute KeyValue conforming to the -// "aws.dynamodb.count" semantic conventions. It represents the value of the -// `Count` response parameter. -func AWSDynamoDBCount(val int) attribute.KeyValue { - return AWSDynamoDBCountKey.Int(val) -} - -// AWSDynamoDBExclusiveStartTable returns an attribute KeyValue conforming to the -// "aws.dynamodb.exclusive_start_table" semantic conventions. It represents the -// value of the `ExclusiveStartTableName` request parameter. -func AWSDynamoDBExclusiveStartTable(val string) attribute.KeyValue { - return AWSDynamoDBExclusiveStartTableKey.String(val) -} - -// AWSDynamoDBGlobalSecondaryIndexUpdates returns an attribute KeyValue -// conforming to the "aws.dynamodb.global_secondary_index_updates" semantic -// conventions. It represents the JSON-serialized value of each item in the -// `GlobalSecondaryIndexUpdates` request field. -func AWSDynamoDBGlobalSecondaryIndexUpdates(val ...string) attribute.KeyValue { - return AWSDynamoDBGlobalSecondaryIndexUpdatesKey.StringSlice(val) -} - -// AWSDynamoDBGlobalSecondaryIndexes returns an attribute KeyValue conforming to -// the "aws.dynamodb.global_secondary_indexes" semantic conventions. It -// represents the JSON-serialized value of each item of the -// `GlobalSecondaryIndexes` request field. -func AWSDynamoDBGlobalSecondaryIndexes(val ...string) attribute.KeyValue { - return AWSDynamoDBGlobalSecondaryIndexesKey.StringSlice(val) -} - -// AWSDynamoDBIndexName returns an attribute KeyValue conforming to the -// "aws.dynamodb.index_name" semantic conventions. It represents the value of the -// `IndexName` request parameter. -func AWSDynamoDBIndexName(val string) attribute.KeyValue { - return AWSDynamoDBIndexNameKey.String(val) -} - -// AWSDynamoDBItemCollectionMetrics returns an attribute KeyValue conforming to -// the "aws.dynamodb.item_collection_metrics" semantic conventions. It represents -// the JSON-serialized value of the `ItemCollectionMetrics` response field. -func AWSDynamoDBItemCollectionMetrics(val string) attribute.KeyValue { - return AWSDynamoDBItemCollectionMetricsKey.String(val) -} - -// AWSDynamoDBLimit returns an attribute KeyValue conforming to the -// "aws.dynamodb.limit" semantic conventions. It represents the value of the -// `Limit` request parameter. -func AWSDynamoDBLimit(val int) attribute.KeyValue { - return AWSDynamoDBLimitKey.Int(val) -} - -// AWSDynamoDBLocalSecondaryIndexes returns an attribute KeyValue conforming to -// the "aws.dynamodb.local_secondary_indexes" semantic conventions. It represents -// the JSON-serialized value of each item of the `LocalSecondaryIndexes` request -// field. -func AWSDynamoDBLocalSecondaryIndexes(val ...string) attribute.KeyValue { - return AWSDynamoDBLocalSecondaryIndexesKey.StringSlice(val) -} - -// AWSDynamoDBProjection returns an attribute KeyValue conforming to the -// "aws.dynamodb.projection" semantic conventions. It represents the value of the -// `ProjectionExpression` request parameter. -func AWSDynamoDBProjection(val string) attribute.KeyValue { - return AWSDynamoDBProjectionKey.String(val) -} - -// AWSDynamoDBProvisionedReadCapacity returns an attribute KeyValue conforming to -// the "aws.dynamodb.provisioned_read_capacity" semantic conventions. It -// represents the value of the `ProvisionedThroughput.ReadCapacityUnits` request -// parameter. -func AWSDynamoDBProvisionedReadCapacity(val float64) attribute.KeyValue { - return AWSDynamoDBProvisionedReadCapacityKey.Float64(val) -} - -// AWSDynamoDBProvisionedWriteCapacity returns an attribute KeyValue conforming -// to the "aws.dynamodb.provisioned_write_capacity" semantic conventions. It -// represents the value of the `ProvisionedThroughput.WriteCapacityUnits` request -// parameter. -func AWSDynamoDBProvisionedWriteCapacity(val float64) attribute.KeyValue { - return AWSDynamoDBProvisionedWriteCapacityKey.Float64(val) -} - -// AWSDynamoDBScanForward returns an attribute KeyValue conforming to the -// "aws.dynamodb.scan_forward" semantic conventions. It represents the value of -// the `ScanIndexForward` request parameter. -func AWSDynamoDBScanForward(val bool) attribute.KeyValue { - return AWSDynamoDBScanForwardKey.Bool(val) -} - -// AWSDynamoDBScannedCount returns an attribute KeyValue conforming to the -// "aws.dynamodb.scanned_count" semantic conventions. It represents the value of -// the `ScannedCount` response parameter. -func AWSDynamoDBScannedCount(val int) attribute.KeyValue { - return AWSDynamoDBScannedCountKey.Int(val) -} - -// AWSDynamoDBSegment returns an attribute KeyValue conforming to the -// "aws.dynamodb.segment" semantic conventions. It represents the value of the -// `Segment` request parameter. -func AWSDynamoDBSegment(val int) attribute.KeyValue { - return AWSDynamoDBSegmentKey.Int(val) -} - -// AWSDynamoDBSelect returns an attribute KeyValue conforming to the -// "aws.dynamodb.select" semantic conventions. It represents the value of the -// `Select` request parameter. -func AWSDynamoDBSelect(val string) attribute.KeyValue { - return AWSDynamoDBSelectKey.String(val) -} - -// AWSDynamoDBTableCount returns an attribute KeyValue conforming to the -// "aws.dynamodb.table_count" semantic conventions. It represents the number of -// items in the `TableNames` response parameter. -func AWSDynamoDBTableCount(val int) attribute.KeyValue { - return AWSDynamoDBTableCountKey.Int(val) -} - -// AWSDynamoDBTableNames returns an attribute KeyValue conforming to the -// "aws.dynamodb.table_names" semantic conventions. It represents the keys in the -// `RequestItems` object field. -func AWSDynamoDBTableNames(val ...string) attribute.KeyValue { - return AWSDynamoDBTableNamesKey.StringSlice(val) -} - -// AWSDynamoDBTotalSegments returns an attribute KeyValue conforming to the -// "aws.dynamodb.total_segments" semantic conventions. It represents the value of -// the `TotalSegments` request parameter. -func AWSDynamoDBTotalSegments(val int) attribute.KeyValue { - return AWSDynamoDBTotalSegmentsKey.Int(val) -} - -// AWSECSClusterARN returns an attribute KeyValue conforming to the -// "aws.ecs.cluster.arn" semantic conventions. It represents the ARN of an -// [ECS cluster]. -// -// [ECS cluster]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/clusters.html -func AWSECSClusterARN(val string) attribute.KeyValue { - return AWSECSClusterARNKey.String(val) -} - -// AWSECSContainerARN returns an attribute KeyValue conforming to the -// "aws.ecs.container.arn" semantic conventions. It represents the Amazon -// Resource Name (ARN) of an [ECS container instance]. -// -// [ECS container instance]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ECS_instances.html -func AWSECSContainerARN(val string) attribute.KeyValue { - return AWSECSContainerARNKey.String(val) -} - -// AWSECSTaskARN returns an attribute KeyValue conforming to the -// "aws.ecs.task.arn" semantic conventions. It represents the ARN of a running -// [ECS task]. -// -// [ECS task]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-account-settings.html#ecs-resource-ids -func AWSECSTaskARN(val string) attribute.KeyValue { - return AWSECSTaskARNKey.String(val) -} - -// AWSECSTaskFamily returns an attribute KeyValue conforming to the -// "aws.ecs.task.family" semantic conventions. It represents the family name of -// the [ECS task definition] used to create the ECS task. -// -// [ECS task definition]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html -func AWSECSTaskFamily(val string) attribute.KeyValue { - return AWSECSTaskFamilyKey.String(val) -} - -// AWSECSTaskID returns an attribute KeyValue conforming to the "aws.ecs.task.id" -// semantic conventions. It represents the ID of a running ECS task. The ID MUST -// be extracted from `task.arn`. -func AWSECSTaskID(val string) attribute.KeyValue { - return AWSECSTaskIDKey.String(val) -} - -// AWSECSTaskRevision returns an attribute KeyValue conforming to the -// "aws.ecs.task.revision" semantic conventions. It represents the revision for -// the task definition used to create the ECS task. -func AWSECSTaskRevision(val string) attribute.KeyValue { - return AWSECSTaskRevisionKey.String(val) -} - -// AWSEKSClusterARN returns an attribute KeyValue conforming to the -// "aws.eks.cluster.arn" semantic conventions. It represents the ARN of an EKS -// cluster. -func AWSEKSClusterARN(val string) attribute.KeyValue { - return AWSEKSClusterARNKey.String(val) -} - -// AWSExtendedRequestID returns an attribute KeyValue conforming to the -// "aws.extended_request_id" semantic conventions. It represents the AWS extended -// request ID as returned in the response header `x-amz-id-2`. -func AWSExtendedRequestID(val string) attribute.KeyValue { - return AWSExtendedRequestIDKey.String(val) -} - -// AWSKinesisStreamName returns an attribute KeyValue conforming to the -// "aws.kinesis.stream_name" semantic conventions. It represents the name of the -// AWS Kinesis [stream] the request refers to. Corresponds to the `--stream-name` -// parameter of the Kinesis [describe-stream] operation. -// -// [stream]: https://docs.aws.amazon.com/streams/latest/dev/introduction.html -// [describe-stream]: https://docs.aws.amazon.com/cli/latest/reference/kinesis/describe-stream.html -func AWSKinesisStreamName(val string) attribute.KeyValue { - return AWSKinesisStreamNameKey.String(val) -} - -// AWSLambdaInvokedARN returns an attribute KeyValue conforming to the -// "aws.lambda.invoked_arn" semantic conventions. It represents the full invoked -// ARN as provided on the `Context` passed to the function ( -// `Lambda-Runtime-Invoked-Function-Arn` header on the `/runtime/invocation/next` -// applicable). -func AWSLambdaInvokedARN(val string) attribute.KeyValue { - return AWSLambdaInvokedARNKey.String(val) -} - -// AWSLambdaResourceMappingID returns an attribute KeyValue conforming to the -// "aws.lambda.resource_mapping.id" semantic conventions. It represents the UUID -// of the [AWS Lambda EvenSource Mapping]. An event source is mapped to a lambda -// function. It's contents are read by Lambda and used to trigger a function. -// This isn't available in the lambda execution context or the lambda runtime -// environtment. This is going to be populated by the AWS SDK for each language -// when that UUID is present. Some of these operations are -// Create/Delete/Get/List/Update EventSourceMapping. -// -// [AWS Lambda EvenSource Mapping]: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-lambda-eventsourcemapping.html -func AWSLambdaResourceMappingID(val string) attribute.KeyValue { - return AWSLambdaResourceMappingIDKey.String(val) -} - -// AWSLogGroupARNs returns an attribute KeyValue conforming to the -// "aws.log.group.arns" semantic conventions. It represents the Amazon Resource -// Name(s) (ARN) of the AWS log group(s). -func AWSLogGroupARNs(val ...string) attribute.KeyValue { - return AWSLogGroupARNsKey.StringSlice(val) -} - -// AWSLogGroupNames returns an attribute KeyValue conforming to the -// "aws.log.group.names" semantic conventions. It represents the name(s) of the -// AWS log group(s) an application is writing to. -func AWSLogGroupNames(val ...string) attribute.KeyValue { - return AWSLogGroupNamesKey.StringSlice(val) -} - -// AWSLogStreamARNs returns an attribute KeyValue conforming to the -// "aws.log.stream.arns" semantic conventions. It represents the ARN(s) of the -// AWS log stream(s). -func AWSLogStreamARNs(val ...string) attribute.KeyValue { - return AWSLogStreamARNsKey.StringSlice(val) -} - -// AWSLogStreamNames returns an attribute KeyValue conforming to the -// "aws.log.stream.names" semantic conventions. It represents the name(s) of the -// AWS log stream(s) an application is writing to. -func AWSLogStreamNames(val ...string) attribute.KeyValue { - return AWSLogStreamNamesKey.StringSlice(val) -} - -// AWSRequestID returns an attribute KeyValue conforming to the "aws.request_id" -// semantic conventions. It represents the AWS request ID as returned in the -// response headers `x-amzn-requestid`, `x-amzn-request-id` or `x-amz-request-id` -// . -func AWSRequestID(val string) attribute.KeyValue { - return AWSRequestIDKey.String(val) -} - -// AWSS3Bucket returns an attribute KeyValue conforming to the "aws.s3.bucket" -// semantic conventions. It represents the S3 bucket name the request refers to. -// Corresponds to the `--bucket` parameter of the [S3 API] operations. -// -// [S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/index.html -func AWSS3Bucket(val string) attribute.KeyValue { - return AWSS3BucketKey.String(val) -} - -// AWSS3CopySource returns an attribute KeyValue conforming to the -// "aws.s3.copy_source" semantic conventions. It represents the source object (in -// the form `bucket`/`key`) for the copy operation. -func AWSS3CopySource(val string) attribute.KeyValue { - return AWSS3CopySourceKey.String(val) -} - -// AWSS3Delete returns an attribute KeyValue conforming to the "aws.s3.delete" -// semantic conventions. It represents the delete request container that -// specifies the objects to be deleted. -func AWSS3Delete(val string) attribute.KeyValue { - return AWSS3DeleteKey.String(val) -} - -// AWSS3Key returns an attribute KeyValue conforming to the "aws.s3.key" semantic -// conventions. It represents the S3 object key the request refers to. -// Corresponds to the `--key` parameter of the [S3 API] operations. -// -// [S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/index.html -func AWSS3Key(val string) attribute.KeyValue { - return AWSS3KeyKey.String(val) -} - -// AWSS3PartNumber returns an attribute KeyValue conforming to the -// "aws.s3.part_number" semantic conventions. It represents the part number of -// the part being uploaded in a multipart-upload operation. This is a positive -// integer between 1 and 10,000. -func AWSS3PartNumber(val int) attribute.KeyValue { - return AWSS3PartNumberKey.Int(val) -} - -// AWSS3UploadID returns an attribute KeyValue conforming to the -// "aws.s3.upload_id" semantic conventions. It represents the upload ID that -// identifies the multipart upload. -func AWSS3UploadID(val string) attribute.KeyValue { - return AWSS3UploadIDKey.String(val) -} - -// AWSSecretsmanagerSecretARN returns an attribute KeyValue conforming to the -// "aws.secretsmanager.secret.arn" semantic conventions. It represents the ARN of -// the Secret stored in the Secrets Mangger. -func AWSSecretsmanagerSecretARN(val string) attribute.KeyValue { - return AWSSecretsmanagerSecretARNKey.String(val) -} - -// AWSSNSTopicARN returns an attribute KeyValue conforming to the -// "aws.sns.topic.arn" semantic conventions. It represents the ARN of the AWS SNS -// Topic. An Amazon SNS [topic] is a logical access point that acts as a -// communication channel. -// -// [topic]: https://docs.aws.amazon.com/sns/latest/dg/sns-create-topic.html -func AWSSNSTopicARN(val string) attribute.KeyValue { - return AWSSNSTopicARNKey.String(val) -} - -// AWSSQSQueueURL returns an attribute KeyValue conforming to the -// "aws.sqs.queue.url" semantic conventions. It represents the URL of the AWS SQS -// Queue. It's a unique identifier for a queue in Amazon Simple Queue Service -// (SQS) and is used to access the queue and perform actions on it. -func AWSSQSQueueURL(val string) attribute.KeyValue { - return AWSSQSQueueURLKey.String(val) -} - -// AWSStepFunctionsActivityARN returns an attribute KeyValue conforming to the -// "aws.step_functions.activity.arn" semantic conventions. It represents the ARN -// of the AWS Step Functions Activity. -func AWSStepFunctionsActivityARN(val string) attribute.KeyValue { - return AWSStepFunctionsActivityARNKey.String(val) -} - -// AWSStepFunctionsStateMachineARN returns an attribute KeyValue conforming to -// the "aws.step_functions.state_machine.arn" semantic conventions. It represents -// the ARN of the AWS Step Functions State Machine. -func AWSStepFunctionsStateMachineARN(val string) attribute.KeyValue { - return AWSStepFunctionsStateMachineARNKey.String(val) -} - -// Enum values for aws.ecs.launchtype -var ( - // Amazon EC2 - // Stability: development - AWSECSLaunchtypeEC2 = AWSECSLaunchtypeKey.String("ec2") - // Amazon Fargate - // Stability: development - AWSECSLaunchtypeFargate = AWSECSLaunchtypeKey.String("fargate") -) - -// Namespace: azure -const ( - // AzureClientIDKey is the attribute Key conforming to the "azure.client.id" - // semantic conventions. It represents the unique identifier of the client - // instance. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "3ba4827d-4422-483f-b59f-85b74211c11d", "storage-client-1" - AzureClientIDKey = attribute.Key("azure.client.id") - - // AzureCosmosDBConnectionModeKey is the attribute Key conforming to the - // "azure.cosmosdb.connection.mode" semantic conventions. It represents the - // cosmos client connection mode. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - AzureCosmosDBConnectionModeKey = attribute.Key("azure.cosmosdb.connection.mode") - - // AzureCosmosDBConsistencyLevelKey is the attribute Key conforming to the - // "azure.cosmosdb.consistency.level" semantic conventions. It represents the - // account or request [consistency level]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Eventual", "ConsistentPrefix", "BoundedStaleness", "Strong", - // "Session" - // - // [consistency level]: https://learn.microsoft.com/azure/cosmos-db/consistency-levels - AzureCosmosDBConsistencyLevelKey = attribute.Key("azure.cosmosdb.consistency.level") - - // AzureCosmosDBOperationContactedRegionsKey is the attribute Key conforming to - // the "azure.cosmosdb.operation.contacted_regions" semantic conventions. It - // represents the list of regions contacted during operation in the order that - // they were contacted. If there is more than one region listed, it indicates - // that the operation was performed on multiple regions i.e. cross-regional - // call. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "North Central US", "Australia East", "Australia Southeast" - // Note: Region name matches the format of `displayName` in [Azure Location API] - // - // [Azure Location API]: https://learn.microsoft.com/rest/api/resources/subscriptions/list-locations - AzureCosmosDBOperationContactedRegionsKey = attribute.Key("azure.cosmosdb.operation.contacted_regions") - - // AzureCosmosDBOperationRequestChargeKey is the attribute Key conforming to the - // "azure.cosmosdb.operation.request_charge" semantic conventions. It represents - // the number of request units consumed by the operation. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 46.18, 1.0 - AzureCosmosDBOperationRequestChargeKey = attribute.Key("azure.cosmosdb.operation.request_charge") - - // AzureCosmosDBRequestBodySizeKey is the attribute Key conforming to the - // "azure.cosmosdb.request.body.size" semantic conventions. It represents the - // request payload size in bytes. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - AzureCosmosDBRequestBodySizeKey = attribute.Key("azure.cosmosdb.request.body.size") - - // AzureCosmosDBResponseSubStatusCodeKey is the attribute Key conforming to the - // "azure.cosmosdb.response.sub_status_code" semantic conventions. It represents - // the cosmos DB sub status code. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1000, 1002 - AzureCosmosDBResponseSubStatusCodeKey = attribute.Key("azure.cosmosdb.response.sub_status_code") - - // AzureResourceProviderNamespaceKey is the attribute Key conforming to the - // "azure.resource_provider.namespace" semantic conventions. It represents the - // [Azure Resource Provider Namespace] as recognized by the client. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Microsoft.Storage", "Microsoft.KeyVault", "Microsoft.ServiceBus" - // - // [Azure Resource Provider Namespace]: https://learn.microsoft.com/azure/azure-resource-manager/management/azure-services-resource-providers - AzureResourceProviderNamespaceKey = attribute.Key("azure.resource_provider.namespace") - - // AzureServiceRequestIDKey is the attribute Key conforming to the - // "azure.service.request.id" semantic conventions. It represents the unique - // identifier of the service request. It's generated by the Azure service and - // returned with the response. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "00000000-0000-0000-0000-000000000000" - AzureServiceRequestIDKey = attribute.Key("azure.service.request.id") -) - -// AzureClientID returns an attribute KeyValue conforming to the -// "azure.client.id" semantic conventions. It represents the unique identifier of -// the client instance. -func AzureClientID(val string) attribute.KeyValue { - return AzureClientIDKey.String(val) -} - -// AzureCosmosDBOperationContactedRegions returns an attribute KeyValue -// conforming to the "azure.cosmosdb.operation.contacted_regions" semantic -// conventions. It represents the list of regions contacted during operation in -// the order that they were contacted. If there is more than one region listed, -// it indicates that the operation was performed on multiple regions i.e. -// cross-regional call. -func AzureCosmosDBOperationContactedRegions(val ...string) attribute.KeyValue { - return AzureCosmosDBOperationContactedRegionsKey.StringSlice(val) -} - -// AzureCosmosDBOperationRequestCharge returns an attribute KeyValue conforming -// to the "azure.cosmosdb.operation.request_charge" semantic conventions. It -// represents the number of request units consumed by the operation. -func AzureCosmosDBOperationRequestCharge(val float64) attribute.KeyValue { - return AzureCosmosDBOperationRequestChargeKey.Float64(val) -} - -// AzureCosmosDBRequestBodySize returns an attribute KeyValue conforming to the -// "azure.cosmosdb.request.body.size" semantic conventions. It represents the -// request payload size in bytes. -func AzureCosmosDBRequestBodySize(val int) attribute.KeyValue { - return AzureCosmosDBRequestBodySizeKey.Int(val) -} - -// AzureCosmosDBResponseSubStatusCode returns an attribute KeyValue conforming to -// the "azure.cosmosdb.response.sub_status_code" semantic conventions. It -// represents the cosmos DB sub status code. -func AzureCosmosDBResponseSubStatusCode(val int) attribute.KeyValue { - return AzureCosmosDBResponseSubStatusCodeKey.Int(val) -} - -// AzureResourceProviderNamespace returns an attribute KeyValue conforming to the -// "azure.resource_provider.namespace" semantic conventions. It represents the -// [Azure Resource Provider Namespace] as recognized by the client. -// -// [Azure Resource Provider Namespace]: https://learn.microsoft.com/azure/azure-resource-manager/management/azure-services-resource-providers -func AzureResourceProviderNamespace(val string) attribute.KeyValue { - return AzureResourceProviderNamespaceKey.String(val) -} - -// AzureServiceRequestID returns an attribute KeyValue conforming to the -// "azure.service.request.id" semantic conventions. It represents the unique -// identifier of the service request. It's generated by the Azure service and -// returned with the response. -func AzureServiceRequestID(val string) attribute.KeyValue { - return AzureServiceRequestIDKey.String(val) -} - -// Enum values for azure.cosmosdb.connection.mode -var ( - // Gateway (HTTP) connection. - // Stability: development - AzureCosmosDBConnectionModeGateway = AzureCosmosDBConnectionModeKey.String("gateway") - // Direct connection. - // Stability: development - AzureCosmosDBConnectionModeDirect = AzureCosmosDBConnectionModeKey.String("direct") -) - -// Enum values for azure.cosmosdb.consistency.level -var ( - // Strong - // Stability: development - AzureCosmosDBConsistencyLevelStrong = AzureCosmosDBConsistencyLevelKey.String("Strong") - // Bounded Staleness - // Stability: development - AzureCosmosDBConsistencyLevelBoundedStaleness = AzureCosmosDBConsistencyLevelKey.String("BoundedStaleness") - // Session - // Stability: development - AzureCosmosDBConsistencyLevelSession = AzureCosmosDBConsistencyLevelKey.String("Session") - // Eventual - // Stability: development - AzureCosmosDBConsistencyLevelEventual = AzureCosmosDBConsistencyLevelKey.String("Eventual") - // Consistent Prefix - // Stability: development - AzureCosmosDBConsistencyLevelConsistentPrefix = AzureCosmosDBConsistencyLevelKey.String("ConsistentPrefix") -) - -// Namespace: browser -const ( - // BrowserBrandsKey is the attribute Key conforming to the "browser.brands" - // semantic conventions. It represents the array of brand name and version - // separated by a space. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: " Not A;Brand 99", "Chromium 99", "Chrome 99" - // Note: This value is intended to be taken from the [UA client hints API] ( - // `navigator.userAgentData.brands`). - // - // [UA client hints API]: https://wicg.github.io/ua-client-hints/#interface - BrowserBrandsKey = attribute.Key("browser.brands") - - // BrowserLanguageKey is the attribute Key conforming to the "browser.language" - // semantic conventions. It represents the preferred language of the user using - // the browser. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "en", "en-US", "fr", "fr-FR" - // Note: This value is intended to be taken from the Navigator API - // `navigator.language`. - BrowserLanguageKey = attribute.Key("browser.language") - - // BrowserMobileKey is the attribute Key conforming to the "browser.mobile" - // semantic conventions. It represents a boolean that is true if the browser is - // running on a mobile device. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: This value is intended to be taken from the [UA client hints API] ( - // `navigator.userAgentData.mobile`). If unavailable, this attribute SHOULD be - // left unset. - // - // [UA client hints API]: https://wicg.github.io/ua-client-hints/#interface - BrowserMobileKey = attribute.Key("browser.mobile") - - // BrowserPlatformKey is the attribute Key conforming to the "browser.platform" - // semantic conventions. It represents the platform on which the browser is - // running. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Windows", "macOS", "Android" - // Note: This value is intended to be taken from the [UA client hints API] ( - // `navigator.userAgentData.platform`). If unavailable, the legacy - // `navigator.platform` API SHOULD NOT be used instead and this attribute SHOULD - // be left unset in order for the values to be consistent. - // The list of possible values is defined in the - // [W3C User-Agent Client Hints specification]. Note that some (but not all) of - // these values can overlap with values in the - // [`os.type` and `os.name` attributes]. However, for consistency, the values in - // the `browser.platform` attribute should capture the exact value that the user - // agent provides. - // - // [UA client hints API]: https://wicg.github.io/ua-client-hints/#interface - // [W3C User-Agent Client Hints specification]: https://wicg.github.io/ua-client-hints/#sec-ch-ua-platform - // [`os.type` and `os.name` attributes]: ./os.md - BrowserPlatformKey = attribute.Key("browser.platform") -) - -// BrowserBrands returns an attribute KeyValue conforming to the "browser.brands" -// semantic conventions. It represents the array of brand name and version -// separated by a space. -func BrowserBrands(val ...string) attribute.KeyValue { - return BrowserBrandsKey.StringSlice(val) -} - -// BrowserLanguage returns an attribute KeyValue conforming to the -// "browser.language" semantic conventions. It represents the preferred language -// of the user using the browser. -func BrowserLanguage(val string) attribute.KeyValue { - return BrowserLanguageKey.String(val) -} - -// BrowserMobile returns an attribute KeyValue conforming to the "browser.mobile" -// semantic conventions. It represents a boolean that is true if the browser is -// running on a mobile device. -func BrowserMobile(val bool) attribute.KeyValue { - return BrowserMobileKey.Bool(val) -} - -// BrowserPlatform returns an attribute KeyValue conforming to the -// "browser.platform" semantic conventions. It represents the platform on which -// the browser is running. -func BrowserPlatform(val string) attribute.KeyValue { - return BrowserPlatformKey.String(val) -} - -// Namespace: cassandra -const ( - // CassandraConsistencyLevelKey is the attribute Key conforming to the - // "cassandra.consistency.level" semantic conventions. It represents the - // consistency level of the query. Based on consistency values from [CQL]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [CQL]: https://docs.datastax.com/en/cassandra-oss/3.0/cassandra/dml/dmlConfigConsistency.html - CassandraConsistencyLevelKey = attribute.Key("cassandra.consistency.level") - - // CassandraCoordinatorDCKey is the attribute Key conforming to the - // "cassandra.coordinator.dc" semantic conventions. It represents the data - // center of the coordinating node for a query. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: us-west-2 - CassandraCoordinatorDCKey = attribute.Key("cassandra.coordinator.dc") - - // CassandraCoordinatorIDKey is the attribute Key conforming to the - // "cassandra.coordinator.id" semantic conventions. It represents the ID of the - // coordinating node for a query. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: be13faa2-8574-4d71-926d-27f16cf8a7af - CassandraCoordinatorIDKey = attribute.Key("cassandra.coordinator.id") - - // CassandraPageSizeKey is the attribute Key conforming to the - // "cassandra.page.size" semantic conventions. It represents the fetch size used - // for paging, i.e. how many rows will be returned at once. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 5000 - CassandraPageSizeKey = attribute.Key("cassandra.page.size") - - // CassandraQueryIdempotentKey is the attribute Key conforming to the - // "cassandra.query.idempotent" semantic conventions. It represents the whether - // or not the query is idempotent. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - CassandraQueryIdempotentKey = attribute.Key("cassandra.query.idempotent") - - // CassandraSpeculativeExecutionCountKey is the attribute Key conforming to the - // "cassandra.speculative_execution.count" semantic conventions. It represents - // the number of times a query was speculatively executed. Not set or `0` if the - // query was not executed speculatively. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0, 2 - CassandraSpeculativeExecutionCountKey = attribute.Key("cassandra.speculative_execution.count") -) - -// CassandraCoordinatorDC returns an attribute KeyValue conforming to the -// "cassandra.coordinator.dc" semantic conventions. It represents the data center -// of the coordinating node for a query. -func CassandraCoordinatorDC(val string) attribute.KeyValue { - return CassandraCoordinatorDCKey.String(val) -} - -// CassandraCoordinatorID returns an attribute KeyValue conforming to the -// "cassandra.coordinator.id" semantic conventions. It represents the ID of the -// coordinating node for a query. -func CassandraCoordinatorID(val string) attribute.KeyValue { - return CassandraCoordinatorIDKey.String(val) -} - -// CassandraPageSize returns an attribute KeyValue conforming to the -// "cassandra.page.size" semantic conventions. It represents the fetch size used -// for paging, i.e. how many rows will be returned at once. -func CassandraPageSize(val int) attribute.KeyValue { - return CassandraPageSizeKey.Int(val) -} - -// CassandraQueryIdempotent returns an attribute KeyValue conforming to the -// "cassandra.query.idempotent" semantic conventions. It represents the whether -// or not the query is idempotent. -func CassandraQueryIdempotent(val bool) attribute.KeyValue { - return CassandraQueryIdempotentKey.Bool(val) -} - -// CassandraSpeculativeExecutionCount returns an attribute KeyValue conforming to -// the "cassandra.speculative_execution.count" semantic conventions. It -// represents the number of times a query was speculatively executed. Not set or -// `0` if the query was not executed speculatively. -func CassandraSpeculativeExecutionCount(val int) attribute.KeyValue { - return CassandraSpeculativeExecutionCountKey.Int(val) -} - -// Enum values for cassandra.consistency.level -var ( - // All - // Stability: development - CassandraConsistencyLevelAll = CassandraConsistencyLevelKey.String("all") - // Each Quorum - // Stability: development - CassandraConsistencyLevelEachQuorum = CassandraConsistencyLevelKey.String("each_quorum") - // Quorum - // Stability: development - CassandraConsistencyLevelQuorum = CassandraConsistencyLevelKey.String("quorum") - // Local Quorum - // Stability: development - CassandraConsistencyLevelLocalQuorum = CassandraConsistencyLevelKey.String("local_quorum") - // One - // Stability: development - CassandraConsistencyLevelOne = CassandraConsistencyLevelKey.String("one") - // Two - // Stability: development - CassandraConsistencyLevelTwo = CassandraConsistencyLevelKey.String("two") - // Three - // Stability: development - CassandraConsistencyLevelThree = CassandraConsistencyLevelKey.String("three") - // Local One - // Stability: development - CassandraConsistencyLevelLocalOne = CassandraConsistencyLevelKey.String("local_one") - // Any - // Stability: development - CassandraConsistencyLevelAny = CassandraConsistencyLevelKey.String("any") - // Serial - // Stability: development - CassandraConsistencyLevelSerial = CassandraConsistencyLevelKey.String("serial") - // Local Serial - // Stability: development - CassandraConsistencyLevelLocalSerial = CassandraConsistencyLevelKey.String("local_serial") -) - -// Namespace: cicd -const ( - // CICDPipelineActionNameKey is the attribute Key conforming to the - // "cicd.pipeline.action.name" semantic conventions. It represents the kind of - // action a pipeline run is performing. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "BUILD", "RUN", "SYNC" - CICDPipelineActionNameKey = attribute.Key("cicd.pipeline.action.name") - - // CICDPipelineNameKey is the attribute Key conforming to the - // "cicd.pipeline.name" semantic conventions. It represents the human readable - // name of the pipeline within a CI/CD system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Build and Test", "Lint", "Deploy Go Project", - // "deploy_to_environment" - CICDPipelineNameKey = attribute.Key("cicd.pipeline.name") - - // CICDPipelineResultKey is the attribute Key conforming to the - // "cicd.pipeline.result" semantic conventions. It represents the result of a - // pipeline run. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "success", "failure", "timeout", "skipped" - CICDPipelineResultKey = attribute.Key("cicd.pipeline.result") - - // CICDPipelineRunIDKey is the attribute Key conforming to the - // "cicd.pipeline.run.id" semantic conventions. It represents the unique - // identifier of a pipeline run within a CI/CD system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "120912" - CICDPipelineRunIDKey = attribute.Key("cicd.pipeline.run.id") - - // CICDPipelineRunStateKey is the attribute Key conforming to the - // "cicd.pipeline.run.state" semantic conventions. It represents the pipeline - // run goes through these states during its lifecycle. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "pending", "executing", "finalizing" - CICDPipelineRunStateKey = attribute.Key("cicd.pipeline.run.state") - - // CICDPipelineRunURLFullKey is the attribute Key conforming to the - // "cicd.pipeline.run.url.full" semantic conventions. It represents the [URL] of - // the pipeline run, providing the complete address in order to locate and - // identify the pipeline run. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "https://github.com/open-telemetry/semantic-conventions/actions/runs/9753949763?pr=1075" - // - // [URL]: https://wikipedia.org/wiki/URL - CICDPipelineRunURLFullKey = attribute.Key("cicd.pipeline.run.url.full") - - // CICDPipelineTaskNameKey is the attribute Key conforming to the - // "cicd.pipeline.task.name" semantic conventions. It represents the human - // readable name of a task within a pipeline. Task here most closely aligns with - // a [computing process] in a pipeline. Other terms for tasks include commands, - // steps, and procedures. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Run GoLang Linter", "Go Build", "go-test", "deploy_binary" - // - // [computing process]: https://wikipedia.org/wiki/Pipeline_(computing) - CICDPipelineTaskNameKey = attribute.Key("cicd.pipeline.task.name") - - // CICDPipelineTaskRunIDKey is the attribute Key conforming to the - // "cicd.pipeline.task.run.id" semantic conventions. It represents the unique - // identifier of a task run within a pipeline. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "12097" - CICDPipelineTaskRunIDKey = attribute.Key("cicd.pipeline.task.run.id") - - // CICDPipelineTaskRunResultKey is the attribute Key conforming to the - // "cicd.pipeline.task.run.result" semantic conventions. It represents the - // result of a task run. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "success", "failure", "timeout", "skipped" - CICDPipelineTaskRunResultKey = attribute.Key("cicd.pipeline.task.run.result") - - // CICDPipelineTaskRunURLFullKey is the attribute Key conforming to the - // "cicd.pipeline.task.run.url.full" semantic conventions. It represents the - // [URL] of the pipeline task run, providing the complete address in order to - // locate and identify the pipeline task run. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "https://github.com/open-telemetry/semantic-conventions/actions/runs/9753949763/job/26920038674?pr=1075" - // - // [URL]: https://wikipedia.org/wiki/URL - CICDPipelineTaskRunURLFullKey = attribute.Key("cicd.pipeline.task.run.url.full") - - // CICDPipelineTaskTypeKey is the attribute Key conforming to the - // "cicd.pipeline.task.type" semantic conventions. It represents the type of the - // task within a pipeline. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "build", "test", "deploy" - CICDPipelineTaskTypeKey = attribute.Key("cicd.pipeline.task.type") - - // CICDSystemComponentKey is the attribute Key conforming to the - // "cicd.system.component" semantic conventions. It represents the name of a - // component of the CICD system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "controller", "scheduler", "agent" - CICDSystemComponentKey = attribute.Key("cicd.system.component") - - // CICDWorkerIDKey is the attribute Key conforming to the "cicd.worker.id" - // semantic conventions. It represents the unique identifier of a worker within - // a CICD system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "abc123", "10.0.1.2", "controller" - CICDWorkerIDKey = attribute.Key("cicd.worker.id") - - // CICDWorkerNameKey is the attribute Key conforming to the "cicd.worker.name" - // semantic conventions. It represents the name of a worker within a CICD - // system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "agent-abc", "controller", "Ubuntu LTS" - CICDWorkerNameKey = attribute.Key("cicd.worker.name") - - // CICDWorkerStateKey is the attribute Key conforming to the "cicd.worker.state" - // semantic conventions. It represents the state of a CICD worker / agent. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "idle", "busy", "down" - CICDWorkerStateKey = attribute.Key("cicd.worker.state") - - // CICDWorkerURLFullKey is the attribute Key conforming to the - // "cicd.worker.url.full" semantic conventions. It represents the [URL] of the - // worker, providing the complete address in order to locate and identify the - // worker. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "https://cicd.example.org/worker/abc123" - // - // [URL]: https://wikipedia.org/wiki/URL - CICDWorkerURLFullKey = attribute.Key("cicd.worker.url.full") -) - -// CICDPipelineName returns an attribute KeyValue conforming to the -// "cicd.pipeline.name" semantic conventions. It represents the human readable -// name of the pipeline within a CI/CD system. -func CICDPipelineName(val string) attribute.KeyValue { - return CICDPipelineNameKey.String(val) -} - -// CICDPipelineRunID returns an attribute KeyValue conforming to the -// "cicd.pipeline.run.id" semantic conventions. It represents the unique -// identifier of a pipeline run within a CI/CD system. -func CICDPipelineRunID(val string) attribute.KeyValue { - return CICDPipelineRunIDKey.String(val) -} - -// CICDPipelineRunURLFull returns an attribute KeyValue conforming to the -// "cicd.pipeline.run.url.full" semantic conventions. It represents the [URL] of -// the pipeline run, providing the complete address in order to locate and -// identify the pipeline run. -// -// [URL]: https://wikipedia.org/wiki/URL -func CICDPipelineRunURLFull(val string) attribute.KeyValue { - return CICDPipelineRunURLFullKey.String(val) -} - -// CICDPipelineTaskName returns an attribute KeyValue conforming to the -// "cicd.pipeline.task.name" semantic conventions. It represents the human -// readable name of a task within a pipeline. Task here most closely aligns with -// a [computing process] in a pipeline. Other terms for tasks include commands, -// steps, and procedures. -// -// [computing process]: https://wikipedia.org/wiki/Pipeline_(computing) -func CICDPipelineTaskName(val string) attribute.KeyValue { - return CICDPipelineTaskNameKey.String(val) -} - -// CICDPipelineTaskRunID returns an attribute KeyValue conforming to the -// "cicd.pipeline.task.run.id" semantic conventions. It represents the unique -// identifier of a task run within a pipeline. -func CICDPipelineTaskRunID(val string) attribute.KeyValue { - return CICDPipelineTaskRunIDKey.String(val) -} - -// CICDPipelineTaskRunURLFull returns an attribute KeyValue conforming to the -// "cicd.pipeline.task.run.url.full" semantic conventions. It represents the -// [URL] of the pipeline task run, providing the complete address in order to -// locate and identify the pipeline task run. -// -// [URL]: https://wikipedia.org/wiki/URL -func CICDPipelineTaskRunURLFull(val string) attribute.KeyValue { - return CICDPipelineTaskRunURLFullKey.String(val) -} - -// CICDSystemComponent returns an attribute KeyValue conforming to the -// "cicd.system.component" semantic conventions. It represents the name of a -// component of the CICD system. -func CICDSystemComponent(val string) attribute.KeyValue { - return CICDSystemComponentKey.String(val) -} - -// CICDWorkerID returns an attribute KeyValue conforming to the "cicd.worker.id" -// semantic conventions. It represents the unique identifier of a worker within a -// CICD system. -func CICDWorkerID(val string) attribute.KeyValue { - return CICDWorkerIDKey.String(val) -} - -// CICDWorkerName returns an attribute KeyValue conforming to the -// "cicd.worker.name" semantic conventions. It represents the name of a worker -// within a CICD system. -func CICDWorkerName(val string) attribute.KeyValue { - return CICDWorkerNameKey.String(val) -} - -// CICDWorkerURLFull returns an attribute KeyValue conforming to the -// "cicd.worker.url.full" semantic conventions. It represents the [URL] of the -// worker, providing the complete address in order to locate and identify the -// worker. -// -// [URL]: https://wikipedia.org/wiki/URL -func CICDWorkerURLFull(val string) attribute.KeyValue { - return CICDWorkerURLFullKey.String(val) -} - -// Enum values for cicd.pipeline.action.name -var ( - // The pipeline run is executing a build. - // Stability: development - CICDPipelineActionNameBuild = CICDPipelineActionNameKey.String("BUILD") - // The pipeline run is executing. - // Stability: development - CICDPipelineActionNameRun = CICDPipelineActionNameKey.String("RUN") - // The pipeline run is executing a sync. - // Stability: development - CICDPipelineActionNameSync = CICDPipelineActionNameKey.String("SYNC") -) - -// Enum values for cicd.pipeline.result -var ( - // The pipeline run finished successfully. - // Stability: development - CICDPipelineResultSuccess = CICDPipelineResultKey.String("success") - // The pipeline run did not finish successfully, eg. due to a compile error or a - // failing test. Such failures are usually detected by non-zero exit codes of - // the tools executed in the pipeline run. - // Stability: development - CICDPipelineResultFailure = CICDPipelineResultKey.String("failure") - // The pipeline run failed due to an error in the CICD system, eg. due to the - // worker being killed. - // Stability: development - CICDPipelineResultError = CICDPipelineResultKey.String("error") - // A timeout caused the pipeline run to be interrupted. - // Stability: development - CICDPipelineResultTimeout = CICDPipelineResultKey.String("timeout") - // The pipeline run was cancelled, eg. by a user manually cancelling the - // pipeline run. - // Stability: development - CICDPipelineResultCancellation = CICDPipelineResultKey.String("cancellation") - // The pipeline run was skipped, eg. due to a precondition not being met. - // Stability: development - CICDPipelineResultSkip = CICDPipelineResultKey.String("skip") -) - -// Enum values for cicd.pipeline.run.state -var ( - // The run pending state spans from the event triggering the pipeline run until - // the execution of the run starts (eg. time spent in a queue, provisioning - // agents, creating run resources). - // - // Stability: development - CICDPipelineRunStatePending = CICDPipelineRunStateKey.String("pending") - // The executing state spans the execution of any run tasks (eg. build, test). - // Stability: development - CICDPipelineRunStateExecuting = CICDPipelineRunStateKey.String("executing") - // The finalizing state spans from when the run has finished executing (eg. - // cleanup of run resources). - // Stability: development - CICDPipelineRunStateFinalizing = CICDPipelineRunStateKey.String("finalizing") -) - -// Enum values for cicd.pipeline.task.run.result -var ( - // The task run finished successfully. - // Stability: development - CICDPipelineTaskRunResultSuccess = CICDPipelineTaskRunResultKey.String("success") - // The task run did not finish successfully, eg. due to a compile error or a - // failing test. Such failures are usually detected by non-zero exit codes of - // the tools executed in the task run. - // Stability: development - CICDPipelineTaskRunResultFailure = CICDPipelineTaskRunResultKey.String("failure") - // The task run failed due to an error in the CICD system, eg. due to the worker - // being killed. - // Stability: development - CICDPipelineTaskRunResultError = CICDPipelineTaskRunResultKey.String("error") - // A timeout caused the task run to be interrupted. - // Stability: development - CICDPipelineTaskRunResultTimeout = CICDPipelineTaskRunResultKey.String("timeout") - // The task run was cancelled, eg. by a user manually cancelling the task run. - // Stability: development - CICDPipelineTaskRunResultCancellation = CICDPipelineTaskRunResultKey.String("cancellation") - // The task run was skipped, eg. due to a precondition not being met. - // Stability: development - CICDPipelineTaskRunResultSkip = CICDPipelineTaskRunResultKey.String("skip") -) - -// Enum values for cicd.pipeline.task.type -var ( - // build - // Stability: development - CICDPipelineTaskTypeBuild = CICDPipelineTaskTypeKey.String("build") - // test - // Stability: development - CICDPipelineTaskTypeTest = CICDPipelineTaskTypeKey.String("test") - // deploy - // Stability: development - CICDPipelineTaskTypeDeploy = CICDPipelineTaskTypeKey.String("deploy") -) - -// Enum values for cicd.worker.state -var ( - // The worker is not performing work for the CICD system. It is available to the - // CICD system to perform work on (online / idle). - // Stability: development - CICDWorkerStateAvailable = CICDWorkerStateKey.String("available") - // The worker is performing work for the CICD system. - // Stability: development - CICDWorkerStateBusy = CICDWorkerStateKey.String("busy") - // The worker is not available to the CICD system (disconnected / down). - // Stability: development - CICDWorkerStateOffline = CICDWorkerStateKey.String("offline") -) - -// Namespace: client -const ( - // ClientAddressKey is the attribute Key conforming to the "client.address" - // semantic conventions. It represents the client address - domain name if - // available without reverse DNS lookup; otherwise, IP address or Unix domain - // socket name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "client.example.com", "10.1.2.80", "/tmp/my.sock" - // Note: When observed from the server side, and when communicating through an - // intermediary, `client.address` SHOULD represent the client address behind any - // intermediaries, for example proxies, if it's available. - ClientAddressKey = attribute.Key("client.address") - - // ClientPortKey is the attribute Key conforming to the "client.port" semantic - // conventions. It represents the client port number. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: 65123 - // Note: When observed from the server side, and when communicating through an - // intermediary, `client.port` SHOULD represent the client port behind any - // intermediaries, for example proxies, if it's available. - ClientPortKey = attribute.Key("client.port") -) - -// ClientAddress returns an attribute KeyValue conforming to the "client.address" -// semantic conventions. It represents the client address - domain name if -// available without reverse DNS lookup; otherwise, IP address or Unix domain -// socket name. -func ClientAddress(val string) attribute.KeyValue { - return ClientAddressKey.String(val) -} - -// ClientPort returns an attribute KeyValue conforming to the "client.port" -// semantic conventions. It represents the client port number. -func ClientPort(val int) attribute.KeyValue { - return ClientPortKey.Int(val) -} - -// Namespace: cloud -const ( - // CloudAccountIDKey is the attribute Key conforming to the "cloud.account.id" - // semantic conventions. It represents the cloud account ID the resource is - // assigned to. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "111111111111", "opentelemetry" - CloudAccountIDKey = attribute.Key("cloud.account.id") - - // CloudAvailabilityZoneKey is the attribute Key conforming to the - // "cloud.availability_zone" semantic conventions. It represents the cloud - // regions often have multiple, isolated locations known as zones to increase - // availability. Availability zone represents the zone where the resource is - // running. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "us-east-1c" - // Note: Availability zones are called "zones" on Alibaba Cloud and Google - // Cloud. - CloudAvailabilityZoneKey = attribute.Key("cloud.availability_zone") - - // CloudPlatformKey is the attribute Key conforming to the "cloud.platform" - // semantic conventions. It represents the cloud platform in use. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: The prefix of the service SHOULD match the one specified in - // `cloud.provider`. - CloudPlatformKey = attribute.Key("cloud.platform") - - // CloudProviderKey is the attribute Key conforming to the "cloud.provider" - // semantic conventions. It represents the name of the cloud provider. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - CloudProviderKey = attribute.Key("cloud.provider") - - // CloudRegionKey is the attribute Key conforming to the "cloud.region" semantic - // conventions. It represents the geographical region within a cloud provider. - // When associated with a resource, this attribute specifies the region where - // the resource operates. When calling services or APIs deployed on a cloud, - // this attribute identifies the region where the called destination is - // deployed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "us-central1", "us-east-1" - // Note: Refer to your provider's docs to see the available regions, for example - // [Alibaba Cloud regions], [AWS regions], [Azure regions], - // [Google Cloud regions], or [Tencent Cloud regions]. - // - // [Alibaba Cloud regions]: https://www.alibabacloud.com/help/doc-detail/40654.htm - // [AWS regions]: https://aws.amazon.com/about-aws/global-infrastructure/regions_az/ - // [Azure regions]: https://azure.microsoft.com/global-infrastructure/geographies/ - // [Google Cloud regions]: https://cloud.google.com/about/locations - // [Tencent Cloud regions]: https://www.tencentcloud.com/document/product/213/6091 - CloudRegionKey = attribute.Key("cloud.region") - - // CloudResourceIDKey is the attribute Key conforming to the "cloud.resource_id" - // semantic conventions. It represents the cloud provider-specific native - // identifier of the monitored cloud resource (e.g. an [ARN] on AWS, a - // [fully qualified resource ID] on Azure, a [full resource name] on GCP). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "arn:aws:lambda:REGION:ACCOUNT_ID:function:my-function", - // "//run.googleapis.com/projects/PROJECT_ID/locations/LOCATION_ID/services/SERVICE_ID", - // "/subscriptions//resourceGroups/ - // /providers/Microsoft.Web/sites//functions/" - // Note: On some cloud providers, it may not be possible to determine the full - // ID at startup, - // so it may be necessary to set `cloud.resource_id` as a span attribute - // instead. - // - // The exact value to use for `cloud.resource_id` depends on the cloud provider. - // The following well-known definitions MUST be used if you set this attribute - // and they apply: - // - // - **AWS Lambda:** The function [ARN]. - // Take care not to use the "invoked ARN" directly but replace any - // [alias suffix] - // with the resolved function version, as the same runtime instance may be - // invocable with - // multiple different aliases. - // - **GCP:** The [URI of the resource] - // - **Azure:** The [Fully Qualified Resource ID] of the invoked function, - // *not* the function app, having the form - // - // `/subscriptions//resourceGroups//providers/Microsoft.Web/sites//functions/` - // . - // This means that a span attribute MUST be used, as an Azure function app - // can host multiple functions that would usually share - // a TracerProvider. - // - // - // [ARN]: https://docs.aws.amazon.com/general/latest/gr/aws-arns-and-namespaces.html - // [fully qualified resource ID]: https://learn.microsoft.com/rest/api/resources/resources/get-by-id - // [full resource name]: https://google.aip.dev/122#full-resource-names - // [ARN]: https://docs.aws.amazon.com/general/latest/gr/aws-arns-and-namespaces.html - // [alias suffix]: https://docs.aws.amazon.com/lambda/latest/dg/configuration-aliases.html - // [URI of the resource]: https://cloud.google.com/iam/docs/full-resource-names - // [Fully Qualified Resource ID]: https://learn.microsoft.com/rest/api/resources/resources/get-by-id - CloudResourceIDKey = attribute.Key("cloud.resource_id") -) - -// CloudAccountID returns an attribute KeyValue conforming to the -// "cloud.account.id" semantic conventions. It represents the cloud account ID -// the resource is assigned to. -func CloudAccountID(val string) attribute.KeyValue { - return CloudAccountIDKey.String(val) -} - -// CloudAvailabilityZone returns an attribute KeyValue conforming to the -// "cloud.availability_zone" semantic conventions. It represents the cloud -// regions often have multiple, isolated locations known as zones to increase -// availability. Availability zone represents the zone where the resource is -// running. -func CloudAvailabilityZone(val string) attribute.KeyValue { - return CloudAvailabilityZoneKey.String(val) -} - -// CloudRegion returns an attribute KeyValue conforming to the "cloud.region" -// semantic conventions. It represents the geographical region within a cloud -// provider. When associated with a resource, this attribute specifies the region -// where the resource operates. When calling services or APIs deployed on a -// cloud, this attribute identifies the region where the called destination is -// deployed. -func CloudRegion(val string) attribute.KeyValue { - return CloudRegionKey.String(val) -} - -// CloudResourceID returns an attribute KeyValue conforming to the -// "cloud.resource_id" semantic conventions. It represents the cloud -// provider-specific native identifier of the monitored cloud resource (e.g. an -// [ARN] on AWS, a [fully qualified resource ID] on Azure, a [full resource name] -// on GCP). -// -// [ARN]: https://docs.aws.amazon.com/general/latest/gr/aws-arns-and-namespaces.html -// [fully qualified resource ID]: https://learn.microsoft.com/rest/api/resources/resources/get-by-id -// [full resource name]: https://google.aip.dev/122#full-resource-names -func CloudResourceID(val string) attribute.KeyValue { - return CloudResourceIDKey.String(val) -} - -// Enum values for cloud.platform -var ( - // Akamai Cloud Compute - // Stability: development - CloudPlatformAkamaiCloudCompute = CloudPlatformKey.String("akamai_cloud.compute") - // Alibaba Cloud Elastic Compute Service - // Stability: development - CloudPlatformAlibabaCloudECS = CloudPlatformKey.String("alibaba_cloud_ecs") - // Alibaba Cloud Function Compute - // Stability: development - CloudPlatformAlibabaCloudFC = CloudPlatformKey.String("alibaba_cloud_fc") - // Red Hat OpenShift on Alibaba Cloud - // Stability: development - CloudPlatformAlibabaCloudOpenShift = CloudPlatformKey.String("alibaba_cloud_openshift") - // AWS Elastic Compute Cloud - // Stability: development - CloudPlatformAWSEC2 = CloudPlatformKey.String("aws_ec2") - // AWS Elastic Container Service - // Stability: development - CloudPlatformAWSECS = CloudPlatformKey.String("aws_ecs") - // AWS Elastic Kubernetes Service - // Stability: development - CloudPlatformAWSEKS = CloudPlatformKey.String("aws_eks") - // AWS Lambda - // Stability: development - CloudPlatformAWSLambda = CloudPlatformKey.String("aws_lambda") - // AWS Elastic Beanstalk - // Stability: development - CloudPlatformAWSElasticBeanstalk = CloudPlatformKey.String("aws_elastic_beanstalk") - // AWS App Runner - // Stability: development - CloudPlatformAWSAppRunner = CloudPlatformKey.String("aws_app_runner") - // Red Hat OpenShift on AWS (ROSA) - // Stability: development - CloudPlatformAWSOpenShift = CloudPlatformKey.String("aws_openshift") - // Azure Virtual Machines - // Stability: development - CloudPlatformAzureVM = CloudPlatformKey.String("azure.vm") - // Azure Container Apps - // Stability: development - CloudPlatformAzureContainerApps = CloudPlatformKey.String("azure.container_apps") - // Azure Container Instances - // Stability: development - CloudPlatformAzureContainerInstances = CloudPlatformKey.String("azure.container_instances") - // Azure Kubernetes Service - // Stability: development - CloudPlatformAzureAKS = CloudPlatformKey.String("azure.aks") - // Azure Functions - // Stability: development - CloudPlatformAzureFunctions = CloudPlatformKey.String("azure.functions") - // Azure App Service - // Stability: development - CloudPlatformAzureAppService = CloudPlatformKey.String("azure.app_service") - // Azure Red Hat OpenShift - // Stability: development - CloudPlatformAzureOpenShift = CloudPlatformKey.String("azure.openshift") - // Google Vertex AI Agent Engine - // Stability: development - CloudPlatformGCPAgentEngine = CloudPlatformKey.String("gcp.agent_engine") - // Google Bare Metal Solution (BMS) - // Stability: development - CloudPlatformGCPBareMetalSolution = CloudPlatformKey.String("gcp_bare_metal_solution") - // Google Cloud Compute Engine (GCE) - // Stability: development - CloudPlatformGCPComputeEngine = CloudPlatformKey.String("gcp_compute_engine") - // Google Cloud Run - // Stability: development - CloudPlatformGCPCloudRun = CloudPlatformKey.String("gcp_cloud_run") - // Google Cloud Kubernetes Engine (GKE) - // Stability: development - CloudPlatformGCPKubernetesEngine = CloudPlatformKey.String("gcp_kubernetes_engine") - // Google Cloud Functions (GCF) - // Stability: development - CloudPlatformGCPCloudFunctions = CloudPlatformKey.String("gcp_cloud_functions") - // Google Cloud App Engine (GAE) - // Stability: development - CloudPlatformGCPAppEngine = CloudPlatformKey.String("gcp_app_engine") - // Red Hat OpenShift on Google Cloud - // Stability: development - CloudPlatformGCPOpenShift = CloudPlatformKey.String("gcp_openshift") - // Server on Hetzner Cloud - // Stability: development - CloudPlatformHetznerCloudServer = CloudPlatformKey.String("hetzner.cloud_server") - // Red Hat OpenShift on IBM Cloud - // Stability: development - CloudPlatformIBMCloudOpenShift = CloudPlatformKey.String("ibm_cloud_openshift") - // Compute on Oracle Cloud Infrastructure (OCI) - // Stability: development - CloudPlatformOracleCloudCompute = CloudPlatformKey.String("oracle_cloud_compute") - // Kubernetes Engine (OKE) on Oracle Cloud Infrastructure (OCI) - // Stability: development - CloudPlatformOracleCloudOKE = CloudPlatformKey.String("oracle_cloud_oke") - // Tencent Cloud Cloud Virtual Machine (CVM) - // Stability: development - CloudPlatformTencentCloudCVM = CloudPlatformKey.String("tencent_cloud_cvm") - // Tencent Cloud Elastic Kubernetes Service (EKS) - // Stability: development - CloudPlatformTencentCloudEKS = CloudPlatformKey.String("tencent_cloud_eks") - // Tencent Cloud Serverless Cloud Function (SCF) - // Stability: development - CloudPlatformTencentCloudSCF = CloudPlatformKey.String("tencent_cloud_scf") - // Vultr Cloud Compute - // Stability: development - CloudPlatformVultrCloudCompute = CloudPlatformKey.String("vultr.cloud_compute") -) - -// Enum values for cloud.provider -var ( - // Akamai Cloud - // Stability: development - CloudProviderAkamaiCloud = CloudProviderKey.String("akamai_cloud") - // Alibaba Cloud - // Stability: development - CloudProviderAlibabaCloud = CloudProviderKey.String("alibaba_cloud") - // Amazon Web Services - // Stability: development - CloudProviderAWS = CloudProviderKey.String("aws") - // Microsoft Azure - // Stability: development - CloudProviderAzure = CloudProviderKey.String("azure") - // Google Cloud Platform - // Stability: development - CloudProviderGCP = CloudProviderKey.String("gcp") - // Heroku Platform as a Service - // Stability: development - CloudProviderHeroku = CloudProviderKey.String("heroku") - // Hetzner - // Stability: development - CloudProviderHetzner = CloudProviderKey.String("hetzner") - // IBM Cloud - // Stability: development - CloudProviderIBMCloud = CloudProviderKey.String("ibm_cloud") - // Oracle Cloud Infrastructure (OCI) - // Stability: development - CloudProviderOracleCloud = CloudProviderKey.String("oracle_cloud") - // Tencent Cloud - // Stability: development - CloudProviderTencentCloud = CloudProviderKey.String("tencent_cloud") - // Vultr - // Stability: development - CloudProviderVultr = CloudProviderKey.String("vultr") -) - -// Namespace: cloudevents -const ( - // CloudEventsEventIDKey is the attribute Key conforming to the - // "cloudevents.event_id" semantic conventions. It represents the [event_id] - // uniquely identifies the event. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "123e4567-e89b-12d3-a456-426614174000", "0001" - // - // [event_id]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#id - CloudEventsEventIDKey = attribute.Key("cloudevents.event_id") - - // CloudEventsEventSourceKey is the attribute Key conforming to the - // "cloudevents.event_source" semantic conventions. It represents the [source] - // identifies the context in which an event happened. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "https://github.com/cloudevents", "/cloudevents/spec/pull/123", - // "my-service" - // - // [source]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#source-1 - CloudEventsEventSourceKey = attribute.Key("cloudevents.event_source") - - // CloudEventsEventSpecVersionKey is the attribute Key conforming to the - // "cloudevents.event_spec_version" semantic conventions. It represents the - // [version of the CloudEvents specification] which the event uses. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1.0 - // - // [version of the CloudEvents specification]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#specversion - CloudEventsEventSpecVersionKey = attribute.Key("cloudevents.event_spec_version") - - // CloudEventsEventSubjectKey is the attribute Key conforming to the - // "cloudevents.event_subject" semantic conventions. It represents the [subject] - // of the event in the context of the event producer (identified by source). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: mynewfile.jpg - // - // [subject]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#subject - CloudEventsEventSubjectKey = attribute.Key("cloudevents.event_subject") - - // CloudEventsEventTypeKey is the attribute Key conforming to the - // "cloudevents.event_type" semantic conventions. It represents the [event_type] - // contains a value describing the type of event related to the originating - // occurrence. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "com.github.pull_request.opened", "com.example.object.deleted.v2" - // - // [event_type]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#type - CloudEventsEventTypeKey = attribute.Key("cloudevents.event_type") -) - -// CloudEventsEventID returns an attribute KeyValue conforming to the -// "cloudevents.event_id" semantic conventions. It represents the [event_id] -// uniquely identifies the event. -// -// [event_id]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#id -func CloudEventsEventID(val string) attribute.KeyValue { - return CloudEventsEventIDKey.String(val) -} - -// CloudEventsEventSource returns an attribute KeyValue conforming to the -// "cloudevents.event_source" semantic conventions. It represents the [source] -// identifies the context in which an event happened. -// -// [source]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#source-1 -func CloudEventsEventSource(val string) attribute.KeyValue { - return CloudEventsEventSourceKey.String(val) -} - -// CloudEventsEventSpecVersion returns an attribute KeyValue conforming to the -// "cloudevents.event_spec_version" semantic conventions. It represents the -// [version of the CloudEvents specification] which the event uses. -// -// [version of the CloudEvents specification]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#specversion -func CloudEventsEventSpecVersion(val string) attribute.KeyValue { - return CloudEventsEventSpecVersionKey.String(val) -} - -// CloudEventsEventSubject returns an attribute KeyValue conforming to the -// "cloudevents.event_subject" semantic conventions. It represents the [subject] -// of the event in the context of the event producer (identified by source). -// -// [subject]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#subject -func CloudEventsEventSubject(val string) attribute.KeyValue { - return CloudEventsEventSubjectKey.String(val) -} - -// CloudEventsEventType returns an attribute KeyValue conforming to the -// "cloudevents.event_type" semantic conventions. It represents the [event_type] -// contains a value describing the type of event related to the originating -// occurrence. -// -// [event_type]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#type -func CloudEventsEventType(val string) attribute.KeyValue { - return CloudEventsEventTypeKey.String(val) -} - -// Namespace: cloudfoundry -const ( - // CloudFoundryAppIDKey is the attribute Key conforming to the - // "cloudfoundry.app.id" semantic conventions. It represents the guid of the - // application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "218fc5a9-a5f1-4b54-aa05-46717d0ab26d" - // Note: Application instrumentation should use the value from environment - // variable `VCAP_APPLICATION.application_id`. This is the same value as - // reported by `cf app --guid`. - CloudFoundryAppIDKey = attribute.Key("cloudfoundry.app.id") - - // CloudFoundryAppInstanceIDKey is the attribute Key conforming to the - // "cloudfoundry.app.instance.id" semantic conventions. It represents the index - // of the application instance. 0 when just one instance is active. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "0", "1" - // Note: CloudFoundry defines the `instance_id` in the [Loggregator v2 envelope] - // . - // It is used for logs and metrics emitted by CloudFoundry. It is - // supposed to contain the application instance index for applications - // deployed on the runtime. - // - // Application instrumentation should use the value from environment - // variable `CF_INSTANCE_INDEX`. - // - // [Loggregator v2 envelope]: https://github.com/cloudfoundry/loggregator-api#v2-envelope - CloudFoundryAppInstanceIDKey = attribute.Key("cloudfoundry.app.instance.id") - - // CloudFoundryAppNameKey is the attribute Key conforming to the - // "cloudfoundry.app.name" semantic conventions. It represents the name of the - // application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-app-name" - // Note: Application instrumentation should use the value from environment - // variable `VCAP_APPLICATION.application_name`. This is the same value - // as reported by `cf apps`. - CloudFoundryAppNameKey = attribute.Key("cloudfoundry.app.name") - - // CloudFoundryOrgIDKey is the attribute Key conforming to the - // "cloudfoundry.org.id" semantic conventions. It represents the guid of the - // CloudFoundry org the application is running in. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "218fc5a9-a5f1-4b54-aa05-46717d0ab26d" - // Note: Application instrumentation should use the value from environment - // variable `VCAP_APPLICATION.org_id`. This is the same value as - // reported by `cf org --guid`. - CloudFoundryOrgIDKey = attribute.Key("cloudfoundry.org.id") - - // CloudFoundryOrgNameKey is the attribute Key conforming to the - // "cloudfoundry.org.name" semantic conventions. It represents the name of the - // CloudFoundry organization the app is running in. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-org-name" - // Note: Application instrumentation should use the value from environment - // variable `VCAP_APPLICATION.org_name`. This is the same value as - // reported by `cf orgs`. - CloudFoundryOrgNameKey = attribute.Key("cloudfoundry.org.name") - - // CloudFoundryProcessIDKey is the attribute Key conforming to the - // "cloudfoundry.process.id" semantic conventions. It represents the UID - // identifying the process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "218fc5a9-a5f1-4b54-aa05-46717d0ab26d" - // Note: Application instrumentation should use the value from environment - // variable `VCAP_APPLICATION.process_id`. It is supposed to be equal to - // `VCAP_APPLICATION.app_id` for applications deployed to the runtime. - // For system components, this could be the actual PID. - CloudFoundryProcessIDKey = attribute.Key("cloudfoundry.process.id") - - // CloudFoundryProcessTypeKey is the attribute Key conforming to the - // "cloudfoundry.process.type" semantic conventions. It represents the type of - // process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "web" - // Note: CloudFoundry applications can consist of multiple jobs. Usually the - // main process will be of type `web`. There can be additional background - // tasks or side-cars with different process types. - CloudFoundryProcessTypeKey = attribute.Key("cloudfoundry.process.type") - - // CloudFoundrySpaceIDKey is the attribute Key conforming to the - // "cloudfoundry.space.id" semantic conventions. It represents the guid of the - // CloudFoundry space the application is running in. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "218fc5a9-a5f1-4b54-aa05-46717d0ab26d" - // Note: Application instrumentation should use the value from environment - // variable `VCAP_APPLICATION.space_id`. This is the same value as - // reported by `cf space --guid`. - CloudFoundrySpaceIDKey = attribute.Key("cloudfoundry.space.id") - - // CloudFoundrySpaceNameKey is the attribute Key conforming to the - // "cloudfoundry.space.name" semantic conventions. It represents the name of the - // CloudFoundry space the application is running in. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-space-name" - // Note: Application instrumentation should use the value from environment - // variable `VCAP_APPLICATION.space_name`. This is the same value as - // reported by `cf spaces`. - CloudFoundrySpaceNameKey = attribute.Key("cloudfoundry.space.name") - - // CloudFoundrySystemIDKey is the attribute Key conforming to the - // "cloudfoundry.system.id" semantic conventions. It represents a guid or - // another name describing the event source. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "cf/gorouter" - // Note: CloudFoundry defines the `source_id` in the [Loggregator v2 envelope]. - // It is used for logs and metrics emitted by CloudFoundry. It is - // supposed to contain the component name, e.g. "gorouter", for - // CloudFoundry components. - // - // When system components are instrumented, values from the - // [Bosh spec] - // should be used. The `system.id` should be set to - // `spec.deployment/spec.name`. - // - // [Loggregator v2 envelope]: https://github.com/cloudfoundry/loggregator-api#v2-envelope - // [Bosh spec]: https://bosh.io/docs/jobs/#properties-spec - CloudFoundrySystemIDKey = attribute.Key("cloudfoundry.system.id") - - // CloudFoundrySystemInstanceIDKey is the attribute Key conforming to the - // "cloudfoundry.system.instance.id" semantic conventions. It represents a guid - // describing the concrete instance of the event source. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "218fc5a9-a5f1-4b54-aa05-46717d0ab26d" - // Note: CloudFoundry defines the `instance_id` in the [Loggregator v2 envelope] - // . - // It is used for logs and metrics emitted by CloudFoundry. It is - // supposed to contain the vm id for CloudFoundry components. - // - // When system components are instrumented, values from the - // [Bosh spec] - // should be used. The `system.instance.id` should be set to `spec.id`. - // - // [Loggregator v2 envelope]: https://github.com/cloudfoundry/loggregator-api#v2-envelope - // [Bosh spec]: https://bosh.io/docs/jobs/#properties-spec - CloudFoundrySystemInstanceIDKey = attribute.Key("cloudfoundry.system.instance.id") -) - -// CloudFoundryAppID returns an attribute KeyValue conforming to the -// "cloudfoundry.app.id" semantic conventions. It represents the guid of the -// application. -func CloudFoundryAppID(val string) attribute.KeyValue { - return CloudFoundryAppIDKey.String(val) -} - -// CloudFoundryAppInstanceID returns an attribute KeyValue conforming to the -// "cloudfoundry.app.instance.id" semantic conventions. It represents the index -// of the application instance. 0 when just one instance is active. -func CloudFoundryAppInstanceID(val string) attribute.KeyValue { - return CloudFoundryAppInstanceIDKey.String(val) -} - -// CloudFoundryAppName returns an attribute KeyValue conforming to the -// "cloudfoundry.app.name" semantic conventions. It represents the name of the -// application. -func CloudFoundryAppName(val string) attribute.KeyValue { - return CloudFoundryAppNameKey.String(val) -} - -// CloudFoundryOrgID returns an attribute KeyValue conforming to the -// "cloudfoundry.org.id" semantic conventions. It represents the guid of the -// CloudFoundry org the application is running in. -func CloudFoundryOrgID(val string) attribute.KeyValue { - return CloudFoundryOrgIDKey.String(val) -} - -// CloudFoundryOrgName returns an attribute KeyValue conforming to the -// "cloudfoundry.org.name" semantic conventions. It represents the name of the -// CloudFoundry organization the app is running in. -func CloudFoundryOrgName(val string) attribute.KeyValue { - return CloudFoundryOrgNameKey.String(val) -} - -// CloudFoundryProcessID returns an attribute KeyValue conforming to the -// "cloudfoundry.process.id" semantic conventions. It represents the UID -// identifying the process. -func CloudFoundryProcessID(val string) attribute.KeyValue { - return CloudFoundryProcessIDKey.String(val) -} - -// CloudFoundryProcessType returns an attribute KeyValue conforming to the -// "cloudfoundry.process.type" semantic conventions. It represents the type of -// process. -func CloudFoundryProcessType(val string) attribute.KeyValue { - return CloudFoundryProcessTypeKey.String(val) -} - -// CloudFoundrySpaceID returns an attribute KeyValue conforming to the -// "cloudfoundry.space.id" semantic conventions. It represents the guid of the -// CloudFoundry space the application is running in. -func CloudFoundrySpaceID(val string) attribute.KeyValue { - return CloudFoundrySpaceIDKey.String(val) -} - -// CloudFoundrySpaceName returns an attribute KeyValue conforming to the -// "cloudfoundry.space.name" semantic conventions. It represents the name of the -// CloudFoundry space the application is running in. -func CloudFoundrySpaceName(val string) attribute.KeyValue { - return CloudFoundrySpaceNameKey.String(val) -} - -// CloudFoundrySystemID returns an attribute KeyValue conforming to the -// "cloudfoundry.system.id" semantic conventions. It represents a guid or another -// name describing the event source. -func CloudFoundrySystemID(val string) attribute.KeyValue { - return CloudFoundrySystemIDKey.String(val) -} - -// CloudFoundrySystemInstanceID returns an attribute KeyValue conforming to the -// "cloudfoundry.system.instance.id" semantic conventions. It represents a guid -// describing the concrete instance of the event source. -func CloudFoundrySystemInstanceID(val string) attribute.KeyValue { - return CloudFoundrySystemInstanceIDKey.String(val) -} - -// Namespace: code -const ( - // CodeColumnNumberKey is the attribute Key conforming to the - // "code.column.number" semantic conventions. It represents the column number in - // `code.file.path` best representing the operation. It SHOULD point within the - // code unit named in `code.function.name`. This attribute MUST NOT be used on - // the Profile signal since the data is already captured in 'message Line'. This - // constraint is imposed to prevent redundancy and maintain data integrity. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - CodeColumnNumberKey = attribute.Key("code.column.number") - - // CodeFilePathKey is the attribute Key conforming to the "code.file.path" - // semantic conventions. It represents the source code file name that identifies - // the code unit as uniquely as possible (preferably an absolute file path). - // This attribute MUST NOT be used on the Profile signal since the data is - // already captured in 'message Function'. This constraint is imposed to prevent - // redundancy and maintain data integrity. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: /usr/local/MyApplication/content_root/app/index.php - CodeFilePathKey = attribute.Key("code.file.path") - - // CodeFunctionNameKey is the attribute Key conforming to the - // "code.function.name" semantic conventions. It represents the method or - // function fully-qualified name without arguments. The value should fit the - // natural representation of the language runtime, which is also likely the same - // used within `code.stacktrace` attribute value. This attribute MUST NOT be - // used on the Profile signal since the data is already captured in 'message - // Function'. This constraint is imposed to prevent redundancy and maintain data - // integrity. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "com.example.MyHttpService.serveRequest", - // "GuzzleHttp\Client::transfer", "fopen" - // Note: Values and format depends on each language runtime, thus it is - // impossible to provide an exhaustive list of examples. - // The values are usually the same (or prefixes of) the ones found in native - // stack trace representation stored in - // `code.stacktrace` without information on arguments. - // - // Examples: - // - // - Java method: `com.example.MyHttpService.serveRequest` - // - Java anonymous class method: `com.mycompany.Main$1.myMethod` - // - Java lambda method: - // `com.mycompany.Main$$Lambda/0x0000748ae4149c00.myMethod` - // - PHP function: `GuzzleHttp\Client::transfer` - // - Go function: `github.com/my/repo/pkg.foo.func5` - // - Elixir: `OpenTelemetry.Ctx.new` - // - Erlang: `opentelemetry_ctx:new` - // - Rust: `playground::my_module::my_cool_func` - // - C function: `fopen` - CodeFunctionNameKey = attribute.Key("code.function.name") - - // CodeLineNumberKey is the attribute Key conforming to the "code.line.number" - // semantic conventions. It represents the line number in `code.file.path` best - // representing the operation. It SHOULD point within the code unit named in - // `code.function.name`. This attribute MUST NOT be used on the Profile signal - // since the data is already captured in 'message Line'. This constraint is - // imposed to prevent redundancy and maintain data integrity. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - CodeLineNumberKey = attribute.Key("code.line.number") - - // CodeStacktraceKey is the attribute Key conforming to the "code.stacktrace" - // semantic conventions. It represents a stacktrace as a string in the natural - // representation for the language runtime. The representation is identical to - // [`exception.stacktrace`]. This attribute MUST NOT be used on the Profile - // signal since the data is already captured in 'message Location'. This - // constraint is imposed to prevent redundancy and maintain data integrity. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: at com.example.GenerateTrace.methodB(GenerateTrace.java:13)\n at - // com.example.GenerateTrace.methodA(GenerateTrace.java:9)\n at - // com.example.GenerateTrace.main(GenerateTrace.java:5) - // - // [`exception.stacktrace`]: /docs/exceptions/exceptions-spans.md#stacktrace-representation - CodeStacktraceKey = attribute.Key("code.stacktrace") -) - -// CodeColumnNumber returns an attribute KeyValue conforming to the -// "code.column.number" semantic conventions. It represents the column number in -// `code.file.path` best representing the operation. It SHOULD point within the -// code unit named in `code.function.name`. This attribute MUST NOT be used on -// the Profile signal since the data is already captured in 'message Line'. This -// constraint is imposed to prevent redundancy and maintain data integrity. -func CodeColumnNumber(val int) attribute.KeyValue { - return CodeColumnNumberKey.Int(val) -} - -// CodeFilePath returns an attribute KeyValue conforming to the "code.file.path" -// semantic conventions. It represents the source code file name that identifies -// the code unit as uniquely as possible (preferably an absolute file path). This -// attribute MUST NOT be used on the Profile signal since the data is already -// captured in 'message Function'. This constraint is imposed to prevent -// redundancy and maintain data integrity. -func CodeFilePath(val string) attribute.KeyValue { - return CodeFilePathKey.String(val) -} - -// CodeFunctionName returns an attribute KeyValue conforming to the -// "code.function.name" semantic conventions. It represents the method or -// function fully-qualified name without arguments. The value should fit the -// natural representation of the language runtime, which is also likely the same -// used within `code.stacktrace` attribute value. This attribute MUST NOT be used -// on the Profile signal since the data is already captured in 'message -// Function'. This constraint is imposed to prevent redundancy and maintain data -// integrity. -func CodeFunctionName(val string) attribute.KeyValue { - return CodeFunctionNameKey.String(val) -} - -// CodeLineNumber returns an attribute KeyValue conforming to the -// "code.line.number" semantic conventions. It represents the line number in -// `code.file.path` best representing the operation. It SHOULD point within the -// code unit named in `code.function.name`. This attribute MUST NOT be used on -// the Profile signal since the data is already captured in 'message Line'. This -// constraint is imposed to prevent redundancy and maintain data integrity. -func CodeLineNumber(val int) attribute.KeyValue { - return CodeLineNumberKey.Int(val) -} - -// CodeStacktrace returns an attribute KeyValue conforming to the -// "code.stacktrace" semantic conventions. It represents a stacktrace as a string -// in the natural representation for the language runtime. The representation is -// identical to [`exception.stacktrace`]. This attribute MUST NOT be used on the -// Profile signal since the data is already captured in 'message Location'. This -// constraint is imposed to prevent redundancy and maintain data integrity. -// -// [`exception.stacktrace`]: /docs/exceptions/exceptions-spans.md#stacktrace-representation -func CodeStacktrace(val string) attribute.KeyValue { - return CodeStacktraceKey.String(val) -} - -// Namespace: container -const ( - // ContainerCommandKey is the attribute Key conforming to the - // "container.command" semantic conventions. It represents the command used to - // run the container (i.e. the command name). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "otelcontribcol" - // Note: If using embedded credentials or sensitive data, it is recommended to - // remove them to prevent potential leakage. - ContainerCommandKey = attribute.Key("container.command") - - // ContainerCommandArgsKey is the attribute Key conforming to the - // "container.command_args" semantic conventions. It represents the all the - // command arguments (including the command/executable itself) run by the - // container. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "otelcontribcol", "--config", "config.yaml" - ContainerCommandArgsKey = attribute.Key("container.command_args") - - // ContainerCommandLineKey is the attribute Key conforming to the - // "container.command_line" semantic conventions. It represents the full command - // run by the container as a single string representing the full command. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "otelcontribcol --config config.yaml" - ContainerCommandLineKey = attribute.Key("container.command_line") - - // ContainerCSIPluginNameKey is the attribute Key conforming to the - // "container.csi.plugin.name" semantic conventions. It represents the name of - // the CSI ([Container Storage Interface]) plugin used by the volume. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "pd.csi.storage.gke.io" - // Note: This can sometimes be referred to as a "driver" in CSI implementations. - // This should represent the `name` field of the GetPluginInfo RPC. - // - // [Container Storage Interface]: https://github.com/container-storage-interface/spec - ContainerCSIPluginNameKey = attribute.Key("container.csi.plugin.name") - - // ContainerCSIVolumeIDKey is the attribute Key conforming to the - // "container.csi.volume.id" semantic conventions. It represents the unique - // volume ID returned by the CSI ([Container Storage Interface]) plugin. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "projects/my-gcp-project/zones/my-gcp-zone/disks/my-gcp-disk" - // Note: This can sometimes be referred to as a "volume handle" in CSI - // implementations. This should represent the `Volume.volume_id` field in CSI - // spec. - // - // [Container Storage Interface]: https://github.com/container-storage-interface/spec - ContainerCSIVolumeIDKey = attribute.Key("container.csi.volume.id") - - // ContainerIDKey is the attribute Key conforming to the "container.id" semantic - // conventions. It represents the container ID. Usually a UUID, as for example - // used to [identify Docker containers]. The UUID might be abbreviated. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "a3bf90e006b2" - // - // [identify Docker containers]: https://docs.docker.com/engine/containers/run/#container-identification - ContainerIDKey = attribute.Key("container.id") - - // ContainerImageIDKey is the attribute Key conforming to the - // "container.image.id" semantic conventions. It represents the runtime specific - // image identifier. Usually a hash algorithm followed by a UUID. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "sha256:19c92d0a00d1b66d897bceaa7319bee0dd38a10a851c60bcec9474aa3f01e50f" - // Note: Docker defines a sha256 of the image id; `container.image.id` - // corresponds to the `Image` field from the Docker container inspect [API] - // endpoint. - // K8s defines a link to the container registry repository with digest - // `"imageID": "registry.azurecr.io /namespace/service/dockerfile@sha256:bdeabd40c3a8a492eaf9e8e44d0ebbb84bac7ee25ac0cf8a7159d25f62555625"` - // . - // The ID is assigned by the container runtime and can vary in different - // environments. Consider using `oci.manifest.digest` if it is important to - // identify the same image in different environments/runtimes. - // - // [API]: https://docs.docker.com/reference/api/engine/version/v1.52/#tag/Container/operation/ContainerInspect - ContainerImageIDKey = attribute.Key("container.image.id") - - // ContainerImageNameKey is the attribute Key conforming to the - // "container.image.name" semantic conventions. It represents the name of the - // image the container was built on. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "gcr.io/opentelemetry/operator" - ContainerImageNameKey = attribute.Key("container.image.name") - - // ContainerImageRepoDigestsKey is the attribute Key conforming to the - // "container.image.repo_digests" semantic conventions. It represents the repo - // digests of the container image as provided by the container runtime. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: - // "example@sha256:afcc7f1ac1b49db317a7196c902e61c6c3c4607d63599ee1a82d702d249a0ccb", - // "internal.registry.example.com:5000/example@sha256:b69959407d21e8a062e0416bf13405bb2b71ed7a84dde4158ebafacfa06f5578" - // Note: [Docker] and [CRI] report those under the `RepoDigests` field. - // - // [Docker]: https://docs.docker.com/reference/api/engine/version/v1.52/#tag/Image/operation/ImageInspect - // [CRI]: https://github.com/kubernetes/cri-api/blob/c75ef5b473bbe2d0a4fc92f82235efd665ea8e9f/pkg/apis/runtime/v1/api.proto#L1237-L1238 - ContainerImageRepoDigestsKey = attribute.Key("container.image.repo_digests") - - // ContainerImageTagsKey is the attribute Key conforming to the - // "container.image.tags" semantic conventions. It represents the container - // image tags. An example can be found in [Docker Image Inspect]. Should be only - // the `` section of the full name for example from - // `registry.example.com/my-org/my-image:`. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "v1.27.1", "3.5.7-0" - // - // [Docker Image Inspect]: https://docs.docker.com/reference/api/engine/version/v1.52/#tag/Image/operation/ImageInspect - ContainerImageTagsKey = attribute.Key("container.image.tags") - - // ContainerNameKey is the attribute Key conforming to the "container.name" - // semantic conventions. It represents the container name used by container - // runtime. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "opentelemetry-autoconf" - ContainerNameKey = attribute.Key("container.name") - - // ContainerRuntimeDescriptionKey is the attribute Key conforming to the - // "container.runtime.description" semantic conventions. It represents a - // description about the runtime which could include, for example details about - // the CRI/API version being used or other customisations. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "docker://19.3.1 - CRI: 1.22.0" - ContainerRuntimeDescriptionKey = attribute.Key("container.runtime.description") - - // ContainerRuntimeNameKey is the attribute Key conforming to the - // "container.runtime.name" semantic conventions. It represents the container - // runtime managing this container. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "docker", "containerd", "rkt" - ContainerRuntimeNameKey = attribute.Key("container.runtime.name") - - // ContainerRuntimeVersionKey is the attribute Key conforming to the - // "container.runtime.version" semantic conventions. It represents the version - // of the runtime of this process, as returned by the runtime without - // modification. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1.0.0 - ContainerRuntimeVersionKey = attribute.Key("container.runtime.version") -) - -// ContainerCommand returns an attribute KeyValue conforming to the -// "container.command" semantic conventions. It represents the command used to -// run the container (i.e. the command name). -func ContainerCommand(val string) attribute.KeyValue { - return ContainerCommandKey.String(val) -} - -// ContainerCommandArgs returns an attribute KeyValue conforming to the -// "container.command_args" semantic conventions. It represents the all the -// command arguments (including the command/executable itself) run by the -// container. -func ContainerCommandArgs(val ...string) attribute.KeyValue { - return ContainerCommandArgsKey.StringSlice(val) -} - -// ContainerCommandLine returns an attribute KeyValue conforming to the -// "container.command_line" semantic conventions. It represents the full command -// run by the container as a single string representing the full command. -func ContainerCommandLine(val string) attribute.KeyValue { - return ContainerCommandLineKey.String(val) -} - -// ContainerCSIPluginName returns an attribute KeyValue conforming to the -// "container.csi.plugin.name" semantic conventions. It represents the name of -// the CSI ([Container Storage Interface]) plugin used by the volume. -// -// [Container Storage Interface]: https://github.com/container-storage-interface/spec -func ContainerCSIPluginName(val string) attribute.KeyValue { - return ContainerCSIPluginNameKey.String(val) -} - -// ContainerCSIVolumeID returns an attribute KeyValue conforming to the -// "container.csi.volume.id" semantic conventions. It represents the unique -// volume ID returned by the CSI ([Container Storage Interface]) plugin. -// -// [Container Storage Interface]: https://github.com/container-storage-interface/spec -func ContainerCSIVolumeID(val string) attribute.KeyValue { - return ContainerCSIVolumeIDKey.String(val) -} - -// ContainerID returns an attribute KeyValue conforming to the "container.id" -// semantic conventions. It represents the container ID. Usually a UUID, as for -// example used to [identify Docker containers]. The UUID might be abbreviated. -// -// [identify Docker containers]: https://docs.docker.com/engine/containers/run/#container-identification -func ContainerID(val string) attribute.KeyValue { - return ContainerIDKey.String(val) -} - -// ContainerImageID returns an attribute KeyValue conforming to the -// "container.image.id" semantic conventions. It represents the runtime specific -// image identifier. Usually a hash algorithm followed by a UUID. -func ContainerImageID(val string) attribute.KeyValue { - return ContainerImageIDKey.String(val) -} - -// ContainerImageName returns an attribute KeyValue conforming to the -// "container.image.name" semantic conventions. It represents the name of the -// image the container was built on. -func ContainerImageName(val string) attribute.KeyValue { - return ContainerImageNameKey.String(val) -} - -// ContainerImageRepoDigests returns an attribute KeyValue conforming to the -// "container.image.repo_digests" semantic conventions. It represents the repo -// digests of the container image as provided by the container runtime. -func ContainerImageRepoDigests(val ...string) attribute.KeyValue { - return ContainerImageRepoDigestsKey.StringSlice(val) -} - -// ContainerImageTags returns an attribute KeyValue conforming to the -// "container.image.tags" semantic conventions. It represents the container image -// tags. An example can be found in [Docker Image Inspect]. Should be only the -// `` section of the full name for example from -// `registry.example.com/my-org/my-image:`. -// -// [Docker Image Inspect]: https://docs.docker.com/reference/api/engine/version/v1.52/#tag/Image/operation/ImageInspect -func ContainerImageTags(val ...string) attribute.KeyValue { - return ContainerImageTagsKey.StringSlice(val) -} - -// ContainerLabel returns an attribute KeyValue conforming to the -// "container.label" semantic conventions. It represents the container labels, -// `` being the label name, the value being the label value. -func ContainerLabel(key string, val string) attribute.KeyValue { - return attribute.String("container.label."+key, val) -} - -// ContainerName returns an attribute KeyValue conforming to the "container.name" -// semantic conventions. It represents the container name used by container -// runtime. -func ContainerName(val string) attribute.KeyValue { - return ContainerNameKey.String(val) -} - -// ContainerRuntimeDescription returns an attribute KeyValue conforming to the -// "container.runtime.description" semantic conventions. It represents a -// description about the runtime which could include, for example details about -// the CRI/API version being used or other customisations. -func ContainerRuntimeDescription(val string) attribute.KeyValue { - return ContainerRuntimeDescriptionKey.String(val) -} - -// ContainerRuntimeName returns an attribute KeyValue conforming to the -// "container.runtime.name" semantic conventions. It represents the container -// runtime managing this container. -func ContainerRuntimeName(val string) attribute.KeyValue { - return ContainerRuntimeNameKey.String(val) -} - -// ContainerRuntimeVersion returns an attribute KeyValue conforming to the -// "container.runtime.version" semantic conventions. It represents the version of -// the runtime of this process, as returned by the runtime without modification. -func ContainerRuntimeVersion(val string) attribute.KeyValue { - return ContainerRuntimeVersionKey.String(val) -} - -// Namespace: cpu -const ( - // CPULogicalNumberKey is the attribute Key conforming to the - // "cpu.logical_number" semantic conventions. It represents the logical CPU - // number [0..n-1]. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1 - CPULogicalNumberKey = attribute.Key("cpu.logical_number") - - // CPUModeKey is the attribute Key conforming to the "cpu.mode" semantic - // conventions. It represents the mode of the CPU. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "user", "system" - CPUModeKey = attribute.Key("cpu.mode") -) - -// CPULogicalNumber returns an attribute KeyValue conforming to the -// "cpu.logical_number" semantic conventions. It represents the logical CPU -// number [0..n-1]. -func CPULogicalNumber(val int) attribute.KeyValue { - return CPULogicalNumberKey.Int(val) -} - -// Enum values for cpu.mode -var ( - // User - // Stability: development - CPUModeUser = CPUModeKey.String("user") - // System - // Stability: development - CPUModeSystem = CPUModeKey.String("system") - // Nice - // Stability: development - CPUModeNice = CPUModeKey.String("nice") - // Idle - // Stability: development - CPUModeIdle = CPUModeKey.String("idle") - // IO Wait - // Stability: development - CPUModeIOWait = CPUModeKey.String("iowait") - // Interrupt - // Stability: development - CPUModeInterrupt = CPUModeKey.String("interrupt") - // Steal - // Stability: development - CPUModeSteal = CPUModeKey.String("steal") - // Kernel - // Stability: development - CPUModeKernel = CPUModeKey.String("kernel") -) - -// Namespace: db -const ( - // DBClientConnectionPoolNameKey is the attribute Key conforming to the - // "db.client.connection.pool.name" semantic conventions. It represents the name - // of the connection pool; unique within the instrumented application. In case - // the connection pool implementation doesn't provide a name, instrumentation - // SHOULD use a combination of parameters that would make the name unique, for - // example, combining attributes `server.address`, `server.port`, and - // `db.namespace`, formatted as `server.address:server.port/db.namespace`. - // Instrumentations that generate connection pool name following different - // patterns SHOULD document it. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "myDataSource" - DBClientConnectionPoolNameKey = attribute.Key("db.client.connection.pool.name") - - // DBClientConnectionStateKey is the attribute Key conforming to the - // "db.client.connection.state" semantic conventions. It represents the state of - // a connection in the pool. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "idle" - DBClientConnectionStateKey = attribute.Key("db.client.connection.state") - - // DBCollectionNameKey is the attribute Key conforming to the - // "db.collection.name" semantic conventions. It represents the name of a - // collection (table, container) within the database. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "public.users", "customers" - // Note: It is RECOMMENDED to capture the value as provided by the application - // without attempting to do any case normalization. - // - // The collection name SHOULD NOT be extracted from `db.query.text`, - // when the database system supports query text with multiple collections - // in non-batch operations. - // - // For batch operations, if the individual operations are known to have the same - // collection name then that collection name SHOULD be used. - DBCollectionNameKey = attribute.Key("db.collection.name") - - // DBNamespaceKey is the attribute Key conforming to the "db.namespace" semantic - // conventions. It represents the name of the database, fully qualified within - // the server address and port. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "customers", "test.users" - // Note: If a database system has multiple namespace components, they SHOULD be - // concatenated from the most general to the most specific namespace component, - // using `|` as a separator between the components. Any missing components (and - // their associated separators) SHOULD be omitted. - // Semantic conventions for individual database systems SHOULD document what - // `db.namespace` means in the context of that system. - // It is RECOMMENDED to capture the value as provided by the application without - // attempting to do any case normalization. - DBNamespaceKey = attribute.Key("db.namespace") - - // DBOperationBatchSizeKey is the attribute Key conforming to the - // "db.operation.batch.size" semantic conventions. It represents the number of - // queries included in a batch operation. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: 2, 3, 4 - // Note: Operations are only considered batches when they contain two or more - // operations, and so `db.operation.batch.size` SHOULD never be `1`. - DBOperationBatchSizeKey = attribute.Key("db.operation.batch.size") - - // DBOperationNameKey is the attribute Key conforming to the "db.operation.name" - // semantic conventions. It represents the name of the operation or command - // being executed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "findAndModify", "HMSET", "SELECT" - // Note: It is RECOMMENDED to capture the value as provided by the application - // without attempting to do any case normalization. - // - // The operation name SHOULD NOT be extracted from `db.query.text`, - // when the database system supports query text with multiple operations - // in non-batch operations. - // - // If spaces can occur in the operation name, multiple consecutive spaces - // SHOULD be normalized to a single space. - // - // For batch operations, if the individual operations are known to have the same - // operation name - // then that operation name SHOULD be used prepended by `BATCH `, - // otherwise `db.operation.name` SHOULD be `BATCH` or some other database - // system specific term if more applicable. - DBOperationNameKey = attribute.Key("db.operation.name") - - // DBQuerySummaryKey is the attribute Key conforming to the "db.query.summary" - // semantic conventions. It represents the low cardinality summary of a database - // query. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "SELECT wuser_table", "INSERT shipping_details SELECT orders", "get - // user by id" - // Note: The query summary describes a class of database queries and is useful - // as a grouping key, especially when analyzing telemetry for database - // calls involving complex queries. - // - // Summary may be available to the instrumentation through - // instrumentation hooks or other means. If it is not available, - // instrumentations - // that support query parsing SHOULD generate a summary following - // [Generating query summary] - // section. - // - // [Generating query summary]: /docs/db/database-spans.md#generating-a-summary-of-the-query - DBQuerySummaryKey = attribute.Key("db.query.summary") - - // DBQueryTextKey is the attribute Key conforming to the "db.query.text" - // semantic conventions. It represents the database query being executed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "SELECT * FROM wuser_table where username = ?", "SET mykey ?" - // Note: For sanitization see [Sanitization of `db.query.text`]. - // For batch operations, if the individual operations are known to have the same - // query text then that query text SHOULD be used, otherwise all of the - // individual query texts SHOULD be concatenated with separator `; ` or some - // other database system specific separator if more applicable. - // Parameterized query text SHOULD NOT be sanitized. Even though parameterized - // query text can potentially have sensitive data, by using a parameterized - // query the user is giving a strong signal that any sensitive data will be - // passed as parameter values, and the benefit to observability of capturing the - // static part of the query text by default outweighs the risk. - // - // [Sanitization of `db.query.text`]: /docs/db/database-spans.md#sanitization-of-dbquerytext - DBQueryTextKey = attribute.Key("db.query.text") - - // DBResponseReturnedRowsKey is the attribute Key conforming to the - // "db.response.returned_rows" semantic conventions. It represents the number of - // rows returned by the operation. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 10, 30, 1000 - DBResponseReturnedRowsKey = attribute.Key("db.response.returned_rows") - - // DBResponseStatusCodeKey is the attribute Key conforming to the - // "db.response.status_code" semantic conventions. It represents the database - // response status code. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "102", "ORA-17002", "08P01", "404" - // Note: The status code returned by the database. Usually it represents an - // error code, but may also represent partial success, warning, or differentiate - // between various types of successful outcomes. - // Semantic conventions for individual database systems SHOULD document what - // `db.response.status_code` means in the context of that system. - DBResponseStatusCodeKey = attribute.Key("db.response.status_code") - - // DBStoredProcedureNameKey is the attribute Key conforming to the - // "db.stored_procedure.name" semantic conventions. It represents the name of a - // stored procedure within the database. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "GetCustomer" - // Note: It is RECOMMENDED to capture the value as provided by the application - // without attempting to do any case normalization. - // - // For batch operations, if the individual operations are known to have the same - // stored procedure name then that stored procedure name SHOULD be used. - DBStoredProcedureNameKey = attribute.Key("db.stored_procedure.name") - - // DBSystemNameKey is the attribute Key conforming to the "db.system.name" - // semantic conventions. It represents the database management system (DBMS) - // product as identified by the client instrumentation. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: - // Note: The actual DBMS may differ from the one identified by the client. For - // example, when using PostgreSQL client libraries to connect to a CockroachDB, - // the `db.system.name` is set to `postgresql` based on the instrumentation's - // best knowledge. - DBSystemNameKey = attribute.Key("db.system.name") -) - -// DBClientConnectionPoolName returns an attribute KeyValue conforming to the -// "db.client.connection.pool.name" semantic conventions. It represents the name -// of the connection pool; unique within the instrumented application. In case -// the connection pool implementation doesn't provide a name, instrumentation -// SHOULD use a combination of parameters that would make the name unique, for -// example, combining attributes `server.address`, `server.port`, and -// `db.namespace`, formatted as `server.address:server.port/db.namespace`. -// Instrumentations that generate connection pool name following different -// patterns SHOULD document it. -func DBClientConnectionPoolName(val string) attribute.KeyValue { - return DBClientConnectionPoolNameKey.String(val) -} - -// DBCollectionName returns an attribute KeyValue conforming to the -// "db.collection.name" semantic conventions. It represents the name of a -// collection (table, container) within the database. -func DBCollectionName(val string) attribute.KeyValue { - return DBCollectionNameKey.String(val) -} - -// DBNamespace returns an attribute KeyValue conforming to the "db.namespace" -// semantic conventions. It represents the name of the database, fully qualified -// within the server address and port. -func DBNamespace(val string) attribute.KeyValue { - return DBNamespaceKey.String(val) -} - -// DBOperationBatchSize returns an attribute KeyValue conforming to the -// "db.operation.batch.size" semantic conventions. It represents the number of -// queries included in a batch operation. -func DBOperationBatchSize(val int) attribute.KeyValue { - return DBOperationBatchSizeKey.Int(val) -} - -// DBOperationName returns an attribute KeyValue conforming to the -// "db.operation.name" semantic conventions. It represents the name of the -// operation or command being executed. -func DBOperationName(val string) attribute.KeyValue { - return DBOperationNameKey.String(val) -} - -// DBOperationParameter returns an attribute KeyValue conforming to the -// "db.operation.parameter" semantic conventions. It represents a database -// operation parameter, with `` being the parameter name, and the attribute -// value being a string representation of the parameter value. -func DBOperationParameter(key string, val string) attribute.KeyValue { - return attribute.String("db.operation.parameter."+key, val) -} - -// DBQueryParameter returns an attribute KeyValue conforming to the -// "db.query.parameter" semantic conventions. It represents a database query -// parameter, with `` being the parameter name, and the attribute value -// being a string representation of the parameter value. -func DBQueryParameter(key string, val string) attribute.KeyValue { - return attribute.String("db.query.parameter."+key, val) -} - -// DBQuerySummary returns an attribute KeyValue conforming to the -// "db.query.summary" semantic conventions. It represents the low cardinality -// summary of a database query. -func DBQuerySummary(val string) attribute.KeyValue { - return DBQuerySummaryKey.String(val) -} - -// DBQueryText returns an attribute KeyValue conforming to the "db.query.text" -// semantic conventions. It represents the database query being executed. -func DBQueryText(val string) attribute.KeyValue { - return DBQueryTextKey.String(val) -} - -// DBResponseReturnedRows returns an attribute KeyValue conforming to the -// "db.response.returned_rows" semantic conventions. It represents the number of -// rows returned by the operation. -func DBResponseReturnedRows(val int) attribute.KeyValue { - return DBResponseReturnedRowsKey.Int(val) -} - -// DBResponseStatusCode returns an attribute KeyValue conforming to the -// "db.response.status_code" semantic conventions. It represents the database -// response status code. -func DBResponseStatusCode(val string) attribute.KeyValue { - return DBResponseStatusCodeKey.String(val) -} - -// DBStoredProcedureName returns an attribute KeyValue conforming to the -// "db.stored_procedure.name" semantic conventions. It represents the name of a -// stored procedure within the database. -func DBStoredProcedureName(val string) attribute.KeyValue { - return DBStoredProcedureNameKey.String(val) -} - -// Enum values for db.client.connection.state -var ( - // idle - // Stability: development - DBClientConnectionStateIdle = DBClientConnectionStateKey.String("idle") - // used - // Stability: development - DBClientConnectionStateUsed = DBClientConnectionStateKey.String("used") -) - -// Enum values for db.system.name -var ( - // Some other SQL database. Fallback only. - // Stability: development - DBSystemNameOtherSQL = DBSystemNameKey.String("other_sql") - // [Adabas (Adaptable Database System)] - // Stability: development - // - // [Adabas (Adaptable Database System)]: https://documentation.softwareag.com/?pf=adabas - DBSystemNameSoftwareagAdabas = DBSystemNameKey.String("softwareag.adabas") - // [Actian Ingres] - // Stability: development - // - // [Actian Ingres]: https://www.actian.com/databases/ingres/ - DBSystemNameActianIngres = DBSystemNameKey.String("actian.ingres") - // [Amazon DynamoDB] - // Stability: development - // - // [Amazon DynamoDB]: https://aws.amazon.com/pm/dynamodb/ - DBSystemNameAWSDynamoDB = DBSystemNameKey.String("aws.dynamodb") - // [Amazon Redshift] - // Stability: development - // - // [Amazon Redshift]: https://aws.amazon.com/redshift/ - DBSystemNameAWSRedshift = DBSystemNameKey.String("aws.redshift") - // [Azure Cosmos DB] - // Stability: development - // - // [Azure Cosmos DB]: https://learn.microsoft.com/azure/cosmos-db - DBSystemNameAzureCosmosDB = DBSystemNameKey.String("azure.cosmosdb") - // [InterSystems Caché] - // Stability: development - // - // [InterSystems Caché]: https://www.intersystems.com/products/cache/ - DBSystemNameIntersystemsCache = DBSystemNameKey.String("intersystems.cache") - // [Apache Cassandra] - // Stability: development - // - // [Apache Cassandra]: https://cassandra.apache.org/ - DBSystemNameCassandra = DBSystemNameKey.String("cassandra") - // [ClickHouse] - // Stability: development - // - // [ClickHouse]: https://clickhouse.com/ - DBSystemNameClickHouse = DBSystemNameKey.String("clickhouse") - // [CockroachDB] - // Stability: development - // - // [CockroachDB]: https://www.cockroachlabs.com/ - DBSystemNameCockroachDB = DBSystemNameKey.String("cockroachdb") - // [Couchbase] - // Stability: development - // - // [Couchbase]: https://www.couchbase.com/ - DBSystemNameCouchbase = DBSystemNameKey.String("couchbase") - // [Apache CouchDB] - // Stability: development - // - // [Apache CouchDB]: https://couchdb.apache.org/ - DBSystemNameCouchDB = DBSystemNameKey.String("couchdb") - // [Apache Derby] - // Stability: development - // - // [Apache Derby]: https://db.apache.org/derby/ - DBSystemNameDerby = DBSystemNameKey.String("derby") - // [Elasticsearch] - // Stability: development - // - // [Elasticsearch]: https://www.elastic.co/elasticsearch - DBSystemNameElasticsearch = DBSystemNameKey.String("elasticsearch") - // [Firebird] - // Stability: development - // - // [Firebird]: https://www.firebirdsql.org/ - DBSystemNameFirebirdSQL = DBSystemNameKey.String("firebirdsql") - // [Google Cloud Spanner] - // Stability: development - // - // [Google Cloud Spanner]: https://cloud.google.com/spanner - DBSystemNameGCPSpanner = DBSystemNameKey.String("gcp.spanner") - // [Apache Geode] - // Stability: development - // - // [Apache Geode]: https://geode.apache.org/ - DBSystemNameGeode = DBSystemNameKey.String("geode") - // [H2 Database] - // Stability: development - // - // [H2 Database]: https://h2database.com/ - DBSystemNameH2database = DBSystemNameKey.String("h2database") - // [Apache HBase] - // Stability: development - // - // [Apache HBase]: https://hbase.apache.org/ - DBSystemNameHBase = DBSystemNameKey.String("hbase") - // [Apache Hive] - // Stability: development - // - // [Apache Hive]: https://hive.apache.org/ - DBSystemNameHive = DBSystemNameKey.String("hive") - // [HyperSQL Database] - // Stability: development - // - // [HyperSQL Database]: https://hsqldb.org/ - DBSystemNameHSQLDB = DBSystemNameKey.String("hsqldb") - // [IBM Db2] - // Stability: development - // - // [IBM Db2]: https://www.ibm.com/db2 - DBSystemNameIBMDB2 = DBSystemNameKey.String("ibm.db2") - // [IBM Informix] - // Stability: development - // - // [IBM Informix]: https://www.ibm.com/products/informix - DBSystemNameIBMInformix = DBSystemNameKey.String("ibm.informix") - // [IBM Netezza] - // Stability: development - // - // [IBM Netezza]: https://www.ibm.com/products/netezza - DBSystemNameIBMNetezza = DBSystemNameKey.String("ibm.netezza") - // [InfluxDB] - // Stability: development - // - // [InfluxDB]: https://www.influxdata.com/ - DBSystemNameInfluxDB = DBSystemNameKey.String("influxdb") - // [Instant] - // Stability: development - // - // [Instant]: https://www.instantdb.com/ - DBSystemNameInstantDB = DBSystemNameKey.String("instantdb") - // [MariaDB] - // Stability: stable - // - // [MariaDB]: https://mariadb.org/ - DBSystemNameMariaDB = DBSystemNameKey.String("mariadb") - // [Memcached] - // Stability: development - // - // [Memcached]: https://memcached.org/ - DBSystemNameMemcached = DBSystemNameKey.String("memcached") - // [MongoDB] - // Stability: development - // - // [MongoDB]: https://www.mongodb.com/ - DBSystemNameMongoDB = DBSystemNameKey.String("mongodb") - // [Microsoft SQL Server] - // Stability: stable - // - // [Microsoft SQL Server]: https://www.microsoft.com/sql-server - DBSystemNameMicrosoftSQLServer = DBSystemNameKey.String("microsoft.sql_server") - // [MySQL] - // Stability: stable - // - // [MySQL]: https://www.mysql.com/ - DBSystemNameMySQL = DBSystemNameKey.String("mysql") - // [Neo4j] - // Stability: development - // - // [Neo4j]: https://neo4j.com/ - DBSystemNameNeo4j = DBSystemNameKey.String("neo4j") - // [OpenSearch] - // Stability: development - // - // [OpenSearch]: https://opensearch.org/ - DBSystemNameOpenSearch = DBSystemNameKey.String("opensearch") - // [Oracle Database] - // Stability: development - // - // [Oracle Database]: https://www.oracle.com/database/ - DBSystemNameOracleDB = DBSystemNameKey.String("oracle.db") - // [PostgreSQL] - // Stability: stable - // - // [PostgreSQL]: https://www.postgresql.org/ - DBSystemNamePostgreSQL = DBSystemNameKey.String("postgresql") - // [Redis] - // Stability: development - // - // [Redis]: https://redis.io/ - DBSystemNameRedis = DBSystemNameKey.String("redis") - // [SAP HANA] - // Stability: development - // - // [SAP HANA]: https://www.sap.com/products/technology-platform/hana/what-is-sap-hana.html - DBSystemNameSAPHANA = DBSystemNameKey.String("sap.hana") - // [SAP MaxDB] - // Stability: development - // - // [SAP MaxDB]: https://maxdb.sap.com/ - DBSystemNameSAPMaxDB = DBSystemNameKey.String("sap.maxdb") - // [SQLite] - // Stability: development - // - // [SQLite]: https://www.sqlite.org/ - DBSystemNameSQLite = DBSystemNameKey.String("sqlite") - // [Teradata] - // Stability: development - // - // [Teradata]: https://www.teradata.com/ - DBSystemNameTeradata = DBSystemNameKey.String("teradata") - // [Trino] - // Stability: development - // - // [Trino]: https://trino.io/ - DBSystemNameTrino = DBSystemNameKey.String("trino") -) - -// Namespace: deployment -const ( - // DeploymentEnvironmentNameKey is the attribute Key conforming to the - // "deployment.environment.name" semantic conventions. It represents the name of - // the [deployment environment] (aka deployment tier). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "staging", "production" - // Note: `deployment.environment.name` does not affect the uniqueness - // constraints defined through - // the `service.namespace`, `service.name` and `service.instance.id` resource - // attributes. - // This implies that resources carrying the following attribute combinations - // MUST be - // considered to be identifying the same service: - // - // - `service.name=frontend`, `deployment.environment.name=production` - // - `service.name=frontend`, `deployment.environment.name=staging`. - // - // - // [deployment environment]: https://wikipedia.org/wiki/Deployment_environment - DeploymentEnvironmentNameKey = attribute.Key("deployment.environment.name") - - // DeploymentIDKey is the attribute Key conforming to the "deployment.id" - // semantic conventions. It represents the id of the deployment. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1208" - DeploymentIDKey = attribute.Key("deployment.id") - - // DeploymentNameKey is the attribute Key conforming to the "deployment.name" - // semantic conventions. It represents the name of the deployment. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "deploy my app", "deploy-frontend" - DeploymentNameKey = attribute.Key("deployment.name") - - // DeploymentStatusKey is the attribute Key conforming to the - // "deployment.status" semantic conventions. It represents the status of the - // deployment. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - DeploymentStatusKey = attribute.Key("deployment.status") -) - -// DeploymentEnvironmentName returns an attribute KeyValue conforming to the -// "deployment.environment.name" semantic conventions. It represents the name of -// the [deployment environment] (aka deployment tier). -// -// [deployment environment]: https://wikipedia.org/wiki/Deployment_environment -func DeploymentEnvironmentName(val string) attribute.KeyValue { - return DeploymentEnvironmentNameKey.String(val) -} - -// DeploymentID returns an attribute KeyValue conforming to the "deployment.id" -// semantic conventions. It represents the id of the deployment. -func DeploymentID(val string) attribute.KeyValue { - return DeploymentIDKey.String(val) -} - -// DeploymentName returns an attribute KeyValue conforming to the -// "deployment.name" semantic conventions. It represents the name of the -// deployment. -func DeploymentName(val string) attribute.KeyValue { - return DeploymentNameKey.String(val) -} - -// Enum values for deployment.status -var ( - // failed - // Stability: development - DeploymentStatusFailed = DeploymentStatusKey.String("failed") - // succeeded - // Stability: development - DeploymentStatusSucceeded = DeploymentStatusKey.String("succeeded") -) - -// Namespace: destination -const ( - // DestinationAddressKey is the attribute Key conforming to the - // "destination.address" semantic conventions. It represents the destination - // address - domain name if available without reverse DNS lookup; otherwise, IP - // address or Unix domain socket name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "destination.example.com", "10.1.2.80", "/tmp/my.sock" - // Note: When observed from the source side, and when communicating through an - // intermediary, `destination.address` SHOULD represent the destination address - // behind any intermediaries, for example proxies, if it's available. - DestinationAddressKey = attribute.Key("destination.address") - - // DestinationPortKey is the attribute Key conforming to the "destination.port" - // semantic conventions. It represents the destination port number. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 3389, 2888 - DestinationPortKey = attribute.Key("destination.port") -) - -// DestinationAddress returns an attribute KeyValue conforming to the -// "destination.address" semantic conventions. It represents the destination -// address - domain name if available without reverse DNS lookup; otherwise, IP -// address or Unix domain socket name. -func DestinationAddress(val string) attribute.KeyValue { - return DestinationAddressKey.String(val) -} - -// DestinationPort returns an attribute KeyValue conforming to the -// "destination.port" semantic conventions. It represents the destination port -// number. -func DestinationPort(val int) attribute.KeyValue { - return DestinationPortKey.Int(val) -} - -// Namespace: device -const ( - // DeviceIDKey is the attribute Key conforming to the "device.id" semantic - // conventions. It represents a unique identifier representing the device. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "123456789012345", "01:23:45:67:89:AB" - // Note: Its value SHOULD be identical for all apps on a device and it SHOULD - // NOT change if an app is uninstalled and re-installed. - // However, it might be resettable by the user for all apps on a device. - // Hardware IDs (e.g. vendor-specific serial number, IMEI or MAC address) MAY be - // used as values. - // - // More information about Android identifier best practices can be found in the - // [Android user data IDs guide]. - // - // > [!WARNING]> This attribute may contain sensitive (PII) information. Caution - // > should be taken when storing personal data or anything which can identify a - // > user. GDPR and data protection laws may apply, - // > ensure you do your own due diligence.> Due to these reasons, this - // > identifier is not recommended for consumer applications and will likely - // > result in rejection from both Google Play and App Store. - // > However, it may be appropriate for specific enterprise scenarios, such as - // > kiosk devices or enterprise-managed devices, with appropriate compliance - // > clearance. - // > Any instrumentation providing this identifier MUST implement it as an - // > opt-in feature.> See [`app.installation.id`]> for a more - // > privacy-preserving alternative. - // - // [Android user data IDs guide]: https://developer.android.com/training/articles/user-data-ids - // [`app.installation.id`]: /docs/registry/attributes/app.md#app-installation-id - DeviceIDKey = attribute.Key("device.id") - - // DeviceManufacturerKey is the attribute Key conforming to the - // "device.manufacturer" semantic conventions. It represents the name of the - // device manufacturer. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Apple", "Samsung" - // Note: The Android OS provides this field via [Build]. iOS apps SHOULD - // hardcode the value `Apple`. - // - // [Build]: https://developer.android.com/reference/android/os/Build#MANUFACTURER - DeviceManufacturerKey = attribute.Key("device.manufacturer") - - // DeviceModelIdentifierKey is the attribute Key conforming to the - // "device.model.identifier" semantic conventions. It represents the model - // identifier for the device. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "iPhone3,4", "SM-G920F" - // Note: It's recommended this value represents a machine-readable version of - // the model identifier rather than the market or consumer-friendly name of the - // device. - DeviceModelIdentifierKey = attribute.Key("device.model.identifier") - - // DeviceModelNameKey is the attribute Key conforming to the "device.model.name" - // semantic conventions. It represents the marketing name for the device model. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "iPhone 6s Plus", "Samsung Galaxy S6" - // Note: It's recommended this value represents a human-readable version of the - // device model rather than a machine-readable alternative. - DeviceModelNameKey = attribute.Key("device.model.name") -) - -// DeviceID returns an attribute KeyValue conforming to the "device.id" semantic -// conventions. It represents a unique identifier representing the device. -func DeviceID(val string) attribute.KeyValue { - return DeviceIDKey.String(val) -} - -// DeviceManufacturer returns an attribute KeyValue conforming to the -// "device.manufacturer" semantic conventions. It represents the name of the -// device manufacturer. -func DeviceManufacturer(val string) attribute.KeyValue { - return DeviceManufacturerKey.String(val) -} - -// DeviceModelIdentifier returns an attribute KeyValue conforming to the -// "device.model.identifier" semantic conventions. It represents the model -// identifier for the device. -func DeviceModelIdentifier(val string) attribute.KeyValue { - return DeviceModelIdentifierKey.String(val) -} - -// DeviceModelName returns an attribute KeyValue conforming to the -// "device.model.name" semantic conventions. It represents the marketing name for -// the device model. -func DeviceModelName(val string) attribute.KeyValue { - return DeviceModelNameKey.String(val) -} - -// Namespace: disk -const ( - // DiskIODirectionKey is the attribute Key conforming to the "disk.io.direction" - // semantic conventions. It represents the disk IO operation direction. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "read" - DiskIODirectionKey = attribute.Key("disk.io.direction") -) - -// Enum values for disk.io.direction -var ( - // read - // Stability: development - DiskIODirectionRead = DiskIODirectionKey.String("read") - // write - // Stability: development - DiskIODirectionWrite = DiskIODirectionKey.String("write") -) - -// Namespace: dns -const ( - // DNSAnswersKey is the attribute Key conforming to the "dns.answers" semantic - // conventions. It represents the list of IPv4 or IPv6 addresses resolved during - // DNS lookup. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "10.0.0.1", "2001:0db8:85a3:0000:0000:8a2e:0370:7334" - DNSAnswersKey = attribute.Key("dns.answers") - - // DNSQuestionNameKey is the attribute Key conforming to the "dns.question.name" - // semantic conventions. It represents the name being queried. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "www.example.com", "opentelemetry.io" - // Note: The name represents the queried domain name as it appears in the DNS - // query without any additional normalization. - DNSQuestionNameKey = attribute.Key("dns.question.name") -) - -// DNSAnswers returns an attribute KeyValue conforming to the "dns.answers" -// semantic conventions. It represents the list of IPv4 or IPv6 addresses -// resolved during DNS lookup. -func DNSAnswers(val ...string) attribute.KeyValue { - return DNSAnswersKey.StringSlice(val) -} - -// DNSQuestionName returns an attribute KeyValue conforming to the -// "dns.question.name" semantic conventions. It represents the name being -// queried. -func DNSQuestionName(val string) attribute.KeyValue { - return DNSQuestionNameKey.String(val) -} - -// Namespace: elasticsearch -const ( - // ElasticsearchNodeNameKey is the attribute Key conforming to the - // "elasticsearch.node.name" semantic conventions. It represents the represents - // the human-readable identifier of the node/instance to which a request was - // routed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "instance-0000000001" - ElasticsearchNodeNameKey = attribute.Key("elasticsearch.node.name") -) - -// ElasticsearchNodeName returns an attribute KeyValue conforming to the -// "elasticsearch.node.name" semantic conventions. It represents the represents -// the human-readable identifier of the node/instance to which a request was -// routed. -func ElasticsearchNodeName(val string) attribute.KeyValue { - return ElasticsearchNodeNameKey.String(val) -} - -// Namespace: enduser -const ( - // EnduserIDKey is the attribute Key conforming to the "enduser.id" semantic - // conventions. It represents the unique identifier of an end user in the - // system. It maybe a username, email address, or other identifier. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "username" - // Note: Unique identifier of an end user in the system. - // - // > [!Warning] - // > This field contains sensitive (PII) information. - EnduserIDKey = attribute.Key("enduser.id") - - // EnduserPseudoIDKey is the attribute Key conforming to the "enduser.pseudo.id" - // semantic conventions. It represents the pseudonymous identifier of an end - // user. This identifier should be a random value that is not directly linked or - // associated with the end user's actual identity. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "QdH5CAWJgqVT4rOr0qtumf" - // Note: Pseudonymous identifier of an end user. - // - // > [!Warning] - // > This field contains sensitive (linkable PII) information. - EnduserPseudoIDKey = attribute.Key("enduser.pseudo.id") -) - -// EnduserID returns an attribute KeyValue conforming to the "enduser.id" -// semantic conventions. It represents the unique identifier of an end user in -// the system. It maybe a username, email address, or other identifier. -func EnduserID(val string) attribute.KeyValue { - return EnduserIDKey.String(val) -} - -// EnduserPseudoID returns an attribute KeyValue conforming to the -// "enduser.pseudo.id" semantic conventions. It represents the pseudonymous -// identifier of an end user. This identifier should be a random value that is -// not directly linked or associated with the end user's actual identity. -func EnduserPseudoID(val string) attribute.KeyValue { - return EnduserPseudoIDKey.String(val) -} - -// Namespace: error -const ( - // ErrorMessageKey is the attribute Key conforming to the "error.message" - // semantic conventions. It represents a message providing more detail about an - // error in human-readable form. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Unexpected input type: string", "The user has exceeded their - // storage quota" - // Note: `error.message` should provide additional context and detail about an - // error. - // It is NOT RECOMMENDED to duplicate the value of `error.type` in - // `error.message`. - // It is also NOT RECOMMENDED to duplicate the value of `exception.message` in - // `error.message`. - // - // `error.message` is NOT RECOMMENDED for metrics or spans due to its unbounded - // cardinality and overlap with span status. - ErrorMessageKey = attribute.Key("error.message") - - // ErrorTypeKey is the attribute Key conforming to the "error.type" semantic - // conventions. It represents the describes a class of error the operation ended - // with. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "timeout", "java.net.UnknownHostException", - // "server_certificate_invalid", "500" - // Note: The `error.type` SHOULD be predictable, and SHOULD have low - // cardinality. - // - // When `error.type` is set to a type (e.g., an exception type), its - // canonical class name identifying the type within the artifact SHOULD be used. - // - // Instrumentations SHOULD document the list of errors they report. - // - // The cardinality of `error.type` within one instrumentation library SHOULD be - // low. - // Telemetry consumers that aggregate data from multiple instrumentation - // libraries and applications - // should be prepared for `error.type` to have high cardinality at query time - // when no - // additional filters are applied. - // - // If the operation has completed successfully, instrumentations SHOULD NOT set - // `error.type`. - // - // If a specific domain defines its own set of error identifiers (such as HTTP - // or RPC status codes), - // it's RECOMMENDED to: - // - // - Use a domain-specific attribute - // - Set `error.type` to capture all errors, regardless of whether they are - // defined within the domain-specific set or not. - ErrorTypeKey = attribute.Key("error.type") -) - -// ErrorMessage returns an attribute KeyValue conforming to the "error.message" -// semantic conventions. It represents a message providing more detail about an -// error in human-readable form. -func ErrorMessage(val string) attribute.KeyValue { - return ErrorMessageKey.String(val) -} - -// Enum values for error.type -var ( - // A fallback error value to be used when the instrumentation doesn't define a - // custom value. - // - // Stability: stable - ErrorTypeOther = ErrorTypeKey.String("_OTHER") -) - -// Namespace: exception -const ( - // ExceptionMessageKey is the attribute Key conforming to the - // "exception.message" semantic conventions. It represents the exception - // message. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "Division by zero", "Can't convert 'int' object to str implicitly" - ExceptionMessageKey = attribute.Key("exception.message") - - // ExceptionStacktraceKey is the attribute Key conforming to the - // "exception.stacktrace" semantic conventions. It represents a stacktrace as a - // string in the natural representation for the language runtime. The - // representation is to be determined and documented by each language SIG. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: Exception in thread "main" java.lang.RuntimeException: Test - // exception\n at com.example.GenerateTrace.methodB(GenerateTrace.java:13)\n at - // com.example.GenerateTrace.methodA(GenerateTrace.java:9)\n at - // com.example.GenerateTrace.main(GenerateTrace.java:5) - ExceptionStacktraceKey = attribute.Key("exception.stacktrace") - - // ExceptionTypeKey is the attribute Key conforming to the "exception.type" - // semantic conventions. It represents the type of the exception (its - // fully-qualified class name, if applicable). The dynamic type of the exception - // should be preferred over the static type in languages that support it. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "java.net.ConnectException", "OSError" - ExceptionTypeKey = attribute.Key("exception.type") -) - -// ExceptionMessage returns an attribute KeyValue conforming to the -// "exception.message" semantic conventions. It represents the exception message. -func ExceptionMessage(val string) attribute.KeyValue { - return ExceptionMessageKey.String(val) -} - -// ExceptionStacktrace returns an attribute KeyValue conforming to the -// "exception.stacktrace" semantic conventions. It represents a stacktrace as a -// string in the natural representation for the language runtime. The -// representation is to be determined and documented by each language SIG. -func ExceptionStacktrace(val string) attribute.KeyValue { - return ExceptionStacktraceKey.String(val) -} - -// ExceptionType returns an attribute KeyValue conforming to the "exception.type" -// semantic conventions. It represents the type of the exception (its -// fully-qualified class name, if applicable). The dynamic type of the exception -// should be preferred over the static type in languages that support it. -func ExceptionType(val string) attribute.KeyValue { - return ExceptionTypeKey.String(val) -} - -// Namespace: faas -const ( - // FaaSColdstartKey is the attribute Key conforming to the "faas.coldstart" - // semantic conventions. It represents a boolean that is true if the serverless - // function is executed for the first time (aka cold-start). - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - FaaSColdstartKey = attribute.Key("faas.coldstart") - - // FaaSCronKey is the attribute Key conforming to the "faas.cron" semantic - // conventions. It represents a string containing the schedule period as - // [Cron Expression]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0/5 * * * ? * - // - // [Cron Expression]: https://docs.oracle.com/cd/E12058_01/doc/doc.1014/e12030/cron_expressions.htm - FaaSCronKey = attribute.Key("faas.cron") - - // FaaSDocumentCollectionKey is the attribute Key conforming to the - // "faas.document.collection" semantic conventions. It represents the name of - // the source on which the triggering operation was performed. For example, in - // Cloud Storage or S3 corresponds to the bucket name, and in Cosmos DB to the - // database name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "myBucketName", "myDbName" - FaaSDocumentCollectionKey = attribute.Key("faas.document.collection") - - // FaaSDocumentNameKey is the attribute Key conforming to the - // "faas.document.name" semantic conventions. It represents the document - // name/table subjected to the operation. For example, in Cloud Storage or S3 is - // the name of the file, and in Cosmos DB the table name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "myFile.txt", "myTableName" - FaaSDocumentNameKey = attribute.Key("faas.document.name") - - // FaaSDocumentOperationKey is the attribute Key conforming to the - // "faas.document.operation" semantic conventions. It represents the describes - // the type of the operation that was performed on the data. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - FaaSDocumentOperationKey = attribute.Key("faas.document.operation") - - // FaaSDocumentTimeKey is the attribute Key conforming to the - // "faas.document.time" semantic conventions. It represents a string containing - // the time when the data was accessed in the [ISO 8601] format expressed in - // [UTC]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 2020-01-23T13:47:06Z - // - // [ISO 8601]: https://www.iso.org/iso-8601-date-and-time-format.html - // [UTC]: https://www.w3.org/TR/NOTE-datetime - FaaSDocumentTimeKey = attribute.Key("faas.document.time") - - // FaaSInstanceKey is the attribute Key conforming to the "faas.instance" - // semantic conventions. It represents the execution environment ID as a string, - // that will be potentially reused for other invocations to the same - // function/function version. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2021/06/28/[$LATEST]2f399eb14537447da05ab2a2e39309de" - // Note: - **AWS Lambda:** Use the (full) log stream name. - FaaSInstanceKey = attribute.Key("faas.instance") - - // FaaSInvocationIDKey is the attribute Key conforming to the - // "faas.invocation_id" semantic conventions. It represents the invocation ID of - // the current function invocation. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: af9d5aa4-a685-4c5f-a22b-444f80b3cc28 - FaaSInvocationIDKey = attribute.Key("faas.invocation_id") - - // FaaSInvokedNameKey is the attribute Key conforming to the "faas.invoked_name" - // semantic conventions. It represents the name of the invoked function. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: my-function - // Note: SHOULD be equal to the `faas.name` resource attribute of the invoked - // function. - FaaSInvokedNameKey = attribute.Key("faas.invoked_name") - - // FaaSInvokedProviderKey is the attribute Key conforming to the - // "faas.invoked_provider" semantic conventions. It represents the cloud - // provider of the invoked function. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: SHOULD be equal to the `cloud.provider` resource attribute of the - // invoked function. - FaaSInvokedProviderKey = attribute.Key("faas.invoked_provider") - - // FaaSInvokedRegionKey is the attribute Key conforming to the - // "faas.invoked_region" semantic conventions. It represents the cloud region of - // the invoked function. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: eu-central-1 - // Note: SHOULD be equal to the `cloud.region` resource attribute of the invoked - // function. - FaaSInvokedRegionKey = attribute.Key("faas.invoked_region") - - // FaaSMaxMemoryKey is the attribute Key conforming to the "faas.max_memory" - // semantic conventions. It represents the amount of memory available to the - // serverless function converted to Bytes. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Note: It's recommended to set this attribute since e.g. too little memory can - // easily stop a Java AWS Lambda function from working correctly. On AWS Lambda, - // the environment variable `AWS_LAMBDA_FUNCTION_MEMORY_SIZE` provides this - // information (which must be multiplied by 1,048,576). - FaaSMaxMemoryKey = attribute.Key("faas.max_memory") - - // FaaSNameKey is the attribute Key conforming to the "faas.name" semantic - // conventions. It represents the name of the single function that this runtime - // instance executes. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-function", "myazurefunctionapp/some-function-name" - // Note: This is the name of the function as configured/deployed on the FaaS - // platform and is usually different from the name of the callback - // function (which may be stored in the - // [`code.namespace`/`code.function.name`] - // span attributes). - // - // For some cloud providers, the above definition is ambiguous. The following - // definition of function name MUST be used for this attribute - // (and consequently the span name) for the listed cloud providers/products: - // - // - **Azure:** The full name `/`, i.e., function app name - // followed by a forward slash followed by the function name (this form - // can also be seen in the resource JSON for the function). - // This means that a span attribute MUST be used, as an Azure function - // app can host multiple functions that would usually share - // a TracerProvider (see also the `cloud.resource_id` attribute). - // - // - // [`code.namespace`/`code.function.name`]: /docs/general/attributes.md#source-code-attributes - FaaSNameKey = attribute.Key("faas.name") - - // FaaSTimeKey is the attribute Key conforming to the "faas.time" semantic - // conventions. It represents a string containing the function invocation time - // in the [ISO 8601] format expressed in [UTC]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 2020-01-23T13:47:06Z - // - // [ISO 8601]: https://www.iso.org/iso-8601-date-and-time-format.html - // [UTC]: https://www.w3.org/TR/NOTE-datetime - FaaSTimeKey = attribute.Key("faas.time") - - // FaaSTriggerKey is the attribute Key conforming to the "faas.trigger" semantic - // conventions. It represents the type of the trigger which caused this function - // invocation. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - FaaSTriggerKey = attribute.Key("faas.trigger") - - // FaaSVersionKey is the attribute Key conforming to the "faas.version" semantic - // conventions. It represents the immutable version of the function being - // executed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "26", "pinkfroid-00002" - // Note: Depending on the cloud provider and platform, use: - // - // - **AWS Lambda:** The [function version] - // (an integer represented as a decimal string). - // - **Google Cloud Run (Services):** The [revision] - // (i.e., the function name plus the revision suffix). - // - **Google Cloud Functions:** The value of the - // [`K_REVISION` environment variable]. - // - **Azure Functions:** Not applicable. Do not set this attribute. - // - // - // [function version]: https://docs.aws.amazon.com/lambda/latest/dg/configuration-versions.html - // [revision]: https://cloud.google.com/run/docs/managing/revisions - // [`K_REVISION` environment variable]: https://cloud.google.com/run/docs/container-contract#services-env-vars - FaaSVersionKey = attribute.Key("faas.version") -) - -// FaaSColdstart returns an attribute KeyValue conforming to the "faas.coldstart" -// semantic conventions. It represents a boolean that is true if the serverless -// function is executed for the first time (aka cold-start). -func FaaSColdstart(val bool) attribute.KeyValue { - return FaaSColdstartKey.Bool(val) -} - -// FaaSCron returns an attribute KeyValue conforming to the "faas.cron" semantic -// conventions. It represents a string containing the schedule period as -// [Cron Expression]. -// -// [Cron Expression]: https://docs.oracle.com/cd/E12058_01/doc/doc.1014/e12030/cron_expressions.htm -func FaaSCron(val string) attribute.KeyValue { - return FaaSCronKey.String(val) -} - -// FaaSDocumentCollection returns an attribute KeyValue conforming to the -// "faas.document.collection" semantic conventions. It represents the name of the -// source on which the triggering operation was performed. For example, in Cloud -// Storage or S3 corresponds to the bucket name, and in Cosmos DB to the database -// name. -func FaaSDocumentCollection(val string) attribute.KeyValue { - return FaaSDocumentCollectionKey.String(val) -} - -// FaaSDocumentName returns an attribute KeyValue conforming to the -// "faas.document.name" semantic conventions. It represents the document -// name/table subjected to the operation. For example, in Cloud Storage or S3 is -// the name of the file, and in Cosmos DB the table name. -func FaaSDocumentName(val string) attribute.KeyValue { - return FaaSDocumentNameKey.String(val) -} - -// FaaSDocumentTime returns an attribute KeyValue conforming to the -// "faas.document.time" semantic conventions. It represents a string containing -// the time when the data was accessed in the [ISO 8601] format expressed in -// [UTC]. -// -// [ISO 8601]: https://www.iso.org/iso-8601-date-and-time-format.html -// [UTC]: https://www.w3.org/TR/NOTE-datetime -func FaaSDocumentTime(val string) attribute.KeyValue { - return FaaSDocumentTimeKey.String(val) -} - -// FaaSInstance returns an attribute KeyValue conforming to the "faas.instance" -// semantic conventions. It represents the execution environment ID as a string, -// that will be potentially reused for other invocations to the same -// function/function version. -func FaaSInstance(val string) attribute.KeyValue { - return FaaSInstanceKey.String(val) -} - -// FaaSInvocationID returns an attribute KeyValue conforming to the -// "faas.invocation_id" semantic conventions. It represents the invocation ID of -// the current function invocation. -func FaaSInvocationID(val string) attribute.KeyValue { - return FaaSInvocationIDKey.String(val) -} - -// FaaSInvokedName returns an attribute KeyValue conforming to the -// "faas.invoked_name" semantic conventions. It represents the name of the -// invoked function. -func FaaSInvokedName(val string) attribute.KeyValue { - return FaaSInvokedNameKey.String(val) -} - -// FaaSInvokedRegion returns an attribute KeyValue conforming to the -// "faas.invoked_region" semantic conventions. It represents the cloud region of -// the invoked function. -func FaaSInvokedRegion(val string) attribute.KeyValue { - return FaaSInvokedRegionKey.String(val) -} - -// FaaSMaxMemory returns an attribute KeyValue conforming to the -// "faas.max_memory" semantic conventions. It represents the amount of memory -// available to the serverless function converted to Bytes. -func FaaSMaxMemory(val int) attribute.KeyValue { - return FaaSMaxMemoryKey.Int(val) -} - -// FaaSName returns an attribute KeyValue conforming to the "faas.name" semantic -// conventions. It represents the name of the single function that this runtime -// instance executes. -func FaaSName(val string) attribute.KeyValue { - return FaaSNameKey.String(val) -} - -// FaaSTime returns an attribute KeyValue conforming to the "faas.time" semantic -// conventions. It represents a string containing the function invocation time in -// the [ISO 8601] format expressed in [UTC]. -// -// [ISO 8601]: https://www.iso.org/iso-8601-date-and-time-format.html -// [UTC]: https://www.w3.org/TR/NOTE-datetime -func FaaSTime(val string) attribute.KeyValue { - return FaaSTimeKey.String(val) -} - -// FaaSVersion returns an attribute KeyValue conforming to the "faas.version" -// semantic conventions. It represents the immutable version of the function -// being executed. -func FaaSVersion(val string) attribute.KeyValue { - return FaaSVersionKey.String(val) -} - -// Enum values for faas.document.operation -var ( - // When a new object is created. - // Stability: development - FaaSDocumentOperationInsert = FaaSDocumentOperationKey.String("insert") - // When an object is modified. - // Stability: development - FaaSDocumentOperationEdit = FaaSDocumentOperationKey.String("edit") - // When an object is deleted. - // Stability: development - FaaSDocumentOperationDelete = FaaSDocumentOperationKey.String("delete") -) - -// Enum values for faas.invoked_provider -var ( - // Alibaba Cloud - // Stability: development - FaaSInvokedProviderAlibabaCloud = FaaSInvokedProviderKey.String("alibaba_cloud") - // Amazon Web Services - // Stability: development - FaaSInvokedProviderAWS = FaaSInvokedProviderKey.String("aws") - // Microsoft Azure - // Stability: development - FaaSInvokedProviderAzure = FaaSInvokedProviderKey.String("azure") - // Google Cloud Platform - // Stability: development - FaaSInvokedProviderGCP = FaaSInvokedProviderKey.String("gcp") - // Tencent Cloud - // Stability: development - FaaSInvokedProviderTencentCloud = FaaSInvokedProviderKey.String("tencent_cloud") -) - -// Enum values for faas.trigger -var ( - // A response to some data source operation such as a database or filesystem - // read/write - // Stability: development - FaaSTriggerDatasource = FaaSTriggerKey.String("datasource") - // To provide an answer to an inbound HTTP request - // Stability: development - FaaSTriggerHTTP = FaaSTriggerKey.String("http") - // A function is set to be executed when messages are sent to a messaging system - // Stability: development - FaaSTriggerPubSub = FaaSTriggerKey.String("pubsub") - // A function is scheduled to be executed regularly - // Stability: development - FaaSTriggerTimer = FaaSTriggerKey.String("timer") - // If none of the others apply - // Stability: development - FaaSTriggerOther = FaaSTriggerKey.String("other") -) - -// Namespace: feature_flag -const ( - // FeatureFlagContextIDKey is the attribute Key conforming to the - // "feature_flag.context.id" semantic conventions. It represents the unique - // identifier for the flag evaluation context. For example, the targeting key. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "5157782b-2203-4c80-a857-dbbd5e7761db" - FeatureFlagContextIDKey = attribute.Key("feature_flag.context.id") - - // FeatureFlagKeyKey is the attribute Key conforming to the "feature_flag.key" - // semantic conventions. It represents the lookup key of the feature flag. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "logo-color" - FeatureFlagKeyKey = attribute.Key("feature_flag.key") - - // FeatureFlagProviderNameKey is the attribute Key conforming to the - // "feature_flag.provider.name" semantic conventions. It represents the - // identifies the feature flag provider. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "Flag Manager" - FeatureFlagProviderNameKey = attribute.Key("feature_flag.provider.name") - - // FeatureFlagResultReasonKey is the attribute Key conforming to the - // "feature_flag.result.reason" semantic conventions. It represents the reason - // code which shows how a feature flag value was determined. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "static", "targeting_match", "error", "default" - FeatureFlagResultReasonKey = attribute.Key("feature_flag.result.reason") - - // FeatureFlagResultValueKey is the attribute Key conforming to the - // "feature_flag.result.value" semantic conventions. It represents the evaluated - // value of the feature flag. - // - // Type: any - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "#ff0000", true, 3 - // Note: With some feature flag providers, feature flag results can be quite - // large or contain private or sensitive details. - // Because of this, `feature_flag.result.variant` is often the preferred - // attribute if it is available. - // - // It may be desirable to redact or otherwise limit the size and scope of - // `feature_flag.result.value` if possible. - // Because the evaluated flag value is unstructured and may be any type, it is - // left to the instrumentation author to determine how best to achieve this. - FeatureFlagResultValueKey = attribute.Key("feature_flag.result.value") - - // FeatureFlagResultVariantKey is the attribute Key conforming to the - // "feature_flag.result.variant" semantic conventions. It represents a semantic - // identifier for an evaluated flag value. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "red", "true", "on" - // Note: A semantic identifier, commonly referred to as a variant, provides a - // means - // for referring to a value without including the value itself. This can - // provide additional context for understanding the meaning behind a value. - // For example, the variant `red` maybe be used for the value `#c05543`. - FeatureFlagResultVariantKey = attribute.Key("feature_flag.result.variant") - - // FeatureFlagSetIDKey is the attribute Key conforming to the - // "feature_flag.set.id" semantic conventions. It represents the identifier of - // the [flag set] to which the feature flag belongs. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "proj-1", "ab98sgs", "service1/dev" - // - // [flag set]: https://openfeature.dev/specification/glossary/#flag-set - FeatureFlagSetIDKey = attribute.Key("feature_flag.set.id") - - // FeatureFlagVersionKey is the attribute Key conforming to the - // "feature_flag.version" semantic conventions. It represents the version of the - // ruleset used during the evaluation. This may be any stable value which - // uniquely identifies the ruleset. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "1", "01ABCDEF" - FeatureFlagVersionKey = attribute.Key("feature_flag.version") -) - -// FeatureFlagContextID returns an attribute KeyValue conforming to the -// "feature_flag.context.id" semantic conventions. It represents the unique -// identifier for the flag evaluation context. For example, the targeting key. -func FeatureFlagContextID(val string) attribute.KeyValue { - return FeatureFlagContextIDKey.String(val) -} - -// FeatureFlagKey returns an attribute KeyValue conforming to the -// "feature_flag.key" semantic conventions. It represents the lookup key of the -// feature flag. -func FeatureFlagKey(val string) attribute.KeyValue { - return FeatureFlagKeyKey.String(val) -} - -// FeatureFlagProviderName returns an attribute KeyValue conforming to the -// "feature_flag.provider.name" semantic conventions. It represents the -// identifies the feature flag provider. -func FeatureFlagProviderName(val string) attribute.KeyValue { - return FeatureFlagProviderNameKey.String(val) -} - -// FeatureFlagResultVariant returns an attribute KeyValue conforming to the -// "feature_flag.result.variant" semantic conventions. It represents a semantic -// identifier for an evaluated flag value. -func FeatureFlagResultVariant(val string) attribute.KeyValue { - return FeatureFlagResultVariantKey.String(val) -} - -// FeatureFlagSetID returns an attribute KeyValue conforming to the -// "feature_flag.set.id" semantic conventions. It represents the identifier of -// the [flag set] to which the feature flag belongs. -// -// [flag set]: https://openfeature.dev/specification/glossary/#flag-set -func FeatureFlagSetID(val string) attribute.KeyValue { - return FeatureFlagSetIDKey.String(val) -} - -// FeatureFlagVersion returns an attribute KeyValue conforming to the -// "feature_flag.version" semantic conventions. It represents the version of the -// ruleset used during the evaluation. This may be any stable value which -// uniquely identifies the ruleset. -func FeatureFlagVersion(val string) attribute.KeyValue { - return FeatureFlagVersionKey.String(val) -} - -// Enum values for feature_flag.result.reason -var ( - // The resolved value is static (no dynamic evaluation). - // Stability: release_candidate - FeatureFlagResultReasonStatic = FeatureFlagResultReasonKey.String("static") - // The resolved value fell back to a pre-configured value (no dynamic evaluation - // occurred or dynamic evaluation yielded no result). - // Stability: release_candidate - FeatureFlagResultReasonDefault = FeatureFlagResultReasonKey.String("default") - // The resolved value was the result of a dynamic evaluation, such as a rule or - // specific user-targeting. - // Stability: release_candidate - FeatureFlagResultReasonTargetingMatch = FeatureFlagResultReasonKey.String("targeting_match") - // The resolved value was the result of pseudorandom assignment. - // Stability: release_candidate - FeatureFlagResultReasonSplit = FeatureFlagResultReasonKey.String("split") - // The resolved value was retrieved from cache. - // Stability: release_candidate - FeatureFlagResultReasonCached = FeatureFlagResultReasonKey.String("cached") - // The resolved value was the result of the flag being disabled in the - // management system. - // Stability: release_candidate - FeatureFlagResultReasonDisabled = FeatureFlagResultReasonKey.String("disabled") - // The reason for the resolved value could not be determined. - // Stability: release_candidate - FeatureFlagResultReasonUnknown = FeatureFlagResultReasonKey.String("unknown") - // The resolved value is non-authoritative or possibly out of date - // Stability: release_candidate - FeatureFlagResultReasonStale = FeatureFlagResultReasonKey.String("stale") - // The resolved value was the result of an error. - // Stability: release_candidate - FeatureFlagResultReasonError = FeatureFlagResultReasonKey.String("error") -) - -// Namespace: file -const ( - // FileAccessedKey is the attribute Key conforming to the "file.accessed" - // semantic conventions. It represents the time when the file was last accessed, - // in ISO 8601 format. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2021-01-01T12:00:00Z" - // Note: This attribute might not be supported by some file systems — NFS, - // FAT32, in embedded OS, etc. - FileAccessedKey = attribute.Key("file.accessed") - - // FileAttributesKey is the attribute Key conforming to the "file.attributes" - // semantic conventions. It represents the array of file attributes. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "readonly", "hidden" - // Note: Attributes names depend on the OS or file system. Here’s a - // non-exhaustive list of values expected for this attribute: `archive`, - // `compressed`, `directory`, `encrypted`, `execute`, `hidden`, `immutable`, - // `journaled`, `read`, `readonly`, `symbolic link`, `system`, `temporary`, - // `write`. - FileAttributesKey = attribute.Key("file.attributes") - - // FileChangedKey is the attribute Key conforming to the "file.changed" semantic - // conventions. It represents the time when the file attributes or metadata was - // last changed, in ISO 8601 format. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2021-01-01T12:00:00Z" - // Note: `file.changed` captures the time when any of the file's properties or - // attributes (including the content) are changed, while `file.modified` - // captures the timestamp when the file content is modified. - FileChangedKey = attribute.Key("file.changed") - - // FileCreatedKey is the attribute Key conforming to the "file.created" semantic - // conventions. It represents the time when the file was created, in ISO 8601 - // format. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2021-01-01T12:00:00Z" - // Note: This attribute might not be supported by some file systems — NFS, - // FAT32, in embedded OS, etc. - FileCreatedKey = attribute.Key("file.created") - - // FileDirectoryKey is the attribute Key conforming to the "file.directory" - // semantic conventions. It represents the directory where the file is located. - // It should include the drive letter, when appropriate. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/home/user", "C:\Program Files\MyApp" - FileDirectoryKey = attribute.Key("file.directory") - - // FileExtensionKey is the attribute Key conforming to the "file.extension" - // semantic conventions. It represents the file extension, excluding the leading - // dot. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "png", "gz" - // Note: When the file name has multiple extensions (example.tar.gz), only the - // last one should be captured ("gz", not "tar.gz"). - FileExtensionKey = attribute.Key("file.extension") - - // FileForkNameKey is the attribute Key conforming to the "file.fork_name" - // semantic conventions. It represents the name of the fork. A fork is - // additional data associated with a filesystem object. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Zone.Identifier" - // Note: On Linux, a resource fork is used to store additional data with a - // filesystem object. A file always has at least one fork for the data portion, - // and additional forks may exist. - // On NTFS, this is analogous to an Alternate Data Stream (ADS), and the default - // data stream for a file is just called $DATA. Zone.Identifier is commonly used - // by Windows to track contents downloaded from the Internet. An ADS is - // typically of the form: C:\path\to\filename.extension:some_fork_name, and - // some_fork_name is the value that should populate `fork_name`. - // `filename.extension` should populate `file.name`, and `extension` should - // populate `file.extension`. The full path, `file.path`, will include the fork - // name. - FileForkNameKey = attribute.Key("file.fork_name") - - // FileGroupIDKey is the attribute Key conforming to the "file.group.id" - // semantic conventions. It represents the primary Group ID (GID) of the file. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1000" - FileGroupIDKey = attribute.Key("file.group.id") - - // FileGroupNameKey is the attribute Key conforming to the "file.group.name" - // semantic conventions. It represents the primary group name of the file. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "users" - FileGroupNameKey = attribute.Key("file.group.name") - - // FileInodeKey is the attribute Key conforming to the "file.inode" semantic - // conventions. It represents the inode representing the file in the filesystem. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "256383" - FileInodeKey = attribute.Key("file.inode") - - // FileModeKey is the attribute Key conforming to the "file.mode" semantic - // conventions. It represents the mode of the file in octal representation. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "0640" - FileModeKey = attribute.Key("file.mode") - - // FileModifiedKey is the attribute Key conforming to the "file.modified" - // semantic conventions. It represents the time when the file content was last - // modified, in ISO 8601 format. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2021-01-01T12:00:00Z" - FileModifiedKey = attribute.Key("file.modified") - - // FileNameKey is the attribute Key conforming to the "file.name" semantic - // conventions. It represents the name of the file including the extension, - // without the directory. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "example.png" - FileNameKey = attribute.Key("file.name") - - // FileOwnerIDKey is the attribute Key conforming to the "file.owner.id" - // semantic conventions. It represents the user ID (UID) or security identifier - // (SID) of the file owner. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1000" - FileOwnerIDKey = attribute.Key("file.owner.id") - - // FileOwnerNameKey is the attribute Key conforming to the "file.owner.name" - // semantic conventions. It represents the username of the file owner. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "root" - FileOwnerNameKey = attribute.Key("file.owner.name") - - // FilePathKey is the attribute Key conforming to the "file.path" semantic - // conventions. It represents the full path to the file, including the file - // name. It should include the drive letter, when appropriate. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/home/alice/example.png", "C:\Program Files\MyApp\myapp.exe" - FilePathKey = attribute.Key("file.path") - - // FileSizeKey is the attribute Key conforming to the "file.size" semantic - // conventions. It represents the file size in bytes. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - FileSizeKey = attribute.Key("file.size") - - // FileSymbolicLinkTargetPathKey is the attribute Key conforming to the - // "file.symbolic_link.target_path" semantic conventions. It represents the path - // to the target of a symbolic link. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/usr/bin/python3" - // Note: This attribute is only applicable to symbolic links. - FileSymbolicLinkTargetPathKey = attribute.Key("file.symbolic_link.target_path") -) - -// FileAccessed returns an attribute KeyValue conforming to the "file.accessed" -// semantic conventions. It represents the time when the file was last accessed, -// in ISO 8601 format. -func FileAccessed(val string) attribute.KeyValue { - return FileAccessedKey.String(val) -} - -// FileAttributes returns an attribute KeyValue conforming to the -// "file.attributes" semantic conventions. It represents the array of file -// attributes. -func FileAttributes(val ...string) attribute.KeyValue { - return FileAttributesKey.StringSlice(val) -} - -// FileChanged returns an attribute KeyValue conforming to the "file.changed" -// semantic conventions. It represents the time when the file attributes or -// metadata was last changed, in ISO 8601 format. -func FileChanged(val string) attribute.KeyValue { - return FileChangedKey.String(val) -} - -// FileCreated returns an attribute KeyValue conforming to the "file.created" -// semantic conventions. It represents the time when the file was created, in ISO -// 8601 format. -func FileCreated(val string) attribute.KeyValue { - return FileCreatedKey.String(val) -} - -// FileDirectory returns an attribute KeyValue conforming to the "file.directory" -// semantic conventions. It represents the directory where the file is located. -// It should include the drive letter, when appropriate. -func FileDirectory(val string) attribute.KeyValue { - return FileDirectoryKey.String(val) -} - -// FileExtension returns an attribute KeyValue conforming to the "file.extension" -// semantic conventions. It represents the file extension, excluding the leading -// dot. -func FileExtension(val string) attribute.KeyValue { - return FileExtensionKey.String(val) -} - -// FileForkName returns an attribute KeyValue conforming to the "file.fork_name" -// semantic conventions. It represents the name of the fork. A fork is additional -// data associated with a filesystem object. -func FileForkName(val string) attribute.KeyValue { - return FileForkNameKey.String(val) -} - -// FileGroupID returns an attribute KeyValue conforming to the "file.group.id" -// semantic conventions. It represents the primary Group ID (GID) of the file. -func FileGroupID(val string) attribute.KeyValue { - return FileGroupIDKey.String(val) -} - -// FileGroupName returns an attribute KeyValue conforming to the -// "file.group.name" semantic conventions. It represents the primary group name -// of the file. -func FileGroupName(val string) attribute.KeyValue { - return FileGroupNameKey.String(val) -} - -// FileInode returns an attribute KeyValue conforming to the "file.inode" -// semantic conventions. It represents the inode representing the file in the -// filesystem. -func FileInode(val string) attribute.KeyValue { - return FileInodeKey.String(val) -} - -// FileMode returns an attribute KeyValue conforming to the "file.mode" semantic -// conventions. It represents the mode of the file in octal representation. -func FileMode(val string) attribute.KeyValue { - return FileModeKey.String(val) -} - -// FileModified returns an attribute KeyValue conforming to the "file.modified" -// semantic conventions. It represents the time when the file content was last -// modified, in ISO 8601 format. -func FileModified(val string) attribute.KeyValue { - return FileModifiedKey.String(val) -} - -// FileName returns an attribute KeyValue conforming to the "file.name" semantic -// conventions. It represents the name of the file including the extension, -// without the directory. -func FileName(val string) attribute.KeyValue { - return FileNameKey.String(val) -} - -// FileOwnerID returns an attribute KeyValue conforming to the "file.owner.id" -// semantic conventions. It represents the user ID (UID) or security identifier -// (SID) of the file owner. -func FileOwnerID(val string) attribute.KeyValue { - return FileOwnerIDKey.String(val) -} - -// FileOwnerName returns an attribute KeyValue conforming to the -// "file.owner.name" semantic conventions. It represents the username of the file -// owner. -func FileOwnerName(val string) attribute.KeyValue { - return FileOwnerNameKey.String(val) -} - -// FilePath returns an attribute KeyValue conforming to the "file.path" semantic -// conventions. It represents the full path to the file, including the file name. -// It should include the drive letter, when appropriate. -func FilePath(val string) attribute.KeyValue { - return FilePathKey.String(val) -} - -// FileSize returns an attribute KeyValue conforming to the "file.size" semantic -// conventions. It represents the file size in bytes. -func FileSize(val int) attribute.KeyValue { - return FileSizeKey.Int(val) -} - -// FileSymbolicLinkTargetPath returns an attribute KeyValue conforming to the -// "file.symbolic_link.target_path" semantic conventions. It represents the path -// to the target of a symbolic link. -func FileSymbolicLinkTargetPath(val string) attribute.KeyValue { - return FileSymbolicLinkTargetPathKey.String(val) -} - -// Namespace: gcp -const ( - // GCPAppHubApplicationContainerKey is the attribute Key conforming to the - // "gcp.apphub.application.container" semantic conventions. It represents the - // container within GCP where the AppHub application is defined. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "projects/my-container-project" - GCPAppHubApplicationContainerKey = attribute.Key("gcp.apphub.application.container") - - // GCPAppHubApplicationIDKey is the attribute Key conforming to the - // "gcp.apphub.application.id" semantic conventions. It represents the name of - // the application as configured in AppHub. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-application" - GCPAppHubApplicationIDKey = attribute.Key("gcp.apphub.application.id") - - // GCPAppHubApplicationLocationKey is the attribute Key conforming to the - // "gcp.apphub.application.location" semantic conventions. It represents the GCP - // zone or region where the application is defined. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "us-central1" - GCPAppHubApplicationLocationKey = attribute.Key("gcp.apphub.application.location") - - // GCPAppHubServiceCriticalityTypeKey is the attribute Key conforming to the - // "gcp.apphub.service.criticality_type" semantic conventions. It represents the - // criticality of a service indicates its importance to the business. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: [See AppHub type enum] - // - // [See AppHub type enum]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type - GCPAppHubServiceCriticalityTypeKey = attribute.Key("gcp.apphub.service.criticality_type") - - // GCPAppHubServiceEnvironmentTypeKey is the attribute Key conforming to the - // "gcp.apphub.service.environment_type" semantic conventions. It represents the - // environment of a service is the stage of a software lifecycle. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: [See AppHub environment type] - // - // [See AppHub environment type]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type_1 - GCPAppHubServiceEnvironmentTypeKey = attribute.Key("gcp.apphub.service.environment_type") - - // GCPAppHubServiceIDKey is the attribute Key conforming to the - // "gcp.apphub.service.id" semantic conventions. It represents the name of the - // service as configured in AppHub. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-service" - GCPAppHubServiceIDKey = attribute.Key("gcp.apphub.service.id") - - // GCPAppHubWorkloadCriticalityTypeKey is the attribute Key conforming to the - // "gcp.apphub.workload.criticality_type" semantic conventions. It represents - // the criticality of a workload indicates its importance to the business. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: [See AppHub type enum] - // - // [See AppHub type enum]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type - GCPAppHubWorkloadCriticalityTypeKey = attribute.Key("gcp.apphub.workload.criticality_type") - - // GCPAppHubWorkloadEnvironmentTypeKey is the attribute Key conforming to the - // "gcp.apphub.workload.environment_type" semantic conventions. It represents - // the environment of a workload is the stage of a software lifecycle. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: [See AppHub environment type] - // - // [See AppHub environment type]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type_1 - GCPAppHubWorkloadEnvironmentTypeKey = attribute.Key("gcp.apphub.workload.environment_type") - - // GCPAppHubWorkloadIDKey is the attribute Key conforming to the - // "gcp.apphub.workload.id" semantic conventions. It represents the name of the - // workload as configured in AppHub. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-workload" - GCPAppHubWorkloadIDKey = attribute.Key("gcp.apphub.workload.id") - - // GCPAppHubDestinationApplicationContainerKey is the attribute Key conforming - // to the "gcp.apphub_destination.application.container" semantic conventions. - // It represents the container within GCP where the AppHub destination - // application is defined. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "projects/my-container-project" - GCPAppHubDestinationApplicationContainerKey = attribute.Key("gcp.apphub_destination.application.container") - - // GCPAppHubDestinationApplicationIDKey is the attribute Key conforming to the - // "gcp.apphub_destination.application.id" semantic conventions. It represents - // the name of the destination application as configured in AppHub. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-application" - GCPAppHubDestinationApplicationIDKey = attribute.Key("gcp.apphub_destination.application.id") - - // GCPAppHubDestinationApplicationLocationKey is the attribute Key conforming to - // the "gcp.apphub_destination.application.location" semantic conventions. It - // represents the GCP zone or region where the destination application is - // defined. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "us-central1" - GCPAppHubDestinationApplicationLocationKey = attribute.Key("gcp.apphub_destination.application.location") - - // GCPAppHubDestinationServiceCriticalityTypeKey is the attribute Key conforming - // to the "gcp.apphub_destination.service.criticality_type" semantic - // conventions. It represents the criticality of a destination workload - // indicates its importance to the business as specified in [AppHub type enum]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [AppHub type enum]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type - GCPAppHubDestinationServiceCriticalityTypeKey = attribute.Key("gcp.apphub_destination.service.criticality_type") - - // GCPAppHubDestinationServiceEnvironmentTypeKey is the attribute Key conforming - // to the "gcp.apphub_destination.service.environment_type" semantic - // conventions. It represents the software lifecycle stage of a destination - // service as defined [AppHub environment type]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [AppHub environment type]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type_1 - GCPAppHubDestinationServiceEnvironmentTypeKey = attribute.Key("gcp.apphub_destination.service.environment_type") - - // GCPAppHubDestinationServiceIDKey is the attribute Key conforming to the - // "gcp.apphub_destination.service.id" semantic conventions. It represents the - // name of the destination service as configured in AppHub. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-service" - GCPAppHubDestinationServiceIDKey = attribute.Key("gcp.apphub_destination.service.id") - - // GCPAppHubDestinationWorkloadCriticalityTypeKey is the attribute Key - // conforming to the "gcp.apphub_destination.workload.criticality_type" semantic - // conventions. It represents the criticality of a destination workload - // indicates its importance to the business as specified in [AppHub type enum]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [AppHub type enum]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type - GCPAppHubDestinationWorkloadCriticalityTypeKey = attribute.Key("gcp.apphub_destination.workload.criticality_type") - - // GCPAppHubDestinationWorkloadEnvironmentTypeKey is the attribute Key - // conforming to the "gcp.apphub_destination.workload.environment_type" semantic - // conventions. It represents the environment of a destination workload is the - // stage of a software lifecycle as provided in the [AppHub environment type]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [AppHub environment type]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type_1 - GCPAppHubDestinationWorkloadEnvironmentTypeKey = attribute.Key("gcp.apphub_destination.workload.environment_type") - - // GCPAppHubDestinationWorkloadIDKey is the attribute Key conforming to the - // "gcp.apphub_destination.workload.id" semantic conventions. It represents the - // name of the destination workload as configured in AppHub. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-workload" - GCPAppHubDestinationWorkloadIDKey = attribute.Key("gcp.apphub_destination.workload.id") - - // GCPClientServiceKey is the attribute Key conforming to the - // "gcp.client.service" semantic conventions. It represents the identifies the - // Google Cloud service for which the official client library is intended. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "appengine", "run", "firestore", "alloydb", "spanner" - // Note: Intended to be a stable identifier for Google Cloud client libraries - // that is uniform across implementation languages. The value should be derived - // from the canonical service domain for the service; for example, - // 'foo.googleapis.com' should result in a value of 'foo'. - GCPClientServiceKey = attribute.Key("gcp.client.service") - - // GCPCloudRunJobExecutionKey is the attribute Key conforming to the - // "gcp.cloud_run.job.execution" semantic conventions. It represents the name of - // the Cloud Run [execution] being run for the Job, as set by the - // [`CLOUD_RUN_EXECUTION`] environment variable. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "job-name-xxxx", "sample-job-mdw84" - // - // [execution]: https://cloud.google.com/run/docs/managing/job-executions - // [`CLOUD_RUN_EXECUTION`]: https://cloud.google.com/run/docs/container-contract#jobs-env-vars - GCPCloudRunJobExecutionKey = attribute.Key("gcp.cloud_run.job.execution") - - // GCPCloudRunJobTaskIndexKey is the attribute Key conforming to the - // "gcp.cloud_run.job.task_index" semantic conventions. It represents the index - // for a task within an execution as provided by the [`CLOUD_RUN_TASK_INDEX`] - // environment variable. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0, 1 - // - // [`CLOUD_RUN_TASK_INDEX`]: https://cloud.google.com/run/docs/container-contract#jobs-env-vars - GCPCloudRunJobTaskIndexKey = attribute.Key("gcp.cloud_run.job.task_index") - - // GCPGCEInstanceHostnameKey is the attribute Key conforming to the - // "gcp.gce.instance.hostname" semantic conventions. It represents the hostname - // of a GCE instance. This is the full value of the default or [custom hostname] - // . - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-host1234.example.com", - // "sample-vm.us-west1-b.c.my-project.internal" - // - // [custom hostname]: https://cloud.google.com/compute/docs/instances/custom-hostname-vm - GCPGCEInstanceHostnameKey = attribute.Key("gcp.gce.instance.hostname") - - // GCPGCEInstanceNameKey is the attribute Key conforming to the - // "gcp.gce.instance.name" semantic conventions. It represents the instance name - // of a GCE instance. This is the value provided by `host.name`, the visible - // name of the instance in the Cloud Console UI, and the prefix for the default - // hostname of the instance as defined by the [default internal DNS name]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "instance-1", "my-vm-name" - // - // [default internal DNS name]: https://cloud.google.com/compute/docs/internal-dns#instance-fully-qualified-domain-names - GCPGCEInstanceNameKey = attribute.Key("gcp.gce.instance.name") -) - -// GCPAppHubApplicationContainer returns an attribute KeyValue conforming to the -// "gcp.apphub.application.container" semantic conventions. It represents the -// container within GCP where the AppHub application is defined. -func GCPAppHubApplicationContainer(val string) attribute.KeyValue { - return GCPAppHubApplicationContainerKey.String(val) -} - -// GCPAppHubApplicationID returns an attribute KeyValue conforming to the -// "gcp.apphub.application.id" semantic conventions. It represents the name of -// the application as configured in AppHub. -func GCPAppHubApplicationID(val string) attribute.KeyValue { - return GCPAppHubApplicationIDKey.String(val) -} - -// GCPAppHubApplicationLocation returns an attribute KeyValue conforming to the -// "gcp.apphub.application.location" semantic conventions. It represents the GCP -// zone or region where the application is defined. -func GCPAppHubApplicationLocation(val string) attribute.KeyValue { - return GCPAppHubApplicationLocationKey.String(val) -} - -// GCPAppHubServiceID returns an attribute KeyValue conforming to the -// "gcp.apphub.service.id" semantic conventions. It represents the name of the -// service as configured in AppHub. -func GCPAppHubServiceID(val string) attribute.KeyValue { - return GCPAppHubServiceIDKey.String(val) -} - -// GCPAppHubWorkloadID returns an attribute KeyValue conforming to the -// "gcp.apphub.workload.id" semantic conventions. It represents the name of the -// workload as configured in AppHub. -func GCPAppHubWorkloadID(val string) attribute.KeyValue { - return GCPAppHubWorkloadIDKey.String(val) -} - -// GCPAppHubDestinationApplicationContainer returns an attribute KeyValue -// conforming to the "gcp.apphub_destination.application.container" semantic -// conventions. It represents the container within GCP where the AppHub -// destination application is defined. -func GCPAppHubDestinationApplicationContainer(val string) attribute.KeyValue { - return GCPAppHubDestinationApplicationContainerKey.String(val) -} - -// GCPAppHubDestinationApplicationID returns an attribute KeyValue conforming to -// the "gcp.apphub_destination.application.id" semantic conventions. It -// represents the name of the destination application as configured in AppHub. -func GCPAppHubDestinationApplicationID(val string) attribute.KeyValue { - return GCPAppHubDestinationApplicationIDKey.String(val) -} - -// GCPAppHubDestinationApplicationLocation returns an attribute KeyValue -// conforming to the "gcp.apphub_destination.application.location" semantic -// conventions. It represents the GCP zone or region where the destination -// application is defined. -func GCPAppHubDestinationApplicationLocation(val string) attribute.KeyValue { - return GCPAppHubDestinationApplicationLocationKey.String(val) -} - -// GCPAppHubDestinationServiceID returns an attribute KeyValue conforming to the -// "gcp.apphub_destination.service.id" semantic conventions. It represents the -// name of the destination service as configured in AppHub. -func GCPAppHubDestinationServiceID(val string) attribute.KeyValue { - return GCPAppHubDestinationServiceIDKey.String(val) -} - -// GCPAppHubDestinationWorkloadID returns an attribute KeyValue conforming to the -// "gcp.apphub_destination.workload.id" semantic conventions. It represents the -// name of the destination workload as configured in AppHub. -func GCPAppHubDestinationWorkloadID(val string) attribute.KeyValue { - return GCPAppHubDestinationWorkloadIDKey.String(val) -} - -// GCPClientService returns an attribute KeyValue conforming to the -// "gcp.client.service" semantic conventions. It represents the identifies the -// Google Cloud service for which the official client library is intended. -func GCPClientService(val string) attribute.KeyValue { - return GCPClientServiceKey.String(val) -} - -// GCPCloudRunJobExecution returns an attribute KeyValue conforming to the -// "gcp.cloud_run.job.execution" semantic conventions. It represents the name of -// the Cloud Run [execution] being run for the Job, as set by the -// [`CLOUD_RUN_EXECUTION`] environment variable. -// -// [execution]: https://cloud.google.com/run/docs/managing/job-executions -// [`CLOUD_RUN_EXECUTION`]: https://cloud.google.com/run/docs/container-contract#jobs-env-vars -func GCPCloudRunJobExecution(val string) attribute.KeyValue { - return GCPCloudRunJobExecutionKey.String(val) -} - -// GCPCloudRunJobTaskIndex returns an attribute KeyValue conforming to the -// "gcp.cloud_run.job.task_index" semantic conventions. It represents the index -// for a task within an execution as provided by the [`CLOUD_RUN_TASK_INDEX`] -// environment variable. -// -// [`CLOUD_RUN_TASK_INDEX`]: https://cloud.google.com/run/docs/container-contract#jobs-env-vars -func GCPCloudRunJobTaskIndex(val int) attribute.KeyValue { - return GCPCloudRunJobTaskIndexKey.Int(val) -} - -// GCPGCEInstanceHostname returns an attribute KeyValue conforming to the -// "gcp.gce.instance.hostname" semantic conventions. It represents the hostname -// of a GCE instance. This is the full value of the default or [custom hostname] -// . -// -// [custom hostname]: https://cloud.google.com/compute/docs/instances/custom-hostname-vm -func GCPGCEInstanceHostname(val string) attribute.KeyValue { - return GCPGCEInstanceHostnameKey.String(val) -} - -// GCPGCEInstanceName returns an attribute KeyValue conforming to the -// "gcp.gce.instance.name" semantic conventions. It represents the instance name -// of a GCE instance. This is the value provided by `host.name`, the visible name -// of the instance in the Cloud Console UI, and the prefix for the default -// hostname of the instance as defined by the [default internal DNS name]. -// -// [default internal DNS name]: https://cloud.google.com/compute/docs/internal-dns#instance-fully-qualified-domain-names -func GCPGCEInstanceName(val string) attribute.KeyValue { - return GCPGCEInstanceNameKey.String(val) -} - -// Enum values for gcp.apphub.service.criticality_type -var ( - // Mission critical service. - // Stability: development - GCPAppHubServiceCriticalityTypeMissionCritical = GCPAppHubServiceCriticalityTypeKey.String("MISSION_CRITICAL") - // High impact. - // Stability: development - GCPAppHubServiceCriticalityTypeHigh = GCPAppHubServiceCriticalityTypeKey.String("HIGH") - // Medium impact. - // Stability: development - GCPAppHubServiceCriticalityTypeMedium = GCPAppHubServiceCriticalityTypeKey.String("MEDIUM") - // Low impact. - // Stability: development - GCPAppHubServiceCriticalityTypeLow = GCPAppHubServiceCriticalityTypeKey.String("LOW") -) - -// Enum values for gcp.apphub.service.environment_type -var ( - // Production environment. - // Stability: development - GCPAppHubServiceEnvironmentTypeProduction = GCPAppHubServiceEnvironmentTypeKey.String("PRODUCTION") - // Staging environment. - // Stability: development - GCPAppHubServiceEnvironmentTypeStaging = GCPAppHubServiceEnvironmentTypeKey.String("STAGING") - // Test environment. - // Stability: development - GCPAppHubServiceEnvironmentTypeTest = GCPAppHubServiceEnvironmentTypeKey.String("TEST") - // Development environment. - // Stability: development - GCPAppHubServiceEnvironmentTypeDevelopment = GCPAppHubServiceEnvironmentTypeKey.String("DEVELOPMENT") -) - -// Enum values for gcp.apphub.workload.criticality_type -var ( - // Mission critical service. - // Stability: development - GCPAppHubWorkloadCriticalityTypeMissionCritical = GCPAppHubWorkloadCriticalityTypeKey.String("MISSION_CRITICAL") - // High impact. - // Stability: development - GCPAppHubWorkloadCriticalityTypeHigh = GCPAppHubWorkloadCriticalityTypeKey.String("HIGH") - // Medium impact. - // Stability: development - GCPAppHubWorkloadCriticalityTypeMedium = GCPAppHubWorkloadCriticalityTypeKey.String("MEDIUM") - // Low impact. - // Stability: development - GCPAppHubWorkloadCriticalityTypeLow = GCPAppHubWorkloadCriticalityTypeKey.String("LOW") -) - -// Enum values for gcp.apphub.workload.environment_type -var ( - // Production environment. - // Stability: development - GCPAppHubWorkloadEnvironmentTypeProduction = GCPAppHubWorkloadEnvironmentTypeKey.String("PRODUCTION") - // Staging environment. - // Stability: development - GCPAppHubWorkloadEnvironmentTypeStaging = GCPAppHubWorkloadEnvironmentTypeKey.String("STAGING") - // Test environment. - // Stability: development - GCPAppHubWorkloadEnvironmentTypeTest = GCPAppHubWorkloadEnvironmentTypeKey.String("TEST") - // Development environment. - // Stability: development - GCPAppHubWorkloadEnvironmentTypeDevelopment = GCPAppHubWorkloadEnvironmentTypeKey.String("DEVELOPMENT") -) - -// Enum values for gcp.apphub_destination.service.criticality_type -var ( - // Mission critical service. - // Stability: development - GCPAppHubDestinationServiceCriticalityTypeMissionCritical = GCPAppHubDestinationServiceCriticalityTypeKey.String("MISSION_CRITICAL") - // High impact. - // Stability: development - GCPAppHubDestinationServiceCriticalityTypeHigh = GCPAppHubDestinationServiceCriticalityTypeKey.String("HIGH") - // Medium impact. - // Stability: development - GCPAppHubDestinationServiceCriticalityTypeMedium = GCPAppHubDestinationServiceCriticalityTypeKey.String("MEDIUM") - // Low impact. - // Stability: development - GCPAppHubDestinationServiceCriticalityTypeLow = GCPAppHubDestinationServiceCriticalityTypeKey.String("LOW") -) - -// Enum values for gcp.apphub_destination.service.environment_type -var ( - // Production environment. - // Stability: development - GCPAppHubDestinationServiceEnvironmentTypeProduction = GCPAppHubDestinationServiceEnvironmentTypeKey.String("PRODUCTION") - // Staging environment. - // Stability: development - GCPAppHubDestinationServiceEnvironmentTypeStaging = GCPAppHubDestinationServiceEnvironmentTypeKey.String("STAGING") - // Test environment. - // Stability: development - GCPAppHubDestinationServiceEnvironmentTypeTest = GCPAppHubDestinationServiceEnvironmentTypeKey.String("TEST") - // Development environment. - // Stability: development - GCPAppHubDestinationServiceEnvironmentTypeDevelopment = GCPAppHubDestinationServiceEnvironmentTypeKey.String("DEVELOPMENT") -) - -// Enum values for gcp.apphub_destination.workload.criticality_type -var ( - // Mission critical service. - // Stability: development - GCPAppHubDestinationWorkloadCriticalityTypeMissionCritical = GCPAppHubDestinationWorkloadCriticalityTypeKey.String("MISSION_CRITICAL") - // High impact. - // Stability: development - GCPAppHubDestinationWorkloadCriticalityTypeHigh = GCPAppHubDestinationWorkloadCriticalityTypeKey.String("HIGH") - // Medium impact. - // Stability: development - GCPAppHubDestinationWorkloadCriticalityTypeMedium = GCPAppHubDestinationWorkloadCriticalityTypeKey.String("MEDIUM") - // Low impact. - // Stability: development - GCPAppHubDestinationWorkloadCriticalityTypeLow = GCPAppHubDestinationWorkloadCriticalityTypeKey.String("LOW") -) - -// Enum values for gcp.apphub_destination.workload.environment_type -var ( - // Production environment. - // Stability: development - GCPAppHubDestinationWorkloadEnvironmentTypeProduction = GCPAppHubDestinationWorkloadEnvironmentTypeKey.String("PRODUCTION") - // Staging environment. - // Stability: development - GCPAppHubDestinationWorkloadEnvironmentTypeStaging = GCPAppHubDestinationWorkloadEnvironmentTypeKey.String("STAGING") - // Test environment. - // Stability: development - GCPAppHubDestinationWorkloadEnvironmentTypeTest = GCPAppHubDestinationWorkloadEnvironmentTypeKey.String("TEST") - // Development environment. - // Stability: development - GCPAppHubDestinationWorkloadEnvironmentTypeDevelopment = GCPAppHubDestinationWorkloadEnvironmentTypeKey.String("DEVELOPMENT") -) - -// Namespace: gen_ai -const ( - // GenAIAgentDescriptionKey is the attribute Key conforming to the - // "gen_ai.agent.description" semantic conventions. It represents the free-form - // description of the GenAI agent provided by the application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Helps with math problems", "Generates fiction stories" - GenAIAgentDescriptionKey = attribute.Key("gen_ai.agent.description") - - // GenAIAgentIDKey is the attribute Key conforming to the "gen_ai.agent.id" - // semantic conventions. It represents the unique identifier of the GenAI agent. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "asst_5j66UpCpwteGg4YSxUnt7lPY" - GenAIAgentIDKey = attribute.Key("gen_ai.agent.id") - - // GenAIAgentNameKey is the attribute Key conforming to the "gen_ai.agent.name" - // semantic conventions. It represents the human-readable name of the GenAI - // agent provided by the application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Math Tutor", "Fiction Writer" - GenAIAgentNameKey = attribute.Key("gen_ai.agent.name") - - // GenAIConversationIDKey is the attribute Key conforming to the - // "gen_ai.conversation.id" semantic conventions. It represents the unique - // identifier for a conversation (session, thread), used to store and correlate - // messages within this conversation. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "conv_5j66UpCpwteGg4YSxUnt7lPY" - GenAIConversationIDKey = attribute.Key("gen_ai.conversation.id") - - // GenAIDataSourceIDKey is the attribute Key conforming to the - // "gen_ai.data_source.id" semantic conventions. It represents the data source - // identifier. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "H7STPQYOND" - // Note: Data sources are used by AI agents and RAG applications to store - // grounding data. A data source may be an external database, object store, - // document collection, website, or any other storage system used by the GenAI - // agent or application. The `gen_ai.data_source.id` SHOULD match the identifier - // used by the GenAI system rather than a name specific to the external storage, - // such as a database or object store. Semantic conventions referencing - // `gen_ai.data_source.id` MAY also leverage additional attributes, such as - // `db.*`, to further identify and describe the data source. - GenAIDataSourceIDKey = attribute.Key("gen_ai.data_source.id") - - // GenAIEmbeddingsDimensionCountKey is the attribute Key conforming to the - // "gen_ai.embeddings.dimension.count" semantic conventions. It represents the - // number of dimensions the resulting output embeddings should have. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 512, 1024 - GenAIEmbeddingsDimensionCountKey = attribute.Key("gen_ai.embeddings.dimension.count") - - // GenAIEvaluationExplanationKey is the attribute Key conforming to the - // "gen_ai.evaluation.explanation" semantic conventions. It represents a - // free-form explanation for the assigned score provided by the evaluator. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "The response is factually accurate but lacks sufficient detail to - // fully address the question." - GenAIEvaluationExplanationKey = attribute.Key("gen_ai.evaluation.explanation") - - // GenAIEvaluationNameKey is the attribute Key conforming to the - // "gen_ai.evaluation.name" semantic conventions. It represents the name of the - // evaluation metric used for the GenAI response. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Relevance", "IntentResolution" - GenAIEvaluationNameKey = attribute.Key("gen_ai.evaluation.name") - - // GenAIEvaluationScoreLabelKey is the attribute Key conforming to the - // "gen_ai.evaluation.score.label" semantic conventions. It represents the human - // readable label for evaluation. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "relevant", "not_relevant", "correct", "incorrect", "pass", "fail" - // Note: This attribute provides a human-readable interpretation of the - // evaluation score produced by an evaluator. For example, a score value of 1 - // could mean "relevant" in one evaluation system and "not relevant" in another, - // depending on the scoring range and evaluator. The label SHOULD have low - // cardinality. Possible values depend on the evaluation metric and evaluator - // used; implementations SHOULD document the possible values. - GenAIEvaluationScoreLabelKey = attribute.Key("gen_ai.evaluation.score.label") - - // GenAIEvaluationScoreValueKey is the attribute Key conforming to the - // "gen_ai.evaluation.score.value" semantic conventions. It represents the - // evaluation score returned by the evaluator. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 4.0 - GenAIEvaluationScoreValueKey = attribute.Key("gen_ai.evaluation.score.value") - - // GenAIInputMessagesKey is the attribute Key conforming to the - // "gen_ai.input.messages" semantic conventions. It represents the chat history - // provided to the model as an input. - // - // Type: any - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "[\n {\n "role": "user",\n "parts": [\n {\n "type": "text",\n - // "content": "Weather in Paris?"\n }\n ]\n },\n {\n "role": "assistant",\n - // "parts": [\n {\n "type": "tool_call",\n "id": - // "call_VSPygqKTWdrhaFErNvMV18Yl",\n "name": "get_weather",\n "arguments": {\n - // "location": "Paris"\n }\n }\n ]\n },\n {\n "role": "tool",\n "parts": [\n {\n - // "type": "tool_call_response",\n "id": " call_VSPygqKTWdrhaFErNvMV18Yl",\n - // "result": "rainy, 57°F"\n }\n ]\n }\n]\n" - // Note: Instrumentations MUST follow [Input messages JSON schema]. - // When the attribute is recorded on events, it MUST be recorded in structured - // form. When recorded on spans, it MAY be recorded as a JSON string if - // structured - // format is not supported and SHOULD be recorded in structured form otherwise. - // - // Messages MUST be provided in the order they were sent to the model. - // Instrumentations MAY provide a way for users to filter or truncate - // input messages. - // - // > [!Warning] - // > This attribute is likely to contain sensitive information including - // > user/PII data. - // - // See [Recording content on attributes] - // section for more details. - // - // [Input messages JSON schema]: /docs/gen-ai/gen-ai-input-messages.json - // [Recording content on attributes]: /docs/gen-ai/gen-ai-spans.md#recording-content-on-attributes - GenAIInputMessagesKey = attribute.Key("gen_ai.input.messages") - - // GenAIOperationNameKey is the attribute Key conforming to the - // "gen_ai.operation.name" semantic conventions. It represents the name of the - // operation being performed. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: If one of the predefined values applies, but specific system uses a - // different name it's RECOMMENDED to document it in the semantic conventions - // for specific GenAI system and use system-specific name in the - // instrumentation. If a different name is not documented, instrumentation - // libraries SHOULD use applicable predefined value. - GenAIOperationNameKey = attribute.Key("gen_ai.operation.name") - - // GenAIOutputMessagesKey is the attribute Key conforming to the - // "gen_ai.output.messages" semantic conventions. It represents the messages - // returned by the model where each message represents a specific model response - // (choice, candidate). - // - // Type: any - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "[\n {\n "role": "assistant",\n "parts": [\n {\n "type": "text",\n - // "content": "The weather in Paris is currently rainy with a temperature of - // 57°F."\n }\n ],\n "finish_reason": "stop"\n }\n]\n" - // Note: Instrumentations MUST follow [Output messages JSON schema] - // - // Each message represents a single output choice/candidate generated by - // the model. Each message corresponds to exactly one generation - // (choice/candidate) and vice versa - one choice cannot be split across - // multiple messages or one message cannot contain parts from multiple choices. - // - // When the attribute is recorded on events, it MUST be recorded in structured - // form. When recorded on spans, it MAY be recorded as a JSON string if - // structured - // format is not supported and SHOULD be recorded in structured form otherwise. - // - // Instrumentations MAY provide a way for users to filter or truncate - // output messages. - // - // > [!Warning] - // > This attribute is likely to contain sensitive information including - // > user/PII data. - // - // See [Recording content on attributes] - // section for more details. - // - // [Output messages JSON schema]: /docs/gen-ai/gen-ai-output-messages.json - // [Recording content on attributes]: /docs/gen-ai/gen-ai-spans.md#recording-content-on-attributes - GenAIOutputMessagesKey = attribute.Key("gen_ai.output.messages") - - // GenAIOutputTypeKey is the attribute Key conforming to the - // "gen_ai.output.type" semantic conventions. It represents the represents the - // content type requested by the client. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: This attribute SHOULD be used when the client requests output of a - // specific type. The model may return zero or more outputs of this type. - // This attribute specifies the output modality and not the actual output - // format. For example, if an image is requested, the actual output could be a - // URL pointing to an image file. - // Additional output format details may be recorded in the future in the - // `gen_ai.output.{type}.*` attributes. - GenAIOutputTypeKey = attribute.Key("gen_ai.output.type") - - // GenAIPromptNameKey is the attribute Key conforming to the - // "gen_ai.prompt.name" semantic conventions. It represents the name of the - // prompt that uniquely identifies it. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "analyze-code" - GenAIPromptNameKey = attribute.Key("gen_ai.prompt.name") - - // GenAIProviderNameKey is the attribute Key conforming to the - // "gen_ai.provider.name" semantic conventions. It represents the Generative AI - // provider as identified by the client or server instrumentation. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: The attribute SHOULD be set based on the instrumentation's best - // knowledge and may differ from the actual model provider. - // - // Multiple providers, including Azure OpenAI, Gemini, and AI hosting platforms - // are accessible using the OpenAI REST API and corresponding client libraries, - // but may proxy or host models from different providers. - // - // The `gen_ai.request.model`, `gen_ai.response.model`, and `server.address` - // attributes may help identify the actual system in use. - // - // The `gen_ai.provider.name` attribute acts as a discriminator that - // identifies the GenAI telemetry format flavor specific to that provider - // within GenAI semantic conventions. - // It SHOULD be set consistently with provider-specific attributes and signals. - // For example, GenAI spans, metrics, and events related to AWS Bedrock - // should have the `gen_ai.provider.name` set to `aws.bedrock` and include - // applicable `aws.bedrock.*` attributes and are not expected to include - // `openai.*` attributes. - GenAIProviderNameKey = attribute.Key("gen_ai.provider.name") - - // GenAIRequestChoiceCountKey is the attribute Key conforming to the - // "gen_ai.request.choice.count" semantic conventions. It represents the target - // number of candidate completions to return. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 3 - GenAIRequestChoiceCountKey = attribute.Key("gen_ai.request.choice.count") - - // GenAIRequestEncodingFormatsKey is the attribute Key conforming to the - // "gen_ai.request.encoding_formats" semantic conventions. It represents the - // encoding formats requested in an embeddings operation, if specified. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "base64"], ["float", "binary" - // Note: In some GenAI systems the encoding formats are called embedding types. - // Also, some GenAI systems only accept a single format per request. - GenAIRequestEncodingFormatsKey = attribute.Key("gen_ai.request.encoding_formats") - - // GenAIRequestFrequencyPenaltyKey is the attribute Key conforming to the - // "gen_ai.request.frequency_penalty" semantic conventions. It represents the - // frequency penalty setting for the GenAI request. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0.1 - GenAIRequestFrequencyPenaltyKey = attribute.Key("gen_ai.request.frequency_penalty") - - // GenAIRequestMaxTokensKey is the attribute Key conforming to the - // "gen_ai.request.max_tokens" semantic conventions. It represents the maximum - // number of tokens the model generates for a request. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 100 - GenAIRequestMaxTokensKey = attribute.Key("gen_ai.request.max_tokens") - - // GenAIRequestModelKey is the attribute Key conforming to the - // "gen_ai.request.model" semantic conventions. It represents the name of the - // GenAI model a request is being made to. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: gpt-4 - GenAIRequestModelKey = attribute.Key("gen_ai.request.model") - - // GenAIRequestPresencePenaltyKey is the attribute Key conforming to the - // "gen_ai.request.presence_penalty" semantic conventions. It represents the - // presence penalty setting for the GenAI request. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0.1 - GenAIRequestPresencePenaltyKey = attribute.Key("gen_ai.request.presence_penalty") - - // GenAIRequestSeedKey is the attribute Key conforming to the - // "gen_ai.request.seed" semantic conventions. It represents the requests with - // same seed value more likely to return same result. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 100 - GenAIRequestSeedKey = attribute.Key("gen_ai.request.seed") - - // GenAIRequestStopSequencesKey is the attribute Key conforming to the - // "gen_ai.request.stop_sequences" semantic conventions. It represents the list - // of sequences that the model will use to stop generating further tokens. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "forest", "lived" - GenAIRequestStopSequencesKey = attribute.Key("gen_ai.request.stop_sequences") - - // GenAIRequestTemperatureKey is the attribute Key conforming to the - // "gen_ai.request.temperature" semantic conventions. It represents the - // temperature setting for the GenAI request. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0.0 - GenAIRequestTemperatureKey = attribute.Key("gen_ai.request.temperature") - - // GenAIRequestTopKKey is the attribute Key conforming to the - // "gen_ai.request.top_k" semantic conventions. It represents the top_k sampling - // setting for the GenAI request. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1.0 - GenAIRequestTopKKey = attribute.Key("gen_ai.request.top_k") - - // GenAIRequestTopPKey is the attribute Key conforming to the - // "gen_ai.request.top_p" semantic conventions. It represents the top_p sampling - // setting for the GenAI request. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1.0 - GenAIRequestTopPKey = attribute.Key("gen_ai.request.top_p") - - // GenAIResponseFinishReasonsKey is the attribute Key conforming to the - // "gen_ai.response.finish_reasons" semantic conventions. It represents the - // array of reasons the model stopped generating tokens, corresponding to each - // generation received. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "stop"], ["stop", "length" - GenAIResponseFinishReasonsKey = attribute.Key("gen_ai.response.finish_reasons") - - // GenAIResponseIDKey is the attribute Key conforming to the - // "gen_ai.response.id" semantic conventions. It represents the unique - // identifier for the completion. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "chatcmpl-123" - GenAIResponseIDKey = attribute.Key("gen_ai.response.id") - - // GenAIResponseModelKey is the attribute Key conforming to the - // "gen_ai.response.model" semantic conventions. It represents the name of the - // model that generated the response. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "gpt-4-0613" - GenAIResponseModelKey = attribute.Key("gen_ai.response.model") - - // GenAISystemInstructionsKey is the attribute Key conforming to the - // "gen_ai.system_instructions" semantic conventions. It represents the system - // message or instructions provided to the GenAI model separately from the chat - // history. - // - // Type: any - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "[\n {\n "type": "text",\n "content": "You are an Agent that greet - // users, always use greetings tool to respond"\n }\n]\n", "[\n {\n "type": - // "text",\n "content": "You are a language translator."\n },\n {\n "type": - // "text",\n "content": "Your mission is to translate text in English to - // French."\n }\n]\n" - // Note: This attribute SHOULD be used when the corresponding provider or API - // allows to provide system instructions or messages separately from the - // chat history. - // - // Instructions that are part of the chat history SHOULD be recorded in - // `gen_ai.input.messages` attribute instead. - // - // Instrumentations MUST follow [System instructions JSON schema]. - // - // When recorded on spans, it MAY be recorded as a JSON string if structured - // format is not supported and SHOULD be recorded in structured form otherwise. - // - // Instrumentations MAY provide a way for users to filter or truncate - // system instructions. - // - // > [!Warning] - // > This attribute may contain sensitive information. - // - // See [Recording content on attributes] - // section for more details. - // - // [System instructions JSON schema]: /docs/gen-ai/gen-ai-system-instructions.json - // [Recording content on attributes]: /docs/gen-ai/gen-ai-spans.md#recording-content-on-attributes - GenAISystemInstructionsKey = attribute.Key("gen_ai.system_instructions") - - // GenAITokenTypeKey is the attribute Key conforming to the "gen_ai.token.type" - // semantic conventions. It represents the type of token being counted. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "input", "output" - GenAITokenTypeKey = attribute.Key("gen_ai.token.type") - - // GenAIToolCallArgumentsKey is the attribute Key conforming to the - // "gen_ai.tool.call.arguments" semantic conventions. It represents the - // parameters passed to the tool call. - // - // Type: any - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{\n "location": "San Francisco?",\n "date": "2025-10-01"\n}\n" - // Note: > [!WARNING] - // - // > This attribute may contain sensitive information. - // - // It's expected to be an object - in case a serialized string is available - // to the instrumentation, the instrumentation SHOULD do the best effort to - // deserialize it to an object. When recorded on spans, it MAY be recorded as a - // JSON string if structured format is not supported and SHOULD be recorded in - // structured form otherwise. - GenAIToolCallArgumentsKey = attribute.Key("gen_ai.tool.call.arguments") - - // GenAIToolCallIDKey is the attribute Key conforming to the - // "gen_ai.tool.call.id" semantic conventions. It represents the tool call - // identifier. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "call_mszuSIzqtI65i1wAUOE8w5H4" - GenAIToolCallIDKey = attribute.Key("gen_ai.tool.call.id") - - // GenAIToolCallResultKey is the attribute Key conforming to the - // "gen_ai.tool.call.result" semantic conventions. It represents the result - // returned by the tool call (if any and if execution was successful). - // - // Type: any - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{\n "temperature_range": {\n "high": 75,\n "low": 60\n },\n - // "conditions": "sunny"\n}\n" - // Note: > [!WARNING] - // - // > This attribute may contain sensitive information. - // - // It's expected to be an object - in case a serialized string is available - // to the instrumentation, the instrumentation SHOULD do the best effort to - // deserialize it to an object. When recorded on spans, it MAY be recorded as a - // JSON string if structured format is not supported and SHOULD be recorded in - // structured form otherwise. - GenAIToolCallResultKey = attribute.Key("gen_ai.tool.call.result") - - // GenAIToolDefinitionsKey is the attribute Key conforming to the - // "gen_ai.tool.definitions" semantic conventions. It represents the list of - // source system tool definitions available to the GenAI agent or model. - // - // Type: any - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "[\n {\n "type": "function",\n "name": "get_current_weather",\n - // "description": "Get the current weather in a given location",\n "parameters": - // {\n "type": "object",\n "properties": {\n "location": {\n "type": "string",\n - // "description": "The city and state, e.g. San Francisco, CA"\n },\n "unit": - // {\n "type": "string",\n "enum": [\n "celsius",\n "fahrenheit"\n ]\n }\n },\n - // "required": [\n "location",\n "unit"\n ]\n }\n }\n]\n" - // Note: The value of this attribute matches source system tool definition - // format. - // - // It's expected to be an array of objects where each object represents a tool - // definition. In case a serialized string is available - // to the instrumentation, the instrumentation SHOULD do the best effort to - // deserialize it to an array. When recorded on spans, it MAY be recorded as a - // JSON string if structured format is not supported and SHOULD be recorded in - // structured form otherwise. - // - // Since this attribute could be large, it's NOT RECOMMENDED to populate - // it by default. Instrumentations MAY provide a way to enable - // populating this attribute. - GenAIToolDefinitionsKey = attribute.Key("gen_ai.tool.definitions") - - // GenAIToolDescriptionKey is the attribute Key conforming to the - // "gen_ai.tool.description" semantic conventions. It represents the tool - // description. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Multiply two numbers" - GenAIToolDescriptionKey = attribute.Key("gen_ai.tool.description") - - // GenAIToolNameKey is the attribute Key conforming to the "gen_ai.tool.name" - // semantic conventions. It represents the name of the tool utilized by the - // agent. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Flights" - GenAIToolNameKey = attribute.Key("gen_ai.tool.name") - - // GenAIToolTypeKey is the attribute Key conforming to the "gen_ai.tool.type" - // semantic conventions. It represents the type of the tool utilized by the - // agent. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "function", "extension", "datastore" - // Note: Extension: A tool executed on the agent-side to directly call external - // APIs, bridging the gap between the agent and real-world systems. - // Agent-side operations involve actions that are performed by the agent on the - // server or within the agent's controlled environment. - // Function: A tool executed on the client-side, where the agent generates - // parameters for a predefined function, and the client executes the logic. - // Client-side operations are actions taken on the user's end or within the - // client application. - // Datastore: A tool used by the agent to access and query structured or - // unstructured external data for retrieval-augmented tasks or knowledge - // updates. - GenAIToolTypeKey = attribute.Key("gen_ai.tool.type") - - // GenAIUsageInputTokensKey is the attribute Key conforming to the - // "gen_ai.usage.input_tokens" semantic conventions. It represents the number of - // tokens used in the GenAI input (prompt). - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 100 - GenAIUsageInputTokensKey = attribute.Key("gen_ai.usage.input_tokens") - - // GenAIUsageOutputTokensKey is the attribute Key conforming to the - // "gen_ai.usage.output_tokens" semantic conventions. It represents the number - // of tokens used in the GenAI response (completion). - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 180 - GenAIUsageOutputTokensKey = attribute.Key("gen_ai.usage.output_tokens") -) - -// GenAIAgentDescription returns an attribute KeyValue conforming to the -// "gen_ai.agent.description" semantic conventions. It represents the free-form -// description of the GenAI agent provided by the application. -func GenAIAgentDescription(val string) attribute.KeyValue { - return GenAIAgentDescriptionKey.String(val) -} - -// GenAIAgentID returns an attribute KeyValue conforming to the "gen_ai.agent.id" -// semantic conventions. It represents the unique identifier of the GenAI agent. -func GenAIAgentID(val string) attribute.KeyValue { - return GenAIAgentIDKey.String(val) -} - -// GenAIAgentName returns an attribute KeyValue conforming to the -// "gen_ai.agent.name" semantic conventions. It represents the human-readable -// name of the GenAI agent provided by the application. -func GenAIAgentName(val string) attribute.KeyValue { - return GenAIAgentNameKey.String(val) -} - -// GenAIConversationID returns an attribute KeyValue conforming to the -// "gen_ai.conversation.id" semantic conventions. It represents the unique -// identifier for a conversation (session, thread), used to store and correlate -// messages within this conversation. -func GenAIConversationID(val string) attribute.KeyValue { - return GenAIConversationIDKey.String(val) -} - -// GenAIDataSourceID returns an attribute KeyValue conforming to the -// "gen_ai.data_source.id" semantic conventions. It represents the data source -// identifier. -func GenAIDataSourceID(val string) attribute.KeyValue { - return GenAIDataSourceIDKey.String(val) -} - -// GenAIEmbeddingsDimensionCount returns an attribute KeyValue conforming to the -// "gen_ai.embeddings.dimension.count" semantic conventions. It represents the -// number of dimensions the resulting output embeddings should have. -func GenAIEmbeddingsDimensionCount(val int) attribute.KeyValue { - return GenAIEmbeddingsDimensionCountKey.Int(val) -} - -// GenAIEvaluationExplanation returns an attribute KeyValue conforming to the -// "gen_ai.evaluation.explanation" semantic conventions. It represents a -// free-form explanation for the assigned score provided by the evaluator. -func GenAIEvaluationExplanation(val string) attribute.KeyValue { - return GenAIEvaluationExplanationKey.String(val) -} - -// GenAIEvaluationName returns an attribute KeyValue conforming to the -// "gen_ai.evaluation.name" semantic conventions. It represents the name of the -// evaluation metric used for the GenAI response. -func GenAIEvaluationName(val string) attribute.KeyValue { - return GenAIEvaluationNameKey.String(val) -} - -// GenAIEvaluationScoreLabel returns an attribute KeyValue conforming to the -// "gen_ai.evaluation.score.label" semantic conventions. It represents the human -// readable label for evaluation. -func GenAIEvaluationScoreLabel(val string) attribute.KeyValue { - return GenAIEvaluationScoreLabelKey.String(val) -} - -// GenAIEvaluationScoreValue returns an attribute KeyValue conforming to the -// "gen_ai.evaluation.score.value" semantic conventions. It represents the -// evaluation score returned by the evaluator. -func GenAIEvaluationScoreValue(val float64) attribute.KeyValue { - return GenAIEvaluationScoreValueKey.Float64(val) -} - -// GenAIPromptName returns an attribute KeyValue conforming to the -// "gen_ai.prompt.name" semantic conventions. It represents the name of the -// prompt that uniquely identifies it. -func GenAIPromptName(val string) attribute.KeyValue { - return GenAIPromptNameKey.String(val) -} - -// GenAIRequestChoiceCount returns an attribute KeyValue conforming to the -// "gen_ai.request.choice.count" semantic conventions. It represents the target -// number of candidate completions to return. -func GenAIRequestChoiceCount(val int) attribute.KeyValue { - return GenAIRequestChoiceCountKey.Int(val) -} - -// GenAIRequestEncodingFormats returns an attribute KeyValue conforming to the -// "gen_ai.request.encoding_formats" semantic conventions. It represents the -// encoding formats requested in an embeddings operation, if specified. -func GenAIRequestEncodingFormats(val ...string) attribute.KeyValue { - return GenAIRequestEncodingFormatsKey.StringSlice(val) -} - -// GenAIRequestFrequencyPenalty returns an attribute KeyValue conforming to the -// "gen_ai.request.frequency_penalty" semantic conventions. It represents the -// frequency penalty setting for the GenAI request. -func GenAIRequestFrequencyPenalty(val float64) attribute.KeyValue { - return GenAIRequestFrequencyPenaltyKey.Float64(val) -} - -// GenAIRequestMaxTokens returns an attribute KeyValue conforming to the -// "gen_ai.request.max_tokens" semantic conventions. It represents the maximum -// number of tokens the model generates for a request. -func GenAIRequestMaxTokens(val int) attribute.KeyValue { - return GenAIRequestMaxTokensKey.Int(val) -} - -// GenAIRequestModel returns an attribute KeyValue conforming to the -// "gen_ai.request.model" semantic conventions. It represents the name of the -// GenAI model a request is being made to. -func GenAIRequestModel(val string) attribute.KeyValue { - return GenAIRequestModelKey.String(val) -} - -// GenAIRequestPresencePenalty returns an attribute KeyValue conforming to the -// "gen_ai.request.presence_penalty" semantic conventions. It represents the -// presence penalty setting for the GenAI request. -func GenAIRequestPresencePenalty(val float64) attribute.KeyValue { - return GenAIRequestPresencePenaltyKey.Float64(val) -} - -// GenAIRequestSeed returns an attribute KeyValue conforming to the -// "gen_ai.request.seed" semantic conventions. It represents the requests with -// same seed value more likely to return same result. -func GenAIRequestSeed(val int) attribute.KeyValue { - return GenAIRequestSeedKey.Int(val) -} - -// GenAIRequestStopSequences returns an attribute KeyValue conforming to the -// "gen_ai.request.stop_sequences" semantic conventions. It represents the list -// of sequences that the model will use to stop generating further tokens. -func GenAIRequestStopSequences(val ...string) attribute.KeyValue { - return GenAIRequestStopSequencesKey.StringSlice(val) -} - -// GenAIRequestTemperature returns an attribute KeyValue conforming to the -// "gen_ai.request.temperature" semantic conventions. It represents the -// temperature setting for the GenAI request. -func GenAIRequestTemperature(val float64) attribute.KeyValue { - return GenAIRequestTemperatureKey.Float64(val) -} - -// GenAIRequestTopK returns an attribute KeyValue conforming to the -// "gen_ai.request.top_k" semantic conventions. It represents the top_k sampling -// setting for the GenAI request. -func GenAIRequestTopK(val float64) attribute.KeyValue { - return GenAIRequestTopKKey.Float64(val) -} - -// GenAIRequestTopP returns an attribute KeyValue conforming to the -// "gen_ai.request.top_p" semantic conventions. It represents the top_p sampling -// setting for the GenAI request. -func GenAIRequestTopP(val float64) attribute.KeyValue { - return GenAIRequestTopPKey.Float64(val) -} - -// GenAIResponseFinishReasons returns an attribute KeyValue conforming to the -// "gen_ai.response.finish_reasons" semantic conventions. It represents the array -// of reasons the model stopped generating tokens, corresponding to each -// generation received. -func GenAIResponseFinishReasons(val ...string) attribute.KeyValue { - return GenAIResponseFinishReasonsKey.StringSlice(val) -} - -// GenAIResponseID returns an attribute KeyValue conforming to the -// "gen_ai.response.id" semantic conventions. It represents the unique identifier -// for the completion. -func GenAIResponseID(val string) attribute.KeyValue { - return GenAIResponseIDKey.String(val) -} - -// GenAIResponseModel returns an attribute KeyValue conforming to the -// "gen_ai.response.model" semantic conventions. It represents the name of the -// model that generated the response. -func GenAIResponseModel(val string) attribute.KeyValue { - return GenAIResponseModelKey.String(val) -} - -// GenAIToolCallID returns an attribute KeyValue conforming to the -// "gen_ai.tool.call.id" semantic conventions. It represents the tool call -// identifier. -func GenAIToolCallID(val string) attribute.KeyValue { - return GenAIToolCallIDKey.String(val) -} - -// GenAIToolDescription returns an attribute KeyValue conforming to the -// "gen_ai.tool.description" semantic conventions. It represents the tool -// description. -func GenAIToolDescription(val string) attribute.KeyValue { - return GenAIToolDescriptionKey.String(val) -} - -// GenAIToolName returns an attribute KeyValue conforming to the -// "gen_ai.tool.name" semantic conventions. It represents the name of the tool -// utilized by the agent. -func GenAIToolName(val string) attribute.KeyValue { - return GenAIToolNameKey.String(val) -} - -// GenAIToolType returns an attribute KeyValue conforming to the -// "gen_ai.tool.type" semantic conventions. It represents the type of the tool -// utilized by the agent. -func GenAIToolType(val string) attribute.KeyValue { - return GenAIToolTypeKey.String(val) -} - -// GenAIUsageInputTokens returns an attribute KeyValue conforming to the -// "gen_ai.usage.input_tokens" semantic conventions. It represents the number of -// tokens used in the GenAI input (prompt). -func GenAIUsageInputTokens(val int) attribute.KeyValue { - return GenAIUsageInputTokensKey.Int(val) -} - -// GenAIUsageOutputTokens returns an attribute KeyValue conforming to the -// "gen_ai.usage.output_tokens" semantic conventions. It represents the number of -// tokens used in the GenAI response (completion). -func GenAIUsageOutputTokens(val int) attribute.KeyValue { - return GenAIUsageOutputTokensKey.Int(val) -} - -// Enum values for gen_ai.operation.name -var ( - // Chat completion operation such as [OpenAI Chat API] - // Stability: development - // - // [OpenAI Chat API]: https://platform.openai.com/docs/api-reference/chat - GenAIOperationNameChat = GenAIOperationNameKey.String("chat") - // Multimodal content generation operation such as [Gemini Generate Content] - // Stability: development - // - // [Gemini Generate Content]: https://ai.google.dev/api/generate-content - GenAIOperationNameGenerateContent = GenAIOperationNameKey.String("generate_content") - // Text completions operation such as [OpenAI Completions API (Legacy)] - // Stability: development - // - // [OpenAI Completions API (Legacy)]: https://platform.openai.com/docs/api-reference/completions - GenAIOperationNameTextCompletion = GenAIOperationNameKey.String("text_completion") - // Embeddings operation such as [OpenAI Create embeddings API] - // Stability: development - // - // [OpenAI Create embeddings API]: https://platform.openai.com/docs/api-reference/embeddings/create - GenAIOperationNameEmbeddings = GenAIOperationNameKey.String("embeddings") - // Create GenAI agent - // Stability: development - GenAIOperationNameCreateAgent = GenAIOperationNameKey.String("create_agent") - // Invoke GenAI agent - // Stability: development - GenAIOperationNameInvokeAgent = GenAIOperationNameKey.String("invoke_agent") - // Execute a tool - // Stability: development - GenAIOperationNameExecuteTool = GenAIOperationNameKey.String("execute_tool") -) - -// Enum values for gen_ai.output.type -var ( - // Plain text - // Stability: development - GenAIOutputTypeText = GenAIOutputTypeKey.String("text") - // JSON object with known or unknown schema - // Stability: development - GenAIOutputTypeJSON = GenAIOutputTypeKey.String("json") - // Image - // Stability: development - GenAIOutputTypeImage = GenAIOutputTypeKey.String("image") - // Speech - // Stability: development - GenAIOutputTypeSpeech = GenAIOutputTypeKey.String("speech") -) - -// Enum values for gen_ai.provider.name -var ( - // [OpenAI] - // Stability: development - // - // [OpenAI]: https://openai.com/ - GenAIProviderNameOpenAI = GenAIProviderNameKey.String("openai") - // Any Google generative AI endpoint - // Stability: development - GenAIProviderNameGCPGenAI = GenAIProviderNameKey.String("gcp.gen_ai") - // [Vertex AI] - // Stability: development - // - // [Vertex AI]: https://cloud.google.com/vertex-ai - GenAIProviderNameGCPVertexAI = GenAIProviderNameKey.String("gcp.vertex_ai") - // [Gemini] - // Stability: development - // - // [Gemini]: https://cloud.google.com/products/gemini - GenAIProviderNameGCPGemini = GenAIProviderNameKey.String("gcp.gemini") - // [Anthropic] - // Stability: development - // - // [Anthropic]: https://www.anthropic.com/ - GenAIProviderNameAnthropic = GenAIProviderNameKey.String("anthropic") - // [Cohere] - // Stability: development - // - // [Cohere]: https://cohere.com/ - GenAIProviderNameCohere = GenAIProviderNameKey.String("cohere") - // Azure AI Inference - // Stability: development - GenAIProviderNameAzureAIInference = GenAIProviderNameKey.String("azure.ai.inference") - // [Azure OpenAI] - // Stability: development - // - // [Azure OpenAI]: https://azure.microsoft.com/products/ai-services/openai-service/ - GenAIProviderNameAzureAIOpenAI = GenAIProviderNameKey.String("azure.ai.openai") - // [IBM Watsonx AI] - // Stability: development - // - // [IBM Watsonx AI]: https://www.ibm.com/products/watsonx-ai - GenAIProviderNameIBMWatsonxAI = GenAIProviderNameKey.String("ibm.watsonx.ai") - // [AWS Bedrock] - // Stability: development - // - // [AWS Bedrock]: https://aws.amazon.com/bedrock - GenAIProviderNameAWSBedrock = GenAIProviderNameKey.String("aws.bedrock") - // [Perplexity] - // Stability: development - // - // [Perplexity]: https://www.perplexity.ai/ - GenAIProviderNamePerplexity = GenAIProviderNameKey.String("perplexity") - // [xAI] - // Stability: development - // - // [xAI]: https://x.ai/ - GenAIProviderNameXAI = GenAIProviderNameKey.String("x_ai") - // [DeepSeek] - // Stability: development - // - // [DeepSeek]: https://www.deepseek.com/ - GenAIProviderNameDeepseek = GenAIProviderNameKey.String("deepseek") - // [Groq] - // Stability: development - // - // [Groq]: https://groq.com/ - GenAIProviderNameGroq = GenAIProviderNameKey.String("groq") - // [Mistral AI] - // Stability: development - // - // [Mistral AI]: https://mistral.ai/ - GenAIProviderNameMistralAI = GenAIProviderNameKey.String("mistral_ai") -) - -// Enum values for gen_ai.token.type -var ( - // Input tokens (prompt, input, etc.) - // Stability: development - GenAITokenTypeInput = GenAITokenTypeKey.String("input") - // Output tokens (completion, response, etc.) - // Stability: development - GenAITokenTypeOutput = GenAITokenTypeKey.String("output") -) - -// Namespace: geo -const ( - // GeoContinentCodeKey is the attribute Key conforming to the - // "geo.continent.code" semantic conventions. It represents the two-letter code - // representing continent’s name. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - GeoContinentCodeKey = attribute.Key("geo.continent.code") - - // GeoCountryISOCodeKey is the attribute Key conforming to the - // "geo.country.iso_code" semantic conventions. It represents the two-letter ISO - // Country Code ([ISO 3166-1 alpha2]). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "CA" - // - // [ISO 3166-1 alpha2]: https://wikipedia.org/wiki/ISO_3166-1#Codes - GeoCountryISOCodeKey = attribute.Key("geo.country.iso_code") - - // GeoLocalityNameKey is the attribute Key conforming to the "geo.locality.name" - // semantic conventions. It represents the locality name. Represents the name of - // a city, town, village, or similar populated place. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Montreal", "Berlin" - GeoLocalityNameKey = attribute.Key("geo.locality.name") - - // GeoLocationLatKey is the attribute Key conforming to the "geo.location.lat" - // semantic conventions. It represents the latitude of the geo location in - // [WGS84]. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 45.505918 - // - // [WGS84]: https://wikipedia.org/wiki/World_Geodetic_System#WGS84 - GeoLocationLatKey = attribute.Key("geo.location.lat") - - // GeoLocationLonKey is the attribute Key conforming to the "geo.location.lon" - // semantic conventions. It represents the longitude of the geo location in - // [WGS84]. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: -73.61483 - // - // [WGS84]: https://wikipedia.org/wiki/World_Geodetic_System#WGS84 - GeoLocationLonKey = attribute.Key("geo.location.lon") - - // GeoPostalCodeKey is the attribute Key conforming to the "geo.postal_code" - // semantic conventions. It represents the postal code associated with the - // location. Values appropriate for this field may also be known as a postcode - // or ZIP code and will vary widely from country to country. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "94040" - GeoPostalCodeKey = attribute.Key("geo.postal_code") - - // GeoRegionISOCodeKey is the attribute Key conforming to the - // "geo.region.iso_code" semantic conventions. It represents the region ISO code - // ([ISO 3166-2]). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "CA-QC" - // - // [ISO 3166-2]: https://wikipedia.org/wiki/ISO_3166-2 - GeoRegionISOCodeKey = attribute.Key("geo.region.iso_code") -) - -// GeoCountryISOCode returns an attribute KeyValue conforming to the -// "geo.country.iso_code" semantic conventions. It represents the two-letter ISO -// Country Code ([ISO 3166-1 alpha2]). -// -// [ISO 3166-1 alpha2]: https://wikipedia.org/wiki/ISO_3166-1#Codes -func GeoCountryISOCode(val string) attribute.KeyValue { - return GeoCountryISOCodeKey.String(val) -} - -// GeoLocalityName returns an attribute KeyValue conforming to the -// "geo.locality.name" semantic conventions. It represents the locality name. -// Represents the name of a city, town, village, or similar populated place. -func GeoLocalityName(val string) attribute.KeyValue { - return GeoLocalityNameKey.String(val) -} - -// GeoLocationLat returns an attribute KeyValue conforming to the -// "geo.location.lat" semantic conventions. It represents the latitude of the geo -// location in [WGS84]. -// -// [WGS84]: https://wikipedia.org/wiki/World_Geodetic_System#WGS84 -func GeoLocationLat(val float64) attribute.KeyValue { - return GeoLocationLatKey.Float64(val) -} - -// GeoLocationLon returns an attribute KeyValue conforming to the -// "geo.location.lon" semantic conventions. It represents the longitude of the -// geo location in [WGS84]. -// -// [WGS84]: https://wikipedia.org/wiki/World_Geodetic_System#WGS84 -func GeoLocationLon(val float64) attribute.KeyValue { - return GeoLocationLonKey.Float64(val) -} - -// GeoPostalCode returns an attribute KeyValue conforming to the -// "geo.postal_code" semantic conventions. It represents the postal code -// associated with the location. Values appropriate for this field may also be -// known as a postcode or ZIP code and will vary widely from country to country. -func GeoPostalCode(val string) attribute.KeyValue { - return GeoPostalCodeKey.String(val) -} - -// GeoRegionISOCode returns an attribute KeyValue conforming to the -// "geo.region.iso_code" semantic conventions. It represents the region ISO code -// ([ISO 3166-2]). -// -// [ISO 3166-2]: https://wikipedia.org/wiki/ISO_3166-2 -func GeoRegionISOCode(val string) attribute.KeyValue { - return GeoRegionISOCodeKey.String(val) -} - -// Enum values for geo.continent.code -var ( - // Africa - // Stability: development - GeoContinentCodeAf = GeoContinentCodeKey.String("AF") - // Antarctica - // Stability: development - GeoContinentCodeAn = GeoContinentCodeKey.String("AN") - // Asia - // Stability: development - GeoContinentCodeAs = GeoContinentCodeKey.String("AS") - // Europe - // Stability: development - GeoContinentCodeEu = GeoContinentCodeKey.String("EU") - // North America - // Stability: development - GeoContinentCodeNa = GeoContinentCodeKey.String("NA") - // Oceania - // Stability: development - GeoContinentCodeOc = GeoContinentCodeKey.String("OC") - // South America - // Stability: development - GeoContinentCodeSa = GeoContinentCodeKey.String("SA") -) - -// Namespace: go -const ( - // GoMemoryTypeKey is the attribute Key conforming to the "go.memory.type" - // semantic conventions. It represents the type of memory. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "other", "stack" - GoMemoryTypeKey = attribute.Key("go.memory.type") -) - -// Enum values for go.memory.type -var ( - // Memory allocated from the heap that is reserved for stack space, whether or - // not it is currently in-use. - // Stability: development - GoMemoryTypeStack = GoMemoryTypeKey.String("stack") - // Memory used by the Go runtime, excluding other categories of memory usage - // described in this enumeration. - // Stability: development - GoMemoryTypeOther = GoMemoryTypeKey.String("other") -) - -// Namespace: graphql -const ( - // GraphQLDocumentKey is the attribute Key conforming to the "graphql.document" - // semantic conventions. It represents the GraphQL document being executed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: query findBookById { bookById(id: ?) { name } } - // Note: The value may be sanitized to exclude sensitive information. - GraphQLDocumentKey = attribute.Key("graphql.document") - - // GraphQLOperationNameKey is the attribute Key conforming to the - // "graphql.operation.name" semantic conventions. It represents the name of the - // operation being executed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: findBookById - GraphQLOperationNameKey = attribute.Key("graphql.operation.name") - - // GraphQLOperationTypeKey is the attribute Key conforming to the - // "graphql.operation.type" semantic conventions. It represents the type of the - // operation being executed. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "query", "mutation", "subscription" - GraphQLOperationTypeKey = attribute.Key("graphql.operation.type") -) - -// GraphQLDocument returns an attribute KeyValue conforming to the -// "graphql.document" semantic conventions. It represents the GraphQL document -// being executed. -func GraphQLDocument(val string) attribute.KeyValue { - return GraphQLDocumentKey.String(val) -} - -// GraphQLOperationName returns an attribute KeyValue conforming to the -// "graphql.operation.name" semantic conventions. It represents the name of the -// operation being executed. -func GraphQLOperationName(val string) attribute.KeyValue { - return GraphQLOperationNameKey.String(val) -} - -// Enum values for graphql.operation.type -var ( - // GraphQL query - // Stability: development - GraphQLOperationTypeQuery = GraphQLOperationTypeKey.String("query") - // GraphQL mutation - // Stability: development - GraphQLOperationTypeMutation = GraphQLOperationTypeKey.String("mutation") - // GraphQL subscription - // Stability: development - GraphQLOperationTypeSubscription = GraphQLOperationTypeKey.String("subscription") -) - -// Namespace: heroku -const ( - // HerokuAppIDKey is the attribute Key conforming to the "heroku.app.id" - // semantic conventions. It represents the unique identifier for the - // application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2daa2797-e42b-4624-9322-ec3f968df4da" - HerokuAppIDKey = attribute.Key("heroku.app.id") - - // HerokuReleaseCommitKey is the attribute Key conforming to the - // "heroku.release.commit" semantic conventions. It represents the commit hash - // for the current release. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "e6134959463efd8966b20e75b913cafe3f5ec" - HerokuReleaseCommitKey = attribute.Key("heroku.release.commit") - - // HerokuReleaseCreationTimestampKey is the attribute Key conforming to the - // "heroku.release.creation_timestamp" semantic conventions. It represents the - // time and date the release was created. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2022-10-23T18:00:42Z" - HerokuReleaseCreationTimestampKey = attribute.Key("heroku.release.creation_timestamp") -) - -// HerokuAppID returns an attribute KeyValue conforming to the "heroku.app.id" -// semantic conventions. It represents the unique identifier for the application. -func HerokuAppID(val string) attribute.KeyValue { - return HerokuAppIDKey.String(val) -} - -// HerokuReleaseCommit returns an attribute KeyValue conforming to the -// "heroku.release.commit" semantic conventions. It represents the commit hash -// for the current release. -func HerokuReleaseCommit(val string) attribute.KeyValue { - return HerokuReleaseCommitKey.String(val) -} - -// HerokuReleaseCreationTimestamp returns an attribute KeyValue conforming to the -// "heroku.release.creation_timestamp" semantic conventions. It represents the -// time and date the release was created. -func HerokuReleaseCreationTimestamp(val string) attribute.KeyValue { - return HerokuReleaseCreationTimestampKey.String(val) -} - -// Namespace: host -const ( - // HostArchKey is the attribute Key conforming to the "host.arch" semantic - // conventions. It represents the CPU architecture the host system is running - // on. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HostArchKey = attribute.Key("host.arch") - - // HostCPUCacheL2SizeKey is the attribute Key conforming to the - // "host.cpu.cache.l2.size" semantic conventions. It represents the amount of - // level 2 memory cache available to the processor (in Bytes). - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 12288000 - HostCPUCacheL2SizeKey = attribute.Key("host.cpu.cache.l2.size") - - // HostCPUFamilyKey is the attribute Key conforming to the "host.cpu.family" - // semantic conventions. It represents the family or generation of the CPU. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "6", "PA-RISC 1.1e" - HostCPUFamilyKey = attribute.Key("host.cpu.family") - - // HostCPUModelIDKey is the attribute Key conforming to the "host.cpu.model.id" - // semantic conventions. It represents the model identifier. It provides more - // granular information about the CPU, distinguishing it from other CPUs within - // the same family. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "6", "9000/778/B180L" - HostCPUModelIDKey = attribute.Key("host.cpu.model.id") - - // HostCPUModelNameKey is the attribute Key conforming to the - // "host.cpu.model.name" semantic conventions. It represents the model - // designation of the processor. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "11th Gen Intel(R) Core(TM) i7-1185G7 @ 3.00GHz" - HostCPUModelNameKey = attribute.Key("host.cpu.model.name") - - // HostCPUSteppingKey is the attribute Key conforming to the "host.cpu.stepping" - // semantic conventions. It represents the stepping or core revisions. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1", "r1p1" - HostCPUSteppingKey = attribute.Key("host.cpu.stepping") - - // HostCPUVendorIDKey is the attribute Key conforming to the - // "host.cpu.vendor.id" semantic conventions. It represents the processor - // manufacturer identifier. A maximum 12-character string. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "GenuineIntel" - // Note: [CPUID] command returns the vendor ID string in EBX, EDX and ECX - // registers. Writing these to memory in this order results in a 12-character - // string. - // - // [CPUID]: https://wiki.osdev.org/CPUID - HostCPUVendorIDKey = attribute.Key("host.cpu.vendor.id") - - // HostIDKey is the attribute Key conforming to the "host.id" semantic - // conventions. It represents the unique host ID. For Cloud, this must be the - // instance_id assigned by the cloud provider. For non-containerized systems, - // this should be the `machine-id`. See the table below for the sources to use - // to determine the `machine-id` based on operating system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "fdbf79e8af94cb7f9e8df36789187052" - HostIDKey = attribute.Key("host.id") - - // HostImageIDKey is the attribute Key conforming to the "host.image.id" - // semantic conventions. It represents the VM image ID or host OS image ID. For - // Cloud, this value is from the provider. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "ami-07b06b442921831e5" - HostImageIDKey = attribute.Key("host.image.id") - - // HostImageNameKey is the attribute Key conforming to the "host.image.name" - // semantic conventions. It represents the name of the VM image or OS install - // the host was instantiated from. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "infra-ami-eks-worker-node-7d4ec78312", "CentOS-8-x86_64-1905" - HostImageNameKey = attribute.Key("host.image.name") - - // HostImageVersionKey is the attribute Key conforming to the - // "host.image.version" semantic conventions. It represents the version string - // of the VM image or host OS as defined in [Version Attributes]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "0.1" - // - // [Version Attributes]: /docs/resource/README.md#version-attributes - HostImageVersionKey = attribute.Key("host.image.version") - - // HostIPKey is the attribute Key conforming to the "host.ip" semantic - // conventions. It represents the available IP addresses of the host, excluding - // loopback interfaces. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "192.168.1.140", "fe80::abc2:4a28:737a:609e" - // Note: IPv4 Addresses MUST be specified in dotted-quad notation. IPv6 - // addresses MUST be specified in the [RFC 5952] format. - // - // [RFC 5952]: https://www.rfc-editor.org/rfc/rfc5952.html - HostIPKey = attribute.Key("host.ip") - - // HostMacKey is the attribute Key conforming to the "host.mac" semantic - // conventions. It represents the available MAC addresses of the host, excluding - // loopback interfaces. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "AC-DE-48-23-45-67", "AC-DE-48-23-45-67-01-9F" - // Note: MAC Addresses MUST be represented in [IEEE RA hexadecimal form]: as - // hyphen-separated octets in uppercase hexadecimal form from most to least - // significant. - // - // [IEEE RA hexadecimal form]: https://standards.ieee.org/wp-content/uploads/import/documents/tutorials/eui.pdf - HostMacKey = attribute.Key("host.mac") - - // HostNameKey is the attribute Key conforming to the "host.name" semantic - // conventions. It represents the name of the host. On Unix systems, it may - // contain what the hostname command returns, or the fully qualified hostname, - // or another name specified by the user. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "opentelemetry-test" - HostNameKey = attribute.Key("host.name") - - // HostTypeKey is the attribute Key conforming to the "host.type" semantic - // conventions. It represents the type of host. For Cloud, this must be the - // machine type. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "n1-standard-1" - HostTypeKey = attribute.Key("host.type") -) - -// HostCPUCacheL2Size returns an attribute KeyValue conforming to the -// "host.cpu.cache.l2.size" semantic conventions. It represents the amount of -// level 2 memory cache available to the processor (in Bytes). -func HostCPUCacheL2Size(val int) attribute.KeyValue { - return HostCPUCacheL2SizeKey.Int(val) -} - -// HostCPUFamily returns an attribute KeyValue conforming to the -// "host.cpu.family" semantic conventions. It represents the family or generation -// of the CPU. -func HostCPUFamily(val string) attribute.KeyValue { - return HostCPUFamilyKey.String(val) -} - -// HostCPUModelID returns an attribute KeyValue conforming to the -// "host.cpu.model.id" semantic conventions. It represents the model identifier. -// It provides more granular information about the CPU, distinguishing it from -// other CPUs within the same family. -func HostCPUModelID(val string) attribute.KeyValue { - return HostCPUModelIDKey.String(val) -} - -// HostCPUModelName returns an attribute KeyValue conforming to the -// "host.cpu.model.name" semantic conventions. It represents the model -// designation of the processor. -func HostCPUModelName(val string) attribute.KeyValue { - return HostCPUModelNameKey.String(val) -} - -// HostCPUStepping returns an attribute KeyValue conforming to the -// "host.cpu.stepping" semantic conventions. It represents the stepping or core -// revisions. -func HostCPUStepping(val string) attribute.KeyValue { - return HostCPUSteppingKey.String(val) -} - -// HostCPUVendorID returns an attribute KeyValue conforming to the -// "host.cpu.vendor.id" semantic conventions. It represents the processor -// manufacturer identifier. A maximum 12-character string. -func HostCPUVendorID(val string) attribute.KeyValue { - return HostCPUVendorIDKey.String(val) -} - -// HostID returns an attribute KeyValue conforming to the "host.id" semantic -// conventions. It represents the unique host ID. For Cloud, this must be the -// instance_id assigned by the cloud provider. For non-containerized systems, -// this should be the `machine-id`. See the table below for the sources to use to -// determine the `machine-id` based on operating system. -func HostID(val string) attribute.KeyValue { - return HostIDKey.String(val) -} - -// HostImageID returns an attribute KeyValue conforming to the "host.image.id" -// semantic conventions. It represents the VM image ID or host OS image ID. For -// Cloud, this value is from the provider. -func HostImageID(val string) attribute.KeyValue { - return HostImageIDKey.String(val) -} - -// HostImageName returns an attribute KeyValue conforming to the -// "host.image.name" semantic conventions. It represents the name of the VM image -// or OS install the host was instantiated from. -func HostImageName(val string) attribute.KeyValue { - return HostImageNameKey.String(val) -} - -// HostImageVersion returns an attribute KeyValue conforming to the -// "host.image.version" semantic conventions. It represents the version string of -// the VM image or host OS as defined in [Version Attributes]. -// -// [Version Attributes]: /docs/resource/README.md#version-attributes -func HostImageVersion(val string) attribute.KeyValue { - return HostImageVersionKey.String(val) -} - -// HostIP returns an attribute KeyValue conforming to the "host.ip" semantic -// conventions. It represents the available IP addresses of the host, excluding -// loopback interfaces. -func HostIP(val ...string) attribute.KeyValue { - return HostIPKey.StringSlice(val) -} - -// HostMac returns an attribute KeyValue conforming to the "host.mac" semantic -// conventions. It represents the available MAC addresses of the host, excluding -// loopback interfaces. -func HostMac(val ...string) attribute.KeyValue { - return HostMacKey.StringSlice(val) -} - -// HostName returns an attribute KeyValue conforming to the "host.name" semantic -// conventions. It represents the name of the host. On Unix systems, it may -// contain what the hostname command returns, or the fully qualified hostname, or -// another name specified by the user. -func HostName(val string) attribute.KeyValue { - return HostNameKey.String(val) -} - -// HostType returns an attribute KeyValue conforming to the "host.type" semantic -// conventions. It represents the type of host. For Cloud, this must be the -// machine type. -func HostType(val string) attribute.KeyValue { - return HostTypeKey.String(val) -} - -// Enum values for host.arch -var ( - // AMD64 - // Stability: development - HostArchAMD64 = HostArchKey.String("amd64") - // ARM32 - // Stability: development - HostArchARM32 = HostArchKey.String("arm32") - // ARM64 - // Stability: development - HostArchARM64 = HostArchKey.String("arm64") - // Itanium - // Stability: development - HostArchIA64 = HostArchKey.String("ia64") - // 32-bit PowerPC - // Stability: development - HostArchPPC32 = HostArchKey.String("ppc32") - // 64-bit PowerPC - // Stability: development - HostArchPPC64 = HostArchKey.String("ppc64") - // IBM z/Architecture - // Stability: development - HostArchS390x = HostArchKey.String("s390x") - // 32-bit x86 - // Stability: development - HostArchX86 = HostArchKey.String("x86") -) - -// Namespace: http -const ( - // HTTPConnectionStateKey is the attribute Key conforming to the - // "http.connection.state" semantic conventions. It represents the state of the - // HTTP connection in the HTTP connection pool. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "active", "idle" - HTTPConnectionStateKey = attribute.Key("http.connection.state") - - // HTTPRequestBodySizeKey is the attribute Key conforming to the - // "http.request.body.size" semantic conventions. It represents the size of the - // request payload body in bytes. This is the number of bytes transferred - // excluding headers and is often, but not always, present as the - // [Content-Length] header. For requests using transport encoding, this should - // be the compressed size. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // [Content-Length]: https://www.rfc-editor.org/rfc/rfc9110.html#field.content-length - HTTPRequestBodySizeKey = attribute.Key("http.request.body.size") - - // HTTPRequestMethodKey is the attribute Key conforming to the - // "http.request.method" semantic conventions. It represents the HTTP request - // method. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "GET", "POST", "HEAD" - // Note: HTTP request method value SHOULD be "known" to the instrumentation. - // By default, this convention defines "known" methods as the ones listed in - // [RFC9110], - // the PATCH method defined in [RFC5789] - // and the QUERY method defined in [httpbis-safe-method-w-body]. - // - // If the HTTP request method is not known to instrumentation, it MUST set the - // `http.request.method` attribute to `_OTHER`. - // - // If the HTTP instrumentation could end up converting valid HTTP request - // methods to `_OTHER`, then it MUST provide a way to override - // the list of known HTTP methods. If this override is done via environment - // variable, then the environment variable MUST be named - // OTEL_INSTRUMENTATION_HTTP_KNOWN_METHODS and support a comma-separated list of - // case-sensitive known HTTP methods - // (this list MUST be a full override of the default known method, it is not a - // list of known methods in addition to the defaults). - // - // HTTP method names are case-sensitive and `http.request.method` attribute - // value MUST match a known HTTP method name exactly. - // Instrumentations for specific web frameworks that consider HTTP methods to be - // case insensitive, SHOULD populate a canonical equivalent. - // Tracing instrumentations that do so, MUST also set - // `http.request.method_original` to the original value. - // - // [RFC9110]: https://www.rfc-editor.org/rfc/rfc9110.html#name-methods - // [RFC5789]: https://www.rfc-editor.org/rfc/rfc5789.html - // [httpbis-safe-method-w-body]: https://datatracker.ietf.org/doc/draft-ietf-httpbis-safe-method-w-body/?include_text=1 - HTTPRequestMethodKey = attribute.Key("http.request.method") - - // HTTPRequestMethodOriginalKey is the attribute Key conforming to the - // "http.request.method_original" semantic conventions. It represents the - // original HTTP method sent by the client in the request line. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "GeT", "ACL", "foo" - HTTPRequestMethodOriginalKey = attribute.Key("http.request.method_original") - - // HTTPRequestResendCountKey is the attribute Key conforming to the - // "http.request.resend_count" semantic conventions. It represents the ordinal - // number of request resending attempt (for any reason, including redirects). - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - // - // Note: The resend count SHOULD be updated each time an HTTP request gets - // resent by the client, regardless of what was the cause of the resending (e.g. - // redirection, authorization failure, 503 Server Unavailable, network issues, - // or any other). - HTTPRequestResendCountKey = attribute.Key("http.request.resend_count") - - // HTTPRequestSizeKey is the attribute Key conforming to the "http.request.size" - // semantic conventions. It represents the total size of the request in bytes. - // This should be the total number of bytes sent over the wire, including the - // request line (HTTP/1.1), framing (HTTP/2 and HTTP/3), headers, and request - // body if any. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - HTTPRequestSizeKey = attribute.Key("http.request.size") - - // HTTPResponseBodySizeKey is the attribute Key conforming to the - // "http.response.body.size" semantic conventions. It represents the size of the - // response payload body in bytes. This is the number of bytes transferred - // excluding headers and is often, but not always, present as the - // [Content-Length] header. For requests using transport encoding, this should - // be the compressed size. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // [Content-Length]: https://www.rfc-editor.org/rfc/rfc9110.html#field.content-length - HTTPResponseBodySizeKey = attribute.Key("http.response.body.size") - - // HTTPResponseSizeKey is the attribute Key conforming to the - // "http.response.size" semantic conventions. It represents the total size of - // the response in bytes. This should be the total number of bytes sent over the - // wire, including the status line (HTTP/1.1), framing (HTTP/2 and HTTP/3), - // headers, and response body and trailers if any. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - HTTPResponseSizeKey = attribute.Key("http.response.size") - - // HTTPResponseStatusCodeKey is the attribute Key conforming to the - // "http.response.status_code" semantic conventions. It represents the - // [HTTP response status code]. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: 200 - // - // [HTTP response status code]: https://tools.ietf.org/html/rfc7231#section-6 - HTTPResponseStatusCodeKey = attribute.Key("http.response.status_code") - - // HTTPRouteKey is the attribute Key conforming to the "http.route" semantic - // conventions. It represents the matched route template for the request. This - // MUST be low-cardinality and include all static path segments, with dynamic - // path segments represented with placeholders. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "/users/:userID?", "my-controller/my-action/{id?}" - // Note: MUST NOT be populated when this is not supported by the HTTP server - // framework as the route attribute should have low-cardinality and the URI path - // can NOT substitute it. - // SHOULD include the [application root] if there is one. - // - // A static path segment is a part of the route template with a fixed, - // low-cardinality value. This includes literal strings like `/users/` and - // placeholders that - // are constrained to a finite, predefined set of values, e.g. `{controller}` or - // `{action}`. - // - // A dynamic path segment is a placeholder for a value that can have high - // cardinality and is not constrained to a predefined list like static path - // segments. - // - // Instrumentations SHOULD use routing information provided by the corresponding - // web framework. They SHOULD pick the most precise source of routing - // information and MAY - // support custom route formatting. Instrumentations SHOULD document the format - // and the API used to obtain the route string. - // - // [application root]: /docs/http/http-spans.md#http-server-definitions - HTTPRouteKey = attribute.Key("http.route") -) - -// HTTPRequestBodySize returns an attribute KeyValue conforming to the -// "http.request.body.size" semantic conventions. It represents the size of the -// request payload body in bytes. This is the number of bytes transferred -// excluding headers and is often, but not always, present as the -// [Content-Length] header. For requests using transport encoding, this should be -// the compressed size. -// -// [Content-Length]: https://www.rfc-editor.org/rfc/rfc9110.html#field.content-length -func HTTPRequestBodySize(val int) attribute.KeyValue { - return HTTPRequestBodySizeKey.Int(val) -} - -// HTTPRequestHeader returns an attribute KeyValue conforming to the -// "http.request.header" semantic conventions. It represents the HTTP request -// headers, `` being the normalized HTTP Header name (lowercase), the value -// being the header values. -func HTTPRequestHeader(key string, val ...string) attribute.KeyValue { - return attribute.StringSlice("http.request.header."+key, val) -} - -// HTTPRequestMethodOriginal returns an attribute KeyValue conforming to the -// "http.request.method_original" semantic conventions. It represents the -// original HTTP method sent by the client in the request line. -func HTTPRequestMethodOriginal(val string) attribute.KeyValue { - return HTTPRequestMethodOriginalKey.String(val) -} - -// HTTPRequestResendCount returns an attribute KeyValue conforming to the -// "http.request.resend_count" semantic conventions. It represents the ordinal -// number of request resending attempt (for any reason, including redirects). -func HTTPRequestResendCount(val int) attribute.KeyValue { - return HTTPRequestResendCountKey.Int(val) -} - -// HTTPRequestSize returns an attribute KeyValue conforming to the -// "http.request.size" semantic conventions. It represents the total size of the -// request in bytes. This should be the total number of bytes sent over the wire, -// including the request line (HTTP/1.1), framing (HTTP/2 and HTTP/3), headers, -// and request body if any. -func HTTPRequestSize(val int) attribute.KeyValue { - return HTTPRequestSizeKey.Int(val) -} - -// HTTPResponseBodySize returns an attribute KeyValue conforming to the -// "http.response.body.size" semantic conventions. It represents the size of the -// response payload body in bytes. This is the number of bytes transferred -// excluding headers and is often, but not always, present as the -// [Content-Length] header. For requests using transport encoding, this should be -// the compressed size. -// -// [Content-Length]: https://www.rfc-editor.org/rfc/rfc9110.html#field.content-length -func HTTPResponseBodySize(val int) attribute.KeyValue { - return HTTPResponseBodySizeKey.Int(val) -} - -// HTTPResponseHeader returns an attribute KeyValue conforming to the -// "http.response.header" semantic conventions. It represents the HTTP response -// headers, `` being the normalized HTTP Header name (lowercase), the value -// being the header values. -func HTTPResponseHeader(key string, val ...string) attribute.KeyValue { - return attribute.StringSlice("http.response.header."+key, val) -} - -// HTTPResponseSize returns an attribute KeyValue conforming to the -// "http.response.size" semantic conventions. It represents the total size of the -// response in bytes. This should be the total number of bytes sent over the -// wire, including the status line (HTTP/1.1), framing (HTTP/2 and HTTP/3), -// headers, and response body and trailers if any. -func HTTPResponseSize(val int) attribute.KeyValue { - return HTTPResponseSizeKey.Int(val) -} - -// HTTPResponseStatusCode returns an attribute KeyValue conforming to the -// "http.response.status_code" semantic conventions. It represents the -// [HTTP response status code]. -// -// [HTTP response status code]: https://tools.ietf.org/html/rfc7231#section-6 -func HTTPResponseStatusCode(val int) attribute.KeyValue { - return HTTPResponseStatusCodeKey.Int(val) -} - -// HTTPRoute returns an attribute KeyValue conforming to the "http.route" -// semantic conventions. It represents the matched route template for the -// request. This MUST be low-cardinality and include all static path segments, -// with dynamic path segments represented with placeholders. -func HTTPRoute(val string) attribute.KeyValue { - return HTTPRouteKey.String(val) -} - -// Enum values for http.connection.state -var ( - // active state. - // Stability: development - HTTPConnectionStateActive = HTTPConnectionStateKey.String("active") - // idle state. - // Stability: development - HTTPConnectionStateIdle = HTTPConnectionStateKey.String("idle") -) - -// Enum values for http.request.method -var ( - // CONNECT method. - // Stability: stable - HTTPRequestMethodConnect = HTTPRequestMethodKey.String("CONNECT") - // DELETE method. - // Stability: stable - HTTPRequestMethodDelete = HTTPRequestMethodKey.String("DELETE") - // GET method. - // Stability: stable - HTTPRequestMethodGet = HTTPRequestMethodKey.String("GET") - // HEAD method. - // Stability: stable - HTTPRequestMethodHead = HTTPRequestMethodKey.String("HEAD") - // OPTIONS method. - // Stability: stable - HTTPRequestMethodOptions = HTTPRequestMethodKey.String("OPTIONS") - // PATCH method. - // Stability: stable - HTTPRequestMethodPatch = HTTPRequestMethodKey.String("PATCH") - // POST method. - // Stability: stable - HTTPRequestMethodPost = HTTPRequestMethodKey.String("POST") - // PUT method. - // Stability: stable - HTTPRequestMethodPut = HTTPRequestMethodKey.String("PUT") - // TRACE method. - // Stability: stable - HTTPRequestMethodTrace = HTTPRequestMethodKey.String("TRACE") - // QUERY method. - // Stability: development - HTTPRequestMethodQuery = HTTPRequestMethodKey.String("QUERY") - // Any HTTP method that the instrumentation has no prior knowledge of. - // Stability: stable - HTTPRequestMethodOther = HTTPRequestMethodKey.String("_OTHER") -) - -// Namespace: hw -const ( - // HwBatteryCapacityKey is the attribute Key conforming to the - // "hw.battery.capacity" semantic conventions. It represents the design capacity - // in Watts-hours or Amper-hours. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "9.3Ah", "50Wh" - HwBatteryCapacityKey = attribute.Key("hw.battery.capacity") - - // HwBatteryChemistryKey is the attribute Key conforming to the - // "hw.battery.chemistry" semantic conventions. It represents the battery - // [chemistry], e.g. Lithium-Ion, Nickel-Cadmium, etc. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Li-ion", "NiMH" - // - // [chemistry]: https://schemas.dmtf.org/wbem/cim-html/2.31.0/CIM_Battery.html - HwBatteryChemistryKey = attribute.Key("hw.battery.chemistry") - - // HwBatteryStateKey is the attribute Key conforming to the "hw.battery.state" - // semantic conventions. It represents the current state of the battery. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HwBatteryStateKey = attribute.Key("hw.battery.state") - - // HwBiosVersionKey is the attribute Key conforming to the "hw.bios_version" - // semantic conventions. It represents the BIOS version of the hardware - // component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1.2.3" - HwBiosVersionKey = attribute.Key("hw.bios_version") - - // HwDriverVersionKey is the attribute Key conforming to the "hw.driver_version" - // semantic conventions. It represents the driver version for the hardware - // component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "10.2.1-3" - HwDriverVersionKey = attribute.Key("hw.driver_version") - - // HwEnclosureTypeKey is the attribute Key conforming to the "hw.enclosure.type" - // semantic conventions. It represents the type of the enclosure (useful for - // modular systems). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Computer", "Storage", "Switch" - HwEnclosureTypeKey = attribute.Key("hw.enclosure.type") - - // HwFirmwareVersionKey is the attribute Key conforming to the - // "hw.firmware_version" semantic conventions. It represents the firmware - // version of the hardware component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2.0.1" - HwFirmwareVersionKey = attribute.Key("hw.firmware_version") - - // HwGpuTaskKey is the attribute Key conforming to the "hw.gpu.task" semantic - // conventions. It represents the type of task the GPU is performing. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HwGpuTaskKey = attribute.Key("hw.gpu.task") - - // HwIDKey is the attribute Key conforming to the "hw.id" semantic conventions. - // It represents an identifier for the hardware component, unique within the - // monitored host. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "win32battery_battery_testsysa33_1" - HwIDKey = attribute.Key("hw.id") - - // HwLimitTypeKey is the attribute Key conforming to the "hw.limit_type" - // semantic conventions. It represents the type of limit for hardware - // components. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HwLimitTypeKey = attribute.Key("hw.limit_type") - - // HwLogicalDiskRaidLevelKey is the attribute Key conforming to the - // "hw.logical_disk.raid_level" semantic conventions. It represents the RAID - // Level of the logical disk. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "RAID0+1", "RAID5", "RAID10" - HwLogicalDiskRaidLevelKey = attribute.Key("hw.logical_disk.raid_level") - - // HwLogicalDiskStateKey is the attribute Key conforming to the - // "hw.logical_disk.state" semantic conventions. It represents the state of the - // logical disk space usage. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HwLogicalDiskStateKey = attribute.Key("hw.logical_disk.state") - - // HwMemoryTypeKey is the attribute Key conforming to the "hw.memory.type" - // semantic conventions. It represents the type of the memory module. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "DDR4", "DDR5", "LPDDR5" - HwMemoryTypeKey = attribute.Key("hw.memory.type") - - // HwModelKey is the attribute Key conforming to the "hw.model" semantic - // conventions. It represents the descriptive model name of the hardware - // component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "PERC H740P", "Intel(R) Core(TM) i7-10700K", "Dell XPS 15 Battery" - HwModelKey = attribute.Key("hw.model") - - // HwNameKey is the attribute Key conforming to the "hw.name" semantic - // conventions. It represents an easily-recognizable name for the hardware - // component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "eth0" - HwNameKey = attribute.Key("hw.name") - - // HwNetworkLogicalAddressesKey is the attribute Key conforming to the - // "hw.network.logical_addresses" semantic conventions. It represents the - // logical addresses of the adapter (e.g. IP address, or WWPN). - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "172.16.8.21", "57.11.193.42" - HwNetworkLogicalAddressesKey = attribute.Key("hw.network.logical_addresses") - - // HwNetworkPhysicalAddressKey is the attribute Key conforming to the - // "hw.network.physical_address" semantic conventions. It represents the - // physical address of the adapter (e.g. MAC address, or WWNN). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "00-90-F5-E9-7B-36" - HwNetworkPhysicalAddressKey = attribute.Key("hw.network.physical_address") - - // HwParentKey is the attribute Key conforming to the "hw.parent" semantic - // conventions. It represents the unique identifier of the parent component - // (typically the `hw.id` attribute of the enclosure, or disk controller). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "dellStorage_perc_0" - HwParentKey = attribute.Key("hw.parent") - - // HwPhysicalDiskSmartAttributeKey is the attribute Key conforming to the - // "hw.physical_disk.smart_attribute" semantic conventions. It represents the - // [S.M.A.R.T.] (Self-Monitoring, Analysis, and Reporting Technology) attribute - // of the physical disk. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Spin Retry Count", "Seek Error Rate", "Raw Read Error Rate" - // - // [S.M.A.R.T.]: https://wikipedia.org/wiki/S.M.A.R.T. - HwPhysicalDiskSmartAttributeKey = attribute.Key("hw.physical_disk.smart_attribute") - - // HwPhysicalDiskStateKey is the attribute Key conforming to the - // "hw.physical_disk.state" semantic conventions. It represents the state of the - // physical disk endurance utilization. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HwPhysicalDiskStateKey = attribute.Key("hw.physical_disk.state") - - // HwPhysicalDiskTypeKey is the attribute Key conforming to the - // "hw.physical_disk.type" semantic conventions. It represents the type of the - // physical disk. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "HDD", "SSD", "10K" - HwPhysicalDiskTypeKey = attribute.Key("hw.physical_disk.type") - - // HwSensorLocationKey is the attribute Key conforming to the - // "hw.sensor_location" semantic conventions. It represents the location of the - // sensor. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "cpu0", "ps1", "INLET", "CPU0_DIE", "AMBIENT", "MOTHERBOARD", "PS0 - // V3_3", "MAIN_12V", "CPU_VCORE" - HwSensorLocationKey = attribute.Key("hw.sensor_location") - - // HwSerialNumberKey is the attribute Key conforming to the "hw.serial_number" - // semantic conventions. It represents the serial number of the hardware - // component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "CNFCP0123456789" - HwSerialNumberKey = attribute.Key("hw.serial_number") - - // HwStateKey is the attribute Key conforming to the "hw.state" semantic - // conventions. It represents the current state of the component. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HwStateKey = attribute.Key("hw.state") - - // HwTapeDriveOperationTypeKey is the attribute Key conforming to the - // "hw.tape_drive.operation_type" semantic conventions. It represents the type - // of tape drive operation. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HwTapeDriveOperationTypeKey = attribute.Key("hw.tape_drive.operation_type") - - // HwTypeKey is the attribute Key conforming to the "hw.type" semantic - // conventions. It represents the type of the component. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: Describes the category of the hardware component for which `hw.state` - // is being reported. For example, `hw.type=temperature` along with - // `hw.state=degraded` would indicate that the temperature of the hardware - // component has been reported as `degraded`. - HwTypeKey = attribute.Key("hw.type") - - // HwVendorKey is the attribute Key conforming to the "hw.vendor" semantic - // conventions. It represents the vendor name of the hardware component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Dell", "HP", "Intel", "AMD", "LSI", "Lenovo" - HwVendorKey = attribute.Key("hw.vendor") -) - -// HwBatteryCapacity returns an attribute KeyValue conforming to the -// "hw.battery.capacity" semantic conventions. It represents the design capacity -// in Watts-hours or Amper-hours. -func HwBatteryCapacity(val string) attribute.KeyValue { - return HwBatteryCapacityKey.String(val) -} - -// HwBatteryChemistry returns an attribute KeyValue conforming to the -// "hw.battery.chemistry" semantic conventions. It represents the battery -// [chemistry], e.g. Lithium-Ion, Nickel-Cadmium, etc. -// -// [chemistry]: https://schemas.dmtf.org/wbem/cim-html/2.31.0/CIM_Battery.html -func HwBatteryChemistry(val string) attribute.KeyValue { - return HwBatteryChemistryKey.String(val) -} - -// HwBiosVersion returns an attribute KeyValue conforming to the -// "hw.bios_version" semantic conventions. It represents the BIOS version of the -// hardware component. -func HwBiosVersion(val string) attribute.KeyValue { - return HwBiosVersionKey.String(val) -} - -// HwDriverVersion returns an attribute KeyValue conforming to the -// "hw.driver_version" semantic conventions. It represents the driver version for -// the hardware component. -func HwDriverVersion(val string) attribute.KeyValue { - return HwDriverVersionKey.String(val) -} - -// HwEnclosureType returns an attribute KeyValue conforming to the -// "hw.enclosure.type" semantic conventions. It represents the type of the -// enclosure (useful for modular systems). -func HwEnclosureType(val string) attribute.KeyValue { - return HwEnclosureTypeKey.String(val) -} - -// HwFirmwareVersion returns an attribute KeyValue conforming to the -// "hw.firmware_version" semantic conventions. It represents the firmware version -// of the hardware component. -func HwFirmwareVersion(val string) attribute.KeyValue { - return HwFirmwareVersionKey.String(val) -} - -// HwID returns an attribute KeyValue conforming to the "hw.id" semantic -// conventions. It represents an identifier for the hardware component, unique -// within the monitored host. -func HwID(val string) attribute.KeyValue { - return HwIDKey.String(val) -} - -// HwLogicalDiskRaidLevel returns an attribute KeyValue conforming to the -// "hw.logical_disk.raid_level" semantic conventions. It represents the RAID -// Level of the logical disk. -func HwLogicalDiskRaidLevel(val string) attribute.KeyValue { - return HwLogicalDiskRaidLevelKey.String(val) -} - -// HwMemoryType returns an attribute KeyValue conforming to the "hw.memory.type" -// semantic conventions. It represents the type of the memory module. -func HwMemoryType(val string) attribute.KeyValue { - return HwMemoryTypeKey.String(val) -} - -// HwModel returns an attribute KeyValue conforming to the "hw.model" semantic -// conventions. It represents the descriptive model name of the hardware -// component. -func HwModel(val string) attribute.KeyValue { - return HwModelKey.String(val) -} - -// HwName returns an attribute KeyValue conforming to the "hw.name" semantic -// conventions. It represents an easily-recognizable name for the hardware -// component. -func HwName(val string) attribute.KeyValue { - return HwNameKey.String(val) -} - -// HwNetworkLogicalAddresses returns an attribute KeyValue conforming to the -// "hw.network.logical_addresses" semantic conventions. It represents the logical -// addresses of the adapter (e.g. IP address, or WWPN). -func HwNetworkLogicalAddresses(val ...string) attribute.KeyValue { - return HwNetworkLogicalAddressesKey.StringSlice(val) -} - -// HwNetworkPhysicalAddress returns an attribute KeyValue conforming to the -// "hw.network.physical_address" semantic conventions. It represents the physical -// address of the adapter (e.g. MAC address, or WWNN). -func HwNetworkPhysicalAddress(val string) attribute.KeyValue { - return HwNetworkPhysicalAddressKey.String(val) -} - -// HwParent returns an attribute KeyValue conforming to the "hw.parent" semantic -// conventions. It represents the unique identifier of the parent component -// (typically the `hw.id` attribute of the enclosure, or disk controller). -func HwParent(val string) attribute.KeyValue { - return HwParentKey.String(val) -} - -// HwPhysicalDiskSmartAttribute returns an attribute KeyValue conforming to the -// "hw.physical_disk.smart_attribute" semantic conventions. It represents the -// [S.M.A.R.T.] (Self-Monitoring, Analysis, and Reporting Technology) attribute -// of the physical disk. -// -// [S.M.A.R.T.]: https://wikipedia.org/wiki/S.M.A.R.T. -func HwPhysicalDiskSmartAttribute(val string) attribute.KeyValue { - return HwPhysicalDiskSmartAttributeKey.String(val) -} - -// HwPhysicalDiskType returns an attribute KeyValue conforming to the -// "hw.physical_disk.type" semantic conventions. It represents the type of the -// physical disk. -func HwPhysicalDiskType(val string) attribute.KeyValue { - return HwPhysicalDiskTypeKey.String(val) -} - -// HwSensorLocation returns an attribute KeyValue conforming to the -// "hw.sensor_location" semantic conventions. It represents the location of the -// sensor. -func HwSensorLocation(val string) attribute.KeyValue { - return HwSensorLocationKey.String(val) -} - -// HwSerialNumber returns an attribute KeyValue conforming to the -// "hw.serial_number" semantic conventions. It represents the serial number of -// the hardware component. -func HwSerialNumber(val string) attribute.KeyValue { - return HwSerialNumberKey.String(val) -} - -// HwVendor returns an attribute KeyValue conforming to the "hw.vendor" semantic -// conventions. It represents the vendor name of the hardware component. -func HwVendor(val string) attribute.KeyValue { - return HwVendorKey.String(val) -} - -// Enum values for hw.battery.state -var ( - // Charging - // Stability: development - HwBatteryStateCharging = HwBatteryStateKey.String("charging") - // Discharging - // Stability: development - HwBatteryStateDischarging = HwBatteryStateKey.String("discharging") -) - -// Enum values for hw.gpu.task -var ( - // Decoder - // Stability: development - HwGpuTaskDecoder = HwGpuTaskKey.String("decoder") - // Encoder - // Stability: development - HwGpuTaskEncoder = HwGpuTaskKey.String("encoder") - // General - // Stability: development - HwGpuTaskGeneral = HwGpuTaskKey.String("general") -) - -// Enum values for hw.limit_type -var ( - // Critical - // Stability: development - HwLimitTypeCritical = HwLimitTypeKey.String("critical") - // Degraded - // Stability: development - HwLimitTypeDegraded = HwLimitTypeKey.String("degraded") - // High Critical - // Stability: development - HwLimitTypeHighCritical = HwLimitTypeKey.String("high.critical") - // High Degraded - // Stability: development - HwLimitTypeHighDegraded = HwLimitTypeKey.String("high.degraded") - // Low Critical - // Stability: development - HwLimitTypeLowCritical = HwLimitTypeKey.String("low.critical") - // Low Degraded - // Stability: development - HwLimitTypeLowDegraded = HwLimitTypeKey.String("low.degraded") - // Maximum - // Stability: development - HwLimitTypeMax = HwLimitTypeKey.String("max") - // Throttled - // Stability: development - HwLimitTypeThrottled = HwLimitTypeKey.String("throttled") - // Turbo - // Stability: development - HwLimitTypeTurbo = HwLimitTypeKey.String("turbo") -) - -// Enum values for hw.logical_disk.state -var ( - // Used - // Stability: development - HwLogicalDiskStateUsed = HwLogicalDiskStateKey.String("used") - // Free - // Stability: development - HwLogicalDiskStateFree = HwLogicalDiskStateKey.String("free") -) - -// Enum values for hw.physical_disk.state -var ( - // Remaining - // Stability: development - HwPhysicalDiskStateRemaining = HwPhysicalDiskStateKey.String("remaining") -) - -// Enum values for hw.state -var ( - // Degraded - // Stability: development - HwStateDegraded = HwStateKey.String("degraded") - // Failed - // Stability: development - HwStateFailed = HwStateKey.String("failed") - // Needs Cleaning - // Stability: development - HwStateNeedsCleaning = HwStateKey.String("needs_cleaning") - // OK - // Stability: development - HwStateOk = HwStateKey.String("ok") - // Predicted Failure - // Stability: development - HwStatePredictedFailure = HwStateKey.String("predicted_failure") -) - -// Enum values for hw.tape_drive.operation_type -var ( - // Mount - // Stability: development - HwTapeDriveOperationTypeMount = HwTapeDriveOperationTypeKey.String("mount") - // Unmount - // Stability: development - HwTapeDriveOperationTypeUnmount = HwTapeDriveOperationTypeKey.String("unmount") - // Clean - // Stability: development - HwTapeDriveOperationTypeClean = HwTapeDriveOperationTypeKey.String("clean") -) - -// Enum values for hw.type -var ( - // Battery - // Stability: development - HwTypeBattery = HwTypeKey.String("battery") - // CPU - // Stability: development - HwTypeCPU = HwTypeKey.String("cpu") - // Disk controller - // Stability: development - HwTypeDiskController = HwTypeKey.String("disk_controller") - // Enclosure - // Stability: development - HwTypeEnclosure = HwTypeKey.String("enclosure") - // Fan - // Stability: development - HwTypeFan = HwTypeKey.String("fan") - // GPU - // Stability: development - HwTypeGpu = HwTypeKey.String("gpu") - // Logical disk - // Stability: development - HwTypeLogicalDisk = HwTypeKey.String("logical_disk") - // Memory - // Stability: development - HwTypeMemory = HwTypeKey.String("memory") - // Network - // Stability: development - HwTypeNetwork = HwTypeKey.String("network") - // Physical disk - // Stability: development - HwTypePhysicalDisk = HwTypeKey.String("physical_disk") - // Power supply - // Stability: development - HwTypePowerSupply = HwTypeKey.String("power_supply") - // Tape drive - // Stability: development - HwTypeTapeDrive = HwTypeKey.String("tape_drive") - // Temperature - // Stability: development - HwTypeTemperature = HwTypeKey.String("temperature") - // Voltage - // Stability: development - HwTypeVoltage = HwTypeKey.String("voltage") -) - -// Namespace: ios -const ( - // IOSAppStateKey is the attribute Key conforming to the "ios.app.state" - // semantic conventions. It represents the this attribute represents the state - // of the application. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: The iOS lifecycle states are defined in the - // [UIApplicationDelegate documentation], and from which the `OS terminology` - // column values are derived. - // - // [UIApplicationDelegate documentation]: https://developer.apple.com/documentation/uikit/uiapplicationdelegate - IOSAppStateKey = attribute.Key("ios.app.state") -) - -// Enum values for ios.app.state -var ( - // The app has become `active`. Associated with UIKit notification - // `applicationDidBecomeActive`. - // - // Stability: development - IOSAppStateActive = IOSAppStateKey.String("active") - // The app is now `inactive`. Associated with UIKit notification - // `applicationWillResignActive`. - // - // Stability: development - IOSAppStateInactive = IOSAppStateKey.String("inactive") - // The app is now in the background. This value is associated with UIKit - // notification `applicationDidEnterBackground`. - // - // Stability: development - IOSAppStateBackground = IOSAppStateKey.String("background") - // The app is now in the foreground. This value is associated with UIKit - // notification `applicationWillEnterForeground`. - // - // Stability: development - IOSAppStateForeground = IOSAppStateKey.String("foreground") - // The app is about to terminate. Associated with UIKit notification - // `applicationWillTerminate`. - // - // Stability: development - IOSAppStateTerminate = IOSAppStateKey.String("terminate") -) - -// Namespace: jsonrpc -const ( - // JSONRPCProtocolVersionKey is the attribute Key conforming to the - // "jsonrpc.protocol.version" semantic conventions. It represents the protocol - // version, as specified in the `jsonrpc` property of the request and its - // corresponding response. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2.0", "1.0" - JSONRPCProtocolVersionKey = attribute.Key("jsonrpc.protocol.version") - - // JSONRPCRequestIDKey is the attribute Key conforming to the - // "jsonrpc.request.id" semantic conventions. It represents a string - // representation of the `id` property of the request and its corresponding - // response. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "10", "request-7" - // Note: Under the [JSON-RPC specification], the `id` property may be a string, - // number, null, or omitted entirely. When omitted, the request is treated as a - // notification. Using `null` is not equivalent to omitting the `id`, but it is - // discouraged. - // Instrumentations SHOULD NOT capture this attribute when the `id` is `null` or - // omitted. - // - // [JSON-RPC specification]: https://www.jsonrpc.org/specification - JSONRPCRequestIDKey = attribute.Key("jsonrpc.request.id") -) - -// JSONRPCProtocolVersion returns an attribute KeyValue conforming to the -// "jsonrpc.protocol.version" semantic conventions. It represents the protocol -// version, as specified in the `jsonrpc` property of the request and its -// corresponding response. -func JSONRPCProtocolVersion(val string) attribute.KeyValue { - return JSONRPCProtocolVersionKey.String(val) -} - -// JSONRPCRequestID returns an attribute KeyValue conforming to the -// "jsonrpc.request.id" semantic conventions. It represents a string -// representation of the `id` property of the request and its corresponding -// response. -func JSONRPCRequestID(val string) attribute.KeyValue { - return JSONRPCRequestIDKey.String(val) -} - -// Namespace: k8s -const ( - // K8SClusterNameKey is the attribute Key conforming to the "k8s.cluster.name" - // semantic conventions. It represents the name of the cluster. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry-cluster" - K8SClusterNameKey = attribute.Key("k8s.cluster.name") - - // K8SClusterUIDKey is the attribute Key conforming to the "k8s.cluster.uid" - // semantic conventions. It represents a pseudo-ID for the cluster, set to the - // UID of the `kube-system` namespace. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "218fc5a9-a5f1-4b54-aa05-46717d0ab26d" - // Note: K8s doesn't have support for obtaining a cluster ID. If this is ever - // added, we will recommend collecting the `k8s.cluster.uid` through the - // official APIs. In the meantime, we are able to use the `uid` of the - // `kube-system` namespace as a proxy for cluster ID. Read on for the - // rationale. - // - // Every object created in a K8s cluster is assigned a distinct UID. The - // `kube-system` namespace is used by Kubernetes itself and will exist - // for the lifetime of the cluster. Using the `uid` of the `kube-system` - // namespace is a reasonable proxy for the K8s ClusterID as it will only - // change if the cluster is rebuilt. Furthermore, Kubernetes UIDs are - // UUIDs as standardized by - // [ISO/IEC 9834-8 and ITU-T X.667]. - // Which states: - // - // > If generated according to one of the mechanisms defined in Rec. - // > ITU-T X.667 | ISO/IEC 9834-8, a UUID is either guaranteed to be - // > different from all other UUIDs generated before 3603 A.D., or is - // > extremely likely to be different (depending on the mechanism chosen). - // - // Therefore, UIDs between clusters should be extremely unlikely to - // conflict. - // - // [ISO/IEC 9834-8 and ITU-T X.667]: https://www.itu.int/ITU-T/studygroups/com17/oid.html - K8SClusterUIDKey = attribute.Key("k8s.cluster.uid") - - // K8SContainerNameKey is the attribute Key conforming to the - // "k8s.container.name" semantic conventions. It represents the name of the - // Container from Pod specification, must be unique within a Pod. Container - // runtime usually uses different globally unique name (`container.name`). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "redis" - K8SContainerNameKey = attribute.Key("k8s.container.name") - - // K8SContainerRestartCountKey is the attribute Key conforming to the - // "k8s.container.restart_count" semantic conventions. It represents the number - // of times the container was restarted. This attribute can be used to identify - // a particular container (running or stopped) within a container spec. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: - K8SContainerRestartCountKey = attribute.Key("k8s.container.restart_count") - - // K8SContainerStatusLastTerminatedReasonKey is the attribute Key conforming to - // the "k8s.container.status.last_terminated_reason" semantic conventions. It - // represents the last terminated reason of the Container. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Evicted", "Error" - K8SContainerStatusLastTerminatedReasonKey = attribute.Key("k8s.container.status.last_terminated_reason") - - // K8SContainerStatusReasonKey is the attribute Key conforming to the - // "k8s.container.status.reason" semantic conventions. It represents the reason - // for the container state. Corresponds to the `reason` field of the: - // [K8s ContainerStateWaiting] or [K8s ContainerStateTerminated]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "ContainerCreating", "CrashLoopBackOff", - // "CreateContainerConfigError", "ErrImagePull", "ImagePullBackOff", - // "OOMKilled", "Completed", "Error", "ContainerCannotRun" - // - // [K8s ContainerStateWaiting]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#containerstatewaiting-v1-core - // [K8s ContainerStateTerminated]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#containerstateterminated-v1-core - K8SContainerStatusReasonKey = attribute.Key("k8s.container.status.reason") - - // K8SContainerStatusStateKey is the attribute Key conforming to the - // "k8s.container.status.state" semantic conventions. It represents the state of - // the container. [K8s ContainerState]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "terminated", "running", "waiting" - // - // [K8s ContainerState]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#containerstate-v1-core - K8SContainerStatusStateKey = attribute.Key("k8s.container.status.state") - - // K8SCronJobNameKey is the attribute Key conforming to the "k8s.cronjob.name" - // semantic conventions. It represents the name of the CronJob. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry" - K8SCronJobNameKey = attribute.Key("k8s.cronjob.name") - - // K8SCronJobUIDKey is the attribute Key conforming to the "k8s.cronjob.uid" - // semantic conventions. It represents the UID of the CronJob. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SCronJobUIDKey = attribute.Key("k8s.cronjob.uid") - - // K8SDaemonSetNameKey is the attribute Key conforming to the - // "k8s.daemonset.name" semantic conventions. It represents the name of the - // DaemonSet. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry" - K8SDaemonSetNameKey = attribute.Key("k8s.daemonset.name") - - // K8SDaemonSetUIDKey is the attribute Key conforming to the "k8s.daemonset.uid" - // semantic conventions. It represents the UID of the DaemonSet. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SDaemonSetUIDKey = attribute.Key("k8s.daemonset.uid") - - // K8SDeploymentNameKey is the attribute Key conforming to the - // "k8s.deployment.name" semantic conventions. It represents the name of the - // Deployment. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry" - K8SDeploymentNameKey = attribute.Key("k8s.deployment.name") - - // K8SDeploymentUIDKey is the attribute Key conforming to the - // "k8s.deployment.uid" semantic conventions. It represents the UID of the - // Deployment. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SDeploymentUIDKey = attribute.Key("k8s.deployment.uid") - - // K8SHPAMetricTypeKey is the attribute Key conforming to the - // "k8s.hpa.metric.type" semantic conventions. It represents the type of metric - // source for the horizontal pod autoscaler. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Resource", "ContainerResource" - // Note: This attribute reflects the `type` field of spec.metrics[] in the HPA. - K8SHPAMetricTypeKey = attribute.Key("k8s.hpa.metric.type") - - // K8SHPANameKey is the attribute Key conforming to the "k8s.hpa.name" semantic - // conventions. It represents the name of the horizontal pod autoscaler. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "opentelemetry" - K8SHPANameKey = attribute.Key("k8s.hpa.name") - - // K8SHPAScaletargetrefAPIVersionKey is the attribute Key conforming to the - // "k8s.hpa.scaletargetref.api_version" semantic conventions. It represents the - // API version of the target resource to scale for the HorizontalPodAutoscaler. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "apps/v1", "autoscaling/v2" - // Note: This maps to the `apiVersion` field in the `scaleTargetRef` of the HPA - // spec. - K8SHPAScaletargetrefAPIVersionKey = attribute.Key("k8s.hpa.scaletargetref.api_version") - - // K8SHPAScaletargetrefKindKey is the attribute Key conforming to the - // "k8s.hpa.scaletargetref.kind" semantic conventions. It represents the kind of - // the target resource to scale for the HorizontalPodAutoscaler. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Deployment", "StatefulSet" - // Note: This maps to the `kind` field in the `scaleTargetRef` of the HPA spec. - K8SHPAScaletargetrefKindKey = attribute.Key("k8s.hpa.scaletargetref.kind") - - // K8SHPAScaletargetrefNameKey is the attribute Key conforming to the - // "k8s.hpa.scaletargetref.name" semantic conventions. It represents the name of - // the target resource to scale for the HorizontalPodAutoscaler. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-deployment", "my-statefulset" - // Note: This maps to the `name` field in the `scaleTargetRef` of the HPA spec. - K8SHPAScaletargetrefNameKey = attribute.Key("k8s.hpa.scaletargetref.name") - - // K8SHPAUIDKey is the attribute Key conforming to the "k8s.hpa.uid" semantic - // conventions. It represents the UID of the horizontal pod autoscaler. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SHPAUIDKey = attribute.Key("k8s.hpa.uid") - - // K8SHugepageSizeKey is the attribute Key conforming to the "k8s.hugepage.size" - // semantic conventions. It represents the size (identifier) of the K8s huge - // page. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2Mi" - K8SHugepageSizeKey = attribute.Key("k8s.hugepage.size") - - // K8SJobNameKey is the attribute Key conforming to the "k8s.job.name" semantic - // conventions. It represents the name of the Job. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry" - K8SJobNameKey = attribute.Key("k8s.job.name") - - // K8SJobUIDKey is the attribute Key conforming to the "k8s.job.uid" semantic - // conventions. It represents the UID of the Job. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SJobUIDKey = attribute.Key("k8s.job.uid") - - // K8SNamespaceNameKey is the attribute Key conforming to the - // "k8s.namespace.name" semantic conventions. It represents the name of the - // namespace that the pod is running in. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "default" - K8SNamespaceNameKey = attribute.Key("k8s.namespace.name") - - // K8SNamespacePhaseKey is the attribute Key conforming to the - // "k8s.namespace.phase" semantic conventions. It represents the phase of the - // K8s namespace. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "active", "terminating" - // Note: This attribute aligns with the `phase` field of the - // [K8s NamespaceStatus] - // - // [K8s NamespaceStatus]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#namespacestatus-v1-core - K8SNamespacePhaseKey = attribute.Key("k8s.namespace.phase") - - // K8SNodeConditionStatusKey is the attribute Key conforming to the - // "k8s.node.condition.status" semantic conventions. It represents the status of - // the condition, one of True, False, Unknown. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "true", "false", "unknown" - // Note: This attribute aligns with the `status` field of the - // [NodeCondition] - // - // [NodeCondition]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#nodecondition-v1-core - K8SNodeConditionStatusKey = attribute.Key("k8s.node.condition.status") - - // K8SNodeConditionTypeKey is the attribute Key conforming to the - // "k8s.node.condition.type" semantic conventions. It represents the condition - // type of a K8s Node. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Ready", "DiskPressure" - // Note: K8s Node conditions as described - // by [K8s documentation]. - // - // This attribute aligns with the `type` field of the - // [NodeCondition] - // - // The set of possible values is not limited to those listed here. Managed - // Kubernetes environments, - // or custom controllers MAY introduce additional node condition types. - // When this occurs, the exact value as reported by the Kubernetes API SHOULD be - // used. - // - // [K8s documentation]: https://v1-32.docs.kubernetes.io/docs/reference/node/node-status/#condition - // [NodeCondition]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#nodecondition-v1-core - K8SNodeConditionTypeKey = attribute.Key("k8s.node.condition.type") - - // K8SNodeNameKey is the attribute Key conforming to the "k8s.node.name" - // semantic conventions. It represents the name of the Node. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "node-1" - K8SNodeNameKey = attribute.Key("k8s.node.name") - - // K8SNodeUIDKey is the attribute Key conforming to the "k8s.node.uid" semantic - // conventions. It represents the UID of the Node. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "1eb3a0c6-0477-4080-a9cb-0cb7db65c6a2" - K8SNodeUIDKey = attribute.Key("k8s.node.uid") - - // K8SPodHostnameKey is the attribute Key conforming to the "k8s.pod.hostname" - // semantic conventions. It represents the specifies the hostname of the Pod. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "collector-gateway" - // Note: The K8s Pod spec has an optional hostname field, which can be used to - // specify a hostname. - // Refer to [K8s docs] - // for more information about this field. - // - // This attribute aligns with the `hostname` field of the - // [K8s PodSpec]. - // - // [K8s docs]: https://kubernetes.io/docs/concepts/services-networking/dns-pod-service/#pod-hostname-and-subdomain-field - // [K8s PodSpec]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.34/#podspec-v1-core - K8SPodHostnameKey = attribute.Key("k8s.pod.hostname") - - // K8SPodIPKey is the attribute Key conforming to the "k8s.pod.ip" semantic - // conventions. It represents the IP address allocated to the Pod. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "172.18.0.2" - // Note: This attribute aligns with the `podIP` field of the - // [K8s PodStatus]. - // - // [K8s PodStatus]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.34/#podstatus-v1-core - K8SPodIPKey = attribute.Key("k8s.pod.ip") - - // K8SPodNameKey is the attribute Key conforming to the "k8s.pod.name" semantic - // conventions. It represents the name of the Pod. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry-pod-autoconf" - K8SPodNameKey = attribute.Key("k8s.pod.name") - - // K8SPodStartTimeKey is the attribute Key conforming to the - // "k8s.pod.start_time" semantic conventions. It represents the start timestamp - // of the Pod. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "2025-12-04T08:41:03Z" - // Note: Date and time at which the object was acknowledged by the Kubelet. - // This is before the Kubelet pulled the container image(s) for the pod. - // - // This attribute aligns with the `startTime` field of the - // [K8s PodStatus], - // in ISO 8601 (RFC 3339 compatible) format. - // - // [K8s PodStatus]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.34/#podstatus-v1-core - K8SPodStartTimeKey = attribute.Key("k8s.pod.start_time") - - // K8SPodStatusPhaseKey is the attribute Key conforming to the - // "k8s.pod.status.phase" semantic conventions. It represents the phase for the - // pod. Corresponds to the `phase` field of the: [K8s PodStatus]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Pending", "Running" - // - // [K8s PodStatus]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.33/#podstatus-v1-core - K8SPodStatusPhaseKey = attribute.Key("k8s.pod.status.phase") - - // K8SPodStatusReasonKey is the attribute Key conforming to the - // "k8s.pod.status.reason" semantic conventions. It represents the reason for - // the pod state. Corresponds to the `reason` field of the: [K8s PodStatus]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Evicted", "NodeAffinity" - // - // [K8s PodStatus]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.33/#podstatus-v1-core - K8SPodStatusReasonKey = attribute.Key("k8s.pod.status.reason") - - // K8SPodUIDKey is the attribute Key conforming to the "k8s.pod.uid" semantic - // conventions. It represents the UID of the Pod. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SPodUIDKey = attribute.Key("k8s.pod.uid") - - // K8SReplicaSetNameKey is the attribute Key conforming to the - // "k8s.replicaset.name" semantic conventions. It represents the name of the - // ReplicaSet. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry" - K8SReplicaSetNameKey = attribute.Key("k8s.replicaset.name") - - // K8SReplicaSetUIDKey is the attribute Key conforming to the - // "k8s.replicaset.uid" semantic conventions. It represents the UID of the - // ReplicaSet. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SReplicaSetUIDKey = attribute.Key("k8s.replicaset.uid") - - // K8SReplicationControllerNameKey is the attribute Key conforming to the - // "k8s.replicationcontroller.name" semantic conventions. It represents the name - // of the replication controller. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "opentelemetry" - K8SReplicationControllerNameKey = attribute.Key("k8s.replicationcontroller.name") - - // K8SReplicationControllerUIDKey is the attribute Key conforming to the - // "k8s.replicationcontroller.uid" semantic conventions. It represents the UID - // of the replication controller. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SReplicationControllerUIDKey = attribute.Key("k8s.replicationcontroller.uid") - - // K8SResourceQuotaNameKey is the attribute Key conforming to the - // "k8s.resourcequota.name" semantic conventions. It represents the name of the - // resource quota. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "opentelemetry" - K8SResourceQuotaNameKey = attribute.Key("k8s.resourcequota.name") - - // K8SResourceQuotaResourceNameKey is the attribute Key conforming to the - // "k8s.resourcequota.resource_name" semantic conventions. It represents the - // name of the K8s resource a resource quota defines. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "count/replicationcontrollers" - // Note: The value for this attribute can be either the full - // `count/[.]` string (e.g., count/deployments.apps, - // count/pods), or, for certain core Kubernetes resources, just the resource - // name (e.g., pods, services, configmaps). Both forms are supported by - // Kubernetes for object count quotas. See - // [Kubernetes Resource Quotas documentation] for more details. - // - // [Kubernetes Resource Quotas documentation]: https://kubernetes.io/docs/concepts/policy/resource-quotas/#quota-on-object-count - K8SResourceQuotaResourceNameKey = attribute.Key("k8s.resourcequota.resource_name") - - // K8SResourceQuotaUIDKey is the attribute Key conforming to the - // "k8s.resourcequota.uid" semantic conventions. It represents the UID of the - // resource quota. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SResourceQuotaUIDKey = attribute.Key("k8s.resourcequota.uid") - - // K8SStatefulSetNameKey is the attribute Key conforming to the - // "k8s.statefulset.name" semantic conventions. It represents the name of the - // StatefulSet. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry" - K8SStatefulSetNameKey = attribute.Key("k8s.statefulset.name") - - // K8SStatefulSetUIDKey is the attribute Key conforming to the - // "k8s.statefulset.uid" semantic conventions. It represents the UID of the - // StatefulSet. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SStatefulSetUIDKey = attribute.Key("k8s.statefulset.uid") - - // K8SStorageclassNameKey is the attribute Key conforming to the - // "k8s.storageclass.name" semantic conventions. It represents the name of K8s - // [StorageClass] object. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "gold.storageclass.storage.k8s.io" - // - // [StorageClass]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#storageclass-v1-storage-k8s-io - K8SStorageclassNameKey = attribute.Key("k8s.storageclass.name") - - // K8SVolumeNameKey is the attribute Key conforming to the "k8s.volume.name" - // semantic conventions. It represents the name of the K8s volume. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "volume0" - K8SVolumeNameKey = attribute.Key("k8s.volume.name") - - // K8SVolumeTypeKey is the attribute Key conforming to the "k8s.volume.type" - // semantic conventions. It represents the type of the K8s volume. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "emptyDir", "persistentVolumeClaim" - K8SVolumeTypeKey = attribute.Key("k8s.volume.type") -) - -// K8SClusterName returns an attribute KeyValue conforming to the -// "k8s.cluster.name" semantic conventions. It represents the name of the -// cluster. -func K8SClusterName(val string) attribute.KeyValue { - return K8SClusterNameKey.String(val) -} - -// K8SClusterUID returns an attribute KeyValue conforming to the -// "k8s.cluster.uid" semantic conventions. It represents a pseudo-ID for the -// cluster, set to the UID of the `kube-system` namespace. -func K8SClusterUID(val string) attribute.KeyValue { - return K8SClusterUIDKey.String(val) -} - -// K8SContainerName returns an attribute KeyValue conforming to the -// "k8s.container.name" semantic conventions. It represents the name of the -// Container from Pod specification, must be unique within a Pod. Container -// runtime usually uses different globally unique name (`container.name`). -func K8SContainerName(val string) attribute.KeyValue { - return K8SContainerNameKey.String(val) -} - -// K8SContainerRestartCount returns an attribute KeyValue conforming to the -// "k8s.container.restart_count" semantic conventions. It represents the number -// of times the container was restarted. This attribute can be used to identify a -// particular container (running or stopped) within a container spec. -func K8SContainerRestartCount(val int) attribute.KeyValue { - return K8SContainerRestartCountKey.Int(val) -} - -// K8SContainerStatusLastTerminatedReason returns an attribute KeyValue -// conforming to the "k8s.container.status.last_terminated_reason" semantic -// conventions. It represents the last terminated reason of the Container. -func K8SContainerStatusLastTerminatedReason(val string) attribute.KeyValue { - return K8SContainerStatusLastTerminatedReasonKey.String(val) -} - -// K8SCronJobAnnotation returns an attribute KeyValue conforming to the -// "k8s.cronjob.annotation" semantic conventions. It represents the cronjob -// annotation placed on the CronJob, the `` being the annotation name, the -// value being the annotation value. -func K8SCronJobAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.cronjob.annotation."+key, val) -} - -// K8SCronJobLabel returns an attribute KeyValue conforming to the -// "k8s.cronjob.label" semantic conventions. It represents the label placed on -// the CronJob, the `` being the label name, the value being the label -// value. -func K8SCronJobLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.cronjob.label."+key, val) -} - -// K8SCronJobName returns an attribute KeyValue conforming to the -// "k8s.cronjob.name" semantic conventions. It represents the name of the -// CronJob. -func K8SCronJobName(val string) attribute.KeyValue { - return K8SCronJobNameKey.String(val) -} - -// K8SCronJobUID returns an attribute KeyValue conforming to the -// "k8s.cronjob.uid" semantic conventions. It represents the UID of the CronJob. -func K8SCronJobUID(val string) attribute.KeyValue { - return K8SCronJobUIDKey.String(val) -} - -// K8SDaemonSetAnnotation returns an attribute KeyValue conforming to the -// "k8s.daemonset.annotation" semantic conventions. It represents the annotation -// placed on the DaemonSet, the `` being the annotation name, the value -// being the annotation value, even if the value is empty. -func K8SDaemonSetAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.daemonset.annotation."+key, val) -} - -// K8SDaemonSetLabel returns an attribute KeyValue conforming to the -// "k8s.daemonset.label" semantic conventions. It represents the label placed on -// the DaemonSet, the `` being the label name, the value being the label -// value, even if the value is empty. -func K8SDaemonSetLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.daemonset.label."+key, val) -} - -// K8SDaemonSetName returns an attribute KeyValue conforming to the -// "k8s.daemonset.name" semantic conventions. It represents the name of the -// DaemonSet. -func K8SDaemonSetName(val string) attribute.KeyValue { - return K8SDaemonSetNameKey.String(val) -} - -// K8SDaemonSetUID returns an attribute KeyValue conforming to the -// "k8s.daemonset.uid" semantic conventions. It represents the UID of the -// DaemonSet. -func K8SDaemonSetUID(val string) attribute.KeyValue { - return K8SDaemonSetUIDKey.String(val) -} - -// K8SDeploymentAnnotation returns an attribute KeyValue conforming to the -// "k8s.deployment.annotation" semantic conventions. It represents the annotation -// placed on the Deployment, the `` being the annotation name, the value -// being the annotation value, even if the value is empty. -func K8SDeploymentAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.deployment.annotation."+key, val) -} - -// K8SDeploymentLabel returns an attribute KeyValue conforming to the -// "k8s.deployment.label" semantic conventions. It represents the label placed on -// the Deployment, the `` being the label name, the value being the label -// value, even if the value is empty. -func K8SDeploymentLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.deployment.label."+key, val) -} - -// K8SDeploymentName returns an attribute KeyValue conforming to the -// "k8s.deployment.name" semantic conventions. It represents the name of the -// Deployment. -func K8SDeploymentName(val string) attribute.KeyValue { - return K8SDeploymentNameKey.String(val) -} - -// K8SDeploymentUID returns an attribute KeyValue conforming to the -// "k8s.deployment.uid" semantic conventions. It represents the UID of the -// Deployment. -func K8SDeploymentUID(val string) attribute.KeyValue { - return K8SDeploymentUIDKey.String(val) -} - -// K8SHPAMetricType returns an attribute KeyValue conforming to the -// "k8s.hpa.metric.type" semantic conventions. It represents the type of metric -// source for the horizontal pod autoscaler. -func K8SHPAMetricType(val string) attribute.KeyValue { - return K8SHPAMetricTypeKey.String(val) -} - -// K8SHPAName returns an attribute KeyValue conforming to the "k8s.hpa.name" -// semantic conventions. It represents the name of the horizontal pod autoscaler. -func K8SHPAName(val string) attribute.KeyValue { - return K8SHPANameKey.String(val) -} - -// K8SHPAScaletargetrefAPIVersion returns an attribute KeyValue conforming to the -// "k8s.hpa.scaletargetref.api_version" semantic conventions. It represents the -// API version of the target resource to scale for the HorizontalPodAutoscaler. -func K8SHPAScaletargetrefAPIVersion(val string) attribute.KeyValue { - return K8SHPAScaletargetrefAPIVersionKey.String(val) -} - -// K8SHPAScaletargetrefKind returns an attribute KeyValue conforming to the -// "k8s.hpa.scaletargetref.kind" semantic conventions. It represents the kind of -// the target resource to scale for the HorizontalPodAutoscaler. -func K8SHPAScaletargetrefKind(val string) attribute.KeyValue { - return K8SHPAScaletargetrefKindKey.String(val) -} - -// K8SHPAScaletargetrefName returns an attribute KeyValue conforming to the -// "k8s.hpa.scaletargetref.name" semantic conventions. It represents the name of -// the target resource to scale for the HorizontalPodAutoscaler. -func K8SHPAScaletargetrefName(val string) attribute.KeyValue { - return K8SHPAScaletargetrefNameKey.String(val) -} - -// K8SHPAUID returns an attribute KeyValue conforming to the "k8s.hpa.uid" -// semantic conventions. It represents the UID of the horizontal pod autoscaler. -func K8SHPAUID(val string) attribute.KeyValue { - return K8SHPAUIDKey.String(val) -} - -// K8SHugepageSize returns an attribute KeyValue conforming to the -// "k8s.hugepage.size" semantic conventions. It represents the size (identifier) -// of the K8s huge page. -func K8SHugepageSize(val string) attribute.KeyValue { - return K8SHugepageSizeKey.String(val) -} - -// K8SJobAnnotation returns an attribute KeyValue conforming to the -// "k8s.job.annotation" semantic conventions. It represents the annotation placed -// on the Job, the `` being the annotation name, the value being the -// annotation value, even if the value is empty. -func K8SJobAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.job.annotation."+key, val) -} - -// K8SJobLabel returns an attribute KeyValue conforming to the "k8s.job.label" -// semantic conventions. It represents the label placed on the Job, the `` -// being the label name, the value being the label value, even if the value is -// empty. -func K8SJobLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.job.label."+key, val) -} - -// K8SJobName returns an attribute KeyValue conforming to the "k8s.job.name" -// semantic conventions. It represents the name of the Job. -func K8SJobName(val string) attribute.KeyValue { - return K8SJobNameKey.String(val) -} - -// K8SJobUID returns an attribute KeyValue conforming to the "k8s.job.uid" -// semantic conventions. It represents the UID of the Job. -func K8SJobUID(val string) attribute.KeyValue { - return K8SJobUIDKey.String(val) -} - -// K8SNamespaceAnnotation returns an attribute KeyValue conforming to the -// "k8s.namespace.annotation" semantic conventions. It represents the annotation -// placed on the Namespace, the `` being the annotation name, the value -// being the annotation value, even if the value is empty. -func K8SNamespaceAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.namespace.annotation."+key, val) -} - -// K8SNamespaceLabel returns an attribute KeyValue conforming to the -// "k8s.namespace.label" semantic conventions. It represents the label placed on -// the Namespace, the `` being the label name, the value being the label -// value, even if the value is empty. -func K8SNamespaceLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.namespace.label."+key, val) -} - -// K8SNamespaceName returns an attribute KeyValue conforming to the -// "k8s.namespace.name" semantic conventions. It represents the name of the -// namespace that the pod is running in. -func K8SNamespaceName(val string) attribute.KeyValue { - return K8SNamespaceNameKey.String(val) -} - -// K8SNodeAnnotation returns an attribute KeyValue conforming to the -// "k8s.node.annotation" semantic conventions. It represents the annotation -// placed on the Node, the `` being the annotation name, the value being the -// annotation value, even if the value is empty. -func K8SNodeAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.node.annotation."+key, val) -} - -// K8SNodeLabel returns an attribute KeyValue conforming to the "k8s.node.label" -// semantic conventions. It represents the label placed on the Node, the `` -// being the label name, the value being the label value, even if the value is -// empty. -func K8SNodeLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.node.label."+key, val) -} - -// K8SNodeName returns an attribute KeyValue conforming to the "k8s.node.name" -// semantic conventions. It represents the name of the Node. -func K8SNodeName(val string) attribute.KeyValue { - return K8SNodeNameKey.String(val) -} - -// K8SNodeUID returns an attribute KeyValue conforming to the "k8s.node.uid" -// semantic conventions. It represents the UID of the Node. -func K8SNodeUID(val string) attribute.KeyValue { - return K8SNodeUIDKey.String(val) -} - -// K8SPodAnnotation returns an attribute KeyValue conforming to the -// "k8s.pod.annotation" semantic conventions. It represents the annotation placed -// on the Pod, the `` being the annotation name, the value being the -// annotation value. -func K8SPodAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.pod.annotation."+key, val) -} - -// K8SPodHostname returns an attribute KeyValue conforming to the -// "k8s.pod.hostname" semantic conventions. It represents the specifies the -// hostname of the Pod. -func K8SPodHostname(val string) attribute.KeyValue { - return K8SPodHostnameKey.String(val) -} - -// K8SPodIP returns an attribute KeyValue conforming to the "k8s.pod.ip" semantic -// conventions. It represents the IP address allocated to the Pod. -func K8SPodIP(val string) attribute.KeyValue { - return K8SPodIPKey.String(val) -} - -// K8SPodLabel returns an attribute KeyValue conforming to the "k8s.pod.label" -// semantic conventions. It represents the label placed on the Pod, the `` -// being the label name, the value being the label value. -func K8SPodLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.pod.label."+key, val) -} - -// K8SPodName returns an attribute KeyValue conforming to the "k8s.pod.name" -// semantic conventions. It represents the name of the Pod. -func K8SPodName(val string) attribute.KeyValue { - return K8SPodNameKey.String(val) -} - -// K8SPodStartTime returns an attribute KeyValue conforming to the -// "k8s.pod.start_time" semantic conventions. It represents the start timestamp -// of the Pod. -func K8SPodStartTime(val string) attribute.KeyValue { - return K8SPodStartTimeKey.String(val) -} - -// K8SPodUID returns an attribute KeyValue conforming to the "k8s.pod.uid" -// semantic conventions. It represents the UID of the Pod. -func K8SPodUID(val string) attribute.KeyValue { - return K8SPodUIDKey.String(val) -} - -// K8SReplicaSetAnnotation returns an attribute KeyValue conforming to the -// "k8s.replicaset.annotation" semantic conventions. It represents the annotation -// placed on the ReplicaSet, the `` being the annotation name, the value -// being the annotation value, even if the value is empty. -func K8SReplicaSetAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.replicaset.annotation."+key, val) -} - -// K8SReplicaSetLabel returns an attribute KeyValue conforming to the -// "k8s.replicaset.label" semantic conventions. It represents the label placed on -// the ReplicaSet, the `` being the label name, the value being the label -// value, even if the value is empty. -func K8SReplicaSetLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.replicaset.label."+key, val) -} - -// K8SReplicaSetName returns an attribute KeyValue conforming to the -// "k8s.replicaset.name" semantic conventions. It represents the name of the -// ReplicaSet. -func K8SReplicaSetName(val string) attribute.KeyValue { - return K8SReplicaSetNameKey.String(val) -} - -// K8SReplicaSetUID returns an attribute KeyValue conforming to the -// "k8s.replicaset.uid" semantic conventions. It represents the UID of the -// ReplicaSet. -func K8SReplicaSetUID(val string) attribute.KeyValue { - return K8SReplicaSetUIDKey.String(val) -} - -// K8SReplicationControllerName returns an attribute KeyValue conforming to the -// "k8s.replicationcontroller.name" semantic conventions. It represents the name -// of the replication controller. -func K8SReplicationControllerName(val string) attribute.KeyValue { - return K8SReplicationControllerNameKey.String(val) -} - -// K8SReplicationControllerUID returns an attribute KeyValue conforming to the -// "k8s.replicationcontroller.uid" semantic conventions. It represents the UID of -// the replication controller. -func K8SReplicationControllerUID(val string) attribute.KeyValue { - return K8SReplicationControllerUIDKey.String(val) -} - -// K8SResourceQuotaName returns an attribute KeyValue conforming to the -// "k8s.resourcequota.name" semantic conventions. It represents the name of the -// resource quota. -func K8SResourceQuotaName(val string) attribute.KeyValue { - return K8SResourceQuotaNameKey.String(val) -} - -// K8SResourceQuotaResourceName returns an attribute KeyValue conforming to the -// "k8s.resourcequota.resource_name" semantic conventions. It represents the name -// of the K8s resource a resource quota defines. -func K8SResourceQuotaResourceName(val string) attribute.KeyValue { - return K8SResourceQuotaResourceNameKey.String(val) -} - -// K8SResourceQuotaUID returns an attribute KeyValue conforming to the -// "k8s.resourcequota.uid" semantic conventions. It represents the UID of the -// resource quota. -func K8SResourceQuotaUID(val string) attribute.KeyValue { - return K8SResourceQuotaUIDKey.String(val) -} - -// K8SStatefulSetAnnotation returns an attribute KeyValue conforming to the -// "k8s.statefulset.annotation" semantic conventions. It represents the -// annotation placed on the StatefulSet, the `` being the annotation name, -// the value being the annotation value, even if the value is empty. -func K8SStatefulSetAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.statefulset.annotation."+key, val) -} - -// K8SStatefulSetLabel returns an attribute KeyValue conforming to the -// "k8s.statefulset.label" semantic conventions. It represents the label placed -// on the StatefulSet, the `` being the label name, the value being the -// label value, even if the value is empty. -func K8SStatefulSetLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.statefulset.label."+key, val) -} - -// K8SStatefulSetName returns an attribute KeyValue conforming to the -// "k8s.statefulset.name" semantic conventions. It represents the name of the -// StatefulSet. -func K8SStatefulSetName(val string) attribute.KeyValue { - return K8SStatefulSetNameKey.String(val) -} - -// K8SStatefulSetUID returns an attribute KeyValue conforming to the -// "k8s.statefulset.uid" semantic conventions. It represents the UID of the -// StatefulSet. -func K8SStatefulSetUID(val string) attribute.KeyValue { - return K8SStatefulSetUIDKey.String(val) -} - -// K8SStorageclassName returns an attribute KeyValue conforming to the -// "k8s.storageclass.name" semantic conventions. It represents the name of K8s -// [StorageClass] object. -// -// [StorageClass]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#storageclass-v1-storage-k8s-io -func K8SStorageclassName(val string) attribute.KeyValue { - return K8SStorageclassNameKey.String(val) -} - -// K8SVolumeName returns an attribute KeyValue conforming to the -// "k8s.volume.name" semantic conventions. It represents the name of the K8s -// volume. -func K8SVolumeName(val string) attribute.KeyValue { - return K8SVolumeNameKey.String(val) -} - -// Enum values for k8s.container.status.reason -var ( - // The container is being created. - // Stability: development - K8SContainerStatusReasonContainerCreating = K8SContainerStatusReasonKey.String("ContainerCreating") - // The container is in a crash loop back off state. - // Stability: development - K8SContainerStatusReasonCrashLoopBackOff = K8SContainerStatusReasonKey.String("CrashLoopBackOff") - // There was an error creating the container configuration. - // Stability: development - K8SContainerStatusReasonCreateContainerConfigError = K8SContainerStatusReasonKey.String("CreateContainerConfigError") - // There was an error pulling the container image. - // Stability: development - K8SContainerStatusReasonErrImagePull = K8SContainerStatusReasonKey.String("ErrImagePull") - // The container image pull is in back off state. - // Stability: development - K8SContainerStatusReasonImagePullBackOff = K8SContainerStatusReasonKey.String("ImagePullBackOff") - // The container was killed due to out of memory. - // Stability: development - K8SContainerStatusReasonOomKilled = K8SContainerStatusReasonKey.String("OOMKilled") - // The container has completed execution. - // Stability: development - K8SContainerStatusReasonCompleted = K8SContainerStatusReasonKey.String("Completed") - // There was an error with the container. - // Stability: development - K8SContainerStatusReasonError = K8SContainerStatusReasonKey.String("Error") - // The container cannot run. - // Stability: development - K8SContainerStatusReasonContainerCannotRun = K8SContainerStatusReasonKey.String("ContainerCannotRun") -) - -// Enum values for k8s.container.status.state -var ( - // The container has terminated. - // Stability: development - K8SContainerStatusStateTerminated = K8SContainerStatusStateKey.String("terminated") - // The container is running. - // Stability: development - K8SContainerStatusStateRunning = K8SContainerStatusStateKey.String("running") - // The container is waiting. - // Stability: development - K8SContainerStatusStateWaiting = K8SContainerStatusStateKey.String("waiting") -) - -// Enum values for k8s.namespace.phase -var ( - // Active namespace phase as described by [K8s API] - // Stability: development - // - // [K8s API]: https://pkg.go.dev/k8s.io/api@v0.31.3/core/v1#NamespacePhase - K8SNamespacePhaseActive = K8SNamespacePhaseKey.String("active") - // Terminating namespace phase as described by [K8s API] - // Stability: development - // - // [K8s API]: https://pkg.go.dev/k8s.io/api@v0.31.3/core/v1#NamespacePhase - K8SNamespacePhaseTerminating = K8SNamespacePhaseKey.String("terminating") -) - -// Enum values for k8s.node.condition.status -var ( - // condition_true - // Stability: development - K8SNodeConditionStatusConditionTrue = K8SNodeConditionStatusKey.String("true") - // condition_false - // Stability: development - K8SNodeConditionStatusConditionFalse = K8SNodeConditionStatusKey.String("false") - // condition_unknown - // Stability: development - K8SNodeConditionStatusConditionUnknown = K8SNodeConditionStatusKey.String("unknown") -) - -// Enum values for k8s.node.condition.type -var ( - // The node is healthy and ready to accept pods - // Stability: development - K8SNodeConditionTypeReady = K8SNodeConditionTypeKey.String("Ready") - // Pressure exists on the disk size—that is, if the disk capacity is low - // Stability: development - K8SNodeConditionTypeDiskPressure = K8SNodeConditionTypeKey.String("DiskPressure") - // Pressure exists on the node memory—that is, if the node memory is low - // Stability: development - K8SNodeConditionTypeMemoryPressure = K8SNodeConditionTypeKey.String("MemoryPressure") - // Pressure exists on the processes—that is, if there are too many processes - // on the node - // Stability: development - K8SNodeConditionTypePIDPressure = K8SNodeConditionTypeKey.String("PIDPressure") - // The network for the node is not correctly configured - // Stability: development - K8SNodeConditionTypeNetworkUnavailable = K8SNodeConditionTypeKey.String("NetworkUnavailable") -) - -// Enum values for k8s.pod.status.phase -var ( - // The pod has been accepted by the system, but one or more of the containers - // has not been started. This includes time before being bound to a node, as - // well as time spent pulling images onto the host. - // - // Stability: development - K8SPodStatusPhasePending = K8SPodStatusPhaseKey.String("Pending") - // The pod has been bound to a node and all of the containers have been started. - // At least one container is still running or is in the process of being - // restarted. - // - // Stability: development - K8SPodStatusPhaseRunning = K8SPodStatusPhaseKey.String("Running") - // All containers in the pod have voluntarily terminated with a container exit - // code of 0, and the system is not going to restart any of these containers. - // - // Stability: development - K8SPodStatusPhaseSucceeded = K8SPodStatusPhaseKey.String("Succeeded") - // All containers in the pod have terminated, and at least one container has - // terminated in a failure (exited with a non-zero exit code or was stopped by - // the system). - // - // Stability: development - K8SPodStatusPhaseFailed = K8SPodStatusPhaseKey.String("Failed") - // For some reason the state of the pod could not be obtained, typically due to - // an error in communicating with the host of the pod. - // - // Stability: development - K8SPodStatusPhaseUnknown = K8SPodStatusPhaseKey.String("Unknown") -) - -// Enum values for k8s.pod.status.reason -var ( - // The pod is evicted. - // Stability: development - K8SPodStatusReasonEvicted = K8SPodStatusReasonKey.String("Evicted") - // The pod is in a status because of its node affinity - // Stability: development - K8SPodStatusReasonNodeAffinity = K8SPodStatusReasonKey.String("NodeAffinity") - // The reason on a pod when its state cannot be confirmed as kubelet is - // unresponsive on the node it is (was) running. - // - // Stability: development - K8SPodStatusReasonNodeLost = K8SPodStatusReasonKey.String("NodeLost") - // The node is shutdown - // Stability: development - K8SPodStatusReasonShutdown = K8SPodStatusReasonKey.String("Shutdown") - // The pod was rejected admission to the node because of an error during - // admission that could not be categorized. - // - // Stability: development - K8SPodStatusReasonUnexpectedAdmissionError = K8SPodStatusReasonKey.String("UnexpectedAdmissionError") -) - -// Enum values for k8s.volume.type -var ( - // A [persistentVolumeClaim] volume - // Stability: development - // - // [persistentVolumeClaim]: https://v1-30.docs.kubernetes.io/docs/concepts/storage/volumes/#persistentvolumeclaim - K8SVolumeTypePersistentVolumeClaim = K8SVolumeTypeKey.String("persistentVolumeClaim") - // A [configMap] volume - // Stability: development - // - // [configMap]: https://v1-30.docs.kubernetes.io/docs/concepts/storage/volumes/#configmap - K8SVolumeTypeConfigMap = K8SVolumeTypeKey.String("configMap") - // A [downwardAPI] volume - // Stability: development - // - // [downwardAPI]: https://v1-30.docs.kubernetes.io/docs/concepts/storage/volumes/#downwardapi - K8SVolumeTypeDownwardAPI = K8SVolumeTypeKey.String("downwardAPI") - // An [emptyDir] volume - // Stability: development - // - // [emptyDir]: https://v1-30.docs.kubernetes.io/docs/concepts/storage/volumes/#emptydir - K8SVolumeTypeEmptyDir = K8SVolumeTypeKey.String("emptyDir") - // A [secret] volume - // Stability: development - // - // [secret]: https://v1-30.docs.kubernetes.io/docs/concepts/storage/volumes/#secret - K8SVolumeTypeSecret = K8SVolumeTypeKey.String("secret") - // A [local] volume - // Stability: development - // - // [local]: https://v1-30.docs.kubernetes.io/docs/concepts/storage/volumes/#local - K8SVolumeTypeLocal = K8SVolumeTypeKey.String("local") -) - -// Namespace: log -const ( - // LogFileNameKey is the attribute Key conforming to the "log.file.name" - // semantic conventions. It represents the basename of the file. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "audit.log" - LogFileNameKey = attribute.Key("log.file.name") - - // LogFileNameResolvedKey is the attribute Key conforming to the - // "log.file.name_resolved" semantic conventions. It represents the basename of - // the file, with symlinks resolved. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "uuid.log" - LogFileNameResolvedKey = attribute.Key("log.file.name_resolved") - - // LogFilePathKey is the attribute Key conforming to the "log.file.path" - // semantic conventions. It represents the full path to the file. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/var/log/mysql/audit.log" - LogFilePathKey = attribute.Key("log.file.path") - - // LogFilePathResolvedKey is the attribute Key conforming to the - // "log.file.path_resolved" semantic conventions. It represents the full path to - // the file, with symlinks resolved. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/var/lib/docker/uuid.log" - LogFilePathResolvedKey = attribute.Key("log.file.path_resolved") - - // LogIostreamKey is the attribute Key conforming to the "log.iostream" semantic - // conventions. It represents the stream associated with the log. See below for - // a list of well-known values. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - LogIostreamKey = attribute.Key("log.iostream") - - // LogRecordOriginalKey is the attribute Key conforming to the - // "log.record.original" semantic conventions. It represents the complete - // original Log Record. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "77 <86>1 2015-08-06T21:58:59.694Z 192.168.2.133 inactive - - - - // Something happened", "[INFO] 8/3/24 12:34:56 Something happened" - // Note: This value MAY be added when processing a Log Record which was - // originally transmitted as a string or equivalent data type AND the Body field - // of the Log Record does not contain the same value. (e.g. a syslog or a log - // record read from a file.) - LogRecordOriginalKey = attribute.Key("log.record.original") - - // LogRecordUIDKey is the attribute Key conforming to the "log.record.uid" - // semantic conventions. It represents a unique identifier for the Log Record. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "01ARZ3NDEKTSV4RRFFQ69G5FAV" - // Note: If an id is provided, other log records with the same id will be - // considered duplicates and can be removed safely. This means, that two - // distinguishable log records MUST have different values. - // The id MAY be an - // [Universally Unique Lexicographically Sortable Identifier (ULID)], but other - // identifiers (e.g. UUID) may be used as needed. - // - // [Universally Unique Lexicographically Sortable Identifier (ULID)]: https://github.com/ulid/spec - LogRecordUIDKey = attribute.Key("log.record.uid") -) - -// LogFileName returns an attribute KeyValue conforming to the "log.file.name" -// semantic conventions. It represents the basename of the file. -func LogFileName(val string) attribute.KeyValue { - return LogFileNameKey.String(val) -} - -// LogFileNameResolved returns an attribute KeyValue conforming to the -// "log.file.name_resolved" semantic conventions. It represents the basename of -// the file, with symlinks resolved. -func LogFileNameResolved(val string) attribute.KeyValue { - return LogFileNameResolvedKey.String(val) -} - -// LogFilePath returns an attribute KeyValue conforming to the "log.file.path" -// semantic conventions. It represents the full path to the file. -func LogFilePath(val string) attribute.KeyValue { - return LogFilePathKey.String(val) -} - -// LogFilePathResolved returns an attribute KeyValue conforming to the -// "log.file.path_resolved" semantic conventions. It represents the full path to -// the file, with symlinks resolved. -func LogFilePathResolved(val string) attribute.KeyValue { - return LogFilePathResolvedKey.String(val) -} - -// LogRecordOriginal returns an attribute KeyValue conforming to the -// "log.record.original" semantic conventions. It represents the complete -// original Log Record. -func LogRecordOriginal(val string) attribute.KeyValue { - return LogRecordOriginalKey.String(val) -} - -// LogRecordUID returns an attribute KeyValue conforming to the "log.record.uid" -// semantic conventions. It represents a unique identifier for the Log Record. -func LogRecordUID(val string) attribute.KeyValue { - return LogRecordUIDKey.String(val) -} - -// Enum values for log.iostream -var ( - // Logs from stdout stream - // Stability: development - LogIostreamStdout = LogIostreamKey.String("stdout") - // Events from stderr stream - // Stability: development - LogIostreamStderr = LogIostreamKey.String("stderr") -) - -// Namespace: mainframe -const ( - // MainframeLparNameKey is the attribute Key conforming to the - // "mainframe.lpar.name" semantic conventions. It represents the name of the - // logical partition that hosts a systems with a mainframe operating system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "LPAR01" - MainframeLparNameKey = attribute.Key("mainframe.lpar.name") -) - -// MainframeLparName returns an attribute KeyValue conforming to the -// "mainframe.lpar.name" semantic conventions. It represents the name of the -// logical partition that hosts a systems with a mainframe operating system. -func MainframeLparName(val string) attribute.KeyValue { - return MainframeLparNameKey.String(val) -} - -// Namespace: mcp -const ( - // McpMethodNameKey is the attribute Key conforming to the "mcp.method.name" - // semantic conventions. It represents the name of the request or notification - // method. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - McpMethodNameKey = attribute.Key("mcp.method.name") - - // McpProtocolVersionKey is the attribute Key conforming to the - // "mcp.protocol.version" semantic conventions. It represents the [version] of - // the Model Context Protocol used. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2025-06-18" - // - // [version]: https://modelcontextprotocol.io/specification/versioning - McpProtocolVersionKey = attribute.Key("mcp.protocol.version") - - // McpResourceURIKey is the attribute Key conforming to the "mcp.resource.uri" - // semantic conventions. It represents the value of the resource uri. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "postgres://database/customers/schema", - // "file:///home/user/documents/report.pdf" - // Note: This is a URI of the resource provided in the following requests or - // notifications: `resources/read`, `resources/subscribe`, - // `resources/unsubscribe`, or `notifications/resources/updated`. - McpResourceURIKey = attribute.Key("mcp.resource.uri") - - // McpSessionIDKey is the attribute Key conforming to the "mcp.session.id" - // semantic conventions. It represents the identifies [MCP session]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "191c4850af6c49e08843a3f6c80e5046" - // - // [MCP session]: https://modelcontextprotocol.io/specification/2025-06-18/basic/transports#session-management - McpSessionIDKey = attribute.Key("mcp.session.id") -) - -// McpProtocolVersion returns an attribute KeyValue conforming to the -// "mcp.protocol.version" semantic conventions. It represents the [version] of -// the Model Context Protocol used. -// -// [version]: https://modelcontextprotocol.io/specification/versioning -func McpProtocolVersion(val string) attribute.KeyValue { - return McpProtocolVersionKey.String(val) -} - -// McpResourceURI returns an attribute KeyValue conforming to the -// "mcp.resource.uri" semantic conventions. It represents the value of the -// resource uri. -func McpResourceURI(val string) attribute.KeyValue { - return McpResourceURIKey.String(val) -} - -// McpSessionID returns an attribute KeyValue conforming to the "mcp.session.id" -// semantic conventions. It represents the identifies [MCP session]. -// -// [MCP session]: https://modelcontextprotocol.io/specification/2025-06-18/basic/transports#session-management -func McpSessionID(val string) attribute.KeyValue { - return McpSessionIDKey.String(val) -} - -// Enum values for mcp.method.name -var ( - // Notification cancelling a previously-issued request. - // - // Stability: development - McpMethodNameNotificationsCancelled = McpMethodNameKey.String("notifications/cancelled") - // Request to initialize the MCP client. - // - // Stability: development - McpMethodNameInitialize = McpMethodNameKey.String("initialize") - // Notification indicating that the MCP client has been initialized. - // - // Stability: development - McpMethodNameNotificationsInitialized = McpMethodNameKey.String("notifications/initialized") - // Notification indicating the progress for a long-running operation. - // - // Stability: development - McpMethodNameNotificationsProgress = McpMethodNameKey.String("notifications/progress") - // Request to check that the other party is still alive. - // - // Stability: development - McpMethodNamePing = McpMethodNameKey.String("ping") - // Request to list resources available on server. - // - // Stability: development - McpMethodNameResourcesList = McpMethodNameKey.String("resources/list") - // Request to list resource templates available on server. - // - // Stability: development - McpMethodNameResourcesTemplatesList = McpMethodNameKey.String("resources/templates/list") - // Request to read a resource. - // - // Stability: development - McpMethodNameResourcesRead = McpMethodNameKey.String("resources/read") - // Notification indicating that the list of resources has changed. - // - // Stability: development - McpMethodNameNotificationsResourcesListChanged = McpMethodNameKey.String("notifications/resources/list_changed") - // Request to subscribe to a resource. - // - // Stability: development - McpMethodNameResourcesSubscribe = McpMethodNameKey.String("resources/subscribe") - // Request to unsubscribe from resource updates. - // - // Stability: development - McpMethodNameResourcesUnsubscribe = McpMethodNameKey.String("resources/unsubscribe") - // Notification indicating that a resource has been updated. - // - // Stability: development - McpMethodNameNotificationsResourcesUpdated = McpMethodNameKey.String("notifications/resources/updated") - // Request to list prompts available on server. - // - // Stability: development - McpMethodNamePromptsList = McpMethodNameKey.String("prompts/list") - // Request to get a prompt. - // - // Stability: development - McpMethodNamePromptsGet = McpMethodNameKey.String("prompts/get") - // Notification indicating that the list of prompts has changed. - // - // Stability: development - McpMethodNameNotificationsPromptsListChanged = McpMethodNameKey.String("notifications/prompts/list_changed") - // Request to list tools available on server. - // - // Stability: development - McpMethodNameToolsList = McpMethodNameKey.String("tools/list") - // Request to call a tool. - // - // Stability: development - McpMethodNameToolsCall = McpMethodNameKey.String("tools/call") - // Notification indicating that the list of tools has changed. - // - // Stability: development - McpMethodNameNotificationsToolsListChanged = McpMethodNameKey.String("notifications/tools/list_changed") - // Request to set the logging level. - // - // Stability: development - McpMethodNameLoggingSetLevel = McpMethodNameKey.String("logging/setLevel") - // Notification indicating that a message has been received. - // - // Stability: development - McpMethodNameNotificationsMessage = McpMethodNameKey.String("notifications/message") - // Request to create a sampling message. - // - // Stability: development - McpMethodNameSamplingCreateMessage = McpMethodNameKey.String("sampling/createMessage") - // Request to complete a prompt. - // - // Stability: development - McpMethodNameCompletionComplete = McpMethodNameKey.String("completion/complete") - // Request to list roots available on server. - // - // Stability: development - McpMethodNameRootsList = McpMethodNameKey.String("roots/list") - // Notification indicating that the list of roots has changed. - // - // Stability: development - McpMethodNameNotificationsRootsListChanged = McpMethodNameKey.String("notifications/roots/list_changed") - // Request from the server to elicit additional information from the user via - // the client - // - // Stability: development - McpMethodNameElicitationCreate = McpMethodNameKey.String("elicitation/create") -) - -// Namespace: messaging -const ( - // MessagingBatchMessageCountKey is the attribute Key conforming to the - // "messaging.batch.message_count" semantic conventions. It represents the - // number of messages sent, received, or processed in the scope of the batching - // operation. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0, 1, 2 - // Note: Instrumentations SHOULD NOT set `messaging.batch.message_count` on - // spans that operate with a single message. When a messaging client library - // supports both batch and single-message API for the same operation, - // instrumentations SHOULD use `messaging.batch.message_count` for batching APIs - // and SHOULD NOT use it for single-message APIs. - MessagingBatchMessageCountKey = attribute.Key("messaging.batch.message_count") - - // MessagingClientIDKey is the attribute Key conforming to the - // "messaging.client.id" semantic conventions. It represents a unique identifier - // for the client that consumes or produces a message. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "client-5", "myhost@8742@s8083jm" - MessagingClientIDKey = attribute.Key("messaging.client.id") - - // MessagingConsumerGroupNameKey is the attribute Key conforming to the - // "messaging.consumer.group.name" semantic conventions. It represents the name - // of the consumer group with which a consumer is associated. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-group", "indexer" - // Note: Semantic conventions for individual messaging systems SHOULD document - // whether `messaging.consumer.group.name` is applicable and what it means in - // the context of that system. - MessagingConsumerGroupNameKey = attribute.Key("messaging.consumer.group.name") - - // MessagingDestinationAnonymousKey is the attribute Key conforming to the - // "messaging.destination.anonymous" semantic conventions. It represents a - // boolean that is true if the message destination is anonymous (could be - // unnamed or have auto-generated name). - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - MessagingDestinationAnonymousKey = attribute.Key("messaging.destination.anonymous") - - // MessagingDestinationNameKey is the attribute Key conforming to the - // "messaging.destination.name" semantic conventions. It represents the message - // destination name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "MyQueue", "MyTopic" - // Note: Destination name SHOULD uniquely identify a specific queue, topic or - // other entity within the broker. If - // the broker doesn't have such notion, the destination name SHOULD uniquely - // identify the broker. - MessagingDestinationNameKey = attribute.Key("messaging.destination.name") - - // MessagingDestinationPartitionIDKey is the attribute Key conforming to the - // "messaging.destination.partition.id" semantic conventions. It represents the - // identifier of the partition messages are sent to or received from, unique - // within the `messaging.destination.name`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1 - MessagingDestinationPartitionIDKey = attribute.Key("messaging.destination.partition.id") - - // MessagingDestinationSubscriptionNameKey is the attribute Key conforming to - // the "messaging.destination.subscription.name" semantic conventions. It - // represents the name of the destination subscription from which a message is - // consumed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "subscription-a" - // Note: Semantic conventions for individual messaging systems SHOULD document - // whether `messaging.destination.subscription.name` is applicable and what it - // means in the context of that system. - MessagingDestinationSubscriptionNameKey = attribute.Key("messaging.destination.subscription.name") - - // MessagingDestinationTemplateKey is the attribute Key conforming to the - // "messaging.destination.template" semantic conventions. It represents the low - // cardinality representation of the messaging destination name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/customers/{customerId}" - // Note: Destination names could be constructed from templates. An example would - // be a destination name involving a user name or product id. Although the - // destination name in this case is of high cardinality, the underlying template - // is of low cardinality and can be effectively used for grouping and - // aggregation. - MessagingDestinationTemplateKey = attribute.Key("messaging.destination.template") - - // MessagingDestinationTemporaryKey is the attribute Key conforming to the - // "messaging.destination.temporary" semantic conventions. It represents a - // boolean that is true if the message destination is temporary and might not - // exist anymore after messages are processed. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - MessagingDestinationTemporaryKey = attribute.Key("messaging.destination.temporary") - - // MessagingEventHubsMessageEnqueuedTimeKey is the attribute Key conforming to - // the "messaging.eventhubs.message.enqueued_time" semantic conventions. It - // represents the UTC epoch seconds at which the message has been accepted and - // stored in the entity. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingEventHubsMessageEnqueuedTimeKey = attribute.Key("messaging.eventhubs.message.enqueued_time") - - // MessagingGCPPubSubMessageAckDeadlineKey is the attribute Key conforming to - // the "messaging.gcp_pubsub.message.ack_deadline" semantic conventions. It - // represents the ack deadline in seconds set for the modify ack deadline - // request. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingGCPPubSubMessageAckDeadlineKey = attribute.Key("messaging.gcp_pubsub.message.ack_deadline") - - // MessagingGCPPubSubMessageAckIDKey is the attribute Key conforming to the - // "messaging.gcp_pubsub.message.ack_id" semantic conventions. It represents the - // ack id for a given message. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: ack_id - MessagingGCPPubSubMessageAckIDKey = attribute.Key("messaging.gcp_pubsub.message.ack_id") - - // MessagingGCPPubSubMessageDeliveryAttemptKey is the attribute Key conforming - // to the "messaging.gcp_pubsub.message.delivery_attempt" semantic conventions. - // It represents the delivery attempt for a given message. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingGCPPubSubMessageDeliveryAttemptKey = attribute.Key("messaging.gcp_pubsub.message.delivery_attempt") - - // MessagingGCPPubSubMessageOrderingKeyKey is the attribute Key conforming to - // the "messaging.gcp_pubsub.message.ordering_key" semantic conventions. It - // represents the ordering key for a given message. If the attribute is not - // present, the message does not have an ordering key. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: ordering_key - MessagingGCPPubSubMessageOrderingKeyKey = attribute.Key("messaging.gcp_pubsub.message.ordering_key") - - // MessagingKafkaMessageKeyKey is the attribute Key conforming to the - // "messaging.kafka.message.key" semantic conventions. It represents the message - // keys in Kafka are used for grouping alike messages to ensure they're - // processed on the same partition. They differ from `messaging.message.id` in - // that they're not unique. If the key is `null`, the attribute MUST NOT be set. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: myKey - // Note: If the key type is not string, it's string representation has to be - // supplied for the attribute. If the key has no unambiguous, canonical string - // form, don't include its value. - MessagingKafkaMessageKeyKey = attribute.Key("messaging.kafka.message.key") - - // MessagingKafkaMessageTombstoneKey is the attribute Key conforming to the - // "messaging.kafka.message.tombstone" semantic conventions. It represents a - // boolean that is true if the message is a tombstone. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - MessagingKafkaMessageTombstoneKey = attribute.Key("messaging.kafka.message.tombstone") - - // MessagingKafkaOffsetKey is the attribute Key conforming to the - // "messaging.kafka.offset" semantic conventions. It represents the offset of a - // record in the corresponding Kafka partition. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingKafkaOffsetKey = attribute.Key("messaging.kafka.offset") - - // MessagingMessageBodySizeKey is the attribute Key conforming to the - // "messaging.message.body.size" semantic conventions. It represents the size of - // the message body in bytes. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Note: This can refer to both the compressed or uncompressed body size. If - // both sizes are known, the uncompressed - // body size should be used. - MessagingMessageBodySizeKey = attribute.Key("messaging.message.body.size") - - // MessagingMessageConversationIDKey is the attribute Key conforming to the - // "messaging.message.conversation_id" semantic conventions. It represents the - // conversation ID identifying the conversation to which the message belongs, - // represented as a string. Sometimes called "Correlation ID". - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: MyConversationId - MessagingMessageConversationIDKey = attribute.Key("messaging.message.conversation_id") - - // MessagingMessageEnvelopeSizeKey is the attribute Key conforming to the - // "messaging.message.envelope.size" semantic conventions. It represents the - // size of the message body and metadata in bytes. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Note: This can refer to both the compressed or uncompressed size. If both - // sizes are known, the uncompressed - // size should be used. - MessagingMessageEnvelopeSizeKey = attribute.Key("messaging.message.envelope.size") - - // MessagingMessageIDKey is the attribute Key conforming to the - // "messaging.message.id" semantic conventions. It represents a value used by - // the messaging system as an identifier for the message, represented as a - // string. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 452a7c7c7c7048c2f887f61572b18fc2 - MessagingMessageIDKey = attribute.Key("messaging.message.id") - - // MessagingOperationNameKey is the attribute Key conforming to the - // "messaging.operation.name" semantic conventions. It represents the - // system-specific name of the messaging operation. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "ack", "nack", "send" - MessagingOperationNameKey = attribute.Key("messaging.operation.name") - - // MessagingOperationTypeKey is the attribute Key conforming to the - // "messaging.operation.type" semantic conventions. It represents a string - // identifying the type of the messaging operation. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: If a custom value is used, it MUST be of low cardinality. - MessagingOperationTypeKey = attribute.Key("messaging.operation.type") - - // MessagingRabbitMQDestinationRoutingKeyKey is the attribute Key conforming to - // the "messaging.rabbitmq.destination.routing_key" semantic conventions. It - // represents the rabbitMQ message routing key. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: myKey - MessagingRabbitMQDestinationRoutingKeyKey = attribute.Key("messaging.rabbitmq.destination.routing_key") - - // MessagingRabbitMQMessageDeliveryTagKey is the attribute Key conforming to the - // "messaging.rabbitmq.message.delivery_tag" semantic conventions. It represents - // the rabbitMQ message delivery tag. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingRabbitMQMessageDeliveryTagKey = attribute.Key("messaging.rabbitmq.message.delivery_tag") - - // MessagingRocketMQConsumptionModelKey is the attribute Key conforming to the - // "messaging.rocketmq.consumption_model" semantic conventions. It represents - // the model of message consumption. This only applies to consumer spans. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - MessagingRocketMQConsumptionModelKey = attribute.Key("messaging.rocketmq.consumption_model") - - // MessagingRocketMQMessageDelayTimeLevelKey is the attribute Key conforming to - // the "messaging.rocketmq.message.delay_time_level" semantic conventions. It - // represents the delay time level for delay message, which determines the - // message delay time. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingRocketMQMessageDelayTimeLevelKey = attribute.Key("messaging.rocketmq.message.delay_time_level") - - // MessagingRocketMQMessageDeliveryTimestampKey is the attribute Key conforming - // to the "messaging.rocketmq.message.delivery_timestamp" semantic conventions. - // It represents the timestamp in milliseconds that the delay message is - // expected to be delivered to consumer. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingRocketMQMessageDeliveryTimestampKey = attribute.Key("messaging.rocketmq.message.delivery_timestamp") - - // MessagingRocketMQMessageGroupKey is the attribute Key conforming to the - // "messaging.rocketmq.message.group" semantic conventions. It represents the it - // is essential for FIFO message. Messages that belong to the same message group - // are always processed one by one within the same consumer group. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: myMessageGroup - MessagingRocketMQMessageGroupKey = attribute.Key("messaging.rocketmq.message.group") - - // MessagingRocketMQMessageKeysKey is the attribute Key conforming to the - // "messaging.rocketmq.message.keys" semantic conventions. It represents the - // key(s) of message, another way to mark message besides message id. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "keyA", "keyB" - MessagingRocketMQMessageKeysKey = attribute.Key("messaging.rocketmq.message.keys") - - // MessagingRocketMQMessageTagKey is the attribute Key conforming to the - // "messaging.rocketmq.message.tag" semantic conventions. It represents the - // secondary classifier of message besides topic. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: tagA - MessagingRocketMQMessageTagKey = attribute.Key("messaging.rocketmq.message.tag") - - // MessagingRocketMQMessageTypeKey is the attribute Key conforming to the - // "messaging.rocketmq.message.type" semantic conventions. It represents the - // type of message. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - MessagingRocketMQMessageTypeKey = attribute.Key("messaging.rocketmq.message.type") - - // MessagingRocketMQNamespaceKey is the attribute Key conforming to the - // "messaging.rocketmq.namespace" semantic conventions. It represents the - // namespace of RocketMQ resources, resources in different namespaces are - // individual. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: myNamespace - MessagingRocketMQNamespaceKey = attribute.Key("messaging.rocketmq.namespace") - - // MessagingServiceBusDispositionStatusKey is the attribute Key conforming to - // the "messaging.servicebus.disposition_status" semantic conventions. It - // represents the describes the [settlement type]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [settlement type]: https://learn.microsoft.com/azure/service-bus-messaging/message-transfers-locks-settlement#peeklock - MessagingServiceBusDispositionStatusKey = attribute.Key("messaging.servicebus.disposition_status") - - // MessagingServiceBusMessageDeliveryCountKey is the attribute Key conforming to - // the "messaging.servicebus.message.delivery_count" semantic conventions. It - // represents the number of deliveries that have been attempted for this - // message. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingServiceBusMessageDeliveryCountKey = attribute.Key("messaging.servicebus.message.delivery_count") - - // MessagingServiceBusMessageEnqueuedTimeKey is the attribute Key conforming to - // the "messaging.servicebus.message.enqueued_time" semantic conventions. It - // represents the UTC epoch seconds at which the message has been accepted and - // stored in the entity. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingServiceBusMessageEnqueuedTimeKey = attribute.Key("messaging.servicebus.message.enqueued_time") - - // MessagingSystemKey is the attribute Key conforming to the "messaging.system" - // semantic conventions. It represents the messaging system as identified by the - // client instrumentation. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: The actual messaging system may differ from the one known by the - // client. For example, when using Kafka client libraries to communicate with - // Azure Event Hubs, the `messaging.system` is set to `kafka` based on the - // instrumentation's best knowledge. - MessagingSystemKey = attribute.Key("messaging.system") -) - -// MessagingBatchMessageCount returns an attribute KeyValue conforming to the -// "messaging.batch.message_count" semantic conventions. It represents the number -// of messages sent, received, or processed in the scope of the batching -// operation. -func MessagingBatchMessageCount(val int) attribute.KeyValue { - return MessagingBatchMessageCountKey.Int(val) -} - -// MessagingClientID returns an attribute KeyValue conforming to the -// "messaging.client.id" semantic conventions. It represents a unique identifier -// for the client that consumes or produces a message. -func MessagingClientID(val string) attribute.KeyValue { - return MessagingClientIDKey.String(val) -} - -// MessagingConsumerGroupName returns an attribute KeyValue conforming to the -// "messaging.consumer.group.name" semantic conventions. It represents the name -// of the consumer group with which a consumer is associated. -func MessagingConsumerGroupName(val string) attribute.KeyValue { - return MessagingConsumerGroupNameKey.String(val) -} - -// MessagingDestinationAnonymous returns an attribute KeyValue conforming to the -// "messaging.destination.anonymous" semantic conventions. It represents a -// boolean that is true if the message destination is anonymous (could be unnamed -// or have auto-generated name). -func MessagingDestinationAnonymous(val bool) attribute.KeyValue { - return MessagingDestinationAnonymousKey.Bool(val) -} - -// MessagingDestinationName returns an attribute KeyValue conforming to the -// "messaging.destination.name" semantic conventions. It represents the message -// destination name. -func MessagingDestinationName(val string) attribute.KeyValue { - return MessagingDestinationNameKey.String(val) -} - -// MessagingDestinationPartitionID returns an attribute KeyValue conforming to -// the "messaging.destination.partition.id" semantic conventions. It represents -// the identifier of the partition messages are sent to or received from, unique -// within the `messaging.destination.name`. -func MessagingDestinationPartitionID(val string) attribute.KeyValue { - return MessagingDestinationPartitionIDKey.String(val) -} - -// MessagingDestinationSubscriptionName returns an attribute KeyValue conforming -// to the "messaging.destination.subscription.name" semantic conventions. It -// represents the name of the destination subscription from which a message is -// consumed. -func MessagingDestinationSubscriptionName(val string) attribute.KeyValue { - return MessagingDestinationSubscriptionNameKey.String(val) -} - -// MessagingDestinationTemplate returns an attribute KeyValue conforming to the -// "messaging.destination.template" semantic conventions. It represents the low -// cardinality representation of the messaging destination name. -func MessagingDestinationTemplate(val string) attribute.KeyValue { - return MessagingDestinationTemplateKey.String(val) -} - -// MessagingDestinationTemporary returns an attribute KeyValue conforming to the -// "messaging.destination.temporary" semantic conventions. It represents a -// boolean that is true if the message destination is temporary and might not -// exist anymore after messages are processed. -func MessagingDestinationTemporary(val bool) attribute.KeyValue { - return MessagingDestinationTemporaryKey.Bool(val) -} - -// MessagingEventHubsMessageEnqueuedTime returns an attribute KeyValue conforming -// to the "messaging.eventhubs.message.enqueued_time" semantic conventions. It -// represents the UTC epoch seconds at which the message has been accepted and -// stored in the entity. -func MessagingEventHubsMessageEnqueuedTime(val int) attribute.KeyValue { - return MessagingEventHubsMessageEnqueuedTimeKey.Int(val) -} - -// MessagingGCPPubSubMessageAckDeadline returns an attribute KeyValue conforming -// to the "messaging.gcp_pubsub.message.ack_deadline" semantic conventions. It -// represents the ack deadline in seconds set for the modify ack deadline -// request. -func MessagingGCPPubSubMessageAckDeadline(val int) attribute.KeyValue { - return MessagingGCPPubSubMessageAckDeadlineKey.Int(val) -} - -// MessagingGCPPubSubMessageAckID returns an attribute KeyValue conforming to the -// "messaging.gcp_pubsub.message.ack_id" semantic conventions. It represents the -// ack id for a given message. -func MessagingGCPPubSubMessageAckID(val string) attribute.KeyValue { - return MessagingGCPPubSubMessageAckIDKey.String(val) -} - -// MessagingGCPPubSubMessageDeliveryAttempt returns an attribute KeyValue -// conforming to the "messaging.gcp_pubsub.message.delivery_attempt" semantic -// conventions. It represents the delivery attempt for a given message. -func MessagingGCPPubSubMessageDeliveryAttempt(val int) attribute.KeyValue { - return MessagingGCPPubSubMessageDeliveryAttemptKey.Int(val) -} - -// MessagingGCPPubSubMessageOrderingKey returns an attribute KeyValue conforming -// to the "messaging.gcp_pubsub.message.ordering_key" semantic conventions. It -// represents the ordering key for a given message. If the attribute is not -// present, the message does not have an ordering key. -func MessagingGCPPubSubMessageOrderingKey(val string) attribute.KeyValue { - return MessagingGCPPubSubMessageOrderingKeyKey.String(val) -} - -// MessagingKafkaMessageKey returns an attribute KeyValue conforming to the -// "messaging.kafka.message.key" semantic conventions. It represents the message -// keys in Kafka are used for grouping alike messages to ensure they're processed -// on the same partition. They differ from `messaging.message.id` in that they're -// not unique. If the key is `null`, the attribute MUST NOT be set. -func MessagingKafkaMessageKey(val string) attribute.KeyValue { - return MessagingKafkaMessageKeyKey.String(val) -} - -// MessagingKafkaMessageTombstone returns an attribute KeyValue conforming to the -// "messaging.kafka.message.tombstone" semantic conventions. It represents a -// boolean that is true if the message is a tombstone. -func MessagingKafkaMessageTombstone(val bool) attribute.KeyValue { - return MessagingKafkaMessageTombstoneKey.Bool(val) -} - -// MessagingKafkaOffset returns an attribute KeyValue conforming to the -// "messaging.kafka.offset" semantic conventions. It represents the offset of a -// record in the corresponding Kafka partition. -func MessagingKafkaOffset(val int) attribute.KeyValue { - return MessagingKafkaOffsetKey.Int(val) -} - -// MessagingMessageBodySize returns an attribute KeyValue conforming to the -// "messaging.message.body.size" semantic conventions. It represents the size of -// the message body in bytes. -func MessagingMessageBodySize(val int) attribute.KeyValue { - return MessagingMessageBodySizeKey.Int(val) -} - -// MessagingMessageConversationID returns an attribute KeyValue conforming to the -// "messaging.message.conversation_id" semantic conventions. It represents the -// conversation ID identifying the conversation to which the message belongs, -// represented as a string. Sometimes called "Correlation ID". -func MessagingMessageConversationID(val string) attribute.KeyValue { - return MessagingMessageConversationIDKey.String(val) -} - -// MessagingMessageEnvelopeSize returns an attribute KeyValue conforming to the -// "messaging.message.envelope.size" semantic conventions. It represents the size -// of the message body and metadata in bytes. -func MessagingMessageEnvelopeSize(val int) attribute.KeyValue { - return MessagingMessageEnvelopeSizeKey.Int(val) -} - -// MessagingMessageID returns an attribute KeyValue conforming to the -// "messaging.message.id" semantic conventions. It represents a value used by the -// messaging system as an identifier for the message, represented as a string. -func MessagingMessageID(val string) attribute.KeyValue { - return MessagingMessageIDKey.String(val) -} - -// MessagingOperationName returns an attribute KeyValue conforming to the -// "messaging.operation.name" semantic conventions. It represents the -// system-specific name of the messaging operation. -func MessagingOperationName(val string) attribute.KeyValue { - return MessagingOperationNameKey.String(val) -} - -// MessagingRabbitMQDestinationRoutingKey returns an attribute KeyValue -// conforming to the "messaging.rabbitmq.destination.routing_key" semantic -// conventions. It represents the rabbitMQ message routing key. -func MessagingRabbitMQDestinationRoutingKey(val string) attribute.KeyValue { - return MessagingRabbitMQDestinationRoutingKeyKey.String(val) -} - -// MessagingRabbitMQMessageDeliveryTag returns an attribute KeyValue conforming -// to the "messaging.rabbitmq.message.delivery_tag" semantic conventions. It -// represents the rabbitMQ message delivery tag. -func MessagingRabbitMQMessageDeliveryTag(val int) attribute.KeyValue { - return MessagingRabbitMQMessageDeliveryTagKey.Int(val) -} - -// MessagingRocketMQMessageDelayTimeLevel returns an attribute KeyValue -// conforming to the "messaging.rocketmq.message.delay_time_level" semantic -// conventions. It represents the delay time level for delay message, which -// determines the message delay time. -func MessagingRocketMQMessageDelayTimeLevel(val int) attribute.KeyValue { - return MessagingRocketMQMessageDelayTimeLevelKey.Int(val) -} - -// MessagingRocketMQMessageDeliveryTimestamp returns an attribute KeyValue -// conforming to the "messaging.rocketmq.message.delivery_timestamp" semantic -// conventions. It represents the timestamp in milliseconds that the delay -// message is expected to be delivered to consumer. -func MessagingRocketMQMessageDeliveryTimestamp(val int) attribute.KeyValue { - return MessagingRocketMQMessageDeliveryTimestampKey.Int(val) -} - -// MessagingRocketMQMessageGroup returns an attribute KeyValue conforming to the -// "messaging.rocketmq.message.group" semantic conventions. It represents the it -// is essential for FIFO message. Messages that belong to the same message group -// are always processed one by one within the same consumer group. -func MessagingRocketMQMessageGroup(val string) attribute.KeyValue { - return MessagingRocketMQMessageGroupKey.String(val) -} - -// MessagingRocketMQMessageKeys returns an attribute KeyValue conforming to the -// "messaging.rocketmq.message.keys" semantic conventions. It represents the -// key(s) of message, another way to mark message besides message id. -func MessagingRocketMQMessageKeys(val ...string) attribute.KeyValue { - return MessagingRocketMQMessageKeysKey.StringSlice(val) -} - -// MessagingRocketMQMessageTag returns an attribute KeyValue conforming to the -// "messaging.rocketmq.message.tag" semantic conventions. It represents the -// secondary classifier of message besides topic. -func MessagingRocketMQMessageTag(val string) attribute.KeyValue { - return MessagingRocketMQMessageTagKey.String(val) -} - -// MessagingRocketMQNamespace returns an attribute KeyValue conforming to the -// "messaging.rocketmq.namespace" semantic conventions. It represents the -// namespace of RocketMQ resources, resources in different namespaces are -// individual. -func MessagingRocketMQNamespace(val string) attribute.KeyValue { - return MessagingRocketMQNamespaceKey.String(val) -} - -// MessagingServiceBusMessageDeliveryCount returns an attribute KeyValue -// conforming to the "messaging.servicebus.message.delivery_count" semantic -// conventions. It represents the number of deliveries that have been attempted -// for this message. -func MessagingServiceBusMessageDeliveryCount(val int) attribute.KeyValue { - return MessagingServiceBusMessageDeliveryCountKey.Int(val) -} - -// MessagingServiceBusMessageEnqueuedTime returns an attribute KeyValue -// conforming to the "messaging.servicebus.message.enqueued_time" semantic -// conventions. It represents the UTC epoch seconds at which the message has been -// accepted and stored in the entity. -func MessagingServiceBusMessageEnqueuedTime(val int) attribute.KeyValue { - return MessagingServiceBusMessageEnqueuedTimeKey.Int(val) -} - -// Enum values for messaging.operation.type -var ( - // A message is created. "Create" spans always refer to a single message and are - // used to provide a unique creation context for messages in batch sending - // scenarios. - // - // Stability: development - MessagingOperationTypeCreate = MessagingOperationTypeKey.String("create") - // One or more messages are provided for sending to an intermediary. If a single - // message is sent, the context of the "Send" span can be used as the creation - // context and no "Create" span needs to be created. - // - // Stability: development - MessagingOperationTypeSend = MessagingOperationTypeKey.String("send") - // One or more messages are requested by a consumer. This operation refers to - // pull-based scenarios, where consumers explicitly call methods of messaging - // SDKs to receive messages. - // - // Stability: development - MessagingOperationTypeReceive = MessagingOperationTypeKey.String("receive") - // One or more messages are processed by a consumer. - // - // Stability: development - MessagingOperationTypeProcess = MessagingOperationTypeKey.String("process") - // One or more messages are settled. - // - // Stability: development - MessagingOperationTypeSettle = MessagingOperationTypeKey.String("settle") -) - -// Enum values for messaging.rocketmq.consumption_model -var ( - // Clustering consumption model - // Stability: development - MessagingRocketMQConsumptionModelClustering = MessagingRocketMQConsumptionModelKey.String("clustering") - // Broadcasting consumption model - // Stability: development - MessagingRocketMQConsumptionModelBroadcasting = MessagingRocketMQConsumptionModelKey.String("broadcasting") -) - -// Enum values for messaging.rocketmq.message.type -var ( - // Normal message - // Stability: development - MessagingRocketMQMessageTypeNormal = MessagingRocketMQMessageTypeKey.String("normal") - // FIFO message - // Stability: development - MessagingRocketMQMessageTypeFifo = MessagingRocketMQMessageTypeKey.String("fifo") - // Delay message - // Stability: development - MessagingRocketMQMessageTypeDelay = MessagingRocketMQMessageTypeKey.String("delay") - // Transaction message - // Stability: development - MessagingRocketMQMessageTypeTransaction = MessagingRocketMQMessageTypeKey.String("transaction") -) - -// Enum values for messaging.servicebus.disposition_status -var ( - // Message is completed - // Stability: development - MessagingServiceBusDispositionStatusComplete = MessagingServiceBusDispositionStatusKey.String("complete") - // Message is abandoned - // Stability: development - MessagingServiceBusDispositionStatusAbandon = MessagingServiceBusDispositionStatusKey.String("abandon") - // Message is sent to dead letter queue - // Stability: development - MessagingServiceBusDispositionStatusDeadLetter = MessagingServiceBusDispositionStatusKey.String("dead_letter") - // Message is deferred - // Stability: development - MessagingServiceBusDispositionStatusDefer = MessagingServiceBusDispositionStatusKey.String("defer") -) - -// Enum values for messaging.system -var ( - // Apache ActiveMQ - // Stability: development - MessagingSystemActiveMQ = MessagingSystemKey.String("activemq") - // Amazon Simple Notification Service (SNS) - // Stability: development - MessagingSystemAWSSNS = MessagingSystemKey.String("aws.sns") - // Amazon Simple Queue Service (SQS) - // Stability: development - MessagingSystemAWSSQS = MessagingSystemKey.String("aws_sqs") - // Azure Event Grid - // Stability: development - MessagingSystemEventGrid = MessagingSystemKey.String("eventgrid") - // Azure Event Hubs - // Stability: development - MessagingSystemEventHubs = MessagingSystemKey.String("eventhubs") - // Azure Service Bus - // Stability: development - MessagingSystemServiceBus = MessagingSystemKey.String("servicebus") - // Google Cloud Pub/Sub - // Stability: development - MessagingSystemGCPPubSub = MessagingSystemKey.String("gcp_pubsub") - // Java Message Service - // Stability: development - MessagingSystemJMS = MessagingSystemKey.String("jms") - // Apache Kafka - // Stability: development - MessagingSystemKafka = MessagingSystemKey.String("kafka") - // RabbitMQ - // Stability: development - MessagingSystemRabbitMQ = MessagingSystemKey.String("rabbitmq") - // Apache RocketMQ - // Stability: development - MessagingSystemRocketMQ = MessagingSystemKey.String("rocketmq") - // Apache Pulsar - // Stability: development - MessagingSystemPulsar = MessagingSystemKey.String("pulsar") -) - -// Namespace: network -const ( - // NetworkCarrierICCKey is the attribute Key conforming to the - // "network.carrier.icc" semantic conventions. It represents the ISO 3166-1 - // alpha-2 2-character country code associated with the mobile carrier network. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: DE - NetworkCarrierICCKey = attribute.Key("network.carrier.icc") - - // NetworkCarrierMCCKey is the attribute Key conforming to the - // "network.carrier.mcc" semantic conventions. It represents the mobile carrier - // country code. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 310 - NetworkCarrierMCCKey = attribute.Key("network.carrier.mcc") - - // NetworkCarrierMNCKey is the attribute Key conforming to the - // "network.carrier.mnc" semantic conventions. It represents the mobile carrier - // network code. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 001 - NetworkCarrierMNCKey = attribute.Key("network.carrier.mnc") - - // NetworkCarrierNameKey is the attribute Key conforming to the - // "network.carrier.name" semantic conventions. It represents the name of the - // mobile carrier. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: sprint - NetworkCarrierNameKey = attribute.Key("network.carrier.name") - - // NetworkConnectionStateKey is the attribute Key conforming to the - // "network.connection.state" semantic conventions. It represents the state of - // network connection. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "close_wait" - // Note: Connection states are defined as part of the [rfc9293] - // - // [rfc9293]: https://datatracker.ietf.org/doc/html/rfc9293#section-3.3.2 - NetworkConnectionStateKey = attribute.Key("network.connection.state") - - // NetworkConnectionSubtypeKey is the attribute Key conforming to the - // "network.connection.subtype" semantic conventions. It represents the this - // describes more details regarding the connection.type. It may be the type of - // cell technology connection, but it could be used for describing details about - // a wifi connection. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: LTE - NetworkConnectionSubtypeKey = attribute.Key("network.connection.subtype") - - // NetworkConnectionTypeKey is the attribute Key conforming to the - // "network.connection.type" semantic conventions. It represents the internet - // connection type. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: wifi - NetworkConnectionTypeKey = attribute.Key("network.connection.type") - - // NetworkInterfaceNameKey is the attribute Key conforming to the - // "network.interface.name" semantic conventions. It represents the network - // interface name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "lo", "eth0" - NetworkInterfaceNameKey = attribute.Key("network.interface.name") - - // NetworkIODirectionKey is the attribute Key conforming to the - // "network.io.direction" semantic conventions. It represents the network IO - // operation direction. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "transmit" - NetworkIODirectionKey = attribute.Key("network.io.direction") - - // NetworkLocalAddressKey is the attribute Key conforming to the - // "network.local.address" semantic conventions. It represents the local address - // of the network connection - IP address or Unix domain socket name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "10.1.2.80", "/tmp/my.sock" - NetworkLocalAddressKey = attribute.Key("network.local.address") - - // NetworkLocalPortKey is the attribute Key conforming to the - // "network.local.port" semantic conventions. It represents the local port - // number of the network connection. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: 65123 - NetworkLocalPortKey = attribute.Key("network.local.port") - - // NetworkPeerAddressKey is the attribute Key conforming to the - // "network.peer.address" semantic conventions. It represents the peer address - // of the network connection - IP address or Unix domain socket name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "10.1.2.80", "/tmp/my.sock" - NetworkPeerAddressKey = attribute.Key("network.peer.address") - - // NetworkPeerPortKey is the attribute Key conforming to the "network.peer.port" - // semantic conventions. It represents the peer port number of the network - // connection. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: 65123 - NetworkPeerPortKey = attribute.Key("network.peer.port") - - // NetworkProtocolNameKey is the attribute Key conforming to the - // "network.protocol.name" semantic conventions. It represents the - // [OSI application layer] or non-OSI equivalent. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "amqp", "http", "mqtt" - // Note: The value SHOULD be normalized to lowercase. - // - // [OSI application layer]: https://wikipedia.org/wiki/Application_layer - NetworkProtocolNameKey = attribute.Key("network.protocol.name") - - // NetworkProtocolVersionKey is the attribute Key conforming to the - // "network.protocol.version" semantic conventions. It represents the actual - // version of the protocol used for network communication. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "1.1", "2" - // Note: If protocol version is subject to negotiation (for example using [ALPN] - // ), this attribute SHOULD be set to the negotiated version. If the actual - // protocol version is not known, this attribute SHOULD NOT be set. - // - // [ALPN]: https://www.rfc-editor.org/rfc/rfc7301.html - NetworkProtocolVersionKey = attribute.Key("network.protocol.version") - - // NetworkTransportKey is the attribute Key conforming to the - // "network.transport" semantic conventions. It represents the - // [OSI transport layer] or [inter-process communication method]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "tcp", "udp" - // Note: The value SHOULD be normalized to lowercase. - // - // Consider always setting the transport when setting a port number, since - // a port number is ambiguous without knowing the transport. For example - // different processes could be listening on TCP port 12345 and UDP port 12345. - // - // [OSI transport layer]: https://wikipedia.org/wiki/Transport_layer - // [inter-process communication method]: https://wikipedia.org/wiki/Inter-process_communication - NetworkTransportKey = attribute.Key("network.transport") - - // NetworkTypeKey is the attribute Key conforming to the "network.type" semantic - // conventions. It represents the [OSI network layer] or non-OSI equivalent. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "ipv4", "ipv6" - // Note: The value SHOULD be normalized to lowercase. - // - // [OSI network layer]: https://wikipedia.org/wiki/Network_layer - NetworkTypeKey = attribute.Key("network.type") -) - -// NetworkCarrierICC returns an attribute KeyValue conforming to the -// "network.carrier.icc" semantic conventions. It represents the ISO 3166-1 -// alpha-2 2-character country code associated with the mobile carrier network. -func NetworkCarrierICC(val string) attribute.KeyValue { - return NetworkCarrierICCKey.String(val) -} - -// NetworkCarrierMCC returns an attribute KeyValue conforming to the -// "network.carrier.mcc" semantic conventions. It represents the mobile carrier -// country code. -func NetworkCarrierMCC(val string) attribute.KeyValue { - return NetworkCarrierMCCKey.String(val) -} - -// NetworkCarrierMNC returns an attribute KeyValue conforming to the -// "network.carrier.mnc" semantic conventions. It represents the mobile carrier -// network code. -func NetworkCarrierMNC(val string) attribute.KeyValue { - return NetworkCarrierMNCKey.String(val) -} - -// NetworkCarrierName returns an attribute KeyValue conforming to the -// "network.carrier.name" semantic conventions. It represents the name of the -// mobile carrier. -func NetworkCarrierName(val string) attribute.KeyValue { - return NetworkCarrierNameKey.String(val) -} - -// NetworkInterfaceName returns an attribute KeyValue conforming to the -// "network.interface.name" semantic conventions. It represents the network -// interface name. -func NetworkInterfaceName(val string) attribute.KeyValue { - return NetworkInterfaceNameKey.String(val) -} - -// NetworkLocalAddress returns an attribute KeyValue conforming to the -// "network.local.address" semantic conventions. It represents the local address -// of the network connection - IP address or Unix domain socket name. -func NetworkLocalAddress(val string) attribute.KeyValue { - return NetworkLocalAddressKey.String(val) -} - -// NetworkLocalPort returns an attribute KeyValue conforming to the -// "network.local.port" semantic conventions. It represents the local port number -// of the network connection. -func NetworkLocalPort(val int) attribute.KeyValue { - return NetworkLocalPortKey.Int(val) -} - -// NetworkPeerAddress returns an attribute KeyValue conforming to the -// "network.peer.address" semantic conventions. It represents the peer address of -// the network connection - IP address or Unix domain socket name. -func NetworkPeerAddress(val string) attribute.KeyValue { - return NetworkPeerAddressKey.String(val) -} - -// NetworkPeerPort returns an attribute KeyValue conforming to the -// "network.peer.port" semantic conventions. It represents the peer port number -// of the network connection. -func NetworkPeerPort(val int) attribute.KeyValue { - return NetworkPeerPortKey.Int(val) -} - -// NetworkProtocolName returns an attribute KeyValue conforming to the -// "network.protocol.name" semantic conventions. It represents the -// [OSI application layer] or non-OSI equivalent. -// -// [OSI application layer]: https://wikipedia.org/wiki/Application_layer -func NetworkProtocolName(val string) attribute.KeyValue { - return NetworkProtocolNameKey.String(val) -} - -// NetworkProtocolVersion returns an attribute KeyValue conforming to the -// "network.protocol.version" semantic conventions. It represents the actual -// version of the protocol used for network communication. -func NetworkProtocolVersion(val string) attribute.KeyValue { - return NetworkProtocolVersionKey.String(val) -} - -// Enum values for network.connection.state -var ( - // closed - // Stability: development - NetworkConnectionStateClosed = NetworkConnectionStateKey.String("closed") - // close_wait - // Stability: development - NetworkConnectionStateCloseWait = NetworkConnectionStateKey.String("close_wait") - // closing - // Stability: development - NetworkConnectionStateClosing = NetworkConnectionStateKey.String("closing") - // established - // Stability: development - NetworkConnectionStateEstablished = NetworkConnectionStateKey.String("established") - // fin_wait_1 - // Stability: development - NetworkConnectionStateFinWait1 = NetworkConnectionStateKey.String("fin_wait_1") - // fin_wait_2 - // Stability: development - NetworkConnectionStateFinWait2 = NetworkConnectionStateKey.String("fin_wait_2") - // last_ack - // Stability: development - NetworkConnectionStateLastAck = NetworkConnectionStateKey.String("last_ack") - // listen - // Stability: development - NetworkConnectionStateListen = NetworkConnectionStateKey.String("listen") - // syn_received - // Stability: development - NetworkConnectionStateSynReceived = NetworkConnectionStateKey.String("syn_received") - // syn_sent - // Stability: development - NetworkConnectionStateSynSent = NetworkConnectionStateKey.String("syn_sent") - // time_wait - // Stability: development - NetworkConnectionStateTimeWait = NetworkConnectionStateKey.String("time_wait") -) - -// Enum values for network.connection.subtype -var ( - // GPRS - // Stability: development - NetworkConnectionSubtypeGprs = NetworkConnectionSubtypeKey.String("gprs") - // EDGE - // Stability: development - NetworkConnectionSubtypeEdge = NetworkConnectionSubtypeKey.String("edge") - // UMTS - // Stability: development - NetworkConnectionSubtypeUmts = NetworkConnectionSubtypeKey.String("umts") - // CDMA - // Stability: development - NetworkConnectionSubtypeCdma = NetworkConnectionSubtypeKey.String("cdma") - // EVDO Rel. 0 - // Stability: development - NetworkConnectionSubtypeEvdo0 = NetworkConnectionSubtypeKey.String("evdo_0") - // EVDO Rev. A - // Stability: development - NetworkConnectionSubtypeEvdoA = NetworkConnectionSubtypeKey.String("evdo_a") - // CDMA2000 1XRTT - // Stability: development - NetworkConnectionSubtypeCdma20001xrtt = NetworkConnectionSubtypeKey.String("cdma2000_1xrtt") - // HSDPA - // Stability: development - NetworkConnectionSubtypeHsdpa = NetworkConnectionSubtypeKey.String("hsdpa") - // HSUPA - // Stability: development - NetworkConnectionSubtypeHsupa = NetworkConnectionSubtypeKey.String("hsupa") - // HSPA - // Stability: development - NetworkConnectionSubtypeHspa = NetworkConnectionSubtypeKey.String("hspa") - // IDEN - // Stability: development - NetworkConnectionSubtypeIden = NetworkConnectionSubtypeKey.String("iden") - // EVDO Rev. B - // Stability: development - NetworkConnectionSubtypeEvdoB = NetworkConnectionSubtypeKey.String("evdo_b") - // LTE - // Stability: development - NetworkConnectionSubtypeLte = NetworkConnectionSubtypeKey.String("lte") - // EHRPD - // Stability: development - NetworkConnectionSubtypeEhrpd = NetworkConnectionSubtypeKey.String("ehrpd") - // HSPAP - // Stability: development - NetworkConnectionSubtypeHspap = NetworkConnectionSubtypeKey.String("hspap") - // GSM - // Stability: development - NetworkConnectionSubtypeGsm = NetworkConnectionSubtypeKey.String("gsm") - // TD-SCDMA - // Stability: development - NetworkConnectionSubtypeTdScdma = NetworkConnectionSubtypeKey.String("td_scdma") - // IWLAN - // Stability: development - NetworkConnectionSubtypeIwlan = NetworkConnectionSubtypeKey.String("iwlan") - // 5G NR (New Radio) - // Stability: development - NetworkConnectionSubtypeNr = NetworkConnectionSubtypeKey.String("nr") - // 5G NRNSA (New Radio Non-Standalone) - // Stability: development - NetworkConnectionSubtypeNrnsa = NetworkConnectionSubtypeKey.String("nrnsa") - // LTE CA - // Stability: development - NetworkConnectionSubtypeLteCa = NetworkConnectionSubtypeKey.String("lte_ca") -) - -// Enum values for network.connection.type -var ( - // wifi - // Stability: development - NetworkConnectionTypeWifi = NetworkConnectionTypeKey.String("wifi") - // wired - // Stability: development - NetworkConnectionTypeWired = NetworkConnectionTypeKey.String("wired") - // cell - // Stability: development - NetworkConnectionTypeCell = NetworkConnectionTypeKey.String("cell") - // unavailable - // Stability: development - NetworkConnectionTypeUnavailable = NetworkConnectionTypeKey.String("unavailable") - // unknown - // Stability: development - NetworkConnectionTypeUnknown = NetworkConnectionTypeKey.String("unknown") -) - -// Enum values for network.io.direction -var ( - // transmit - // Stability: development - NetworkIODirectionTransmit = NetworkIODirectionKey.String("transmit") - // receive - // Stability: development - NetworkIODirectionReceive = NetworkIODirectionKey.String("receive") -) - -// Enum values for network.transport -var ( - // TCP - // Stability: stable - NetworkTransportTCP = NetworkTransportKey.String("tcp") - // UDP - // Stability: stable - NetworkTransportUDP = NetworkTransportKey.String("udp") - // Named or anonymous pipe. - // Stability: stable - NetworkTransportPipe = NetworkTransportKey.String("pipe") - // Unix domain socket - // Stability: stable - NetworkTransportUnix = NetworkTransportKey.String("unix") - // QUIC - // Stability: stable - NetworkTransportQUIC = NetworkTransportKey.String("quic") -) - -// Enum values for network.type -var ( - // IPv4 - // Stability: stable - NetworkTypeIPv4 = NetworkTypeKey.String("ipv4") - // IPv6 - // Stability: stable - NetworkTypeIPv6 = NetworkTypeKey.String("ipv6") -) - -// Namespace: nfs -const ( - // NfsOperationNameKey is the attribute Key conforming to the - // "nfs.operation.name" semantic conventions. It represents the NFSv4+ operation - // name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "OPEN", "READ", "GETATTR" - NfsOperationNameKey = attribute.Key("nfs.operation.name") - - // NfsServerRepcacheStatusKey is the attribute Key conforming to the - // "nfs.server.repcache.status" semantic conventions. It represents the linux: - // one of "hit" (NFSD_STATS_RC_HITS), "miss" (NFSD_STATS_RC_MISSES), or - // "nocache" (NFSD_STATS_RC_NOCACHE -- uncacheable). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: hit - NfsServerRepcacheStatusKey = attribute.Key("nfs.server.repcache.status") -) - -// NfsOperationName returns an attribute KeyValue conforming to the -// "nfs.operation.name" semantic conventions. It represents the NFSv4+ operation -// name. -func NfsOperationName(val string) attribute.KeyValue { - return NfsOperationNameKey.String(val) -} - -// NfsServerRepcacheStatus returns an attribute KeyValue conforming to the -// "nfs.server.repcache.status" semantic conventions. It represents the linux: -// one of "hit" (NFSD_STATS_RC_HITS), "miss" (NFSD_STATS_RC_MISSES), or "nocache" -// (NFSD_STATS_RC_NOCACHE -- uncacheable). -func NfsServerRepcacheStatus(val string) attribute.KeyValue { - return NfsServerRepcacheStatusKey.String(val) -} - -// Namespace: oci -const ( - // OCIManifestDigestKey is the attribute Key conforming to the - // "oci.manifest.digest" semantic conventions. It represents the digest of the - // OCI image manifest. For container images specifically is the digest by which - // the container image is known. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "sha256:e4ca62c0d62f3e886e684806dfe9d4e0cda60d54986898173c1083856cfda0f4" - // Note: Follows [OCI Image Manifest Specification], and specifically the - // [Digest property]. - // An example can be found in [Example Image Manifest]. - // - // [OCI Image Manifest Specification]: https://github.com/opencontainers/image-spec/blob/main/manifest.md - // [Digest property]: https://github.com/opencontainers/image-spec/blob/main/descriptor.md#digests - // [Example Image Manifest]: https://github.com/opencontainers/image-spec/blob/main/manifest.md#example-image-manifest - OCIManifestDigestKey = attribute.Key("oci.manifest.digest") -) - -// OCIManifestDigest returns an attribute KeyValue conforming to the -// "oci.manifest.digest" semantic conventions. It represents the digest of the -// OCI image manifest. For container images specifically is the digest by which -// the container image is known. -func OCIManifestDigest(val string) attribute.KeyValue { - return OCIManifestDigestKey.String(val) -} - -// Namespace: onc_rpc -const ( - // OncRPCProcedureNameKey is the attribute Key conforming to the - // "onc_rpc.procedure.name" semantic conventions. It represents the ONC/Sun RPC - // procedure name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "OPEN", "READ", "GETATTR" - OncRPCProcedureNameKey = attribute.Key("onc_rpc.procedure.name") - - // OncRPCProcedureNumberKey is the attribute Key conforming to the - // "onc_rpc.procedure.number" semantic conventions. It represents the ONC/Sun - // RPC procedure number. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - OncRPCProcedureNumberKey = attribute.Key("onc_rpc.procedure.number") - - // OncRPCProgramNameKey is the attribute Key conforming to the - // "onc_rpc.program.name" semantic conventions. It represents the ONC/Sun RPC - // program name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "portmapper", "nfs" - OncRPCProgramNameKey = attribute.Key("onc_rpc.program.name") - - // OncRPCVersionKey is the attribute Key conforming to the "onc_rpc.version" - // semantic conventions. It represents the ONC/Sun RPC program version. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - OncRPCVersionKey = attribute.Key("onc_rpc.version") -) - -// OncRPCProcedureName returns an attribute KeyValue conforming to the -// "onc_rpc.procedure.name" semantic conventions. It represents the ONC/Sun RPC -// procedure name. -func OncRPCProcedureName(val string) attribute.KeyValue { - return OncRPCProcedureNameKey.String(val) -} - -// OncRPCProcedureNumber returns an attribute KeyValue conforming to the -// "onc_rpc.procedure.number" semantic conventions. It represents the ONC/Sun RPC -// procedure number. -func OncRPCProcedureNumber(val int) attribute.KeyValue { - return OncRPCProcedureNumberKey.Int(val) -} - -// OncRPCProgramName returns an attribute KeyValue conforming to the -// "onc_rpc.program.name" semantic conventions. It represents the ONC/Sun RPC -// program name. -func OncRPCProgramName(val string) attribute.KeyValue { - return OncRPCProgramNameKey.String(val) -} - -// OncRPCVersion returns an attribute KeyValue conforming to the -// "onc_rpc.version" semantic conventions. It represents the ONC/Sun RPC program -// version. -func OncRPCVersion(val int) attribute.KeyValue { - return OncRPCVersionKey.Int(val) -} - -// Namespace: openai -const ( - // OpenAIRequestServiceTierKey is the attribute Key conforming to the - // "openai.request.service_tier" semantic conventions. It represents the service - // tier requested. May be a specific tier, default, or auto. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "auto", "default" - OpenAIRequestServiceTierKey = attribute.Key("openai.request.service_tier") - - // OpenAIResponseServiceTierKey is the attribute Key conforming to the - // "openai.response.service_tier" semantic conventions. It represents the - // service tier used for the response. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "scale", "default" - OpenAIResponseServiceTierKey = attribute.Key("openai.response.service_tier") - - // OpenAIResponseSystemFingerprintKey is the attribute Key conforming to the - // "openai.response.system_fingerprint" semantic conventions. It represents a - // fingerprint to track any eventual change in the Generative AI environment. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "fp_44709d6fcb" - OpenAIResponseSystemFingerprintKey = attribute.Key("openai.response.system_fingerprint") -) - -// OpenAIResponseServiceTier returns an attribute KeyValue conforming to the -// "openai.response.service_tier" semantic conventions. It represents the service -// tier used for the response. -func OpenAIResponseServiceTier(val string) attribute.KeyValue { - return OpenAIResponseServiceTierKey.String(val) -} - -// OpenAIResponseSystemFingerprint returns an attribute KeyValue conforming to -// the "openai.response.system_fingerprint" semantic conventions. It represents a -// fingerprint to track any eventual change in the Generative AI environment. -func OpenAIResponseSystemFingerprint(val string) attribute.KeyValue { - return OpenAIResponseSystemFingerprintKey.String(val) -} - -// Enum values for openai.request.service_tier -var ( - // The system will utilize scale tier credits until they are exhausted. - // Stability: development - OpenAIRequestServiceTierAuto = OpenAIRequestServiceTierKey.String("auto") - // The system will utilize the default scale tier. - // Stability: development - OpenAIRequestServiceTierDefault = OpenAIRequestServiceTierKey.String("default") -) - -// Namespace: openshift -const ( - // OpenShiftClusterquotaNameKey is the attribute Key conforming to the - // "openshift.clusterquota.name" semantic conventions. It represents the name of - // the cluster quota. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "opentelemetry" - OpenShiftClusterquotaNameKey = attribute.Key("openshift.clusterquota.name") - - // OpenShiftClusterquotaUIDKey is the attribute Key conforming to the - // "openshift.clusterquota.uid" semantic conventions. It represents the UID of - // the cluster quota. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - OpenShiftClusterquotaUIDKey = attribute.Key("openshift.clusterquota.uid") -) - -// OpenShiftClusterquotaName returns an attribute KeyValue conforming to the -// "openshift.clusterquota.name" semantic conventions. It represents the name of -// the cluster quota. -func OpenShiftClusterquotaName(val string) attribute.KeyValue { - return OpenShiftClusterquotaNameKey.String(val) -} - -// OpenShiftClusterquotaUID returns an attribute KeyValue conforming to the -// "openshift.clusterquota.uid" semantic conventions. It represents the UID of -// the cluster quota. -func OpenShiftClusterquotaUID(val string) attribute.KeyValue { - return OpenShiftClusterquotaUIDKey.String(val) -} - -// Namespace: opentracing -const ( - // OpenTracingRefTypeKey is the attribute Key conforming to the - // "opentracing.ref_type" semantic conventions. It represents the parent-child - // Reference type. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: The causal relationship between a child Span and a parent Span. - OpenTracingRefTypeKey = attribute.Key("opentracing.ref_type") -) - -// Enum values for opentracing.ref_type -var ( - // The parent Span depends on the child Span in some capacity - // Stability: development - OpenTracingRefTypeChildOf = OpenTracingRefTypeKey.String("child_of") - // The parent Span doesn't depend in any way on the result of the child Span - // Stability: development - OpenTracingRefTypeFollowsFrom = OpenTracingRefTypeKey.String("follows_from") -) - -// Namespace: os -const ( - // OSBuildIDKey is the attribute Key conforming to the "os.build_id" semantic - // conventions. It represents the unique identifier for a particular build or - // compilation of the operating system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "TQ3C.230805.001.B2", "20E247", "22621" - OSBuildIDKey = attribute.Key("os.build_id") - - // OSDescriptionKey is the attribute Key conforming to the "os.description" - // semantic conventions. It represents the human readable (not intended to be - // parsed) OS version information, like e.g. reported by `ver` or - // `lsb_release -a` commands. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Microsoft Windows [Version 10.0.18363.778]", "Ubuntu 18.04.1 LTS" - OSDescriptionKey = attribute.Key("os.description") - - // OSNameKey is the attribute Key conforming to the "os.name" semantic - // conventions. It represents the human readable operating system name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "iOS", "Android", "Ubuntu" - OSNameKey = attribute.Key("os.name") - - // OSTypeKey is the attribute Key conforming to the "os.type" semantic - // conventions. It represents the operating system type. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - OSTypeKey = attribute.Key("os.type") - - // OSVersionKey is the attribute Key conforming to the "os.version" semantic - // conventions. It represents the version string of the operating system as - // defined in [Version Attributes]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "14.2.1", "18.04.1" - // - // [Version Attributes]: /docs/resource/README.md#version-attributes - OSVersionKey = attribute.Key("os.version") -) - -// OSBuildID returns an attribute KeyValue conforming to the "os.build_id" -// semantic conventions. It represents the unique identifier for a particular -// build or compilation of the operating system. -func OSBuildID(val string) attribute.KeyValue { - return OSBuildIDKey.String(val) -} - -// OSDescription returns an attribute KeyValue conforming to the "os.description" -// semantic conventions. It represents the human readable (not intended to be -// parsed) OS version information, like e.g. reported by `ver` or -// `lsb_release -a` commands. -func OSDescription(val string) attribute.KeyValue { - return OSDescriptionKey.String(val) -} - -// OSName returns an attribute KeyValue conforming to the "os.name" semantic -// conventions. It represents the human readable operating system name. -func OSName(val string) attribute.KeyValue { - return OSNameKey.String(val) -} - -// OSVersion returns an attribute KeyValue conforming to the "os.version" -// semantic conventions. It represents the version string of the operating system -// as defined in [Version Attributes]. -// -// [Version Attributes]: /docs/resource/README.md#version-attributes -func OSVersion(val string) attribute.KeyValue { - return OSVersionKey.String(val) -} - -// Enum values for os.type -var ( - // Microsoft Windows - // Stability: development - OSTypeWindows = OSTypeKey.String("windows") - // Linux - // Stability: development - OSTypeLinux = OSTypeKey.String("linux") - // Apple Darwin - // Stability: development - OSTypeDarwin = OSTypeKey.String("darwin") - // FreeBSD - // Stability: development - OSTypeFreeBSD = OSTypeKey.String("freebsd") - // NetBSD - // Stability: development - OSTypeNetBSD = OSTypeKey.String("netbsd") - // OpenBSD - // Stability: development - OSTypeOpenBSD = OSTypeKey.String("openbsd") - // DragonFly BSD - // Stability: development - OSTypeDragonflyBSD = OSTypeKey.String("dragonflybsd") - // HP-UX (Hewlett Packard Unix) - // Stability: development - OSTypeHPUX = OSTypeKey.String("hpux") - // AIX (Advanced Interactive eXecutive) - // Stability: development - OSTypeAIX = OSTypeKey.String("aix") - // SunOS, Oracle Solaris - // Stability: development - OSTypeSolaris = OSTypeKey.String("solaris") - // IBM z/OS - // Stability: development - OSTypeZOS = OSTypeKey.String("zos") -) - -// Namespace: otel -const ( - // OTelComponentNameKey is the attribute Key conforming to the - // "otel.component.name" semantic conventions. It represents a name uniquely - // identifying the instance of the OpenTelemetry component within its containing - // SDK instance. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "otlp_grpc_span_exporter/0", "custom-name" - // Note: Implementations SHOULD ensure a low cardinality for this attribute, - // even across application or SDK restarts. - // E.g. implementations MUST NOT use UUIDs as values for this attribute. - // - // Implementations MAY achieve these goals by following a - // `/` pattern, e.g. - // `batching_span_processor/0`. - // Hereby `otel.component.type` refers to the corresponding attribute value of - // the component. - // - // The value of `instance-counter` MAY be automatically assigned by the - // component and uniqueness within the enclosing SDK instance MUST be - // guaranteed. - // For example, `` MAY be implemented by using a monotonically - // increasing counter (starting with `0`), which is incremented every time an - // instance of the given component type is started. - // - // With this implementation, for example the first Batching Span Processor would - // have `batching_span_processor/0` - // as `otel.component.name`, the second one `batching_span_processor/1` and so - // on. - // These values will therefore be reused in the case of an application restart. - OTelComponentNameKey = attribute.Key("otel.component.name") - - // OTelComponentTypeKey is the attribute Key conforming to the - // "otel.component.type" semantic conventions. It represents a name identifying - // the type of the OpenTelemetry component. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "batching_span_processor", "com.example.MySpanExporter" - // Note: If none of the standardized values apply, implementations SHOULD use - // the language-defined name of the type. - // E.g. for Java the fully qualified classname SHOULD be used in this case. - OTelComponentTypeKey = attribute.Key("otel.component.type") - - // OTelEventNameKey is the attribute Key conforming to the "otel.event.name" - // semantic conventions. It represents the identifies the class / type of event. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "browser.mouse.click", "device.app.lifecycle" - // Note: This attribute SHOULD be used by non-OTLP exporters when destination - // does not support `EventName` or equivalent field. This attribute MAY be used - // by applications using existing logging libraries so that it can be used to - // set the `EventName` field by Collector or SDK components. - OTelEventNameKey = attribute.Key("otel.event.name") - - // OTelScopeNameKey is the attribute Key conforming to the "otel.scope.name" - // semantic conventions. It represents the name of the instrumentation scope - ( - // `InstrumentationScope.Name` in OTLP). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "io.opentelemetry.contrib.mongodb" - OTelScopeNameKey = attribute.Key("otel.scope.name") - - // OTelScopeSchemaURLKey is the attribute Key conforming to the - // "otel.scope.schema_url" semantic conventions. It represents the schema URL of - // the instrumentation scope. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "https://opentelemetry.io/schemas/1.31.0" - OTelScopeSchemaURLKey = attribute.Key("otel.scope.schema_url") - - // OTelScopeVersionKey is the attribute Key conforming to the - // "otel.scope.version" semantic conventions. It represents the version of the - // instrumentation scope - (`InstrumentationScope.Version` in OTLP). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "1.0.0" - OTelScopeVersionKey = attribute.Key("otel.scope.version") - - // OTelSpanParentOriginKey is the attribute Key conforming to the - // "otel.span.parent.origin" semantic conventions. It represents the determines - // whether the span has a parent span, and if so, - // [whether it is a remote parent]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [whether it is a remote parent]: https://opentelemetry.io/docs/specs/otel/trace/api/#isremote - OTelSpanParentOriginKey = attribute.Key("otel.span.parent.origin") - - // OTelSpanSamplingResultKey is the attribute Key conforming to the - // "otel.span.sampling_result" semantic conventions. It represents the result - // value of the sampler for this span. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - OTelSpanSamplingResultKey = attribute.Key("otel.span.sampling_result") - - // OTelStatusCodeKey is the attribute Key conforming to the "otel.status_code" - // semantic conventions. It represents the name of the code, either "OK" or - // "ERROR". MUST NOT be set if the status code is UNSET. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: - OTelStatusCodeKey = attribute.Key("otel.status_code") - - // OTelStatusDescriptionKey is the attribute Key conforming to the - // "otel.status_description" semantic conventions. It represents the description - // of the Status if it has a value, otherwise not set. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "resource not found" - OTelStatusDescriptionKey = attribute.Key("otel.status_description") -) - -// OTelComponentName returns an attribute KeyValue conforming to the -// "otel.component.name" semantic conventions. It represents a name uniquely -// identifying the instance of the OpenTelemetry component within its containing -// SDK instance. -func OTelComponentName(val string) attribute.KeyValue { - return OTelComponentNameKey.String(val) -} - -// OTelEventName returns an attribute KeyValue conforming to the -// "otel.event.name" semantic conventions. It represents the identifies the class -// / type of event. -func OTelEventName(val string) attribute.KeyValue { - return OTelEventNameKey.String(val) -} - -// OTelScopeName returns an attribute KeyValue conforming to the -// "otel.scope.name" semantic conventions. It represents the name of the -// instrumentation scope - (`InstrumentationScope.Name` in OTLP). -func OTelScopeName(val string) attribute.KeyValue { - return OTelScopeNameKey.String(val) -} - -// OTelScopeSchemaURL returns an attribute KeyValue conforming to the -// "otel.scope.schema_url" semantic conventions. It represents the schema URL of -// the instrumentation scope. -func OTelScopeSchemaURL(val string) attribute.KeyValue { - return OTelScopeSchemaURLKey.String(val) -} - -// OTelScopeVersion returns an attribute KeyValue conforming to the -// "otel.scope.version" semantic conventions. It represents the version of the -// instrumentation scope - (`InstrumentationScope.Version` in OTLP). -func OTelScopeVersion(val string) attribute.KeyValue { - return OTelScopeVersionKey.String(val) -} - -// OTelStatusDescription returns an attribute KeyValue conforming to the -// "otel.status_description" semantic conventions. It represents the description -// of the Status if it has a value, otherwise not set. -func OTelStatusDescription(val string) attribute.KeyValue { - return OTelStatusDescriptionKey.String(val) -} - -// Enum values for otel.component.type -var ( - // The builtin SDK batching span processor - // - // Stability: development - OTelComponentTypeBatchingSpanProcessor = OTelComponentTypeKey.String("batching_span_processor") - // The builtin SDK simple span processor - // - // Stability: development - OTelComponentTypeSimpleSpanProcessor = OTelComponentTypeKey.String("simple_span_processor") - // The builtin SDK batching log record processor - // - // Stability: development - OTelComponentTypeBatchingLogProcessor = OTelComponentTypeKey.String("batching_log_processor") - // The builtin SDK simple log record processor - // - // Stability: development - OTelComponentTypeSimpleLogProcessor = OTelComponentTypeKey.String("simple_log_processor") - // OTLP span exporter over gRPC with protobuf serialization - // - // Stability: development - OTelComponentTypeOtlpGRPCSpanExporter = OTelComponentTypeKey.String("otlp_grpc_span_exporter") - // OTLP span exporter over HTTP with protobuf serialization - // - // Stability: development - OTelComponentTypeOtlpHTTPSpanExporter = OTelComponentTypeKey.String("otlp_http_span_exporter") - // OTLP span exporter over HTTP with JSON serialization - // - // Stability: development - OTelComponentTypeOtlpHTTPJSONSpanExporter = OTelComponentTypeKey.String("otlp_http_json_span_exporter") - // Zipkin span exporter over HTTP - // - // Stability: development - OTelComponentTypeZipkinHTTPSpanExporter = OTelComponentTypeKey.String("zipkin_http_span_exporter") - // OTLP log record exporter over gRPC with protobuf serialization - // - // Stability: development - OTelComponentTypeOtlpGRPCLogExporter = OTelComponentTypeKey.String("otlp_grpc_log_exporter") - // OTLP log record exporter over HTTP with protobuf serialization - // - // Stability: development - OTelComponentTypeOtlpHTTPLogExporter = OTelComponentTypeKey.String("otlp_http_log_exporter") - // OTLP log record exporter over HTTP with JSON serialization - // - // Stability: development - OTelComponentTypeOtlpHTTPJSONLogExporter = OTelComponentTypeKey.String("otlp_http_json_log_exporter") - // The builtin SDK periodically exporting metric reader - // - // Stability: development - OTelComponentTypePeriodicMetricReader = OTelComponentTypeKey.String("periodic_metric_reader") - // OTLP metric exporter over gRPC with protobuf serialization - // - // Stability: development - OTelComponentTypeOtlpGRPCMetricExporter = OTelComponentTypeKey.String("otlp_grpc_metric_exporter") - // OTLP metric exporter over HTTP with protobuf serialization - // - // Stability: development - OTelComponentTypeOtlpHTTPMetricExporter = OTelComponentTypeKey.String("otlp_http_metric_exporter") - // OTLP metric exporter over HTTP with JSON serialization - // - // Stability: development - OTelComponentTypeOtlpHTTPJSONMetricExporter = OTelComponentTypeKey.String("otlp_http_json_metric_exporter") - // Prometheus metric exporter over HTTP with the default text-based format - // - // Stability: development - OTelComponentTypePrometheusHTTPTextMetricExporter = OTelComponentTypeKey.String("prometheus_http_text_metric_exporter") -) - -// Enum values for otel.span.parent.origin -var ( - // The span does not have a parent, it is a root span - // Stability: development - OTelSpanParentOriginNone = OTelSpanParentOriginKey.String("none") - // The span has a parent and the parent's span context [isRemote()] is false - // Stability: development - // - // [isRemote()]: https://opentelemetry.io/docs/specs/otel/trace/api/#isremote - OTelSpanParentOriginLocal = OTelSpanParentOriginKey.String("local") - // The span has a parent and the parent's span context [isRemote()] is true - // Stability: development - // - // [isRemote()]: https://opentelemetry.io/docs/specs/otel/trace/api/#isremote - OTelSpanParentOriginRemote = OTelSpanParentOriginKey.String("remote") -) - -// Enum values for otel.span.sampling_result -var ( - // The span is not sampled and not recording - // Stability: development - OTelSpanSamplingResultDrop = OTelSpanSamplingResultKey.String("DROP") - // The span is not sampled, but recording - // Stability: development - OTelSpanSamplingResultRecordOnly = OTelSpanSamplingResultKey.String("RECORD_ONLY") - // The span is sampled and recording - // Stability: development - OTelSpanSamplingResultRecordAndSample = OTelSpanSamplingResultKey.String("RECORD_AND_SAMPLE") -) - -// Enum values for otel.status_code -var ( - // The operation has been validated by an Application developer or Operator to - // have completed successfully. - // Stability: stable - OTelStatusCodeOk = OTelStatusCodeKey.String("OK") - // The operation contains an error. - // Stability: stable - OTelStatusCodeError = OTelStatusCodeKey.String("ERROR") -) - -// Namespace: pprof -const ( - // PprofLocationIsFoldedKey is the attribute Key conforming to the - // "pprof.location.is_folded" semantic conventions. It represents the provides - // an indication that multiple symbols map to this location's address, for - // example due to identical code folding by the linker. In that case the line - // information represents one of the multiple symbols. This field must be - // recomputed when the symbolization state of the profile changes. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - PprofLocationIsFoldedKey = attribute.Key("pprof.location.is_folded") - - // PprofMappingHasFilenamesKey is the attribute Key conforming to the - // "pprof.mapping.has_filenames" semantic conventions. It represents the - // indicates that there are filenames related to this mapping. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - PprofMappingHasFilenamesKey = attribute.Key("pprof.mapping.has_filenames") - - // PprofMappingHasFunctionsKey is the attribute Key conforming to the - // "pprof.mapping.has_functions" semantic conventions. It represents the - // indicates that there are functions related to this mapping. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - PprofMappingHasFunctionsKey = attribute.Key("pprof.mapping.has_functions") - - // PprofMappingHasInlineFramesKey is the attribute Key conforming to the - // "pprof.mapping.has_inline_frames" semantic conventions. It represents the - // indicates that there are inline frames related to this mapping. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - PprofMappingHasInlineFramesKey = attribute.Key("pprof.mapping.has_inline_frames") - - // PprofMappingHasLineNumbersKey is the attribute Key conforming to the - // "pprof.mapping.has_line_numbers" semantic conventions. It represents the - // indicates that there are line numbers related to this mapping. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - PprofMappingHasLineNumbersKey = attribute.Key("pprof.mapping.has_line_numbers") - - // PprofProfileCommentKey is the attribute Key conforming to the - // "pprof.profile.comment" semantic conventions. It represents the free-form - // text associated with the profile. This field should not be used to store any - // machine-readable information, it is only for human-friendly content. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "hello world", "bazinga" - PprofProfileCommentKey = attribute.Key("pprof.profile.comment") - - // PprofProfileDocURLKey is the attribute Key conforming to the - // "pprof.profile.doc_url" semantic conventions. It represents the documentation - // link for this profile type. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "http://pprof.example.com/cpu-profile.html" - // Note: The URL must be absolute and may be missing if the profile was - // generated by code that did not supply a link - PprofProfileDocURLKey = attribute.Key("pprof.profile.doc_url") - - // PprofProfileDropFramesKey is the attribute Key conforming to the - // "pprof.profile.drop_frames" semantic conventions. It represents the frames - // with Function.function_name fully matching the regexp will be dropped from - // the samples, along with their successors. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/foobar/" - PprofProfileDropFramesKey = attribute.Key("pprof.profile.drop_frames") - - // PprofProfileKeepFramesKey is the attribute Key conforming to the - // "pprof.profile.keep_frames" semantic conventions. It represents the frames - // with Function.function_name fully matching the regexp will be kept, even if - // it matches drop_frames. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/bazinga/" - PprofProfileKeepFramesKey = attribute.Key("pprof.profile.keep_frames") -) - -// PprofLocationIsFolded returns an attribute KeyValue conforming to the -// "pprof.location.is_folded" semantic conventions. It represents the provides an -// indication that multiple symbols map to this location's address, for example -// due to identical code folding by the linker. In that case the line information -// represents one of the multiple symbols. This field must be recomputed when the -// symbolization state of the profile changes. -func PprofLocationIsFolded(val bool) attribute.KeyValue { - return PprofLocationIsFoldedKey.Bool(val) -} - -// PprofMappingHasFilenames returns an attribute KeyValue conforming to the -// "pprof.mapping.has_filenames" semantic conventions. It represents the -// indicates that there are filenames related to this mapping. -func PprofMappingHasFilenames(val bool) attribute.KeyValue { - return PprofMappingHasFilenamesKey.Bool(val) -} - -// PprofMappingHasFunctions returns an attribute KeyValue conforming to the -// "pprof.mapping.has_functions" semantic conventions. It represents the -// indicates that there are functions related to this mapping. -func PprofMappingHasFunctions(val bool) attribute.KeyValue { - return PprofMappingHasFunctionsKey.Bool(val) -} - -// PprofMappingHasInlineFrames returns an attribute KeyValue conforming to the -// "pprof.mapping.has_inline_frames" semantic conventions. It represents the -// indicates that there are inline frames related to this mapping. -func PprofMappingHasInlineFrames(val bool) attribute.KeyValue { - return PprofMappingHasInlineFramesKey.Bool(val) -} - -// PprofMappingHasLineNumbers returns an attribute KeyValue conforming to the -// "pprof.mapping.has_line_numbers" semantic conventions. It represents the -// indicates that there are line numbers related to this mapping. -func PprofMappingHasLineNumbers(val bool) attribute.KeyValue { - return PprofMappingHasLineNumbersKey.Bool(val) -} - -// PprofProfileComment returns an attribute KeyValue conforming to the -// "pprof.profile.comment" semantic conventions. It represents the free-form text -// associated with the profile. This field should not be used to store any -// machine-readable information, it is only for human-friendly content. -func PprofProfileComment(val ...string) attribute.KeyValue { - return PprofProfileCommentKey.StringSlice(val) -} - -// PprofProfileDocURL returns an attribute KeyValue conforming to the -// "pprof.profile.doc_url" semantic conventions. It represents the documentation -// link for this profile type. -func PprofProfileDocURL(val string) attribute.KeyValue { - return PprofProfileDocURLKey.String(val) -} - -// PprofProfileDropFrames returns an attribute KeyValue conforming to the -// "pprof.profile.drop_frames" semantic conventions. It represents the frames -// with Function.function_name fully matching the regexp will be dropped from the -// samples, along with their successors. -func PprofProfileDropFrames(val string) attribute.KeyValue { - return PprofProfileDropFramesKey.String(val) -} - -// PprofProfileKeepFrames returns an attribute KeyValue conforming to the -// "pprof.profile.keep_frames" semantic conventions. It represents the frames -// with Function.function_name fully matching the regexp will be kept, even if it -// matches drop_frames. -func PprofProfileKeepFrames(val string) attribute.KeyValue { - return PprofProfileKeepFramesKey.String(val) -} - -// Namespace: process -const ( - // ProcessArgsCountKey is the attribute Key conforming to the - // "process.args_count" semantic conventions. It represents the length of the - // process.command_args array. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 4 - // Note: This field can be useful for querying or performing bucket analysis on - // how many arguments were provided to start a process. More arguments may be an - // indication of suspicious activity. - ProcessArgsCountKey = attribute.Key("process.args_count") - - // ProcessCommandKey is the attribute Key conforming to the "process.command" - // semantic conventions. It represents the command used to launch the process - // (i.e. the command name). On Linux based systems, can be set to the zeroth - // string in `proc/[pid]/cmdline`. On Windows, can be set to the first parameter - // extracted from `GetCommandLineW`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "cmd/otelcol" - ProcessCommandKey = attribute.Key("process.command") - - // ProcessCommandArgsKey is the attribute Key conforming to the - // "process.command_args" semantic conventions. It represents the all the - // command arguments (including the command/executable itself) as received by - // the process. On Linux-based systems (and some other Unixoid systems - // supporting procfs), can be set according to the list of null-delimited - // strings extracted from `proc/[pid]/cmdline`. For libc-based executables, this - // would be the full argv vector passed to `main`. SHOULD NOT be collected by - // default unless there is sanitization that excludes sensitive data. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "cmd/otecol", "--config=config.yaml" - ProcessCommandArgsKey = attribute.Key("process.command_args") - - // ProcessCommandLineKey is the attribute Key conforming to the - // "process.command_line" semantic conventions. It represents the full command - // used to launch the process as a single string representing the full command. - // On Windows, can be set to the result of `GetCommandLineW`. Do not set this if - // you have to assemble it just for monitoring; use `process.command_args` - // instead. SHOULD NOT be collected by default unless there is sanitization that - // excludes sensitive data. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "C:\cmd\otecol --config="my directory\config.yaml"" - ProcessCommandLineKey = attribute.Key("process.command_line") - - // ProcessContextSwitchTypeKey is the attribute Key conforming to the - // "process.context_switch.type" semantic conventions. It represents the - // specifies whether the context switches for this data point were voluntary or - // involuntary. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - ProcessContextSwitchTypeKey = attribute.Key("process.context_switch.type") - - // ProcessCreationTimeKey is the attribute Key conforming to the - // "process.creation.time" semantic conventions. It represents the date and time - // the process was created, in ISO 8601 format. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2023-11-21T09:25:34.853Z" - ProcessCreationTimeKey = attribute.Key("process.creation.time") - - // ProcessExecutableBuildIDGNUKey is the attribute Key conforming to the - // "process.executable.build_id.gnu" semantic conventions. It represents the GNU - // build ID as found in the `.note.gnu.build-id` ELF section (hex string). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "c89b11207f6479603b0d49bf291c092c2b719293" - ProcessExecutableBuildIDGNUKey = attribute.Key("process.executable.build_id.gnu") - - // ProcessExecutableBuildIDGoKey is the attribute Key conforming to the - // "process.executable.build_id.go" semantic conventions. It represents the Go - // build ID as retrieved by `go tool buildid `. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "foh3mEXu7BLZjsN9pOwG/kATcXlYVCDEFouRMQed_/WwRFB1hPo9LBkekthSPG/x8hMC8emW2cCjXD0_1aY" - ProcessExecutableBuildIDGoKey = attribute.Key("process.executable.build_id.go") - - // ProcessExecutableBuildIDHtlhashKey is the attribute Key conforming to the - // "process.executable.build_id.htlhash" semantic conventions. It represents the - // profiling specific build ID for executables. See the OTel specification for - // Profiles for more information. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "600DCAFE4A110000F2BF38C493F5FB92" - ProcessExecutableBuildIDHtlhashKey = attribute.Key("process.executable.build_id.htlhash") - - // ProcessExecutableNameKey is the attribute Key conforming to the - // "process.executable.name" semantic conventions. It represents the name of the - // process executable. On Linux based systems, this SHOULD be set to the base - // name of the target of `/proc/[pid]/exe`. On Windows, this SHOULD be set to - // the base name of `GetProcessImageFileNameW`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "otelcol" - ProcessExecutableNameKey = attribute.Key("process.executable.name") - - // ProcessExecutablePathKey is the attribute Key conforming to the - // "process.executable.path" semantic conventions. It represents the full path - // to the process executable. On Linux based systems, can be set to the target - // of `proc/[pid]/exe`. On Windows, can be set to the result of - // `GetProcessImageFileNameW`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/usr/bin/cmd/otelcol" - ProcessExecutablePathKey = attribute.Key("process.executable.path") - - // ProcessExitCodeKey is the attribute Key conforming to the "process.exit.code" - // semantic conventions. It represents the exit code of the process. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 127 - ProcessExitCodeKey = attribute.Key("process.exit.code") - - // ProcessExitTimeKey is the attribute Key conforming to the "process.exit.time" - // semantic conventions. It represents the date and time the process exited, in - // ISO 8601 format. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2023-11-21T09:26:12.315Z" - ProcessExitTimeKey = attribute.Key("process.exit.time") - - // ProcessGroupLeaderPIDKey is the attribute Key conforming to the - // "process.group_leader.pid" semantic conventions. It represents the PID of the - // process's group leader. This is also the process group ID (PGID) of the - // process. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 23 - ProcessGroupLeaderPIDKey = attribute.Key("process.group_leader.pid") - - // ProcessInteractiveKey is the attribute Key conforming to the - // "process.interactive" semantic conventions. It represents the whether the - // process is connected to an interactive shell. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - ProcessInteractiveKey = attribute.Key("process.interactive") - - // ProcessLinuxCgroupKey is the attribute Key conforming to the - // "process.linux.cgroup" semantic conventions. It represents the control group - // associated with the process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1:name=systemd:/user.slice/user-1000.slice/session-3.scope", - // "0::/user.slice/user-1000.slice/user@1000.service/tmux-spawn-0267755b-4639-4a27-90ed-f19f88e53748.scope" - // Note: Control groups (cgroups) are a kernel feature used to organize and - // manage process resources. This attribute provides the path(s) to the - // cgroup(s) associated with the process, which should match the contents of the - // [/proc/[PID]/cgroup] file. - // - // [/proc/[PID]/cgroup]: https://man7.org/linux/man-pages/man7/cgroups.7.html - ProcessLinuxCgroupKey = attribute.Key("process.linux.cgroup") - - // ProcessOwnerKey is the attribute Key conforming to the "process.owner" - // semantic conventions. It represents the username of the user that owns the - // process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "root" - ProcessOwnerKey = attribute.Key("process.owner") - - // ProcessParentPIDKey is the attribute Key conforming to the - // "process.parent_pid" semantic conventions. It represents the parent Process - // identifier (PPID). - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 111 - ProcessParentPIDKey = attribute.Key("process.parent_pid") - - // ProcessPIDKey is the attribute Key conforming to the "process.pid" semantic - // conventions. It represents the process identifier (PID). - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1234 - ProcessPIDKey = attribute.Key("process.pid") - - // ProcessRealUserIDKey is the attribute Key conforming to the - // "process.real_user.id" semantic conventions. It represents the real user ID - // (RUID) of the process. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1000 - ProcessRealUserIDKey = attribute.Key("process.real_user.id") - - // ProcessRealUserNameKey is the attribute Key conforming to the - // "process.real_user.name" semantic conventions. It represents the username of - // the real user of the process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "operator" - ProcessRealUserNameKey = attribute.Key("process.real_user.name") - - // ProcessRuntimeDescriptionKey is the attribute Key conforming to the - // "process.runtime.description" semantic conventions. It represents an - // additional description about the runtime of the process, for example a - // specific vendor customization of the runtime environment. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: Eclipse OpenJ9 Eclipse OpenJ9 VM openj9-0.21.0 - ProcessRuntimeDescriptionKey = attribute.Key("process.runtime.description") - - // ProcessRuntimeNameKey is the attribute Key conforming to the - // "process.runtime.name" semantic conventions. It represents the name of the - // runtime of this process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "OpenJDK Runtime Environment" - ProcessRuntimeNameKey = attribute.Key("process.runtime.name") - - // ProcessRuntimeVersionKey is the attribute Key conforming to the - // "process.runtime.version" semantic conventions. It represents the version of - // the runtime of this process, as returned by the runtime without modification. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 14.0.2 - ProcessRuntimeVersionKey = attribute.Key("process.runtime.version") - - // ProcessSavedUserIDKey is the attribute Key conforming to the - // "process.saved_user.id" semantic conventions. It represents the saved user ID - // (SUID) of the process. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1002 - ProcessSavedUserIDKey = attribute.Key("process.saved_user.id") - - // ProcessSavedUserNameKey is the attribute Key conforming to the - // "process.saved_user.name" semantic conventions. It represents the username of - // the saved user. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "operator" - ProcessSavedUserNameKey = attribute.Key("process.saved_user.name") - - // ProcessSessionLeaderPIDKey is the attribute Key conforming to the - // "process.session_leader.pid" semantic conventions. It represents the PID of - // the process's session leader. This is also the session ID (SID) of the - // process. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 14 - ProcessSessionLeaderPIDKey = attribute.Key("process.session_leader.pid") - - // ProcessStateKey is the attribute Key conforming to the "process.state" - // semantic conventions. It represents the process state, e.g., - // [Linux Process State Codes]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "running" - // - // [Linux Process State Codes]: https://man7.org/linux/man-pages/man1/ps.1.html#PROCESS_STATE_CODES - ProcessStateKey = attribute.Key("process.state") - - // ProcessTitleKey is the attribute Key conforming to the "process.title" - // semantic conventions. It represents the process title (proctitle). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "cat /etc/hostname", "xfce4-session", "bash" - // Note: In many Unix-like systems, process title (proctitle), is the string - // that represents the name or command line of a running process, displayed by - // system monitoring tools like ps, top, and htop. - ProcessTitleKey = attribute.Key("process.title") - - // ProcessUserIDKey is the attribute Key conforming to the "process.user.id" - // semantic conventions. It represents the effective user ID (EUID) of the - // process. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1001 - ProcessUserIDKey = attribute.Key("process.user.id") - - // ProcessUserNameKey is the attribute Key conforming to the "process.user.name" - // semantic conventions. It represents the username of the effective user of the - // process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "root" - ProcessUserNameKey = attribute.Key("process.user.name") - - // ProcessVpidKey is the attribute Key conforming to the "process.vpid" semantic - // conventions. It represents the virtual process identifier. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 12 - // Note: The process ID within a PID namespace. This is not necessarily unique - // across all processes on the host but it is unique within the process - // namespace that the process exists within. - ProcessVpidKey = attribute.Key("process.vpid") - - // ProcessWorkingDirectoryKey is the attribute Key conforming to the - // "process.working_directory" semantic conventions. It represents the working - // directory of the process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/root" - ProcessWorkingDirectoryKey = attribute.Key("process.working_directory") -) - -// ProcessArgsCount returns an attribute KeyValue conforming to the -// "process.args_count" semantic conventions. It represents the length of the -// process.command_args array. -func ProcessArgsCount(val int) attribute.KeyValue { - return ProcessArgsCountKey.Int(val) -} - -// ProcessCommand returns an attribute KeyValue conforming to the -// "process.command" semantic conventions. It represents the command used to -// launch the process (i.e. the command name). On Linux based systems, can be set -// to the zeroth string in `proc/[pid]/cmdline`. On Windows, can be set to the -// first parameter extracted from `GetCommandLineW`. -func ProcessCommand(val string) attribute.KeyValue { - return ProcessCommandKey.String(val) -} - -// ProcessCommandArgs returns an attribute KeyValue conforming to the -// "process.command_args" semantic conventions. It represents the all the command -// arguments (including the command/executable itself) as received by the -// process. On Linux-based systems (and some other Unixoid systems supporting -// procfs), can be set according to the list of null-delimited strings extracted -// from `proc/[pid]/cmdline`. For libc-based executables, this would be the full -// argv vector passed to `main`. SHOULD NOT be collected by default unless there -// is sanitization that excludes sensitive data. -func ProcessCommandArgs(val ...string) attribute.KeyValue { - return ProcessCommandArgsKey.StringSlice(val) -} - -// ProcessCommandLine returns an attribute KeyValue conforming to the -// "process.command_line" semantic conventions. It represents the full command -// used to launch the process as a single string representing the full command. -// On Windows, can be set to the result of `GetCommandLineW`. Do not set this if -// you have to assemble it just for monitoring; use `process.command_args` -// instead. SHOULD NOT be collected by default unless there is sanitization that -// excludes sensitive data. -func ProcessCommandLine(val string) attribute.KeyValue { - return ProcessCommandLineKey.String(val) -} - -// ProcessCreationTime returns an attribute KeyValue conforming to the -// "process.creation.time" semantic conventions. It represents the date and time -// the process was created, in ISO 8601 format. -func ProcessCreationTime(val string) attribute.KeyValue { - return ProcessCreationTimeKey.String(val) -} - -// ProcessEnvironmentVariable returns an attribute KeyValue conforming to the -// "process.environment_variable" semantic conventions. It represents the process -// environment variables, `` being the environment variable name, the value -// being the environment variable value. -func ProcessEnvironmentVariable(key string, val string) attribute.KeyValue { - return attribute.String("process.environment_variable."+key, val) -} - -// ProcessExecutableBuildIDGNU returns an attribute KeyValue conforming to the -// "process.executable.build_id.gnu" semantic conventions. It represents the GNU -// build ID as found in the `.note.gnu.build-id` ELF section (hex string). -func ProcessExecutableBuildIDGNU(val string) attribute.KeyValue { - return ProcessExecutableBuildIDGNUKey.String(val) -} - -// ProcessExecutableBuildIDGo returns an attribute KeyValue conforming to the -// "process.executable.build_id.go" semantic conventions. It represents the Go -// build ID as retrieved by `go tool buildid `. -func ProcessExecutableBuildIDGo(val string) attribute.KeyValue { - return ProcessExecutableBuildIDGoKey.String(val) -} - -// ProcessExecutableBuildIDHtlhash returns an attribute KeyValue conforming to -// the "process.executable.build_id.htlhash" semantic conventions. It represents -// the profiling specific build ID for executables. See the OTel specification -// for Profiles for more information. -func ProcessExecutableBuildIDHtlhash(val string) attribute.KeyValue { - return ProcessExecutableBuildIDHtlhashKey.String(val) -} - -// ProcessExecutableName returns an attribute KeyValue conforming to the -// "process.executable.name" semantic conventions. It represents the name of the -// process executable. On Linux based systems, this SHOULD be set to the base -// name of the target of `/proc/[pid]/exe`. On Windows, this SHOULD be set to the -// base name of `GetProcessImageFileNameW`. -func ProcessExecutableName(val string) attribute.KeyValue { - return ProcessExecutableNameKey.String(val) -} - -// ProcessExecutablePath returns an attribute KeyValue conforming to the -// "process.executable.path" semantic conventions. It represents the full path to -// the process executable. On Linux based systems, can be set to the target of -// `proc/[pid]/exe`. On Windows, can be set to the result of -// `GetProcessImageFileNameW`. -func ProcessExecutablePath(val string) attribute.KeyValue { - return ProcessExecutablePathKey.String(val) -} - -// ProcessExitCode returns an attribute KeyValue conforming to the -// "process.exit.code" semantic conventions. It represents the exit code of the -// process. -func ProcessExitCode(val int) attribute.KeyValue { - return ProcessExitCodeKey.Int(val) -} - -// ProcessExitTime returns an attribute KeyValue conforming to the -// "process.exit.time" semantic conventions. It represents the date and time the -// process exited, in ISO 8601 format. -func ProcessExitTime(val string) attribute.KeyValue { - return ProcessExitTimeKey.String(val) -} - -// ProcessGroupLeaderPID returns an attribute KeyValue conforming to the -// "process.group_leader.pid" semantic conventions. It represents the PID of the -// process's group leader. This is also the process group ID (PGID) of the -// process. -func ProcessGroupLeaderPID(val int) attribute.KeyValue { - return ProcessGroupLeaderPIDKey.Int(val) -} - -// ProcessInteractive returns an attribute KeyValue conforming to the -// "process.interactive" semantic conventions. It represents the whether the -// process is connected to an interactive shell. -func ProcessInteractive(val bool) attribute.KeyValue { - return ProcessInteractiveKey.Bool(val) -} - -// ProcessLinuxCgroup returns an attribute KeyValue conforming to the -// "process.linux.cgroup" semantic conventions. It represents the control group -// associated with the process. -func ProcessLinuxCgroup(val string) attribute.KeyValue { - return ProcessLinuxCgroupKey.String(val) -} - -// ProcessOwner returns an attribute KeyValue conforming to the "process.owner" -// semantic conventions. It represents the username of the user that owns the -// process. -func ProcessOwner(val string) attribute.KeyValue { - return ProcessOwnerKey.String(val) -} - -// ProcessParentPID returns an attribute KeyValue conforming to the -// "process.parent_pid" semantic conventions. It represents the parent Process -// identifier (PPID). -func ProcessParentPID(val int) attribute.KeyValue { - return ProcessParentPIDKey.Int(val) -} - -// ProcessPID returns an attribute KeyValue conforming to the "process.pid" -// semantic conventions. It represents the process identifier (PID). -func ProcessPID(val int) attribute.KeyValue { - return ProcessPIDKey.Int(val) -} - -// ProcessRealUserID returns an attribute KeyValue conforming to the -// "process.real_user.id" semantic conventions. It represents the real user ID -// (RUID) of the process. -func ProcessRealUserID(val int) attribute.KeyValue { - return ProcessRealUserIDKey.Int(val) -} - -// ProcessRealUserName returns an attribute KeyValue conforming to the -// "process.real_user.name" semantic conventions. It represents the username of -// the real user of the process. -func ProcessRealUserName(val string) attribute.KeyValue { - return ProcessRealUserNameKey.String(val) -} - -// ProcessRuntimeDescription returns an attribute KeyValue conforming to the -// "process.runtime.description" semantic conventions. It represents an -// additional description about the runtime of the process, for example a -// specific vendor customization of the runtime environment. -func ProcessRuntimeDescription(val string) attribute.KeyValue { - return ProcessRuntimeDescriptionKey.String(val) -} - -// ProcessRuntimeName returns an attribute KeyValue conforming to the -// "process.runtime.name" semantic conventions. It represents the name of the -// runtime of this process. -func ProcessRuntimeName(val string) attribute.KeyValue { - return ProcessRuntimeNameKey.String(val) -} - -// ProcessRuntimeVersion returns an attribute KeyValue conforming to the -// "process.runtime.version" semantic conventions. It represents the version of -// the runtime of this process, as returned by the runtime without modification. -func ProcessRuntimeVersion(val string) attribute.KeyValue { - return ProcessRuntimeVersionKey.String(val) -} - -// ProcessSavedUserID returns an attribute KeyValue conforming to the -// "process.saved_user.id" semantic conventions. It represents the saved user ID -// (SUID) of the process. -func ProcessSavedUserID(val int) attribute.KeyValue { - return ProcessSavedUserIDKey.Int(val) -} - -// ProcessSavedUserName returns an attribute KeyValue conforming to the -// "process.saved_user.name" semantic conventions. It represents the username of -// the saved user. -func ProcessSavedUserName(val string) attribute.KeyValue { - return ProcessSavedUserNameKey.String(val) -} - -// ProcessSessionLeaderPID returns an attribute KeyValue conforming to the -// "process.session_leader.pid" semantic conventions. It represents the PID of -// the process's session leader. This is also the session ID (SID) of the -// process. -func ProcessSessionLeaderPID(val int) attribute.KeyValue { - return ProcessSessionLeaderPIDKey.Int(val) -} - -// ProcessTitle returns an attribute KeyValue conforming to the "process.title" -// semantic conventions. It represents the process title (proctitle). -func ProcessTitle(val string) attribute.KeyValue { - return ProcessTitleKey.String(val) -} - -// ProcessUserID returns an attribute KeyValue conforming to the -// "process.user.id" semantic conventions. It represents the effective user ID -// (EUID) of the process. -func ProcessUserID(val int) attribute.KeyValue { - return ProcessUserIDKey.Int(val) -} - -// ProcessUserName returns an attribute KeyValue conforming to the -// "process.user.name" semantic conventions. It represents the username of the -// effective user of the process. -func ProcessUserName(val string) attribute.KeyValue { - return ProcessUserNameKey.String(val) -} - -// ProcessVpid returns an attribute KeyValue conforming to the "process.vpid" -// semantic conventions. It represents the virtual process identifier. -func ProcessVpid(val int) attribute.KeyValue { - return ProcessVpidKey.Int(val) -} - -// ProcessWorkingDirectory returns an attribute KeyValue conforming to the -// "process.working_directory" semantic conventions. It represents the working -// directory of the process. -func ProcessWorkingDirectory(val string) attribute.KeyValue { - return ProcessWorkingDirectoryKey.String(val) -} - -// Enum values for process.context_switch.type -var ( - // voluntary - // Stability: development - ProcessContextSwitchTypeVoluntary = ProcessContextSwitchTypeKey.String("voluntary") - // involuntary - // Stability: development - ProcessContextSwitchTypeInvoluntary = ProcessContextSwitchTypeKey.String("involuntary") -) - -// Enum values for process.state -var ( - // running - // Stability: development - ProcessStateRunning = ProcessStateKey.String("running") - // sleeping - // Stability: development - ProcessStateSleeping = ProcessStateKey.String("sleeping") - // stopped - // Stability: development - ProcessStateStopped = ProcessStateKey.String("stopped") - // defunct - // Stability: development - ProcessStateDefunct = ProcessStateKey.String("defunct") -) - -// Namespace: profile -const ( - // ProfileFrameTypeKey is the attribute Key conforming to the - // "profile.frame.type" semantic conventions. It represents the describes the - // interpreter or compiler of a single frame. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "cpython" - ProfileFrameTypeKey = attribute.Key("profile.frame.type") -) - -// Enum values for profile.frame.type -var ( - // [.NET] - // - // Stability: development - // - // [.NET]: https://wikipedia.org/wiki/.NET - ProfileFrameTypeDotnet = ProfileFrameTypeKey.String("dotnet") - // [JVM] - // - // Stability: development - // - // [JVM]: https://wikipedia.org/wiki/Java_virtual_machine - ProfileFrameTypeJVM = ProfileFrameTypeKey.String("jvm") - // [Kernel] - // - // Stability: development - // - // [Kernel]: https://wikipedia.org/wiki/Kernel_(operating_system) - ProfileFrameTypeKernel = ProfileFrameTypeKey.String("kernel") - // Can be one of but not limited to [C], [C++], [Go] or [Rust]. If possible, a - // more precise value MUST be used. - // - // Stability: development - // - // [C]: https://wikipedia.org/wiki/C_(programming_language) - // [C++]: https://wikipedia.org/wiki/C%2B%2B - // [Go]: https://wikipedia.org/wiki/Go_(programming_language) - // [Rust]: https://wikipedia.org/wiki/Rust_(programming_language) - ProfileFrameTypeNative = ProfileFrameTypeKey.String("native") - // [Perl] - // - // Stability: development - // - // [Perl]: https://wikipedia.org/wiki/Perl - ProfileFrameTypePerl = ProfileFrameTypeKey.String("perl") - // [PHP] - // - // Stability: development - // - // [PHP]: https://wikipedia.org/wiki/PHP - ProfileFrameTypePHP = ProfileFrameTypeKey.String("php") - // [Python] - // - // Stability: development - // - // [Python]: https://wikipedia.org/wiki/Python_(programming_language) - ProfileFrameTypeCpython = ProfileFrameTypeKey.String("cpython") - // [Ruby] - // - // Stability: development - // - // [Ruby]: https://wikipedia.org/wiki/Ruby_(programming_language) - ProfileFrameTypeRuby = ProfileFrameTypeKey.String("ruby") - // [V8JS] - // - // Stability: development - // - // [V8JS]: https://wikipedia.org/wiki/V8_(JavaScript_engine) - ProfileFrameTypeV8JS = ProfileFrameTypeKey.String("v8js") - // [Erlang] - // - // Stability: development - // - // [Erlang]: https://en.wikipedia.org/wiki/BEAM_(Erlang_virtual_machine) - ProfileFrameTypeBeam = ProfileFrameTypeKey.String("beam") - // [Go], - // - // Stability: development - // - // [Go]: https://wikipedia.org/wiki/Go_(programming_language) - ProfileFrameTypeGo = ProfileFrameTypeKey.String("go") - // [Rust] - // - // Stability: development - // - // [Rust]: https://wikipedia.org/wiki/Rust_(programming_language) - ProfileFrameTypeRust = ProfileFrameTypeKey.String("rust") -) - -// Namespace: rpc -const ( - // RPCMessageCompressedSizeKey is the attribute Key conforming to the - // "rpc.message.compressed_size" semantic conventions. It represents the - // compressed size of the message in bytes. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - RPCMessageCompressedSizeKey = attribute.Key("rpc.message.compressed_size") - - // RPCMessageIDKey is the attribute Key conforming to the "rpc.message.id" - // semantic conventions. It MUST be calculated as two different counters - // starting from `1` one for sent messages and one for received message.. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: This way we guarantee that the values will be consistent between - // different implementations. - RPCMessageIDKey = attribute.Key("rpc.message.id") - - // RPCMessageTypeKey is the attribute Key conforming to the "rpc.message.type" - // semantic conventions. It represents the whether this is a received or sent - // message. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - RPCMessageTypeKey = attribute.Key("rpc.message.type") - - // RPCMessageUncompressedSizeKey is the attribute Key conforming to the - // "rpc.message.uncompressed_size" semantic conventions. It represents the - // uncompressed size of the message in bytes. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - RPCMessageUncompressedSizeKey = attribute.Key("rpc.message.uncompressed_size") - - // RPCMethodKey is the attribute Key conforming to the "rpc.method" semantic - // conventions. It represents the fully-qualified logical name of the method - // from the RPC interface perspective. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "com.example.ExampleService/exampleMethod", "EchoService/Echo", - // "_OTHER" - // Note: The method name MAY have unbounded cardinality in edge or error cases. - // - // Some RPC frameworks or libraries provide a fixed set of recognized methods - // for client stubs and server implementations. Instrumentations for such - // frameworks MUST set this attribute to the original method name only - // when the method is recognized by the framework or library. - // - // When the method is not recognized, for example, when the server receives - // a request for a method that is not predefined on the server, or when - // instrumentation is not able to reliably detect if the method is predefined, - // the attribute MUST be set to `_OTHER`. In such cases, tracing - // instrumentations MUST also set `rpc.method_original` attribute to - // the original method value. - // - // If the RPC instrumentation could end up converting valid RPC methods to - // `_OTHER`, then it SHOULD provide a way to configure the list of recognized - // RPC methods. - // - // The `rpc.method` can be different from the name of any implementing - // method/function. - // The `code.function.name` attribute may be used to record the fully-qualified - // method actually executing the call on the server side, or the - // RPC client stub method on the client side. - RPCMethodKey = attribute.Key("rpc.method") - - // RPCMethodOriginalKey is the attribute Key conforming to the - // "rpc.method_original" semantic conventions. It represents the original name - // of the method used by the client. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "com.myservice.EchoService/catchAll", - // "com.myservice.EchoService/unknownMethod", "InvalidMethod" - RPCMethodOriginalKey = attribute.Key("rpc.method_original") - - // RPCResponseStatusCodeKey is the attribute Key conforming to the - // "rpc.response.status_code" semantic conventions. It represents the status - // code of the RPC returned by the RPC server or generated by the client. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "OK", "DEADLINE_EXCEEDED", "-32602" - // Note: Usually it represents an error code, but may also represent partial - // success, warning, or differentiate between various types of successful - // outcomes. - // Semantic conventions for individual RPC frameworks SHOULD document what - // `rpc.response.status_code` means in the context of that system and which - // values are considered to represent errors. - RPCResponseStatusCodeKey = attribute.Key("rpc.response.status_code") - - // RPCSystemNameKey is the attribute Key conforming to the "rpc.system.name" - // semantic conventions. It represents the Remote Procedure Call (RPC) system. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: The client and server RPC systems may differ for the same RPC - // interaction. For example, a client may use Apache Dubbo or Connect RPC to - // communicate with a server that uses gRPC since both protocols provide - // compatibility with gRPC. - RPCSystemNameKey = attribute.Key("rpc.system.name") -) - -// RPCMessageCompressedSize returns an attribute KeyValue conforming to the -// "rpc.message.compressed_size" semantic conventions. It represents the -// compressed size of the message in bytes. -func RPCMessageCompressedSize(val int) attribute.KeyValue { - return RPCMessageCompressedSizeKey.Int(val) -} - -// RPCMessageID returns an attribute KeyValue conforming to the "rpc.message.id" -// semantic conventions. It MUST be calculated as two different counters starting -// from `1` one for sent messages and one for received message.. -func RPCMessageID(val int) attribute.KeyValue { - return RPCMessageIDKey.Int(val) -} - -// RPCMessageUncompressedSize returns an attribute KeyValue conforming to the -// "rpc.message.uncompressed_size" semantic conventions. It represents the -// uncompressed size of the message in bytes. -func RPCMessageUncompressedSize(val int) attribute.KeyValue { - return RPCMessageUncompressedSizeKey.Int(val) -} - -// RPCMethod returns an attribute KeyValue conforming to the "rpc.method" -// semantic conventions. It represents the fully-qualified logical name of the -// method from the RPC interface perspective. -func RPCMethod(val string) attribute.KeyValue { - return RPCMethodKey.String(val) -} - -// RPCMethodOriginal returns an attribute KeyValue conforming to the -// "rpc.method_original" semantic conventions. It represents the original name of -// the method used by the client. -func RPCMethodOriginal(val string) attribute.KeyValue { - return RPCMethodOriginalKey.String(val) -} - -// RPCRequestMetadata returns an attribute KeyValue conforming to the -// "rpc.request.metadata" semantic conventions. It represents the RPC request -// metadata, `` being the normalized RPC metadata key (lowercase), the value -// being the metadata values. -func RPCRequestMetadata(key string, val ...string) attribute.KeyValue { - return attribute.StringSlice("rpc.request.metadata."+key, val) -} - -// RPCResponseMetadata returns an attribute KeyValue conforming to the -// "rpc.response.metadata" semantic conventions. It represents the RPC response -// metadata, `` being the normalized RPC metadata key (lowercase), the value -// being the metadata values. -func RPCResponseMetadata(key string, val ...string) attribute.KeyValue { - return attribute.StringSlice("rpc.response.metadata."+key, val) -} - -// RPCResponseStatusCode returns an attribute KeyValue conforming to the -// "rpc.response.status_code" semantic conventions. It represents the status code -// of the RPC returned by the RPC server or generated by the client. -func RPCResponseStatusCode(val string) attribute.KeyValue { - return RPCResponseStatusCodeKey.String(val) -} - -// Enum values for rpc.message.type -var ( - // sent - // Stability: development - RPCMessageTypeSent = RPCMessageTypeKey.String("SENT") - // received - // Stability: development - RPCMessageTypeReceived = RPCMessageTypeKey.String("RECEIVED") -) - -// Enum values for rpc.system.name -var ( - // [gRPC] - // Stability: development - // - // [gRPC]: https://grpc.io/ - RPCSystemNameGRPC = RPCSystemNameKey.String("grpc") - // [Apache Dubbo] - // Stability: development - // - // [Apache Dubbo]: https://dubbo.apache.org/ - RPCSystemNameDubbo = RPCSystemNameKey.String("dubbo") - // [Connect RPC] - // Stability: development - // - // [Connect RPC]: https://connectrpc.com/ - RPCSystemNameConnectrpc = RPCSystemNameKey.String("connectrpc") - // [JSON-RPC] - // Stability: development - // - // [JSON-RPC]: https://www.jsonrpc.org/ - RPCSystemNameJSONRPC = RPCSystemNameKey.String("jsonrpc") -) - -// Namespace: security_rule -const ( - // SecurityRuleCategoryKey is the attribute Key conforming to the - // "security_rule.category" semantic conventions. It represents a categorization - // value keyword used by the entity using the rule for detection of this event. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Attempted Information Leak" - SecurityRuleCategoryKey = attribute.Key("security_rule.category") - - // SecurityRuleDescriptionKey is the attribute Key conforming to the - // "security_rule.description" semantic conventions. It represents the - // description of the rule generating the event. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Block requests to public DNS over HTTPS / TLS protocols" - SecurityRuleDescriptionKey = attribute.Key("security_rule.description") - - // SecurityRuleLicenseKey is the attribute Key conforming to the - // "security_rule.license" semantic conventions. It represents the name of the - // license under which the rule used to generate this event is made available. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Apache 2.0" - SecurityRuleLicenseKey = attribute.Key("security_rule.license") - - // SecurityRuleNameKey is the attribute Key conforming to the - // "security_rule.name" semantic conventions. It represents the name of the rule - // or signature generating the event. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "BLOCK_DNS_over_TLS" - SecurityRuleNameKey = attribute.Key("security_rule.name") - - // SecurityRuleReferenceKey is the attribute Key conforming to the - // "security_rule.reference" semantic conventions. It represents the reference - // URL to additional information about the rule used to generate this event. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "https://en.wikipedia.org/wiki/DNS_over_TLS" - // Note: The URL can point to the vendor’s documentation about the rule. If - // that’s not available, it can also be a link to a more general page - // describing this type of alert. - SecurityRuleReferenceKey = attribute.Key("security_rule.reference") - - // SecurityRuleRulesetNameKey is the attribute Key conforming to the - // "security_rule.ruleset.name" semantic conventions. It represents the name of - // the ruleset, policy, group, or parent category in which the rule used to - // generate this event is a member. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Standard_Protocol_Filters" - SecurityRuleRulesetNameKey = attribute.Key("security_rule.ruleset.name") - - // SecurityRuleUUIDKey is the attribute Key conforming to the - // "security_rule.uuid" semantic conventions. It represents a rule ID that is - // unique within the scope of a set or group of agents, observers, or other - // entities using the rule for detection of this event. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "550e8400-e29b-41d4-a716-446655440000", "1100110011" - SecurityRuleUUIDKey = attribute.Key("security_rule.uuid") - - // SecurityRuleVersionKey is the attribute Key conforming to the - // "security_rule.version" semantic conventions. It represents the version / - // revision of the rule being used for analysis. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1.0.0" - SecurityRuleVersionKey = attribute.Key("security_rule.version") -) - -// SecurityRuleCategory returns an attribute KeyValue conforming to the -// "security_rule.category" semantic conventions. It represents a categorization -// value keyword used by the entity using the rule for detection of this event. -func SecurityRuleCategory(val string) attribute.KeyValue { - return SecurityRuleCategoryKey.String(val) -} - -// SecurityRuleDescription returns an attribute KeyValue conforming to the -// "security_rule.description" semantic conventions. It represents the -// description of the rule generating the event. -func SecurityRuleDescription(val string) attribute.KeyValue { - return SecurityRuleDescriptionKey.String(val) -} - -// SecurityRuleLicense returns an attribute KeyValue conforming to the -// "security_rule.license" semantic conventions. It represents the name of the -// license under which the rule used to generate this event is made available. -func SecurityRuleLicense(val string) attribute.KeyValue { - return SecurityRuleLicenseKey.String(val) -} - -// SecurityRuleName returns an attribute KeyValue conforming to the -// "security_rule.name" semantic conventions. It represents the name of the rule -// or signature generating the event. -func SecurityRuleName(val string) attribute.KeyValue { - return SecurityRuleNameKey.String(val) -} - -// SecurityRuleReference returns an attribute KeyValue conforming to the -// "security_rule.reference" semantic conventions. It represents the reference -// URL to additional information about the rule used to generate this event. -func SecurityRuleReference(val string) attribute.KeyValue { - return SecurityRuleReferenceKey.String(val) -} - -// SecurityRuleRulesetName returns an attribute KeyValue conforming to the -// "security_rule.ruleset.name" semantic conventions. It represents the name of -// the ruleset, policy, group, or parent category in which the rule used to -// generate this event is a member. -func SecurityRuleRulesetName(val string) attribute.KeyValue { - return SecurityRuleRulesetNameKey.String(val) -} - -// SecurityRuleUUID returns an attribute KeyValue conforming to the -// "security_rule.uuid" semantic conventions. It represents a rule ID that is -// unique within the scope of a set or group of agents, observers, or other -// entities using the rule for detection of this event. -func SecurityRuleUUID(val string) attribute.KeyValue { - return SecurityRuleUUIDKey.String(val) -} - -// SecurityRuleVersion returns an attribute KeyValue conforming to the -// "security_rule.version" semantic conventions. It represents the version / -// revision of the rule being used for analysis. -func SecurityRuleVersion(val string) attribute.KeyValue { - return SecurityRuleVersionKey.String(val) -} - -// Namespace: server -const ( - // ServerAddressKey is the attribute Key conforming to the "server.address" - // semantic conventions. It represents the server domain name if available - // without reverse DNS lookup; otherwise, IP address or Unix domain socket name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "example.com", "10.1.2.80", "/tmp/my.sock" - // Note: When observed from the client side, and when communicating through an - // intermediary, `server.address` SHOULD represent the server address behind any - // intermediaries, for example proxies, if it's available. - ServerAddressKey = attribute.Key("server.address") - - // ServerPortKey is the attribute Key conforming to the "server.port" semantic - // conventions. It represents the server port number. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: 80, 8080, 443 - // Note: When observed from the client side, and when communicating through an - // intermediary, `server.port` SHOULD represent the server port behind any - // intermediaries, for example proxies, if it's available. - ServerPortKey = attribute.Key("server.port") -) - -// ServerAddress returns an attribute KeyValue conforming to the "server.address" -// semantic conventions. It represents the server domain name if available -// without reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func ServerAddress(val string) attribute.KeyValue { - return ServerAddressKey.String(val) -} - -// ServerPort returns an attribute KeyValue conforming to the "server.port" -// semantic conventions. It represents the server port number. -func ServerPort(val int) attribute.KeyValue { - return ServerPortKey.Int(val) -} - -// Namespace: service -const ( - // ServiceInstanceIDKey is the attribute Key conforming to the - // "service.instance.id" semantic conventions. It represents the string ID of - // the service instance. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "627cc493-f310-47de-96bd-71410b7dec09" - // Note: MUST be unique for each instance of the same - // `service.namespace,service.name` pair (in other words - // `service.namespace,service.name,service.instance.id` triplet MUST be globally - // unique). The ID helps to - // distinguish instances of the same service that exist at the same time (e.g. - // instances of a horizontally scaled - // service). - // - // Implementations, such as SDKs, are recommended to generate a random Version 1 - // or Version 4 [RFC - // 4122] UUID, but are free to use an inherent unique ID as - // the source of - // this value if stability is desirable. In that case, the ID SHOULD be used as - // source of a UUID Version 5 and - // SHOULD use the following UUID as the namespace: - // `4d63009a-8d0f-11ee-aad7-4c796ed8e320`. - // - // UUIDs are typically recommended, as only an opaque value for the purposes of - // identifying a service instance is - // needed. Similar to what can be seen in the man page for the - // [`/etc/machine-id`] file, the underlying - // data, such as pod name and namespace should be treated as confidential, being - // the user's choice to expose it - // or not via another resource attribute. - // - // For applications running behind an application server (like unicorn), we do - // not recommend using one identifier - // for all processes participating in the application. Instead, it's recommended - // each division (e.g. a worker - // thread in unicorn) to have its own instance.id. - // - // It's not recommended for a Collector to set `service.instance.id` if it can't - // unambiguously determine the - // service instance that is generating that telemetry. For instance, creating an - // UUID based on `pod.name` will - // likely be wrong, as the Collector might not know from which container within - // that pod the telemetry originated. - // However, Collectors can set the `service.instance.id` if they can - // unambiguously determine the service instance - // for that telemetry. This is typically the case for scraping receivers, as - // they know the target address and - // port. - // - // [RFC - // 4122]: https://www.ietf.org/rfc/rfc4122.txt - // [`/etc/machine-id`]: https://www.freedesktop.org/software/systemd/man/latest/machine-id.html - ServiceInstanceIDKey = attribute.Key("service.instance.id") - - // ServiceNameKey is the attribute Key conforming to the "service.name" semantic - // conventions. It represents the logical name of the service. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "shoppingcart" - // Note: MUST be the same for all instances of horizontally scaled services. If - // the value was not specified, SDKs MUST fallback to `unknown_service:` - // concatenated with [`process.executable.name`], e.g. `unknown_service:bash`. - // If `process.executable.name` is not available, the value MUST be set to - // `unknown_service`. - // - // [`process.executable.name`]: process.md - ServiceNameKey = attribute.Key("service.name") - - // ServiceNamespaceKey is the attribute Key conforming to the - // "service.namespace" semantic conventions. It represents a namespace for - // `service.name`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Shop" - // Note: A string value having a meaning that helps to distinguish a group of - // services, for example the team name that owns a group of services. - // `service.name` is expected to be unique within the same namespace. If - // `service.namespace` is not specified in the Resource then `service.name` is - // expected to be unique for all services that have no explicit namespace - // defined (so the empty/unspecified namespace is simply one more valid - // namespace). Zero-length namespace string is assumed equal to unspecified - // namespace. - ServiceNamespaceKey = attribute.Key("service.namespace") - - // ServicePeerNameKey is the attribute Key conforming to the "service.peer.name" - // semantic conventions. It represents the logical name of the service on the - // other side of the connection. SHOULD be equal to the actual [`service.name`] - // resource attribute of the remote service if any. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "shoppingcart" - // - // [`service.name`]: /docs/resource/README.md#service - ServicePeerNameKey = attribute.Key("service.peer.name") - - // ServicePeerNamespaceKey is the attribute Key conforming to the - // "service.peer.namespace" semantic conventions. It represents the logical - // namespace of the service on the other side of the connection. SHOULD be equal - // to the actual [`service.namespace`] resource attribute of the remote service - // if any. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Shop" - // - // [`service.namespace`]: /docs/resource/README.md#service - ServicePeerNamespaceKey = attribute.Key("service.peer.namespace") - - // ServiceVersionKey is the attribute Key conforming to the "service.version" - // semantic conventions. It represents the version string of the service - // component. The format is not defined by these conventions. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "2.0.0", "a01dbef8a" - ServiceVersionKey = attribute.Key("service.version") -) - -// ServiceInstanceID returns an attribute KeyValue conforming to the -// "service.instance.id" semantic conventions. It represents the string ID of the -// service instance. -func ServiceInstanceID(val string) attribute.KeyValue { - return ServiceInstanceIDKey.String(val) -} - -// ServiceName returns an attribute KeyValue conforming to the "service.name" -// semantic conventions. It represents the logical name of the service. -func ServiceName(val string) attribute.KeyValue { - return ServiceNameKey.String(val) -} - -// ServiceNamespace returns an attribute KeyValue conforming to the -// "service.namespace" semantic conventions. It represents a namespace for -// `service.name`. -func ServiceNamespace(val string) attribute.KeyValue { - return ServiceNamespaceKey.String(val) -} - -// ServicePeerName returns an attribute KeyValue conforming to the -// "service.peer.name" semantic conventions. It represents the logical name of -// the service on the other side of the connection. SHOULD be equal to the actual -// [`service.name`] resource attribute of the remote service if any. -// -// [`service.name`]: /docs/resource/README.md#service -func ServicePeerName(val string) attribute.KeyValue { - return ServicePeerNameKey.String(val) -} - -// ServicePeerNamespace returns an attribute KeyValue conforming to the -// "service.peer.namespace" semantic conventions. It represents the logical -// namespace of the service on the other side of the connection. SHOULD be equal -// to the actual [`service.namespace`] resource attribute of the remote service -// if any. -// -// [`service.namespace`]: /docs/resource/README.md#service -func ServicePeerNamespace(val string) attribute.KeyValue { - return ServicePeerNamespaceKey.String(val) -} - -// ServiceVersion returns an attribute KeyValue conforming to the -// "service.version" semantic conventions. It represents the version string of -// the service component. The format is not defined by these conventions. -func ServiceVersion(val string) attribute.KeyValue { - return ServiceVersionKey.String(val) -} - -// Namespace: session -const ( - // SessionIDKey is the attribute Key conforming to the "session.id" semantic - // conventions. It represents a unique id to identify a session. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 00112233-4455-6677-8899-aabbccddeeff - SessionIDKey = attribute.Key("session.id") - - // SessionPreviousIDKey is the attribute Key conforming to the - // "session.previous_id" semantic conventions. It represents the previous - // `session.id` for this user, when known. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 00112233-4455-6677-8899-aabbccddeeff - SessionPreviousIDKey = attribute.Key("session.previous_id") -) - -// SessionID returns an attribute KeyValue conforming to the "session.id" -// semantic conventions. It represents a unique id to identify a session. -func SessionID(val string) attribute.KeyValue { - return SessionIDKey.String(val) -} - -// SessionPreviousID returns an attribute KeyValue conforming to the -// "session.previous_id" semantic conventions. It represents the previous -// `session.id` for this user, when known. -func SessionPreviousID(val string) attribute.KeyValue { - return SessionPreviousIDKey.String(val) -} - -// Namespace: signalr -const ( - // SignalRConnectionStatusKey is the attribute Key conforming to the - // "signalr.connection.status" semantic conventions. It represents the signalR - // HTTP connection closure status. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "app_shutdown", "timeout" - SignalRConnectionStatusKey = attribute.Key("signalr.connection.status") - - // SignalRTransportKey is the attribute Key conforming to the - // "signalr.transport" semantic conventions. It represents the - // [SignalR transport type]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "web_sockets", "long_polling" - // - // [SignalR transport type]: https://github.com/dotnet/aspnetcore/blob/main/src/SignalR/docs/specs/TransportProtocols.md - SignalRTransportKey = attribute.Key("signalr.transport") -) - -// Enum values for signalr.connection.status -var ( - // The connection was closed normally. - // Stability: stable - SignalRConnectionStatusNormalClosure = SignalRConnectionStatusKey.String("normal_closure") - // The connection was closed due to a timeout. - // Stability: stable - SignalRConnectionStatusTimeout = SignalRConnectionStatusKey.String("timeout") - // The connection was closed because the app is shutting down. - // Stability: stable - SignalRConnectionStatusAppShutdown = SignalRConnectionStatusKey.String("app_shutdown") -) - -// Enum values for signalr.transport -var ( - // ServerSentEvents protocol - // Stability: stable - SignalRTransportServerSentEvents = SignalRTransportKey.String("server_sent_events") - // LongPolling protocol - // Stability: stable - SignalRTransportLongPolling = SignalRTransportKey.String("long_polling") - // WebSockets protocol - // Stability: stable - SignalRTransportWebSockets = SignalRTransportKey.String("web_sockets") -) - -// Namespace: source -const ( - // SourceAddressKey is the attribute Key conforming to the "source.address" - // semantic conventions. It represents the source address - domain name if - // available without reverse DNS lookup; otherwise, IP address or Unix domain - // socket name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "source.example.com", "10.1.2.80", "/tmp/my.sock" - // Note: When observed from the destination side, and when communicating through - // an intermediary, `source.address` SHOULD represent the source address behind - // any intermediaries, for example proxies, if it's available. - SourceAddressKey = attribute.Key("source.address") - - // SourcePortKey is the attribute Key conforming to the "source.port" semantic - // conventions. It represents the source port number. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 3389, 2888 - SourcePortKey = attribute.Key("source.port") -) - -// SourceAddress returns an attribute KeyValue conforming to the "source.address" -// semantic conventions. It represents the source address - domain name if -// available without reverse DNS lookup; otherwise, IP address or Unix domain -// socket name. -func SourceAddress(val string) attribute.KeyValue { - return SourceAddressKey.String(val) -} - -// SourcePort returns an attribute KeyValue conforming to the "source.port" -// semantic conventions. It represents the source port number. -func SourcePort(val int) attribute.KeyValue { - return SourcePortKey.Int(val) -} - -// Namespace: system -const ( - // SystemDeviceKey is the attribute Key conforming to the "system.device" - // semantic conventions. It represents the device identifier. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "(identifier)" - SystemDeviceKey = attribute.Key("system.device") - - // SystemFilesystemModeKey is the attribute Key conforming to the - // "system.filesystem.mode" semantic conventions. It represents the filesystem - // mode. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "rw, ro" - SystemFilesystemModeKey = attribute.Key("system.filesystem.mode") - - // SystemFilesystemMountpointKey is the attribute Key conforming to the - // "system.filesystem.mountpoint" semantic conventions. It represents the - // filesystem mount path. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/mnt/data" - SystemFilesystemMountpointKey = attribute.Key("system.filesystem.mountpoint") - - // SystemFilesystemStateKey is the attribute Key conforming to the - // "system.filesystem.state" semantic conventions. It represents the filesystem - // state. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "used" - SystemFilesystemStateKey = attribute.Key("system.filesystem.state") - - // SystemFilesystemTypeKey is the attribute Key conforming to the - // "system.filesystem.type" semantic conventions. It represents the filesystem - // type. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "ext4" - SystemFilesystemTypeKey = attribute.Key("system.filesystem.type") - - // SystemMemoryLinuxSlabStateKey is the attribute Key conforming to the - // "system.memory.linux.slab.state" semantic conventions. It represents the - // Linux Slab memory state. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "reclaimable", "unreclaimable" - SystemMemoryLinuxSlabStateKey = attribute.Key("system.memory.linux.slab.state") - - // SystemMemoryStateKey is the attribute Key conforming to the - // "system.memory.state" semantic conventions. It represents the memory state. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "free", "cached" - SystemMemoryStateKey = attribute.Key("system.memory.state") - - // SystemPagingDirectionKey is the attribute Key conforming to the - // "system.paging.direction" semantic conventions. It represents the paging - // access direction. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "in" - SystemPagingDirectionKey = attribute.Key("system.paging.direction") - - // SystemPagingFaultTypeKey is the attribute Key conforming to the - // "system.paging.fault.type" semantic conventions. It represents the paging - // fault type. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "minor" - SystemPagingFaultTypeKey = attribute.Key("system.paging.fault.type") - - // SystemPagingStateKey is the attribute Key conforming to the - // "system.paging.state" semantic conventions. It represents the memory paging - // state. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "free" - SystemPagingStateKey = attribute.Key("system.paging.state") -) - -// SystemDevice returns an attribute KeyValue conforming to the "system.device" -// semantic conventions. It represents the device identifier. -func SystemDevice(val string) attribute.KeyValue { - return SystemDeviceKey.String(val) -} - -// SystemFilesystemMode returns an attribute KeyValue conforming to the -// "system.filesystem.mode" semantic conventions. It represents the filesystem -// mode. -func SystemFilesystemMode(val string) attribute.KeyValue { - return SystemFilesystemModeKey.String(val) -} - -// SystemFilesystemMountpoint returns an attribute KeyValue conforming to the -// "system.filesystem.mountpoint" semantic conventions. It represents the -// filesystem mount path. -func SystemFilesystemMountpoint(val string) attribute.KeyValue { - return SystemFilesystemMountpointKey.String(val) -} - -// Enum values for system.filesystem.state -var ( - // used - // Stability: development - SystemFilesystemStateUsed = SystemFilesystemStateKey.String("used") - // free - // Stability: development - SystemFilesystemStateFree = SystemFilesystemStateKey.String("free") - // reserved - // Stability: development - SystemFilesystemStateReserved = SystemFilesystemStateKey.String("reserved") -) - -// Enum values for system.filesystem.type -var ( - // fat32 - // Stability: development - SystemFilesystemTypeFat32 = SystemFilesystemTypeKey.String("fat32") - // exfat - // Stability: development - SystemFilesystemTypeExfat = SystemFilesystemTypeKey.String("exfat") - // ntfs - // Stability: development - SystemFilesystemTypeNtfs = SystemFilesystemTypeKey.String("ntfs") - // refs - // Stability: development - SystemFilesystemTypeRefs = SystemFilesystemTypeKey.String("refs") - // hfsplus - // Stability: development - SystemFilesystemTypeHfsplus = SystemFilesystemTypeKey.String("hfsplus") - // ext4 - // Stability: development - SystemFilesystemTypeExt4 = SystemFilesystemTypeKey.String("ext4") -) - -// Enum values for system.memory.linux.slab.state -var ( - // reclaimable - // Stability: development - SystemMemoryLinuxSlabStateReclaimable = SystemMemoryLinuxSlabStateKey.String("reclaimable") - // unreclaimable - // Stability: development - SystemMemoryLinuxSlabStateUnreclaimable = SystemMemoryLinuxSlabStateKey.String("unreclaimable") -) - -// Enum values for system.memory.state -var ( - // Actual used virtual memory in bytes. - // Stability: development - SystemMemoryStateUsed = SystemMemoryStateKey.String("used") - // free - // Stability: development - SystemMemoryStateFree = SystemMemoryStateKey.String("free") - // buffers - // Stability: development - SystemMemoryStateBuffers = SystemMemoryStateKey.String("buffers") - // cached - // Stability: development - SystemMemoryStateCached = SystemMemoryStateKey.String("cached") -) - -// Enum values for system.paging.direction -var ( - // in - // Stability: development - SystemPagingDirectionIn = SystemPagingDirectionKey.String("in") - // out - // Stability: development - SystemPagingDirectionOut = SystemPagingDirectionKey.String("out") -) - -// Enum values for system.paging.fault.type -var ( - // major - // Stability: development - SystemPagingFaultTypeMajor = SystemPagingFaultTypeKey.String("major") - // minor - // Stability: development - SystemPagingFaultTypeMinor = SystemPagingFaultTypeKey.String("minor") -) - -// Enum values for system.paging.state -var ( - // used - // Stability: development - SystemPagingStateUsed = SystemPagingStateKey.String("used") - // free - // Stability: development - SystemPagingStateFree = SystemPagingStateKey.String("free") -) - -// Namespace: telemetry -const ( - // TelemetryDistroNameKey is the attribute Key conforming to the - // "telemetry.distro.name" semantic conventions. It represents the name of the - // auto instrumentation agent or distribution, if used. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "parts-unlimited-java" - // Note: Official auto instrumentation agents and distributions SHOULD set the - // `telemetry.distro.name` attribute to - // a string starting with `opentelemetry-`, e.g. - // `opentelemetry-java-instrumentation`. - TelemetryDistroNameKey = attribute.Key("telemetry.distro.name") - - // TelemetryDistroVersionKey is the attribute Key conforming to the - // "telemetry.distro.version" semantic conventions. It represents the version - // string of the auto instrumentation agent or distribution, if used. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1.2.3" - TelemetryDistroVersionKey = attribute.Key("telemetry.distro.version") - - // TelemetrySDKLanguageKey is the attribute Key conforming to the - // "telemetry.sdk.language" semantic conventions. It represents the language of - // the telemetry SDK. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: - TelemetrySDKLanguageKey = attribute.Key("telemetry.sdk.language") - - // TelemetrySDKNameKey is the attribute Key conforming to the - // "telemetry.sdk.name" semantic conventions. It represents the name of the - // telemetry SDK as defined above. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "opentelemetry" - // Note: The OpenTelemetry SDK MUST set the `telemetry.sdk.name` attribute to - // `opentelemetry`. - // If another SDK, like a fork or a vendor-provided implementation, is used, - // this SDK MUST set the - // `telemetry.sdk.name` attribute to the fully-qualified class or module name of - // this SDK's main entry point - // or another suitable identifier depending on the language. - // The identifier `opentelemetry` is reserved and MUST NOT be used in this case. - // All custom identifiers SHOULD be stable across different versions of an - // implementation. - TelemetrySDKNameKey = attribute.Key("telemetry.sdk.name") - - // TelemetrySDKVersionKey is the attribute Key conforming to the - // "telemetry.sdk.version" semantic conventions. It represents the version - // string of the telemetry SDK. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "1.2.3" - TelemetrySDKVersionKey = attribute.Key("telemetry.sdk.version") -) - -// TelemetryDistroName returns an attribute KeyValue conforming to the -// "telemetry.distro.name" semantic conventions. It represents the name of the -// auto instrumentation agent or distribution, if used. -func TelemetryDistroName(val string) attribute.KeyValue { - return TelemetryDistroNameKey.String(val) -} - -// TelemetryDistroVersion returns an attribute KeyValue conforming to the -// "telemetry.distro.version" semantic conventions. It represents the version -// string of the auto instrumentation agent or distribution, if used. -func TelemetryDistroVersion(val string) attribute.KeyValue { - return TelemetryDistroVersionKey.String(val) -} - -// TelemetrySDKName returns an attribute KeyValue conforming to the -// "telemetry.sdk.name" semantic conventions. It represents the name of the -// telemetry SDK as defined above. -func TelemetrySDKName(val string) attribute.KeyValue { - return TelemetrySDKNameKey.String(val) -} - -// TelemetrySDKVersion returns an attribute KeyValue conforming to the -// "telemetry.sdk.version" semantic conventions. It represents the version string -// of the telemetry SDK. -func TelemetrySDKVersion(val string) attribute.KeyValue { - return TelemetrySDKVersionKey.String(val) -} - -// Enum values for telemetry.sdk.language -var ( - // cpp - // Stability: stable - TelemetrySDKLanguageCPP = TelemetrySDKLanguageKey.String("cpp") - // dotnet - // Stability: stable - TelemetrySDKLanguageDotnet = TelemetrySDKLanguageKey.String("dotnet") - // erlang - // Stability: stable - TelemetrySDKLanguageErlang = TelemetrySDKLanguageKey.String("erlang") - // go - // Stability: stable - TelemetrySDKLanguageGo = TelemetrySDKLanguageKey.String("go") - // java - // Stability: stable - TelemetrySDKLanguageJava = TelemetrySDKLanguageKey.String("java") - // nodejs - // Stability: stable - TelemetrySDKLanguageNodejs = TelemetrySDKLanguageKey.String("nodejs") - // php - // Stability: stable - TelemetrySDKLanguagePHP = TelemetrySDKLanguageKey.String("php") - // python - // Stability: stable - TelemetrySDKLanguagePython = TelemetrySDKLanguageKey.String("python") - // ruby - // Stability: stable - TelemetrySDKLanguageRuby = TelemetrySDKLanguageKey.String("ruby") - // rust - // Stability: stable - TelemetrySDKLanguageRust = TelemetrySDKLanguageKey.String("rust") - // swift - // Stability: stable - TelemetrySDKLanguageSwift = TelemetrySDKLanguageKey.String("swift") - // webjs - // Stability: stable - TelemetrySDKLanguageWebJS = TelemetrySDKLanguageKey.String("webjs") -) - -// Namespace: test -const ( - // TestCaseNameKey is the attribute Key conforming to the "test.case.name" - // semantic conventions. It represents the fully qualified human readable name - // of the [test case]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "org.example.TestCase1.test1", "example/tests/TestCase1.test1", - // "ExampleTestCase1_test1" - // - // [test case]: https://wikipedia.org/wiki/Test_case - TestCaseNameKey = attribute.Key("test.case.name") - - // TestCaseResultStatusKey is the attribute Key conforming to the - // "test.case.result.status" semantic conventions. It represents the status of - // the actual test case result from test execution. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "pass", "fail" - TestCaseResultStatusKey = attribute.Key("test.case.result.status") - - // TestSuiteNameKey is the attribute Key conforming to the "test.suite.name" - // semantic conventions. It represents the human readable name of a [test suite] - // . - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "TestSuite1" - // - // [test suite]: https://wikipedia.org/wiki/Test_suite - TestSuiteNameKey = attribute.Key("test.suite.name") - - // TestSuiteRunStatusKey is the attribute Key conforming to the - // "test.suite.run.status" semantic conventions. It represents the status of the - // test suite run. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "success", "failure", "skipped", "aborted", "timed_out", - // "in_progress" - TestSuiteRunStatusKey = attribute.Key("test.suite.run.status") -) - -// TestCaseName returns an attribute KeyValue conforming to the "test.case.name" -// semantic conventions. It represents the fully qualified human readable name of -// the [test case]. -// -// [test case]: https://wikipedia.org/wiki/Test_case -func TestCaseName(val string) attribute.KeyValue { - return TestCaseNameKey.String(val) -} - -// TestSuiteName returns an attribute KeyValue conforming to the -// "test.suite.name" semantic conventions. It represents the human readable name -// of a [test suite]. -// -// [test suite]: https://wikipedia.org/wiki/Test_suite -func TestSuiteName(val string) attribute.KeyValue { - return TestSuiteNameKey.String(val) -} - -// Enum values for test.case.result.status -var ( - // pass - // Stability: development - TestCaseResultStatusPass = TestCaseResultStatusKey.String("pass") - // fail - // Stability: development - TestCaseResultStatusFail = TestCaseResultStatusKey.String("fail") -) - -// Enum values for test.suite.run.status -var ( - // success - // Stability: development - TestSuiteRunStatusSuccess = TestSuiteRunStatusKey.String("success") - // failure - // Stability: development - TestSuiteRunStatusFailure = TestSuiteRunStatusKey.String("failure") - // skipped - // Stability: development - TestSuiteRunStatusSkipped = TestSuiteRunStatusKey.String("skipped") - // aborted - // Stability: development - TestSuiteRunStatusAborted = TestSuiteRunStatusKey.String("aborted") - // timed_out - // Stability: development - TestSuiteRunStatusTimedOut = TestSuiteRunStatusKey.String("timed_out") - // in_progress - // Stability: development - TestSuiteRunStatusInProgress = TestSuiteRunStatusKey.String("in_progress") -) - -// Namespace: thread -const ( - // ThreadIDKey is the attribute Key conforming to the "thread.id" semantic - // conventions. It represents the current "managed" thread ID (as opposed to OS - // thread ID). - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Note: - // Examples of where the value can be extracted from: - // - // | Language or platform | Source | - // | --- | --- | - // | JVM | `Thread.currentThread().threadId()` | - // | .NET | `Thread.CurrentThread.ManagedThreadId` | - // | Python | `threading.current_thread().ident` | - // | Ruby | `Thread.current.object_id` | - // | C++ | `std::this_thread::get_id()` | - // | Erlang | `erlang:self()` | - ThreadIDKey = attribute.Key("thread.id") - - // ThreadNameKey is the attribute Key conforming to the "thread.name" semantic - // conventions. It represents the current thread name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: main - // Note: - // Examples of where the value can be extracted from: - // - // | Language or platform | Source | - // | --- | --- | - // | JVM | `Thread.currentThread().getName()` | - // | .NET | `Thread.CurrentThread.Name` | - // | Python | `threading.current_thread().name` | - // | Ruby | `Thread.current.name` | - // | Erlang | `erlang:process_info(self(), registered_name)` | - ThreadNameKey = attribute.Key("thread.name") -) - -// ThreadID returns an attribute KeyValue conforming to the "thread.id" semantic -// conventions. It represents the current "managed" thread ID (as opposed to OS -// thread ID). -func ThreadID(val int) attribute.KeyValue { - return ThreadIDKey.Int(val) -} - -// ThreadName returns an attribute KeyValue conforming to the "thread.name" -// semantic conventions. It represents the current thread name. -func ThreadName(val string) attribute.KeyValue { - return ThreadNameKey.String(val) -} - -// Namespace: tls -const ( - // TLSCipherKey is the attribute Key conforming to the "tls.cipher" semantic - // conventions. It represents the string indicating the [cipher] used during the - // current connection. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "TLS_RSA_WITH_3DES_EDE_CBC_SHA", - // "TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256" - // Note: The values allowed for `tls.cipher` MUST be one of the `Descriptions` - // of the [registered TLS Cipher Suits]. - // - // [cipher]: https://datatracker.ietf.org/doc/html/rfc5246#appendix-A.5 - // [registered TLS Cipher Suits]: https://www.iana.org/assignments/tls-parameters/tls-parameters.xhtml#table-tls-parameters-4 - TLSCipherKey = attribute.Key("tls.cipher") - - // TLSClientCertificateKey is the attribute Key conforming to the - // "tls.client.certificate" semantic conventions. It represents the PEM-encoded - // stand-alone certificate offered by the client. This is usually - // mutually-exclusive of `client.certificate_chain` since this value also exists - // in that list. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "MII..." - TLSClientCertificateKey = attribute.Key("tls.client.certificate") - - // TLSClientCertificateChainKey is the attribute Key conforming to the - // "tls.client.certificate_chain" semantic conventions. It represents the array - // of PEM-encoded certificates that make up the certificate chain offered by the - // client. This is usually mutually-exclusive of `client.certificate` since that - // value should be the first certificate in the chain. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "MII...", "MI..." - TLSClientCertificateChainKey = attribute.Key("tls.client.certificate_chain") - - // TLSClientHashMd5Key is the attribute Key conforming to the - // "tls.client.hash.md5" semantic conventions. It represents the certificate - // fingerprint using the MD5 digest of DER-encoded version of certificate - // offered by the client. For consistency with other hash values, this value - // should be formatted as an uppercase hash. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "0F76C7F2C55BFD7D8E8B8F4BFBF0C9EC" - TLSClientHashMd5Key = attribute.Key("tls.client.hash.md5") - - // TLSClientHashSha1Key is the attribute Key conforming to the - // "tls.client.hash.sha1" semantic conventions. It represents the certificate - // fingerprint using the SHA1 digest of DER-encoded version of certificate - // offered by the client. For consistency with other hash values, this value - // should be formatted as an uppercase hash. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "9E393D93138888D288266C2D915214D1D1CCEB2A" - TLSClientHashSha1Key = attribute.Key("tls.client.hash.sha1") - - // TLSClientHashSha256Key is the attribute Key conforming to the - // "tls.client.hash.sha256" semantic conventions. It represents the certificate - // fingerprint using the SHA256 digest of DER-encoded version of certificate - // offered by the client. For consistency with other hash values, this value - // should be formatted as an uppercase hash. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "0687F666A054EF17A08E2F2162EAB4CBC0D265E1D7875BE74BF3C712CA92DAF0" - TLSClientHashSha256Key = attribute.Key("tls.client.hash.sha256") - - // TLSClientIssuerKey is the attribute Key conforming to the "tls.client.issuer" - // semantic conventions. It represents the distinguished name of [subject] of - // the issuer of the x.509 certificate presented by the client. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "CN=Example Root CA, OU=Infrastructure Team, DC=example, DC=com" - // - // [subject]: https://datatracker.ietf.org/doc/html/rfc5280#section-4.1.2.6 - TLSClientIssuerKey = attribute.Key("tls.client.issuer") - - // TLSClientJa3Key is the attribute Key conforming to the "tls.client.ja3" - // semantic conventions. It represents a hash that identifies clients based on - // how they perform an SSL/TLS handshake. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "d4e5b18d6b55c71272893221c96ba240" - TLSClientJa3Key = attribute.Key("tls.client.ja3") - - // TLSClientNotAfterKey is the attribute Key conforming to the - // "tls.client.not_after" semantic conventions. It represents the date/Time - // indicating when client certificate is no longer considered valid. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2021-01-01T00:00:00.000Z" - TLSClientNotAfterKey = attribute.Key("tls.client.not_after") - - // TLSClientNotBeforeKey is the attribute Key conforming to the - // "tls.client.not_before" semantic conventions. It represents the date/Time - // indicating when client certificate is first considered valid. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1970-01-01T00:00:00.000Z" - TLSClientNotBeforeKey = attribute.Key("tls.client.not_before") - - // TLSClientSubjectKey is the attribute Key conforming to the - // "tls.client.subject" semantic conventions. It represents the distinguished - // name of subject of the x.509 certificate presented by the client. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "CN=myclient, OU=Documentation Team, DC=example, DC=com" - TLSClientSubjectKey = attribute.Key("tls.client.subject") - - // TLSClientSupportedCiphersKey is the attribute Key conforming to the - // "tls.client.supported_ciphers" semantic conventions. It represents the array - // of ciphers offered by the client during the client hello. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384", - // "TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384" - TLSClientSupportedCiphersKey = attribute.Key("tls.client.supported_ciphers") - - // TLSCurveKey is the attribute Key conforming to the "tls.curve" semantic - // conventions. It represents the string indicating the curve used for the given - // cipher, when applicable. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "secp256r1" - TLSCurveKey = attribute.Key("tls.curve") - - // TLSEstablishedKey is the attribute Key conforming to the "tls.established" - // semantic conventions. It represents the boolean flag indicating if the TLS - // negotiation was successful and transitioned to an encrypted tunnel. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: true - TLSEstablishedKey = attribute.Key("tls.established") - - // TLSNextProtocolKey is the attribute Key conforming to the "tls.next_protocol" - // semantic conventions. It represents the string indicating the protocol being - // tunneled. Per the values in the [IANA registry], this string should be lower - // case. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "http/1.1" - // - // [IANA registry]: https://www.iana.org/assignments/tls-extensiontype-values/tls-extensiontype-values.xhtml#alpn-protocol-ids - TLSNextProtocolKey = attribute.Key("tls.next_protocol") - - // TLSProtocolNameKey is the attribute Key conforming to the "tls.protocol.name" - // semantic conventions. It represents the normalized lowercase protocol name - // parsed from original string of the negotiated [SSL/TLS protocol version]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [SSL/TLS protocol version]: https://docs.openssl.org/1.1.1/man3/SSL_get_version/#return-values - TLSProtocolNameKey = attribute.Key("tls.protocol.name") - - // TLSProtocolVersionKey is the attribute Key conforming to the - // "tls.protocol.version" semantic conventions. It represents the numeric part - // of the version parsed from the original string of the negotiated - // [SSL/TLS protocol version]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1.2", "3" - // - // [SSL/TLS protocol version]: https://docs.openssl.org/1.1.1/man3/SSL_get_version/#return-values - TLSProtocolVersionKey = attribute.Key("tls.protocol.version") - - // TLSResumedKey is the attribute Key conforming to the "tls.resumed" semantic - // conventions. It represents the boolean flag indicating if this TLS connection - // was resumed from an existing TLS negotiation. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: true - TLSResumedKey = attribute.Key("tls.resumed") - - // TLSServerCertificateKey is the attribute Key conforming to the - // "tls.server.certificate" semantic conventions. It represents the PEM-encoded - // stand-alone certificate offered by the server. This is usually - // mutually-exclusive of `server.certificate_chain` since this value also exists - // in that list. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "MII..." - TLSServerCertificateKey = attribute.Key("tls.server.certificate") - - // TLSServerCertificateChainKey is the attribute Key conforming to the - // "tls.server.certificate_chain" semantic conventions. It represents the array - // of PEM-encoded certificates that make up the certificate chain offered by the - // server. This is usually mutually-exclusive of `server.certificate` since that - // value should be the first certificate in the chain. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "MII...", "MI..." - TLSServerCertificateChainKey = attribute.Key("tls.server.certificate_chain") - - // TLSServerHashMd5Key is the attribute Key conforming to the - // "tls.server.hash.md5" semantic conventions. It represents the certificate - // fingerprint using the MD5 digest of DER-encoded version of certificate - // offered by the server. For consistency with other hash values, this value - // should be formatted as an uppercase hash. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "0F76C7F2C55BFD7D8E8B8F4BFBF0C9EC" - TLSServerHashMd5Key = attribute.Key("tls.server.hash.md5") - - // TLSServerHashSha1Key is the attribute Key conforming to the - // "tls.server.hash.sha1" semantic conventions. It represents the certificate - // fingerprint using the SHA1 digest of DER-encoded version of certificate - // offered by the server. For consistency with other hash values, this value - // should be formatted as an uppercase hash. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "9E393D93138888D288266C2D915214D1D1CCEB2A" - TLSServerHashSha1Key = attribute.Key("tls.server.hash.sha1") - - // TLSServerHashSha256Key is the attribute Key conforming to the - // "tls.server.hash.sha256" semantic conventions. It represents the certificate - // fingerprint using the SHA256 digest of DER-encoded version of certificate - // offered by the server. For consistency with other hash values, this value - // should be formatted as an uppercase hash. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "0687F666A054EF17A08E2F2162EAB4CBC0D265E1D7875BE74BF3C712CA92DAF0" - TLSServerHashSha256Key = attribute.Key("tls.server.hash.sha256") - - // TLSServerIssuerKey is the attribute Key conforming to the "tls.server.issuer" - // semantic conventions. It represents the distinguished name of [subject] of - // the issuer of the x.509 certificate presented by the client. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "CN=Example Root CA, OU=Infrastructure Team, DC=example, DC=com" - // - // [subject]: https://datatracker.ietf.org/doc/html/rfc5280#section-4.1.2.6 - TLSServerIssuerKey = attribute.Key("tls.server.issuer") - - // TLSServerJa3sKey is the attribute Key conforming to the "tls.server.ja3s" - // semantic conventions. It represents a hash that identifies servers based on - // how they perform an SSL/TLS handshake. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "d4e5b18d6b55c71272893221c96ba240" - TLSServerJa3sKey = attribute.Key("tls.server.ja3s") - - // TLSServerNotAfterKey is the attribute Key conforming to the - // "tls.server.not_after" semantic conventions. It represents the date/Time - // indicating when server certificate is no longer considered valid. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2021-01-01T00:00:00.000Z" - TLSServerNotAfterKey = attribute.Key("tls.server.not_after") - - // TLSServerNotBeforeKey is the attribute Key conforming to the - // "tls.server.not_before" semantic conventions. It represents the date/Time - // indicating when server certificate is first considered valid. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1970-01-01T00:00:00.000Z" - TLSServerNotBeforeKey = attribute.Key("tls.server.not_before") - - // TLSServerSubjectKey is the attribute Key conforming to the - // "tls.server.subject" semantic conventions. It represents the distinguished - // name of subject of the x.509 certificate presented by the server. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "CN=myserver, OU=Documentation Team, DC=example, DC=com" - TLSServerSubjectKey = attribute.Key("tls.server.subject") -) - -// TLSCipher returns an attribute KeyValue conforming to the "tls.cipher" -// semantic conventions. It represents the string indicating the [cipher] used -// during the current connection. -// -// [cipher]: https://datatracker.ietf.org/doc/html/rfc5246#appendix-A.5 -func TLSCipher(val string) attribute.KeyValue { - return TLSCipherKey.String(val) -} - -// TLSClientCertificate returns an attribute KeyValue conforming to the -// "tls.client.certificate" semantic conventions. It represents the PEM-encoded -// stand-alone certificate offered by the client. This is usually -// mutually-exclusive of `client.certificate_chain` since this value also exists -// in that list. -func TLSClientCertificate(val string) attribute.KeyValue { - return TLSClientCertificateKey.String(val) -} - -// TLSClientCertificateChain returns an attribute KeyValue conforming to the -// "tls.client.certificate_chain" semantic conventions. It represents the array -// of PEM-encoded certificates that make up the certificate chain offered by the -// client. This is usually mutually-exclusive of `client.certificate` since that -// value should be the first certificate in the chain. -func TLSClientCertificateChain(val ...string) attribute.KeyValue { - return TLSClientCertificateChainKey.StringSlice(val) -} - -// TLSClientHashMd5 returns an attribute KeyValue conforming to the -// "tls.client.hash.md5" semantic conventions. It represents the certificate -// fingerprint using the MD5 digest of DER-encoded version of certificate offered -// by the client. For consistency with other hash values, this value should be -// formatted as an uppercase hash. -func TLSClientHashMd5(val string) attribute.KeyValue { - return TLSClientHashMd5Key.String(val) -} - -// TLSClientHashSha1 returns an attribute KeyValue conforming to the -// "tls.client.hash.sha1" semantic conventions. It represents the certificate -// fingerprint using the SHA1 digest of DER-encoded version of certificate -// offered by the client. For consistency with other hash values, this value -// should be formatted as an uppercase hash. -func TLSClientHashSha1(val string) attribute.KeyValue { - return TLSClientHashSha1Key.String(val) -} - -// TLSClientHashSha256 returns an attribute KeyValue conforming to the -// "tls.client.hash.sha256" semantic conventions. It represents the certificate -// fingerprint using the SHA256 digest of DER-encoded version of certificate -// offered by the client. For consistency with other hash values, this value -// should be formatted as an uppercase hash. -func TLSClientHashSha256(val string) attribute.KeyValue { - return TLSClientHashSha256Key.String(val) -} - -// TLSClientIssuer returns an attribute KeyValue conforming to the -// "tls.client.issuer" semantic conventions. It represents the distinguished name -// of [subject] of the issuer of the x.509 certificate presented by the client. -// -// [subject]: https://datatracker.ietf.org/doc/html/rfc5280#section-4.1.2.6 -func TLSClientIssuer(val string) attribute.KeyValue { - return TLSClientIssuerKey.String(val) -} - -// TLSClientJa3 returns an attribute KeyValue conforming to the "tls.client.ja3" -// semantic conventions. It represents a hash that identifies clients based on -// how they perform an SSL/TLS handshake. -func TLSClientJa3(val string) attribute.KeyValue { - return TLSClientJa3Key.String(val) -} - -// TLSClientNotAfter returns an attribute KeyValue conforming to the -// "tls.client.not_after" semantic conventions. It represents the date/Time -// indicating when client certificate is no longer considered valid. -func TLSClientNotAfter(val string) attribute.KeyValue { - return TLSClientNotAfterKey.String(val) -} - -// TLSClientNotBefore returns an attribute KeyValue conforming to the -// "tls.client.not_before" semantic conventions. It represents the date/Time -// indicating when client certificate is first considered valid. -func TLSClientNotBefore(val string) attribute.KeyValue { - return TLSClientNotBeforeKey.String(val) -} - -// TLSClientSubject returns an attribute KeyValue conforming to the -// "tls.client.subject" semantic conventions. It represents the distinguished -// name of subject of the x.509 certificate presented by the client. -func TLSClientSubject(val string) attribute.KeyValue { - return TLSClientSubjectKey.String(val) -} - -// TLSClientSupportedCiphers returns an attribute KeyValue conforming to the -// "tls.client.supported_ciphers" semantic conventions. It represents the array -// of ciphers offered by the client during the client hello. -func TLSClientSupportedCiphers(val ...string) attribute.KeyValue { - return TLSClientSupportedCiphersKey.StringSlice(val) -} - -// TLSCurve returns an attribute KeyValue conforming to the "tls.curve" semantic -// conventions. It represents the string indicating the curve used for the given -// cipher, when applicable. -func TLSCurve(val string) attribute.KeyValue { - return TLSCurveKey.String(val) -} - -// TLSEstablished returns an attribute KeyValue conforming to the -// "tls.established" semantic conventions. It represents the boolean flag -// indicating if the TLS negotiation was successful and transitioned to an -// encrypted tunnel. -func TLSEstablished(val bool) attribute.KeyValue { - return TLSEstablishedKey.Bool(val) -} - -// TLSNextProtocol returns an attribute KeyValue conforming to the -// "tls.next_protocol" semantic conventions. It represents the string indicating -// the protocol being tunneled. Per the values in the [IANA registry], this -// string should be lower case. -// -// [IANA registry]: https://www.iana.org/assignments/tls-extensiontype-values/tls-extensiontype-values.xhtml#alpn-protocol-ids -func TLSNextProtocol(val string) attribute.KeyValue { - return TLSNextProtocolKey.String(val) -} - -// TLSProtocolVersion returns an attribute KeyValue conforming to the -// "tls.protocol.version" semantic conventions. It represents the numeric part of -// the version parsed from the original string of the negotiated -// [SSL/TLS protocol version]. -// -// [SSL/TLS protocol version]: https://docs.openssl.org/1.1.1/man3/SSL_get_version/#return-values -func TLSProtocolVersion(val string) attribute.KeyValue { - return TLSProtocolVersionKey.String(val) -} - -// TLSResumed returns an attribute KeyValue conforming to the "tls.resumed" -// semantic conventions. It represents the boolean flag indicating if this TLS -// connection was resumed from an existing TLS negotiation. -func TLSResumed(val bool) attribute.KeyValue { - return TLSResumedKey.Bool(val) -} - -// TLSServerCertificate returns an attribute KeyValue conforming to the -// "tls.server.certificate" semantic conventions. It represents the PEM-encoded -// stand-alone certificate offered by the server. This is usually -// mutually-exclusive of `server.certificate_chain` since this value also exists -// in that list. -func TLSServerCertificate(val string) attribute.KeyValue { - return TLSServerCertificateKey.String(val) -} - -// TLSServerCertificateChain returns an attribute KeyValue conforming to the -// "tls.server.certificate_chain" semantic conventions. It represents the array -// of PEM-encoded certificates that make up the certificate chain offered by the -// server. This is usually mutually-exclusive of `server.certificate` since that -// value should be the first certificate in the chain. -func TLSServerCertificateChain(val ...string) attribute.KeyValue { - return TLSServerCertificateChainKey.StringSlice(val) -} - -// TLSServerHashMd5 returns an attribute KeyValue conforming to the -// "tls.server.hash.md5" semantic conventions. It represents the certificate -// fingerprint using the MD5 digest of DER-encoded version of certificate offered -// by the server. For consistency with other hash values, this value should be -// formatted as an uppercase hash. -func TLSServerHashMd5(val string) attribute.KeyValue { - return TLSServerHashMd5Key.String(val) -} - -// TLSServerHashSha1 returns an attribute KeyValue conforming to the -// "tls.server.hash.sha1" semantic conventions. It represents the certificate -// fingerprint using the SHA1 digest of DER-encoded version of certificate -// offered by the server. For consistency with other hash values, this value -// should be formatted as an uppercase hash. -func TLSServerHashSha1(val string) attribute.KeyValue { - return TLSServerHashSha1Key.String(val) -} - -// TLSServerHashSha256 returns an attribute KeyValue conforming to the -// "tls.server.hash.sha256" semantic conventions. It represents the certificate -// fingerprint using the SHA256 digest of DER-encoded version of certificate -// offered by the server. For consistency with other hash values, this value -// should be formatted as an uppercase hash. -func TLSServerHashSha256(val string) attribute.KeyValue { - return TLSServerHashSha256Key.String(val) -} - -// TLSServerIssuer returns an attribute KeyValue conforming to the -// "tls.server.issuer" semantic conventions. It represents the distinguished name -// of [subject] of the issuer of the x.509 certificate presented by the client. -// -// [subject]: https://datatracker.ietf.org/doc/html/rfc5280#section-4.1.2.6 -func TLSServerIssuer(val string) attribute.KeyValue { - return TLSServerIssuerKey.String(val) -} - -// TLSServerJa3s returns an attribute KeyValue conforming to the -// "tls.server.ja3s" semantic conventions. It represents a hash that identifies -// servers based on how they perform an SSL/TLS handshake. -func TLSServerJa3s(val string) attribute.KeyValue { - return TLSServerJa3sKey.String(val) -} - -// TLSServerNotAfter returns an attribute KeyValue conforming to the -// "tls.server.not_after" semantic conventions. It represents the date/Time -// indicating when server certificate is no longer considered valid. -func TLSServerNotAfter(val string) attribute.KeyValue { - return TLSServerNotAfterKey.String(val) -} - -// TLSServerNotBefore returns an attribute KeyValue conforming to the -// "tls.server.not_before" semantic conventions. It represents the date/Time -// indicating when server certificate is first considered valid. -func TLSServerNotBefore(val string) attribute.KeyValue { - return TLSServerNotBeforeKey.String(val) -} - -// TLSServerSubject returns an attribute KeyValue conforming to the -// "tls.server.subject" semantic conventions. It represents the distinguished -// name of subject of the x.509 certificate presented by the server. -func TLSServerSubject(val string) attribute.KeyValue { - return TLSServerSubjectKey.String(val) -} - -// Enum values for tls.protocol.name -var ( - // ssl - // Stability: development - TLSProtocolNameSsl = TLSProtocolNameKey.String("ssl") - // tls - // Stability: development - TLSProtocolNameTLS = TLSProtocolNameKey.String("tls") -) - -// Namespace: url -const ( - // URLDomainKey is the attribute Key conforming to the "url.domain" semantic - // conventions. It represents the domain extracted from the `url.full`, such as - // "opentelemetry.io". - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "www.foo.bar", "opentelemetry.io", "3.12.167.2", - // "[1080:0:0:0:8:800:200C:417A]" - // Note: In some cases a URL may refer to an IP and/or port directly, without a - // domain name. In this case, the IP address would go to the domain field. If - // the URL contains a [literal IPv6 address] enclosed by `[` and `]`, the `[` - // and `]` characters should also be captured in the domain field. - // - // [literal IPv6 address]: https://www.rfc-editor.org/rfc/rfc2732#section-2 - URLDomainKey = attribute.Key("url.domain") - - // URLExtensionKey is the attribute Key conforming to the "url.extension" - // semantic conventions. It represents the file extension extracted from the - // `url.full`, excluding the leading dot. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "png", "gz" - // Note: The file extension is only set if it exists, as not every url has a - // file extension. When the file name has multiple extensions `example.tar.gz`, - // only the last one should be captured `gz`, not `tar.gz`. - URLExtensionKey = attribute.Key("url.extension") - - // URLFragmentKey is the attribute Key conforming to the "url.fragment" semantic - // conventions. It represents the [URI fragment] component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "SemConv" - // - // [URI fragment]: https://www.rfc-editor.org/rfc/rfc3986#section-3.5 - URLFragmentKey = attribute.Key("url.fragment") - - // URLFullKey is the attribute Key conforming to the "url.full" semantic - // conventions. It represents the absolute URL describing a network resource - // according to [RFC3986]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "https://www.foo.bar/search?q=OpenTelemetry#SemConv", "//localhost" - // Note: For network calls, URL usually has - // `scheme://host[:port][path][?query][#fragment]` format, where the fragment - // is not transmitted over HTTP, but if it is known, it SHOULD be included - // nevertheless. - // - // `url.full` MUST NOT contain credentials passed via URL in form of - // `https://username:password@www.example.com/`. - // In such case username and password SHOULD be redacted and attribute's value - // SHOULD be `https://REDACTED:REDACTED@www.example.com/`. - // - // `url.full` SHOULD capture the absolute URL when it is available (or can be - // reconstructed). - // - // Sensitive content provided in `url.full` SHOULD be scrubbed when - // instrumentations can identify it. - // - // - // Query string values for the following keys SHOULD be redacted by default and - // replaced by the - // value `REDACTED`: - // - // - [`AWSAccessKeyId`] - // - [`Signature`] - // - [`sig`] - // - [`X-Goog-Signature`] - // - // This list is subject to change over time. - // - // When a query string value is redacted, the query string key SHOULD still be - // preserved, e.g. - // `https://www.example.com/path?color=blue&sig=REDACTED`. - // - // [RFC3986]: https://www.rfc-editor.org/rfc/rfc3986 - // [`AWSAccessKeyId`]: https://docs.aws.amazon.com/AmazonS3/latest/userguide/RESTAuthentication.html#RESTAuthenticationQueryStringAuth - // [`Signature`]: https://docs.aws.amazon.com/AmazonS3/latest/userguide/RESTAuthentication.html#RESTAuthenticationQueryStringAuth - // [`sig`]: https://learn.microsoft.com/azure/storage/common/storage-sas-overview#sas-token - // [`X-Goog-Signature`]: https://cloud.google.com/storage/docs/access-control/signed-urls - URLFullKey = attribute.Key("url.full") - - // URLOriginalKey is the attribute Key conforming to the "url.original" semantic - // conventions. It represents the unmodified original URL as seen in the event - // source. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "https://www.foo.bar/search?q=OpenTelemetry#SemConv", - // "search?q=OpenTelemetry" - // Note: In network monitoring, the observed URL may be a full URL, whereas in - // access logs, the URL is often just represented as a path. This field is meant - // to represent the URL as it was observed, complete or not. - // `url.original` might contain credentials passed via URL in form of - // `https://username:password@www.example.com/`. In such case password and - // username SHOULD NOT be redacted and attribute's value SHOULD remain the same. - URLOriginalKey = attribute.Key("url.original") - - // URLPathKey is the attribute Key conforming to the "url.path" semantic - // conventions. It represents the [URI path] component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "/search" - // Note: Sensitive content provided in `url.path` SHOULD be scrubbed when - // instrumentations can identify it. - // - // [URI path]: https://www.rfc-editor.org/rfc/rfc3986#section-3.3 - URLPathKey = attribute.Key("url.path") - - // URLPortKey is the attribute Key conforming to the "url.port" semantic - // conventions. It represents the port extracted from the `url.full`. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 443 - URLPortKey = attribute.Key("url.port") - - // URLQueryKey is the attribute Key conforming to the "url.query" semantic - // conventions. It represents the [URI query] component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "q=OpenTelemetry" - // Note: Sensitive content provided in `url.query` SHOULD be scrubbed when - // instrumentations can identify it. - // - // - // Query string values for the following keys SHOULD be redacted by default and - // replaced by the value `REDACTED`: - // - // - [`AWSAccessKeyId`] - // - [`Signature`] - // - [`sig`] - // - [`X-Goog-Signature`] - // - // This list is subject to change over time. - // - // When a query string value is redacted, the query string key SHOULD still be - // preserved, e.g. - // `q=OpenTelemetry&sig=REDACTED`. - // - // [URI query]: https://www.rfc-editor.org/rfc/rfc3986#section-3.4 - // [`AWSAccessKeyId`]: https://docs.aws.amazon.com/AmazonS3/latest/userguide/RESTAuthentication.html#RESTAuthenticationQueryStringAuth - // [`Signature`]: https://docs.aws.amazon.com/AmazonS3/latest/userguide/RESTAuthentication.html#RESTAuthenticationQueryStringAuth - // [`sig`]: https://learn.microsoft.com/azure/storage/common/storage-sas-overview#sas-token - // [`X-Goog-Signature`]: https://cloud.google.com/storage/docs/access-control/signed-urls - URLQueryKey = attribute.Key("url.query") - - // URLRegisteredDomainKey is the attribute Key conforming to the - // "url.registered_domain" semantic conventions. It represents the highest - // registered url domain, stripped of the subdomain. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "example.com", "foo.co.uk" - // Note: This value can be determined precisely with the [public suffix list]. - // For example, the registered domain for `foo.example.com` is `example.com`. - // Trying to approximate this by simply taking the last two labels will not work - // well for TLDs such as `co.uk`. - // - // [public suffix list]: https://publicsuffix.org/ - URLRegisteredDomainKey = attribute.Key("url.registered_domain") - - // URLSchemeKey is the attribute Key conforming to the "url.scheme" semantic - // conventions. It represents the [URI scheme] component identifying the used - // protocol. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "https", "ftp", "telnet" - // - // [URI scheme]: https://www.rfc-editor.org/rfc/rfc3986#section-3.1 - URLSchemeKey = attribute.Key("url.scheme") - - // URLSubdomainKey is the attribute Key conforming to the "url.subdomain" - // semantic conventions. It represents the subdomain portion of a fully - // qualified domain name includes all of the names except the host name under - // the registered_domain. In a partially qualified domain, or if the - // qualification level of the full name cannot be determined, subdomain contains - // all of the names below the registered domain. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "east", "sub2.sub1" - // Note: The subdomain portion of `www.east.mydomain.co.uk` is `east`. If the - // domain has multiple levels of subdomain, such as `sub2.sub1.example.com`, the - // subdomain field should contain `sub2.sub1`, with no trailing period. - URLSubdomainKey = attribute.Key("url.subdomain") - - // URLTemplateKey is the attribute Key conforming to the "url.template" semantic - // conventions. It represents the low-cardinality template of an - // [absolute path reference]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/users/{id}", "/users/:id", "/users?id={id}" - // - // [absolute path reference]: https://www.rfc-editor.org/rfc/rfc3986#section-4.2 - URLTemplateKey = attribute.Key("url.template") - - // URLTopLevelDomainKey is the attribute Key conforming to the - // "url.top_level_domain" semantic conventions. It represents the effective top - // level domain (eTLD), also known as the domain suffix, is the last part of the - // domain name. For example, the top level domain for example.com is `com`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "com", "co.uk" - // Note: This value can be determined precisely with the [public suffix list]. - // - // [public suffix list]: https://publicsuffix.org/ - URLTopLevelDomainKey = attribute.Key("url.top_level_domain") -) - -// URLDomain returns an attribute KeyValue conforming to the "url.domain" -// semantic conventions. It represents the domain extracted from the `url.full`, -// such as "opentelemetry.io". -func URLDomain(val string) attribute.KeyValue { - return URLDomainKey.String(val) -} - -// URLExtension returns an attribute KeyValue conforming to the "url.extension" -// semantic conventions. It represents the file extension extracted from the -// `url.full`, excluding the leading dot. -func URLExtension(val string) attribute.KeyValue { - return URLExtensionKey.String(val) -} - -// URLFragment returns an attribute KeyValue conforming to the "url.fragment" -// semantic conventions. It represents the [URI fragment] component. -// -// [URI fragment]: https://www.rfc-editor.org/rfc/rfc3986#section-3.5 -func URLFragment(val string) attribute.KeyValue { - return URLFragmentKey.String(val) -} - -// URLFull returns an attribute KeyValue conforming to the "url.full" semantic -// conventions. It represents the absolute URL describing a network resource -// according to [RFC3986]. -// -// [RFC3986]: https://www.rfc-editor.org/rfc/rfc3986 -func URLFull(val string) attribute.KeyValue { - return URLFullKey.String(val) -} - -// URLOriginal returns an attribute KeyValue conforming to the "url.original" -// semantic conventions. It represents the unmodified original URL as seen in the -// event source. -func URLOriginal(val string) attribute.KeyValue { - return URLOriginalKey.String(val) -} - -// URLPath returns an attribute KeyValue conforming to the "url.path" semantic -// conventions. It represents the [URI path] component. -// -// [URI path]: https://www.rfc-editor.org/rfc/rfc3986#section-3.3 -func URLPath(val string) attribute.KeyValue { - return URLPathKey.String(val) -} - -// URLPort returns an attribute KeyValue conforming to the "url.port" semantic -// conventions. It represents the port extracted from the `url.full`. -func URLPort(val int) attribute.KeyValue { - return URLPortKey.Int(val) -} - -// URLQuery returns an attribute KeyValue conforming to the "url.query" semantic -// conventions. It represents the [URI query] component. -// -// [URI query]: https://www.rfc-editor.org/rfc/rfc3986#section-3.4 -func URLQuery(val string) attribute.KeyValue { - return URLQueryKey.String(val) -} - -// URLRegisteredDomain returns an attribute KeyValue conforming to the -// "url.registered_domain" semantic conventions. It represents the highest -// registered url domain, stripped of the subdomain. -func URLRegisteredDomain(val string) attribute.KeyValue { - return URLRegisteredDomainKey.String(val) -} - -// URLScheme returns an attribute KeyValue conforming to the "url.scheme" -// semantic conventions. It represents the [URI scheme] component identifying the -// used protocol. -// -// [URI scheme]: https://www.rfc-editor.org/rfc/rfc3986#section-3.1 -func URLScheme(val string) attribute.KeyValue { - return URLSchemeKey.String(val) -} - -// URLSubdomain returns an attribute KeyValue conforming to the "url.subdomain" -// semantic conventions. It represents the subdomain portion of a fully qualified -// domain name includes all of the names except the host name under the -// registered_domain. In a partially qualified domain, or if the qualification -// level of the full name cannot be determined, subdomain contains all of the -// names below the registered domain. -func URLSubdomain(val string) attribute.KeyValue { - return URLSubdomainKey.String(val) -} - -// URLTemplate returns an attribute KeyValue conforming to the "url.template" -// semantic conventions. It represents the low-cardinality template of an -// [absolute path reference]. -// -// [absolute path reference]: https://www.rfc-editor.org/rfc/rfc3986#section-4.2 -func URLTemplate(val string) attribute.KeyValue { - return URLTemplateKey.String(val) -} - -// URLTopLevelDomain returns an attribute KeyValue conforming to the -// "url.top_level_domain" semantic conventions. It represents the effective top -// level domain (eTLD), also known as the domain suffix, is the last part of the -// domain name. For example, the top level domain for example.com is `com`. -func URLTopLevelDomain(val string) attribute.KeyValue { - return URLTopLevelDomainKey.String(val) -} - -// Namespace: user -const ( - // UserEmailKey is the attribute Key conforming to the "user.email" semantic - // conventions. It represents the user email address. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "a.einstein@example.com" - UserEmailKey = attribute.Key("user.email") - - // UserFullNameKey is the attribute Key conforming to the "user.full_name" - // semantic conventions. It represents the user's full name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Albert Einstein" - UserFullNameKey = attribute.Key("user.full_name") - - // UserHashKey is the attribute Key conforming to the "user.hash" semantic - // conventions. It represents the unique user hash to correlate information for - // a user in anonymized form. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "364fc68eaf4c8acec74a4e52d7d1feaa" - // Note: Useful if `user.id` or `user.name` contain confidential information and - // cannot be used. - UserHashKey = attribute.Key("user.hash") - - // UserIDKey is the attribute Key conforming to the "user.id" semantic - // conventions. It represents the unique identifier of the user. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "S-1-5-21-202424912787-2692429404-2351956786-1000" - UserIDKey = attribute.Key("user.id") - - // UserNameKey is the attribute Key conforming to the "user.name" semantic - // conventions. It represents the short name or login/username of the user. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "a.einstein" - UserNameKey = attribute.Key("user.name") - - // UserRolesKey is the attribute Key conforming to the "user.roles" semantic - // conventions. It represents the array of user roles at the time of the event. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "admin", "reporting_user" - UserRolesKey = attribute.Key("user.roles") -) - -// UserEmail returns an attribute KeyValue conforming to the "user.email" -// semantic conventions. It represents the user email address. -func UserEmail(val string) attribute.KeyValue { - return UserEmailKey.String(val) -} - -// UserFullName returns an attribute KeyValue conforming to the "user.full_name" -// semantic conventions. It represents the user's full name. -func UserFullName(val string) attribute.KeyValue { - return UserFullNameKey.String(val) -} - -// UserHash returns an attribute KeyValue conforming to the "user.hash" semantic -// conventions. It represents the unique user hash to correlate information for a -// user in anonymized form. -func UserHash(val string) attribute.KeyValue { - return UserHashKey.String(val) -} - -// UserID returns an attribute KeyValue conforming to the "user.id" semantic -// conventions. It represents the unique identifier of the user. -func UserID(val string) attribute.KeyValue { - return UserIDKey.String(val) -} - -// UserName returns an attribute KeyValue conforming to the "user.name" semantic -// conventions. It represents the short name or login/username of the user. -func UserName(val string) attribute.KeyValue { - return UserNameKey.String(val) -} - -// UserRoles returns an attribute KeyValue conforming to the "user.roles" -// semantic conventions. It represents the array of user roles at the time of the -// event. -func UserRoles(val ...string) attribute.KeyValue { - return UserRolesKey.StringSlice(val) -} - -// Namespace: user_agent -const ( - // UserAgentNameKey is the attribute Key conforming to the "user_agent.name" - // semantic conventions. It represents the name of the user-agent extracted from - // original. Usually refers to the browser's name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Safari", "YourApp" - // Note: [Example] of extracting browser's name from original string. In the - // case of using a user-agent for non-browser products, such as microservices - // with multiple names/versions inside the `user_agent.original`, the most - // significant name SHOULD be selected. In such a scenario it should align with - // `user_agent.version` - // - // [Example]: https://uaparser.dev/#demo - UserAgentNameKey = attribute.Key("user_agent.name") - - // UserAgentOriginalKey is the attribute Key conforming to the - // "user_agent.original" semantic conventions. It represents the value of the - // [HTTP User-Agent] header sent by the client. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "CERN-LineMode/2.15 libwww/2.17b3", "Mozilla/5.0 (iPhone; CPU - // iPhone OS 14_7_1 like Mac OS X) AppleWebKit/605.1.15 (KHTML, like Gecko) - // Version/14.1.2 Mobile/15E148 Safari/604.1", "YourApp/1.0.0 - // grpc-java-okhttp/1.27.2" - // - // [HTTP User-Agent]: https://www.rfc-editor.org/rfc/rfc9110.html#field.user-agent - UserAgentOriginalKey = attribute.Key("user_agent.original") - - // UserAgentOSNameKey is the attribute Key conforming to the - // "user_agent.os.name" semantic conventions. It represents the human readable - // operating system name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "iOS", "Android", "Ubuntu" - // Note: For mapping user agent strings to OS names, libraries such as - // [ua-parser] can be utilized. - // - // [ua-parser]: https://github.com/ua-parser - UserAgentOSNameKey = attribute.Key("user_agent.os.name") - - // UserAgentOSVersionKey is the attribute Key conforming to the - // "user_agent.os.version" semantic conventions. It represents the version - // string of the operating system as defined in [Version Attributes]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "14.2.1", "18.04.1" - // Note: For mapping user agent strings to OS versions, libraries such as - // [ua-parser] can be utilized. - // - // [Version Attributes]: /docs/resource/README.md#version-attributes - // [ua-parser]: https://github.com/ua-parser - UserAgentOSVersionKey = attribute.Key("user_agent.os.version") - - // UserAgentSyntheticTypeKey is the attribute Key conforming to the - // "user_agent.synthetic.type" semantic conventions. It represents the specifies - // the category of synthetic traffic, such as tests or bots. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: This attribute MAY be derived from the contents of the - // `user_agent.original` attribute. Components that populate the attribute are - // responsible for determining what they consider to be synthetic bot or test - // traffic. This attribute can either be set for self-identification purposes, - // or on telemetry detected to be generated as a result of a synthetic request. - // This attribute is useful for distinguishing between genuine client traffic - // and synthetic traffic generated by bots or tests. - UserAgentSyntheticTypeKey = attribute.Key("user_agent.synthetic.type") - - // UserAgentVersionKey is the attribute Key conforming to the - // "user_agent.version" semantic conventions. It represents the version of the - // user-agent extracted from original. Usually refers to the browser's version. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "14.1.2", "1.0.0" - // Note: [Example] of extracting browser's version from original string. In the - // case of using a user-agent for non-browser products, such as microservices - // with multiple names/versions inside the `user_agent.original`, the most - // significant version SHOULD be selected. In such a scenario it should align - // with `user_agent.name` - // - // [Example]: https://uaparser.dev/#demo - UserAgentVersionKey = attribute.Key("user_agent.version") -) - -// UserAgentName returns an attribute KeyValue conforming to the -// "user_agent.name" semantic conventions. It represents the name of the -// user-agent extracted from original. Usually refers to the browser's name. -func UserAgentName(val string) attribute.KeyValue { - return UserAgentNameKey.String(val) -} - -// UserAgentOriginal returns an attribute KeyValue conforming to the -// "user_agent.original" semantic conventions. It represents the value of the -// [HTTP User-Agent] header sent by the client. -// -// [HTTP User-Agent]: https://www.rfc-editor.org/rfc/rfc9110.html#field.user-agent -func UserAgentOriginal(val string) attribute.KeyValue { - return UserAgentOriginalKey.String(val) -} - -// UserAgentOSName returns an attribute KeyValue conforming to the -// "user_agent.os.name" semantic conventions. It represents the human readable -// operating system name. -func UserAgentOSName(val string) attribute.KeyValue { - return UserAgentOSNameKey.String(val) -} - -// UserAgentOSVersion returns an attribute KeyValue conforming to the -// "user_agent.os.version" semantic conventions. It represents the version string -// of the operating system as defined in [Version Attributes]. -// -// [Version Attributes]: /docs/resource/README.md#version-attributes -func UserAgentOSVersion(val string) attribute.KeyValue { - return UserAgentOSVersionKey.String(val) -} - -// UserAgentVersion returns an attribute KeyValue conforming to the -// "user_agent.version" semantic conventions. It represents the version of the -// user-agent extracted from original. Usually refers to the browser's version. -func UserAgentVersion(val string) attribute.KeyValue { - return UserAgentVersionKey.String(val) -} - -// Enum values for user_agent.synthetic.type -var ( - // Bot source. - // Stability: development - UserAgentSyntheticTypeBot = UserAgentSyntheticTypeKey.String("bot") - // Synthetic test source. - // Stability: development - UserAgentSyntheticTypeTest = UserAgentSyntheticTypeKey.String("test") -) - -// Namespace: vcs -const ( - // VCSChangeIDKey is the attribute Key conforming to the "vcs.change.id" - // semantic conventions. It represents the ID of the change (pull request/merge - // request/changelist) if applicable. This is usually a unique (within - // repository) identifier generated by the VCS system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "123" - VCSChangeIDKey = attribute.Key("vcs.change.id") - - // VCSChangeStateKey is the attribute Key conforming to the "vcs.change.state" - // semantic conventions. It represents the state of the change (pull - // request/merge request/changelist). - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "open", "closed", "merged" - VCSChangeStateKey = attribute.Key("vcs.change.state") - - // VCSChangeTitleKey is the attribute Key conforming to the "vcs.change.title" - // semantic conventions. It represents the human readable title of the change - // (pull request/merge request/changelist). This title is often a brief summary - // of the change and may get merged in to a ref as the commit summary. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Fixes broken thing", "feat: add my new feature", "[chore] update - // dependency" - VCSChangeTitleKey = attribute.Key("vcs.change.title") - - // VCSLineChangeTypeKey is the attribute Key conforming to the - // "vcs.line_change.type" semantic conventions. It represents the type of line - // change being measured on a branch or change. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "added", "removed" - VCSLineChangeTypeKey = attribute.Key("vcs.line_change.type") - - // VCSOwnerNameKey is the attribute Key conforming to the "vcs.owner.name" - // semantic conventions. It represents the group owner within the version - // control system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-org", "myteam", "business-unit" - VCSOwnerNameKey = attribute.Key("vcs.owner.name") - - // VCSProviderNameKey is the attribute Key conforming to the "vcs.provider.name" - // semantic conventions. It represents the name of the version control system - // provider. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "github", "gitlab", "gitea", "bitbucket" - VCSProviderNameKey = attribute.Key("vcs.provider.name") - - // VCSRefBaseNameKey is the attribute Key conforming to the "vcs.ref.base.name" - // semantic conventions. It represents the name of the [reference] such as - // **branch** or **tag** in the repository. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-feature-branch", "tag-1-test" - // Note: `base` refers to the starting point of a change. For example, `main` - // would be the base reference of type branch if you've created a new - // reference of type branch from it and created new commits. - // - // [reference]: https://git-scm.com/docs/gitglossary#def_ref - VCSRefBaseNameKey = attribute.Key("vcs.ref.base.name") - - // VCSRefBaseRevisionKey is the attribute Key conforming to the - // "vcs.ref.base.revision" semantic conventions. It represents the revision, - // literally [revised version], The revision most often refers to a commit - // object in Git, or a revision number in SVN. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "9d59409acf479dfa0df1aa568182e43e43df8bbe28d60fcf2bc52e30068802cc", - // "main", "123", "HEAD" - // Note: `base` refers to the starting point of a change. For example, `main` - // would be the base reference of type branch if you've created a new - // reference of type branch from it and created new commits. The - // revision can be a full [hash value (see - // glossary)], - // of the recorded change to a ref within a repository pointing to a - // commit [commit] object. It does - // not necessarily have to be a hash; it can simply define a [revision - // number] - // which is an integer that is monotonically increasing. In cases where - // it is identical to the `ref.base.name`, it SHOULD still be included. - // It is up to the implementer to decide which value to set as the - // revision based on the VCS system and situational context. - // - // [revised version]: https://www.merriam-webster.com/dictionary/revision - // [hash value (see - // glossary)]: https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-5.pdf - // [commit]: https://git-scm.com/docs/git-commit - // [revision - // number]: https://svnbook.red-bean.com/en/1.7/svn.tour.revs.specifiers.html - VCSRefBaseRevisionKey = attribute.Key("vcs.ref.base.revision") - - // VCSRefBaseTypeKey is the attribute Key conforming to the "vcs.ref.base.type" - // semantic conventions. It represents the type of the [reference] in the - // repository. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "branch", "tag" - // Note: `base` refers to the starting point of a change. For example, `main` - // would be the base reference of type branch if you've created a new - // reference of type branch from it and created new commits. - // - // [reference]: https://git-scm.com/docs/gitglossary#def_ref - VCSRefBaseTypeKey = attribute.Key("vcs.ref.base.type") - - // VCSRefHeadNameKey is the attribute Key conforming to the "vcs.ref.head.name" - // semantic conventions. It represents the name of the [reference] such as - // **branch** or **tag** in the repository. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-feature-branch", "tag-1-test" - // Note: `head` refers to where you are right now; the current reference at a - // given time. - // - // [reference]: https://git-scm.com/docs/gitglossary#def_ref - VCSRefHeadNameKey = attribute.Key("vcs.ref.head.name") - - // VCSRefHeadRevisionKey is the attribute Key conforming to the - // "vcs.ref.head.revision" semantic conventions. It represents the revision, - // literally [revised version], The revision most often refers to a commit - // object in Git, or a revision number in SVN. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "9d59409acf479dfa0df1aa568182e43e43df8bbe28d60fcf2bc52e30068802cc", - // "main", "123", "HEAD" - // Note: `head` refers to where you are right now; the current reference at a - // given time.The revision can be a full [hash value (see - // glossary)], - // of the recorded change to a ref within a repository pointing to a - // commit [commit] object. It does - // not necessarily have to be a hash; it can simply define a [revision - // number] - // which is an integer that is monotonically increasing. In cases where - // it is identical to the `ref.head.name`, it SHOULD still be included. - // It is up to the implementer to decide which value to set as the - // revision based on the VCS system and situational context. - // - // [revised version]: https://www.merriam-webster.com/dictionary/revision - // [hash value (see - // glossary)]: https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-5.pdf - // [commit]: https://git-scm.com/docs/git-commit - // [revision - // number]: https://svnbook.red-bean.com/en/1.7/svn.tour.revs.specifiers.html - VCSRefHeadRevisionKey = attribute.Key("vcs.ref.head.revision") - - // VCSRefHeadTypeKey is the attribute Key conforming to the "vcs.ref.head.type" - // semantic conventions. It represents the type of the [reference] in the - // repository. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "branch", "tag" - // Note: `head` refers to where you are right now; the current reference at a - // given time. - // - // [reference]: https://git-scm.com/docs/gitglossary#def_ref - VCSRefHeadTypeKey = attribute.Key("vcs.ref.head.type") - - // VCSRefTypeKey is the attribute Key conforming to the "vcs.ref.type" semantic - // conventions. It represents the type of the [reference] in the repository. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "branch", "tag" - // - // [reference]: https://git-scm.com/docs/gitglossary#def_ref - VCSRefTypeKey = attribute.Key("vcs.ref.type") - - // VCSRepositoryNameKey is the attribute Key conforming to the - // "vcs.repository.name" semantic conventions. It represents the human readable - // name of the repository. It SHOULD NOT include any additional identifier like - // Group/SubGroup in GitLab or organization in GitHub. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "semantic-conventions", "my-cool-repo" - // Note: Due to it only being the name, it can clash with forks of the same - // repository if collecting telemetry across multiple orgs or groups in - // the same backends. - VCSRepositoryNameKey = attribute.Key("vcs.repository.name") - - // VCSRepositoryURLFullKey is the attribute Key conforming to the - // "vcs.repository.url.full" semantic conventions. It represents the - // [canonical URL] of the repository providing the complete HTTP(S) address in - // order to locate and identify the repository through a browser. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "https://github.com/opentelemetry/open-telemetry-collector-contrib", - // "https://gitlab.com/my-org/my-project/my-projects-project/repo" - // Note: In Git Version Control Systems, the canonical URL SHOULD NOT include - // the `.git` extension. - // - // [canonical URL]: https://support.google.com/webmasters/answer/10347851 - VCSRepositoryURLFullKey = attribute.Key("vcs.repository.url.full") - - // VCSRevisionDeltaDirectionKey is the attribute Key conforming to the - // "vcs.revision_delta.direction" semantic conventions. It represents the type - // of revision comparison. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "ahead", "behind" - VCSRevisionDeltaDirectionKey = attribute.Key("vcs.revision_delta.direction") -) - -// VCSChangeID returns an attribute KeyValue conforming to the "vcs.change.id" -// semantic conventions. It represents the ID of the change (pull request/merge -// request/changelist) if applicable. This is usually a unique (within -// repository) identifier generated by the VCS system. -func VCSChangeID(val string) attribute.KeyValue { - return VCSChangeIDKey.String(val) -} - -// VCSChangeTitle returns an attribute KeyValue conforming to the -// "vcs.change.title" semantic conventions. It represents the human readable -// title of the change (pull request/merge request/changelist). This title is -// often a brief summary of the change and may get merged in to a ref as the -// commit summary. -func VCSChangeTitle(val string) attribute.KeyValue { - return VCSChangeTitleKey.String(val) -} - -// VCSOwnerName returns an attribute KeyValue conforming to the "vcs.owner.name" -// semantic conventions. It represents the group owner within the version control -// system. -func VCSOwnerName(val string) attribute.KeyValue { - return VCSOwnerNameKey.String(val) -} - -// VCSRefBaseName returns an attribute KeyValue conforming to the -// "vcs.ref.base.name" semantic conventions. It represents the name of the -// [reference] such as **branch** or **tag** in the repository. -// -// [reference]: https://git-scm.com/docs/gitglossary#def_ref -func VCSRefBaseName(val string) attribute.KeyValue { - return VCSRefBaseNameKey.String(val) -} - -// VCSRefBaseRevision returns an attribute KeyValue conforming to the -// "vcs.ref.base.revision" semantic conventions. It represents the revision, -// literally [revised version], The revision most often refers to a commit object -// in Git, or a revision number in SVN. -// -// [revised version]: https://www.merriam-webster.com/dictionary/revision -func VCSRefBaseRevision(val string) attribute.KeyValue { - return VCSRefBaseRevisionKey.String(val) -} - -// VCSRefHeadName returns an attribute KeyValue conforming to the -// "vcs.ref.head.name" semantic conventions. It represents the name of the -// [reference] such as **branch** or **tag** in the repository. -// -// [reference]: https://git-scm.com/docs/gitglossary#def_ref -func VCSRefHeadName(val string) attribute.KeyValue { - return VCSRefHeadNameKey.String(val) -} - -// VCSRefHeadRevision returns an attribute KeyValue conforming to the -// "vcs.ref.head.revision" semantic conventions. It represents the revision, -// literally [revised version], The revision most often refers to a commit object -// in Git, or a revision number in SVN. -// -// [revised version]: https://www.merriam-webster.com/dictionary/revision -func VCSRefHeadRevision(val string) attribute.KeyValue { - return VCSRefHeadRevisionKey.String(val) -} - -// VCSRepositoryName returns an attribute KeyValue conforming to the -// "vcs.repository.name" semantic conventions. It represents the human readable -// name of the repository. It SHOULD NOT include any additional identifier like -// Group/SubGroup in GitLab or organization in GitHub. -func VCSRepositoryName(val string) attribute.KeyValue { - return VCSRepositoryNameKey.String(val) -} - -// VCSRepositoryURLFull returns an attribute KeyValue conforming to the -// "vcs.repository.url.full" semantic conventions. It represents the -// [canonical URL] of the repository providing the complete HTTP(S) address in -// order to locate and identify the repository through a browser. -// -// [canonical URL]: https://support.google.com/webmasters/answer/10347851 -func VCSRepositoryURLFull(val string) attribute.KeyValue { - return VCSRepositoryURLFullKey.String(val) -} - -// Enum values for vcs.change.state -var ( - // Open means the change is currently active and under review. It hasn't been - // merged into the target branch yet, and it's still possible to make changes or - // add comments. - // Stability: development - VCSChangeStateOpen = VCSChangeStateKey.String("open") - // WIP (work-in-progress, draft) means the change is still in progress and not - // yet ready for a full review. It might still undergo significant changes. - // Stability: development - VCSChangeStateWip = VCSChangeStateKey.String("wip") - // Closed means the merge request has been closed without merging. This can - // happen for various reasons, such as the changes being deemed unnecessary, the - // issue being resolved in another way, or the author deciding to withdraw the - // request. - // Stability: development - VCSChangeStateClosed = VCSChangeStateKey.String("closed") - // Merged indicates that the change has been successfully integrated into the - // target codebase. - // Stability: development - VCSChangeStateMerged = VCSChangeStateKey.String("merged") -) - -// Enum values for vcs.line_change.type -var ( - // How many lines were added. - // Stability: development - VCSLineChangeTypeAdded = VCSLineChangeTypeKey.String("added") - // How many lines were removed. - // Stability: development - VCSLineChangeTypeRemoved = VCSLineChangeTypeKey.String("removed") -) - -// Enum values for vcs.provider.name -var ( - // [GitHub] - // Stability: development - // - // [GitHub]: https://github.com - VCSProviderNameGithub = VCSProviderNameKey.String("github") - // [GitLab] - // Stability: development - // - // [GitLab]: https://gitlab.com - VCSProviderNameGitlab = VCSProviderNameKey.String("gitlab") - // [Gitea] - // Stability: development - // - // [Gitea]: https://gitea.io - VCSProviderNameGitea = VCSProviderNameKey.String("gitea") - // [Bitbucket] - // Stability: development - // - // [Bitbucket]: https://bitbucket.org - VCSProviderNameBitbucket = VCSProviderNameKey.String("bitbucket") -) - -// Enum values for vcs.ref.base.type -var ( - // [branch] - // Stability: development - // - // [branch]: https://git-scm.com/docs/gitglossary#Documentation/gitglossary.txt-aiddefbranchabranch - VCSRefBaseTypeBranch = VCSRefBaseTypeKey.String("branch") - // [tag] - // Stability: development - // - // [tag]: https://git-scm.com/docs/gitglossary#Documentation/gitglossary.txt-aiddeftagatag - VCSRefBaseTypeTag = VCSRefBaseTypeKey.String("tag") -) - -// Enum values for vcs.ref.head.type -var ( - // [branch] - // Stability: development - // - // [branch]: https://git-scm.com/docs/gitglossary#Documentation/gitglossary.txt-aiddefbranchabranch - VCSRefHeadTypeBranch = VCSRefHeadTypeKey.String("branch") - // [tag] - // Stability: development - // - // [tag]: https://git-scm.com/docs/gitglossary#Documentation/gitglossary.txt-aiddeftagatag - VCSRefHeadTypeTag = VCSRefHeadTypeKey.String("tag") -) - -// Enum values for vcs.ref.type -var ( - // [branch] - // Stability: development - // - // [branch]: https://git-scm.com/docs/gitglossary#Documentation/gitglossary.txt-aiddefbranchabranch - VCSRefTypeBranch = VCSRefTypeKey.String("branch") - // [tag] - // Stability: development - // - // [tag]: https://git-scm.com/docs/gitglossary#Documentation/gitglossary.txt-aiddeftagatag - VCSRefTypeTag = VCSRefTypeKey.String("tag") -) - -// Enum values for vcs.revision_delta.direction -var ( - // How many revisions the change is behind the target ref. - // Stability: development - VCSRevisionDeltaDirectionBehind = VCSRevisionDeltaDirectionKey.String("behind") - // How many revisions the change is ahead of the target ref. - // Stability: development - VCSRevisionDeltaDirectionAhead = VCSRevisionDeltaDirectionKey.String("ahead") -) - -// Namespace: webengine -const ( - // WebEngineDescriptionKey is the attribute Key conforming to the - // "webengine.description" semantic conventions. It represents the additional - // description of the web engine (e.g. detailed version and edition - // information). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "WildFly Full 21.0.0.Final (WildFly Core 13.0.1.Final) - - // 2.2.2.Final" - WebEngineDescriptionKey = attribute.Key("webengine.description") - - // WebEngineNameKey is the attribute Key conforming to the "webengine.name" - // semantic conventions. It represents the name of the web engine. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "WildFly" - WebEngineNameKey = attribute.Key("webengine.name") - - // WebEngineVersionKey is the attribute Key conforming to the - // "webengine.version" semantic conventions. It represents the version of the - // web engine. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "21.0.0" - WebEngineVersionKey = attribute.Key("webengine.version") -) - -// WebEngineDescription returns an attribute KeyValue conforming to the -// "webengine.description" semantic conventions. It represents the additional -// description of the web engine (e.g. detailed version and edition information). -func WebEngineDescription(val string) attribute.KeyValue { - return WebEngineDescriptionKey.String(val) -} - -// WebEngineName returns an attribute KeyValue conforming to the "webengine.name" -// semantic conventions. It represents the name of the web engine. -func WebEngineName(val string) attribute.KeyValue { - return WebEngineNameKey.String(val) -} - -// WebEngineVersion returns an attribute KeyValue conforming to the -// "webengine.version" semantic conventions. It represents the version of the web -// engine. -func WebEngineVersion(val string) attribute.KeyValue { - return WebEngineVersionKey.String(val) -} - -// Namespace: zos -const ( - // ZOSSmfIDKey is the attribute Key conforming to the "zos.smf.id" semantic - // conventions. It represents the System Management Facility (SMF) Identifier - // uniquely identified a z/OS system within a SYSPLEX or mainframe environment - // and is used for system and performance analysis. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "SYS1" - ZOSSmfIDKey = attribute.Key("zos.smf.id") - - // ZOSSysplexNameKey is the attribute Key conforming to the "zos.sysplex.name" - // semantic conventions. It represents the name of the SYSPLEX to which the z/OS - // system belongs too. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "SYSPLEX1" - ZOSSysplexNameKey = attribute.Key("zos.sysplex.name") -) - -// ZOSSmfID returns an attribute KeyValue conforming to the "zos.smf.id" semantic -// conventions. It represents the System Management Facility (SMF) Identifier -// uniquely identified a z/OS system within a SYSPLEX or mainframe environment -// and is used for system and performance analysis. -func ZOSSmfID(val string) attribute.KeyValue { - return ZOSSmfIDKey.String(val) -} - -// ZOSSysplexName returns an attribute KeyValue conforming to the -// "zos.sysplex.name" semantic conventions. It represents the name of the SYSPLEX -// to which the z/OS system belongs too. -func ZOSSysplexName(val string) attribute.KeyValue { - return ZOSSysplexNameKey.String(val) -} \ No newline at end of file diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/doc.go b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/doc.go deleted file mode 100644 index 852362ef77..0000000000 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/doc.go +++ /dev/null @@ -1,9 +0,0 @@ -// Copyright The OpenTelemetry Authors -// SPDX-License-Identifier: Apache-2.0 - -// Package semconv implements OpenTelemetry semantic conventions. -// -// OpenTelemetry semantic conventions are agreed standardized naming -// patterns for OpenTelemetry things. This package represents the v1.39.0 -// version of the OpenTelemetry semantic conventions. -package semconv // import "go.opentelemetry.io/otel/semconv/v1.39.0" diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/error_type.go b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/error_type.go deleted file mode 100644 index 84cf636a72..0000000000 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/error_type.go +++ /dev/null @@ -1,56 +0,0 @@ -// Copyright The OpenTelemetry Authors -// SPDX-License-Identifier: Apache-2.0 - -package semconv // import "go.opentelemetry.io/otel/semconv/v1.39.0" - -import ( - "reflect" - - "go.opentelemetry.io/otel/attribute" -) - -// ErrorType returns an [attribute.KeyValue] identifying the error type of err. -// -// If err is nil, the returned attribute has the default value -// [ErrorTypeOther]. -// -// If err's type has the method -// -// ErrorType() string -// -// then the returned attribute has the value of err.ErrorType(). Otherwise, the -// returned attribute has a value derived from the concrete type of err. -// -// The key of the returned attribute is [ErrorTypeKey]. -func ErrorType(err error) attribute.KeyValue { - if err == nil { - return ErrorTypeOther - } - - return ErrorTypeKey.String(errorType(err)) -} - -func errorType(err error) string { - var s string - if et, ok := err.(interface{ ErrorType() string }); ok { - // Prioritize the ErrorType method if available. - s = et.ErrorType() - } - if s == "" { - // Fallback to reflection if the ErrorType method is not supported or - // returns an empty value. - - t := reflect.TypeOf(err) - pkg, name := t.PkgPath(), t.Name() - if pkg != "" && name != "" { - s = pkg + "." + name - } else { - // The type has no package path or name (predeclared, not-defined, - // or alias for a not-defined type). - // - // This is not guaranteed to be unique, but is a best effort. - s = t.String() - } - } - return s -} diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/exception.go b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/exception.go deleted file mode 100644 index 7b688ecc33..0000000000 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/exception.go +++ /dev/null @@ -1,9 +0,0 @@ -// Copyright The OpenTelemetry Authors -// SPDX-License-Identifier: Apache-2.0 - -package semconv // import "go.opentelemetry.io/otel/semconv/v1.39.0" - -const ( - // ExceptionEventName is the name of the Span event representing an exception. - ExceptionEventName = "exception" -) diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/otelconv/metric.go b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/otelconv/metric.go deleted file mode 100644 index 901da86985..0000000000 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/otelconv/metric.go +++ /dev/null @@ -1,2222 +0,0 @@ -// Code generated from semantic convention specification. DO NOT EDIT. - -// Copyright The OpenTelemetry Authors -// SPDX-License-Identifier: Apache-2.0 - -// Package otelconv provides types and functionality for OpenTelemetry semantic -// conventions in the "otel" namespace. -package otelconv - -import ( - "context" - "sync" - - "go.opentelemetry.io/otel/attribute" - "go.opentelemetry.io/otel/metric" - "go.opentelemetry.io/otel/metric/noop" -) - -var ( - addOptPool = &sync.Pool{New: func() any { return &[]metric.AddOption{} }} - recOptPool = &sync.Pool{New: func() any { return &[]metric.RecordOption{} }} -) - -// ErrorTypeAttr is an attribute conforming to the error.type semantic -// conventions. It represents the describes a class of error the operation ended -// with. -type ErrorTypeAttr string - -var ( - // ErrorTypeOther is a fallback error value to be used when the instrumentation - // doesn't define a custom value. - ErrorTypeOther ErrorTypeAttr = "_OTHER" -) - -// ComponentTypeAttr is an attribute conforming to the otel.component.type -// semantic conventions. It represents a name identifying the type of the -// OpenTelemetry component. -type ComponentTypeAttr string - -var ( - // ComponentTypeBatchingSpanProcessor is the builtin SDK batching span - // processor. - ComponentTypeBatchingSpanProcessor ComponentTypeAttr = "batching_span_processor" - // ComponentTypeSimpleSpanProcessor is the builtin SDK simple span processor. - ComponentTypeSimpleSpanProcessor ComponentTypeAttr = "simple_span_processor" - // ComponentTypeBatchingLogProcessor is the builtin SDK batching log record - // processor. - ComponentTypeBatchingLogProcessor ComponentTypeAttr = "batching_log_processor" - // ComponentTypeSimpleLogProcessor is the builtin SDK simple log record - // processor. - ComponentTypeSimpleLogProcessor ComponentTypeAttr = "simple_log_processor" - // ComponentTypeOtlpGRPCSpanExporter is the OTLP span exporter over gRPC with - // protobuf serialization. - ComponentTypeOtlpGRPCSpanExporter ComponentTypeAttr = "otlp_grpc_span_exporter" - // ComponentTypeOtlpHTTPSpanExporter is the OTLP span exporter over HTTP with - // protobuf serialization. - ComponentTypeOtlpHTTPSpanExporter ComponentTypeAttr = "otlp_http_span_exporter" - // ComponentTypeOtlpHTTPJSONSpanExporter is the OTLP span exporter over HTTP - // with JSON serialization. - ComponentTypeOtlpHTTPJSONSpanExporter ComponentTypeAttr = "otlp_http_json_span_exporter" - // ComponentTypeZipkinHTTPSpanExporter is the zipkin span exporter over HTTP. - ComponentTypeZipkinHTTPSpanExporter ComponentTypeAttr = "zipkin_http_span_exporter" - // ComponentTypeOtlpGRPCLogExporter is the OTLP log record exporter over gRPC - // with protobuf serialization. - ComponentTypeOtlpGRPCLogExporter ComponentTypeAttr = "otlp_grpc_log_exporter" - // ComponentTypeOtlpHTTPLogExporter is the OTLP log record exporter over HTTP - // with protobuf serialization. - ComponentTypeOtlpHTTPLogExporter ComponentTypeAttr = "otlp_http_log_exporter" - // ComponentTypeOtlpHTTPJSONLogExporter is the OTLP log record exporter over - // HTTP with JSON serialization. - ComponentTypeOtlpHTTPJSONLogExporter ComponentTypeAttr = "otlp_http_json_log_exporter" - // ComponentTypePeriodicMetricReader is the builtin SDK periodically exporting - // metric reader. - ComponentTypePeriodicMetricReader ComponentTypeAttr = "periodic_metric_reader" - // ComponentTypeOtlpGRPCMetricExporter is the OTLP metric exporter over gRPC - // with protobuf serialization. - ComponentTypeOtlpGRPCMetricExporter ComponentTypeAttr = "otlp_grpc_metric_exporter" - // ComponentTypeOtlpHTTPMetricExporter is the OTLP metric exporter over HTTP - // with protobuf serialization. - ComponentTypeOtlpHTTPMetricExporter ComponentTypeAttr = "otlp_http_metric_exporter" - // ComponentTypeOtlpHTTPJSONMetricExporter is the OTLP metric exporter over HTTP - // with JSON serialization. - ComponentTypeOtlpHTTPJSONMetricExporter ComponentTypeAttr = "otlp_http_json_metric_exporter" - // ComponentTypePrometheusHTTPTextMetricExporter is the prometheus metric - // exporter over HTTP with the default text-based format. - ComponentTypePrometheusHTTPTextMetricExporter ComponentTypeAttr = "prometheus_http_text_metric_exporter" -) - -// SpanParentOriginAttr is an attribute conforming to the otel.span.parent.origin -// semantic conventions. It represents the determines whether the span has a -// parent span, and if so, [whether it is a remote parent]. -// -// [whether it is a remote parent]: https://opentelemetry.io/docs/specs/otel/trace/api/#isremote -type SpanParentOriginAttr string - -var ( - // SpanParentOriginNone is the span does not have a parent, it is a root span. - SpanParentOriginNone SpanParentOriginAttr = "none" - // SpanParentOriginLocal is the span has a parent and the parent's span context - // [isRemote()] is false. - // - // [isRemote()]: https://opentelemetry.io/docs/specs/otel/trace/api/#isremote - SpanParentOriginLocal SpanParentOriginAttr = "local" - // SpanParentOriginRemote is the span has a parent and the parent's span context - // [isRemote()] is true. - // - // [isRemote()]: https://opentelemetry.io/docs/specs/otel/trace/api/#isremote - SpanParentOriginRemote SpanParentOriginAttr = "remote" -) - -// SpanSamplingResultAttr is an attribute conforming to the -// otel.span.sampling_result semantic conventions. It represents the result value -// of the sampler for this span. -type SpanSamplingResultAttr string - -var ( - // SpanSamplingResultDrop is the span is not sampled and not recording. - SpanSamplingResultDrop SpanSamplingResultAttr = "DROP" - // SpanSamplingResultRecordOnly is the span is not sampled, but recording. - SpanSamplingResultRecordOnly SpanSamplingResultAttr = "RECORD_ONLY" - // SpanSamplingResultRecordAndSample is the span is sampled and recording. - SpanSamplingResultRecordAndSample SpanSamplingResultAttr = "RECORD_AND_SAMPLE" -) - -// SDKExporterLogExported is an instrument used to record metric values -// conforming to the "otel.sdk.exporter.log.exported" semantic conventions. It -// represents the number of log records for which the export has finished, either -// successful or failed. -type SDKExporterLogExported struct { - metric.Int64Counter -} - -var newSDKExporterLogExportedOpts = []metric.Int64CounterOption{ - metric.WithDescription("The number of log records for which the export has finished, either successful or failed."), - metric.WithUnit("{log_record}"), -} - -// NewSDKExporterLogExported returns a new SDKExporterLogExported instrument. -func NewSDKExporterLogExported( - m metric.Meter, - opt ...metric.Int64CounterOption, -) (SDKExporterLogExported, error) { - // Check if the meter is nil. - if m == nil { - return SDKExporterLogExported{noop.Int64Counter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKExporterLogExportedOpts - } else { - opt = append(opt, newSDKExporterLogExportedOpts...) - } - - i, err := m.Int64Counter( - "otel.sdk.exporter.log.exported", - opt..., - ) - if err != nil { - return SDKExporterLogExported{noop.Int64Counter{}}, err - } - return SDKExporterLogExported{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKExporterLogExported) Inst() metric.Int64Counter { - return m.Int64Counter -} - -// Name returns the semantic convention name of the instrument. -func (SDKExporterLogExported) Name() string { - return "otel.sdk.exporter.log.exported" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKExporterLogExported) Unit() string { - return "{log_record}" -} - -// Description returns the semantic convention description of the instrument -func (SDKExporterLogExported) Description() string { - return "The number of log records for which the export has finished, either successful or failed." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -// For exporters with partial success semantics (e.g. OTLP with -// `rejected_log_records`), rejected log records MUST count as failed and only -// non-rejected log records count as success. -// If no rejection reason is available, `rejected` SHOULD be used as value for -// `error.type`. -func (m SDKExporterLogExported) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -// For exporters with partial success semantics (e.g. OTLP with -// `rejected_log_records`), rejected log records MUST count as failed and only -// non-rejected log records count as success. -// If no rejection reason is available, `rejected` SHOULD be used as value for -// `error.type`. -func (m SDKExporterLogExported) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AttrErrorType returns an optional attribute for the "error.type" semantic -// convention. It represents the describes a class of error the operation ended -// with. -func (SDKExporterLogExported) AttrErrorType(val ErrorTypeAttr) attribute.KeyValue { - return attribute.String("error.type", string(val)) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKExporterLogExported) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKExporterLogExported) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// AttrServerAddress returns an optional attribute for the "server.address" -// semantic convention. It represents the server domain name if available without -// reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func (SDKExporterLogExported) AttrServerAddress(val string) attribute.KeyValue { - return attribute.String("server.address", val) -} - -// AttrServerPort returns an optional attribute for the "server.port" semantic -// convention. It represents the server port number. -func (SDKExporterLogExported) AttrServerPort(val int) attribute.KeyValue { - return attribute.Int("server.port", val) -} - -// SDKExporterLogInflight is an instrument used to record metric values -// conforming to the "otel.sdk.exporter.log.inflight" semantic conventions. It -// represents the number of log records which were passed to the exporter, but -// that have not been exported yet (neither successful, nor failed). -type SDKExporterLogInflight struct { - metric.Int64UpDownCounter -} - -var newSDKExporterLogInflightOpts = []metric.Int64UpDownCounterOption{ - metric.WithDescription("The number of log records which were passed to the exporter, but that have not been exported yet (neither successful, nor failed)."), - metric.WithUnit("{log_record}"), -} - -// NewSDKExporterLogInflight returns a new SDKExporterLogInflight instrument. -func NewSDKExporterLogInflight( - m metric.Meter, - opt ...metric.Int64UpDownCounterOption, -) (SDKExporterLogInflight, error) { - // Check if the meter is nil. - if m == nil { - return SDKExporterLogInflight{noop.Int64UpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKExporterLogInflightOpts - } else { - opt = append(opt, newSDKExporterLogInflightOpts...) - } - - i, err := m.Int64UpDownCounter( - "otel.sdk.exporter.log.inflight", - opt..., - ) - if err != nil { - return SDKExporterLogInflight{noop.Int64UpDownCounter{}}, err - } - return SDKExporterLogInflight{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKExporterLogInflight) Inst() metric.Int64UpDownCounter { - return m.Int64UpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKExporterLogInflight) Name() string { - return "otel.sdk.exporter.log.inflight" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKExporterLogInflight) Unit() string { - return "{log_record}" -} - -// Description returns the semantic convention description of the instrument -func (SDKExporterLogInflight) Description() string { - return "The number of log records which were passed to the exporter, but that have not been exported yet (neither successful, nor failed)." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -func (m SDKExporterLogInflight) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -func (m SDKExporterLogInflight) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKExporterLogInflight) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKExporterLogInflight) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// AttrServerAddress returns an optional attribute for the "server.address" -// semantic convention. It represents the server domain name if available without -// reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func (SDKExporterLogInflight) AttrServerAddress(val string) attribute.KeyValue { - return attribute.String("server.address", val) -} - -// AttrServerPort returns an optional attribute for the "server.port" semantic -// convention. It represents the server port number. -func (SDKExporterLogInflight) AttrServerPort(val int) attribute.KeyValue { - return attribute.Int("server.port", val) -} - -// SDKExporterMetricDataPointExported is an instrument used to record metric -// values conforming to the "otel.sdk.exporter.metric_data_point.exported" -// semantic conventions. It represents the number of metric data points for which -// the export has finished, either successful or failed. -type SDKExporterMetricDataPointExported struct { - metric.Int64Counter -} - -var newSDKExporterMetricDataPointExportedOpts = []metric.Int64CounterOption{ - metric.WithDescription("The number of metric data points for which the export has finished, either successful or failed."), - metric.WithUnit("{data_point}"), -} - -// NewSDKExporterMetricDataPointExported returns a new -// SDKExporterMetricDataPointExported instrument. -func NewSDKExporterMetricDataPointExported( - m metric.Meter, - opt ...metric.Int64CounterOption, -) (SDKExporterMetricDataPointExported, error) { - // Check if the meter is nil. - if m == nil { - return SDKExporterMetricDataPointExported{noop.Int64Counter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKExporterMetricDataPointExportedOpts - } else { - opt = append(opt, newSDKExporterMetricDataPointExportedOpts...) - } - - i, err := m.Int64Counter( - "otel.sdk.exporter.metric_data_point.exported", - opt..., - ) - if err != nil { - return SDKExporterMetricDataPointExported{noop.Int64Counter{}}, err - } - return SDKExporterMetricDataPointExported{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKExporterMetricDataPointExported) Inst() metric.Int64Counter { - return m.Int64Counter -} - -// Name returns the semantic convention name of the instrument. -func (SDKExporterMetricDataPointExported) Name() string { - return "otel.sdk.exporter.metric_data_point.exported" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKExporterMetricDataPointExported) Unit() string { - return "{data_point}" -} - -// Description returns the semantic convention description of the instrument -func (SDKExporterMetricDataPointExported) Description() string { - return "The number of metric data points for which the export has finished, either successful or failed." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -// For exporters with partial success semantics (e.g. OTLP with -// `rejected_data_points`), rejected data points MUST count as failed and only -// non-rejected data points count as success. -// If no rejection reason is available, `rejected` SHOULD be used as value for -// `error.type`. -func (m SDKExporterMetricDataPointExported) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -// For exporters with partial success semantics (e.g. OTLP with -// `rejected_data_points`), rejected data points MUST count as failed and only -// non-rejected data points count as success. -// If no rejection reason is available, `rejected` SHOULD be used as value for -// `error.type`. -func (m SDKExporterMetricDataPointExported) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AttrErrorType returns an optional attribute for the "error.type" semantic -// convention. It represents the describes a class of error the operation ended -// with. -func (SDKExporterMetricDataPointExported) AttrErrorType(val ErrorTypeAttr) attribute.KeyValue { - return attribute.String("error.type", string(val)) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKExporterMetricDataPointExported) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKExporterMetricDataPointExported) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// AttrServerAddress returns an optional attribute for the "server.address" -// semantic convention. It represents the server domain name if available without -// reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func (SDKExporterMetricDataPointExported) AttrServerAddress(val string) attribute.KeyValue { - return attribute.String("server.address", val) -} - -// AttrServerPort returns an optional attribute for the "server.port" semantic -// convention. It represents the server port number. -func (SDKExporterMetricDataPointExported) AttrServerPort(val int) attribute.KeyValue { - return attribute.Int("server.port", val) -} - -// SDKExporterMetricDataPointInflight is an instrument used to record metric -// values conforming to the "otel.sdk.exporter.metric_data_point.inflight" -// semantic conventions. It represents the number of metric data points which -// were passed to the exporter, but that have not been exported yet (neither -// successful, nor failed). -type SDKExporterMetricDataPointInflight struct { - metric.Int64UpDownCounter -} - -var newSDKExporterMetricDataPointInflightOpts = []metric.Int64UpDownCounterOption{ - metric.WithDescription("The number of metric data points which were passed to the exporter, but that have not been exported yet (neither successful, nor failed)."), - metric.WithUnit("{data_point}"), -} - -// NewSDKExporterMetricDataPointInflight returns a new -// SDKExporterMetricDataPointInflight instrument. -func NewSDKExporterMetricDataPointInflight( - m metric.Meter, - opt ...metric.Int64UpDownCounterOption, -) (SDKExporterMetricDataPointInflight, error) { - // Check if the meter is nil. - if m == nil { - return SDKExporterMetricDataPointInflight{noop.Int64UpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKExporterMetricDataPointInflightOpts - } else { - opt = append(opt, newSDKExporterMetricDataPointInflightOpts...) - } - - i, err := m.Int64UpDownCounter( - "otel.sdk.exporter.metric_data_point.inflight", - opt..., - ) - if err != nil { - return SDKExporterMetricDataPointInflight{noop.Int64UpDownCounter{}}, err - } - return SDKExporterMetricDataPointInflight{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKExporterMetricDataPointInflight) Inst() metric.Int64UpDownCounter { - return m.Int64UpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKExporterMetricDataPointInflight) Name() string { - return "otel.sdk.exporter.metric_data_point.inflight" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKExporterMetricDataPointInflight) Unit() string { - return "{data_point}" -} - -// Description returns the semantic convention description of the instrument -func (SDKExporterMetricDataPointInflight) Description() string { - return "The number of metric data points which were passed to the exporter, but that have not been exported yet (neither successful, nor failed)." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -func (m SDKExporterMetricDataPointInflight) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -func (m SDKExporterMetricDataPointInflight) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKExporterMetricDataPointInflight) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKExporterMetricDataPointInflight) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// AttrServerAddress returns an optional attribute for the "server.address" -// semantic convention. It represents the server domain name if available without -// reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func (SDKExporterMetricDataPointInflight) AttrServerAddress(val string) attribute.KeyValue { - return attribute.String("server.address", val) -} - -// AttrServerPort returns an optional attribute for the "server.port" semantic -// convention. It represents the server port number. -func (SDKExporterMetricDataPointInflight) AttrServerPort(val int) attribute.KeyValue { - return attribute.Int("server.port", val) -} - -// SDKExporterOperationDuration is an instrument used to record metric values -// conforming to the "otel.sdk.exporter.operation.duration" semantic conventions. -// It represents the duration of exporting a batch of telemetry records. -type SDKExporterOperationDuration struct { - metric.Float64Histogram -} - -var newSDKExporterOperationDurationOpts = []metric.Float64HistogramOption{ - metric.WithDescription("The duration of exporting a batch of telemetry records."), - metric.WithUnit("s"), -} - -// NewSDKExporterOperationDuration returns a new SDKExporterOperationDuration -// instrument. -func NewSDKExporterOperationDuration( - m metric.Meter, - opt ...metric.Float64HistogramOption, -) (SDKExporterOperationDuration, error) { - // Check if the meter is nil. - if m == nil { - return SDKExporterOperationDuration{noop.Float64Histogram{}}, nil - } - - if len(opt) == 0 { - opt = newSDKExporterOperationDurationOpts - } else { - opt = append(opt, newSDKExporterOperationDurationOpts...) - } - - i, err := m.Float64Histogram( - "otel.sdk.exporter.operation.duration", - opt..., - ) - if err != nil { - return SDKExporterOperationDuration{noop.Float64Histogram{}}, err - } - return SDKExporterOperationDuration{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKExporterOperationDuration) Inst() metric.Float64Histogram { - return m.Float64Histogram -} - -// Name returns the semantic convention name of the instrument. -func (SDKExporterOperationDuration) Name() string { - return "otel.sdk.exporter.operation.duration" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKExporterOperationDuration) Unit() string { - return "s" -} - -// Description returns the semantic convention description of the instrument -func (SDKExporterOperationDuration) Description() string { - return "The duration of exporting a batch of telemetry records." -} - -// Record records val to the current distribution for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// This metric defines successful operations using the full success definitions -// for [http] -// and [grpc]. Anything else is defined as an unsuccessful operation. For -// successful -// operations, `error.type` MUST NOT be set. For unsuccessful export operations, -// `error.type` MUST contain a relevant failure cause. -// -// [http]: https://github.com/open-telemetry/opentelemetry-proto/blob/v1.5.0/docs/specification.md#full-success-1 -// [grpc]: https://github.com/open-telemetry/opentelemetry-proto/blob/v1.5.0/docs/specification.md#full-success -func (m SDKExporterOperationDuration) Record( - ctx context.Context, - val float64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Float64Histogram.Record(ctx, val) - return - } - - o := recOptPool.Get().(*[]metric.RecordOption) - defer func() { - *o = (*o)[:0] - recOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Float64Histogram.Record(ctx, val, *o...) -} - -// RecordSet records val to the current distribution for set. -// -// This metric defines successful operations using the full success definitions -// for [http] -// and [grpc]. Anything else is defined as an unsuccessful operation. For -// successful -// operations, `error.type` MUST NOT be set. For unsuccessful export operations, -// `error.type` MUST contain a relevant failure cause. -// -// [http]: https://github.com/open-telemetry/opentelemetry-proto/blob/v1.5.0/docs/specification.md#full-success-1 -// [grpc]: https://github.com/open-telemetry/opentelemetry-proto/blob/v1.5.0/docs/specification.md#full-success -func (m SDKExporterOperationDuration) RecordSet(ctx context.Context, val float64, set attribute.Set) { - if set.Len() == 0 { - m.Float64Histogram.Record(ctx, val) - return - } - - o := recOptPool.Get().(*[]metric.RecordOption) - defer func() { - *o = (*o)[:0] - recOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Float64Histogram.Record(ctx, val, *o...) -} - -// AttrErrorType returns an optional attribute for the "error.type" semantic -// convention. It represents the describes a class of error the operation ended -// with. -func (SDKExporterOperationDuration) AttrErrorType(val ErrorTypeAttr) attribute.KeyValue { - return attribute.String("error.type", string(val)) -} - -// AttrHTTPResponseStatusCode returns an optional attribute for the -// "http.response.status_code" semantic convention. It represents the HTTP status -// code of the last HTTP request performed in scope of this export call. -func (SDKExporterOperationDuration) AttrHTTPResponseStatusCode(val int) attribute.KeyValue { - return attribute.Int("http.response.status_code", val) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKExporterOperationDuration) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKExporterOperationDuration) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// AttrRPCResponseStatusCode returns an optional attribute for the -// "rpc.response.status_code" semantic convention. It represents the gRPC status -// code of the last gRPC request performed in scope of this export call. -func (SDKExporterOperationDuration) AttrRPCResponseStatusCode(val string) attribute.KeyValue { - return attribute.String("rpc.response.status_code", val) -} - -// AttrServerAddress returns an optional attribute for the "server.address" -// semantic convention. It represents the server domain name if available without -// reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func (SDKExporterOperationDuration) AttrServerAddress(val string) attribute.KeyValue { - return attribute.String("server.address", val) -} - -// AttrServerPort returns an optional attribute for the "server.port" semantic -// convention. It represents the server port number. -func (SDKExporterOperationDuration) AttrServerPort(val int) attribute.KeyValue { - return attribute.Int("server.port", val) -} - -// SDKExporterSpanExported is an instrument used to record metric values -// conforming to the "otel.sdk.exporter.span.exported" semantic conventions. It -// represents the number of spans for which the export has finished, either -// successful or failed. -type SDKExporterSpanExported struct { - metric.Int64Counter -} - -var newSDKExporterSpanExportedOpts = []metric.Int64CounterOption{ - metric.WithDescription("The number of spans for which the export has finished, either successful or failed."), - metric.WithUnit("{span}"), -} - -// NewSDKExporterSpanExported returns a new SDKExporterSpanExported instrument. -func NewSDKExporterSpanExported( - m metric.Meter, - opt ...metric.Int64CounterOption, -) (SDKExporterSpanExported, error) { - // Check if the meter is nil. - if m == nil { - return SDKExporterSpanExported{noop.Int64Counter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKExporterSpanExportedOpts - } else { - opt = append(opt, newSDKExporterSpanExportedOpts...) - } - - i, err := m.Int64Counter( - "otel.sdk.exporter.span.exported", - opt..., - ) - if err != nil { - return SDKExporterSpanExported{noop.Int64Counter{}}, err - } - return SDKExporterSpanExported{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKExporterSpanExported) Inst() metric.Int64Counter { - return m.Int64Counter -} - -// Name returns the semantic convention name of the instrument. -func (SDKExporterSpanExported) Name() string { - return "otel.sdk.exporter.span.exported" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKExporterSpanExported) Unit() string { - return "{span}" -} - -// Description returns the semantic convention description of the instrument -func (SDKExporterSpanExported) Description() string { - return "The number of spans for which the export has finished, either successful or failed." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -// For exporters with partial success semantics (e.g. OTLP with `rejected_spans` -// ), rejected spans MUST count as failed and only non-rejected spans count as -// success. -// If no rejection reason is available, `rejected` SHOULD be used as value for -// `error.type`. -func (m SDKExporterSpanExported) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -// For exporters with partial success semantics (e.g. OTLP with `rejected_spans` -// ), rejected spans MUST count as failed and only non-rejected spans count as -// success. -// If no rejection reason is available, `rejected` SHOULD be used as value for -// `error.type`. -func (m SDKExporterSpanExported) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AttrErrorType returns an optional attribute for the "error.type" semantic -// convention. It represents the describes a class of error the operation ended -// with. -func (SDKExporterSpanExported) AttrErrorType(val ErrorTypeAttr) attribute.KeyValue { - return attribute.String("error.type", string(val)) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKExporterSpanExported) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKExporterSpanExported) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// AttrServerAddress returns an optional attribute for the "server.address" -// semantic convention. It represents the server domain name if available without -// reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func (SDKExporterSpanExported) AttrServerAddress(val string) attribute.KeyValue { - return attribute.String("server.address", val) -} - -// AttrServerPort returns an optional attribute for the "server.port" semantic -// convention. It represents the server port number. -func (SDKExporterSpanExported) AttrServerPort(val int) attribute.KeyValue { - return attribute.Int("server.port", val) -} - -// SDKExporterSpanInflight is an instrument used to record metric values -// conforming to the "otel.sdk.exporter.span.inflight" semantic conventions. It -// represents the number of spans which were passed to the exporter, but that -// have not been exported yet (neither successful, nor failed). -type SDKExporterSpanInflight struct { - metric.Int64UpDownCounter -} - -var newSDKExporterSpanInflightOpts = []metric.Int64UpDownCounterOption{ - metric.WithDescription("The number of spans which were passed to the exporter, but that have not been exported yet (neither successful, nor failed)."), - metric.WithUnit("{span}"), -} - -// NewSDKExporterSpanInflight returns a new SDKExporterSpanInflight instrument. -func NewSDKExporterSpanInflight( - m metric.Meter, - opt ...metric.Int64UpDownCounterOption, -) (SDKExporterSpanInflight, error) { - // Check if the meter is nil. - if m == nil { - return SDKExporterSpanInflight{noop.Int64UpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKExporterSpanInflightOpts - } else { - opt = append(opt, newSDKExporterSpanInflightOpts...) - } - - i, err := m.Int64UpDownCounter( - "otel.sdk.exporter.span.inflight", - opt..., - ) - if err != nil { - return SDKExporterSpanInflight{noop.Int64UpDownCounter{}}, err - } - return SDKExporterSpanInflight{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKExporterSpanInflight) Inst() metric.Int64UpDownCounter { - return m.Int64UpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKExporterSpanInflight) Name() string { - return "otel.sdk.exporter.span.inflight" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKExporterSpanInflight) Unit() string { - return "{span}" -} - -// Description returns the semantic convention description of the instrument -func (SDKExporterSpanInflight) Description() string { - return "The number of spans which were passed to the exporter, but that have not been exported yet (neither successful, nor failed)." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -func (m SDKExporterSpanInflight) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -func (m SDKExporterSpanInflight) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKExporterSpanInflight) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKExporterSpanInflight) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// AttrServerAddress returns an optional attribute for the "server.address" -// semantic convention. It represents the server domain name if available without -// reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func (SDKExporterSpanInflight) AttrServerAddress(val string) attribute.KeyValue { - return attribute.String("server.address", val) -} - -// AttrServerPort returns an optional attribute for the "server.port" semantic -// convention. It represents the server port number. -func (SDKExporterSpanInflight) AttrServerPort(val int) attribute.KeyValue { - return attribute.Int("server.port", val) -} - -// SDKLogCreated is an instrument used to record metric values conforming to the -// "otel.sdk.log.created" semantic conventions. It represents the number of logs -// submitted to enabled SDK Loggers. -type SDKLogCreated struct { - metric.Int64Counter -} - -var newSDKLogCreatedOpts = []metric.Int64CounterOption{ - metric.WithDescription("The number of logs submitted to enabled SDK Loggers."), - metric.WithUnit("{log_record}"), -} - -// NewSDKLogCreated returns a new SDKLogCreated instrument. -func NewSDKLogCreated( - m metric.Meter, - opt ...metric.Int64CounterOption, -) (SDKLogCreated, error) { - // Check if the meter is nil. - if m == nil { - return SDKLogCreated{noop.Int64Counter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKLogCreatedOpts - } else { - opt = append(opt, newSDKLogCreatedOpts...) - } - - i, err := m.Int64Counter( - "otel.sdk.log.created", - opt..., - ) - if err != nil { - return SDKLogCreated{noop.Int64Counter{}}, err - } - return SDKLogCreated{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKLogCreated) Inst() metric.Int64Counter { - return m.Int64Counter -} - -// Name returns the semantic convention name of the instrument. -func (SDKLogCreated) Name() string { - return "otel.sdk.log.created" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKLogCreated) Unit() string { - return "{log_record}" -} - -// Description returns the semantic convention description of the instrument -func (SDKLogCreated) Description() string { - return "The number of logs submitted to enabled SDK Loggers." -} - -// Add adds incr to the existing count for attrs. -func (m SDKLogCreated) Add(ctx context.Context, incr int64, attrs ...attribute.KeyValue) { - if len(attrs) == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributes(attrs...)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -func (m SDKLogCreated) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// SDKMetricReaderCollectionDuration is an instrument used to record metric -// values conforming to the "otel.sdk.metric_reader.collection.duration" semantic -// conventions. It represents the duration of the collect operation of the metric -// reader. -type SDKMetricReaderCollectionDuration struct { - metric.Float64Histogram -} - -var newSDKMetricReaderCollectionDurationOpts = []metric.Float64HistogramOption{ - metric.WithDescription("The duration of the collect operation of the metric reader."), - metric.WithUnit("s"), -} - -// NewSDKMetricReaderCollectionDuration returns a new -// SDKMetricReaderCollectionDuration instrument. -func NewSDKMetricReaderCollectionDuration( - m metric.Meter, - opt ...metric.Float64HistogramOption, -) (SDKMetricReaderCollectionDuration, error) { - // Check if the meter is nil. - if m == nil { - return SDKMetricReaderCollectionDuration{noop.Float64Histogram{}}, nil - } - - if len(opt) == 0 { - opt = newSDKMetricReaderCollectionDurationOpts - } else { - opt = append(opt, newSDKMetricReaderCollectionDurationOpts...) - } - - i, err := m.Float64Histogram( - "otel.sdk.metric_reader.collection.duration", - opt..., - ) - if err != nil { - return SDKMetricReaderCollectionDuration{noop.Float64Histogram{}}, err - } - return SDKMetricReaderCollectionDuration{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKMetricReaderCollectionDuration) Inst() metric.Float64Histogram { - return m.Float64Histogram -} - -// Name returns the semantic convention name of the instrument. -func (SDKMetricReaderCollectionDuration) Name() string { - return "otel.sdk.metric_reader.collection.duration" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKMetricReaderCollectionDuration) Unit() string { - return "s" -} - -// Description returns the semantic convention description of the instrument -func (SDKMetricReaderCollectionDuration) Description() string { - return "The duration of the collect operation of the metric reader." -} - -// Record records val to the current distribution for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful collections, `error.type` MUST NOT be set. For failed -// collections, `error.type` SHOULD contain the failure cause. -// It can happen that metrics collection is successful for some MetricProducers, -// while others fail. In that case `error.type` SHOULD be set to any of the -// failure causes. -func (m SDKMetricReaderCollectionDuration) Record( - ctx context.Context, - val float64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Float64Histogram.Record(ctx, val) - return - } - - o := recOptPool.Get().(*[]metric.RecordOption) - defer func() { - *o = (*o)[:0] - recOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Float64Histogram.Record(ctx, val, *o...) -} - -// RecordSet records val to the current distribution for set. -// -// For successful collections, `error.type` MUST NOT be set. For failed -// collections, `error.type` SHOULD contain the failure cause. -// It can happen that metrics collection is successful for some MetricProducers, -// while others fail. In that case `error.type` SHOULD be set to any of the -// failure causes. -func (m SDKMetricReaderCollectionDuration) RecordSet(ctx context.Context, val float64, set attribute.Set) { - if set.Len() == 0 { - m.Float64Histogram.Record(ctx, val) - return - } - - o := recOptPool.Get().(*[]metric.RecordOption) - defer func() { - *o = (*o)[:0] - recOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Float64Histogram.Record(ctx, val, *o...) -} - -// AttrErrorType returns an optional attribute for the "error.type" semantic -// convention. It represents the describes a class of error the operation ended -// with. -func (SDKMetricReaderCollectionDuration) AttrErrorType(val ErrorTypeAttr) attribute.KeyValue { - return attribute.String("error.type", string(val)) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKMetricReaderCollectionDuration) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKMetricReaderCollectionDuration) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// SDKProcessorLogProcessed is an instrument used to record metric values -// conforming to the "otel.sdk.processor.log.processed" semantic conventions. It -// represents the number of log records for which the processing has finished, -// either successful or failed. -type SDKProcessorLogProcessed struct { - metric.Int64Counter -} - -var newSDKProcessorLogProcessedOpts = []metric.Int64CounterOption{ - metric.WithDescription("The number of log records for which the processing has finished, either successful or failed."), - metric.WithUnit("{log_record}"), -} - -// NewSDKProcessorLogProcessed returns a new SDKProcessorLogProcessed instrument. -func NewSDKProcessorLogProcessed( - m metric.Meter, - opt ...metric.Int64CounterOption, -) (SDKProcessorLogProcessed, error) { - // Check if the meter is nil. - if m == nil { - return SDKProcessorLogProcessed{noop.Int64Counter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKProcessorLogProcessedOpts - } else { - opt = append(opt, newSDKProcessorLogProcessedOpts...) - } - - i, err := m.Int64Counter( - "otel.sdk.processor.log.processed", - opt..., - ) - if err != nil { - return SDKProcessorLogProcessed{noop.Int64Counter{}}, err - } - return SDKProcessorLogProcessed{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKProcessorLogProcessed) Inst() metric.Int64Counter { - return m.Int64Counter -} - -// Name returns the semantic convention name of the instrument. -func (SDKProcessorLogProcessed) Name() string { - return "otel.sdk.processor.log.processed" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKProcessorLogProcessed) Unit() string { - return "{log_record}" -} - -// Description returns the semantic convention description of the instrument -func (SDKProcessorLogProcessed) Description() string { - return "The number of log records for which the processing has finished, either successful or failed." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful processing, `error.type` MUST NOT be set. For failed -// processing, `error.type` MUST contain the failure cause. -// For the SDK Simple and Batching Log Record Processor a log record is -// considered to be processed already when it has been submitted to the exporter, -// not when the corresponding export call has finished. -func (m SDKProcessorLogProcessed) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful processing, `error.type` MUST NOT be set. For failed -// processing, `error.type` MUST contain the failure cause. -// For the SDK Simple and Batching Log Record Processor a log record is -// considered to be processed already when it has been submitted to the exporter, -// not when the corresponding export call has finished. -func (m SDKProcessorLogProcessed) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AttrErrorType returns an optional attribute for the "error.type" semantic -// convention. It represents a low-cardinality description of the failure reason. -// SDK Batching Log Record Processors MUST use `queue_full` for log records -// dropped due to a full queue. -func (SDKProcessorLogProcessed) AttrErrorType(val ErrorTypeAttr) attribute.KeyValue { - return attribute.String("error.type", string(val)) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKProcessorLogProcessed) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKProcessorLogProcessed) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// SDKProcessorLogQueueCapacity is an instrument used to record metric values -// conforming to the "otel.sdk.processor.log.queue.capacity" semantic -// conventions. It represents the maximum number of log records the queue of a -// given instance of an SDK Log Record processor can hold. -type SDKProcessorLogQueueCapacity struct { - metric.Int64ObservableUpDownCounter -} - -var newSDKProcessorLogQueueCapacityOpts = []metric.Int64ObservableUpDownCounterOption{ - metric.WithDescription("The maximum number of log records the queue of a given instance of an SDK Log Record processor can hold."), - metric.WithUnit("{log_record}"), -} - -// NewSDKProcessorLogQueueCapacity returns a new SDKProcessorLogQueueCapacity -// instrument. -func NewSDKProcessorLogQueueCapacity( - m metric.Meter, - opt ...metric.Int64ObservableUpDownCounterOption, -) (SDKProcessorLogQueueCapacity, error) { - // Check if the meter is nil. - if m == nil { - return SDKProcessorLogQueueCapacity{noop.Int64ObservableUpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKProcessorLogQueueCapacityOpts - } else { - opt = append(opt, newSDKProcessorLogQueueCapacityOpts...) - } - - i, err := m.Int64ObservableUpDownCounter( - "otel.sdk.processor.log.queue.capacity", - opt..., - ) - if err != nil { - return SDKProcessorLogQueueCapacity{noop.Int64ObservableUpDownCounter{}}, err - } - return SDKProcessorLogQueueCapacity{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKProcessorLogQueueCapacity) Inst() metric.Int64ObservableUpDownCounter { - return m.Int64ObservableUpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKProcessorLogQueueCapacity) Name() string { - return "otel.sdk.processor.log.queue.capacity" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKProcessorLogQueueCapacity) Unit() string { - return "{log_record}" -} - -// Description returns the semantic convention description of the instrument -func (SDKProcessorLogQueueCapacity) Description() string { - return "The maximum number of log records the queue of a given instance of an SDK Log Record processor can hold." -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKProcessorLogQueueCapacity) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKProcessorLogQueueCapacity) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// SDKProcessorLogQueueSize is an instrument used to record metric values -// conforming to the "otel.sdk.processor.log.queue.size" semantic conventions. It -// represents the number of log records in the queue of a given instance of an -// SDK log processor. -type SDKProcessorLogQueueSize struct { - metric.Int64ObservableUpDownCounter -} - -var newSDKProcessorLogQueueSizeOpts = []metric.Int64ObservableUpDownCounterOption{ - metric.WithDescription("The number of log records in the queue of a given instance of an SDK log processor."), - metric.WithUnit("{log_record}"), -} - -// NewSDKProcessorLogQueueSize returns a new SDKProcessorLogQueueSize instrument. -func NewSDKProcessorLogQueueSize( - m metric.Meter, - opt ...metric.Int64ObservableUpDownCounterOption, -) (SDKProcessorLogQueueSize, error) { - // Check if the meter is nil. - if m == nil { - return SDKProcessorLogQueueSize{noop.Int64ObservableUpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKProcessorLogQueueSizeOpts - } else { - opt = append(opt, newSDKProcessorLogQueueSizeOpts...) - } - - i, err := m.Int64ObservableUpDownCounter( - "otel.sdk.processor.log.queue.size", - opt..., - ) - if err != nil { - return SDKProcessorLogQueueSize{noop.Int64ObservableUpDownCounter{}}, err - } - return SDKProcessorLogQueueSize{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKProcessorLogQueueSize) Inst() metric.Int64ObservableUpDownCounter { - return m.Int64ObservableUpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKProcessorLogQueueSize) Name() string { - return "otel.sdk.processor.log.queue.size" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKProcessorLogQueueSize) Unit() string { - return "{log_record}" -} - -// Description returns the semantic convention description of the instrument -func (SDKProcessorLogQueueSize) Description() string { - return "The number of log records in the queue of a given instance of an SDK log processor." -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKProcessorLogQueueSize) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKProcessorLogQueueSize) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// SDKProcessorSpanProcessed is an instrument used to record metric values -// conforming to the "otel.sdk.processor.span.processed" semantic conventions. It -// represents the number of spans for which the processing has finished, either -// successful or failed. -type SDKProcessorSpanProcessed struct { - metric.Int64Counter -} - -var newSDKProcessorSpanProcessedOpts = []metric.Int64CounterOption{ - metric.WithDescription("The number of spans for which the processing has finished, either successful or failed."), - metric.WithUnit("{span}"), -} - -// NewSDKProcessorSpanProcessed returns a new SDKProcessorSpanProcessed -// instrument. -func NewSDKProcessorSpanProcessed( - m metric.Meter, - opt ...metric.Int64CounterOption, -) (SDKProcessorSpanProcessed, error) { - // Check if the meter is nil. - if m == nil { - return SDKProcessorSpanProcessed{noop.Int64Counter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKProcessorSpanProcessedOpts - } else { - opt = append(opt, newSDKProcessorSpanProcessedOpts...) - } - - i, err := m.Int64Counter( - "otel.sdk.processor.span.processed", - opt..., - ) - if err != nil { - return SDKProcessorSpanProcessed{noop.Int64Counter{}}, err - } - return SDKProcessorSpanProcessed{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKProcessorSpanProcessed) Inst() metric.Int64Counter { - return m.Int64Counter -} - -// Name returns the semantic convention name of the instrument. -func (SDKProcessorSpanProcessed) Name() string { - return "otel.sdk.processor.span.processed" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKProcessorSpanProcessed) Unit() string { - return "{span}" -} - -// Description returns the semantic convention description of the instrument -func (SDKProcessorSpanProcessed) Description() string { - return "The number of spans for which the processing has finished, either successful or failed." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful processing, `error.type` MUST NOT be set. For failed -// processing, `error.type` MUST contain the failure cause. -// For the SDK Simple and Batching Span Processor a span is considered to be -// processed already when it has been submitted to the exporter, not when the -// corresponding export call has finished. -func (m SDKProcessorSpanProcessed) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful processing, `error.type` MUST NOT be set. For failed -// processing, `error.type` MUST contain the failure cause. -// For the SDK Simple and Batching Span Processor a span is considered to be -// processed already when it has been submitted to the exporter, not when the -// corresponding export call has finished. -func (m SDKProcessorSpanProcessed) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AttrErrorType returns an optional attribute for the "error.type" semantic -// convention. It represents a low-cardinality description of the failure reason. -// SDK Batching Span Processors MUST use `queue_full` for spans dropped due to a -// full queue. -func (SDKProcessorSpanProcessed) AttrErrorType(val ErrorTypeAttr) attribute.KeyValue { - return attribute.String("error.type", string(val)) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKProcessorSpanProcessed) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKProcessorSpanProcessed) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// SDKProcessorSpanQueueCapacity is an instrument used to record metric values -// conforming to the "otel.sdk.processor.span.queue.capacity" semantic -// conventions. It represents the maximum number of spans the queue of a given -// instance of an SDK span processor can hold. -type SDKProcessorSpanQueueCapacity struct { - metric.Int64ObservableUpDownCounter -} - -var newSDKProcessorSpanQueueCapacityOpts = []metric.Int64ObservableUpDownCounterOption{ - metric.WithDescription("The maximum number of spans the queue of a given instance of an SDK span processor can hold."), - metric.WithUnit("{span}"), -} - -// NewSDKProcessorSpanQueueCapacity returns a new SDKProcessorSpanQueueCapacity -// instrument. -func NewSDKProcessorSpanQueueCapacity( - m metric.Meter, - opt ...metric.Int64ObservableUpDownCounterOption, -) (SDKProcessorSpanQueueCapacity, error) { - // Check if the meter is nil. - if m == nil { - return SDKProcessorSpanQueueCapacity{noop.Int64ObservableUpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKProcessorSpanQueueCapacityOpts - } else { - opt = append(opt, newSDKProcessorSpanQueueCapacityOpts...) - } - - i, err := m.Int64ObservableUpDownCounter( - "otel.sdk.processor.span.queue.capacity", - opt..., - ) - if err != nil { - return SDKProcessorSpanQueueCapacity{noop.Int64ObservableUpDownCounter{}}, err - } - return SDKProcessorSpanQueueCapacity{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKProcessorSpanQueueCapacity) Inst() metric.Int64ObservableUpDownCounter { - return m.Int64ObservableUpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKProcessorSpanQueueCapacity) Name() string { - return "otel.sdk.processor.span.queue.capacity" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKProcessorSpanQueueCapacity) Unit() string { - return "{span}" -} - -// Description returns the semantic convention description of the instrument -func (SDKProcessorSpanQueueCapacity) Description() string { - return "The maximum number of spans the queue of a given instance of an SDK span processor can hold." -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKProcessorSpanQueueCapacity) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKProcessorSpanQueueCapacity) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// SDKProcessorSpanQueueSize is an instrument used to record metric values -// conforming to the "otel.sdk.processor.span.queue.size" semantic conventions. -// It represents the number of spans in the queue of a given instance of an SDK -// span processor. -type SDKProcessorSpanQueueSize struct { - metric.Int64ObservableUpDownCounter -} - -var newSDKProcessorSpanQueueSizeOpts = []metric.Int64ObservableUpDownCounterOption{ - metric.WithDescription("The number of spans in the queue of a given instance of an SDK span processor."), - metric.WithUnit("{span}"), -} - -// NewSDKProcessorSpanQueueSize returns a new SDKProcessorSpanQueueSize -// instrument. -func NewSDKProcessorSpanQueueSize( - m metric.Meter, - opt ...metric.Int64ObservableUpDownCounterOption, -) (SDKProcessorSpanQueueSize, error) { - // Check if the meter is nil. - if m == nil { - return SDKProcessorSpanQueueSize{noop.Int64ObservableUpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKProcessorSpanQueueSizeOpts - } else { - opt = append(opt, newSDKProcessorSpanQueueSizeOpts...) - } - - i, err := m.Int64ObservableUpDownCounter( - "otel.sdk.processor.span.queue.size", - opt..., - ) - if err != nil { - return SDKProcessorSpanQueueSize{noop.Int64ObservableUpDownCounter{}}, err - } - return SDKProcessorSpanQueueSize{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKProcessorSpanQueueSize) Inst() metric.Int64ObservableUpDownCounter { - return m.Int64ObservableUpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKProcessorSpanQueueSize) Name() string { - return "otel.sdk.processor.span.queue.size" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKProcessorSpanQueueSize) Unit() string { - return "{span}" -} - -// Description returns the semantic convention description of the instrument -func (SDKProcessorSpanQueueSize) Description() string { - return "The number of spans in the queue of a given instance of an SDK span processor." -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKProcessorSpanQueueSize) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKProcessorSpanQueueSize) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// SDKSpanLive is an instrument used to record metric values conforming to the -// "otel.sdk.span.live" semantic conventions. It represents the number of created -// spans with `recording=true` for which the end operation has not been called -// yet. -type SDKSpanLive struct { - metric.Int64UpDownCounter -} - -var newSDKSpanLiveOpts = []metric.Int64UpDownCounterOption{ - metric.WithDescription("The number of created spans with `recording=true` for which the end operation has not been called yet."), - metric.WithUnit("{span}"), -} - -// NewSDKSpanLive returns a new SDKSpanLive instrument. -func NewSDKSpanLive( - m metric.Meter, - opt ...metric.Int64UpDownCounterOption, -) (SDKSpanLive, error) { - // Check if the meter is nil. - if m == nil { - return SDKSpanLive{noop.Int64UpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKSpanLiveOpts - } else { - opt = append(opt, newSDKSpanLiveOpts...) - } - - i, err := m.Int64UpDownCounter( - "otel.sdk.span.live", - opt..., - ) - if err != nil { - return SDKSpanLive{noop.Int64UpDownCounter{}}, err - } - return SDKSpanLive{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKSpanLive) Inst() metric.Int64UpDownCounter { - return m.Int64UpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKSpanLive) Name() string { - return "otel.sdk.span.live" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKSpanLive) Unit() string { - return "{span}" -} - -// Description returns the semantic convention description of the instrument -func (SDKSpanLive) Description() string { - return "The number of created spans with `recording=true` for which the end operation has not been called yet." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -func (m SDKSpanLive) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -func (m SDKSpanLive) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AttrSpanSamplingResult returns an optional attribute for the -// "otel.span.sampling_result" semantic convention. It represents the result -// value of the sampler for this span. -func (SDKSpanLive) AttrSpanSamplingResult(val SpanSamplingResultAttr) attribute.KeyValue { - return attribute.String("otel.span.sampling_result", string(val)) -} - -// SDKSpanStarted is an instrument used to record metric values conforming to the -// "otel.sdk.span.started" semantic conventions. It represents the number of -// created spans. -type SDKSpanStarted struct { - metric.Int64Counter -} - -var newSDKSpanStartedOpts = []metric.Int64CounterOption{ - metric.WithDescription("The number of created spans."), - metric.WithUnit("{span}"), -} - -// NewSDKSpanStarted returns a new SDKSpanStarted instrument. -func NewSDKSpanStarted( - m metric.Meter, - opt ...metric.Int64CounterOption, -) (SDKSpanStarted, error) { - // Check if the meter is nil. - if m == nil { - return SDKSpanStarted{noop.Int64Counter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKSpanStartedOpts - } else { - opt = append(opt, newSDKSpanStartedOpts...) - } - - i, err := m.Int64Counter( - "otel.sdk.span.started", - opt..., - ) - if err != nil { - return SDKSpanStarted{noop.Int64Counter{}}, err - } - return SDKSpanStarted{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKSpanStarted) Inst() metric.Int64Counter { - return m.Int64Counter -} - -// Name returns the semantic convention name of the instrument. -func (SDKSpanStarted) Name() string { - return "otel.sdk.span.started" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKSpanStarted) Unit() string { - return "{span}" -} - -// Description returns the semantic convention description of the instrument -func (SDKSpanStarted) Description() string { - return "The number of created spans." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// Implementations MUST record this metric for all spans, even for non-recording -// ones. -func (m SDKSpanStarted) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// Implementations MUST record this metric for all spans, even for non-recording -// ones. -func (m SDKSpanStarted) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AttrSpanParentOrigin returns an optional attribute for the -// "otel.span.parent.origin" semantic convention. It represents the determines -// whether the span has a parent span, and if so, [whether it is a remote parent] -// . -// -// [whether it is a remote parent]: https://opentelemetry.io/docs/specs/otel/trace/api/#isremote -func (SDKSpanStarted) AttrSpanParentOrigin(val SpanParentOriginAttr) attribute.KeyValue { - return attribute.String("otel.span.parent.origin", string(val)) -} - -// AttrSpanSamplingResult returns an optional attribute for the -// "otel.span.sampling_result" semantic convention. It represents the result -// value of the sampler for this span. -func (SDKSpanStarted) AttrSpanSamplingResult(val SpanSamplingResultAttr) attribute.KeyValue { - return attribute.String("otel.span.sampling_result", string(val)) -} diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/schema.go b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/schema.go deleted file mode 100644 index e1a199d89b..0000000000 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/schema.go +++ /dev/null @@ -1,9 +0,0 @@ -// Copyright The OpenTelemetry Authors -// SPDX-License-Identifier: Apache-2.0 - -package semconv // import "go.opentelemetry.io/otel/semconv/v1.39.0" - -// SchemaURL is the schema URL that matches the version of the semantic conventions -// that this package defines. Semconv packages starting from v1.4.0 must declare -// non-empty schema URL in the form https://opentelemetry.io/schemas/ -const SchemaURL = "https://opentelemetry.io/schemas/1.39.0" diff --git a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/httpconv/metric.go b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.40.0/httpconv/metric.go similarity index 99% rename from openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/httpconv/metric.go rename to openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.40.0/httpconv/metric.go index d6ad8735a9..7264925ba9 100644 --- a/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/httpconv/metric.go +++ b/openshift/tests-extension/vendor/go.opentelemetry.io/otel/semconv/v1.40.0/httpconv/metric.go @@ -177,7 +177,7 @@ func (m ClientActiveRequests) Add( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("server.address", serverAddress), attribute.Int("server.port", serverPort), )..., @@ -320,7 +320,7 @@ func (m ClientConnectionDuration) Record( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("server.address", serverAddress), attribute.Int("server.port", serverPort), )..., @@ -467,7 +467,7 @@ func (m ClientOpenConnections) Add( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.connection.state", string(connectionState)), attribute.String("server.address", serverAddress), attribute.Int("server.port", serverPort), @@ -620,7 +620,7 @@ func (m ClientRequestBodySize) Record( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.request.method", string(requestMethod)), attribute.String("server.address", serverAddress), attribute.Int("server.port", serverPort), @@ -800,7 +800,7 @@ func (m ClientRequestDuration) Record( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.request.method", string(requestMethod)), attribute.String("server.address", serverAddress), attribute.Int("server.port", serverPort), @@ -980,7 +980,7 @@ func (m ClientResponseBodySize) Record( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.request.method", string(requestMethod)), attribute.String("server.address", serverAddress), attribute.Int("server.port", serverPort), @@ -1157,7 +1157,7 @@ func (m ServerActiveRequests) Add( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.request.method", string(requestMethod)), attribute.String("url.scheme", urlScheme), )..., @@ -1297,7 +1297,7 @@ func (m ServerRequestBodySize) Record( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.request.method", string(requestMethod)), attribute.String("url.scheme", urlScheme), )..., @@ -1484,7 +1484,7 @@ func (m ServerRequestDuration) Record( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.request.method", string(requestMethod)), attribute.String("url.scheme", urlScheme), )..., @@ -1671,7 +1671,7 @@ func (m ServerResponseBodySize) Record( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.request.method", string(requestMethod)), attribute.String("url.scheme", urlScheme), )..., diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/attributes/attributes.go b/openshift/tests-extension/vendor/google.golang.org/grpc/attributes/attributes.go index 52d530d7ad..4c60518c74 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/attributes/attributes.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/attributes/attributes.go @@ -27,6 +27,8 @@ package attributes import ( "fmt" + "iter" + "maps" "strings" ) @@ -37,37 +39,46 @@ import ( // any) bool', it will be called by (*Attributes).Equal to determine whether // two values with the same key should be considered equal. type Attributes struct { - m map[any]any + parent *Attributes + key, value any } // New returns a new Attributes containing the key/value pair. func New(key, value any) *Attributes { - return &Attributes{m: map[any]any{key: value}} + return &Attributes{ + key: key, + value: value, + } } // WithValue returns a new Attributes containing the previous keys and values // and the new key/value pair. If the same key appears multiple times, the -// last value overwrites all previous values for that key. To remove an -// existing key, use a nil value. value should not be modified later. +// last value overwrites all previous values for that key. value should not be +// modified later. +// +// Note that Attributes do not support deletion. Avoid using untyped nil values. +// Since the Value method returns an untyped nil when a key is absent, it is +// impossible to distinguish between a missing key and a key explicitly set to +// an untyped nil. If you need to represent a value being unset, consider +// storing a specific sentinel type or a wrapper struct with a boolean field +// indicating presence. func (a *Attributes) WithValue(key, value any) *Attributes { - if a == nil { - return New(key, value) + return &Attributes{ + parent: a, + key: key, + value: value, } - n := &Attributes{m: make(map[any]any, len(a.m)+1)} - for k, v := range a.m { - n.m[k] = v - } - n.m[key] = value - return n } // Value returns the value associated with these attributes for key, or nil if // no value is associated with key. The returned value should not be modified. func (a *Attributes) Value(key any) any { - if a == nil { - return nil + for cur := a; cur != nil; cur = cur.parent { + if cur.key == key { + return cur.value + } } - return a.m[key] + return nil } // Equal returns whether a and o are equivalent. If 'Equal(o any) bool' is @@ -83,11 +94,15 @@ func (a *Attributes) Equal(o *Attributes) bool { if a == nil || o == nil { return false } - if len(a.m) != len(o.m) { - return false + if a == o { + return true } - for k, v := range a.m { - ov, ok := o.m[k] + m := maps.Collect(o.all()) + lenA := 0 + + for k, v := range a.all() { + lenA++ + ov, ok := m[k] if !ok { // o missing element of a return false @@ -101,7 +116,7 @@ func (a *Attributes) Equal(o *Attributes) bool { return false } } - return true + return lenA == len(m) } // String prints the attribute map. If any key or values throughout the map @@ -110,11 +125,11 @@ func (a *Attributes) String() string { var sb strings.Builder sb.WriteString("{") first := true - for k, v := range a.m { + for k, v := range a.all() { if !first { sb.WriteString(", ") } - sb.WriteString(fmt.Sprintf("%q: %q ", str(k), str(v))) + fmt.Fprintf(&sb, "%q: %q ", str(k), str(v)) first = false } sb.WriteString("}") @@ -139,3 +154,21 @@ func str(x any) (s string) { func (a *Attributes) MarshalJSON() ([]byte, error) { return []byte(a.String()), nil } + +// all returns an iterator that yields all key-value pairs in the Attributes +// chain. If a key appears multiple times, only the most recently added value +// is yielded. +func (a *Attributes) all() iter.Seq2[any, any] { + return func(yield func(any, any) bool) { + seen := map[any]bool{} + for cur := a; cur != nil; cur = cur.parent { + if seen[cur.key] { + continue + } + if !yield(cur.key, cur.value) { + return + } + seen[cur.key] = true + } + } +} diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/balancer.go b/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/balancer.go index d08b7ad637..326888ae35 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/balancer.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/balancer.go @@ -33,6 +33,7 @@ import ( estats "google.golang.org/grpc/experimental/stats" "google.golang.org/grpc/grpclog" "google.golang.org/grpc/internal" + "google.golang.org/grpc/internal/envconfig" "google.golang.org/grpc/metadata" "google.golang.org/grpc/resolver" "google.golang.org/grpc/serviceconfig" @@ -46,8 +47,8 @@ var ( ) // Register registers the balancer builder to the balancer map. b.Name -// (lowercased) will be used as the name registered with this builder. If the -// Builder implements ConfigParser, ParseConfig will be called when new service +// will be used as the name registered with this builder. If the Builder +// implements ConfigParser, ParseConfig will be called when new service // configs are received by the resolver, and the result will be provided to the // Balancer in UpdateClientConnState. // @@ -55,12 +56,12 @@ var ( // an init() function), and is not thread-safe. If multiple Balancers are // registered with the same name, the one registered last will take effect. func Register(b Builder) { - name := strings.ToLower(b.Name()) - if name != b.Name() { - // TODO: Skip the use of strings.ToLower() to index the map after v1.59 - // is released to switch to case sensitive balancer registry. Also, - // remove this warning and update the docstrings for Register and Get. - logger.Warningf("Balancer registered with name %q. grpc-go will be switching to case sensitive balancer registries soon", b.Name()) + name := b.Name() + if !envconfig.CaseSensitiveBalancerRegistries { + name = strings.ToLower(name) + if name != b.Name() { + logger.Warningf("Balancer registered with name %q. grpc-go will be switching to case sensitive balancer registries soon. After 2 releases, we will enable the env var by default.", b.Name()) + } } m[name] = b } @@ -78,16 +79,17 @@ func init() { } // Get returns the resolver builder registered with the given name. -// Note that the compare is done in a case-insensitive fashion. +// Note that the compare is done in a case-sensitive fashion. // If no builder is register with the name, nil will be returned. func Get(name string) Builder { - if strings.ToLower(name) != name { - // TODO: Skip the use of strings.ToLower() to index the map after v1.59 - // is released to switch to case sensitive balancer registry. Also, - // remove this warning and update the docstrings for Register and Get. - logger.Warningf("Balancer retrieved for name %q. grpc-go will be switching to case sensitive balancer registries soon", name) + if !envconfig.CaseSensitiveBalancerRegistries { + lowerName := strings.ToLower(name) + if lowerName != name { + logger.Warningf("Balancer retrieved for name %q. grpc-go will be switching to case sensitive balancer registries soon. After 2 releases, we will enable the env var by default.", name) + } + name = lowerName } - if b, ok := m[strings.ToLower(name)]; ok { + if b, ok := m[name]; ok { return b } return nil diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/base/balancer.go b/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/base/balancer.go index 4d576876d8..4399ba0140 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/base/balancer.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/base/balancer.go @@ -121,8 +121,7 @@ func (b *baseBalancer) UpdateClientConnState(s balancer.ClientConnState) error { sc.Connect() } } - for _, a := range b.subConns.Keys() { - sc, _ := b.subConns.Get(a) + for a, sc := range b.subConns.All() { // a was removed by resolver. if _, ok := addrsSet.Get(a); !ok { sc.Shutdown() @@ -171,8 +170,7 @@ func (b *baseBalancer) regeneratePicker() { readySCs := make(map[balancer.SubConn]SubConnInfo) // Filter out all ready SCs from full subConn map. - for _, addr := range b.subConns.Keys() { - sc, _ := b.subConns.Get(addr) + for addr, sc := range b.subConns.All() { if st, ok := b.scStates[sc]; ok && st == connectivity.Ready { readySCs[sc] = SubConnInfo{Address: addr} } diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/endpointsharding/endpointsharding.go b/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/endpointsharding/endpointsharding.go index 360db08ebc..12479f6985 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/endpointsharding/endpointsharding.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/endpointsharding/endpointsharding.go @@ -187,8 +187,7 @@ func (es *endpointSharding) UpdateClientConnState(state balancer.ClientConnState } } // Delete old children that are no longer present. - for _, e := range children.Keys() { - child, _ := children.Get(e) + for e, child := range children.All() { if _, ok := newChildren.Get(e); !ok { child.closeLocked() } @@ -212,7 +211,7 @@ func (es *endpointSharding) ResolverError(err error) { es.updateState() }() children := es.children.Load() - for _, child := range children.Values() { + for _, child := range children.All() { child.resolverErrorLocked(err) } } @@ -225,7 +224,7 @@ func (es *endpointSharding) Close() { es.childMu.Lock() defer es.childMu.Unlock() children := es.children.Load() - for _, child := range children.Values() { + for _, child := range children.All() { child.closeLocked() } } @@ -233,7 +232,7 @@ func (es *endpointSharding) Close() { func (es *endpointSharding) ExitIdle() { es.childMu.Lock() defer es.childMu.Unlock() - for _, bw := range es.children.Load().Values() { + for _, bw := range es.children.Load().All() { if !bw.isClosed { bw.child.ExitIdle() } @@ -255,7 +254,7 @@ func (es *endpointSharding) updateState() { children := es.children.Load() childStates := make([]ChildState, 0, children.Len()) - for _, child := range children.Values() { + for _, child := range children.All() { childState := child.childState childStates = append(childStates, childState) childPicker := childState.State.Picker diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/pickfirst/pickfirst.go b/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/pickfirst/pickfirst.go index dccd9f0bf3..518a69d573 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/pickfirst/pickfirst.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/balancer/pickfirst/pickfirst.go @@ -399,14 +399,14 @@ func (b *pickfirstBalancer) startFirstPassLocked() { b.firstPass = true b.numTF = 0 // Reset the connection attempt record for existing SubConns. - for _, sd := range b.subConns.Values() { + for _, sd := range b.subConns.All() { sd.connectionFailedInFirstPass = false } b.requestConnectionLocked() } func (b *pickfirstBalancer) closeSubConnsLocked() { - for _, sd := range b.subConns.Values() { + for _, sd := range b.subConns.All() { sd.subConn.Shutdown() } b.subConns = resolver.NewAddressMapV2[*scData]() @@ -506,7 +506,7 @@ func (b *pickfirstBalancer) reconcileSubConnsLocked(newAddrs []resolver.Address) newAddrsMap.Set(addr, true) } - for _, oldAddr := range b.subConns.Keys() { + for oldAddr := range b.subConns.All() { if _, ok := newAddrsMap.Get(oldAddr); ok { continue } @@ -520,7 +520,7 @@ func (b *pickfirstBalancer) reconcileSubConnsLocked(newAddrs []resolver.Address) // becomes ready, which means that all other subConn must be shutdown. func (b *pickfirstBalancer) shutdownRemainingLocked(selected *scData) { b.cancelConnectionTimer() - for _, sd := range b.subConns.Values() { + for _, sd := range b.subConns.All() { if sd.subConn != selected.subConn { sd.subConn.Shutdown() } @@ -771,7 +771,7 @@ func (b *pickfirstBalancer) endFirstPassIfPossibleLocked(lastErr error) { } // Connect() has been called on all the SubConns. The first pass can be // ended if all the SubConns have reported a failure. - for _, sd := range b.subConns.Values() { + for _, sd := range b.subConns.All() { if !sd.connectionFailedInFirstPass { return } @@ -782,7 +782,7 @@ func (b *pickfirstBalancer) endFirstPassIfPossibleLocked(lastErr error) { Picker: &picker{err: lastErr}, }) // Start re-connecting all the SubConns that are already in IDLE. - for _, sd := range b.subConns.Values() { + for _, sd := range b.subConns.All() { if sd.rawConnectivityState == connectivity.Idle { sd.subConn.Connect() } diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/binarylog/grpc_binarylog_v1/binarylog.pb.go b/openshift/tests-extension/vendor/google.golang.org/grpc/binarylog/grpc_binarylog_v1/binarylog.pb.go index 42c61cf9fe..296123e20d 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/binarylog/grpc_binarylog_v1/binarylog.pb.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/binarylog/grpc_binarylog_v1/binarylog.pb.go @@ -18,7 +18,7 @@ // Code generated by protoc-gen-go. DO NOT EDIT. // versions: -// protoc-gen-go v1.36.10 +// protoc-gen-go v1.36.11 // protoc v5.27.1 // source: grpc/binlog/v1/binarylog.proto diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/credentials/tls.go b/openshift/tests-extension/vendor/google.golang.org/grpc/credentials/tls.go index 0bcd16dbbf..a6083c3b03 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/credentials/tls.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/credentials/tls.go @@ -22,7 +22,6 @@ import ( "context" "crypto/tls" "crypto/x509" - "errors" "fmt" "net" "net/url" @@ -52,22 +51,21 @@ func (t TLSInfo) AuthType() string { } // ValidateAuthority validates the provided authority being used to override the -// :authority header by verifying it against the peer certificates. It returns a +// :authority header by verifying it against the peer certificate. It returns a // non-nil error if the validation fails. func (t TLSInfo) ValidateAuthority(authority string) error { - var errs []error host, _, err := net.SplitHostPort(authority) if err != nil { host = authority } - for _, cert := range t.State.PeerCertificates { - var err error - if err = cert.VerifyHostname(host); err == nil { - return nil - } - errs = append(errs, err) + + // Verify authority against the leaf certificate. + if len(t.State.PeerCertificates) == 0 { + // This is not expected to happen as the TLS handshake has already + // completed and should have populated PeerCertificates. + return fmt.Errorf("credentials: no peer certificates found to verify authority %q", host) } - return fmt.Errorf("credentials: invalid authority %q: %v", authority, errors.Join(errs...)) + return t.State.PeerCertificates[0].VerifyHostname(host) } // cipherSuiteLookup returns the string version of a TLS cipher suite ID. diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/dialoptions.go b/openshift/tests-extension/vendor/google.golang.org/grpc/dialoptions.go index 7a5ac2e7c4..4ec5f9cd09 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/dialoptions.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/dialoptions.go @@ -705,10 +705,11 @@ func WithDisableHealthCheck() DialOption { func defaultDialOptions() dialOptions { return dialOptions{ copts: transport.ConnectOptions{ - ReadBufferSize: defaultReadBufSize, - WriteBufferSize: defaultWriteBufSize, - UserAgent: grpcUA, - BufferPool: mem.DefaultBufferPool(), + ReadBufferSize: defaultReadBufSize, + WriteBufferSize: defaultWriteBufSize, + SharedWriteBuffer: true, + UserAgent: grpcUA, + BufferPool: mem.DefaultBufferPool(), }, bs: internalbackoff.DefaultExponential, idleTimeout: 30 * time.Minute, diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/health/grpc_health_v1/health.pb.go b/openshift/tests-extension/vendor/google.golang.org/grpc/health/grpc_health_v1/health.pb.go index 8f7d9f6bbe..dcb98cdbc1 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/health/grpc_health_v1/health.pb.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/health/grpc_health_v1/health.pb.go @@ -17,7 +17,7 @@ // Code generated by protoc-gen-go. DO NOT EDIT. // versions: -// protoc-gen-go v1.36.10 +// protoc-gen-go v1.36.11 // protoc v5.27.1 // source: grpc/health/v1/health.proto diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/health/grpc_health_v1/health_grpc.pb.go b/openshift/tests-extension/vendor/google.golang.org/grpc/health/grpc_health_v1/health_grpc.pb.go index e99cd5c838..9e10fdd2eb 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/health/grpc_health_v1/health_grpc.pb.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/health/grpc_health_v1/health_grpc.pb.go @@ -17,7 +17,7 @@ // Code generated by protoc-gen-go-grpc. DO NOT EDIT. // versions: -// - protoc-gen-go-grpc v1.6.0 +// - protoc-gen-go-grpc v1.6.1 // - protoc v5.27.1 // source: grpc/health/v1/health.proto diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/internal/envconfig/envconfig.go b/openshift/tests-extension/vendor/google.golang.org/grpc/internal/envconfig/envconfig.go index 7ad6fb44ca..3ae45faa40 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/internal/envconfig/envconfig.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/internal/envconfig/envconfig.go @@ -54,17 +54,16 @@ var ( // XDSEndpointHashKeyBackwardCompat controls the parsing of the endpoint hash // key from EDS LbEndpoint metadata. Endpoint hash keys can be disabled by - // setting "GRPC_XDS_ENDPOINT_HASH_KEY_BACKWARD_COMPAT" to "true". When the - // implementation of A76 is stable, we will flip the default value to false - // in a subsequent release. A final release will remove this environment - // variable, enabling the new behavior unconditionally. - XDSEndpointHashKeyBackwardCompat = boolFromEnv("GRPC_XDS_ENDPOINT_HASH_KEY_BACKWARD_COMPAT", true) + // setting "GRPC_XDS_ENDPOINT_HASH_KEY_BACKWARD_COMPAT" to "true". A future + // release will remove this environment variable, enabling the new behavior + // unconditionally. + XDSEndpointHashKeyBackwardCompat = boolFromEnv("GRPC_XDS_ENDPOINT_HASH_KEY_BACKWARD_COMPAT", false) // RingHashSetRequestHashKey is set if the ring hash balancer can get the // request hash header by setting the "requestHashHeader" field, according - // to gRFC A76. It can be enabled by setting the environment variable - // "GRPC_EXPERIMENTAL_RING_HASH_SET_REQUEST_HASH_KEY" to "true". - RingHashSetRequestHashKey = boolFromEnv("GRPC_EXPERIMENTAL_RING_HASH_SET_REQUEST_HASH_KEY", false) + // to gRFC A76. It can be disabled by setting the environment variable + // "GRPC_EXPERIMENTAL_RING_HASH_SET_REQUEST_HASH_KEY" to "false". + RingHashSetRequestHashKey = boolFromEnv("GRPC_EXPERIMENTAL_RING_HASH_SET_REQUEST_HASH_KEY", true) // ALTSHandshakerKeepaliveParams is set if we should add the // KeepaliveParams when dial the ALTS handshaker service. @@ -78,6 +77,14 @@ var ( // - The DNS resolver is being used. EnableDefaultPortForProxyTarget = boolFromEnv("GRPC_EXPERIMENTAL_ENABLE_DEFAULT_PORT_FOR_PROXY_TARGET", true) + // CaseSensitiveBalancerRegistries is set if the balancer registry should be + // case-sensitive. This is disabled by default, but can be enabled by setting + // the env variable "GRPC_GO_EXPERIMENTAL_CASE_SENSITIVE_BALANCER_REGISTRIES" + // to "true". + // + // TODO: After 2 releases, we will enable the env var by default. + CaseSensitiveBalancerRegistries = boolFromEnv("GRPC_GO_EXPERIMENTAL_CASE_SENSITIVE_BALANCER_REGISTRIES", false) + // XDSAuthorityRewrite indicates whether xDS authority rewriting is enabled. // This feature is defined in gRFC A81 and is enabled by setting the // environment variable GRPC_EXPERIMENTAL_XDS_AUTHORITY_REWRITE to "true". @@ -89,6 +96,14 @@ var ( // GRPC_EXPERIMENTAL_PF_WEIGHTED_SHUFFLING to "false". PickFirstWeightedShuffling = boolFromEnv("GRPC_EXPERIMENTAL_PF_WEIGHTED_SHUFFLING", true) + // XDSRecoverPanicInResourceParsing indicates whether the xdsclient should + // recover from panics while parsing xDS resources. + // + // This feature can be disabled (e.g. for fuzz testing) by setting the + // environment variable "GRPC_GO_EXPERIMENTAL_XDS_RESOURCE_PANIC_RECOVERY" + // to "false". + XDSRecoverPanicInResourceParsing = boolFromEnv("GRPC_GO_EXPERIMENTAL_XDS_RESOURCE_PANIC_RECOVERY", true) + // DisableStrictPathChecking indicates whether strict path checking is // disabled. This feature can be disabled by setting the environment // variable GRPC_GO_EXPERIMENTAL_DISABLE_STRICT_PATH_CHECKING to "true". @@ -104,6 +119,13 @@ var ( // A future release will remove this environment variable, enabling strict // path checking behavior unconditionally. DisableStrictPathChecking = boolFromEnv("GRPC_GO_EXPERIMENTAL_DISABLE_STRICT_PATH_CHECKING", false) + + // EnablePriorityLBChildPolicyCache controls whether the priority balancer + // should cache child balancers that are removed from the LB policy config, + // for a period of 15 minutes. This is disabled by default, but can be + // enabled by setting the env variable + // GRPC_EXPERIMENTAL_ENABLE_PRIORITY_LB_CHILD_POLICY_CACHE to true. + EnablePriorityLBChildPolicyCache = boolFromEnv("GRPC_EXPERIMENTAL_ENABLE_PRIORITY_LB_CHILD_POLICY_CACHE", false) ) func boolFromEnv(envVar string, def bool) bool { diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/internal/mem/buffer_pool.go b/openshift/tests-extension/vendor/google.golang.org/grpc/internal/mem/buffer_pool.go new file mode 100644 index 0000000000..c2348a82ef --- /dev/null +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/internal/mem/buffer_pool.go @@ -0,0 +1,338 @@ +/* + * + * Copyright 2026 gRPC authors. + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + * + */ + +// Package mem provides utilities that facilitate memory reuse in byte slices +// that are used as buffers. +package mem + +import ( + "fmt" + "math/bits" + "slices" + "sort" + "sync" +) + +const ( + goPageSize = 4 * 1024 // 4KiB. N.B. this must be a power of 2. +) + +var uintSize = bits.UintSize // use a variable for mocking during tests. + +// bufferPool is a copy of the public bufferPool interface used to avoid +// circular dependencies. +type bufferPool interface { + // Get returns a buffer with specified length from the pool. + Get(length int) *[]byte + + // Put returns a buffer to the pool. + // + // The provided pointer must hold a prefix of the buffer obtained via + // BufferPool.Get to ensure the buffer's entire capacity can be re-used. + Put(*[]byte) +} + +// BinaryTieredBufferPool is a buffer pool that uses multiple sub-pools with +// power-of-two sizes. +type BinaryTieredBufferPool struct { + // exponentToNextLargestPoolMap maps a power-of-two exponent (e.g., 12 for + // 4KB) to the index of the next largest sizedBufferPool. This is used by + // Get() to find the smallest pool that can satisfy a request for a given + // size. + exponentToNextLargestPoolMap []int + // exponentToPreviousLargestPoolMap maps a power-of-two exponent to the + // index of the previous largest sizedBufferPool. This is used by Put() + // to return a buffer to the most appropriate pool based on its capacity. + exponentToPreviousLargestPoolMap []int + sizedPools []bufferPool + fallbackPool bufferPool + maxPoolCap int // Optimization: Cache max capacity +} + +// NewBinaryTieredBufferPool returns a BufferPool backed by multiple sub-pools. +// This structure enables O(1) lookup time for Get and Put operations. +// +// The arguments provided are the exponents for the buffer capacities (powers +// of 2), not the raw byte sizes. For example, to create a pool of 16KB buffers +// (2^14 bytes), pass 14 as the argument. +func NewBinaryTieredBufferPool(powerOfTwoExponents ...uint8) (*BinaryTieredBufferPool, error) { + return newBinaryTiered(func(size int) bufferPool { + return newSizedBufferPool(size, true) + }, &simpleBufferPool{shouldZero: true}, powerOfTwoExponents...) +} + +// NewDirtyBinaryTieredBufferPool returns a BufferPool backed by multiple +// sub-pools. It is similar to NewBinaryTieredBufferPool but it does not +// initialize the buffers before returning them. +func NewDirtyBinaryTieredBufferPool(powerOfTwoExponents ...uint8) (*BinaryTieredBufferPool, error) { + return newBinaryTiered(func(size int) bufferPool { + return newSizedBufferPool(size, false) + }, &simpleBufferPool{shouldZero: false}, powerOfTwoExponents...) +} + +func newBinaryTiered(sizedPoolFactory func(int) bufferPool, fallbackPool bufferPool, powerOfTwoExponents ...uint8) (*BinaryTieredBufferPool, error) { + slices.Sort(powerOfTwoExponents) + powerOfTwoExponents = slices.Compact(powerOfTwoExponents) + + // Determine the maximum exponent we need to support. This depends on the + // word size (32-bit vs 64-bit). + maxExponent := uintSize - 2 + indexOfNextLargestBit := slices.Repeat([]int{-1}, maxExponent+1) + indexOfPreviousLargestBit := slices.Repeat([]int{-1}, maxExponent+1) + + maxTier := 0 + pools := make([]bufferPool, 0, len(powerOfTwoExponents)) + + for i, exp := range powerOfTwoExponents { + // Allocating slices of size > 2^maxExponent isn't possible on + // maxExponent-bit machines. + if int(exp) > maxExponent { + return nil, fmt.Errorf("mem: allocating slice of size 2^%d is not possible", exp) + } + tierSize := 1 << exp + pools = append(pools, sizedPoolFactory(tierSize)) + maxTier = max(maxTier, tierSize) + + // Map the exact power of 2 to this pool index. + indexOfNextLargestBit[exp] = i + indexOfPreviousLargestBit[exp] = i + } + + // Fill gaps for Get() (Next Largest) + // We iterate backwards. If current is empty, take the value from the right (larger). + for i := maxExponent - 1; i >= 0; i-- { + if indexOfNextLargestBit[i] == -1 { + indexOfNextLargestBit[i] = indexOfNextLargestBit[i+1] + } + } + + // Fill gaps for Put() (Previous Largest) + // We iterate forwards. If current is empty, take the value from the left (smaller). + for i := 1; i <= maxExponent; i++ { + if indexOfPreviousLargestBit[i] == -1 { + indexOfPreviousLargestBit[i] = indexOfPreviousLargestBit[i-1] + } + } + + return &BinaryTieredBufferPool{ + exponentToNextLargestPoolMap: indexOfNextLargestBit, + exponentToPreviousLargestPoolMap: indexOfPreviousLargestBit, + sizedPools: pools, + maxPoolCap: maxTier, + fallbackPool: fallbackPool, + }, nil +} + +// Get returns a buffer with specified length from the pool. +func (b *BinaryTieredBufferPool) Get(size int) *[]byte { + return b.poolForGet(size).Get(size) +} + +func (b *BinaryTieredBufferPool) poolForGet(size int) bufferPool { + if size == 0 || size > b.maxPoolCap { + return b.fallbackPool + } + + // Calculate the exponent of the smallest power of 2 >= size. + // We subtract 1 from size to handle exact powers of 2 correctly. + // + // Examples: + // size=16 (0b10000) -> size-1=15 (0b01111) -> bits.Len=4 -> Pool for 2^4 + // size=17 (0b10001) -> size-1=16 (0b10000) -> bits.Len=5 -> Pool for 2^5 + querySize := uint(size - 1) + poolIdx := b.exponentToNextLargestPoolMap[bits.Len(querySize)] + + return b.sizedPools[poolIdx] +} + +// Put returns a buffer to the pool. +func (b *BinaryTieredBufferPool) Put(buf *[]byte) { + // We pass the capacity of the buffer, and not the size of the buffer here. + // If we did the latter, all buffers would eventually move to the smallest + // pool. + b.poolForPut(cap(*buf)).Put(buf) +} + +func (b *BinaryTieredBufferPool) poolForPut(bCap int) bufferPool { + if bCap == 0 { + return NopBufferPool{} + } + if bCap > b.maxPoolCap { + return b.fallbackPool + } + // Find the pool with the largest capacity <= bCap. + // + // We calculate the exponent of the largest power of 2 <= bCap. + // bits.Len(x) returns the minimum number of bits required to represent x; + // i.e. the number of bits up to and including the most significant bit. + // Subtracting 1 gives the 0-based index of the most significant bit, + // which is the exponent of the largest power of 2 <= bCap. + // + // Examples: + // cap=16 (0b10000) -> Len=5 -> 5-1=4 -> 2^4 + // cap=15 (0b01111) -> Len=4 -> 4-1=3 -> 2^3 + largestPowerOfTwo := bits.Len(uint(bCap)) - 1 + poolIdx := b.exponentToPreviousLargestPoolMap[largestPowerOfTwo] + // The buffer is smaller than the smallest power of 2, discard it. + if poolIdx == -1 { + // Buffer is smaller than our smallest pool bucket. + return NopBufferPool{} + } + return b.sizedPools[poolIdx] +} + +// NopBufferPool is a buffer pool that returns new buffers without pooling. +type NopBufferPool struct{} + +// Get returns a buffer with specified length from the pool. +func (NopBufferPool) Get(length int) *[]byte { + b := make([]byte, length) + return &b +} + +// Put returns a buffer to the pool. +func (NopBufferPool) Put(*[]byte) { +} + +// sizedBufferPool is a BufferPool implementation that is optimized for specific +// buffer sizes. For example, HTTP/2 frames within gRPC have a default max size +// of 16kb and a sizedBufferPool can be configured to only return buffers with a +// capacity of 16kb. Note that however it does not support returning larger +// buffers and in fact panics if such a buffer is requested. Because of this, +// this BufferPool implementation is not meant to be used on its own and rather +// is intended to be embedded in a TieredBufferPool such that Get is only +// invoked when the required size is smaller than or equal to defaultSize. +type sizedBufferPool struct { + pool sync.Pool + defaultSize int + shouldZero bool +} + +func (p *sizedBufferPool) Get(size int) *[]byte { + buf, ok := p.pool.Get().(*[]byte) + if !ok { + buf := make([]byte, size, p.defaultSize) + return &buf + } + b := *buf + if p.shouldZero { + clear(b[:cap(b)]) + } + *buf = b[:size] + return buf +} + +func (p *sizedBufferPool) Put(buf *[]byte) { + if cap(*buf) < p.defaultSize { + // Ignore buffers that are too small to fit in the pool. Otherwise, when + // Get is called it will panic as it tries to index outside the bounds + // of the buffer. + return + } + p.pool.Put(buf) +} + +func newSizedBufferPool(size int, zero bool) *sizedBufferPool { + return &sizedBufferPool{ + defaultSize: size, + shouldZero: zero, + } +} + +// TieredBufferPool implements the BufferPool interface with multiple tiers of +// buffer pools for different sizes of buffers. +type TieredBufferPool struct { + sizedPools []*sizedBufferPool + fallbackPool simpleBufferPool +} + +// NewTieredBufferPool returns a BufferPool implementation that uses multiple +// underlying pools of the given pool sizes. +func NewTieredBufferPool(poolSizes ...int) *TieredBufferPool { + sort.Ints(poolSizes) + pools := make([]*sizedBufferPool, len(poolSizes)) + for i, s := range poolSizes { + pools[i] = newSizedBufferPool(s, true) + } + return &TieredBufferPool{ + sizedPools: pools, + fallbackPool: simpleBufferPool{shouldZero: true}, + } +} + +// Get returns a buffer with specified length from the pool. +func (p *TieredBufferPool) Get(size int) *[]byte { + return p.getPool(size).Get(size) +} + +// Put returns a buffer to the pool. +func (p *TieredBufferPool) Put(buf *[]byte) { + p.getPool(cap(*buf)).Put(buf) +} + +func (p *TieredBufferPool) getPool(size int) bufferPool { + poolIdx := sort.Search(len(p.sizedPools), func(i int) bool { + return p.sizedPools[i].defaultSize >= size + }) + + if poolIdx == len(p.sizedPools) { + return &p.fallbackPool + } + + return p.sizedPools[poolIdx] +} + +// simpleBufferPool is an implementation of the BufferPool interface that +// attempts to pool buffers with a sync.Pool. When Get is invoked, it tries to +// acquire a buffer from the pool but if that buffer is too small, it returns it +// to the pool and creates a new one. +type simpleBufferPool struct { + pool sync.Pool + shouldZero bool +} + +func (p *simpleBufferPool) Get(size int) *[]byte { + bs, ok := p.pool.Get().(*[]byte) + if ok && cap(*bs) >= size { + if p.shouldZero { + clear((*bs)[:cap(*bs)]) + } + *bs = (*bs)[:size] + return bs + } + + // A buffer was pulled from the pool, but it is too small. Put it back in + // the pool and create one large enough. + if ok { + p.pool.Put(bs) + } + + // If we're going to allocate, round up to the nearest page. This way if + // requests frequently arrive with small variation we don't allocate + // repeatedly if we get unlucky and they increase over time. By default we + // only allocate here if size > 1MiB. Because goPageSize is a power of 2, we + // can round up efficiently. + allocSize := (size + goPageSize - 1) & ^(goPageSize - 1) + + b := make([]byte, size, allocSize) + return &b +} + +func (p *simpleBufferPool) Put(buf *[]byte) { + p.pool.Put(buf) +} diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/internal/transport/defaults.go b/openshift/tests-extension/vendor/google.golang.org/grpc/internal/transport/defaults.go index bc8ee07474..0b2269a503 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/internal/transport/defaults.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/internal/transport/defaults.go @@ -46,6 +46,7 @@ const ( defaultWriteQuota = 64 * 1024 defaultClientMaxHeaderListSize = uint32(16 << 20) defaultServerMaxHeaderListSize = uint32(16 << 20) + upcomingDefaultHeaderListSize = uint32(8 << 10) ) // MaxStreamID is the upper bound for the stream ID before the current diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/internal/transport/http2_client.go b/openshift/tests-extension/vendor/google.golang.org/grpc/internal/transport/http2_client.go index 37b1acc340..c943503f35 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/internal/transport/http2_client.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/internal/transport/http2_client.go @@ -871,11 +871,15 @@ func (t *http2Client) NewStream(ctx context.Context, callHdr *CallHdr, handler s } var sz int64 for _, f := range hdr.hf { - if sz += int64(f.Size()); sz > int64(*t.maxSendHeaderListSize) { + sz += int64(f.Size()) + if sz > int64(*t.maxSendHeaderListSize) { hdrListSizeErr = status.Errorf(codes.Internal, "header list size to send violates the maximum size (%d bytes) set by server", *t.maxSendHeaderListSize) return false } } + if sz > int64(upcomingDefaultHeaderListSize) { + t.logger.Warningf("Header list size to send (%d bytes) is larger than the upcoming default limit (%d bytes). In a future release, this will be restricted to %d bytes.", sz, upcomingDefaultHeaderListSize, upcomingDefaultHeaderListSize) + } return true } for { diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/internal/transport/http2_server.go b/openshift/tests-extension/vendor/google.golang.org/grpc/internal/transport/http2_server.go index a1a14e14fc..3a8c36e4f9 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/internal/transport/http2_server.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/internal/transport/http2_server.go @@ -940,13 +940,17 @@ func (t *http2Server) checkForHeaderListSize(hf []hpack.HeaderField) bool { } var sz int64 for _, f := range hf { - if sz += int64(f.Size()); sz > int64(*t.maxSendHeaderListSize) { + sz += int64(f.Size()) + if sz > int64(*t.maxSendHeaderListSize) { if t.logger.V(logLevel) { t.logger.Infof("Header list size to send violates the maximum size (%d bytes) set by client", *t.maxSendHeaderListSize) } return false } } + if sz > int64(upcomingDefaultHeaderListSize) { + t.logger.Warningf("Header list size to send (%d bytes) is larger than the upcoming default limit (%d bytes). In a future release, this will be restricted to %d bytes.", sz, upcomingDefaultHeaderListSize, upcomingDefaultHeaderListSize) + } return true } diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/mem/buffer_pool.go b/openshift/tests-extension/vendor/google.golang.org/grpc/mem/buffer_pool.go index 2ea763a49a..3b02b90916 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/mem/buffer_pool.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/mem/buffer_pool.go @@ -19,10 +19,10 @@ package mem import ( - "sort" - "sync" + "fmt" "google.golang.org/grpc/internal" + "google.golang.org/grpc/internal/mem" ) // BufferPool is a pool of buffers that can be shared and reused, resulting in @@ -38,20 +38,23 @@ type BufferPool interface { Put(*[]byte) } -const goPageSize = 4 << 10 // 4KiB. N.B. this must be a power of 2. - -var defaultBufferPoolSizes = []int{ - 256, - goPageSize, - 16 << 10, // 16KB (max HTTP/2 frame size used by gRPC) - 32 << 10, // 32KB (default buffer size for io.Copy) - 1 << 20, // 1MB -} - -var defaultBufferPool BufferPool +var ( + defaultBufferPoolSizeExponents = []uint8{ + 8, + 12, // Go page size, 4KB + 14, // 16KB (max HTTP/2 frame size used by gRPC) + 15, // 32KB (default buffer size for io.Copy) + 20, // 1MB + } + defaultBufferPool BufferPool +) func init() { - defaultBufferPool = NewTieredBufferPool(defaultBufferPoolSizes...) + var err error + defaultBufferPool, err = NewBinaryTieredBufferPool(defaultBufferPoolSizeExponents...) + if err != nil { + panic(fmt.Sprintf("Failed to create default buffer pool: %v", err)) + } internal.SetDefaultBufferPool = func(pool BufferPool) { defaultBufferPool = pool @@ -72,134 +75,22 @@ func DefaultBufferPool() BufferPool { // NewTieredBufferPool returns a BufferPool implementation that uses multiple // underlying pools of the given pool sizes. func NewTieredBufferPool(poolSizes ...int) BufferPool { - sort.Ints(poolSizes) - pools := make([]*sizedBufferPool, len(poolSizes)) - for i, s := range poolSizes { - pools[i] = newSizedBufferPool(s) - } - return &tieredBufferPool{ - sizedPools: pools, - } -} - -// tieredBufferPool implements the BufferPool interface with multiple tiers of -// buffer pools for different sizes of buffers. -type tieredBufferPool struct { - sizedPools []*sizedBufferPool - fallbackPool simpleBufferPool -} - -func (p *tieredBufferPool) Get(size int) *[]byte { - return p.getPool(size).Get(size) + return mem.NewTieredBufferPool(poolSizes...) } -func (p *tieredBufferPool) Put(buf *[]byte) { - p.getPool(cap(*buf)).Put(buf) +// NewBinaryTieredBufferPool returns a BufferPool backed by multiple sub-pools. +// This structure enables O(1) lookup time for Get and Put operations. +// +// The arguments provided are the exponents for the buffer capacities (powers +// of 2), not the raw byte sizes. For example, to create a pool of 16KB buffers +// (2^14 bytes), pass 14 as the argument. +func NewBinaryTieredBufferPool(powerOfTwoExponents ...uint8) (BufferPool, error) { + return mem.NewBinaryTieredBufferPool(powerOfTwoExponents...) } -func (p *tieredBufferPool) getPool(size int) BufferPool { - poolIdx := sort.Search(len(p.sizedPools), func(i int) bool { - return p.sizedPools[i].defaultSize >= size - }) - - if poolIdx == len(p.sizedPools) { - return &p.fallbackPool - } - - return p.sizedPools[poolIdx] -} - -// sizedBufferPool is a BufferPool implementation that is optimized for specific -// buffer sizes. For example, HTTP/2 frames within gRPC have a default max size -// of 16kb and a sizedBufferPool can be configured to only return buffers with a -// capacity of 16kb. Note that however it does not support returning larger -// buffers and in fact panics if such a buffer is requested. Because of this, -// this BufferPool implementation is not meant to be used on its own and rather -// is intended to be embedded in a tieredBufferPool such that Get is only -// invoked when the required size is smaller than or equal to defaultSize. -type sizedBufferPool struct { - pool sync.Pool - defaultSize int -} - -func (p *sizedBufferPool) Get(size int) *[]byte { - buf, ok := p.pool.Get().(*[]byte) - if !ok { - buf := make([]byte, size, p.defaultSize) - return &buf - } - b := *buf - clear(b[:cap(b)]) - *buf = b[:size] - return buf -} - -func (p *sizedBufferPool) Put(buf *[]byte) { - if cap(*buf) < p.defaultSize { - // Ignore buffers that are too small to fit in the pool. Otherwise, when - // Get is called it will panic as it tries to index outside the bounds - // of the buffer. - return - } - p.pool.Put(buf) -} - -func newSizedBufferPool(size int) *sizedBufferPool { - return &sizedBufferPool{ - defaultSize: size, - } -} - -var _ BufferPool = (*simpleBufferPool)(nil) - -// simpleBufferPool is an implementation of the BufferPool interface that -// attempts to pool buffers with a sync.Pool. When Get is invoked, it tries to -// acquire a buffer from the pool but if that buffer is too small, it returns it -// to the pool and creates a new one. -type simpleBufferPool struct { - pool sync.Pool -} - -func (p *simpleBufferPool) Get(size int) *[]byte { - bs, ok := p.pool.Get().(*[]byte) - if ok && cap(*bs) >= size { - clear((*bs)[:cap(*bs)]) - *bs = (*bs)[:size] - return bs - } - - // A buffer was pulled from the pool, but it is too small. Put it back in - // the pool and create one large enough. - if ok { - p.pool.Put(bs) - } - - // If we're going to allocate, round up to the nearest page. This way if - // requests frequently arrive with small variation we don't allocate - // repeatedly if we get unlucky and they increase over time. By default we - // only allocate here if size > 1MiB. Because goPageSize is a power of 2, we - // can round up efficiently. - allocSize := (size + goPageSize - 1) & ^(goPageSize - 1) - - b := make([]byte, size, allocSize) - return &b -} - -func (p *simpleBufferPool) Put(buf *[]byte) { - p.pool.Put(buf) -} - -var _ BufferPool = NopBufferPool{} - // NopBufferPool is a buffer pool that returns new buffers without pooling. -type NopBufferPool struct{} - -// Get returns a buffer with specified length from the pool. -func (NopBufferPool) Get(length int) *[]byte { - b := make([]byte, length) - return &b +type NopBufferPool struct { + mem.NopBufferPool } -// Put returns a buffer to the pool. -func (NopBufferPool) Put(*[]byte) { -} +var _ BufferPool = NopBufferPool{} diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/picker_wrapper.go b/openshift/tests-extension/vendor/google.golang.org/grpc/picker_wrapper.go index aa52bfe95f..0183ab22f4 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/picker_wrapper.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/picker_wrapper.go @@ -192,7 +192,9 @@ func (pw *pickerWrapper) pick(ctx context.Context, failfast bool, info balancer. // DoneInfo with default value works. pickResult.Done(balancer.DoneInfo{}) } - logger.Infof("blockingPicker: the picked transport is not ready, loop back to repick") + if logger.V(2) { + logger.Infof("blockingPicker: the picked transport is not ready, loop back to repick") + } // If ok == false, ac.state is not READY. // A valid picker always returns READY subConn. This means the state of ac // just changed, and picker will be updated shortly. diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/resolver/map.go b/openshift/tests-extension/vendor/google.golang.org/grpc/resolver/map.go index c3c15ac96f..789a5abab6 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/resolver/map.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/resolver/map.go @@ -20,6 +20,7 @@ package resolver import ( "encoding/base64" + "iter" "sort" "strings" ) @@ -135,6 +136,7 @@ func (a *AddressMapV2[T]) Len() int { } // Keys returns a slice of all current map keys. +// Deprecated: Use AddressMapV2.All() instead. func (a *AddressMapV2[T]) Keys() []Address { ret := make([]Address, 0, a.Len()) for _, entryList := range a.m { @@ -146,6 +148,7 @@ func (a *AddressMapV2[T]) Keys() []Address { } // Values returns a slice of all current map values. +// Deprecated: Use AddressMapV2.All() instead. func (a *AddressMapV2[T]) Values() []T { ret := make([]T, 0, a.Len()) for _, entryList := range a.m { @@ -156,6 +159,19 @@ func (a *AddressMapV2[T]) Values() []T { return ret } +// All returns an iterator over all elements. +func (a *AddressMapV2[T]) All() iter.Seq2[Address, T] { + return func(yield func(Address, T) bool) { + for _, entryList := range a.m { + for _, entry := range entryList { + if !yield(entry.addr, entry.value) { + return + } + } + } + } +} + type endpointMapKey string // EndpointMap is a map of endpoints to arbitrary values keyed on only the @@ -223,6 +239,7 @@ func (em *EndpointMap[T]) Len() int { // the unordered set of addresses. Thus, endpoint information returned is not // the full endpoint data (drops duplicated addresses and attributes) but can be // used for EndpointMap accesses. +// Deprecated: Use EndpointMap.All() instead. func (em *EndpointMap[T]) Keys() []Endpoint { ret := make([]Endpoint, 0, len(em.endpoints)) for _, en := range em.endpoints { @@ -232,6 +249,7 @@ func (em *EndpointMap[T]) Keys() []Endpoint { } // Values returns a slice of all current map values. +// Deprecated: Use EndpointMap.All() instead. func (em *EndpointMap[T]) Values() []T { ret := make([]T, 0, len(em.endpoints)) for _, val := range em.endpoints { @@ -240,6 +258,22 @@ func (em *EndpointMap[T]) Values() []T { return ret } +// All returns an iterator over all elements. +// The map keys are endpoints specifying the addresses present in the endpoint +// map, in which uniqueness is determined by the unordered set of addresses. +// Thus, endpoint information returned is not the full endpoint data (drops +// duplicated addresses and attributes) but can be used for EndpointMap +// accesses. +func (em *EndpointMap[T]) All() iter.Seq2[Endpoint, T] { + return func(yield func(Endpoint, T) bool) { + for _, en := range em.endpoints { + if !yield(en.decodedKey, en.value) { + return + } + } + } +} + // Delete removes the specified endpoint from the map. func (em *EndpointMap[T]) Delete(e Endpoint) { en := encodeEndpoint(e) diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/rpc_util.go b/openshift/tests-extension/vendor/google.golang.org/grpc/rpc_util.go index 8160f94304..ee7f7dead1 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/rpc_util.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/rpc_util.go @@ -961,24 +961,32 @@ func recvAndDecompress(p *parser, s recvCompressor, dc Decompressor, maxReceiveM return out, nil } -// decompress processes the given data by decompressing it using either a custom decompressor or a standard compressor. -// If a custom decompressor is provided, it takes precedence. The function validates that the decompressed data -// does not exceed the specified maximum size and returns an error if this limit is exceeded. -// On success, it returns the decompressed data. Otherwise, it returns an error if decompression fails or the data exceeds the size limit. +// decompress processes the given data by decompressing it using either +// a custom decompressor or a standard compressor. If a custom decompressor +// is provided, it takes precedence. The function validates that +// the decompressed data does not exceed the specified maximum size and returns +// an error if this limit is exceeded. On success, it returns the decompressed +// data. Otherwise, it returns an error if decompression fails or the data +// exceeds the size limit. func decompress(compressor encoding.Compressor, d mem.BufferSlice, dc Decompressor, maxReceiveMessageSize int, pool mem.BufferPool) (mem.BufferSlice, error) { if dc != nil { - uncompressed, err := dc.Do(d.Reader()) + r := d.Reader() + uncompressed, err := dc.Do(r) if err != nil { + r.Close() // ensure buffers are reused return nil, status.Errorf(codes.Internal, "grpc: failed to decompress the received message: %v", err) } if len(uncompressed) > maxReceiveMessageSize { + r.Close() // ensure buffers are reused return nil, status.Errorf(codes.ResourceExhausted, "grpc: message after decompression larger than max (%d vs. %d)", len(uncompressed), maxReceiveMessageSize) } return mem.BufferSlice{mem.SliceBuffer(uncompressed)}, nil } if compressor != nil { - dcReader, err := compressor.Decompress(d.Reader()) + r := d.Reader() + dcReader, err := compressor.Decompress(r) if err != nil { + r.Close() // ensure buffers are reused return nil, status.Errorf(codes.Internal, "grpc: failed to decompress the message: %v", err) } @@ -990,11 +998,13 @@ func decompress(compressor encoding.Compressor, d mem.BufferSlice, dc Decompress } out, err := mem.ReadAll(dcReader, pool) if err != nil { + r.Close() // ensure buffers are reused out.Free() return nil, status.Errorf(codes.Internal, "grpc: failed to read decompressed data: %v", err) } if out.Len() > maxReceiveMessageSize { + r.Close() // ensure buffers are reused out.Free() return nil, status.Errorf(codes.ResourceExhausted, "grpc: received message after decompression larger than max %d", maxReceiveMessageSize) } diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/server.go b/openshift/tests-extension/vendor/google.golang.org/grpc/server.go index 8efb29a7b9..5229adf711 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/server.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/server.go @@ -192,6 +192,7 @@ var defaultServerOptions = serverOptions{ maxSendMessageSize: defaultServerMaxSendMessageSize, connectionTimeout: 120 * time.Second, writeBufferSize: defaultWriteBufSize, + sharedWriteBuffer: true, readBufferSize: defaultReadBufSize, bufferPool: mem.DefaultBufferPool(), } diff --git a/openshift/tests-extension/vendor/google.golang.org/grpc/version.go b/openshift/tests-extension/vendor/google.golang.org/grpc/version.go index 76c2eed773..12f649dcb7 100644 --- a/openshift/tests-extension/vendor/google.golang.org/grpc/version.go +++ b/openshift/tests-extension/vendor/google.golang.org/grpc/version.go @@ -19,4 +19,4 @@ package grpc // Version is the current grpc version. -const Version = "1.79.3" +const Version = "1.80.0" diff --git a/openshift/tests-extension/vendor/modules.txt b/openshift/tests-extension/vendor/modules.txt index dd5e728dcc..0cff871acb 100644 --- a/openshift/tests-extension/vendor/modules.txt +++ b/openshift/tests-extension/vendor/modules.txt @@ -147,7 +147,7 @@ github.com/google/uuid # github.com/gorilla/websocket v1.5.4-0.20250319132907-e064f32e3674 ## explicit; go 1.20 github.com/gorilla/websocket -# github.com/grpc-ecosystem/grpc-gateway/v2 v2.27.7 +# github.com/grpc-ecosystem/grpc-gateway/v2 v2.28.0 ## explicit; go 1.24.0 github.com/grpc-ecosystem/grpc-gateway/v2/internal/httprule github.com/grpc-ecosystem/grpc-gateway/v2/runtime @@ -339,8 +339,8 @@ github.com/x448/float16 ## explicit; go 1.24.0 go.opentelemetry.io/auto/sdk go.opentelemetry.io/auto/sdk/internal/telemetry -# go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.65.0 -## explicit; go 1.24.0 +# go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.67.0 +## explicit; go 1.25.0 go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/request go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv @@ -358,17 +358,15 @@ go.opentelemetry.io/otel/internal/global go.opentelemetry.io/otel/propagation go.opentelemetry.io/otel/semconv/v1.17.0 go.opentelemetry.io/otel/semconv/v1.37.0 -go.opentelemetry.io/otel/semconv/v1.39.0 -go.opentelemetry.io/otel/semconv/v1.39.0/httpconv -go.opentelemetry.io/otel/semconv/v1.39.0/otelconv go.opentelemetry.io/otel/semconv/v1.40.0 +go.opentelemetry.io/otel/semconv/v1.40.0/httpconv go.opentelemetry.io/otel/semconv/v1.40.0/otelconv -# go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.40.0 -## explicit; go 1.24.0 +# go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.42.0 +## explicit; go 1.25.0 go.opentelemetry.io/otel/exporters/otlp/otlptrace go.opentelemetry.io/otel/exporters/otlp/otlptrace/internal/tracetransform -# go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.40.0 -## explicit; go 1.24.0 +# go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.42.0 +## explicit; go 1.25.0 go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/counter @@ -493,15 +491,15 @@ golang.org/x/time/rate golang.org/x/tools/cover golang.org/x/tools/go/ast/edge golang.org/x/tools/go/ast/inspector -# google.golang.org/genproto/googleapis/api v0.0.0-20260209200024-4cfbd4190f57 -## explicit; go 1.24.0 +# google.golang.org/genproto/googleapis/api v0.0.0-20260226221140-a57be14db171 +## explicit; go 1.25.0 google.golang.org/genproto/googleapis/api/expr/v1alpha1 google.golang.org/genproto/googleapis/api/httpbody # google.golang.org/genproto/googleapis/rpc v0.0.0-20260319201613-d00831a3d3e7 ## explicit; go 1.25.0 google.golang.org/genproto/googleapis/rpc/errdetails google.golang.org/genproto/googleapis/rpc/status -# google.golang.org/grpc v1.79.3 +# google.golang.org/grpc v1.80.0 ## explicit; go 1.24.0 google.golang.org/grpc google.golang.org/grpc/attributes @@ -541,6 +539,7 @@ google.golang.org/grpc/internal/grpclog google.golang.org/grpc/internal/grpcsync google.golang.org/grpc/internal/grpcutil google.golang.org/grpc/internal/idle +google.golang.org/grpc/internal/mem google.golang.org/grpc/internal/metadata google.golang.org/grpc/internal/pretty google.golang.org/grpc/internal/proxyattributes @@ -623,7 +622,7 @@ gopkg.in/yaml.v2 # gopkg.in/yaml.v3 v3.0.1 ## explicit gopkg.in/yaml.v3 -# k8s.io/api v0.35.3 => github.com/openshift/kubernetes/staging/src/k8s.io/api v0.0.0-20251108023427-891f5bb03061 +# k8s.io/api v0.35.4 => github.com/openshift/kubernetes/staging/src/k8s.io/api v0.0.0-20251108023427-891f5bb03061 ## explicit; go 1.24.0 k8s.io/api/admission/v1 k8s.io/api/admission/v1beta1 @@ -684,7 +683,7 @@ k8s.io/api/storage/v1 k8s.io/api/storage/v1alpha1 k8s.io/api/storage/v1beta1 k8s.io/api/storagemigration/v1alpha1 -# k8s.io/apiextensions-apiserver v0.35.3 => github.com/openshift/kubernetes/staging/src/k8s.io/apiextensions-apiserver v0.0.0-20251108023427-891f5bb03061 +# k8s.io/apiextensions-apiserver v0.35.4 => github.com/openshift/kubernetes/staging/src/k8s.io/apiextensions-apiserver v0.0.0-20251108023427-891f5bb03061 ## explicit; go 1.24.0 k8s.io/apiextensions-apiserver/pkg/apis/apiextensions k8s.io/apiextensions-apiserver/pkg/apis/apiextensions/v1 @@ -696,7 +695,7 @@ k8s.io/apiextensions-apiserver/pkg/client/clientset/clientset/scheme k8s.io/apiextensions-apiserver/pkg/client/clientset/clientset/typed/apiextensions/v1 k8s.io/apiextensions-apiserver/pkg/client/clientset/clientset/typed/apiextensions/v1beta1 k8s.io/apiextensions-apiserver/pkg/features -# k8s.io/apimachinery v0.35.3 => github.com/openshift/kubernetes/staging/src/k8s.io/apimachinery v0.0.0-20251108023427-891f5bb03061 +# k8s.io/apimachinery v0.35.4 => github.com/openshift/kubernetes/staging/src/k8s.io/apimachinery v0.0.0-20251108023427-891f5bb03061 ## explicit; go 1.24.0 k8s.io/apimachinery/pkg/api/equality k8s.io/apimachinery/pkg/api/errors @@ -766,7 +765,7 @@ k8s.io/apimachinery/pkg/watch k8s.io/apimachinery/third_party/forked/golang/json k8s.io/apimachinery/third_party/forked/golang/netutil k8s.io/apimachinery/third_party/forked/golang/reflect -# k8s.io/apiserver v0.35.3 => github.com/openshift/kubernetes/staging/src/k8s.io/apiserver v0.0.0-20251108023427-891f5bb03061 +# k8s.io/apiserver v0.35.4 => github.com/openshift/kubernetes/staging/src/k8s.io/apiserver v0.0.0-20251108023427-891f5bb03061 ## explicit; go 1.24.0 k8s.io/apiserver/pkg/admission k8s.io/apiserver/pkg/admission/configuration @@ -1108,7 +1107,7 @@ k8s.io/client-go/util/homedir k8s.io/client-go/util/keyutil k8s.io/client-go/util/retry k8s.io/client-go/util/workqueue -# k8s.io/component-base v0.35.3 => github.com/openshift/kubernetes/staging/src/k8s.io/component-base v0.0.0-20251108023427-891f5bb03061 +# k8s.io/component-base v0.35.4 => github.com/openshift/kubernetes/staging/src/k8s.io/component-base v0.0.0-20251108023427-891f5bb03061 ## explicit; go 1.24.0 k8s.io/component-base/cli/flag k8s.io/component-base/compatibility diff --git a/requirements.txt b/requirements.txt index 35100e407a..1da22b8bf7 100644 --- a/requirements.txt +++ b/requirements.txt @@ -1,12 +1,12 @@ Babel==2.18.0 beautifulsoup4==4.14.3 -certifi==2026.2.25 +certifi==2026.4.22 charset-normalizer==3.4.7 -click==8.3.2 +click==8.3.3 colorama==0.4.6 cssselect==1.4.0 ghp-import==2.1.0 -idna==3.11 +idna==3.13 Jinja2==3.1.6 lxml==6.1.0 Markdown==3.10.2 @@ -18,7 +18,7 @@ mkdocs-material==9.7.6 mkdocs-material-extensions==1.3.1 packaging==26.1 paginate==0.5.7 -pathspec==1.0.4 +pathspec==1.1.0 platformdirs==4.9.6 Pygments==2.20.0 pymdown-extensions==10.21.2 diff --git a/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/handler.go b/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/handler.go index 2f0b9e9e0f..4c9083d790 100644 --- a/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/handler.go +++ b/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/handler.go @@ -28,7 +28,9 @@ func ForwardResponseStream(ctx context.Context, mux *ServeMux, marshaler Marshal } handleForwardResponseServerMetadata(w, mux, md) - w.Header().Set("Transfer-Encoding", "chunked") + if !mux.disableChunkedEncoding { + w.Header().Set("Transfer-Encoding", "chunked") + } if err := handleForwardResponseOptions(ctx, w, nil, opts); err != nil { HTTPError(ctx, mux, marshaler, w, req, err) return diff --git a/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/mux.go b/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/mux.go index 3eb1616717..4e684c7de6 100644 --- a/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/mux.go +++ b/vendor/github.com/grpc-ecosystem/grpc-gateway/v2/runtime/mux.go @@ -73,6 +73,7 @@ type ServeMux struct { disablePathLengthFallback bool unescapingMode UnescapingMode writeContentLength bool + disableChunkedEncoding bool } // ServeMuxOption is an option that can be given to a ServeMux on construction. @@ -125,6 +126,16 @@ func WithMiddlewares(middlewares ...Middleware) ServeMuxOption { } } +// WithDisableChunkedEncoding disables the Transfer-Encoding: chunked header +// for streaming responses. This is useful for streaming implementations that use +// Content-Length, which is mutually exclusive with Transfer-Encoding:chunked. +// Note that this option will not automatically add Content-Length headers, so it should be used with caution. +func WithDisableChunkedEncoding() ServeMuxOption { + return func(mux *ServeMux) { + mux.disableChunkedEncoding = true + } +} + // SetQueryParameterParser sets the query parameter parser, used to populate message from query parameters. // Configuring this will mean the generated OpenAPI output is no longer correct, and it should be // done with careful consideration. diff --git a/vendor/github.com/mattn/go-sqlite3/sqlite3.go b/vendor/github.com/mattn/go-sqlite3/sqlite3.go index dffc2bda2d..1a5433c7ed 100644 --- a/vendor/github.com/mattn/go-sqlite3/sqlite3.go +++ b/vendor/github.com/mattn/go-sqlite3/sqlite3.go @@ -78,6 +78,42 @@ _sqlite3_bind_blob(sqlite3_stmt *stmt, int n, void *p, int np) { return sqlite3_bind_blob(stmt, n, p, np, SQLITE_TRANSIENT); } +typedef struct { + int typ; + sqlite3_int64 i64; + double f64; + const void *ptr; + int n; +} sqlite3_go_col; + +static void +_sqlite3_column_values(sqlite3_stmt *stmt, int ncol, sqlite3_go_col *cols) { + for (int i = 0; i < ncol; i++) { + sqlite3_go_col *col = &cols[i]; + col->typ = sqlite3_column_type(stmt, i); + col->ptr = 0; + col->n = 0; + switch (col->typ) { + case SQLITE_INTEGER: + col->i64 = sqlite3_column_int64(stmt, i); + break; + case SQLITE_FLOAT: + col->f64 = sqlite3_column_double(stmt, i); + break; + case SQLITE_BLOB: + col->ptr = sqlite3_column_blob(stmt, i); + col->n = sqlite3_column_bytes(stmt, i); + break; + case SQLITE_TEXT: + col->ptr = sqlite3_column_text(stmt, i); + col->n = sqlite3_column_bytes(stmt, i); + break; + default: + break; + } + } +} + #include #include @@ -90,10 +126,57 @@ _sqlite3_exec(sqlite3* db, const char* pcmd, long long* rowid, long long* change return rv; } +// Combined reset + clear_bindings in a single C call to reduce CGO crossings. +static int +_sqlite3_reset_clear(sqlite3_stmt* stmt) +{ + int rv = sqlite3_reset(stmt); + sqlite3_clear_bindings(stmt); + return rv; +} + #ifdef SQLITE_ENABLE_UNLOCK_NOTIFY extern int _sqlite3_step_blocking(sqlite3_stmt *stmt); extern int _sqlite3_step_row_blocking(sqlite3_stmt* stmt, long long* rowid, long long* changes); extern int _sqlite3_prepare_v2_blocking(sqlite3 *db, const char *zSql, int nBytes, sqlite3_stmt **ppStmt, const char **pzTail); +#endif + +// Combined prepare+step+finalize for simple exec without parameters. +// Reduces CGO crossings from ~6 to 1 for the common no-args exec case. +static int +_sqlite3_exec_no_args(sqlite3* db, const char* zSql, int nBytes, long long* rowid, long long* changes, const char** pzTail) +{ + sqlite3_stmt *stmt = 0; + const char *tail = 0; +#ifdef SQLITE_ENABLE_UNLOCK_NOTIFY + int rv = _sqlite3_prepare_v2_blocking(db, zSql, nBytes, &stmt, &tail); +#else + int rv = sqlite3_prepare_v2(db, zSql, nBytes, &stmt, &tail); +#endif + if (rv != SQLITE_OK) { + *pzTail = 0; + return rv; + } + if (stmt == 0) { + // Empty statement + *rowid = 0; + *changes = 0; + *pzTail = tail; + return SQLITE_OK; + } +#ifdef SQLITE_ENABLE_UNLOCK_NOTIFY + rv = _sqlite3_step_row_blocking(stmt, rowid, changes); +#else + rv = sqlite3_step(stmt); + *rowid = (long long) sqlite3_last_insert_rowid(db); + *changes = (long long) sqlite3_changes(db); +#endif + sqlite3_finalize(stmt); + *pzTail = tail; + return rv; +} + +#ifdef SQLITE_ENABLE_UNLOCK_NOTIFY static int _sqlite3_step_internal(sqlite3_stmt *stmt) @@ -210,6 +293,7 @@ import ( "errors" "fmt" "io" + "math" "net/url" "reflect" "runtime" @@ -361,12 +445,15 @@ type SQLiteDriver struct { // SQLiteConn implements driver.Conn. type SQLiteConn struct { - mu sync.Mutex - db *C.sqlite3 - loc *time.Location - txlock string - funcs []*functionInfo - aggregators []*aggInfo + mu sync.Mutex + db *C.sqlite3 + loc *time.Location + txlock string + funcs []*functionInfo + aggregators []*aggInfo + stmtCache map[string][]*SQLiteStmt + stmtCacheSize int + stmtCacheCount int } // SQLiteTx implements driver.Tx. @@ -376,12 +463,14 @@ type SQLiteTx struct { // SQLiteStmt implements driver.Stmt. type SQLiteStmt struct { - mu sync.Mutex - c *SQLiteConn - s *C.sqlite3_stmt - t string - closed bool - cls bool // True if the statement was created by SQLiteConn.Query + mu sync.Mutex + c *SQLiteConn + s *C.sqlite3_stmt + t string + closed bool + cls bool // True if the statement was created by SQLiteConn.Query + namedParams map[string][3]int + cacheKey string } // SQLiteResult implements sql.Result. @@ -397,6 +486,7 @@ type SQLiteRows struct { cls bool // True if we need to close the parent statement in Close cols []string decltype []string + colvals *C.sqlite3_go_col ctx context.Context // no better alternative to pass context into Next() method closemu sync.Mutex } @@ -847,45 +937,29 @@ func lastError(db *C.sqlite3) error { // Exec implements Execer. func (c *SQLiteConn) Exec(query string, args []driver.Value) (driver.Result, error) { - list := make([]driver.NamedValue, len(args)) - for i, v := range args { - list[i] = driver.NamedValue{ - Ordinal: i + 1, - Value: v, - } - } - return c.exec(context.Background(), query, list) + return c.exec(context.Background(), query, valueToNamedValue(args)) } func (c *SQLiteConn) exec(ctx context.Context, query string, args []driver.NamedValue) (driver.Result, error) { + // Fast path: no args, no context cancellation → single CGO call per statement + if len(args) == 0 && ctx.Done() == nil { + return c.execNoArgs(query) + } + start := 0 for { - s, err := c.prepare(ctx, query) + s, err := c.prepareWithCache(ctx, query) if err != nil { return nil, err } var res driver.Result if s.(*SQLiteStmt).s != nil { - stmtArgs := make([]driver.NamedValue, 0, len(args)) na := s.NumInput() if len(args)-start < na { s.Close() return nil, fmt.Errorf("not enough args to execute query: want %d got %d", na, len(args)) } - // consume the number of arguments used in the current - // statement and append all named arguments not - // contained therein - if len(args[start:start+na]) > 0 { - stmtArgs = append(stmtArgs, args[start:start+na]...) - for i := range args { - if (i < start || i >= na) && args[i].Name != "" { - stmtArgs = append(stmtArgs, args[i]) - } - } - for i := range stmtArgs { - stmtArgs[i].Ordinal = i + 1 - } - } + stmtArgs := stmtArgs(args, start, na) res, err = s.(*SQLiteStmt).exec(ctx, stmtArgs) if err != nil && err != driver.ErrSkip { s.Close() @@ -906,23 +980,40 @@ func (c *SQLiteConn) exec(ctx context.Context, query string, args []driver.Named } } -// Query implements Queryer. -func (c *SQLiteConn) Query(query string, args []driver.Value) (driver.Rows, error) { - list := make([]driver.NamedValue, len(args)) - for i, v := range args { - list[i] = driver.NamedValue{ - Ordinal: i + 1, - Value: v, +// execNoArgs executes a query with no parameters in a single CGO call per statement. +func (c *SQLiteConn) execNoArgs(query string) (driver.Result, error) { + var res *SQLiteResult + for len(query) > 0 { + var rowid, changes C.longlong + var tail *C.char + pquery := C.CString(query) + rv := C._sqlite3_exec_no_args(c.db, pquery, C.int(len(query)), &rowid, &changes, &tail) + if tail != nil && *tail != '\000' { + query = strings.TrimSpace(C.GoString(tail)) + } else { + query = "" } + C.free(unsafe.Pointer(pquery)) + if rv != C.SQLITE_ROW && rv != C.SQLITE_OK && rv != C.SQLITE_DONE { + return nil, c.lastError() + } + res = &SQLiteResult{id: int64(rowid), changes: int64(changes)} + } + if res == nil { + res = &SQLiteResult{0, 0} } - return c.query(context.Background(), query, list) + return res, nil +} + +// Query implements Queryer. +func (c *SQLiteConn) Query(query string, args []driver.Value) (driver.Rows, error) { + return c.query(context.Background(), query, valueToNamedValue(args)) } func (c *SQLiteConn) query(ctx context.Context, query string, args []driver.NamedValue) (driver.Rows, error) { start := 0 for { - stmtArgs := make([]driver.NamedValue, 0, len(args)) - s, err := c.prepare(ctx, query) + s, err := c.prepareWithCache(ctx, query) if err != nil { return nil, err } @@ -932,18 +1023,7 @@ func (c *SQLiteConn) query(ctx context.Context, query string, args []driver.Name s.Close() return nil, fmt.Errorf("not enough args to execute query: want %d got %d", na, len(args)-start) } - // consume the number of arguments used in the current - // statement and append all named arguments not contained - // therein - stmtArgs = append(stmtArgs, args[start:start+na]...) - for i := range args { - if (i < start || i >= na) && args[i].Name != "" { - stmtArgs = append(stmtArgs, args[i]) - } - } - for i := range stmtArgs { - stmtArgs[i].Ordinal = i + 1 - } + stmtArgs := stmtArgs(args, start, na) rows, err := s.(*SQLiteStmt).query(ctx, stmtArgs) if err != nil && err != driver.ErrSkip { s.Close() @@ -1109,6 +1189,7 @@ func (d *SQLiteDriver) Open(dsn string) (driver.Conn, error) { writableSchema := -1 vfsName := "" var cacheSize *int64 + stmtCacheSize := 0 pos := strings.IndexRune(dsn, '?') if pos >= 1 { @@ -1444,6 +1525,20 @@ func (d *SQLiteDriver) Open(dsn string) (driver.Conn, error) { cacheSize = &iv } + // _stmt_cache_size sets the maximum number of prepared statements + // cached per connection. Note that sql.DB is a connection pool, so + // each connection maintains its own independent cache. + if val := params.Get("_stmt_cache_size"); val != "" { + iv, err := strconv.Atoi(val) + if err != nil { + return nil, fmt.Errorf("Invalid _stmt_cache_size: %v: %v", val, err) + } + if iv < 0 { + return nil, fmt.Errorf("Invalid _stmt_cache_size: %v, expecting non-negative integer", val) + } + stmtCacheSize = iv + } + if val := params.Get("vfs"); val != "" { vfsName = val } @@ -1516,7 +1611,10 @@ func (d *SQLiteDriver) Open(dsn string) (driver.Conn, error) { // // Create connection to SQLite - conn := &SQLiteConn{db: db, loc: loc, txlock: txlock} + conn := &SQLiteConn{db: db, loc: loc, txlock: txlock, stmtCacheSize: stmtCacheSize} + if stmtCacheSize > 0 { + conn.stmtCache = make(map[string][]*SQLiteStmt) + } // Password Cipher has to be registered before authentication if len(authCrypt) > 0 { @@ -1789,6 +1887,7 @@ func (c *SQLiteConn) Close() error { return nil } runtime.SetFinalizer(c, nil) + c.closeCachedStmtsLocked() rv := C.sqlite3_close_v2(c.db) if rv != C.SQLITE_OK { return lastError(c.db) @@ -1807,6 +1906,70 @@ func (c *SQLiteConn) dbConnOpen() bool { return c.db != nil } +func (c *SQLiteConn) takeCachedStmt(query string) *SQLiteStmt { + if c == nil || query == "" || c.stmtCacheSize <= 0 { + return nil + } + + c.mu.Lock() + defer c.mu.Unlock() + + if c.db == nil { + return nil + } + stmts := c.stmtCache[query] + if len(stmts) == 0 { + return nil + } + s := stmts[len(stmts)-1] + if len(stmts) == 1 { + delete(c.stmtCache, query) + } else { + c.stmtCache[query] = stmts[:len(stmts)-1] + } + c.stmtCacheCount-- + s.closed = false + s.cls = false + s.t = "" + return s +} + +func (c *SQLiteConn) putCachedStmt(s *SQLiteStmt) bool { + if c == nil || s == nil || s.s == nil || s.cacheKey == "" { + return false + } + + c.mu.Lock() + defer c.mu.Unlock() + + if c.db == nil || c.stmtCacheCount >= c.stmtCacheSize { + return false + } + rv := C._sqlite3_reset_clear(s.s) + if rv != C.SQLITE_ROW && rv != C.SQLITE_OK && rv != C.SQLITE_DONE { + return false + } + c.stmtCache[s.cacheKey] = append(c.stmtCache[s.cacheKey], s) + c.stmtCacheCount++ + return true +} + +func (c *SQLiteConn) closeCachedStmtsLocked() { + for key, stmts := range c.stmtCache { + for _, s := range stmts { + if s == nil || s.s == nil { + continue + } + runtime.SetFinalizer(s, nil) + C.sqlite3_finalize(s.s) + s.s = nil + s.c = nil + } + delete(c.stmtCache, key) + } + c.stmtCacheCount = 0 +} + // Prepare the query string. Return a new statement. func (c *SQLiteConn) Prepare(query string) (driver.Stmt, error) { return c.prepare(context.Background(), query) @@ -1817,7 +1980,7 @@ func (c *SQLiteConn) prepare(ctx context.Context, query string) (driver.Stmt, er defer C.free(unsafe.Pointer(pquery)) var s *C.sqlite3_stmt var tail *C.char - rv := C._sqlite3_prepare_v2_internal(c.db, pquery, C.int(-1), &s, &tail) + rv := C._sqlite3_prepare_v2_internal(c.db, pquery, C.int(len(query)), &s, &tail) if rv != C.SQLITE_OK { return nil, c.lastError() } @@ -1830,6 +1993,21 @@ func (c *SQLiteConn) prepare(ctx context.Context, query string) (driver.Stmt, er return ss, nil } +func (c *SQLiteConn) prepareWithCache(ctx context.Context, query string) (driver.Stmt, error) { + if stmt := c.takeCachedStmt(query); stmt != nil { + return stmt, nil + } + stmt, err := c.prepare(ctx, query) + if err != nil { + return nil, err + } + ss := stmt.(*SQLiteStmt) + if ss.t == "" { + ss.cacheKey = query + } + return ss, nil +} + // Run-Time Limit Categories. // See: http://www.sqlite.org/c3ref/c_limit_attached.html const ( @@ -1938,11 +2116,18 @@ func (s *SQLiteStmt) Close() error { runtime.SetFinalizer(s, nil) conn := s.c stmt := s.s - s.s = nil - s.c = nil + if stmt == nil { + s.c = nil + return nil + } if !conn.dbConnOpen() { return errors.New("sqlite statement with already closed database connection") } + if s.cacheKey != "" && conn.putCachedStmt(s) { + return nil + } + s.s = nil + s.c = nil rv := C.sqlite3_finalize(stmt) if rv != C.SQLITE_OK { return conn.lastError() @@ -1957,68 +2142,141 @@ func (s *SQLiteStmt) NumInput() int { var placeHolder = []byte{0} +func bindText(s *C.sqlite3_stmt, n C.int, v string) C.int { + if len(v) == 0 { + return C._sqlite3_bind_text(s, n, (*C.char)(unsafe.Pointer(&placeHolder[0])), C.int(0)) + } + return C._sqlite3_bind_text(s, n, (*C.char)(unsafe.Pointer(unsafe.StringData(v))), C.int(len(v))) +} + +func bindValue(s *C.sqlite3_stmt, n C.int, value driver.Value) C.int { + switch v := value.(type) { + case nil: + return C.sqlite3_bind_null(s, n) + case string: + return bindText(s, n, v) + case int64: + return C.sqlite3_bind_int64(s, n, C.sqlite3_int64(v)) + case bool: + if v { + return C.sqlite3_bind_int(s, n, 1) + } + return C.sqlite3_bind_int(s, n, 0) + case float64: + return C.sqlite3_bind_double(s, n, C.double(v)) + case []byte: + if v == nil { + return C.sqlite3_bind_null(s, n) + } + ln := len(v) + if ln == 0 { + v = placeHolder + } + return C._sqlite3_bind_blob(s, n, unsafe.Pointer(&v[0]), C.int(ln)) + case time.Time: + var buf [64]byte + b := v.AppendFormat(buf[:0], SQLiteTimestampFormats[0]) + if len(b) == 0 { + return C._sqlite3_bind_text(s, n, (*C.char)(unsafe.Pointer(&placeHolder[0])), C.int(0)) + } + return C._sqlite3_bind_text(s, n, (*C.char)(unsafe.Pointer(&b[0])), C.int(len(b))) + default: + return C.SQLITE_MISUSE + } +} + +func (s *SQLiteStmt) bindNamedIndices(name string) [3]int { + if s.namedParams == nil { + s.namedParams = make(map[string][3]int) + } else if indices, ok := s.namedParams[name]; ok { + return indices + } + + // Build ":name\0" once and rewrite prefix byte to avoid 3 C.CString allocs. + buf := make([]byte, 1+len(name)+1) // prefix + name + null terminator + copy(buf[1:], name) + buf[len(buf)-1] = 0 + cname := (*C.char)(unsafe.Pointer(&buf[0])) + + var indices [3]int + prefixes := [3]byte{':', '@', '$'} + for i, p := range prefixes { + buf[0] = p + indices[i] = int(C.sqlite3_bind_parameter_index(s.s, cname)) + } + s.namedParams[name] = indices + return indices +} + +func stmtArgs(args []driver.NamedValue, start, na int) []driver.NamedValue { + if na == 0 { + return nil + } + + end := start + na + hasNamedOutside := false + for i := range args { + if args[i].Name != "" && (i < start || i >= end) { + hasNamedOutside = true + break + } + } + if start == 0 && !hasNamedOutside { + return args[start:end] + } + + stmtArgs := make([]driver.NamedValue, 0, len(args)) + stmtArgs = append(stmtArgs, args[start:end]...) + for i := range args { + if args[i].Name != "" && (i < start || i >= end) { + stmtArgs = append(stmtArgs, args[i]) + } + } + for i := range stmtArgs { + stmtArgs[i].Ordinal = i + 1 + } + return stmtArgs +} + func (s *SQLiteStmt) bind(args []driver.NamedValue) error { - rv := C.sqlite3_reset(s.s) + rv := C._sqlite3_reset_clear(s.s) if rv != C.SQLITE_ROW && rv != C.SQLITE_OK && rv != C.SQLITE_DONE { return s.c.lastError() } - C.sqlite3_clear_bindings(s.s) + hasNamed := false + for i := range args { + if args[i].Name != "" { + hasNamed = true + break + } + } - bindIndices := make([][3]int, len(args)) - prefixes := []string{":", "@", "$"} - for i, v := range args { - bindIndices[i][0] = args[i].Ordinal - if v.Name != "" { - for j := range prefixes { - cname := C.CString(prefixes[j] + v.Name) - bindIndices[i][j] = int(C.sqlite3_bind_parameter_index(s.s, cname)) - C.free(unsafe.Pointer(cname)) + if !hasNamed { + for _, arg := range args { + n := C.int(arg.Ordinal) + rv = bindValue(s.s, n, arg.Value) + if rv != C.SQLITE_OK { + return s.c.lastError() } - args[i].Ordinal = bindIndices[i][0] } + return nil } - for i, arg := range args { - for j := range bindIndices[i] { - if bindIndices[i][j] == 0 { - continue + for _, arg := range args { + if arg.Name == "" { + rv = bindValue(s.s, C.int(arg.Ordinal), arg.Value) + if rv != C.SQLITE_OK { + return s.c.lastError() } - n := C.int(bindIndices[i][j]) - switch v := arg.Value.(type) { - case nil: - rv = C.sqlite3_bind_null(s.s, n) - case string: - if len(v) == 0 { - rv = C._sqlite3_bind_text(s.s, n, (*C.char)(unsafe.Pointer(&placeHolder[0])), C.int(0)) - } else { - b := []byte(v) - rv = C._sqlite3_bind_text(s.s, n, (*C.char)(unsafe.Pointer(&b[0])), C.int(len(b))) - } - case int64: - rv = C.sqlite3_bind_int64(s.s, n, C.sqlite3_int64(v)) - case bool: - if v { - rv = C.sqlite3_bind_int(s.s, n, 1) - } else { - rv = C.sqlite3_bind_int(s.s, n, 0) - } - case float64: - rv = C.sqlite3_bind_double(s.s, n, C.double(v)) - case []byte: - if v == nil { - rv = C.sqlite3_bind_null(s.s, n) - } else { - ln := len(v) - if ln == 0 { - v = placeHolder - } - rv = C._sqlite3_bind_blob(s.s, n, unsafe.Pointer(&v[0]), C.int(ln)) - } - case time.Time: - b := []byte(v.Format(SQLiteTimestampFormats[0])) - rv = C._sqlite3_bind_text(s.s, n, (*C.char)(unsafe.Pointer(&b[0])), C.int(len(b))) + continue + } + indices := s.bindNamedIndices(arg.Name) + for _, idx := range indices { + if idx == 0 { + continue } + rv = bindValue(s.s, C.int(idx), arg.Value) if rv != C.SQLITE_OK { return s.c.lastError() } @@ -2029,14 +2287,7 @@ func (s *SQLiteStmt) bind(args []driver.NamedValue) error { // Query the statement with arguments. Return records. func (s *SQLiteStmt) Query(args []driver.Value) (driver.Rows, error) { - list := make([]driver.NamedValue, len(args)) - for i, v := range args { - list[i] = driver.NamedValue{ - Ordinal: i + 1, - Value: v, - } - } - return s.query(context.Background(), list) + return s.query(context.Background(), valueToNamedValue(args)) } func (s *SQLiteStmt) query(ctx context.Context, args []driver.NamedValue) (driver.Rows, error) { @@ -2050,8 +2301,15 @@ func (s *SQLiteStmt) query(ctx context.Context, args []driver.NamedValue) (drive cls: s.cls, cols: nil, decltype: nil, + colvals: nil, ctx: ctx, } + if rows.nc > 0 { + rows.colvals = (*C.sqlite3_go_col)(C.malloc(C.size_t(rows.nc) * C.size_t(unsafe.Sizeof(C.sqlite3_go_col{})))) + if rows.colvals == nil { + return nil, errors.New("sqlite3: failed to allocate row buffer") + } + } return rows, nil } @@ -2068,6 +2326,10 @@ func (r *SQLiteResult) RowsAffected() (int64, error) { // Exec execute the statement with arguments. Return result object. func (s *SQLiteStmt) Exec(args []driver.Value) (driver.Result, error) { + return s.exec(context.Background(), valueToNamedValue(args)) +} + +func valueToNamedValue(args []driver.Value) []driver.NamedValue { list := make([]driver.NamedValue, len(args)) for i, v := range args { list[i] = driver.NamedValue{ @@ -2075,7 +2337,7 @@ func (s *SQLiteStmt) Exec(args []driver.Value) (driver.Result, error) { Value: v, } } - return s.exec(context.Background(), list) + return list } func isInterruptErr(err error) bool { @@ -2092,38 +2354,35 @@ func (s *SQLiteStmt) exec(ctx context.Context, args []driver.NamedValue) (driver return s.execSync(args) } - type result struct { - r driver.Result - err error - } - resultCh := make(chan result) - defer close(resultCh) + sema := make(chan struct{}) + var r driver.Result + var err error go func() { - r, err := s.execSync(args) - resultCh <- result{r, err} + r, err = s.execSync(args) + close(sema) }() - var rv result select { - case rv = <-resultCh: + case <-sema: + return r, err case <-ctx.Done(): select { - case rv = <-resultCh: // no need to interrupt, operation completed in db + case <-sema: // no need to interrupt, operation completed in db + return r, err default: // this is still racy and can be no-op if executed between sqlite3_* calls in execSync. C.sqlite3_interrupt(s.c.db) - rv = <-resultCh // wait for goroutine completed - if isInterruptErr(rv.err) { + <-sema // wait for goroutine completed + if isInterruptErr(err) { return nil, ctx.Err() } + return r, err } } - return rv.r, rv.err } func (s *SQLiteStmt) execSync(args []driver.NamedValue) (driver.Result, error) { if err := s.bind(args); err != nil { - C.sqlite3_reset(s.s) - C.sqlite3_clear_bindings(s.s) + C._sqlite3_reset_clear(s.s) return nil, err } @@ -2131,8 +2390,7 @@ func (s *SQLiteStmt) execSync(args []driver.NamedValue) (driver.Result, error) { rv := C._sqlite3_step_row_internal(s.s, &rowid, &changes) if rv != C.SQLITE_ROW && rv != C.SQLITE_OK && rv != C.SQLITE_DONE { err := s.c.lastError() - C.sqlite3_reset(s.s) - C.sqlite3_clear_bindings(s.s) + C._sqlite3_reset_clear(s.s) return nil, err } @@ -2152,9 +2410,17 @@ func (rc *SQLiteRows) Close() error { defer rc.closemu.Unlock() s := rc.s if s == nil { + if rc.colvals != nil { + C.free(unsafe.Pointer(rc.colvals)) + rc.colvals = nil + } return nil } rc.s = nil // remove reference to SQLiteStmt + if rc.colvals != nil { + C.free(unsafe.Pointer(rc.colvals)) + rc.colvals = nil + } s.mu.Lock() if s.closed { s.mu.Unlock() @@ -2179,7 +2445,7 @@ func (rc *SQLiteRows) Columns() []string { defer rc.s.mu.Unlock() if rc.s.s != nil && int(rc.nc) != len(rc.cols) { rc.cols = make([]string, rc.nc) - for i := 0; i < int(rc.nc); i++ { + for i := range rc.cols { rc.cols[i] = C.GoString(C.sqlite3_column_name(rc.s.s, C.int(i))) } } @@ -2189,7 +2455,7 @@ func (rc *SQLiteRows) Columns() []string { func (rc *SQLiteRows) declTypes() []string { if rc.s.s != nil && rc.decltype == nil { rc.decltype = make([]string, rc.nc) - for i := 0; i < int(rc.nc); i++ { + for i := range rc.decltype { rc.decltype[i] = strings.ToLower(C.GoString(C.sqlite3_column_decltype(rc.s.s, C.int(i)))) } } @@ -2215,21 +2481,22 @@ func (rc *SQLiteRows) Next(dest []driver.Value) error { if rc.ctx.Done() == nil { return rc.nextSyncLocked(dest) } - resultCh := make(chan error) - defer close(resultCh) + sema := make(chan struct{}) + var err error go func() { - resultCh <- rc.nextSyncLocked(dest) + err = rc.nextSyncLocked(dest) + close(sema) }() select { - case err := <-resultCh: + case <-sema: return err case <-rc.ctx.Done(): select { - case <-resultCh: // no need to interrupt + case <-sema: // no need to interrupt default: // this is still racy and can be no-op if executed between sqlite3_* calls in nextSyncLocked. C.sqlite3_interrupt(rc.s.c.db) - <-resultCh // ensure goroutine completed + <-sema // ensure goroutine completed } return rc.ctx.Err() } @@ -2250,12 +2517,20 @@ func (rc *SQLiteRows) nextSyncLocked(dest []driver.Value) error { } rc.declTypes() + if len(dest) == 0 { + return nil + } + C._sqlite3_column_values(rc.s.s, C.int(len(dest)), rc.colvals) + colvals := (*[(math.MaxInt32 - 1) / unsafe.Sizeof(C.sqlite3_go_col{})]C.sqlite3_go_col)(unsafe.Pointer(rc.colvals))[:len(dest):len(dest)] + decltype := rc.decltype + _ = decltype[len(dest)-1] for i := range dest { - switch C.sqlite3_column_type(rc.s.s, C.int(i)) { + col := &colvals[i] + switch col.typ { case C.SQLITE_INTEGER: - val := int64(C.sqlite3_column_int64(rc.s.s, C.int(i))) - switch rc.decltype[i] { + val := int64(col.i64) + switch decltype[i] { case columnTimestamp, columnDatetime, columnDate: var t time.Time // Assume a millisecond unix timestamp if it's 13 digits -- too @@ -2277,14 +2552,14 @@ func (rc *SQLiteRows) nextSyncLocked(dest []driver.Value) error { dest[i] = val } case C.SQLITE_FLOAT: - dest[i] = float64(C.sqlite3_column_double(rc.s.s, C.int(i))) + dest[i] = float64(col.f64) case C.SQLITE_BLOB: - p := C.sqlite3_column_blob(rc.s.s, C.int(i)) + p := col.ptr if p == nil { dest[i] = []byte{} continue } - n := C.sqlite3_column_bytes(rc.s.s, C.int(i)) + n := col.n dest[i] = C.GoBytes(p, n) case C.SQLITE_NULL: dest[i] = nil @@ -2292,10 +2567,10 @@ func (rc *SQLiteRows) nextSyncLocked(dest []driver.Value) error { var err error var timeVal time.Time - n := int(C.sqlite3_column_bytes(rc.s.s, C.int(i))) - s := C.GoStringN((*C.char)(unsafe.Pointer(C.sqlite3_column_text(rc.s.s, C.int(i)))), C.int(n)) + n := int(col.n) + s := C.GoStringN((*C.char)(unsafe.Pointer(col.ptr)), C.int(n)) - switch rc.decltype[i] { + switch decltype[i] { case columnTimestamp, columnDatetime, columnDate: var t time.Time s = strings.TrimSuffix(s, "Z") diff --git a/vendor/github.com/mattn/go-sqlite3/sqlite3_opt_vtable.go b/vendor/github.com/mattn/go-sqlite3/sqlite3_opt_vtable.go index 9b164b3e0b..9761bf3570 100644 --- a/vendor/github.com/mattn/go-sqlite3/sqlite3_opt_vtable.go +++ b/vendor/github.com/mattn/go-sqlite3/sqlite3_opt_vtable.go @@ -301,10 +301,18 @@ const ( OpLT = 16 OpGE = 32 OpMATCH = 64 - OpLIKE = 65 /* 3.10.0 and later only */ - OpGLOB = 66 /* 3.10.0 and later only */ - OpREGEXP = 67 /* 3.10.0 and later only */ - OpScanUnique = 1 /* Scan visits at most 1 row */ + OpLIKE = 65 /* 3.10.0 and later only */ + OpGLOB = 66 /* 3.10.0 and later only */ + OpREGEXP = 67 /* 3.10.0 and later only */ + OpNE = 68 /* 3.21.0 and later only */ + OpISNOT = 69 /* 3.21.0 and later */ + OpISNOTNULL = 70 /* 3.21.0 and later */ + OpISNULL = 71 /* 3.21.0 and later */ + OpIS = 72 /* 3.21.0 and later */ + OpLIMIT = 73 /* 3.38.0 and later */ + OpOFFSET = 74 /* 3.38.0 and later */ + OpFUNCTION = 150 /* 3.25.0 and later */ + OpScanUnique = 1 /* Scan visits at most 1 row */ ) // InfoConstraint give information of constraint. diff --git a/vendor/github.com/mattn/go-sqlite3/sqlite3_go18.go b/vendor/github.com/mattn/go-sqlite3/sqlite3_sql.go similarity index 97% rename from vendor/github.com/mattn/go-sqlite3/sqlite3_go18.go rename to vendor/github.com/mattn/go-sqlite3/sqlite3_sql.go index 34cad08e42..47c522f488 100644 --- a/vendor/github.com/mattn/go-sqlite3/sqlite3_go18.go +++ b/vendor/github.com/mattn/go-sqlite3/sqlite3_sql.go @@ -3,15 +3,14 @@ // Use of this source code is governed by an MIT-style // license that can be found in the LICENSE file. -//go:build cgo && go1.8 -// +build cgo,go1.8 +//go:build cgo +// +build cgo package sqlite3 import ( - "database/sql/driver" - "context" + "database/sql/driver" ) // Ping implement Pinger. diff --git a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/config.go b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/config.go index f7338b7e52..a7d4b2a815 100644 --- a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/config.go +++ b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/config.go @@ -194,6 +194,9 @@ func WithServerName(server string) Option { // WithMetricAttributesFn returns an Option to set a function that maps an HTTP request to a slice of attribute.KeyValue. // These attributes will be included in metrics for every request. +// +// Deprecated: WithMetricAttributesFn is deprecated and will be removed in a +// future release. Use [Labeler] instead. func WithMetricAttributesFn(metricAttributesFn func(r *http.Request) []attribute.KeyValue) Option { return optionFunc(func(c *config) { c.MetricAttributesFn = metricAttributesFn diff --git a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/handler.go b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/handler.go index 1ecd4be2dd..a269fce0f7 100644 --- a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/handler.go +++ b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/handler.go @@ -184,30 +184,26 @@ func (h *middleware) serveHTTP(w http.ResponseWriter, r *http.Request, next http statusCode := rww.StatusCode() bytesWritten := rww.BytesWritten() span.SetStatus(h.semconv.Status(statusCode)) + bytesRead := bw.BytesRead() span.SetAttributes(h.semconv.ResponseTraceAttrs(semconv.ResponseTelemetry{ StatusCode: statusCode, - ReadBytes: bw.BytesRead(), + ReadBytes: bytesRead, ReadError: bw.Error(), WriteBytes: bytesWritten, WriteError: rww.Error(), })...) - // Use floating point division here for higher precision (instead of Millisecond method). - elapsedTime := float64(time.Since(requestStartTime)) / float64(time.Millisecond) - - metricAttributes := semconv.MetricAttributes{ - Req: r, - StatusCode: statusCode, - AdditionalAttributes: append(labeler.Get(), h.metricAttributesFromRequest(r)...), - } - h.semconv.RecordMetrics(ctx, semconv.ServerMetricData{ - ServerName: h.server, - ResponseSize: bytesWritten, - MetricAttributes: metricAttributes, + ServerName: h.server, + ResponseSize: bytesWritten, + MetricAttributes: semconv.MetricAttributes{ + Req: r, + StatusCode: statusCode, + AdditionalAttributes: append(labeler.Get(), h.metricAttributesFromRequest(r)...), + }, MetricData: semconv.MetricData{ - RequestSize: bw.BytesRead(), - ElapsedTime: elapsedTime, + RequestSize: bytesRead, + RequestDuration: time.Since(requestStartTime), }, }) } diff --git a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/request/resp_writer_wrapper.go b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/request/resp_writer_wrapper.go index ca2e4c14c7..f29f9b7c96 100644 --- a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/request/resp_writer_wrapper.go +++ b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/request/resp_writer_wrapper.go @@ -61,7 +61,7 @@ func (w *RespWriterWrapper) Write(p []byte) (int, error) { // WriteHeader persists initial statusCode for span attribution. // All calls to WriteHeader will be propagated to the underlying ResponseWriter -// and will persist the statusCode from the first call. +// and will persist the statusCode from the first call (except for informational response status codes). // Blocking consecutive calls to WriteHeader alters expected behavior and will // remove warning logs from net/http where developers will notice incorrect handler implementations. func (w *RespWriterWrapper) WriteHeader(statusCode int) { @@ -77,6 +77,13 @@ func (w *RespWriterWrapper) WriteHeader(statusCode int) { // parent method. func (w *RespWriterWrapper) writeHeader(statusCode int) { if !w.wroteHeader { + // Ignore informational response status codes. + // Based on https://github.com/golang/go/blob/go1.24.1/src/net/http/server.go#L1216 + if statusCode >= 100 && statusCode <= 199 && statusCode != http.StatusSwitchingProtocols { + w.ResponseWriter.WriteHeader(statusCode) + return + } + w.wroteHeader = true w.statusCode = statusCode } diff --git a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/client.go b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/client.go index 29d6f508c1..1398d85c2e 100644 --- a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/client.go +++ b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/client.go @@ -19,11 +19,11 @@ import ( "go.opentelemetry.io/otel/attribute" "go.opentelemetry.io/otel/codes" "go.opentelemetry.io/otel/metric" - "go.opentelemetry.io/otel/semconv/v1.39.0" - "go.opentelemetry.io/otel/semconv/v1.39.0/httpconv" + "go.opentelemetry.io/otel/semconv/v1.40.0" + "go.opentelemetry.io/otel/semconv/v1.40.0/httpconv" ) -type HTTPClient struct{ +type HTTPClient struct { requestBodySize httpconv.ClientRequestBodySize requestDuration httpconv.ClientRequestDuration } @@ -57,14 +57,14 @@ func (n HTTPClient) Status(code int) (codes.Code, string) { // RequestTraceAttrs returns trace attributes for an HTTP request made by a client. func (n HTTPClient) RequestTraceAttrs(req *http.Request) []attribute.KeyValue { /* - below attributes are returned: - - http.request.method - - http.request.method.original - - url.full - - server.address - - server.port - - network.protocol.name - - network.protocol.version + below attributes are returned: + - http.request.method + - http.request.method.original + - url.full + - server.address + - server.port + - network.protocol.name + - network.protocol.version */ numOfAttributes := 3 // URL, server address, proto, and method. @@ -139,9 +139,9 @@ func (n HTTPClient) RequestTraceAttrs(req *http.Request) []attribute.KeyValue { // ResponseTraceAttrs returns trace attributes for an HTTP response made by a client. func (n HTTPClient) ResponseTraceAttrs(resp *http.Response) []attribute.KeyValue { /* - below attributes are returned: - - http.response.status_code - - error.type + below attributes are returned: + - http.response.status_code + - error.type */ var count int if resp.StatusCode > 0 { @@ -247,22 +247,26 @@ func (o MetricOpts) AddOptions() metric.AddOption { return o.addOptions } -func (n HTTPClient) MetricOptions(ma MetricAttributes) map[string]MetricOpts { - opts := map[string]MetricOpts{} - +func (n HTTPClient) MetricOptions(ma MetricAttributes) MetricOpts { attributes := n.MetricAttributes(ma.Req, ma.StatusCode, ma.AdditionalAttributes) set := metric.WithAttributeSet(attribute.NewSet(attributes...)) - opts["new"] = MetricOpts{ + + return MetricOpts{ measurement: set, addOptions: set, } - - return opts } -func (n HTTPClient) RecordMetrics(ctx context.Context, md MetricData, opts map[string]MetricOpts) { - n.requestBodySize.Inst().Record(ctx, md.RequestSize, opts["new"].MeasurementOption()) - n.requestDuration.Inst().Record(ctx, md.ElapsedTime/1000, opts["new"].MeasurementOption()) +func (n HTTPClient) RecordMetrics(ctx context.Context, md MetricData, opts MetricOpts) { + recordOpts := metricRecordOptionPool.Get().(*[]metric.RecordOption) + defer func() { + *recordOpts = (*recordOpts)[:0] + metricRecordOptionPool.Put(recordOpts) + }() + *recordOpts = append(*recordOpts, opts.MeasurementOption()) + + n.requestBodySize.Inst().Record(ctx, md.RequestSize, *recordOpts...) + n.requestDuration.Inst().Record(ctx, durationToSeconds(md.RequestDuration), *recordOpts...) } // TraceAttributes returns attributes for httptrace. diff --git a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/server.go b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/server.go index e0e9ebc05d..6dcf1b5b52 100644 --- a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/server.go +++ b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/server.go @@ -15,12 +15,13 @@ import ( "slices" "strings" "sync" + "time" "go.opentelemetry.io/otel/attribute" "go.opentelemetry.io/otel/codes" "go.opentelemetry.io/otel/metric" - "go.opentelemetry.io/otel/semconv/v1.39.0" - "go.opentelemetry.io/otel/semconv/v1.39.0/httpconv" + "go.opentelemetry.io/otel/semconv/v1.40.0" + "go.opentelemetry.io/otel/semconv/v1.40.0/httpconv" ) type RequestTraceAttrsOpts struct { @@ -36,7 +37,7 @@ type ResponseTelemetry struct { WriteError error } -type HTTPServer struct{ +type HTTPServer struct { requestBodySizeHistogram httpconv.ServerRequestBodySize responseBodySizeHistogram httpconv.ServerResponseBodySize requestDurationHistogram httpconv.ServerRequestDuration @@ -245,19 +246,11 @@ type MetricAttributes struct { } type MetricData struct { - RequestSize int64 - - // The request duration, in milliseconds - ElapsedTime float64 + RequestSize int64 + RequestDuration time.Duration } var ( - metricAddOptionPool = &sync.Pool{ - New: func() any { - return &[]metric.AddOption{} - }, - } - metricRecordOptionPool = &sync.Pool{ New: func() any { return &[]metric.RecordOption{} @@ -272,7 +265,7 @@ func (n HTTPServer) RecordMetrics(ctx context.Context, md ServerMetricData) { *recordOpts = append(*recordOpts, o) n.requestBodySizeHistogram.Inst().Record(ctx, md.RequestSize, *recordOpts...) n.responseBodySizeHistogram.Inst().Record(ctx, md.ResponseSize, *recordOpts...) - n.requestDurationHistogram.Inst().Record(ctx, md.ElapsedTime/1000.0, o) + n.requestDurationHistogram.Inst().Record(ctx, durationToSeconds(md.RequestDuration), o) *recordOpts = (*recordOpts)[:0] metricRecordOptionPool.Put(recordOpts) } @@ -373,8 +366,8 @@ func (n HTTPServer) MetricAttributes(server string, req *http.Request, statusCod } if route != "" { - num++ - } + num++ + } attributes := slices.Grow(additionalAttributes, num) attributes = append(attributes, @@ -397,7 +390,7 @@ func (n HTTPServer) MetricAttributes(server string, req *http.Request, statusCod } if route != "" { - attributes = append(attributes, semconv.HTTPRoute(route)) - } + attributes = append(attributes, semconv.HTTPRoute(route)) + } return attributes } diff --git a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/util.go b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/util.go index 131fda489b..2eab2ecabd 100644 --- a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/util.go +++ b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv/util.go @@ -11,10 +11,11 @@ import ( "net/http" "strconv" "strings" + "time" "go.opentelemetry.io/otel" "go.opentelemetry.io/otel/attribute" - semconvNew "go.opentelemetry.io/otel/semconv/v1.39.0" + semconvNew "go.opentelemetry.io/otel/semconv/v1.40.0" ) // SplitHostPort splits a network address hostport of the form "host", @@ -125,3 +126,8 @@ func standardizeHTTPMethod(method string) string { } return method } + +func durationToSeconds(d time.Duration) float64 { + // Use floating point division here for higher precision (instead of Seconds method). + return float64(d) / float64(time.Second) +} diff --git a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/transport.go b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/transport.go index 59b6c5498d..d8d204d1f8 100644 --- a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/transport.go +++ b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/transport.go @@ -5,7 +5,6 @@ package otelhttp // import "go.opentelemetry.io/contrib/instrumentation/net/http import ( "context" - "fmt" "io" "net/http" "net/http/httptrace" @@ -16,7 +15,7 @@ import ( "go.opentelemetry.io/otel/attribute" "go.opentelemetry.io/otel/codes" "go.opentelemetry.io/otel/propagation" - otelsemconv "go.opentelemetry.io/otel/semconv/v1.39.0" + otelsemconv "go.opentelemetry.io/otel/semconv/v1.40.0" "go.opentelemetry.io/otel/trace" "go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/request" @@ -85,8 +84,6 @@ func defaultTransportFormatter(_ string, r *http.Request) string { // RoundTrip creates a Span and propagates its context via the provided request's headers // before handing the request to the configured base RoundTripper. The created span will // end when the response body is closed or when a read from the body returns io.EOF. -// If GetBody returns an error, the error is reported via otel.Handle and the request -// continues with the original Body. func (t *Transport) RoundTrip(r *http.Request) (*http.Response, error) { requestStartTime := time.Now() for _, f := range t.filters { @@ -106,9 +103,7 @@ func (t *Transport) RoundTrip(r *http.Request) (*http.Response, error) { } } - opts := append([]trace.SpanStartOption{}, t.spanStartOptions...) // start with the configured options - - ctx, span := tracer.Start(r.Context(), t.spanNameFormatter("", r), opts...) + ctx, span := tracer.Start(r.Context(), t.spanNameFormatter("", r), t.spanStartOptions...) if t.clientTrace != nil { ctx = httptrace.WithClientTrace(ctx, t.clientTrace(ctx)) @@ -121,23 +116,26 @@ func (t *Transport) RoundTrip(r *http.Request) (*http.Response, error) { r = r.Clone(ctx) // According to RoundTripper spec, we shouldn't modify the origin request. - // GetBody is preferred over direct access to Body if the function is set. - // If the resulting body is nil or is NoBody, we don't want to mutate the body as it - // will affect the identity of it in an unforeseeable way because we assert - // ReadCloser fulfills a certain interface and it is indeed nil or NoBody. - body := r.Body - if r.GetBody != nil { - b, err := r.GetBody() - if err != nil { - otel.Handle(fmt.Errorf("http.Request GetBody returned an error: %w", err)) - } else { - body = b + var lastBW *request.BodyWrapper // Records the last body wrapper. Can be nil. + maybeWrapBody := func(body io.ReadCloser) io.ReadCloser { + if body == nil || body == http.NoBody { + return body } + bw := request.NewBodyWrapper(body, func(int64) {}) + lastBW = bw + return bw } - - bw := request.NewBodyWrapper(body, func(int64) {}) - if body != nil && body != http.NoBody { - r.Body = bw + r.Body = maybeWrapBody(r.Body) + if r.GetBody != nil { + originalGetBody := r.GetBody + r.GetBody = func() (io.ReadCloser, error) { + b, err := originalGetBody() + if err != nil { + lastBW = nil // The underlying transport will fail to make a retry request, hence, record no data. + return nil, err + } + return maybeWrapBody(b), nil + } } span.SetAttributes(t.semconv.RequestTraceAttrs(r)...) @@ -145,35 +143,27 @@ func (t *Transport) RoundTrip(r *http.Request) (*http.Response, error) { res, err := t.rt.RoundTrip(r) - // Defer metrics recording function to record the metrics on error or no error. - defer func() { - metricAttributes := semconv.MetricAttributes{ + // Record the metrics on error or no error. + statusCode := 0 + if err == nil { + statusCode = res.StatusCode + } + var requestSize int64 + if lastBW != nil { + requestSize = lastBW.BytesRead() + } + t.semconv.RecordMetrics( + ctx, + semconv.MetricData{ + RequestSize: requestSize, + RequestDuration: time.Since(requestStartTime), + }, + t.semconv.MetricOptions(semconv.MetricAttributes{ Req: r, + StatusCode: statusCode, AdditionalAttributes: append(labeler.Get(), t.metricAttributesFromRequest(r)...), - } - - if err == nil { - metricAttributes.StatusCode = res.StatusCode - } - - metricOpts := t.semconv.MetricOptions(metricAttributes) - - metricData := semconv.MetricData{ - RequestSize: bw.BytesRead(), - } - - if err == nil { - readRecordFunc := func(int64) {} - res.Body = newWrappedBody(span, readRecordFunc, res.Body) - } - - // Use floating point division here for higher precision (instead of Millisecond method). - elapsedTime := float64(time.Since(requestStartTime)) / float64(time.Millisecond) - - metricData.ElapsedTime = elapsedTime - - t.semconv.RecordMetrics(ctx, metricData, metricOpts) - }() + }), + ) if err != nil { span.SetAttributes(otelsemconv.ErrorType(err)) @@ -183,6 +173,8 @@ func (t *Transport) RoundTrip(r *http.Request) (*http.Response, error) { return res, err } + readRecordFunc := func(int64) {} + res.Body = newWrappedBody(span, readRecordFunc, res.Body) // traces span.SetAttributes(t.semconv.ResponseTraceAttrs(res)...) span.SetStatus(t.semconv.Status(res.StatusCode)) diff --git a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/version.go b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/version.go index d0107952e1..1d90fc264d 100644 --- a/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/version.go +++ b/vendor/go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/version.go @@ -4,4 +4,4 @@ package otelhttp // import "go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp" // Version is the current release version of the otelhttp instrumentation. -const Version = "0.65.0" +const Version = "0.67.0" diff --git a/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/client.go b/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/client.go index 76b7cd461b..258d0ca6a5 100644 --- a/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/client.go +++ b/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/client.go @@ -62,7 +62,7 @@ func NewClient(opts ...Option) otlptrace.Client { func newClient(opts ...Option) *client { cfg := otlpconfig.NewGRPCConfig(asGRPCOptions(opts)...) - ctx, cancel := context.WithCancel(context.Background()) + ctx, cancel := context.WithCancel(context.Background()) //nolint:gosec // cancel called in client shutdown. c := &client{ endpoint: cfg.Traces.Endpoint, @@ -248,7 +248,7 @@ func (c *client) exportContext(parent context.Context) (context.Context, context if c.exportTimeout > 0 { ctx, cancel = context.WithTimeoutCause(parent, c.exportTimeout, errors.New("exporter export timeout")) } else { - ctx, cancel = context.WithCancel(parent) + ctx, cancel = context.WithCancel(parent) //nolint:gosec // cancel called by caller when export is complete. } if c.metadata.Len() > 0 { diff --git a/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/observ/instrumentation.go b/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/observ/instrumentation.go index d4a69f4d7c..a84733174e 100644 --- a/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/observ/instrumentation.go +++ b/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/observ/instrumentation.go @@ -18,8 +18,8 @@ import ( "go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/x" "go.opentelemetry.io/otel/internal/global" "go.opentelemetry.io/otel/metric" - semconv "go.opentelemetry.io/otel/semconv/v1.39.0" - "go.opentelemetry.io/otel/semconv/v1.39.0/otelconv" + semconv "go.opentelemetry.io/otel/semconv/v1.40.0" + "go.opentelemetry.io/otel/semconv/v1.40.0/otelconv" ) const ( @@ -208,10 +208,12 @@ func BaseAttrs(id int64, target string) []attribute.KeyValue { func (i *Instrumentation) ExportSpans(ctx context.Context, nSpans int) ExportOp { start := time.Now() - addOpt := get[metric.AddOption](addOptPool) - defer put(addOptPool, addOpt) - *addOpt = append(*addOpt, i.addOpt) - i.inflightSpans.Add(ctx, int64(nSpans), *addOpt...) + if i.inflightSpans.Enabled(ctx) { + addOpt := get[metric.AddOption](addOptPool) + defer put(addOptPool, addOpt) + *addOpt = append(*addOpt, i.addOpt) + i.inflightSpans.Add(ctx, int64(nSpans), *addOpt...) + } return ExportOp{ ctx: ctx, @@ -244,14 +246,18 @@ func (e ExportOp) End(err error, code codes.Code) { defer put(addOptPool, addOpt) *addOpt = append(*addOpt, e.inst.addOpt) - e.inst.inflightSpans.Add(e.ctx, -e.nSpans, *addOpt...) + if e.inst.inflightSpans.Enabled(e.ctx) { + e.inst.inflightSpans.Add(e.ctx, -e.nSpans, *addOpt...) + } success := successful(e.nSpans, err) // Record successfully exported spans, even if the value is 0 which are // meaningful to distribution aggregations. - e.inst.exportedSpans.Add(e.ctx, success, *addOpt...) + if e.inst.exportedSpans.Enabled(e.ctx) { + e.inst.exportedSpans.Add(e.ctx, success, *addOpt...) + } - if err != nil { + if err != nil && e.inst.exportedSpans.Enabled(e.ctx) { attrs := get[attribute.KeyValue](measureAttrsPool) defer put(measureAttrsPool, attrs) *attrs = append(*attrs, e.inst.attrs...) @@ -266,12 +272,14 @@ func (e ExportOp) End(err error, code codes.Code) { e.inst.exportedSpans.Add(e.ctx, e.nSpans-success, *addOpt...) } - recOpt := get[metric.RecordOption](recordOptPool) - defer put(recordOptPool, recOpt) - *recOpt = append(*recOpt, e.inst.recordOption(err, code)) + if e.inst.opDuration.Enabled(e.ctx) { + recOpt := get[metric.RecordOption](recordOptPool) + defer put(recordOptPool, recOpt) + *recOpt = append(*recOpt, e.inst.recordOption(err, code)) - d := time.Since(e.start).Seconds() - e.inst.opDuration.Record(e.ctx, d, *recOpt...) + d := time.Since(e.start).Seconds() + e.inst.opDuration.Record(e.ctx, d, *recOpt...) + } } // recordOption returns a RecordOption with attributes representing the diff --git a/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/version.go b/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/version.go index 19fac1b725..9d4b311920 100644 --- a/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/version.go +++ b/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/version.go @@ -5,4 +5,4 @@ package internal // import "go.opentelemetry.io/otel/exporters/otlp/otlptrace/ot // Version is the current release version of the OpenTelemetry OTLP gRPC trace // exporter in use. -const Version = "1.40.0" +const Version = "1.42.0" diff --git a/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/version.go b/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/version.go index 370cd2a6f8..d1b43c3ba4 100644 --- a/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/version.go +++ b/vendor/go.opentelemetry.io/otel/exporters/otlp/otlptrace/version.go @@ -5,5 +5,5 @@ package otlptrace // import "go.opentelemetry.io/otel/exporters/otlp/otlptrace" // Version is the current release version of the OpenTelemetry OTLP trace exporter in use. func Version() string { - return "1.40.0" + return "1.42.0" } diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/MIGRATION.md b/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/MIGRATION.md deleted file mode 100644 index fed7013e6f..0000000000 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/MIGRATION.md +++ /dev/null @@ -1,78 +0,0 @@ - -# Migration from v1.38.0 to v1.39.0 - -The `go.opentelemetry.io/otel/semconv/v1.39.0` package should be a drop-in replacement for `go.opentelemetry.io/otel/semconv/v1.38.0` with the following exceptions. - -## Removed - -The following declarations have been removed. -Refer to the [OpenTelemetry Semantic Conventions documentation] for deprecation instructions. - -If the type is not listed in the documentation as deprecated, it has been removed in this version due to lack of applicability or use. -If you use any of these non-deprecated declarations in your Go application, please [open an issue] describing your use-case. - -- `LinuxMemorySlabStateKey` -- `LinuxMemorySlabStateReclaimable` -- `LinuxMemorySlabStateUnreclaimable` -- `PeerService` -- `PeerServiceKey` -- `RPCConnectRPCErrorCodeAborted` -- `RPCConnectRPCErrorCodeAlreadyExists` -- `RPCConnectRPCErrorCodeCancelled` -- `RPCConnectRPCErrorCodeDataLoss` -- `RPCConnectRPCErrorCodeDeadlineExceeded` -- `RPCConnectRPCErrorCodeFailedPrecondition` -- `RPCConnectRPCErrorCodeInternal` -- `RPCConnectRPCErrorCodeInvalidArgument` -- `RPCConnectRPCErrorCodeKey` -- `RPCConnectRPCErrorCodeNotFound` -- `RPCConnectRPCErrorCodeOutOfRange` -- `RPCConnectRPCErrorCodePermissionDenied` -- `RPCConnectRPCErrorCodeResourceExhausted` -- `RPCConnectRPCErrorCodeUnauthenticated` -- `RPCConnectRPCErrorCodeUnavailable` -- `RPCConnectRPCErrorCodeUnimplemented` -- `RPCConnectRPCErrorCodeUnknown` -- `RPCConnectRPCRequestMetadata` -- `RPCConnectRPCResponseMetadata` -- `RPCGRPCRequestMetadata` -- `RPCGRPCResponseMetadata` -- `RPCGRPCStatusCodeAborted` -- `RPCGRPCStatusCodeAlreadyExists` -- `RPCGRPCStatusCodeCancelled` -- `RPCGRPCStatusCodeDataLoss` -- `RPCGRPCStatusCodeDeadlineExceeded` -- `RPCGRPCStatusCodeFailedPrecondition` -- `RPCGRPCStatusCodeInternal` -- `RPCGRPCStatusCodeInvalidArgument` -- `RPCGRPCStatusCodeKey` -- `RPCGRPCStatusCodeNotFound` -- `RPCGRPCStatusCodeOk` -- `RPCGRPCStatusCodeOutOfRange` -- `RPCGRPCStatusCodePermissionDenied` -- `RPCGRPCStatusCodeResourceExhausted` -- `RPCGRPCStatusCodeUnauthenticated` -- `RPCGRPCStatusCodeUnavailable` -- `RPCGRPCStatusCodeUnimplemented` -- `RPCGRPCStatusCodeUnknown` -- `RPCJSONRPCErrorCode` -- `RPCJSONRPCErrorCodeKey` -- `RPCJSONRPCErrorMessage` -- `RPCJSONRPCErrorMessageKey` -- `RPCJSONRPCRequestID` -- `RPCJSONRPCRequestIDKey` -- `RPCJSONRPCVersion` -- `RPCJSONRPCVersionKey` -- `RPCService` -- `RPCServiceKey` -- `RPCSystemApacheDubbo` -- `RPCSystemConnectRPC` -- `RPCSystemDotnetWcf` -- `RPCSystemGRPC` -- `RPCSystemJSONRPC` -- `RPCSystemJavaRmi` -- `RPCSystemKey` -- `RPCSystemOncRPC` - -[OpenTelemetry Semantic Conventions documentation]: https://github.com/open-telemetry/semantic-conventions -[open an issue]: https://github.com/open-telemetry/opentelemetry-go/issues/new?template=Blank+issue diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/README.md b/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/README.md deleted file mode 100644 index 4b0e6f7f3e..0000000000 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/README.md +++ /dev/null @@ -1,3 +0,0 @@ -# Semconv v1.39.0 - -[![PkgGoDev](https://pkg.go.dev/badge/go.opentelemetry.io/otel/semconv/v1.39.0)](https://pkg.go.dev/go.opentelemetry.io/otel/semconv/v1.39.0) diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/attribute_group.go b/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/attribute_group.go deleted file mode 100644 index 080365fc19..0000000000 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/attribute_group.go +++ /dev/null @@ -1,16239 +0,0 @@ -// Copyright The OpenTelemetry Authors -// SPDX-License-Identifier: Apache-2.0 - -// Code generated from semantic convention specification. DO NOT EDIT. - -package semconv // import "go.opentelemetry.io/otel/semconv/v1.39.0" - -import "go.opentelemetry.io/otel/attribute" - -// Namespace: android -const ( - // AndroidAppStateKey is the attribute Key conforming to the "android.app.state" - // semantic conventions. It represents the this attribute represents the state - // of the application. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "created" - // Note: The Android lifecycle states are defined in - // [Activity lifecycle callbacks], and from which the `OS identifiers` are - // derived. - // - // [Activity lifecycle callbacks]: https://developer.android.com/guide/components/activities/activity-lifecycle#lc - AndroidAppStateKey = attribute.Key("android.app.state") - - // AndroidOSAPILevelKey is the attribute Key conforming to the - // "android.os.api_level" semantic conventions. It represents the uniquely - // identifies the framework API revision offered by a version (`os.version`) of - // the android operating system. More information can be found in the - // [Android API levels documentation]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "33", "32" - // - // [Android API levels documentation]: https://developer.android.com/guide/topics/manifest/uses-sdk-element#ApiLevels - AndroidOSAPILevelKey = attribute.Key("android.os.api_level") -) - -// AndroidOSAPILevel returns an attribute KeyValue conforming to the -// "android.os.api_level" semantic conventions. It represents the uniquely -// identifies the framework API revision offered by a version (`os.version`) of -// the android operating system. More information can be found in the -// [Android API levels documentation]. -// -// [Android API levels documentation]: https://developer.android.com/guide/topics/manifest/uses-sdk-element#ApiLevels -func AndroidOSAPILevel(val string) attribute.KeyValue { - return AndroidOSAPILevelKey.String(val) -} - -// Enum values for android.app.state -var ( - // Any time before Activity.onResume() or, if the app has no Activity, - // Context.startService() has been called in the app for the first time. - // - // Stability: development - AndroidAppStateCreated = AndroidAppStateKey.String("created") - // Any time after Activity.onPause() or, if the app has no Activity, - // Context.stopService() has been called when the app was in the foreground - // state. - // - // Stability: development - AndroidAppStateBackground = AndroidAppStateKey.String("background") - // Any time after Activity.onResume() or, if the app has no Activity, - // Context.startService() has been called when the app was in either the created - // or background states. - // - // Stability: development - AndroidAppStateForeground = AndroidAppStateKey.String("foreground") -) - -// Namespace: app -const ( - // AppBuildIDKey is the attribute Key conforming to the "app.build_id" semantic - // conventions. It represents the unique identifier for a particular build or - // compilation of the application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "6cff0a7e-cefc-4668-96f5-1273d8b334d0", - // "9f2b833506aa6973a92fde9733e6271f", "my-app-1.0.0-code-123" - AppBuildIDKey = attribute.Key("app.build_id") - - // AppInstallationIDKey is the attribute Key conforming to the - // "app.installation.id" semantic conventions. It represents a unique identifier - // representing the installation of an application on a specific device. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2ab2916d-a51f-4ac8-80ee-45ac31a28092" - // Note: Its value SHOULD persist across launches of the same application - // installation, including through application upgrades. - // It SHOULD change if the application is uninstalled or if all applications of - // the vendor are uninstalled. - // Additionally, users might be able to reset this value (e.g. by clearing - // application data). - // If an app is installed multiple times on the same device (e.g. in different - // accounts on Android), each `app.installation.id` SHOULD have a different - // value. - // If multiple OpenTelemetry SDKs are used within the same application, they - // SHOULD use the same value for `app.installation.id`. - // Hardware IDs (e.g. serial number, IMEI, MAC address) MUST NOT be used as the - // `app.installation.id`. - // - // For iOS, this value SHOULD be equal to the [vendor identifier]. - // - // For Android, examples of `app.installation.id` implementations include: - // - // - [Firebase Installation ID]. - // - A globally unique UUID which is persisted across sessions in your - // application. - // - [App set ID]. - // - [`Settings.getString(Settings.Secure.ANDROID_ID)`]. - // - // More information about Android identifier best practices can be found in the - // [Android user data IDs guide]. - // - // [vendor identifier]: https://developer.apple.com/documentation/uikit/uidevice/identifierforvendor - // [Firebase Installation ID]: https://firebase.google.com/docs/projects/manage-installations - // [App set ID]: https://developer.android.com/identity/app-set-id - // [`Settings.getString(Settings.Secure.ANDROID_ID)`]: https://developer.android.com/reference/android/provider/Settings.Secure#ANDROID_ID - // [Android user data IDs guide]: https://developer.android.com/training/articles/user-data-ids - AppInstallationIDKey = attribute.Key("app.installation.id") - - // AppJankFrameCountKey is the attribute Key conforming to the - // "app.jank.frame_count" semantic conventions. It represents a number of frame - // renders that experienced jank. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 9, 42 - // Note: Depending on platform limitations, the value provided MAY be - // approximation. - AppJankFrameCountKey = attribute.Key("app.jank.frame_count") - - // AppJankPeriodKey is the attribute Key conforming to the "app.jank.period" - // semantic conventions. It represents the time period, in seconds, for which - // this jank is being reported. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1.0, 5.0, 10.24 - AppJankPeriodKey = attribute.Key("app.jank.period") - - // AppJankThresholdKey is the attribute Key conforming to the - // "app.jank.threshold" semantic conventions. It represents the minimum - // rendering threshold for this jank, in seconds. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0.016, 0.7, 1.024 - AppJankThresholdKey = attribute.Key("app.jank.threshold") - - // AppScreenCoordinateXKey is the attribute Key conforming to the - // "app.screen.coordinate.x" semantic conventions. It represents the x - // (horizontal) coordinate of a screen coordinate, in screen pixels. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0, 131 - AppScreenCoordinateXKey = attribute.Key("app.screen.coordinate.x") - - // AppScreenCoordinateYKey is the attribute Key conforming to the - // "app.screen.coordinate.y" semantic conventions. It represents the y - // (vertical) component of a screen coordinate, in screen pixels. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 12, 99 - AppScreenCoordinateYKey = attribute.Key("app.screen.coordinate.y") - - // AppScreenIDKey is the attribute Key conforming to the "app.screen.id" - // semantic conventions. It represents an identifier that uniquely - // differentiates this screen from other screens in the same application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "f9bc787d-ff05-48ad-90e1-fca1d46130b3", - // "com.example.app.MainActivity", "com.example.shop.ProductDetailFragment", - // "MyApp.ProfileView", "MyApp.ProfileViewController" - // Note: A screen represents only the part of the device display drawn by the - // app. It typically contains multiple widgets or UI components and is larger in - // scope than individual widgets. Multiple screens can coexist on the same - // display simultaneously (e.g., split view on tablets). - AppScreenIDKey = attribute.Key("app.screen.id") - - // AppScreenNameKey is the attribute Key conforming to the "app.screen.name" - // semantic conventions. It represents the name of an application screen. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "MainActivity", "ProductDetailFragment", "ProfileView", - // "ProfileViewController" - // Note: A screen represents only the part of the device display drawn by the - // app. It typically contains multiple widgets or UI components and is larger in - // scope than individual widgets. Multiple screens can coexist on the same - // display simultaneously (e.g., split view on tablets). - AppScreenNameKey = attribute.Key("app.screen.name") - - // AppWidgetIDKey is the attribute Key conforming to the "app.widget.id" - // semantic conventions. It represents an identifier that uniquely - // differentiates this widget from other widgets in the same application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "f9bc787d-ff05-48ad-90e1-fca1d46130b3", "submit_order_1829" - // Note: A widget is an application component, typically an on-screen visual GUI - // element. - AppWidgetIDKey = attribute.Key("app.widget.id") - - // AppWidgetNameKey is the attribute Key conforming to the "app.widget.name" - // semantic conventions. It represents the name of an application widget. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "submit", "attack", "Clear Cart" - // Note: A widget is an application component, typically an on-screen visual GUI - // element. - AppWidgetNameKey = attribute.Key("app.widget.name") -) - -// AppBuildID returns an attribute KeyValue conforming to the "app.build_id" -// semantic conventions. It represents the unique identifier for a particular -// build or compilation of the application. -func AppBuildID(val string) attribute.KeyValue { - return AppBuildIDKey.String(val) -} - -// AppInstallationID returns an attribute KeyValue conforming to the -// "app.installation.id" semantic conventions. It represents a unique identifier -// representing the installation of an application on a specific device. -func AppInstallationID(val string) attribute.KeyValue { - return AppInstallationIDKey.String(val) -} - -// AppJankFrameCount returns an attribute KeyValue conforming to the -// "app.jank.frame_count" semantic conventions. It represents a number of frame -// renders that experienced jank. -func AppJankFrameCount(val int) attribute.KeyValue { - return AppJankFrameCountKey.Int(val) -} - -// AppJankPeriod returns an attribute KeyValue conforming to the -// "app.jank.period" semantic conventions. It represents the time period, in -// seconds, for which this jank is being reported. -func AppJankPeriod(val float64) attribute.KeyValue { - return AppJankPeriodKey.Float64(val) -} - -// AppJankThreshold returns an attribute KeyValue conforming to the -// "app.jank.threshold" semantic conventions. It represents the minimum rendering -// threshold for this jank, in seconds. -func AppJankThreshold(val float64) attribute.KeyValue { - return AppJankThresholdKey.Float64(val) -} - -// AppScreenCoordinateX returns an attribute KeyValue conforming to the -// "app.screen.coordinate.x" semantic conventions. It represents the x -// (horizontal) coordinate of a screen coordinate, in screen pixels. -func AppScreenCoordinateX(val int) attribute.KeyValue { - return AppScreenCoordinateXKey.Int(val) -} - -// AppScreenCoordinateY returns an attribute KeyValue conforming to the -// "app.screen.coordinate.y" semantic conventions. It represents the y (vertical) -// component of a screen coordinate, in screen pixels. -func AppScreenCoordinateY(val int) attribute.KeyValue { - return AppScreenCoordinateYKey.Int(val) -} - -// AppScreenID returns an attribute KeyValue conforming to the "app.screen.id" -// semantic conventions. It represents an identifier that uniquely differentiates -// this screen from other screens in the same application. -func AppScreenID(val string) attribute.KeyValue { - return AppScreenIDKey.String(val) -} - -// AppScreenName returns an attribute KeyValue conforming to the -// "app.screen.name" semantic conventions. It represents the name of an -// application screen. -func AppScreenName(val string) attribute.KeyValue { - return AppScreenNameKey.String(val) -} - -// AppWidgetID returns an attribute KeyValue conforming to the "app.widget.id" -// semantic conventions. It represents an identifier that uniquely differentiates -// this widget from other widgets in the same application. -func AppWidgetID(val string) attribute.KeyValue { - return AppWidgetIDKey.String(val) -} - -// AppWidgetName returns an attribute KeyValue conforming to the -// "app.widget.name" semantic conventions. It represents the name of an -// application widget. -func AppWidgetName(val string) attribute.KeyValue { - return AppWidgetNameKey.String(val) -} - -// Namespace: artifact -const ( - // ArtifactAttestationFilenameKey is the attribute Key conforming to the - // "artifact.attestation.filename" semantic conventions. It represents the - // provenance filename of the built attestation which directly relates to the - // build artifact filename. This filename SHOULD accompany the artifact at - // publish time. See the [SLSA Relationship] specification for more information. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "golang-binary-amd64-v0.1.0.attestation", - // "docker-image-amd64-v0.1.0.intoto.json1", "release-1.tar.gz.attestation", - // "file-name-package.tar.gz.intoto.json1" - // - // [SLSA Relationship]: https://slsa.dev/spec/v1.0/distributing-provenance#relationship-between-artifacts-and-attestations - ArtifactAttestationFilenameKey = attribute.Key("artifact.attestation.filename") - - // ArtifactAttestationHashKey is the attribute Key conforming to the - // "artifact.attestation.hash" semantic conventions. It represents the full - // [hash value (see glossary)], of the built attestation. Some envelopes in the - // [software attestation space] also refer to this as the **digest**. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1b31dfcd5b7f9267bf2ff47651df1cfb9147b9e4df1f335accf65b4cda498408" - // - // [hash value (see glossary)]: https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-5.pdf - // [software attestation space]: https://github.com/in-toto/attestation/tree/main/spec - ArtifactAttestationHashKey = attribute.Key("artifact.attestation.hash") - - // ArtifactAttestationIDKey is the attribute Key conforming to the - // "artifact.attestation.id" semantic conventions. It represents the id of the - // build [software attestation]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "123" - // - // [software attestation]: https://slsa.dev/attestation-model - ArtifactAttestationIDKey = attribute.Key("artifact.attestation.id") - - // ArtifactFilenameKey is the attribute Key conforming to the - // "artifact.filename" semantic conventions. It represents the human readable - // file name of the artifact, typically generated during build and release - // processes. Often includes the package name and version in the file name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "golang-binary-amd64-v0.1.0", "docker-image-amd64-v0.1.0", - // "release-1.tar.gz", "file-name-package.tar.gz" - // Note: This file name can also act as the [Package Name] - // in cases where the package ecosystem maps accordingly. - // Additionally, the artifact [can be published] - // for others, but that is not a guarantee. - // - // [Package Name]: https://slsa.dev/spec/v1.0/terminology#package-model - // [can be published]: https://slsa.dev/spec/v1.0/terminology#software-supply-chain - ArtifactFilenameKey = attribute.Key("artifact.filename") - - // ArtifactHashKey is the attribute Key conforming to the "artifact.hash" - // semantic conventions. It represents the full [hash value (see glossary)], - // often found in checksum.txt on a release of the artifact and used to verify - // package integrity. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "9ff4c52759e2c4ac70b7d517bc7fcdc1cda631ca0045271ddd1b192544f8a3e9" - // Note: The specific algorithm used to create the cryptographic hash value is - // not defined. In situations where an artifact has multiple - // cryptographic hashes, it is up to the implementer to choose which - // hash value to set here; this should be the most secure hash algorithm - // that is suitable for the situation and consistent with the - // corresponding attestation. The implementer can then provide the other - // hash values through an additional set of attribute extensions as they - // deem necessary. - // - // [hash value (see glossary)]: https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-5.pdf - ArtifactHashKey = attribute.Key("artifact.hash") - - // ArtifactPurlKey is the attribute Key conforming to the "artifact.purl" - // semantic conventions. It represents the [Package URL] of the - // [package artifact] provides a standard way to identify and locate the - // packaged artifact. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "pkg:github/package-url/purl-spec@1209109710924", - // "pkg:npm/foo@12.12.3" - // - // [Package URL]: https://github.com/package-url/purl-spec - // [package artifact]: https://slsa.dev/spec/v1.0/terminology#package-model - ArtifactPurlKey = attribute.Key("artifact.purl") - - // ArtifactVersionKey is the attribute Key conforming to the "artifact.version" - // semantic conventions. It represents the version of the artifact. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "v0.1.0", "1.2.1", "122691-build" - ArtifactVersionKey = attribute.Key("artifact.version") -) - -// ArtifactAttestationFilename returns an attribute KeyValue conforming to the -// "artifact.attestation.filename" semantic conventions. It represents the -// provenance filename of the built attestation which directly relates to the -// build artifact filename. This filename SHOULD accompany the artifact at -// publish time. See the [SLSA Relationship] specification for more information. -// -// [SLSA Relationship]: https://slsa.dev/spec/v1.0/distributing-provenance#relationship-between-artifacts-and-attestations -func ArtifactAttestationFilename(val string) attribute.KeyValue { - return ArtifactAttestationFilenameKey.String(val) -} - -// ArtifactAttestationHash returns an attribute KeyValue conforming to the -// "artifact.attestation.hash" semantic conventions. It represents the full -// [hash value (see glossary)], of the built attestation. Some envelopes in the -// [software attestation space] also refer to this as the **digest**. -// -// [hash value (see glossary)]: https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-5.pdf -// [software attestation space]: https://github.com/in-toto/attestation/tree/main/spec -func ArtifactAttestationHash(val string) attribute.KeyValue { - return ArtifactAttestationHashKey.String(val) -} - -// ArtifactAttestationID returns an attribute KeyValue conforming to the -// "artifact.attestation.id" semantic conventions. It represents the id of the -// build [software attestation]. -// -// [software attestation]: https://slsa.dev/attestation-model -func ArtifactAttestationID(val string) attribute.KeyValue { - return ArtifactAttestationIDKey.String(val) -} - -// ArtifactFilename returns an attribute KeyValue conforming to the -// "artifact.filename" semantic conventions. It represents the human readable -// file name of the artifact, typically generated during build and release -// processes. Often includes the package name and version in the file name. -func ArtifactFilename(val string) attribute.KeyValue { - return ArtifactFilenameKey.String(val) -} - -// ArtifactHash returns an attribute KeyValue conforming to the "artifact.hash" -// semantic conventions. It represents the full [hash value (see glossary)], -// often found in checksum.txt on a release of the artifact and used to verify -// package integrity. -// -// [hash value (see glossary)]: https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-5.pdf -func ArtifactHash(val string) attribute.KeyValue { - return ArtifactHashKey.String(val) -} - -// ArtifactPurl returns an attribute KeyValue conforming to the "artifact.purl" -// semantic conventions. It represents the [Package URL] of the -// [package artifact] provides a standard way to identify and locate the packaged -// artifact. -// -// [Package URL]: https://github.com/package-url/purl-spec -// [package artifact]: https://slsa.dev/spec/v1.0/terminology#package-model -func ArtifactPurl(val string) attribute.KeyValue { - return ArtifactPurlKey.String(val) -} - -// ArtifactVersion returns an attribute KeyValue conforming to the -// "artifact.version" semantic conventions. It represents the version of the -// artifact. -func ArtifactVersion(val string) attribute.KeyValue { - return ArtifactVersionKey.String(val) -} - -// Namespace: aws -const ( - // AWSBedrockGuardrailIDKey is the attribute Key conforming to the - // "aws.bedrock.guardrail.id" semantic conventions. It represents the unique - // identifier of the AWS Bedrock Guardrail. A [guardrail] helps safeguard and - // prevent unwanted behavior from model responses or user messages. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "sgi5gkybzqak" - // - // [guardrail]: https://docs.aws.amazon.com/bedrock/latest/userguide/guardrails.html - AWSBedrockGuardrailIDKey = attribute.Key("aws.bedrock.guardrail.id") - - // AWSBedrockKnowledgeBaseIDKey is the attribute Key conforming to the - // "aws.bedrock.knowledge_base.id" semantic conventions. It represents the - // unique identifier of the AWS Bedrock Knowledge base. A [knowledge base] is a - // bank of information that can be queried by models to generate more relevant - // responses and augment prompts. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "XFWUPB9PAW" - // - // [knowledge base]: https://docs.aws.amazon.com/bedrock/latest/userguide/knowledge-base.html - AWSBedrockKnowledgeBaseIDKey = attribute.Key("aws.bedrock.knowledge_base.id") - - // AWSDynamoDBAttributeDefinitionsKey is the attribute Key conforming to the - // "aws.dynamodb.attribute_definitions" semantic conventions. It represents the - // JSON-serialized value of each item in the `AttributeDefinitions` request - // field. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{ "AttributeName": "string", "AttributeType": "string" }" - AWSDynamoDBAttributeDefinitionsKey = attribute.Key("aws.dynamodb.attribute_definitions") - - // AWSDynamoDBAttributesToGetKey is the attribute Key conforming to the - // "aws.dynamodb.attributes_to_get" semantic conventions. It represents the - // value of the `AttributesToGet` request parameter. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "lives", "id" - AWSDynamoDBAttributesToGetKey = attribute.Key("aws.dynamodb.attributes_to_get") - - // AWSDynamoDBConsistentReadKey is the attribute Key conforming to the - // "aws.dynamodb.consistent_read" semantic conventions. It represents the value - // of the `ConsistentRead` request parameter. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - AWSDynamoDBConsistentReadKey = attribute.Key("aws.dynamodb.consistent_read") - - // AWSDynamoDBConsumedCapacityKey is the attribute Key conforming to the - // "aws.dynamodb.consumed_capacity" semantic conventions. It represents the - // JSON-serialized value of each item in the `ConsumedCapacity` response field. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{ "CapacityUnits": number, "GlobalSecondaryIndexes": { "string" : - // { "CapacityUnits": number, "ReadCapacityUnits": number, "WriteCapacityUnits": - // number } }, "LocalSecondaryIndexes": { "string" : { "CapacityUnits": number, - // "ReadCapacityUnits": number, "WriteCapacityUnits": number } }, - // "ReadCapacityUnits": number, "Table": { "CapacityUnits": number, - // "ReadCapacityUnits": number, "WriteCapacityUnits": number }, "TableName": - // "string", "WriteCapacityUnits": number }" - AWSDynamoDBConsumedCapacityKey = attribute.Key("aws.dynamodb.consumed_capacity") - - // AWSDynamoDBCountKey is the attribute Key conforming to the - // "aws.dynamodb.count" semantic conventions. It represents the value of the - // `Count` response parameter. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 10 - AWSDynamoDBCountKey = attribute.Key("aws.dynamodb.count") - - // AWSDynamoDBExclusiveStartTableKey is the attribute Key conforming to the - // "aws.dynamodb.exclusive_start_table" semantic conventions. It represents the - // value of the `ExclusiveStartTableName` request parameter. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Users", "CatsTable" - AWSDynamoDBExclusiveStartTableKey = attribute.Key("aws.dynamodb.exclusive_start_table") - - // AWSDynamoDBGlobalSecondaryIndexUpdatesKey is the attribute Key conforming to - // the "aws.dynamodb.global_secondary_index_updates" semantic conventions. It - // represents the JSON-serialized value of each item in the - // `GlobalSecondaryIndexUpdates` request field. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{ "Create": { "IndexName": "string", "KeySchema": [ { - // "AttributeName": "string", "KeyType": "string" } ], "Projection": { - // "NonKeyAttributes": [ "string" ], "ProjectionType": "string" }, - // "ProvisionedThroughput": { "ReadCapacityUnits": number, "WriteCapacityUnits": - // number } }" - AWSDynamoDBGlobalSecondaryIndexUpdatesKey = attribute.Key("aws.dynamodb.global_secondary_index_updates") - - // AWSDynamoDBGlobalSecondaryIndexesKey is the attribute Key conforming to the - // "aws.dynamodb.global_secondary_indexes" semantic conventions. It represents - // the JSON-serialized value of each item of the `GlobalSecondaryIndexes` - // request field. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{ "IndexName": "string", "KeySchema": [ { "AttributeName": - // "string", "KeyType": "string" } ], "Projection": { "NonKeyAttributes": [ - // "string" ], "ProjectionType": "string" }, "ProvisionedThroughput": { - // "ReadCapacityUnits": number, "WriteCapacityUnits": number } }" - AWSDynamoDBGlobalSecondaryIndexesKey = attribute.Key("aws.dynamodb.global_secondary_indexes") - - // AWSDynamoDBIndexNameKey is the attribute Key conforming to the - // "aws.dynamodb.index_name" semantic conventions. It represents the value of - // the `IndexName` request parameter. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "name_to_group" - AWSDynamoDBIndexNameKey = attribute.Key("aws.dynamodb.index_name") - - // AWSDynamoDBItemCollectionMetricsKey is the attribute Key conforming to the - // "aws.dynamodb.item_collection_metrics" semantic conventions. It represents - // the JSON-serialized value of the `ItemCollectionMetrics` response field. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{ "string" : [ { "ItemCollectionKey": { "string" : { "B": blob, - // "BOOL": boolean, "BS": [ blob ], "L": [ "AttributeValue" ], "M": { "string" : - // "AttributeValue" }, "N": "string", "NS": [ "string" ], "NULL": boolean, "S": - // "string", "SS": [ "string" ] } }, "SizeEstimateRangeGB": [ number ] } ] }" - AWSDynamoDBItemCollectionMetricsKey = attribute.Key("aws.dynamodb.item_collection_metrics") - - // AWSDynamoDBLimitKey is the attribute Key conforming to the - // "aws.dynamodb.limit" semantic conventions. It represents the value of the - // `Limit` request parameter. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 10 - AWSDynamoDBLimitKey = attribute.Key("aws.dynamodb.limit") - - // AWSDynamoDBLocalSecondaryIndexesKey is the attribute Key conforming to the - // "aws.dynamodb.local_secondary_indexes" semantic conventions. It represents - // the JSON-serialized value of each item of the `LocalSecondaryIndexes` request - // field. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{ "IndexArn": "string", "IndexName": "string", "IndexSizeBytes": - // number, "ItemCount": number, "KeySchema": [ { "AttributeName": "string", - // "KeyType": "string" } ], "Projection": { "NonKeyAttributes": [ "string" ], - // "ProjectionType": "string" } }" - AWSDynamoDBLocalSecondaryIndexesKey = attribute.Key("aws.dynamodb.local_secondary_indexes") - - // AWSDynamoDBProjectionKey is the attribute Key conforming to the - // "aws.dynamodb.projection" semantic conventions. It represents the value of - // the `ProjectionExpression` request parameter. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Title", "Title, Price, Color", "Title, Description, RelatedItems, - // ProductReviews" - AWSDynamoDBProjectionKey = attribute.Key("aws.dynamodb.projection") - - // AWSDynamoDBProvisionedReadCapacityKey is the attribute Key conforming to the - // "aws.dynamodb.provisioned_read_capacity" semantic conventions. It represents - // the value of the `ProvisionedThroughput.ReadCapacityUnits` request parameter. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1.0, 2.0 - AWSDynamoDBProvisionedReadCapacityKey = attribute.Key("aws.dynamodb.provisioned_read_capacity") - - // AWSDynamoDBProvisionedWriteCapacityKey is the attribute Key conforming to the - // "aws.dynamodb.provisioned_write_capacity" semantic conventions. It represents - // the value of the `ProvisionedThroughput.WriteCapacityUnits` request - // parameter. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1.0, 2.0 - AWSDynamoDBProvisionedWriteCapacityKey = attribute.Key("aws.dynamodb.provisioned_write_capacity") - - // AWSDynamoDBScanForwardKey is the attribute Key conforming to the - // "aws.dynamodb.scan_forward" semantic conventions. It represents the value of - // the `ScanIndexForward` request parameter. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - AWSDynamoDBScanForwardKey = attribute.Key("aws.dynamodb.scan_forward") - - // AWSDynamoDBScannedCountKey is the attribute Key conforming to the - // "aws.dynamodb.scanned_count" semantic conventions. It represents the value of - // the `ScannedCount` response parameter. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 50 - AWSDynamoDBScannedCountKey = attribute.Key("aws.dynamodb.scanned_count") - - // AWSDynamoDBSegmentKey is the attribute Key conforming to the - // "aws.dynamodb.segment" semantic conventions. It represents the value of the - // `Segment` request parameter. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 10 - AWSDynamoDBSegmentKey = attribute.Key("aws.dynamodb.segment") - - // AWSDynamoDBSelectKey is the attribute Key conforming to the - // "aws.dynamodb.select" semantic conventions. It represents the value of the - // `Select` request parameter. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "ALL_ATTRIBUTES", "COUNT" - AWSDynamoDBSelectKey = attribute.Key("aws.dynamodb.select") - - // AWSDynamoDBTableCountKey is the attribute Key conforming to the - // "aws.dynamodb.table_count" semantic conventions. It represents the number of - // items in the `TableNames` response parameter. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 20 - AWSDynamoDBTableCountKey = attribute.Key("aws.dynamodb.table_count") - - // AWSDynamoDBTableNamesKey is the attribute Key conforming to the - // "aws.dynamodb.table_names" semantic conventions. It represents the keys in - // the `RequestItems` object field. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Users", "Cats" - AWSDynamoDBTableNamesKey = attribute.Key("aws.dynamodb.table_names") - - // AWSDynamoDBTotalSegmentsKey is the attribute Key conforming to the - // "aws.dynamodb.total_segments" semantic conventions. It represents the value - // of the `TotalSegments` request parameter. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 100 - AWSDynamoDBTotalSegmentsKey = attribute.Key("aws.dynamodb.total_segments") - - // AWSECSClusterARNKey is the attribute Key conforming to the - // "aws.ecs.cluster.arn" semantic conventions. It represents the ARN of an - // [ECS cluster]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "arn:aws:ecs:us-west-2:123456789123:cluster/my-cluster" - // - // [ECS cluster]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/clusters.html - AWSECSClusterARNKey = attribute.Key("aws.ecs.cluster.arn") - - // AWSECSContainerARNKey is the attribute Key conforming to the - // "aws.ecs.container.arn" semantic conventions. It represents the Amazon - // Resource Name (ARN) of an [ECS container instance]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "arn:aws:ecs:us-west-1:123456789123:container/32624152-9086-4f0e-acae-1a75b14fe4d9" - // - // [ECS container instance]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ECS_instances.html - AWSECSContainerARNKey = attribute.Key("aws.ecs.container.arn") - - // AWSECSLaunchtypeKey is the attribute Key conforming to the - // "aws.ecs.launchtype" semantic conventions. It represents the [launch type] - // for an ECS task. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [launch type]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/launch_types.html - AWSECSLaunchtypeKey = attribute.Key("aws.ecs.launchtype") - - // AWSECSTaskARNKey is the attribute Key conforming to the "aws.ecs.task.arn" - // semantic conventions. It represents the ARN of a running [ECS task]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "arn:aws:ecs:us-west-1:123456789123:task/10838bed-421f-43ef-870a-f43feacbbb5b", - // "arn:aws:ecs:us-west-1:123456789123:task/my-cluster/task-id/23ebb8ac-c18f-46c6-8bbe-d55d0e37cfbd" - // - // [ECS task]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-account-settings.html#ecs-resource-ids - AWSECSTaskARNKey = attribute.Key("aws.ecs.task.arn") - - // AWSECSTaskFamilyKey is the attribute Key conforming to the - // "aws.ecs.task.family" semantic conventions. It represents the family name of - // the [ECS task definition] used to create the ECS task. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "opentelemetry-family" - // - // [ECS task definition]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html - AWSECSTaskFamilyKey = attribute.Key("aws.ecs.task.family") - - // AWSECSTaskIDKey is the attribute Key conforming to the "aws.ecs.task.id" - // semantic conventions. It represents the ID of a running ECS task. The ID MUST - // be extracted from `task.arn`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "10838bed-421f-43ef-870a-f43feacbbb5b", - // "23ebb8ac-c18f-46c6-8bbe-d55d0e37cfbd" - AWSECSTaskIDKey = attribute.Key("aws.ecs.task.id") - - // AWSECSTaskRevisionKey is the attribute Key conforming to the - // "aws.ecs.task.revision" semantic conventions. It represents the revision for - // the task definition used to create the ECS task. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "8", "26" - AWSECSTaskRevisionKey = attribute.Key("aws.ecs.task.revision") - - // AWSEKSClusterARNKey is the attribute Key conforming to the - // "aws.eks.cluster.arn" semantic conventions. It represents the ARN of an EKS - // cluster. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "arn:aws:ecs:us-west-2:123456789123:cluster/my-cluster" - AWSEKSClusterARNKey = attribute.Key("aws.eks.cluster.arn") - - // AWSExtendedRequestIDKey is the attribute Key conforming to the - // "aws.extended_request_id" semantic conventions. It represents the AWS - // extended request ID as returned in the response header `x-amz-id-2`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "wzHcyEWfmOGDIE5QOhTAqFDoDWP3y8IUvpNINCwL9N4TEHbUw0/gZJ+VZTmCNCWR7fezEN3eCiQ=" - AWSExtendedRequestIDKey = attribute.Key("aws.extended_request_id") - - // AWSKinesisStreamNameKey is the attribute Key conforming to the - // "aws.kinesis.stream_name" semantic conventions. It represents the name of the - // AWS Kinesis [stream] the request refers to. Corresponds to the - // `--stream-name` parameter of the Kinesis [describe-stream] operation. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "some-stream-name" - // - // [stream]: https://docs.aws.amazon.com/streams/latest/dev/introduction.html - // [describe-stream]: https://docs.aws.amazon.com/cli/latest/reference/kinesis/describe-stream.html - AWSKinesisStreamNameKey = attribute.Key("aws.kinesis.stream_name") - - // AWSLambdaInvokedARNKey is the attribute Key conforming to the - // "aws.lambda.invoked_arn" semantic conventions. It represents the full invoked - // ARN as provided on the `Context` passed to the function ( - // `Lambda-Runtime-Invoked-Function-Arn` header on the - // `/runtime/invocation/next` applicable). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "arn:aws:lambda:us-east-1:123456:function:myfunction:myalias" - // Note: This may be different from `cloud.resource_id` if an alias is involved. - AWSLambdaInvokedARNKey = attribute.Key("aws.lambda.invoked_arn") - - // AWSLambdaResourceMappingIDKey is the attribute Key conforming to the - // "aws.lambda.resource_mapping.id" semantic conventions. It represents the UUID - // of the [AWS Lambda EvenSource Mapping]. An event source is mapped to a lambda - // function. It's contents are read by Lambda and used to trigger a function. - // This isn't available in the lambda execution context or the lambda runtime - // environtment. This is going to be populated by the AWS SDK for each language - // when that UUID is present. Some of these operations are - // Create/Delete/Get/List/Update EventSourceMapping. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "587ad24b-03b9-4413-8202-bbd56b36e5b7" - // - // [AWS Lambda EvenSource Mapping]: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-lambda-eventsourcemapping.html - AWSLambdaResourceMappingIDKey = attribute.Key("aws.lambda.resource_mapping.id") - - // AWSLogGroupARNsKey is the attribute Key conforming to the - // "aws.log.group.arns" semantic conventions. It represents the Amazon Resource - // Name(s) (ARN) of the AWS log group(s). - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "arn:aws:logs:us-west-1:123456789012:log-group:/aws/my/group:*" - // Note: See the [log group ARN format documentation]. - // - // [log group ARN format documentation]: https://docs.aws.amazon.com/AmazonCloudWatch/latest/logs/iam-access-control-overview-cwl.html#CWL_ARN_Format - AWSLogGroupARNsKey = attribute.Key("aws.log.group.arns") - - // AWSLogGroupNamesKey is the attribute Key conforming to the - // "aws.log.group.names" semantic conventions. It represents the name(s) of the - // AWS log group(s) an application is writing to. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/aws/lambda/my-function", "opentelemetry-service" - // Note: Multiple log groups must be supported for cases like multi-container - // applications, where a single application has sidecar containers, and each - // write to their own log group. - AWSLogGroupNamesKey = attribute.Key("aws.log.group.names") - - // AWSLogStreamARNsKey is the attribute Key conforming to the - // "aws.log.stream.arns" semantic conventions. It represents the ARN(s) of the - // AWS log stream(s). - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "arn:aws:logs:us-west-1:123456789012:log-group:/aws/my/group:log-stream:logs/main/10838bed-421f-43ef-870a-f43feacbbb5b" - // Note: See the [log stream ARN format documentation]. One log group can - // contain several log streams, so these ARNs necessarily identify both a log - // group and a log stream. - // - // [log stream ARN format documentation]: https://docs.aws.amazon.com/AmazonCloudWatch/latest/logs/iam-access-control-overview-cwl.html#CWL_ARN_Format - AWSLogStreamARNsKey = attribute.Key("aws.log.stream.arns") - - // AWSLogStreamNamesKey is the attribute Key conforming to the - // "aws.log.stream.names" semantic conventions. It represents the name(s) of the - // AWS log stream(s) an application is writing to. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "logs/main/10838bed-421f-43ef-870a-f43feacbbb5b" - AWSLogStreamNamesKey = attribute.Key("aws.log.stream.names") - - // AWSRequestIDKey is the attribute Key conforming to the "aws.request_id" - // semantic conventions. It represents the AWS request ID as returned in the - // response headers `x-amzn-requestid`, `x-amzn-request-id` or - // `x-amz-request-id`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "79b9da39-b7ae-508a-a6bc-864b2829c622", "C9ER4AJX75574TDJ" - AWSRequestIDKey = attribute.Key("aws.request_id") - - // AWSS3BucketKey is the attribute Key conforming to the "aws.s3.bucket" - // semantic conventions. It represents the S3 bucket name the request refers to. - // Corresponds to the `--bucket` parameter of the [S3 API] operations. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "some-bucket-name" - // Note: The `bucket` attribute is applicable to all S3 operations that - // reference a bucket, i.e. that require the bucket name as a mandatory - // parameter. - // This applies to almost all S3 operations except `list-buckets`. - // - // [S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/index.html - AWSS3BucketKey = attribute.Key("aws.s3.bucket") - - // AWSS3CopySourceKey is the attribute Key conforming to the - // "aws.s3.copy_source" semantic conventions. It represents the source object - // (in the form `bucket`/`key`) for the copy operation. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "someFile.yml" - // Note: The `copy_source` attribute applies to S3 copy operations and - // corresponds to the `--copy-source` parameter - // of the [copy-object operation within the S3 API]. - // This applies in particular to the following operations: - // - // - [copy-object] - // - [upload-part-copy] - // - // - // [copy-object operation within the S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/copy-object.html - // [copy-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/copy-object.html - // [upload-part-copy]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part-copy.html - AWSS3CopySourceKey = attribute.Key("aws.s3.copy_source") - - // AWSS3DeleteKey is the attribute Key conforming to the "aws.s3.delete" - // semantic conventions. It represents the delete request container that - // specifies the objects to be deleted. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "Objects=[{Key=string,VersionId=string},{Key=string,VersionId=string}],Quiet=boolean" - // Note: The `delete` attribute is only applicable to the [delete-object] - // operation. - // The `delete` attribute corresponds to the `--delete` parameter of the - // [delete-objects operation within the S3 API]. - // - // [delete-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/delete-object.html - // [delete-objects operation within the S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/delete-objects.html - AWSS3DeleteKey = attribute.Key("aws.s3.delete") - - // AWSS3KeyKey is the attribute Key conforming to the "aws.s3.key" semantic - // conventions. It represents the S3 object key the request refers to. - // Corresponds to the `--key` parameter of the [S3 API] operations. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "someFile.yml" - // Note: The `key` attribute is applicable to all object-related S3 operations, - // i.e. that require the object key as a mandatory parameter. - // This applies in particular to the following operations: - // - // - [copy-object] - // - [delete-object] - // - [get-object] - // - [head-object] - // - [put-object] - // - [restore-object] - // - [select-object-content] - // - [abort-multipart-upload] - // - [complete-multipart-upload] - // - [create-multipart-upload] - // - [list-parts] - // - [upload-part] - // - [upload-part-copy] - // - // - // [S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/index.html - // [copy-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/copy-object.html - // [delete-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/delete-object.html - // [get-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/get-object.html - // [head-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/head-object.html - // [put-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/put-object.html - // [restore-object]: https://docs.aws.amazon.com/cli/latest/reference/s3api/restore-object.html - // [select-object-content]: https://docs.aws.amazon.com/cli/latest/reference/s3api/select-object-content.html - // [abort-multipart-upload]: https://docs.aws.amazon.com/cli/latest/reference/s3api/abort-multipart-upload.html - // [complete-multipart-upload]: https://docs.aws.amazon.com/cli/latest/reference/s3api/complete-multipart-upload.html - // [create-multipart-upload]: https://docs.aws.amazon.com/cli/latest/reference/s3api/create-multipart-upload.html - // [list-parts]: https://docs.aws.amazon.com/cli/latest/reference/s3api/list-parts.html - // [upload-part]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part.html - // [upload-part-copy]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part-copy.html - AWSS3KeyKey = attribute.Key("aws.s3.key") - - // AWSS3PartNumberKey is the attribute Key conforming to the - // "aws.s3.part_number" semantic conventions. It represents the part number of - // the part being uploaded in a multipart-upload operation. This is a positive - // integer between 1 and 10,000. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 3456 - // Note: The `part_number` attribute is only applicable to the [upload-part] - // and [upload-part-copy] operations. - // The `part_number` attribute corresponds to the `--part-number` parameter of - // the - // [upload-part operation within the S3 API]. - // - // [upload-part]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part.html - // [upload-part-copy]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part-copy.html - // [upload-part operation within the S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part.html - AWSS3PartNumberKey = attribute.Key("aws.s3.part_number") - - // AWSS3UploadIDKey is the attribute Key conforming to the "aws.s3.upload_id" - // semantic conventions. It represents the upload ID that identifies the - // multipart upload. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "dfRtDYWFbkRONycy.Yxwh66Yjlx.cph0gtNBtJ" - // Note: The `upload_id` attribute applies to S3 multipart-upload operations and - // corresponds to the `--upload-id` parameter - // of the [S3 API] multipart operations. - // This applies in particular to the following operations: - // - // - [abort-multipart-upload] - // - [complete-multipart-upload] - // - [list-parts] - // - [upload-part] - // - [upload-part-copy] - // - // - // [S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/index.html - // [abort-multipart-upload]: https://docs.aws.amazon.com/cli/latest/reference/s3api/abort-multipart-upload.html - // [complete-multipart-upload]: https://docs.aws.amazon.com/cli/latest/reference/s3api/complete-multipart-upload.html - // [list-parts]: https://docs.aws.amazon.com/cli/latest/reference/s3api/list-parts.html - // [upload-part]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part.html - // [upload-part-copy]: https://docs.aws.amazon.com/cli/latest/reference/s3api/upload-part-copy.html - AWSS3UploadIDKey = attribute.Key("aws.s3.upload_id") - - // AWSSecretsmanagerSecretARNKey is the attribute Key conforming to the - // "aws.secretsmanager.secret.arn" semantic conventions. It represents the ARN - // of the Secret stored in the Secrets Mangger. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "arn:aws:secretsmanager:us-east-1:123456789012:secret:SecretName-6RandomCharacters" - AWSSecretsmanagerSecretARNKey = attribute.Key("aws.secretsmanager.secret.arn") - - // AWSSNSTopicARNKey is the attribute Key conforming to the "aws.sns.topic.arn" - // semantic conventions. It represents the ARN of the AWS SNS Topic. An Amazon - // SNS [topic] is a logical access point that acts as a communication channel. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "arn:aws:sns:us-east-1:123456789012:mystack-mytopic-NZJ5JSMVGFIE" - // - // [topic]: https://docs.aws.amazon.com/sns/latest/dg/sns-create-topic.html - AWSSNSTopicARNKey = attribute.Key("aws.sns.topic.arn") - - // AWSSQSQueueURLKey is the attribute Key conforming to the "aws.sqs.queue.url" - // semantic conventions. It represents the URL of the AWS SQS Queue. It's a - // unique identifier for a queue in Amazon Simple Queue Service (SQS) and is - // used to access the queue and perform actions on it. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "https://sqs.us-east-1.amazonaws.com/123456789012/MyQueue" - AWSSQSQueueURLKey = attribute.Key("aws.sqs.queue.url") - - // AWSStepFunctionsActivityARNKey is the attribute Key conforming to the - // "aws.step_functions.activity.arn" semantic conventions. It represents the ARN - // of the AWS Step Functions Activity. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "arn:aws:states:us-east-1:123456789012:activity:get-greeting" - AWSStepFunctionsActivityARNKey = attribute.Key("aws.step_functions.activity.arn") - - // AWSStepFunctionsStateMachineARNKey is the attribute Key conforming to the - // "aws.step_functions.state_machine.arn" semantic conventions. It represents - // the ARN of the AWS Step Functions State Machine. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "arn:aws:states:us-east-1:123456789012:stateMachine:myStateMachine:1" - AWSStepFunctionsStateMachineARNKey = attribute.Key("aws.step_functions.state_machine.arn") -) - -// AWSBedrockGuardrailID returns an attribute KeyValue conforming to the -// "aws.bedrock.guardrail.id" semantic conventions. It represents the unique -// identifier of the AWS Bedrock Guardrail. A [guardrail] helps safeguard and -// prevent unwanted behavior from model responses or user messages. -// -// [guardrail]: https://docs.aws.amazon.com/bedrock/latest/userguide/guardrails.html -func AWSBedrockGuardrailID(val string) attribute.KeyValue { - return AWSBedrockGuardrailIDKey.String(val) -} - -// AWSBedrockKnowledgeBaseID returns an attribute KeyValue conforming to the -// "aws.bedrock.knowledge_base.id" semantic conventions. It represents the unique -// identifier of the AWS Bedrock Knowledge base. A [knowledge base] is a bank of -// information that can be queried by models to generate more relevant responses -// and augment prompts. -// -// [knowledge base]: https://docs.aws.amazon.com/bedrock/latest/userguide/knowledge-base.html -func AWSBedrockKnowledgeBaseID(val string) attribute.KeyValue { - return AWSBedrockKnowledgeBaseIDKey.String(val) -} - -// AWSDynamoDBAttributeDefinitions returns an attribute KeyValue conforming to -// the "aws.dynamodb.attribute_definitions" semantic conventions. It represents -// the JSON-serialized value of each item in the `AttributeDefinitions` request -// field. -func AWSDynamoDBAttributeDefinitions(val ...string) attribute.KeyValue { - return AWSDynamoDBAttributeDefinitionsKey.StringSlice(val) -} - -// AWSDynamoDBAttributesToGet returns an attribute KeyValue conforming to the -// "aws.dynamodb.attributes_to_get" semantic conventions. It represents the value -// of the `AttributesToGet` request parameter. -func AWSDynamoDBAttributesToGet(val ...string) attribute.KeyValue { - return AWSDynamoDBAttributesToGetKey.StringSlice(val) -} - -// AWSDynamoDBConsistentRead returns an attribute KeyValue conforming to the -// "aws.dynamodb.consistent_read" semantic conventions. It represents the value -// of the `ConsistentRead` request parameter. -func AWSDynamoDBConsistentRead(val bool) attribute.KeyValue { - return AWSDynamoDBConsistentReadKey.Bool(val) -} - -// AWSDynamoDBConsumedCapacity returns an attribute KeyValue conforming to the -// "aws.dynamodb.consumed_capacity" semantic conventions. It represents the -// JSON-serialized value of each item in the `ConsumedCapacity` response field. -func AWSDynamoDBConsumedCapacity(val ...string) attribute.KeyValue { - return AWSDynamoDBConsumedCapacityKey.StringSlice(val) -} - -// AWSDynamoDBCount returns an attribute KeyValue conforming to the -// "aws.dynamodb.count" semantic conventions. It represents the value of the -// `Count` response parameter. -func AWSDynamoDBCount(val int) attribute.KeyValue { - return AWSDynamoDBCountKey.Int(val) -} - -// AWSDynamoDBExclusiveStartTable returns an attribute KeyValue conforming to the -// "aws.dynamodb.exclusive_start_table" semantic conventions. It represents the -// value of the `ExclusiveStartTableName` request parameter. -func AWSDynamoDBExclusiveStartTable(val string) attribute.KeyValue { - return AWSDynamoDBExclusiveStartTableKey.String(val) -} - -// AWSDynamoDBGlobalSecondaryIndexUpdates returns an attribute KeyValue -// conforming to the "aws.dynamodb.global_secondary_index_updates" semantic -// conventions. It represents the JSON-serialized value of each item in the -// `GlobalSecondaryIndexUpdates` request field. -func AWSDynamoDBGlobalSecondaryIndexUpdates(val ...string) attribute.KeyValue { - return AWSDynamoDBGlobalSecondaryIndexUpdatesKey.StringSlice(val) -} - -// AWSDynamoDBGlobalSecondaryIndexes returns an attribute KeyValue conforming to -// the "aws.dynamodb.global_secondary_indexes" semantic conventions. It -// represents the JSON-serialized value of each item of the -// `GlobalSecondaryIndexes` request field. -func AWSDynamoDBGlobalSecondaryIndexes(val ...string) attribute.KeyValue { - return AWSDynamoDBGlobalSecondaryIndexesKey.StringSlice(val) -} - -// AWSDynamoDBIndexName returns an attribute KeyValue conforming to the -// "aws.dynamodb.index_name" semantic conventions. It represents the value of the -// `IndexName` request parameter. -func AWSDynamoDBIndexName(val string) attribute.KeyValue { - return AWSDynamoDBIndexNameKey.String(val) -} - -// AWSDynamoDBItemCollectionMetrics returns an attribute KeyValue conforming to -// the "aws.dynamodb.item_collection_metrics" semantic conventions. It represents -// the JSON-serialized value of the `ItemCollectionMetrics` response field. -func AWSDynamoDBItemCollectionMetrics(val string) attribute.KeyValue { - return AWSDynamoDBItemCollectionMetricsKey.String(val) -} - -// AWSDynamoDBLimit returns an attribute KeyValue conforming to the -// "aws.dynamodb.limit" semantic conventions. It represents the value of the -// `Limit` request parameter. -func AWSDynamoDBLimit(val int) attribute.KeyValue { - return AWSDynamoDBLimitKey.Int(val) -} - -// AWSDynamoDBLocalSecondaryIndexes returns an attribute KeyValue conforming to -// the "aws.dynamodb.local_secondary_indexes" semantic conventions. It represents -// the JSON-serialized value of each item of the `LocalSecondaryIndexes` request -// field. -func AWSDynamoDBLocalSecondaryIndexes(val ...string) attribute.KeyValue { - return AWSDynamoDBLocalSecondaryIndexesKey.StringSlice(val) -} - -// AWSDynamoDBProjection returns an attribute KeyValue conforming to the -// "aws.dynamodb.projection" semantic conventions. It represents the value of the -// `ProjectionExpression` request parameter. -func AWSDynamoDBProjection(val string) attribute.KeyValue { - return AWSDynamoDBProjectionKey.String(val) -} - -// AWSDynamoDBProvisionedReadCapacity returns an attribute KeyValue conforming to -// the "aws.dynamodb.provisioned_read_capacity" semantic conventions. It -// represents the value of the `ProvisionedThroughput.ReadCapacityUnits` request -// parameter. -func AWSDynamoDBProvisionedReadCapacity(val float64) attribute.KeyValue { - return AWSDynamoDBProvisionedReadCapacityKey.Float64(val) -} - -// AWSDynamoDBProvisionedWriteCapacity returns an attribute KeyValue conforming -// to the "aws.dynamodb.provisioned_write_capacity" semantic conventions. It -// represents the value of the `ProvisionedThroughput.WriteCapacityUnits` request -// parameter. -func AWSDynamoDBProvisionedWriteCapacity(val float64) attribute.KeyValue { - return AWSDynamoDBProvisionedWriteCapacityKey.Float64(val) -} - -// AWSDynamoDBScanForward returns an attribute KeyValue conforming to the -// "aws.dynamodb.scan_forward" semantic conventions. It represents the value of -// the `ScanIndexForward` request parameter. -func AWSDynamoDBScanForward(val bool) attribute.KeyValue { - return AWSDynamoDBScanForwardKey.Bool(val) -} - -// AWSDynamoDBScannedCount returns an attribute KeyValue conforming to the -// "aws.dynamodb.scanned_count" semantic conventions. It represents the value of -// the `ScannedCount` response parameter. -func AWSDynamoDBScannedCount(val int) attribute.KeyValue { - return AWSDynamoDBScannedCountKey.Int(val) -} - -// AWSDynamoDBSegment returns an attribute KeyValue conforming to the -// "aws.dynamodb.segment" semantic conventions. It represents the value of the -// `Segment` request parameter. -func AWSDynamoDBSegment(val int) attribute.KeyValue { - return AWSDynamoDBSegmentKey.Int(val) -} - -// AWSDynamoDBSelect returns an attribute KeyValue conforming to the -// "aws.dynamodb.select" semantic conventions. It represents the value of the -// `Select` request parameter. -func AWSDynamoDBSelect(val string) attribute.KeyValue { - return AWSDynamoDBSelectKey.String(val) -} - -// AWSDynamoDBTableCount returns an attribute KeyValue conforming to the -// "aws.dynamodb.table_count" semantic conventions. It represents the number of -// items in the `TableNames` response parameter. -func AWSDynamoDBTableCount(val int) attribute.KeyValue { - return AWSDynamoDBTableCountKey.Int(val) -} - -// AWSDynamoDBTableNames returns an attribute KeyValue conforming to the -// "aws.dynamodb.table_names" semantic conventions. It represents the keys in the -// `RequestItems` object field. -func AWSDynamoDBTableNames(val ...string) attribute.KeyValue { - return AWSDynamoDBTableNamesKey.StringSlice(val) -} - -// AWSDynamoDBTotalSegments returns an attribute KeyValue conforming to the -// "aws.dynamodb.total_segments" semantic conventions. It represents the value of -// the `TotalSegments` request parameter. -func AWSDynamoDBTotalSegments(val int) attribute.KeyValue { - return AWSDynamoDBTotalSegmentsKey.Int(val) -} - -// AWSECSClusterARN returns an attribute KeyValue conforming to the -// "aws.ecs.cluster.arn" semantic conventions. It represents the ARN of an -// [ECS cluster]. -// -// [ECS cluster]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/clusters.html -func AWSECSClusterARN(val string) attribute.KeyValue { - return AWSECSClusterARNKey.String(val) -} - -// AWSECSContainerARN returns an attribute KeyValue conforming to the -// "aws.ecs.container.arn" semantic conventions. It represents the Amazon -// Resource Name (ARN) of an [ECS container instance]. -// -// [ECS container instance]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ECS_instances.html -func AWSECSContainerARN(val string) attribute.KeyValue { - return AWSECSContainerARNKey.String(val) -} - -// AWSECSTaskARN returns an attribute KeyValue conforming to the -// "aws.ecs.task.arn" semantic conventions. It represents the ARN of a running -// [ECS task]. -// -// [ECS task]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/ecs-account-settings.html#ecs-resource-ids -func AWSECSTaskARN(val string) attribute.KeyValue { - return AWSECSTaskARNKey.String(val) -} - -// AWSECSTaskFamily returns an attribute KeyValue conforming to the -// "aws.ecs.task.family" semantic conventions. It represents the family name of -// the [ECS task definition] used to create the ECS task. -// -// [ECS task definition]: https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task_definitions.html -func AWSECSTaskFamily(val string) attribute.KeyValue { - return AWSECSTaskFamilyKey.String(val) -} - -// AWSECSTaskID returns an attribute KeyValue conforming to the "aws.ecs.task.id" -// semantic conventions. It represents the ID of a running ECS task. The ID MUST -// be extracted from `task.arn`. -func AWSECSTaskID(val string) attribute.KeyValue { - return AWSECSTaskIDKey.String(val) -} - -// AWSECSTaskRevision returns an attribute KeyValue conforming to the -// "aws.ecs.task.revision" semantic conventions. It represents the revision for -// the task definition used to create the ECS task. -func AWSECSTaskRevision(val string) attribute.KeyValue { - return AWSECSTaskRevisionKey.String(val) -} - -// AWSEKSClusterARN returns an attribute KeyValue conforming to the -// "aws.eks.cluster.arn" semantic conventions. It represents the ARN of an EKS -// cluster. -func AWSEKSClusterARN(val string) attribute.KeyValue { - return AWSEKSClusterARNKey.String(val) -} - -// AWSExtendedRequestID returns an attribute KeyValue conforming to the -// "aws.extended_request_id" semantic conventions. It represents the AWS extended -// request ID as returned in the response header `x-amz-id-2`. -func AWSExtendedRequestID(val string) attribute.KeyValue { - return AWSExtendedRequestIDKey.String(val) -} - -// AWSKinesisStreamName returns an attribute KeyValue conforming to the -// "aws.kinesis.stream_name" semantic conventions. It represents the name of the -// AWS Kinesis [stream] the request refers to. Corresponds to the `--stream-name` -// parameter of the Kinesis [describe-stream] operation. -// -// [stream]: https://docs.aws.amazon.com/streams/latest/dev/introduction.html -// [describe-stream]: https://docs.aws.amazon.com/cli/latest/reference/kinesis/describe-stream.html -func AWSKinesisStreamName(val string) attribute.KeyValue { - return AWSKinesisStreamNameKey.String(val) -} - -// AWSLambdaInvokedARN returns an attribute KeyValue conforming to the -// "aws.lambda.invoked_arn" semantic conventions. It represents the full invoked -// ARN as provided on the `Context` passed to the function ( -// `Lambda-Runtime-Invoked-Function-Arn` header on the `/runtime/invocation/next` -// applicable). -func AWSLambdaInvokedARN(val string) attribute.KeyValue { - return AWSLambdaInvokedARNKey.String(val) -} - -// AWSLambdaResourceMappingID returns an attribute KeyValue conforming to the -// "aws.lambda.resource_mapping.id" semantic conventions. It represents the UUID -// of the [AWS Lambda EvenSource Mapping]. An event source is mapped to a lambda -// function. It's contents are read by Lambda and used to trigger a function. -// This isn't available in the lambda execution context or the lambda runtime -// environtment. This is going to be populated by the AWS SDK for each language -// when that UUID is present. Some of these operations are -// Create/Delete/Get/List/Update EventSourceMapping. -// -// [AWS Lambda EvenSource Mapping]: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-lambda-eventsourcemapping.html -func AWSLambdaResourceMappingID(val string) attribute.KeyValue { - return AWSLambdaResourceMappingIDKey.String(val) -} - -// AWSLogGroupARNs returns an attribute KeyValue conforming to the -// "aws.log.group.arns" semantic conventions. It represents the Amazon Resource -// Name(s) (ARN) of the AWS log group(s). -func AWSLogGroupARNs(val ...string) attribute.KeyValue { - return AWSLogGroupARNsKey.StringSlice(val) -} - -// AWSLogGroupNames returns an attribute KeyValue conforming to the -// "aws.log.group.names" semantic conventions. It represents the name(s) of the -// AWS log group(s) an application is writing to. -func AWSLogGroupNames(val ...string) attribute.KeyValue { - return AWSLogGroupNamesKey.StringSlice(val) -} - -// AWSLogStreamARNs returns an attribute KeyValue conforming to the -// "aws.log.stream.arns" semantic conventions. It represents the ARN(s) of the -// AWS log stream(s). -func AWSLogStreamARNs(val ...string) attribute.KeyValue { - return AWSLogStreamARNsKey.StringSlice(val) -} - -// AWSLogStreamNames returns an attribute KeyValue conforming to the -// "aws.log.stream.names" semantic conventions. It represents the name(s) of the -// AWS log stream(s) an application is writing to. -func AWSLogStreamNames(val ...string) attribute.KeyValue { - return AWSLogStreamNamesKey.StringSlice(val) -} - -// AWSRequestID returns an attribute KeyValue conforming to the "aws.request_id" -// semantic conventions. It represents the AWS request ID as returned in the -// response headers `x-amzn-requestid`, `x-amzn-request-id` or `x-amz-request-id` -// . -func AWSRequestID(val string) attribute.KeyValue { - return AWSRequestIDKey.String(val) -} - -// AWSS3Bucket returns an attribute KeyValue conforming to the "aws.s3.bucket" -// semantic conventions. It represents the S3 bucket name the request refers to. -// Corresponds to the `--bucket` parameter of the [S3 API] operations. -// -// [S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/index.html -func AWSS3Bucket(val string) attribute.KeyValue { - return AWSS3BucketKey.String(val) -} - -// AWSS3CopySource returns an attribute KeyValue conforming to the -// "aws.s3.copy_source" semantic conventions. It represents the source object (in -// the form `bucket`/`key`) for the copy operation. -func AWSS3CopySource(val string) attribute.KeyValue { - return AWSS3CopySourceKey.String(val) -} - -// AWSS3Delete returns an attribute KeyValue conforming to the "aws.s3.delete" -// semantic conventions. It represents the delete request container that -// specifies the objects to be deleted. -func AWSS3Delete(val string) attribute.KeyValue { - return AWSS3DeleteKey.String(val) -} - -// AWSS3Key returns an attribute KeyValue conforming to the "aws.s3.key" semantic -// conventions. It represents the S3 object key the request refers to. -// Corresponds to the `--key` parameter of the [S3 API] operations. -// -// [S3 API]: https://docs.aws.amazon.com/cli/latest/reference/s3api/index.html -func AWSS3Key(val string) attribute.KeyValue { - return AWSS3KeyKey.String(val) -} - -// AWSS3PartNumber returns an attribute KeyValue conforming to the -// "aws.s3.part_number" semantic conventions. It represents the part number of -// the part being uploaded in a multipart-upload operation. This is a positive -// integer between 1 and 10,000. -func AWSS3PartNumber(val int) attribute.KeyValue { - return AWSS3PartNumberKey.Int(val) -} - -// AWSS3UploadID returns an attribute KeyValue conforming to the -// "aws.s3.upload_id" semantic conventions. It represents the upload ID that -// identifies the multipart upload. -func AWSS3UploadID(val string) attribute.KeyValue { - return AWSS3UploadIDKey.String(val) -} - -// AWSSecretsmanagerSecretARN returns an attribute KeyValue conforming to the -// "aws.secretsmanager.secret.arn" semantic conventions. It represents the ARN of -// the Secret stored in the Secrets Mangger. -func AWSSecretsmanagerSecretARN(val string) attribute.KeyValue { - return AWSSecretsmanagerSecretARNKey.String(val) -} - -// AWSSNSTopicARN returns an attribute KeyValue conforming to the -// "aws.sns.topic.arn" semantic conventions. It represents the ARN of the AWS SNS -// Topic. An Amazon SNS [topic] is a logical access point that acts as a -// communication channel. -// -// [topic]: https://docs.aws.amazon.com/sns/latest/dg/sns-create-topic.html -func AWSSNSTopicARN(val string) attribute.KeyValue { - return AWSSNSTopicARNKey.String(val) -} - -// AWSSQSQueueURL returns an attribute KeyValue conforming to the -// "aws.sqs.queue.url" semantic conventions. It represents the URL of the AWS SQS -// Queue. It's a unique identifier for a queue in Amazon Simple Queue Service -// (SQS) and is used to access the queue and perform actions on it. -func AWSSQSQueueURL(val string) attribute.KeyValue { - return AWSSQSQueueURLKey.String(val) -} - -// AWSStepFunctionsActivityARN returns an attribute KeyValue conforming to the -// "aws.step_functions.activity.arn" semantic conventions. It represents the ARN -// of the AWS Step Functions Activity. -func AWSStepFunctionsActivityARN(val string) attribute.KeyValue { - return AWSStepFunctionsActivityARNKey.String(val) -} - -// AWSStepFunctionsStateMachineARN returns an attribute KeyValue conforming to -// the "aws.step_functions.state_machine.arn" semantic conventions. It represents -// the ARN of the AWS Step Functions State Machine. -func AWSStepFunctionsStateMachineARN(val string) attribute.KeyValue { - return AWSStepFunctionsStateMachineARNKey.String(val) -} - -// Enum values for aws.ecs.launchtype -var ( - // Amazon EC2 - // Stability: development - AWSECSLaunchtypeEC2 = AWSECSLaunchtypeKey.String("ec2") - // Amazon Fargate - // Stability: development - AWSECSLaunchtypeFargate = AWSECSLaunchtypeKey.String("fargate") -) - -// Namespace: azure -const ( - // AzureClientIDKey is the attribute Key conforming to the "azure.client.id" - // semantic conventions. It represents the unique identifier of the client - // instance. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "3ba4827d-4422-483f-b59f-85b74211c11d", "storage-client-1" - AzureClientIDKey = attribute.Key("azure.client.id") - - // AzureCosmosDBConnectionModeKey is the attribute Key conforming to the - // "azure.cosmosdb.connection.mode" semantic conventions. It represents the - // cosmos client connection mode. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - AzureCosmosDBConnectionModeKey = attribute.Key("azure.cosmosdb.connection.mode") - - // AzureCosmosDBConsistencyLevelKey is the attribute Key conforming to the - // "azure.cosmosdb.consistency.level" semantic conventions. It represents the - // account or request [consistency level]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Eventual", "ConsistentPrefix", "BoundedStaleness", "Strong", - // "Session" - // - // [consistency level]: https://learn.microsoft.com/azure/cosmos-db/consistency-levels - AzureCosmosDBConsistencyLevelKey = attribute.Key("azure.cosmosdb.consistency.level") - - // AzureCosmosDBOperationContactedRegionsKey is the attribute Key conforming to - // the "azure.cosmosdb.operation.contacted_regions" semantic conventions. It - // represents the list of regions contacted during operation in the order that - // they were contacted. If there is more than one region listed, it indicates - // that the operation was performed on multiple regions i.e. cross-regional - // call. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "North Central US", "Australia East", "Australia Southeast" - // Note: Region name matches the format of `displayName` in [Azure Location API] - // - // [Azure Location API]: https://learn.microsoft.com/rest/api/resources/subscriptions/list-locations - AzureCosmosDBOperationContactedRegionsKey = attribute.Key("azure.cosmosdb.operation.contacted_regions") - - // AzureCosmosDBOperationRequestChargeKey is the attribute Key conforming to the - // "azure.cosmosdb.operation.request_charge" semantic conventions. It represents - // the number of request units consumed by the operation. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 46.18, 1.0 - AzureCosmosDBOperationRequestChargeKey = attribute.Key("azure.cosmosdb.operation.request_charge") - - // AzureCosmosDBRequestBodySizeKey is the attribute Key conforming to the - // "azure.cosmosdb.request.body.size" semantic conventions. It represents the - // request payload size in bytes. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - AzureCosmosDBRequestBodySizeKey = attribute.Key("azure.cosmosdb.request.body.size") - - // AzureCosmosDBResponseSubStatusCodeKey is the attribute Key conforming to the - // "azure.cosmosdb.response.sub_status_code" semantic conventions. It represents - // the cosmos DB sub status code. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1000, 1002 - AzureCosmosDBResponseSubStatusCodeKey = attribute.Key("azure.cosmosdb.response.sub_status_code") - - // AzureResourceProviderNamespaceKey is the attribute Key conforming to the - // "azure.resource_provider.namespace" semantic conventions. It represents the - // [Azure Resource Provider Namespace] as recognized by the client. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Microsoft.Storage", "Microsoft.KeyVault", "Microsoft.ServiceBus" - // - // [Azure Resource Provider Namespace]: https://learn.microsoft.com/azure/azure-resource-manager/management/azure-services-resource-providers - AzureResourceProviderNamespaceKey = attribute.Key("azure.resource_provider.namespace") - - // AzureServiceRequestIDKey is the attribute Key conforming to the - // "azure.service.request.id" semantic conventions. It represents the unique - // identifier of the service request. It's generated by the Azure service and - // returned with the response. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "00000000-0000-0000-0000-000000000000" - AzureServiceRequestIDKey = attribute.Key("azure.service.request.id") -) - -// AzureClientID returns an attribute KeyValue conforming to the -// "azure.client.id" semantic conventions. It represents the unique identifier of -// the client instance. -func AzureClientID(val string) attribute.KeyValue { - return AzureClientIDKey.String(val) -} - -// AzureCosmosDBOperationContactedRegions returns an attribute KeyValue -// conforming to the "azure.cosmosdb.operation.contacted_regions" semantic -// conventions. It represents the list of regions contacted during operation in -// the order that they were contacted. If there is more than one region listed, -// it indicates that the operation was performed on multiple regions i.e. -// cross-regional call. -func AzureCosmosDBOperationContactedRegions(val ...string) attribute.KeyValue { - return AzureCosmosDBOperationContactedRegionsKey.StringSlice(val) -} - -// AzureCosmosDBOperationRequestCharge returns an attribute KeyValue conforming -// to the "azure.cosmosdb.operation.request_charge" semantic conventions. It -// represents the number of request units consumed by the operation. -func AzureCosmosDBOperationRequestCharge(val float64) attribute.KeyValue { - return AzureCosmosDBOperationRequestChargeKey.Float64(val) -} - -// AzureCosmosDBRequestBodySize returns an attribute KeyValue conforming to the -// "azure.cosmosdb.request.body.size" semantic conventions. It represents the -// request payload size in bytes. -func AzureCosmosDBRequestBodySize(val int) attribute.KeyValue { - return AzureCosmosDBRequestBodySizeKey.Int(val) -} - -// AzureCosmosDBResponseSubStatusCode returns an attribute KeyValue conforming to -// the "azure.cosmosdb.response.sub_status_code" semantic conventions. It -// represents the cosmos DB sub status code. -func AzureCosmosDBResponseSubStatusCode(val int) attribute.KeyValue { - return AzureCosmosDBResponseSubStatusCodeKey.Int(val) -} - -// AzureResourceProviderNamespace returns an attribute KeyValue conforming to the -// "azure.resource_provider.namespace" semantic conventions. It represents the -// [Azure Resource Provider Namespace] as recognized by the client. -// -// [Azure Resource Provider Namespace]: https://learn.microsoft.com/azure/azure-resource-manager/management/azure-services-resource-providers -func AzureResourceProviderNamespace(val string) attribute.KeyValue { - return AzureResourceProviderNamespaceKey.String(val) -} - -// AzureServiceRequestID returns an attribute KeyValue conforming to the -// "azure.service.request.id" semantic conventions. It represents the unique -// identifier of the service request. It's generated by the Azure service and -// returned with the response. -func AzureServiceRequestID(val string) attribute.KeyValue { - return AzureServiceRequestIDKey.String(val) -} - -// Enum values for azure.cosmosdb.connection.mode -var ( - // Gateway (HTTP) connection. - // Stability: development - AzureCosmosDBConnectionModeGateway = AzureCosmosDBConnectionModeKey.String("gateway") - // Direct connection. - // Stability: development - AzureCosmosDBConnectionModeDirect = AzureCosmosDBConnectionModeKey.String("direct") -) - -// Enum values for azure.cosmosdb.consistency.level -var ( - // Strong - // Stability: development - AzureCosmosDBConsistencyLevelStrong = AzureCosmosDBConsistencyLevelKey.String("Strong") - // Bounded Staleness - // Stability: development - AzureCosmosDBConsistencyLevelBoundedStaleness = AzureCosmosDBConsistencyLevelKey.String("BoundedStaleness") - // Session - // Stability: development - AzureCosmosDBConsistencyLevelSession = AzureCosmosDBConsistencyLevelKey.String("Session") - // Eventual - // Stability: development - AzureCosmosDBConsistencyLevelEventual = AzureCosmosDBConsistencyLevelKey.String("Eventual") - // Consistent Prefix - // Stability: development - AzureCosmosDBConsistencyLevelConsistentPrefix = AzureCosmosDBConsistencyLevelKey.String("ConsistentPrefix") -) - -// Namespace: browser -const ( - // BrowserBrandsKey is the attribute Key conforming to the "browser.brands" - // semantic conventions. It represents the array of brand name and version - // separated by a space. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: " Not A;Brand 99", "Chromium 99", "Chrome 99" - // Note: This value is intended to be taken from the [UA client hints API] ( - // `navigator.userAgentData.brands`). - // - // [UA client hints API]: https://wicg.github.io/ua-client-hints/#interface - BrowserBrandsKey = attribute.Key("browser.brands") - - // BrowserLanguageKey is the attribute Key conforming to the "browser.language" - // semantic conventions. It represents the preferred language of the user using - // the browser. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "en", "en-US", "fr", "fr-FR" - // Note: This value is intended to be taken from the Navigator API - // `navigator.language`. - BrowserLanguageKey = attribute.Key("browser.language") - - // BrowserMobileKey is the attribute Key conforming to the "browser.mobile" - // semantic conventions. It represents a boolean that is true if the browser is - // running on a mobile device. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: This value is intended to be taken from the [UA client hints API] ( - // `navigator.userAgentData.mobile`). If unavailable, this attribute SHOULD be - // left unset. - // - // [UA client hints API]: https://wicg.github.io/ua-client-hints/#interface - BrowserMobileKey = attribute.Key("browser.mobile") - - // BrowserPlatformKey is the attribute Key conforming to the "browser.platform" - // semantic conventions. It represents the platform on which the browser is - // running. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Windows", "macOS", "Android" - // Note: This value is intended to be taken from the [UA client hints API] ( - // `navigator.userAgentData.platform`). If unavailable, the legacy - // `navigator.platform` API SHOULD NOT be used instead and this attribute SHOULD - // be left unset in order for the values to be consistent. - // The list of possible values is defined in the - // [W3C User-Agent Client Hints specification]. Note that some (but not all) of - // these values can overlap with values in the - // [`os.type` and `os.name` attributes]. However, for consistency, the values in - // the `browser.platform` attribute should capture the exact value that the user - // agent provides. - // - // [UA client hints API]: https://wicg.github.io/ua-client-hints/#interface - // [W3C User-Agent Client Hints specification]: https://wicg.github.io/ua-client-hints/#sec-ch-ua-platform - // [`os.type` and `os.name` attributes]: ./os.md - BrowserPlatformKey = attribute.Key("browser.platform") -) - -// BrowserBrands returns an attribute KeyValue conforming to the "browser.brands" -// semantic conventions. It represents the array of brand name and version -// separated by a space. -func BrowserBrands(val ...string) attribute.KeyValue { - return BrowserBrandsKey.StringSlice(val) -} - -// BrowserLanguage returns an attribute KeyValue conforming to the -// "browser.language" semantic conventions. It represents the preferred language -// of the user using the browser. -func BrowserLanguage(val string) attribute.KeyValue { - return BrowserLanguageKey.String(val) -} - -// BrowserMobile returns an attribute KeyValue conforming to the "browser.mobile" -// semantic conventions. It represents a boolean that is true if the browser is -// running on a mobile device. -func BrowserMobile(val bool) attribute.KeyValue { - return BrowserMobileKey.Bool(val) -} - -// BrowserPlatform returns an attribute KeyValue conforming to the -// "browser.platform" semantic conventions. It represents the platform on which -// the browser is running. -func BrowserPlatform(val string) attribute.KeyValue { - return BrowserPlatformKey.String(val) -} - -// Namespace: cassandra -const ( - // CassandraConsistencyLevelKey is the attribute Key conforming to the - // "cassandra.consistency.level" semantic conventions. It represents the - // consistency level of the query. Based on consistency values from [CQL]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [CQL]: https://docs.datastax.com/en/cassandra-oss/3.0/cassandra/dml/dmlConfigConsistency.html - CassandraConsistencyLevelKey = attribute.Key("cassandra.consistency.level") - - // CassandraCoordinatorDCKey is the attribute Key conforming to the - // "cassandra.coordinator.dc" semantic conventions. It represents the data - // center of the coordinating node for a query. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: us-west-2 - CassandraCoordinatorDCKey = attribute.Key("cassandra.coordinator.dc") - - // CassandraCoordinatorIDKey is the attribute Key conforming to the - // "cassandra.coordinator.id" semantic conventions. It represents the ID of the - // coordinating node for a query. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: be13faa2-8574-4d71-926d-27f16cf8a7af - CassandraCoordinatorIDKey = attribute.Key("cassandra.coordinator.id") - - // CassandraPageSizeKey is the attribute Key conforming to the - // "cassandra.page.size" semantic conventions. It represents the fetch size used - // for paging, i.e. how many rows will be returned at once. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 5000 - CassandraPageSizeKey = attribute.Key("cassandra.page.size") - - // CassandraQueryIdempotentKey is the attribute Key conforming to the - // "cassandra.query.idempotent" semantic conventions. It represents the whether - // or not the query is idempotent. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - CassandraQueryIdempotentKey = attribute.Key("cassandra.query.idempotent") - - // CassandraSpeculativeExecutionCountKey is the attribute Key conforming to the - // "cassandra.speculative_execution.count" semantic conventions. It represents - // the number of times a query was speculatively executed. Not set or `0` if the - // query was not executed speculatively. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0, 2 - CassandraSpeculativeExecutionCountKey = attribute.Key("cassandra.speculative_execution.count") -) - -// CassandraCoordinatorDC returns an attribute KeyValue conforming to the -// "cassandra.coordinator.dc" semantic conventions. It represents the data center -// of the coordinating node for a query. -func CassandraCoordinatorDC(val string) attribute.KeyValue { - return CassandraCoordinatorDCKey.String(val) -} - -// CassandraCoordinatorID returns an attribute KeyValue conforming to the -// "cassandra.coordinator.id" semantic conventions. It represents the ID of the -// coordinating node for a query. -func CassandraCoordinatorID(val string) attribute.KeyValue { - return CassandraCoordinatorIDKey.String(val) -} - -// CassandraPageSize returns an attribute KeyValue conforming to the -// "cassandra.page.size" semantic conventions. It represents the fetch size used -// for paging, i.e. how many rows will be returned at once. -func CassandraPageSize(val int) attribute.KeyValue { - return CassandraPageSizeKey.Int(val) -} - -// CassandraQueryIdempotent returns an attribute KeyValue conforming to the -// "cassandra.query.idempotent" semantic conventions. It represents the whether -// or not the query is idempotent. -func CassandraQueryIdempotent(val bool) attribute.KeyValue { - return CassandraQueryIdempotentKey.Bool(val) -} - -// CassandraSpeculativeExecutionCount returns an attribute KeyValue conforming to -// the "cassandra.speculative_execution.count" semantic conventions. It -// represents the number of times a query was speculatively executed. Not set or -// `0` if the query was not executed speculatively. -func CassandraSpeculativeExecutionCount(val int) attribute.KeyValue { - return CassandraSpeculativeExecutionCountKey.Int(val) -} - -// Enum values for cassandra.consistency.level -var ( - // All - // Stability: development - CassandraConsistencyLevelAll = CassandraConsistencyLevelKey.String("all") - // Each Quorum - // Stability: development - CassandraConsistencyLevelEachQuorum = CassandraConsistencyLevelKey.String("each_quorum") - // Quorum - // Stability: development - CassandraConsistencyLevelQuorum = CassandraConsistencyLevelKey.String("quorum") - // Local Quorum - // Stability: development - CassandraConsistencyLevelLocalQuorum = CassandraConsistencyLevelKey.String("local_quorum") - // One - // Stability: development - CassandraConsistencyLevelOne = CassandraConsistencyLevelKey.String("one") - // Two - // Stability: development - CassandraConsistencyLevelTwo = CassandraConsistencyLevelKey.String("two") - // Three - // Stability: development - CassandraConsistencyLevelThree = CassandraConsistencyLevelKey.String("three") - // Local One - // Stability: development - CassandraConsistencyLevelLocalOne = CassandraConsistencyLevelKey.String("local_one") - // Any - // Stability: development - CassandraConsistencyLevelAny = CassandraConsistencyLevelKey.String("any") - // Serial - // Stability: development - CassandraConsistencyLevelSerial = CassandraConsistencyLevelKey.String("serial") - // Local Serial - // Stability: development - CassandraConsistencyLevelLocalSerial = CassandraConsistencyLevelKey.String("local_serial") -) - -// Namespace: cicd -const ( - // CICDPipelineActionNameKey is the attribute Key conforming to the - // "cicd.pipeline.action.name" semantic conventions. It represents the kind of - // action a pipeline run is performing. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "BUILD", "RUN", "SYNC" - CICDPipelineActionNameKey = attribute.Key("cicd.pipeline.action.name") - - // CICDPipelineNameKey is the attribute Key conforming to the - // "cicd.pipeline.name" semantic conventions. It represents the human readable - // name of the pipeline within a CI/CD system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Build and Test", "Lint", "Deploy Go Project", - // "deploy_to_environment" - CICDPipelineNameKey = attribute.Key("cicd.pipeline.name") - - // CICDPipelineResultKey is the attribute Key conforming to the - // "cicd.pipeline.result" semantic conventions. It represents the result of a - // pipeline run. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "success", "failure", "timeout", "skipped" - CICDPipelineResultKey = attribute.Key("cicd.pipeline.result") - - // CICDPipelineRunIDKey is the attribute Key conforming to the - // "cicd.pipeline.run.id" semantic conventions. It represents the unique - // identifier of a pipeline run within a CI/CD system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "120912" - CICDPipelineRunIDKey = attribute.Key("cicd.pipeline.run.id") - - // CICDPipelineRunStateKey is the attribute Key conforming to the - // "cicd.pipeline.run.state" semantic conventions. It represents the pipeline - // run goes through these states during its lifecycle. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "pending", "executing", "finalizing" - CICDPipelineRunStateKey = attribute.Key("cicd.pipeline.run.state") - - // CICDPipelineRunURLFullKey is the attribute Key conforming to the - // "cicd.pipeline.run.url.full" semantic conventions. It represents the [URL] of - // the pipeline run, providing the complete address in order to locate and - // identify the pipeline run. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "https://github.com/open-telemetry/semantic-conventions/actions/runs/9753949763?pr=1075" - // - // [URL]: https://wikipedia.org/wiki/URL - CICDPipelineRunURLFullKey = attribute.Key("cicd.pipeline.run.url.full") - - // CICDPipelineTaskNameKey is the attribute Key conforming to the - // "cicd.pipeline.task.name" semantic conventions. It represents the human - // readable name of a task within a pipeline. Task here most closely aligns with - // a [computing process] in a pipeline. Other terms for tasks include commands, - // steps, and procedures. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Run GoLang Linter", "Go Build", "go-test", "deploy_binary" - // - // [computing process]: https://wikipedia.org/wiki/Pipeline_(computing) - CICDPipelineTaskNameKey = attribute.Key("cicd.pipeline.task.name") - - // CICDPipelineTaskRunIDKey is the attribute Key conforming to the - // "cicd.pipeline.task.run.id" semantic conventions. It represents the unique - // identifier of a task run within a pipeline. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "12097" - CICDPipelineTaskRunIDKey = attribute.Key("cicd.pipeline.task.run.id") - - // CICDPipelineTaskRunResultKey is the attribute Key conforming to the - // "cicd.pipeline.task.run.result" semantic conventions. It represents the - // result of a task run. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "success", "failure", "timeout", "skipped" - CICDPipelineTaskRunResultKey = attribute.Key("cicd.pipeline.task.run.result") - - // CICDPipelineTaskRunURLFullKey is the attribute Key conforming to the - // "cicd.pipeline.task.run.url.full" semantic conventions. It represents the - // [URL] of the pipeline task run, providing the complete address in order to - // locate and identify the pipeline task run. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "https://github.com/open-telemetry/semantic-conventions/actions/runs/9753949763/job/26920038674?pr=1075" - // - // [URL]: https://wikipedia.org/wiki/URL - CICDPipelineTaskRunURLFullKey = attribute.Key("cicd.pipeline.task.run.url.full") - - // CICDPipelineTaskTypeKey is the attribute Key conforming to the - // "cicd.pipeline.task.type" semantic conventions. It represents the type of the - // task within a pipeline. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "build", "test", "deploy" - CICDPipelineTaskTypeKey = attribute.Key("cicd.pipeline.task.type") - - // CICDSystemComponentKey is the attribute Key conforming to the - // "cicd.system.component" semantic conventions. It represents the name of a - // component of the CICD system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "controller", "scheduler", "agent" - CICDSystemComponentKey = attribute.Key("cicd.system.component") - - // CICDWorkerIDKey is the attribute Key conforming to the "cicd.worker.id" - // semantic conventions. It represents the unique identifier of a worker within - // a CICD system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "abc123", "10.0.1.2", "controller" - CICDWorkerIDKey = attribute.Key("cicd.worker.id") - - // CICDWorkerNameKey is the attribute Key conforming to the "cicd.worker.name" - // semantic conventions. It represents the name of a worker within a CICD - // system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "agent-abc", "controller", "Ubuntu LTS" - CICDWorkerNameKey = attribute.Key("cicd.worker.name") - - // CICDWorkerStateKey is the attribute Key conforming to the "cicd.worker.state" - // semantic conventions. It represents the state of a CICD worker / agent. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "idle", "busy", "down" - CICDWorkerStateKey = attribute.Key("cicd.worker.state") - - // CICDWorkerURLFullKey is the attribute Key conforming to the - // "cicd.worker.url.full" semantic conventions. It represents the [URL] of the - // worker, providing the complete address in order to locate and identify the - // worker. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "https://cicd.example.org/worker/abc123" - // - // [URL]: https://wikipedia.org/wiki/URL - CICDWorkerURLFullKey = attribute.Key("cicd.worker.url.full") -) - -// CICDPipelineName returns an attribute KeyValue conforming to the -// "cicd.pipeline.name" semantic conventions. It represents the human readable -// name of the pipeline within a CI/CD system. -func CICDPipelineName(val string) attribute.KeyValue { - return CICDPipelineNameKey.String(val) -} - -// CICDPipelineRunID returns an attribute KeyValue conforming to the -// "cicd.pipeline.run.id" semantic conventions. It represents the unique -// identifier of a pipeline run within a CI/CD system. -func CICDPipelineRunID(val string) attribute.KeyValue { - return CICDPipelineRunIDKey.String(val) -} - -// CICDPipelineRunURLFull returns an attribute KeyValue conforming to the -// "cicd.pipeline.run.url.full" semantic conventions. It represents the [URL] of -// the pipeline run, providing the complete address in order to locate and -// identify the pipeline run. -// -// [URL]: https://wikipedia.org/wiki/URL -func CICDPipelineRunURLFull(val string) attribute.KeyValue { - return CICDPipelineRunURLFullKey.String(val) -} - -// CICDPipelineTaskName returns an attribute KeyValue conforming to the -// "cicd.pipeline.task.name" semantic conventions. It represents the human -// readable name of a task within a pipeline. Task here most closely aligns with -// a [computing process] in a pipeline. Other terms for tasks include commands, -// steps, and procedures. -// -// [computing process]: https://wikipedia.org/wiki/Pipeline_(computing) -func CICDPipelineTaskName(val string) attribute.KeyValue { - return CICDPipelineTaskNameKey.String(val) -} - -// CICDPipelineTaskRunID returns an attribute KeyValue conforming to the -// "cicd.pipeline.task.run.id" semantic conventions. It represents the unique -// identifier of a task run within a pipeline. -func CICDPipelineTaskRunID(val string) attribute.KeyValue { - return CICDPipelineTaskRunIDKey.String(val) -} - -// CICDPipelineTaskRunURLFull returns an attribute KeyValue conforming to the -// "cicd.pipeline.task.run.url.full" semantic conventions. It represents the -// [URL] of the pipeline task run, providing the complete address in order to -// locate and identify the pipeline task run. -// -// [URL]: https://wikipedia.org/wiki/URL -func CICDPipelineTaskRunURLFull(val string) attribute.KeyValue { - return CICDPipelineTaskRunURLFullKey.String(val) -} - -// CICDSystemComponent returns an attribute KeyValue conforming to the -// "cicd.system.component" semantic conventions. It represents the name of a -// component of the CICD system. -func CICDSystemComponent(val string) attribute.KeyValue { - return CICDSystemComponentKey.String(val) -} - -// CICDWorkerID returns an attribute KeyValue conforming to the "cicd.worker.id" -// semantic conventions. It represents the unique identifier of a worker within a -// CICD system. -func CICDWorkerID(val string) attribute.KeyValue { - return CICDWorkerIDKey.String(val) -} - -// CICDWorkerName returns an attribute KeyValue conforming to the -// "cicd.worker.name" semantic conventions. It represents the name of a worker -// within a CICD system. -func CICDWorkerName(val string) attribute.KeyValue { - return CICDWorkerNameKey.String(val) -} - -// CICDWorkerURLFull returns an attribute KeyValue conforming to the -// "cicd.worker.url.full" semantic conventions. It represents the [URL] of the -// worker, providing the complete address in order to locate and identify the -// worker. -// -// [URL]: https://wikipedia.org/wiki/URL -func CICDWorkerURLFull(val string) attribute.KeyValue { - return CICDWorkerURLFullKey.String(val) -} - -// Enum values for cicd.pipeline.action.name -var ( - // The pipeline run is executing a build. - // Stability: development - CICDPipelineActionNameBuild = CICDPipelineActionNameKey.String("BUILD") - // The pipeline run is executing. - // Stability: development - CICDPipelineActionNameRun = CICDPipelineActionNameKey.String("RUN") - // The pipeline run is executing a sync. - // Stability: development - CICDPipelineActionNameSync = CICDPipelineActionNameKey.String("SYNC") -) - -// Enum values for cicd.pipeline.result -var ( - // The pipeline run finished successfully. - // Stability: development - CICDPipelineResultSuccess = CICDPipelineResultKey.String("success") - // The pipeline run did not finish successfully, eg. due to a compile error or a - // failing test. Such failures are usually detected by non-zero exit codes of - // the tools executed in the pipeline run. - // Stability: development - CICDPipelineResultFailure = CICDPipelineResultKey.String("failure") - // The pipeline run failed due to an error in the CICD system, eg. due to the - // worker being killed. - // Stability: development - CICDPipelineResultError = CICDPipelineResultKey.String("error") - // A timeout caused the pipeline run to be interrupted. - // Stability: development - CICDPipelineResultTimeout = CICDPipelineResultKey.String("timeout") - // The pipeline run was cancelled, eg. by a user manually cancelling the - // pipeline run. - // Stability: development - CICDPipelineResultCancellation = CICDPipelineResultKey.String("cancellation") - // The pipeline run was skipped, eg. due to a precondition not being met. - // Stability: development - CICDPipelineResultSkip = CICDPipelineResultKey.String("skip") -) - -// Enum values for cicd.pipeline.run.state -var ( - // The run pending state spans from the event triggering the pipeline run until - // the execution of the run starts (eg. time spent in a queue, provisioning - // agents, creating run resources). - // - // Stability: development - CICDPipelineRunStatePending = CICDPipelineRunStateKey.String("pending") - // The executing state spans the execution of any run tasks (eg. build, test). - // Stability: development - CICDPipelineRunStateExecuting = CICDPipelineRunStateKey.String("executing") - // The finalizing state spans from when the run has finished executing (eg. - // cleanup of run resources). - // Stability: development - CICDPipelineRunStateFinalizing = CICDPipelineRunStateKey.String("finalizing") -) - -// Enum values for cicd.pipeline.task.run.result -var ( - // The task run finished successfully. - // Stability: development - CICDPipelineTaskRunResultSuccess = CICDPipelineTaskRunResultKey.String("success") - // The task run did not finish successfully, eg. due to a compile error or a - // failing test. Such failures are usually detected by non-zero exit codes of - // the tools executed in the task run. - // Stability: development - CICDPipelineTaskRunResultFailure = CICDPipelineTaskRunResultKey.String("failure") - // The task run failed due to an error in the CICD system, eg. due to the worker - // being killed. - // Stability: development - CICDPipelineTaskRunResultError = CICDPipelineTaskRunResultKey.String("error") - // A timeout caused the task run to be interrupted. - // Stability: development - CICDPipelineTaskRunResultTimeout = CICDPipelineTaskRunResultKey.String("timeout") - // The task run was cancelled, eg. by a user manually cancelling the task run. - // Stability: development - CICDPipelineTaskRunResultCancellation = CICDPipelineTaskRunResultKey.String("cancellation") - // The task run was skipped, eg. due to a precondition not being met. - // Stability: development - CICDPipelineTaskRunResultSkip = CICDPipelineTaskRunResultKey.String("skip") -) - -// Enum values for cicd.pipeline.task.type -var ( - // build - // Stability: development - CICDPipelineTaskTypeBuild = CICDPipelineTaskTypeKey.String("build") - // test - // Stability: development - CICDPipelineTaskTypeTest = CICDPipelineTaskTypeKey.String("test") - // deploy - // Stability: development - CICDPipelineTaskTypeDeploy = CICDPipelineTaskTypeKey.String("deploy") -) - -// Enum values for cicd.worker.state -var ( - // The worker is not performing work for the CICD system. It is available to the - // CICD system to perform work on (online / idle). - // Stability: development - CICDWorkerStateAvailable = CICDWorkerStateKey.String("available") - // The worker is performing work for the CICD system. - // Stability: development - CICDWorkerStateBusy = CICDWorkerStateKey.String("busy") - // The worker is not available to the CICD system (disconnected / down). - // Stability: development - CICDWorkerStateOffline = CICDWorkerStateKey.String("offline") -) - -// Namespace: client -const ( - // ClientAddressKey is the attribute Key conforming to the "client.address" - // semantic conventions. It represents the client address - domain name if - // available without reverse DNS lookup; otherwise, IP address or Unix domain - // socket name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "client.example.com", "10.1.2.80", "/tmp/my.sock" - // Note: When observed from the server side, and when communicating through an - // intermediary, `client.address` SHOULD represent the client address behind any - // intermediaries, for example proxies, if it's available. - ClientAddressKey = attribute.Key("client.address") - - // ClientPortKey is the attribute Key conforming to the "client.port" semantic - // conventions. It represents the client port number. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: 65123 - // Note: When observed from the server side, and when communicating through an - // intermediary, `client.port` SHOULD represent the client port behind any - // intermediaries, for example proxies, if it's available. - ClientPortKey = attribute.Key("client.port") -) - -// ClientAddress returns an attribute KeyValue conforming to the "client.address" -// semantic conventions. It represents the client address - domain name if -// available without reverse DNS lookup; otherwise, IP address or Unix domain -// socket name. -func ClientAddress(val string) attribute.KeyValue { - return ClientAddressKey.String(val) -} - -// ClientPort returns an attribute KeyValue conforming to the "client.port" -// semantic conventions. It represents the client port number. -func ClientPort(val int) attribute.KeyValue { - return ClientPortKey.Int(val) -} - -// Namespace: cloud -const ( - // CloudAccountIDKey is the attribute Key conforming to the "cloud.account.id" - // semantic conventions. It represents the cloud account ID the resource is - // assigned to. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "111111111111", "opentelemetry" - CloudAccountIDKey = attribute.Key("cloud.account.id") - - // CloudAvailabilityZoneKey is the attribute Key conforming to the - // "cloud.availability_zone" semantic conventions. It represents the cloud - // regions often have multiple, isolated locations known as zones to increase - // availability. Availability zone represents the zone where the resource is - // running. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "us-east-1c" - // Note: Availability zones are called "zones" on Alibaba Cloud and Google - // Cloud. - CloudAvailabilityZoneKey = attribute.Key("cloud.availability_zone") - - // CloudPlatformKey is the attribute Key conforming to the "cloud.platform" - // semantic conventions. It represents the cloud platform in use. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: The prefix of the service SHOULD match the one specified in - // `cloud.provider`. - CloudPlatformKey = attribute.Key("cloud.platform") - - // CloudProviderKey is the attribute Key conforming to the "cloud.provider" - // semantic conventions. It represents the name of the cloud provider. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - CloudProviderKey = attribute.Key("cloud.provider") - - // CloudRegionKey is the attribute Key conforming to the "cloud.region" semantic - // conventions. It represents the geographical region within a cloud provider. - // When associated with a resource, this attribute specifies the region where - // the resource operates. When calling services or APIs deployed on a cloud, - // this attribute identifies the region where the called destination is - // deployed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "us-central1", "us-east-1" - // Note: Refer to your provider's docs to see the available regions, for example - // [Alibaba Cloud regions], [AWS regions], [Azure regions], - // [Google Cloud regions], or [Tencent Cloud regions]. - // - // [Alibaba Cloud regions]: https://www.alibabacloud.com/help/doc-detail/40654.htm - // [AWS regions]: https://aws.amazon.com/about-aws/global-infrastructure/regions_az/ - // [Azure regions]: https://azure.microsoft.com/global-infrastructure/geographies/ - // [Google Cloud regions]: https://cloud.google.com/about/locations - // [Tencent Cloud regions]: https://www.tencentcloud.com/document/product/213/6091 - CloudRegionKey = attribute.Key("cloud.region") - - // CloudResourceIDKey is the attribute Key conforming to the "cloud.resource_id" - // semantic conventions. It represents the cloud provider-specific native - // identifier of the monitored cloud resource (e.g. an [ARN] on AWS, a - // [fully qualified resource ID] on Azure, a [full resource name] on GCP). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "arn:aws:lambda:REGION:ACCOUNT_ID:function:my-function", - // "//run.googleapis.com/projects/PROJECT_ID/locations/LOCATION_ID/services/SERVICE_ID", - // "/subscriptions//resourceGroups/ - // /providers/Microsoft.Web/sites//functions/" - // Note: On some cloud providers, it may not be possible to determine the full - // ID at startup, - // so it may be necessary to set `cloud.resource_id` as a span attribute - // instead. - // - // The exact value to use for `cloud.resource_id` depends on the cloud provider. - // The following well-known definitions MUST be used if you set this attribute - // and they apply: - // - // - **AWS Lambda:** The function [ARN]. - // Take care not to use the "invoked ARN" directly but replace any - // [alias suffix] - // with the resolved function version, as the same runtime instance may be - // invocable with - // multiple different aliases. - // - **GCP:** The [URI of the resource] - // - **Azure:** The [Fully Qualified Resource ID] of the invoked function, - // *not* the function app, having the form - // - // `/subscriptions//resourceGroups//providers/Microsoft.Web/sites//functions/` - // . - // This means that a span attribute MUST be used, as an Azure function app - // can host multiple functions that would usually share - // a TracerProvider. - // - // - // [ARN]: https://docs.aws.amazon.com/general/latest/gr/aws-arns-and-namespaces.html - // [fully qualified resource ID]: https://learn.microsoft.com/rest/api/resources/resources/get-by-id - // [full resource name]: https://google.aip.dev/122#full-resource-names - // [ARN]: https://docs.aws.amazon.com/general/latest/gr/aws-arns-and-namespaces.html - // [alias suffix]: https://docs.aws.amazon.com/lambda/latest/dg/configuration-aliases.html - // [URI of the resource]: https://cloud.google.com/iam/docs/full-resource-names - // [Fully Qualified Resource ID]: https://learn.microsoft.com/rest/api/resources/resources/get-by-id - CloudResourceIDKey = attribute.Key("cloud.resource_id") -) - -// CloudAccountID returns an attribute KeyValue conforming to the -// "cloud.account.id" semantic conventions. It represents the cloud account ID -// the resource is assigned to. -func CloudAccountID(val string) attribute.KeyValue { - return CloudAccountIDKey.String(val) -} - -// CloudAvailabilityZone returns an attribute KeyValue conforming to the -// "cloud.availability_zone" semantic conventions. It represents the cloud -// regions often have multiple, isolated locations known as zones to increase -// availability. Availability zone represents the zone where the resource is -// running. -func CloudAvailabilityZone(val string) attribute.KeyValue { - return CloudAvailabilityZoneKey.String(val) -} - -// CloudRegion returns an attribute KeyValue conforming to the "cloud.region" -// semantic conventions. It represents the geographical region within a cloud -// provider. When associated with a resource, this attribute specifies the region -// where the resource operates. When calling services or APIs deployed on a -// cloud, this attribute identifies the region where the called destination is -// deployed. -func CloudRegion(val string) attribute.KeyValue { - return CloudRegionKey.String(val) -} - -// CloudResourceID returns an attribute KeyValue conforming to the -// "cloud.resource_id" semantic conventions. It represents the cloud -// provider-specific native identifier of the monitored cloud resource (e.g. an -// [ARN] on AWS, a [fully qualified resource ID] on Azure, a [full resource name] -// on GCP). -// -// [ARN]: https://docs.aws.amazon.com/general/latest/gr/aws-arns-and-namespaces.html -// [fully qualified resource ID]: https://learn.microsoft.com/rest/api/resources/resources/get-by-id -// [full resource name]: https://google.aip.dev/122#full-resource-names -func CloudResourceID(val string) attribute.KeyValue { - return CloudResourceIDKey.String(val) -} - -// Enum values for cloud.platform -var ( - // Akamai Cloud Compute - // Stability: development - CloudPlatformAkamaiCloudCompute = CloudPlatformKey.String("akamai_cloud.compute") - // Alibaba Cloud Elastic Compute Service - // Stability: development - CloudPlatformAlibabaCloudECS = CloudPlatformKey.String("alibaba_cloud_ecs") - // Alibaba Cloud Function Compute - // Stability: development - CloudPlatformAlibabaCloudFC = CloudPlatformKey.String("alibaba_cloud_fc") - // Red Hat OpenShift on Alibaba Cloud - // Stability: development - CloudPlatformAlibabaCloudOpenShift = CloudPlatformKey.String("alibaba_cloud_openshift") - // AWS Elastic Compute Cloud - // Stability: development - CloudPlatformAWSEC2 = CloudPlatformKey.String("aws_ec2") - // AWS Elastic Container Service - // Stability: development - CloudPlatformAWSECS = CloudPlatformKey.String("aws_ecs") - // AWS Elastic Kubernetes Service - // Stability: development - CloudPlatformAWSEKS = CloudPlatformKey.String("aws_eks") - // AWS Lambda - // Stability: development - CloudPlatformAWSLambda = CloudPlatformKey.String("aws_lambda") - // AWS Elastic Beanstalk - // Stability: development - CloudPlatformAWSElasticBeanstalk = CloudPlatformKey.String("aws_elastic_beanstalk") - // AWS App Runner - // Stability: development - CloudPlatformAWSAppRunner = CloudPlatformKey.String("aws_app_runner") - // Red Hat OpenShift on AWS (ROSA) - // Stability: development - CloudPlatformAWSOpenShift = CloudPlatformKey.String("aws_openshift") - // Azure Virtual Machines - // Stability: development - CloudPlatformAzureVM = CloudPlatformKey.String("azure.vm") - // Azure Container Apps - // Stability: development - CloudPlatformAzureContainerApps = CloudPlatformKey.String("azure.container_apps") - // Azure Container Instances - // Stability: development - CloudPlatformAzureContainerInstances = CloudPlatformKey.String("azure.container_instances") - // Azure Kubernetes Service - // Stability: development - CloudPlatformAzureAKS = CloudPlatformKey.String("azure.aks") - // Azure Functions - // Stability: development - CloudPlatformAzureFunctions = CloudPlatformKey.String("azure.functions") - // Azure App Service - // Stability: development - CloudPlatformAzureAppService = CloudPlatformKey.String("azure.app_service") - // Azure Red Hat OpenShift - // Stability: development - CloudPlatformAzureOpenShift = CloudPlatformKey.String("azure.openshift") - // Google Vertex AI Agent Engine - // Stability: development - CloudPlatformGCPAgentEngine = CloudPlatformKey.String("gcp.agent_engine") - // Google Bare Metal Solution (BMS) - // Stability: development - CloudPlatformGCPBareMetalSolution = CloudPlatformKey.String("gcp_bare_metal_solution") - // Google Cloud Compute Engine (GCE) - // Stability: development - CloudPlatformGCPComputeEngine = CloudPlatformKey.String("gcp_compute_engine") - // Google Cloud Run - // Stability: development - CloudPlatformGCPCloudRun = CloudPlatformKey.String("gcp_cloud_run") - // Google Cloud Kubernetes Engine (GKE) - // Stability: development - CloudPlatformGCPKubernetesEngine = CloudPlatformKey.String("gcp_kubernetes_engine") - // Google Cloud Functions (GCF) - // Stability: development - CloudPlatformGCPCloudFunctions = CloudPlatformKey.String("gcp_cloud_functions") - // Google Cloud App Engine (GAE) - // Stability: development - CloudPlatformGCPAppEngine = CloudPlatformKey.String("gcp_app_engine") - // Red Hat OpenShift on Google Cloud - // Stability: development - CloudPlatformGCPOpenShift = CloudPlatformKey.String("gcp_openshift") - // Server on Hetzner Cloud - // Stability: development - CloudPlatformHetznerCloudServer = CloudPlatformKey.String("hetzner.cloud_server") - // Red Hat OpenShift on IBM Cloud - // Stability: development - CloudPlatformIBMCloudOpenShift = CloudPlatformKey.String("ibm_cloud_openshift") - // Compute on Oracle Cloud Infrastructure (OCI) - // Stability: development - CloudPlatformOracleCloudCompute = CloudPlatformKey.String("oracle_cloud_compute") - // Kubernetes Engine (OKE) on Oracle Cloud Infrastructure (OCI) - // Stability: development - CloudPlatformOracleCloudOKE = CloudPlatformKey.String("oracle_cloud_oke") - // Tencent Cloud Cloud Virtual Machine (CVM) - // Stability: development - CloudPlatformTencentCloudCVM = CloudPlatformKey.String("tencent_cloud_cvm") - // Tencent Cloud Elastic Kubernetes Service (EKS) - // Stability: development - CloudPlatformTencentCloudEKS = CloudPlatformKey.String("tencent_cloud_eks") - // Tencent Cloud Serverless Cloud Function (SCF) - // Stability: development - CloudPlatformTencentCloudSCF = CloudPlatformKey.String("tencent_cloud_scf") - // Vultr Cloud Compute - // Stability: development - CloudPlatformVultrCloudCompute = CloudPlatformKey.String("vultr.cloud_compute") -) - -// Enum values for cloud.provider -var ( - // Akamai Cloud - // Stability: development - CloudProviderAkamaiCloud = CloudProviderKey.String("akamai_cloud") - // Alibaba Cloud - // Stability: development - CloudProviderAlibabaCloud = CloudProviderKey.String("alibaba_cloud") - // Amazon Web Services - // Stability: development - CloudProviderAWS = CloudProviderKey.String("aws") - // Microsoft Azure - // Stability: development - CloudProviderAzure = CloudProviderKey.String("azure") - // Google Cloud Platform - // Stability: development - CloudProviderGCP = CloudProviderKey.String("gcp") - // Heroku Platform as a Service - // Stability: development - CloudProviderHeroku = CloudProviderKey.String("heroku") - // Hetzner - // Stability: development - CloudProviderHetzner = CloudProviderKey.String("hetzner") - // IBM Cloud - // Stability: development - CloudProviderIBMCloud = CloudProviderKey.String("ibm_cloud") - // Oracle Cloud Infrastructure (OCI) - // Stability: development - CloudProviderOracleCloud = CloudProviderKey.String("oracle_cloud") - // Tencent Cloud - // Stability: development - CloudProviderTencentCloud = CloudProviderKey.String("tencent_cloud") - // Vultr - // Stability: development - CloudProviderVultr = CloudProviderKey.String("vultr") -) - -// Namespace: cloudevents -const ( - // CloudEventsEventIDKey is the attribute Key conforming to the - // "cloudevents.event_id" semantic conventions. It represents the [event_id] - // uniquely identifies the event. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "123e4567-e89b-12d3-a456-426614174000", "0001" - // - // [event_id]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#id - CloudEventsEventIDKey = attribute.Key("cloudevents.event_id") - - // CloudEventsEventSourceKey is the attribute Key conforming to the - // "cloudevents.event_source" semantic conventions. It represents the [source] - // identifies the context in which an event happened. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "https://github.com/cloudevents", "/cloudevents/spec/pull/123", - // "my-service" - // - // [source]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#source-1 - CloudEventsEventSourceKey = attribute.Key("cloudevents.event_source") - - // CloudEventsEventSpecVersionKey is the attribute Key conforming to the - // "cloudevents.event_spec_version" semantic conventions. It represents the - // [version of the CloudEvents specification] which the event uses. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1.0 - // - // [version of the CloudEvents specification]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#specversion - CloudEventsEventSpecVersionKey = attribute.Key("cloudevents.event_spec_version") - - // CloudEventsEventSubjectKey is the attribute Key conforming to the - // "cloudevents.event_subject" semantic conventions. It represents the [subject] - // of the event in the context of the event producer (identified by source). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: mynewfile.jpg - // - // [subject]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#subject - CloudEventsEventSubjectKey = attribute.Key("cloudevents.event_subject") - - // CloudEventsEventTypeKey is the attribute Key conforming to the - // "cloudevents.event_type" semantic conventions. It represents the [event_type] - // contains a value describing the type of event related to the originating - // occurrence. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "com.github.pull_request.opened", "com.example.object.deleted.v2" - // - // [event_type]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#type - CloudEventsEventTypeKey = attribute.Key("cloudevents.event_type") -) - -// CloudEventsEventID returns an attribute KeyValue conforming to the -// "cloudevents.event_id" semantic conventions. It represents the [event_id] -// uniquely identifies the event. -// -// [event_id]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#id -func CloudEventsEventID(val string) attribute.KeyValue { - return CloudEventsEventIDKey.String(val) -} - -// CloudEventsEventSource returns an attribute KeyValue conforming to the -// "cloudevents.event_source" semantic conventions. It represents the [source] -// identifies the context in which an event happened. -// -// [source]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#source-1 -func CloudEventsEventSource(val string) attribute.KeyValue { - return CloudEventsEventSourceKey.String(val) -} - -// CloudEventsEventSpecVersion returns an attribute KeyValue conforming to the -// "cloudevents.event_spec_version" semantic conventions. It represents the -// [version of the CloudEvents specification] which the event uses. -// -// [version of the CloudEvents specification]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#specversion -func CloudEventsEventSpecVersion(val string) attribute.KeyValue { - return CloudEventsEventSpecVersionKey.String(val) -} - -// CloudEventsEventSubject returns an attribute KeyValue conforming to the -// "cloudevents.event_subject" semantic conventions. It represents the [subject] -// of the event in the context of the event producer (identified by source). -// -// [subject]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#subject -func CloudEventsEventSubject(val string) attribute.KeyValue { - return CloudEventsEventSubjectKey.String(val) -} - -// CloudEventsEventType returns an attribute KeyValue conforming to the -// "cloudevents.event_type" semantic conventions. It represents the [event_type] -// contains a value describing the type of event related to the originating -// occurrence. -// -// [event_type]: https://github.com/cloudevents/spec/blob/v1.0.2/cloudevents/spec.md#type -func CloudEventsEventType(val string) attribute.KeyValue { - return CloudEventsEventTypeKey.String(val) -} - -// Namespace: cloudfoundry -const ( - // CloudFoundryAppIDKey is the attribute Key conforming to the - // "cloudfoundry.app.id" semantic conventions. It represents the guid of the - // application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "218fc5a9-a5f1-4b54-aa05-46717d0ab26d" - // Note: Application instrumentation should use the value from environment - // variable `VCAP_APPLICATION.application_id`. This is the same value as - // reported by `cf app --guid`. - CloudFoundryAppIDKey = attribute.Key("cloudfoundry.app.id") - - // CloudFoundryAppInstanceIDKey is the attribute Key conforming to the - // "cloudfoundry.app.instance.id" semantic conventions. It represents the index - // of the application instance. 0 when just one instance is active. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "0", "1" - // Note: CloudFoundry defines the `instance_id` in the [Loggregator v2 envelope] - // . - // It is used for logs and metrics emitted by CloudFoundry. It is - // supposed to contain the application instance index for applications - // deployed on the runtime. - // - // Application instrumentation should use the value from environment - // variable `CF_INSTANCE_INDEX`. - // - // [Loggregator v2 envelope]: https://github.com/cloudfoundry/loggregator-api#v2-envelope - CloudFoundryAppInstanceIDKey = attribute.Key("cloudfoundry.app.instance.id") - - // CloudFoundryAppNameKey is the attribute Key conforming to the - // "cloudfoundry.app.name" semantic conventions. It represents the name of the - // application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-app-name" - // Note: Application instrumentation should use the value from environment - // variable `VCAP_APPLICATION.application_name`. This is the same value - // as reported by `cf apps`. - CloudFoundryAppNameKey = attribute.Key("cloudfoundry.app.name") - - // CloudFoundryOrgIDKey is the attribute Key conforming to the - // "cloudfoundry.org.id" semantic conventions. It represents the guid of the - // CloudFoundry org the application is running in. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "218fc5a9-a5f1-4b54-aa05-46717d0ab26d" - // Note: Application instrumentation should use the value from environment - // variable `VCAP_APPLICATION.org_id`. This is the same value as - // reported by `cf org --guid`. - CloudFoundryOrgIDKey = attribute.Key("cloudfoundry.org.id") - - // CloudFoundryOrgNameKey is the attribute Key conforming to the - // "cloudfoundry.org.name" semantic conventions. It represents the name of the - // CloudFoundry organization the app is running in. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-org-name" - // Note: Application instrumentation should use the value from environment - // variable `VCAP_APPLICATION.org_name`. This is the same value as - // reported by `cf orgs`. - CloudFoundryOrgNameKey = attribute.Key("cloudfoundry.org.name") - - // CloudFoundryProcessIDKey is the attribute Key conforming to the - // "cloudfoundry.process.id" semantic conventions. It represents the UID - // identifying the process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "218fc5a9-a5f1-4b54-aa05-46717d0ab26d" - // Note: Application instrumentation should use the value from environment - // variable `VCAP_APPLICATION.process_id`. It is supposed to be equal to - // `VCAP_APPLICATION.app_id` for applications deployed to the runtime. - // For system components, this could be the actual PID. - CloudFoundryProcessIDKey = attribute.Key("cloudfoundry.process.id") - - // CloudFoundryProcessTypeKey is the attribute Key conforming to the - // "cloudfoundry.process.type" semantic conventions. It represents the type of - // process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "web" - // Note: CloudFoundry applications can consist of multiple jobs. Usually the - // main process will be of type `web`. There can be additional background - // tasks or side-cars with different process types. - CloudFoundryProcessTypeKey = attribute.Key("cloudfoundry.process.type") - - // CloudFoundrySpaceIDKey is the attribute Key conforming to the - // "cloudfoundry.space.id" semantic conventions. It represents the guid of the - // CloudFoundry space the application is running in. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "218fc5a9-a5f1-4b54-aa05-46717d0ab26d" - // Note: Application instrumentation should use the value from environment - // variable `VCAP_APPLICATION.space_id`. This is the same value as - // reported by `cf space --guid`. - CloudFoundrySpaceIDKey = attribute.Key("cloudfoundry.space.id") - - // CloudFoundrySpaceNameKey is the attribute Key conforming to the - // "cloudfoundry.space.name" semantic conventions. It represents the name of the - // CloudFoundry space the application is running in. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-space-name" - // Note: Application instrumentation should use the value from environment - // variable `VCAP_APPLICATION.space_name`. This is the same value as - // reported by `cf spaces`. - CloudFoundrySpaceNameKey = attribute.Key("cloudfoundry.space.name") - - // CloudFoundrySystemIDKey is the attribute Key conforming to the - // "cloudfoundry.system.id" semantic conventions. It represents a guid or - // another name describing the event source. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "cf/gorouter" - // Note: CloudFoundry defines the `source_id` in the [Loggregator v2 envelope]. - // It is used for logs and metrics emitted by CloudFoundry. It is - // supposed to contain the component name, e.g. "gorouter", for - // CloudFoundry components. - // - // When system components are instrumented, values from the - // [Bosh spec] - // should be used. The `system.id` should be set to - // `spec.deployment/spec.name`. - // - // [Loggregator v2 envelope]: https://github.com/cloudfoundry/loggregator-api#v2-envelope - // [Bosh spec]: https://bosh.io/docs/jobs/#properties-spec - CloudFoundrySystemIDKey = attribute.Key("cloudfoundry.system.id") - - // CloudFoundrySystemInstanceIDKey is the attribute Key conforming to the - // "cloudfoundry.system.instance.id" semantic conventions. It represents a guid - // describing the concrete instance of the event source. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "218fc5a9-a5f1-4b54-aa05-46717d0ab26d" - // Note: CloudFoundry defines the `instance_id` in the [Loggregator v2 envelope] - // . - // It is used for logs and metrics emitted by CloudFoundry. It is - // supposed to contain the vm id for CloudFoundry components. - // - // When system components are instrumented, values from the - // [Bosh spec] - // should be used. The `system.instance.id` should be set to `spec.id`. - // - // [Loggregator v2 envelope]: https://github.com/cloudfoundry/loggregator-api#v2-envelope - // [Bosh spec]: https://bosh.io/docs/jobs/#properties-spec - CloudFoundrySystemInstanceIDKey = attribute.Key("cloudfoundry.system.instance.id") -) - -// CloudFoundryAppID returns an attribute KeyValue conforming to the -// "cloudfoundry.app.id" semantic conventions. It represents the guid of the -// application. -func CloudFoundryAppID(val string) attribute.KeyValue { - return CloudFoundryAppIDKey.String(val) -} - -// CloudFoundryAppInstanceID returns an attribute KeyValue conforming to the -// "cloudfoundry.app.instance.id" semantic conventions. It represents the index -// of the application instance. 0 when just one instance is active. -func CloudFoundryAppInstanceID(val string) attribute.KeyValue { - return CloudFoundryAppInstanceIDKey.String(val) -} - -// CloudFoundryAppName returns an attribute KeyValue conforming to the -// "cloudfoundry.app.name" semantic conventions. It represents the name of the -// application. -func CloudFoundryAppName(val string) attribute.KeyValue { - return CloudFoundryAppNameKey.String(val) -} - -// CloudFoundryOrgID returns an attribute KeyValue conforming to the -// "cloudfoundry.org.id" semantic conventions. It represents the guid of the -// CloudFoundry org the application is running in. -func CloudFoundryOrgID(val string) attribute.KeyValue { - return CloudFoundryOrgIDKey.String(val) -} - -// CloudFoundryOrgName returns an attribute KeyValue conforming to the -// "cloudfoundry.org.name" semantic conventions. It represents the name of the -// CloudFoundry organization the app is running in. -func CloudFoundryOrgName(val string) attribute.KeyValue { - return CloudFoundryOrgNameKey.String(val) -} - -// CloudFoundryProcessID returns an attribute KeyValue conforming to the -// "cloudfoundry.process.id" semantic conventions. It represents the UID -// identifying the process. -func CloudFoundryProcessID(val string) attribute.KeyValue { - return CloudFoundryProcessIDKey.String(val) -} - -// CloudFoundryProcessType returns an attribute KeyValue conforming to the -// "cloudfoundry.process.type" semantic conventions. It represents the type of -// process. -func CloudFoundryProcessType(val string) attribute.KeyValue { - return CloudFoundryProcessTypeKey.String(val) -} - -// CloudFoundrySpaceID returns an attribute KeyValue conforming to the -// "cloudfoundry.space.id" semantic conventions. It represents the guid of the -// CloudFoundry space the application is running in. -func CloudFoundrySpaceID(val string) attribute.KeyValue { - return CloudFoundrySpaceIDKey.String(val) -} - -// CloudFoundrySpaceName returns an attribute KeyValue conforming to the -// "cloudfoundry.space.name" semantic conventions. It represents the name of the -// CloudFoundry space the application is running in. -func CloudFoundrySpaceName(val string) attribute.KeyValue { - return CloudFoundrySpaceNameKey.String(val) -} - -// CloudFoundrySystemID returns an attribute KeyValue conforming to the -// "cloudfoundry.system.id" semantic conventions. It represents a guid or another -// name describing the event source. -func CloudFoundrySystemID(val string) attribute.KeyValue { - return CloudFoundrySystemIDKey.String(val) -} - -// CloudFoundrySystemInstanceID returns an attribute KeyValue conforming to the -// "cloudfoundry.system.instance.id" semantic conventions. It represents a guid -// describing the concrete instance of the event source. -func CloudFoundrySystemInstanceID(val string) attribute.KeyValue { - return CloudFoundrySystemInstanceIDKey.String(val) -} - -// Namespace: code -const ( - // CodeColumnNumberKey is the attribute Key conforming to the - // "code.column.number" semantic conventions. It represents the column number in - // `code.file.path` best representing the operation. It SHOULD point within the - // code unit named in `code.function.name`. This attribute MUST NOT be used on - // the Profile signal since the data is already captured in 'message Line'. This - // constraint is imposed to prevent redundancy and maintain data integrity. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - CodeColumnNumberKey = attribute.Key("code.column.number") - - // CodeFilePathKey is the attribute Key conforming to the "code.file.path" - // semantic conventions. It represents the source code file name that identifies - // the code unit as uniquely as possible (preferably an absolute file path). - // This attribute MUST NOT be used on the Profile signal since the data is - // already captured in 'message Function'. This constraint is imposed to prevent - // redundancy and maintain data integrity. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: /usr/local/MyApplication/content_root/app/index.php - CodeFilePathKey = attribute.Key("code.file.path") - - // CodeFunctionNameKey is the attribute Key conforming to the - // "code.function.name" semantic conventions. It represents the method or - // function fully-qualified name without arguments. The value should fit the - // natural representation of the language runtime, which is also likely the same - // used within `code.stacktrace` attribute value. This attribute MUST NOT be - // used on the Profile signal since the data is already captured in 'message - // Function'. This constraint is imposed to prevent redundancy and maintain data - // integrity. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "com.example.MyHttpService.serveRequest", - // "GuzzleHttp\Client::transfer", "fopen" - // Note: Values and format depends on each language runtime, thus it is - // impossible to provide an exhaustive list of examples. - // The values are usually the same (or prefixes of) the ones found in native - // stack trace representation stored in - // `code.stacktrace` without information on arguments. - // - // Examples: - // - // - Java method: `com.example.MyHttpService.serveRequest` - // - Java anonymous class method: `com.mycompany.Main$1.myMethod` - // - Java lambda method: - // `com.mycompany.Main$$Lambda/0x0000748ae4149c00.myMethod` - // - PHP function: `GuzzleHttp\Client::transfer` - // - Go function: `github.com/my/repo/pkg.foo.func5` - // - Elixir: `OpenTelemetry.Ctx.new` - // - Erlang: `opentelemetry_ctx:new` - // - Rust: `playground::my_module::my_cool_func` - // - C function: `fopen` - CodeFunctionNameKey = attribute.Key("code.function.name") - - // CodeLineNumberKey is the attribute Key conforming to the "code.line.number" - // semantic conventions. It represents the line number in `code.file.path` best - // representing the operation. It SHOULD point within the code unit named in - // `code.function.name`. This attribute MUST NOT be used on the Profile signal - // since the data is already captured in 'message Line'. This constraint is - // imposed to prevent redundancy and maintain data integrity. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - CodeLineNumberKey = attribute.Key("code.line.number") - - // CodeStacktraceKey is the attribute Key conforming to the "code.stacktrace" - // semantic conventions. It represents a stacktrace as a string in the natural - // representation for the language runtime. The representation is identical to - // [`exception.stacktrace`]. This attribute MUST NOT be used on the Profile - // signal since the data is already captured in 'message Location'. This - // constraint is imposed to prevent redundancy and maintain data integrity. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: at com.example.GenerateTrace.methodB(GenerateTrace.java:13)\n at - // com.example.GenerateTrace.methodA(GenerateTrace.java:9)\n at - // com.example.GenerateTrace.main(GenerateTrace.java:5) - // - // [`exception.stacktrace`]: /docs/exceptions/exceptions-spans.md#stacktrace-representation - CodeStacktraceKey = attribute.Key("code.stacktrace") -) - -// CodeColumnNumber returns an attribute KeyValue conforming to the -// "code.column.number" semantic conventions. It represents the column number in -// `code.file.path` best representing the operation. It SHOULD point within the -// code unit named in `code.function.name`. This attribute MUST NOT be used on -// the Profile signal since the data is already captured in 'message Line'. This -// constraint is imposed to prevent redundancy and maintain data integrity. -func CodeColumnNumber(val int) attribute.KeyValue { - return CodeColumnNumberKey.Int(val) -} - -// CodeFilePath returns an attribute KeyValue conforming to the "code.file.path" -// semantic conventions. It represents the source code file name that identifies -// the code unit as uniquely as possible (preferably an absolute file path). This -// attribute MUST NOT be used on the Profile signal since the data is already -// captured in 'message Function'. This constraint is imposed to prevent -// redundancy and maintain data integrity. -func CodeFilePath(val string) attribute.KeyValue { - return CodeFilePathKey.String(val) -} - -// CodeFunctionName returns an attribute KeyValue conforming to the -// "code.function.name" semantic conventions. It represents the method or -// function fully-qualified name without arguments. The value should fit the -// natural representation of the language runtime, which is also likely the same -// used within `code.stacktrace` attribute value. This attribute MUST NOT be used -// on the Profile signal since the data is already captured in 'message -// Function'. This constraint is imposed to prevent redundancy and maintain data -// integrity. -func CodeFunctionName(val string) attribute.KeyValue { - return CodeFunctionNameKey.String(val) -} - -// CodeLineNumber returns an attribute KeyValue conforming to the -// "code.line.number" semantic conventions. It represents the line number in -// `code.file.path` best representing the operation. It SHOULD point within the -// code unit named in `code.function.name`. This attribute MUST NOT be used on -// the Profile signal since the data is already captured in 'message Line'. This -// constraint is imposed to prevent redundancy and maintain data integrity. -func CodeLineNumber(val int) attribute.KeyValue { - return CodeLineNumberKey.Int(val) -} - -// CodeStacktrace returns an attribute KeyValue conforming to the -// "code.stacktrace" semantic conventions. It represents a stacktrace as a string -// in the natural representation for the language runtime. The representation is -// identical to [`exception.stacktrace`]. This attribute MUST NOT be used on the -// Profile signal since the data is already captured in 'message Location'. This -// constraint is imposed to prevent redundancy and maintain data integrity. -// -// [`exception.stacktrace`]: /docs/exceptions/exceptions-spans.md#stacktrace-representation -func CodeStacktrace(val string) attribute.KeyValue { - return CodeStacktraceKey.String(val) -} - -// Namespace: container -const ( - // ContainerCommandKey is the attribute Key conforming to the - // "container.command" semantic conventions. It represents the command used to - // run the container (i.e. the command name). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "otelcontribcol" - // Note: If using embedded credentials or sensitive data, it is recommended to - // remove them to prevent potential leakage. - ContainerCommandKey = attribute.Key("container.command") - - // ContainerCommandArgsKey is the attribute Key conforming to the - // "container.command_args" semantic conventions. It represents the all the - // command arguments (including the command/executable itself) run by the - // container. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "otelcontribcol", "--config", "config.yaml" - ContainerCommandArgsKey = attribute.Key("container.command_args") - - // ContainerCommandLineKey is the attribute Key conforming to the - // "container.command_line" semantic conventions. It represents the full command - // run by the container as a single string representing the full command. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "otelcontribcol --config config.yaml" - ContainerCommandLineKey = attribute.Key("container.command_line") - - // ContainerCSIPluginNameKey is the attribute Key conforming to the - // "container.csi.plugin.name" semantic conventions. It represents the name of - // the CSI ([Container Storage Interface]) plugin used by the volume. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "pd.csi.storage.gke.io" - // Note: This can sometimes be referred to as a "driver" in CSI implementations. - // This should represent the `name` field of the GetPluginInfo RPC. - // - // [Container Storage Interface]: https://github.com/container-storage-interface/spec - ContainerCSIPluginNameKey = attribute.Key("container.csi.plugin.name") - - // ContainerCSIVolumeIDKey is the attribute Key conforming to the - // "container.csi.volume.id" semantic conventions. It represents the unique - // volume ID returned by the CSI ([Container Storage Interface]) plugin. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "projects/my-gcp-project/zones/my-gcp-zone/disks/my-gcp-disk" - // Note: This can sometimes be referred to as a "volume handle" in CSI - // implementations. This should represent the `Volume.volume_id` field in CSI - // spec. - // - // [Container Storage Interface]: https://github.com/container-storage-interface/spec - ContainerCSIVolumeIDKey = attribute.Key("container.csi.volume.id") - - // ContainerIDKey is the attribute Key conforming to the "container.id" semantic - // conventions. It represents the container ID. Usually a UUID, as for example - // used to [identify Docker containers]. The UUID might be abbreviated. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "a3bf90e006b2" - // - // [identify Docker containers]: https://docs.docker.com/engine/containers/run/#container-identification - ContainerIDKey = attribute.Key("container.id") - - // ContainerImageIDKey is the attribute Key conforming to the - // "container.image.id" semantic conventions. It represents the runtime specific - // image identifier. Usually a hash algorithm followed by a UUID. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "sha256:19c92d0a00d1b66d897bceaa7319bee0dd38a10a851c60bcec9474aa3f01e50f" - // Note: Docker defines a sha256 of the image id; `container.image.id` - // corresponds to the `Image` field from the Docker container inspect [API] - // endpoint. - // K8s defines a link to the container registry repository with digest - // `"imageID": "registry.azurecr.io /namespace/service/dockerfile@sha256:bdeabd40c3a8a492eaf9e8e44d0ebbb84bac7ee25ac0cf8a7159d25f62555625"` - // . - // The ID is assigned by the container runtime and can vary in different - // environments. Consider using `oci.manifest.digest` if it is important to - // identify the same image in different environments/runtimes. - // - // [API]: https://docs.docker.com/reference/api/engine/version/v1.52/#tag/Container/operation/ContainerInspect - ContainerImageIDKey = attribute.Key("container.image.id") - - // ContainerImageNameKey is the attribute Key conforming to the - // "container.image.name" semantic conventions. It represents the name of the - // image the container was built on. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "gcr.io/opentelemetry/operator" - ContainerImageNameKey = attribute.Key("container.image.name") - - // ContainerImageRepoDigestsKey is the attribute Key conforming to the - // "container.image.repo_digests" semantic conventions. It represents the repo - // digests of the container image as provided by the container runtime. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: - // "example@sha256:afcc7f1ac1b49db317a7196c902e61c6c3c4607d63599ee1a82d702d249a0ccb", - // "internal.registry.example.com:5000/example@sha256:b69959407d21e8a062e0416bf13405bb2b71ed7a84dde4158ebafacfa06f5578" - // Note: [Docker] and [CRI] report those under the `RepoDigests` field. - // - // [Docker]: https://docs.docker.com/reference/api/engine/version/v1.52/#tag/Image/operation/ImageInspect - // [CRI]: https://github.com/kubernetes/cri-api/blob/c75ef5b473bbe2d0a4fc92f82235efd665ea8e9f/pkg/apis/runtime/v1/api.proto#L1237-L1238 - ContainerImageRepoDigestsKey = attribute.Key("container.image.repo_digests") - - // ContainerImageTagsKey is the attribute Key conforming to the - // "container.image.tags" semantic conventions. It represents the container - // image tags. An example can be found in [Docker Image Inspect]. Should be only - // the `` section of the full name for example from - // `registry.example.com/my-org/my-image:`. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "v1.27.1", "3.5.7-0" - // - // [Docker Image Inspect]: https://docs.docker.com/reference/api/engine/version/v1.52/#tag/Image/operation/ImageInspect - ContainerImageTagsKey = attribute.Key("container.image.tags") - - // ContainerNameKey is the attribute Key conforming to the "container.name" - // semantic conventions. It represents the container name used by container - // runtime. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "opentelemetry-autoconf" - ContainerNameKey = attribute.Key("container.name") - - // ContainerRuntimeDescriptionKey is the attribute Key conforming to the - // "container.runtime.description" semantic conventions. It represents a - // description about the runtime which could include, for example details about - // the CRI/API version being used or other customisations. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "docker://19.3.1 - CRI: 1.22.0" - ContainerRuntimeDescriptionKey = attribute.Key("container.runtime.description") - - // ContainerRuntimeNameKey is the attribute Key conforming to the - // "container.runtime.name" semantic conventions. It represents the container - // runtime managing this container. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "docker", "containerd", "rkt" - ContainerRuntimeNameKey = attribute.Key("container.runtime.name") - - // ContainerRuntimeVersionKey is the attribute Key conforming to the - // "container.runtime.version" semantic conventions. It represents the version - // of the runtime of this process, as returned by the runtime without - // modification. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1.0.0 - ContainerRuntimeVersionKey = attribute.Key("container.runtime.version") -) - -// ContainerCommand returns an attribute KeyValue conforming to the -// "container.command" semantic conventions. It represents the command used to -// run the container (i.e. the command name). -func ContainerCommand(val string) attribute.KeyValue { - return ContainerCommandKey.String(val) -} - -// ContainerCommandArgs returns an attribute KeyValue conforming to the -// "container.command_args" semantic conventions. It represents the all the -// command arguments (including the command/executable itself) run by the -// container. -func ContainerCommandArgs(val ...string) attribute.KeyValue { - return ContainerCommandArgsKey.StringSlice(val) -} - -// ContainerCommandLine returns an attribute KeyValue conforming to the -// "container.command_line" semantic conventions. It represents the full command -// run by the container as a single string representing the full command. -func ContainerCommandLine(val string) attribute.KeyValue { - return ContainerCommandLineKey.String(val) -} - -// ContainerCSIPluginName returns an attribute KeyValue conforming to the -// "container.csi.plugin.name" semantic conventions. It represents the name of -// the CSI ([Container Storage Interface]) plugin used by the volume. -// -// [Container Storage Interface]: https://github.com/container-storage-interface/spec -func ContainerCSIPluginName(val string) attribute.KeyValue { - return ContainerCSIPluginNameKey.String(val) -} - -// ContainerCSIVolumeID returns an attribute KeyValue conforming to the -// "container.csi.volume.id" semantic conventions. It represents the unique -// volume ID returned by the CSI ([Container Storage Interface]) plugin. -// -// [Container Storage Interface]: https://github.com/container-storage-interface/spec -func ContainerCSIVolumeID(val string) attribute.KeyValue { - return ContainerCSIVolumeIDKey.String(val) -} - -// ContainerID returns an attribute KeyValue conforming to the "container.id" -// semantic conventions. It represents the container ID. Usually a UUID, as for -// example used to [identify Docker containers]. The UUID might be abbreviated. -// -// [identify Docker containers]: https://docs.docker.com/engine/containers/run/#container-identification -func ContainerID(val string) attribute.KeyValue { - return ContainerIDKey.String(val) -} - -// ContainerImageID returns an attribute KeyValue conforming to the -// "container.image.id" semantic conventions. It represents the runtime specific -// image identifier. Usually a hash algorithm followed by a UUID. -func ContainerImageID(val string) attribute.KeyValue { - return ContainerImageIDKey.String(val) -} - -// ContainerImageName returns an attribute KeyValue conforming to the -// "container.image.name" semantic conventions. It represents the name of the -// image the container was built on. -func ContainerImageName(val string) attribute.KeyValue { - return ContainerImageNameKey.String(val) -} - -// ContainerImageRepoDigests returns an attribute KeyValue conforming to the -// "container.image.repo_digests" semantic conventions. It represents the repo -// digests of the container image as provided by the container runtime. -func ContainerImageRepoDigests(val ...string) attribute.KeyValue { - return ContainerImageRepoDigestsKey.StringSlice(val) -} - -// ContainerImageTags returns an attribute KeyValue conforming to the -// "container.image.tags" semantic conventions. It represents the container image -// tags. An example can be found in [Docker Image Inspect]. Should be only the -// `` section of the full name for example from -// `registry.example.com/my-org/my-image:`. -// -// [Docker Image Inspect]: https://docs.docker.com/reference/api/engine/version/v1.52/#tag/Image/operation/ImageInspect -func ContainerImageTags(val ...string) attribute.KeyValue { - return ContainerImageTagsKey.StringSlice(val) -} - -// ContainerLabel returns an attribute KeyValue conforming to the -// "container.label" semantic conventions. It represents the container labels, -// `` being the label name, the value being the label value. -func ContainerLabel(key string, val string) attribute.KeyValue { - return attribute.String("container.label."+key, val) -} - -// ContainerName returns an attribute KeyValue conforming to the "container.name" -// semantic conventions. It represents the container name used by container -// runtime. -func ContainerName(val string) attribute.KeyValue { - return ContainerNameKey.String(val) -} - -// ContainerRuntimeDescription returns an attribute KeyValue conforming to the -// "container.runtime.description" semantic conventions. It represents a -// description about the runtime which could include, for example details about -// the CRI/API version being used or other customisations. -func ContainerRuntimeDescription(val string) attribute.KeyValue { - return ContainerRuntimeDescriptionKey.String(val) -} - -// ContainerRuntimeName returns an attribute KeyValue conforming to the -// "container.runtime.name" semantic conventions. It represents the container -// runtime managing this container. -func ContainerRuntimeName(val string) attribute.KeyValue { - return ContainerRuntimeNameKey.String(val) -} - -// ContainerRuntimeVersion returns an attribute KeyValue conforming to the -// "container.runtime.version" semantic conventions. It represents the version of -// the runtime of this process, as returned by the runtime without modification. -func ContainerRuntimeVersion(val string) attribute.KeyValue { - return ContainerRuntimeVersionKey.String(val) -} - -// Namespace: cpu -const ( - // CPULogicalNumberKey is the attribute Key conforming to the - // "cpu.logical_number" semantic conventions. It represents the logical CPU - // number [0..n-1]. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1 - CPULogicalNumberKey = attribute.Key("cpu.logical_number") - - // CPUModeKey is the attribute Key conforming to the "cpu.mode" semantic - // conventions. It represents the mode of the CPU. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "user", "system" - CPUModeKey = attribute.Key("cpu.mode") -) - -// CPULogicalNumber returns an attribute KeyValue conforming to the -// "cpu.logical_number" semantic conventions. It represents the logical CPU -// number [0..n-1]. -func CPULogicalNumber(val int) attribute.KeyValue { - return CPULogicalNumberKey.Int(val) -} - -// Enum values for cpu.mode -var ( - // User - // Stability: development - CPUModeUser = CPUModeKey.String("user") - // System - // Stability: development - CPUModeSystem = CPUModeKey.String("system") - // Nice - // Stability: development - CPUModeNice = CPUModeKey.String("nice") - // Idle - // Stability: development - CPUModeIdle = CPUModeKey.String("idle") - // IO Wait - // Stability: development - CPUModeIOWait = CPUModeKey.String("iowait") - // Interrupt - // Stability: development - CPUModeInterrupt = CPUModeKey.String("interrupt") - // Steal - // Stability: development - CPUModeSteal = CPUModeKey.String("steal") - // Kernel - // Stability: development - CPUModeKernel = CPUModeKey.String("kernel") -) - -// Namespace: db -const ( - // DBClientConnectionPoolNameKey is the attribute Key conforming to the - // "db.client.connection.pool.name" semantic conventions. It represents the name - // of the connection pool; unique within the instrumented application. In case - // the connection pool implementation doesn't provide a name, instrumentation - // SHOULD use a combination of parameters that would make the name unique, for - // example, combining attributes `server.address`, `server.port`, and - // `db.namespace`, formatted as `server.address:server.port/db.namespace`. - // Instrumentations that generate connection pool name following different - // patterns SHOULD document it. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "myDataSource" - DBClientConnectionPoolNameKey = attribute.Key("db.client.connection.pool.name") - - // DBClientConnectionStateKey is the attribute Key conforming to the - // "db.client.connection.state" semantic conventions. It represents the state of - // a connection in the pool. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "idle" - DBClientConnectionStateKey = attribute.Key("db.client.connection.state") - - // DBCollectionNameKey is the attribute Key conforming to the - // "db.collection.name" semantic conventions. It represents the name of a - // collection (table, container) within the database. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "public.users", "customers" - // Note: It is RECOMMENDED to capture the value as provided by the application - // without attempting to do any case normalization. - // - // The collection name SHOULD NOT be extracted from `db.query.text`, - // when the database system supports query text with multiple collections - // in non-batch operations. - // - // For batch operations, if the individual operations are known to have the same - // collection name then that collection name SHOULD be used. - DBCollectionNameKey = attribute.Key("db.collection.name") - - // DBNamespaceKey is the attribute Key conforming to the "db.namespace" semantic - // conventions. It represents the name of the database, fully qualified within - // the server address and port. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "customers", "test.users" - // Note: If a database system has multiple namespace components, they SHOULD be - // concatenated from the most general to the most specific namespace component, - // using `|` as a separator between the components. Any missing components (and - // their associated separators) SHOULD be omitted. - // Semantic conventions for individual database systems SHOULD document what - // `db.namespace` means in the context of that system. - // It is RECOMMENDED to capture the value as provided by the application without - // attempting to do any case normalization. - DBNamespaceKey = attribute.Key("db.namespace") - - // DBOperationBatchSizeKey is the attribute Key conforming to the - // "db.operation.batch.size" semantic conventions. It represents the number of - // queries included in a batch operation. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: 2, 3, 4 - // Note: Operations are only considered batches when they contain two or more - // operations, and so `db.operation.batch.size` SHOULD never be `1`. - DBOperationBatchSizeKey = attribute.Key("db.operation.batch.size") - - // DBOperationNameKey is the attribute Key conforming to the "db.operation.name" - // semantic conventions. It represents the name of the operation or command - // being executed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "findAndModify", "HMSET", "SELECT" - // Note: It is RECOMMENDED to capture the value as provided by the application - // without attempting to do any case normalization. - // - // The operation name SHOULD NOT be extracted from `db.query.text`, - // when the database system supports query text with multiple operations - // in non-batch operations. - // - // If spaces can occur in the operation name, multiple consecutive spaces - // SHOULD be normalized to a single space. - // - // For batch operations, if the individual operations are known to have the same - // operation name - // then that operation name SHOULD be used prepended by `BATCH `, - // otherwise `db.operation.name` SHOULD be `BATCH` or some other database - // system specific term if more applicable. - DBOperationNameKey = attribute.Key("db.operation.name") - - // DBQuerySummaryKey is the attribute Key conforming to the "db.query.summary" - // semantic conventions. It represents the low cardinality summary of a database - // query. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "SELECT wuser_table", "INSERT shipping_details SELECT orders", "get - // user by id" - // Note: The query summary describes a class of database queries and is useful - // as a grouping key, especially when analyzing telemetry for database - // calls involving complex queries. - // - // Summary may be available to the instrumentation through - // instrumentation hooks or other means. If it is not available, - // instrumentations - // that support query parsing SHOULD generate a summary following - // [Generating query summary] - // section. - // - // [Generating query summary]: /docs/db/database-spans.md#generating-a-summary-of-the-query - DBQuerySummaryKey = attribute.Key("db.query.summary") - - // DBQueryTextKey is the attribute Key conforming to the "db.query.text" - // semantic conventions. It represents the database query being executed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "SELECT * FROM wuser_table where username = ?", "SET mykey ?" - // Note: For sanitization see [Sanitization of `db.query.text`]. - // For batch operations, if the individual operations are known to have the same - // query text then that query text SHOULD be used, otherwise all of the - // individual query texts SHOULD be concatenated with separator `; ` or some - // other database system specific separator if more applicable. - // Parameterized query text SHOULD NOT be sanitized. Even though parameterized - // query text can potentially have sensitive data, by using a parameterized - // query the user is giving a strong signal that any sensitive data will be - // passed as parameter values, and the benefit to observability of capturing the - // static part of the query text by default outweighs the risk. - // - // [Sanitization of `db.query.text`]: /docs/db/database-spans.md#sanitization-of-dbquerytext - DBQueryTextKey = attribute.Key("db.query.text") - - // DBResponseReturnedRowsKey is the attribute Key conforming to the - // "db.response.returned_rows" semantic conventions. It represents the number of - // rows returned by the operation. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 10, 30, 1000 - DBResponseReturnedRowsKey = attribute.Key("db.response.returned_rows") - - // DBResponseStatusCodeKey is the attribute Key conforming to the - // "db.response.status_code" semantic conventions. It represents the database - // response status code. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "102", "ORA-17002", "08P01", "404" - // Note: The status code returned by the database. Usually it represents an - // error code, but may also represent partial success, warning, or differentiate - // between various types of successful outcomes. - // Semantic conventions for individual database systems SHOULD document what - // `db.response.status_code` means in the context of that system. - DBResponseStatusCodeKey = attribute.Key("db.response.status_code") - - // DBStoredProcedureNameKey is the attribute Key conforming to the - // "db.stored_procedure.name" semantic conventions. It represents the name of a - // stored procedure within the database. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "GetCustomer" - // Note: It is RECOMMENDED to capture the value as provided by the application - // without attempting to do any case normalization. - // - // For batch operations, if the individual operations are known to have the same - // stored procedure name then that stored procedure name SHOULD be used. - DBStoredProcedureNameKey = attribute.Key("db.stored_procedure.name") - - // DBSystemNameKey is the attribute Key conforming to the "db.system.name" - // semantic conventions. It represents the database management system (DBMS) - // product as identified by the client instrumentation. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: - // Note: The actual DBMS may differ from the one identified by the client. For - // example, when using PostgreSQL client libraries to connect to a CockroachDB, - // the `db.system.name` is set to `postgresql` based on the instrumentation's - // best knowledge. - DBSystemNameKey = attribute.Key("db.system.name") -) - -// DBClientConnectionPoolName returns an attribute KeyValue conforming to the -// "db.client.connection.pool.name" semantic conventions. It represents the name -// of the connection pool; unique within the instrumented application. In case -// the connection pool implementation doesn't provide a name, instrumentation -// SHOULD use a combination of parameters that would make the name unique, for -// example, combining attributes `server.address`, `server.port`, and -// `db.namespace`, formatted as `server.address:server.port/db.namespace`. -// Instrumentations that generate connection pool name following different -// patterns SHOULD document it. -func DBClientConnectionPoolName(val string) attribute.KeyValue { - return DBClientConnectionPoolNameKey.String(val) -} - -// DBCollectionName returns an attribute KeyValue conforming to the -// "db.collection.name" semantic conventions. It represents the name of a -// collection (table, container) within the database. -func DBCollectionName(val string) attribute.KeyValue { - return DBCollectionNameKey.String(val) -} - -// DBNamespace returns an attribute KeyValue conforming to the "db.namespace" -// semantic conventions. It represents the name of the database, fully qualified -// within the server address and port. -func DBNamespace(val string) attribute.KeyValue { - return DBNamespaceKey.String(val) -} - -// DBOperationBatchSize returns an attribute KeyValue conforming to the -// "db.operation.batch.size" semantic conventions. It represents the number of -// queries included in a batch operation. -func DBOperationBatchSize(val int) attribute.KeyValue { - return DBOperationBatchSizeKey.Int(val) -} - -// DBOperationName returns an attribute KeyValue conforming to the -// "db.operation.name" semantic conventions. It represents the name of the -// operation or command being executed. -func DBOperationName(val string) attribute.KeyValue { - return DBOperationNameKey.String(val) -} - -// DBOperationParameter returns an attribute KeyValue conforming to the -// "db.operation.parameter" semantic conventions. It represents a database -// operation parameter, with `` being the parameter name, and the attribute -// value being a string representation of the parameter value. -func DBOperationParameter(key string, val string) attribute.KeyValue { - return attribute.String("db.operation.parameter."+key, val) -} - -// DBQueryParameter returns an attribute KeyValue conforming to the -// "db.query.parameter" semantic conventions. It represents a database query -// parameter, with `` being the parameter name, and the attribute value -// being a string representation of the parameter value. -func DBQueryParameter(key string, val string) attribute.KeyValue { - return attribute.String("db.query.parameter."+key, val) -} - -// DBQuerySummary returns an attribute KeyValue conforming to the -// "db.query.summary" semantic conventions. It represents the low cardinality -// summary of a database query. -func DBQuerySummary(val string) attribute.KeyValue { - return DBQuerySummaryKey.String(val) -} - -// DBQueryText returns an attribute KeyValue conforming to the "db.query.text" -// semantic conventions. It represents the database query being executed. -func DBQueryText(val string) attribute.KeyValue { - return DBQueryTextKey.String(val) -} - -// DBResponseReturnedRows returns an attribute KeyValue conforming to the -// "db.response.returned_rows" semantic conventions. It represents the number of -// rows returned by the operation. -func DBResponseReturnedRows(val int) attribute.KeyValue { - return DBResponseReturnedRowsKey.Int(val) -} - -// DBResponseStatusCode returns an attribute KeyValue conforming to the -// "db.response.status_code" semantic conventions. It represents the database -// response status code. -func DBResponseStatusCode(val string) attribute.KeyValue { - return DBResponseStatusCodeKey.String(val) -} - -// DBStoredProcedureName returns an attribute KeyValue conforming to the -// "db.stored_procedure.name" semantic conventions. It represents the name of a -// stored procedure within the database. -func DBStoredProcedureName(val string) attribute.KeyValue { - return DBStoredProcedureNameKey.String(val) -} - -// Enum values for db.client.connection.state -var ( - // idle - // Stability: development - DBClientConnectionStateIdle = DBClientConnectionStateKey.String("idle") - // used - // Stability: development - DBClientConnectionStateUsed = DBClientConnectionStateKey.String("used") -) - -// Enum values for db.system.name -var ( - // Some other SQL database. Fallback only. - // Stability: development - DBSystemNameOtherSQL = DBSystemNameKey.String("other_sql") - // [Adabas (Adaptable Database System)] - // Stability: development - // - // [Adabas (Adaptable Database System)]: https://documentation.softwareag.com/?pf=adabas - DBSystemNameSoftwareagAdabas = DBSystemNameKey.String("softwareag.adabas") - // [Actian Ingres] - // Stability: development - // - // [Actian Ingres]: https://www.actian.com/databases/ingres/ - DBSystemNameActianIngres = DBSystemNameKey.String("actian.ingres") - // [Amazon DynamoDB] - // Stability: development - // - // [Amazon DynamoDB]: https://aws.amazon.com/pm/dynamodb/ - DBSystemNameAWSDynamoDB = DBSystemNameKey.String("aws.dynamodb") - // [Amazon Redshift] - // Stability: development - // - // [Amazon Redshift]: https://aws.amazon.com/redshift/ - DBSystemNameAWSRedshift = DBSystemNameKey.String("aws.redshift") - // [Azure Cosmos DB] - // Stability: development - // - // [Azure Cosmos DB]: https://learn.microsoft.com/azure/cosmos-db - DBSystemNameAzureCosmosDB = DBSystemNameKey.String("azure.cosmosdb") - // [InterSystems Caché] - // Stability: development - // - // [InterSystems Caché]: https://www.intersystems.com/products/cache/ - DBSystemNameIntersystemsCache = DBSystemNameKey.String("intersystems.cache") - // [Apache Cassandra] - // Stability: development - // - // [Apache Cassandra]: https://cassandra.apache.org/ - DBSystemNameCassandra = DBSystemNameKey.String("cassandra") - // [ClickHouse] - // Stability: development - // - // [ClickHouse]: https://clickhouse.com/ - DBSystemNameClickHouse = DBSystemNameKey.String("clickhouse") - // [CockroachDB] - // Stability: development - // - // [CockroachDB]: https://www.cockroachlabs.com/ - DBSystemNameCockroachDB = DBSystemNameKey.String("cockroachdb") - // [Couchbase] - // Stability: development - // - // [Couchbase]: https://www.couchbase.com/ - DBSystemNameCouchbase = DBSystemNameKey.String("couchbase") - // [Apache CouchDB] - // Stability: development - // - // [Apache CouchDB]: https://couchdb.apache.org/ - DBSystemNameCouchDB = DBSystemNameKey.String("couchdb") - // [Apache Derby] - // Stability: development - // - // [Apache Derby]: https://db.apache.org/derby/ - DBSystemNameDerby = DBSystemNameKey.String("derby") - // [Elasticsearch] - // Stability: development - // - // [Elasticsearch]: https://www.elastic.co/elasticsearch - DBSystemNameElasticsearch = DBSystemNameKey.String("elasticsearch") - // [Firebird] - // Stability: development - // - // [Firebird]: https://www.firebirdsql.org/ - DBSystemNameFirebirdSQL = DBSystemNameKey.String("firebirdsql") - // [Google Cloud Spanner] - // Stability: development - // - // [Google Cloud Spanner]: https://cloud.google.com/spanner - DBSystemNameGCPSpanner = DBSystemNameKey.String("gcp.spanner") - // [Apache Geode] - // Stability: development - // - // [Apache Geode]: https://geode.apache.org/ - DBSystemNameGeode = DBSystemNameKey.String("geode") - // [H2 Database] - // Stability: development - // - // [H2 Database]: https://h2database.com/ - DBSystemNameH2database = DBSystemNameKey.String("h2database") - // [Apache HBase] - // Stability: development - // - // [Apache HBase]: https://hbase.apache.org/ - DBSystemNameHBase = DBSystemNameKey.String("hbase") - // [Apache Hive] - // Stability: development - // - // [Apache Hive]: https://hive.apache.org/ - DBSystemNameHive = DBSystemNameKey.String("hive") - // [HyperSQL Database] - // Stability: development - // - // [HyperSQL Database]: https://hsqldb.org/ - DBSystemNameHSQLDB = DBSystemNameKey.String("hsqldb") - // [IBM Db2] - // Stability: development - // - // [IBM Db2]: https://www.ibm.com/db2 - DBSystemNameIBMDB2 = DBSystemNameKey.String("ibm.db2") - // [IBM Informix] - // Stability: development - // - // [IBM Informix]: https://www.ibm.com/products/informix - DBSystemNameIBMInformix = DBSystemNameKey.String("ibm.informix") - // [IBM Netezza] - // Stability: development - // - // [IBM Netezza]: https://www.ibm.com/products/netezza - DBSystemNameIBMNetezza = DBSystemNameKey.String("ibm.netezza") - // [InfluxDB] - // Stability: development - // - // [InfluxDB]: https://www.influxdata.com/ - DBSystemNameInfluxDB = DBSystemNameKey.String("influxdb") - // [Instant] - // Stability: development - // - // [Instant]: https://www.instantdb.com/ - DBSystemNameInstantDB = DBSystemNameKey.String("instantdb") - // [MariaDB] - // Stability: stable - // - // [MariaDB]: https://mariadb.org/ - DBSystemNameMariaDB = DBSystemNameKey.String("mariadb") - // [Memcached] - // Stability: development - // - // [Memcached]: https://memcached.org/ - DBSystemNameMemcached = DBSystemNameKey.String("memcached") - // [MongoDB] - // Stability: development - // - // [MongoDB]: https://www.mongodb.com/ - DBSystemNameMongoDB = DBSystemNameKey.String("mongodb") - // [Microsoft SQL Server] - // Stability: stable - // - // [Microsoft SQL Server]: https://www.microsoft.com/sql-server - DBSystemNameMicrosoftSQLServer = DBSystemNameKey.String("microsoft.sql_server") - // [MySQL] - // Stability: stable - // - // [MySQL]: https://www.mysql.com/ - DBSystemNameMySQL = DBSystemNameKey.String("mysql") - // [Neo4j] - // Stability: development - // - // [Neo4j]: https://neo4j.com/ - DBSystemNameNeo4j = DBSystemNameKey.String("neo4j") - // [OpenSearch] - // Stability: development - // - // [OpenSearch]: https://opensearch.org/ - DBSystemNameOpenSearch = DBSystemNameKey.String("opensearch") - // [Oracle Database] - // Stability: development - // - // [Oracle Database]: https://www.oracle.com/database/ - DBSystemNameOracleDB = DBSystemNameKey.String("oracle.db") - // [PostgreSQL] - // Stability: stable - // - // [PostgreSQL]: https://www.postgresql.org/ - DBSystemNamePostgreSQL = DBSystemNameKey.String("postgresql") - // [Redis] - // Stability: development - // - // [Redis]: https://redis.io/ - DBSystemNameRedis = DBSystemNameKey.String("redis") - // [SAP HANA] - // Stability: development - // - // [SAP HANA]: https://www.sap.com/products/technology-platform/hana/what-is-sap-hana.html - DBSystemNameSAPHANA = DBSystemNameKey.String("sap.hana") - // [SAP MaxDB] - // Stability: development - // - // [SAP MaxDB]: https://maxdb.sap.com/ - DBSystemNameSAPMaxDB = DBSystemNameKey.String("sap.maxdb") - // [SQLite] - // Stability: development - // - // [SQLite]: https://www.sqlite.org/ - DBSystemNameSQLite = DBSystemNameKey.String("sqlite") - // [Teradata] - // Stability: development - // - // [Teradata]: https://www.teradata.com/ - DBSystemNameTeradata = DBSystemNameKey.String("teradata") - // [Trino] - // Stability: development - // - // [Trino]: https://trino.io/ - DBSystemNameTrino = DBSystemNameKey.String("trino") -) - -// Namespace: deployment -const ( - // DeploymentEnvironmentNameKey is the attribute Key conforming to the - // "deployment.environment.name" semantic conventions. It represents the name of - // the [deployment environment] (aka deployment tier). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "staging", "production" - // Note: `deployment.environment.name` does not affect the uniqueness - // constraints defined through - // the `service.namespace`, `service.name` and `service.instance.id` resource - // attributes. - // This implies that resources carrying the following attribute combinations - // MUST be - // considered to be identifying the same service: - // - // - `service.name=frontend`, `deployment.environment.name=production` - // - `service.name=frontend`, `deployment.environment.name=staging`. - // - // - // [deployment environment]: https://wikipedia.org/wiki/Deployment_environment - DeploymentEnvironmentNameKey = attribute.Key("deployment.environment.name") - - // DeploymentIDKey is the attribute Key conforming to the "deployment.id" - // semantic conventions. It represents the id of the deployment. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1208" - DeploymentIDKey = attribute.Key("deployment.id") - - // DeploymentNameKey is the attribute Key conforming to the "deployment.name" - // semantic conventions. It represents the name of the deployment. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "deploy my app", "deploy-frontend" - DeploymentNameKey = attribute.Key("deployment.name") - - // DeploymentStatusKey is the attribute Key conforming to the - // "deployment.status" semantic conventions. It represents the status of the - // deployment. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - DeploymentStatusKey = attribute.Key("deployment.status") -) - -// DeploymentEnvironmentName returns an attribute KeyValue conforming to the -// "deployment.environment.name" semantic conventions. It represents the name of -// the [deployment environment] (aka deployment tier). -// -// [deployment environment]: https://wikipedia.org/wiki/Deployment_environment -func DeploymentEnvironmentName(val string) attribute.KeyValue { - return DeploymentEnvironmentNameKey.String(val) -} - -// DeploymentID returns an attribute KeyValue conforming to the "deployment.id" -// semantic conventions. It represents the id of the deployment. -func DeploymentID(val string) attribute.KeyValue { - return DeploymentIDKey.String(val) -} - -// DeploymentName returns an attribute KeyValue conforming to the -// "deployment.name" semantic conventions. It represents the name of the -// deployment. -func DeploymentName(val string) attribute.KeyValue { - return DeploymentNameKey.String(val) -} - -// Enum values for deployment.status -var ( - // failed - // Stability: development - DeploymentStatusFailed = DeploymentStatusKey.String("failed") - // succeeded - // Stability: development - DeploymentStatusSucceeded = DeploymentStatusKey.String("succeeded") -) - -// Namespace: destination -const ( - // DestinationAddressKey is the attribute Key conforming to the - // "destination.address" semantic conventions. It represents the destination - // address - domain name if available without reverse DNS lookup; otherwise, IP - // address or Unix domain socket name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "destination.example.com", "10.1.2.80", "/tmp/my.sock" - // Note: When observed from the source side, and when communicating through an - // intermediary, `destination.address` SHOULD represent the destination address - // behind any intermediaries, for example proxies, if it's available. - DestinationAddressKey = attribute.Key("destination.address") - - // DestinationPortKey is the attribute Key conforming to the "destination.port" - // semantic conventions. It represents the destination port number. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 3389, 2888 - DestinationPortKey = attribute.Key("destination.port") -) - -// DestinationAddress returns an attribute KeyValue conforming to the -// "destination.address" semantic conventions. It represents the destination -// address - domain name if available without reverse DNS lookup; otherwise, IP -// address or Unix domain socket name. -func DestinationAddress(val string) attribute.KeyValue { - return DestinationAddressKey.String(val) -} - -// DestinationPort returns an attribute KeyValue conforming to the -// "destination.port" semantic conventions. It represents the destination port -// number. -func DestinationPort(val int) attribute.KeyValue { - return DestinationPortKey.Int(val) -} - -// Namespace: device -const ( - // DeviceIDKey is the attribute Key conforming to the "device.id" semantic - // conventions. It represents a unique identifier representing the device. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "123456789012345", "01:23:45:67:89:AB" - // Note: Its value SHOULD be identical for all apps on a device and it SHOULD - // NOT change if an app is uninstalled and re-installed. - // However, it might be resettable by the user for all apps on a device. - // Hardware IDs (e.g. vendor-specific serial number, IMEI or MAC address) MAY be - // used as values. - // - // More information about Android identifier best practices can be found in the - // [Android user data IDs guide]. - // - // > [!WARNING]> This attribute may contain sensitive (PII) information. Caution - // > should be taken when storing personal data or anything which can identify a - // > user. GDPR and data protection laws may apply, - // > ensure you do your own due diligence.> Due to these reasons, this - // > identifier is not recommended for consumer applications and will likely - // > result in rejection from both Google Play and App Store. - // > However, it may be appropriate for specific enterprise scenarios, such as - // > kiosk devices or enterprise-managed devices, with appropriate compliance - // > clearance. - // > Any instrumentation providing this identifier MUST implement it as an - // > opt-in feature.> See [`app.installation.id`]> for a more - // > privacy-preserving alternative. - // - // [Android user data IDs guide]: https://developer.android.com/training/articles/user-data-ids - // [`app.installation.id`]: /docs/registry/attributes/app.md#app-installation-id - DeviceIDKey = attribute.Key("device.id") - - // DeviceManufacturerKey is the attribute Key conforming to the - // "device.manufacturer" semantic conventions. It represents the name of the - // device manufacturer. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Apple", "Samsung" - // Note: The Android OS provides this field via [Build]. iOS apps SHOULD - // hardcode the value `Apple`. - // - // [Build]: https://developer.android.com/reference/android/os/Build#MANUFACTURER - DeviceManufacturerKey = attribute.Key("device.manufacturer") - - // DeviceModelIdentifierKey is the attribute Key conforming to the - // "device.model.identifier" semantic conventions. It represents the model - // identifier for the device. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "iPhone3,4", "SM-G920F" - // Note: It's recommended this value represents a machine-readable version of - // the model identifier rather than the market or consumer-friendly name of the - // device. - DeviceModelIdentifierKey = attribute.Key("device.model.identifier") - - // DeviceModelNameKey is the attribute Key conforming to the "device.model.name" - // semantic conventions. It represents the marketing name for the device model. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "iPhone 6s Plus", "Samsung Galaxy S6" - // Note: It's recommended this value represents a human-readable version of the - // device model rather than a machine-readable alternative. - DeviceModelNameKey = attribute.Key("device.model.name") -) - -// DeviceID returns an attribute KeyValue conforming to the "device.id" semantic -// conventions. It represents a unique identifier representing the device. -func DeviceID(val string) attribute.KeyValue { - return DeviceIDKey.String(val) -} - -// DeviceManufacturer returns an attribute KeyValue conforming to the -// "device.manufacturer" semantic conventions. It represents the name of the -// device manufacturer. -func DeviceManufacturer(val string) attribute.KeyValue { - return DeviceManufacturerKey.String(val) -} - -// DeviceModelIdentifier returns an attribute KeyValue conforming to the -// "device.model.identifier" semantic conventions. It represents the model -// identifier for the device. -func DeviceModelIdentifier(val string) attribute.KeyValue { - return DeviceModelIdentifierKey.String(val) -} - -// DeviceModelName returns an attribute KeyValue conforming to the -// "device.model.name" semantic conventions. It represents the marketing name for -// the device model. -func DeviceModelName(val string) attribute.KeyValue { - return DeviceModelNameKey.String(val) -} - -// Namespace: disk -const ( - // DiskIODirectionKey is the attribute Key conforming to the "disk.io.direction" - // semantic conventions. It represents the disk IO operation direction. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "read" - DiskIODirectionKey = attribute.Key("disk.io.direction") -) - -// Enum values for disk.io.direction -var ( - // read - // Stability: development - DiskIODirectionRead = DiskIODirectionKey.String("read") - // write - // Stability: development - DiskIODirectionWrite = DiskIODirectionKey.String("write") -) - -// Namespace: dns -const ( - // DNSAnswersKey is the attribute Key conforming to the "dns.answers" semantic - // conventions. It represents the list of IPv4 or IPv6 addresses resolved during - // DNS lookup. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "10.0.0.1", "2001:0db8:85a3:0000:0000:8a2e:0370:7334" - DNSAnswersKey = attribute.Key("dns.answers") - - // DNSQuestionNameKey is the attribute Key conforming to the "dns.question.name" - // semantic conventions. It represents the name being queried. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "www.example.com", "opentelemetry.io" - // Note: The name represents the queried domain name as it appears in the DNS - // query without any additional normalization. - DNSQuestionNameKey = attribute.Key("dns.question.name") -) - -// DNSAnswers returns an attribute KeyValue conforming to the "dns.answers" -// semantic conventions. It represents the list of IPv4 or IPv6 addresses -// resolved during DNS lookup. -func DNSAnswers(val ...string) attribute.KeyValue { - return DNSAnswersKey.StringSlice(val) -} - -// DNSQuestionName returns an attribute KeyValue conforming to the -// "dns.question.name" semantic conventions. It represents the name being -// queried. -func DNSQuestionName(val string) attribute.KeyValue { - return DNSQuestionNameKey.String(val) -} - -// Namespace: elasticsearch -const ( - // ElasticsearchNodeNameKey is the attribute Key conforming to the - // "elasticsearch.node.name" semantic conventions. It represents the represents - // the human-readable identifier of the node/instance to which a request was - // routed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "instance-0000000001" - ElasticsearchNodeNameKey = attribute.Key("elasticsearch.node.name") -) - -// ElasticsearchNodeName returns an attribute KeyValue conforming to the -// "elasticsearch.node.name" semantic conventions. It represents the represents -// the human-readable identifier of the node/instance to which a request was -// routed. -func ElasticsearchNodeName(val string) attribute.KeyValue { - return ElasticsearchNodeNameKey.String(val) -} - -// Namespace: enduser -const ( - // EnduserIDKey is the attribute Key conforming to the "enduser.id" semantic - // conventions. It represents the unique identifier of an end user in the - // system. It maybe a username, email address, or other identifier. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "username" - // Note: Unique identifier of an end user in the system. - // - // > [!Warning] - // > This field contains sensitive (PII) information. - EnduserIDKey = attribute.Key("enduser.id") - - // EnduserPseudoIDKey is the attribute Key conforming to the "enduser.pseudo.id" - // semantic conventions. It represents the pseudonymous identifier of an end - // user. This identifier should be a random value that is not directly linked or - // associated with the end user's actual identity. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "QdH5CAWJgqVT4rOr0qtumf" - // Note: Pseudonymous identifier of an end user. - // - // > [!Warning] - // > This field contains sensitive (linkable PII) information. - EnduserPseudoIDKey = attribute.Key("enduser.pseudo.id") -) - -// EnduserID returns an attribute KeyValue conforming to the "enduser.id" -// semantic conventions. It represents the unique identifier of an end user in -// the system. It maybe a username, email address, or other identifier. -func EnduserID(val string) attribute.KeyValue { - return EnduserIDKey.String(val) -} - -// EnduserPseudoID returns an attribute KeyValue conforming to the -// "enduser.pseudo.id" semantic conventions. It represents the pseudonymous -// identifier of an end user. This identifier should be a random value that is -// not directly linked or associated with the end user's actual identity. -func EnduserPseudoID(val string) attribute.KeyValue { - return EnduserPseudoIDKey.String(val) -} - -// Namespace: error -const ( - // ErrorMessageKey is the attribute Key conforming to the "error.message" - // semantic conventions. It represents a message providing more detail about an - // error in human-readable form. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Unexpected input type: string", "The user has exceeded their - // storage quota" - // Note: `error.message` should provide additional context and detail about an - // error. - // It is NOT RECOMMENDED to duplicate the value of `error.type` in - // `error.message`. - // It is also NOT RECOMMENDED to duplicate the value of `exception.message` in - // `error.message`. - // - // `error.message` is NOT RECOMMENDED for metrics or spans due to its unbounded - // cardinality and overlap with span status. - ErrorMessageKey = attribute.Key("error.message") - - // ErrorTypeKey is the attribute Key conforming to the "error.type" semantic - // conventions. It represents the describes a class of error the operation ended - // with. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "timeout", "java.net.UnknownHostException", - // "server_certificate_invalid", "500" - // Note: The `error.type` SHOULD be predictable, and SHOULD have low - // cardinality. - // - // When `error.type` is set to a type (e.g., an exception type), its - // canonical class name identifying the type within the artifact SHOULD be used. - // - // Instrumentations SHOULD document the list of errors they report. - // - // The cardinality of `error.type` within one instrumentation library SHOULD be - // low. - // Telemetry consumers that aggregate data from multiple instrumentation - // libraries and applications - // should be prepared for `error.type` to have high cardinality at query time - // when no - // additional filters are applied. - // - // If the operation has completed successfully, instrumentations SHOULD NOT set - // `error.type`. - // - // If a specific domain defines its own set of error identifiers (such as HTTP - // or RPC status codes), - // it's RECOMMENDED to: - // - // - Use a domain-specific attribute - // - Set `error.type` to capture all errors, regardless of whether they are - // defined within the domain-specific set or not. - ErrorTypeKey = attribute.Key("error.type") -) - -// ErrorMessage returns an attribute KeyValue conforming to the "error.message" -// semantic conventions. It represents a message providing more detail about an -// error in human-readable form. -func ErrorMessage(val string) attribute.KeyValue { - return ErrorMessageKey.String(val) -} - -// Enum values for error.type -var ( - // A fallback error value to be used when the instrumentation doesn't define a - // custom value. - // - // Stability: stable - ErrorTypeOther = ErrorTypeKey.String("_OTHER") -) - -// Namespace: exception -const ( - // ExceptionMessageKey is the attribute Key conforming to the - // "exception.message" semantic conventions. It represents the exception - // message. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "Division by zero", "Can't convert 'int' object to str implicitly" - ExceptionMessageKey = attribute.Key("exception.message") - - // ExceptionStacktraceKey is the attribute Key conforming to the - // "exception.stacktrace" semantic conventions. It represents a stacktrace as a - // string in the natural representation for the language runtime. The - // representation is to be determined and documented by each language SIG. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: Exception in thread "main" java.lang.RuntimeException: Test - // exception\n at com.example.GenerateTrace.methodB(GenerateTrace.java:13)\n at - // com.example.GenerateTrace.methodA(GenerateTrace.java:9)\n at - // com.example.GenerateTrace.main(GenerateTrace.java:5) - ExceptionStacktraceKey = attribute.Key("exception.stacktrace") - - // ExceptionTypeKey is the attribute Key conforming to the "exception.type" - // semantic conventions. It represents the type of the exception (its - // fully-qualified class name, if applicable). The dynamic type of the exception - // should be preferred over the static type in languages that support it. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "java.net.ConnectException", "OSError" - ExceptionTypeKey = attribute.Key("exception.type") -) - -// ExceptionMessage returns an attribute KeyValue conforming to the -// "exception.message" semantic conventions. It represents the exception message. -func ExceptionMessage(val string) attribute.KeyValue { - return ExceptionMessageKey.String(val) -} - -// ExceptionStacktrace returns an attribute KeyValue conforming to the -// "exception.stacktrace" semantic conventions. It represents a stacktrace as a -// string in the natural representation for the language runtime. The -// representation is to be determined and documented by each language SIG. -func ExceptionStacktrace(val string) attribute.KeyValue { - return ExceptionStacktraceKey.String(val) -} - -// ExceptionType returns an attribute KeyValue conforming to the "exception.type" -// semantic conventions. It represents the type of the exception (its -// fully-qualified class name, if applicable). The dynamic type of the exception -// should be preferred over the static type in languages that support it. -func ExceptionType(val string) attribute.KeyValue { - return ExceptionTypeKey.String(val) -} - -// Namespace: faas -const ( - // FaaSColdstartKey is the attribute Key conforming to the "faas.coldstart" - // semantic conventions. It represents a boolean that is true if the serverless - // function is executed for the first time (aka cold-start). - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - FaaSColdstartKey = attribute.Key("faas.coldstart") - - // FaaSCronKey is the attribute Key conforming to the "faas.cron" semantic - // conventions. It represents a string containing the schedule period as - // [Cron Expression]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0/5 * * * ? * - // - // [Cron Expression]: https://docs.oracle.com/cd/E12058_01/doc/doc.1014/e12030/cron_expressions.htm - FaaSCronKey = attribute.Key("faas.cron") - - // FaaSDocumentCollectionKey is the attribute Key conforming to the - // "faas.document.collection" semantic conventions. It represents the name of - // the source on which the triggering operation was performed. For example, in - // Cloud Storage or S3 corresponds to the bucket name, and in Cosmos DB to the - // database name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "myBucketName", "myDbName" - FaaSDocumentCollectionKey = attribute.Key("faas.document.collection") - - // FaaSDocumentNameKey is the attribute Key conforming to the - // "faas.document.name" semantic conventions. It represents the document - // name/table subjected to the operation. For example, in Cloud Storage or S3 is - // the name of the file, and in Cosmos DB the table name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "myFile.txt", "myTableName" - FaaSDocumentNameKey = attribute.Key("faas.document.name") - - // FaaSDocumentOperationKey is the attribute Key conforming to the - // "faas.document.operation" semantic conventions. It represents the describes - // the type of the operation that was performed on the data. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - FaaSDocumentOperationKey = attribute.Key("faas.document.operation") - - // FaaSDocumentTimeKey is the attribute Key conforming to the - // "faas.document.time" semantic conventions. It represents a string containing - // the time when the data was accessed in the [ISO 8601] format expressed in - // [UTC]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 2020-01-23T13:47:06Z - // - // [ISO 8601]: https://www.iso.org/iso-8601-date-and-time-format.html - // [UTC]: https://www.w3.org/TR/NOTE-datetime - FaaSDocumentTimeKey = attribute.Key("faas.document.time") - - // FaaSInstanceKey is the attribute Key conforming to the "faas.instance" - // semantic conventions. It represents the execution environment ID as a string, - // that will be potentially reused for other invocations to the same - // function/function version. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2021/06/28/[$LATEST]2f399eb14537447da05ab2a2e39309de" - // Note: - **AWS Lambda:** Use the (full) log stream name. - FaaSInstanceKey = attribute.Key("faas.instance") - - // FaaSInvocationIDKey is the attribute Key conforming to the - // "faas.invocation_id" semantic conventions. It represents the invocation ID of - // the current function invocation. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: af9d5aa4-a685-4c5f-a22b-444f80b3cc28 - FaaSInvocationIDKey = attribute.Key("faas.invocation_id") - - // FaaSInvokedNameKey is the attribute Key conforming to the "faas.invoked_name" - // semantic conventions. It represents the name of the invoked function. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: my-function - // Note: SHOULD be equal to the `faas.name` resource attribute of the invoked - // function. - FaaSInvokedNameKey = attribute.Key("faas.invoked_name") - - // FaaSInvokedProviderKey is the attribute Key conforming to the - // "faas.invoked_provider" semantic conventions. It represents the cloud - // provider of the invoked function. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: SHOULD be equal to the `cloud.provider` resource attribute of the - // invoked function. - FaaSInvokedProviderKey = attribute.Key("faas.invoked_provider") - - // FaaSInvokedRegionKey is the attribute Key conforming to the - // "faas.invoked_region" semantic conventions. It represents the cloud region of - // the invoked function. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: eu-central-1 - // Note: SHOULD be equal to the `cloud.region` resource attribute of the invoked - // function. - FaaSInvokedRegionKey = attribute.Key("faas.invoked_region") - - // FaaSMaxMemoryKey is the attribute Key conforming to the "faas.max_memory" - // semantic conventions. It represents the amount of memory available to the - // serverless function converted to Bytes. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Note: It's recommended to set this attribute since e.g. too little memory can - // easily stop a Java AWS Lambda function from working correctly. On AWS Lambda, - // the environment variable `AWS_LAMBDA_FUNCTION_MEMORY_SIZE` provides this - // information (which must be multiplied by 1,048,576). - FaaSMaxMemoryKey = attribute.Key("faas.max_memory") - - // FaaSNameKey is the attribute Key conforming to the "faas.name" semantic - // conventions. It represents the name of the single function that this runtime - // instance executes. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-function", "myazurefunctionapp/some-function-name" - // Note: This is the name of the function as configured/deployed on the FaaS - // platform and is usually different from the name of the callback - // function (which may be stored in the - // [`code.namespace`/`code.function.name`] - // span attributes). - // - // For some cloud providers, the above definition is ambiguous. The following - // definition of function name MUST be used for this attribute - // (and consequently the span name) for the listed cloud providers/products: - // - // - **Azure:** The full name `/`, i.e., function app name - // followed by a forward slash followed by the function name (this form - // can also be seen in the resource JSON for the function). - // This means that a span attribute MUST be used, as an Azure function - // app can host multiple functions that would usually share - // a TracerProvider (see also the `cloud.resource_id` attribute). - // - // - // [`code.namespace`/`code.function.name`]: /docs/general/attributes.md#source-code-attributes - FaaSNameKey = attribute.Key("faas.name") - - // FaaSTimeKey is the attribute Key conforming to the "faas.time" semantic - // conventions. It represents a string containing the function invocation time - // in the [ISO 8601] format expressed in [UTC]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 2020-01-23T13:47:06Z - // - // [ISO 8601]: https://www.iso.org/iso-8601-date-and-time-format.html - // [UTC]: https://www.w3.org/TR/NOTE-datetime - FaaSTimeKey = attribute.Key("faas.time") - - // FaaSTriggerKey is the attribute Key conforming to the "faas.trigger" semantic - // conventions. It represents the type of the trigger which caused this function - // invocation. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - FaaSTriggerKey = attribute.Key("faas.trigger") - - // FaaSVersionKey is the attribute Key conforming to the "faas.version" semantic - // conventions. It represents the immutable version of the function being - // executed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "26", "pinkfroid-00002" - // Note: Depending on the cloud provider and platform, use: - // - // - **AWS Lambda:** The [function version] - // (an integer represented as a decimal string). - // - **Google Cloud Run (Services):** The [revision] - // (i.e., the function name plus the revision suffix). - // - **Google Cloud Functions:** The value of the - // [`K_REVISION` environment variable]. - // - **Azure Functions:** Not applicable. Do not set this attribute. - // - // - // [function version]: https://docs.aws.amazon.com/lambda/latest/dg/configuration-versions.html - // [revision]: https://cloud.google.com/run/docs/managing/revisions - // [`K_REVISION` environment variable]: https://cloud.google.com/run/docs/container-contract#services-env-vars - FaaSVersionKey = attribute.Key("faas.version") -) - -// FaaSColdstart returns an attribute KeyValue conforming to the "faas.coldstart" -// semantic conventions. It represents a boolean that is true if the serverless -// function is executed for the first time (aka cold-start). -func FaaSColdstart(val bool) attribute.KeyValue { - return FaaSColdstartKey.Bool(val) -} - -// FaaSCron returns an attribute KeyValue conforming to the "faas.cron" semantic -// conventions. It represents a string containing the schedule period as -// [Cron Expression]. -// -// [Cron Expression]: https://docs.oracle.com/cd/E12058_01/doc/doc.1014/e12030/cron_expressions.htm -func FaaSCron(val string) attribute.KeyValue { - return FaaSCronKey.String(val) -} - -// FaaSDocumentCollection returns an attribute KeyValue conforming to the -// "faas.document.collection" semantic conventions. It represents the name of the -// source on which the triggering operation was performed. For example, in Cloud -// Storage or S3 corresponds to the bucket name, and in Cosmos DB to the database -// name. -func FaaSDocumentCollection(val string) attribute.KeyValue { - return FaaSDocumentCollectionKey.String(val) -} - -// FaaSDocumentName returns an attribute KeyValue conforming to the -// "faas.document.name" semantic conventions. It represents the document -// name/table subjected to the operation. For example, in Cloud Storage or S3 is -// the name of the file, and in Cosmos DB the table name. -func FaaSDocumentName(val string) attribute.KeyValue { - return FaaSDocumentNameKey.String(val) -} - -// FaaSDocumentTime returns an attribute KeyValue conforming to the -// "faas.document.time" semantic conventions. It represents a string containing -// the time when the data was accessed in the [ISO 8601] format expressed in -// [UTC]. -// -// [ISO 8601]: https://www.iso.org/iso-8601-date-and-time-format.html -// [UTC]: https://www.w3.org/TR/NOTE-datetime -func FaaSDocumentTime(val string) attribute.KeyValue { - return FaaSDocumentTimeKey.String(val) -} - -// FaaSInstance returns an attribute KeyValue conforming to the "faas.instance" -// semantic conventions. It represents the execution environment ID as a string, -// that will be potentially reused for other invocations to the same -// function/function version. -func FaaSInstance(val string) attribute.KeyValue { - return FaaSInstanceKey.String(val) -} - -// FaaSInvocationID returns an attribute KeyValue conforming to the -// "faas.invocation_id" semantic conventions. It represents the invocation ID of -// the current function invocation. -func FaaSInvocationID(val string) attribute.KeyValue { - return FaaSInvocationIDKey.String(val) -} - -// FaaSInvokedName returns an attribute KeyValue conforming to the -// "faas.invoked_name" semantic conventions. It represents the name of the -// invoked function. -func FaaSInvokedName(val string) attribute.KeyValue { - return FaaSInvokedNameKey.String(val) -} - -// FaaSInvokedRegion returns an attribute KeyValue conforming to the -// "faas.invoked_region" semantic conventions. It represents the cloud region of -// the invoked function. -func FaaSInvokedRegion(val string) attribute.KeyValue { - return FaaSInvokedRegionKey.String(val) -} - -// FaaSMaxMemory returns an attribute KeyValue conforming to the -// "faas.max_memory" semantic conventions. It represents the amount of memory -// available to the serverless function converted to Bytes. -func FaaSMaxMemory(val int) attribute.KeyValue { - return FaaSMaxMemoryKey.Int(val) -} - -// FaaSName returns an attribute KeyValue conforming to the "faas.name" semantic -// conventions. It represents the name of the single function that this runtime -// instance executes. -func FaaSName(val string) attribute.KeyValue { - return FaaSNameKey.String(val) -} - -// FaaSTime returns an attribute KeyValue conforming to the "faas.time" semantic -// conventions. It represents a string containing the function invocation time in -// the [ISO 8601] format expressed in [UTC]. -// -// [ISO 8601]: https://www.iso.org/iso-8601-date-and-time-format.html -// [UTC]: https://www.w3.org/TR/NOTE-datetime -func FaaSTime(val string) attribute.KeyValue { - return FaaSTimeKey.String(val) -} - -// FaaSVersion returns an attribute KeyValue conforming to the "faas.version" -// semantic conventions. It represents the immutable version of the function -// being executed. -func FaaSVersion(val string) attribute.KeyValue { - return FaaSVersionKey.String(val) -} - -// Enum values for faas.document.operation -var ( - // When a new object is created. - // Stability: development - FaaSDocumentOperationInsert = FaaSDocumentOperationKey.String("insert") - // When an object is modified. - // Stability: development - FaaSDocumentOperationEdit = FaaSDocumentOperationKey.String("edit") - // When an object is deleted. - // Stability: development - FaaSDocumentOperationDelete = FaaSDocumentOperationKey.String("delete") -) - -// Enum values for faas.invoked_provider -var ( - // Alibaba Cloud - // Stability: development - FaaSInvokedProviderAlibabaCloud = FaaSInvokedProviderKey.String("alibaba_cloud") - // Amazon Web Services - // Stability: development - FaaSInvokedProviderAWS = FaaSInvokedProviderKey.String("aws") - // Microsoft Azure - // Stability: development - FaaSInvokedProviderAzure = FaaSInvokedProviderKey.String("azure") - // Google Cloud Platform - // Stability: development - FaaSInvokedProviderGCP = FaaSInvokedProviderKey.String("gcp") - // Tencent Cloud - // Stability: development - FaaSInvokedProviderTencentCloud = FaaSInvokedProviderKey.String("tencent_cloud") -) - -// Enum values for faas.trigger -var ( - // A response to some data source operation such as a database or filesystem - // read/write - // Stability: development - FaaSTriggerDatasource = FaaSTriggerKey.String("datasource") - // To provide an answer to an inbound HTTP request - // Stability: development - FaaSTriggerHTTP = FaaSTriggerKey.String("http") - // A function is set to be executed when messages are sent to a messaging system - // Stability: development - FaaSTriggerPubSub = FaaSTriggerKey.String("pubsub") - // A function is scheduled to be executed regularly - // Stability: development - FaaSTriggerTimer = FaaSTriggerKey.String("timer") - // If none of the others apply - // Stability: development - FaaSTriggerOther = FaaSTriggerKey.String("other") -) - -// Namespace: feature_flag -const ( - // FeatureFlagContextIDKey is the attribute Key conforming to the - // "feature_flag.context.id" semantic conventions. It represents the unique - // identifier for the flag evaluation context. For example, the targeting key. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "5157782b-2203-4c80-a857-dbbd5e7761db" - FeatureFlagContextIDKey = attribute.Key("feature_flag.context.id") - - // FeatureFlagKeyKey is the attribute Key conforming to the "feature_flag.key" - // semantic conventions. It represents the lookup key of the feature flag. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "logo-color" - FeatureFlagKeyKey = attribute.Key("feature_flag.key") - - // FeatureFlagProviderNameKey is the attribute Key conforming to the - // "feature_flag.provider.name" semantic conventions. It represents the - // identifies the feature flag provider. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "Flag Manager" - FeatureFlagProviderNameKey = attribute.Key("feature_flag.provider.name") - - // FeatureFlagResultReasonKey is the attribute Key conforming to the - // "feature_flag.result.reason" semantic conventions. It represents the reason - // code which shows how a feature flag value was determined. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "static", "targeting_match", "error", "default" - FeatureFlagResultReasonKey = attribute.Key("feature_flag.result.reason") - - // FeatureFlagResultValueKey is the attribute Key conforming to the - // "feature_flag.result.value" semantic conventions. It represents the evaluated - // value of the feature flag. - // - // Type: any - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "#ff0000", true, 3 - // Note: With some feature flag providers, feature flag results can be quite - // large or contain private or sensitive details. - // Because of this, `feature_flag.result.variant` is often the preferred - // attribute if it is available. - // - // It may be desirable to redact or otherwise limit the size and scope of - // `feature_flag.result.value` if possible. - // Because the evaluated flag value is unstructured and may be any type, it is - // left to the instrumentation author to determine how best to achieve this. - FeatureFlagResultValueKey = attribute.Key("feature_flag.result.value") - - // FeatureFlagResultVariantKey is the attribute Key conforming to the - // "feature_flag.result.variant" semantic conventions. It represents a semantic - // identifier for an evaluated flag value. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "red", "true", "on" - // Note: A semantic identifier, commonly referred to as a variant, provides a - // means - // for referring to a value without including the value itself. This can - // provide additional context for understanding the meaning behind a value. - // For example, the variant `red` maybe be used for the value `#c05543`. - FeatureFlagResultVariantKey = attribute.Key("feature_flag.result.variant") - - // FeatureFlagSetIDKey is the attribute Key conforming to the - // "feature_flag.set.id" semantic conventions. It represents the identifier of - // the [flag set] to which the feature flag belongs. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "proj-1", "ab98sgs", "service1/dev" - // - // [flag set]: https://openfeature.dev/specification/glossary/#flag-set - FeatureFlagSetIDKey = attribute.Key("feature_flag.set.id") - - // FeatureFlagVersionKey is the attribute Key conforming to the - // "feature_flag.version" semantic conventions. It represents the version of the - // ruleset used during the evaluation. This may be any stable value which - // uniquely identifies the ruleset. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Release_Candidate - // - // Examples: "1", "01ABCDEF" - FeatureFlagVersionKey = attribute.Key("feature_flag.version") -) - -// FeatureFlagContextID returns an attribute KeyValue conforming to the -// "feature_flag.context.id" semantic conventions. It represents the unique -// identifier for the flag evaluation context. For example, the targeting key. -func FeatureFlagContextID(val string) attribute.KeyValue { - return FeatureFlagContextIDKey.String(val) -} - -// FeatureFlagKey returns an attribute KeyValue conforming to the -// "feature_flag.key" semantic conventions. It represents the lookup key of the -// feature flag. -func FeatureFlagKey(val string) attribute.KeyValue { - return FeatureFlagKeyKey.String(val) -} - -// FeatureFlagProviderName returns an attribute KeyValue conforming to the -// "feature_flag.provider.name" semantic conventions. It represents the -// identifies the feature flag provider. -func FeatureFlagProviderName(val string) attribute.KeyValue { - return FeatureFlagProviderNameKey.String(val) -} - -// FeatureFlagResultVariant returns an attribute KeyValue conforming to the -// "feature_flag.result.variant" semantic conventions. It represents a semantic -// identifier for an evaluated flag value. -func FeatureFlagResultVariant(val string) attribute.KeyValue { - return FeatureFlagResultVariantKey.String(val) -} - -// FeatureFlagSetID returns an attribute KeyValue conforming to the -// "feature_flag.set.id" semantic conventions. It represents the identifier of -// the [flag set] to which the feature flag belongs. -// -// [flag set]: https://openfeature.dev/specification/glossary/#flag-set -func FeatureFlagSetID(val string) attribute.KeyValue { - return FeatureFlagSetIDKey.String(val) -} - -// FeatureFlagVersion returns an attribute KeyValue conforming to the -// "feature_flag.version" semantic conventions. It represents the version of the -// ruleset used during the evaluation. This may be any stable value which -// uniquely identifies the ruleset. -func FeatureFlagVersion(val string) attribute.KeyValue { - return FeatureFlagVersionKey.String(val) -} - -// Enum values for feature_flag.result.reason -var ( - // The resolved value is static (no dynamic evaluation). - // Stability: release_candidate - FeatureFlagResultReasonStatic = FeatureFlagResultReasonKey.String("static") - // The resolved value fell back to a pre-configured value (no dynamic evaluation - // occurred or dynamic evaluation yielded no result). - // Stability: release_candidate - FeatureFlagResultReasonDefault = FeatureFlagResultReasonKey.String("default") - // The resolved value was the result of a dynamic evaluation, such as a rule or - // specific user-targeting. - // Stability: release_candidate - FeatureFlagResultReasonTargetingMatch = FeatureFlagResultReasonKey.String("targeting_match") - // The resolved value was the result of pseudorandom assignment. - // Stability: release_candidate - FeatureFlagResultReasonSplit = FeatureFlagResultReasonKey.String("split") - // The resolved value was retrieved from cache. - // Stability: release_candidate - FeatureFlagResultReasonCached = FeatureFlagResultReasonKey.String("cached") - // The resolved value was the result of the flag being disabled in the - // management system. - // Stability: release_candidate - FeatureFlagResultReasonDisabled = FeatureFlagResultReasonKey.String("disabled") - // The reason for the resolved value could not be determined. - // Stability: release_candidate - FeatureFlagResultReasonUnknown = FeatureFlagResultReasonKey.String("unknown") - // The resolved value is non-authoritative or possibly out of date - // Stability: release_candidate - FeatureFlagResultReasonStale = FeatureFlagResultReasonKey.String("stale") - // The resolved value was the result of an error. - // Stability: release_candidate - FeatureFlagResultReasonError = FeatureFlagResultReasonKey.String("error") -) - -// Namespace: file -const ( - // FileAccessedKey is the attribute Key conforming to the "file.accessed" - // semantic conventions. It represents the time when the file was last accessed, - // in ISO 8601 format. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2021-01-01T12:00:00Z" - // Note: This attribute might not be supported by some file systems — NFS, - // FAT32, in embedded OS, etc. - FileAccessedKey = attribute.Key("file.accessed") - - // FileAttributesKey is the attribute Key conforming to the "file.attributes" - // semantic conventions. It represents the array of file attributes. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "readonly", "hidden" - // Note: Attributes names depend on the OS or file system. Here’s a - // non-exhaustive list of values expected for this attribute: `archive`, - // `compressed`, `directory`, `encrypted`, `execute`, `hidden`, `immutable`, - // `journaled`, `read`, `readonly`, `symbolic link`, `system`, `temporary`, - // `write`. - FileAttributesKey = attribute.Key("file.attributes") - - // FileChangedKey is the attribute Key conforming to the "file.changed" semantic - // conventions. It represents the time when the file attributes or metadata was - // last changed, in ISO 8601 format. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2021-01-01T12:00:00Z" - // Note: `file.changed` captures the time when any of the file's properties or - // attributes (including the content) are changed, while `file.modified` - // captures the timestamp when the file content is modified. - FileChangedKey = attribute.Key("file.changed") - - // FileCreatedKey is the attribute Key conforming to the "file.created" semantic - // conventions. It represents the time when the file was created, in ISO 8601 - // format. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2021-01-01T12:00:00Z" - // Note: This attribute might not be supported by some file systems — NFS, - // FAT32, in embedded OS, etc. - FileCreatedKey = attribute.Key("file.created") - - // FileDirectoryKey is the attribute Key conforming to the "file.directory" - // semantic conventions. It represents the directory where the file is located. - // It should include the drive letter, when appropriate. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/home/user", "C:\Program Files\MyApp" - FileDirectoryKey = attribute.Key("file.directory") - - // FileExtensionKey is the attribute Key conforming to the "file.extension" - // semantic conventions. It represents the file extension, excluding the leading - // dot. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "png", "gz" - // Note: When the file name has multiple extensions (example.tar.gz), only the - // last one should be captured ("gz", not "tar.gz"). - FileExtensionKey = attribute.Key("file.extension") - - // FileForkNameKey is the attribute Key conforming to the "file.fork_name" - // semantic conventions. It represents the name of the fork. A fork is - // additional data associated with a filesystem object. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Zone.Identifier" - // Note: On Linux, a resource fork is used to store additional data with a - // filesystem object. A file always has at least one fork for the data portion, - // and additional forks may exist. - // On NTFS, this is analogous to an Alternate Data Stream (ADS), and the default - // data stream for a file is just called $DATA. Zone.Identifier is commonly used - // by Windows to track contents downloaded from the Internet. An ADS is - // typically of the form: C:\path\to\filename.extension:some_fork_name, and - // some_fork_name is the value that should populate `fork_name`. - // `filename.extension` should populate `file.name`, and `extension` should - // populate `file.extension`. The full path, `file.path`, will include the fork - // name. - FileForkNameKey = attribute.Key("file.fork_name") - - // FileGroupIDKey is the attribute Key conforming to the "file.group.id" - // semantic conventions. It represents the primary Group ID (GID) of the file. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1000" - FileGroupIDKey = attribute.Key("file.group.id") - - // FileGroupNameKey is the attribute Key conforming to the "file.group.name" - // semantic conventions. It represents the primary group name of the file. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "users" - FileGroupNameKey = attribute.Key("file.group.name") - - // FileInodeKey is the attribute Key conforming to the "file.inode" semantic - // conventions. It represents the inode representing the file in the filesystem. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "256383" - FileInodeKey = attribute.Key("file.inode") - - // FileModeKey is the attribute Key conforming to the "file.mode" semantic - // conventions. It represents the mode of the file in octal representation. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "0640" - FileModeKey = attribute.Key("file.mode") - - // FileModifiedKey is the attribute Key conforming to the "file.modified" - // semantic conventions. It represents the time when the file content was last - // modified, in ISO 8601 format. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2021-01-01T12:00:00Z" - FileModifiedKey = attribute.Key("file.modified") - - // FileNameKey is the attribute Key conforming to the "file.name" semantic - // conventions. It represents the name of the file including the extension, - // without the directory. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "example.png" - FileNameKey = attribute.Key("file.name") - - // FileOwnerIDKey is the attribute Key conforming to the "file.owner.id" - // semantic conventions. It represents the user ID (UID) or security identifier - // (SID) of the file owner. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1000" - FileOwnerIDKey = attribute.Key("file.owner.id") - - // FileOwnerNameKey is the attribute Key conforming to the "file.owner.name" - // semantic conventions. It represents the username of the file owner. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "root" - FileOwnerNameKey = attribute.Key("file.owner.name") - - // FilePathKey is the attribute Key conforming to the "file.path" semantic - // conventions. It represents the full path to the file, including the file - // name. It should include the drive letter, when appropriate. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/home/alice/example.png", "C:\Program Files\MyApp\myapp.exe" - FilePathKey = attribute.Key("file.path") - - // FileSizeKey is the attribute Key conforming to the "file.size" semantic - // conventions. It represents the file size in bytes. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - FileSizeKey = attribute.Key("file.size") - - // FileSymbolicLinkTargetPathKey is the attribute Key conforming to the - // "file.symbolic_link.target_path" semantic conventions. It represents the path - // to the target of a symbolic link. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/usr/bin/python3" - // Note: This attribute is only applicable to symbolic links. - FileSymbolicLinkTargetPathKey = attribute.Key("file.symbolic_link.target_path") -) - -// FileAccessed returns an attribute KeyValue conforming to the "file.accessed" -// semantic conventions. It represents the time when the file was last accessed, -// in ISO 8601 format. -func FileAccessed(val string) attribute.KeyValue { - return FileAccessedKey.String(val) -} - -// FileAttributes returns an attribute KeyValue conforming to the -// "file.attributes" semantic conventions. It represents the array of file -// attributes. -func FileAttributes(val ...string) attribute.KeyValue { - return FileAttributesKey.StringSlice(val) -} - -// FileChanged returns an attribute KeyValue conforming to the "file.changed" -// semantic conventions. It represents the time when the file attributes or -// metadata was last changed, in ISO 8601 format. -func FileChanged(val string) attribute.KeyValue { - return FileChangedKey.String(val) -} - -// FileCreated returns an attribute KeyValue conforming to the "file.created" -// semantic conventions. It represents the time when the file was created, in ISO -// 8601 format. -func FileCreated(val string) attribute.KeyValue { - return FileCreatedKey.String(val) -} - -// FileDirectory returns an attribute KeyValue conforming to the "file.directory" -// semantic conventions. It represents the directory where the file is located. -// It should include the drive letter, when appropriate. -func FileDirectory(val string) attribute.KeyValue { - return FileDirectoryKey.String(val) -} - -// FileExtension returns an attribute KeyValue conforming to the "file.extension" -// semantic conventions. It represents the file extension, excluding the leading -// dot. -func FileExtension(val string) attribute.KeyValue { - return FileExtensionKey.String(val) -} - -// FileForkName returns an attribute KeyValue conforming to the "file.fork_name" -// semantic conventions. It represents the name of the fork. A fork is additional -// data associated with a filesystem object. -func FileForkName(val string) attribute.KeyValue { - return FileForkNameKey.String(val) -} - -// FileGroupID returns an attribute KeyValue conforming to the "file.group.id" -// semantic conventions. It represents the primary Group ID (GID) of the file. -func FileGroupID(val string) attribute.KeyValue { - return FileGroupIDKey.String(val) -} - -// FileGroupName returns an attribute KeyValue conforming to the -// "file.group.name" semantic conventions. It represents the primary group name -// of the file. -func FileGroupName(val string) attribute.KeyValue { - return FileGroupNameKey.String(val) -} - -// FileInode returns an attribute KeyValue conforming to the "file.inode" -// semantic conventions. It represents the inode representing the file in the -// filesystem. -func FileInode(val string) attribute.KeyValue { - return FileInodeKey.String(val) -} - -// FileMode returns an attribute KeyValue conforming to the "file.mode" semantic -// conventions. It represents the mode of the file in octal representation. -func FileMode(val string) attribute.KeyValue { - return FileModeKey.String(val) -} - -// FileModified returns an attribute KeyValue conforming to the "file.modified" -// semantic conventions. It represents the time when the file content was last -// modified, in ISO 8601 format. -func FileModified(val string) attribute.KeyValue { - return FileModifiedKey.String(val) -} - -// FileName returns an attribute KeyValue conforming to the "file.name" semantic -// conventions. It represents the name of the file including the extension, -// without the directory. -func FileName(val string) attribute.KeyValue { - return FileNameKey.String(val) -} - -// FileOwnerID returns an attribute KeyValue conforming to the "file.owner.id" -// semantic conventions. It represents the user ID (UID) or security identifier -// (SID) of the file owner. -func FileOwnerID(val string) attribute.KeyValue { - return FileOwnerIDKey.String(val) -} - -// FileOwnerName returns an attribute KeyValue conforming to the -// "file.owner.name" semantic conventions. It represents the username of the file -// owner. -func FileOwnerName(val string) attribute.KeyValue { - return FileOwnerNameKey.String(val) -} - -// FilePath returns an attribute KeyValue conforming to the "file.path" semantic -// conventions. It represents the full path to the file, including the file name. -// It should include the drive letter, when appropriate. -func FilePath(val string) attribute.KeyValue { - return FilePathKey.String(val) -} - -// FileSize returns an attribute KeyValue conforming to the "file.size" semantic -// conventions. It represents the file size in bytes. -func FileSize(val int) attribute.KeyValue { - return FileSizeKey.Int(val) -} - -// FileSymbolicLinkTargetPath returns an attribute KeyValue conforming to the -// "file.symbolic_link.target_path" semantic conventions. It represents the path -// to the target of a symbolic link. -func FileSymbolicLinkTargetPath(val string) attribute.KeyValue { - return FileSymbolicLinkTargetPathKey.String(val) -} - -// Namespace: gcp -const ( - // GCPAppHubApplicationContainerKey is the attribute Key conforming to the - // "gcp.apphub.application.container" semantic conventions. It represents the - // container within GCP where the AppHub application is defined. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "projects/my-container-project" - GCPAppHubApplicationContainerKey = attribute.Key("gcp.apphub.application.container") - - // GCPAppHubApplicationIDKey is the attribute Key conforming to the - // "gcp.apphub.application.id" semantic conventions. It represents the name of - // the application as configured in AppHub. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-application" - GCPAppHubApplicationIDKey = attribute.Key("gcp.apphub.application.id") - - // GCPAppHubApplicationLocationKey is the attribute Key conforming to the - // "gcp.apphub.application.location" semantic conventions. It represents the GCP - // zone or region where the application is defined. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "us-central1" - GCPAppHubApplicationLocationKey = attribute.Key("gcp.apphub.application.location") - - // GCPAppHubServiceCriticalityTypeKey is the attribute Key conforming to the - // "gcp.apphub.service.criticality_type" semantic conventions. It represents the - // criticality of a service indicates its importance to the business. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: [See AppHub type enum] - // - // [See AppHub type enum]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type - GCPAppHubServiceCriticalityTypeKey = attribute.Key("gcp.apphub.service.criticality_type") - - // GCPAppHubServiceEnvironmentTypeKey is the attribute Key conforming to the - // "gcp.apphub.service.environment_type" semantic conventions. It represents the - // environment of a service is the stage of a software lifecycle. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: [See AppHub environment type] - // - // [See AppHub environment type]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type_1 - GCPAppHubServiceEnvironmentTypeKey = attribute.Key("gcp.apphub.service.environment_type") - - // GCPAppHubServiceIDKey is the attribute Key conforming to the - // "gcp.apphub.service.id" semantic conventions. It represents the name of the - // service as configured in AppHub. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-service" - GCPAppHubServiceIDKey = attribute.Key("gcp.apphub.service.id") - - // GCPAppHubWorkloadCriticalityTypeKey is the attribute Key conforming to the - // "gcp.apphub.workload.criticality_type" semantic conventions. It represents - // the criticality of a workload indicates its importance to the business. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: [See AppHub type enum] - // - // [See AppHub type enum]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type - GCPAppHubWorkloadCriticalityTypeKey = attribute.Key("gcp.apphub.workload.criticality_type") - - // GCPAppHubWorkloadEnvironmentTypeKey is the attribute Key conforming to the - // "gcp.apphub.workload.environment_type" semantic conventions. It represents - // the environment of a workload is the stage of a software lifecycle. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: [See AppHub environment type] - // - // [See AppHub environment type]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type_1 - GCPAppHubWorkloadEnvironmentTypeKey = attribute.Key("gcp.apphub.workload.environment_type") - - // GCPAppHubWorkloadIDKey is the attribute Key conforming to the - // "gcp.apphub.workload.id" semantic conventions. It represents the name of the - // workload as configured in AppHub. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-workload" - GCPAppHubWorkloadIDKey = attribute.Key("gcp.apphub.workload.id") - - // GCPAppHubDestinationApplicationContainerKey is the attribute Key conforming - // to the "gcp.apphub_destination.application.container" semantic conventions. - // It represents the container within GCP where the AppHub destination - // application is defined. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "projects/my-container-project" - GCPAppHubDestinationApplicationContainerKey = attribute.Key("gcp.apphub_destination.application.container") - - // GCPAppHubDestinationApplicationIDKey is the attribute Key conforming to the - // "gcp.apphub_destination.application.id" semantic conventions. It represents - // the name of the destination application as configured in AppHub. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-application" - GCPAppHubDestinationApplicationIDKey = attribute.Key("gcp.apphub_destination.application.id") - - // GCPAppHubDestinationApplicationLocationKey is the attribute Key conforming to - // the "gcp.apphub_destination.application.location" semantic conventions. It - // represents the GCP zone or region where the destination application is - // defined. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "us-central1" - GCPAppHubDestinationApplicationLocationKey = attribute.Key("gcp.apphub_destination.application.location") - - // GCPAppHubDestinationServiceCriticalityTypeKey is the attribute Key conforming - // to the "gcp.apphub_destination.service.criticality_type" semantic - // conventions. It represents the criticality of a destination workload - // indicates its importance to the business as specified in [AppHub type enum]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [AppHub type enum]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type - GCPAppHubDestinationServiceCriticalityTypeKey = attribute.Key("gcp.apphub_destination.service.criticality_type") - - // GCPAppHubDestinationServiceEnvironmentTypeKey is the attribute Key conforming - // to the "gcp.apphub_destination.service.environment_type" semantic - // conventions. It represents the software lifecycle stage of a destination - // service as defined [AppHub environment type]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [AppHub environment type]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type_1 - GCPAppHubDestinationServiceEnvironmentTypeKey = attribute.Key("gcp.apphub_destination.service.environment_type") - - // GCPAppHubDestinationServiceIDKey is the attribute Key conforming to the - // "gcp.apphub_destination.service.id" semantic conventions. It represents the - // name of the destination service as configured in AppHub. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-service" - GCPAppHubDestinationServiceIDKey = attribute.Key("gcp.apphub_destination.service.id") - - // GCPAppHubDestinationWorkloadCriticalityTypeKey is the attribute Key - // conforming to the "gcp.apphub_destination.workload.criticality_type" semantic - // conventions. It represents the criticality of a destination workload - // indicates its importance to the business as specified in [AppHub type enum]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [AppHub type enum]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type - GCPAppHubDestinationWorkloadCriticalityTypeKey = attribute.Key("gcp.apphub_destination.workload.criticality_type") - - // GCPAppHubDestinationWorkloadEnvironmentTypeKey is the attribute Key - // conforming to the "gcp.apphub_destination.workload.environment_type" semantic - // conventions. It represents the environment of a destination workload is the - // stage of a software lifecycle as provided in the [AppHub environment type]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [AppHub environment type]: https://cloud.google.com/app-hub/docs/reference/rest/v1/Attributes#type_1 - GCPAppHubDestinationWorkloadEnvironmentTypeKey = attribute.Key("gcp.apphub_destination.workload.environment_type") - - // GCPAppHubDestinationWorkloadIDKey is the attribute Key conforming to the - // "gcp.apphub_destination.workload.id" semantic conventions. It represents the - // name of the destination workload as configured in AppHub. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-workload" - GCPAppHubDestinationWorkloadIDKey = attribute.Key("gcp.apphub_destination.workload.id") - - // GCPClientServiceKey is the attribute Key conforming to the - // "gcp.client.service" semantic conventions. It represents the identifies the - // Google Cloud service for which the official client library is intended. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "appengine", "run", "firestore", "alloydb", "spanner" - // Note: Intended to be a stable identifier for Google Cloud client libraries - // that is uniform across implementation languages. The value should be derived - // from the canonical service domain for the service; for example, - // 'foo.googleapis.com' should result in a value of 'foo'. - GCPClientServiceKey = attribute.Key("gcp.client.service") - - // GCPCloudRunJobExecutionKey is the attribute Key conforming to the - // "gcp.cloud_run.job.execution" semantic conventions. It represents the name of - // the Cloud Run [execution] being run for the Job, as set by the - // [`CLOUD_RUN_EXECUTION`] environment variable. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "job-name-xxxx", "sample-job-mdw84" - // - // [execution]: https://cloud.google.com/run/docs/managing/job-executions - // [`CLOUD_RUN_EXECUTION`]: https://cloud.google.com/run/docs/container-contract#jobs-env-vars - GCPCloudRunJobExecutionKey = attribute.Key("gcp.cloud_run.job.execution") - - // GCPCloudRunJobTaskIndexKey is the attribute Key conforming to the - // "gcp.cloud_run.job.task_index" semantic conventions. It represents the index - // for a task within an execution as provided by the [`CLOUD_RUN_TASK_INDEX`] - // environment variable. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0, 1 - // - // [`CLOUD_RUN_TASK_INDEX`]: https://cloud.google.com/run/docs/container-contract#jobs-env-vars - GCPCloudRunJobTaskIndexKey = attribute.Key("gcp.cloud_run.job.task_index") - - // GCPGCEInstanceHostnameKey is the attribute Key conforming to the - // "gcp.gce.instance.hostname" semantic conventions. It represents the hostname - // of a GCE instance. This is the full value of the default or [custom hostname] - // . - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-host1234.example.com", - // "sample-vm.us-west1-b.c.my-project.internal" - // - // [custom hostname]: https://cloud.google.com/compute/docs/instances/custom-hostname-vm - GCPGCEInstanceHostnameKey = attribute.Key("gcp.gce.instance.hostname") - - // GCPGCEInstanceNameKey is the attribute Key conforming to the - // "gcp.gce.instance.name" semantic conventions. It represents the instance name - // of a GCE instance. This is the value provided by `host.name`, the visible - // name of the instance in the Cloud Console UI, and the prefix for the default - // hostname of the instance as defined by the [default internal DNS name]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "instance-1", "my-vm-name" - // - // [default internal DNS name]: https://cloud.google.com/compute/docs/internal-dns#instance-fully-qualified-domain-names - GCPGCEInstanceNameKey = attribute.Key("gcp.gce.instance.name") -) - -// GCPAppHubApplicationContainer returns an attribute KeyValue conforming to the -// "gcp.apphub.application.container" semantic conventions. It represents the -// container within GCP where the AppHub application is defined. -func GCPAppHubApplicationContainer(val string) attribute.KeyValue { - return GCPAppHubApplicationContainerKey.String(val) -} - -// GCPAppHubApplicationID returns an attribute KeyValue conforming to the -// "gcp.apphub.application.id" semantic conventions. It represents the name of -// the application as configured in AppHub. -func GCPAppHubApplicationID(val string) attribute.KeyValue { - return GCPAppHubApplicationIDKey.String(val) -} - -// GCPAppHubApplicationLocation returns an attribute KeyValue conforming to the -// "gcp.apphub.application.location" semantic conventions. It represents the GCP -// zone or region where the application is defined. -func GCPAppHubApplicationLocation(val string) attribute.KeyValue { - return GCPAppHubApplicationLocationKey.String(val) -} - -// GCPAppHubServiceID returns an attribute KeyValue conforming to the -// "gcp.apphub.service.id" semantic conventions. It represents the name of the -// service as configured in AppHub. -func GCPAppHubServiceID(val string) attribute.KeyValue { - return GCPAppHubServiceIDKey.String(val) -} - -// GCPAppHubWorkloadID returns an attribute KeyValue conforming to the -// "gcp.apphub.workload.id" semantic conventions. It represents the name of the -// workload as configured in AppHub. -func GCPAppHubWorkloadID(val string) attribute.KeyValue { - return GCPAppHubWorkloadIDKey.String(val) -} - -// GCPAppHubDestinationApplicationContainer returns an attribute KeyValue -// conforming to the "gcp.apphub_destination.application.container" semantic -// conventions. It represents the container within GCP where the AppHub -// destination application is defined. -func GCPAppHubDestinationApplicationContainer(val string) attribute.KeyValue { - return GCPAppHubDestinationApplicationContainerKey.String(val) -} - -// GCPAppHubDestinationApplicationID returns an attribute KeyValue conforming to -// the "gcp.apphub_destination.application.id" semantic conventions. It -// represents the name of the destination application as configured in AppHub. -func GCPAppHubDestinationApplicationID(val string) attribute.KeyValue { - return GCPAppHubDestinationApplicationIDKey.String(val) -} - -// GCPAppHubDestinationApplicationLocation returns an attribute KeyValue -// conforming to the "gcp.apphub_destination.application.location" semantic -// conventions. It represents the GCP zone or region where the destination -// application is defined. -func GCPAppHubDestinationApplicationLocation(val string) attribute.KeyValue { - return GCPAppHubDestinationApplicationLocationKey.String(val) -} - -// GCPAppHubDestinationServiceID returns an attribute KeyValue conforming to the -// "gcp.apphub_destination.service.id" semantic conventions. It represents the -// name of the destination service as configured in AppHub. -func GCPAppHubDestinationServiceID(val string) attribute.KeyValue { - return GCPAppHubDestinationServiceIDKey.String(val) -} - -// GCPAppHubDestinationWorkloadID returns an attribute KeyValue conforming to the -// "gcp.apphub_destination.workload.id" semantic conventions. It represents the -// name of the destination workload as configured in AppHub. -func GCPAppHubDestinationWorkloadID(val string) attribute.KeyValue { - return GCPAppHubDestinationWorkloadIDKey.String(val) -} - -// GCPClientService returns an attribute KeyValue conforming to the -// "gcp.client.service" semantic conventions. It represents the identifies the -// Google Cloud service for which the official client library is intended. -func GCPClientService(val string) attribute.KeyValue { - return GCPClientServiceKey.String(val) -} - -// GCPCloudRunJobExecution returns an attribute KeyValue conforming to the -// "gcp.cloud_run.job.execution" semantic conventions. It represents the name of -// the Cloud Run [execution] being run for the Job, as set by the -// [`CLOUD_RUN_EXECUTION`] environment variable. -// -// [execution]: https://cloud.google.com/run/docs/managing/job-executions -// [`CLOUD_RUN_EXECUTION`]: https://cloud.google.com/run/docs/container-contract#jobs-env-vars -func GCPCloudRunJobExecution(val string) attribute.KeyValue { - return GCPCloudRunJobExecutionKey.String(val) -} - -// GCPCloudRunJobTaskIndex returns an attribute KeyValue conforming to the -// "gcp.cloud_run.job.task_index" semantic conventions. It represents the index -// for a task within an execution as provided by the [`CLOUD_RUN_TASK_INDEX`] -// environment variable. -// -// [`CLOUD_RUN_TASK_INDEX`]: https://cloud.google.com/run/docs/container-contract#jobs-env-vars -func GCPCloudRunJobTaskIndex(val int) attribute.KeyValue { - return GCPCloudRunJobTaskIndexKey.Int(val) -} - -// GCPGCEInstanceHostname returns an attribute KeyValue conforming to the -// "gcp.gce.instance.hostname" semantic conventions. It represents the hostname -// of a GCE instance. This is the full value of the default or [custom hostname] -// . -// -// [custom hostname]: https://cloud.google.com/compute/docs/instances/custom-hostname-vm -func GCPGCEInstanceHostname(val string) attribute.KeyValue { - return GCPGCEInstanceHostnameKey.String(val) -} - -// GCPGCEInstanceName returns an attribute KeyValue conforming to the -// "gcp.gce.instance.name" semantic conventions. It represents the instance name -// of a GCE instance. This is the value provided by `host.name`, the visible name -// of the instance in the Cloud Console UI, and the prefix for the default -// hostname of the instance as defined by the [default internal DNS name]. -// -// [default internal DNS name]: https://cloud.google.com/compute/docs/internal-dns#instance-fully-qualified-domain-names -func GCPGCEInstanceName(val string) attribute.KeyValue { - return GCPGCEInstanceNameKey.String(val) -} - -// Enum values for gcp.apphub.service.criticality_type -var ( - // Mission critical service. - // Stability: development - GCPAppHubServiceCriticalityTypeMissionCritical = GCPAppHubServiceCriticalityTypeKey.String("MISSION_CRITICAL") - // High impact. - // Stability: development - GCPAppHubServiceCriticalityTypeHigh = GCPAppHubServiceCriticalityTypeKey.String("HIGH") - // Medium impact. - // Stability: development - GCPAppHubServiceCriticalityTypeMedium = GCPAppHubServiceCriticalityTypeKey.String("MEDIUM") - // Low impact. - // Stability: development - GCPAppHubServiceCriticalityTypeLow = GCPAppHubServiceCriticalityTypeKey.String("LOW") -) - -// Enum values for gcp.apphub.service.environment_type -var ( - // Production environment. - // Stability: development - GCPAppHubServiceEnvironmentTypeProduction = GCPAppHubServiceEnvironmentTypeKey.String("PRODUCTION") - // Staging environment. - // Stability: development - GCPAppHubServiceEnvironmentTypeStaging = GCPAppHubServiceEnvironmentTypeKey.String("STAGING") - // Test environment. - // Stability: development - GCPAppHubServiceEnvironmentTypeTest = GCPAppHubServiceEnvironmentTypeKey.String("TEST") - // Development environment. - // Stability: development - GCPAppHubServiceEnvironmentTypeDevelopment = GCPAppHubServiceEnvironmentTypeKey.String("DEVELOPMENT") -) - -// Enum values for gcp.apphub.workload.criticality_type -var ( - // Mission critical service. - // Stability: development - GCPAppHubWorkloadCriticalityTypeMissionCritical = GCPAppHubWorkloadCriticalityTypeKey.String("MISSION_CRITICAL") - // High impact. - // Stability: development - GCPAppHubWorkloadCriticalityTypeHigh = GCPAppHubWorkloadCriticalityTypeKey.String("HIGH") - // Medium impact. - // Stability: development - GCPAppHubWorkloadCriticalityTypeMedium = GCPAppHubWorkloadCriticalityTypeKey.String("MEDIUM") - // Low impact. - // Stability: development - GCPAppHubWorkloadCriticalityTypeLow = GCPAppHubWorkloadCriticalityTypeKey.String("LOW") -) - -// Enum values for gcp.apphub.workload.environment_type -var ( - // Production environment. - // Stability: development - GCPAppHubWorkloadEnvironmentTypeProduction = GCPAppHubWorkloadEnvironmentTypeKey.String("PRODUCTION") - // Staging environment. - // Stability: development - GCPAppHubWorkloadEnvironmentTypeStaging = GCPAppHubWorkloadEnvironmentTypeKey.String("STAGING") - // Test environment. - // Stability: development - GCPAppHubWorkloadEnvironmentTypeTest = GCPAppHubWorkloadEnvironmentTypeKey.String("TEST") - // Development environment. - // Stability: development - GCPAppHubWorkloadEnvironmentTypeDevelopment = GCPAppHubWorkloadEnvironmentTypeKey.String("DEVELOPMENT") -) - -// Enum values for gcp.apphub_destination.service.criticality_type -var ( - // Mission critical service. - // Stability: development - GCPAppHubDestinationServiceCriticalityTypeMissionCritical = GCPAppHubDestinationServiceCriticalityTypeKey.String("MISSION_CRITICAL") - // High impact. - // Stability: development - GCPAppHubDestinationServiceCriticalityTypeHigh = GCPAppHubDestinationServiceCriticalityTypeKey.String("HIGH") - // Medium impact. - // Stability: development - GCPAppHubDestinationServiceCriticalityTypeMedium = GCPAppHubDestinationServiceCriticalityTypeKey.String("MEDIUM") - // Low impact. - // Stability: development - GCPAppHubDestinationServiceCriticalityTypeLow = GCPAppHubDestinationServiceCriticalityTypeKey.String("LOW") -) - -// Enum values for gcp.apphub_destination.service.environment_type -var ( - // Production environment. - // Stability: development - GCPAppHubDestinationServiceEnvironmentTypeProduction = GCPAppHubDestinationServiceEnvironmentTypeKey.String("PRODUCTION") - // Staging environment. - // Stability: development - GCPAppHubDestinationServiceEnvironmentTypeStaging = GCPAppHubDestinationServiceEnvironmentTypeKey.String("STAGING") - // Test environment. - // Stability: development - GCPAppHubDestinationServiceEnvironmentTypeTest = GCPAppHubDestinationServiceEnvironmentTypeKey.String("TEST") - // Development environment. - // Stability: development - GCPAppHubDestinationServiceEnvironmentTypeDevelopment = GCPAppHubDestinationServiceEnvironmentTypeKey.String("DEVELOPMENT") -) - -// Enum values for gcp.apphub_destination.workload.criticality_type -var ( - // Mission critical service. - // Stability: development - GCPAppHubDestinationWorkloadCriticalityTypeMissionCritical = GCPAppHubDestinationWorkloadCriticalityTypeKey.String("MISSION_CRITICAL") - // High impact. - // Stability: development - GCPAppHubDestinationWorkloadCriticalityTypeHigh = GCPAppHubDestinationWorkloadCriticalityTypeKey.String("HIGH") - // Medium impact. - // Stability: development - GCPAppHubDestinationWorkloadCriticalityTypeMedium = GCPAppHubDestinationWorkloadCriticalityTypeKey.String("MEDIUM") - // Low impact. - // Stability: development - GCPAppHubDestinationWorkloadCriticalityTypeLow = GCPAppHubDestinationWorkloadCriticalityTypeKey.String("LOW") -) - -// Enum values for gcp.apphub_destination.workload.environment_type -var ( - // Production environment. - // Stability: development - GCPAppHubDestinationWorkloadEnvironmentTypeProduction = GCPAppHubDestinationWorkloadEnvironmentTypeKey.String("PRODUCTION") - // Staging environment. - // Stability: development - GCPAppHubDestinationWorkloadEnvironmentTypeStaging = GCPAppHubDestinationWorkloadEnvironmentTypeKey.String("STAGING") - // Test environment. - // Stability: development - GCPAppHubDestinationWorkloadEnvironmentTypeTest = GCPAppHubDestinationWorkloadEnvironmentTypeKey.String("TEST") - // Development environment. - // Stability: development - GCPAppHubDestinationWorkloadEnvironmentTypeDevelopment = GCPAppHubDestinationWorkloadEnvironmentTypeKey.String("DEVELOPMENT") -) - -// Namespace: gen_ai -const ( - // GenAIAgentDescriptionKey is the attribute Key conforming to the - // "gen_ai.agent.description" semantic conventions. It represents the free-form - // description of the GenAI agent provided by the application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Helps with math problems", "Generates fiction stories" - GenAIAgentDescriptionKey = attribute.Key("gen_ai.agent.description") - - // GenAIAgentIDKey is the attribute Key conforming to the "gen_ai.agent.id" - // semantic conventions. It represents the unique identifier of the GenAI agent. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "asst_5j66UpCpwteGg4YSxUnt7lPY" - GenAIAgentIDKey = attribute.Key("gen_ai.agent.id") - - // GenAIAgentNameKey is the attribute Key conforming to the "gen_ai.agent.name" - // semantic conventions. It represents the human-readable name of the GenAI - // agent provided by the application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Math Tutor", "Fiction Writer" - GenAIAgentNameKey = attribute.Key("gen_ai.agent.name") - - // GenAIConversationIDKey is the attribute Key conforming to the - // "gen_ai.conversation.id" semantic conventions. It represents the unique - // identifier for a conversation (session, thread), used to store and correlate - // messages within this conversation. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "conv_5j66UpCpwteGg4YSxUnt7lPY" - GenAIConversationIDKey = attribute.Key("gen_ai.conversation.id") - - // GenAIDataSourceIDKey is the attribute Key conforming to the - // "gen_ai.data_source.id" semantic conventions. It represents the data source - // identifier. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "H7STPQYOND" - // Note: Data sources are used by AI agents and RAG applications to store - // grounding data. A data source may be an external database, object store, - // document collection, website, or any other storage system used by the GenAI - // agent or application. The `gen_ai.data_source.id` SHOULD match the identifier - // used by the GenAI system rather than a name specific to the external storage, - // such as a database or object store. Semantic conventions referencing - // `gen_ai.data_source.id` MAY also leverage additional attributes, such as - // `db.*`, to further identify and describe the data source. - GenAIDataSourceIDKey = attribute.Key("gen_ai.data_source.id") - - // GenAIEmbeddingsDimensionCountKey is the attribute Key conforming to the - // "gen_ai.embeddings.dimension.count" semantic conventions. It represents the - // number of dimensions the resulting output embeddings should have. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 512, 1024 - GenAIEmbeddingsDimensionCountKey = attribute.Key("gen_ai.embeddings.dimension.count") - - // GenAIEvaluationExplanationKey is the attribute Key conforming to the - // "gen_ai.evaluation.explanation" semantic conventions. It represents a - // free-form explanation for the assigned score provided by the evaluator. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "The response is factually accurate but lacks sufficient detail to - // fully address the question." - GenAIEvaluationExplanationKey = attribute.Key("gen_ai.evaluation.explanation") - - // GenAIEvaluationNameKey is the attribute Key conforming to the - // "gen_ai.evaluation.name" semantic conventions. It represents the name of the - // evaluation metric used for the GenAI response. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Relevance", "IntentResolution" - GenAIEvaluationNameKey = attribute.Key("gen_ai.evaluation.name") - - // GenAIEvaluationScoreLabelKey is the attribute Key conforming to the - // "gen_ai.evaluation.score.label" semantic conventions. It represents the human - // readable label for evaluation. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "relevant", "not_relevant", "correct", "incorrect", "pass", "fail" - // Note: This attribute provides a human-readable interpretation of the - // evaluation score produced by an evaluator. For example, a score value of 1 - // could mean "relevant" in one evaluation system and "not relevant" in another, - // depending on the scoring range and evaluator. The label SHOULD have low - // cardinality. Possible values depend on the evaluation metric and evaluator - // used; implementations SHOULD document the possible values. - GenAIEvaluationScoreLabelKey = attribute.Key("gen_ai.evaluation.score.label") - - // GenAIEvaluationScoreValueKey is the attribute Key conforming to the - // "gen_ai.evaluation.score.value" semantic conventions. It represents the - // evaluation score returned by the evaluator. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 4.0 - GenAIEvaluationScoreValueKey = attribute.Key("gen_ai.evaluation.score.value") - - // GenAIInputMessagesKey is the attribute Key conforming to the - // "gen_ai.input.messages" semantic conventions. It represents the chat history - // provided to the model as an input. - // - // Type: any - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "[\n {\n "role": "user",\n "parts": [\n {\n "type": "text",\n - // "content": "Weather in Paris?"\n }\n ]\n },\n {\n "role": "assistant",\n - // "parts": [\n {\n "type": "tool_call",\n "id": - // "call_VSPygqKTWdrhaFErNvMV18Yl",\n "name": "get_weather",\n "arguments": {\n - // "location": "Paris"\n }\n }\n ]\n },\n {\n "role": "tool",\n "parts": [\n {\n - // "type": "tool_call_response",\n "id": " call_VSPygqKTWdrhaFErNvMV18Yl",\n - // "result": "rainy, 57°F"\n }\n ]\n }\n]\n" - // Note: Instrumentations MUST follow [Input messages JSON schema]. - // When the attribute is recorded on events, it MUST be recorded in structured - // form. When recorded on spans, it MAY be recorded as a JSON string if - // structured - // format is not supported and SHOULD be recorded in structured form otherwise. - // - // Messages MUST be provided in the order they were sent to the model. - // Instrumentations MAY provide a way for users to filter or truncate - // input messages. - // - // > [!Warning] - // > This attribute is likely to contain sensitive information including - // > user/PII data. - // - // See [Recording content on attributes] - // section for more details. - // - // [Input messages JSON schema]: /docs/gen-ai/gen-ai-input-messages.json - // [Recording content on attributes]: /docs/gen-ai/gen-ai-spans.md#recording-content-on-attributes - GenAIInputMessagesKey = attribute.Key("gen_ai.input.messages") - - // GenAIOperationNameKey is the attribute Key conforming to the - // "gen_ai.operation.name" semantic conventions. It represents the name of the - // operation being performed. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: If one of the predefined values applies, but specific system uses a - // different name it's RECOMMENDED to document it in the semantic conventions - // for specific GenAI system and use system-specific name in the - // instrumentation. If a different name is not documented, instrumentation - // libraries SHOULD use applicable predefined value. - GenAIOperationNameKey = attribute.Key("gen_ai.operation.name") - - // GenAIOutputMessagesKey is the attribute Key conforming to the - // "gen_ai.output.messages" semantic conventions. It represents the messages - // returned by the model where each message represents a specific model response - // (choice, candidate). - // - // Type: any - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "[\n {\n "role": "assistant",\n "parts": [\n {\n "type": "text",\n - // "content": "The weather in Paris is currently rainy with a temperature of - // 57°F."\n }\n ],\n "finish_reason": "stop"\n }\n]\n" - // Note: Instrumentations MUST follow [Output messages JSON schema] - // - // Each message represents a single output choice/candidate generated by - // the model. Each message corresponds to exactly one generation - // (choice/candidate) and vice versa - one choice cannot be split across - // multiple messages or one message cannot contain parts from multiple choices. - // - // When the attribute is recorded on events, it MUST be recorded in structured - // form. When recorded on spans, it MAY be recorded as a JSON string if - // structured - // format is not supported and SHOULD be recorded in structured form otherwise. - // - // Instrumentations MAY provide a way for users to filter or truncate - // output messages. - // - // > [!Warning] - // > This attribute is likely to contain sensitive information including - // > user/PII data. - // - // See [Recording content on attributes] - // section for more details. - // - // [Output messages JSON schema]: /docs/gen-ai/gen-ai-output-messages.json - // [Recording content on attributes]: /docs/gen-ai/gen-ai-spans.md#recording-content-on-attributes - GenAIOutputMessagesKey = attribute.Key("gen_ai.output.messages") - - // GenAIOutputTypeKey is the attribute Key conforming to the - // "gen_ai.output.type" semantic conventions. It represents the represents the - // content type requested by the client. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: This attribute SHOULD be used when the client requests output of a - // specific type. The model may return zero or more outputs of this type. - // This attribute specifies the output modality and not the actual output - // format. For example, if an image is requested, the actual output could be a - // URL pointing to an image file. - // Additional output format details may be recorded in the future in the - // `gen_ai.output.{type}.*` attributes. - GenAIOutputTypeKey = attribute.Key("gen_ai.output.type") - - // GenAIPromptNameKey is the attribute Key conforming to the - // "gen_ai.prompt.name" semantic conventions. It represents the name of the - // prompt that uniquely identifies it. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "analyze-code" - GenAIPromptNameKey = attribute.Key("gen_ai.prompt.name") - - // GenAIProviderNameKey is the attribute Key conforming to the - // "gen_ai.provider.name" semantic conventions. It represents the Generative AI - // provider as identified by the client or server instrumentation. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: The attribute SHOULD be set based on the instrumentation's best - // knowledge and may differ from the actual model provider. - // - // Multiple providers, including Azure OpenAI, Gemini, and AI hosting platforms - // are accessible using the OpenAI REST API and corresponding client libraries, - // but may proxy or host models from different providers. - // - // The `gen_ai.request.model`, `gen_ai.response.model`, and `server.address` - // attributes may help identify the actual system in use. - // - // The `gen_ai.provider.name` attribute acts as a discriminator that - // identifies the GenAI telemetry format flavor specific to that provider - // within GenAI semantic conventions. - // It SHOULD be set consistently with provider-specific attributes and signals. - // For example, GenAI spans, metrics, and events related to AWS Bedrock - // should have the `gen_ai.provider.name` set to `aws.bedrock` and include - // applicable `aws.bedrock.*` attributes and are not expected to include - // `openai.*` attributes. - GenAIProviderNameKey = attribute.Key("gen_ai.provider.name") - - // GenAIRequestChoiceCountKey is the attribute Key conforming to the - // "gen_ai.request.choice.count" semantic conventions. It represents the target - // number of candidate completions to return. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 3 - GenAIRequestChoiceCountKey = attribute.Key("gen_ai.request.choice.count") - - // GenAIRequestEncodingFormatsKey is the attribute Key conforming to the - // "gen_ai.request.encoding_formats" semantic conventions. It represents the - // encoding formats requested in an embeddings operation, if specified. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "base64"], ["float", "binary" - // Note: In some GenAI systems the encoding formats are called embedding types. - // Also, some GenAI systems only accept a single format per request. - GenAIRequestEncodingFormatsKey = attribute.Key("gen_ai.request.encoding_formats") - - // GenAIRequestFrequencyPenaltyKey is the attribute Key conforming to the - // "gen_ai.request.frequency_penalty" semantic conventions. It represents the - // frequency penalty setting for the GenAI request. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0.1 - GenAIRequestFrequencyPenaltyKey = attribute.Key("gen_ai.request.frequency_penalty") - - // GenAIRequestMaxTokensKey is the attribute Key conforming to the - // "gen_ai.request.max_tokens" semantic conventions. It represents the maximum - // number of tokens the model generates for a request. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 100 - GenAIRequestMaxTokensKey = attribute.Key("gen_ai.request.max_tokens") - - // GenAIRequestModelKey is the attribute Key conforming to the - // "gen_ai.request.model" semantic conventions. It represents the name of the - // GenAI model a request is being made to. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: gpt-4 - GenAIRequestModelKey = attribute.Key("gen_ai.request.model") - - // GenAIRequestPresencePenaltyKey is the attribute Key conforming to the - // "gen_ai.request.presence_penalty" semantic conventions. It represents the - // presence penalty setting for the GenAI request. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0.1 - GenAIRequestPresencePenaltyKey = attribute.Key("gen_ai.request.presence_penalty") - - // GenAIRequestSeedKey is the attribute Key conforming to the - // "gen_ai.request.seed" semantic conventions. It represents the requests with - // same seed value more likely to return same result. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 100 - GenAIRequestSeedKey = attribute.Key("gen_ai.request.seed") - - // GenAIRequestStopSequencesKey is the attribute Key conforming to the - // "gen_ai.request.stop_sequences" semantic conventions. It represents the list - // of sequences that the model will use to stop generating further tokens. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "forest", "lived" - GenAIRequestStopSequencesKey = attribute.Key("gen_ai.request.stop_sequences") - - // GenAIRequestTemperatureKey is the attribute Key conforming to the - // "gen_ai.request.temperature" semantic conventions. It represents the - // temperature setting for the GenAI request. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0.0 - GenAIRequestTemperatureKey = attribute.Key("gen_ai.request.temperature") - - // GenAIRequestTopKKey is the attribute Key conforming to the - // "gen_ai.request.top_k" semantic conventions. It represents the top_k sampling - // setting for the GenAI request. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1.0 - GenAIRequestTopKKey = attribute.Key("gen_ai.request.top_k") - - // GenAIRequestTopPKey is the attribute Key conforming to the - // "gen_ai.request.top_p" semantic conventions. It represents the top_p sampling - // setting for the GenAI request. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1.0 - GenAIRequestTopPKey = attribute.Key("gen_ai.request.top_p") - - // GenAIResponseFinishReasonsKey is the attribute Key conforming to the - // "gen_ai.response.finish_reasons" semantic conventions. It represents the - // array of reasons the model stopped generating tokens, corresponding to each - // generation received. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "stop"], ["stop", "length" - GenAIResponseFinishReasonsKey = attribute.Key("gen_ai.response.finish_reasons") - - // GenAIResponseIDKey is the attribute Key conforming to the - // "gen_ai.response.id" semantic conventions. It represents the unique - // identifier for the completion. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "chatcmpl-123" - GenAIResponseIDKey = attribute.Key("gen_ai.response.id") - - // GenAIResponseModelKey is the attribute Key conforming to the - // "gen_ai.response.model" semantic conventions. It represents the name of the - // model that generated the response. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "gpt-4-0613" - GenAIResponseModelKey = attribute.Key("gen_ai.response.model") - - // GenAISystemInstructionsKey is the attribute Key conforming to the - // "gen_ai.system_instructions" semantic conventions. It represents the system - // message or instructions provided to the GenAI model separately from the chat - // history. - // - // Type: any - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "[\n {\n "type": "text",\n "content": "You are an Agent that greet - // users, always use greetings tool to respond"\n }\n]\n", "[\n {\n "type": - // "text",\n "content": "You are a language translator."\n },\n {\n "type": - // "text",\n "content": "Your mission is to translate text in English to - // French."\n }\n]\n" - // Note: This attribute SHOULD be used when the corresponding provider or API - // allows to provide system instructions or messages separately from the - // chat history. - // - // Instructions that are part of the chat history SHOULD be recorded in - // `gen_ai.input.messages` attribute instead. - // - // Instrumentations MUST follow [System instructions JSON schema]. - // - // When recorded on spans, it MAY be recorded as a JSON string if structured - // format is not supported and SHOULD be recorded in structured form otherwise. - // - // Instrumentations MAY provide a way for users to filter or truncate - // system instructions. - // - // > [!Warning] - // > This attribute may contain sensitive information. - // - // See [Recording content on attributes] - // section for more details. - // - // [System instructions JSON schema]: /docs/gen-ai/gen-ai-system-instructions.json - // [Recording content on attributes]: /docs/gen-ai/gen-ai-spans.md#recording-content-on-attributes - GenAISystemInstructionsKey = attribute.Key("gen_ai.system_instructions") - - // GenAITokenTypeKey is the attribute Key conforming to the "gen_ai.token.type" - // semantic conventions. It represents the type of token being counted. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "input", "output" - GenAITokenTypeKey = attribute.Key("gen_ai.token.type") - - // GenAIToolCallArgumentsKey is the attribute Key conforming to the - // "gen_ai.tool.call.arguments" semantic conventions. It represents the - // parameters passed to the tool call. - // - // Type: any - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{\n "location": "San Francisco?",\n "date": "2025-10-01"\n}\n" - // Note: > [!WARNING] - // - // > This attribute may contain sensitive information. - // - // It's expected to be an object - in case a serialized string is available - // to the instrumentation, the instrumentation SHOULD do the best effort to - // deserialize it to an object. When recorded on spans, it MAY be recorded as a - // JSON string if structured format is not supported and SHOULD be recorded in - // structured form otherwise. - GenAIToolCallArgumentsKey = attribute.Key("gen_ai.tool.call.arguments") - - // GenAIToolCallIDKey is the attribute Key conforming to the - // "gen_ai.tool.call.id" semantic conventions. It represents the tool call - // identifier. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "call_mszuSIzqtI65i1wAUOE8w5H4" - GenAIToolCallIDKey = attribute.Key("gen_ai.tool.call.id") - - // GenAIToolCallResultKey is the attribute Key conforming to the - // "gen_ai.tool.call.result" semantic conventions. It represents the result - // returned by the tool call (if any and if execution was successful). - // - // Type: any - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "{\n "temperature_range": {\n "high": 75,\n "low": 60\n },\n - // "conditions": "sunny"\n}\n" - // Note: > [!WARNING] - // - // > This attribute may contain sensitive information. - // - // It's expected to be an object - in case a serialized string is available - // to the instrumentation, the instrumentation SHOULD do the best effort to - // deserialize it to an object. When recorded on spans, it MAY be recorded as a - // JSON string if structured format is not supported and SHOULD be recorded in - // structured form otherwise. - GenAIToolCallResultKey = attribute.Key("gen_ai.tool.call.result") - - // GenAIToolDefinitionsKey is the attribute Key conforming to the - // "gen_ai.tool.definitions" semantic conventions. It represents the list of - // source system tool definitions available to the GenAI agent or model. - // - // Type: any - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "[\n {\n "type": "function",\n "name": "get_current_weather",\n - // "description": "Get the current weather in a given location",\n "parameters": - // {\n "type": "object",\n "properties": {\n "location": {\n "type": "string",\n - // "description": "The city and state, e.g. San Francisco, CA"\n },\n "unit": - // {\n "type": "string",\n "enum": [\n "celsius",\n "fahrenheit"\n ]\n }\n },\n - // "required": [\n "location",\n "unit"\n ]\n }\n }\n]\n" - // Note: The value of this attribute matches source system tool definition - // format. - // - // It's expected to be an array of objects where each object represents a tool - // definition. In case a serialized string is available - // to the instrumentation, the instrumentation SHOULD do the best effort to - // deserialize it to an array. When recorded on spans, it MAY be recorded as a - // JSON string if structured format is not supported and SHOULD be recorded in - // structured form otherwise. - // - // Since this attribute could be large, it's NOT RECOMMENDED to populate - // it by default. Instrumentations MAY provide a way to enable - // populating this attribute. - GenAIToolDefinitionsKey = attribute.Key("gen_ai.tool.definitions") - - // GenAIToolDescriptionKey is the attribute Key conforming to the - // "gen_ai.tool.description" semantic conventions. It represents the tool - // description. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Multiply two numbers" - GenAIToolDescriptionKey = attribute.Key("gen_ai.tool.description") - - // GenAIToolNameKey is the attribute Key conforming to the "gen_ai.tool.name" - // semantic conventions. It represents the name of the tool utilized by the - // agent. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Flights" - GenAIToolNameKey = attribute.Key("gen_ai.tool.name") - - // GenAIToolTypeKey is the attribute Key conforming to the "gen_ai.tool.type" - // semantic conventions. It represents the type of the tool utilized by the - // agent. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "function", "extension", "datastore" - // Note: Extension: A tool executed on the agent-side to directly call external - // APIs, bridging the gap between the agent and real-world systems. - // Agent-side operations involve actions that are performed by the agent on the - // server or within the agent's controlled environment. - // Function: A tool executed on the client-side, where the agent generates - // parameters for a predefined function, and the client executes the logic. - // Client-side operations are actions taken on the user's end or within the - // client application. - // Datastore: A tool used by the agent to access and query structured or - // unstructured external data for retrieval-augmented tasks or knowledge - // updates. - GenAIToolTypeKey = attribute.Key("gen_ai.tool.type") - - // GenAIUsageInputTokensKey is the attribute Key conforming to the - // "gen_ai.usage.input_tokens" semantic conventions. It represents the number of - // tokens used in the GenAI input (prompt). - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 100 - GenAIUsageInputTokensKey = attribute.Key("gen_ai.usage.input_tokens") - - // GenAIUsageOutputTokensKey is the attribute Key conforming to the - // "gen_ai.usage.output_tokens" semantic conventions. It represents the number - // of tokens used in the GenAI response (completion). - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 180 - GenAIUsageOutputTokensKey = attribute.Key("gen_ai.usage.output_tokens") -) - -// GenAIAgentDescription returns an attribute KeyValue conforming to the -// "gen_ai.agent.description" semantic conventions. It represents the free-form -// description of the GenAI agent provided by the application. -func GenAIAgentDescription(val string) attribute.KeyValue { - return GenAIAgentDescriptionKey.String(val) -} - -// GenAIAgentID returns an attribute KeyValue conforming to the "gen_ai.agent.id" -// semantic conventions. It represents the unique identifier of the GenAI agent. -func GenAIAgentID(val string) attribute.KeyValue { - return GenAIAgentIDKey.String(val) -} - -// GenAIAgentName returns an attribute KeyValue conforming to the -// "gen_ai.agent.name" semantic conventions. It represents the human-readable -// name of the GenAI agent provided by the application. -func GenAIAgentName(val string) attribute.KeyValue { - return GenAIAgentNameKey.String(val) -} - -// GenAIConversationID returns an attribute KeyValue conforming to the -// "gen_ai.conversation.id" semantic conventions. It represents the unique -// identifier for a conversation (session, thread), used to store and correlate -// messages within this conversation. -func GenAIConversationID(val string) attribute.KeyValue { - return GenAIConversationIDKey.String(val) -} - -// GenAIDataSourceID returns an attribute KeyValue conforming to the -// "gen_ai.data_source.id" semantic conventions. It represents the data source -// identifier. -func GenAIDataSourceID(val string) attribute.KeyValue { - return GenAIDataSourceIDKey.String(val) -} - -// GenAIEmbeddingsDimensionCount returns an attribute KeyValue conforming to the -// "gen_ai.embeddings.dimension.count" semantic conventions. It represents the -// number of dimensions the resulting output embeddings should have. -func GenAIEmbeddingsDimensionCount(val int) attribute.KeyValue { - return GenAIEmbeddingsDimensionCountKey.Int(val) -} - -// GenAIEvaluationExplanation returns an attribute KeyValue conforming to the -// "gen_ai.evaluation.explanation" semantic conventions. It represents a -// free-form explanation for the assigned score provided by the evaluator. -func GenAIEvaluationExplanation(val string) attribute.KeyValue { - return GenAIEvaluationExplanationKey.String(val) -} - -// GenAIEvaluationName returns an attribute KeyValue conforming to the -// "gen_ai.evaluation.name" semantic conventions. It represents the name of the -// evaluation metric used for the GenAI response. -func GenAIEvaluationName(val string) attribute.KeyValue { - return GenAIEvaluationNameKey.String(val) -} - -// GenAIEvaluationScoreLabel returns an attribute KeyValue conforming to the -// "gen_ai.evaluation.score.label" semantic conventions. It represents the human -// readable label for evaluation. -func GenAIEvaluationScoreLabel(val string) attribute.KeyValue { - return GenAIEvaluationScoreLabelKey.String(val) -} - -// GenAIEvaluationScoreValue returns an attribute KeyValue conforming to the -// "gen_ai.evaluation.score.value" semantic conventions. It represents the -// evaluation score returned by the evaluator. -func GenAIEvaluationScoreValue(val float64) attribute.KeyValue { - return GenAIEvaluationScoreValueKey.Float64(val) -} - -// GenAIPromptName returns an attribute KeyValue conforming to the -// "gen_ai.prompt.name" semantic conventions. It represents the name of the -// prompt that uniquely identifies it. -func GenAIPromptName(val string) attribute.KeyValue { - return GenAIPromptNameKey.String(val) -} - -// GenAIRequestChoiceCount returns an attribute KeyValue conforming to the -// "gen_ai.request.choice.count" semantic conventions. It represents the target -// number of candidate completions to return. -func GenAIRequestChoiceCount(val int) attribute.KeyValue { - return GenAIRequestChoiceCountKey.Int(val) -} - -// GenAIRequestEncodingFormats returns an attribute KeyValue conforming to the -// "gen_ai.request.encoding_formats" semantic conventions. It represents the -// encoding formats requested in an embeddings operation, if specified. -func GenAIRequestEncodingFormats(val ...string) attribute.KeyValue { - return GenAIRequestEncodingFormatsKey.StringSlice(val) -} - -// GenAIRequestFrequencyPenalty returns an attribute KeyValue conforming to the -// "gen_ai.request.frequency_penalty" semantic conventions. It represents the -// frequency penalty setting for the GenAI request. -func GenAIRequestFrequencyPenalty(val float64) attribute.KeyValue { - return GenAIRequestFrequencyPenaltyKey.Float64(val) -} - -// GenAIRequestMaxTokens returns an attribute KeyValue conforming to the -// "gen_ai.request.max_tokens" semantic conventions. It represents the maximum -// number of tokens the model generates for a request. -func GenAIRequestMaxTokens(val int) attribute.KeyValue { - return GenAIRequestMaxTokensKey.Int(val) -} - -// GenAIRequestModel returns an attribute KeyValue conforming to the -// "gen_ai.request.model" semantic conventions. It represents the name of the -// GenAI model a request is being made to. -func GenAIRequestModel(val string) attribute.KeyValue { - return GenAIRequestModelKey.String(val) -} - -// GenAIRequestPresencePenalty returns an attribute KeyValue conforming to the -// "gen_ai.request.presence_penalty" semantic conventions. It represents the -// presence penalty setting for the GenAI request. -func GenAIRequestPresencePenalty(val float64) attribute.KeyValue { - return GenAIRequestPresencePenaltyKey.Float64(val) -} - -// GenAIRequestSeed returns an attribute KeyValue conforming to the -// "gen_ai.request.seed" semantic conventions. It represents the requests with -// same seed value more likely to return same result. -func GenAIRequestSeed(val int) attribute.KeyValue { - return GenAIRequestSeedKey.Int(val) -} - -// GenAIRequestStopSequences returns an attribute KeyValue conforming to the -// "gen_ai.request.stop_sequences" semantic conventions. It represents the list -// of sequences that the model will use to stop generating further tokens. -func GenAIRequestStopSequences(val ...string) attribute.KeyValue { - return GenAIRequestStopSequencesKey.StringSlice(val) -} - -// GenAIRequestTemperature returns an attribute KeyValue conforming to the -// "gen_ai.request.temperature" semantic conventions. It represents the -// temperature setting for the GenAI request. -func GenAIRequestTemperature(val float64) attribute.KeyValue { - return GenAIRequestTemperatureKey.Float64(val) -} - -// GenAIRequestTopK returns an attribute KeyValue conforming to the -// "gen_ai.request.top_k" semantic conventions. It represents the top_k sampling -// setting for the GenAI request. -func GenAIRequestTopK(val float64) attribute.KeyValue { - return GenAIRequestTopKKey.Float64(val) -} - -// GenAIRequestTopP returns an attribute KeyValue conforming to the -// "gen_ai.request.top_p" semantic conventions. It represents the top_p sampling -// setting for the GenAI request. -func GenAIRequestTopP(val float64) attribute.KeyValue { - return GenAIRequestTopPKey.Float64(val) -} - -// GenAIResponseFinishReasons returns an attribute KeyValue conforming to the -// "gen_ai.response.finish_reasons" semantic conventions. It represents the array -// of reasons the model stopped generating tokens, corresponding to each -// generation received. -func GenAIResponseFinishReasons(val ...string) attribute.KeyValue { - return GenAIResponseFinishReasonsKey.StringSlice(val) -} - -// GenAIResponseID returns an attribute KeyValue conforming to the -// "gen_ai.response.id" semantic conventions. It represents the unique identifier -// for the completion. -func GenAIResponseID(val string) attribute.KeyValue { - return GenAIResponseIDKey.String(val) -} - -// GenAIResponseModel returns an attribute KeyValue conforming to the -// "gen_ai.response.model" semantic conventions. It represents the name of the -// model that generated the response. -func GenAIResponseModel(val string) attribute.KeyValue { - return GenAIResponseModelKey.String(val) -} - -// GenAIToolCallID returns an attribute KeyValue conforming to the -// "gen_ai.tool.call.id" semantic conventions. It represents the tool call -// identifier. -func GenAIToolCallID(val string) attribute.KeyValue { - return GenAIToolCallIDKey.String(val) -} - -// GenAIToolDescription returns an attribute KeyValue conforming to the -// "gen_ai.tool.description" semantic conventions. It represents the tool -// description. -func GenAIToolDescription(val string) attribute.KeyValue { - return GenAIToolDescriptionKey.String(val) -} - -// GenAIToolName returns an attribute KeyValue conforming to the -// "gen_ai.tool.name" semantic conventions. It represents the name of the tool -// utilized by the agent. -func GenAIToolName(val string) attribute.KeyValue { - return GenAIToolNameKey.String(val) -} - -// GenAIToolType returns an attribute KeyValue conforming to the -// "gen_ai.tool.type" semantic conventions. It represents the type of the tool -// utilized by the agent. -func GenAIToolType(val string) attribute.KeyValue { - return GenAIToolTypeKey.String(val) -} - -// GenAIUsageInputTokens returns an attribute KeyValue conforming to the -// "gen_ai.usage.input_tokens" semantic conventions. It represents the number of -// tokens used in the GenAI input (prompt). -func GenAIUsageInputTokens(val int) attribute.KeyValue { - return GenAIUsageInputTokensKey.Int(val) -} - -// GenAIUsageOutputTokens returns an attribute KeyValue conforming to the -// "gen_ai.usage.output_tokens" semantic conventions. It represents the number of -// tokens used in the GenAI response (completion). -func GenAIUsageOutputTokens(val int) attribute.KeyValue { - return GenAIUsageOutputTokensKey.Int(val) -} - -// Enum values for gen_ai.operation.name -var ( - // Chat completion operation such as [OpenAI Chat API] - // Stability: development - // - // [OpenAI Chat API]: https://platform.openai.com/docs/api-reference/chat - GenAIOperationNameChat = GenAIOperationNameKey.String("chat") - // Multimodal content generation operation such as [Gemini Generate Content] - // Stability: development - // - // [Gemini Generate Content]: https://ai.google.dev/api/generate-content - GenAIOperationNameGenerateContent = GenAIOperationNameKey.String("generate_content") - // Text completions operation such as [OpenAI Completions API (Legacy)] - // Stability: development - // - // [OpenAI Completions API (Legacy)]: https://platform.openai.com/docs/api-reference/completions - GenAIOperationNameTextCompletion = GenAIOperationNameKey.String("text_completion") - // Embeddings operation such as [OpenAI Create embeddings API] - // Stability: development - // - // [OpenAI Create embeddings API]: https://platform.openai.com/docs/api-reference/embeddings/create - GenAIOperationNameEmbeddings = GenAIOperationNameKey.String("embeddings") - // Create GenAI agent - // Stability: development - GenAIOperationNameCreateAgent = GenAIOperationNameKey.String("create_agent") - // Invoke GenAI agent - // Stability: development - GenAIOperationNameInvokeAgent = GenAIOperationNameKey.String("invoke_agent") - // Execute a tool - // Stability: development - GenAIOperationNameExecuteTool = GenAIOperationNameKey.String("execute_tool") -) - -// Enum values for gen_ai.output.type -var ( - // Plain text - // Stability: development - GenAIOutputTypeText = GenAIOutputTypeKey.String("text") - // JSON object with known or unknown schema - // Stability: development - GenAIOutputTypeJSON = GenAIOutputTypeKey.String("json") - // Image - // Stability: development - GenAIOutputTypeImage = GenAIOutputTypeKey.String("image") - // Speech - // Stability: development - GenAIOutputTypeSpeech = GenAIOutputTypeKey.String("speech") -) - -// Enum values for gen_ai.provider.name -var ( - // [OpenAI] - // Stability: development - // - // [OpenAI]: https://openai.com/ - GenAIProviderNameOpenAI = GenAIProviderNameKey.String("openai") - // Any Google generative AI endpoint - // Stability: development - GenAIProviderNameGCPGenAI = GenAIProviderNameKey.String("gcp.gen_ai") - // [Vertex AI] - // Stability: development - // - // [Vertex AI]: https://cloud.google.com/vertex-ai - GenAIProviderNameGCPVertexAI = GenAIProviderNameKey.String("gcp.vertex_ai") - // [Gemini] - // Stability: development - // - // [Gemini]: https://cloud.google.com/products/gemini - GenAIProviderNameGCPGemini = GenAIProviderNameKey.String("gcp.gemini") - // [Anthropic] - // Stability: development - // - // [Anthropic]: https://www.anthropic.com/ - GenAIProviderNameAnthropic = GenAIProviderNameKey.String("anthropic") - // [Cohere] - // Stability: development - // - // [Cohere]: https://cohere.com/ - GenAIProviderNameCohere = GenAIProviderNameKey.String("cohere") - // Azure AI Inference - // Stability: development - GenAIProviderNameAzureAIInference = GenAIProviderNameKey.String("azure.ai.inference") - // [Azure OpenAI] - // Stability: development - // - // [Azure OpenAI]: https://azure.microsoft.com/products/ai-services/openai-service/ - GenAIProviderNameAzureAIOpenAI = GenAIProviderNameKey.String("azure.ai.openai") - // [IBM Watsonx AI] - // Stability: development - // - // [IBM Watsonx AI]: https://www.ibm.com/products/watsonx-ai - GenAIProviderNameIBMWatsonxAI = GenAIProviderNameKey.String("ibm.watsonx.ai") - // [AWS Bedrock] - // Stability: development - // - // [AWS Bedrock]: https://aws.amazon.com/bedrock - GenAIProviderNameAWSBedrock = GenAIProviderNameKey.String("aws.bedrock") - // [Perplexity] - // Stability: development - // - // [Perplexity]: https://www.perplexity.ai/ - GenAIProviderNamePerplexity = GenAIProviderNameKey.String("perplexity") - // [xAI] - // Stability: development - // - // [xAI]: https://x.ai/ - GenAIProviderNameXAI = GenAIProviderNameKey.String("x_ai") - // [DeepSeek] - // Stability: development - // - // [DeepSeek]: https://www.deepseek.com/ - GenAIProviderNameDeepseek = GenAIProviderNameKey.String("deepseek") - // [Groq] - // Stability: development - // - // [Groq]: https://groq.com/ - GenAIProviderNameGroq = GenAIProviderNameKey.String("groq") - // [Mistral AI] - // Stability: development - // - // [Mistral AI]: https://mistral.ai/ - GenAIProviderNameMistralAI = GenAIProviderNameKey.String("mistral_ai") -) - -// Enum values for gen_ai.token.type -var ( - // Input tokens (prompt, input, etc.) - // Stability: development - GenAITokenTypeInput = GenAITokenTypeKey.String("input") - // Output tokens (completion, response, etc.) - // Stability: development - GenAITokenTypeOutput = GenAITokenTypeKey.String("output") -) - -// Namespace: geo -const ( - // GeoContinentCodeKey is the attribute Key conforming to the - // "geo.continent.code" semantic conventions. It represents the two-letter code - // representing continent’s name. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - GeoContinentCodeKey = attribute.Key("geo.continent.code") - - // GeoCountryISOCodeKey is the attribute Key conforming to the - // "geo.country.iso_code" semantic conventions. It represents the two-letter ISO - // Country Code ([ISO 3166-1 alpha2]). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "CA" - // - // [ISO 3166-1 alpha2]: https://wikipedia.org/wiki/ISO_3166-1#Codes - GeoCountryISOCodeKey = attribute.Key("geo.country.iso_code") - - // GeoLocalityNameKey is the attribute Key conforming to the "geo.locality.name" - // semantic conventions. It represents the locality name. Represents the name of - // a city, town, village, or similar populated place. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Montreal", "Berlin" - GeoLocalityNameKey = attribute.Key("geo.locality.name") - - // GeoLocationLatKey is the attribute Key conforming to the "geo.location.lat" - // semantic conventions. It represents the latitude of the geo location in - // [WGS84]. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 45.505918 - // - // [WGS84]: https://wikipedia.org/wiki/World_Geodetic_System#WGS84 - GeoLocationLatKey = attribute.Key("geo.location.lat") - - // GeoLocationLonKey is the attribute Key conforming to the "geo.location.lon" - // semantic conventions. It represents the longitude of the geo location in - // [WGS84]. - // - // Type: double - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: -73.61483 - // - // [WGS84]: https://wikipedia.org/wiki/World_Geodetic_System#WGS84 - GeoLocationLonKey = attribute.Key("geo.location.lon") - - // GeoPostalCodeKey is the attribute Key conforming to the "geo.postal_code" - // semantic conventions. It represents the postal code associated with the - // location. Values appropriate for this field may also be known as a postcode - // or ZIP code and will vary widely from country to country. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "94040" - GeoPostalCodeKey = attribute.Key("geo.postal_code") - - // GeoRegionISOCodeKey is the attribute Key conforming to the - // "geo.region.iso_code" semantic conventions. It represents the region ISO code - // ([ISO 3166-2]). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "CA-QC" - // - // [ISO 3166-2]: https://wikipedia.org/wiki/ISO_3166-2 - GeoRegionISOCodeKey = attribute.Key("geo.region.iso_code") -) - -// GeoCountryISOCode returns an attribute KeyValue conforming to the -// "geo.country.iso_code" semantic conventions. It represents the two-letter ISO -// Country Code ([ISO 3166-1 alpha2]). -// -// [ISO 3166-1 alpha2]: https://wikipedia.org/wiki/ISO_3166-1#Codes -func GeoCountryISOCode(val string) attribute.KeyValue { - return GeoCountryISOCodeKey.String(val) -} - -// GeoLocalityName returns an attribute KeyValue conforming to the -// "geo.locality.name" semantic conventions. It represents the locality name. -// Represents the name of a city, town, village, or similar populated place. -func GeoLocalityName(val string) attribute.KeyValue { - return GeoLocalityNameKey.String(val) -} - -// GeoLocationLat returns an attribute KeyValue conforming to the -// "geo.location.lat" semantic conventions. It represents the latitude of the geo -// location in [WGS84]. -// -// [WGS84]: https://wikipedia.org/wiki/World_Geodetic_System#WGS84 -func GeoLocationLat(val float64) attribute.KeyValue { - return GeoLocationLatKey.Float64(val) -} - -// GeoLocationLon returns an attribute KeyValue conforming to the -// "geo.location.lon" semantic conventions. It represents the longitude of the -// geo location in [WGS84]. -// -// [WGS84]: https://wikipedia.org/wiki/World_Geodetic_System#WGS84 -func GeoLocationLon(val float64) attribute.KeyValue { - return GeoLocationLonKey.Float64(val) -} - -// GeoPostalCode returns an attribute KeyValue conforming to the -// "geo.postal_code" semantic conventions. It represents the postal code -// associated with the location. Values appropriate for this field may also be -// known as a postcode or ZIP code and will vary widely from country to country. -func GeoPostalCode(val string) attribute.KeyValue { - return GeoPostalCodeKey.String(val) -} - -// GeoRegionISOCode returns an attribute KeyValue conforming to the -// "geo.region.iso_code" semantic conventions. It represents the region ISO code -// ([ISO 3166-2]). -// -// [ISO 3166-2]: https://wikipedia.org/wiki/ISO_3166-2 -func GeoRegionISOCode(val string) attribute.KeyValue { - return GeoRegionISOCodeKey.String(val) -} - -// Enum values for geo.continent.code -var ( - // Africa - // Stability: development - GeoContinentCodeAf = GeoContinentCodeKey.String("AF") - // Antarctica - // Stability: development - GeoContinentCodeAn = GeoContinentCodeKey.String("AN") - // Asia - // Stability: development - GeoContinentCodeAs = GeoContinentCodeKey.String("AS") - // Europe - // Stability: development - GeoContinentCodeEu = GeoContinentCodeKey.String("EU") - // North America - // Stability: development - GeoContinentCodeNa = GeoContinentCodeKey.String("NA") - // Oceania - // Stability: development - GeoContinentCodeOc = GeoContinentCodeKey.String("OC") - // South America - // Stability: development - GeoContinentCodeSa = GeoContinentCodeKey.String("SA") -) - -// Namespace: go -const ( - // GoMemoryTypeKey is the attribute Key conforming to the "go.memory.type" - // semantic conventions. It represents the type of memory. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "other", "stack" - GoMemoryTypeKey = attribute.Key("go.memory.type") -) - -// Enum values for go.memory.type -var ( - // Memory allocated from the heap that is reserved for stack space, whether or - // not it is currently in-use. - // Stability: development - GoMemoryTypeStack = GoMemoryTypeKey.String("stack") - // Memory used by the Go runtime, excluding other categories of memory usage - // described in this enumeration. - // Stability: development - GoMemoryTypeOther = GoMemoryTypeKey.String("other") -) - -// Namespace: graphql -const ( - // GraphQLDocumentKey is the attribute Key conforming to the "graphql.document" - // semantic conventions. It represents the GraphQL document being executed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: query findBookById { bookById(id: ?) { name } } - // Note: The value may be sanitized to exclude sensitive information. - GraphQLDocumentKey = attribute.Key("graphql.document") - - // GraphQLOperationNameKey is the attribute Key conforming to the - // "graphql.operation.name" semantic conventions. It represents the name of the - // operation being executed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: findBookById - GraphQLOperationNameKey = attribute.Key("graphql.operation.name") - - // GraphQLOperationTypeKey is the attribute Key conforming to the - // "graphql.operation.type" semantic conventions. It represents the type of the - // operation being executed. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "query", "mutation", "subscription" - GraphQLOperationTypeKey = attribute.Key("graphql.operation.type") -) - -// GraphQLDocument returns an attribute KeyValue conforming to the -// "graphql.document" semantic conventions. It represents the GraphQL document -// being executed. -func GraphQLDocument(val string) attribute.KeyValue { - return GraphQLDocumentKey.String(val) -} - -// GraphQLOperationName returns an attribute KeyValue conforming to the -// "graphql.operation.name" semantic conventions. It represents the name of the -// operation being executed. -func GraphQLOperationName(val string) attribute.KeyValue { - return GraphQLOperationNameKey.String(val) -} - -// Enum values for graphql.operation.type -var ( - // GraphQL query - // Stability: development - GraphQLOperationTypeQuery = GraphQLOperationTypeKey.String("query") - // GraphQL mutation - // Stability: development - GraphQLOperationTypeMutation = GraphQLOperationTypeKey.String("mutation") - // GraphQL subscription - // Stability: development - GraphQLOperationTypeSubscription = GraphQLOperationTypeKey.String("subscription") -) - -// Namespace: heroku -const ( - // HerokuAppIDKey is the attribute Key conforming to the "heroku.app.id" - // semantic conventions. It represents the unique identifier for the - // application. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2daa2797-e42b-4624-9322-ec3f968df4da" - HerokuAppIDKey = attribute.Key("heroku.app.id") - - // HerokuReleaseCommitKey is the attribute Key conforming to the - // "heroku.release.commit" semantic conventions. It represents the commit hash - // for the current release. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "e6134959463efd8966b20e75b913cafe3f5ec" - HerokuReleaseCommitKey = attribute.Key("heroku.release.commit") - - // HerokuReleaseCreationTimestampKey is the attribute Key conforming to the - // "heroku.release.creation_timestamp" semantic conventions. It represents the - // time and date the release was created. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2022-10-23T18:00:42Z" - HerokuReleaseCreationTimestampKey = attribute.Key("heroku.release.creation_timestamp") -) - -// HerokuAppID returns an attribute KeyValue conforming to the "heroku.app.id" -// semantic conventions. It represents the unique identifier for the application. -func HerokuAppID(val string) attribute.KeyValue { - return HerokuAppIDKey.String(val) -} - -// HerokuReleaseCommit returns an attribute KeyValue conforming to the -// "heroku.release.commit" semantic conventions. It represents the commit hash -// for the current release. -func HerokuReleaseCommit(val string) attribute.KeyValue { - return HerokuReleaseCommitKey.String(val) -} - -// HerokuReleaseCreationTimestamp returns an attribute KeyValue conforming to the -// "heroku.release.creation_timestamp" semantic conventions. It represents the -// time and date the release was created. -func HerokuReleaseCreationTimestamp(val string) attribute.KeyValue { - return HerokuReleaseCreationTimestampKey.String(val) -} - -// Namespace: host -const ( - // HostArchKey is the attribute Key conforming to the "host.arch" semantic - // conventions. It represents the CPU architecture the host system is running - // on. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HostArchKey = attribute.Key("host.arch") - - // HostCPUCacheL2SizeKey is the attribute Key conforming to the - // "host.cpu.cache.l2.size" semantic conventions. It represents the amount of - // level 2 memory cache available to the processor (in Bytes). - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 12288000 - HostCPUCacheL2SizeKey = attribute.Key("host.cpu.cache.l2.size") - - // HostCPUFamilyKey is the attribute Key conforming to the "host.cpu.family" - // semantic conventions. It represents the family or generation of the CPU. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "6", "PA-RISC 1.1e" - HostCPUFamilyKey = attribute.Key("host.cpu.family") - - // HostCPUModelIDKey is the attribute Key conforming to the "host.cpu.model.id" - // semantic conventions. It represents the model identifier. It provides more - // granular information about the CPU, distinguishing it from other CPUs within - // the same family. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "6", "9000/778/B180L" - HostCPUModelIDKey = attribute.Key("host.cpu.model.id") - - // HostCPUModelNameKey is the attribute Key conforming to the - // "host.cpu.model.name" semantic conventions. It represents the model - // designation of the processor. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "11th Gen Intel(R) Core(TM) i7-1185G7 @ 3.00GHz" - HostCPUModelNameKey = attribute.Key("host.cpu.model.name") - - // HostCPUSteppingKey is the attribute Key conforming to the "host.cpu.stepping" - // semantic conventions. It represents the stepping or core revisions. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1", "r1p1" - HostCPUSteppingKey = attribute.Key("host.cpu.stepping") - - // HostCPUVendorIDKey is the attribute Key conforming to the - // "host.cpu.vendor.id" semantic conventions. It represents the processor - // manufacturer identifier. A maximum 12-character string. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "GenuineIntel" - // Note: [CPUID] command returns the vendor ID string in EBX, EDX and ECX - // registers. Writing these to memory in this order results in a 12-character - // string. - // - // [CPUID]: https://wiki.osdev.org/CPUID - HostCPUVendorIDKey = attribute.Key("host.cpu.vendor.id") - - // HostIDKey is the attribute Key conforming to the "host.id" semantic - // conventions. It represents the unique host ID. For Cloud, this must be the - // instance_id assigned by the cloud provider. For non-containerized systems, - // this should be the `machine-id`. See the table below for the sources to use - // to determine the `machine-id` based on operating system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "fdbf79e8af94cb7f9e8df36789187052" - HostIDKey = attribute.Key("host.id") - - // HostImageIDKey is the attribute Key conforming to the "host.image.id" - // semantic conventions. It represents the VM image ID or host OS image ID. For - // Cloud, this value is from the provider. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "ami-07b06b442921831e5" - HostImageIDKey = attribute.Key("host.image.id") - - // HostImageNameKey is the attribute Key conforming to the "host.image.name" - // semantic conventions. It represents the name of the VM image or OS install - // the host was instantiated from. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "infra-ami-eks-worker-node-7d4ec78312", "CentOS-8-x86_64-1905" - HostImageNameKey = attribute.Key("host.image.name") - - // HostImageVersionKey is the attribute Key conforming to the - // "host.image.version" semantic conventions. It represents the version string - // of the VM image or host OS as defined in [Version Attributes]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "0.1" - // - // [Version Attributes]: /docs/resource/README.md#version-attributes - HostImageVersionKey = attribute.Key("host.image.version") - - // HostIPKey is the attribute Key conforming to the "host.ip" semantic - // conventions. It represents the available IP addresses of the host, excluding - // loopback interfaces. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "192.168.1.140", "fe80::abc2:4a28:737a:609e" - // Note: IPv4 Addresses MUST be specified in dotted-quad notation. IPv6 - // addresses MUST be specified in the [RFC 5952] format. - // - // [RFC 5952]: https://www.rfc-editor.org/rfc/rfc5952.html - HostIPKey = attribute.Key("host.ip") - - // HostMacKey is the attribute Key conforming to the "host.mac" semantic - // conventions. It represents the available MAC addresses of the host, excluding - // loopback interfaces. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "AC-DE-48-23-45-67", "AC-DE-48-23-45-67-01-9F" - // Note: MAC Addresses MUST be represented in [IEEE RA hexadecimal form]: as - // hyphen-separated octets in uppercase hexadecimal form from most to least - // significant. - // - // [IEEE RA hexadecimal form]: https://standards.ieee.org/wp-content/uploads/import/documents/tutorials/eui.pdf - HostMacKey = attribute.Key("host.mac") - - // HostNameKey is the attribute Key conforming to the "host.name" semantic - // conventions. It represents the name of the host. On Unix systems, it may - // contain what the hostname command returns, or the fully qualified hostname, - // or another name specified by the user. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "opentelemetry-test" - HostNameKey = attribute.Key("host.name") - - // HostTypeKey is the attribute Key conforming to the "host.type" semantic - // conventions. It represents the type of host. For Cloud, this must be the - // machine type. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "n1-standard-1" - HostTypeKey = attribute.Key("host.type") -) - -// HostCPUCacheL2Size returns an attribute KeyValue conforming to the -// "host.cpu.cache.l2.size" semantic conventions. It represents the amount of -// level 2 memory cache available to the processor (in Bytes). -func HostCPUCacheL2Size(val int) attribute.KeyValue { - return HostCPUCacheL2SizeKey.Int(val) -} - -// HostCPUFamily returns an attribute KeyValue conforming to the -// "host.cpu.family" semantic conventions. It represents the family or generation -// of the CPU. -func HostCPUFamily(val string) attribute.KeyValue { - return HostCPUFamilyKey.String(val) -} - -// HostCPUModelID returns an attribute KeyValue conforming to the -// "host.cpu.model.id" semantic conventions. It represents the model identifier. -// It provides more granular information about the CPU, distinguishing it from -// other CPUs within the same family. -func HostCPUModelID(val string) attribute.KeyValue { - return HostCPUModelIDKey.String(val) -} - -// HostCPUModelName returns an attribute KeyValue conforming to the -// "host.cpu.model.name" semantic conventions. It represents the model -// designation of the processor. -func HostCPUModelName(val string) attribute.KeyValue { - return HostCPUModelNameKey.String(val) -} - -// HostCPUStepping returns an attribute KeyValue conforming to the -// "host.cpu.stepping" semantic conventions. It represents the stepping or core -// revisions. -func HostCPUStepping(val string) attribute.KeyValue { - return HostCPUSteppingKey.String(val) -} - -// HostCPUVendorID returns an attribute KeyValue conforming to the -// "host.cpu.vendor.id" semantic conventions. It represents the processor -// manufacturer identifier. A maximum 12-character string. -func HostCPUVendorID(val string) attribute.KeyValue { - return HostCPUVendorIDKey.String(val) -} - -// HostID returns an attribute KeyValue conforming to the "host.id" semantic -// conventions. It represents the unique host ID. For Cloud, this must be the -// instance_id assigned by the cloud provider. For non-containerized systems, -// this should be the `machine-id`. See the table below for the sources to use to -// determine the `machine-id` based on operating system. -func HostID(val string) attribute.KeyValue { - return HostIDKey.String(val) -} - -// HostImageID returns an attribute KeyValue conforming to the "host.image.id" -// semantic conventions. It represents the VM image ID or host OS image ID. For -// Cloud, this value is from the provider. -func HostImageID(val string) attribute.KeyValue { - return HostImageIDKey.String(val) -} - -// HostImageName returns an attribute KeyValue conforming to the -// "host.image.name" semantic conventions. It represents the name of the VM image -// or OS install the host was instantiated from. -func HostImageName(val string) attribute.KeyValue { - return HostImageNameKey.String(val) -} - -// HostImageVersion returns an attribute KeyValue conforming to the -// "host.image.version" semantic conventions. It represents the version string of -// the VM image or host OS as defined in [Version Attributes]. -// -// [Version Attributes]: /docs/resource/README.md#version-attributes -func HostImageVersion(val string) attribute.KeyValue { - return HostImageVersionKey.String(val) -} - -// HostIP returns an attribute KeyValue conforming to the "host.ip" semantic -// conventions. It represents the available IP addresses of the host, excluding -// loopback interfaces. -func HostIP(val ...string) attribute.KeyValue { - return HostIPKey.StringSlice(val) -} - -// HostMac returns an attribute KeyValue conforming to the "host.mac" semantic -// conventions. It represents the available MAC addresses of the host, excluding -// loopback interfaces. -func HostMac(val ...string) attribute.KeyValue { - return HostMacKey.StringSlice(val) -} - -// HostName returns an attribute KeyValue conforming to the "host.name" semantic -// conventions. It represents the name of the host. On Unix systems, it may -// contain what the hostname command returns, or the fully qualified hostname, or -// another name specified by the user. -func HostName(val string) attribute.KeyValue { - return HostNameKey.String(val) -} - -// HostType returns an attribute KeyValue conforming to the "host.type" semantic -// conventions. It represents the type of host. For Cloud, this must be the -// machine type. -func HostType(val string) attribute.KeyValue { - return HostTypeKey.String(val) -} - -// Enum values for host.arch -var ( - // AMD64 - // Stability: development - HostArchAMD64 = HostArchKey.String("amd64") - // ARM32 - // Stability: development - HostArchARM32 = HostArchKey.String("arm32") - // ARM64 - // Stability: development - HostArchARM64 = HostArchKey.String("arm64") - // Itanium - // Stability: development - HostArchIA64 = HostArchKey.String("ia64") - // 32-bit PowerPC - // Stability: development - HostArchPPC32 = HostArchKey.String("ppc32") - // 64-bit PowerPC - // Stability: development - HostArchPPC64 = HostArchKey.String("ppc64") - // IBM z/Architecture - // Stability: development - HostArchS390x = HostArchKey.String("s390x") - // 32-bit x86 - // Stability: development - HostArchX86 = HostArchKey.String("x86") -) - -// Namespace: http -const ( - // HTTPConnectionStateKey is the attribute Key conforming to the - // "http.connection.state" semantic conventions. It represents the state of the - // HTTP connection in the HTTP connection pool. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "active", "idle" - HTTPConnectionStateKey = attribute.Key("http.connection.state") - - // HTTPRequestBodySizeKey is the attribute Key conforming to the - // "http.request.body.size" semantic conventions. It represents the size of the - // request payload body in bytes. This is the number of bytes transferred - // excluding headers and is often, but not always, present as the - // [Content-Length] header. For requests using transport encoding, this should - // be the compressed size. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // [Content-Length]: https://www.rfc-editor.org/rfc/rfc9110.html#field.content-length - HTTPRequestBodySizeKey = attribute.Key("http.request.body.size") - - // HTTPRequestMethodKey is the attribute Key conforming to the - // "http.request.method" semantic conventions. It represents the HTTP request - // method. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "GET", "POST", "HEAD" - // Note: HTTP request method value SHOULD be "known" to the instrumentation. - // By default, this convention defines "known" methods as the ones listed in - // [RFC9110], - // the PATCH method defined in [RFC5789] - // and the QUERY method defined in [httpbis-safe-method-w-body]. - // - // If the HTTP request method is not known to instrumentation, it MUST set the - // `http.request.method` attribute to `_OTHER`. - // - // If the HTTP instrumentation could end up converting valid HTTP request - // methods to `_OTHER`, then it MUST provide a way to override - // the list of known HTTP methods. If this override is done via environment - // variable, then the environment variable MUST be named - // OTEL_INSTRUMENTATION_HTTP_KNOWN_METHODS and support a comma-separated list of - // case-sensitive known HTTP methods - // (this list MUST be a full override of the default known method, it is not a - // list of known methods in addition to the defaults). - // - // HTTP method names are case-sensitive and `http.request.method` attribute - // value MUST match a known HTTP method name exactly. - // Instrumentations for specific web frameworks that consider HTTP methods to be - // case insensitive, SHOULD populate a canonical equivalent. - // Tracing instrumentations that do so, MUST also set - // `http.request.method_original` to the original value. - // - // [RFC9110]: https://www.rfc-editor.org/rfc/rfc9110.html#name-methods - // [RFC5789]: https://www.rfc-editor.org/rfc/rfc5789.html - // [httpbis-safe-method-w-body]: https://datatracker.ietf.org/doc/draft-ietf-httpbis-safe-method-w-body/?include_text=1 - HTTPRequestMethodKey = attribute.Key("http.request.method") - - // HTTPRequestMethodOriginalKey is the attribute Key conforming to the - // "http.request.method_original" semantic conventions. It represents the - // original HTTP method sent by the client in the request line. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "GeT", "ACL", "foo" - HTTPRequestMethodOriginalKey = attribute.Key("http.request.method_original") - - // HTTPRequestResendCountKey is the attribute Key conforming to the - // "http.request.resend_count" semantic conventions. It represents the ordinal - // number of request resending attempt (for any reason, including redirects). - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - // - // Note: The resend count SHOULD be updated each time an HTTP request gets - // resent by the client, regardless of what was the cause of the resending (e.g. - // redirection, authorization failure, 503 Server Unavailable, network issues, - // or any other). - HTTPRequestResendCountKey = attribute.Key("http.request.resend_count") - - // HTTPRequestSizeKey is the attribute Key conforming to the "http.request.size" - // semantic conventions. It represents the total size of the request in bytes. - // This should be the total number of bytes sent over the wire, including the - // request line (HTTP/1.1), framing (HTTP/2 and HTTP/3), headers, and request - // body if any. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - HTTPRequestSizeKey = attribute.Key("http.request.size") - - // HTTPResponseBodySizeKey is the attribute Key conforming to the - // "http.response.body.size" semantic conventions. It represents the size of the - // response payload body in bytes. This is the number of bytes transferred - // excluding headers and is often, but not always, present as the - // [Content-Length] header. For requests using transport encoding, this should - // be the compressed size. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // [Content-Length]: https://www.rfc-editor.org/rfc/rfc9110.html#field.content-length - HTTPResponseBodySizeKey = attribute.Key("http.response.body.size") - - // HTTPResponseSizeKey is the attribute Key conforming to the - // "http.response.size" semantic conventions. It represents the total size of - // the response in bytes. This should be the total number of bytes sent over the - // wire, including the status line (HTTP/1.1), framing (HTTP/2 and HTTP/3), - // headers, and response body and trailers if any. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - HTTPResponseSizeKey = attribute.Key("http.response.size") - - // HTTPResponseStatusCodeKey is the attribute Key conforming to the - // "http.response.status_code" semantic conventions. It represents the - // [HTTP response status code]. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: 200 - // - // [HTTP response status code]: https://tools.ietf.org/html/rfc7231#section-6 - HTTPResponseStatusCodeKey = attribute.Key("http.response.status_code") - - // HTTPRouteKey is the attribute Key conforming to the "http.route" semantic - // conventions. It represents the matched route template for the request. This - // MUST be low-cardinality and include all static path segments, with dynamic - // path segments represented with placeholders. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "/users/:userID?", "my-controller/my-action/{id?}" - // Note: MUST NOT be populated when this is not supported by the HTTP server - // framework as the route attribute should have low-cardinality and the URI path - // can NOT substitute it. - // SHOULD include the [application root] if there is one. - // - // A static path segment is a part of the route template with a fixed, - // low-cardinality value. This includes literal strings like `/users/` and - // placeholders that - // are constrained to a finite, predefined set of values, e.g. `{controller}` or - // `{action}`. - // - // A dynamic path segment is a placeholder for a value that can have high - // cardinality and is not constrained to a predefined list like static path - // segments. - // - // Instrumentations SHOULD use routing information provided by the corresponding - // web framework. They SHOULD pick the most precise source of routing - // information and MAY - // support custom route formatting. Instrumentations SHOULD document the format - // and the API used to obtain the route string. - // - // [application root]: /docs/http/http-spans.md#http-server-definitions - HTTPRouteKey = attribute.Key("http.route") -) - -// HTTPRequestBodySize returns an attribute KeyValue conforming to the -// "http.request.body.size" semantic conventions. It represents the size of the -// request payload body in bytes. This is the number of bytes transferred -// excluding headers and is often, but not always, present as the -// [Content-Length] header. For requests using transport encoding, this should be -// the compressed size. -// -// [Content-Length]: https://www.rfc-editor.org/rfc/rfc9110.html#field.content-length -func HTTPRequestBodySize(val int) attribute.KeyValue { - return HTTPRequestBodySizeKey.Int(val) -} - -// HTTPRequestHeader returns an attribute KeyValue conforming to the -// "http.request.header" semantic conventions. It represents the HTTP request -// headers, `` being the normalized HTTP Header name (lowercase), the value -// being the header values. -func HTTPRequestHeader(key string, val ...string) attribute.KeyValue { - return attribute.StringSlice("http.request.header."+key, val) -} - -// HTTPRequestMethodOriginal returns an attribute KeyValue conforming to the -// "http.request.method_original" semantic conventions. It represents the -// original HTTP method sent by the client in the request line. -func HTTPRequestMethodOriginal(val string) attribute.KeyValue { - return HTTPRequestMethodOriginalKey.String(val) -} - -// HTTPRequestResendCount returns an attribute KeyValue conforming to the -// "http.request.resend_count" semantic conventions. It represents the ordinal -// number of request resending attempt (for any reason, including redirects). -func HTTPRequestResendCount(val int) attribute.KeyValue { - return HTTPRequestResendCountKey.Int(val) -} - -// HTTPRequestSize returns an attribute KeyValue conforming to the -// "http.request.size" semantic conventions. It represents the total size of the -// request in bytes. This should be the total number of bytes sent over the wire, -// including the request line (HTTP/1.1), framing (HTTP/2 and HTTP/3), headers, -// and request body if any. -func HTTPRequestSize(val int) attribute.KeyValue { - return HTTPRequestSizeKey.Int(val) -} - -// HTTPResponseBodySize returns an attribute KeyValue conforming to the -// "http.response.body.size" semantic conventions. It represents the size of the -// response payload body in bytes. This is the number of bytes transferred -// excluding headers and is often, but not always, present as the -// [Content-Length] header. For requests using transport encoding, this should be -// the compressed size. -// -// [Content-Length]: https://www.rfc-editor.org/rfc/rfc9110.html#field.content-length -func HTTPResponseBodySize(val int) attribute.KeyValue { - return HTTPResponseBodySizeKey.Int(val) -} - -// HTTPResponseHeader returns an attribute KeyValue conforming to the -// "http.response.header" semantic conventions. It represents the HTTP response -// headers, `` being the normalized HTTP Header name (lowercase), the value -// being the header values. -func HTTPResponseHeader(key string, val ...string) attribute.KeyValue { - return attribute.StringSlice("http.response.header."+key, val) -} - -// HTTPResponseSize returns an attribute KeyValue conforming to the -// "http.response.size" semantic conventions. It represents the total size of the -// response in bytes. This should be the total number of bytes sent over the -// wire, including the status line (HTTP/1.1), framing (HTTP/2 and HTTP/3), -// headers, and response body and trailers if any. -func HTTPResponseSize(val int) attribute.KeyValue { - return HTTPResponseSizeKey.Int(val) -} - -// HTTPResponseStatusCode returns an attribute KeyValue conforming to the -// "http.response.status_code" semantic conventions. It represents the -// [HTTP response status code]. -// -// [HTTP response status code]: https://tools.ietf.org/html/rfc7231#section-6 -func HTTPResponseStatusCode(val int) attribute.KeyValue { - return HTTPResponseStatusCodeKey.Int(val) -} - -// HTTPRoute returns an attribute KeyValue conforming to the "http.route" -// semantic conventions. It represents the matched route template for the -// request. This MUST be low-cardinality and include all static path segments, -// with dynamic path segments represented with placeholders. -func HTTPRoute(val string) attribute.KeyValue { - return HTTPRouteKey.String(val) -} - -// Enum values for http.connection.state -var ( - // active state. - // Stability: development - HTTPConnectionStateActive = HTTPConnectionStateKey.String("active") - // idle state. - // Stability: development - HTTPConnectionStateIdle = HTTPConnectionStateKey.String("idle") -) - -// Enum values for http.request.method -var ( - // CONNECT method. - // Stability: stable - HTTPRequestMethodConnect = HTTPRequestMethodKey.String("CONNECT") - // DELETE method. - // Stability: stable - HTTPRequestMethodDelete = HTTPRequestMethodKey.String("DELETE") - // GET method. - // Stability: stable - HTTPRequestMethodGet = HTTPRequestMethodKey.String("GET") - // HEAD method. - // Stability: stable - HTTPRequestMethodHead = HTTPRequestMethodKey.String("HEAD") - // OPTIONS method. - // Stability: stable - HTTPRequestMethodOptions = HTTPRequestMethodKey.String("OPTIONS") - // PATCH method. - // Stability: stable - HTTPRequestMethodPatch = HTTPRequestMethodKey.String("PATCH") - // POST method. - // Stability: stable - HTTPRequestMethodPost = HTTPRequestMethodKey.String("POST") - // PUT method. - // Stability: stable - HTTPRequestMethodPut = HTTPRequestMethodKey.String("PUT") - // TRACE method. - // Stability: stable - HTTPRequestMethodTrace = HTTPRequestMethodKey.String("TRACE") - // QUERY method. - // Stability: development - HTTPRequestMethodQuery = HTTPRequestMethodKey.String("QUERY") - // Any HTTP method that the instrumentation has no prior knowledge of. - // Stability: stable - HTTPRequestMethodOther = HTTPRequestMethodKey.String("_OTHER") -) - -// Namespace: hw -const ( - // HwBatteryCapacityKey is the attribute Key conforming to the - // "hw.battery.capacity" semantic conventions. It represents the design capacity - // in Watts-hours or Amper-hours. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "9.3Ah", "50Wh" - HwBatteryCapacityKey = attribute.Key("hw.battery.capacity") - - // HwBatteryChemistryKey is the attribute Key conforming to the - // "hw.battery.chemistry" semantic conventions. It represents the battery - // [chemistry], e.g. Lithium-Ion, Nickel-Cadmium, etc. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Li-ion", "NiMH" - // - // [chemistry]: https://schemas.dmtf.org/wbem/cim-html/2.31.0/CIM_Battery.html - HwBatteryChemistryKey = attribute.Key("hw.battery.chemistry") - - // HwBatteryStateKey is the attribute Key conforming to the "hw.battery.state" - // semantic conventions. It represents the current state of the battery. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HwBatteryStateKey = attribute.Key("hw.battery.state") - - // HwBiosVersionKey is the attribute Key conforming to the "hw.bios_version" - // semantic conventions. It represents the BIOS version of the hardware - // component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1.2.3" - HwBiosVersionKey = attribute.Key("hw.bios_version") - - // HwDriverVersionKey is the attribute Key conforming to the "hw.driver_version" - // semantic conventions. It represents the driver version for the hardware - // component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "10.2.1-3" - HwDriverVersionKey = attribute.Key("hw.driver_version") - - // HwEnclosureTypeKey is the attribute Key conforming to the "hw.enclosure.type" - // semantic conventions. It represents the type of the enclosure (useful for - // modular systems). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Computer", "Storage", "Switch" - HwEnclosureTypeKey = attribute.Key("hw.enclosure.type") - - // HwFirmwareVersionKey is the attribute Key conforming to the - // "hw.firmware_version" semantic conventions. It represents the firmware - // version of the hardware component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2.0.1" - HwFirmwareVersionKey = attribute.Key("hw.firmware_version") - - // HwGpuTaskKey is the attribute Key conforming to the "hw.gpu.task" semantic - // conventions. It represents the type of task the GPU is performing. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HwGpuTaskKey = attribute.Key("hw.gpu.task") - - // HwIDKey is the attribute Key conforming to the "hw.id" semantic conventions. - // It represents an identifier for the hardware component, unique within the - // monitored host. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "win32battery_battery_testsysa33_1" - HwIDKey = attribute.Key("hw.id") - - // HwLimitTypeKey is the attribute Key conforming to the "hw.limit_type" - // semantic conventions. It represents the type of limit for hardware - // components. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HwLimitTypeKey = attribute.Key("hw.limit_type") - - // HwLogicalDiskRaidLevelKey is the attribute Key conforming to the - // "hw.logical_disk.raid_level" semantic conventions. It represents the RAID - // Level of the logical disk. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "RAID0+1", "RAID5", "RAID10" - HwLogicalDiskRaidLevelKey = attribute.Key("hw.logical_disk.raid_level") - - // HwLogicalDiskStateKey is the attribute Key conforming to the - // "hw.logical_disk.state" semantic conventions. It represents the state of the - // logical disk space usage. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HwLogicalDiskStateKey = attribute.Key("hw.logical_disk.state") - - // HwMemoryTypeKey is the attribute Key conforming to the "hw.memory.type" - // semantic conventions. It represents the type of the memory module. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "DDR4", "DDR5", "LPDDR5" - HwMemoryTypeKey = attribute.Key("hw.memory.type") - - // HwModelKey is the attribute Key conforming to the "hw.model" semantic - // conventions. It represents the descriptive model name of the hardware - // component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "PERC H740P", "Intel(R) Core(TM) i7-10700K", "Dell XPS 15 Battery" - HwModelKey = attribute.Key("hw.model") - - // HwNameKey is the attribute Key conforming to the "hw.name" semantic - // conventions. It represents an easily-recognizable name for the hardware - // component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "eth0" - HwNameKey = attribute.Key("hw.name") - - // HwNetworkLogicalAddressesKey is the attribute Key conforming to the - // "hw.network.logical_addresses" semantic conventions. It represents the - // logical addresses of the adapter (e.g. IP address, or WWPN). - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "172.16.8.21", "57.11.193.42" - HwNetworkLogicalAddressesKey = attribute.Key("hw.network.logical_addresses") - - // HwNetworkPhysicalAddressKey is the attribute Key conforming to the - // "hw.network.physical_address" semantic conventions. It represents the - // physical address of the adapter (e.g. MAC address, or WWNN). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "00-90-F5-E9-7B-36" - HwNetworkPhysicalAddressKey = attribute.Key("hw.network.physical_address") - - // HwParentKey is the attribute Key conforming to the "hw.parent" semantic - // conventions. It represents the unique identifier of the parent component - // (typically the `hw.id` attribute of the enclosure, or disk controller). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "dellStorage_perc_0" - HwParentKey = attribute.Key("hw.parent") - - // HwPhysicalDiskSmartAttributeKey is the attribute Key conforming to the - // "hw.physical_disk.smart_attribute" semantic conventions. It represents the - // [S.M.A.R.T.] (Self-Monitoring, Analysis, and Reporting Technology) attribute - // of the physical disk. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Spin Retry Count", "Seek Error Rate", "Raw Read Error Rate" - // - // [S.M.A.R.T.]: https://wikipedia.org/wiki/S.M.A.R.T. - HwPhysicalDiskSmartAttributeKey = attribute.Key("hw.physical_disk.smart_attribute") - - // HwPhysicalDiskStateKey is the attribute Key conforming to the - // "hw.physical_disk.state" semantic conventions. It represents the state of the - // physical disk endurance utilization. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HwPhysicalDiskStateKey = attribute.Key("hw.physical_disk.state") - - // HwPhysicalDiskTypeKey is the attribute Key conforming to the - // "hw.physical_disk.type" semantic conventions. It represents the type of the - // physical disk. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "HDD", "SSD", "10K" - HwPhysicalDiskTypeKey = attribute.Key("hw.physical_disk.type") - - // HwSensorLocationKey is the attribute Key conforming to the - // "hw.sensor_location" semantic conventions. It represents the location of the - // sensor. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "cpu0", "ps1", "INLET", "CPU0_DIE", "AMBIENT", "MOTHERBOARD", "PS0 - // V3_3", "MAIN_12V", "CPU_VCORE" - HwSensorLocationKey = attribute.Key("hw.sensor_location") - - // HwSerialNumberKey is the attribute Key conforming to the "hw.serial_number" - // semantic conventions. It represents the serial number of the hardware - // component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "CNFCP0123456789" - HwSerialNumberKey = attribute.Key("hw.serial_number") - - // HwStateKey is the attribute Key conforming to the "hw.state" semantic - // conventions. It represents the current state of the component. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HwStateKey = attribute.Key("hw.state") - - // HwTapeDriveOperationTypeKey is the attribute Key conforming to the - // "hw.tape_drive.operation_type" semantic conventions. It represents the type - // of tape drive operation. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - HwTapeDriveOperationTypeKey = attribute.Key("hw.tape_drive.operation_type") - - // HwTypeKey is the attribute Key conforming to the "hw.type" semantic - // conventions. It represents the type of the component. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: Describes the category of the hardware component for which `hw.state` - // is being reported. For example, `hw.type=temperature` along with - // `hw.state=degraded` would indicate that the temperature of the hardware - // component has been reported as `degraded`. - HwTypeKey = attribute.Key("hw.type") - - // HwVendorKey is the attribute Key conforming to the "hw.vendor" semantic - // conventions. It represents the vendor name of the hardware component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Dell", "HP", "Intel", "AMD", "LSI", "Lenovo" - HwVendorKey = attribute.Key("hw.vendor") -) - -// HwBatteryCapacity returns an attribute KeyValue conforming to the -// "hw.battery.capacity" semantic conventions. It represents the design capacity -// in Watts-hours or Amper-hours. -func HwBatteryCapacity(val string) attribute.KeyValue { - return HwBatteryCapacityKey.String(val) -} - -// HwBatteryChemistry returns an attribute KeyValue conforming to the -// "hw.battery.chemistry" semantic conventions. It represents the battery -// [chemistry], e.g. Lithium-Ion, Nickel-Cadmium, etc. -// -// [chemistry]: https://schemas.dmtf.org/wbem/cim-html/2.31.0/CIM_Battery.html -func HwBatteryChemistry(val string) attribute.KeyValue { - return HwBatteryChemistryKey.String(val) -} - -// HwBiosVersion returns an attribute KeyValue conforming to the -// "hw.bios_version" semantic conventions. It represents the BIOS version of the -// hardware component. -func HwBiosVersion(val string) attribute.KeyValue { - return HwBiosVersionKey.String(val) -} - -// HwDriverVersion returns an attribute KeyValue conforming to the -// "hw.driver_version" semantic conventions. It represents the driver version for -// the hardware component. -func HwDriverVersion(val string) attribute.KeyValue { - return HwDriverVersionKey.String(val) -} - -// HwEnclosureType returns an attribute KeyValue conforming to the -// "hw.enclosure.type" semantic conventions. It represents the type of the -// enclosure (useful for modular systems). -func HwEnclosureType(val string) attribute.KeyValue { - return HwEnclosureTypeKey.String(val) -} - -// HwFirmwareVersion returns an attribute KeyValue conforming to the -// "hw.firmware_version" semantic conventions. It represents the firmware version -// of the hardware component. -func HwFirmwareVersion(val string) attribute.KeyValue { - return HwFirmwareVersionKey.String(val) -} - -// HwID returns an attribute KeyValue conforming to the "hw.id" semantic -// conventions. It represents an identifier for the hardware component, unique -// within the monitored host. -func HwID(val string) attribute.KeyValue { - return HwIDKey.String(val) -} - -// HwLogicalDiskRaidLevel returns an attribute KeyValue conforming to the -// "hw.logical_disk.raid_level" semantic conventions. It represents the RAID -// Level of the logical disk. -func HwLogicalDiskRaidLevel(val string) attribute.KeyValue { - return HwLogicalDiskRaidLevelKey.String(val) -} - -// HwMemoryType returns an attribute KeyValue conforming to the "hw.memory.type" -// semantic conventions. It represents the type of the memory module. -func HwMemoryType(val string) attribute.KeyValue { - return HwMemoryTypeKey.String(val) -} - -// HwModel returns an attribute KeyValue conforming to the "hw.model" semantic -// conventions. It represents the descriptive model name of the hardware -// component. -func HwModel(val string) attribute.KeyValue { - return HwModelKey.String(val) -} - -// HwName returns an attribute KeyValue conforming to the "hw.name" semantic -// conventions. It represents an easily-recognizable name for the hardware -// component. -func HwName(val string) attribute.KeyValue { - return HwNameKey.String(val) -} - -// HwNetworkLogicalAddresses returns an attribute KeyValue conforming to the -// "hw.network.logical_addresses" semantic conventions. It represents the logical -// addresses of the adapter (e.g. IP address, or WWPN). -func HwNetworkLogicalAddresses(val ...string) attribute.KeyValue { - return HwNetworkLogicalAddressesKey.StringSlice(val) -} - -// HwNetworkPhysicalAddress returns an attribute KeyValue conforming to the -// "hw.network.physical_address" semantic conventions. It represents the physical -// address of the adapter (e.g. MAC address, or WWNN). -func HwNetworkPhysicalAddress(val string) attribute.KeyValue { - return HwNetworkPhysicalAddressKey.String(val) -} - -// HwParent returns an attribute KeyValue conforming to the "hw.parent" semantic -// conventions. It represents the unique identifier of the parent component -// (typically the `hw.id` attribute of the enclosure, or disk controller). -func HwParent(val string) attribute.KeyValue { - return HwParentKey.String(val) -} - -// HwPhysicalDiskSmartAttribute returns an attribute KeyValue conforming to the -// "hw.physical_disk.smart_attribute" semantic conventions. It represents the -// [S.M.A.R.T.] (Self-Monitoring, Analysis, and Reporting Technology) attribute -// of the physical disk. -// -// [S.M.A.R.T.]: https://wikipedia.org/wiki/S.M.A.R.T. -func HwPhysicalDiskSmartAttribute(val string) attribute.KeyValue { - return HwPhysicalDiskSmartAttributeKey.String(val) -} - -// HwPhysicalDiskType returns an attribute KeyValue conforming to the -// "hw.physical_disk.type" semantic conventions. It represents the type of the -// physical disk. -func HwPhysicalDiskType(val string) attribute.KeyValue { - return HwPhysicalDiskTypeKey.String(val) -} - -// HwSensorLocation returns an attribute KeyValue conforming to the -// "hw.sensor_location" semantic conventions. It represents the location of the -// sensor. -func HwSensorLocation(val string) attribute.KeyValue { - return HwSensorLocationKey.String(val) -} - -// HwSerialNumber returns an attribute KeyValue conforming to the -// "hw.serial_number" semantic conventions. It represents the serial number of -// the hardware component. -func HwSerialNumber(val string) attribute.KeyValue { - return HwSerialNumberKey.String(val) -} - -// HwVendor returns an attribute KeyValue conforming to the "hw.vendor" semantic -// conventions. It represents the vendor name of the hardware component. -func HwVendor(val string) attribute.KeyValue { - return HwVendorKey.String(val) -} - -// Enum values for hw.battery.state -var ( - // Charging - // Stability: development - HwBatteryStateCharging = HwBatteryStateKey.String("charging") - // Discharging - // Stability: development - HwBatteryStateDischarging = HwBatteryStateKey.String("discharging") -) - -// Enum values for hw.gpu.task -var ( - // Decoder - // Stability: development - HwGpuTaskDecoder = HwGpuTaskKey.String("decoder") - // Encoder - // Stability: development - HwGpuTaskEncoder = HwGpuTaskKey.String("encoder") - // General - // Stability: development - HwGpuTaskGeneral = HwGpuTaskKey.String("general") -) - -// Enum values for hw.limit_type -var ( - // Critical - // Stability: development - HwLimitTypeCritical = HwLimitTypeKey.String("critical") - // Degraded - // Stability: development - HwLimitTypeDegraded = HwLimitTypeKey.String("degraded") - // High Critical - // Stability: development - HwLimitTypeHighCritical = HwLimitTypeKey.String("high.critical") - // High Degraded - // Stability: development - HwLimitTypeHighDegraded = HwLimitTypeKey.String("high.degraded") - // Low Critical - // Stability: development - HwLimitTypeLowCritical = HwLimitTypeKey.String("low.critical") - // Low Degraded - // Stability: development - HwLimitTypeLowDegraded = HwLimitTypeKey.String("low.degraded") - // Maximum - // Stability: development - HwLimitTypeMax = HwLimitTypeKey.String("max") - // Throttled - // Stability: development - HwLimitTypeThrottled = HwLimitTypeKey.String("throttled") - // Turbo - // Stability: development - HwLimitTypeTurbo = HwLimitTypeKey.String("turbo") -) - -// Enum values for hw.logical_disk.state -var ( - // Used - // Stability: development - HwLogicalDiskStateUsed = HwLogicalDiskStateKey.String("used") - // Free - // Stability: development - HwLogicalDiskStateFree = HwLogicalDiskStateKey.String("free") -) - -// Enum values for hw.physical_disk.state -var ( - // Remaining - // Stability: development - HwPhysicalDiskStateRemaining = HwPhysicalDiskStateKey.String("remaining") -) - -// Enum values for hw.state -var ( - // Degraded - // Stability: development - HwStateDegraded = HwStateKey.String("degraded") - // Failed - // Stability: development - HwStateFailed = HwStateKey.String("failed") - // Needs Cleaning - // Stability: development - HwStateNeedsCleaning = HwStateKey.String("needs_cleaning") - // OK - // Stability: development - HwStateOk = HwStateKey.String("ok") - // Predicted Failure - // Stability: development - HwStatePredictedFailure = HwStateKey.String("predicted_failure") -) - -// Enum values for hw.tape_drive.operation_type -var ( - // Mount - // Stability: development - HwTapeDriveOperationTypeMount = HwTapeDriveOperationTypeKey.String("mount") - // Unmount - // Stability: development - HwTapeDriveOperationTypeUnmount = HwTapeDriveOperationTypeKey.String("unmount") - // Clean - // Stability: development - HwTapeDriveOperationTypeClean = HwTapeDriveOperationTypeKey.String("clean") -) - -// Enum values for hw.type -var ( - // Battery - // Stability: development - HwTypeBattery = HwTypeKey.String("battery") - // CPU - // Stability: development - HwTypeCPU = HwTypeKey.String("cpu") - // Disk controller - // Stability: development - HwTypeDiskController = HwTypeKey.String("disk_controller") - // Enclosure - // Stability: development - HwTypeEnclosure = HwTypeKey.String("enclosure") - // Fan - // Stability: development - HwTypeFan = HwTypeKey.String("fan") - // GPU - // Stability: development - HwTypeGpu = HwTypeKey.String("gpu") - // Logical disk - // Stability: development - HwTypeLogicalDisk = HwTypeKey.String("logical_disk") - // Memory - // Stability: development - HwTypeMemory = HwTypeKey.String("memory") - // Network - // Stability: development - HwTypeNetwork = HwTypeKey.String("network") - // Physical disk - // Stability: development - HwTypePhysicalDisk = HwTypeKey.String("physical_disk") - // Power supply - // Stability: development - HwTypePowerSupply = HwTypeKey.String("power_supply") - // Tape drive - // Stability: development - HwTypeTapeDrive = HwTypeKey.String("tape_drive") - // Temperature - // Stability: development - HwTypeTemperature = HwTypeKey.String("temperature") - // Voltage - // Stability: development - HwTypeVoltage = HwTypeKey.String("voltage") -) - -// Namespace: ios -const ( - // IOSAppStateKey is the attribute Key conforming to the "ios.app.state" - // semantic conventions. It represents the this attribute represents the state - // of the application. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: The iOS lifecycle states are defined in the - // [UIApplicationDelegate documentation], and from which the `OS terminology` - // column values are derived. - // - // [UIApplicationDelegate documentation]: https://developer.apple.com/documentation/uikit/uiapplicationdelegate - IOSAppStateKey = attribute.Key("ios.app.state") -) - -// Enum values for ios.app.state -var ( - // The app has become `active`. Associated with UIKit notification - // `applicationDidBecomeActive`. - // - // Stability: development - IOSAppStateActive = IOSAppStateKey.String("active") - // The app is now `inactive`. Associated with UIKit notification - // `applicationWillResignActive`. - // - // Stability: development - IOSAppStateInactive = IOSAppStateKey.String("inactive") - // The app is now in the background. This value is associated with UIKit - // notification `applicationDidEnterBackground`. - // - // Stability: development - IOSAppStateBackground = IOSAppStateKey.String("background") - // The app is now in the foreground. This value is associated with UIKit - // notification `applicationWillEnterForeground`. - // - // Stability: development - IOSAppStateForeground = IOSAppStateKey.String("foreground") - // The app is about to terminate. Associated with UIKit notification - // `applicationWillTerminate`. - // - // Stability: development - IOSAppStateTerminate = IOSAppStateKey.String("terminate") -) - -// Namespace: jsonrpc -const ( - // JSONRPCProtocolVersionKey is the attribute Key conforming to the - // "jsonrpc.protocol.version" semantic conventions. It represents the protocol - // version, as specified in the `jsonrpc` property of the request and its - // corresponding response. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2.0", "1.0" - JSONRPCProtocolVersionKey = attribute.Key("jsonrpc.protocol.version") - - // JSONRPCRequestIDKey is the attribute Key conforming to the - // "jsonrpc.request.id" semantic conventions. It represents a string - // representation of the `id` property of the request and its corresponding - // response. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "10", "request-7" - // Note: Under the [JSON-RPC specification], the `id` property may be a string, - // number, null, or omitted entirely. When omitted, the request is treated as a - // notification. Using `null` is not equivalent to omitting the `id`, but it is - // discouraged. - // Instrumentations SHOULD NOT capture this attribute when the `id` is `null` or - // omitted. - // - // [JSON-RPC specification]: https://www.jsonrpc.org/specification - JSONRPCRequestIDKey = attribute.Key("jsonrpc.request.id") -) - -// JSONRPCProtocolVersion returns an attribute KeyValue conforming to the -// "jsonrpc.protocol.version" semantic conventions. It represents the protocol -// version, as specified in the `jsonrpc` property of the request and its -// corresponding response. -func JSONRPCProtocolVersion(val string) attribute.KeyValue { - return JSONRPCProtocolVersionKey.String(val) -} - -// JSONRPCRequestID returns an attribute KeyValue conforming to the -// "jsonrpc.request.id" semantic conventions. It represents a string -// representation of the `id` property of the request and its corresponding -// response. -func JSONRPCRequestID(val string) attribute.KeyValue { - return JSONRPCRequestIDKey.String(val) -} - -// Namespace: k8s -const ( - // K8SClusterNameKey is the attribute Key conforming to the "k8s.cluster.name" - // semantic conventions. It represents the name of the cluster. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry-cluster" - K8SClusterNameKey = attribute.Key("k8s.cluster.name") - - // K8SClusterUIDKey is the attribute Key conforming to the "k8s.cluster.uid" - // semantic conventions. It represents a pseudo-ID for the cluster, set to the - // UID of the `kube-system` namespace. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "218fc5a9-a5f1-4b54-aa05-46717d0ab26d" - // Note: K8s doesn't have support for obtaining a cluster ID. If this is ever - // added, we will recommend collecting the `k8s.cluster.uid` through the - // official APIs. In the meantime, we are able to use the `uid` of the - // `kube-system` namespace as a proxy for cluster ID. Read on for the - // rationale. - // - // Every object created in a K8s cluster is assigned a distinct UID. The - // `kube-system` namespace is used by Kubernetes itself and will exist - // for the lifetime of the cluster. Using the `uid` of the `kube-system` - // namespace is a reasonable proxy for the K8s ClusterID as it will only - // change if the cluster is rebuilt. Furthermore, Kubernetes UIDs are - // UUIDs as standardized by - // [ISO/IEC 9834-8 and ITU-T X.667]. - // Which states: - // - // > If generated according to one of the mechanisms defined in Rec. - // > ITU-T X.667 | ISO/IEC 9834-8, a UUID is either guaranteed to be - // > different from all other UUIDs generated before 3603 A.D., or is - // > extremely likely to be different (depending on the mechanism chosen). - // - // Therefore, UIDs between clusters should be extremely unlikely to - // conflict. - // - // [ISO/IEC 9834-8 and ITU-T X.667]: https://www.itu.int/ITU-T/studygroups/com17/oid.html - K8SClusterUIDKey = attribute.Key("k8s.cluster.uid") - - // K8SContainerNameKey is the attribute Key conforming to the - // "k8s.container.name" semantic conventions. It represents the name of the - // Container from Pod specification, must be unique within a Pod. Container - // runtime usually uses different globally unique name (`container.name`). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "redis" - K8SContainerNameKey = attribute.Key("k8s.container.name") - - // K8SContainerRestartCountKey is the attribute Key conforming to the - // "k8s.container.restart_count" semantic conventions. It represents the number - // of times the container was restarted. This attribute can be used to identify - // a particular container (running or stopped) within a container spec. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: - K8SContainerRestartCountKey = attribute.Key("k8s.container.restart_count") - - // K8SContainerStatusLastTerminatedReasonKey is the attribute Key conforming to - // the "k8s.container.status.last_terminated_reason" semantic conventions. It - // represents the last terminated reason of the Container. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Evicted", "Error" - K8SContainerStatusLastTerminatedReasonKey = attribute.Key("k8s.container.status.last_terminated_reason") - - // K8SContainerStatusReasonKey is the attribute Key conforming to the - // "k8s.container.status.reason" semantic conventions. It represents the reason - // for the container state. Corresponds to the `reason` field of the: - // [K8s ContainerStateWaiting] or [K8s ContainerStateTerminated]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "ContainerCreating", "CrashLoopBackOff", - // "CreateContainerConfigError", "ErrImagePull", "ImagePullBackOff", - // "OOMKilled", "Completed", "Error", "ContainerCannotRun" - // - // [K8s ContainerStateWaiting]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#containerstatewaiting-v1-core - // [K8s ContainerStateTerminated]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#containerstateterminated-v1-core - K8SContainerStatusReasonKey = attribute.Key("k8s.container.status.reason") - - // K8SContainerStatusStateKey is the attribute Key conforming to the - // "k8s.container.status.state" semantic conventions. It represents the state of - // the container. [K8s ContainerState]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "terminated", "running", "waiting" - // - // [K8s ContainerState]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#containerstate-v1-core - K8SContainerStatusStateKey = attribute.Key("k8s.container.status.state") - - // K8SCronJobNameKey is the attribute Key conforming to the "k8s.cronjob.name" - // semantic conventions. It represents the name of the CronJob. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry" - K8SCronJobNameKey = attribute.Key("k8s.cronjob.name") - - // K8SCronJobUIDKey is the attribute Key conforming to the "k8s.cronjob.uid" - // semantic conventions. It represents the UID of the CronJob. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SCronJobUIDKey = attribute.Key("k8s.cronjob.uid") - - // K8SDaemonSetNameKey is the attribute Key conforming to the - // "k8s.daemonset.name" semantic conventions. It represents the name of the - // DaemonSet. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry" - K8SDaemonSetNameKey = attribute.Key("k8s.daemonset.name") - - // K8SDaemonSetUIDKey is the attribute Key conforming to the "k8s.daemonset.uid" - // semantic conventions. It represents the UID of the DaemonSet. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SDaemonSetUIDKey = attribute.Key("k8s.daemonset.uid") - - // K8SDeploymentNameKey is the attribute Key conforming to the - // "k8s.deployment.name" semantic conventions. It represents the name of the - // Deployment. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry" - K8SDeploymentNameKey = attribute.Key("k8s.deployment.name") - - // K8SDeploymentUIDKey is the attribute Key conforming to the - // "k8s.deployment.uid" semantic conventions. It represents the UID of the - // Deployment. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SDeploymentUIDKey = attribute.Key("k8s.deployment.uid") - - // K8SHPAMetricTypeKey is the attribute Key conforming to the - // "k8s.hpa.metric.type" semantic conventions. It represents the type of metric - // source for the horizontal pod autoscaler. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Resource", "ContainerResource" - // Note: This attribute reflects the `type` field of spec.metrics[] in the HPA. - K8SHPAMetricTypeKey = attribute.Key("k8s.hpa.metric.type") - - // K8SHPANameKey is the attribute Key conforming to the "k8s.hpa.name" semantic - // conventions. It represents the name of the horizontal pod autoscaler. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "opentelemetry" - K8SHPANameKey = attribute.Key("k8s.hpa.name") - - // K8SHPAScaletargetrefAPIVersionKey is the attribute Key conforming to the - // "k8s.hpa.scaletargetref.api_version" semantic conventions. It represents the - // API version of the target resource to scale for the HorizontalPodAutoscaler. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "apps/v1", "autoscaling/v2" - // Note: This maps to the `apiVersion` field in the `scaleTargetRef` of the HPA - // spec. - K8SHPAScaletargetrefAPIVersionKey = attribute.Key("k8s.hpa.scaletargetref.api_version") - - // K8SHPAScaletargetrefKindKey is the attribute Key conforming to the - // "k8s.hpa.scaletargetref.kind" semantic conventions. It represents the kind of - // the target resource to scale for the HorizontalPodAutoscaler. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Deployment", "StatefulSet" - // Note: This maps to the `kind` field in the `scaleTargetRef` of the HPA spec. - K8SHPAScaletargetrefKindKey = attribute.Key("k8s.hpa.scaletargetref.kind") - - // K8SHPAScaletargetrefNameKey is the attribute Key conforming to the - // "k8s.hpa.scaletargetref.name" semantic conventions. It represents the name of - // the target resource to scale for the HorizontalPodAutoscaler. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-deployment", "my-statefulset" - // Note: This maps to the `name` field in the `scaleTargetRef` of the HPA spec. - K8SHPAScaletargetrefNameKey = attribute.Key("k8s.hpa.scaletargetref.name") - - // K8SHPAUIDKey is the attribute Key conforming to the "k8s.hpa.uid" semantic - // conventions. It represents the UID of the horizontal pod autoscaler. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SHPAUIDKey = attribute.Key("k8s.hpa.uid") - - // K8SHugepageSizeKey is the attribute Key conforming to the "k8s.hugepage.size" - // semantic conventions. It represents the size (identifier) of the K8s huge - // page. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2Mi" - K8SHugepageSizeKey = attribute.Key("k8s.hugepage.size") - - // K8SJobNameKey is the attribute Key conforming to the "k8s.job.name" semantic - // conventions. It represents the name of the Job. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry" - K8SJobNameKey = attribute.Key("k8s.job.name") - - // K8SJobUIDKey is the attribute Key conforming to the "k8s.job.uid" semantic - // conventions. It represents the UID of the Job. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SJobUIDKey = attribute.Key("k8s.job.uid") - - // K8SNamespaceNameKey is the attribute Key conforming to the - // "k8s.namespace.name" semantic conventions. It represents the name of the - // namespace that the pod is running in. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "default" - K8SNamespaceNameKey = attribute.Key("k8s.namespace.name") - - // K8SNamespacePhaseKey is the attribute Key conforming to the - // "k8s.namespace.phase" semantic conventions. It represents the phase of the - // K8s namespace. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "active", "terminating" - // Note: This attribute aligns with the `phase` field of the - // [K8s NamespaceStatus] - // - // [K8s NamespaceStatus]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#namespacestatus-v1-core - K8SNamespacePhaseKey = attribute.Key("k8s.namespace.phase") - - // K8SNodeConditionStatusKey is the attribute Key conforming to the - // "k8s.node.condition.status" semantic conventions. It represents the status of - // the condition, one of True, False, Unknown. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "true", "false", "unknown" - // Note: This attribute aligns with the `status` field of the - // [NodeCondition] - // - // [NodeCondition]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#nodecondition-v1-core - K8SNodeConditionStatusKey = attribute.Key("k8s.node.condition.status") - - // K8SNodeConditionTypeKey is the attribute Key conforming to the - // "k8s.node.condition.type" semantic conventions. It represents the condition - // type of a K8s Node. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Ready", "DiskPressure" - // Note: K8s Node conditions as described - // by [K8s documentation]. - // - // This attribute aligns with the `type` field of the - // [NodeCondition] - // - // The set of possible values is not limited to those listed here. Managed - // Kubernetes environments, - // or custom controllers MAY introduce additional node condition types. - // When this occurs, the exact value as reported by the Kubernetes API SHOULD be - // used. - // - // [K8s documentation]: https://v1-32.docs.kubernetes.io/docs/reference/node/node-status/#condition - // [NodeCondition]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#nodecondition-v1-core - K8SNodeConditionTypeKey = attribute.Key("k8s.node.condition.type") - - // K8SNodeNameKey is the attribute Key conforming to the "k8s.node.name" - // semantic conventions. It represents the name of the Node. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "node-1" - K8SNodeNameKey = attribute.Key("k8s.node.name") - - // K8SNodeUIDKey is the attribute Key conforming to the "k8s.node.uid" semantic - // conventions. It represents the UID of the Node. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "1eb3a0c6-0477-4080-a9cb-0cb7db65c6a2" - K8SNodeUIDKey = attribute.Key("k8s.node.uid") - - // K8SPodHostnameKey is the attribute Key conforming to the "k8s.pod.hostname" - // semantic conventions. It represents the specifies the hostname of the Pod. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "collector-gateway" - // Note: The K8s Pod spec has an optional hostname field, which can be used to - // specify a hostname. - // Refer to [K8s docs] - // for more information about this field. - // - // This attribute aligns with the `hostname` field of the - // [K8s PodSpec]. - // - // [K8s docs]: https://kubernetes.io/docs/concepts/services-networking/dns-pod-service/#pod-hostname-and-subdomain-field - // [K8s PodSpec]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.34/#podspec-v1-core - K8SPodHostnameKey = attribute.Key("k8s.pod.hostname") - - // K8SPodIPKey is the attribute Key conforming to the "k8s.pod.ip" semantic - // conventions. It represents the IP address allocated to the Pod. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "172.18.0.2" - // Note: This attribute aligns with the `podIP` field of the - // [K8s PodStatus]. - // - // [K8s PodStatus]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.34/#podstatus-v1-core - K8SPodIPKey = attribute.Key("k8s.pod.ip") - - // K8SPodNameKey is the attribute Key conforming to the "k8s.pod.name" semantic - // conventions. It represents the name of the Pod. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry-pod-autoconf" - K8SPodNameKey = attribute.Key("k8s.pod.name") - - // K8SPodStartTimeKey is the attribute Key conforming to the - // "k8s.pod.start_time" semantic conventions. It represents the start timestamp - // of the Pod. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "2025-12-04T08:41:03Z" - // Note: Date and time at which the object was acknowledged by the Kubelet. - // This is before the Kubelet pulled the container image(s) for the pod. - // - // This attribute aligns with the `startTime` field of the - // [K8s PodStatus], - // in ISO 8601 (RFC 3339 compatible) format. - // - // [K8s PodStatus]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.34/#podstatus-v1-core - K8SPodStartTimeKey = attribute.Key("k8s.pod.start_time") - - // K8SPodStatusPhaseKey is the attribute Key conforming to the - // "k8s.pod.status.phase" semantic conventions. It represents the phase for the - // pod. Corresponds to the `phase` field of the: [K8s PodStatus]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Pending", "Running" - // - // [K8s PodStatus]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.33/#podstatus-v1-core - K8SPodStatusPhaseKey = attribute.Key("k8s.pod.status.phase") - - // K8SPodStatusReasonKey is the attribute Key conforming to the - // "k8s.pod.status.reason" semantic conventions. It represents the reason for - // the pod state. Corresponds to the `reason` field of the: [K8s PodStatus]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Evicted", "NodeAffinity" - // - // [K8s PodStatus]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.33/#podstatus-v1-core - K8SPodStatusReasonKey = attribute.Key("k8s.pod.status.reason") - - // K8SPodUIDKey is the attribute Key conforming to the "k8s.pod.uid" semantic - // conventions. It represents the UID of the Pod. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SPodUIDKey = attribute.Key("k8s.pod.uid") - - // K8SReplicaSetNameKey is the attribute Key conforming to the - // "k8s.replicaset.name" semantic conventions. It represents the name of the - // ReplicaSet. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry" - K8SReplicaSetNameKey = attribute.Key("k8s.replicaset.name") - - // K8SReplicaSetUIDKey is the attribute Key conforming to the - // "k8s.replicaset.uid" semantic conventions. It represents the UID of the - // ReplicaSet. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SReplicaSetUIDKey = attribute.Key("k8s.replicaset.uid") - - // K8SReplicationControllerNameKey is the attribute Key conforming to the - // "k8s.replicationcontroller.name" semantic conventions. It represents the name - // of the replication controller. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "opentelemetry" - K8SReplicationControllerNameKey = attribute.Key("k8s.replicationcontroller.name") - - // K8SReplicationControllerUIDKey is the attribute Key conforming to the - // "k8s.replicationcontroller.uid" semantic conventions. It represents the UID - // of the replication controller. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SReplicationControllerUIDKey = attribute.Key("k8s.replicationcontroller.uid") - - // K8SResourceQuotaNameKey is the attribute Key conforming to the - // "k8s.resourcequota.name" semantic conventions. It represents the name of the - // resource quota. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "opentelemetry" - K8SResourceQuotaNameKey = attribute.Key("k8s.resourcequota.name") - - // K8SResourceQuotaResourceNameKey is the attribute Key conforming to the - // "k8s.resourcequota.resource_name" semantic conventions. It represents the - // name of the K8s resource a resource quota defines. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "count/replicationcontrollers" - // Note: The value for this attribute can be either the full - // `count/[.]` string (e.g., count/deployments.apps, - // count/pods), or, for certain core Kubernetes resources, just the resource - // name (e.g., pods, services, configmaps). Both forms are supported by - // Kubernetes for object count quotas. See - // [Kubernetes Resource Quotas documentation] for more details. - // - // [Kubernetes Resource Quotas documentation]: https://kubernetes.io/docs/concepts/policy/resource-quotas/#quota-on-object-count - K8SResourceQuotaResourceNameKey = attribute.Key("k8s.resourcequota.resource_name") - - // K8SResourceQuotaUIDKey is the attribute Key conforming to the - // "k8s.resourcequota.uid" semantic conventions. It represents the UID of the - // resource quota. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SResourceQuotaUIDKey = attribute.Key("k8s.resourcequota.uid") - - // K8SStatefulSetNameKey is the attribute Key conforming to the - // "k8s.statefulset.name" semantic conventions. It represents the name of the - // StatefulSet. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "opentelemetry" - K8SStatefulSetNameKey = attribute.Key("k8s.statefulset.name") - - // K8SStatefulSetUIDKey is the attribute Key conforming to the - // "k8s.statefulset.uid" semantic conventions. It represents the UID of the - // StatefulSet. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Alpha - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - K8SStatefulSetUIDKey = attribute.Key("k8s.statefulset.uid") - - // K8SStorageclassNameKey is the attribute Key conforming to the - // "k8s.storageclass.name" semantic conventions. It represents the name of K8s - // [StorageClass] object. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "gold.storageclass.storage.k8s.io" - // - // [StorageClass]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#storageclass-v1-storage-k8s-io - K8SStorageclassNameKey = attribute.Key("k8s.storageclass.name") - - // K8SVolumeNameKey is the attribute Key conforming to the "k8s.volume.name" - // semantic conventions. It represents the name of the K8s volume. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "volume0" - K8SVolumeNameKey = attribute.Key("k8s.volume.name") - - // K8SVolumeTypeKey is the attribute Key conforming to the "k8s.volume.type" - // semantic conventions. It represents the type of the K8s volume. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "emptyDir", "persistentVolumeClaim" - K8SVolumeTypeKey = attribute.Key("k8s.volume.type") -) - -// K8SClusterName returns an attribute KeyValue conforming to the -// "k8s.cluster.name" semantic conventions. It represents the name of the -// cluster. -func K8SClusterName(val string) attribute.KeyValue { - return K8SClusterNameKey.String(val) -} - -// K8SClusterUID returns an attribute KeyValue conforming to the -// "k8s.cluster.uid" semantic conventions. It represents a pseudo-ID for the -// cluster, set to the UID of the `kube-system` namespace. -func K8SClusterUID(val string) attribute.KeyValue { - return K8SClusterUIDKey.String(val) -} - -// K8SContainerName returns an attribute KeyValue conforming to the -// "k8s.container.name" semantic conventions. It represents the name of the -// Container from Pod specification, must be unique within a Pod. Container -// runtime usually uses different globally unique name (`container.name`). -func K8SContainerName(val string) attribute.KeyValue { - return K8SContainerNameKey.String(val) -} - -// K8SContainerRestartCount returns an attribute KeyValue conforming to the -// "k8s.container.restart_count" semantic conventions. It represents the number -// of times the container was restarted. This attribute can be used to identify a -// particular container (running or stopped) within a container spec. -func K8SContainerRestartCount(val int) attribute.KeyValue { - return K8SContainerRestartCountKey.Int(val) -} - -// K8SContainerStatusLastTerminatedReason returns an attribute KeyValue -// conforming to the "k8s.container.status.last_terminated_reason" semantic -// conventions. It represents the last terminated reason of the Container. -func K8SContainerStatusLastTerminatedReason(val string) attribute.KeyValue { - return K8SContainerStatusLastTerminatedReasonKey.String(val) -} - -// K8SCronJobAnnotation returns an attribute KeyValue conforming to the -// "k8s.cronjob.annotation" semantic conventions. It represents the cronjob -// annotation placed on the CronJob, the `` being the annotation name, the -// value being the annotation value. -func K8SCronJobAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.cronjob.annotation."+key, val) -} - -// K8SCronJobLabel returns an attribute KeyValue conforming to the -// "k8s.cronjob.label" semantic conventions. It represents the label placed on -// the CronJob, the `` being the label name, the value being the label -// value. -func K8SCronJobLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.cronjob.label."+key, val) -} - -// K8SCronJobName returns an attribute KeyValue conforming to the -// "k8s.cronjob.name" semantic conventions. It represents the name of the -// CronJob. -func K8SCronJobName(val string) attribute.KeyValue { - return K8SCronJobNameKey.String(val) -} - -// K8SCronJobUID returns an attribute KeyValue conforming to the -// "k8s.cronjob.uid" semantic conventions. It represents the UID of the CronJob. -func K8SCronJobUID(val string) attribute.KeyValue { - return K8SCronJobUIDKey.String(val) -} - -// K8SDaemonSetAnnotation returns an attribute KeyValue conforming to the -// "k8s.daemonset.annotation" semantic conventions. It represents the annotation -// placed on the DaemonSet, the `` being the annotation name, the value -// being the annotation value, even if the value is empty. -func K8SDaemonSetAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.daemonset.annotation."+key, val) -} - -// K8SDaemonSetLabel returns an attribute KeyValue conforming to the -// "k8s.daemonset.label" semantic conventions. It represents the label placed on -// the DaemonSet, the `` being the label name, the value being the label -// value, even if the value is empty. -func K8SDaemonSetLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.daemonset.label."+key, val) -} - -// K8SDaemonSetName returns an attribute KeyValue conforming to the -// "k8s.daemonset.name" semantic conventions. It represents the name of the -// DaemonSet. -func K8SDaemonSetName(val string) attribute.KeyValue { - return K8SDaemonSetNameKey.String(val) -} - -// K8SDaemonSetUID returns an attribute KeyValue conforming to the -// "k8s.daemonset.uid" semantic conventions. It represents the UID of the -// DaemonSet. -func K8SDaemonSetUID(val string) attribute.KeyValue { - return K8SDaemonSetUIDKey.String(val) -} - -// K8SDeploymentAnnotation returns an attribute KeyValue conforming to the -// "k8s.deployment.annotation" semantic conventions. It represents the annotation -// placed on the Deployment, the `` being the annotation name, the value -// being the annotation value, even if the value is empty. -func K8SDeploymentAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.deployment.annotation."+key, val) -} - -// K8SDeploymentLabel returns an attribute KeyValue conforming to the -// "k8s.deployment.label" semantic conventions. It represents the label placed on -// the Deployment, the `` being the label name, the value being the label -// value, even if the value is empty. -func K8SDeploymentLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.deployment.label."+key, val) -} - -// K8SDeploymentName returns an attribute KeyValue conforming to the -// "k8s.deployment.name" semantic conventions. It represents the name of the -// Deployment. -func K8SDeploymentName(val string) attribute.KeyValue { - return K8SDeploymentNameKey.String(val) -} - -// K8SDeploymentUID returns an attribute KeyValue conforming to the -// "k8s.deployment.uid" semantic conventions. It represents the UID of the -// Deployment. -func K8SDeploymentUID(val string) attribute.KeyValue { - return K8SDeploymentUIDKey.String(val) -} - -// K8SHPAMetricType returns an attribute KeyValue conforming to the -// "k8s.hpa.metric.type" semantic conventions. It represents the type of metric -// source for the horizontal pod autoscaler. -func K8SHPAMetricType(val string) attribute.KeyValue { - return K8SHPAMetricTypeKey.String(val) -} - -// K8SHPAName returns an attribute KeyValue conforming to the "k8s.hpa.name" -// semantic conventions. It represents the name of the horizontal pod autoscaler. -func K8SHPAName(val string) attribute.KeyValue { - return K8SHPANameKey.String(val) -} - -// K8SHPAScaletargetrefAPIVersion returns an attribute KeyValue conforming to the -// "k8s.hpa.scaletargetref.api_version" semantic conventions. It represents the -// API version of the target resource to scale for the HorizontalPodAutoscaler. -func K8SHPAScaletargetrefAPIVersion(val string) attribute.KeyValue { - return K8SHPAScaletargetrefAPIVersionKey.String(val) -} - -// K8SHPAScaletargetrefKind returns an attribute KeyValue conforming to the -// "k8s.hpa.scaletargetref.kind" semantic conventions. It represents the kind of -// the target resource to scale for the HorizontalPodAutoscaler. -func K8SHPAScaletargetrefKind(val string) attribute.KeyValue { - return K8SHPAScaletargetrefKindKey.String(val) -} - -// K8SHPAScaletargetrefName returns an attribute KeyValue conforming to the -// "k8s.hpa.scaletargetref.name" semantic conventions. It represents the name of -// the target resource to scale for the HorizontalPodAutoscaler. -func K8SHPAScaletargetrefName(val string) attribute.KeyValue { - return K8SHPAScaletargetrefNameKey.String(val) -} - -// K8SHPAUID returns an attribute KeyValue conforming to the "k8s.hpa.uid" -// semantic conventions. It represents the UID of the horizontal pod autoscaler. -func K8SHPAUID(val string) attribute.KeyValue { - return K8SHPAUIDKey.String(val) -} - -// K8SHugepageSize returns an attribute KeyValue conforming to the -// "k8s.hugepage.size" semantic conventions. It represents the size (identifier) -// of the K8s huge page. -func K8SHugepageSize(val string) attribute.KeyValue { - return K8SHugepageSizeKey.String(val) -} - -// K8SJobAnnotation returns an attribute KeyValue conforming to the -// "k8s.job.annotation" semantic conventions. It represents the annotation placed -// on the Job, the `` being the annotation name, the value being the -// annotation value, even if the value is empty. -func K8SJobAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.job.annotation."+key, val) -} - -// K8SJobLabel returns an attribute KeyValue conforming to the "k8s.job.label" -// semantic conventions. It represents the label placed on the Job, the `` -// being the label name, the value being the label value, even if the value is -// empty. -func K8SJobLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.job.label."+key, val) -} - -// K8SJobName returns an attribute KeyValue conforming to the "k8s.job.name" -// semantic conventions. It represents the name of the Job. -func K8SJobName(val string) attribute.KeyValue { - return K8SJobNameKey.String(val) -} - -// K8SJobUID returns an attribute KeyValue conforming to the "k8s.job.uid" -// semantic conventions. It represents the UID of the Job. -func K8SJobUID(val string) attribute.KeyValue { - return K8SJobUIDKey.String(val) -} - -// K8SNamespaceAnnotation returns an attribute KeyValue conforming to the -// "k8s.namespace.annotation" semantic conventions. It represents the annotation -// placed on the Namespace, the `` being the annotation name, the value -// being the annotation value, even if the value is empty. -func K8SNamespaceAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.namespace.annotation."+key, val) -} - -// K8SNamespaceLabel returns an attribute KeyValue conforming to the -// "k8s.namespace.label" semantic conventions. It represents the label placed on -// the Namespace, the `` being the label name, the value being the label -// value, even if the value is empty. -func K8SNamespaceLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.namespace.label."+key, val) -} - -// K8SNamespaceName returns an attribute KeyValue conforming to the -// "k8s.namespace.name" semantic conventions. It represents the name of the -// namespace that the pod is running in. -func K8SNamespaceName(val string) attribute.KeyValue { - return K8SNamespaceNameKey.String(val) -} - -// K8SNodeAnnotation returns an attribute KeyValue conforming to the -// "k8s.node.annotation" semantic conventions. It represents the annotation -// placed on the Node, the `` being the annotation name, the value being the -// annotation value, even if the value is empty. -func K8SNodeAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.node.annotation."+key, val) -} - -// K8SNodeLabel returns an attribute KeyValue conforming to the "k8s.node.label" -// semantic conventions. It represents the label placed on the Node, the `` -// being the label name, the value being the label value, even if the value is -// empty. -func K8SNodeLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.node.label."+key, val) -} - -// K8SNodeName returns an attribute KeyValue conforming to the "k8s.node.name" -// semantic conventions. It represents the name of the Node. -func K8SNodeName(val string) attribute.KeyValue { - return K8SNodeNameKey.String(val) -} - -// K8SNodeUID returns an attribute KeyValue conforming to the "k8s.node.uid" -// semantic conventions. It represents the UID of the Node. -func K8SNodeUID(val string) attribute.KeyValue { - return K8SNodeUIDKey.String(val) -} - -// K8SPodAnnotation returns an attribute KeyValue conforming to the -// "k8s.pod.annotation" semantic conventions. It represents the annotation placed -// on the Pod, the `` being the annotation name, the value being the -// annotation value. -func K8SPodAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.pod.annotation."+key, val) -} - -// K8SPodHostname returns an attribute KeyValue conforming to the -// "k8s.pod.hostname" semantic conventions. It represents the specifies the -// hostname of the Pod. -func K8SPodHostname(val string) attribute.KeyValue { - return K8SPodHostnameKey.String(val) -} - -// K8SPodIP returns an attribute KeyValue conforming to the "k8s.pod.ip" semantic -// conventions. It represents the IP address allocated to the Pod. -func K8SPodIP(val string) attribute.KeyValue { - return K8SPodIPKey.String(val) -} - -// K8SPodLabel returns an attribute KeyValue conforming to the "k8s.pod.label" -// semantic conventions. It represents the label placed on the Pod, the `` -// being the label name, the value being the label value. -func K8SPodLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.pod.label."+key, val) -} - -// K8SPodName returns an attribute KeyValue conforming to the "k8s.pod.name" -// semantic conventions. It represents the name of the Pod. -func K8SPodName(val string) attribute.KeyValue { - return K8SPodNameKey.String(val) -} - -// K8SPodStartTime returns an attribute KeyValue conforming to the -// "k8s.pod.start_time" semantic conventions. It represents the start timestamp -// of the Pod. -func K8SPodStartTime(val string) attribute.KeyValue { - return K8SPodStartTimeKey.String(val) -} - -// K8SPodUID returns an attribute KeyValue conforming to the "k8s.pod.uid" -// semantic conventions. It represents the UID of the Pod. -func K8SPodUID(val string) attribute.KeyValue { - return K8SPodUIDKey.String(val) -} - -// K8SReplicaSetAnnotation returns an attribute KeyValue conforming to the -// "k8s.replicaset.annotation" semantic conventions. It represents the annotation -// placed on the ReplicaSet, the `` being the annotation name, the value -// being the annotation value, even if the value is empty. -func K8SReplicaSetAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.replicaset.annotation."+key, val) -} - -// K8SReplicaSetLabel returns an attribute KeyValue conforming to the -// "k8s.replicaset.label" semantic conventions. It represents the label placed on -// the ReplicaSet, the `` being the label name, the value being the label -// value, even if the value is empty. -func K8SReplicaSetLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.replicaset.label."+key, val) -} - -// K8SReplicaSetName returns an attribute KeyValue conforming to the -// "k8s.replicaset.name" semantic conventions. It represents the name of the -// ReplicaSet. -func K8SReplicaSetName(val string) attribute.KeyValue { - return K8SReplicaSetNameKey.String(val) -} - -// K8SReplicaSetUID returns an attribute KeyValue conforming to the -// "k8s.replicaset.uid" semantic conventions. It represents the UID of the -// ReplicaSet. -func K8SReplicaSetUID(val string) attribute.KeyValue { - return K8SReplicaSetUIDKey.String(val) -} - -// K8SReplicationControllerName returns an attribute KeyValue conforming to the -// "k8s.replicationcontroller.name" semantic conventions. It represents the name -// of the replication controller. -func K8SReplicationControllerName(val string) attribute.KeyValue { - return K8SReplicationControllerNameKey.String(val) -} - -// K8SReplicationControllerUID returns an attribute KeyValue conforming to the -// "k8s.replicationcontroller.uid" semantic conventions. It represents the UID of -// the replication controller. -func K8SReplicationControllerUID(val string) attribute.KeyValue { - return K8SReplicationControllerUIDKey.String(val) -} - -// K8SResourceQuotaName returns an attribute KeyValue conforming to the -// "k8s.resourcequota.name" semantic conventions. It represents the name of the -// resource quota. -func K8SResourceQuotaName(val string) attribute.KeyValue { - return K8SResourceQuotaNameKey.String(val) -} - -// K8SResourceQuotaResourceName returns an attribute KeyValue conforming to the -// "k8s.resourcequota.resource_name" semantic conventions. It represents the name -// of the K8s resource a resource quota defines. -func K8SResourceQuotaResourceName(val string) attribute.KeyValue { - return K8SResourceQuotaResourceNameKey.String(val) -} - -// K8SResourceQuotaUID returns an attribute KeyValue conforming to the -// "k8s.resourcequota.uid" semantic conventions. It represents the UID of the -// resource quota. -func K8SResourceQuotaUID(val string) attribute.KeyValue { - return K8SResourceQuotaUIDKey.String(val) -} - -// K8SStatefulSetAnnotation returns an attribute KeyValue conforming to the -// "k8s.statefulset.annotation" semantic conventions. It represents the -// annotation placed on the StatefulSet, the `` being the annotation name, -// the value being the annotation value, even if the value is empty. -func K8SStatefulSetAnnotation(key string, val string) attribute.KeyValue { - return attribute.String("k8s.statefulset.annotation."+key, val) -} - -// K8SStatefulSetLabel returns an attribute KeyValue conforming to the -// "k8s.statefulset.label" semantic conventions. It represents the label placed -// on the StatefulSet, the `` being the label name, the value being the -// label value, even if the value is empty. -func K8SStatefulSetLabel(key string, val string) attribute.KeyValue { - return attribute.String("k8s.statefulset.label."+key, val) -} - -// K8SStatefulSetName returns an attribute KeyValue conforming to the -// "k8s.statefulset.name" semantic conventions. It represents the name of the -// StatefulSet. -func K8SStatefulSetName(val string) attribute.KeyValue { - return K8SStatefulSetNameKey.String(val) -} - -// K8SStatefulSetUID returns an attribute KeyValue conforming to the -// "k8s.statefulset.uid" semantic conventions. It represents the UID of the -// StatefulSet. -func K8SStatefulSetUID(val string) attribute.KeyValue { - return K8SStatefulSetUIDKey.String(val) -} - -// K8SStorageclassName returns an attribute KeyValue conforming to the -// "k8s.storageclass.name" semantic conventions. It represents the name of K8s -// [StorageClass] object. -// -// [StorageClass]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.30/#storageclass-v1-storage-k8s-io -func K8SStorageclassName(val string) attribute.KeyValue { - return K8SStorageclassNameKey.String(val) -} - -// K8SVolumeName returns an attribute KeyValue conforming to the -// "k8s.volume.name" semantic conventions. It represents the name of the K8s -// volume. -func K8SVolumeName(val string) attribute.KeyValue { - return K8SVolumeNameKey.String(val) -} - -// Enum values for k8s.container.status.reason -var ( - // The container is being created. - // Stability: development - K8SContainerStatusReasonContainerCreating = K8SContainerStatusReasonKey.String("ContainerCreating") - // The container is in a crash loop back off state. - // Stability: development - K8SContainerStatusReasonCrashLoopBackOff = K8SContainerStatusReasonKey.String("CrashLoopBackOff") - // There was an error creating the container configuration. - // Stability: development - K8SContainerStatusReasonCreateContainerConfigError = K8SContainerStatusReasonKey.String("CreateContainerConfigError") - // There was an error pulling the container image. - // Stability: development - K8SContainerStatusReasonErrImagePull = K8SContainerStatusReasonKey.String("ErrImagePull") - // The container image pull is in back off state. - // Stability: development - K8SContainerStatusReasonImagePullBackOff = K8SContainerStatusReasonKey.String("ImagePullBackOff") - // The container was killed due to out of memory. - // Stability: development - K8SContainerStatusReasonOomKilled = K8SContainerStatusReasonKey.String("OOMKilled") - // The container has completed execution. - // Stability: development - K8SContainerStatusReasonCompleted = K8SContainerStatusReasonKey.String("Completed") - // There was an error with the container. - // Stability: development - K8SContainerStatusReasonError = K8SContainerStatusReasonKey.String("Error") - // The container cannot run. - // Stability: development - K8SContainerStatusReasonContainerCannotRun = K8SContainerStatusReasonKey.String("ContainerCannotRun") -) - -// Enum values for k8s.container.status.state -var ( - // The container has terminated. - // Stability: development - K8SContainerStatusStateTerminated = K8SContainerStatusStateKey.String("terminated") - // The container is running. - // Stability: development - K8SContainerStatusStateRunning = K8SContainerStatusStateKey.String("running") - // The container is waiting. - // Stability: development - K8SContainerStatusStateWaiting = K8SContainerStatusStateKey.String("waiting") -) - -// Enum values for k8s.namespace.phase -var ( - // Active namespace phase as described by [K8s API] - // Stability: development - // - // [K8s API]: https://pkg.go.dev/k8s.io/api@v0.31.3/core/v1#NamespacePhase - K8SNamespacePhaseActive = K8SNamespacePhaseKey.String("active") - // Terminating namespace phase as described by [K8s API] - // Stability: development - // - // [K8s API]: https://pkg.go.dev/k8s.io/api@v0.31.3/core/v1#NamespacePhase - K8SNamespacePhaseTerminating = K8SNamespacePhaseKey.String("terminating") -) - -// Enum values for k8s.node.condition.status -var ( - // condition_true - // Stability: development - K8SNodeConditionStatusConditionTrue = K8SNodeConditionStatusKey.String("true") - // condition_false - // Stability: development - K8SNodeConditionStatusConditionFalse = K8SNodeConditionStatusKey.String("false") - // condition_unknown - // Stability: development - K8SNodeConditionStatusConditionUnknown = K8SNodeConditionStatusKey.String("unknown") -) - -// Enum values for k8s.node.condition.type -var ( - // The node is healthy and ready to accept pods - // Stability: development - K8SNodeConditionTypeReady = K8SNodeConditionTypeKey.String("Ready") - // Pressure exists on the disk size—that is, if the disk capacity is low - // Stability: development - K8SNodeConditionTypeDiskPressure = K8SNodeConditionTypeKey.String("DiskPressure") - // Pressure exists on the node memory—that is, if the node memory is low - // Stability: development - K8SNodeConditionTypeMemoryPressure = K8SNodeConditionTypeKey.String("MemoryPressure") - // Pressure exists on the processes—that is, if there are too many processes - // on the node - // Stability: development - K8SNodeConditionTypePIDPressure = K8SNodeConditionTypeKey.String("PIDPressure") - // The network for the node is not correctly configured - // Stability: development - K8SNodeConditionTypeNetworkUnavailable = K8SNodeConditionTypeKey.String("NetworkUnavailable") -) - -// Enum values for k8s.pod.status.phase -var ( - // The pod has been accepted by the system, but one or more of the containers - // has not been started. This includes time before being bound to a node, as - // well as time spent pulling images onto the host. - // - // Stability: development - K8SPodStatusPhasePending = K8SPodStatusPhaseKey.String("Pending") - // The pod has been bound to a node and all of the containers have been started. - // At least one container is still running or is in the process of being - // restarted. - // - // Stability: development - K8SPodStatusPhaseRunning = K8SPodStatusPhaseKey.String("Running") - // All containers in the pod have voluntarily terminated with a container exit - // code of 0, and the system is not going to restart any of these containers. - // - // Stability: development - K8SPodStatusPhaseSucceeded = K8SPodStatusPhaseKey.String("Succeeded") - // All containers in the pod have terminated, and at least one container has - // terminated in a failure (exited with a non-zero exit code or was stopped by - // the system). - // - // Stability: development - K8SPodStatusPhaseFailed = K8SPodStatusPhaseKey.String("Failed") - // For some reason the state of the pod could not be obtained, typically due to - // an error in communicating with the host of the pod. - // - // Stability: development - K8SPodStatusPhaseUnknown = K8SPodStatusPhaseKey.String("Unknown") -) - -// Enum values for k8s.pod.status.reason -var ( - // The pod is evicted. - // Stability: development - K8SPodStatusReasonEvicted = K8SPodStatusReasonKey.String("Evicted") - // The pod is in a status because of its node affinity - // Stability: development - K8SPodStatusReasonNodeAffinity = K8SPodStatusReasonKey.String("NodeAffinity") - // The reason on a pod when its state cannot be confirmed as kubelet is - // unresponsive on the node it is (was) running. - // - // Stability: development - K8SPodStatusReasonNodeLost = K8SPodStatusReasonKey.String("NodeLost") - // The node is shutdown - // Stability: development - K8SPodStatusReasonShutdown = K8SPodStatusReasonKey.String("Shutdown") - // The pod was rejected admission to the node because of an error during - // admission that could not be categorized. - // - // Stability: development - K8SPodStatusReasonUnexpectedAdmissionError = K8SPodStatusReasonKey.String("UnexpectedAdmissionError") -) - -// Enum values for k8s.volume.type -var ( - // A [persistentVolumeClaim] volume - // Stability: development - // - // [persistentVolumeClaim]: https://v1-30.docs.kubernetes.io/docs/concepts/storage/volumes/#persistentvolumeclaim - K8SVolumeTypePersistentVolumeClaim = K8SVolumeTypeKey.String("persistentVolumeClaim") - // A [configMap] volume - // Stability: development - // - // [configMap]: https://v1-30.docs.kubernetes.io/docs/concepts/storage/volumes/#configmap - K8SVolumeTypeConfigMap = K8SVolumeTypeKey.String("configMap") - // A [downwardAPI] volume - // Stability: development - // - // [downwardAPI]: https://v1-30.docs.kubernetes.io/docs/concepts/storage/volumes/#downwardapi - K8SVolumeTypeDownwardAPI = K8SVolumeTypeKey.String("downwardAPI") - // An [emptyDir] volume - // Stability: development - // - // [emptyDir]: https://v1-30.docs.kubernetes.io/docs/concepts/storage/volumes/#emptydir - K8SVolumeTypeEmptyDir = K8SVolumeTypeKey.String("emptyDir") - // A [secret] volume - // Stability: development - // - // [secret]: https://v1-30.docs.kubernetes.io/docs/concepts/storage/volumes/#secret - K8SVolumeTypeSecret = K8SVolumeTypeKey.String("secret") - // A [local] volume - // Stability: development - // - // [local]: https://v1-30.docs.kubernetes.io/docs/concepts/storage/volumes/#local - K8SVolumeTypeLocal = K8SVolumeTypeKey.String("local") -) - -// Namespace: log -const ( - // LogFileNameKey is the attribute Key conforming to the "log.file.name" - // semantic conventions. It represents the basename of the file. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "audit.log" - LogFileNameKey = attribute.Key("log.file.name") - - // LogFileNameResolvedKey is the attribute Key conforming to the - // "log.file.name_resolved" semantic conventions. It represents the basename of - // the file, with symlinks resolved. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "uuid.log" - LogFileNameResolvedKey = attribute.Key("log.file.name_resolved") - - // LogFilePathKey is the attribute Key conforming to the "log.file.path" - // semantic conventions. It represents the full path to the file. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/var/log/mysql/audit.log" - LogFilePathKey = attribute.Key("log.file.path") - - // LogFilePathResolvedKey is the attribute Key conforming to the - // "log.file.path_resolved" semantic conventions. It represents the full path to - // the file, with symlinks resolved. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/var/lib/docker/uuid.log" - LogFilePathResolvedKey = attribute.Key("log.file.path_resolved") - - // LogIostreamKey is the attribute Key conforming to the "log.iostream" semantic - // conventions. It represents the stream associated with the log. See below for - // a list of well-known values. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - LogIostreamKey = attribute.Key("log.iostream") - - // LogRecordOriginalKey is the attribute Key conforming to the - // "log.record.original" semantic conventions. It represents the complete - // original Log Record. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "77 <86>1 2015-08-06T21:58:59.694Z 192.168.2.133 inactive - - - - // Something happened", "[INFO] 8/3/24 12:34:56 Something happened" - // Note: This value MAY be added when processing a Log Record which was - // originally transmitted as a string or equivalent data type AND the Body field - // of the Log Record does not contain the same value. (e.g. a syslog or a log - // record read from a file.) - LogRecordOriginalKey = attribute.Key("log.record.original") - - // LogRecordUIDKey is the attribute Key conforming to the "log.record.uid" - // semantic conventions. It represents a unique identifier for the Log Record. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "01ARZ3NDEKTSV4RRFFQ69G5FAV" - // Note: If an id is provided, other log records with the same id will be - // considered duplicates and can be removed safely. This means, that two - // distinguishable log records MUST have different values. - // The id MAY be an - // [Universally Unique Lexicographically Sortable Identifier (ULID)], but other - // identifiers (e.g. UUID) may be used as needed. - // - // [Universally Unique Lexicographically Sortable Identifier (ULID)]: https://github.com/ulid/spec - LogRecordUIDKey = attribute.Key("log.record.uid") -) - -// LogFileName returns an attribute KeyValue conforming to the "log.file.name" -// semantic conventions. It represents the basename of the file. -func LogFileName(val string) attribute.KeyValue { - return LogFileNameKey.String(val) -} - -// LogFileNameResolved returns an attribute KeyValue conforming to the -// "log.file.name_resolved" semantic conventions. It represents the basename of -// the file, with symlinks resolved. -func LogFileNameResolved(val string) attribute.KeyValue { - return LogFileNameResolvedKey.String(val) -} - -// LogFilePath returns an attribute KeyValue conforming to the "log.file.path" -// semantic conventions. It represents the full path to the file. -func LogFilePath(val string) attribute.KeyValue { - return LogFilePathKey.String(val) -} - -// LogFilePathResolved returns an attribute KeyValue conforming to the -// "log.file.path_resolved" semantic conventions. It represents the full path to -// the file, with symlinks resolved. -func LogFilePathResolved(val string) attribute.KeyValue { - return LogFilePathResolvedKey.String(val) -} - -// LogRecordOriginal returns an attribute KeyValue conforming to the -// "log.record.original" semantic conventions. It represents the complete -// original Log Record. -func LogRecordOriginal(val string) attribute.KeyValue { - return LogRecordOriginalKey.String(val) -} - -// LogRecordUID returns an attribute KeyValue conforming to the "log.record.uid" -// semantic conventions. It represents a unique identifier for the Log Record. -func LogRecordUID(val string) attribute.KeyValue { - return LogRecordUIDKey.String(val) -} - -// Enum values for log.iostream -var ( - // Logs from stdout stream - // Stability: development - LogIostreamStdout = LogIostreamKey.String("stdout") - // Events from stderr stream - // Stability: development - LogIostreamStderr = LogIostreamKey.String("stderr") -) - -// Namespace: mainframe -const ( - // MainframeLparNameKey is the attribute Key conforming to the - // "mainframe.lpar.name" semantic conventions. It represents the name of the - // logical partition that hosts a systems with a mainframe operating system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "LPAR01" - MainframeLparNameKey = attribute.Key("mainframe.lpar.name") -) - -// MainframeLparName returns an attribute KeyValue conforming to the -// "mainframe.lpar.name" semantic conventions. It represents the name of the -// logical partition that hosts a systems with a mainframe operating system. -func MainframeLparName(val string) attribute.KeyValue { - return MainframeLparNameKey.String(val) -} - -// Namespace: mcp -const ( - // McpMethodNameKey is the attribute Key conforming to the "mcp.method.name" - // semantic conventions. It represents the name of the request or notification - // method. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - McpMethodNameKey = attribute.Key("mcp.method.name") - - // McpProtocolVersionKey is the attribute Key conforming to the - // "mcp.protocol.version" semantic conventions. It represents the [version] of - // the Model Context Protocol used. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2025-06-18" - // - // [version]: https://modelcontextprotocol.io/specification/versioning - McpProtocolVersionKey = attribute.Key("mcp.protocol.version") - - // McpResourceURIKey is the attribute Key conforming to the "mcp.resource.uri" - // semantic conventions. It represents the value of the resource uri. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "postgres://database/customers/schema", - // "file:///home/user/documents/report.pdf" - // Note: This is a URI of the resource provided in the following requests or - // notifications: `resources/read`, `resources/subscribe`, - // `resources/unsubscribe`, or `notifications/resources/updated`. - McpResourceURIKey = attribute.Key("mcp.resource.uri") - - // McpSessionIDKey is the attribute Key conforming to the "mcp.session.id" - // semantic conventions. It represents the identifies [MCP session]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "191c4850af6c49e08843a3f6c80e5046" - // - // [MCP session]: https://modelcontextprotocol.io/specification/2025-06-18/basic/transports#session-management - McpSessionIDKey = attribute.Key("mcp.session.id") -) - -// McpProtocolVersion returns an attribute KeyValue conforming to the -// "mcp.protocol.version" semantic conventions. It represents the [version] of -// the Model Context Protocol used. -// -// [version]: https://modelcontextprotocol.io/specification/versioning -func McpProtocolVersion(val string) attribute.KeyValue { - return McpProtocolVersionKey.String(val) -} - -// McpResourceURI returns an attribute KeyValue conforming to the -// "mcp.resource.uri" semantic conventions. It represents the value of the -// resource uri. -func McpResourceURI(val string) attribute.KeyValue { - return McpResourceURIKey.String(val) -} - -// McpSessionID returns an attribute KeyValue conforming to the "mcp.session.id" -// semantic conventions. It represents the identifies [MCP session]. -// -// [MCP session]: https://modelcontextprotocol.io/specification/2025-06-18/basic/transports#session-management -func McpSessionID(val string) attribute.KeyValue { - return McpSessionIDKey.String(val) -} - -// Enum values for mcp.method.name -var ( - // Notification cancelling a previously-issued request. - // - // Stability: development - McpMethodNameNotificationsCancelled = McpMethodNameKey.String("notifications/cancelled") - // Request to initialize the MCP client. - // - // Stability: development - McpMethodNameInitialize = McpMethodNameKey.String("initialize") - // Notification indicating that the MCP client has been initialized. - // - // Stability: development - McpMethodNameNotificationsInitialized = McpMethodNameKey.String("notifications/initialized") - // Notification indicating the progress for a long-running operation. - // - // Stability: development - McpMethodNameNotificationsProgress = McpMethodNameKey.String("notifications/progress") - // Request to check that the other party is still alive. - // - // Stability: development - McpMethodNamePing = McpMethodNameKey.String("ping") - // Request to list resources available on server. - // - // Stability: development - McpMethodNameResourcesList = McpMethodNameKey.String("resources/list") - // Request to list resource templates available on server. - // - // Stability: development - McpMethodNameResourcesTemplatesList = McpMethodNameKey.String("resources/templates/list") - // Request to read a resource. - // - // Stability: development - McpMethodNameResourcesRead = McpMethodNameKey.String("resources/read") - // Notification indicating that the list of resources has changed. - // - // Stability: development - McpMethodNameNotificationsResourcesListChanged = McpMethodNameKey.String("notifications/resources/list_changed") - // Request to subscribe to a resource. - // - // Stability: development - McpMethodNameResourcesSubscribe = McpMethodNameKey.String("resources/subscribe") - // Request to unsubscribe from resource updates. - // - // Stability: development - McpMethodNameResourcesUnsubscribe = McpMethodNameKey.String("resources/unsubscribe") - // Notification indicating that a resource has been updated. - // - // Stability: development - McpMethodNameNotificationsResourcesUpdated = McpMethodNameKey.String("notifications/resources/updated") - // Request to list prompts available on server. - // - // Stability: development - McpMethodNamePromptsList = McpMethodNameKey.String("prompts/list") - // Request to get a prompt. - // - // Stability: development - McpMethodNamePromptsGet = McpMethodNameKey.String("prompts/get") - // Notification indicating that the list of prompts has changed. - // - // Stability: development - McpMethodNameNotificationsPromptsListChanged = McpMethodNameKey.String("notifications/prompts/list_changed") - // Request to list tools available on server. - // - // Stability: development - McpMethodNameToolsList = McpMethodNameKey.String("tools/list") - // Request to call a tool. - // - // Stability: development - McpMethodNameToolsCall = McpMethodNameKey.String("tools/call") - // Notification indicating that the list of tools has changed. - // - // Stability: development - McpMethodNameNotificationsToolsListChanged = McpMethodNameKey.String("notifications/tools/list_changed") - // Request to set the logging level. - // - // Stability: development - McpMethodNameLoggingSetLevel = McpMethodNameKey.String("logging/setLevel") - // Notification indicating that a message has been received. - // - // Stability: development - McpMethodNameNotificationsMessage = McpMethodNameKey.String("notifications/message") - // Request to create a sampling message. - // - // Stability: development - McpMethodNameSamplingCreateMessage = McpMethodNameKey.String("sampling/createMessage") - // Request to complete a prompt. - // - // Stability: development - McpMethodNameCompletionComplete = McpMethodNameKey.String("completion/complete") - // Request to list roots available on server. - // - // Stability: development - McpMethodNameRootsList = McpMethodNameKey.String("roots/list") - // Notification indicating that the list of roots has changed. - // - // Stability: development - McpMethodNameNotificationsRootsListChanged = McpMethodNameKey.String("notifications/roots/list_changed") - // Request from the server to elicit additional information from the user via - // the client - // - // Stability: development - McpMethodNameElicitationCreate = McpMethodNameKey.String("elicitation/create") -) - -// Namespace: messaging -const ( - // MessagingBatchMessageCountKey is the attribute Key conforming to the - // "messaging.batch.message_count" semantic conventions. It represents the - // number of messages sent, received, or processed in the scope of the batching - // operation. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 0, 1, 2 - // Note: Instrumentations SHOULD NOT set `messaging.batch.message_count` on - // spans that operate with a single message. When a messaging client library - // supports both batch and single-message API for the same operation, - // instrumentations SHOULD use `messaging.batch.message_count` for batching APIs - // and SHOULD NOT use it for single-message APIs. - MessagingBatchMessageCountKey = attribute.Key("messaging.batch.message_count") - - // MessagingClientIDKey is the attribute Key conforming to the - // "messaging.client.id" semantic conventions. It represents a unique identifier - // for the client that consumes or produces a message. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "client-5", "myhost@8742@s8083jm" - MessagingClientIDKey = attribute.Key("messaging.client.id") - - // MessagingConsumerGroupNameKey is the attribute Key conforming to the - // "messaging.consumer.group.name" semantic conventions. It represents the name - // of the consumer group with which a consumer is associated. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-group", "indexer" - // Note: Semantic conventions for individual messaging systems SHOULD document - // whether `messaging.consumer.group.name` is applicable and what it means in - // the context of that system. - MessagingConsumerGroupNameKey = attribute.Key("messaging.consumer.group.name") - - // MessagingDestinationAnonymousKey is the attribute Key conforming to the - // "messaging.destination.anonymous" semantic conventions. It represents a - // boolean that is true if the message destination is anonymous (could be - // unnamed or have auto-generated name). - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - MessagingDestinationAnonymousKey = attribute.Key("messaging.destination.anonymous") - - // MessagingDestinationNameKey is the attribute Key conforming to the - // "messaging.destination.name" semantic conventions. It represents the message - // destination name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "MyQueue", "MyTopic" - // Note: Destination name SHOULD uniquely identify a specific queue, topic or - // other entity within the broker. If - // the broker doesn't have such notion, the destination name SHOULD uniquely - // identify the broker. - MessagingDestinationNameKey = attribute.Key("messaging.destination.name") - - // MessagingDestinationPartitionIDKey is the attribute Key conforming to the - // "messaging.destination.partition.id" semantic conventions. It represents the - // identifier of the partition messages are sent to or received from, unique - // within the `messaging.destination.name`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1 - MessagingDestinationPartitionIDKey = attribute.Key("messaging.destination.partition.id") - - // MessagingDestinationSubscriptionNameKey is the attribute Key conforming to - // the "messaging.destination.subscription.name" semantic conventions. It - // represents the name of the destination subscription from which a message is - // consumed. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "subscription-a" - // Note: Semantic conventions for individual messaging systems SHOULD document - // whether `messaging.destination.subscription.name` is applicable and what it - // means in the context of that system. - MessagingDestinationSubscriptionNameKey = attribute.Key("messaging.destination.subscription.name") - - // MessagingDestinationTemplateKey is the attribute Key conforming to the - // "messaging.destination.template" semantic conventions. It represents the low - // cardinality representation of the messaging destination name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/customers/{customerId}" - // Note: Destination names could be constructed from templates. An example would - // be a destination name involving a user name or product id. Although the - // destination name in this case is of high cardinality, the underlying template - // is of low cardinality and can be effectively used for grouping and - // aggregation. - MessagingDestinationTemplateKey = attribute.Key("messaging.destination.template") - - // MessagingDestinationTemporaryKey is the attribute Key conforming to the - // "messaging.destination.temporary" semantic conventions. It represents a - // boolean that is true if the message destination is temporary and might not - // exist anymore after messages are processed. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - MessagingDestinationTemporaryKey = attribute.Key("messaging.destination.temporary") - - // MessagingEventHubsMessageEnqueuedTimeKey is the attribute Key conforming to - // the "messaging.eventhubs.message.enqueued_time" semantic conventions. It - // represents the UTC epoch seconds at which the message has been accepted and - // stored in the entity. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingEventHubsMessageEnqueuedTimeKey = attribute.Key("messaging.eventhubs.message.enqueued_time") - - // MessagingGCPPubSubMessageAckDeadlineKey is the attribute Key conforming to - // the "messaging.gcp_pubsub.message.ack_deadline" semantic conventions. It - // represents the ack deadline in seconds set for the modify ack deadline - // request. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingGCPPubSubMessageAckDeadlineKey = attribute.Key("messaging.gcp_pubsub.message.ack_deadline") - - // MessagingGCPPubSubMessageAckIDKey is the attribute Key conforming to the - // "messaging.gcp_pubsub.message.ack_id" semantic conventions. It represents the - // ack id for a given message. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: ack_id - MessagingGCPPubSubMessageAckIDKey = attribute.Key("messaging.gcp_pubsub.message.ack_id") - - // MessagingGCPPubSubMessageDeliveryAttemptKey is the attribute Key conforming - // to the "messaging.gcp_pubsub.message.delivery_attempt" semantic conventions. - // It represents the delivery attempt for a given message. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingGCPPubSubMessageDeliveryAttemptKey = attribute.Key("messaging.gcp_pubsub.message.delivery_attempt") - - // MessagingGCPPubSubMessageOrderingKeyKey is the attribute Key conforming to - // the "messaging.gcp_pubsub.message.ordering_key" semantic conventions. It - // represents the ordering key for a given message. If the attribute is not - // present, the message does not have an ordering key. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: ordering_key - MessagingGCPPubSubMessageOrderingKeyKey = attribute.Key("messaging.gcp_pubsub.message.ordering_key") - - // MessagingKafkaMessageKeyKey is the attribute Key conforming to the - // "messaging.kafka.message.key" semantic conventions. It represents the message - // keys in Kafka are used for grouping alike messages to ensure they're - // processed on the same partition. They differ from `messaging.message.id` in - // that they're not unique. If the key is `null`, the attribute MUST NOT be set. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: myKey - // Note: If the key type is not string, it's string representation has to be - // supplied for the attribute. If the key has no unambiguous, canonical string - // form, don't include its value. - MessagingKafkaMessageKeyKey = attribute.Key("messaging.kafka.message.key") - - // MessagingKafkaMessageTombstoneKey is the attribute Key conforming to the - // "messaging.kafka.message.tombstone" semantic conventions. It represents a - // boolean that is true if the message is a tombstone. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - MessagingKafkaMessageTombstoneKey = attribute.Key("messaging.kafka.message.tombstone") - - // MessagingKafkaOffsetKey is the attribute Key conforming to the - // "messaging.kafka.offset" semantic conventions. It represents the offset of a - // record in the corresponding Kafka partition. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingKafkaOffsetKey = attribute.Key("messaging.kafka.offset") - - // MessagingMessageBodySizeKey is the attribute Key conforming to the - // "messaging.message.body.size" semantic conventions. It represents the size of - // the message body in bytes. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Note: This can refer to both the compressed or uncompressed body size. If - // both sizes are known, the uncompressed - // body size should be used. - MessagingMessageBodySizeKey = attribute.Key("messaging.message.body.size") - - // MessagingMessageConversationIDKey is the attribute Key conforming to the - // "messaging.message.conversation_id" semantic conventions. It represents the - // conversation ID identifying the conversation to which the message belongs, - // represented as a string. Sometimes called "Correlation ID". - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: MyConversationId - MessagingMessageConversationIDKey = attribute.Key("messaging.message.conversation_id") - - // MessagingMessageEnvelopeSizeKey is the attribute Key conforming to the - // "messaging.message.envelope.size" semantic conventions. It represents the - // size of the message body and metadata in bytes. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Note: This can refer to both the compressed or uncompressed size. If both - // sizes are known, the uncompressed - // size should be used. - MessagingMessageEnvelopeSizeKey = attribute.Key("messaging.message.envelope.size") - - // MessagingMessageIDKey is the attribute Key conforming to the - // "messaging.message.id" semantic conventions. It represents a value used by - // the messaging system as an identifier for the message, represented as a - // string. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 452a7c7c7c7048c2f887f61572b18fc2 - MessagingMessageIDKey = attribute.Key("messaging.message.id") - - // MessagingOperationNameKey is the attribute Key conforming to the - // "messaging.operation.name" semantic conventions. It represents the - // system-specific name of the messaging operation. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "ack", "nack", "send" - MessagingOperationNameKey = attribute.Key("messaging.operation.name") - - // MessagingOperationTypeKey is the attribute Key conforming to the - // "messaging.operation.type" semantic conventions. It represents a string - // identifying the type of the messaging operation. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: If a custom value is used, it MUST be of low cardinality. - MessagingOperationTypeKey = attribute.Key("messaging.operation.type") - - // MessagingRabbitMQDestinationRoutingKeyKey is the attribute Key conforming to - // the "messaging.rabbitmq.destination.routing_key" semantic conventions. It - // represents the rabbitMQ message routing key. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: myKey - MessagingRabbitMQDestinationRoutingKeyKey = attribute.Key("messaging.rabbitmq.destination.routing_key") - - // MessagingRabbitMQMessageDeliveryTagKey is the attribute Key conforming to the - // "messaging.rabbitmq.message.delivery_tag" semantic conventions. It represents - // the rabbitMQ message delivery tag. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingRabbitMQMessageDeliveryTagKey = attribute.Key("messaging.rabbitmq.message.delivery_tag") - - // MessagingRocketMQConsumptionModelKey is the attribute Key conforming to the - // "messaging.rocketmq.consumption_model" semantic conventions. It represents - // the model of message consumption. This only applies to consumer spans. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - MessagingRocketMQConsumptionModelKey = attribute.Key("messaging.rocketmq.consumption_model") - - // MessagingRocketMQMessageDelayTimeLevelKey is the attribute Key conforming to - // the "messaging.rocketmq.message.delay_time_level" semantic conventions. It - // represents the delay time level for delay message, which determines the - // message delay time. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingRocketMQMessageDelayTimeLevelKey = attribute.Key("messaging.rocketmq.message.delay_time_level") - - // MessagingRocketMQMessageDeliveryTimestampKey is the attribute Key conforming - // to the "messaging.rocketmq.message.delivery_timestamp" semantic conventions. - // It represents the timestamp in milliseconds that the delay message is - // expected to be delivered to consumer. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingRocketMQMessageDeliveryTimestampKey = attribute.Key("messaging.rocketmq.message.delivery_timestamp") - - // MessagingRocketMQMessageGroupKey is the attribute Key conforming to the - // "messaging.rocketmq.message.group" semantic conventions. It represents the it - // is essential for FIFO message. Messages that belong to the same message group - // are always processed one by one within the same consumer group. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: myMessageGroup - MessagingRocketMQMessageGroupKey = attribute.Key("messaging.rocketmq.message.group") - - // MessagingRocketMQMessageKeysKey is the attribute Key conforming to the - // "messaging.rocketmq.message.keys" semantic conventions. It represents the - // key(s) of message, another way to mark message besides message id. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "keyA", "keyB" - MessagingRocketMQMessageKeysKey = attribute.Key("messaging.rocketmq.message.keys") - - // MessagingRocketMQMessageTagKey is the attribute Key conforming to the - // "messaging.rocketmq.message.tag" semantic conventions. It represents the - // secondary classifier of message besides topic. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: tagA - MessagingRocketMQMessageTagKey = attribute.Key("messaging.rocketmq.message.tag") - - // MessagingRocketMQMessageTypeKey is the attribute Key conforming to the - // "messaging.rocketmq.message.type" semantic conventions. It represents the - // type of message. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - MessagingRocketMQMessageTypeKey = attribute.Key("messaging.rocketmq.message.type") - - // MessagingRocketMQNamespaceKey is the attribute Key conforming to the - // "messaging.rocketmq.namespace" semantic conventions. It represents the - // namespace of RocketMQ resources, resources in different namespaces are - // individual. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: myNamespace - MessagingRocketMQNamespaceKey = attribute.Key("messaging.rocketmq.namespace") - - // MessagingServiceBusDispositionStatusKey is the attribute Key conforming to - // the "messaging.servicebus.disposition_status" semantic conventions. It - // represents the describes the [settlement type]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [settlement type]: https://learn.microsoft.com/azure/service-bus-messaging/message-transfers-locks-settlement#peeklock - MessagingServiceBusDispositionStatusKey = attribute.Key("messaging.servicebus.disposition_status") - - // MessagingServiceBusMessageDeliveryCountKey is the attribute Key conforming to - // the "messaging.servicebus.message.delivery_count" semantic conventions. It - // represents the number of deliveries that have been attempted for this - // message. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingServiceBusMessageDeliveryCountKey = attribute.Key("messaging.servicebus.message.delivery_count") - - // MessagingServiceBusMessageEnqueuedTimeKey is the attribute Key conforming to - // the "messaging.servicebus.message.enqueued_time" semantic conventions. It - // represents the UTC epoch seconds at which the message has been accepted and - // stored in the entity. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - MessagingServiceBusMessageEnqueuedTimeKey = attribute.Key("messaging.servicebus.message.enqueued_time") - - // MessagingSystemKey is the attribute Key conforming to the "messaging.system" - // semantic conventions. It represents the messaging system as identified by the - // client instrumentation. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: The actual messaging system may differ from the one known by the - // client. For example, when using Kafka client libraries to communicate with - // Azure Event Hubs, the `messaging.system` is set to `kafka` based on the - // instrumentation's best knowledge. - MessagingSystemKey = attribute.Key("messaging.system") -) - -// MessagingBatchMessageCount returns an attribute KeyValue conforming to the -// "messaging.batch.message_count" semantic conventions. It represents the number -// of messages sent, received, or processed in the scope of the batching -// operation. -func MessagingBatchMessageCount(val int) attribute.KeyValue { - return MessagingBatchMessageCountKey.Int(val) -} - -// MessagingClientID returns an attribute KeyValue conforming to the -// "messaging.client.id" semantic conventions. It represents a unique identifier -// for the client that consumes or produces a message. -func MessagingClientID(val string) attribute.KeyValue { - return MessagingClientIDKey.String(val) -} - -// MessagingConsumerGroupName returns an attribute KeyValue conforming to the -// "messaging.consumer.group.name" semantic conventions. It represents the name -// of the consumer group with which a consumer is associated. -func MessagingConsumerGroupName(val string) attribute.KeyValue { - return MessagingConsumerGroupNameKey.String(val) -} - -// MessagingDestinationAnonymous returns an attribute KeyValue conforming to the -// "messaging.destination.anonymous" semantic conventions. It represents a -// boolean that is true if the message destination is anonymous (could be unnamed -// or have auto-generated name). -func MessagingDestinationAnonymous(val bool) attribute.KeyValue { - return MessagingDestinationAnonymousKey.Bool(val) -} - -// MessagingDestinationName returns an attribute KeyValue conforming to the -// "messaging.destination.name" semantic conventions. It represents the message -// destination name. -func MessagingDestinationName(val string) attribute.KeyValue { - return MessagingDestinationNameKey.String(val) -} - -// MessagingDestinationPartitionID returns an attribute KeyValue conforming to -// the "messaging.destination.partition.id" semantic conventions. It represents -// the identifier of the partition messages are sent to or received from, unique -// within the `messaging.destination.name`. -func MessagingDestinationPartitionID(val string) attribute.KeyValue { - return MessagingDestinationPartitionIDKey.String(val) -} - -// MessagingDestinationSubscriptionName returns an attribute KeyValue conforming -// to the "messaging.destination.subscription.name" semantic conventions. It -// represents the name of the destination subscription from which a message is -// consumed. -func MessagingDestinationSubscriptionName(val string) attribute.KeyValue { - return MessagingDestinationSubscriptionNameKey.String(val) -} - -// MessagingDestinationTemplate returns an attribute KeyValue conforming to the -// "messaging.destination.template" semantic conventions. It represents the low -// cardinality representation of the messaging destination name. -func MessagingDestinationTemplate(val string) attribute.KeyValue { - return MessagingDestinationTemplateKey.String(val) -} - -// MessagingDestinationTemporary returns an attribute KeyValue conforming to the -// "messaging.destination.temporary" semantic conventions. It represents a -// boolean that is true if the message destination is temporary and might not -// exist anymore after messages are processed. -func MessagingDestinationTemporary(val bool) attribute.KeyValue { - return MessagingDestinationTemporaryKey.Bool(val) -} - -// MessagingEventHubsMessageEnqueuedTime returns an attribute KeyValue conforming -// to the "messaging.eventhubs.message.enqueued_time" semantic conventions. It -// represents the UTC epoch seconds at which the message has been accepted and -// stored in the entity. -func MessagingEventHubsMessageEnqueuedTime(val int) attribute.KeyValue { - return MessagingEventHubsMessageEnqueuedTimeKey.Int(val) -} - -// MessagingGCPPubSubMessageAckDeadline returns an attribute KeyValue conforming -// to the "messaging.gcp_pubsub.message.ack_deadline" semantic conventions. It -// represents the ack deadline in seconds set for the modify ack deadline -// request. -func MessagingGCPPubSubMessageAckDeadline(val int) attribute.KeyValue { - return MessagingGCPPubSubMessageAckDeadlineKey.Int(val) -} - -// MessagingGCPPubSubMessageAckID returns an attribute KeyValue conforming to the -// "messaging.gcp_pubsub.message.ack_id" semantic conventions. It represents the -// ack id for a given message. -func MessagingGCPPubSubMessageAckID(val string) attribute.KeyValue { - return MessagingGCPPubSubMessageAckIDKey.String(val) -} - -// MessagingGCPPubSubMessageDeliveryAttempt returns an attribute KeyValue -// conforming to the "messaging.gcp_pubsub.message.delivery_attempt" semantic -// conventions. It represents the delivery attempt for a given message. -func MessagingGCPPubSubMessageDeliveryAttempt(val int) attribute.KeyValue { - return MessagingGCPPubSubMessageDeliveryAttemptKey.Int(val) -} - -// MessagingGCPPubSubMessageOrderingKey returns an attribute KeyValue conforming -// to the "messaging.gcp_pubsub.message.ordering_key" semantic conventions. It -// represents the ordering key for a given message. If the attribute is not -// present, the message does not have an ordering key. -func MessagingGCPPubSubMessageOrderingKey(val string) attribute.KeyValue { - return MessagingGCPPubSubMessageOrderingKeyKey.String(val) -} - -// MessagingKafkaMessageKey returns an attribute KeyValue conforming to the -// "messaging.kafka.message.key" semantic conventions. It represents the message -// keys in Kafka are used for grouping alike messages to ensure they're processed -// on the same partition. They differ from `messaging.message.id` in that they're -// not unique. If the key is `null`, the attribute MUST NOT be set. -func MessagingKafkaMessageKey(val string) attribute.KeyValue { - return MessagingKafkaMessageKeyKey.String(val) -} - -// MessagingKafkaMessageTombstone returns an attribute KeyValue conforming to the -// "messaging.kafka.message.tombstone" semantic conventions. It represents a -// boolean that is true if the message is a tombstone. -func MessagingKafkaMessageTombstone(val bool) attribute.KeyValue { - return MessagingKafkaMessageTombstoneKey.Bool(val) -} - -// MessagingKafkaOffset returns an attribute KeyValue conforming to the -// "messaging.kafka.offset" semantic conventions. It represents the offset of a -// record in the corresponding Kafka partition. -func MessagingKafkaOffset(val int) attribute.KeyValue { - return MessagingKafkaOffsetKey.Int(val) -} - -// MessagingMessageBodySize returns an attribute KeyValue conforming to the -// "messaging.message.body.size" semantic conventions. It represents the size of -// the message body in bytes. -func MessagingMessageBodySize(val int) attribute.KeyValue { - return MessagingMessageBodySizeKey.Int(val) -} - -// MessagingMessageConversationID returns an attribute KeyValue conforming to the -// "messaging.message.conversation_id" semantic conventions. It represents the -// conversation ID identifying the conversation to which the message belongs, -// represented as a string. Sometimes called "Correlation ID". -func MessagingMessageConversationID(val string) attribute.KeyValue { - return MessagingMessageConversationIDKey.String(val) -} - -// MessagingMessageEnvelopeSize returns an attribute KeyValue conforming to the -// "messaging.message.envelope.size" semantic conventions. It represents the size -// of the message body and metadata in bytes. -func MessagingMessageEnvelopeSize(val int) attribute.KeyValue { - return MessagingMessageEnvelopeSizeKey.Int(val) -} - -// MessagingMessageID returns an attribute KeyValue conforming to the -// "messaging.message.id" semantic conventions. It represents a value used by the -// messaging system as an identifier for the message, represented as a string. -func MessagingMessageID(val string) attribute.KeyValue { - return MessagingMessageIDKey.String(val) -} - -// MessagingOperationName returns an attribute KeyValue conforming to the -// "messaging.operation.name" semantic conventions. It represents the -// system-specific name of the messaging operation. -func MessagingOperationName(val string) attribute.KeyValue { - return MessagingOperationNameKey.String(val) -} - -// MessagingRabbitMQDestinationRoutingKey returns an attribute KeyValue -// conforming to the "messaging.rabbitmq.destination.routing_key" semantic -// conventions. It represents the rabbitMQ message routing key. -func MessagingRabbitMQDestinationRoutingKey(val string) attribute.KeyValue { - return MessagingRabbitMQDestinationRoutingKeyKey.String(val) -} - -// MessagingRabbitMQMessageDeliveryTag returns an attribute KeyValue conforming -// to the "messaging.rabbitmq.message.delivery_tag" semantic conventions. It -// represents the rabbitMQ message delivery tag. -func MessagingRabbitMQMessageDeliveryTag(val int) attribute.KeyValue { - return MessagingRabbitMQMessageDeliveryTagKey.Int(val) -} - -// MessagingRocketMQMessageDelayTimeLevel returns an attribute KeyValue -// conforming to the "messaging.rocketmq.message.delay_time_level" semantic -// conventions. It represents the delay time level for delay message, which -// determines the message delay time. -func MessagingRocketMQMessageDelayTimeLevel(val int) attribute.KeyValue { - return MessagingRocketMQMessageDelayTimeLevelKey.Int(val) -} - -// MessagingRocketMQMessageDeliveryTimestamp returns an attribute KeyValue -// conforming to the "messaging.rocketmq.message.delivery_timestamp" semantic -// conventions. It represents the timestamp in milliseconds that the delay -// message is expected to be delivered to consumer. -func MessagingRocketMQMessageDeliveryTimestamp(val int) attribute.KeyValue { - return MessagingRocketMQMessageDeliveryTimestampKey.Int(val) -} - -// MessagingRocketMQMessageGroup returns an attribute KeyValue conforming to the -// "messaging.rocketmq.message.group" semantic conventions. It represents the it -// is essential for FIFO message. Messages that belong to the same message group -// are always processed one by one within the same consumer group. -func MessagingRocketMQMessageGroup(val string) attribute.KeyValue { - return MessagingRocketMQMessageGroupKey.String(val) -} - -// MessagingRocketMQMessageKeys returns an attribute KeyValue conforming to the -// "messaging.rocketmq.message.keys" semantic conventions. It represents the -// key(s) of message, another way to mark message besides message id. -func MessagingRocketMQMessageKeys(val ...string) attribute.KeyValue { - return MessagingRocketMQMessageKeysKey.StringSlice(val) -} - -// MessagingRocketMQMessageTag returns an attribute KeyValue conforming to the -// "messaging.rocketmq.message.tag" semantic conventions. It represents the -// secondary classifier of message besides topic. -func MessagingRocketMQMessageTag(val string) attribute.KeyValue { - return MessagingRocketMQMessageTagKey.String(val) -} - -// MessagingRocketMQNamespace returns an attribute KeyValue conforming to the -// "messaging.rocketmq.namespace" semantic conventions. It represents the -// namespace of RocketMQ resources, resources in different namespaces are -// individual. -func MessagingRocketMQNamespace(val string) attribute.KeyValue { - return MessagingRocketMQNamespaceKey.String(val) -} - -// MessagingServiceBusMessageDeliveryCount returns an attribute KeyValue -// conforming to the "messaging.servicebus.message.delivery_count" semantic -// conventions. It represents the number of deliveries that have been attempted -// for this message. -func MessagingServiceBusMessageDeliveryCount(val int) attribute.KeyValue { - return MessagingServiceBusMessageDeliveryCountKey.Int(val) -} - -// MessagingServiceBusMessageEnqueuedTime returns an attribute KeyValue -// conforming to the "messaging.servicebus.message.enqueued_time" semantic -// conventions. It represents the UTC epoch seconds at which the message has been -// accepted and stored in the entity. -func MessagingServiceBusMessageEnqueuedTime(val int) attribute.KeyValue { - return MessagingServiceBusMessageEnqueuedTimeKey.Int(val) -} - -// Enum values for messaging.operation.type -var ( - // A message is created. "Create" spans always refer to a single message and are - // used to provide a unique creation context for messages in batch sending - // scenarios. - // - // Stability: development - MessagingOperationTypeCreate = MessagingOperationTypeKey.String("create") - // One or more messages are provided for sending to an intermediary. If a single - // message is sent, the context of the "Send" span can be used as the creation - // context and no "Create" span needs to be created. - // - // Stability: development - MessagingOperationTypeSend = MessagingOperationTypeKey.String("send") - // One or more messages are requested by a consumer. This operation refers to - // pull-based scenarios, where consumers explicitly call methods of messaging - // SDKs to receive messages. - // - // Stability: development - MessagingOperationTypeReceive = MessagingOperationTypeKey.String("receive") - // One or more messages are processed by a consumer. - // - // Stability: development - MessagingOperationTypeProcess = MessagingOperationTypeKey.String("process") - // One or more messages are settled. - // - // Stability: development - MessagingOperationTypeSettle = MessagingOperationTypeKey.String("settle") -) - -// Enum values for messaging.rocketmq.consumption_model -var ( - // Clustering consumption model - // Stability: development - MessagingRocketMQConsumptionModelClustering = MessagingRocketMQConsumptionModelKey.String("clustering") - // Broadcasting consumption model - // Stability: development - MessagingRocketMQConsumptionModelBroadcasting = MessagingRocketMQConsumptionModelKey.String("broadcasting") -) - -// Enum values for messaging.rocketmq.message.type -var ( - // Normal message - // Stability: development - MessagingRocketMQMessageTypeNormal = MessagingRocketMQMessageTypeKey.String("normal") - // FIFO message - // Stability: development - MessagingRocketMQMessageTypeFifo = MessagingRocketMQMessageTypeKey.String("fifo") - // Delay message - // Stability: development - MessagingRocketMQMessageTypeDelay = MessagingRocketMQMessageTypeKey.String("delay") - // Transaction message - // Stability: development - MessagingRocketMQMessageTypeTransaction = MessagingRocketMQMessageTypeKey.String("transaction") -) - -// Enum values for messaging.servicebus.disposition_status -var ( - // Message is completed - // Stability: development - MessagingServiceBusDispositionStatusComplete = MessagingServiceBusDispositionStatusKey.String("complete") - // Message is abandoned - // Stability: development - MessagingServiceBusDispositionStatusAbandon = MessagingServiceBusDispositionStatusKey.String("abandon") - // Message is sent to dead letter queue - // Stability: development - MessagingServiceBusDispositionStatusDeadLetter = MessagingServiceBusDispositionStatusKey.String("dead_letter") - // Message is deferred - // Stability: development - MessagingServiceBusDispositionStatusDefer = MessagingServiceBusDispositionStatusKey.String("defer") -) - -// Enum values for messaging.system -var ( - // Apache ActiveMQ - // Stability: development - MessagingSystemActiveMQ = MessagingSystemKey.String("activemq") - // Amazon Simple Notification Service (SNS) - // Stability: development - MessagingSystemAWSSNS = MessagingSystemKey.String("aws.sns") - // Amazon Simple Queue Service (SQS) - // Stability: development - MessagingSystemAWSSQS = MessagingSystemKey.String("aws_sqs") - // Azure Event Grid - // Stability: development - MessagingSystemEventGrid = MessagingSystemKey.String("eventgrid") - // Azure Event Hubs - // Stability: development - MessagingSystemEventHubs = MessagingSystemKey.String("eventhubs") - // Azure Service Bus - // Stability: development - MessagingSystemServiceBus = MessagingSystemKey.String("servicebus") - // Google Cloud Pub/Sub - // Stability: development - MessagingSystemGCPPubSub = MessagingSystemKey.String("gcp_pubsub") - // Java Message Service - // Stability: development - MessagingSystemJMS = MessagingSystemKey.String("jms") - // Apache Kafka - // Stability: development - MessagingSystemKafka = MessagingSystemKey.String("kafka") - // RabbitMQ - // Stability: development - MessagingSystemRabbitMQ = MessagingSystemKey.String("rabbitmq") - // Apache RocketMQ - // Stability: development - MessagingSystemRocketMQ = MessagingSystemKey.String("rocketmq") - // Apache Pulsar - // Stability: development - MessagingSystemPulsar = MessagingSystemKey.String("pulsar") -) - -// Namespace: network -const ( - // NetworkCarrierICCKey is the attribute Key conforming to the - // "network.carrier.icc" semantic conventions. It represents the ISO 3166-1 - // alpha-2 2-character country code associated with the mobile carrier network. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: DE - NetworkCarrierICCKey = attribute.Key("network.carrier.icc") - - // NetworkCarrierMCCKey is the attribute Key conforming to the - // "network.carrier.mcc" semantic conventions. It represents the mobile carrier - // country code. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 310 - NetworkCarrierMCCKey = attribute.Key("network.carrier.mcc") - - // NetworkCarrierMNCKey is the attribute Key conforming to the - // "network.carrier.mnc" semantic conventions. It represents the mobile carrier - // network code. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 001 - NetworkCarrierMNCKey = attribute.Key("network.carrier.mnc") - - // NetworkCarrierNameKey is the attribute Key conforming to the - // "network.carrier.name" semantic conventions. It represents the name of the - // mobile carrier. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: sprint - NetworkCarrierNameKey = attribute.Key("network.carrier.name") - - // NetworkConnectionStateKey is the attribute Key conforming to the - // "network.connection.state" semantic conventions. It represents the state of - // network connection. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "close_wait" - // Note: Connection states are defined as part of the [rfc9293] - // - // [rfc9293]: https://datatracker.ietf.org/doc/html/rfc9293#section-3.3.2 - NetworkConnectionStateKey = attribute.Key("network.connection.state") - - // NetworkConnectionSubtypeKey is the attribute Key conforming to the - // "network.connection.subtype" semantic conventions. It represents the this - // describes more details regarding the connection.type. It may be the type of - // cell technology connection, but it could be used for describing details about - // a wifi connection. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: LTE - NetworkConnectionSubtypeKey = attribute.Key("network.connection.subtype") - - // NetworkConnectionTypeKey is the attribute Key conforming to the - // "network.connection.type" semantic conventions. It represents the internet - // connection type. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: wifi - NetworkConnectionTypeKey = attribute.Key("network.connection.type") - - // NetworkInterfaceNameKey is the attribute Key conforming to the - // "network.interface.name" semantic conventions. It represents the network - // interface name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "lo", "eth0" - NetworkInterfaceNameKey = attribute.Key("network.interface.name") - - // NetworkIODirectionKey is the attribute Key conforming to the - // "network.io.direction" semantic conventions. It represents the network IO - // operation direction. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "transmit" - NetworkIODirectionKey = attribute.Key("network.io.direction") - - // NetworkLocalAddressKey is the attribute Key conforming to the - // "network.local.address" semantic conventions. It represents the local address - // of the network connection - IP address or Unix domain socket name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "10.1.2.80", "/tmp/my.sock" - NetworkLocalAddressKey = attribute.Key("network.local.address") - - // NetworkLocalPortKey is the attribute Key conforming to the - // "network.local.port" semantic conventions. It represents the local port - // number of the network connection. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: 65123 - NetworkLocalPortKey = attribute.Key("network.local.port") - - // NetworkPeerAddressKey is the attribute Key conforming to the - // "network.peer.address" semantic conventions. It represents the peer address - // of the network connection - IP address or Unix domain socket name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "10.1.2.80", "/tmp/my.sock" - NetworkPeerAddressKey = attribute.Key("network.peer.address") - - // NetworkPeerPortKey is the attribute Key conforming to the "network.peer.port" - // semantic conventions. It represents the peer port number of the network - // connection. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: 65123 - NetworkPeerPortKey = attribute.Key("network.peer.port") - - // NetworkProtocolNameKey is the attribute Key conforming to the - // "network.protocol.name" semantic conventions. It represents the - // [OSI application layer] or non-OSI equivalent. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "amqp", "http", "mqtt" - // Note: The value SHOULD be normalized to lowercase. - // - // [OSI application layer]: https://wikipedia.org/wiki/Application_layer - NetworkProtocolNameKey = attribute.Key("network.protocol.name") - - // NetworkProtocolVersionKey is the attribute Key conforming to the - // "network.protocol.version" semantic conventions. It represents the actual - // version of the protocol used for network communication. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "1.1", "2" - // Note: If protocol version is subject to negotiation (for example using [ALPN] - // ), this attribute SHOULD be set to the negotiated version. If the actual - // protocol version is not known, this attribute SHOULD NOT be set. - // - // [ALPN]: https://www.rfc-editor.org/rfc/rfc7301.html - NetworkProtocolVersionKey = attribute.Key("network.protocol.version") - - // NetworkTransportKey is the attribute Key conforming to the - // "network.transport" semantic conventions. It represents the - // [OSI transport layer] or [inter-process communication method]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "tcp", "udp" - // Note: The value SHOULD be normalized to lowercase. - // - // Consider always setting the transport when setting a port number, since - // a port number is ambiguous without knowing the transport. For example - // different processes could be listening on TCP port 12345 and UDP port 12345. - // - // [OSI transport layer]: https://wikipedia.org/wiki/Transport_layer - // [inter-process communication method]: https://wikipedia.org/wiki/Inter-process_communication - NetworkTransportKey = attribute.Key("network.transport") - - // NetworkTypeKey is the attribute Key conforming to the "network.type" semantic - // conventions. It represents the [OSI network layer] or non-OSI equivalent. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "ipv4", "ipv6" - // Note: The value SHOULD be normalized to lowercase. - // - // [OSI network layer]: https://wikipedia.org/wiki/Network_layer - NetworkTypeKey = attribute.Key("network.type") -) - -// NetworkCarrierICC returns an attribute KeyValue conforming to the -// "network.carrier.icc" semantic conventions. It represents the ISO 3166-1 -// alpha-2 2-character country code associated with the mobile carrier network. -func NetworkCarrierICC(val string) attribute.KeyValue { - return NetworkCarrierICCKey.String(val) -} - -// NetworkCarrierMCC returns an attribute KeyValue conforming to the -// "network.carrier.mcc" semantic conventions. It represents the mobile carrier -// country code. -func NetworkCarrierMCC(val string) attribute.KeyValue { - return NetworkCarrierMCCKey.String(val) -} - -// NetworkCarrierMNC returns an attribute KeyValue conforming to the -// "network.carrier.mnc" semantic conventions. It represents the mobile carrier -// network code. -func NetworkCarrierMNC(val string) attribute.KeyValue { - return NetworkCarrierMNCKey.String(val) -} - -// NetworkCarrierName returns an attribute KeyValue conforming to the -// "network.carrier.name" semantic conventions. It represents the name of the -// mobile carrier. -func NetworkCarrierName(val string) attribute.KeyValue { - return NetworkCarrierNameKey.String(val) -} - -// NetworkInterfaceName returns an attribute KeyValue conforming to the -// "network.interface.name" semantic conventions. It represents the network -// interface name. -func NetworkInterfaceName(val string) attribute.KeyValue { - return NetworkInterfaceNameKey.String(val) -} - -// NetworkLocalAddress returns an attribute KeyValue conforming to the -// "network.local.address" semantic conventions. It represents the local address -// of the network connection - IP address or Unix domain socket name. -func NetworkLocalAddress(val string) attribute.KeyValue { - return NetworkLocalAddressKey.String(val) -} - -// NetworkLocalPort returns an attribute KeyValue conforming to the -// "network.local.port" semantic conventions. It represents the local port number -// of the network connection. -func NetworkLocalPort(val int) attribute.KeyValue { - return NetworkLocalPortKey.Int(val) -} - -// NetworkPeerAddress returns an attribute KeyValue conforming to the -// "network.peer.address" semantic conventions. It represents the peer address of -// the network connection - IP address or Unix domain socket name. -func NetworkPeerAddress(val string) attribute.KeyValue { - return NetworkPeerAddressKey.String(val) -} - -// NetworkPeerPort returns an attribute KeyValue conforming to the -// "network.peer.port" semantic conventions. It represents the peer port number -// of the network connection. -func NetworkPeerPort(val int) attribute.KeyValue { - return NetworkPeerPortKey.Int(val) -} - -// NetworkProtocolName returns an attribute KeyValue conforming to the -// "network.protocol.name" semantic conventions. It represents the -// [OSI application layer] or non-OSI equivalent. -// -// [OSI application layer]: https://wikipedia.org/wiki/Application_layer -func NetworkProtocolName(val string) attribute.KeyValue { - return NetworkProtocolNameKey.String(val) -} - -// NetworkProtocolVersion returns an attribute KeyValue conforming to the -// "network.protocol.version" semantic conventions. It represents the actual -// version of the protocol used for network communication. -func NetworkProtocolVersion(val string) attribute.KeyValue { - return NetworkProtocolVersionKey.String(val) -} - -// Enum values for network.connection.state -var ( - // closed - // Stability: development - NetworkConnectionStateClosed = NetworkConnectionStateKey.String("closed") - // close_wait - // Stability: development - NetworkConnectionStateCloseWait = NetworkConnectionStateKey.String("close_wait") - // closing - // Stability: development - NetworkConnectionStateClosing = NetworkConnectionStateKey.String("closing") - // established - // Stability: development - NetworkConnectionStateEstablished = NetworkConnectionStateKey.String("established") - // fin_wait_1 - // Stability: development - NetworkConnectionStateFinWait1 = NetworkConnectionStateKey.String("fin_wait_1") - // fin_wait_2 - // Stability: development - NetworkConnectionStateFinWait2 = NetworkConnectionStateKey.String("fin_wait_2") - // last_ack - // Stability: development - NetworkConnectionStateLastAck = NetworkConnectionStateKey.String("last_ack") - // listen - // Stability: development - NetworkConnectionStateListen = NetworkConnectionStateKey.String("listen") - // syn_received - // Stability: development - NetworkConnectionStateSynReceived = NetworkConnectionStateKey.String("syn_received") - // syn_sent - // Stability: development - NetworkConnectionStateSynSent = NetworkConnectionStateKey.String("syn_sent") - // time_wait - // Stability: development - NetworkConnectionStateTimeWait = NetworkConnectionStateKey.String("time_wait") -) - -// Enum values for network.connection.subtype -var ( - // GPRS - // Stability: development - NetworkConnectionSubtypeGprs = NetworkConnectionSubtypeKey.String("gprs") - // EDGE - // Stability: development - NetworkConnectionSubtypeEdge = NetworkConnectionSubtypeKey.String("edge") - // UMTS - // Stability: development - NetworkConnectionSubtypeUmts = NetworkConnectionSubtypeKey.String("umts") - // CDMA - // Stability: development - NetworkConnectionSubtypeCdma = NetworkConnectionSubtypeKey.String("cdma") - // EVDO Rel. 0 - // Stability: development - NetworkConnectionSubtypeEvdo0 = NetworkConnectionSubtypeKey.String("evdo_0") - // EVDO Rev. A - // Stability: development - NetworkConnectionSubtypeEvdoA = NetworkConnectionSubtypeKey.String("evdo_a") - // CDMA2000 1XRTT - // Stability: development - NetworkConnectionSubtypeCdma20001xrtt = NetworkConnectionSubtypeKey.String("cdma2000_1xrtt") - // HSDPA - // Stability: development - NetworkConnectionSubtypeHsdpa = NetworkConnectionSubtypeKey.String("hsdpa") - // HSUPA - // Stability: development - NetworkConnectionSubtypeHsupa = NetworkConnectionSubtypeKey.String("hsupa") - // HSPA - // Stability: development - NetworkConnectionSubtypeHspa = NetworkConnectionSubtypeKey.String("hspa") - // IDEN - // Stability: development - NetworkConnectionSubtypeIden = NetworkConnectionSubtypeKey.String("iden") - // EVDO Rev. B - // Stability: development - NetworkConnectionSubtypeEvdoB = NetworkConnectionSubtypeKey.String("evdo_b") - // LTE - // Stability: development - NetworkConnectionSubtypeLte = NetworkConnectionSubtypeKey.String("lte") - // EHRPD - // Stability: development - NetworkConnectionSubtypeEhrpd = NetworkConnectionSubtypeKey.String("ehrpd") - // HSPAP - // Stability: development - NetworkConnectionSubtypeHspap = NetworkConnectionSubtypeKey.String("hspap") - // GSM - // Stability: development - NetworkConnectionSubtypeGsm = NetworkConnectionSubtypeKey.String("gsm") - // TD-SCDMA - // Stability: development - NetworkConnectionSubtypeTdScdma = NetworkConnectionSubtypeKey.String("td_scdma") - // IWLAN - // Stability: development - NetworkConnectionSubtypeIwlan = NetworkConnectionSubtypeKey.String("iwlan") - // 5G NR (New Radio) - // Stability: development - NetworkConnectionSubtypeNr = NetworkConnectionSubtypeKey.String("nr") - // 5G NRNSA (New Radio Non-Standalone) - // Stability: development - NetworkConnectionSubtypeNrnsa = NetworkConnectionSubtypeKey.String("nrnsa") - // LTE CA - // Stability: development - NetworkConnectionSubtypeLteCa = NetworkConnectionSubtypeKey.String("lte_ca") -) - -// Enum values for network.connection.type -var ( - // wifi - // Stability: development - NetworkConnectionTypeWifi = NetworkConnectionTypeKey.String("wifi") - // wired - // Stability: development - NetworkConnectionTypeWired = NetworkConnectionTypeKey.String("wired") - // cell - // Stability: development - NetworkConnectionTypeCell = NetworkConnectionTypeKey.String("cell") - // unavailable - // Stability: development - NetworkConnectionTypeUnavailable = NetworkConnectionTypeKey.String("unavailable") - // unknown - // Stability: development - NetworkConnectionTypeUnknown = NetworkConnectionTypeKey.String("unknown") -) - -// Enum values for network.io.direction -var ( - // transmit - // Stability: development - NetworkIODirectionTransmit = NetworkIODirectionKey.String("transmit") - // receive - // Stability: development - NetworkIODirectionReceive = NetworkIODirectionKey.String("receive") -) - -// Enum values for network.transport -var ( - // TCP - // Stability: stable - NetworkTransportTCP = NetworkTransportKey.String("tcp") - // UDP - // Stability: stable - NetworkTransportUDP = NetworkTransportKey.String("udp") - // Named or anonymous pipe. - // Stability: stable - NetworkTransportPipe = NetworkTransportKey.String("pipe") - // Unix domain socket - // Stability: stable - NetworkTransportUnix = NetworkTransportKey.String("unix") - // QUIC - // Stability: stable - NetworkTransportQUIC = NetworkTransportKey.String("quic") -) - -// Enum values for network.type -var ( - // IPv4 - // Stability: stable - NetworkTypeIPv4 = NetworkTypeKey.String("ipv4") - // IPv6 - // Stability: stable - NetworkTypeIPv6 = NetworkTypeKey.String("ipv6") -) - -// Namespace: nfs -const ( - // NfsOperationNameKey is the attribute Key conforming to the - // "nfs.operation.name" semantic conventions. It represents the NFSv4+ operation - // name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "OPEN", "READ", "GETATTR" - NfsOperationNameKey = attribute.Key("nfs.operation.name") - - // NfsServerRepcacheStatusKey is the attribute Key conforming to the - // "nfs.server.repcache.status" semantic conventions. It represents the linux: - // one of "hit" (NFSD_STATS_RC_HITS), "miss" (NFSD_STATS_RC_MISSES), or - // "nocache" (NFSD_STATS_RC_NOCACHE -- uncacheable). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: hit - NfsServerRepcacheStatusKey = attribute.Key("nfs.server.repcache.status") -) - -// NfsOperationName returns an attribute KeyValue conforming to the -// "nfs.operation.name" semantic conventions. It represents the NFSv4+ operation -// name. -func NfsOperationName(val string) attribute.KeyValue { - return NfsOperationNameKey.String(val) -} - -// NfsServerRepcacheStatus returns an attribute KeyValue conforming to the -// "nfs.server.repcache.status" semantic conventions. It represents the linux: -// one of "hit" (NFSD_STATS_RC_HITS), "miss" (NFSD_STATS_RC_MISSES), or "nocache" -// (NFSD_STATS_RC_NOCACHE -- uncacheable). -func NfsServerRepcacheStatus(val string) attribute.KeyValue { - return NfsServerRepcacheStatusKey.String(val) -} - -// Namespace: oci -const ( - // OCIManifestDigestKey is the attribute Key conforming to the - // "oci.manifest.digest" semantic conventions. It represents the digest of the - // OCI image manifest. For container images specifically is the digest by which - // the container image is known. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "sha256:e4ca62c0d62f3e886e684806dfe9d4e0cda60d54986898173c1083856cfda0f4" - // Note: Follows [OCI Image Manifest Specification], and specifically the - // [Digest property]. - // An example can be found in [Example Image Manifest]. - // - // [OCI Image Manifest Specification]: https://github.com/opencontainers/image-spec/blob/main/manifest.md - // [Digest property]: https://github.com/opencontainers/image-spec/blob/main/descriptor.md#digests - // [Example Image Manifest]: https://github.com/opencontainers/image-spec/blob/main/manifest.md#example-image-manifest - OCIManifestDigestKey = attribute.Key("oci.manifest.digest") -) - -// OCIManifestDigest returns an attribute KeyValue conforming to the -// "oci.manifest.digest" semantic conventions. It represents the digest of the -// OCI image manifest. For container images specifically is the digest by which -// the container image is known. -func OCIManifestDigest(val string) attribute.KeyValue { - return OCIManifestDigestKey.String(val) -} - -// Namespace: onc_rpc -const ( - // OncRPCProcedureNameKey is the attribute Key conforming to the - // "onc_rpc.procedure.name" semantic conventions. It represents the ONC/Sun RPC - // procedure name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "OPEN", "READ", "GETATTR" - OncRPCProcedureNameKey = attribute.Key("onc_rpc.procedure.name") - - // OncRPCProcedureNumberKey is the attribute Key conforming to the - // "onc_rpc.procedure.number" semantic conventions. It represents the ONC/Sun - // RPC procedure number. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - OncRPCProcedureNumberKey = attribute.Key("onc_rpc.procedure.number") - - // OncRPCProgramNameKey is the attribute Key conforming to the - // "onc_rpc.program.name" semantic conventions. It represents the ONC/Sun RPC - // program name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "portmapper", "nfs" - OncRPCProgramNameKey = attribute.Key("onc_rpc.program.name") - - // OncRPCVersionKey is the attribute Key conforming to the "onc_rpc.version" - // semantic conventions. It represents the ONC/Sun RPC program version. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - OncRPCVersionKey = attribute.Key("onc_rpc.version") -) - -// OncRPCProcedureName returns an attribute KeyValue conforming to the -// "onc_rpc.procedure.name" semantic conventions. It represents the ONC/Sun RPC -// procedure name. -func OncRPCProcedureName(val string) attribute.KeyValue { - return OncRPCProcedureNameKey.String(val) -} - -// OncRPCProcedureNumber returns an attribute KeyValue conforming to the -// "onc_rpc.procedure.number" semantic conventions. It represents the ONC/Sun RPC -// procedure number. -func OncRPCProcedureNumber(val int) attribute.KeyValue { - return OncRPCProcedureNumberKey.Int(val) -} - -// OncRPCProgramName returns an attribute KeyValue conforming to the -// "onc_rpc.program.name" semantic conventions. It represents the ONC/Sun RPC -// program name. -func OncRPCProgramName(val string) attribute.KeyValue { - return OncRPCProgramNameKey.String(val) -} - -// OncRPCVersion returns an attribute KeyValue conforming to the -// "onc_rpc.version" semantic conventions. It represents the ONC/Sun RPC program -// version. -func OncRPCVersion(val int) attribute.KeyValue { - return OncRPCVersionKey.Int(val) -} - -// Namespace: openai -const ( - // OpenAIRequestServiceTierKey is the attribute Key conforming to the - // "openai.request.service_tier" semantic conventions. It represents the service - // tier requested. May be a specific tier, default, or auto. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "auto", "default" - OpenAIRequestServiceTierKey = attribute.Key("openai.request.service_tier") - - // OpenAIResponseServiceTierKey is the attribute Key conforming to the - // "openai.response.service_tier" semantic conventions. It represents the - // service tier used for the response. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "scale", "default" - OpenAIResponseServiceTierKey = attribute.Key("openai.response.service_tier") - - // OpenAIResponseSystemFingerprintKey is the attribute Key conforming to the - // "openai.response.system_fingerprint" semantic conventions. It represents a - // fingerprint to track any eventual change in the Generative AI environment. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "fp_44709d6fcb" - OpenAIResponseSystemFingerprintKey = attribute.Key("openai.response.system_fingerprint") -) - -// OpenAIResponseServiceTier returns an attribute KeyValue conforming to the -// "openai.response.service_tier" semantic conventions. It represents the service -// tier used for the response. -func OpenAIResponseServiceTier(val string) attribute.KeyValue { - return OpenAIResponseServiceTierKey.String(val) -} - -// OpenAIResponseSystemFingerprint returns an attribute KeyValue conforming to -// the "openai.response.system_fingerprint" semantic conventions. It represents a -// fingerprint to track any eventual change in the Generative AI environment. -func OpenAIResponseSystemFingerprint(val string) attribute.KeyValue { - return OpenAIResponseSystemFingerprintKey.String(val) -} - -// Enum values for openai.request.service_tier -var ( - // The system will utilize scale tier credits until they are exhausted. - // Stability: development - OpenAIRequestServiceTierAuto = OpenAIRequestServiceTierKey.String("auto") - // The system will utilize the default scale tier. - // Stability: development - OpenAIRequestServiceTierDefault = OpenAIRequestServiceTierKey.String("default") -) - -// Namespace: openshift -const ( - // OpenShiftClusterquotaNameKey is the attribute Key conforming to the - // "openshift.clusterquota.name" semantic conventions. It represents the name of - // the cluster quota. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "opentelemetry" - OpenShiftClusterquotaNameKey = attribute.Key("openshift.clusterquota.name") - - // OpenShiftClusterquotaUIDKey is the attribute Key conforming to the - // "openshift.clusterquota.uid" semantic conventions. It represents the UID of - // the cluster quota. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "275ecb36-5aa8-4c2a-9c47-d8bb681b9aff" - OpenShiftClusterquotaUIDKey = attribute.Key("openshift.clusterquota.uid") -) - -// OpenShiftClusterquotaName returns an attribute KeyValue conforming to the -// "openshift.clusterquota.name" semantic conventions. It represents the name of -// the cluster quota. -func OpenShiftClusterquotaName(val string) attribute.KeyValue { - return OpenShiftClusterquotaNameKey.String(val) -} - -// OpenShiftClusterquotaUID returns an attribute KeyValue conforming to the -// "openshift.clusterquota.uid" semantic conventions. It represents the UID of -// the cluster quota. -func OpenShiftClusterquotaUID(val string) attribute.KeyValue { - return OpenShiftClusterquotaUIDKey.String(val) -} - -// Namespace: opentracing -const ( - // OpenTracingRefTypeKey is the attribute Key conforming to the - // "opentracing.ref_type" semantic conventions. It represents the parent-child - // Reference type. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: The causal relationship between a child Span and a parent Span. - OpenTracingRefTypeKey = attribute.Key("opentracing.ref_type") -) - -// Enum values for opentracing.ref_type -var ( - // The parent Span depends on the child Span in some capacity - // Stability: development - OpenTracingRefTypeChildOf = OpenTracingRefTypeKey.String("child_of") - // The parent Span doesn't depend in any way on the result of the child Span - // Stability: development - OpenTracingRefTypeFollowsFrom = OpenTracingRefTypeKey.String("follows_from") -) - -// Namespace: os -const ( - // OSBuildIDKey is the attribute Key conforming to the "os.build_id" semantic - // conventions. It represents the unique identifier for a particular build or - // compilation of the operating system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "TQ3C.230805.001.B2", "20E247", "22621" - OSBuildIDKey = attribute.Key("os.build_id") - - // OSDescriptionKey is the attribute Key conforming to the "os.description" - // semantic conventions. It represents the human readable (not intended to be - // parsed) OS version information, like e.g. reported by `ver` or - // `lsb_release -a` commands. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Microsoft Windows [Version 10.0.18363.778]", "Ubuntu 18.04.1 LTS" - OSDescriptionKey = attribute.Key("os.description") - - // OSNameKey is the attribute Key conforming to the "os.name" semantic - // conventions. It represents the human readable operating system name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "iOS", "Android", "Ubuntu" - OSNameKey = attribute.Key("os.name") - - // OSTypeKey is the attribute Key conforming to the "os.type" semantic - // conventions. It represents the operating system type. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - OSTypeKey = attribute.Key("os.type") - - // OSVersionKey is the attribute Key conforming to the "os.version" semantic - // conventions. It represents the version string of the operating system as - // defined in [Version Attributes]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "14.2.1", "18.04.1" - // - // [Version Attributes]: /docs/resource/README.md#version-attributes - OSVersionKey = attribute.Key("os.version") -) - -// OSBuildID returns an attribute KeyValue conforming to the "os.build_id" -// semantic conventions. It represents the unique identifier for a particular -// build or compilation of the operating system. -func OSBuildID(val string) attribute.KeyValue { - return OSBuildIDKey.String(val) -} - -// OSDescription returns an attribute KeyValue conforming to the "os.description" -// semantic conventions. It represents the human readable (not intended to be -// parsed) OS version information, like e.g. reported by `ver` or -// `lsb_release -a` commands. -func OSDescription(val string) attribute.KeyValue { - return OSDescriptionKey.String(val) -} - -// OSName returns an attribute KeyValue conforming to the "os.name" semantic -// conventions. It represents the human readable operating system name. -func OSName(val string) attribute.KeyValue { - return OSNameKey.String(val) -} - -// OSVersion returns an attribute KeyValue conforming to the "os.version" -// semantic conventions. It represents the version string of the operating system -// as defined in [Version Attributes]. -// -// [Version Attributes]: /docs/resource/README.md#version-attributes -func OSVersion(val string) attribute.KeyValue { - return OSVersionKey.String(val) -} - -// Enum values for os.type -var ( - // Microsoft Windows - // Stability: development - OSTypeWindows = OSTypeKey.String("windows") - // Linux - // Stability: development - OSTypeLinux = OSTypeKey.String("linux") - // Apple Darwin - // Stability: development - OSTypeDarwin = OSTypeKey.String("darwin") - // FreeBSD - // Stability: development - OSTypeFreeBSD = OSTypeKey.String("freebsd") - // NetBSD - // Stability: development - OSTypeNetBSD = OSTypeKey.String("netbsd") - // OpenBSD - // Stability: development - OSTypeOpenBSD = OSTypeKey.String("openbsd") - // DragonFly BSD - // Stability: development - OSTypeDragonflyBSD = OSTypeKey.String("dragonflybsd") - // HP-UX (Hewlett Packard Unix) - // Stability: development - OSTypeHPUX = OSTypeKey.String("hpux") - // AIX (Advanced Interactive eXecutive) - // Stability: development - OSTypeAIX = OSTypeKey.String("aix") - // SunOS, Oracle Solaris - // Stability: development - OSTypeSolaris = OSTypeKey.String("solaris") - // IBM z/OS - // Stability: development - OSTypeZOS = OSTypeKey.String("zos") -) - -// Namespace: otel -const ( - // OTelComponentNameKey is the attribute Key conforming to the - // "otel.component.name" semantic conventions. It represents a name uniquely - // identifying the instance of the OpenTelemetry component within its containing - // SDK instance. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "otlp_grpc_span_exporter/0", "custom-name" - // Note: Implementations SHOULD ensure a low cardinality for this attribute, - // even across application or SDK restarts. - // E.g. implementations MUST NOT use UUIDs as values for this attribute. - // - // Implementations MAY achieve these goals by following a - // `/` pattern, e.g. - // `batching_span_processor/0`. - // Hereby `otel.component.type` refers to the corresponding attribute value of - // the component. - // - // The value of `instance-counter` MAY be automatically assigned by the - // component and uniqueness within the enclosing SDK instance MUST be - // guaranteed. - // For example, `` MAY be implemented by using a monotonically - // increasing counter (starting with `0`), which is incremented every time an - // instance of the given component type is started. - // - // With this implementation, for example the first Batching Span Processor would - // have `batching_span_processor/0` - // as `otel.component.name`, the second one `batching_span_processor/1` and so - // on. - // These values will therefore be reused in the case of an application restart. - OTelComponentNameKey = attribute.Key("otel.component.name") - - // OTelComponentTypeKey is the attribute Key conforming to the - // "otel.component.type" semantic conventions. It represents a name identifying - // the type of the OpenTelemetry component. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "batching_span_processor", "com.example.MySpanExporter" - // Note: If none of the standardized values apply, implementations SHOULD use - // the language-defined name of the type. - // E.g. for Java the fully qualified classname SHOULD be used in this case. - OTelComponentTypeKey = attribute.Key("otel.component.type") - - // OTelEventNameKey is the attribute Key conforming to the "otel.event.name" - // semantic conventions. It represents the identifies the class / type of event. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "browser.mouse.click", "device.app.lifecycle" - // Note: This attribute SHOULD be used by non-OTLP exporters when destination - // does not support `EventName` or equivalent field. This attribute MAY be used - // by applications using existing logging libraries so that it can be used to - // set the `EventName` field by Collector or SDK components. - OTelEventNameKey = attribute.Key("otel.event.name") - - // OTelScopeNameKey is the attribute Key conforming to the "otel.scope.name" - // semantic conventions. It represents the name of the instrumentation scope - ( - // `InstrumentationScope.Name` in OTLP). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "io.opentelemetry.contrib.mongodb" - OTelScopeNameKey = attribute.Key("otel.scope.name") - - // OTelScopeSchemaURLKey is the attribute Key conforming to the - // "otel.scope.schema_url" semantic conventions. It represents the schema URL of - // the instrumentation scope. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "https://opentelemetry.io/schemas/1.31.0" - OTelScopeSchemaURLKey = attribute.Key("otel.scope.schema_url") - - // OTelScopeVersionKey is the attribute Key conforming to the - // "otel.scope.version" semantic conventions. It represents the version of the - // instrumentation scope - (`InstrumentationScope.Version` in OTLP). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "1.0.0" - OTelScopeVersionKey = attribute.Key("otel.scope.version") - - // OTelSpanParentOriginKey is the attribute Key conforming to the - // "otel.span.parent.origin" semantic conventions. It represents the determines - // whether the span has a parent span, and if so, - // [whether it is a remote parent]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [whether it is a remote parent]: https://opentelemetry.io/docs/specs/otel/trace/api/#isremote - OTelSpanParentOriginKey = attribute.Key("otel.span.parent.origin") - - // OTelSpanSamplingResultKey is the attribute Key conforming to the - // "otel.span.sampling_result" semantic conventions. It represents the result - // value of the sampler for this span. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - OTelSpanSamplingResultKey = attribute.Key("otel.span.sampling_result") - - // OTelStatusCodeKey is the attribute Key conforming to the "otel.status_code" - // semantic conventions. It represents the name of the code, either "OK" or - // "ERROR". MUST NOT be set if the status code is UNSET. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: - OTelStatusCodeKey = attribute.Key("otel.status_code") - - // OTelStatusDescriptionKey is the attribute Key conforming to the - // "otel.status_description" semantic conventions. It represents the description - // of the Status if it has a value, otherwise not set. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "resource not found" - OTelStatusDescriptionKey = attribute.Key("otel.status_description") -) - -// OTelComponentName returns an attribute KeyValue conforming to the -// "otel.component.name" semantic conventions. It represents a name uniquely -// identifying the instance of the OpenTelemetry component within its containing -// SDK instance. -func OTelComponentName(val string) attribute.KeyValue { - return OTelComponentNameKey.String(val) -} - -// OTelEventName returns an attribute KeyValue conforming to the -// "otel.event.name" semantic conventions. It represents the identifies the class -// / type of event. -func OTelEventName(val string) attribute.KeyValue { - return OTelEventNameKey.String(val) -} - -// OTelScopeName returns an attribute KeyValue conforming to the -// "otel.scope.name" semantic conventions. It represents the name of the -// instrumentation scope - (`InstrumentationScope.Name` in OTLP). -func OTelScopeName(val string) attribute.KeyValue { - return OTelScopeNameKey.String(val) -} - -// OTelScopeSchemaURL returns an attribute KeyValue conforming to the -// "otel.scope.schema_url" semantic conventions. It represents the schema URL of -// the instrumentation scope. -func OTelScopeSchemaURL(val string) attribute.KeyValue { - return OTelScopeSchemaURLKey.String(val) -} - -// OTelScopeVersion returns an attribute KeyValue conforming to the -// "otel.scope.version" semantic conventions. It represents the version of the -// instrumentation scope - (`InstrumentationScope.Version` in OTLP). -func OTelScopeVersion(val string) attribute.KeyValue { - return OTelScopeVersionKey.String(val) -} - -// OTelStatusDescription returns an attribute KeyValue conforming to the -// "otel.status_description" semantic conventions. It represents the description -// of the Status if it has a value, otherwise not set. -func OTelStatusDescription(val string) attribute.KeyValue { - return OTelStatusDescriptionKey.String(val) -} - -// Enum values for otel.component.type -var ( - // The builtin SDK batching span processor - // - // Stability: development - OTelComponentTypeBatchingSpanProcessor = OTelComponentTypeKey.String("batching_span_processor") - // The builtin SDK simple span processor - // - // Stability: development - OTelComponentTypeSimpleSpanProcessor = OTelComponentTypeKey.String("simple_span_processor") - // The builtin SDK batching log record processor - // - // Stability: development - OTelComponentTypeBatchingLogProcessor = OTelComponentTypeKey.String("batching_log_processor") - // The builtin SDK simple log record processor - // - // Stability: development - OTelComponentTypeSimpleLogProcessor = OTelComponentTypeKey.String("simple_log_processor") - // OTLP span exporter over gRPC with protobuf serialization - // - // Stability: development - OTelComponentTypeOtlpGRPCSpanExporter = OTelComponentTypeKey.String("otlp_grpc_span_exporter") - // OTLP span exporter over HTTP with protobuf serialization - // - // Stability: development - OTelComponentTypeOtlpHTTPSpanExporter = OTelComponentTypeKey.String("otlp_http_span_exporter") - // OTLP span exporter over HTTP with JSON serialization - // - // Stability: development - OTelComponentTypeOtlpHTTPJSONSpanExporter = OTelComponentTypeKey.String("otlp_http_json_span_exporter") - // Zipkin span exporter over HTTP - // - // Stability: development - OTelComponentTypeZipkinHTTPSpanExporter = OTelComponentTypeKey.String("zipkin_http_span_exporter") - // OTLP log record exporter over gRPC with protobuf serialization - // - // Stability: development - OTelComponentTypeOtlpGRPCLogExporter = OTelComponentTypeKey.String("otlp_grpc_log_exporter") - // OTLP log record exporter over HTTP with protobuf serialization - // - // Stability: development - OTelComponentTypeOtlpHTTPLogExporter = OTelComponentTypeKey.String("otlp_http_log_exporter") - // OTLP log record exporter over HTTP with JSON serialization - // - // Stability: development - OTelComponentTypeOtlpHTTPJSONLogExporter = OTelComponentTypeKey.String("otlp_http_json_log_exporter") - // The builtin SDK periodically exporting metric reader - // - // Stability: development - OTelComponentTypePeriodicMetricReader = OTelComponentTypeKey.String("periodic_metric_reader") - // OTLP metric exporter over gRPC with protobuf serialization - // - // Stability: development - OTelComponentTypeOtlpGRPCMetricExporter = OTelComponentTypeKey.String("otlp_grpc_metric_exporter") - // OTLP metric exporter over HTTP with protobuf serialization - // - // Stability: development - OTelComponentTypeOtlpHTTPMetricExporter = OTelComponentTypeKey.String("otlp_http_metric_exporter") - // OTLP metric exporter over HTTP with JSON serialization - // - // Stability: development - OTelComponentTypeOtlpHTTPJSONMetricExporter = OTelComponentTypeKey.String("otlp_http_json_metric_exporter") - // Prometheus metric exporter over HTTP with the default text-based format - // - // Stability: development - OTelComponentTypePrometheusHTTPTextMetricExporter = OTelComponentTypeKey.String("prometheus_http_text_metric_exporter") -) - -// Enum values for otel.span.parent.origin -var ( - // The span does not have a parent, it is a root span - // Stability: development - OTelSpanParentOriginNone = OTelSpanParentOriginKey.String("none") - // The span has a parent and the parent's span context [isRemote()] is false - // Stability: development - // - // [isRemote()]: https://opentelemetry.io/docs/specs/otel/trace/api/#isremote - OTelSpanParentOriginLocal = OTelSpanParentOriginKey.String("local") - // The span has a parent and the parent's span context [isRemote()] is true - // Stability: development - // - // [isRemote()]: https://opentelemetry.io/docs/specs/otel/trace/api/#isremote - OTelSpanParentOriginRemote = OTelSpanParentOriginKey.String("remote") -) - -// Enum values for otel.span.sampling_result -var ( - // The span is not sampled and not recording - // Stability: development - OTelSpanSamplingResultDrop = OTelSpanSamplingResultKey.String("DROP") - // The span is not sampled, but recording - // Stability: development - OTelSpanSamplingResultRecordOnly = OTelSpanSamplingResultKey.String("RECORD_ONLY") - // The span is sampled and recording - // Stability: development - OTelSpanSamplingResultRecordAndSample = OTelSpanSamplingResultKey.String("RECORD_AND_SAMPLE") -) - -// Enum values for otel.status_code -var ( - // The operation has been validated by an Application developer or Operator to - // have completed successfully. - // Stability: stable - OTelStatusCodeOk = OTelStatusCodeKey.String("OK") - // The operation contains an error. - // Stability: stable - OTelStatusCodeError = OTelStatusCodeKey.String("ERROR") -) - -// Namespace: pprof -const ( - // PprofLocationIsFoldedKey is the attribute Key conforming to the - // "pprof.location.is_folded" semantic conventions. It represents the provides - // an indication that multiple symbols map to this location's address, for - // example due to identical code folding by the linker. In that case the line - // information represents one of the multiple symbols. This field must be - // recomputed when the symbolization state of the profile changes. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - PprofLocationIsFoldedKey = attribute.Key("pprof.location.is_folded") - - // PprofMappingHasFilenamesKey is the attribute Key conforming to the - // "pprof.mapping.has_filenames" semantic conventions. It represents the - // indicates that there are filenames related to this mapping. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - PprofMappingHasFilenamesKey = attribute.Key("pprof.mapping.has_filenames") - - // PprofMappingHasFunctionsKey is the attribute Key conforming to the - // "pprof.mapping.has_functions" semantic conventions. It represents the - // indicates that there are functions related to this mapping. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - PprofMappingHasFunctionsKey = attribute.Key("pprof.mapping.has_functions") - - // PprofMappingHasInlineFramesKey is the attribute Key conforming to the - // "pprof.mapping.has_inline_frames" semantic conventions. It represents the - // indicates that there are inline frames related to this mapping. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - PprofMappingHasInlineFramesKey = attribute.Key("pprof.mapping.has_inline_frames") - - // PprofMappingHasLineNumbersKey is the attribute Key conforming to the - // "pprof.mapping.has_line_numbers" semantic conventions. It represents the - // indicates that there are line numbers related to this mapping. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - PprofMappingHasLineNumbersKey = attribute.Key("pprof.mapping.has_line_numbers") - - // PprofProfileCommentKey is the attribute Key conforming to the - // "pprof.profile.comment" semantic conventions. It represents the free-form - // text associated with the profile. This field should not be used to store any - // machine-readable information, it is only for human-friendly content. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "hello world", "bazinga" - PprofProfileCommentKey = attribute.Key("pprof.profile.comment") - - // PprofProfileDocURLKey is the attribute Key conforming to the - // "pprof.profile.doc_url" semantic conventions. It represents the documentation - // link for this profile type. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "http://pprof.example.com/cpu-profile.html" - // Note: The URL must be absolute and may be missing if the profile was - // generated by code that did not supply a link - PprofProfileDocURLKey = attribute.Key("pprof.profile.doc_url") - - // PprofProfileDropFramesKey is the attribute Key conforming to the - // "pprof.profile.drop_frames" semantic conventions. It represents the frames - // with Function.function_name fully matching the regexp will be dropped from - // the samples, along with their successors. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/foobar/" - PprofProfileDropFramesKey = attribute.Key("pprof.profile.drop_frames") - - // PprofProfileKeepFramesKey is the attribute Key conforming to the - // "pprof.profile.keep_frames" semantic conventions. It represents the frames - // with Function.function_name fully matching the regexp will be kept, even if - // it matches drop_frames. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/bazinga/" - PprofProfileKeepFramesKey = attribute.Key("pprof.profile.keep_frames") -) - -// PprofLocationIsFolded returns an attribute KeyValue conforming to the -// "pprof.location.is_folded" semantic conventions. It represents the provides an -// indication that multiple symbols map to this location's address, for example -// due to identical code folding by the linker. In that case the line information -// represents one of the multiple symbols. This field must be recomputed when the -// symbolization state of the profile changes. -func PprofLocationIsFolded(val bool) attribute.KeyValue { - return PprofLocationIsFoldedKey.Bool(val) -} - -// PprofMappingHasFilenames returns an attribute KeyValue conforming to the -// "pprof.mapping.has_filenames" semantic conventions. It represents the -// indicates that there are filenames related to this mapping. -func PprofMappingHasFilenames(val bool) attribute.KeyValue { - return PprofMappingHasFilenamesKey.Bool(val) -} - -// PprofMappingHasFunctions returns an attribute KeyValue conforming to the -// "pprof.mapping.has_functions" semantic conventions. It represents the -// indicates that there are functions related to this mapping. -func PprofMappingHasFunctions(val bool) attribute.KeyValue { - return PprofMappingHasFunctionsKey.Bool(val) -} - -// PprofMappingHasInlineFrames returns an attribute KeyValue conforming to the -// "pprof.mapping.has_inline_frames" semantic conventions. It represents the -// indicates that there are inline frames related to this mapping. -func PprofMappingHasInlineFrames(val bool) attribute.KeyValue { - return PprofMappingHasInlineFramesKey.Bool(val) -} - -// PprofMappingHasLineNumbers returns an attribute KeyValue conforming to the -// "pprof.mapping.has_line_numbers" semantic conventions. It represents the -// indicates that there are line numbers related to this mapping. -func PprofMappingHasLineNumbers(val bool) attribute.KeyValue { - return PprofMappingHasLineNumbersKey.Bool(val) -} - -// PprofProfileComment returns an attribute KeyValue conforming to the -// "pprof.profile.comment" semantic conventions. It represents the free-form text -// associated with the profile. This field should not be used to store any -// machine-readable information, it is only for human-friendly content. -func PprofProfileComment(val ...string) attribute.KeyValue { - return PprofProfileCommentKey.StringSlice(val) -} - -// PprofProfileDocURL returns an attribute KeyValue conforming to the -// "pprof.profile.doc_url" semantic conventions. It represents the documentation -// link for this profile type. -func PprofProfileDocURL(val string) attribute.KeyValue { - return PprofProfileDocURLKey.String(val) -} - -// PprofProfileDropFrames returns an attribute KeyValue conforming to the -// "pprof.profile.drop_frames" semantic conventions. It represents the frames -// with Function.function_name fully matching the regexp will be dropped from the -// samples, along with their successors. -func PprofProfileDropFrames(val string) attribute.KeyValue { - return PprofProfileDropFramesKey.String(val) -} - -// PprofProfileKeepFrames returns an attribute KeyValue conforming to the -// "pprof.profile.keep_frames" semantic conventions. It represents the frames -// with Function.function_name fully matching the regexp will be kept, even if it -// matches drop_frames. -func PprofProfileKeepFrames(val string) attribute.KeyValue { - return PprofProfileKeepFramesKey.String(val) -} - -// Namespace: process -const ( - // ProcessArgsCountKey is the attribute Key conforming to the - // "process.args_count" semantic conventions. It represents the length of the - // process.command_args array. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 4 - // Note: This field can be useful for querying or performing bucket analysis on - // how many arguments were provided to start a process. More arguments may be an - // indication of suspicious activity. - ProcessArgsCountKey = attribute.Key("process.args_count") - - // ProcessCommandKey is the attribute Key conforming to the "process.command" - // semantic conventions. It represents the command used to launch the process - // (i.e. the command name). On Linux based systems, can be set to the zeroth - // string in `proc/[pid]/cmdline`. On Windows, can be set to the first parameter - // extracted from `GetCommandLineW`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "cmd/otelcol" - ProcessCommandKey = attribute.Key("process.command") - - // ProcessCommandArgsKey is the attribute Key conforming to the - // "process.command_args" semantic conventions. It represents the all the - // command arguments (including the command/executable itself) as received by - // the process. On Linux-based systems (and some other Unixoid systems - // supporting procfs), can be set according to the list of null-delimited - // strings extracted from `proc/[pid]/cmdline`. For libc-based executables, this - // would be the full argv vector passed to `main`. SHOULD NOT be collected by - // default unless there is sanitization that excludes sensitive data. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "cmd/otecol", "--config=config.yaml" - ProcessCommandArgsKey = attribute.Key("process.command_args") - - // ProcessCommandLineKey is the attribute Key conforming to the - // "process.command_line" semantic conventions. It represents the full command - // used to launch the process as a single string representing the full command. - // On Windows, can be set to the result of `GetCommandLineW`. Do not set this if - // you have to assemble it just for monitoring; use `process.command_args` - // instead. SHOULD NOT be collected by default unless there is sanitization that - // excludes sensitive data. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "C:\cmd\otecol --config="my directory\config.yaml"" - ProcessCommandLineKey = attribute.Key("process.command_line") - - // ProcessContextSwitchTypeKey is the attribute Key conforming to the - // "process.context_switch.type" semantic conventions. It represents the - // specifies whether the context switches for this data point were voluntary or - // involuntary. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - ProcessContextSwitchTypeKey = attribute.Key("process.context_switch.type") - - // ProcessCreationTimeKey is the attribute Key conforming to the - // "process.creation.time" semantic conventions. It represents the date and time - // the process was created, in ISO 8601 format. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2023-11-21T09:25:34.853Z" - ProcessCreationTimeKey = attribute.Key("process.creation.time") - - // ProcessExecutableBuildIDGNUKey is the attribute Key conforming to the - // "process.executable.build_id.gnu" semantic conventions. It represents the GNU - // build ID as found in the `.note.gnu.build-id` ELF section (hex string). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "c89b11207f6479603b0d49bf291c092c2b719293" - ProcessExecutableBuildIDGNUKey = attribute.Key("process.executable.build_id.gnu") - - // ProcessExecutableBuildIDGoKey is the attribute Key conforming to the - // "process.executable.build_id.go" semantic conventions. It represents the Go - // build ID as retrieved by `go tool buildid `. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "foh3mEXu7BLZjsN9pOwG/kATcXlYVCDEFouRMQed_/WwRFB1hPo9LBkekthSPG/x8hMC8emW2cCjXD0_1aY" - ProcessExecutableBuildIDGoKey = attribute.Key("process.executable.build_id.go") - - // ProcessExecutableBuildIDHtlhashKey is the attribute Key conforming to the - // "process.executable.build_id.htlhash" semantic conventions. It represents the - // profiling specific build ID for executables. See the OTel specification for - // Profiles for more information. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "600DCAFE4A110000F2BF38C493F5FB92" - ProcessExecutableBuildIDHtlhashKey = attribute.Key("process.executable.build_id.htlhash") - - // ProcessExecutableNameKey is the attribute Key conforming to the - // "process.executable.name" semantic conventions. It represents the name of the - // process executable. On Linux based systems, this SHOULD be set to the base - // name of the target of `/proc/[pid]/exe`. On Windows, this SHOULD be set to - // the base name of `GetProcessImageFileNameW`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "otelcol" - ProcessExecutableNameKey = attribute.Key("process.executable.name") - - // ProcessExecutablePathKey is the attribute Key conforming to the - // "process.executable.path" semantic conventions. It represents the full path - // to the process executable. On Linux based systems, can be set to the target - // of `proc/[pid]/exe`. On Windows, can be set to the result of - // `GetProcessImageFileNameW`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/usr/bin/cmd/otelcol" - ProcessExecutablePathKey = attribute.Key("process.executable.path") - - // ProcessExitCodeKey is the attribute Key conforming to the "process.exit.code" - // semantic conventions. It represents the exit code of the process. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 127 - ProcessExitCodeKey = attribute.Key("process.exit.code") - - // ProcessExitTimeKey is the attribute Key conforming to the "process.exit.time" - // semantic conventions. It represents the date and time the process exited, in - // ISO 8601 format. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2023-11-21T09:26:12.315Z" - ProcessExitTimeKey = attribute.Key("process.exit.time") - - // ProcessGroupLeaderPIDKey is the attribute Key conforming to the - // "process.group_leader.pid" semantic conventions. It represents the PID of the - // process's group leader. This is also the process group ID (PGID) of the - // process. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 23 - ProcessGroupLeaderPIDKey = attribute.Key("process.group_leader.pid") - - // ProcessInteractiveKey is the attribute Key conforming to the - // "process.interactive" semantic conventions. It represents the whether the - // process is connected to an interactive shell. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - ProcessInteractiveKey = attribute.Key("process.interactive") - - // ProcessLinuxCgroupKey is the attribute Key conforming to the - // "process.linux.cgroup" semantic conventions. It represents the control group - // associated with the process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1:name=systemd:/user.slice/user-1000.slice/session-3.scope", - // "0::/user.slice/user-1000.slice/user@1000.service/tmux-spawn-0267755b-4639-4a27-90ed-f19f88e53748.scope" - // Note: Control groups (cgroups) are a kernel feature used to organize and - // manage process resources. This attribute provides the path(s) to the - // cgroup(s) associated with the process, which should match the contents of the - // [/proc/[PID]/cgroup] file. - // - // [/proc/[PID]/cgroup]: https://man7.org/linux/man-pages/man7/cgroups.7.html - ProcessLinuxCgroupKey = attribute.Key("process.linux.cgroup") - - // ProcessOwnerKey is the attribute Key conforming to the "process.owner" - // semantic conventions. It represents the username of the user that owns the - // process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "root" - ProcessOwnerKey = attribute.Key("process.owner") - - // ProcessParentPIDKey is the attribute Key conforming to the - // "process.parent_pid" semantic conventions. It represents the parent Process - // identifier (PPID). - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 111 - ProcessParentPIDKey = attribute.Key("process.parent_pid") - - // ProcessPIDKey is the attribute Key conforming to the "process.pid" semantic - // conventions. It represents the process identifier (PID). - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1234 - ProcessPIDKey = attribute.Key("process.pid") - - // ProcessRealUserIDKey is the attribute Key conforming to the - // "process.real_user.id" semantic conventions. It represents the real user ID - // (RUID) of the process. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1000 - ProcessRealUserIDKey = attribute.Key("process.real_user.id") - - // ProcessRealUserNameKey is the attribute Key conforming to the - // "process.real_user.name" semantic conventions. It represents the username of - // the real user of the process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "operator" - ProcessRealUserNameKey = attribute.Key("process.real_user.name") - - // ProcessRuntimeDescriptionKey is the attribute Key conforming to the - // "process.runtime.description" semantic conventions. It represents an - // additional description about the runtime of the process, for example a - // specific vendor customization of the runtime environment. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: Eclipse OpenJ9 Eclipse OpenJ9 VM openj9-0.21.0 - ProcessRuntimeDescriptionKey = attribute.Key("process.runtime.description") - - // ProcessRuntimeNameKey is the attribute Key conforming to the - // "process.runtime.name" semantic conventions. It represents the name of the - // runtime of this process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "OpenJDK Runtime Environment" - ProcessRuntimeNameKey = attribute.Key("process.runtime.name") - - // ProcessRuntimeVersionKey is the attribute Key conforming to the - // "process.runtime.version" semantic conventions. It represents the version of - // the runtime of this process, as returned by the runtime without modification. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 14.0.2 - ProcessRuntimeVersionKey = attribute.Key("process.runtime.version") - - // ProcessSavedUserIDKey is the attribute Key conforming to the - // "process.saved_user.id" semantic conventions. It represents the saved user ID - // (SUID) of the process. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1002 - ProcessSavedUserIDKey = attribute.Key("process.saved_user.id") - - // ProcessSavedUserNameKey is the attribute Key conforming to the - // "process.saved_user.name" semantic conventions. It represents the username of - // the saved user. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "operator" - ProcessSavedUserNameKey = attribute.Key("process.saved_user.name") - - // ProcessSessionLeaderPIDKey is the attribute Key conforming to the - // "process.session_leader.pid" semantic conventions. It represents the PID of - // the process's session leader. This is also the session ID (SID) of the - // process. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 14 - ProcessSessionLeaderPIDKey = attribute.Key("process.session_leader.pid") - - // ProcessStateKey is the attribute Key conforming to the "process.state" - // semantic conventions. It represents the process state, e.g., - // [Linux Process State Codes]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "running" - // - // [Linux Process State Codes]: https://man7.org/linux/man-pages/man1/ps.1.html#PROCESS_STATE_CODES - ProcessStateKey = attribute.Key("process.state") - - // ProcessTitleKey is the attribute Key conforming to the "process.title" - // semantic conventions. It represents the process title (proctitle). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "cat /etc/hostname", "xfce4-session", "bash" - // Note: In many Unix-like systems, process title (proctitle), is the string - // that represents the name or command line of a running process, displayed by - // system monitoring tools like ps, top, and htop. - ProcessTitleKey = attribute.Key("process.title") - - // ProcessUserIDKey is the attribute Key conforming to the "process.user.id" - // semantic conventions. It represents the effective user ID (EUID) of the - // process. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 1001 - ProcessUserIDKey = attribute.Key("process.user.id") - - // ProcessUserNameKey is the attribute Key conforming to the "process.user.name" - // semantic conventions. It represents the username of the effective user of the - // process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "root" - ProcessUserNameKey = attribute.Key("process.user.name") - - // ProcessVpidKey is the attribute Key conforming to the "process.vpid" semantic - // conventions. It represents the virtual process identifier. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 12 - // Note: The process ID within a PID namespace. This is not necessarily unique - // across all processes on the host but it is unique within the process - // namespace that the process exists within. - ProcessVpidKey = attribute.Key("process.vpid") - - // ProcessWorkingDirectoryKey is the attribute Key conforming to the - // "process.working_directory" semantic conventions. It represents the working - // directory of the process. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/root" - ProcessWorkingDirectoryKey = attribute.Key("process.working_directory") -) - -// ProcessArgsCount returns an attribute KeyValue conforming to the -// "process.args_count" semantic conventions. It represents the length of the -// process.command_args array. -func ProcessArgsCount(val int) attribute.KeyValue { - return ProcessArgsCountKey.Int(val) -} - -// ProcessCommand returns an attribute KeyValue conforming to the -// "process.command" semantic conventions. It represents the command used to -// launch the process (i.e. the command name). On Linux based systems, can be set -// to the zeroth string in `proc/[pid]/cmdline`. On Windows, can be set to the -// first parameter extracted from `GetCommandLineW`. -func ProcessCommand(val string) attribute.KeyValue { - return ProcessCommandKey.String(val) -} - -// ProcessCommandArgs returns an attribute KeyValue conforming to the -// "process.command_args" semantic conventions. It represents the all the command -// arguments (including the command/executable itself) as received by the -// process. On Linux-based systems (and some other Unixoid systems supporting -// procfs), can be set according to the list of null-delimited strings extracted -// from `proc/[pid]/cmdline`. For libc-based executables, this would be the full -// argv vector passed to `main`. SHOULD NOT be collected by default unless there -// is sanitization that excludes sensitive data. -func ProcessCommandArgs(val ...string) attribute.KeyValue { - return ProcessCommandArgsKey.StringSlice(val) -} - -// ProcessCommandLine returns an attribute KeyValue conforming to the -// "process.command_line" semantic conventions. It represents the full command -// used to launch the process as a single string representing the full command. -// On Windows, can be set to the result of `GetCommandLineW`. Do not set this if -// you have to assemble it just for monitoring; use `process.command_args` -// instead. SHOULD NOT be collected by default unless there is sanitization that -// excludes sensitive data. -func ProcessCommandLine(val string) attribute.KeyValue { - return ProcessCommandLineKey.String(val) -} - -// ProcessCreationTime returns an attribute KeyValue conforming to the -// "process.creation.time" semantic conventions. It represents the date and time -// the process was created, in ISO 8601 format. -func ProcessCreationTime(val string) attribute.KeyValue { - return ProcessCreationTimeKey.String(val) -} - -// ProcessEnvironmentVariable returns an attribute KeyValue conforming to the -// "process.environment_variable" semantic conventions. It represents the process -// environment variables, `` being the environment variable name, the value -// being the environment variable value. -func ProcessEnvironmentVariable(key string, val string) attribute.KeyValue { - return attribute.String("process.environment_variable."+key, val) -} - -// ProcessExecutableBuildIDGNU returns an attribute KeyValue conforming to the -// "process.executable.build_id.gnu" semantic conventions. It represents the GNU -// build ID as found in the `.note.gnu.build-id` ELF section (hex string). -func ProcessExecutableBuildIDGNU(val string) attribute.KeyValue { - return ProcessExecutableBuildIDGNUKey.String(val) -} - -// ProcessExecutableBuildIDGo returns an attribute KeyValue conforming to the -// "process.executable.build_id.go" semantic conventions. It represents the Go -// build ID as retrieved by `go tool buildid `. -func ProcessExecutableBuildIDGo(val string) attribute.KeyValue { - return ProcessExecutableBuildIDGoKey.String(val) -} - -// ProcessExecutableBuildIDHtlhash returns an attribute KeyValue conforming to -// the "process.executable.build_id.htlhash" semantic conventions. It represents -// the profiling specific build ID for executables. See the OTel specification -// for Profiles for more information. -func ProcessExecutableBuildIDHtlhash(val string) attribute.KeyValue { - return ProcessExecutableBuildIDHtlhashKey.String(val) -} - -// ProcessExecutableName returns an attribute KeyValue conforming to the -// "process.executable.name" semantic conventions. It represents the name of the -// process executable. On Linux based systems, this SHOULD be set to the base -// name of the target of `/proc/[pid]/exe`. On Windows, this SHOULD be set to the -// base name of `GetProcessImageFileNameW`. -func ProcessExecutableName(val string) attribute.KeyValue { - return ProcessExecutableNameKey.String(val) -} - -// ProcessExecutablePath returns an attribute KeyValue conforming to the -// "process.executable.path" semantic conventions. It represents the full path to -// the process executable. On Linux based systems, can be set to the target of -// `proc/[pid]/exe`. On Windows, can be set to the result of -// `GetProcessImageFileNameW`. -func ProcessExecutablePath(val string) attribute.KeyValue { - return ProcessExecutablePathKey.String(val) -} - -// ProcessExitCode returns an attribute KeyValue conforming to the -// "process.exit.code" semantic conventions. It represents the exit code of the -// process. -func ProcessExitCode(val int) attribute.KeyValue { - return ProcessExitCodeKey.Int(val) -} - -// ProcessExitTime returns an attribute KeyValue conforming to the -// "process.exit.time" semantic conventions. It represents the date and time the -// process exited, in ISO 8601 format. -func ProcessExitTime(val string) attribute.KeyValue { - return ProcessExitTimeKey.String(val) -} - -// ProcessGroupLeaderPID returns an attribute KeyValue conforming to the -// "process.group_leader.pid" semantic conventions. It represents the PID of the -// process's group leader. This is also the process group ID (PGID) of the -// process. -func ProcessGroupLeaderPID(val int) attribute.KeyValue { - return ProcessGroupLeaderPIDKey.Int(val) -} - -// ProcessInteractive returns an attribute KeyValue conforming to the -// "process.interactive" semantic conventions. It represents the whether the -// process is connected to an interactive shell. -func ProcessInteractive(val bool) attribute.KeyValue { - return ProcessInteractiveKey.Bool(val) -} - -// ProcessLinuxCgroup returns an attribute KeyValue conforming to the -// "process.linux.cgroup" semantic conventions. It represents the control group -// associated with the process. -func ProcessLinuxCgroup(val string) attribute.KeyValue { - return ProcessLinuxCgroupKey.String(val) -} - -// ProcessOwner returns an attribute KeyValue conforming to the "process.owner" -// semantic conventions. It represents the username of the user that owns the -// process. -func ProcessOwner(val string) attribute.KeyValue { - return ProcessOwnerKey.String(val) -} - -// ProcessParentPID returns an attribute KeyValue conforming to the -// "process.parent_pid" semantic conventions. It represents the parent Process -// identifier (PPID). -func ProcessParentPID(val int) attribute.KeyValue { - return ProcessParentPIDKey.Int(val) -} - -// ProcessPID returns an attribute KeyValue conforming to the "process.pid" -// semantic conventions. It represents the process identifier (PID). -func ProcessPID(val int) attribute.KeyValue { - return ProcessPIDKey.Int(val) -} - -// ProcessRealUserID returns an attribute KeyValue conforming to the -// "process.real_user.id" semantic conventions. It represents the real user ID -// (RUID) of the process. -func ProcessRealUserID(val int) attribute.KeyValue { - return ProcessRealUserIDKey.Int(val) -} - -// ProcessRealUserName returns an attribute KeyValue conforming to the -// "process.real_user.name" semantic conventions. It represents the username of -// the real user of the process. -func ProcessRealUserName(val string) attribute.KeyValue { - return ProcessRealUserNameKey.String(val) -} - -// ProcessRuntimeDescription returns an attribute KeyValue conforming to the -// "process.runtime.description" semantic conventions. It represents an -// additional description about the runtime of the process, for example a -// specific vendor customization of the runtime environment. -func ProcessRuntimeDescription(val string) attribute.KeyValue { - return ProcessRuntimeDescriptionKey.String(val) -} - -// ProcessRuntimeName returns an attribute KeyValue conforming to the -// "process.runtime.name" semantic conventions. It represents the name of the -// runtime of this process. -func ProcessRuntimeName(val string) attribute.KeyValue { - return ProcessRuntimeNameKey.String(val) -} - -// ProcessRuntimeVersion returns an attribute KeyValue conforming to the -// "process.runtime.version" semantic conventions. It represents the version of -// the runtime of this process, as returned by the runtime without modification. -func ProcessRuntimeVersion(val string) attribute.KeyValue { - return ProcessRuntimeVersionKey.String(val) -} - -// ProcessSavedUserID returns an attribute KeyValue conforming to the -// "process.saved_user.id" semantic conventions. It represents the saved user ID -// (SUID) of the process. -func ProcessSavedUserID(val int) attribute.KeyValue { - return ProcessSavedUserIDKey.Int(val) -} - -// ProcessSavedUserName returns an attribute KeyValue conforming to the -// "process.saved_user.name" semantic conventions. It represents the username of -// the saved user. -func ProcessSavedUserName(val string) attribute.KeyValue { - return ProcessSavedUserNameKey.String(val) -} - -// ProcessSessionLeaderPID returns an attribute KeyValue conforming to the -// "process.session_leader.pid" semantic conventions. It represents the PID of -// the process's session leader. This is also the session ID (SID) of the -// process. -func ProcessSessionLeaderPID(val int) attribute.KeyValue { - return ProcessSessionLeaderPIDKey.Int(val) -} - -// ProcessTitle returns an attribute KeyValue conforming to the "process.title" -// semantic conventions. It represents the process title (proctitle). -func ProcessTitle(val string) attribute.KeyValue { - return ProcessTitleKey.String(val) -} - -// ProcessUserID returns an attribute KeyValue conforming to the -// "process.user.id" semantic conventions. It represents the effective user ID -// (EUID) of the process. -func ProcessUserID(val int) attribute.KeyValue { - return ProcessUserIDKey.Int(val) -} - -// ProcessUserName returns an attribute KeyValue conforming to the -// "process.user.name" semantic conventions. It represents the username of the -// effective user of the process. -func ProcessUserName(val string) attribute.KeyValue { - return ProcessUserNameKey.String(val) -} - -// ProcessVpid returns an attribute KeyValue conforming to the "process.vpid" -// semantic conventions. It represents the virtual process identifier. -func ProcessVpid(val int) attribute.KeyValue { - return ProcessVpidKey.Int(val) -} - -// ProcessWorkingDirectory returns an attribute KeyValue conforming to the -// "process.working_directory" semantic conventions. It represents the working -// directory of the process. -func ProcessWorkingDirectory(val string) attribute.KeyValue { - return ProcessWorkingDirectoryKey.String(val) -} - -// Enum values for process.context_switch.type -var ( - // voluntary - // Stability: development - ProcessContextSwitchTypeVoluntary = ProcessContextSwitchTypeKey.String("voluntary") - // involuntary - // Stability: development - ProcessContextSwitchTypeInvoluntary = ProcessContextSwitchTypeKey.String("involuntary") -) - -// Enum values for process.state -var ( - // running - // Stability: development - ProcessStateRunning = ProcessStateKey.String("running") - // sleeping - // Stability: development - ProcessStateSleeping = ProcessStateKey.String("sleeping") - // stopped - // Stability: development - ProcessStateStopped = ProcessStateKey.String("stopped") - // defunct - // Stability: development - ProcessStateDefunct = ProcessStateKey.String("defunct") -) - -// Namespace: profile -const ( - // ProfileFrameTypeKey is the attribute Key conforming to the - // "profile.frame.type" semantic conventions. It represents the describes the - // interpreter or compiler of a single frame. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "cpython" - ProfileFrameTypeKey = attribute.Key("profile.frame.type") -) - -// Enum values for profile.frame.type -var ( - // [.NET] - // - // Stability: development - // - // [.NET]: https://wikipedia.org/wiki/.NET - ProfileFrameTypeDotnet = ProfileFrameTypeKey.String("dotnet") - // [JVM] - // - // Stability: development - // - // [JVM]: https://wikipedia.org/wiki/Java_virtual_machine - ProfileFrameTypeJVM = ProfileFrameTypeKey.String("jvm") - // [Kernel] - // - // Stability: development - // - // [Kernel]: https://wikipedia.org/wiki/Kernel_(operating_system) - ProfileFrameTypeKernel = ProfileFrameTypeKey.String("kernel") - // Can be one of but not limited to [C], [C++], [Go] or [Rust]. If possible, a - // more precise value MUST be used. - // - // Stability: development - // - // [C]: https://wikipedia.org/wiki/C_(programming_language) - // [C++]: https://wikipedia.org/wiki/C%2B%2B - // [Go]: https://wikipedia.org/wiki/Go_(programming_language) - // [Rust]: https://wikipedia.org/wiki/Rust_(programming_language) - ProfileFrameTypeNative = ProfileFrameTypeKey.String("native") - // [Perl] - // - // Stability: development - // - // [Perl]: https://wikipedia.org/wiki/Perl - ProfileFrameTypePerl = ProfileFrameTypeKey.String("perl") - // [PHP] - // - // Stability: development - // - // [PHP]: https://wikipedia.org/wiki/PHP - ProfileFrameTypePHP = ProfileFrameTypeKey.String("php") - // [Python] - // - // Stability: development - // - // [Python]: https://wikipedia.org/wiki/Python_(programming_language) - ProfileFrameTypeCpython = ProfileFrameTypeKey.String("cpython") - // [Ruby] - // - // Stability: development - // - // [Ruby]: https://wikipedia.org/wiki/Ruby_(programming_language) - ProfileFrameTypeRuby = ProfileFrameTypeKey.String("ruby") - // [V8JS] - // - // Stability: development - // - // [V8JS]: https://wikipedia.org/wiki/V8_(JavaScript_engine) - ProfileFrameTypeV8JS = ProfileFrameTypeKey.String("v8js") - // [Erlang] - // - // Stability: development - // - // [Erlang]: https://en.wikipedia.org/wiki/BEAM_(Erlang_virtual_machine) - ProfileFrameTypeBeam = ProfileFrameTypeKey.String("beam") - // [Go], - // - // Stability: development - // - // [Go]: https://wikipedia.org/wiki/Go_(programming_language) - ProfileFrameTypeGo = ProfileFrameTypeKey.String("go") - // [Rust] - // - // Stability: development - // - // [Rust]: https://wikipedia.org/wiki/Rust_(programming_language) - ProfileFrameTypeRust = ProfileFrameTypeKey.String("rust") -) - -// Namespace: rpc -const ( - // RPCMessageCompressedSizeKey is the attribute Key conforming to the - // "rpc.message.compressed_size" semantic conventions. It represents the - // compressed size of the message in bytes. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - RPCMessageCompressedSizeKey = attribute.Key("rpc.message.compressed_size") - - // RPCMessageIDKey is the attribute Key conforming to the "rpc.message.id" - // semantic conventions. It MUST be calculated as two different counters - // starting from `1` one for sent messages and one for received message.. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: This way we guarantee that the values will be consistent between - // different implementations. - RPCMessageIDKey = attribute.Key("rpc.message.id") - - // RPCMessageTypeKey is the attribute Key conforming to the "rpc.message.type" - // semantic conventions. It represents the whether this is a received or sent - // message. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - RPCMessageTypeKey = attribute.Key("rpc.message.type") - - // RPCMessageUncompressedSizeKey is the attribute Key conforming to the - // "rpc.message.uncompressed_size" semantic conventions. It represents the - // uncompressed size of the message in bytes. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - RPCMessageUncompressedSizeKey = attribute.Key("rpc.message.uncompressed_size") - - // RPCMethodKey is the attribute Key conforming to the "rpc.method" semantic - // conventions. It represents the fully-qualified logical name of the method - // from the RPC interface perspective. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "com.example.ExampleService/exampleMethod", "EchoService/Echo", - // "_OTHER" - // Note: The method name MAY have unbounded cardinality in edge or error cases. - // - // Some RPC frameworks or libraries provide a fixed set of recognized methods - // for client stubs and server implementations. Instrumentations for such - // frameworks MUST set this attribute to the original method name only - // when the method is recognized by the framework or library. - // - // When the method is not recognized, for example, when the server receives - // a request for a method that is not predefined on the server, or when - // instrumentation is not able to reliably detect if the method is predefined, - // the attribute MUST be set to `_OTHER`. In such cases, tracing - // instrumentations MUST also set `rpc.method_original` attribute to - // the original method value. - // - // If the RPC instrumentation could end up converting valid RPC methods to - // `_OTHER`, then it SHOULD provide a way to configure the list of recognized - // RPC methods. - // - // The `rpc.method` can be different from the name of any implementing - // method/function. - // The `code.function.name` attribute may be used to record the fully-qualified - // method actually executing the call on the server side, or the - // RPC client stub method on the client side. - RPCMethodKey = attribute.Key("rpc.method") - - // RPCMethodOriginalKey is the attribute Key conforming to the - // "rpc.method_original" semantic conventions. It represents the original name - // of the method used by the client. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "com.myservice.EchoService/catchAll", - // "com.myservice.EchoService/unknownMethod", "InvalidMethod" - RPCMethodOriginalKey = attribute.Key("rpc.method_original") - - // RPCResponseStatusCodeKey is the attribute Key conforming to the - // "rpc.response.status_code" semantic conventions. It represents the status - // code of the RPC returned by the RPC server or generated by the client. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "OK", "DEADLINE_EXCEEDED", "-32602" - // Note: Usually it represents an error code, but may also represent partial - // success, warning, or differentiate between various types of successful - // outcomes. - // Semantic conventions for individual RPC frameworks SHOULD document what - // `rpc.response.status_code` means in the context of that system and which - // values are considered to represent errors. - RPCResponseStatusCodeKey = attribute.Key("rpc.response.status_code") - - // RPCSystemNameKey is the attribute Key conforming to the "rpc.system.name" - // semantic conventions. It represents the Remote Procedure Call (RPC) system. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: The client and server RPC systems may differ for the same RPC - // interaction. For example, a client may use Apache Dubbo or Connect RPC to - // communicate with a server that uses gRPC since both protocols provide - // compatibility with gRPC. - RPCSystemNameKey = attribute.Key("rpc.system.name") -) - -// RPCMessageCompressedSize returns an attribute KeyValue conforming to the -// "rpc.message.compressed_size" semantic conventions. It represents the -// compressed size of the message in bytes. -func RPCMessageCompressedSize(val int) attribute.KeyValue { - return RPCMessageCompressedSizeKey.Int(val) -} - -// RPCMessageID returns an attribute KeyValue conforming to the "rpc.message.id" -// semantic conventions. It MUST be calculated as two different counters starting -// from `1` one for sent messages and one for received message.. -func RPCMessageID(val int) attribute.KeyValue { - return RPCMessageIDKey.Int(val) -} - -// RPCMessageUncompressedSize returns an attribute KeyValue conforming to the -// "rpc.message.uncompressed_size" semantic conventions. It represents the -// uncompressed size of the message in bytes. -func RPCMessageUncompressedSize(val int) attribute.KeyValue { - return RPCMessageUncompressedSizeKey.Int(val) -} - -// RPCMethod returns an attribute KeyValue conforming to the "rpc.method" -// semantic conventions. It represents the fully-qualified logical name of the -// method from the RPC interface perspective. -func RPCMethod(val string) attribute.KeyValue { - return RPCMethodKey.String(val) -} - -// RPCMethodOriginal returns an attribute KeyValue conforming to the -// "rpc.method_original" semantic conventions. It represents the original name of -// the method used by the client. -func RPCMethodOriginal(val string) attribute.KeyValue { - return RPCMethodOriginalKey.String(val) -} - -// RPCRequestMetadata returns an attribute KeyValue conforming to the -// "rpc.request.metadata" semantic conventions. It represents the RPC request -// metadata, `` being the normalized RPC metadata key (lowercase), the value -// being the metadata values. -func RPCRequestMetadata(key string, val ...string) attribute.KeyValue { - return attribute.StringSlice("rpc.request.metadata."+key, val) -} - -// RPCResponseMetadata returns an attribute KeyValue conforming to the -// "rpc.response.metadata" semantic conventions. It represents the RPC response -// metadata, `` being the normalized RPC metadata key (lowercase), the value -// being the metadata values. -func RPCResponseMetadata(key string, val ...string) attribute.KeyValue { - return attribute.StringSlice("rpc.response.metadata."+key, val) -} - -// RPCResponseStatusCode returns an attribute KeyValue conforming to the -// "rpc.response.status_code" semantic conventions. It represents the status code -// of the RPC returned by the RPC server or generated by the client. -func RPCResponseStatusCode(val string) attribute.KeyValue { - return RPCResponseStatusCodeKey.String(val) -} - -// Enum values for rpc.message.type -var ( - // sent - // Stability: development - RPCMessageTypeSent = RPCMessageTypeKey.String("SENT") - // received - // Stability: development - RPCMessageTypeReceived = RPCMessageTypeKey.String("RECEIVED") -) - -// Enum values for rpc.system.name -var ( - // [gRPC] - // Stability: development - // - // [gRPC]: https://grpc.io/ - RPCSystemNameGRPC = RPCSystemNameKey.String("grpc") - // [Apache Dubbo] - // Stability: development - // - // [Apache Dubbo]: https://dubbo.apache.org/ - RPCSystemNameDubbo = RPCSystemNameKey.String("dubbo") - // [Connect RPC] - // Stability: development - // - // [Connect RPC]: https://connectrpc.com/ - RPCSystemNameConnectrpc = RPCSystemNameKey.String("connectrpc") - // [JSON-RPC] - // Stability: development - // - // [JSON-RPC]: https://www.jsonrpc.org/ - RPCSystemNameJSONRPC = RPCSystemNameKey.String("jsonrpc") -) - -// Namespace: security_rule -const ( - // SecurityRuleCategoryKey is the attribute Key conforming to the - // "security_rule.category" semantic conventions. It represents a categorization - // value keyword used by the entity using the rule for detection of this event. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Attempted Information Leak" - SecurityRuleCategoryKey = attribute.Key("security_rule.category") - - // SecurityRuleDescriptionKey is the attribute Key conforming to the - // "security_rule.description" semantic conventions. It represents the - // description of the rule generating the event. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Block requests to public DNS over HTTPS / TLS protocols" - SecurityRuleDescriptionKey = attribute.Key("security_rule.description") - - // SecurityRuleLicenseKey is the attribute Key conforming to the - // "security_rule.license" semantic conventions. It represents the name of the - // license under which the rule used to generate this event is made available. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Apache 2.0" - SecurityRuleLicenseKey = attribute.Key("security_rule.license") - - // SecurityRuleNameKey is the attribute Key conforming to the - // "security_rule.name" semantic conventions. It represents the name of the rule - // or signature generating the event. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "BLOCK_DNS_over_TLS" - SecurityRuleNameKey = attribute.Key("security_rule.name") - - // SecurityRuleReferenceKey is the attribute Key conforming to the - // "security_rule.reference" semantic conventions. It represents the reference - // URL to additional information about the rule used to generate this event. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "https://en.wikipedia.org/wiki/DNS_over_TLS" - // Note: The URL can point to the vendor’s documentation about the rule. If - // that’s not available, it can also be a link to a more general page - // describing this type of alert. - SecurityRuleReferenceKey = attribute.Key("security_rule.reference") - - // SecurityRuleRulesetNameKey is the attribute Key conforming to the - // "security_rule.ruleset.name" semantic conventions. It represents the name of - // the ruleset, policy, group, or parent category in which the rule used to - // generate this event is a member. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Standard_Protocol_Filters" - SecurityRuleRulesetNameKey = attribute.Key("security_rule.ruleset.name") - - // SecurityRuleUUIDKey is the attribute Key conforming to the - // "security_rule.uuid" semantic conventions. It represents a rule ID that is - // unique within the scope of a set or group of agents, observers, or other - // entities using the rule for detection of this event. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "550e8400-e29b-41d4-a716-446655440000", "1100110011" - SecurityRuleUUIDKey = attribute.Key("security_rule.uuid") - - // SecurityRuleVersionKey is the attribute Key conforming to the - // "security_rule.version" semantic conventions. It represents the version / - // revision of the rule being used for analysis. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1.0.0" - SecurityRuleVersionKey = attribute.Key("security_rule.version") -) - -// SecurityRuleCategory returns an attribute KeyValue conforming to the -// "security_rule.category" semantic conventions. It represents a categorization -// value keyword used by the entity using the rule for detection of this event. -func SecurityRuleCategory(val string) attribute.KeyValue { - return SecurityRuleCategoryKey.String(val) -} - -// SecurityRuleDescription returns an attribute KeyValue conforming to the -// "security_rule.description" semantic conventions. It represents the -// description of the rule generating the event. -func SecurityRuleDescription(val string) attribute.KeyValue { - return SecurityRuleDescriptionKey.String(val) -} - -// SecurityRuleLicense returns an attribute KeyValue conforming to the -// "security_rule.license" semantic conventions. It represents the name of the -// license under which the rule used to generate this event is made available. -func SecurityRuleLicense(val string) attribute.KeyValue { - return SecurityRuleLicenseKey.String(val) -} - -// SecurityRuleName returns an attribute KeyValue conforming to the -// "security_rule.name" semantic conventions. It represents the name of the rule -// or signature generating the event. -func SecurityRuleName(val string) attribute.KeyValue { - return SecurityRuleNameKey.String(val) -} - -// SecurityRuleReference returns an attribute KeyValue conforming to the -// "security_rule.reference" semantic conventions. It represents the reference -// URL to additional information about the rule used to generate this event. -func SecurityRuleReference(val string) attribute.KeyValue { - return SecurityRuleReferenceKey.String(val) -} - -// SecurityRuleRulesetName returns an attribute KeyValue conforming to the -// "security_rule.ruleset.name" semantic conventions. It represents the name of -// the ruleset, policy, group, or parent category in which the rule used to -// generate this event is a member. -func SecurityRuleRulesetName(val string) attribute.KeyValue { - return SecurityRuleRulesetNameKey.String(val) -} - -// SecurityRuleUUID returns an attribute KeyValue conforming to the -// "security_rule.uuid" semantic conventions. It represents a rule ID that is -// unique within the scope of a set or group of agents, observers, or other -// entities using the rule for detection of this event. -func SecurityRuleUUID(val string) attribute.KeyValue { - return SecurityRuleUUIDKey.String(val) -} - -// SecurityRuleVersion returns an attribute KeyValue conforming to the -// "security_rule.version" semantic conventions. It represents the version / -// revision of the rule being used for analysis. -func SecurityRuleVersion(val string) attribute.KeyValue { - return SecurityRuleVersionKey.String(val) -} - -// Namespace: server -const ( - // ServerAddressKey is the attribute Key conforming to the "server.address" - // semantic conventions. It represents the server domain name if available - // without reverse DNS lookup; otherwise, IP address or Unix domain socket name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "example.com", "10.1.2.80", "/tmp/my.sock" - // Note: When observed from the client side, and when communicating through an - // intermediary, `server.address` SHOULD represent the server address behind any - // intermediaries, for example proxies, if it's available. - ServerAddressKey = attribute.Key("server.address") - - // ServerPortKey is the attribute Key conforming to the "server.port" semantic - // conventions. It represents the server port number. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: 80, 8080, 443 - // Note: When observed from the client side, and when communicating through an - // intermediary, `server.port` SHOULD represent the server port behind any - // intermediaries, for example proxies, if it's available. - ServerPortKey = attribute.Key("server.port") -) - -// ServerAddress returns an attribute KeyValue conforming to the "server.address" -// semantic conventions. It represents the server domain name if available -// without reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func ServerAddress(val string) attribute.KeyValue { - return ServerAddressKey.String(val) -} - -// ServerPort returns an attribute KeyValue conforming to the "server.port" -// semantic conventions. It represents the server port number. -func ServerPort(val int) attribute.KeyValue { - return ServerPortKey.Int(val) -} - -// Namespace: service -const ( - // ServiceInstanceIDKey is the attribute Key conforming to the - // "service.instance.id" semantic conventions. It represents the string ID of - // the service instance. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "627cc493-f310-47de-96bd-71410b7dec09" - // Note: MUST be unique for each instance of the same - // `service.namespace,service.name` pair (in other words - // `service.namespace,service.name,service.instance.id` triplet MUST be globally - // unique). The ID helps to - // distinguish instances of the same service that exist at the same time (e.g. - // instances of a horizontally scaled - // service). - // - // Implementations, such as SDKs, are recommended to generate a random Version 1 - // or Version 4 [RFC - // 4122] UUID, but are free to use an inherent unique ID as - // the source of - // this value if stability is desirable. In that case, the ID SHOULD be used as - // source of a UUID Version 5 and - // SHOULD use the following UUID as the namespace: - // `4d63009a-8d0f-11ee-aad7-4c796ed8e320`. - // - // UUIDs are typically recommended, as only an opaque value for the purposes of - // identifying a service instance is - // needed. Similar to what can be seen in the man page for the - // [`/etc/machine-id`] file, the underlying - // data, such as pod name and namespace should be treated as confidential, being - // the user's choice to expose it - // or not via another resource attribute. - // - // For applications running behind an application server (like unicorn), we do - // not recommend using one identifier - // for all processes participating in the application. Instead, it's recommended - // each division (e.g. a worker - // thread in unicorn) to have its own instance.id. - // - // It's not recommended for a Collector to set `service.instance.id` if it can't - // unambiguously determine the - // service instance that is generating that telemetry. For instance, creating an - // UUID based on `pod.name` will - // likely be wrong, as the Collector might not know from which container within - // that pod the telemetry originated. - // However, Collectors can set the `service.instance.id` if they can - // unambiguously determine the service instance - // for that telemetry. This is typically the case for scraping receivers, as - // they know the target address and - // port. - // - // [RFC - // 4122]: https://www.ietf.org/rfc/rfc4122.txt - // [`/etc/machine-id`]: https://www.freedesktop.org/software/systemd/man/latest/machine-id.html - ServiceInstanceIDKey = attribute.Key("service.instance.id") - - // ServiceNameKey is the attribute Key conforming to the "service.name" semantic - // conventions. It represents the logical name of the service. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "shoppingcart" - // Note: MUST be the same for all instances of horizontally scaled services. If - // the value was not specified, SDKs MUST fallback to `unknown_service:` - // concatenated with [`process.executable.name`], e.g. `unknown_service:bash`. - // If `process.executable.name` is not available, the value MUST be set to - // `unknown_service`. - // - // [`process.executable.name`]: process.md - ServiceNameKey = attribute.Key("service.name") - - // ServiceNamespaceKey is the attribute Key conforming to the - // "service.namespace" semantic conventions. It represents a namespace for - // `service.name`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Shop" - // Note: A string value having a meaning that helps to distinguish a group of - // services, for example the team name that owns a group of services. - // `service.name` is expected to be unique within the same namespace. If - // `service.namespace` is not specified in the Resource then `service.name` is - // expected to be unique for all services that have no explicit namespace - // defined (so the empty/unspecified namespace is simply one more valid - // namespace). Zero-length namespace string is assumed equal to unspecified - // namespace. - ServiceNamespaceKey = attribute.Key("service.namespace") - - // ServicePeerNameKey is the attribute Key conforming to the "service.peer.name" - // semantic conventions. It represents the logical name of the service on the - // other side of the connection. SHOULD be equal to the actual [`service.name`] - // resource attribute of the remote service if any. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "shoppingcart" - // - // [`service.name`]: /docs/resource/README.md#service - ServicePeerNameKey = attribute.Key("service.peer.name") - - // ServicePeerNamespaceKey is the attribute Key conforming to the - // "service.peer.namespace" semantic conventions. It represents the logical - // namespace of the service on the other side of the connection. SHOULD be equal - // to the actual [`service.namespace`] resource attribute of the remote service - // if any. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Shop" - // - // [`service.namespace`]: /docs/resource/README.md#service - ServicePeerNamespaceKey = attribute.Key("service.peer.namespace") - - // ServiceVersionKey is the attribute Key conforming to the "service.version" - // semantic conventions. It represents the version string of the service - // component. The format is not defined by these conventions. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "2.0.0", "a01dbef8a" - ServiceVersionKey = attribute.Key("service.version") -) - -// ServiceInstanceID returns an attribute KeyValue conforming to the -// "service.instance.id" semantic conventions. It represents the string ID of the -// service instance. -func ServiceInstanceID(val string) attribute.KeyValue { - return ServiceInstanceIDKey.String(val) -} - -// ServiceName returns an attribute KeyValue conforming to the "service.name" -// semantic conventions. It represents the logical name of the service. -func ServiceName(val string) attribute.KeyValue { - return ServiceNameKey.String(val) -} - -// ServiceNamespace returns an attribute KeyValue conforming to the -// "service.namespace" semantic conventions. It represents a namespace for -// `service.name`. -func ServiceNamespace(val string) attribute.KeyValue { - return ServiceNamespaceKey.String(val) -} - -// ServicePeerName returns an attribute KeyValue conforming to the -// "service.peer.name" semantic conventions. It represents the logical name of -// the service on the other side of the connection. SHOULD be equal to the actual -// [`service.name`] resource attribute of the remote service if any. -// -// [`service.name`]: /docs/resource/README.md#service -func ServicePeerName(val string) attribute.KeyValue { - return ServicePeerNameKey.String(val) -} - -// ServicePeerNamespace returns an attribute KeyValue conforming to the -// "service.peer.namespace" semantic conventions. It represents the logical -// namespace of the service on the other side of the connection. SHOULD be equal -// to the actual [`service.namespace`] resource attribute of the remote service -// if any. -// -// [`service.namespace`]: /docs/resource/README.md#service -func ServicePeerNamespace(val string) attribute.KeyValue { - return ServicePeerNamespaceKey.String(val) -} - -// ServiceVersion returns an attribute KeyValue conforming to the -// "service.version" semantic conventions. It represents the version string of -// the service component. The format is not defined by these conventions. -func ServiceVersion(val string) attribute.KeyValue { - return ServiceVersionKey.String(val) -} - -// Namespace: session -const ( - // SessionIDKey is the attribute Key conforming to the "session.id" semantic - // conventions. It represents a unique id to identify a session. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 00112233-4455-6677-8899-aabbccddeeff - SessionIDKey = attribute.Key("session.id") - - // SessionPreviousIDKey is the attribute Key conforming to the - // "session.previous_id" semantic conventions. It represents the previous - // `session.id` for this user, when known. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 00112233-4455-6677-8899-aabbccddeeff - SessionPreviousIDKey = attribute.Key("session.previous_id") -) - -// SessionID returns an attribute KeyValue conforming to the "session.id" -// semantic conventions. It represents a unique id to identify a session. -func SessionID(val string) attribute.KeyValue { - return SessionIDKey.String(val) -} - -// SessionPreviousID returns an attribute KeyValue conforming to the -// "session.previous_id" semantic conventions. It represents the previous -// `session.id` for this user, when known. -func SessionPreviousID(val string) attribute.KeyValue { - return SessionPreviousIDKey.String(val) -} - -// Namespace: signalr -const ( - // SignalRConnectionStatusKey is the attribute Key conforming to the - // "signalr.connection.status" semantic conventions. It represents the signalR - // HTTP connection closure status. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "app_shutdown", "timeout" - SignalRConnectionStatusKey = attribute.Key("signalr.connection.status") - - // SignalRTransportKey is the attribute Key conforming to the - // "signalr.transport" semantic conventions. It represents the - // [SignalR transport type]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "web_sockets", "long_polling" - // - // [SignalR transport type]: https://github.com/dotnet/aspnetcore/blob/main/src/SignalR/docs/specs/TransportProtocols.md - SignalRTransportKey = attribute.Key("signalr.transport") -) - -// Enum values for signalr.connection.status -var ( - // The connection was closed normally. - // Stability: stable - SignalRConnectionStatusNormalClosure = SignalRConnectionStatusKey.String("normal_closure") - // The connection was closed due to a timeout. - // Stability: stable - SignalRConnectionStatusTimeout = SignalRConnectionStatusKey.String("timeout") - // The connection was closed because the app is shutting down. - // Stability: stable - SignalRConnectionStatusAppShutdown = SignalRConnectionStatusKey.String("app_shutdown") -) - -// Enum values for signalr.transport -var ( - // ServerSentEvents protocol - // Stability: stable - SignalRTransportServerSentEvents = SignalRTransportKey.String("server_sent_events") - // LongPolling protocol - // Stability: stable - SignalRTransportLongPolling = SignalRTransportKey.String("long_polling") - // WebSockets protocol - // Stability: stable - SignalRTransportWebSockets = SignalRTransportKey.String("web_sockets") -) - -// Namespace: source -const ( - // SourceAddressKey is the attribute Key conforming to the "source.address" - // semantic conventions. It represents the source address - domain name if - // available without reverse DNS lookup; otherwise, IP address or Unix domain - // socket name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "source.example.com", "10.1.2.80", "/tmp/my.sock" - // Note: When observed from the destination side, and when communicating through - // an intermediary, `source.address` SHOULD represent the source address behind - // any intermediaries, for example proxies, if it's available. - SourceAddressKey = attribute.Key("source.address") - - // SourcePortKey is the attribute Key conforming to the "source.port" semantic - // conventions. It represents the source port number. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 3389, 2888 - SourcePortKey = attribute.Key("source.port") -) - -// SourceAddress returns an attribute KeyValue conforming to the "source.address" -// semantic conventions. It represents the source address - domain name if -// available without reverse DNS lookup; otherwise, IP address or Unix domain -// socket name. -func SourceAddress(val string) attribute.KeyValue { - return SourceAddressKey.String(val) -} - -// SourcePort returns an attribute KeyValue conforming to the "source.port" -// semantic conventions. It represents the source port number. -func SourcePort(val int) attribute.KeyValue { - return SourcePortKey.Int(val) -} - -// Namespace: system -const ( - // SystemDeviceKey is the attribute Key conforming to the "system.device" - // semantic conventions. It represents the device identifier. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "(identifier)" - SystemDeviceKey = attribute.Key("system.device") - - // SystemFilesystemModeKey is the attribute Key conforming to the - // "system.filesystem.mode" semantic conventions. It represents the filesystem - // mode. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "rw, ro" - SystemFilesystemModeKey = attribute.Key("system.filesystem.mode") - - // SystemFilesystemMountpointKey is the attribute Key conforming to the - // "system.filesystem.mountpoint" semantic conventions. It represents the - // filesystem mount path. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/mnt/data" - SystemFilesystemMountpointKey = attribute.Key("system.filesystem.mountpoint") - - // SystemFilesystemStateKey is the attribute Key conforming to the - // "system.filesystem.state" semantic conventions. It represents the filesystem - // state. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "used" - SystemFilesystemStateKey = attribute.Key("system.filesystem.state") - - // SystemFilesystemTypeKey is the attribute Key conforming to the - // "system.filesystem.type" semantic conventions. It represents the filesystem - // type. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "ext4" - SystemFilesystemTypeKey = attribute.Key("system.filesystem.type") - - // SystemMemoryLinuxSlabStateKey is the attribute Key conforming to the - // "system.memory.linux.slab.state" semantic conventions. It represents the - // Linux Slab memory state. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "reclaimable", "unreclaimable" - SystemMemoryLinuxSlabStateKey = attribute.Key("system.memory.linux.slab.state") - - // SystemMemoryStateKey is the attribute Key conforming to the - // "system.memory.state" semantic conventions. It represents the memory state. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "free", "cached" - SystemMemoryStateKey = attribute.Key("system.memory.state") - - // SystemPagingDirectionKey is the attribute Key conforming to the - // "system.paging.direction" semantic conventions. It represents the paging - // access direction. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "in" - SystemPagingDirectionKey = attribute.Key("system.paging.direction") - - // SystemPagingFaultTypeKey is the attribute Key conforming to the - // "system.paging.fault.type" semantic conventions. It represents the paging - // fault type. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "minor" - SystemPagingFaultTypeKey = attribute.Key("system.paging.fault.type") - - // SystemPagingStateKey is the attribute Key conforming to the - // "system.paging.state" semantic conventions. It represents the memory paging - // state. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "free" - SystemPagingStateKey = attribute.Key("system.paging.state") -) - -// SystemDevice returns an attribute KeyValue conforming to the "system.device" -// semantic conventions. It represents the device identifier. -func SystemDevice(val string) attribute.KeyValue { - return SystemDeviceKey.String(val) -} - -// SystemFilesystemMode returns an attribute KeyValue conforming to the -// "system.filesystem.mode" semantic conventions. It represents the filesystem -// mode. -func SystemFilesystemMode(val string) attribute.KeyValue { - return SystemFilesystemModeKey.String(val) -} - -// SystemFilesystemMountpoint returns an attribute KeyValue conforming to the -// "system.filesystem.mountpoint" semantic conventions. It represents the -// filesystem mount path. -func SystemFilesystemMountpoint(val string) attribute.KeyValue { - return SystemFilesystemMountpointKey.String(val) -} - -// Enum values for system.filesystem.state -var ( - // used - // Stability: development - SystemFilesystemStateUsed = SystemFilesystemStateKey.String("used") - // free - // Stability: development - SystemFilesystemStateFree = SystemFilesystemStateKey.String("free") - // reserved - // Stability: development - SystemFilesystemStateReserved = SystemFilesystemStateKey.String("reserved") -) - -// Enum values for system.filesystem.type -var ( - // fat32 - // Stability: development - SystemFilesystemTypeFat32 = SystemFilesystemTypeKey.String("fat32") - // exfat - // Stability: development - SystemFilesystemTypeExfat = SystemFilesystemTypeKey.String("exfat") - // ntfs - // Stability: development - SystemFilesystemTypeNtfs = SystemFilesystemTypeKey.String("ntfs") - // refs - // Stability: development - SystemFilesystemTypeRefs = SystemFilesystemTypeKey.String("refs") - // hfsplus - // Stability: development - SystemFilesystemTypeHfsplus = SystemFilesystemTypeKey.String("hfsplus") - // ext4 - // Stability: development - SystemFilesystemTypeExt4 = SystemFilesystemTypeKey.String("ext4") -) - -// Enum values for system.memory.linux.slab.state -var ( - // reclaimable - // Stability: development - SystemMemoryLinuxSlabStateReclaimable = SystemMemoryLinuxSlabStateKey.String("reclaimable") - // unreclaimable - // Stability: development - SystemMemoryLinuxSlabStateUnreclaimable = SystemMemoryLinuxSlabStateKey.String("unreclaimable") -) - -// Enum values for system.memory.state -var ( - // Actual used virtual memory in bytes. - // Stability: development - SystemMemoryStateUsed = SystemMemoryStateKey.String("used") - // free - // Stability: development - SystemMemoryStateFree = SystemMemoryStateKey.String("free") - // buffers - // Stability: development - SystemMemoryStateBuffers = SystemMemoryStateKey.String("buffers") - // cached - // Stability: development - SystemMemoryStateCached = SystemMemoryStateKey.String("cached") -) - -// Enum values for system.paging.direction -var ( - // in - // Stability: development - SystemPagingDirectionIn = SystemPagingDirectionKey.String("in") - // out - // Stability: development - SystemPagingDirectionOut = SystemPagingDirectionKey.String("out") -) - -// Enum values for system.paging.fault.type -var ( - // major - // Stability: development - SystemPagingFaultTypeMajor = SystemPagingFaultTypeKey.String("major") - // minor - // Stability: development - SystemPagingFaultTypeMinor = SystemPagingFaultTypeKey.String("minor") -) - -// Enum values for system.paging.state -var ( - // used - // Stability: development - SystemPagingStateUsed = SystemPagingStateKey.String("used") - // free - // Stability: development - SystemPagingStateFree = SystemPagingStateKey.String("free") -) - -// Namespace: telemetry -const ( - // TelemetryDistroNameKey is the attribute Key conforming to the - // "telemetry.distro.name" semantic conventions. It represents the name of the - // auto instrumentation agent or distribution, if used. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "parts-unlimited-java" - // Note: Official auto instrumentation agents and distributions SHOULD set the - // `telemetry.distro.name` attribute to - // a string starting with `opentelemetry-`, e.g. - // `opentelemetry-java-instrumentation`. - TelemetryDistroNameKey = attribute.Key("telemetry.distro.name") - - // TelemetryDistroVersionKey is the attribute Key conforming to the - // "telemetry.distro.version" semantic conventions. It represents the version - // string of the auto instrumentation agent or distribution, if used. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1.2.3" - TelemetryDistroVersionKey = attribute.Key("telemetry.distro.version") - - // TelemetrySDKLanguageKey is the attribute Key conforming to the - // "telemetry.sdk.language" semantic conventions. It represents the language of - // the telemetry SDK. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: - TelemetrySDKLanguageKey = attribute.Key("telemetry.sdk.language") - - // TelemetrySDKNameKey is the attribute Key conforming to the - // "telemetry.sdk.name" semantic conventions. It represents the name of the - // telemetry SDK as defined above. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "opentelemetry" - // Note: The OpenTelemetry SDK MUST set the `telemetry.sdk.name` attribute to - // `opentelemetry`. - // If another SDK, like a fork or a vendor-provided implementation, is used, - // this SDK MUST set the - // `telemetry.sdk.name` attribute to the fully-qualified class or module name of - // this SDK's main entry point - // or another suitable identifier depending on the language. - // The identifier `opentelemetry` is reserved and MUST NOT be used in this case. - // All custom identifiers SHOULD be stable across different versions of an - // implementation. - TelemetrySDKNameKey = attribute.Key("telemetry.sdk.name") - - // TelemetrySDKVersionKey is the attribute Key conforming to the - // "telemetry.sdk.version" semantic conventions. It represents the version - // string of the telemetry SDK. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "1.2.3" - TelemetrySDKVersionKey = attribute.Key("telemetry.sdk.version") -) - -// TelemetryDistroName returns an attribute KeyValue conforming to the -// "telemetry.distro.name" semantic conventions. It represents the name of the -// auto instrumentation agent or distribution, if used. -func TelemetryDistroName(val string) attribute.KeyValue { - return TelemetryDistroNameKey.String(val) -} - -// TelemetryDistroVersion returns an attribute KeyValue conforming to the -// "telemetry.distro.version" semantic conventions. It represents the version -// string of the auto instrumentation agent or distribution, if used. -func TelemetryDistroVersion(val string) attribute.KeyValue { - return TelemetryDistroVersionKey.String(val) -} - -// TelemetrySDKName returns an attribute KeyValue conforming to the -// "telemetry.sdk.name" semantic conventions. It represents the name of the -// telemetry SDK as defined above. -func TelemetrySDKName(val string) attribute.KeyValue { - return TelemetrySDKNameKey.String(val) -} - -// TelemetrySDKVersion returns an attribute KeyValue conforming to the -// "telemetry.sdk.version" semantic conventions. It represents the version string -// of the telemetry SDK. -func TelemetrySDKVersion(val string) attribute.KeyValue { - return TelemetrySDKVersionKey.String(val) -} - -// Enum values for telemetry.sdk.language -var ( - // cpp - // Stability: stable - TelemetrySDKLanguageCPP = TelemetrySDKLanguageKey.String("cpp") - // dotnet - // Stability: stable - TelemetrySDKLanguageDotnet = TelemetrySDKLanguageKey.String("dotnet") - // erlang - // Stability: stable - TelemetrySDKLanguageErlang = TelemetrySDKLanguageKey.String("erlang") - // go - // Stability: stable - TelemetrySDKLanguageGo = TelemetrySDKLanguageKey.String("go") - // java - // Stability: stable - TelemetrySDKLanguageJava = TelemetrySDKLanguageKey.String("java") - // nodejs - // Stability: stable - TelemetrySDKLanguageNodejs = TelemetrySDKLanguageKey.String("nodejs") - // php - // Stability: stable - TelemetrySDKLanguagePHP = TelemetrySDKLanguageKey.String("php") - // python - // Stability: stable - TelemetrySDKLanguagePython = TelemetrySDKLanguageKey.String("python") - // ruby - // Stability: stable - TelemetrySDKLanguageRuby = TelemetrySDKLanguageKey.String("ruby") - // rust - // Stability: stable - TelemetrySDKLanguageRust = TelemetrySDKLanguageKey.String("rust") - // swift - // Stability: stable - TelemetrySDKLanguageSwift = TelemetrySDKLanguageKey.String("swift") - // webjs - // Stability: stable - TelemetrySDKLanguageWebJS = TelemetrySDKLanguageKey.String("webjs") -) - -// Namespace: test -const ( - // TestCaseNameKey is the attribute Key conforming to the "test.case.name" - // semantic conventions. It represents the fully qualified human readable name - // of the [test case]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "org.example.TestCase1.test1", "example/tests/TestCase1.test1", - // "ExampleTestCase1_test1" - // - // [test case]: https://wikipedia.org/wiki/Test_case - TestCaseNameKey = attribute.Key("test.case.name") - - // TestCaseResultStatusKey is the attribute Key conforming to the - // "test.case.result.status" semantic conventions. It represents the status of - // the actual test case result from test execution. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "pass", "fail" - TestCaseResultStatusKey = attribute.Key("test.case.result.status") - - // TestSuiteNameKey is the attribute Key conforming to the "test.suite.name" - // semantic conventions. It represents the human readable name of a [test suite] - // . - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "TestSuite1" - // - // [test suite]: https://wikipedia.org/wiki/Test_suite - TestSuiteNameKey = attribute.Key("test.suite.name") - - // TestSuiteRunStatusKey is the attribute Key conforming to the - // "test.suite.run.status" semantic conventions. It represents the status of the - // test suite run. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "success", "failure", "skipped", "aborted", "timed_out", - // "in_progress" - TestSuiteRunStatusKey = attribute.Key("test.suite.run.status") -) - -// TestCaseName returns an attribute KeyValue conforming to the "test.case.name" -// semantic conventions. It represents the fully qualified human readable name of -// the [test case]. -// -// [test case]: https://wikipedia.org/wiki/Test_case -func TestCaseName(val string) attribute.KeyValue { - return TestCaseNameKey.String(val) -} - -// TestSuiteName returns an attribute KeyValue conforming to the -// "test.suite.name" semantic conventions. It represents the human readable name -// of a [test suite]. -// -// [test suite]: https://wikipedia.org/wiki/Test_suite -func TestSuiteName(val string) attribute.KeyValue { - return TestSuiteNameKey.String(val) -} - -// Enum values for test.case.result.status -var ( - // pass - // Stability: development - TestCaseResultStatusPass = TestCaseResultStatusKey.String("pass") - // fail - // Stability: development - TestCaseResultStatusFail = TestCaseResultStatusKey.String("fail") -) - -// Enum values for test.suite.run.status -var ( - // success - // Stability: development - TestSuiteRunStatusSuccess = TestSuiteRunStatusKey.String("success") - // failure - // Stability: development - TestSuiteRunStatusFailure = TestSuiteRunStatusKey.String("failure") - // skipped - // Stability: development - TestSuiteRunStatusSkipped = TestSuiteRunStatusKey.String("skipped") - // aborted - // Stability: development - TestSuiteRunStatusAborted = TestSuiteRunStatusKey.String("aborted") - // timed_out - // Stability: development - TestSuiteRunStatusTimedOut = TestSuiteRunStatusKey.String("timed_out") - // in_progress - // Stability: development - TestSuiteRunStatusInProgress = TestSuiteRunStatusKey.String("in_progress") -) - -// Namespace: thread -const ( - // ThreadIDKey is the attribute Key conforming to the "thread.id" semantic - // conventions. It represents the current "managed" thread ID (as opposed to OS - // thread ID). - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Note: - // Examples of where the value can be extracted from: - // - // | Language or platform | Source | - // | --- | --- | - // | JVM | `Thread.currentThread().threadId()` | - // | .NET | `Thread.CurrentThread.ManagedThreadId` | - // | Python | `threading.current_thread().ident` | - // | Ruby | `Thread.current.object_id` | - // | C++ | `std::this_thread::get_id()` | - // | Erlang | `erlang:self()` | - ThreadIDKey = attribute.Key("thread.id") - - // ThreadNameKey is the attribute Key conforming to the "thread.name" semantic - // conventions. It represents the current thread name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: main - // Note: - // Examples of where the value can be extracted from: - // - // | Language or platform | Source | - // | --- | --- | - // | JVM | `Thread.currentThread().getName()` | - // | .NET | `Thread.CurrentThread.Name` | - // | Python | `threading.current_thread().name` | - // | Ruby | `Thread.current.name` | - // | Erlang | `erlang:process_info(self(), registered_name)` | - ThreadNameKey = attribute.Key("thread.name") -) - -// ThreadID returns an attribute KeyValue conforming to the "thread.id" semantic -// conventions. It represents the current "managed" thread ID (as opposed to OS -// thread ID). -func ThreadID(val int) attribute.KeyValue { - return ThreadIDKey.Int(val) -} - -// ThreadName returns an attribute KeyValue conforming to the "thread.name" -// semantic conventions. It represents the current thread name. -func ThreadName(val string) attribute.KeyValue { - return ThreadNameKey.String(val) -} - -// Namespace: tls -const ( - // TLSCipherKey is the attribute Key conforming to the "tls.cipher" semantic - // conventions. It represents the string indicating the [cipher] used during the - // current connection. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "TLS_RSA_WITH_3DES_EDE_CBC_SHA", - // "TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256" - // Note: The values allowed for `tls.cipher` MUST be one of the `Descriptions` - // of the [registered TLS Cipher Suits]. - // - // [cipher]: https://datatracker.ietf.org/doc/html/rfc5246#appendix-A.5 - // [registered TLS Cipher Suits]: https://www.iana.org/assignments/tls-parameters/tls-parameters.xhtml#table-tls-parameters-4 - TLSCipherKey = attribute.Key("tls.cipher") - - // TLSClientCertificateKey is the attribute Key conforming to the - // "tls.client.certificate" semantic conventions. It represents the PEM-encoded - // stand-alone certificate offered by the client. This is usually - // mutually-exclusive of `client.certificate_chain` since this value also exists - // in that list. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "MII..." - TLSClientCertificateKey = attribute.Key("tls.client.certificate") - - // TLSClientCertificateChainKey is the attribute Key conforming to the - // "tls.client.certificate_chain" semantic conventions. It represents the array - // of PEM-encoded certificates that make up the certificate chain offered by the - // client. This is usually mutually-exclusive of `client.certificate` since that - // value should be the first certificate in the chain. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "MII...", "MI..." - TLSClientCertificateChainKey = attribute.Key("tls.client.certificate_chain") - - // TLSClientHashMd5Key is the attribute Key conforming to the - // "tls.client.hash.md5" semantic conventions. It represents the certificate - // fingerprint using the MD5 digest of DER-encoded version of certificate - // offered by the client. For consistency with other hash values, this value - // should be formatted as an uppercase hash. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "0F76C7F2C55BFD7D8E8B8F4BFBF0C9EC" - TLSClientHashMd5Key = attribute.Key("tls.client.hash.md5") - - // TLSClientHashSha1Key is the attribute Key conforming to the - // "tls.client.hash.sha1" semantic conventions. It represents the certificate - // fingerprint using the SHA1 digest of DER-encoded version of certificate - // offered by the client. For consistency with other hash values, this value - // should be formatted as an uppercase hash. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "9E393D93138888D288266C2D915214D1D1CCEB2A" - TLSClientHashSha1Key = attribute.Key("tls.client.hash.sha1") - - // TLSClientHashSha256Key is the attribute Key conforming to the - // "tls.client.hash.sha256" semantic conventions. It represents the certificate - // fingerprint using the SHA256 digest of DER-encoded version of certificate - // offered by the client. For consistency with other hash values, this value - // should be formatted as an uppercase hash. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "0687F666A054EF17A08E2F2162EAB4CBC0D265E1D7875BE74BF3C712CA92DAF0" - TLSClientHashSha256Key = attribute.Key("tls.client.hash.sha256") - - // TLSClientIssuerKey is the attribute Key conforming to the "tls.client.issuer" - // semantic conventions. It represents the distinguished name of [subject] of - // the issuer of the x.509 certificate presented by the client. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "CN=Example Root CA, OU=Infrastructure Team, DC=example, DC=com" - // - // [subject]: https://datatracker.ietf.org/doc/html/rfc5280#section-4.1.2.6 - TLSClientIssuerKey = attribute.Key("tls.client.issuer") - - // TLSClientJa3Key is the attribute Key conforming to the "tls.client.ja3" - // semantic conventions. It represents a hash that identifies clients based on - // how they perform an SSL/TLS handshake. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "d4e5b18d6b55c71272893221c96ba240" - TLSClientJa3Key = attribute.Key("tls.client.ja3") - - // TLSClientNotAfterKey is the attribute Key conforming to the - // "tls.client.not_after" semantic conventions. It represents the date/Time - // indicating when client certificate is no longer considered valid. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2021-01-01T00:00:00.000Z" - TLSClientNotAfterKey = attribute.Key("tls.client.not_after") - - // TLSClientNotBeforeKey is the attribute Key conforming to the - // "tls.client.not_before" semantic conventions. It represents the date/Time - // indicating when client certificate is first considered valid. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1970-01-01T00:00:00.000Z" - TLSClientNotBeforeKey = attribute.Key("tls.client.not_before") - - // TLSClientSubjectKey is the attribute Key conforming to the - // "tls.client.subject" semantic conventions. It represents the distinguished - // name of subject of the x.509 certificate presented by the client. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "CN=myclient, OU=Documentation Team, DC=example, DC=com" - TLSClientSubjectKey = attribute.Key("tls.client.subject") - - // TLSClientSupportedCiphersKey is the attribute Key conforming to the - // "tls.client.supported_ciphers" semantic conventions. It represents the array - // of ciphers offered by the client during the client hello. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384", - // "TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384" - TLSClientSupportedCiphersKey = attribute.Key("tls.client.supported_ciphers") - - // TLSCurveKey is the attribute Key conforming to the "tls.curve" semantic - // conventions. It represents the string indicating the curve used for the given - // cipher, when applicable. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "secp256r1" - TLSCurveKey = attribute.Key("tls.curve") - - // TLSEstablishedKey is the attribute Key conforming to the "tls.established" - // semantic conventions. It represents the boolean flag indicating if the TLS - // negotiation was successful and transitioned to an encrypted tunnel. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: true - TLSEstablishedKey = attribute.Key("tls.established") - - // TLSNextProtocolKey is the attribute Key conforming to the "tls.next_protocol" - // semantic conventions. It represents the string indicating the protocol being - // tunneled. Per the values in the [IANA registry], this string should be lower - // case. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "http/1.1" - // - // [IANA registry]: https://www.iana.org/assignments/tls-extensiontype-values/tls-extensiontype-values.xhtml#alpn-protocol-ids - TLSNextProtocolKey = attribute.Key("tls.next_protocol") - - // TLSProtocolNameKey is the attribute Key conforming to the "tls.protocol.name" - // semantic conventions. It represents the normalized lowercase protocol name - // parsed from original string of the negotiated [SSL/TLS protocol version]. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // - // [SSL/TLS protocol version]: https://docs.openssl.org/1.1.1/man3/SSL_get_version/#return-values - TLSProtocolNameKey = attribute.Key("tls.protocol.name") - - // TLSProtocolVersionKey is the attribute Key conforming to the - // "tls.protocol.version" semantic conventions. It represents the numeric part - // of the version parsed from the original string of the negotiated - // [SSL/TLS protocol version]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1.2", "3" - // - // [SSL/TLS protocol version]: https://docs.openssl.org/1.1.1/man3/SSL_get_version/#return-values - TLSProtocolVersionKey = attribute.Key("tls.protocol.version") - - // TLSResumedKey is the attribute Key conforming to the "tls.resumed" semantic - // conventions. It represents the boolean flag indicating if this TLS connection - // was resumed from an existing TLS negotiation. - // - // Type: boolean - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: true - TLSResumedKey = attribute.Key("tls.resumed") - - // TLSServerCertificateKey is the attribute Key conforming to the - // "tls.server.certificate" semantic conventions. It represents the PEM-encoded - // stand-alone certificate offered by the server. This is usually - // mutually-exclusive of `server.certificate_chain` since this value also exists - // in that list. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "MII..." - TLSServerCertificateKey = attribute.Key("tls.server.certificate") - - // TLSServerCertificateChainKey is the attribute Key conforming to the - // "tls.server.certificate_chain" semantic conventions. It represents the array - // of PEM-encoded certificates that make up the certificate chain offered by the - // server. This is usually mutually-exclusive of `server.certificate` since that - // value should be the first certificate in the chain. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "MII...", "MI..." - TLSServerCertificateChainKey = attribute.Key("tls.server.certificate_chain") - - // TLSServerHashMd5Key is the attribute Key conforming to the - // "tls.server.hash.md5" semantic conventions. It represents the certificate - // fingerprint using the MD5 digest of DER-encoded version of certificate - // offered by the server. For consistency with other hash values, this value - // should be formatted as an uppercase hash. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "0F76C7F2C55BFD7D8E8B8F4BFBF0C9EC" - TLSServerHashMd5Key = attribute.Key("tls.server.hash.md5") - - // TLSServerHashSha1Key is the attribute Key conforming to the - // "tls.server.hash.sha1" semantic conventions. It represents the certificate - // fingerprint using the SHA1 digest of DER-encoded version of certificate - // offered by the server. For consistency with other hash values, this value - // should be formatted as an uppercase hash. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "9E393D93138888D288266C2D915214D1D1CCEB2A" - TLSServerHashSha1Key = attribute.Key("tls.server.hash.sha1") - - // TLSServerHashSha256Key is the attribute Key conforming to the - // "tls.server.hash.sha256" semantic conventions. It represents the certificate - // fingerprint using the SHA256 digest of DER-encoded version of certificate - // offered by the server. For consistency with other hash values, this value - // should be formatted as an uppercase hash. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "0687F666A054EF17A08E2F2162EAB4CBC0D265E1D7875BE74BF3C712CA92DAF0" - TLSServerHashSha256Key = attribute.Key("tls.server.hash.sha256") - - // TLSServerIssuerKey is the attribute Key conforming to the "tls.server.issuer" - // semantic conventions. It represents the distinguished name of [subject] of - // the issuer of the x.509 certificate presented by the client. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "CN=Example Root CA, OU=Infrastructure Team, DC=example, DC=com" - // - // [subject]: https://datatracker.ietf.org/doc/html/rfc5280#section-4.1.2.6 - TLSServerIssuerKey = attribute.Key("tls.server.issuer") - - // TLSServerJa3sKey is the attribute Key conforming to the "tls.server.ja3s" - // semantic conventions. It represents a hash that identifies servers based on - // how they perform an SSL/TLS handshake. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "d4e5b18d6b55c71272893221c96ba240" - TLSServerJa3sKey = attribute.Key("tls.server.ja3s") - - // TLSServerNotAfterKey is the attribute Key conforming to the - // "tls.server.not_after" semantic conventions. It represents the date/Time - // indicating when server certificate is no longer considered valid. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "2021-01-01T00:00:00.000Z" - TLSServerNotAfterKey = attribute.Key("tls.server.not_after") - - // TLSServerNotBeforeKey is the attribute Key conforming to the - // "tls.server.not_before" semantic conventions. It represents the date/Time - // indicating when server certificate is first considered valid. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "1970-01-01T00:00:00.000Z" - TLSServerNotBeforeKey = attribute.Key("tls.server.not_before") - - // TLSServerSubjectKey is the attribute Key conforming to the - // "tls.server.subject" semantic conventions. It represents the distinguished - // name of subject of the x.509 certificate presented by the server. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "CN=myserver, OU=Documentation Team, DC=example, DC=com" - TLSServerSubjectKey = attribute.Key("tls.server.subject") -) - -// TLSCipher returns an attribute KeyValue conforming to the "tls.cipher" -// semantic conventions. It represents the string indicating the [cipher] used -// during the current connection. -// -// [cipher]: https://datatracker.ietf.org/doc/html/rfc5246#appendix-A.5 -func TLSCipher(val string) attribute.KeyValue { - return TLSCipherKey.String(val) -} - -// TLSClientCertificate returns an attribute KeyValue conforming to the -// "tls.client.certificate" semantic conventions. It represents the PEM-encoded -// stand-alone certificate offered by the client. This is usually -// mutually-exclusive of `client.certificate_chain` since this value also exists -// in that list. -func TLSClientCertificate(val string) attribute.KeyValue { - return TLSClientCertificateKey.String(val) -} - -// TLSClientCertificateChain returns an attribute KeyValue conforming to the -// "tls.client.certificate_chain" semantic conventions. It represents the array -// of PEM-encoded certificates that make up the certificate chain offered by the -// client. This is usually mutually-exclusive of `client.certificate` since that -// value should be the first certificate in the chain. -func TLSClientCertificateChain(val ...string) attribute.KeyValue { - return TLSClientCertificateChainKey.StringSlice(val) -} - -// TLSClientHashMd5 returns an attribute KeyValue conforming to the -// "tls.client.hash.md5" semantic conventions. It represents the certificate -// fingerprint using the MD5 digest of DER-encoded version of certificate offered -// by the client. For consistency with other hash values, this value should be -// formatted as an uppercase hash. -func TLSClientHashMd5(val string) attribute.KeyValue { - return TLSClientHashMd5Key.String(val) -} - -// TLSClientHashSha1 returns an attribute KeyValue conforming to the -// "tls.client.hash.sha1" semantic conventions. It represents the certificate -// fingerprint using the SHA1 digest of DER-encoded version of certificate -// offered by the client. For consistency with other hash values, this value -// should be formatted as an uppercase hash. -func TLSClientHashSha1(val string) attribute.KeyValue { - return TLSClientHashSha1Key.String(val) -} - -// TLSClientHashSha256 returns an attribute KeyValue conforming to the -// "tls.client.hash.sha256" semantic conventions. It represents the certificate -// fingerprint using the SHA256 digest of DER-encoded version of certificate -// offered by the client. For consistency with other hash values, this value -// should be formatted as an uppercase hash. -func TLSClientHashSha256(val string) attribute.KeyValue { - return TLSClientHashSha256Key.String(val) -} - -// TLSClientIssuer returns an attribute KeyValue conforming to the -// "tls.client.issuer" semantic conventions. It represents the distinguished name -// of [subject] of the issuer of the x.509 certificate presented by the client. -// -// [subject]: https://datatracker.ietf.org/doc/html/rfc5280#section-4.1.2.6 -func TLSClientIssuer(val string) attribute.KeyValue { - return TLSClientIssuerKey.String(val) -} - -// TLSClientJa3 returns an attribute KeyValue conforming to the "tls.client.ja3" -// semantic conventions. It represents a hash that identifies clients based on -// how they perform an SSL/TLS handshake. -func TLSClientJa3(val string) attribute.KeyValue { - return TLSClientJa3Key.String(val) -} - -// TLSClientNotAfter returns an attribute KeyValue conforming to the -// "tls.client.not_after" semantic conventions. It represents the date/Time -// indicating when client certificate is no longer considered valid. -func TLSClientNotAfter(val string) attribute.KeyValue { - return TLSClientNotAfterKey.String(val) -} - -// TLSClientNotBefore returns an attribute KeyValue conforming to the -// "tls.client.not_before" semantic conventions. It represents the date/Time -// indicating when client certificate is first considered valid. -func TLSClientNotBefore(val string) attribute.KeyValue { - return TLSClientNotBeforeKey.String(val) -} - -// TLSClientSubject returns an attribute KeyValue conforming to the -// "tls.client.subject" semantic conventions. It represents the distinguished -// name of subject of the x.509 certificate presented by the client. -func TLSClientSubject(val string) attribute.KeyValue { - return TLSClientSubjectKey.String(val) -} - -// TLSClientSupportedCiphers returns an attribute KeyValue conforming to the -// "tls.client.supported_ciphers" semantic conventions. It represents the array -// of ciphers offered by the client during the client hello. -func TLSClientSupportedCiphers(val ...string) attribute.KeyValue { - return TLSClientSupportedCiphersKey.StringSlice(val) -} - -// TLSCurve returns an attribute KeyValue conforming to the "tls.curve" semantic -// conventions. It represents the string indicating the curve used for the given -// cipher, when applicable. -func TLSCurve(val string) attribute.KeyValue { - return TLSCurveKey.String(val) -} - -// TLSEstablished returns an attribute KeyValue conforming to the -// "tls.established" semantic conventions. It represents the boolean flag -// indicating if the TLS negotiation was successful and transitioned to an -// encrypted tunnel. -func TLSEstablished(val bool) attribute.KeyValue { - return TLSEstablishedKey.Bool(val) -} - -// TLSNextProtocol returns an attribute KeyValue conforming to the -// "tls.next_protocol" semantic conventions. It represents the string indicating -// the protocol being tunneled. Per the values in the [IANA registry], this -// string should be lower case. -// -// [IANA registry]: https://www.iana.org/assignments/tls-extensiontype-values/tls-extensiontype-values.xhtml#alpn-protocol-ids -func TLSNextProtocol(val string) attribute.KeyValue { - return TLSNextProtocolKey.String(val) -} - -// TLSProtocolVersion returns an attribute KeyValue conforming to the -// "tls.protocol.version" semantic conventions. It represents the numeric part of -// the version parsed from the original string of the negotiated -// [SSL/TLS protocol version]. -// -// [SSL/TLS protocol version]: https://docs.openssl.org/1.1.1/man3/SSL_get_version/#return-values -func TLSProtocolVersion(val string) attribute.KeyValue { - return TLSProtocolVersionKey.String(val) -} - -// TLSResumed returns an attribute KeyValue conforming to the "tls.resumed" -// semantic conventions. It represents the boolean flag indicating if this TLS -// connection was resumed from an existing TLS negotiation. -func TLSResumed(val bool) attribute.KeyValue { - return TLSResumedKey.Bool(val) -} - -// TLSServerCertificate returns an attribute KeyValue conforming to the -// "tls.server.certificate" semantic conventions. It represents the PEM-encoded -// stand-alone certificate offered by the server. This is usually -// mutually-exclusive of `server.certificate_chain` since this value also exists -// in that list. -func TLSServerCertificate(val string) attribute.KeyValue { - return TLSServerCertificateKey.String(val) -} - -// TLSServerCertificateChain returns an attribute KeyValue conforming to the -// "tls.server.certificate_chain" semantic conventions. It represents the array -// of PEM-encoded certificates that make up the certificate chain offered by the -// server. This is usually mutually-exclusive of `server.certificate` since that -// value should be the first certificate in the chain. -func TLSServerCertificateChain(val ...string) attribute.KeyValue { - return TLSServerCertificateChainKey.StringSlice(val) -} - -// TLSServerHashMd5 returns an attribute KeyValue conforming to the -// "tls.server.hash.md5" semantic conventions. It represents the certificate -// fingerprint using the MD5 digest of DER-encoded version of certificate offered -// by the server. For consistency with other hash values, this value should be -// formatted as an uppercase hash. -func TLSServerHashMd5(val string) attribute.KeyValue { - return TLSServerHashMd5Key.String(val) -} - -// TLSServerHashSha1 returns an attribute KeyValue conforming to the -// "tls.server.hash.sha1" semantic conventions. It represents the certificate -// fingerprint using the SHA1 digest of DER-encoded version of certificate -// offered by the server. For consistency with other hash values, this value -// should be formatted as an uppercase hash. -func TLSServerHashSha1(val string) attribute.KeyValue { - return TLSServerHashSha1Key.String(val) -} - -// TLSServerHashSha256 returns an attribute KeyValue conforming to the -// "tls.server.hash.sha256" semantic conventions. It represents the certificate -// fingerprint using the SHA256 digest of DER-encoded version of certificate -// offered by the server. For consistency with other hash values, this value -// should be formatted as an uppercase hash. -func TLSServerHashSha256(val string) attribute.KeyValue { - return TLSServerHashSha256Key.String(val) -} - -// TLSServerIssuer returns an attribute KeyValue conforming to the -// "tls.server.issuer" semantic conventions. It represents the distinguished name -// of [subject] of the issuer of the x.509 certificate presented by the client. -// -// [subject]: https://datatracker.ietf.org/doc/html/rfc5280#section-4.1.2.6 -func TLSServerIssuer(val string) attribute.KeyValue { - return TLSServerIssuerKey.String(val) -} - -// TLSServerJa3s returns an attribute KeyValue conforming to the -// "tls.server.ja3s" semantic conventions. It represents a hash that identifies -// servers based on how they perform an SSL/TLS handshake. -func TLSServerJa3s(val string) attribute.KeyValue { - return TLSServerJa3sKey.String(val) -} - -// TLSServerNotAfter returns an attribute KeyValue conforming to the -// "tls.server.not_after" semantic conventions. It represents the date/Time -// indicating when server certificate is no longer considered valid. -func TLSServerNotAfter(val string) attribute.KeyValue { - return TLSServerNotAfterKey.String(val) -} - -// TLSServerNotBefore returns an attribute KeyValue conforming to the -// "tls.server.not_before" semantic conventions. It represents the date/Time -// indicating when server certificate is first considered valid. -func TLSServerNotBefore(val string) attribute.KeyValue { - return TLSServerNotBeforeKey.String(val) -} - -// TLSServerSubject returns an attribute KeyValue conforming to the -// "tls.server.subject" semantic conventions. It represents the distinguished -// name of subject of the x.509 certificate presented by the server. -func TLSServerSubject(val string) attribute.KeyValue { - return TLSServerSubjectKey.String(val) -} - -// Enum values for tls.protocol.name -var ( - // ssl - // Stability: development - TLSProtocolNameSsl = TLSProtocolNameKey.String("ssl") - // tls - // Stability: development - TLSProtocolNameTLS = TLSProtocolNameKey.String("tls") -) - -// Namespace: url -const ( - // URLDomainKey is the attribute Key conforming to the "url.domain" semantic - // conventions. It represents the domain extracted from the `url.full`, such as - // "opentelemetry.io". - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "www.foo.bar", "opentelemetry.io", "3.12.167.2", - // "[1080:0:0:0:8:800:200C:417A]" - // Note: In some cases a URL may refer to an IP and/or port directly, without a - // domain name. In this case, the IP address would go to the domain field. If - // the URL contains a [literal IPv6 address] enclosed by `[` and `]`, the `[` - // and `]` characters should also be captured in the domain field. - // - // [literal IPv6 address]: https://www.rfc-editor.org/rfc/rfc2732#section-2 - URLDomainKey = attribute.Key("url.domain") - - // URLExtensionKey is the attribute Key conforming to the "url.extension" - // semantic conventions. It represents the file extension extracted from the - // `url.full`, excluding the leading dot. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "png", "gz" - // Note: The file extension is only set if it exists, as not every url has a - // file extension. When the file name has multiple extensions `example.tar.gz`, - // only the last one should be captured `gz`, not `tar.gz`. - URLExtensionKey = attribute.Key("url.extension") - - // URLFragmentKey is the attribute Key conforming to the "url.fragment" semantic - // conventions. It represents the [URI fragment] component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "SemConv" - // - // [URI fragment]: https://www.rfc-editor.org/rfc/rfc3986#section-3.5 - URLFragmentKey = attribute.Key("url.fragment") - - // URLFullKey is the attribute Key conforming to the "url.full" semantic - // conventions. It represents the absolute URL describing a network resource - // according to [RFC3986]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "https://www.foo.bar/search?q=OpenTelemetry#SemConv", "//localhost" - // Note: For network calls, URL usually has - // `scheme://host[:port][path][?query][#fragment]` format, where the fragment - // is not transmitted over HTTP, but if it is known, it SHOULD be included - // nevertheless. - // - // `url.full` MUST NOT contain credentials passed via URL in form of - // `https://username:password@www.example.com/`. - // In such case username and password SHOULD be redacted and attribute's value - // SHOULD be `https://REDACTED:REDACTED@www.example.com/`. - // - // `url.full` SHOULD capture the absolute URL when it is available (or can be - // reconstructed). - // - // Sensitive content provided in `url.full` SHOULD be scrubbed when - // instrumentations can identify it. - // - // - // Query string values for the following keys SHOULD be redacted by default and - // replaced by the - // value `REDACTED`: - // - // - [`AWSAccessKeyId`] - // - [`Signature`] - // - [`sig`] - // - [`X-Goog-Signature`] - // - // This list is subject to change over time. - // - // When a query string value is redacted, the query string key SHOULD still be - // preserved, e.g. - // `https://www.example.com/path?color=blue&sig=REDACTED`. - // - // [RFC3986]: https://www.rfc-editor.org/rfc/rfc3986 - // [`AWSAccessKeyId`]: https://docs.aws.amazon.com/AmazonS3/latest/userguide/RESTAuthentication.html#RESTAuthenticationQueryStringAuth - // [`Signature`]: https://docs.aws.amazon.com/AmazonS3/latest/userguide/RESTAuthentication.html#RESTAuthenticationQueryStringAuth - // [`sig`]: https://learn.microsoft.com/azure/storage/common/storage-sas-overview#sas-token - // [`X-Goog-Signature`]: https://cloud.google.com/storage/docs/access-control/signed-urls - URLFullKey = attribute.Key("url.full") - - // URLOriginalKey is the attribute Key conforming to the "url.original" semantic - // conventions. It represents the unmodified original URL as seen in the event - // source. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "https://www.foo.bar/search?q=OpenTelemetry#SemConv", - // "search?q=OpenTelemetry" - // Note: In network monitoring, the observed URL may be a full URL, whereas in - // access logs, the URL is often just represented as a path. This field is meant - // to represent the URL as it was observed, complete or not. - // `url.original` might contain credentials passed via URL in form of - // `https://username:password@www.example.com/`. In such case password and - // username SHOULD NOT be redacted and attribute's value SHOULD remain the same. - URLOriginalKey = attribute.Key("url.original") - - // URLPathKey is the attribute Key conforming to the "url.path" semantic - // conventions. It represents the [URI path] component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "/search" - // Note: Sensitive content provided in `url.path` SHOULD be scrubbed when - // instrumentations can identify it. - // - // [URI path]: https://www.rfc-editor.org/rfc/rfc3986#section-3.3 - URLPathKey = attribute.Key("url.path") - - // URLPortKey is the attribute Key conforming to the "url.port" semantic - // conventions. It represents the port extracted from the `url.full`. - // - // Type: int - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: 443 - URLPortKey = attribute.Key("url.port") - - // URLQueryKey is the attribute Key conforming to the "url.query" semantic - // conventions. It represents the [URI query] component. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "q=OpenTelemetry" - // Note: Sensitive content provided in `url.query` SHOULD be scrubbed when - // instrumentations can identify it. - // - // - // Query string values for the following keys SHOULD be redacted by default and - // replaced by the value `REDACTED`: - // - // - [`AWSAccessKeyId`] - // - [`Signature`] - // - [`sig`] - // - [`X-Goog-Signature`] - // - // This list is subject to change over time. - // - // When a query string value is redacted, the query string key SHOULD still be - // preserved, e.g. - // `q=OpenTelemetry&sig=REDACTED`. - // - // [URI query]: https://www.rfc-editor.org/rfc/rfc3986#section-3.4 - // [`AWSAccessKeyId`]: https://docs.aws.amazon.com/AmazonS3/latest/userguide/RESTAuthentication.html#RESTAuthenticationQueryStringAuth - // [`Signature`]: https://docs.aws.amazon.com/AmazonS3/latest/userguide/RESTAuthentication.html#RESTAuthenticationQueryStringAuth - // [`sig`]: https://learn.microsoft.com/azure/storage/common/storage-sas-overview#sas-token - // [`X-Goog-Signature`]: https://cloud.google.com/storage/docs/access-control/signed-urls - URLQueryKey = attribute.Key("url.query") - - // URLRegisteredDomainKey is the attribute Key conforming to the - // "url.registered_domain" semantic conventions. It represents the highest - // registered url domain, stripped of the subdomain. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "example.com", "foo.co.uk" - // Note: This value can be determined precisely with the [public suffix list]. - // For example, the registered domain for `foo.example.com` is `example.com`. - // Trying to approximate this by simply taking the last two labels will not work - // well for TLDs such as `co.uk`. - // - // [public suffix list]: https://publicsuffix.org/ - URLRegisteredDomainKey = attribute.Key("url.registered_domain") - - // URLSchemeKey is the attribute Key conforming to the "url.scheme" semantic - // conventions. It represents the [URI scheme] component identifying the used - // protocol. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "https", "ftp", "telnet" - // - // [URI scheme]: https://www.rfc-editor.org/rfc/rfc3986#section-3.1 - URLSchemeKey = attribute.Key("url.scheme") - - // URLSubdomainKey is the attribute Key conforming to the "url.subdomain" - // semantic conventions. It represents the subdomain portion of a fully - // qualified domain name includes all of the names except the host name under - // the registered_domain. In a partially qualified domain, or if the - // qualification level of the full name cannot be determined, subdomain contains - // all of the names below the registered domain. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "east", "sub2.sub1" - // Note: The subdomain portion of `www.east.mydomain.co.uk` is `east`. If the - // domain has multiple levels of subdomain, such as `sub2.sub1.example.com`, the - // subdomain field should contain `sub2.sub1`, with no trailing period. - URLSubdomainKey = attribute.Key("url.subdomain") - - // URLTemplateKey is the attribute Key conforming to the "url.template" semantic - // conventions. It represents the low-cardinality template of an - // [absolute path reference]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "/users/{id}", "/users/:id", "/users?id={id}" - // - // [absolute path reference]: https://www.rfc-editor.org/rfc/rfc3986#section-4.2 - URLTemplateKey = attribute.Key("url.template") - - // URLTopLevelDomainKey is the attribute Key conforming to the - // "url.top_level_domain" semantic conventions. It represents the effective top - // level domain (eTLD), also known as the domain suffix, is the last part of the - // domain name. For example, the top level domain for example.com is `com`. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "com", "co.uk" - // Note: This value can be determined precisely with the [public suffix list]. - // - // [public suffix list]: https://publicsuffix.org/ - URLTopLevelDomainKey = attribute.Key("url.top_level_domain") -) - -// URLDomain returns an attribute KeyValue conforming to the "url.domain" -// semantic conventions. It represents the domain extracted from the `url.full`, -// such as "opentelemetry.io". -func URLDomain(val string) attribute.KeyValue { - return URLDomainKey.String(val) -} - -// URLExtension returns an attribute KeyValue conforming to the "url.extension" -// semantic conventions. It represents the file extension extracted from the -// `url.full`, excluding the leading dot. -func URLExtension(val string) attribute.KeyValue { - return URLExtensionKey.String(val) -} - -// URLFragment returns an attribute KeyValue conforming to the "url.fragment" -// semantic conventions. It represents the [URI fragment] component. -// -// [URI fragment]: https://www.rfc-editor.org/rfc/rfc3986#section-3.5 -func URLFragment(val string) attribute.KeyValue { - return URLFragmentKey.String(val) -} - -// URLFull returns an attribute KeyValue conforming to the "url.full" semantic -// conventions. It represents the absolute URL describing a network resource -// according to [RFC3986]. -// -// [RFC3986]: https://www.rfc-editor.org/rfc/rfc3986 -func URLFull(val string) attribute.KeyValue { - return URLFullKey.String(val) -} - -// URLOriginal returns an attribute KeyValue conforming to the "url.original" -// semantic conventions. It represents the unmodified original URL as seen in the -// event source. -func URLOriginal(val string) attribute.KeyValue { - return URLOriginalKey.String(val) -} - -// URLPath returns an attribute KeyValue conforming to the "url.path" semantic -// conventions. It represents the [URI path] component. -// -// [URI path]: https://www.rfc-editor.org/rfc/rfc3986#section-3.3 -func URLPath(val string) attribute.KeyValue { - return URLPathKey.String(val) -} - -// URLPort returns an attribute KeyValue conforming to the "url.port" semantic -// conventions. It represents the port extracted from the `url.full`. -func URLPort(val int) attribute.KeyValue { - return URLPortKey.Int(val) -} - -// URLQuery returns an attribute KeyValue conforming to the "url.query" semantic -// conventions. It represents the [URI query] component. -// -// [URI query]: https://www.rfc-editor.org/rfc/rfc3986#section-3.4 -func URLQuery(val string) attribute.KeyValue { - return URLQueryKey.String(val) -} - -// URLRegisteredDomain returns an attribute KeyValue conforming to the -// "url.registered_domain" semantic conventions. It represents the highest -// registered url domain, stripped of the subdomain. -func URLRegisteredDomain(val string) attribute.KeyValue { - return URLRegisteredDomainKey.String(val) -} - -// URLScheme returns an attribute KeyValue conforming to the "url.scheme" -// semantic conventions. It represents the [URI scheme] component identifying the -// used protocol. -// -// [URI scheme]: https://www.rfc-editor.org/rfc/rfc3986#section-3.1 -func URLScheme(val string) attribute.KeyValue { - return URLSchemeKey.String(val) -} - -// URLSubdomain returns an attribute KeyValue conforming to the "url.subdomain" -// semantic conventions. It represents the subdomain portion of a fully qualified -// domain name includes all of the names except the host name under the -// registered_domain. In a partially qualified domain, or if the qualification -// level of the full name cannot be determined, subdomain contains all of the -// names below the registered domain. -func URLSubdomain(val string) attribute.KeyValue { - return URLSubdomainKey.String(val) -} - -// URLTemplate returns an attribute KeyValue conforming to the "url.template" -// semantic conventions. It represents the low-cardinality template of an -// [absolute path reference]. -// -// [absolute path reference]: https://www.rfc-editor.org/rfc/rfc3986#section-4.2 -func URLTemplate(val string) attribute.KeyValue { - return URLTemplateKey.String(val) -} - -// URLTopLevelDomain returns an attribute KeyValue conforming to the -// "url.top_level_domain" semantic conventions. It represents the effective top -// level domain (eTLD), also known as the domain suffix, is the last part of the -// domain name. For example, the top level domain for example.com is `com`. -func URLTopLevelDomain(val string) attribute.KeyValue { - return URLTopLevelDomainKey.String(val) -} - -// Namespace: user -const ( - // UserEmailKey is the attribute Key conforming to the "user.email" semantic - // conventions. It represents the user email address. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "a.einstein@example.com" - UserEmailKey = attribute.Key("user.email") - - // UserFullNameKey is the attribute Key conforming to the "user.full_name" - // semantic conventions. It represents the user's full name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Albert Einstein" - UserFullNameKey = attribute.Key("user.full_name") - - // UserHashKey is the attribute Key conforming to the "user.hash" semantic - // conventions. It represents the unique user hash to correlate information for - // a user in anonymized form. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "364fc68eaf4c8acec74a4e52d7d1feaa" - // Note: Useful if `user.id` or `user.name` contain confidential information and - // cannot be used. - UserHashKey = attribute.Key("user.hash") - - // UserIDKey is the attribute Key conforming to the "user.id" semantic - // conventions. It represents the unique identifier of the user. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "S-1-5-21-202424912787-2692429404-2351956786-1000" - UserIDKey = attribute.Key("user.id") - - // UserNameKey is the attribute Key conforming to the "user.name" semantic - // conventions. It represents the short name or login/username of the user. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "a.einstein" - UserNameKey = attribute.Key("user.name") - - // UserRolesKey is the attribute Key conforming to the "user.roles" semantic - // conventions. It represents the array of user roles at the time of the event. - // - // Type: string[] - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "admin", "reporting_user" - UserRolesKey = attribute.Key("user.roles") -) - -// UserEmail returns an attribute KeyValue conforming to the "user.email" -// semantic conventions. It represents the user email address. -func UserEmail(val string) attribute.KeyValue { - return UserEmailKey.String(val) -} - -// UserFullName returns an attribute KeyValue conforming to the "user.full_name" -// semantic conventions. It represents the user's full name. -func UserFullName(val string) attribute.KeyValue { - return UserFullNameKey.String(val) -} - -// UserHash returns an attribute KeyValue conforming to the "user.hash" semantic -// conventions. It represents the unique user hash to correlate information for a -// user in anonymized form. -func UserHash(val string) attribute.KeyValue { - return UserHashKey.String(val) -} - -// UserID returns an attribute KeyValue conforming to the "user.id" semantic -// conventions. It represents the unique identifier of the user. -func UserID(val string) attribute.KeyValue { - return UserIDKey.String(val) -} - -// UserName returns an attribute KeyValue conforming to the "user.name" semantic -// conventions. It represents the short name or login/username of the user. -func UserName(val string) attribute.KeyValue { - return UserNameKey.String(val) -} - -// UserRoles returns an attribute KeyValue conforming to the "user.roles" -// semantic conventions. It represents the array of user roles at the time of the -// event. -func UserRoles(val ...string) attribute.KeyValue { - return UserRolesKey.StringSlice(val) -} - -// Namespace: user_agent -const ( - // UserAgentNameKey is the attribute Key conforming to the "user_agent.name" - // semantic conventions. It represents the name of the user-agent extracted from - // original. Usually refers to the browser's name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Safari", "YourApp" - // Note: [Example] of extracting browser's name from original string. In the - // case of using a user-agent for non-browser products, such as microservices - // with multiple names/versions inside the `user_agent.original`, the most - // significant name SHOULD be selected. In such a scenario it should align with - // `user_agent.version` - // - // [Example]: https://uaparser.dev/#demo - UserAgentNameKey = attribute.Key("user_agent.name") - - // UserAgentOriginalKey is the attribute Key conforming to the - // "user_agent.original" semantic conventions. It represents the value of the - // [HTTP User-Agent] header sent by the client. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Stable - // - // Examples: "CERN-LineMode/2.15 libwww/2.17b3", "Mozilla/5.0 (iPhone; CPU - // iPhone OS 14_7_1 like Mac OS X) AppleWebKit/605.1.15 (KHTML, like Gecko) - // Version/14.1.2 Mobile/15E148 Safari/604.1", "YourApp/1.0.0 - // grpc-java-okhttp/1.27.2" - // - // [HTTP User-Agent]: https://www.rfc-editor.org/rfc/rfc9110.html#field.user-agent - UserAgentOriginalKey = attribute.Key("user_agent.original") - - // UserAgentOSNameKey is the attribute Key conforming to the - // "user_agent.os.name" semantic conventions. It represents the human readable - // operating system name. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "iOS", "Android", "Ubuntu" - // Note: For mapping user agent strings to OS names, libraries such as - // [ua-parser] can be utilized. - // - // [ua-parser]: https://github.com/ua-parser - UserAgentOSNameKey = attribute.Key("user_agent.os.name") - - // UserAgentOSVersionKey is the attribute Key conforming to the - // "user_agent.os.version" semantic conventions. It represents the version - // string of the operating system as defined in [Version Attributes]. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "14.2.1", "18.04.1" - // Note: For mapping user agent strings to OS versions, libraries such as - // [ua-parser] can be utilized. - // - // [Version Attributes]: /docs/resource/README.md#version-attributes - // [ua-parser]: https://github.com/ua-parser - UserAgentOSVersionKey = attribute.Key("user_agent.os.version") - - // UserAgentSyntheticTypeKey is the attribute Key conforming to the - // "user_agent.synthetic.type" semantic conventions. It represents the specifies - // the category of synthetic traffic, such as tests or bots. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // Note: This attribute MAY be derived from the contents of the - // `user_agent.original` attribute. Components that populate the attribute are - // responsible for determining what they consider to be synthetic bot or test - // traffic. This attribute can either be set for self-identification purposes, - // or on telemetry detected to be generated as a result of a synthetic request. - // This attribute is useful for distinguishing between genuine client traffic - // and synthetic traffic generated by bots or tests. - UserAgentSyntheticTypeKey = attribute.Key("user_agent.synthetic.type") - - // UserAgentVersionKey is the attribute Key conforming to the - // "user_agent.version" semantic conventions. It represents the version of the - // user-agent extracted from original. Usually refers to the browser's version. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "14.1.2", "1.0.0" - // Note: [Example] of extracting browser's version from original string. In the - // case of using a user-agent for non-browser products, such as microservices - // with multiple names/versions inside the `user_agent.original`, the most - // significant version SHOULD be selected. In such a scenario it should align - // with `user_agent.name` - // - // [Example]: https://uaparser.dev/#demo - UserAgentVersionKey = attribute.Key("user_agent.version") -) - -// UserAgentName returns an attribute KeyValue conforming to the -// "user_agent.name" semantic conventions. It represents the name of the -// user-agent extracted from original. Usually refers to the browser's name. -func UserAgentName(val string) attribute.KeyValue { - return UserAgentNameKey.String(val) -} - -// UserAgentOriginal returns an attribute KeyValue conforming to the -// "user_agent.original" semantic conventions. It represents the value of the -// [HTTP User-Agent] header sent by the client. -// -// [HTTP User-Agent]: https://www.rfc-editor.org/rfc/rfc9110.html#field.user-agent -func UserAgentOriginal(val string) attribute.KeyValue { - return UserAgentOriginalKey.String(val) -} - -// UserAgentOSName returns an attribute KeyValue conforming to the -// "user_agent.os.name" semantic conventions. It represents the human readable -// operating system name. -func UserAgentOSName(val string) attribute.KeyValue { - return UserAgentOSNameKey.String(val) -} - -// UserAgentOSVersion returns an attribute KeyValue conforming to the -// "user_agent.os.version" semantic conventions. It represents the version string -// of the operating system as defined in [Version Attributes]. -// -// [Version Attributes]: /docs/resource/README.md#version-attributes -func UserAgentOSVersion(val string) attribute.KeyValue { - return UserAgentOSVersionKey.String(val) -} - -// UserAgentVersion returns an attribute KeyValue conforming to the -// "user_agent.version" semantic conventions. It represents the version of the -// user-agent extracted from original. Usually refers to the browser's version. -func UserAgentVersion(val string) attribute.KeyValue { - return UserAgentVersionKey.String(val) -} - -// Enum values for user_agent.synthetic.type -var ( - // Bot source. - // Stability: development - UserAgentSyntheticTypeBot = UserAgentSyntheticTypeKey.String("bot") - // Synthetic test source. - // Stability: development - UserAgentSyntheticTypeTest = UserAgentSyntheticTypeKey.String("test") -) - -// Namespace: vcs -const ( - // VCSChangeIDKey is the attribute Key conforming to the "vcs.change.id" - // semantic conventions. It represents the ID of the change (pull request/merge - // request/changelist) if applicable. This is usually a unique (within - // repository) identifier generated by the VCS system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "123" - VCSChangeIDKey = attribute.Key("vcs.change.id") - - // VCSChangeStateKey is the attribute Key conforming to the "vcs.change.state" - // semantic conventions. It represents the state of the change (pull - // request/merge request/changelist). - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "open", "closed", "merged" - VCSChangeStateKey = attribute.Key("vcs.change.state") - - // VCSChangeTitleKey is the attribute Key conforming to the "vcs.change.title" - // semantic conventions. It represents the human readable title of the change - // (pull request/merge request/changelist). This title is often a brief summary - // of the change and may get merged in to a ref as the commit summary. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "Fixes broken thing", "feat: add my new feature", "[chore] update - // dependency" - VCSChangeTitleKey = attribute.Key("vcs.change.title") - - // VCSLineChangeTypeKey is the attribute Key conforming to the - // "vcs.line_change.type" semantic conventions. It represents the type of line - // change being measured on a branch or change. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "added", "removed" - VCSLineChangeTypeKey = attribute.Key("vcs.line_change.type") - - // VCSOwnerNameKey is the attribute Key conforming to the "vcs.owner.name" - // semantic conventions. It represents the group owner within the version - // control system. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-org", "myteam", "business-unit" - VCSOwnerNameKey = attribute.Key("vcs.owner.name") - - // VCSProviderNameKey is the attribute Key conforming to the "vcs.provider.name" - // semantic conventions. It represents the name of the version control system - // provider. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "github", "gitlab", "gitea", "bitbucket" - VCSProviderNameKey = attribute.Key("vcs.provider.name") - - // VCSRefBaseNameKey is the attribute Key conforming to the "vcs.ref.base.name" - // semantic conventions. It represents the name of the [reference] such as - // **branch** or **tag** in the repository. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-feature-branch", "tag-1-test" - // Note: `base` refers to the starting point of a change. For example, `main` - // would be the base reference of type branch if you've created a new - // reference of type branch from it and created new commits. - // - // [reference]: https://git-scm.com/docs/gitglossary#def_ref - VCSRefBaseNameKey = attribute.Key("vcs.ref.base.name") - - // VCSRefBaseRevisionKey is the attribute Key conforming to the - // "vcs.ref.base.revision" semantic conventions. It represents the revision, - // literally [revised version], The revision most often refers to a commit - // object in Git, or a revision number in SVN. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "9d59409acf479dfa0df1aa568182e43e43df8bbe28d60fcf2bc52e30068802cc", - // "main", "123", "HEAD" - // Note: `base` refers to the starting point of a change. For example, `main` - // would be the base reference of type branch if you've created a new - // reference of type branch from it and created new commits. The - // revision can be a full [hash value (see - // glossary)], - // of the recorded change to a ref within a repository pointing to a - // commit [commit] object. It does - // not necessarily have to be a hash; it can simply define a [revision - // number] - // which is an integer that is monotonically increasing. In cases where - // it is identical to the `ref.base.name`, it SHOULD still be included. - // It is up to the implementer to decide which value to set as the - // revision based on the VCS system and situational context. - // - // [revised version]: https://www.merriam-webster.com/dictionary/revision - // [hash value (see - // glossary)]: https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-5.pdf - // [commit]: https://git-scm.com/docs/git-commit - // [revision - // number]: https://svnbook.red-bean.com/en/1.7/svn.tour.revs.specifiers.html - VCSRefBaseRevisionKey = attribute.Key("vcs.ref.base.revision") - - // VCSRefBaseTypeKey is the attribute Key conforming to the "vcs.ref.base.type" - // semantic conventions. It represents the type of the [reference] in the - // repository. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "branch", "tag" - // Note: `base` refers to the starting point of a change. For example, `main` - // would be the base reference of type branch if you've created a new - // reference of type branch from it and created new commits. - // - // [reference]: https://git-scm.com/docs/gitglossary#def_ref - VCSRefBaseTypeKey = attribute.Key("vcs.ref.base.type") - - // VCSRefHeadNameKey is the attribute Key conforming to the "vcs.ref.head.name" - // semantic conventions. It represents the name of the [reference] such as - // **branch** or **tag** in the repository. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "my-feature-branch", "tag-1-test" - // Note: `head` refers to where you are right now; the current reference at a - // given time. - // - // [reference]: https://git-scm.com/docs/gitglossary#def_ref - VCSRefHeadNameKey = attribute.Key("vcs.ref.head.name") - - // VCSRefHeadRevisionKey is the attribute Key conforming to the - // "vcs.ref.head.revision" semantic conventions. It represents the revision, - // literally [revised version], The revision most often refers to a commit - // object in Git, or a revision number in SVN. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "9d59409acf479dfa0df1aa568182e43e43df8bbe28d60fcf2bc52e30068802cc", - // "main", "123", "HEAD" - // Note: `head` refers to where you are right now; the current reference at a - // given time.The revision can be a full [hash value (see - // glossary)], - // of the recorded change to a ref within a repository pointing to a - // commit [commit] object. It does - // not necessarily have to be a hash; it can simply define a [revision - // number] - // which is an integer that is monotonically increasing. In cases where - // it is identical to the `ref.head.name`, it SHOULD still be included. - // It is up to the implementer to decide which value to set as the - // revision based on the VCS system and situational context. - // - // [revised version]: https://www.merriam-webster.com/dictionary/revision - // [hash value (see - // glossary)]: https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-5.pdf - // [commit]: https://git-scm.com/docs/git-commit - // [revision - // number]: https://svnbook.red-bean.com/en/1.7/svn.tour.revs.specifiers.html - VCSRefHeadRevisionKey = attribute.Key("vcs.ref.head.revision") - - // VCSRefHeadTypeKey is the attribute Key conforming to the "vcs.ref.head.type" - // semantic conventions. It represents the type of the [reference] in the - // repository. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "branch", "tag" - // Note: `head` refers to where you are right now; the current reference at a - // given time. - // - // [reference]: https://git-scm.com/docs/gitglossary#def_ref - VCSRefHeadTypeKey = attribute.Key("vcs.ref.head.type") - - // VCSRefTypeKey is the attribute Key conforming to the "vcs.ref.type" semantic - // conventions. It represents the type of the [reference] in the repository. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "branch", "tag" - // - // [reference]: https://git-scm.com/docs/gitglossary#def_ref - VCSRefTypeKey = attribute.Key("vcs.ref.type") - - // VCSRepositoryNameKey is the attribute Key conforming to the - // "vcs.repository.name" semantic conventions. It represents the human readable - // name of the repository. It SHOULD NOT include any additional identifier like - // Group/SubGroup in GitLab or organization in GitHub. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "semantic-conventions", "my-cool-repo" - // Note: Due to it only being the name, it can clash with forks of the same - // repository if collecting telemetry across multiple orgs or groups in - // the same backends. - VCSRepositoryNameKey = attribute.Key("vcs.repository.name") - - // VCSRepositoryURLFullKey is the attribute Key conforming to the - // "vcs.repository.url.full" semantic conventions. It represents the - // [canonical URL] of the repository providing the complete HTTP(S) address in - // order to locate and identify the repository through a browser. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: - // "https://github.com/opentelemetry/open-telemetry-collector-contrib", - // "https://gitlab.com/my-org/my-project/my-projects-project/repo" - // Note: In Git Version Control Systems, the canonical URL SHOULD NOT include - // the `.git` extension. - // - // [canonical URL]: https://support.google.com/webmasters/answer/10347851 - VCSRepositoryURLFullKey = attribute.Key("vcs.repository.url.full") - - // VCSRevisionDeltaDirectionKey is the attribute Key conforming to the - // "vcs.revision_delta.direction" semantic conventions. It represents the type - // of revision comparison. - // - // Type: Enum - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "ahead", "behind" - VCSRevisionDeltaDirectionKey = attribute.Key("vcs.revision_delta.direction") -) - -// VCSChangeID returns an attribute KeyValue conforming to the "vcs.change.id" -// semantic conventions. It represents the ID of the change (pull request/merge -// request/changelist) if applicable. This is usually a unique (within -// repository) identifier generated by the VCS system. -func VCSChangeID(val string) attribute.KeyValue { - return VCSChangeIDKey.String(val) -} - -// VCSChangeTitle returns an attribute KeyValue conforming to the -// "vcs.change.title" semantic conventions. It represents the human readable -// title of the change (pull request/merge request/changelist). This title is -// often a brief summary of the change and may get merged in to a ref as the -// commit summary. -func VCSChangeTitle(val string) attribute.KeyValue { - return VCSChangeTitleKey.String(val) -} - -// VCSOwnerName returns an attribute KeyValue conforming to the "vcs.owner.name" -// semantic conventions. It represents the group owner within the version control -// system. -func VCSOwnerName(val string) attribute.KeyValue { - return VCSOwnerNameKey.String(val) -} - -// VCSRefBaseName returns an attribute KeyValue conforming to the -// "vcs.ref.base.name" semantic conventions. It represents the name of the -// [reference] such as **branch** or **tag** in the repository. -// -// [reference]: https://git-scm.com/docs/gitglossary#def_ref -func VCSRefBaseName(val string) attribute.KeyValue { - return VCSRefBaseNameKey.String(val) -} - -// VCSRefBaseRevision returns an attribute KeyValue conforming to the -// "vcs.ref.base.revision" semantic conventions. It represents the revision, -// literally [revised version], The revision most often refers to a commit object -// in Git, or a revision number in SVN. -// -// [revised version]: https://www.merriam-webster.com/dictionary/revision -func VCSRefBaseRevision(val string) attribute.KeyValue { - return VCSRefBaseRevisionKey.String(val) -} - -// VCSRefHeadName returns an attribute KeyValue conforming to the -// "vcs.ref.head.name" semantic conventions. It represents the name of the -// [reference] such as **branch** or **tag** in the repository. -// -// [reference]: https://git-scm.com/docs/gitglossary#def_ref -func VCSRefHeadName(val string) attribute.KeyValue { - return VCSRefHeadNameKey.String(val) -} - -// VCSRefHeadRevision returns an attribute KeyValue conforming to the -// "vcs.ref.head.revision" semantic conventions. It represents the revision, -// literally [revised version], The revision most often refers to a commit object -// in Git, or a revision number in SVN. -// -// [revised version]: https://www.merriam-webster.com/dictionary/revision -func VCSRefHeadRevision(val string) attribute.KeyValue { - return VCSRefHeadRevisionKey.String(val) -} - -// VCSRepositoryName returns an attribute KeyValue conforming to the -// "vcs.repository.name" semantic conventions. It represents the human readable -// name of the repository. It SHOULD NOT include any additional identifier like -// Group/SubGroup in GitLab or organization in GitHub. -func VCSRepositoryName(val string) attribute.KeyValue { - return VCSRepositoryNameKey.String(val) -} - -// VCSRepositoryURLFull returns an attribute KeyValue conforming to the -// "vcs.repository.url.full" semantic conventions. It represents the -// [canonical URL] of the repository providing the complete HTTP(S) address in -// order to locate and identify the repository through a browser. -// -// [canonical URL]: https://support.google.com/webmasters/answer/10347851 -func VCSRepositoryURLFull(val string) attribute.KeyValue { - return VCSRepositoryURLFullKey.String(val) -} - -// Enum values for vcs.change.state -var ( - // Open means the change is currently active and under review. It hasn't been - // merged into the target branch yet, and it's still possible to make changes or - // add comments. - // Stability: development - VCSChangeStateOpen = VCSChangeStateKey.String("open") - // WIP (work-in-progress, draft) means the change is still in progress and not - // yet ready for a full review. It might still undergo significant changes. - // Stability: development - VCSChangeStateWip = VCSChangeStateKey.String("wip") - // Closed means the merge request has been closed without merging. This can - // happen for various reasons, such as the changes being deemed unnecessary, the - // issue being resolved in another way, or the author deciding to withdraw the - // request. - // Stability: development - VCSChangeStateClosed = VCSChangeStateKey.String("closed") - // Merged indicates that the change has been successfully integrated into the - // target codebase. - // Stability: development - VCSChangeStateMerged = VCSChangeStateKey.String("merged") -) - -// Enum values for vcs.line_change.type -var ( - // How many lines were added. - // Stability: development - VCSLineChangeTypeAdded = VCSLineChangeTypeKey.String("added") - // How many lines were removed. - // Stability: development - VCSLineChangeTypeRemoved = VCSLineChangeTypeKey.String("removed") -) - -// Enum values for vcs.provider.name -var ( - // [GitHub] - // Stability: development - // - // [GitHub]: https://github.com - VCSProviderNameGithub = VCSProviderNameKey.String("github") - // [GitLab] - // Stability: development - // - // [GitLab]: https://gitlab.com - VCSProviderNameGitlab = VCSProviderNameKey.String("gitlab") - // [Gitea] - // Stability: development - // - // [Gitea]: https://gitea.io - VCSProviderNameGitea = VCSProviderNameKey.String("gitea") - // [Bitbucket] - // Stability: development - // - // [Bitbucket]: https://bitbucket.org - VCSProviderNameBitbucket = VCSProviderNameKey.String("bitbucket") -) - -// Enum values for vcs.ref.base.type -var ( - // [branch] - // Stability: development - // - // [branch]: https://git-scm.com/docs/gitglossary#Documentation/gitglossary.txt-aiddefbranchabranch - VCSRefBaseTypeBranch = VCSRefBaseTypeKey.String("branch") - // [tag] - // Stability: development - // - // [tag]: https://git-scm.com/docs/gitglossary#Documentation/gitglossary.txt-aiddeftagatag - VCSRefBaseTypeTag = VCSRefBaseTypeKey.String("tag") -) - -// Enum values for vcs.ref.head.type -var ( - // [branch] - // Stability: development - // - // [branch]: https://git-scm.com/docs/gitglossary#Documentation/gitglossary.txt-aiddefbranchabranch - VCSRefHeadTypeBranch = VCSRefHeadTypeKey.String("branch") - // [tag] - // Stability: development - // - // [tag]: https://git-scm.com/docs/gitglossary#Documentation/gitglossary.txt-aiddeftagatag - VCSRefHeadTypeTag = VCSRefHeadTypeKey.String("tag") -) - -// Enum values for vcs.ref.type -var ( - // [branch] - // Stability: development - // - // [branch]: https://git-scm.com/docs/gitglossary#Documentation/gitglossary.txt-aiddefbranchabranch - VCSRefTypeBranch = VCSRefTypeKey.String("branch") - // [tag] - // Stability: development - // - // [tag]: https://git-scm.com/docs/gitglossary#Documentation/gitglossary.txt-aiddeftagatag - VCSRefTypeTag = VCSRefTypeKey.String("tag") -) - -// Enum values for vcs.revision_delta.direction -var ( - // How many revisions the change is behind the target ref. - // Stability: development - VCSRevisionDeltaDirectionBehind = VCSRevisionDeltaDirectionKey.String("behind") - // How many revisions the change is ahead of the target ref. - // Stability: development - VCSRevisionDeltaDirectionAhead = VCSRevisionDeltaDirectionKey.String("ahead") -) - -// Namespace: webengine -const ( - // WebEngineDescriptionKey is the attribute Key conforming to the - // "webengine.description" semantic conventions. It represents the additional - // description of the web engine (e.g. detailed version and edition - // information). - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "WildFly Full 21.0.0.Final (WildFly Core 13.0.1.Final) - - // 2.2.2.Final" - WebEngineDescriptionKey = attribute.Key("webengine.description") - - // WebEngineNameKey is the attribute Key conforming to the "webengine.name" - // semantic conventions. It represents the name of the web engine. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "WildFly" - WebEngineNameKey = attribute.Key("webengine.name") - - // WebEngineVersionKey is the attribute Key conforming to the - // "webengine.version" semantic conventions. It represents the version of the - // web engine. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "21.0.0" - WebEngineVersionKey = attribute.Key("webengine.version") -) - -// WebEngineDescription returns an attribute KeyValue conforming to the -// "webengine.description" semantic conventions. It represents the additional -// description of the web engine (e.g. detailed version and edition information). -func WebEngineDescription(val string) attribute.KeyValue { - return WebEngineDescriptionKey.String(val) -} - -// WebEngineName returns an attribute KeyValue conforming to the "webengine.name" -// semantic conventions. It represents the name of the web engine. -func WebEngineName(val string) attribute.KeyValue { - return WebEngineNameKey.String(val) -} - -// WebEngineVersion returns an attribute KeyValue conforming to the -// "webengine.version" semantic conventions. It represents the version of the web -// engine. -func WebEngineVersion(val string) attribute.KeyValue { - return WebEngineVersionKey.String(val) -} - -// Namespace: zos -const ( - // ZOSSmfIDKey is the attribute Key conforming to the "zos.smf.id" semantic - // conventions. It represents the System Management Facility (SMF) Identifier - // uniquely identified a z/OS system within a SYSPLEX or mainframe environment - // and is used for system and performance analysis. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "SYS1" - ZOSSmfIDKey = attribute.Key("zos.smf.id") - - // ZOSSysplexNameKey is the attribute Key conforming to the "zos.sysplex.name" - // semantic conventions. It represents the name of the SYSPLEX to which the z/OS - // system belongs too. - // - // Type: string - // RequirementLevel: Recommended - // Stability: Development - // - // Examples: "SYSPLEX1" - ZOSSysplexNameKey = attribute.Key("zos.sysplex.name") -) - -// ZOSSmfID returns an attribute KeyValue conforming to the "zos.smf.id" semantic -// conventions. It represents the System Management Facility (SMF) Identifier -// uniquely identified a z/OS system within a SYSPLEX or mainframe environment -// and is used for system and performance analysis. -func ZOSSmfID(val string) attribute.KeyValue { - return ZOSSmfIDKey.String(val) -} - -// ZOSSysplexName returns an attribute KeyValue conforming to the -// "zos.sysplex.name" semantic conventions. It represents the name of the SYSPLEX -// to which the z/OS system belongs too. -func ZOSSysplexName(val string) attribute.KeyValue { - return ZOSSysplexNameKey.String(val) -} \ No newline at end of file diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/doc.go b/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/doc.go deleted file mode 100644 index 852362ef77..0000000000 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/doc.go +++ /dev/null @@ -1,9 +0,0 @@ -// Copyright The OpenTelemetry Authors -// SPDX-License-Identifier: Apache-2.0 - -// Package semconv implements OpenTelemetry semantic conventions. -// -// OpenTelemetry semantic conventions are agreed standardized naming -// patterns for OpenTelemetry things. This package represents the v1.39.0 -// version of the OpenTelemetry semantic conventions. -package semconv // import "go.opentelemetry.io/otel/semconv/v1.39.0" diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/error_type.go b/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/error_type.go deleted file mode 100644 index 84cf636a72..0000000000 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/error_type.go +++ /dev/null @@ -1,56 +0,0 @@ -// Copyright The OpenTelemetry Authors -// SPDX-License-Identifier: Apache-2.0 - -package semconv // import "go.opentelemetry.io/otel/semconv/v1.39.0" - -import ( - "reflect" - - "go.opentelemetry.io/otel/attribute" -) - -// ErrorType returns an [attribute.KeyValue] identifying the error type of err. -// -// If err is nil, the returned attribute has the default value -// [ErrorTypeOther]. -// -// If err's type has the method -// -// ErrorType() string -// -// then the returned attribute has the value of err.ErrorType(). Otherwise, the -// returned attribute has a value derived from the concrete type of err. -// -// The key of the returned attribute is [ErrorTypeKey]. -func ErrorType(err error) attribute.KeyValue { - if err == nil { - return ErrorTypeOther - } - - return ErrorTypeKey.String(errorType(err)) -} - -func errorType(err error) string { - var s string - if et, ok := err.(interface{ ErrorType() string }); ok { - // Prioritize the ErrorType method if available. - s = et.ErrorType() - } - if s == "" { - // Fallback to reflection if the ErrorType method is not supported or - // returns an empty value. - - t := reflect.TypeOf(err) - pkg, name := t.PkgPath(), t.Name() - if pkg != "" && name != "" { - s = pkg + "." + name - } else { - // The type has no package path or name (predeclared, not-defined, - // or alias for a not-defined type). - // - // This is not guaranteed to be unique, but is a best effort. - s = t.String() - } - } - return s -} diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/exception.go b/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/exception.go deleted file mode 100644 index 7b688ecc33..0000000000 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/exception.go +++ /dev/null @@ -1,9 +0,0 @@ -// Copyright The OpenTelemetry Authors -// SPDX-License-Identifier: Apache-2.0 - -package semconv // import "go.opentelemetry.io/otel/semconv/v1.39.0" - -const ( - // ExceptionEventName is the name of the Span event representing an exception. - ExceptionEventName = "exception" -) diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/otelconv/metric.go b/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/otelconv/metric.go deleted file mode 100644 index 901da86985..0000000000 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/otelconv/metric.go +++ /dev/null @@ -1,2222 +0,0 @@ -// Code generated from semantic convention specification. DO NOT EDIT. - -// Copyright The OpenTelemetry Authors -// SPDX-License-Identifier: Apache-2.0 - -// Package otelconv provides types and functionality for OpenTelemetry semantic -// conventions in the "otel" namespace. -package otelconv - -import ( - "context" - "sync" - - "go.opentelemetry.io/otel/attribute" - "go.opentelemetry.io/otel/metric" - "go.opentelemetry.io/otel/metric/noop" -) - -var ( - addOptPool = &sync.Pool{New: func() any { return &[]metric.AddOption{} }} - recOptPool = &sync.Pool{New: func() any { return &[]metric.RecordOption{} }} -) - -// ErrorTypeAttr is an attribute conforming to the error.type semantic -// conventions. It represents the describes a class of error the operation ended -// with. -type ErrorTypeAttr string - -var ( - // ErrorTypeOther is a fallback error value to be used when the instrumentation - // doesn't define a custom value. - ErrorTypeOther ErrorTypeAttr = "_OTHER" -) - -// ComponentTypeAttr is an attribute conforming to the otel.component.type -// semantic conventions. It represents a name identifying the type of the -// OpenTelemetry component. -type ComponentTypeAttr string - -var ( - // ComponentTypeBatchingSpanProcessor is the builtin SDK batching span - // processor. - ComponentTypeBatchingSpanProcessor ComponentTypeAttr = "batching_span_processor" - // ComponentTypeSimpleSpanProcessor is the builtin SDK simple span processor. - ComponentTypeSimpleSpanProcessor ComponentTypeAttr = "simple_span_processor" - // ComponentTypeBatchingLogProcessor is the builtin SDK batching log record - // processor. - ComponentTypeBatchingLogProcessor ComponentTypeAttr = "batching_log_processor" - // ComponentTypeSimpleLogProcessor is the builtin SDK simple log record - // processor. - ComponentTypeSimpleLogProcessor ComponentTypeAttr = "simple_log_processor" - // ComponentTypeOtlpGRPCSpanExporter is the OTLP span exporter over gRPC with - // protobuf serialization. - ComponentTypeOtlpGRPCSpanExporter ComponentTypeAttr = "otlp_grpc_span_exporter" - // ComponentTypeOtlpHTTPSpanExporter is the OTLP span exporter over HTTP with - // protobuf serialization. - ComponentTypeOtlpHTTPSpanExporter ComponentTypeAttr = "otlp_http_span_exporter" - // ComponentTypeOtlpHTTPJSONSpanExporter is the OTLP span exporter over HTTP - // with JSON serialization. - ComponentTypeOtlpHTTPJSONSpanExporter ComponentTypeAttr = "otlp_http_json_span_exporter" - // ComponentTypeZipkinHTTPSpanExporter is the zipkin span exporter over HTTP. - ComponentTypeZipkinHTTPSpanExporter ComponentTypeAttr = "zipkin_http_span_exporter" - // ComponentTypeOtlpGRPCLogExporter is the OTLP log record exporter over gRPC - // with protobuf serialization. - ComponentTypeOtlpGRPCLogExporter ComponentTypeAttr = "otlp_grpc_log_exporter" - // ComponentTypeOtlpHTTPLogExporter is the OTLP log record exporter over HTTP - // with protobuf serialization. - ComponentTypeOtlpHTTPLogExporter ComponentTypeAttr = "otlp_http_log_exporter" - // ComponentTypeOtlpHTTPJSONLogExporter is the OTLP log record exporter over - // HTTP with JSON serialization. - ComponentTypeOtlpHTTPJSONLogExporter ComponentTypeAttr = "otlp_http_json_log_exporter" - // ComponentTypePeriodicMetricReader is the builtin SDK periodically exporting - // metric reader. - ComponentTypePeriodicMetricReader ComponentTypeAttr = "periodic_metric_reader" - // ComponentTypeOtlpGRPCMetricExporter is the OTLP metric exporter over gRPC - // with protobuf serialization. - ComponentTypeOtlpGRPCMetricExporter ComponentTypeAttr = "otlp_grpc_metric_exporter" - // ComponentTypeOtlpHTTPMetricExporter is the OTLP metric exporter over HTTP - // with protobuf serialization. - ComponentTypeOtlpHTTPMetricExporter ComponentTypeAttr = "otlp_http_metric_exporter" - // ComponentTypeOtlpHTTPJSONMetricExporter is the OTLP metric exporter over HTTP - // with JSON serialization. - ComponentTypeOtlpHTTPJSONMetricExporter ComponentTypeAttr = "otlp_http_json_metric_exporter" - // ComponentTypePrometheusHTTPTextMetricExporter is the prometheus metric - // exporter over HTTP with the default text-based format. - ComponentTypePrometheusHTTPTextMetricExporter ComponentTypeAttr = "prometheus_http_text_metric_exporter" -) - -// SpanParentOriginAttr is an attribute conforming to the otel.span.parent.origin -// semantic conventions. It represents the determines whether the span has a -// parent span, and if so, [whether it is a remote parent]. -// -// [whether it is a remote parent]: https://opentelemetry.io/docs/specs/otel/trace/api/#isremote -type SpanParentOriginAttr string - -var ( - // SpanParentOriginNone is the span does not have a parent, it is a root span. - SpanParentOriginNone SpanParentOriginAttr = "none" - // SpanParentOriginLocal is the span has a parent and the parent's span context - // [isRemote()] is false. - // - // [isRemote()]: https://opentelemetry.io/docs/specs/otel/trace/api/#isremote - SpanParentOriginLocal SpanParentOriginAttr = "local" - // SpanParentOriginRemote is the span has a parent and the parent's span context - // [isRemote()] is true. - // - // [isRemote()]: https://opentelemetry.io/docs/specs/otel/trace/api/#isremote - SpanParentOriginRemote SpanParentOriginAttr = "remote" -) - -// SpanSamplingResultAttr is an attribute conforming to the -// otel.span.sampling_result semantic conventions. It represents the result value -// of the sampler for this span. -type SpanSamplingResultAttr string - -var ( - // SpanSamplingResultDrop is the span is not sampled and not recording. - SpanSamplingResultDrop SpanSamplingResultAttr = "DROP" - // SpanSamplingResultRecordOnly is the span is not sampled, but recording. - SpanSamplingResultRecordOnly SpanSamplingResultAttr = "RECORD_ONLY" - // SpanSamplingResultRecordAndSample is the span is sampled and recording. - SpanSamplingResultRecordAndSample SpanSamplingResultAttr = "RECORD_AND_SAMPLE" -) - -// SDKExporterLogExported is an instrument used to record metric values -// conforming to the "otel.sdk.exporter.log.exported" semantic conventions. It -// represents the number of log records for which the export has finished, either -// successful or failed. -type SDKExporterLogExported struct { - metric.Int64Counter -} - -var newSDKExporterLogExportedOpts = []metric.Int64CounterOption{ - metric.WithDescription("The number of log records for which the export has finished, either successful or failed."), - metric.WithUnit("{log_record}"), -} - -// NewSDKExporterLogExported returns a new SDKExporterLogExported instrument. -func NewSDKExporterLogExported( - m metric.Meter, - opt ...metric.Int64CounterOption, -) (SDKExporterLogExported, error) { - // Check if the meter is nil. - if m == nil { - return SDKExporterLogExported{noop.Int64Counter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKExporterLogExportedOpts - } else { - opt = append(opt, newSDKExporterLogExportedOpts...) - } - - i, err := m.Int64Counter( - "otel.sdk.exporter.log.exported", - opt..., - ) - if err != nil { - return SDKExporterLogExported{noop.Int64Counter{}}, err - } - return SDKExporterLogExported{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKExporterLogExported) Inst() metric.Int64Counter { - return m.Int64Counter -} - -// Name returns the semantic convention name of the instrument. -func (SDKExporterLogExported) Name() string { - return "otel.sdk.exporter.log.exported" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKExporterLogExported) Unit() string { - return "{log_record}" -} - -// Description returns the semantic convention description of the instrument -func (SDKExporterLogExported) Description() string { - return "The number of log records for which the export has finished, either successful or failed." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -// For exporters with partial success semantics (e.g. OTLP with -// `rejected_log_records`), rejected log records MUST count as failed and only -// non-rejected log records count as success. -// If no rejection reason is available, `rejected` SHOULD be used as value for -// `error.type`. -func (m SDKExporterLogExported) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -// For exporters with partial success semantics (e.g. OTLP with -// `rejected_log_records`), rejected log records MUST count as failed and only -// non-rejected log records count as success. -// If no rejection reason is available, `rejected` SHOULD be used as value for -// `error.type`. -func (m SDKExporterLogExported) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AttrErrorType returns an optional attribute for the "error.type" semantic -// convention. It represents the describes a class of error the operation ended -// with. -func (SDKExporterLogExported) AttrErrorType(val ErrorTypeAttr) attribute.KeyValue { - return attribute.String("error.type", string(val)) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKExporterLogExported) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKExporterLogExported) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// AttrServerAddress returns an optional attribute for the "server.address" -// semantic convention. It represents the server domain name if available without -// reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func (SDKExporterLogExported) AttrServerAddress(val string) attribute.KeyValue { - return attribute.String("server.address", val) -} - -// AttrServerPort returns an optional attribute for the "server.port" semantic -// convention. It represents the server port number. -func (SDKExporterLogExported) AttrServerPort(val int) attribute.KeyValue { - return attribute.Int("server.port", val) -} - -// SDKExporterLogInflight is an instrument used to record metric values -// conforming to the "otel.sdk.exporter.log.inflight" semantic conventions. It -// represents the number of log records which were passed to the exporter, but -// that have not been exported yet (neither successful, nor failed). -type SDKExporterLogInflight struct { - metric.Int64UpDownCounter -} - -var newSDKExporterLogInflightOpts = []metric.Int64UpDownCounterOption{ - metric.WithDescription("The number of log records which were passed to the exporter, but that have not been exported yet (neither successful, nor failed)."), - metric.WithUnit("{log_record}"), -} - -// NewSDKExporterLogInflight returns a new SDKExporterLogInflight instrument. -func NewSDKExporterLogInflight( - m metric.Meter, - opt ...metric.Int64UpDownCounterOption, -) (SDKExporterLogInflight, error) { - // Check if the meter is nil. - if m == nil { - return SDKExporterLogInflight{noop.Int64UpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKExporterLogInflightOpts - } else { - opt = append(opt, newSDKExporterLogInflightOpts...) - } - - i, err := m.Int64UpDownCounter( - "otel.sdk.exporter.log.inflight", - opt..., - ) - if err != nil { - return SDKExporterLogInflight{noop.Int64UpDownCounter{}}, err - } - return SDKExporterLogInflight{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKExporterLogInflight) Inst() metric.Int64UpDownCounter { - return m.Int64UpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKExporterLogInflight) Name() string { - return "otel.sdk.exporter.log.inflight" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKExporterLogInflight) Unit() string { - return "{log_record}" -} - -// Description returns the semantic convention description of the instrument -func (SDKExporterLogInflight) Description() string { - return "The number of log records which were passed to the exporter, but that have not been exported yet (neither successful, nor failed)." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -func (m SDKExporterLogInflight) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -func (m SDKExporterLogInflight) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKExporterLogInflight) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKExporterLogInflight) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// AttrServerAddress returns an optional attribute for the "server.address" -// semantic convention. It represents the server domain name if available without -// reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func (SDKExporterLogInflight) AttrServerAddress(val string) attribute.KeyValue { - return attribute.String("server.address", val) -} - -// AttrServerPort returns an optional attribute for the "server.port" semantic -// convention. It represents the server port number. -func (SDKExporterLogInflight) AttrServerPort(val int) attribute.KeyValue { - return attribute.Int("server.port", val) -} - -// SDKExporterMetricDataPointExported is an instrument used to record metric -// values conforming to the "otel.sdk.exporter.metric_data_point.exported" -// semantic conventions. It represents the number of metric data points for which -// the export has finished, either successful or failed. -type SDKExporterMetricDataPointExported struct { - metric.Int64Counter -} - -var newSDKExporterMetricDataPointExportedOpts = []metric.Int64CounterOption{ - metric.WithDescription("The number of metric data points for which the export has finished, either successful or failed."), - metric.WithUnit("{data_point}"), -} - -// NewSDKExporterMetricDataPointExported returns a new -// SDKExporterMetricDataPointExported instrument. -func NewSDKExporterMetricDataPointExported( - m metric.Meter, - opt ...metric.Int64CounterOption, -) (SDKExporterMetricDataPointExported, error) { - // Check if the meter is nil. - if m == nil { - return SDKExporterMetricDataPointExported{noop.Int64Counter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKExporterMetricDataPointExportedOpts - } else { - opt = append(opt, newSDKExporterMetricDataPointExportedOpts...) - } - - i, err := m.Int64Counter( - "otel.sdk.exporter.metric_data_point.exported", - opt..., - ) - if err != nil { - return SDKExporterMetricDataPointExported{noop.Int64Counter{}}, err - } - return SDKExporterMetricDataPointExported{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKExporterMetricDataPointExported) Inst() metric.Int64Counter { - return m.Int64Counter -} - -// Name returns the semantic convention name of the instrument. -func (SDKExporterMetricDataPointExported) Name() string { - return "otel.sdk.exporter.metric_data_point.exported" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKExporterMetricDataPointExported) Unit() string { - return "{data_point}" -} - -// Description returns the semantic convention description of the instrument -func (SDKExporterMetricDataPointExported) Description() string { - return "The number of metric data points for which the export has finished, either successful or failed." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -// For exporters with partial success semantics (e.g. OTLP with -// `rejected_data_points`), rejected data points MUST count as failed and only -// non-rejected data points count as success. -// If no rejection reason is available, `rejected` SHOULD be used as value for -// `error.type`. -func (m SDKExporterMetricDataPointExported) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -// For exporters with partial success semantics (e.g. OTLP with -// `rejected_data_points`), rejected data points MUST count as failed and only -// non-rejected data points count as success. -// If no rejection reason is available, `rejected` SHOULD be used as value for -// `error.type`. -func (m SDKExporterMetricDataPointExported) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AttrErrorType returns an optional attribute for the "error.type" semantic -// convention. It represents the describes a class of error the operation ended -// with. -func (SDKExporterMetricDataPointExported) AttrErrorType(val ErrorTypeAttr) attribute.KeyValue { - return attribute.String("error.type", string(val)) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKExporterMetricDataPointExported) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKExporterMetricDataPointExported) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// AttrServerAddress returns an optional attribute for the "server.address" -// semantic convention. It represents the server domain name if available without -// reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func (SDKExporterMetricDataPointExported) AttrServerAddress(val string) attribute.KeyValue { - return attribute.String("server.address", val) -} - -// AttrServerPort returns an optional attribute for the "server.port" semantic -// convention. It represents the server port number. -func (SDKExporterMetricDataPointExported) AttrServerPort(val int) attribute.KeyValue { - return attribute.Int("server.port", val) -} - -// SDKExporterMetricDataPointInflight is an instrument used to record metric -// values conforming to the "otel.sdk.exporter.metric_data_point.inflight" -// semantic conventions. It represents the number of metric data points which -// were passed to the exporter, but that have not been exported yet (neither -// successful, nor failed). -type SDKExporterMetricDataPointInflight struct { - metric.Int64UpDownCounter -} - -var newSDKExporterMetricDataPointInflightOpts = []metric.Int64UpDownCounterOption{ - metric.WithDescription("The number of metric data points which were passed to the exporter, but that have not been exported yet (neither successful, nor failed)."), - metric.WithUnit("{data_point}"), -} - -// NewSDKExporterMetricDataPointInflight returns a new -// SDKExporterMetricDataPointInflight instrument. -func NewSDKExporterMetricDataPointInflight( - m metric.Meter, - opt ...metric.Int64UpDownCounterOption, -) (SDKExporterMetricDataPointInflight, error) { - // Check if the meter is nil. - if m == nil { - return SDKExporterMetricDataPointInflight{noop.Int64UpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKExporterMetricDataPointInflightOpts - } else { - opt = append(opt, newSDKExporterMetricDataPointInflightOpts...) - } - - i, err := m.Int64UpDownCounter( - "otel.sdk.exporter.metric_data_point.inflight", - opt..., - ) - if err != nil { - return SDKExporterMetricDataPointInflight{noop.Int64UpDownCounter{}}, err - } - return SDKExporterMetricDataPointInflight{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKExporterMetricDataPointInflight) Inst() metric.Int64UpDownCounter { - return m.Int64UpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKExporterMetricDataPointInflight) Name() string { - return "otel.sdk.exporter.metric_data_point.inflight" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKExporterMetricDataPointInflight) Unit() string { - return "{data_point}" -} - -// Description returns the semantic convention description of the instrument -func (SDKExporterMetricDataPointInflight) Description() string { - return "The number of metric data points which were passed to the exporter, but that have not been exported yet (neither successful, nor failed)." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -func (m SDKExporterMetricDataPointInflight) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -func (m SDKExporterMetricDataPointInflight) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKExporterMetricDataPointInflight) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKExporterMetricDataPointInflight) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// AttrServerAddress returns an optional attribute for the "server.address" -// semantic convention. It represents the server domain name if available without -// reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func (SDKExporterMetricDataPointInflight) AttrServerAddress(val string) attribute.KeyValue { - return attribute.String("server.address", val) -} - -// AttrServerPort returns an optional attribute for the "server.port" semantic -// convention. It represents the server port number. -func (SDKExporterMetricDataPointInflight) AttrServerPort(val int) attribute.KeyValue { - return attribute.Int("server.port", val) -} - -// SDKExporterOperationDuration is an instrument used to record metric values -// conforming to the "otel.sdk.exporter.operation.duration" semantic conventions. -// It represents the duration of exporting a batch of telemetry records. -type SDKExporterOperationDuration struct { - metric.Float64Histogram -} - -var newSDKExporterOperationDurationOpts = []metric.Float64HistogramOption{ - metric.WithDescription("The duration of exporting a batch of telemetry records."), - metric.WithUnit("s"), -} - -// NewSDKExporterOperationDuration returns a new SDKExporterOperationDuration -// instrument. -func NewSDKExporterOperationDuration( - m metric.Meter, - opt ...metric.Float64HistogramOption, -) (SDKExporterOperationDuration, error) { - // Check if the meter is nil. - if m == nil { - return SDKExporterOperationDuration{noop.Float64Histogram{}}, nil - } - - if len(opt) == 0 { - opt = newSDKExporterOperationDurationOpts - } else { - opt = append(opt, newSDKExporterOperationDurationOpts...) - } - - i, err := m.Float64Histogram( - "otel.sdk.exporter.operation.duration", - opt..., - ) - if err != nil { - return SDKExporterOperationDuration{noop.Float64Histogram{}}, err - } - return SDKExporterOperationDuration{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKExporterOperationDuration) Inst() metric.Float64Histogram { - return m.Float64Histogram -} - -// Name returns the semantic convention name of the instrument. -func (SDKExporterOperationDuration) Name() string { - return "otel.sdk.exporter.operation.duration" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKExporterOperationDuration) Unit() string { - return "s" -} - -// Description returns the semantic convention description of the instrument -func (SDKExporterOperationDuration) Description() string { - return "The duration of exporting a batch of telemetry records." -} - -// Record records val to the current distribution for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// This metric defines successful operations using the full success definitions -// for [http] -// and [grpc]. Anything else is defined as an unsuccessful operation. For -// successful -// operations, `error.type` MUST NOT be set. For unsuccessful export operations, -// `error.type` MUST contain a relevant failure cause. -// -// [http]: https://github.com/open-telemetry/opentelemetry-proto/blob/v1.5.0/docs/specification.md#full-success-1 -// [grpc]: https://github.com/open-telemetry/opentelemetry-proto/blob/v1.5.0/docs/specification.md#full-success -func (m SDKExporterOperationDuration) Record( - ctx context.Context, - val float64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Float64Histogram.Record(ctx, val) - return - } - - o := recOptPool.Get().(*[]metric.RecordOption) - defer func() { - *o = (*o)[:0] - recOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Float64Histogram.Record(ctx, val, *o...) -} - -// RecordSet records val to the current distribution for set. -// -// This metric defines successful operations using the full success definitions -// for [http] -// and [grpc]. Anything else is defined as an unsuccessful operation. For -// successful -// operations, `error.type` MUST NOT be set. For unsuccessful export operations, -// `error.type` MUST contain a relevant failure cause. -// -// [http]: https://github.com/open-telemetry/opentelemetry-proto/blob/v1.5.0/docs/specification.md#full-success-1 -// [grpc]: https://github.com/open-telemetry/opentelemetry-proto/blob/v1.5.0/docs/specification.md#full-success -func (m SDKExporterOperationDuration) RecordSet(ctx context.Context, val float64, set attribute.Set) { - if set.Len() == 0 { - m.Float64Histogram.Record(ctx, val) - return - } - - o := recOptPool.Get().(*[]metric.RecordOption) - defer func() { - *o = (*o)[:0] - recOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Float64Histogram.Record(ctx, val, *o...) -} - -// AttrErrorType returns an optional attribute for the "error.type" semantic -// convention. It represents the describes a class of error the operation ended -// with. -func (SDKExporterOperationDuration) AttrErrorType(val ErrorTypeAttr) attribute.KeyValue { - return attribute.String("error.type", string(val)) -} - -// AttrHTTPResponseStatusCode returns an optional attribute for the -// "http.response.status_code" semantic convention. It represents the HTTP status -// code of the last HTTP request performed in scope of this export call. -func (SDKExporterOperationDuration) AttrHTTPResponseStatusCode(val int) attribute.KeyValue { - return attribute.Int("http.response.status_code", val) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKExporterOperationDuration) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKExporterOperationDuration) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// AttrRPCResponseStatusCode returns an optional attribute for the -// "rpc.response.status_code" semantic convention. It represents the gRPC status -// code of the last gRPC request performed in scope of this export call. -func (SDKExporterOperationDuration) AttrRPCResponseStatusCode(val string) attribute.KeyValue { - return attribute.String("rpc.response.status_code", val) -} - -// AttrServerAddress returns an optional attribute for the "server.address" -// semantic convention. It represents the server domain name if available without -// reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func (SDKExporterOperationDuration) AttrServerAddress(val string) attribute.KeyValue { - return attribute.String("server.address", val) -} - -// AttrServerPort returns an optional attribute for the "server.port" semantic -// convention. It represents the server port number. -func (SDKExporterOperationDuration) AttrServerPort(val int) attribute.KeyValue { - return attribute.Int("server.port", val) -} - -// SDKExporterSpanExported is an instrument used to record metric values -// conforming to the "otel.sdk.exporter.span.exported" semantic conventions. It -// represents the number of spans for which the export has finished, either -// successful or failed. -type SDKExporterSpanExported struct { - metric.Int64Counter -} - -var newSDKExporterSpanExportedOpts = []metric.Int64CounterOption{ - metric.WithDescription("The number of spans for which the export has finished, either successful or failed."), - metric.WithUnit("{span}"), -} - -// NewSDKExporterSpanExported returns a new SDKExporterSpanExported instrument. -func NewSDKExporterSpanExported( - m metric.Meter, - opt ...metric.Int64CounterOption, -) (SDKExporterSpanExported, error) { - // Check if the meter is nil. - if m == nil { - return SDKExporterSpanExported{noop.Int64Counter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKExporterSpanExportedOpts - } else { - opt = append(opt, newSDKExporterSpanExportedOpts...) - } - - i, err := m.Int64Counter( - "otel.sdk.exporter.span.exported", - opt..., - ) - if err != nil { - return SDKExporterSpanExported{noop.Int64Counter{}}, err - } - return SDKExporterSpanExported{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKExporterSpanExported) Inst() metric.Int64Counter { - return m.Int64Counter -} - -// Name returns the semantic convention name of the instrument. -func (SDKExporterSpanExported) Name() string { - return "otel.sdk.exporter.span.exported" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKExporterSpanExported) Unit() string { - return "{span}" -} - -// Description returns the semantic convention description of the instrument -func (SDKExporterSpanExported) Description() string { - return "The number of spans for which the export has finished, either successful or failed." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -// For exporters with partial success semantics (e.g. OTLP with `rejected_spans` -// ), rejected spans MUST count as failed and only non-rejected spans count as -// success. -// If no rejection reason is available, `rejected` SHOULD be used as value for -// `error.type`. -func (m SDKExporterSpanExported) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -// For exporters with partial success semantics (e.g. OTLP with `rejected_spans` -// ), rejected spans MUST count as failed and only non-rejected spans count as -// success. -// If no rejection reason is available, `rejected` SHOULD be used as value for -// `error.type`. -func (m SDKExporterSpanExported) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AttrErrorType returns an optional attribute for the "error.type" semantic -// convention. It represents the describes a class of error the operation ended -// with. -func (SDKExporterSpanExported) AttrErrorType(val ErrorTypeAttr) attribute.KeyValue { - return attribute.String("error.type", string(val)) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKExporterSpanExported) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKExporterSpanExported) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// AttrServerAddress returns an optional attribute for the "server.address" -// semantic convention. It represents the server domain name if available without -// reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func (SDKExporterSpanExported) AttrServerAddress(val string) attribute.KeyValue { - return attribute.String("server.address", val) -} - -// AttrServerPort returns an optional attribute for the "server.port" semantic -// convention. It represents the server port number. -func (SDKExporterSpanExported) AttrServerPort(val int) attribute.KeyValue { - return attribute.Int("server.port", val) -} - -// SDKExporterSpanInflight is an instrument used to record metric values -// conforming to the "otel.sdk.exporter.span.inflight" semantic conventions. It -// represents the number of spans which were passed to the exporter, but that -// have not been exported yet (neither successful, nor failed). -type SDKExporterSpanInflight struct { - metric.Int64UpDownCounter -} - -var newSDKExporterSpanInflightOpts = []metric.Int64UpDownCounterOption{ - metric.WithDescription("The number of spans which were passed to the exporter, but that have not been exported yet (neither successful, nor failed)."), - metric.WithUnit("{span}"), -} - -// NewSDKExporterSpanInflight returns a new SDKExporterSpanInflight instrument. -func NewSDKExporterSpanInflight( - m metric.Meter, - opt ...metric.Int64UpDownCounterOption, -) (SDKExporterSpanInflight, error) { - // Check if the meter is nil. - if m == nil { - return SDKExporterSpanInflight{noop.Int64UpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKExporterSpanInflightOpts - } else { - opt = append(opt, newSDKExporterSpanInflightOpts...) - } - - i, err := m.Int64UpDownCounter( - "otel.sdk.exporter.span.inflight", - opt..., - ) - if err != nil { - return SDKExporterSpanInflight{noop.Int64UpDownCounter{}}, err - } - return SDKExporterSpanInflight{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKExporterSpanInflight) Inst() metric.Int64UpDownCounter { - return m.Int64UpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKExporterSpanInflight) Name() string { - return "otel.sdk.exporter.span.inflight" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKExporterSpanInflight) Unit() string { - return "{span}" -} - -// Description returns the semantic convention description of the instrument -func (SDKExporterSpanInflight) Description() string { - return "The number of spans which were passed to the exporter, but that have not been exported yet (neither successful, nor failed)." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -func (m SDKExporterSpanInflight) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful exports, `error.type` MUST NOT be set. For failed exports, -// `error.type` MUST contain the failure cause. -func (m SDKExporterSpanInflight) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKExporterSpanInflight) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKExporterSpanInflight) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// AttrServerAddress returns an optional attribute for the "server.address" -// semantic convention. It represents the server domain name if available without -// reverse DNS lookup; otherwise, IP address or Unix domain socket name. -func (SDKExporterSpanInflight) AttrServerAddress(val string) attribute.KeyValue { - return attribute.String("server.address", val) -} - -// AttrServerPort returns an optional attribute for the "server.port" semantic -// convention. It represents the server port number. -func (SDKExporterSpanInflight) AttrServerPort(val int) attribute.KeyValue { - return attribute.Int("server.port", val) -} - -// SDKLogCreated is an instrument used to record metric values conforming to the -// "otel.sdk.log.created" semantic conventions. It represents the number of logs -// submitted to enabled SDK Loggers. -type SDKLogCreated struct { - metric.Int64Counter -} - -var newSDKLogCreatedOpts = []metric.Int64CounterOption{ - metric.WithDescription("The number of logs submitted to enabled SDK Loggers."), - metric.WithUnit("{log_record}"), -} - -// NewSDKLogCreated returns a new SDKLogCreated instrument. -func NewSDKLogCreated( - m metric.Meter, - opt ...metric.Int64CounterOption, -) (SDKLogCreated, error) { - // Check if the meter is nil. - if m == nil { - return SDKLogCreated{noop.Int64Counter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKLogCreatedOpts - } else { - opt = append(opt, newSDKLogCreatedOpts...) - } - - i, err := m.Int64Counter( - "otel.sdk.log.created", - opt..., - ) - if err != nil { - return SDKLogCreated{noop.Int64Counter{}}, err - } - return SDKLogCreated{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKLogCreated) Inst() metric.Int64Counter { - return m.Int64Counter -} - -// Name returns the semantic convention name of the instrument. -func (SDKLogCreated) Name() string { - return "otel.sdk.log.created" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKLogCreated) Unit() string { - return "{log_record}" -} - -// Description returns the semantic convention description of the instrument -func (SDKLogCreated) Description() string { - return "The number of logs submitted to enabled SDK Loggers." -} - -// Add adds incr to the existing count for attrs. -func (m SDKLogCreated) Add(ctx context.Context, incr int64, attrs ...attribute.KeyValue) { - if len(attrs) == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributes(attrs...)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -func (m SDKLogCreated) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// SDKMetricReaderCollectionDuration is an instrument used to record metric -// values conforming to the "otel.sdk.metric_reader.collection.duration" semantic -// conventions. It represents the duration of the collect operation of the metric -// reader. -type SDKMetricReaderCollectionDuration struct { - metric.Float64Histogram -} - -var newSDKMetricReaderCollectionDurationOpts = []metric.Float64HistogramOption{ - metric.WithDescription("The duration of the collect operation of the metric reader."), - metric.WithUnit("s"), -} - -// NewSDKMetricReaderCollectionDuration returns a new -// SDKMetricReaderCollectionDuration instrument. -func NewSDKMetricReaderCollectionDuration( - m metric.Meter, - opt ...metric.Float64HistogramOption, -) (SDKMetricReaderCollectionDuration, error) { - // Check if the meter is nil. - if m == nil { - return SDKMetricReaderCollectionDuration{noop.Float64Histogram{}}, nil - } - - if len(opt) == 0 { - opt = newSDKMetricReaderCollectionDurationOpts - } else { - opt = append(opt, newSDKMetricReaderCollectionDurationOpts...) - } - - i, err := m.Float64Histogram( - "otel.sdk.metric_reader.collection.duration", - opt..., - ) - if err != nil { - return SDKMetricReaderCollectionDuration{noop.Float64Histogram{}}, err - } - return SDKMetricReaderCollectionDuration{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKMetricReaderCollectionDuration) Inst() metric.Float64Histogram { - return m.Float64Histogram -} - -// Name returns the semantic convention name of the instrument. -func (SDKMetricReaderCollectionDuration) Name() string { - return "otel.sdk.metric_reader.collection.duration" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKMetricReaderCollectionDuration) Unit() string { - return "s" -} - -// Description returns the semantic convention description of the instrument -func (SDKMetricReaderCollectionDuration) Description() string { - return "The duration of the collect operation of the metric reader." -} - -// Record records val to the current distribution for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful collections, `error.type` MUST NOT be set. For failed -// collections, `error.type` SHOULD contain the failure cause. -// It can happen that metrics collection is successful for some MetricProducers, -// while others fail. In that case `error.type` SHOULD be set to any of the -// failure causes. -func (m SDKMetricReaderCollectionDuration) Record( - ctx context.Context, - val float64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Float64Histogram.Record(ctx, val) - return - } - - o := recOptPool.Get().(*[]metric.RecordOption) - defer func() { - *o = (*o)[:0] - recOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Float64Histogram.Record(ctx, val, *o...) -} - -// RecordSet records val to the current distribution for set. -// -// For successful collections, `error.type` MUST NOT be set. For failed -// collections, `error.type` SHOULD contain the failure cause. -// It can happen that metrics collection is successful for some MetricProducers, -// while others fail. In that case `error.type` SHOULD be set to any of the -// failure causes. -func (m SDKMetricReaderCollectionDuration) RecordSet(ctx context.Context, val float64, set attribute.Set) { - if set.Len() == 0 { - m.Float64Histogram.Record(ctx, val) - return - } - - o := recOptPool.Get().(*[]metric.RecordOption) - defer func() { - *o = (*o)[:0] - recOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Float64Histogram.Record(ctx, val, *o...) -} - -// AttrErrorType returns an optional attribute for the "error.type" semantic -// convention. It represents the describes a class of error the operation ended -// with. -func (SDKMetricReaderCollectionDuration) AttrErrorType(val ErrorTypeAttr) attribute.KeyValue { - return attribute.String("error.type", string(val)) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKMetricReaderCollectionDuration) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKMetricReaderCollectionDuration) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// SDKProcessorLogProcessed is an instrument used to record metric values -// conforming to the "otel.sdk.processor.log.processed" semantic conventions. It -// represents the number of log records for which the processing has finished, -// either successful or failed. -type SDKProcessorLogProcessed struct { - metric.Int64Counter -} - -var newSDKProcessorLogProcessedOpts = []metric.Int64CounterOption{ - metric.WithDescription("The number of log records for which the processing has finished, either successful or failed."), - metric.WithUnit("{log_record}"), -} - -// NewSDKProcessorLogProcessed returns a new SDKProcessorLogProcessed instrument. -func NewSDKProcessorLogProcessed( - m metric.Meter, - opt ...metric.Int64CounterOption, -) (SDKProcessorLogProcessed, error) { - // Check if the meter is nil. - if m == nil { - return SDKProcessorLogProcessed{noop.Int64Counter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKProcessorLogProcessedOpts - } else { - opt = append(opt, newSDKProcessorLogProcessedOpts...) - } - - i, err := m.Int64Counter( - "otel.sdk.processor.log.processed", - opt..., - ) - if err != nil { - return SDKProcessorLogProcessed{noop.Int64Counter{}}, err - } - return SDKProcessorLogProcessed{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKProcessorLogProcessed) Inst() metric.Int64Counter { - return m.Int64Counter -} - -// Name returns the semantic convention name of the instrument. -func (SDKProcessorLogProcessed) Name() string { - return "otel.sdk.processor.log.processed" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKProcessorLogProcessed) Unit() string { - return "{log_record}" -} - -// Description returns the semantic convention description of the instrument -func (SDKProcessorLogProcessed) Description() string { - return "The number of log records for which the processing has finished, either successful or failed." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful processing, `error.type` MUST NOT be set. For failed -// processing, `error.type` MUST contain the failure cause. -// For the SDK Simple and Batching Log Record Processor a log record is -// considered to be processed already when it has been submitted to the exporter, -// not when the corresponding export call has finished. -func (m SDKProcessorLogProcessed) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful processing, `error.type` MUST NOT be set. For failed -// processing, `error.type` MUST contain the failure cause. -// For the SDK Simple and Batching Log Record Processor a log record is -// considered to be processed already when it has been submitted to the exporter, -// not when the corresponding export call has finished. -func (m SDKProcessorLogProcessed) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AttrErrorType returns an optional attribute for the "error.type" semantic -// convention. It represents a low-cardinality description of the failure reason. -// SDK Batching Log Record Processors MUST use `queue_full` for log records -// dropped due to a full queue. -func (SDKProcessorLogProcessed) AttrErrorType(val ErrorTypeAttr) attribute.KeyValue { - return attribute.String("error.type", string(val)) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKProcessorLogProcessed) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKProcessorLogProcessed) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// SDKProcessorLogQueueCapacity is an instrument used to record metric values -// conforming to the "otel.sdk.processor.log.queue.capacity" semantic -// conventions. It represents the maximum number of log records the queue of a -// given instance of an SDK Log Record processor can hold. -type SDKProcessorLogQueueCapacity struct { - metric.Int64ObservableUpDownCounter -} - -var newSDKProcessorLogQueueCapacityOpts = []metric.Int64ObservableUpDownCounterOption{ - metric.WithDescription("The maximum number of log records the queue of a given instance of an SDK Log Record processor can hold."), - metric.WithUnit("{log_record}"), -} - -// NewSDKProcessorLogQueueCapacity returns a new SDKProcessorLogQueueCapacity -// instrument. -func NewSDKProcessorLogQueueCapacity( - m metric.Meter, - opt ...metric.Int64ObservableUpDownCounterOption, -) (SDKProcessorLogQueueCapacity, error) { - // Check if the meter is nil. - if m == nil { - return SDKProcessorLogQueueCapacity{noop.Int64ObservableUpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKProcessorLogQueueCapacityOpts - } else { - opt = append(opt, newSDKProcessorLogQueueCapacityOpts...) - } - - i, err := m.Int64ObservableUpDownCounter( - "otel.sdk.processor.log.queue.capacity", - opt..., - ) - if err != nil { - return SDKProcessorLogQueueCapacity{noop.Int64ObservableUpDownCounter{}}, err - } - return SDKProcessorLogQueueCapacity{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKProcessorLogQueueCapacity) Inst() metric.Int64ObservableUpDownCounter { - return m.Int64ObservableUpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKProcessorLogQueueCapacity) Name() string { - return "otel.sdk.processor.log.queue.capacity" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKProcessorLogQueueCapacity) Unit() string { - return "{log_record}" -} - -// Description returns the semantic convention description of the instrument -func (SDKProcessorLogQueueCapacity) Description() string { - return "The maximum number of log records the queue of a given instance of an SDK Log Record processor can hold." -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKProcessorLogQueueCapacity) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKProcessorLogQueueCapacity) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// SDKProcessorLogQueueSize is an instrument used to record metric values -// conforming to the "otel.sdk.processor.log.queue.size" semantic conventions. It -// represents the number of log records in the queue of a given instance of an -// SDK log processor. -type SDKProcessorLogQueueSize struct { - metric.Int64ObservableUpDownCounter -} - -var newSDKProcessorLogQueueSizeOpts = []metric.Int64ObservableUpDownCounterOption{ - metric.WithDescription("The number of log records in the queue of a given instance of an SDK log processor."), - metric.WithUnit("{log_record}"), -} - -// NewSDKProcessorLogQueueSize returns a new SDKProcessorLogQueueSize instrument. -func NewSDKProcessorLogQueueSize( - m metric.Meter, - opt ...metric.Int64ObservableUpDownCounterOption, -) (SDKProcessorLogQueueSize, error) { - // Check if the meter is nil. - if m == nil { - return SDKProcessorLogQueueSize{noop.Int64ObservableUpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKProcessorLogQueueSizeOpts - } else { - opt = append(opt, newSDKProcessorLogQueueSizeOpts...) - } - - i, err := m.Int64ObservableUpDownCounter( - "otel.sdk.processor.log.queue.size", - opt..., - ) - if err != nil { - return SDKProcessorLogQueueSize{noop.Int64ObservableUpDownCounter{}}, err - } - return SDKProcessorLogQueueSize{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKProcessorLogQueueSize) Inst() metric.Int64ObservableUpDownCounter { - return m.Int64ObservableUpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKProcessorLogQueueSize) Name() string { - return "otel.sdk.processor.log.queue.size" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKProcessorLogQueueSize) Unit() string { - return "{log_record}" -} - -// Description returns the semantic convention description of the instrument -func (SDKProcessorLogQueueSize) Description() string { - return "The number of log records in the queue of a given instance of an SDK log processor." -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKProcessorLogQueueSize) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKProcessorLogQueueSize) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// SDKProcessorSpanProcessed is an instrument used to record metric values -// conforming to the "otel.sdk.processor.span.processed" semantic conventions. It -// represents the number of spans for which the processing has finished, either -// successful or failed. -type SDKProcessorSpanProcessed struct { - metric.Int64Counter -} - -var newSDKProcessorSpanProcessedOpts = []metric.Int64CounterOption{ - metric.WithDescription("The number of spans for which the processing has finished, either successful or failed."), - metric.WithUnit("{span}"), -} - -// NewSDKProcessorSpanProcessed returns a new SDKProcessorSpanProcessed -// instrument. -func NewSDKProcessorSpanProcessed( - m metric.Meter, - opt ...metric.Int64CounterOption, -) (SDKProcessorSpanProcessed, error) { - // Check if the meter is nil. - if m == nil { - return SDKProcessorSpanProcessed{noop.Int64Counter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKProcessorSpanProcessedOpts - } else { - opt = append(opt, newSDKProcessorSpanProcessedOpts...) - } - - i, err := m.Int64Counter( - "otel.sdk.processor.span.processed", - opt..., - ) - if err != nil { - return SDKProcessorSpanProcessed{noop.Int64Counter{}}, err - } - return SDKProcessorSpanProcessed{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKProcessorSpanProcessed) Inst() metric.Int64Counter { - return m.Int64Counter -} - -// Name returns the semantic convention name of the instrument. -func (SDKProcessorSpanProcessed) Name() string { - return "otel.sdk.processor.span.processed" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKProcessorSpanProcessed) Unit() string { - return "{span}" -} - -// Description returns the semantic convention description of the instrument -func (SDKProcessorSpanProcessed) Description() string { - return "The number of spans for which the processing has finished, either successful or failed." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// For successful processing, `error.type` MUST NOT be set. For failed -// processing, `error.type` MUST contain the failure cause. -// For the SDK Simple and Batching Span Processor a span is considered to be -// processed already when it has been submitted to the exporter, not when the -// corresponding export call has finished. -func (m SDKProcessorSpanProcessed) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// For successful processing, `error.type` MUST NOT be set. For failed -// processing, `error.type` MUST contain the failure cause. -// For the SDK Simple and Batching Span Processor a span is considered to be -// processed already when it has been submitted to the exporter, not when the -// corresponding export call has finished. -func (m SDKProcessorSpanProcessed) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AttrErrorType returns an optional attribute for the "error.type" semantic -// convention. It represents a low-cardinality description of the failure reason. -// SDK Batching Span Processors MUST use `queue_full` for spans dropped due to a -// full queue. -func (SDKProcessorSpanProcessed) AttrErrorType(val ErrorTypeAttr) attribute.KeyValue { - return attribute.String("error.type", string(val)) -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKProcessorSpanProcessed) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKProcessorSpanProcessed) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// SDKProcessorSpanQueueCapacity is an instrument used to record metric values -// conforming to the "otel.sdk.processor.span.queue.capacity" semantic -// conventions. It represents the maximum number of spans the queue of a given -// instance of an SDK span processor can hold. -type SDKProcessorSpanQueueCapacity struct { - metric.Int64ObservableUpDownCounter -} - -var newSDKProcessorSpanQueueCapacityOpts = []metric.Int64ObservableUpDownCounterOption{ - metric.WithDescription("The maximum number of spans the queue of a given instance of an SDK span processor can hold."), - metric.WithUnit("{span}"), -} - -// NewSDKProcessorSpanQueueCapacity returns a new SDKProcessorSpanQueueCapacity -// instrument. -func NewSDKProcessorSpanQueueCapacity( - m metric.Meter, - opt ...metric.Int64ObservableUpDownCounterOption, -) (SDKProcessorSpanQueueCapacity, error) { - // Check if the meter is nil. - if m == nil { - return SDKProcessorSpanQueueCapacity{noop.Int64ObservableUpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKProcessorSpanQueueCapacityOpts - } else { - opt = append(opt, newSDKProcessorSpanQueueCapacityOpts...) - } - - i, err := m.Int64ObservableUpDownCounter( - "otel.sdk.processor.span.queue.capacity", - opt..., - ) - if err != nil { - return SDKProcessorSpanQueueCapacity{noop.Int64ObservableUpDownCounter{}}, err - } - return SDKProcessorSpanQueueCapacity{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKProcessorSpanQueueCapacity) Inst() metric.Int64ObservableUpDownCounter { - return m.Int64ObservableUpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKProcessorSpanQueueCapacity) Name() string { - return "otel.sdk.processor.span.queue.capacity" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKProcessorSpanQueueCapacity) Unit() string { - return "{span}" -} - -// Description returns the semantic convention description of the instrument -func (SDKProcessorSpanQueueCapacity) Description() string { - return "The maximum number of spans the queue of a given instance of an SDK span processor can hold." -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKProcessorSpanQueueCapacity) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKProcessorSpanQueueCapacity) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// SDKProcessorSpanQueueSize is an instrument used to record metric values -// conforming to the "otel.sdk.processor.span.queue.size" semantic conventions. -// It represents the number of spans in the queue of a given instance of an SDK -// span processor. -type SDKProcessorSpanQueueSize struct { - metric.Int64ObservableUpDownCounter -} - -var newSDKProcessorSpanQueueSizeOpts = []metric.Int64ObservableUpDownCounterOption{ - metric.WithDescription("The number of spans in the queue of a given instance of an SDK span processor."), - metric.WithUnit("{span}"), -} - -// NewSDKProcessorSpanQueueSize returns a new SDKProcessorSpanQueueSize -// instrument. -func NewSDKProcessorSpanQueueSize( - m metric.Meter, - opt ...metric.Int64ObservableUpDownCounterOption, -) (SDKProcessorSpanQueueSize, error) { - // Check if the meter is nil. - if m == nil { - return SDKProcessorSpanQueueSize{noop.Int64ObservableUpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKProcessorSpanQueueSizeOpts - } else { - opt = append(opt, newSDKProcessorSpanQueueSizeOpts...) - } - - i, err := m.Int64ObservableUpDownCounter( - "otel.sdk.processor.span.queue.size", - opt..., - ) - if err != nil { - return SDKProcessorSpanQueueSize{noop.Int64ObservableUpDownCounter{}}, err - } - return SDKProcessorSpanQueueSize{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKProcessorSpanQueueSize) Inst() metric.Int64ObservableUpDownCounter { - return m.Int64ObservableUpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKProcessorSpanQueueSize) Name() string { - return "otel.sdk.processor.span.queue.size" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKProcessorSpanQueueSize) Unit() string { - return "{span}" -} - -// Description returns the semantic convention description of the instrument -func (SDKProcessorSpanQueueSize) Description() string { - return "The number of spans in the queue of a given instance of an SDK span processor." -} - -// AttrComponentName returns an optional attribute for the "otel.component.name" -// semantic convention. It represents a name uniquely identifying the instance of -// the OpenTelemetry component within its containing SDK instance. -func (SDKProcessorSpanQueueSize) AttrComponentName(val string) attribute.KeyValue { - return attribute.String("otel.component.name", val) -} - -// AttrComponentType returns an optional attribute for the "otel.component.type" -// semantic convention. It represents a name identifying the type of the -// OpenTelemetry component. -func (SDKProcessorSpanQueueSize) AttrComponentType(val ComponentTypeAttr) attribute.KeyValue { - return attribute.String("otel.component.type", string(val)) -} - -// SDKSpanLive is an instrument used to record metric values conforming to the -// "otel.sdk.span.live" semantic conventions. It represents the number of created -// spans with `recording=true` for which the end operation has not been called -// yet. -type SDKSpanLive struct { - metric.Int64UpDownCounter -} - -var newSDKSpanLiveOpts = []metric.Int64UpDownCounterOption{ - metric.WithDescription("The number of created spans with `recording=true` for which the end operation has not been called yet."), - metric.WithUnit("{span}"), -} - -// NewSDKSpanLive returns a new SDKSpanLive instrument. -func NewSDKSpanLive( - m metric.Meter, - opt ...metric.Int64UpDownCounterOption, -) (SDKSpanLive, error) { - // Check if the meter is nil. - if m == nil { - return SDKSpanLive{noop.Int64UpDownCounter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKSpanLiveOpts - } else { - opt = append(opt, newSDKSpanLiveOpts...) - } - - i, err := m.Int64UpDownCounter( - "otel.sdk.span.live", - opt..., - ) - if err != nil { - return SDKSpanLive{noop.Int64UpDownCounter{}}, err - } - return SDKSpanLive{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKSpanLive) Inst() metric.Int64UpDownCounter { - return m.Int64UpDownCounter -} - -// Name returns the semantic convention name of the instrument. -func (SDKSpanLive) Name() string { - return "otel.sdk.span.live" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKSpanLive) Unit() string { - return "{span}" -} - -// Description returns the semantic convention description of the instrument -func (SDKSpanLive) Description() string { - return "The number of created spans with `recording=true` for which the end operation has not been called yet." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -func (m SDKSpanLive) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -func (m SDKSpanLive) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64UpDownCounter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64UpDownCounter.Add(ctx, incr, *o...) -} - -// AttrSpanSamplingResult returns an optional attribute for the -// "otel.span.sampling_result" semantic convention. It represents the result -// value of the sampler for this span. -func (SDKSpanLive) AttrSpanSamplingResult(val SpanSamplingResultAttr) attribute.KeyValue { - return attribute.String("otel.span.sampling_result", string(val)) -} - -// SDKSpanStarted is an instrument used to record metric values conforming to the -// "otel.sdk.span.started" semantic conventions. It represents the number of -// created spans. -type SDKSpanStarted struct { - metric.Int64Counter -} - -var newSDKSpanStartedOpts = []metric.Int64CounterOption{ - metric.WithDescription("The number of created spans."), - metric.WithUnit("{span}"), -} - -// NewSDKSpanStarted returns a new SDKSpanStarted instrument. -func NewSDKSpanStarted( - m metric.Meter, - opt ...metric.Int64CounterOption, -) (SDKSpanStarted, error) { - // Check if the meter is nil. - if m == nil { - return SDKSpanStarted{noop.Int64Counter{}}, nil - } - - if len(opt) == 0 { - opt = newSDKSpanStartedOpts - } else { - opt = append(opt, newSDKSpanStartedOpts...) - } - - i, err := m.Int64Counter( - "otel.sdk.span.started", - opt..., - ) - if err != nil { - return SDKSpanStarted{noop.Int64Counter{}}, err - } - return SDKSpanStarted{i}, nil -} - -// Inst returns the underlying metric instrument. -func (m SDKSpanStarted) Inst() metric.Int64Counter { - return m.Int64Counter -} - -// Name returns the semantic convention name of the instrument. -func (SDKSpanStarted) Name() string { - return "otel.sdk.span.started" -} - -// Unit returns the semantic convention unit of the instrument -func (SDKSpanStarted) Unit() string { - return "{span}" -} - -// Description returns the semantic convention description of the instrument -func (SDKSpanStarted) Description() string { - return "The number of created spans." -} - -// Add adds incr to the existing count for attrs. -// -// All additional attrs passed are included in the recorded value. -// -// Implementations MUST record this metric for all spans, even for non-recording -// ones. -func (m SDKSpanStarted) Add( - ctx context.Context, - incr int64, - attrs ...attribute.KeyValue, -) { - if len(attrs) == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append( - *o, - metric.WithAttributes( - attrs..., - ), - ) - - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AddSet adds incr to the existing count for set. -// -// Implementations MUST record this metric for all spans, even for non-recording -// ones. -func (m SDKSpanStarted) AddSet(ctx context.Context, incr int64, set attribute.Set) { - if set.Len() == 0 { - m.Int64Counter.Add(ctx, incr) - return - } - - o := addOptPool.Get().(*[]metric.AddOption) - defer func() { - *o = (*o)[:0] - addOptPool.Put(o) - }() - - *o = append(*o, metric.WithAttributeSet(set)) - m.Int64Counter.Add(ctx, incr, *o...) -} - -// AttrSpanParentOrigin returns an optional attribute for the -// "otel.span.parent.origin" semantic convention. It represents the determines -// whether the span has a parent span, and if so, [whether it is a remote parent] -// . -// -// [whether it is a remote parent]: https://opentelemetry.io/docs/specs/otel/trace/api/#isremote -func (SDKSpanStarted) AttrSpanParentOrigin(val SpanParentOriginAttr) attribute.KeyValue { - return attribute.String("otel.span.parent.origin", string(val)) -} - -// AttrSpanSamplingResult returns an optional attribute for the -// "otel.span.sampling_result" semantic convention. It represents the result -// value of the sampler for this span. -func (SDKSpanStarted) AttrSpanSamplingResult(val SpanSamplingResultAttr) attribute.KeyValue { - return attribute.String("otel.span.sampling_result", string(val)) -} diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/schema.go b/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/schema.go deleted file mode 100644 index e1a199d89b..0000000000 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/schema.go +++ /dev/null @@ -1,9 +0,0 @@ -// Copyright The OpenTelemetry Authors -// SPDX-License-Identifier: Apache-2.0 - -package semconv // import "go.opentelemetry.io/otel/semconv/v1.39.0" - -// SchemaURL is the schema URL that matches the version of the semantic conventions -// that this package defines. Semconv packages starting from v1.4.0 must declare -// non-empty schema URL in the form https://opentelemetry.io/schemas/ -const SchemaURL = "https://opentelemetry.io/schemas/1.39.0" diff --git a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/httpconv/metric.go b/vendor/go.opentelemetry.io/otel/semconv/v1.40.0/httpconv/metric.go similarity index 99% rename from vendor/go.opentelemetry.io/otel/semconv/v1.39.0/httpconv/metric.go rename to vendor/go.opentelemetry.io/otel/semconv/v1.40.0/httpconv/metric.go index d6ad8735a9..7264925ba9 100644 --- a/vendor/go.opentelemetry.io/otel/semconv/v1.39.0/httpconv/metric.go +++ b/vendor/go.opentelemetry.io/otel/semconv/v1.40.0/httpconv/metric.go @@ -177,7 +177,7 @@ func (m ClientActiveRequests) Add( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("server.address", serverAddress), attribute.Int("server.port", serverPort), )..., @@ -320,7 +320,7 @@ func (m ClientConnectionDuration) Record( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("server.address", serverAddress), attribute.Int("server.port", serverPort), )..., @@ -467,7 +467,7 @@ func (m ClientOpenConnections) Add( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.connection.state", string(connectionState)), attribute.String("server.address", serverAddress), attribute.Int("server.port", serverPort), @@ -620,7 +620,7 @@ func (m ClientRequestBodySize) Record( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.request.method", string(requestMethod)), attribute.String("server.address", serverAddress), attribute.Int("server.port", serverPort), @@ -800,7 +800,7 @@ func (m ClientRequestDuration) Record( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.request.method", string(requestMethod)), attribute.String("server.address", serverAddress), attribute.Int("server.port", serverPort), @@ -980,7 +980,7 @@ func (m ClientResponseBodySize) Record( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.request.method", string(requestMethod)), attribute.String("server.address", serverAddress), attribute.Int("server.port", serverPort), @@ -1157,7 +1157,7 @@ func (m ServerActiveRequests) Add( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.request.method", string(requestMethod)), attribute.String("url.scheme", urlScheme), )..., @@ -1297,7 +1297,7 @@ func (m ServerRequestBodySize) Record( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.request.method", string(requestMethod)), attribute.String("url.scheme", urlScheme), )..., @@ -1484,7 +1484,7 @@ func (m ServerRequestDuration) Record( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.request.method", string(requestMethod)), attribute.String("url.scheme", urlScheme), )..., @@ -1671,7 +1671,7 @@ func (m ServerResponseBodySize) Record( *o, metric.WithAttributes( append( - attrs, + attrs[:len(attrs):len(attrs)], attribute.String("http.request.method", string(requestMethod)), attribute.String("url.scheme", urlScheme), )..., diff --git a/vendor/google.golang.org/grpc/attributes/attributes.go b/vendor/google.golang.org/grpc/attributes/attributes.go index 52d530d7ad..4c60518c74 100644 --- a/vendor/google.golang.org/grpc/attributes/attributes.go +++ b/vendor/google.golang.org/grpc/attributes/attributes.go @@ -27,6 +27,8 @@ package attributes import ( "fmt" + "iter" + "maps" "strings" ) @@ -37,37 +39,46 @@ import ( // any) bool', it will be called by (*Attributes).Equal to determine whether // two values with the same key should be considered equal. type Attributes struct { - m map[any]any + parent *Attributes + key, value any } // New returns a new Attributes containing the key/value pair. func New(key, value any) *Attributes { - return &Attributes{m: map[any]any{key: value}} + return &Attributes{ + key: key, + value: value, + } } // WithValue returns a new Attributes containing the previous keys and values // and the new key/value pair. If the same key appears multiple times, the -// last value overwrites all previous values for that key. To remove an -// existing key, use a nil value. value should not be modified later. +// last value overwrites all previous values for that key. value should not be +// modified later. +// +// Note that Attributes do not support deletion. Avoid using untyped nil values. +// Since the Value method returns an untyped nil when a key is absent, it is +// impossible to distinguish between a missing key and a key explicitly set to +// an untyped nil. If you need to represent a value being unset, consider +// storing a specific sentinel type or a wrapper struct with a boolean field +// indicating presence. func (a *Attributes) WithValue(key, value any) *Attributes { - if a == nil { - return New(key, value) + return &Attributes{ + parent: a, + key: key, + value: value, } - n := &Attributes{m: make(map[any]any, len(a.m)+1)} - for k, v := range a.m { - n.m[k] = v - } - n.m[key] = value - return n } // Value returns the value associated with these attributes for key, or nil if // no value is associated with key. The returned value should not be modified. func (a *Attributes) Value(key any) any { - if a == nil { - return nil + for cur := a; cur != nil; cur = cur.parent { + if cur.key == key { + return cur.value + } } - return a.m[key] + return nil } // Equal returns whether a and o are equivalent. If 'Equal(o any) bool' is @@ -83,11 +94,15 @@ func (a *Attributes) Equal(o *Attributes) bool { if a == nil || o == nil { return false } - if len(a.m) != len(o.m) { - return false + if a == o { + return true } - for k, v := range a.m { - ov, ok := o.m[k] + m := maps.Collect(o.all()) + lenA := 0 + + for k, v := range a.all() { + lenA++ + ov, ok := m[k] if !ok { // o missing element of a return false @@ -101,7 +116,7 @@ func (a *Attributes) Equal(o *Attributes) bool { return false } } - return true + return lenA == len(m) } // String prints the attribute map. If any key or values throughout the map @@ -110,11 +125,11 @@ func (a *Attributes) String() string { var sb strings.Builder sb.WriteString("{") first := true - for k, v := range a.m { + for k, v := range a.all() { if !first { sb.WriteString(", ") } - sb.WriteString(fmt.Sprintf("%q: %q ", str(k), str(v))) + fmt.Fprintf(&sb, "%q: %q ", str(k), str(v)) first = false } sb.WriteString("}") @@ -139,3 +154,21 @@ func str(x any) (s string) { func (a *Attributes) MarshalJSON() ([]byte, error) { return []byte(a.String()), nil } + +// all returns an iterator that yields all key-value pairs in the Attributes +// chain. If a key appears multiple times, only the most recently added value +// is yielded. +func (a *Attributes) all() iter.Seq2[any, any] { + return func(yield func(any, any) bool) { + seen := map[any]bool{} + for cur := a; cur != nil; cur = cur.parent { + if seen[cur.key] { + continue + } + if !yield(cur.key, cur.value) { + return + } + seen[cur.key] = true + } + } +} diff --git a/vendor/google.golang.org/grpc/balancer/balancer.go b/vendor/google.golang.org/grpc/balancer/balancer.go index d08b7ad637..326888ae35 100644 --- a/vendor/google.golang.org/grpc/balancer/balancer.go +++ b/vendor/google.golang.org/grpc/balancer/balancer.go @@ -33,6 +33,7 @@ import ( estats "google.golang.org/grpc/experimental/stats" "google.golang.org/grpc/grpclog" "google.golang.org/grpc/internal" + "google.golang.org/grpc/internal/envconfig" "google.golang.org/grpc/metadata" "google.golang.org/grpc/resolver" "google.golang.org/grpc/serviceconfig" @@ -46,8 +47,8 @@ var ( ) // Register registers the balancer builder to the balancer map. b.Name -// (lowercased) will be used as the name registered with this builder. If the -// Builder implements ConfigParser, ParseConfig will be called when new service +// will be used as the name registered with this builder. If the Builder +// implements ConfigParser, ParseConfig will be called when new service // configs are received by the resolver, and the result will be provided to the // Balancer in UpdateClientConnState. // @@ -55,12 +56,12 @@ var ( // an init() function), and is not thread-safe. If multiple Balancers are // registered with the same name, the one registered last will take effect. func Register(b Builder) { - name := strings.ToLower(b.Name()) - if name != b.Name() { - // TODO: Skip the use of strings.ToLower() to index the map after v1.59 - // is released to switch to case sensitive balancer registry. Also, - // remove this warning and update the docstrings for Register and Get. - logger.Warningf("Balancer registered with name %q. grpc-go will be switching to case sensitive balancer registries soon", b.Name()) + name := b.Name() + if !envconfig.CaseSensitiveBalancerRegistries { + name = strings.ToLower(name) + if name != b.Name() { + logger.Warningf("Balancer registered with name %q. grpc-go will be switching to case sensitive balancer registries soon. After 2 releases, we will enable the env var by default.", b.Name()) + } } m[name] = b } @@ -78,16 +79,17 @@ func init() { } // Get returns the resolver builder registered with the given name. -// Note that the compare is done in a case-insensitive fashion. +// Note that the compare is done in a case-sensitive fashion. // If no builder is register with the name, nil will be returned. func Get(name string) Builder { - if strings.ToLower(name) != name { - // TODO: Skip the use of strings.ToLower() to index the map after v1.59 - // is released to switch to case sensitive balancer registry. Also, - // remove this warning and update the docstrings for Register and Get. - logger.Warningf("Balancer retrieved for name %q. grpc-go will be switching to case sensitive balancer registries soon", name) + if !envconfig.CaseSensitiveBalancerRegistries { + lowerName := strings.ToLower(name) + if lowerName != name { + logger.Warningf("Balancer retrieved for name %q. grpc-go will be switching to case sensitive balancer registries soon. After 2 releases, we will enable the env var by default.", name) + } + name = lowerName } - if b, ok := m[strings.ToLower(name)]; ok { + if b, ok := m[name]; ok { return b } return nil diff --git a/vendor/google.golang.org/grpc/balancer/base/balancer.go b/vendor/google.golang.org/grpc/balancer/base/balancer.go index 4d576876d8..4399ba0140 100644 --- a/vendor/google.golang.org/grpc/balancer/base/balancer.go +++ b/vendor/google.golang.org/grpc/balancer/base/balancer.go @@ -121,8 +121,7 @@ func (b *baseBalancer) UpdateClientConnState(s balancer.ClientConnState) error { sc.Connect() } } - for _, a := range b.subConns.Keys() { - sc, _ := b.subConns.Get(a) + for a, sc := range b.subConns.All() { // a was removed by resolver. if _, ok := addrsSet.Get(a); !ok { sc.Shutdown() @@ -171,8 +170,7 @@ func (b *baseBalancer) regeneratePicker() { readySCs := make(map[balancer.SubConn]SubConnInfo) // Filter out all ready SCs from full subConn map. - for _, addr := range b.subConns.Keys() { - sc, _ := b.subConns.Get(addr) + for addr, sc := range b.subConns.All() { if st, ok := b.scStates[sc]; ok && st == connectivity.Ready { readySCs[sc] = SubConnInfo{Address: addr} } diff --git a/vendor/google.golang.org/grpc/balancer/endpointsharding/endpointsharding.go b/vendor/google.golang.org/grpc/balancer/endpointsharding/endpointsharding.go index 360db08ebc..12479f6985 100644 --- a/vendor/google.golang.org/grpc/balancer/endpointsharding/endpointsharding.go +++ b/vendor/google.golang.org/grpc/balancer/endpointsharding/endpointsharding.go @@ -187,8 +187,7 @@ func (es *endpointSharding) UpdateClientConnState(state balancer.ClientConnState } } // Delete old children that are no longer present. - for _, e := range children.Keys() { - child, _ := children.Get(e) + for e, child := range children.All() { if _, ok := newChildren.Get(e); !ok { child.closeLocked() } @@ -212,7 +211,7 @@ func (es *endpointSharding) ResolverError(err error) { es.updateState() }() children := es.children.Load() - for _, child := range children.Values() { + for _, child := range children.All() { child.resolverErrorLocked(err) } } @@ -225,7 +224,7 @@ func (es *endpointSharding) Close() { es.childMu.Lock() defer es.childMu.Unlock() children := es.children.Load() - for _, child := range children.Values() { + for _, child := range children.All() { child.closeLocked() } } @@ -233,7 +232,7 @@ func (es *endpointSharding) Close() { func (es *endpointSharding) ExitIdle() { es.childMu.Lock() defer es.childMu.Unlock() - for _, bw := range es.children.Load().Values() { + for _, bw := range es.children.Load().All() { if !bw.isClosed { bw.child.ExitIdle() } @@ -255,7 +254,7 @@ func (es *endpointSharding) updateState() { children := es.children.Load() childStates := make([]ChildState, 0, children.Len()) - for _, child := range children.Values() { + for _, child := range children.All() { childState := child.childState childStates = append(childStates, childState) childPicker := childState.State.Picker diff --git a/vendor/google.golang.org/grpc/balancer/pickfirst/pickfirst.go b/vendor/google.golang.org/grpc/balancer/pickfirst/pickfirst.go index dccd9f0bf3..518a69d573 100644 --- a/vendor/google.golang.org/grpc/balancer/pickfirst/pickfirst.go +++ b/vendor/google.golang.org/grpc/balancer/pickfirst/pickfirst.go @@ -399,14 +399,14 @@ func (b *pickfirstBalancer) startFirstPassLocked() { b.firstPass = true b.numTF = 0 // Reset the connection attempt record for existing SubConns. - for _, sd := range b.subConns.Values() { + for _, sd := range b.subConns.All() { sd.connectionFailedInFirstPass = false } b.requestConnectionLocked() } func (b *pickfirstBalancer) closeSubConnsLocked() { - for _, sd := range b.subConns.Values() { + for _, sd := range b.subConns.All() { sd.subConn.Shutdown() } b.subConns = resolver.NewAddressMapV2[*scData]() @@ -506,7 +506,7 @@ func (b *pickfirstBalancer) reconcileSubConnsLocked(newAddrs []resolver.Address) newAddrsMap.Set(addr, true) } - for _, oldAddr := range b.subConns.Keys() { + for oldAddr := range b.subConns.All() { if _, ok := newAddrsMap.Get(oldAddr); ok { continue } @@ -520,7 +520,7 @@ func (b *pickfirstBalancer) reconcileSubConnsLocked(newAddrs []resolver.Address) // becomes ready, which means that all other subConn must be shutdown. func (b *pickfirstBalancer) shutdownRemainingLocked(selected *scData) { b.cancelConnectionTimer() - for _, sd := range b.subConns.Values() { + for _, sd := range b.subConns.All() { if sd.subConn != selected.subConn { sd.subConn.Shutdown() } @@ -771,7 +771,7 @@ func (b *pickfirstBalancer) endFirstPassIfPossibleLocked(lastErr error) { } // Connect() has been called on all the SubConns. The first pass can be // ended if all the SubConns have reported a failure. - for _, sd := range b.subConns.Values() { + for _, sd := range b.subConns.All() { if !sd.connectionFailedInFirstPass { return } @@ -782,7 +782,7 @@ func (b *pickfirstBalancer) endFirstPassIfPossibleLocked(lastErr error) { Picker: &picker{err: lastErr}, }) // Start re-connecting all the SubConns that are already in IDLE. - for _, sd := range b.subConns.Values() { + for _, sd := range b.subConns.All() { if sd.rawConnectivityState == connectivity.Idle { sd.subConn.Connect() } diff --git a/vendor/google.golang.org/grpc/binarylog/grpc_binarylog_v1/binarylog.pb.go b/vendor/google.golang.org/grpc/binarylog/grpc_binarylog_v1/binarylog.pb.go index 42c61cf9fe..296123e20d 100644 --- a/vendor/google.golang.org/grpc/binarylog/grpc_binarylog_v1/binarylog.pb.go +++ b/vendor/google.golang.org/grpc/binarylog/grpc_binarylog_v1/binarylog.pb.go @@ -18,7 +18,7 @@ // Code generated by protoc-gen-go. DO NOT EDIT. // versions: -// protoc-gen-go v1.36.10 +// protoc-gen-go v1.36.11 // protoc v5.27.1 // source: grpc/binlog/v1/binarylog.proto diff --git a/vendor/google.golang.org/grpc/credentials/tls.go b/vendor/google.golang.org/grpc/credentials/tls.go index 0bcd16dbbf..a6083c3b03 100644 --- a/vendor/google.golang.org/grpc/credentials/tls.go +++ b/vendor/google.golang.org/grpc/credentials/tls.go @@ -22,7 +22,6 @@ import ( "context" "crypto/tls" "crypto/x509" - "errors" "fmt" "net" "net/url" @@ -52,22 +51,21 @@ func (t TLSInfo) AuthType() string { } // ValidateAuthority validates the provided authority being used to override the -// :authority header by verifying it against the peer certificates. It returns a +// :authority header by verifying it against the peer certificate. It returns a // non-nil error if the validation fails. func (t TLSInfo) ValidateAuthority(authority string) error { - var errs []error host, _, err := net.SplitHostPort(authority) if err != nil { host = authority } - for _, cert := range t.State.PeerCertificates { - var err error - if err = cert.VerifyHostname(host); err == nil { - return nil - } - errs = append(errs, err) + + // Verify authority against the leaf certificate. + if len(t.State.PeerCertificates) == 0 { + // This is not expected to happen as the TLS handshake has already + // completed and should have populated PeerCertificates. + return fmt.Errorf("credentials: no peer certificates found to verify authority %q", host) } - return fmt.Errorf("credentials: invalid authority %q: %v", authority, errors.Join(errs...)) + return t.State.PeerCertificates[0].VerifyHostname(host) } // cipherSuiteLookup returns the string version of a TLS cipher suite ID. diff --git a/vendor/google.golang.org/grpc/dialoptions.go b/vendor/google.golang.org/grpc/dialoptions.go index 7a5ac2e7c4..4ec5f9cd09 100644 --- a/vendor/google.golang.org/grpc/dialoptions.go +++ b/vendor/google.golang.org/grpc/dialoptions.go @@ -705,10 +705,11 @@ func WithDisableHealthCheck() DialOption { func defaultDialOptions() dialOptions { return dialOptions{ copts: transport.ConnectOptions{ - ReadBufferSize: defaultReadBufSize, - WriteBufferSize: defaultWriteBufSize, - UserAgent: grpcUA, - BufferPool: mem.DefaultBufferPool(), + ReadBufferSize: defaultReadBufSize, + WriteBufferSize: defaultWriteBufSize, + SharedWriteBuffer: true, + UserAgent: grpcUA, + BufferPool: mem.DefaultBufferPool(), }, bs: internalbackoff.DefaultExponential, idleTimeout: 30 * time.Minute, diff --git a/vendor/google.golang.org/grpc/health/grpc_health_v1/health.pb.go b/vendor/google.golang.org/grpc/health/grpc_health_v1/health.pb.go index 8f7d9f6bbe..dcb98cdbc1 100644 --- a/vendor/google.golang.org/grpc/health/grpc_health_v1/health.pb.go +++ b/vendor/google.golang.org/grpc/health/grpc_health_v1/health.pb.go @@ -17,7 +17,7 @@ // Code generated by protoc-gen-go. DO NOT EDIT. // versions: -// protoc-gen-go v1.36.10 +// protoc-gen-go v1.36.11 // protoc v5.27.1 // source: grpc/health/v1/health.proto diff --git a/vendor/google.golang.org/grpc/health/grpc_health_v1/health_grpc.pb.go b/vendor/google.golang.org/grpc/health/grpc_health_v1/health_grpc.pb.go index e99cd5c838..9e10fdd2eb 100644 --- a/vendor/google.golang.org/grpc/health/grpc_health_v1/health_grpc.pb.go +++ b/vendor/google.golang.org/grpc/health/grpc_health_v1/health_grpc.pb.go @@ -17,7 +17,7 @@ // Code generated by protoc-gen-go-grpc. DO NOT EDIT. // versions: -// - protoc-gen-go-grpc v1.6.0 +// - protoc-gen-go-grpc v1.6.1 // - protoc v5.27.1 // source: grpc/health/v1/health.proto diff --git a/vendor/google.golang.org/grpc/internal/envconfig/envconfig.go b/vendor/google.golang.org/grpc/internal/envconfig/envconfig.go index 7ad6fb44ca..3ae45faa40 100644 --- a/vendor/google.golang.org/grpc/internal/envconfig/envconfig.go +++ b/vendor/google.golang.org/grpc/internal/envconfig/envconfig.go @@ -54,17 +54,16 @@ var ( // XDSEndpointHashKeyBackwardCompat controls the parsing of the endpoint hash // key from EDS LbEndpoint metadata. Endpoint hash keys can be disabled by - // setting "GRPC_XDS_ENDPOINT_HASH_KEY_BACKWARD_COMPAT" to "true". When the - // implementation of A76 is stable, we will flip the default value to false - // in a subsequent release. A final release will remove this environment - // variable, enabling the new behavior unconditionally. - XDSEndpointHashKeyBackwardCompat = boolFromEnv("GRPC_XDS_ENDPOINT_HASH_KEY_BACKWARD_COMPAT", true) + // setting "GRPC_XDS_ENDPOINT_HASH_KEY_BACKWARD_COMPAT" to "true". A future + // release will remove this environment variable, enabling the new behavior + // unconditionally. + XDSEndpointHashKeyBackwardCompat = boolFromEnv("GRPC_XDS_ENDPOINT_HASH_KEY_BACKWARD_COMPAT", false) // RingHashSetRequestHashKey is set if the ring hash balancer can get the // request hash header by setting the "requestHashHeader" field, according - // to gRFC A76. It can be enabled by setting the environment variable - // "GRPC_EXPERIMENTAL_RING_HASH_SET_REQUEST_HASH_KEY" to "true". - RingHashSetRequestHashKey = boolFromEnv("GRPC_EXPERIMENTAL_RING_HASH_SET_REQUEST_HASH_KEY", false) + // to gRFC A76. It can be disabled by setting the environment variable + // "GRPC_EXPERIMENTAL_RING_HASH_SET_REQUEST_HASH_KEY" to "false". + RingHashSetRequestHashKey = boolFromEnv("GRPC_EXPERIMENTAL_RING_HASH_SET_REQUEST_HASH_KEY", true) // ALTSHandshakerKeepaliveParams is set if we should add the // KeepaliveParams when dial the ALTS handshaker service. @@ -78,6 +77,14 @@ var ( // - The DNS resolver is being used. EnableDefaultPortForProxyTarget = boolFromEnv("GRPC_EXPERIMENTAL_ENABLE_DEFAULT_PORT_FOR_PROXY_TARGET", true) + // CaseSensitiveBalancerRegistries is set if the balancer registry should be + // case-sensitive. This is disabled by default, but can be enabled by setting + // the env variable "GRPC_GO_EXPERIMENTAL_CASE_SENSITIVE_BALANCER_REGISTRIES" + // to "true". + // + // TODO: After 2 releases, we will enable the env var by default. + CaseSensitiveBalancerRegistries = boolFromEnv("GRPC_GO_EXPERIMENTAL_CASE_SENSITIVE_BALANCER_REGISTRIES", false) + // XDSAuthorityRewrite indicates whether xDS authority rewriting is enabled. // This feature is defined in gRFC A81 and is enabled by setting the // environment variable GRPC_EXPERIMENTAL_XDS_AUTHORITY_REWRITE to "true". @@ -89,6 +96,14 @@ var ( // GRPC_EXPERIMENTAL_PF_WEIGHTED_SHUFFLING to "false". PickFirstWeightedShuffling = boolFromEnv("GRPC_EXPERIMENTAL_PF_WEIGHTED_SHUFFLING", true) + // XDSRecoverPanicInResourceParsing indicates whether the xdsclient should + // recover from panics while parsing xDS resources. + // + // This feature can be disabled (e.g. for fuzz testing) by setting the + // environment variable "GRPC_GO_EXPERIMENTAL_XDS_RESOURCE_PANIC_RECOVERY" + // to "false". + XDSRecoverPanicInResourceParsing = boolFromEnv("GRPC_GO_EXPERIMENTAL_XDS_RESOURCE_PANIC_RECOVERY", true) + // DisableStrictPathChecking indicates whether strict path checking is // disabled. This feature can be disabled by setting the environment // variable GRPC_GO_EXPERIMENTAL_DISABLE_STRICT_PATH_CHECKING to "true". @@ -104,6 +119,13 @@ var ( // A future release will remove this environment variable, enabling strict // path checking behavior unconditionally. DisableStrictPathChecking = boolFromEnv("GRPC_GO_EXPERIMENTAL_DISABLE_STRICT_PATH_CHECKING", false) + + // EnablePriorityLBChildPolicyCache controls whether the priority balancer + // should cache child balancers that are removed from the LB policy config, + // for a period of 15 minutes. This is disabled by default, but can be + // enabled by setting the env variable + // GRPC_EXPERIMENTAL_ENABLE_PRIORITY_LB_CHILD_POLICY_CACHE to true. + EnablePriorityLBChildPolicyCache = boolFromEnv("GRPC_EXPERIMENTAL_ENABLE_PRIORITY_LB_CHILD_POLICY_CACHE", false) ) func boolFromEnv(envVar string, def bool) bool { diff --git a/vendor/google.golang.org/grpc/internal/mem/buffer_pool.go b/vendor/google.golang.org/grpc/internal/mem/buffer_pool.go new file mode 100644 index 0000000000..c2348a82ef --- /dev/null +++ b/vendor/google.golang.org/grpc/internal/mem/buffer_pool.go @@ -0,0 +1,338 @@ +/* + * + * Copyright 2026 gRPC authors. + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + * + */ + +// Package mem provides utilities that facilitate memory reuse in byte slices +// that are used as buffers. +package mem + +import ( + "fmt" + "math/bits" + "slices" + "sort" + "sync" +) + +const ( + goPageSize = 4 * 1024 // 4KiB. N.B. this must be a power of 2. +) + +var uintSize = bits.UintSize // use a variable for mocking during tests. + +// bufferPool is a copy of the public bufferPool interface used to avoid +// circular dependencies. +type bufferPool interface { + // Get returns a buffer with specified length from the pool. + Get(length int) *[]byte + + // Put returns a buffer to the pool. + // + // The provided pointer must hold a prefix of the buffer obtained via + // BufferPool.Get to ensure the buffer's entire capacity can be re-used. + Put(*[]byte) +} + +// BinaryTieredBufferPool is a buffer pool that uses multiple sub-pools with +// power-of-two sizes. +type BinaryTieredBufferPool struct { + // exponentToNextLargestPoolMap maps a power-of-two exponent (e.g., 12 for + // 4KB) to the index of the next largest sizedBufferPool. This is used by + // Get() to find the smallest pool that can satisfy a request for a given + // size. + exponentToNextLargestPoolMap []int + // exponentToPreviousLargestPoolMap maps a power-of-two exponent to the + // index of the previous largest sizedBufferPool. This is used by Put() + // to return a buffer to the most appropriate pool based on its capacity. + exponentToPreviousLargestPoolMap []int + sizedPools []bufferPool + fallbackPool bufferPool + maxPoolCap int // Optimization: Cache max capacity +} + +// NewBinaryTieredBufferPool returns a BufferPool backed by multiple sub-pools. +// This structure enables O(1) lookup time for Get and Put operations. +// +// The arguments provided are the exponents for the buffer capacities (powers +// of 2), not the raw byte sizes. For example, to create a pool of 16KB buffers +// (2^14 bytes), pass 14 as the argument. +func NewBinaryTieredBufferPool(powerOfTwoExponents ...uint8) (*BinaryTieredBufferPool, error) { + return newBinaryTiered(func(size int) bufferPool { + return newSizedBufferPool(size, true) + }, &simpleBufferPool{shouldZero: true}, powerOfTwoExponents...) +} + +// NewDirtyBinaryTieredBufferPool returns a BufferPool backed by multiple +// sub-pools. It is similar to NewBinaryTieredBufferPool but it does not +// initialize the buffers before returning them. +func NewDirtyBinaryTieredBufferPool(powerOfTwoExponents ...uint8) (*BinaryTieredBufferPool, error) { + return newBinaryTiered(func(size int) bufferPool { + return newSizedBufferPool(size, false) + }, &simpleBufferPool{shouldZero: false}, powerOfTwoExponents...) +} + +func newBinaryTiered(sizedPoolFactory func(int) bufferPool, fallbackPool bufferPool, powerOfTwoExponents ...uint8) (*BinaryTieredBufferPool, error) { + slices.Sort(powerOfTwoExponents) + powerOfTwoExponents = slices.Compact(powerOfTwoExponents) + + // Determine the maximum exponent we need to support. This depends on the + // word size (32-bit vs 64-bit). + maxExponent := uintSize - 2 + indexOfNextLargestBit := slices.Repeat([]int{-1}, maxExponent+1) + indexOfPreviousLargestBit := slices.Repeat([]int{-1}, maxExponent+1) + + maxTier := 0 + pools := make([]bufferPool, 0, len(powerOfTwoExponents)) + + for i, exp := range powerOfTwoExponents { + // Allocating slices of size > 2^maxExponent isn't possible on + // maxExponent-bit machines. + if int(exp) > maxExponent { + return nil, fmt.Errorf("mem: allocating slice of size 2^%d is not possible", exp) + } + tierSize := 1 << exp + pools = append(pools, sizedPoolFactory(tierSize)) + maxTier = max(maxTier, tierSize) + + // Map the exact power of 2 to this pool index. + indexOfNextLargestBit[exp] = i + indexOfPreviousLargestBit[exp] = i + } + + // Fill gaps for Get() (Next Largest) + // We iterate backwards. If current is empty, take the value from the right (larger). + for i := maxExponent - 1; i >= 0; i-- { + if indexOfNextLargestBit[i] == -1 { + indexOfNextLargestBit[i] = indexOfNextLargestBit[i+1] + } + } + + // Fill gaps for Put() (Previous Largest) + // We iterate forwards. If current is empty, take the value from the left (smaller). + for i := 1; i <= maxExponent; i++ { + if indexOfPreviousLargestBit[i] == -1 { + indexOfPreviousLargestBit[i] = indexOfPreviousLargestBit[i-1] + } + } + + return &BinaryTieredBufferPool{ + exponentToNextLargestPoolMap: indexOfNextLargestBit, + exponentToPreviousLargestPoolMap: indexOfPreviousLargestBit, + sizedPools: pools, + maxPoolCap: maxTier, + fallbackPool: fallbackPool, + }, nil +} + +// Get returns a buffer with specified length from the pool. +func (b *BinaryTieredBufferPool) Get(size int) *[]byte { + return b.poolForGet(size).Get(size) +} + +func (b *BinaryTieredBufferPool) poolForGet(size int) bufferPool { + if size == 0 || size > b.maxPoolCap { + return b.fallbackPool + } + + // Calculate the exponent of the smallest power of 2 >= size. + // We subtract 1 from size to handle exact powers of 2 correctly. + // + // Examples: + // size=16 (0b10000) -> size-1=15 (0b01111) -> bits.Len=4 -> Pool for 2^4 + // size=17 (0b10001) -> size-1=16 (0b10000) -> bits.Len=5 -> Pool for 2^5 + querySize := uint(size - 1) + poolIdx := b.exponentToNextLargestPoolMap[bits.Len(querySize)] + + return b.sizedPools[poolIdx] +} + +// Put returns a buffer to the pool. +func (b *BinaryTieredBufferPool) Put(buf *[]byte) { + // We pass the capacity of the buffer, and not the size of the buffer here. + // If we did the latter, all buffers would eventually move to the smallest + // pool. + b.poolForPut(cap(*buf)).Put(buf) +} + +func (b *BinaryTieredBufferPool) poolForPut(bCap int) bufferPool { + if bCap == 0 { + return NopBufferPool{} + } + if bCap > b.maxPoolCap { + return b.fallbackPool + } + // Find the pool with the largest capacity <= bCap. + // + // We calculate the exponent of the largest power of 2 <= bCap. + // bits.Len(x) returns the minimum number of bits required to represent x; + // i.e. the number of bits up to and including the most significant bit. + // Subtracting 1 gives the 0-based index of the most significant bit, + // which is the exponent of the largest power of 2 <= bCap. + // + // Examples: + // cap=16 (0b10000) -> Len=5 -> 5-1=4 -> 2^4 + // cap=15 (0b01111) -> Len=4 -> 4-1=3 -> 2^3 + largestPowerOfTwo := bits.Len(uint(bCap)) - 1 + poolIdx := b.exponentToPreviousLargestPoolMap[largestPowerOfTwo] + // The buffer is smaller than the smallest power of 2, discard it. + if poolIdx == -1 { + // Buffer is smaller than our smallest pool bucket. + return NopBufferPool{} + } + return b.sizedPools[poolIdx] +} + +// NopBufferPool is a buffer pool that returns new buffers without pooling. +type NopBufferPool struct{} + +// Get returns a buffer with specified length from the pool. +func (NopBufferPool) Get(length int) *[]byte { + b := make([]byte, length) + return &b +} + +// Put returns a buffer to the pool. +func (NopBufferPool) Put(*[]byte) { +} + +// sizedBufferPool is a BufferPool implementation that is optimized for specific +// buffer sizes. For example, HTTP/2 frames within gRPC have a default max size +// of 16kb and a sizedBufferPool can be configured to only return buffers with a +// capacity of 16kb. Note that however it does not support returning larger +// buffers and in fact panics if such a buffer is requested. Because of this, +// this BufferPool implementation is not meant to be used on its own and rather +// is intended to be embedded in a TieredBufferPool such that Get is only +// invoked when the required size is smaller than or equal to defaultSize. +type sizedBufferPool struct { + pool sync.Pool + defaultSize int + shouldZero bool +} + +func (p *sizedBufferPool) Get(size int) *[]byte { + buf, ok := p.pool.Get().(*[]byte) + if !ok { + buf := make([]byte, size, p.defaultSize) + return &buf + } + b := *buf + if p.shouldZero { + clear(b[:cap(b)]) + } + *buf = b[:size] + return buf +} + +func (p *sizedBufferPool) Put(buf *[]byte) { + if cap(*buf) < p.defaultSize { + // Ignore buffers that are too small to fit in the pool. Otherwise, when + // Get is called it will panic as it tries to index outside the bounds + // of the buffer. + return + } + p.pool.Put(buf) +} + +func newSizedBufferPool(size int, zero bool) *sizedBufferPool { + return &sizedBufferPool{ + defaultSize: size, + shouldZero: zero, + } +} + +// TieredBufferPool implements the BufferPool interface with multiple tiers of +// buffer pools for different sizes of buffers. +type TieredBufferPool struct { + sizedPools []*sizedBufferPool + fallbackPool simpleBufferPool +} + +// NewTieredBufferPool returns a BufferPool implementation that uses multiple +// underlying pools of the given pool sizes. +func NewTieredBufferPool(poolSizes ...int) *TieredBufferPool { + sort.Ints(poolSizes) + pools := make([]*sizedBufferPool, len(poolSizes)) + for i, s := range poolSizes { + pools[i] = newSizedBufferPool(s, true) + } + return &TieredBufferPool{ + sizedPools: pools, + fallbackPool: simpleBufferPool{shouldZero: true}, + } +} + +// Get returns a buffer with specified length from the pool. +func (p *TieredBufferPool) Get(size int) *[]byte { + return p.getPool(size).Get(size) +} + +// Put returns a buffer to the pool. +func (p *TieredBufferPool) Put(buf *[]byte) { + p.getPool(cap(*buf)).Put(buf) +} + +func (p *TieredBufferPool) getPool(size int) bufferPool { + poolIdx := sort.Search(len(p.sizedPools), func(i int) bool { + return p.sizedPools[i].defaultSize >= size + }) + + if poolIdx == len(p.sizedPools) { + return &p.fallbackPool + } + + return p.sizedPools[poolIdx] +} + +// simpleBufferPool is an implementation of the BufferPool interface that +// attempts to pool buffers with a sync.Pool. When Get is invoked, it tries to +// acquire a buffer from the pool but if that buffer is too small, it returns it +// to the pool and creates a new one. +type simpleBufferPool struct { + pool sync.Pool + shouldZero bool +} + +func (p *simpleBufferPool) Get(size int) *[]byte { + bs, ok := p.pool.Get().(*[]byte) + if ok && cap(*bs) >= size { + if p.shouldZero { + clear((*bs)[:cap(*bs)]) + } + *bs = (*bs)[:size] + return bs + } + + // A buffer was pulled from the pool, but it is too small. Put it back in + // the pool and create one large enough. + if ok { + p.pool.Put(bs) + } + + // If we're going to allocate, round up to the nearest page. This way if + // requests frequently arrive with small variation we don't allocate + // repeatedly if we get unlucky and they increase over time. By default we + // only allocate here if size > 1MiB. Because goPageSize is a power of 2, we + // can round up efficiently. + allocSize := (size + goPageSize - 1) & ^(goPageSize - 1) + + b := make([]byte, size, allocSize) + return &b +} + +func (p *simpleBufferPool) Put(buf *[]byte) { + p.pool.Put(buf) +} diff --git a/vendor/google.golang.org/grpc/internal/transport/defaults.go b/vendor/google.golang.org/grpc/internal/transport/defaults.go index bc8ee07474..0b2269a503 100644 --- a/vendor/google.golang.org/grpc/internal/transport/defaults.go +++ b/vendor/google.golang.org/grpc/internal/transport/defaults.go @@ -46,6 +46,7 @@ const ( defaultWriteQuota = 64 * 1024 defaultClientMaxHeaderListSize = uint32(16 << 20) defaultServerMaxHeaderListSize = uint32(16 << 20) + upcomingDefaultHeaderListSize = uint32(8 << 10) ) // MaxStreamID is the upper bound for the stream ID before the current diff --git a/vendor/google.golang.org/grpc/internal/transport/http2_client.go b/vendor/google.golang.org/grpc/internal/transport/http2_client.go index 37b1acc340..c943503f35 100644 --- a/vendor/google.golang.org/grpc/internal/transport/http2_client.go +++ b/vendor/google.golang.org/grpc/internal/transport/http2_client.go @@ -871,11 +871,15 @@ func (t *http2Client) NewStream(ctx context.Context, callHdr *CallHdr, handler s } var sz int64 for _, f := range hdr.hf { - if sz += int64(f.Size()); sz > int64(*t.maxSendHeaderListSize) { + sz += int64(f.Size()) + if sz > int64(*t.maxSendHeaderListSize) { hdrListSizeErr = status.Errorf(codes.Internal, "header list size to send violates the maximum size (%d bytes) set by server", *t.maxSendHeaderListSize) return false } } + if sz > int64(upcomingDefaultHeaderListSize) { + t.logger.Warningf("Header list size to send (%d bytes) is larger than the upcoming default limit (%d bytes). In a future release, this will be restricted to %d bytes.", sz, upcomingDefaultHeaderListSize, upcomingDefaultHeaderListSize) + } return true } for { diff --git a/vendor/google.golang.org/grpc/internal/transport/http2_server.go b/vendor/google.golang.org/grpc/internal/transport/http2_server.go index a1a14e14fc..3a8c36e4f9 100644 --- a/vendor/google.golang.org/grpc/internal/transport/http2_server.go +++ b/vendor/google.golang.org/grpc/internal/transport/http2_server.go @@ -940,13 +940,17 @@ func (t *http2Server) checkForHeaderListSize(hf []hpack.HeaderField) bool { } var sz int64 for _, f := range hf { - if sz += int64(f.Size()); sz > int64(*t.maxSendHeaderListSize) { + sz += int64(f.Size()) + if sz > int64(*t.maxSendHeaderListSize) { if t.logger.V(logLevel) { t.logger.Infof("Header list size to send violates the maximum size (%d bytes) set by client", *t.maxSendHeaderListSize) } return false } } + if sz > int64(upcomingDefaultHeaderListSize) { + t.logger.Warningf("Header list size to send (%d bytes) is larger than the upcoming default limit (%d bytes). In a future release, this will be restricted to %d bytes.", sz, upcomingDefaultHeaderListSize, upcomingDefaultHeaderListSize) + } return true } diff --git a/vendor/google.golang.org/grpc/mem/buffer_pool.go b/vendor/google.golang.org/grpc/mem/buffer_pool.go index 2ea763a49a..3b02b90916 100644 --- a/vendor/google.golang.org/grpc/mem/buffer_pool.go +++ b/vendor/google.golang.org/grpc/mem/buffer_pool.go @@ -19,10 +19,10 @@ package mem import ( - "sort" - "sync" + "fmt" "google.golang.org/grpc/internal" + "google.golang.org/grpc/internal/mem" ) // BufferPool is a pool of buffers that can be shared and reused, resulting in @@ -38,20 +38,23 @@ type BufferPool interface { Put(*[]byte) } -const goPageSize = 4 << 10 // 4KiB. N.B. this must be a power of 2. - -var defaultBufferPoolSizes = []int{ - 256, - goPageSize, - 16 << 10, // 16KB (max HTTP/2 frame size used by gRPC) - 32 << 10, // 32KB (default buffer size for io.Copy) - 1 << 20, // 1MB -} - -var defaultBufferPool BufferPool +var ( + defaultBufferPoolSizeExponents = []uint8{ + 8, + 12, // Go page size, 4KB + 14, // 16KB (max HTTP/2 frame size used by gRPC) + 15, // 32KB (default buffer size for io.Copy) + 20, // 1MB + } + defaultBufferPool BufferPool +) func init() { - defaultBufferPool = NewTieredBufferPool(defaultBufferPoolSizes...) + var err error + defaultBufferPool, err = NewBinaryTieredBufferPool(defaultBufferPoolSizeExponents...) + if err != nil { + panic(fmt.Sprintf("Failed to create default buffer pool: %v", err)) + } internal.SetDefaultBufferPool = func(pool BufferPool) { defaultBufferPool = pool @@ -72,134 +75,22 @@ func DefaultBufferPool() BufferPool { // NewTieredBufferPool returns a BufferPool implementation that uses multiple // underlying pools of the given pool sizes. func NewTieredBufferPool(poolSizes ...int) BufferPool { - sort.Ints(poolSizes) - pools := make([]*sizedBufferPool, len(poolSizes)) - for i, s := range poolSizes { - pools[i] = newSizedBufferPool(s) - } - return &tieredBufferPool{ - sizedPools: pools, - } -} - -// tieredBufferPool implements the BufferPool interface with multiple tiers of -// buffer pools for different sizes of buffers. -type tieredBufferPool struct { - sizedPools []*sizedBufferPool - fallbackPool simpleBufferPool -} - -func (p *tieredBufferPool) Get(size int) *[]byte { - return p.getPool(size).Get(size) + return mem.NewTieredBufferPool(poolSizes...) } -func (p *tieredBufferPool) Put(buf *[]byte) { - p.getPool(cap(*buf)).Put(buf) +// NewBinaryTieredBufferPool returns a BufferPool backed by multiple sub-pools. +// This structure enables O(1) lookup time for Get and Put operations. +// +// The arguments provided are the exponents for the buffer capacities (powers +// of 2), not the raw byte sizes. For example, to create a pool of 16KB buffers +// (2^14 bytes), pass 14 as the argument. +func NewBinaryTieredBufferPool(powerOfTwoExponents ...uint8) (BufferPool, error) { + return mem.NewBinaryTieredBufferPool(powerOfTwoExponents...) } -func (p *tieredBufferPool) getPool(size int) BufferPool { - poolIdx := sort.Search(len(p.sizedPools), func(i int) bool { - return p.sizedPools[i].defaultSize >= size - }) - - if poolIdx == len(p.sizedPools) { - return &p.fallbackPool - } - - return p.sizedPools[poolIdx] -} - -// sizedBufferPool is a BufferPool implementation that is optimized for specific -// buffer sizes. For example, HTTP/2 frames within gRPC have a default max size -// of 16kb and a sizedBufferPool can be configured to only return buffers with a -// capacity of 16kb. Note that however it does not support returning larger -// buffers and in fact panics if such a buffer is requested. Because of this, -// this BufferPool implementation is not meant to be used on its own and rather -// is intended to be embedded in a tieredBufferPool such that Get is only -// invoked when the required size is smaller than or equal to defaultSize. -type sizedBufferPool struct { - pool sync.Pool - defaultSize int -} - -func (p *sizedBufferPool) Get(size int) *[]byte { - buf, ok := p.pool.Get().(*[]byte) - if !ok { - buf := make([]byte, size, p.defaultSize) - return &buf - } - b := *buf - clear(b[:cap(b)]) - *buf = b[:size] - return buf -} - -func (p *sizedBufferPool) Put(buf *[]byte) { - if cap(*buf) < p.defaultSize { - // Ignore buffers that are too small to fit in the pool. Otherwise, when - // Get is called it will panic as it tries to index outside the bounds - // of the buffer. - return - } - p.pool.Put(buf) -} - -func newSizedBufferPool(size int) *sizedBufferPool { - return &sizedBufferPool{ - defaultSize: size, - } -} - -var _ BufferPool = (*simpleBufferPool)(nil) - -// simpleBufferPool is an implementation of the BufferPool interface that -// attempts to pool buffers with a sync.Pool. When Get is invoked, it tries to -// acquire a buffer from the pool but if that buffer is too small, it returns it -// to the pool and creates a new one. -type simpleBufferPool struct { - pool sync.Pool -} - -func (p *simpleBufferPool) Get(size int) *[]byte { - bs, ok := p.pool.Get().(*[]byte) - if ok && cap(*bs) >= size { - clear((*bs)[:cap(*bs)]) - *bs = (*bs)[:size] - return bs - } - - // A buffer was pulled from the pool, but it is too small. Put it back in - // the pool and create one large enough. - if ok { - p.pool.Put(bs) - } - - // If we're going to allocate, round up to the nearest page. This way if - // requests frequently arrive with small variation we don't allocate - // repeatedly if we get unlucky and they increase over time. By default we - // only allocate here if size > 1MiB. Because goPageSize is a power of 2, we - // can round up efficiently. - allocSize := (size + goPageSize - 1) & ^(goPageSize - 1) - - b := make([]byte, size, allocSize) - return &b -} - -func (p *simpleBufferPool) Put(buf *[]byte) { - p.pool.Put(buf) -} - -var _ BufferPool = NopBufferPool{} - // NopBufferPool is a buffer pool that returns new buffers without pooling. -type NopBufferPool struct{} - -// Get returns a buffer with specified length from the pool. -func (NopBufferPool) Get(length int) *[]byte { - b := make([]byte, length) - return &b +type NopBufferPool struct { + mem.NopBufferPool } -// Put returns a buffer to the pool. -func (NopBufferPool) Put(*[]byte) { -} +var _ BufferPool = NopBufferPool{} diff --git a/vendor/google.golang.org/grpc/picker_wrapper.go b/vendor/google.golang.org/grpc/picker_wrapper.go index aa52bfe95f..0183ab22f4 100644 --- a/vendor/google.golang.org/grpc/picker_wrapper.go +++ b/vendor/google.golang.org/grpc/picker_wrapper.go @@ -192,7 +192,9 @@ func (pw *pickerWrapper) pick(ctx context.Context, failfast bool, info balancer. // DoneInfo with default value works. pickResult.Done(balancer.DoneInfo{}) } - logger.Infof("blockingPicker: the picked transport is not ready, loop back to repick") + if logger.V(2) { + logger.Infof("blockingPicker: the picked transport is not ready, loop back to repick") + } // If ok == false, ac.state is not READY. // A valid picker always returns READY subConn. This means the state of ac // just changed, and picker will be updated shortly. diff --git a/vendor/google.golang.org/grpc/resolver/map.go b/vendor/google.golang.org/grpc/resolver/map.go index c3c15ac96f..789a5abab6 100644 --- a/vendor/google.golang.org/grpc/resolver/map.go +++ b/vendor/google.golang.org/grpc/resolver/map.go @@ -20,6 +20,7 @@ package resolver import ( "encoding/base64" + "iter" "sort" "strings" ) @@ -135,6 +136,7 @@ func (a *AddressMapV2[T]) Len() int { } // Keys returns a slice of all current map keys. +// Deprecated: Use AddressMapV2.All() instead. func (a *AddressMapV2[T]) Keys() []Address { ret := make([]Address, 0, a.Len()) for _, entryList := range a.m { @@ -146,6 +148,7 @@ func (a *AddressMapV2[T]) Keys() []Address { } // Values returns a slice of all current map values. +// Deprecated: Use AddressMapV2.All() instead. func (a *AddressMapV2[T]) Values() []T { ret := make([]T, 0, a.Len()) for _, entryList := range a.m { @@ -156,6 +159,19 @@ func (a *AddressMapV2[T]) Values() []T { return ret } +// All returns an iterator over all elements. +func (a *AddressMapV2[T]) All() iter.Seq2[Address, T] { + return func(yield func(Address, T) bool) { + for _, entryList := range a.m { + for _, entry := range entryList { + if !yield(entry.addr, entry.value) { + return + } + } + } + } +} + type endpointMapKey string // EndpointMap is a map of endpoints to arbitrary values keyed on only the @@ -223,6 +239,7 @@ func (em *EndpointMap[T]) Len() int { // the unordered set of addresses. Thus, endpoint information returned is not // the full endpoint data (drops duplicated addresses and attributes) but can be // used for EndpointMap accesses. +// Deprecated: Use EndpointMap.All() instead. func (em *EndpointMap[T]) Keys() []Endpoint { ret := make([]Endpoint, 0, len(em.endpoints)) for _, en := range em.endpoints { @@ -232,6 +249,7 @@ func (em *EndpointMap[T]) Keys() []Endpoint { } // Values returns a slice of all current map values. +// Deprecated: Use EndpointMap.All() instead. func (em *EndpointMap[T]) Values() []T { ret := make([]T, 0, len(em.endpoints)) for _, val := range em.endpoints { @@ -240,6 +258,22 @@ func (em *EndpointMap[T]) Values() []T { return ret } +// All returns an iterator over all elements. +// The map keys are endpoints specifying the addresses present in the endpoint +// map, in which uniqueness is determined by the unordered set of addresses. +// Thus, endpoint information returned is not the full endpoint data (drops +// duplicated addresses and attributes) but can be used for EndpointMap +// accesses. +func (em *EndpointMap[T]) All() iter.Seq2[Endpoint, T] { + return func(yield func(Endpoint, T) bool) { + for _, en := range em.endpoints { + if !yield(en.decodedKey, en.value) { + return + } + } + } +} + // Delete removes the specified endpoint from the map. func (em *EndpointMap[T]) Delete(e Endpoint) { en := encodeEndpoint(e) diff --git a/vendor/google.golang.org/grpc/rpc_util.go b/vendor/google.golang.org/grpc/rpc_util.go index 8160f94304..ee7f7dead1 100644 --- a/vendor/google.golang.org/grpc/rpc_util.go +++ b/vendor/google.golang.org/grpc/rpc_util.go @@ -961,24 +961,32 @@ func recvAndDecompress(p *parser, s recvCompressor, dc Decompressor, maxReceiveM return out, nil } -// decompress processes the given data by decompressing it using either a custom decompressor or a standard compressor. -// If a custom decompressor is provided, it takes precedence. The function validates that the decompressed data -// does not exceed the specified maximum size and returns an error if this limit is exceeded. -// On success, it returns the decompressed data. Otherwise, it returns an error if decompression fails or the data exceeds the size limit. +// decompress processes the given data by decompressing it using either +// a custom decompressor or a standard compressor. If a custom decompressor +// is provided, it takes precedence. The function validates that +// the decompressed data does not exceed the specified maximum size and returns +// an error if this limit is exceeded. On success, it returns the decompressed +// data. Otherwise, it returns an error if decompression fails or the data +// exceeds the size limit. func decompress(compressor encoding.Compressor, d mem.BufferSlice, dc Decompressor, maxReceiveMessageSize int, pool mem.BufferPool) (mem.BufferSlice, error) { if dc != nil { - uncompressed, err := dc.Do(d.Reader()) + r := d.Reader() + uncompressed, err := dc.Do(r) if err != nil { + r.Close() // ensure buffers are reused return nil, status.Errorf(codes.Internal, "grpc: failed to decompress the received message: %v", err) } if len(uncompressed) > maxReceiveMessageSize { + r.Close() // ensure buffers are reused return nil, status.Errorf(codes.ResourceExhausted, "grpc: message after decompression larger than max (%d vs. %d)", len(uncompressed), maxReceiveMessageSize) } return mem.BufferSlice{mem.SliceBuffer(uncompressed)}, nil } if compressor != nil { - dcReader, err := compressor.Decompress(d.Reader()) + r := d.Reader() + dcReader, err := compressor.Decompress(r) if err != nil { + r.Close() // ensure buffers are reused return nil, status.Errorf(codes.Internal, "grpc: failed to decompress the message: %v", err) } @@ -990,11 +998,13 @@ func decompress(compressor encoding.Compressor, d mem.BufferSlice, dc Decompress } out, err := mem.ReadAll(dcReader, pool) if err != nil { + r.Close() // ensure buffers are reused out.Free() return nil, status.Errorf(codes.Internal, "grpc: failed to read decompressed data: %v", err) } if out.Len() > maxReceiveMessageSize { + r.Close() // ensure buffers are reused out.Free() return nil, status.Errorf(codes.ResourceExhausted, "grpc: received message after decompression larger than max %d", maxReceiveMessageSize) } diff --git a/vendor/google.golang.org/grpc/server.go b/vendor/google.golang.org/grpc/server.go index 8efb29a7b9..5229adf711 100644 --- a/vendor/google.golang.org/grpc/server.go +++ b/vendor/google.golang.org/grpc/server.go @@ -192,6 +192,7 @@ var defaultServerOptions = serverOptions{ maxSendMessageSize: defaultServerMaxSendMessageSize, connectionTimeout: 120 * time.Second, writeBufferSize: defaultWriteBufSize, + sharedWriteBuffer: true, readBufferSize: defaultReadBufSize, bufferPool: mem.DefaultBufferPool(), } diff --git a/vendor/google.golang.org/grpc/version.go b/vendor/google.golang.org/grpc/version.go index 76c2eed773..12f649dcb7 100644 --- a/vendor/google.golang.org/grpc/version.go +++ b/vendor/google.golang.org/grpc/version.go @@ -19,4 +19,4 @@ package grpc // Version is the current grpc version. -const Version = "1.79.3" +const Version = "1.80.0" diff --git a/vendor/modules.txt b/vendor/modules.txt index c61e9e2395..8814e5245e 100644 --- a/vendor/modules.txt +++ b/vendor/modules.txt @@ -241,7 +241,7 @@ github.com/davecgh/go-spew/spew # github.com/distribution/reference v0.6.0 ## explicit; go 1.20 github.com/distribution/reference -# github.com/docker/cli v29.4.0+incompatible +# github.com/docker/cli v29.4.1+incompatible ## explicit github.com/docker/cli/cli/config github.com/docker/cli/cli/config/configfile @@ -500,7 +500,7 @@ github.com/gosuri/uitable/util/wordwrap # github.com/gregjones/httpcache v0.0.0-20190611155906-901d90724c79 ## explicit github.com/gregjones/httpcache -# github.com/grpc-ecosystem/grpc-gateway/v2 v2.27.7 +# github.com/grpc-ecosystem/grpc-gateway/v2 v2.28.0 ## explicit; go 1.24.0 github.com/grpc-ecosystem/grpc-gateway/v2/internal/httprule github.com/grpc-ecosystem/grpc-gateway/v2/runtime @@ -594,8 +594,8 @@ github.com/mattn/go-isatty # github.com/mattn/go-runewidth v0.0.19 ## explicit; go 1.20 github.com/mattn/go-runewidth -# github.com/mattn/go-sqlite3 v1.14.37 -## explicit; go 1.19 +# github.com/mattn/go-sqlite3 v1.14.42 +## explicit; go 1.21 github.com/mattn/go-sqlite3 # github.com/miekg/pkcs11 v1.1.2 ## explicit; go 1.12 @@ -695,7 +695,7 @@ github.com/operator-framework/helm-operator-plugins/pkg/storage github.com/operator-framework/operator-lib/handler github.com/operator-framework/operator-lib/handler/internal/metrics github.com/operator-framework/operator-lib/internal/annotation -# github.com/operator-framework/operator-registry v1.65.0 +# github.com/operator-framework/operator-registry v1.66.0 ## explicit; go 1.25.7 github.com/operator-framework/operator-registry/alpha/declcfg github.com/operator-framework/operator-registry/alpha/model @@ -850,8 +850,8 @@ go.opencensus.io/trace/tracestate ## explicit; go 1.24.0 go.opentelemetry.io/auto/sdk go.opentelemetry.io/auto/sdk/internal/telemetry -# go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.65.0 -## explicit; go 1.24.0 +# go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.67.0 +## explicit; go 1.25.0 go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/request go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp/internal/semconv @@ -870,17 +870,15 @@ go.opentelemetry.io/otel/propagation go.opentelemetry.io/otel/semconv/v1.17.0 go.opentelemetry.io/otel/semconv/v1.21.0 go.opentelemetry.io/otel/semconv/v1.37.0 -go.opentelemetry.io/otel/semconv/v1.39.0 -go.opentelemetry.io/otel/semconv/v1.39.0/httpconv -go.opentelemetry.io/otel/semconv/v1.39.0/otelconv go.opentelemetry.io/otel/semconv/v1.40.0 +go.opentelemetry.io/otel/semconv/v1.40.0/httpconv go.opentelemetry.io/otel/semconv/v1.40.0/otelconv -# go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.40.0 -## explicit; go 1.24.0 +# go.opentelemetry.io/otel/exporters/otlp/otlptrace v1.42.0 +## explicit; go 1.25.0 go.opentelemetry.io/otel/exporters/otlp/otlptrace go.opentelemetry.io/otel/exporters/otlp/otlptrace/internal/tracetransform -# go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.40.0 -## explicit; go 1.24.0 +# go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc v1.42.0 +## explicit; go 1.25.0 go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal go.opentelemetry.io/otel/exporters/otlp/otlptrace/otlptracegrpc/internal/counter @@ -915,7 +913,7 @@ go.opentelemetry.io/proto/otlp/collector/trace/v1 go.opentelemetry.io/proto/otlp/common/v1 go.opentelemetry.io/proto/otlp/resource/v1 go.opentelemetry.io/proto/otlp/trace/v1 -# go.podman.io/common v0.67.0 +# go.podman.io/common v0.67.1 ## explicit; go 1.24.2 go.podman.io/common/pkg/auth go.podman.io/common/pkg/capabilities @@ -1137,8 +1135,8 @@ gomodules.xyz/jsonpatch/v2 # google.golang.org/genproto v0.0.0-20260209200024-4cfbd4190f57 ## explicit; go 1.24.0 google.golang.org/genproto/protobuf/field_mask -# google.golang.org/genproto/googleapis/api v0.0.0-20260209200024-4cfbd4190f57 -## explicit; go 1.24.0 +# google.golang.org/genproto/googleapis/api v0.0.0-20260226221140-a57be14db171 +## explicit; go 1.25.0 google.golang.org/genproto/googleapis/api google.golang.org/genproto/googleapis/api/annotations google.golang.org/genproto/googleapis/api/expr/v1alpha1 @@ -1147,7 +1145,7 @@ google.golang.org/genproto/googleapis/api/httpbody ## explicit; go 1.25.0 google.golang.org/genproto/googleapis/rpc/errdetails google.golang.org/genproto/googleapis/rpc/status -# google.golang.org/grpc v1.79.3 +# google.golang.org/grpc v1.80.0 ## explicit; go 1.24.0 google.golang.org/grpc google.golang.org/grpc/attributes @@ -1187,6 +1185,7 @@ google.golang.org/grpc/internal/grpclog google.golang.org/grpc/internal/grpcsync google.golang.org/grpc/internal/grpcutil google.golang.org/grpc/internal/idle +google.golang.org/grpc/internal/mem google.golang.org/grpc/internal/metadata google.golang.org/grpc/internal/pretty google.golang.org/grpc/internal/proxyattributes @@ -1311,7 +1310,7 @@ helm.sh/helm/v3/pkg/storage/driver helm.sh/helm/v3/pkg/time helm.sh/helm/v3/pkg/time/ctime helm.sh/helm/v3/pkg/uploader -# k8s.io/api v0.35.3 => k8s.io/api v0.35.0 +# k8s.io/api v0.35.4 => k8s.io/api v0.35.0 ## explicit; go 1.25.0 k8s.io/api/admission/v1 k8s.io/api/admission/v1beta1 @@ -1373,7 +1372,7 @@ k8s.io/api/storage/v1 k8s.io/api/storage/v1alpha1 k8s.io/api/storage/v1beta1 k8s.io/api/storagemigration/v1beta1 -# k8s.io/apiextensions-apiserver v0.35.3 => k8s.io/apiextensions-apiserver v0.35.0 +# k8s.io/apiextensions-apiserver v0.35.4 => k8s.io/apiextensions-apiserver v0.35.0 ## explicit; go 1.25.0 k8s.io/apiextensions-apiserver/pkg/apihelpers k8s.io/apiextensions-apiserver/pkg/apis/apiextensions @@ -1395,7 +1394,7 @@ k8s.io/apiextensions-apiserver/pkg/client/clientset/clientset/scheme k8s.io/apiextensions-apiserver/pkg/client/clientset/clientset/typed/apiextensions/v1 k8s.io/apiextensions-apiserver/pkg/client/clientset/clientset/typed/apiextensions/v1beta1 k8s.io/apiextensions-apiserver/pkg/features -# k8s.io/apimachinery v0.35.3 => k8s.io/apimachinery v0.35.0 +# k8s.io/apimachinery v0.35.4 => k8s.io/apimachinery v0.35.0 ## explicit; go 1.25.0 k8s.io/apimachinery/pkg/api/equality k8s.io/apimachinery/pkg/api/errors @@ -1470,7 +1469,7 @@ k8s.io/apimachinery/pkg/watch k8s.io/apimachinery/third_party/forked/golang/json k8s.io/apimachinery/third_party/forked/golang/netutil k8s.io/apimachinery/third_party/forked/golang/reflect -# k8s.io/apiserver v0.35.3 => k8s.io/apiserver v0.35.0 +# k8s.io/apiserver v0.35.4 => k8s.io/apiserver v0.35.0 ## explicit; go 1.25.0 k8s.io/apiserver/pkg/apis/apiserver k8s.io/apiserver/pkg/apis/apiserver/install @@ -1889,7 +1888,7 @@ k8s.io/client-go/util/keyutil k8s.io/client-go/util/retry k8s.io/client-go/util/watchlist k8s.io/client-go/util/workqueue -# k8s.io/component-base v0.35.3 => k8s.io/component-base v0.35.0 +# k8s.io/component-base v0.35.4 => k8s.io/component-base v0.35.0 ## explicit; go 1.25.0 k8s.io/component-base/cli/flag k8s.io/component-base/compatibility