diff --git a/Documentation/arch/arm64/index.rst b/Documentation/arch/arm64/index.rst index 6a012c98bdcd3..189fa760dadea 100644 --- a/Documentation/arch/arm64/index.rst +++ b/Documentation/arch/arm64/index.rst @@ -23,6 +23,7 @@ ARM64 Architecture memory memory-tagging-extension mops + mpam perf pointer-authentication ptdump diff --git a/Documentation/arch/arm64/mpam.rst b/Documentation/arch/arm64/mpam.rst new file mode 100644 index 0000000000000..570f51a8d4ebf --- /dev/null +++ b/Documentation/arch/arm64/mpam.rst @@ -0,0 +1,72 @@ +.. SPDX-License-Identifier: GPL-2.0 + +==== +MPAM +==== + +What is MPAM +============ +MPAM (Memory Partitioning and Monitoring) is a feature in the CPUs and memory +system components such as the caches or memory controllers that allow memory +traffic to be labelled, partitioned and monitored. + +Traffic is labelled by the CPU, based on the control or monitor group the +current task is assigned to using resctrl. Partitioning policy can be set +using the schemata file in resctrl, and monitor values read via resctrl. +See Documentation/filesystems/resctrl.rst for more details. + +This allows tasks that share memory system resources, such as caches, to be +isolated from each other according to the partitioning policy (so called noisy +neighbours). + +Supported Platforms +=================== +Use of this feature requires CPU support, support in the memory system +components, and a description from firmware of where the MPAM device controls +are in the MMIO address space. (e.g. the 'MPAM' ACPI table). + +The MMIO device that provides MPAM controls/monitors for a memory system +component is called a memory system component. (MSC). + +Because the user interface to MPAM is via resctrl, only MPAM features that are +compatible with resctrl can be exposed to user-space. + +MSC are considered as a group based on the topology. MSC that correspond with +the L3 cache are considered together, it is not possible to mix MSC between L2 +and L3 to 'cover' a resctrl schema. + +The supported features are: + +* Cache portion bitmap controls (CPOR) on the L2 or L3 caches. To expose + CPOR at L2 or L3, every CPU must have a corresponding CPU cache at this + level that also supports the feature. Mismatched big/little platforms are + not supported as resctrl's controls would then also depend on task + placement. + +* Memory bandwidth maximum controls (MBW_MAX) on or after the L3 cache. + resctrl uses the L3 cache-id to identify where the memory bandwidth + control is applied. For this reason the platform must have an L3 cache + with cache-id's supplied by firmware. (It doesn't need to support MPAM.) + + To be exported as the 'MB' schema, the topology of the group of MSC chosen + must match the topology of the L3 cache so that the cache-id's can be + repainted. For example: Platforms with Memory bandwidth maximum controls + on CPU-less NUMA nodes cannot expose the 'MB' schema to resctrl as these + nodes do not have a corresponding L3 cache. If the memory bandwidth + control is on the memory rather than the L3 then there must be a single + global L3 as otherwise it is unknown which L3 the traffic came from. There + must be no caches between the L3 and the memory so that the two ends of + the path have equivalent traffic. + + When the MPAM driver finds multiple groups of MSC it can use for the 'MB' + schema, it prefers the group closest to the L3 cache. + +* Cache Storage Usage (CSU) counters can expose the 'llc_occupancy' provided + there is at least one CSU monitor on each MSC that makes up the L3 group. + Exposing CSU counters from other caches or devices is not supported. + +Reporting Bugs +============== +If you are not seeing the counters or controls you expect please share the +debug messages produced when enabling dynamic debug and booting with: +dyndbg="file mpam_resctrl.c +pl" diff --git a/Documentation/arch/arm64/silicon-errata.rst b/Documentation/arch/arm64/silicon-errata.rst index 93cdf16937159..5650c4b6d2c6d 100644 --- a/Documentation/arch/arm64/silicon-errata.rst +++ b/Documentation/arch/arm64/silicon-errata.rst @@ -215,6 +215,9 @@ stable kernels. | ARM | GIC-700 | #2941627 | ARM64_ERRATUM_2941627 | +----------------+-----------------+-----------------+-----------------------------+ +----------------+-----------------+-----------------+-----------------------------+ +| ARM | CMN-650 | #3642720 | N/A | ++----------------+-----------------+-----------------+-----------------------------+ ++----------------+-----------------+-----------------+-----------------------------+ | Broadcom | Brahma-B53 | N/A | ARM64_ERRATUM_845719 | +----------------+-----------------+-----------------+-----------------------------+ | Broadcom | Brahma-B53 | N/A | ARM64_ERRATUM_843419 | @@ -248,6 +251,12 @@ stable kernels. +----------------+-----------------+-----------------+-----------------------------+ | NVIDIA | T241 GICv3/4.x | T241-FABRIC-4 | N/A | +----------------+-----------------+-----------------+-----------------------------+ +| NVIDIA | T241 MPAM | T241-MPAM-1 | N/A | ++----------------+-----------------+-----------------+-----------------------------+ +| NVIDIA | T241 MPAM | T241-MPAM-4 | N/A | ++----------------+-----------------+-----------------+-----------------------------+ +| NVIDIA | T241 MPAM | T241-MPAM-6 | N/A | ++----------------+-----------------+-----------------+-----------------------------+ +----------------+-----------------+-----------------+-----------------------------+ | Freescale/NXP | LS2080A/LS1043A | A-008585 | FSL_ERRATUM_A008585 | +----------------+-----------------+-----------------+-----------------------------+ diff --git a/MAINTAINERS b/MAINTAINERS index 554e881b05bea..3a9816a5e0cbd 100644 --- a/MAINTAINERS +++ b/MAINTAINERS @@ -17468,6 +17468,16 @@ S: Maintained F: Documentation/devicetree/bindings/leds/backlight/mps,mp3309c.yaml F: drivers/video/backlight/mp3309c.c +MPAM DRIVER +M: James Morse +M: Ben Horgan +R: Reinette Chatre +R: Fenghua Yu +S: Maintained +F: drivers/resctrl/mpam_* +F: drivers/resctrl/test_mpam_* +F: include/linux/arm_mpam.h + MPS MP2869 DRIVER M: Wensheng Wang L: linux-hwmon@vger.kernel.org diff --git a/arch/arm64/Kconfig b/arch/arm64/Kconfig index cdcf3a0fafd1a..a87305c21ad49 100644 --- a/arch/arm64/Kconfig +++ b/arch/arm64/Kconfig @@ -2065,6 +2065,33 @@ config ARM64_TLB_RANGE ARMv8.4-TLBI provides TLBI invalidation instruction that apply to a range of input addresses. +config ARM64_MPAM + bool "Enable support for MPAM" + select ARM64_MPAM_DRIVER + select ARCH_HAS_CPU_RESCTRL + help + Memory System Resource Partitioning and Monitoring (MPAM) is an + optional extension to the Arm architecture that allows each + transaction issued to the memory system to be labelled with a + Partition identifier (PARTID) and Performance Monitoring Group + identifier (PMG). + + Memory system components, such as the caches, can be configured with + policies to control how much of various physical resources (such as + memory bandwidth or cache memory) the transactions labelled with each + PARTID can consume. Depending on the capabilities of the hardware, + the PARTID and PMG can also be used as filtering criteria to measure + the memory system resource consumption of different parts of a + workload. + + Use of this extension requires CPU support, support in the + Memory System Components (MSC), and a description from firmware + of where the MSCs are in the address space. + + MPAM is exposed to user-space via the resctrl pseudo filesystem. + + This option enables the extra context switch code. + endmenu # "ARMv8.4 architectural features" menu "ARMv8.5 architectural features" diff --git a/arch/arm64/include/asm/el2_setup.h b/arch/arm64/include/asm/el2_setup.h index 9dbd0da8eee8c..42cebf1dac4a7 100644 --- a/arch/arm64/include/asm/el2_setup.h +++ b/arch/arm64/include/asm/el2_setup.h @@ -514,7 +514,8 @@ check_override id_aa64pfr0, ID_AA64PFR0_EL1_MPAM_SHIFT, .Linit_mpam_\@, .Lskip_mpam_\@, x1, x2 .Linit_mpam_\@: - msr_s SYS_MPAM2_EL2, xzr // use the default partition + mov x0, #MPAM2_EL2_EnMPAMSM_MASK + msr_s SYS_MPAM2_EL2, x0 // use the default partition, // and disable lower traps mrs_s x0, SYS_MPAMIDR_EL1 tbz x0, #MPAMIDR_EL1_HAS_HCR_SHIFT, .Lskip_mpam_\@ // skip if no MPAMHCR reg diff --git a/arch/arm64/include/asm/mpam.h b/arch/arm64/include/asm/mpam.h new file mode 100644 index 0000000000000..70d396e7b6da8 --- /dev/null +++ b/arch/arm64/include/asm/mpam.h @@ -0,0 +1,96 @@ +/* SPDX-License-Identifier: GPL-2.0 */ +/* Copyright (C) 2025 Arm Ltd. */ + +#ifndef __ASM__MPAM_H +#define __ASM__MPAM_H + +#include +#include +#include +#include +#include + +#include + +DECLARE_STATIC_KEY_FALSE(mpam_enabled); +DECLARE_PER_CPU(u64, arm64_mpam_default); +DECLARE_PER_CPU(u64, arm64_mpam_current); + +/* + * The value of the MPAM0_EL1 sysreg when a task is in resctrl's default group. + * This is used by the context switch code to use the resctrl CPU property + * instead. The value is modified when CDP is enabled/disabled by mounting + * the resctrl filesystem. + */ +extern u64 arm64_mpam_global_default; + +#ifdef CONFIG_ARM64_MPAM +static inline u64 __mpam_regval(u16 partid_d, u16 partid_i, u8 pmg_d, u8 pmg_i) +{ + return FIELD_PREP(MPAM0_EL1_PARTID_D, partid_d) | + FIELD_PREP(MPAM0_EL1_PARTID_I, partid_i) | + FIELD_PREP(MPAM0_EL1_PMG_D, pmg_d) | + FIELD_PREP(MPAM0_EL1_PMG_I, pmg_i); +} + +static inline void mpam_set_cpu_defaults(int cpu, u16 partid_d, u16 partid_i, + u8 pmg_d, u8 pmg_i) +{ + u64 default_val = __mpam_regval(partid_d, partid_i, pmg_d, pmg_i); + + WRITE_ONCE(per_cpu(arm64_mpam_default, cpu), default_val); +} + +/* + * The resctrl filesystem writes to the partid/pmg values for threads and CPUs, + * which may race with reads in mpam_thread_switch(). Ensure only one of the old + * or new values are used. Particular care should be taken with the pmg field as + * mpam_thread_switch() may read a partid and pmg that don't match, causing this + * value to be stored with cache allocations, despite being considered 'free' by + * resctrl. + */ +static inline u64 mpam_get_regval(struct task_struct *tsk) +{ + return READ_ONCE(task_thread_info(tsk)->mpam_partid_pmg); +} + +static inline void mpam_set_task_partid_pmg(struct task_struct *tsk, + u16 partid_d, u16 partid_i, + u8 pmg_d, u8 pmg_i) +{ + u64 regval = __mpam_regval(partid_d, partid_i, pmg_d, pmg_i); + + WRITE_ONCE(task_thread_info(tsk)->mpam_partid_pmg, regval); +} + +static inline void mpam_thread_switch(struct task_struct *tsk) +{ + u64 oldregval; + int cpu = smp_processor_id(); + u64 regval = mpam_get_regval(tsk); + + if (!static_branch_likely(&mpam_enabled)) + return; + + if (regval == READ_ONCE(arm64_mpam_global_default)) + regval = READ_ONCE(per_cpu(arm64_mpam_default, cpu)); + + oldregval = READ_ONCE(per_cpu(arm64_mpam_current, cpu)); + if (oldregval == regval) + return; + + write_sysreg_s(regval | MPAM1_EL1_MPAMEN, SYS_MPAM1_EL1); + if (system_supports_sme()) + write_sysreg_s(regval & (MPAMSM_EL1_PARTID_D | MPAMSM_EL1_PMG_D), SYS_MPAMSM_EL1); + isb(); + + /* Synchronising the EL0 write is left until the ERET to EL0 */ + write_sysreg_s(regval, SYS_MPAM0_EL1); + + WRITE_ONCE(per_cpu(arm64_mpam_current, cpu), regval); +} +#else +static inline void mpam_thread_switch(struct task_struct *tsk) {} +#endif /* CONFIG_ARM64_MPAM */ + +#endif /* __ASM__MPAM_H */ diff --git a/arch/arm64/include/asm/resctrl.h b/arch/arm64/include/asm/resctrl.h new file mode 100644 index 0000000000000..b506e95cf6e37 --- /dev/null +++ b/arch/arm64/include/asm/resctrl.h @@ -0,0 +1,2 @@ +/* SPDX-License-Identifier: GPL-2.0 */ +#include diff --git a/arch/arm64/include/asm/thread_info.h b/arch/arm64/include/asm/thread_info.h index f241b8601ebd9..c226dabd50191 100644 --- a/arch/arm64/include/asm/thread_info.h +++ b/arch/arm64/include/asm/thread_info.h @@ -41,6 +41,9 @@ struct thread_info { #ifdef CONFIG_SHADOW_CALL_STACK void *scs_base; void *scs_sp; +#endif +#ifdef CONFIG_ARM64_MPAM + u64 mpam_partid_pmg; #endif u32 cpu; }; diff --git a/arch/arm64/kernel/Makefile b/arch/arm64/kernel/Makefile index 76f32e424065e..15979f3665196 100644 --- a/arch/arm64/kernel/Makefile +++ b/arch/arm64/kernel/Makefile @@ -67,6 +67,7 @@ obj-$(CONFIG_CRASH_DUMP) += crash_dump.o obj-$(CONFIG_VMCORE_INFO) += vmcore_info.o obj-$(CONFIG_ARM_SDE_INTERFACE) += sdei.o obj-$(CONFIG_ARM64_PTR_AUTH) += pointer_auth.o +obj-$(CONFIG_ARM64_MPAM) += mpam.o obj-$(CONFIG_ARM64_MTE) += mte.o obj-y += vdso-wrap.o obj-$(CONFIG_COMPAT_VDSO) += vdso32-wrap.o diff --git a/arch/arm64/kernel/cpufeature.c b/arch/arm64/kernel/cpufeature.c index 5b26739af16b8..e42c66d60aa5b 100644 --- a/arch/arm64/kernel/cpufeature.c +++ b/arch/arm64/kernel/cpufeature.c @@ -86,6 +86,7 @@ #include #include #include +#include #include #include #include @@ -2452,13 +2453,19 @@ test_has_mpam(const struct arm64_cpu_capabilities *entry, int scope) static void cpu_enable_mpam(const struct arm64_cpu_capabilities *entry) { - /* - * Access by the kernel (at EL1) should use the reserved PARTID - * which is configured unrestricted. This avoids priority-inversion - * where latency sensitive tasks have to wait for a task that has - * been throttled to release the lock. - */ - write_sysreg_s(0, SYS_MPAM1_EL1); + int cpu = smp_processor_id(); + u64 regval = 0; + + if (IS_ENABLED(CONFIG_ARM64_MPAM) && static_branch_likely(&mpam_enabled)) + regval = READ_ONCE(per_cpu(arm64_mpam_current, cpu)); + + write_sysreg_s(regval | MPAM1_EL1_MPAMEN, SYS_MPAM1_EL1); + if (cpus_have_cap(ARM64_SME)) + write_sysreg_s(regval & (MPAMSM_EL1_PARTID_D | MPAMSM_EL1_PMG_D), SYS_MPAMSM_EL1); + isb(); + + /* Synchronising the EL0 write is left until the ERET to EL0 */ + write_sysreg_s(regval, SYS_MPAM0_EL1); } static bool diff --git a/arch/arm64/kernel/mpam.c b/arch/arm64/kernel/mpam.c new file mode 100644 index 0000000000000..3a490de4fa125 --- /dev/null +++ b/arch/arm64/kernel/mpam.c @@ -0,0 +1,62 @@ +// SPDX-License-Identifier: GPL-2.0 +/* Copyright (C) 2025 Arm Ltd. */ + +#include + +#include +#include +#include +#include + +DEFINE_STATIC_KEY_FALSE(mpam_enabled); +DEFINE_PER_CPU(u64, arm64_mpam_default); +DEFINE_PER_CPU(u64, arm64_mpam_current); + +u64 arm64_mpam_global_default; + +static int mpam_pm_notifier(struct notifier_block *self, + unsigned long cmd, void *v) +{ + u64 regval; + int cpu = smp_processor_id(); + + switch (cmd) { + case CPU_PM_EXIT: + /* + * Don't use mpam_thread_switch() as the system register + * value has changed under our feet. + */ + regval = READ_ONCE(per_cpu(arm64_mpam_current, cpu)); + write_sysreg_s(regval | MPAM1_EL1_MPAMEN, SYS_MPAM1_EL1); + if (system_supports_sme()) { + write_sysreg_s(regval & (MPAMSM_EL1_PARTID_D | MPAMSM_EL1_PMG_D), + SYS_MPAMSM_EL1); + } + isb(); + + write_sysreg_s(regval, SYS_MPAM0_EL1); + + return NOTIFY_OK; + default: + return NOTIFY_DONE; + } +} + +static struct notifier_block mpam_pm_nb = { + .notifier_call = mpam_pm_notifier, +}; + +static int __init arm64_mpam_register_cpus(void) +{ + u64 mpamidr = read_sanitised_ftr_reg(SYS_MPAMIDR_EL1); + u16 partid_max = FIELD_GET(MPAMIDR_EL1_PARTID_MAX, mpamidr); + u8 pmg_max = FIELD_GET(MPAMIDR_EL1_PMG_MAX, mpamidr); + + if (!system_supports_mpam()) + return 0; + + cpu_pm_register_notifier(&mpam_pm_nb); + return mpam_register_requestor(partid_max, pmg_max); +} +/* Must occur before mpam_msc_driver_init() from subsys_initcall() */ +arch_initcall(arm64_mpam_register_cpus) diff --git a/arch/arm64/kernel/process.c b/arch/arm64/kernel/process.c index 4c328b7c79ba3..d9994a46fe79f 100644 --- a/arch/arm64/kernel/process.c +++ b/arch/arm64/kernel/process.c @@ -52,6 +52,7 @@ #include #include #include +#include #include #include #include @@ -774,6 +775,12 @@ struct task_struct *__switch_to(struct task_struct *prev, if (prev->thread.sctlr_user != next->thread.sctlr_user) update_sctlr_el1(next->thread.sctlr_user); + /* + * MPAM thread switch happens after the DSB to ensure prev's accesses + * use prev's MPAM settings. + */ + mpam_thread_switch(next); + /* the actual thread switch */ last = cpu_switch_to(prev, next); diff --git a/arch/arm64/kvm/hyp/include/hyp/switch.h b/arch/arm64/kvm/hyp/include/hyp/switch.h index c5d5e5b86eaf0..63195275a8b82 100644 --- a/arch/arm64/kvm/hyp/include/hyp/switch.h +++ b/arch/arm64/kvm/hyp/include/hyp/switch.h @@ -269,7 +269,8 @@ static inline void __deactivate_traps_hfgxtr(struct kvm_vcpu *vcpu) static inline void __activate_traps_mpam(struct kvm_vcpu *vcpu) { - u64 r = MPAM2_EL2_TRAPMPAM0EL1 | MPAM2_EL2_TRAPMPAM1EL1; + u64 clr = MPAM2_EL2_EnMPAMSM; + u64 set = MPAM2_EL2_TRAPMPAM0EL1 | MPAM2_EL2_TRAPMPAM1EL1; if (!system_supports_mpam()) return; @@ -279,18 +280,21 @@ static inline void __activate_traps_mpam(struct kvm_vcpu *vcpu) write_sysreg_s(MPAMHCR_EL2_TRAP_MPAMIDR_EL1, SYS_MPAMHCR_EL2); } else { /* From v1.1 TIDR can trap MPAMIDR, set it unconditionally */ - r |= MPAM2_EL2_TIDR; + set |= MPAM2_EL2_TIDR; } - write_sysreg_s(r, SYS_MPAM2_EL2); + sysreg_clear_set_s(SYS_MPAM2_EL2, clr, set); } static inline void __deactivate_traps_mpam(void) { + u64 clr = MPAM2_EL2_TRAPMPAM0EL1 | MPAM2_EL2_TRAPMPAM1EL1 | MPAM2_EL2_TIDR; + u64 set = MPAM2_EL2_EnMPAMSM; + if (!system_supports_mpam()) return; - write_sysreg_s(0, SYS_MPAM2_EL2); + sysreg_clear_set_s(SYS_MPAM2_EL2, clr, set); if (system_supports_mpam_hcr()) write_sysreg_s(MPAMHCR_HOST_FLAGS, SYS_MPAMHCR_EL2); diff --git a/arch/arm64/kvm/hyp/vhe/sysreg-sr.c b/arch/arm64/kvm/hyp/vhe/sysreg-sr.c index f28c6cf4fe1be..7ba3240e9c3ff 100644 --- a/arch/arm64/kvm/hyp/vhe/sysreg-sr.c +++ b/arch/arm64/kvm/hyp/vhe/sysreg-sr.c @@ -183,6 +183,21 @@ void sysreg_restore_guest_state_vhe(struct kvm_cpu_context *ctxt) } NOKPROBE_SYMBOL(sysreg_restore_guest_state_vhe); +/* + * The _EL0 value was written by the host's context switch and belongs to the + * VMM. Copy this into the guest's _EL1 register. + */ +static inline void __mpam_guest_load(void) +{ + u64 mask = MPAM0_EL1_PARTID_D | MPAM0_EL1_PARTID_I | MPAM0_EL1_PMG_D | MPAM0_EL1_PMG_I; + + if (system_supports_mpam()) { + u64 val = (read_sysreg_s(SYS_MPAM0_EL1) & mask) | MPAM1_EL1_MPAMEN; + + write_sysreg_el1(val, SYS_MPAM1); + } +} + /** * __vcpu_load_switch_sysregs - Load guest system registers to the physical CPU * @@ -222,6 +237,7 @@ void __vcpu_load_switch_sysregs(struct kvm_vcpu *vcpu) */ __sysreg32_restore_state(vcpu); __sysreg_restore_user_state(guest_ctxt); + __mpam_guest_load(); if (unlikely(is_hyp_ctxt(vcpu))) { __sysreg_restore_vel2_state(vcpu); diff --git a/arch/arm64/kvm/sys_regs.c b/arch/arm64/kvm/sys_regs.c index 8d7309646ea64..9b63356eb12aa 100644 --- a/arch/arm64/kvm/sys_regs.c +++ b/arch/arm64/kvm/sys_regs.c @@ -3367,6 +3367,8 @@ static const struct sys_reg_desc sys_reg_descs[] = { { SYS_DESC(SYS_MPAM1_EL1), undef_access }, { SYS_DESC(SYS_MPAM0_EL1), undef_access }, + { SYS_DESC(SYS_MPAMSM_EL1), undef_access }, + { SYS_DESC(SYS_VBAR_EL1), access_rw, reset_val, VBAR_EL1, 0 }, { SYS_DESC(SYS_DISR_EL1), NULL, reset_val, DISR_EL1, 0 }, diff --git a/arch/arm64/tools/sysreg b/arch/arm64/tools/sysreg index 1c6cdf9d54bba..43c2759eb640b 100644 --- a/arch/arm64/tools/sysreg +++ b/arch/arm64/tools/sysreg @@ -5031,6 +5031,14 @@ Field 31:16 PARTID_D Field 15:0 PARTID_I EndSysreg +Sysreg MPAMSM_EL1 3 0 10 5 3 +Res0 63:48 +Field 47:40 PMG_D +Res0 39:32 +Field 31:16 PARTID_D +Res0 15:0 +EndSysreg + Sysreg ISR_EL1 3 0 12 1 0 Res0 63:11 Field 10 IS diff --git a/drivers/Kconfig b/drivers/Kconfig index 4915a63866b01..3054b50a2f4cb 100644 --- a/drivers/Kconfig +++ b/drivers/Kconfig @@ -251,4 +251,6 @@ source "drivers/hte/Kconfig" source "drivers/cdx/Kconfig" +source "drivers/resctrl/Kconfig" + endmenu diff --git a/drivers/Makefile b/drivers/Makefile index 8e1ffa4358d5f..20eb17596b899 100644 --- a/drivers/Makefile +++ b/drivers/Makefile @@ -194,6 +194,7 @@ obj-$(CONFIG_HTE) += hte/ obj-$(CONFIG_DRM_ACCEL) += accel/ obj-$(CONFIG_CDX_BUS) += cdx/ obj-$(CONFIG_DPLL) += dpll/ +obj-y += resctrl/ obj-$(CONFIG_DIBS) += dibs/ obj-$(CONFIG_S390) += s390/ diff --git a/drivers/acpi/arm64/Kconfig b/drivers/acpi/arm64/Kconfig index b3ed6212244c1..f2fd79f22e7d8 100644 --- a/drivers/acpi/arm64/Kconfig +++ b/drivers/acpi/arm64/Kconfig @@ -21,3 +21,6 @@ config ACPI_AGDI config ACPI_APMT bool + +config ACPI_MPAM + bool diff --git a/drivers/acpi/arm64/Makefile b/drivers/acpi/arm64/Makefile index 05ecde9eaabe9..9390b57cb5648 100644 --- a/drivers/acpi/arm64/Makefile +++ b/drivers/acpi/arm64/Makefile @@ -4,6 +4,7 @@ obj-$(CONFIG_ACPI_APMT) += apmt.o obj-$(CONFIG_ACPI_FFH) += ffh.o obj-$(CONFIG_ACPI_GTDT) += gtdt.o obj-$(CONFIG_ACPI_IORT) += iort.o +obj-$(CONFIG_ACPI_MPAM) += mpam.o obj-$(CONFIG_ACPI_PROCESSOR_IDLE) += cpuidle.o obj-$(CONFIG_ARM_AMBA) += amba.o obj-y += dma.o init.o diff --git a/drivers/acpi/arm64/mpam.c b/drivers/acpi/arm64/mpam.c new file mode 100644 index 0000000000000..84963a20c3e78 --- /dev/null +++ b/drivers/acpi/arm64/mpam.c @@ -0,0 +1,411 @@ +// SPDX-License-Identifier: GPL-2.0 +// Copyright (C) 2025 Arm Ltd. + +/* Parse the MPAM ACPI table feeding the discovered nodes into the driver */ + +#define pr_fmt(fmt) "ACPI MPAM: " fmt + +#include +#include +#include +#include +#include +#include + +#include + +/* + * Flags for acpi_table_mpam_msc.*_interrupt_flags. + * See 2.1.1 Interrupt Flags, Table 5, of DEN0065B_MPAM_ACPI_3.0-bet. + */ +#define ACPI_MPAM_MSC_IRQ_MODE BIT(0) +#define ACPI_MPAM_MSC_IRQ_TYPE_MASK GENMASK(2, 1) +#define ACPI_MPAM_MSC_IRQ_TYPE_WIRED 0 +#define ACPI_MPAM_MSC_IRQ_AFFINITY_TYPE_MASK BIT(3) +#define ACPI_MPAM_MSC_IRQ_AFFINITY_TYPE_PROCESSOR 0 +#define ACPI_MPAM_MSC_IRQ_AFFINITY_TYPE_PROCESSOR_CONTAINER 1 +#define ACPI_MPAM_MSC_IRQ_AFFINITY_VALID BIT(4) + +/* + * Encodings for the MSC node body interface type field. + * See 2.1 MPAM MSC node, Table 4 of DEN0065B_MPAM_ACPI_3.0-bet. + */ +#define ACPI_MPAM_MSC_IFACE_MMIO 0x00 +#define ACPI_MPAM_MSC_IFACE_PCC 0x0a + +static bool _is_ppi_partition(u32 flags) +{ + u32 aff_type, is_ppi; + bool ret; + + is_ppi = FIELD_GET(ACPI_MPAM_MSC_IRQ_AFFINITY_VALID, flags); + if (!is_ppi) + return false; + + aff_type = FIELD_GET(ACPI_MPAM_MSC_IRQ_AFFINITY_TYPE_MASK, flags); + ret = (aff_type == ACPI_MPAM_MSC_IRQ_AFFINITY_TYPE_PROCESSOR_CONTAINER); + if (ret) + pr_err_once("Partitioned interrupts not supported\n"); + + return ret; +} + +static int acpi_mpam_register_irq(struct platform_device *pdev, + u32 intid, u32 flags) +{ + int irq; + u32 int_type; + int trigger; + + if (!intid) + return -EINVAL; + + if (_is_ppi_partition(flags)) + return -EINVAL; + + trigger = FIELD_GET(ACPI_MPAM_MSC_IRQ_MODE, flags); + int_type = FIELD_GET(ACPI_MPAM_MSC_IRQ_TYPE_MASK, flags); + if (int_type != ACPI_MPAM_MSC_IRQ_TYPE_WIRED) + return -EINVAL; + + irq = acpi_register_gsi(&pdev->dev, intid, trigger, ACPI_ACTIVE_HIGH); + if (irq < 0) + pr_err_once("Failed to register interrupt 0x%x with ACPI\n", intid); + + return irq; +} + +static void acpi_mpam_parse_irqs(struct platform_device *pdev, + struct acpi_mpam_msc_node *tbl_msc, + struct resource *res, int *res_idx) +{ + u32 flags, intid; + int irq; + + intid = tbl_msc->overflow_interrupt; + flags = tbl_msc->overflow_interrupt_flags; + irq = acpi_mpam_register_irq(pdev, intid, flags); + if (irq > 0) + res[(*res_idx)++] = DEFINE_RES_IRQ_NAMED(irq, "overflow"); + + intid = tbl_msc->error_interrupt; + flags = tbl_msc->error_interrupt_flags; + irq = acpi_mpam_register_irq(pdev, intid, flags); + if (irq > 0) + res[(*res_idx)++] = DEFINE_RES_IRQ_NAMED(irq, "error"); +} + +static int acpi_mpam_parse_resource(struct mpam_msc *msc, + struct acpi_mpam_resource_node *res) +{ + int level, nid; + u32 cache_id; + + switch (res->locator_type) { + case ACPI_MPAM_LOCATION_TYPE_PROCESSOR_CACHE: + cache_id = res->locator.cache_locator.cache_reference; + level = find_acpi_cache_level_from_id(cache_id); + if (level <= 0) { + pr_err_once("Bad level (%d) for cache with id %u\n", level, cache_id); + return -EINVAL; + } + return mpam_ris_create(msc, res->ris_index, MPAM_CLASS_CACHE, + level, cache_id); + case ACPI_MPAM_LOCATION_TYPE_MEMORY: + nid = pxm_to_node(res->locator.memory_locator.proximity_domain); + if (nid == NUMA_NO_NODE) { + pr_debug("Bad proximity domain %lld, using node 0 instead\n", + res->locator.memory_locator.proximity_domain); + nid = 0; + } + return mpam_ris_create(msc, res->ris_index, MPAM_CLASS_MEMORY, + MPAM_CLASS_ID_DEFAULT, nid); + default: + /* These get discovered later and are treated as unknown */ + return 0; + } +} + +int acpi_mpam_parse_resources(struct mpam_msc *msc, + struct acpi_mpam_msc_node *tbl_msc) +{ + int i, err; + char *ptr, *table_end; + struct acpi_mpam_resource_node *resource; + + table_end = (char *)tbl_msc + tbl_msc->length; + ptr = (char *)(tbl_msc + 1); + for (i = 0; i < tbl_msc->num_resource_nodes; i++) { + u64 max_deps, remaining_table; + + if (ptr + sizeof(*resource) > table_end) + return -EINVAL; + + resource = (struct acpi_mpam_resource_node *)ptr; + + remaining_table = table_end - ptr; + max_deps = remaining_table / sizeof(struct acpi_mpam_func_deps); + if (resource->num_functional_deps > max_deps) { + pr_debug("MSC has impossible number of functional dependencies\n"); + return -EINVAL; + } + + err = acpi_mpam_parse_resource(msc, resource); + if (err) + return err; + + ptr += sizeof(*resource); + ptr += resource->num_functional_deps * sizeof(struct acpi_mpam_func_deps); + } + + return 0; +} + +/* + * Creates the device power management link and returns true if the + * acpi id is valid and usable for cpu affinity. This is the case + * when the linked device is a processor or a processor container. + */ +static bool __init parse_msc_pm_link(struct acpi_mpam_msc_node *tbl_msc, + struct platform_device *pdev, + u32 *acpi_id) +{ + char hid[sizeof(tbl_msc->hardware_id_linked_device) + 1] = { 0 }; + bool acpi_id_valid = false; + struct acpi_device *buddy; + char uid[11]; + int len; + + memcpy(hid, &tbl_msc->hardware_id_linked_device, + sizeof(tbl_msc->hardware_id_linked_device)); + + if (!strcmp(hid, ACPI_PROCESSOR_CONTAINER_HID)) { + *acpi_id = tbl_msc->instance_id_linked_device; + acpi_id_valid = true; + } + + len = snprintf(uid, sizeof(uid), "%u", + tbl_msc->instance_id_linked_device); + if (len >= sizeof(uid)) { + pr_debug("Failed to convert uid of device for power management."); + return acpi_id_valid; + } + + buddy = acpi_dev_get_first_match_dev(hid, uid, -1); + if (buddy) { + device_link_add(&pdev->dev, &buddy->dev, DL_FLAG_STATELESS); + acpi_dev_put(buddy); + } + + return acpi_id_valid; +} + +static int decode_interface_type(struct acpi_mpam_msc_node *tbl_msc, + enum mpam_msc_iface *iface) +{ + switch (tbl_msc->interface_type) { + case ACPI_MPAM_MSC_IFACE_MMIO: + *iface = MPAM_IFACE_MMIO; + return 0; + case ACPI_MPAM_MSC_IFACE_PCC: + *iface = MPAM_IFACE_PCC; + return 0; + default: + return -EINVAL; + } +} + +static struct platform_device * __init acpi_mpam_parse_msc(struct acpi_mpam_msc_node *tbl_msc) +{ + struct platform_device *pdev __free(platform_device_put) = + platform_device_alloc("mpam_msc", tbl_msc->identifier); + int next_res = 0, next_prop = 0, err; + /* pcc, nrdy, affinity and a sentinel */ + struct property_entry props[4] = { 0 }; + /* mmio, 2xirq, no sentinel. */ + struct resource res[3] = { 0 }; + struct acpi_device *companion; + enum mpam_msc_iface iface; + char uid[16]; + u32 acpi_id; + + if (!pdev) + return ERR_PTR(-ENOMEM); + + /* Some power management is described in the namespace: */ + err = snprintf(uid, sizeof(uid), "%u", tbl_msc->identifier); + if (err > 0 && err < sizeof(uid)) { + companion = acpi_dev_get_first_match_dev("ARMHAA5C", uid, -1); + if (companion) { + ACPI_COMPANION_SET(&pdev->dev, companion); + acpi_dev_put(companion); + } else { + pr_debug("MSC.%u: missing namespace entry\n", tbl_msc->identifier); + } + } + + if (decode_interface_type(tbl_msc, &iface)) { + pr_debug("MSC.%u: unknown interface type\n", tbl_msc->identifier); + return ERR_PTR(-EINVAL); + } + + if (iface == MPAM_IFACE_MMIO) { + res[next_res++] = DEFINE_RES_MEM_NAMED(tbl_msc->base_address, + tbl_msc->mmio_size, + "MPAM:MSC"); + } else if (iface == MPAM_IFACE_PCC) { + props[next_prop++] = PROPERTY_ENTRY_U32("pcc-channel", + tbl_msc->base_address); + } + + acpi_mpam_parse_irqs(pdev, tbl_msc, res, &next_res); + + WARN_ON_ONCE(next_res > ARRAY_SIZE(res)); + err = platform_device_add_resources(pdev, res, next_res); + if (err) + return ERR_PTR(err); + + props[next_prop++] = PROPERTY_ENTRY_U32("arm,not-ready-us", + tbl_msc->max_nrdy_usec); + + /* + * The MSC's CPU affinity is described via its linked power + * management device, but only if it points at a Processor or + * Processor Container. + */ + if (parse_msc_pm_link(tbl_msc, pdev, &acpi_id)) + props[next_prop++] = PROPERTY_ENTRY_U32("cpu_affinity", acpi_id); + + WARN_ON_ONCE(next_prop > ARRAY_SIZE(props) - 1); + err = device_create_managed_software_node(&pdev->dev, props, NULL); + if (err) + return ERR_PTR(err); + + /* + * Stash the table entry for acpi_mpam_parse_resources() to discover + * what this MSC controls. + */ + err = platform_device_add_data(pdev, tbl_msc, tbl_msc->length); + if (err) + return ERR_PTR(err); + + err = platform_device_add(pdev); + if (err) + return ERR_PTR(err); + + return_ptr(pdev); +} + +static int __init acpi_mpam_parse(void) +{ + char *table_end, *table_offset; + struct acpi_mpam_msc_node *tbl_msc; + struct platform_device *pdev; + + if (acpi_disabled || !system_supports_mpam()) + return 0; + + struct acpi_table_header *table __free(acpi_put_table) = + acpi_get_table_pointer(ACPI_SIG_MPAM, 0); + + if (IS_ERR(table)) + return 0; + + if (table->revision < 1) { + pr_debug("MPAM ACPI table revision %d not supported\n", table->revision); + return 0; + } + + table_offset = (char *)(table + 1); + table_end = (char *)table + table->length; + + while (table_offset < table_end) { + tbl_msc = (struct acpi_mpam_msc_node *)table_offset; + if (table_offset + sizeof(*tbl_msc) > table_end || + table_offset + tbl_msc->length > table_end) { + pr_err("MSC entry overlaps end of ACPI table\n"); + return -EINVAL; + } + table_offset += tbl_msc->length; + + /* + * If any of the reserved fields are set, make no attempt to + * parse the MSC structure. This MSC will still be counted by + * acpi_mpam_count_msc(), meaning the MPAM driver can't probe + * against all MSC, and will never be enabled. There is no way + * to enable it safely, because we cannot determine safe + * system-wide partid and pmg ranges in this situation. + */ + if (tbl_msc->reserved || tbl_msc->reserved1 || tbl_msc->reserved2) { + pr_err_once("Unrecognised MSC, MPAM not usable\n"); + pr_debug("MSC.%u: reserved field set\n", tbl_msc->identifier); + continue; + } + + if (!tbl_msc->mmio_size) { + pr_debug("MSC.%u: marked as disabled\n", tbl_msc->identifier); + continue; + } + + pdev = acpi_mpam_parse_msc(tbl_msc); + if (IS_ERR(pdev)) + return PTR_ERR(pdev); + } + + return 0; +} + +/** + * acpi_mpam_count_msc() - Count the number of MSC described by firmware. + * + * Returns the number of MSCs, or zero for an error. + * + * This can be called before or in parallel with acpi_mpam_parse(). + */ +int acpi_mpam_count_msc(void) +{ + char *table_end, *table_offset; + struct acpi_mpam_msc_node *tbl_msc; + int count = 0; + + if (acpi_disabled || !system_supports_mpam()) + return 0; + + struct acpi_table_header *table __free(acpi_put_table) = + acpi_get_table_pointer(ACPI_SIG_MPAM, 0); + + if (IS_ERR(table)) + return 0; + + if (table->revision < 1) + return 0; + + table_offset = (char *)(table + 1); + table_end = (char *)table + table->length; + + while (table_offset < table_end) { + tbl_msc = (struct acpi_mpam_msc_node *)table_offset; + + if (table_offset + sizeof(*tbl_msc) > table_end) + return -EINVAL; + if (tbl_msc->length < sizeof(*tbl_msc)) + return -EINVAL; + if (tbl_msc->length > table_end - table_offset) + return -EINVAL; + table_offset += tbl_msc->length; + + if (!tbl_msc->mmio_size) + continue; + + count++; + } + + return count; +} + +/* + * Call after ACPI devices have been created, which happens behind acpi_scan_init() + * called from subsys_initcall(). PCC requires the mailbox driver, which is + * initialised from postcore_initcall(). + */ +subsys_initcall_sync(acpi_mpam_parse); diff --git a/drivers/acpi/pptt.c b/drivers/acpi/pptt.c index 54676e3d82dd5..de5f8c018333d 100644 --- a/drivers/acpi/pptt.c +++ b/drivers/acpi/pptt.c @@ -21,6 +21,25 @@ #include #include +/* + * The acpi_pptt_cache_v1 in actbl2.h, which is imported from acpica, + * only contains the cache_id field rather than all the fields of the + * Cache Type Structure. Use this alternative structure until it is + * resolved in acpica. + */ +struct acpi_pptt_cache_v1_full { + struct acpi_subtable_header header; + u16 reserved; + u32 flags; + u32 next_level_of_cache; + u32 size; + u32 number_of_sets; + u8 associativity; + u8 attributes; + u16 line_size; + u32 cache_id; +} __packed; + static struct acpi_subtable_header *fetch_pptt_subtable(struct acpi_table_header *table_hdr, u32 pptt_ref) { @@ -56,6 +75,18 @@ static struct acpi_pptt_cache *fetch_pptt_cache(struct acpi_table_header *table_ return (struct acpi_pptt_cache *)fetch_pptt_subtable(table_hdr, pptt_ref); } +static struct acpi_pptt_cache_v1_full *upgrade_pptt_cache(struct acpi_pptt_cache *cache) +{ + if (cache->header.length < sizeof(struct acpi_pptt_cache_v1_full)) + return NULL; + + /* No use for v1 if the only additional field is invalid */ + if (!(cache->flags & ACPI_PPTT_CACHE_ID_VALID)) + return NULL; + + return (struct acpi_pptt_cache_v1_full *)cache; +} + static struct acpi_subtable_header *acpi_get_pptt_resource(struct acpi_table_header *table_hdr, struct acpi_pptt_processor *node, int resource) @@ -177,14 +208,14 @@ acpi_find_cache_level(struct acpi_table_header *table_hdr, } /** - * acpi_count_levels() - Given a PPTT table, and a CPU node, count the cache - * levels and split cache levels (data/instruction). + * acpi_count_levels() - Given a PPTT table, and a CPU node, count the + * total number of levels and split cache levels (data/instruction). * @table_hdr: Pointer to the head of the PPTT table * @cpu_node: processor node we wish to count caches for - * @levels: Number of levels if success. * @split_levels: Number of split cache levels (data/instruction) if * success. Can by NULL. * + * Return: number of levels. * Given a processor node containing a processing unit, walk into it and count * how many levels exist solely for it, and then walk up each level until we hit * the root node (ignore the package level because it may be possible to have @@ -192,14 +223,18 @@ acpi_find_cache_level(struct acpi_table_header *table_hdr, * split cache levels (data/instruction) that exist at each level on the way * up. */ -static void acpi_count_levels(struct acpi_table_header *table_hdr, - struct acpi_pptt_processor *cpu_node, - unsigned int *levels, unsigned int *split_levels) +static int acpi_count_levels(struct acpi_table_header *table_hdr, + struct acpi_pptt_processor *cpu_node, + unsigned int *split_levels) { + int current_level = 0; + do { - acpi_find_cache_level(table_hdr, cpu_node, levels, split_levels, 0, 0); + acpi_find_cache_level(table_hdr, cpu_node, ¤t_level, split_levels, 0, 0); cpu_node = fetch_pptt_node(table_hdr, cpu_node->parent); } while (cpu_node); + + return current_level; } /** @@ -351,7 +386,6 @@ static struct acpi_pptt_cache *acpi_find_cache_node(struct acpi_table_header *ta * @this_leaf: Kernel cache info structure being updated * @found_cache: The PPTT node describing this cache instance * @cpu_node: A unique reference to describe this cache instance - * @revision: The revision of the PPTT table * * The ACPI spec implies that the fields in the cache structures are used to * extend and correct the information probed from the hardware. Lets only @@ -361,10 +395,9 @@ static struct acpi_pptt_cache *acpi_find_cache_node(struct acpi_table_header *ta */ static void update_cache_properties(struct cacheinfo *this_leaf, struct acpi_pptt_cache *found_cache, - struct acpi_pptt_processor *cpu_node, - u8 revision) + struct acpi_pptt_processor *cpu_node) { - struct acpi_pptt_cache_v1* found_cache_v1; + struct acpi_pptt_cache_v1_full *found_cache_v1; this_leaf->fw_token = cpu_node; if (found_cache->flags & ACPI_PPTT_SIZE_PROPERTY_VALID) @@ -414,9 +447,8 @@ static void update_cache_properties(struct cacheinfo *this_leaf, found_cache->flags & ACPI_PPTT_CACHE_TYPE_VALID) this_leaf->type = CACHE_TYPE_UNIFIED; - if (revision >= 3 && (found_cache->flags & ACPI_PPTT_CACHE_ID_VALID)) { - found_cache_v1 = ACPI_ADD_PTR(struct acpi_pptt_cache_v1, - found_cache, sizeof(struct acpi_pptt_cache)); + found_cache_v1 = upgrade_pptt_cache(found_cache); + if (found_cache_v1) { this_leaf->id = found_cache_v1->cache_id; this_leaf->attributes |= CACHE_ID; } @@ -441,8 +473,7 @@ static void cache_setup_acpi_cpu(struct acpi_table_header *table, pr_debug("found = %p %p\n", found_cache, cpu_node); if (found_cache) update_cache_properties(this_leaf, found_cache, - ACPI_TO_POINTER(ACPI_PTR_DIFF(cpu_node, table)), - table->revision); + ACPI_TO_POINTER(ACPI_PTR_DIFF(cpu_node, table))); index++; } @@ -645,7 +676,7 @@ int acpi_get_cache_info(unsigned int cpu, unsigned int *levels, if (!cpu_node) return -ENOENT; - acpi_count_levels(table, cpu_node, levels, split_levels); + *levels = acpi_count_levels(table, cpu_node, split_levels); pr_debug("Cache Setup: last_level=%d split_levels=%d\n", *levels, split_levels ? *split_levels : -1); @@ -817,3 +848,218 @@ int find_acpi_cpu_topology_hetero_id(unsigned int cpu) return find_acpi_cpu_topology_tag(cpu, PPTT_ABORT_PACKAGE, ACPI_PPTT_ACPI_IDENTICAL); } + +/** + * acpi_pptt_get_child_cpus() - Find all the CPUs below a PPTT + * processor hierarchy node + * + * @table_hdr: A reference to the PPTT table + * @parent_node: A pointer to the processor hierarchy node in the + * table_hdr + * @cpus: A cpumask to fill with the CPUs below @parent_node + * + * Walks up the PPTT from every possible CPU to find if the provided + * @parent_node is a parent of this CPU. + */ +static void acpi_pptt_get_child_cpus(struct acpi_table_header *table_hdr, + struct acpi_pptt_processor *parent_node, + cpumask_t *cpus) +{ + struct acpi_pptt_processor *cpu_node; + u32 acpi_id; + int cpu; + + cpumask_clear(cpus); + + for_each_possible_cpu(cpu) { + acpi_id = get_acpi_id_for_cpu(cpu); + cpu_node = acpi_find_processor_node(table_hdr, acpi_id); + + while (cpu_node) { + if (cpu_node == parent_node) { + cpumask_set_cpu(cpu, cpus); + break; + } + cpu_node = fetch_pptt_node(table_hdr, cpu_node->parent); + } + } +} + +/** + * acpi_pptt_get_cpus_from_container() - Populate a cpumask with all CPUs in a + * processor container + * @acpi_cpu_id: The UID of the processor container + * @cpus: The resulting CPU mask + * + * Find the specified Processor Container, and fill @cpus with all the cpus + * below it. + * + * Not all 'Processor Hierarchy' entries in the PPTT are either a CPU + * or a Processor Container, they may exist purely to describe a + * Private resource. CPUs have to be leaves, so a Processor Container + * is a non-leaf that has the 'ACPI Processor ID valid' flag set. + */ +void acpi_pptt_get_cpus_from_container(u32 acpi_cpu_id, cpumask_t *cpus) +{ + struct acpi_table_header *table_hdr; + struct acpi_subtable_header *entry; + unsigned long table_end; + u32 proc_sz; + + cpumask_clear(cpus); + + table_hdr = acpi_get_pptt(); + if (!table_hdr) + return; + + table_end = (unsigned long)table_hdr + table_hdr->length; + entry = ACPI_ADD_PTR(struct acpi_subtable_header, table_hdr, + sizeof(struct acpi_table_pptt)); + proc_sz = sizeof(struct acpi_pptt_processor); + while ((unsigned long)entry + proc_sz <= table_end) { + if (entry->type == ACPI_PPTT_TYPE_PROCESSOR) { + struct acpi_pptt_processor *cpu_node; + + cpu_node = (struct acpi_pptt_processor *)entry; + if (cpu_node->flags & ACPI_PPTT_ACPI_PROCESSOR_ID_VALID && + !acpi_pptt_leaf_node(table_hdr, cpu_node) && + cpu_node->acpi_processor_id == acpi_cpu_id) { + acpi_pptt_get_child_cpus(table_hdr, cpu_node, cpus); + break; + } + } + entry = ACPI_ADD_PTR(struct acpi_subtable_header, entry, + entry->length); + } +} + +/** + * find_acpi_cache_level_from_id() - Get the level of the specified cache + * @cache_id: The id field of the cache + * + * Determine the level relative to any CPU for the cache identified by + * cache_id. This allows the property to be found even if the CPUs are offline. + * + * The returned level can be used to group caches that are peers. + * + * The PPTT table must be rev 3 or later. + * + * If one CPU's L2 is shared with another CPU as L3, this function will return + * an unpredictable value. + * + * Return: -ENOENT if the PPTT doesn't exist, the revision isn't supported or + * the cache cannot be found. + * Otherwise returns a value which represents the level of the specified cache. + */ +int find_acpi_cache_level_from_id(u32 cache_id) +{ + int cpu; + struct acpi_table_header *table; + + table = acpi_get_pptt(); + if (!table) + return -ENOENT; + + if (table->revision < 3) + return -ENOENT; + + for_each_possible_cpu(cpu) { + bool empty; + int level = 1; + u32 acpi_cpu_id = get_acpi_id_for_cpu(cpu); + struct acpi_pptt_cache *cache; + struct acpi_pptt_processor *cpu_node; + + cpu_node = acpi_find_processor_node(table, acpi_cpu_id); + if (!cpu_node) + continue; + + do { + int cache_type[] = {CACHE_TYPE_INST, CACHE_TYPE_DATA, CACHE_TYPE_UNIFIED}; + + empty = true; + for (int i = 0; i < ARRAY_SIZE(cache_type); i++) { + struct acpi_pptt_cache_v1_full *cache_v1; + + cache = acpi_find_cache_node(table, acpi_cpu_id, cache_type[i], + level, &cpu_node); + if (!cache) + continue; + + empty = false; + + cache_v1 = upgrade_pptt_cache(cache); + if (cache_v1 && cache_v1->cache_id == cache_id) + return level; + } + level++; + } while (!empty); + } + + return -ENOENT; +} + +/** + * acpi_pptt_get_cpumask_from_cache_id() - Get the cpus associated with the + * specified cache + * @cache_id: The id field of the cache + * @cpus: Where to build the cpumask + * + * Determine which CPUs are below this cache in the PPTT. This allows the property + * to be found even if the CPUs are offline. + * + * The PPTT table must be rev 3 or later, + * + * Return: -ENOENT if the PPTT doesn't exist, or the cache cannot be found. + * Otherwise returns 0 and sets the cpus in the provided cpumask. + */ +int acpi_pptt_get_cpumask_from_cache_id(u32 cache_id, cpumask_t *cpus) +{ + int cpu; + struct acpi_table_header *table; + + cpumask_clear(cpus); + + table = acpi_get_pptt(); + if (!table) + return -ENOENT; + + if (table->revision < 3) + return -ENOENT; + + for_each_possible_cpu(cpu) { + bool empty; + int level = 1; + u32 acpi_cpu_id = get_acpi_id_for_cpu(cpu); + struct acpi_pptt_cache *cache; + struct acpi_pptt_processor *cpu_node; + + cpu_node = acpi_find_processor_node(table, acpi_cpu_id); + if (!cpu_node) + continue; + + do { + int cache_type[] = {CACHE_TYPE_INST, CACHE_TYPE_DATA, CACHE_TYPE_UNIFIED}; + + empty = true; + for (int i = 0; i < ARRAY_SIZE(cache_type); i++) { + struct acpi_pptt_cache_v1_full *cache_v1; + + cache = acpi_find_cache_node(table, acpi_cpu_id, cache_type[i], + level, &cpu_node); + + if (!cache) + continue; + + empty = false; + + cache_v1 = upgrade_pptt_cache(cache); + if (cache_v1 && cache_v1->cache_id == cache_id) + cpumask_set_cpu(cpu, cpus); + } + level++; + } while (!empty); + } + + return 0; +} diff --git a/drivers/acpi/tables.c b/drivers/acpi/tables.c index 57fc8bc56166b..4286e4af10924 100644 --- a/drivers/acpi/tables.c +++ b/drivers/acpi/tables.c @@ -408,7 +408,7 @@ static const char table_sigs[][ACPI_NAMESEG_SIZE] __nonstring_array __initconst ACPI_SIG_PSDT, ACPI_SIG_RSDT, ACPI_SIG_XSDT, ACPI_SIG_SSDT, ACPI_SIG_IORT, ACPI_SIG_NFIT, ACPI_SIG_HMAT, ACPI_SIG_PPTT, ACPI_SIG_NHLT, ACPI_SIG_AEST, ACPI_SIG_CEDT, ACPI_SIG_AGDI, - ACPI_SIG_NBFT, ACPI_SIG_SWFT}; + ACPI_SIG_NBFT, ACPI_SIG_SWFT, ACPI_SIG_MPAM}; #define ACPI_HEADER_SIZE sizeof(struct acpi_table_header) diff --git a/drivers/resctrl/Kconfig b/drivers/resctrl/Kconfig new file mode 100644 index 0000000000000..672abea3b03cc --- /dev/null +++ b/drivers/resctrl/Kconfig @@ -0,0 +1,31 @@ +menuconfig ARM64_MPAM_DRIVER + bool "MPAM driver" + depends on ARM64 && ARM64_MPAM + select ACPI_MPAM if ACPI + help + Memory System Resource Partitioning and Monitoring (MPAM) driver for + System IP, e.g. caches and memory controllers. + +if ARM64_MPAM_DRIVER + +config ARM64_MPAM_DRIVER_DEBUG + bool "Enable debug messages from the MPAM driver" + help + Say yes here to enable debug messages from the MPAM driver. + +config MPAM_KUNIT_TEST + bool "KUnit tests for MPAM driver " if !KUNIT_ALL_TESTS + depends on KUNIT=y + default KUNIT_ALL_TESTS + help + Enable this option to run tests in the MPAM driver. + + If unsure, say N. + +endif + +config ARM64_MPAM_RESCTRL_FS + bool + default y if ARM64_MPAM_DRIVER && RESCTRL_FS + select RESCTRL_RMID_DEPENDS_ON_CLOSID + select RESCTRL_ASSIGN_FIXED diff --git a/drivers/resctrl/Makefile b/drivers/resctrl/Makefile new file mode 100644 index 0000000000000..4f6d0e81f9b8f --- /dev/null +++ b/drivers/resctrl/Makefile @@ -0,0 +1,5 @@ +obj-$(CONFIG_ARM64_MPAM_DRIVER) += mpam.o +mpam-y += mpam_devices.o +mpam-$(CONFIG_ARM64_MPAM_RESCTRL_FS) += mpam_resctrl.o + +ccflags-$(CONFIG_ARM64_MPAM_DRIVER_DEBUG) += -DDEBUG diff --git a/drivers/resctrl/mpam_devices.c b/drivers/resctrl/mpam_devices.c new file mode 100644 index 0000000000000..f54882e4c039f --- /dev/null +++ b/drivers/resctrl/mpam_devices.c @@ -0,0 +1,2952 @@ +// SPDX-License-Identifier: GPL-2.0 +// Copyright (C) 2025 Arm Ltd. + +#define pr_fmt(fmt) "%s:%s: " fmt, KBUILD_MODNAME, __func__ + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "mpam_internal.h" + +/* Values for the T241 errata workaround */ +#define T241_CHIPS_MAX 4 +#define T241_CHIP_NSLICES 12 +#define T241_SPARE_REG0_OFF 0x1b0000 +#define T241_SPARE_REG1_OFF 0x1c0000 +#define T241_CHIP_ID(phys) FIELD_GET(GENMASK_ULL(44, 43), phys) +#define T241_SHADOW_REG_OFF(sidx, pid) (0x360048 + (sidx) * 0x10000 + (pid) * 8) +#define SMCCC_SOC_ID_T241 0x036b0241 +static void __iomem *t241_scratch_regs[T241_CHIPS_MAX]; + +/* + * mpam_list_lock protects the SRCU lists when writing. Once the + * mpam_enabled key is enabled these lists are read-only, + * unless the error interrupt disables the driver. + */ +static DEFINE_MUTEX(mpam_list_lock); +static LIST_HEAD(mpam_all_msc); + +struct srcu_struct mpam_srcu; + +/* + * Number of MSCs that have been probed. Once all MSCs have been probed MPAM + * can be enabled. + */ +static atomic_t mpam_num_msc; + +static int mpam_cpuhp_state; +static DEFINE_MUTEX(mpam_cpuhp_state_lock); + +/* + * The smallest common values for any CPU or MSC in the system. + * Generating traffic outside this range will result in screaming interrupts. + */ +u16 mpam_partid_max; +u8 mpam_pmg_max; +static bool partid_max_init, partid_max_published; +static DEFINE_SPINLOCK(partid_max_lock); + +/* + * mpam is enabled once all devices have been probed from CPU online callbacks, + * scheduled via this work_struct. If access to an MSC depends on a CPU that + * was not brought online at boot, this can happen surprisingly late. + */ +static DECLARE_WORK(mpam_enable_work, &mpam_enable); + +/* + * All mpam error interrupts indicate a software bug. On receipt, disable the + * driver. + */ +static DECLARE_WORK(mpam_broken_work, &mpam_disable); + +/* When mpam is disabled, the printed reason to aid debugging */ +static char *mpam_disable_reason; + +/* + * Whether resctrl has been setup. Used by cpuhp in preference to + * mpam_is_enabled(). The disable call after an error interrupt makes + * mpam_is_enabled() false before the cpuhp callbacks are made. + * Reads/writes should hold mpam_cpuhp_state_lock, (or be cpuhp callbacks). + */ +static bool mpam_resctrl_enabled; + +/* + * An MSC is a physical container for controls and monitors, each identified by + * their RIS index. These share a base-address, interrupts and some MMIO + * registers. A vMSC is a virtual container for RIS in an MSC that control or + * monitor the same thing. Members of a vMSC are all RIS in the same MSC, but + * not all RIS in an MSC share a vMSC. + * + * Components are a group of vMSC that control or monitor the same thing but + * are from different MSC, so have different base-address, interrupts etc. + * Classes are the set components of the same type. + * + * The features of a vMSC is the union of the RIS it contains. + * The features of a Class and Component are the common subset of the vMSC + * they contain. + * + * e.g. The system cache may have bandwidth controls on multiple interfaces, + * for regulating traffic from devices independently of traffic from CPUs. + * If these are two RIS in one MSC, they will be treated as controlling + * different things, and will not share a vMSC/component/class. + * + * e.g. The L2 may have one MSC and two RIS, one for cache-controls another + * for bandwidth. These two RIS are members of the same vMSC. + * + * e.g. The set of RIS that make up the L2 are grouped as a component. These + * are sometimes termed slices. They should be configured the same, as if there + * were only one. + * + * e.g. The SoC probably has more than one L2, each attached to a distinct set + * of CPUs. All the L2 components are grouped as a class. + * + * When creating an MSC, struct mpam_msc is added to the all mpam_all_msc list, + * then linked via struct mpam_ris to a vmsc, component and class. + * The same MSC may exist under different class->component->vmsc paths, but the + * RIS index will be unique. + */ +LIST_HEAD(mpam_classes); + +/* List of all objects that can be free()d after synchronise_srcu() */ +static LLIST_HEAD(mpam_garbage); + +static inline void init_garbage(struct mpam_garbage *garbage) +{ + init_llist_node(&garbage->llist); +} + +#define add_to_garbage(x) \ +do { \ + __typeof__(x) _x = (x); \ + _x->garbage.to_free = _x; \ + llist_add(&_x->garbage.llist, &mpam_garbage); \ +} while (0) + +static void mpam_free_garbage(void) +{ + struct mpam_garbage *iter, *tmp; + struct llist_node *to_free = llist_del_all(&mpam_garbage); + + if (!to_free) + return; + + synchronize_srcu(&mpam_srcu); + + llist_for_each_entry_safe(iter, tmp, to_free, llist) { + if (iter->pdev) + devm_kfree(&iter->pdev->dev, iter->to_free); + else + kfree(iter->to_free); + } +} + +/* + * Once mpam is enabled, new requestors cannot further reduce the available + * partid. Assert that the size is fixed, and new requestors will be turned + * away. + */ +static void mpam_assert_partid_sizes_fixed(void) +{ + WARN_ON_ONCE(!partid_max_published); +} + +static u32 __mpam_read_reg(struct mpam_msc *msc, u16 reg) +{ + WARN_ON_ONCE(!cpumask_test_cpu(smp_processor_id(), &msc->accessibility)); + + return readl_relaxed(msc->mapped_hwpage + reg); +} + +static inline u32 _mpam_read_partsel_reg(struct mpam_msc *msc, u16 reg) +{ + lockdep_assert_held_once(&msc->part_sel_lock); + return __mpam_read_reg(msc, reg); +} + +#define mpam_read_partsel_reg(msc, reg) _mpam_read_partsel_reg(msc, MPAMF_##reg) + +static void __mpam_write_reg(struct mpam_msc *msc, u16 reg, u32 val) +{ + WARN_ON_ONCE(reg + sizeof(u32) > msc->mapped_hwpage_sz); + WARN_ON_ONCE(!cpumask_test_cpu(smp_processor_id(), &msc->accessibility)); + + writel_relaxed(val, msc->mapped_hwpage + reg); +} + +static inline void _mpam_write_partsel_reg(struct mpam_msc *msc, u16 reg, u32 val) +{ + lockdep_assert_held_once(&msc->part_sel_lock); + __mpam_write_reg(msc, reg, val); +} + +#define mpam_write_partsel_reg(msc, reg, val) _mpam_write_partsel_reg(msc, MPAMCFG_##reg, val) + +static inline u32 _mpam_read_monsel_reg(struct mpam_msc *msc, u16 reg) +{ + mpam_mon_sel_lock_held(msc); + return __mpam_read_reg(msc, reg); +} + +#define mpam_read_monsel_reg(msc, reg) _mpam_read_monsel_reg(msc, MSMON_##reg) + +static inline void _mpam_write_monsel_reg(struct mpam_msc *msc, u16 reg, u32 val) +{ + mpam_mon_sel_lock_held(msc); + __mpam_write_reg(msc, reg, val); +} + +#define mpam_write_monsel_reg(msc, reg, val) _mpam_write_monsel_reg(msc, MSMON_##reg, val) + +static u64 mpam_msc_read_idr(struct mpam_msc *msc) +{ + u64 idr_high = 0, idr_low; + + lockdep_assert_held(&msc->part_sel_lock); + + idr_low = mpam_read_partsel_reg(msc, IDR); + if (FIELD_GET(MPAMF_IDR_EXT, idr_low)) + idr_high = mpam_read_partsel_reg(msc, IDR + 4); + + return (idr_high << 32) | idr_low; +} + +static void mpam_msc_clear_esr(struct mpam_msc *msc) +{ + u64 esr_low = __mpam_read_reg(msc, MPAMF_ESR); + + if (!esr_low) + return; + + /* + * Clearing the high/low bits of MPAMF_ESR can not be atomic. + * Clear the top half first, so that the pending error bits in the + * lower half prevent hardware from updating either half of the + * register. + */ + if (msc->has_extd_esr) + __mpam_write_reg(msc, MPAMF_ESR + 4, 0); + __mpam_write_reg(msc, MPAMF_ESR, 0); +} + +static u64 mpam_msc_read_esr(struct mpam_msc *msc) +{ + u64 esr_high = 0, esr_low; + + esr_low = __mpam_read_reg(msc, MPAMF_ESR); + if (msc->has_extd_esr) + esr_high = __mpam_read_reg(msc, MPAMF_ESR + 4); + + return (esr_high << 32) | esr_low; +} + +static void __mpam_part_sel_raw(u32 partsel, struct mpam_msc *msc) +{ + lockdep_assert_held(&msc->part_sel_lock); + + mpam_write_partsel_reg(msc, PART_SEL, partsel); +} + +static void __mpam_part_sel(u8 ris_idx, u16 partid, struct mpam_msc *msc) +{ + u32 partsel = FIELD_PREP(MPAMCFG_PART_SEL_RIS, ris_idx) | + FIELD_PREP(MPAMCFG_PART_SEL_PARTID_SEL, partid); + + __mpam_part_sel_raw(partsel, msc); +} + +static void __mpam_intpart_sel(u8 ris_idx, u16 intpartid, struct mpam_msc *msc) +{ + u32 partsel = FIELD_PREP(MPAMCFG_PART_SEL_RIS, ris_idx) | + FIELD_PREP(MPAMCFG_PART_SEL_PARTID_SEL, intpartid) | + MPAMCFG_PART_SEL_INTERNAL; + + __mpam_part_sel_raw(partsel, msc); +} + +int mpam_register_requestor(u16 partid_max, u8 pmg_max) +{ + guard(spinlock)(&partid_max_lock); + if (!partid_max_init) { + mpam_partid_max = partid_max; + mpam_pmg_max = pmg_max; + partid_max_init = true; + } else if (!partid_max_published) { + mpam_partid_max = min(mpam_partid_max, partid_max); + mpam_pmg_max = min(mpam_pmg_max, pmg_max); + } else { + /* New requestors can't lower the values */ + if (partid_max < mpam_partid_max || pmg_max < mpam_pmg_max) + return -EBUSY; + } + + return 0; +} +EXPORT_SYMBOL(mpam_register_requestor); + +static struct mpam_class * +mpam_class_alloc(u8 level_idx, enum mpam_class_types type) +{ + struct mpam_class *class; + + lockdep_assert_held(&mpam_list_lock); + + class = kzalloc(sizeof(*class), GFP_KERNEL); + if (!class) + return ERR_PTR(-ENOMEM); + init_garbage(&class->garbage); + + INIT_LIST_HEAD_RCU(&class->components); + /* Affinity is updated when ris are added */ + class->level = level_idx; + class->type = type; + INIT_LIST_HEAD_RCU(&class->classes_list); + ida_init(&class->ida_csu_mon); + ida_init(&class->ida_mbwu_mon); + + list_add_rcu(&class->classes_list, &mpam_classes); + + return class; +} + +static void mpam_class_destroy(struct mpam_class *class) +{ + lockdep_assert_held(&mpam_list_lock); + + list_del_rcu(&class->classes_list); + add_to_garbage(class); +} + +static struct mpam_class * +mpam_class_find(u8 level_idx, enum mpam_class_types type) +{ + struct mpam_class *class; + + lockdep_assert_held(&mpam_list_lock); + + list_for_each_entry(class, &mpam_classes, classes_list) { + if (class->type == type && class->level == level_idx) + return class; + } + + return mpam_class_alloc(level_idx, type); +} + +static struct mpam_component * +mpam_component_alloc(struct mpam_class *class, int id) +{ + struct mpam_component *comp; + + lockdep_assert_held(&mpam_list_lock); + + comp = kzalloc(sizeof(*comp), GFP_KERNEL); + if (!comp) + return ERR_PTR(-ENOMEM); + init_garbage(&comp->garbage); + + comp->comp_id = id; + INIT_LIST_HEAD_RCU(&comp->vmsc); + /* Affinity is updated when RIS are added */ + INIT_LIST_HEAD_RCU(&comp->class_list); + comp->class = class; + + list_add_rcu(&comp->class_list, &class->components); + + return comp; +} + +static void __destroy_component_cfg(struct mpam_component *comp); + +static void mpam_component_destroy(struct mpam_component *comp) +{ + struct mpam_class *class = comp->class; + + lockdep_assert_held(&mpam_list_lock); + + __destroy_component_cfg(comp); + + list_del_rcu(&comp->class_list); + add_to_garbage(comp); + + if (list_empty(&class->components)) + mpam_class_destroy(class); +} + +static struct mpam_component * +mpam_component_find(struct mpam_class *class, int id) +{ + struct mpam_component *comp; + + lockdep_assert_held(&mpam_list_lock); + + list_for_each_entry(comp, &class->components, class_list) { + if (comp->comp_id == id) + return comp; + } + + return mpam_component_alloc(class, id); +} + +static struct mpam_vmsc * +mpam_vmsc_alloc(struct mpam_component *comp, struct mpam_msc *msc) +{ + struct mpam_vmsc *vmsc; + + lockdep_assert_held(&mpam_list_lock); + + vmsc = kzalloc(sizeof(*vmsc), GFP_KERNEL); + if (!vmsc) + return ERR_PTR(-ENOMEM); + init_garbage(&vmsc->garbage); + + INIT_LIST_HEAD_RCU(&vmsc->ris); + INIT_LIST_HEAD_RCU(&vmsc->comp_list); + vmsc->comp = comp; + vmsc->msc = msc; + + list_add_rcu(&vmsc->comp_list, &comp->vmsc); + + return vmsc; +} + +static void mpam_vmsc_destroy(struct mpam_vmsc *vmsc) +{ + struct mpam_component *comp = vmsc->comp; + + lockdep_assert_held(&mpam_list_lock); + + list_del_rcu(&vmsc->comp_list); + add_to_garbage(vmsc); + + if (list_empty(&comp->vmsc)) + mpam_component_destroy(comp); +} + +static struct mpam_vmsc * +mpam_vmsc_find(struct mpam_component *comp, struct mpam_msc *msc) +{ + struct mpam_vmsc *vmsc; + + lockdep_assert_held(&mpam_list_lock); + + list_for_each_entry(vmsc, &comp->vmsc, comp_list) { + if (vmsc->msc->id == msc->id) + return vmsc; + } + + return mpam_vmsc_alloc(comp, msc); +} + +/* + * The cacheinfo structures are only populated when CPUs are online. + * This helper walks the acpi tables to include offline CPUs too. + */ +int mpam_get_cpumask_from_cache_id(unsigned long cache_id, u32 cache_level, + cpumask_t *affinity) +{ + return acpi_pptt_get_cpumask_from_cache_id(cache_id, affinity); +} + +/* + * cpumask_of_node() only knows about online CPUs. This can't tell us whether + * a class is represented on all possible CPUs. + */ +static void get_cpumask_from_node_id(u32 node_id, cpumask_t *affinity) +{ + int cpu; + + for_each_possible_cpu(cpu) { + if (node_id == cpu_to_node(cpu)) + cpumask_set_cpu(cpu, affinity); + } +} + +static int mpam_ris_get_affinity(struct mpam_msc *msc, cpumask_t *affinity, + enum mpam_class_types type, + struct mpam_class *class, + struct mpam_component *comp) +{ + int err; + + switch (type) { + case MPAM_CLASS_CACHE: + err = mpam_get_cpumask_from_cache_id(comp->comp_id, class->level, + affinity); + if (err) { + dev_warn_once(&msc->pdev->dev, + "Failed to determine CPU affinity\n"); + return err; + } + + if (cpumask_empty(affinity)) + dev_warn_once(&msc->pdev->dev, "no CPUs associated with cache node\n"); + + break; + case MPAM_CLASS_MEMORY: + get_cpumask_from_node_id(comp->comp_id, affinity); + /* affinity may be empty for CPU-less memory nodes */ + break; + case MPAM_CLASS_UNKNOWN: + return 0; + } + + cpumask_and(affinity, affinity, &msc->accessibility); + + return 0; +} + +static int mpam_ris_create_locked(struct mpam_msc *msc, u8 ris_idx, + enum mpam_class_types type, u8 class_id, + int component_id) +{ + int err; + struct mpam_vmsc *vmsc; + struct mpam_msc_ris *ris; + struct mpam_class *class; + struct mpam_component *comp; + struct platform_device *pdev = msc->pdev; + + lockdep_assert_held(&mpam_list_lock); + + if (ris_idx > MPAM_MSC_MAX_NUM_RIS) + return -EINVAL; + + if (test_and_set_bit(ris_idx, &msc->ris_idxs)) + return -EBUSY; + + ris = devm_kzalloc(&msc->pdev->dev, sizeof(*ris), GFP_KERNEL); + if (!ris) + return -ENOMEM; + init_garbage(&ris->garbage); + ris->garbage.pdev = pdev; + + class = mpam_class_find(class_id, type); + if (IS_ERR(class)) + return PTR_ERR(class); + + comp = mpam_component_find(class, component_id); + if (IS_ERR(comp)) { + if (list_empty(&class->components)) + mpam_class_destroy(class); + return PTR_ERR(comp); + } + + vmsc = mpam_vmsc_find(comp, msc); + if (IS_ERR(vmsc)) { + if (list_empty(&comp->vmsc)) + mpam_component_destroy(comp); + return PTR_ERR(vmsc); + } + + err = mpam_ris_get_affinity(msc, &ris->affinity, type, class, comp); + if (err) { + if (list_empty(&vmsc->ris)) + mpam_vmsc_destroy(vmsc); + return err; + } + + ris->ris_idx = ris_idx; + INIT_LIST_HEAD_RCU(&ris->msc_list); + INIT_LIST_HEAD_RCU(&ris->vmsc_list); + ris->vmsc = vmsc; + + cpumask_or(&comp->affinity, &comp->affinity, &ris->affinity); + cpumask_or(&class->affinity, &class->affinity, &ris->affinity); + list_add_rcu(&ris->vmsc_list, &vmsc->ris); + list_add_rcu(&ris->msc_list, &msc->ris); + + return 0; +} + +static void mpam_ris_destroy(struct mpam_msc_ris *ris) +{ + struct mpam_vmsc *vmsc = ris->vmsc; + struct mpam_msc *msc = vmsc->msc; + struct mpam_component *comp = vmsc->comp; + struct mpam_class *class = comp->class; + + lockdep_assert_held(&mpam_list_lock); + + /* + * It is assumed affinities don't overlap. If they do the class becomes + * unusable immediately. + */ + cpumask_andnot(&class->affinity, &class->affinity, &ris->affinity); + cpumask_andnot(&comp->affinity, &comp->affinity, &ris->affinity); + clear_bit(ris->ris_idx, &msc->ris_idxs); + list_del_rcu(&ris->msc_list); + list_del_rcu(&ris->vmsc_list); + add_to_garbage(ris); + + if (list_empty(&vmsc->ris)) + mpam_vmsc_destroy(vmsc); +} + +int mpam_ris_create(struct mpam_msc *msc, u8 ris_idx, + enum mpam_class_types type, u8 class_id, int component_id) +{ + int err; + + mutex_lock(&mpam_list_lock); + err = mpam_ris_create_locked(msc, ris_idx, type, class_id, + component_id); + mutex_unlock(&mpam_list_lock); + if (err) + mpam_free_garbage(); + + return err; +} + +static struct mpam_msc_ris *mpam_get_or_create_ris(struct mpam_msc *msc, + u8 ris_idx) +{ + int err; + struct mpam_msc_ris *ris; + + lockdep_assert_held(&mpam_list_lock); + + if (!test_bit(ris_idx, &msc->ris_idxs)) { + err = mpam_ris_create_locked(msc, ris_idx, MPAM_CLASS_UNKNOWN, + 0, 0); + if (err) + return ERR_PTR(err); + } + + list_for_each_entry(ris, &msc->ris, msc_list) { + if (ris->ris_idx == ris_idx) + return ris; + } + + return ERR_PTR(-ENOENT); +} + +static int mpam_enable_quirk_nvidia_t241_1(struct mpam_msc *msc, + const struct mpam_quirk *quirk) +{ + s32 soc_id = arm_smccc_get_soc_id_version(); + struct resource *r; + phys_addr_t phys; + + /* + * A mapping to a device other than the MSC is needed, check + * SOC_ID is NVIDIA T241 chip (036b:0241) + */ + if (soc_id < 0 || soc_id != SMCCC_SOC_ID_T241) + return -EINVAL; + + r = platform_get_resource(msc->pdev, IORESOURCE_MEM, 0); + if (!r) + return -EINVAL; + + /* Find the internal registers base addr from the CHIP ID */ + msc->t241_id = T241_CHIP_ID(r->start); + phys = FIELD_PREP(GENMASK_ULL(45, 44), msc->t241_id) | 0x19000000ULL; + + t241_scratch_regs[msc->t241_id] = ioremap(phys, SZ_8M); + if (WARN_ON_ONCE(!t241_scratch_regs[msc->t241_id])) + return -EINVAL; + + pr_info_once("Enabled workaround for NVIDIA T241 erratum T241-MPAM-1\n"); + + return 0; +} + +static const struct mpam_quirk mpam_quirks[] = { + { + /* NVIDIA t241 erratum T241-MPAM-1 */ + .init = mpam_enable_quirk_nvidia_t241_1, + .iidr = MPAM_IIDR_NVIDIA_T241, + .iidr_mask = MPAM_IIDR_MATCH_ONE, + .workaround = T241_SCRUB_SHADOW_REGS, + }, + { + /* NVIDIA t241 erratum T241-MPAM-4 */ + .iidr = MPAM_IIDR_NVIDIA_T241, + .iidr_mask = MPAM_IIDR_MATCH_ONE, + .workaround = T241_FORCE_MBW_MIN_TO_ONE, + }, + { + /* NVIDIA t241 erratum T241-MPAM-6 */ + .iidr = MPAM_IIDR_NVIDIA_T241, + .iidr_mask = MPAM_IIDR_MATCH_ONE, + .workaround = T241_MBW_COUNTER_SCALE_64, + }, + { + /* ARM CMN-650 CSU erratum 3642720 */ + .iidr = MPAM_IIDR_ARM_CMN_650, + .iidr_mask = MPAM_IIDR_MATCH_ONE, + .workaround = IGNORE_CSU_NRDY, + }, + { NULL } /* Sentinel */ +}; + +static void mpam_enable_quirks(struct mpam_msc *msc) +{ + const struct mpam_quirk *quirk; + + for (quirk = &mpam_quirks[0]; quirk->iidr_mask; quirk++) { + int err = 0; + + if (quirk->iidr != (msc->iidr & quirk->iidr_mask)) + continue; + + if (quirk->init) + err = quirk->init(msc, quirk); + + if (err) + continue; + + mpam_set_quirk(quirk->workaround, msc); + } +} + +/* + * IHI009A.a has this nugget: "If a monitor does not support automatic behaviour + * of NRDY, software can use this bit for any purpose" - so hardware might not + * implement this - but it isn't RES0. + * + * Try and see what values stick in this bit. If we can write either value, + * its probably not implemented by hardware. + */ +static bool _mpam_ris_hw_probe_hw_nrdy(struct mpam_msc_ris *ris, u32 mon_reg) +{ + u32 now; + u64 mon_sel; + bool can_set, can_clear; + struct mpam_msc *msc = ris->vmsc->msc; + + if (WARN_ON_ONCE(!mpam_mon_sel_lock(msc))) + return false; + + mon_sel = FIELD_PREP(MSMON_CFG_MON_SEL_MON_SEL, 0) | + FIELD_PREP(MSMON_CFG_MON_SEL_RIS, ris->ris_idx); + _mpam_write_monsel_reg(msc, mon_reg, mon_sel); + + _mpam_write_monsel_reg(msc, mon_reg, MSMON___NRDY); + now = _mpam_read_monsel_reg(msc, mon_reg); + can_set = now & MSMON___NRDY; + + _mpam_write_monsel_reg(msc, mon_reg, 0); + now = _mpam_read_monsel_reg(msc, mon_reg); + can_clear = !(now & MSMON___NRDY); + mpam_mon_sel_unlock(msc); + + return (!can_set || !can_clear); +} + +#define mpam_ris_hw_probe_hw_nrdy(_ris, _mon_reg) \ + _mpam_ris_hw_probe_hw_nrdy(_ris, MSMON_##_mon_reg) + +static void mpam_ris_hw_probe(struct mpam_msc_ris *ris) +{ + int err; + struct mpam_msc *msc = ris->vmsc->msc; + struct device *dev = &msc->pdev->dev; + struct mpam_props *props = &ris->props; + struct mpam_class *class = ris->vmsc->comp->class; + + lockdep_assert_held(&msc->probe_lock); + lockdep_assert_held(&msc->part_sel_lock); + + /* Cache Capacity Partitioning */ + if (FIELD_GET(MPAMF_IDR_HAS_CCAP_PART, ris->idr)) { + u32 ccap_features = mpam_read_partsel_reg(msc, CCAP_IDR); + + props->cmax_wd = FIELD_GET(MPAMF_CCAP_IDR_CMAX_WD, ccap_features); + if (props->cmax_wd && + FIELD_GET(MPAMF_CCAP_IDR_HAS_CMAX_SOFTLIM, ccap_features)) + mpam_set_feature(mpam_feat_cmax_softlim, props); + + if (props->cmax_wd && + !FIELD_GET(MPAMF_CCAP_IDR_NO_CMAX, ccap_features)) + mpam_set_feature(mpam_feat_cmax_cmax, props); + + if (props->cmax_wd && + FIELD_GET(MPAMF_CCAP_IDR_HAS_CMIN, ccap_features)) + mpam_set_feature(mpam_feat_cmax_cmin, props); + + props->cassoc_wd = FIELD_GET(MPAMF_CCAP_IDR_CASSOC_WD, ccap_features); + if (props->cassoc_wd && + FIELD_GET(MPAMF_CCAP_IDR_HAS_CASSOC, ccap_features)) + mpam_set_feature(mpam_feat_cmax_cassoc, props); + } + + /* Cache Portion partitioning */ + if (FIELD_GET(MPAMF_IDR_HAS_CPOR_PART, ris->idr)) { + u32 cpor_features = mpam_read_partsel_reg(msc, CPOR_IDR); + + props->cpbm_wd = FIELD_GET(MPAMF_CPOR_IDR_CPBM_WD, cpor_features); + if (props->cpbm_wd) + mpam_set_feature(mpam_feat_cpor_part, props); + } + + /* Memory bandwidth partitioning */ + if (FIELD_GET(MPAMF_IDR_HAS_MBW_PART, ris->idr)) { + u32 mbw_features = mpam_read_partsel_reg(msc, MBW_IDR); + + /* portion bitmap resolution */ + props->mbw_pbm_bits = FIELD_GET(MPAMF_MBW_IDR_BWPBM_WD, mbw_features); + if (props->mbw_pbm_bits && + FIELD_GET(MPAMF_MBW_IDR_HAS_PBM, mbw_features)) + mpam_set_feature(mpam_feat_mbw_part, props); + + props->bwa_wd = FIELD_GET(MPAMF_MBW_IDR_BWA_WD, mbw_features); + + /* + * The BWA_WD field can represent 0-63, but the control fields it + * describes have a maximum of 16 bits. + */ + props->bwa_wd = min(props->bwa_wd, 16); + + if (props->bwa_wd && FIELD_GET(MPAMF_MBW_IDR_HAS_MAX, mbw_features)) + mpam_set_feature(mpam_feat_mbw_max, props); + + if (props->bwa_wd && FIELD_GET(MPAMF_MBW_IDR_HAS_MIN, mbw_features)) + mpam_set_feature(mpam_feat_mbw_min, props); + + if (props->bwa_wd && FIELD_GET(MPAMF_MBW_IDR_HAS_PROP, mbw_features)) + mpam_set_feature(mpam_feat_mbw_prop, props); + } + + /* Priority partitioning */ + if (FIELD_GET(MPAMF_IDR_HAS_PRI_PART, ris->idr)) { + u32 pri_features = mpam_read_partsel_reg(msc, PRI_IDR); + + props->intpri_wd = FIELD_GET(MPAMF_PRI_IDR_INTPRI_WD, pri_features); + if (props->intpri_wd && FIELD_GET(MPAMF_PRI_IDR_HAS_INTPRI, pri_features)) { + mpam_set_feature(mpam_feat_intpri_part, props); + if (FIELD_GET(MPAMF_PRI_IDR_INTPRI_0_IS_LOW, pri_features)) + mpam_set_feature(mpam_feat_intpri_part_0_low, props); + } + + props->dspri_wd = FIELD_GET(MPAMF_PRI_IDR_DSPRI_WD, pri_features); + if (props->dspri_wd && FIELD_GET(MPAMF_PRI_IDR_HAS_DSPRI, pri_features)) { + mpam_set_feature(mpam_feat_dspri_part, props); + if (FIELD_GET(MPAMF_PRI_IDR_DSPRI_0_IS_LOW, pri_features)) + mpam_set_feature(mpam_feat_dspri_part_0_low, props); + } + } + + /* Performance Monitoring */ + if (FIELD_GET(MPAMF_IDR_HAS_MSMON, ris->idr)) { + u32 msmon_features = mpam_read_partsel_reg(msc, MSMON_IDR); + + /* + * If the firmware max-nrdy-us property is missing, the + * CSU counters can't be used. Should we wait forever? + */ + err = device_property_read_u32(&msc->pdev->dev, + "arm,not-ready-us", + &msc->nrdy_usec); + + if (FIELD_GET(MPAMF_MSMON_IDR_MSMON_CSU, msmon_features)) { + u32 csumonidr; + + csumonidr = mpam_read_partsel_reg(msc, CSUMON_IDR); + props->num_csu_mon = FIELD_GET(MPAMF_CSUMON_IDR_NUM_MON, csumonidr); + if (props->num_csu_mon) { + bool hw_managed; + + mpam_set_feature(mpam_feat_msmon_csu, props); + + if (FIELD_GET(MPAMF_CSUMON_IDR_HAS_XCL, csumonidr)) + mpam_set_feature(mpam_feat_msmon_csu_xcl, props); + + /* Is NRDY hardware managed? */ + hw_managed = mpam_ris_hw_probe_hw_nrdy(ris, CSU); + if (hw_managed) + mpam_set_feature(mpam_feat_msmon_csu_hw_nrdy, props); + } + + /* + * Accept the missing firmware property if NRDY appears + * un-implemented. + */ + if (err && mpam_has_feature(mpam_feat_msmon_csu_hw_nrdy, props)) + dev_err_once(dev, "Counters are not usable because not-ready timeout was not provided by firmware."); + } + if (FIELD_GET(MPAMF_MSMON_IDR_MSMON_MBWU, msmon_features)) { + bool has_long, hw_managed; + u32 mbwumon_idr = mpam_read_partsel_reg(msc, MBWUMON_IDR); + + props->num_mbwu_mon = FIELD_GET(MPAMF_MBWUMON_IDR_NUM_MON, mbwumon_idr); + if (props->num_mbwu_mon) { + mpam_set_feature(mpam_feat_msmon_mbwu, props); + + if (FIELD_GET(MPAMF_MBWUMON_IDR_HAS_RWBW, mbwumon_idr)) + mpam_set_feature(mpam_feat_msmon_mbwu_rwbw, props); + + has_long = FIELD_GET(MPAMF_MBWUMON_IDR_HAS_LONG, mbwumon_idr); + if (has_long) { + if (FIELD_GET(MPAMF_MBWUMON_IDR_LWD, mbwumon_idr)) + mpam_set_feature(mpam_feat_msmon_mbwu_63counter, props); + else + mpam_set_feature(mpam_feat_msmon_mbwu_44counter, props); + } else { + mpam_set_feature(mpam_feat_msmon_mbwu_31counter, props); + } + + /* Is NRDY hardware managed? */ + hw_managed = mpam_ris_hw_probe_hw_nrdy(ris, MBWU); + if (hw_managed) + mpam_set_feature(mpam_feat_msmon_mbwu_hw_nrdy, props); + + /* + * Don't warn about any missing firmware property for + * MBWU NRDY - it doesn't make any sense! + */ + } + } + } + + /* + * RIS with PARTID narrowing don't have enough storage for one + * configuration per PARTID. If these are in a class we could use, + * reduce the supported partid_max to match the number of intpartid. + * If the class is unknown, just ignore it. + */ + if (FIELD_GET(MPAMF_IDR_HAS_PARTID_NRW, ris->idr) && + class->type != MPAM_CLASS_UNKNOWN) { + u32 nrwidr = mpam_read_partsel_reg(msc, PARTID_NRW_IDR); + u16 partid_max = FIELD_GET(MPAMF_PARTID_NRW_IDR_INTPARTID_MAX, nrwidr); + + mpam_set_feature(mpam_feat_partid_nrw, props); + msc->partid_max = min(msc->partid_max, partid_max); + } +} + +static int mpam_msc_hw_probe(struct mpam_msc *msc) +{ + u64 idr; + u16 partid_max; + u8 ris_idx, pmg_max; + struct mpam_msc_ris *ris; + struct device *dev = &msc->pdev->dev; + + lockdep_assert_held(&msc->probe_lock); + + idr = __mpam_read_reg(msc, MPAMF_AIDR); + if ((idr & MPAMF_AIDR_ARCH_MAJOR_REV) != MPAM_ARCHITECTURE_V1) { + dev_err_once(dev, "MSC does not match MPAM architecture v1.x\n"); + return -EIO; + } + + /* Grab an IDR value to find out how many RIS there are */ + mutex_lock(&msc->part_sel_lock); + idr = mpam_msc_read_idr(msc); + msc->iidr = mpam_read_partsel_reg(msc, IIDR); + mutex_unlock(&msc->part_sel_lock); + + mpam_enable_quirks(msc); + + msc->ris_max = FIELD_GET(MPAMF_IDR_RIS_MAX, idr); + + /* Use these values so partid/pmg always starts with a valid value */ + msc->partid_max = FIELD_GET(MPAMF_IDR_PARTID_MAX, idr); + msc->pmg_max = FIELD_GET(MPAMF_IDR_PMG_MAX, idr); + + for (ris_idx = 0; ris_idx <= msc->ris_max; ris_idx++) { + mutex_lock(&msc->part_sel_lock); + __mpam_part_sel(ris_idx, 0, msc); + idr = mpam_msc_read_idr(msc); + mutex_unlock(&msc->part_sel_lock); + + partid_max = FIELD_GET(MPAMF_IDR_PARTID_MAX, idr); + pmg_max = FIELD_GET(MPAMF_IDR_PMG_MAX, idr); + msc->partid_max = min(msc->partid_max, partid_max); + msc->pmg_max = min(msc->pmg_max, pmg_max); + msc->has_extd_esr = FIELD_GET(MPAMF_IDR_HAS_EXTD_ESR, idr); + + mutex_lock(&mpam_list_lock); + ris = mpam_get_or_create_ris(msc, ris_idx); + mutex_unlock(&mpam_list_lock); + if (IS_ERR(ris)) + return PTR_ERR(ris); + ris->idr = idr; + + mutex_lock(&msc->part_sel_lock); + __mpam_part_sel(ris_idx, 0, msc); + mpam_ris_hw_probe(ris); + mutex_unlock(&msc->part_sel_lock); + } + + /* Clear any stale errors */ + mpam_msc_clear_esr(msc); + + spin_lock(&partid_max_lock); + mpam_partid_max = min(mpam_partid_max, msc->partid_max); + mpam_pmg_max = min(mpam_pmg_max, msc->pmg_max); + spin_unlock(&partid_max_lock); + + msc->probed = true; + + return 0; +} + +struct mon_read { + struct mpam_msc_ris *ris; + struct mon_cfg *ctx; + enum mpam_device_features type; + u64 *val; + int err; + bool waited_timeout; +}; + +static bool mpam_ris_has_mbwu_long_counter(struct mpam_msc_ris *ris) +{ + return (mpam_has_feature(mpam_feat_msmon_mbwu_63counter, &ris->props) || + mpam_has_feature(mpam_feat_msmon_mbwu_44counter, &ris->props)); +} + +static u64 mpam_msc_read_mbwu_l(struct mpam_msc *msc) +{ + int retry = 3; + u32 mbwu_l_low; + u64 mbwu_l_high1, mbwu_l_high2; + + mpam_mon_sel_lock_held(msc); + + WARN_ON_ONCE((MSMON_MBWU_L + sizeof(u64)) > msc->mapped_hwpage_sz); + WARN_ON_ONCE(!cpumask_test_cpu(smp_processor_id(), &msc->accessibility)); + + mbwu_l_high2 = __mpam_read_reg(msc, MSMON_MBWU_L + 4); + do { + mbwu_l_high1 = mbwu_l_high2; + mbwu_l_low = __mpam_read_reg(msc, MSMON_MBWU_L); + mbwu_l_high2 = __mpam_read_reg(msc, MSMON_MBWU_L + 4); + + retry--; + } while (mbwu_l_high1 != mbwu_l_high2 && retry > 0); + + if (mbwu_l_high1 == mbwu_l_high2) + return (mbwu_l_high1 << 32) | mbwu_l_low; + + pr_warn("Failed to read a stable value\n"); + return MSMON___L_NRDY; +} + +static void mpam_msc_zero_mbwu_l(struct mpam_msc *msc) +{ + mpam_mon_sel_lock_held(msc); + + WARN_ON_ONCE((MSMON_MBWU_L + sizeof(u64)) > msc->mapped_hwpage_sz); + WARN_ON_ONCE(!cpumask_test_cpu(smp_processor_id(), &msc->accessibility)); + + __mpam_write_reg(msc, MSMON_MBWU_L, 0); + __mpam_write_reg(msc, MSMON_MBWU_L + 4, 0); +} + +static void gen_msmon_ctl_flt_vals(struct mon_read *m, u32 *ctl_val, + u32 *flt_val) +{ + struct mon_cfg *ctx = m->ctx; + + /* + * For CSU counters its implementation-defined what happens when not + * filtering by partid. + */ + *ctl_val = MSMON_CFG_x_CTL_MATCH_PARTID; + + *flt_val = FIELD_PREP(MSMON_CFG_x_FLT_PARTID, ctx->partid); + + if (m->ctx->match_pmg) { + *ctl_val |= MSMON_CFG_x_CTL_MATCH_PMG; + *flt_val |= FIELD_PREP(MSMON_CFG_x_FLT_PMG, ctx->pmg); + } + + switch (m->type) { + case mpam_feat_msmon_csu: + *ctl_val |= MSMON_CFG_CSU_CTL_TYPE_CSU; + + if (mpam_has_feature(mpam_feat_msmon_csu_xcl, &m->ris->props)) + *flt_val |= FIELD_PREP(MSMON_CFG_CSU_FLT_XCL, ctx->csu_exclude_clean); + + break; + case mpam_feat_msmon_mbwu_31counter: + case mpam_feat_msmon_mbwu_44counter: + case mpam_feat_msmon_mbwu_63counter: + *ctl_val |= MSMON_CFG_MBWU_CTL_TYPE_MBWU; + + if (mpam_has_feature(mpam_feat_msmon_mbwu_rwbw, &m->ris->props)) + *flt_val |= FIELD_PREP(MSMON_CFG_MBWU_FLT_RWBW, ctx->opts); + + break; + default: + pr_warn("Unexpected monitor type %d\n", m->type); + } +} + +static void read_msmon_ctl_flt_vals(struct mon_read *m, u32 *ctl_val, + u32 *flt_val) +{ + struct mpam_msc *msc = m->ris->vmsc->msc; + + switch (m->type) { + case mpam_feat_msmon_csu: + *ctl_val = mpam_read_monsel_reg(msc, CFG_CSU_CTL); + *flt_val = mpam_read_monsel_reg(msc, CFG_CSU_FLT); + break; + case mpam_feat_msmon_mbwu_31counter: + case mpam_feat_msmon_mbwu_44counter: + case mpam_feat_msmon_mbwu_63counter: + *ctl_val = mpam_read_monsel_reg(msc, CFG_MBWU_CTL); + *flt_val = mpam_read_monsel_reg(msc, CFG_MBWU_FLT); + break; + default: + pr_warn("Unexpected monitor type %d\n", m->type); + } +} + +/* Remove values set by the hardware to prevent apparent mismatches. */ +static inline void clean_msmon_ctl_val(u32 *cur_ctl) +{ + *cur_ctl &= ~MSMON_CFG_x_CTL_OFLOW_STATUS; + + if (FIELD_GET(MSMON_CFG_x_CTL_TYPE, *cur_ctl) == MSMON_CFG_MBWU_CTL_TYPE_MBWU) + *cur_ctl &= ~MSMON_CFG_MBWU_CTL_OFLOW_STATUS_L; +} + +static void write_msmon_ctl_flt_vals(struct mon_read *m, u32 ctl_val, + u32 flt_val) +{ + struct mpam_msc *msc = m->ris->vmsc->msc; + + /* + * Write the ctl_val with the enable bit cleared, reset the counter, + * then enable counter. + */ + switch (m->type) { + case mpam_feat_msmon_csu: + mpam_write_monsel_reg(msc, CFG_CSU_FLT, flt_val); + mpam_write_monsel_reg(msc, CFG_CSU_CTL, ctl_val); + mpam_write_monsel_reg(msc, CSU, 0); + mpam_write_monsel_reg(msc, CFG_CSU_CTL, ctl_val | MSMON_CFG_x_CTL_EN); + break; + case mpam_feat_msmon_mbwu_31counter: + case mpam_feat_msmon_mbwu_44counter: + case mpam_feat_msmon_mbwu_63counter: + mpam_write_monsel_reg(msc, CFG_MBWU_FLT, flt_val); + mpam_write_monsel_reg(msc, CFG_MBWU_CTL, ctl_val); + mpam_write_monsel_reg(msc, CFG_MBWU_CTL, ctl_val | MSMON_CFG_x_CTL_EN); + /* Counting monitors require NRDY to be reset by software */ + if (m->type == mpam_feat_msmon_mbwu_31counter) + mpam_write_monsel_reg(msc, MBWU, 0); + else + mpam_msc_zero_mbwu_l(m->ris->vmsc->msc); + break; + default: + pr_warn("Unexpected monitor type %d\n", m->type); + } +} + +static u64 __mpam_msmon_overflow_val(enum mpam_device_features type) +{ + /* TODO: implement scaling counters */ + switch (type) { + case mpam_feat_msmon_mbwu_63counter: + return BIT_ULL(hweight_long(MSMON___LWD_VALUE)); + case mpam_feat_msmon_mbwu_44counter: + return BIT_ULL(hweight_long(MSMON___L_VALUE)); + case mpam_feat_msmon_mbwu_31counter: + return BIT_ULL(hweight_long(MSMON___VALUE)); + default: + return 0; + } +} + +static u64 mpam_msmon_overflow_val(enum mpam_device_features type, + struct mpam_msc *msc) +{ + u64 overflow_val = __mpam_msmon_overflow_val(type); + + if (mpam_has_quirk(T241_MBW_COUNTER_SCALE_64, msc) && + type != mpam_feat_msmon_mbwu_63counter) + overflow_val *= 64; + + return overflow_val; +} + +static void __ris_msmon_read(void *arg) +{ + u64 now; + bool nrdy = false; + bool config_mismatch; + bool overflow; + struct mon_read *m = arg; + struct mon_cfg *ctx = m->ctx; + bool reset_on_next_read = false; + struct mpam_msc_ris *ris = m->ris; + struct msmon_mbwu_state *mbwu_state; + struct mpam_props *rprops = &ris->props; + struct mpam_msc *msc = m->ris->vmsc->msc; + u32 mon_sel, ctl_val, flt_val, cur_ctl, cur_flt; + + if (!mpam_mon_sel_lock(msc)) { + m->err = -EIO; + return; + } + mon_sel = FIELD_PREP(MSMON_CFG_MON_SEL_MON_SEL, ctx->mon) | + FIELD_PREP(MSMON_CFG_MON_SEL_RIS, ris->ris_idx); + mpam_write_monsel_reg(msc, CFG_MON_SEL, mon_sel); + + switch (m->type) { + case mpam_feat_msmon_mbwu_31counter: + case mpam_feat_msmon_mbwu_44counter: + case mpam_feat_msmon_mbwu_63counter: + mbwu_state = &ris->mbwu_state[ctx->mon]; + if (mbwu_state) { + reset_on_next_read = mbwu_state->reset_on_next_read; + mbwu_state->reset_on_next_read = false; + } + break; + default: + break; + } + + /* + * Read the existing configuration to avoid re-writing the same values. + * This saves waiting for 'nrdy' on subsequent reads. + */ + read_msmon_ctl_flt_vals(m, &cur_ctl, &cur_flt); + + if (mpam_feat_msmon_mbwu_31counter == m->type) + overflow = cur_ctl & MSMON_CFG_x_CTL_OFLOW_STATUS; + else if (mpam_feat_msmon_mbwu_44counter == m->type || + mpam_feat_msmon_mbwu_63counter == m->type) + overflow = cur_ctl & MSMON_CFG_MBWU_CTL_OFLOW_STATUS_L; + + clean_msmon_ctl_val(&cur_ctl); + gen_msmon_ctl_flt_vals(m, &ctl_val, &flt_val); + config_mismatch = cur_flt != flt_val || + cur_ctl != (ctl_val | MSMON_CFG_x_CTL_EN); + + if (config_mismatch || reset_on_next_read) { + write_msmon_ctl_flt_vals(m, ctl_val, flt_val); + overflow = false; + } else if (overflow) { + mpam_write_monsel_reg(msc, CFG_MBWU_CTL, + cur_ctl & + ~(MSMON_CFG_x_CTL_OFLOW_STATUS | + MSMON_CFG_MBWU_CTL_OFLOW_STATUS_L)); + } + + switch (m->type) { + case mpam_feat_msmon_csu: + now = mpam_read_monsel_reg(msc, CSU); + if (mpam_has_feature(mpam_feat_msmon_csu_hw_nrdy, rprops)) + nrdy = now & MSMON___NRDY; + now = FIELD_GET(MSMON___VALUE, now); + + if (mpam_has_quirk(IGNORE_CSU_NRDY, msc) && m->waited_timeout) + nrdy = false; + + break; + case mpam_feat_msmon_mbwu_31counter: + case mpam_feat_msmon_mbwu_44counter: + case mpam_feat_msmon_mbwu_63counter: + if (m->type != mpam_feat_msmon_mbwu_31counter) { + now = mpam_msc_read_mbwu_l(msc); + if (mpam_has_feature(mpam_feat_msmon_mbwu_hw_nrdy, rprops)) + nrdy = now & MSMON___L_NRDY; + + if (m->type == mpam_feat_msmon_mbwu_63counter) + now = FIELD_GET(MSMON___LWD_VALUE, now); + else + now = FIELD_GET(MSMON___L_VALUE, now); + } else { + now = mpam_read_monsel_reg(msc, MBWU); + if (mpam_has_feature(mpam_feat_msmon_mbwu_hw_nrdy, rprops)) + nrdy = now & MSMON___NRDY; + now = FIELD_GET(MSMON___VALUE, now); + } + + if (mpam_has_quirk(T241_MBW_COUNTER_SCALE_64, msc) && + m->type != mpam_feat_msmon_mbwu_63counter) + now *= 64; + + if (nrdy) + break; + + mbwu_state = &ris->mbwu_state[ctx->mon]; + + if (overflow) + mbwu_state->correction += mpam_msmon_overflow_val(m->type, msc); + + /* + * Include bandwidth consumed before the last hardware reset and + * a counter size increment for each overflow. + */ + now += mbwu_state->correction; + break; + default: + m->err = -EINVAL; + } + mpam_mon_sel_unlock(msc); + + if (nrdy) { + m->err = -EBUSY; + return; + } + + *m->val += now; +} + +static int _msmon_read(struct mpam_component *comp, struct mon_read *arg) +{ + int err, any_err = 0; + struct mpam_vmsc *vmsc; + + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(vmsc, &comp->vmsc, comp_list, + srcu_read_lock_held(&mpam_srcu)) { + struct mpam_msc *msc = vmsc->msc; + struct mpam_msc_ris *ris; + + list_for_each_entry_srcu(ris, &vmsc->ris, vmsc_list, + srcu_read_lock_held(&mpam_srcu)) { + arg->ris = ris; + + err = smp_call_function_any(&msc->accessibility, + __ris_msmon_read, arg, + true); + if (!err && arg->err) + err = arg->err; + + /* + * Save one error to be returned to the caller, but + * keep reading counters so that get reprogrammed. On + * platforms with NRDY this lets us wait once. + */ + if (err) + any_err = err; + } + } + + return any_err; +} + +static enum mpam_device_features mpam_msmon_choose_counter(struct mpam_class *class) +{ + struct mpam_props *cprops = &class->props; + + if (mpam_has_feature(mpam_feat_msmon_mbwu_63counter, cprops)) + return mpam_feat_msmon_mbwu_63counter; + if (mpam_has_feature(mpam_feat_msmon_mbwu_44counter, cprops)) + return mpam_feat_msmon_mbwu_44counter; + + return mpam_feat_msmon_mbwu_31counter; +} + +int mpam_msmon_read(struct mpam_component *comp, struct mon_cfg *ctx, + enum mpam_device_features type, u64 *val) +{ + int err; + struct mon_read arg; + u64 wait_jiffies = 0; + struct mpam_class *class = comp->class; + struct mpam_props *cprops = &class->props; + + might_sleep(); + + if (!mpam_is_enabled()) + return -EIO; + + if (!mpam_has_feature(type, cprops)) + return -EOPNOTSUPP; + + if (type == mpam_feat_msmon_mbwu) + type = mpam_msmon_choose_counter(class); + + arg = (struct mon_read) { + .ctx = ctx, + .type = type, + .val = val, + }; + *val = 0; + + err = _msmon_read(comp, &arg); + if (err == -EBUSY && class->nrdy_usec) + wait_jiffies = usecs_to_jiffies(class->nrdy_usec); + + while (wait_jiffies) + wait_jiffies = schedule_timeout_uninterruptible(wait_jiffies); + + if (err == -EBUSY) { + arg = (struct mon_read) { + .ctx = ctx, + .type = type, + .val = val, + .waited_timeout = true, + }; + *val = 0; + + err = _msmon_read(comp, &arg); + } + + return err; +} + +void mpam_msmon_reset_mbwu(struct mpam_component *comp, struct mon_cfg *ctx) +{ + struct mpam_msc *msc; + struct mpam_vmsc *vmsc; + struct mpam_msc_ris *ris; + + if (!mpam_is_enabled()) + return; + + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(vmsc, &comp->vmsc, comp_list, + srcu_read_lock_held(&mpam_srcu)) { + if (!mpam_has_feature(mpam_feat_msmon_mbwu, &vmsc->props)) + continue; + + msc = vmsc->msc; + list_for_each_entry_srcu(ris, &vmsc->ris, vmsc_list, + srcu_read_lock_held(&mpam_srcu)) { + if (!mpam_has_feature(mpam_feat_msmon_mbwu, &ris->props)) + continue; + + if (WARN_ON_ONCE(!mpam_mon_sel_lock(msc))) + continue; + + ris->mbwu_state[ctx->mon].correction = 0; + ris->mbwu_state[ctx->mon].reset_on_next_read = true; + mpam_mon_sel_unlock(msc); + } + } +} + +static void mpam_reset_msc_bitmap(struct mpam_msc *msc, u16 reg, u16 wd) +{ + u32 num_words, msb; + u32 bm = ~0; + int i; + + lockdep_assert_held(&msc->part_sel_lock); + + if (wd == 0) + return; + + /* + * Write all ~0 to all but the last 32bit-word, which may + * have fewer bits... + */ + num_words = DIV_ROUND_UP(wd, 32); + for (i = 0; i < num_words - 1; i++, reg += sizeof(bm)) + __mpam_write_reg(msc, reg, bm); + + /* + * ....and then the last (maybe) partial 32bit word. When wd is a + * multiple of 32, msb should be 31 to write a full 32bit word. + */ + msb = (wd - 1) % 32; + bm = GENMASK(msb, 0); + __mpam_write_reg(msc, reg, bm); +} + +static void mpam_apply_t241_erratum(struct mpam_msc_ris *ris, u16 partid) +{ + int sidx, i, lcount = 1000; + void __iomem *regs; + u64 val0, val; + + regs = t241_scratch_regs[ris->vmsc->msc->t241_id]; + + for (i = 0; i < lcount; i++) { + /* Read the shadow register at index 0 */ + val0 = readq_relaxed(regs + T241_SHADOW_REG_OFF(0, partid)); + + /* Check if all the shadow registers have the same value */ + for (sidx = 1; sidx < T241_CHIP_NSLICES; sidx++) { + val = readq_relaxed(regs + + T241_SHADOW_REG_OFF(sidx, partid)); + if (val != val0) + break; + } + if (sidx == T241_CHIP_NSLICES) + break; + } + + if (i == lcount) + pr_warn_once("t241: inconsistent values in shadow regs"); + + /* Write a value zero to spare registers to take effect of MBW conf */ + writeq_relaxed(0, regs + T241_SPARE_REG0_OFF); + writeq_relaxed(0, regs + T241_SPARE_REG1_OFF); +} + +static void mpam_quirk_post_config_change(struct mpam_msc_ris *ris, u16 partid, + struct mpam_config *cfg) +{ + if (mpam_has_quirk(T241_SCRUB_SHADOW_REGS, ris->vmsc->msc)) + mpam_apply_t241_erratum(ris, partid); +} + +static u16 mpam_wa_t241_force_mbw_min_to_one(struct mpam_props *props) +{ + u16 max_hw_value, min_hw_granule, res0_bits; + + res0_bits = 16 - props->bwa_wd; + max_hw_value = ((1 << props->bwa_wd) - 1) << res0_bits; + min_hw_granule = ~max_hw_value; + + return min_hw_granule + 1; +} + +static u16 mpam_wa_t241_calc_min_from_max(struct mpam_props *props, + struct mpam_config *cfg) +{ + u16 val = 0; + u16 max; + u16 delta = ((5 * MPAMCFG_MBW_MAX_MAX) / 100) - 1; + + if (mpam_has_feature(mpam_feat_mbw_max, cfg)) { + max = cfg->mbw_max; + } else { + /* Resetting. Hence, use the ris specific default. */ + max = GENMASK(15, 16 - props->bwa_wd); + } + + if (max > delta) + val = max - delta; + + return val; +} + +/* Called via IPI. Call while holding an SRCU reference */ +static void mpam_reprogram_ris_partid(struct mpam_msc_ris *ris, u16 partid, + struct mpam_config *cfg) +{ + u32 pri_val = 0; + u16 cmax = MPAMCFG_CMAX_CMAX; + struct mpam_msc *msc = ris->vmsc->msc; + struct mpam_props *rprops = &ris->props; + u16 dspri = GENMASK(rprops->dspri_wd, 0); + u16 intpri = GENMASK(rprops->intpri_wd, 0); + + mutex_lock(&msc->part_sel_lock); + __mpam_part_sel(ris->ris_idx, partid, msc); + + if (mpam_has_feature(mpam_feat_partid_nrw, rprops)) { + /* Update the intpartid mapping */ + mpam_write_partsel_reg(msc, INTPARTID, + MPAMCFG_INTPARTID_INTERNAL | partid); + + /* + * Then switch to the 'internal' partid to update the + * configuration. + */ + __mpam_intpart_sel(ris->ris_idx, partid, msc); + } + + if (mpam_has_feature(mpam_feat_cpor_part, rprops)) { + if (mpam_has_feature(mpam_feat_cpor_part, cfg)) + mpam_write_partsel_reg(msc, CPBM, cfg->cpbm); + else + mpam_reset_msc_bitmap(msc, MPAMCFG_CPBM, rprops->cpbm_wd); + } + + if (mpam_has_feature(mpam_feat_mbw_part, rprops)) { + if (mpam_has_feature(mpam_feat_mbw_part, cfg)) + mpam_reset_msc_bitmap(msc, MPAMCFG_MBW_PBM, rprops->mbw_pbm_bits); + else + mpam_write_partsel_reg(msc, MBW_PBM, cfg->mbw_pbm); + } + + if (mpam_has_feature(mpam_feat_mbw_min, rprops)) { + u16 val = 0; + + if (mpam_has_quirk(T241_FORCE_MBW_MIN_TO_ONE, msc)) { + u16 min = mpam_wa_t241_force_mbw_min_to_one(rprops); + + val = mpam_wa_t241_calc_min_from_max(rprops, cfg); + val = max(val, min); + } + + mpam_write_partsel_reg(msc, MBW_MIN, val); + } + + if (mpam_has_feature(mpam_feat_mbw_max, rprops)) { + if (mpam_has_feature(mpam_feat_mbw_max, cfg)) + mpam_write_partsel_reg(msc, MBW_MAX, cfg->mbw_max); + else + mpam_write_partsel_reg(msc, MBW_MAX, MPAMCFG_MBW_MAX_MAX); + } + + if (mpam_has_feature(mpam_feat_mbw_prop, rprops)) + mpam_write_partsel_reg(msc, MBW_PROP, 0); + + if (mpam_has_feature(mpam_feat_cmax_cmax, rprops)) + mpam_write_partsel_reg(msc, CMAX, cmax); + + if (mpam_has_feature(mpam_feat_cmax_cmin, rprops)) + mpam_write_partsel_reg(msc, CMIN, 0); + + if (mpam_has_feature(mpam_feat_cmax_cassoc, rprops)) + mpam_write_partsel_reg(msc, CASSOC, MPAMCFG_CASSOC_CASSOC); + + if (mpam_has_feature(mpam_feat_intpri_part, rprops) || + mpam_has_feature(mpam_feat_dspri_part, rprops)) { + /* aces high? */ + if (!mpam_has_feature(mpam_feat_intpri_part_0_low, rprops)) + intpri = 0; + if (!mpam_has_feature(mpam_feat_dspri_part_0_low, rprops)) + dspri = 0; + + if (mpam_has_feature(mpam_feat_intpri_part, rprops)) + pri_val |= FIELD_PREP(MPAMCFG_PRI_INTPRI, intpri); + if (mpam_has_feature(mpam_feat_dspri_part, rprops)) + pri_val |= FIELD_PREP(MPAMCFG_PRI_DSPRI, dspri); + + mpam_write_partsel_reg(msc, PRI, pri_val); + } + + mpam_quirk_post_config_change(ris, partid, cfg); + + mutex_unlock(&msc->part_sel_lock); +} + +/* Call with msc cfg_lock held */ +static int mpam_restore_mbwu_state(void *_ris) +{ + int i; + struct mon_read mwbu_arg; + struct mpam_msc_ris *ris = _ris; + struct mpam_class *class = ris->vmsc->comp->class; + + for (i = 0; i < ris->props.num_mbwu_mon; i++) { + if (ris->mbwu_state[i].enabled) { + mwbu_arg.ris = ris; + mwbu_arg.ctx = &ris->mbwu_state[i].cfg; + mwbu_arg.type = mpam_msmon_choose_counter(class); + + __ris_msmon_read(&mwbu_arg); + } + } + + return 0; +} + +/* Call with MSC cfg_lock held */ +static int mpam_save_mbwu_state(void *arg) +{ + int i; + u64 val; + struct mon_cfg *cfg; + u32 cur_flt, cur_ctl, mon_sel; + struct mpam_msc_ris *ris = arg; + struct msmon_mbwu_state *mbwu_state; + struct mpam_msc *msc = ris->vmsc->msc; + + for (i = 0; i < ris->props.num_mbwu_mon; i++) { + mbwu_state = &ris->mbwu_state[i]; + cfg = &mbwu_state->cfg; + + if (WARN_ON_ONCE(!mpam_mon_sel_lock(msc))) + return -EIO; + + mon_sel = FIELD_PREP(MSMON_CFG_MON_SEL_MON_SEL, i) | + FIELD_PREP(MSMON_CFG_MON_SEL_RIS, ris->ris_idx); + mpam_write_monsel_reg(msc, CFG_MON_SEL, mon_sel); + + cur_flt = mpam_read_monsel_reg(msc, CFG_MBWU_FLT); + cur_ctl = mpam_read_monsel_reg(msc, CFG_MBWU_CTL); + mpam_write_monsel_reg(msc, CFG_MBWU_CTL, 0); + + if (mpam_ris_has_mbwu_long_counter(ris)) { + val = mpam_msc_read_mbwu_l(msc); + mpam_msc_zero_mbwu_l(msc); + } else { + val = mpam_read_monsel_reg(msc, MBWU); + mpam_write_monsel_reg(msc, MBWU, 0); + } + + cfg->mon = i; + cfg->pmg = FIELD_GET(MSMON_CFG_x_FLT_PMG, cur_flt); + cfg->match_pmg = FIELD_GET(MSMON_CFG_x_CTL_MATCH_PMG, cur_ctl); + cfg->partid = FIELD_GET(MSMON_CFG_x_FLT_PARTID, cur_flt); + mbwu_state->correction += val; + mbwu_state->enabled = FIELD_GET(MSMON_CFG_x_CTL_EN, cur_ctl); + mpam_mon_sel_unlock(msc); + } + + return 0; +} + +/* + * Called via smp_call_on_cpu() to prevent migration, while still being + * pre-emptible. Caller must hold mpam_srcu. + */ +static int mpam_reset_ris(void *arg) +{ + u16 partid, partid_max; + struct mpam_config reset_cfg = {}; + struct mpam_msc_ris *ris = arg; + + if (ris->in_reset_state) + return 0; + + spin_lock(&partid_max_lock); + partid_max = mpam_partid_max; + spin_unlock(&partid_max_lock); + for (partid = 0; partid <= partid_max; partid++) + mpam_reprogram_ris_partid(ris, partid, &reset_cfg); + + return 0; +} + +/* + * Get the preferred CPU for this MSC. If it is accessible from this CPU, + * this CPU is preferred. This can be preempted/migrated, it will only result + * in more work. + */ +static int mpam_get_msc_preferred_cpu(struct mpam_msc *msc) +{ + int cpu = raw_smp_processor_id(); + + if (cpumask_test_cpu(cpu, &msc->accessibility)) + return cpu; + + return cpumask_first_and(&msc->accessibility, cpu_online_mask); +} + +static int mpam_touch_msc(struct mpam_msc *msc, int (*fn)(void *a), void *arg) +{ + lockdep_assert_irqs_enabled(); + lockdep_assert_cpus_held(); + WARN_ON_ONCE(!srcu_read_lock_held((&mpam_srcu))); + + return smp_call_on_cpu(mpam_get_msc_preferred_cpu(msc), fn, arg, true); +} + +struct mpam_write_config_arg { + struct mpam_msc_ris *ris; + struct mpam_component *comp; + u16 partid; +}; + +static int __write_config(void *arg) +{ + struct mpam_write_config_arg *c = arg; + + mpam_reprogram_ris_partid(c->ris, c->partid, &c->comp->cfg[c->partid]); + + return 0; +} + +static void mpam_reprogram_msc(struct mpam_msc *msc) +{ + u16 partid; + bool reset; + struct mpam_config *cfg; + struct mpam_msc_ris *ris; + struct mpam_write_config_arg arg; + + /* + * No lock for mpam_partid_max as partid_max_published has been + * set by mpam_enabled(), so the values can no longer change. + */ + mpam_assert_partid_sizes_fixed(); + + mutex_lock(&msc->cfg_lock); + list_for_each_entry_srcu(ris, &msc->ris, msc_list, + srcu_read_lock_held(&mpam_srcu)) { + if (!mpam_is_enabled() && !ris->in_reset_state) { + mpam_touch_msc(msc, &mpam_reset_ris, ris); + ris->in_reset_state = true; + continue; + } + + arg.comp = ris->vmsc->comp; + arg.ris = ris; + reset = true; + for (partid = 0; partid <= mpam_partid_max; partid++) { + cfg = &ris->vmsc->comp->cfg[partid]; + if (!bitmap_empty(cfg->features, MPAM_FEATURE_LAST)) + reset = false; + + arg.partid = partid; + mpam_touch_msc(msc, __write_config, &arg); + } + ris->in_reset_state = reset; + + if (mpam_has_feature(mpam_feat_msmon_mbwu, &ris->props)) + mpam_touch_msc(msc, &mpam_restore_mbwu_state, ris); + } + mutex_unlock(&msc->cfg_lock); +} + +static void _enable_percpu_irq(void *_irq) +{ + int *irq = _irq; + + enable_percpu_irq(*irq, IRQ_TYPE_NONE); +} + +static int mpam_cpu_online(unsigned int cpu) +{ + struct mpam_msc *msc; + + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(msc, &mpam_all_msc, all_msc_list, + srcu_read_lock_held(&mpam_srcu)) { + if (!cpumask_test_cpu(cpu, &msc->accessibility)) + continue; + + if (msc->reenable_error_ppi) + _enable_percpu_irq(&msc->reenable_error_ppi); + + if (atomic_fetch_inc(&msc->online_refs) == 0) + mpam_reprogram_msc(msc); + } + + if (mpam_resctrl_enabled) + return mpam_resctrl_online_cpu(cpu); + + return 0; +} + +/* Before mpam is enabled, try to probe new MSC */ +static int mpam_discovery_cpu_online(unsigned int cpu) +{ + int err = 0; + struct mpam_msc *msc; + bool new_device_probed = false; + + if (mpam_is_enabled()) + return 0; + + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(msc, &mpam_all_msc, all_msc_list, + srcu_read_lock_held(&mpam_srcu)) { + if (!cpumask_test_cpu(cpu, &msc->accessibility)) + continue; + + mutex_lock(&msc->probe_lock); + if (!msc->probed) + err = mpam_msc_hw_probe(msc); + mutex_unlock(&msc->probe_lock); + + if (err) + break; + new_device_probed = true; + } + + if (new_device_probed && !err) + schedule_work(&mpam_enable_work); + if (err) { + mpam_disable_reason = "error during probing"; + schedule_work(&mpam_broken_work); + } + + return err; +} + +static int mpam_cpu_offline(unsigned int cpu) +{ + struct mpam_msc *msc; + + if (mpam_resctrl_enabled) + mpam_resctrl_offline_cpu(cpu); + + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(msc, &mpam_all_msc, all_msc_list, + srcu_read_lock_held(&mpam_srcu)) { + if (!cpumask_test_cpu(cpu, &msc->accessibility)) + continue; + + if (msc->reenable_error_ppi) + disable_percpu_irq(msc->reenable_error_ppi); + + if (atomic_dec_and_test(&msc->online_refs)) { + struct mpam_msc_ris *ris; + + mutex_lock(&msc->cfg_lock); + list_for_each_entry_srcu(ris, &msc->ris, msc_list, + srcu_read_lock_held(&mpam_srcu)) { + mpam_touch_msc(msc, &mpam_reset_ris, ris); + + /* + * The reset state for non-zero partid may be + * lost while the CPUs are offline. + */ + ris->in_reset_state = false; + + if (mpam_is_enabled()) + mpam_touch_msc(msc, &mpam_save_mbwu_state, ris); + } + mutex_unlock(&msc->cfg_lock); + } + } + + return 0; +} + +static void mpam_register_cpuhp_callbacks(int (*online)(unsigned int online), + int (*offline)(unsigned int offline), + char *name) +{ + mutex_lock(&mpam_cpuhp_state_lock); + if (mpam_cpuhp_state) { + cpuhp_remove_state(mpam_cpuhp_state); + mpam_cpuhp_state = 0; + } + + mpam_cpuhp_state = cpuhp_setup_state(CPUHP_AP_ONLINE_DYN, name, online, + offline); + if (mpam_cpuhp_state <= 0) { + pr_err("Failed to register cpuhp callbacks"); + mpam_cpuhp_state = 0; + } + mutex_unlock(&mpam_cpuhp_state_lock); +} + +static int __setup_ppi(struct mpam_msc *msc) +{ + int cpu; + + msc->error_dev_id = alloc_percpu(struct mpam_msc *); + if (!msc->error_dev_id) + return -ENOMEM; + + for_each_cpu(cpu, &msc->accessibility) + *per_cpu_ptr(msc->error_dev_id, cpu) = msc; + + return 0; +} + +static int mpam_msc_setup_error_irq(struct mpam_msc *msc) +{ + int irq; + + irq = platform_get_irq_byname_optional(msc->pdev, "error"); + if (irq <= 0) + return 0; + + /* Allocate and initialise the percpu device pointer for PPI */ + if (irq_is_percpu(irq)) + return __setup_ppi(msc); + + /* sanity check: shared interrupts can be routed anywhere? */ + if (!cpumask_equal(&msc->accessibility, cpu_possible_mask)) { + pr_err_once("msc:%u is a private resource with a shared error interrupt", + msc->id); + return -EINVAL; + } + + return 0; +} + +/* + * An MSC can control traffic from a set of CPUs, but may only be accessible + * from a (hopefully wider) set of CPUs. The common reason for this is power + * management. If all the CPUs in a cluster are in PSCI:CPU_SUSPEND, the + * corresponding cache may also be powered off. By making accesses from + * one of those CPUs, we ensure we don't access a cache that's powered off. + */ +static void update_msc_accessibility(struct mpam_msc *msc) +{ + u32 affinity_id; + int err; + + err = device_property_read_u32(&msc->pdev->dev, "cpu_affinity", + &affinity_id); + if (err) + cpumask_copy(&msc->accessibility, cpu_possible_mask); + else + acpi_pptt_get_cpus_from_container(affinity_id, &msc->accessibility); +} + +/* + * There are two ways of reaching a struct mpam_msc_ris. Via the + * class->component->vmsc->ris, or via the msc. + * When destroying the msc, the other side needs unlinking and cleaning up too. + */ +static void mpam_msc_destroy(struct mpam_msc *msc) +{ + struct platform_device *pdev = msc->pdev; + struct mpam_msc_ris *ris, *tmp; + + lockdep_assert_held(&mpam_list_lock); + + list_for_each_entry_safe(ris, tmp, &msc->ris, msc_list) + mpam_ris_destroy(ris); + + list_del_rcu(&msc->all_msc_list); + platform_set_drvdata(pdev, NULL); + + add_to_garbage(msc); +} + +static void mpam_msc_drv_remove(struct platform_device *pdev) +{ + struct mpam_msc *msc = platform_get_drvdata(pdev); + + mutex_lock(&mpam_list_lock); + mpam_msc_destroy(msc); + mutex_unlock(&mpam_list_lock); + + mpam_free_garbage(); +} + +static struct mpam_msc *do_mpam_msc_drv_probe(struct platform_device *pdev) +{ + int err; + u32 tmp; + struct mpam_msc *msc; + struct resource *msc_res; + struct device *dev = &pdev->dev; + + lockdep_assert_held(&mpam_list_lock); + + msc = devm_kzalloc(&pdev->dev, sizeof(*msc), GFP_KERNEL); + if (!msc) + return ERR_PTR(-ENOMEM); + init_garbage(&msc->garbage); + msc->garbage.pdev = pdev; + + err = devm_mutex_init(dev, &msc->probe_lock); + if (err) + return ERR_PTR(err); + + err = devm_mutex_init(dev, &msc->part_sel_lock); + if (err) + return ERR_PTR(err); + + err = devm_mutex_init(dev, &msc->error_irq_lock); + if (err) + return ERR_PTR(err); + + err = devm_mutex_init(dev, &msc->cfg_lock); + if (err) + return ERR_PTR(err); + + mpam_mon_sel_lock_init(msc); + msc->id = pdev->id; + msc->pdev = pdev; + INIT_LIST_HEAD_RCU(&msc->all_msc_list); + INIT_LIST_HEAD_RCU(&msc->ris); + + update_msc_accessibility(msc); + if (cpumask_empty(&msc->accessibility)) { + dev_err_once(dev, "MSC is not accessible from any CPU!"); + return ERR_PTR(-EINVAL); + } + + err = mpam_msc_setup_error_irq(msc); + if (err) + return ERR_PTR(err); + + if (device_property_read_u32(&pdev->dev, "pcc-channel", &tmp)) + msc->iface = MPAM_IFACE_MMIO; + else + msc->iface = MPAM_IFACE_PCC; + + if (msc->iface == MPAM_IFACE_MMIO) { + void __iomem *io; + + io = devm_platform_get_and_ioremap_resource(pdev, 0, + &msc_res); + if (IS_ERR(io)) { + dev_err_once(dev, "Failed to map MSC base address\n"); + return ERR_CAST(io); + } + msc->mapped_hwpage_sz = msc_res->end - msc_res->start; + msc->mapped_hwpage = io; + } else { + return ERR_PTR(-EINVAL); + } + + list_add_rcu(&msc->all_msc_list, &mpam_all_msc); + platform_set_drvdata(pdev, msc); + + return msc; +} + +static int fw_num_msc; + +static int mpam_msc_drv_probe(struct platform_device *pdev) +{ + int err; + struct mpam_msc *msc = NULL; + void *plat_data = pdev->dev.platform_data; + + mutex_lock(&mpam_list_lock); + msc = do_mpam_msc_drv_probe(pdev); + mutex_unlock(&mpam_list_lock); + + if (IS_ERR(msc)) + return PTR_ERR(msc); + + /* Create RIS entries described by firmware */ + err = acpi_mpam_parse_resources(msc, plat_data); + if (err) { + mpam_msc_drv_remove(pdev); + return err; + } + + if (atomic_add_return(1, &mpam_num_msc) == fw_num_msc) + mpam_register_cpuhp_callbacks(mpam_discovery_cpu_online, NULL, + "mpam:drv_probe"); + + return 0; +} + +static struct platform_driver mpam_msc_driver = { + .driver = { + .name = "mpam_msc", + }, + .probe = mpam_msc_drv_probe, + .remove = mpam_msc_drv_remove, +}; + +/* Any of these features mean the BWA_WD field is valid. */ +static bool mpam_has_bwa_wd_feature(struct mpam_props *props) +{ + if (mpam_has_feature(mpam_feat_mbw_min, props)) + return true; + if (mpam_has_feature(mpam_feat_mbw_max, props)) + return true; + if (mpam_has_feature(mpam_feat_mbw_prop, props)) + return true; + return false; +} + +/* Any of these features mean the CMAX_WD field is valid. */ +static bool mpam_has_cmax_wd_feature(struct mpam_props *props) +{ + if (mpam_has_feature(mpam_feat_cmax_cmax, props)) + return true; + if (mpam_has_feature(mpam_feat_cmax_cmin, props)) + return true; + return false; +} + +#define MISMATCHED_HELPER(parent, child, helper, field, alias) \ + helper(parent) && \ + ((helper(child) && (parent)->field != (child)->field) || \ + (!helper(child) && !(alias))) + +#define MISMATCHED_FEAT(parent, child, feat, field, alias) \ + mpam_has_feature((feat), (parent)) && \ + ((mpam_has_feature((feat), (child)) && (parent)->field != (child)->field) || \ + (!mpam_has_feature((feat), (child)) && !(alias))) + +#define CAN_MERGE_FEAT(parent, child, feat, alias) \ + (alias) && !mpam_has_feature((feat), (parent)) && \ + mpam_has_feature((feat), (child)) + +/* + * Combine two props fields. + * If this is for controls that alias the same resource, it is safe to just + * copy the values over. If two aliasing controls implement the same scheme + * a safe value must be picked. + * For non-aliasing controls, these control different resources, and the + * resulting safe value must be compatible with both. When merging values in + * the tree, all the aliasing resources must be handled first. + * On mismatch, parent is modified. + * Quirks on an MSC will apply to all MSC in that class. + */ +static void __props_mismatch(struct mpam_props *parent, + struct mpam_props *child, bool alias) +{ + if (CAN_MERGE_FEAT(parent, child, mpam_feat_cpor_part, alias)) { + parent->cpbm_wd = child->cpbm_wd; + } else if (MISMATCHED_FEAT(parent, child, mpam_feat_cpor_part, + cpbm_wd, alias)) { + pr_debug("cleared cpor_part\n"); + mpam_clear_feature(mpam_feat_cpor_part, parent); + parent->cpbm_wd = 0; + } + + if (CAN_MERGE_FEAT(parent, child, mpam_feat_mbw_part, alias)) { + parent->mbw_pbm_bits = child->mbw_pbm_bits; + } else if (MISMATCHED_FEAT(parent, child, mpam_feat_mbw_part, + mbw_pbm_bits, alias)) { + pr_debug("cleared mbw_part\n"); + mpam_clear_feature(mpam_feat_mbw_part, parent); + parent->mbw_pbm_bits = 0; + } + + /* bwa_wd is a count of bits, fewer bits means less precision */ + if (alias && !mpam_has_bwa_wd_feature(parent) && + mpam_has_bwa_wd_feature(child)) { + parent->bwa_wd = child->bwa_wd; + } else if (MISMATCHED_HELPER(parent, child, mpam_has_bwa_wd_feature, + bwa_wd, alias)) { + pr_debug("took the min bwa_wd\n"); + parent->bwa_wd = min(parent->bwa_wd, child->bwa_wd); + } + + if (alias && !mpam_has_cmax_wd_feature(parent) && mpam_has_cmax_wd_feature(child)) { + parent->cmax_wd = child->cmax_wd; + } else if (MISMATCHED_HELPER(parent, child, mpam_has_cmax_wd_feature, + cmax_wd, alias)) { + pr_debug("%s took the min cmax_wd\n", __func__); + parent->cmax_wd = min(parent->cmax_wd, child->cmax_wd); + } + + if (CAN_MERGE_FEAT(parent, child, mpam_feat_cmax_cassoc, alias)) { + parent->cassoc_wd = child->cassoc_wd; + } else if (MISMATCHED_FEAT(parent, child, mpam_feat_cmax_cassoc, + cassoc_wd, alias)) { + pr_debug("%s cleared cassoc_wd\n", __func__); + mpam_clear_feature(mpam_feat_cmax_cassoc, parent); + parent->cassoc_wd = 0; + } + + /* For num properties, take the minimum */ + if (CAN_MERGE_FEAT(parent, child, mpam_feat_msmon_csu, alias)) { + parent->num_csu_mon = child->num_csu_mon; + } else if (MISMATCHED_FEAT(parent, child, mpam_feat_msmon_csu, + num_csu_mon, alias)) { + pr_debug("took the min num_csu_mon\n"); + parent->num_csu_mon = min(parent->num_csu_mon, + child->num_csu_mon); + } + + if (CAN_MERGE_FEAT(parent, child, mpam_feat_msmon_mbwu, alias)) { + parent->num_mbwu_mon = child->num_mbwu_mon; + } else if (MISMATCHED_FEAT(parent, child, mpam_feat_msmon_mbwu, + num_mbwu_mon, alias)) { + pr_debug("took the min num_mbwu_mon\n"); + parent->num_mbwu_mon = min(parent->num_mbwu_mon, + child->num_mbwu_mon); + } + + if (CAN_MERGE_FEAT(parent, child, mpam_feat_intpri_part, alias)) { + parent->intpri_wd = child->intpri_wd; + } else if (MISMATCHED_FEAT(parent, child, mpam_feat_intpri_part, + intpri_wd, alias)) { + pr_debug("%s took the min intpri_wd\n", __func__); + parent->intpri_wd = min(parent->intpri_wd, child->intpri_wd); + } + + if (CAN_MERGE_FEAT(parent, child, mpam_feat_dspri_part, alias)) { + parent->dspri_wd = child->dspri_wd; + } else if (MISMATCHED_FEAT(parent, child, mpam_feat_dspri_part, + dspri_wd, alias)) { + pr_debug("%s took the min dspri_wd\n", __func__); + parent->dspri_wd = min(parent->dspri_wd, child->dspri_wd); + } + + /* TODO: alias support for these two */ + /* {int,ds}pri may not have differing 0-low behaviour */ + if (mpam_has_feature(mpam_feat_intpri_part, parent) && + (!mpam_has_feature(mpam_feat_intpri_part, child) || + mpam_has_feature(mpam_feat_intpri_part_0_low, parent) != + mpam_has_feature(mpam_feat_intpri_part_0_low, child))) { + pr_debug("%s cleared intpri_part\n", __func__); + mpam_clear_feature(mpam_feat_intpri_part, parent); + mpam_clear_feature(mpam_feat_intpri_part_0_low, parent); + } + if (mpam_has_feature(mpam_feat_dspri_part, parent) && + (!mpam_has_feature(mpam_feat_dspri_part, child) || + mpam_has_feature(mpam_feat_dspri_part_0_low, parent) != + mpam_has_feature(mpam_feat_dspri_part_0_low, child))) { + pr_debug("%s cleared dspri_part\n", __func__); + mpam_clear_feature(mpam_feat_dspri_part, parent); + mpam_clear_feature(mpam_feat_dspri_part_0_low, parent); + } + + if (alias) { + /* Merge features for aliased resources */ + bitmap_or(parent->features, parent->features, child->features, MPAM_FEATURE_LAST); + } else { + /* Clear missing features for non aliasing */ + bitmap_and(parent->features, parent->features, child->features, MPAM_FEATURE_LAST); + } +} + +/* + * If a vmsc doesn't match class feature/configuration, do the right thing(tm). + * For 'num' properties we can just take the minimum. + * For properties where the mismatched unused bits would make a difference, we + * nobble the class feature, as we can't configure all the resources. + * e.g. The L3 cache is composed of two resources with 13 and 17 portion + * bitmaps respectively. + * Quirks on an MSC will apply to all MSC in that class. + */ +static void +__class_props_mismatch(struct mpam_class *class, struct mpam_vmsc *vmsc) +{ + struct mpam_props *cprops = &class->props; + struct mpam_props *vprops = &vmsc->props; + struct device *dev = &vmsc->msc->pdev->dev; + + lockdep_assert_held(&mpam_list_lock); /* we modify class */ + + dev_dbg(dev, "Merging features for class:0x%lx &= vmsc:0x%lx\n", + (long)cprops->features, (long)vprops->features); + + /* Merge quirks */ + class->quirks |= vmsc->msc->quirks; + + /* Take the safe value for any common features */ + __props_mismatch(cprops, vprops, false); +} + +static void +__vmsc_props_mismatch(struct mpam_vmsc *vmsc, struct mpam_msc_ris *ris) +{ + struct mpam_props *rprops = &ris->props; + struct mpam_props *vprops = &vmsc->props; + struct device *dev = &vmsc->msc->pdev->dev; + + lockdep_assert_held(&mpam_list_lock); /* we modify vmsc */ + + dev_dbg(dev, "Merging features for vmsc:0x%lx |= ris:0x%lx\n", + (long)vprops->features, (long)rprops->features); + + /* + * Merge mismatched features - Copy any features that aren't common, + * but take the safe value for any common features. + */ + __props_mismatch(vprops, rprops, true); +} + +/* + * Copy the first component's first vMSC's properties and features to the + * class. __class_props_mismatch() will remove conflicts. + * It is not possible to have a class with no components, or a component with + * no resources. The vMSC properties have already been built. + */ +static void mpam_enable_init_class_features(struct mpam_class *class) +{ + struct mpam_vmsc *vmsc; + struct mpam_component *comp; + + comp = list_first_entry(&class->components, + struct mpam_component, class_list); + vmsc = list_first_entry(&comp->vmsc, + struct mpam_vmsc, comp_list); + + class->props = vmsc->props; +} + +static void mpam_enable_merge_vmsc_features(struct mpam_component *comp) +{ + struct mpam_vmsc *vmsc; + struct mpam_msc_ris *ris; + struct mpam_class *class = comp->class; + + list_for_each_entry(vmsc, &comp->vmsc, comp_list) { + list_for_each_entry(ris, &vmsc->ris, vmsc_list) { + __vmsc_props_mismatch(vmsc, ris); + class->nrdy_usec = max(class->nrdy_usec, + vmsc->msc->nrdy_usec); + } + } +} + +static void mpam_enable_merge_class_features(struct mpam_component *comp) +{ + struct mpam_vmsc *vmsc; + struct mpam_class *class = comp->class; + + list_for_each_entry(vmsc, &comp->vmsc, comp_list) + __class_props_mismatch(class, vmsc); + + if (mpam_has_quirk(T241_FORCE_MBW_MIN_TO_ONE, class)) + mpam_clear_feature(mpam_feat_mbw_min, &class->props); +} + +/* + * Merge all the common resource features into class. + * vmsc features are bitwise-or'd together by mpam_enable_merge_vmsc_features() + * as the first step so that mpam_enable_init_class_features() can initialise + * the class with a representative set of features. + * Next the mpam_enable_merge_class_features() bitwise-and's all the vmsc + * features to form the class features. + * Other features are the min/max as appropriate. + * + * To avoid walking the whole tree twice, the class->nrdy_usec property is + * updated when working with the vmsc as it is a max(), and doesn't need + * initialising first. + */ +static void mpam_enable_merge_features(struct list_head *all_classes_list) +{ + struct mpam_class *class; + struct mpam_component *comp; + + lockdep_assert_held(&mpam_list_lock); + + list_for_each_entry(class, all_classes_list, classes_list) { + list_for_each_entry(comp, &class->components, class_list) + mpam_enable_merge_vmsc_features(comp); + + mpam_enable_init_class_features(class); + + list_for_each_entry(comp, &class->components, class_list) + mpam_enable_merge_class_features(comp); + } +} + +static char *mpam_errcode_names[16] = { + [MPAM_ERRCODE_NONE] = "No error", + [MPAM_ERRCODE_PARTID_SEL_RANGE] = "PARTID_SEL_Range", + [MPAM_ERRCODE_REQ_PARTID_RANGE] = "Req_PARTID_Range", + [MPAM_ERRCODE_MSMONCFG_ID_RANGE] = "MSMONCFG_ID_RANGE", + [MPAM_ERRCODE_REQ_PMG_RANGE] = "Req_PMG_Range", + [MPAM_ERRCODE_MONITOR_RANGE] = "Monitor_Range", + [MPAM_ERRCODE_INTPARTID_RANGE] = "intPARTID_Range", + [MPAM_ERRCODE_UNEXPECTED_INTERNAL] = "Unexpected_INTERNAL", + [MPAM_ERRCODE_UNDEFINED_RIS_PART_SEL] = "Undefined_RIS_PART_SEL", + [MPAM_ERRCODE_RIS_NO_CONTROL] = "RIS_No_Control", + [MPAM_ERRCODE_UNDEFINED_RIS_MON_SEL] = "Undefined_RIS_MON_SEL", + [MPAM_ERRCODE_RIS_NO_MONITOR] = "RIS_No_Monitor", + [12 ... 15] = "Reserved" +}; + +static int mpam_enable_msc_ecr(void *_msc) +{ + struct mpam_msc *msc = _msc; + + __mpam_write_reg(msc, MPAMF_ECR, MPAMF_ECR_INTEN); + + return 0; +} + +/* This can run in mpam_disable(), and the interrupt handler on the same CPU */ +static int mpam_disable_msc_ecr(void *_msc) +{ + struct mpam_msc *msc = _msc; + + __mpam_write_reg(msc, MPAMF_ECR, 0); + + return 0; +} + +static irqreturn_t __mpam_irq_handler(int irq, struct mpam_msc *msc) +{ + u64 reg; + u16 partid; + u8 errcode, pmg, ris; + + if (WARN_ON_ONCE(!msc) || + WARN_ON_ONCE(!cpumask_test_cpu(smp_processor_id(), + &msc->accessibility))) + return IRQ_NONE; + + reg = mpam_msc_read_esr(msc); + + errcode = FIELD_GET(MPAMF_ESR_ERRCODE, reg); + if (!errcode) + return IRQ_NONE; + + /* Clear level triggered irq */ + mpam_msc_clear_esr(msc); + + partid = FIELD_GET(MPAMF_ESR_PARTID_MON, reg); + pmg = FIELD_GET(MPAMF_ESR_PMG, reg); + ris = FIELD_GET(MPAMF_ESR_RIS, reg); + + pr_err_ratelimited("error irq from msc:%u '%s', partid:%u, pmg: %u, ris: %u\n", + msc->id, mpam_errcode_names[errcode], partid, pmg, + ris); + + /* Disable this interrupt. */ + mpam_disable_msc_ecr(msc); + + /* Are we racing with the thread disabling MPAM? */ + if (!mpam_is_enabled()) + return IRQ_HANDLED; + + /* + * Schedule the teardown work. Don't use a threaded IRQ as we can't + * unregister the interrupt from the threaded part of the handler. + */ + mpam_disable_reason = "hardware error interrupt"; + schedule_work(&mpam_broken_work); + + return IRQ_HANDLED; +} + +static irqreturn_t mpam_ppi_handler(int irq, void *dev_id) +{ + struct mpam_msc *msc = *(struct mpam_msc **)dev_id; + + return __mpam_irq_handler(irq, msc); +} + +static irqreturn_t mpam_spi_handler(int irq, void *dev_id) +{ + struct mpam_msc *msc = dev_id; + + return __mpam_irq_handler(irq, msc); +} + +static int mpam_register_irqs(void) +{ + int err, irq; + struct mpam_msc *msc; + + lockdep_assert_cpus_held(); + + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(msc, &mpam_all_msc, all_msc_list, + srcu_read_lock_held(&mpam_srcu)) { + irq = platform_get_irq_byname_optional(msc->pdev, "error"); + if (irq <= 0) + continue; + + /* The MPAM spec says the interrupt can be SPI, PPI or LPI */ + /* We anticipate sharing the interrupt with other MSCs */ + if (irq_is_percpu(irq)) { + err = request_percpu_irq(irq, &mpam_ppi_handler, + "mpam:msc:error", + msc->error_dev_id); + if (err) + return err; + + msc->reenable_error_ppi = irq; + smp_call_function_many(&msc->accessibility, + &_enable_percpu_irq, &irq, + true); + } else { + err = devm_request_irq(&msc->pdev->dev, irq, + &mpam_spi_handler, IRQF_SHARED, + "mpam:msc:error", msc); + if (err) + return err; + } + + mutex_lock(&msc->error_irq_lock); + msc->error_irq_req = true; + mpam_touch_msc(msc, mpam_enable_msc_ecr, msc); + msc->error_irq_hw_enabled = true; + mutex_unlock(&msc->error_irq_lock); + } + + return 0; +} + +static void mpam_unregister_irqs(void) +{ + int irq; + struct mpam_msc *msc; + + guard(cpus_read_lock)(); + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(msc, &mpam_all_msc, all_msc_list, + srcu_read_lock_held(&mpam_srcu)) { + irq = platform_get_irq_byname_optional(msc->pdev, "error"); + if (irq <= 0) + continue; + + mutex_lock(&msc->error_irq_lock); + if (msc->error_irq_hw_enabled) { + mpam_touch_msc(msc, mpam_disable_msc_ecr, msc); + msc->error_irq_hw_enabled = false; + } + + if (msc->error_irq_req) { + if (irq_is_percpu(irq)) { + msc->reenable_error_ppi = 0; + free_percpu_irq(irq, msc->error_dev_id); + } else { + devm_free_irq(&msc->pdev->dev, irq, msc); + } + msc->error_irq_req = false; + } + mutex_unlock(&msc->error_irq_lock); + } +} + +static void __destroy_component_cfg(struct mpam_component *comp) +{ + struct mpam_msc *msc; + struct mpam_vmsc *vmsc; + struct mpam_msc_ris *ris; + + lockdep_assert_held(&mpam_list_lock); + + add_to_garbage(comp->cfg); + list_for_each_entry(vmsc, &comp->vmsc, comp_list) { + msc = vmsc->msc; + + if (mpam_mon_sel_lock(msc)) { + list_for_each_entry(ris, &vmsc->ris, vmsc_list) + add_to_garbage(ris->mbwu_state); + mpam_mon_sel_unlock(msc); + } + } +} + +static void mpam_reset_component_cfg(struct mpam_component *comp) +{ + int i; + struct mpam_props *cprops = &comp->class->props; + + mpam_assert_partid_sizes_fixed(); + + if (!comp->cfg) + return; + + for (i = 0; i <= mpam_partid_max; i++) { + comp->cfg[i] = (struct mpam_config) {}; + if (cprops->cpbm_wd) + comp->cfg[i].cpbm = GENMASK(cprops->cpbm_wd - 1, 0); + if (cprops->mbw_pbm_bits) + comp->cfg[i].mbw_pbm = GENMASK(cprops->mbw_pbm_bits - 1, 0); + if (cprops->bwa_wd) + comp->cfg[i].mbw_max = GENMASK(15, 16 - cprops->bwa_wd); + } +} + +static int __allocate_component_cfg(struct mpam_component *comp) +{ + struct mpam_vmsc *vmsc; + + mpam_assert_partid_sizes_fixed(); + + if (comp->cfg) + return 0; + + comp->cfg = kcalloc(mpam_partid_max + 1, sizeof(*comp->cfg), GFP_KERNEL); + if (!comp->cfg) + return -ENOMEM; + + /* + * The array is free()d in one go, so only cfg[0]'s structure needs + * to be initialised. + */ + init_garbage(&comp->cfg[0].garbage); + + mpam_reset_component_cfg(comp); + + list_for_each_entry(vmsc, &comp->vmsc, comp_list) { + struct mpam_msc *msc; + struct mpam_msc_ris *ris; + struct msmon_mbwu_state *mbwu_state; + + if (!vmsc->props.num_mbwu_mon) + continue; + + msc = vmsc->msc; + list_for_each_entry(ris, &vmsc->ris, vmsc_list) { + if (!ris->props.num_mbwu_mon) + continue; + + mbwu_state = kcalloc(ris->props.num_mbwu_mon, + sizeof(*ris->mbwu_state), + GFP_KERNEL); + if (!mbwu_state) { + __destroy_component_cfg(comp); + return -ENOMEM; + } + + init_garbage(&mbwu_state[0].garbage); + + if (mpam_mon_sel_lock(msc)) { + ris->mbwu_state = mbwu_state; + mpam_mon_sel_unlock(msc); + } + } + } + + return 0; +} + +static int mpam_allocate_config(void) +{ + struct mpam_class *class; + struct mpam_component *comp; + + lockdep_assert_held(&mpam_list_lock); + + list_for_each_entry(class, &mpam_classes, classes_list) { + list_for_each_entry(comp, &class->components, class_list) { + int err = __allocate_component_cfg(comp); + if (err) + return err; + } + } + + return 0; +} + +static void mpam_enable_once(void) +{ + int err; + + /* + * Once the cpuhp callbacks have been changed, mpam_partid_max can no + * longer change. + */ + spin_lock(&partid_max_lock); + partid_max_published = true; + spin_unlock(&partid_max_lock); + + /* + * If all the MSC have been probed, enabling the IRQs happens next. + * That involves cross-calling to a CPU that can reach the MSC, and + * the locks must be taken in this order: + */ + cpus_read_lock(); + mutex_lock(&mpam_list_lock); + do { + mpam_enable_merge_features(&mpam_classes); + + err = mpam_register_irqs(); + if (err) { + pr_warn("Failed to register irqs: %d\n", err); + break; + } + + err = mpam_allocate_config(); + if (err) { + pr_err("Failed to allocate configuration arrays.\n"); + break; + } + } while (0); + mutex_unlock(&mpam_list_lock); + cpus_read_unlock(); + + if (!err) { + err = mpam_resctrl_setup(); + if (err) + pr_err("Failed to initialise resctrl: %d\n", err); + } + + if (err) { + mpam_disable_reason = "Failed to enable."; + schedule_work(&mpam_broken_work); + return; + } + + static_branch_enable(&mpam_enabled); + mpam_resctrl_enabled = true; + mpam_register_cpuhp_callbacks(mpam_cpu_online, mpam_cpu_offline, + "mpam:online"); + + /* Use printk() to avoid the pr_fmt adding the function name. */ + printk(KERN_INFO "MPAM enabled with %u PARTIDs and %u PMGs\n", + mpam_partid_max + 1, mpam_pmg_max + 1); +} + +static void mpam_reset_component_locked(struct mpam_component *comp) +{ + struct mpam_vmsc *vmsc; + + lockdep_assert_cpus_held(); + mpam_assert_partid_sizes_fixed(); + + mpam_reset_component_cfg(comp); + + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(vmsc, &comp->vmsc, comp_list, + srcu_read_lock_held(&mpam_srcu)) { + struct mpam_msc *msc = vmsc->msc; + struct mpam_msc_ris *ris; + + list_for_each_entry_srcu(ris, &vmsc->ris, vmsc_list, + srcu_read_lock_held(&mpam_srcu)) { + if (!ris->in_reset_state) + mpam_touch_msc(msc, mpam_reset_ris, ris); + ris->in_reset_state = true; + } + } +} + +void mpam_reset_class_locked(struct mpam_class *class) +{ + struct mpam_component *comp; + + lockdep_assert_cpus_held(); + + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(comp, &class->components, class_list, + srcu_read_lock_held(&mpam_srcu)) + mpam_reset_component_locked(comp); +} + +static void mpam_reset_class(struct mpam_class *class) +{ + cpus_read_lock(); + mpam_reset_class_locked(class); + cpus_read_unlock(); +} + +/* + * Called in response to an error IRQ. + * All of MPAMs errors indicate a software bug, restore any modified + * controls to their reset values. + */ +void mpam_disable(struct work_struct *ignored) +{ + int idx; + bool do_resctrl_exit; + struct mpam_class *class; + struct mpam_msc *msc, *tmp; + + if (mpam_is_enabled()) + static_branch_disable(&mpam_enabled); + + mutex_lock(&mpam_cpuhp_state_lock); + if (mpam_cpuhp_state) { + cpuhp_remove_state(mpam_cpuhp_state); + mpam_cpuhp_state = 0; + } + + /* + * Removing the cpuhp state called mpam_cpu_offline() and told resctrl + * all the CPUs are offline. + */ + do_resctrl_exit = mpam_resctrl_enabled; + mpam_resctrl_enabled = false; + mutex_unlock(&mpam_cpuhp_state_lock); + + if (do_resctrl_exit) + mpam_resctrl_exit(); + + mpam_unregister_irqs(); + + idx = srcu_read_lock(&mpam_srcu); + list_for_each_entry_srcu(class, &mpam_classes, classes_list, + srcu_read_lock_held(&mpam_srcu)) { + mpam_reset_class(class); + if (do_resctrl_exit) + mpam_resctrl_teardown_class(class); + } + srcu_read_unlock(&mpam_srcu, idx); + + mutex_lock(&mpam_list_lock); + list_for_each_entry_safe(msc, tmp, &mpam_all_msc, all_msc_list) + mpam_msc_destroy(msc); + mutex_unlock(&mpam_list_lock); + mpam_free_garbage(); + + pr_err_once("MPAM disabled due to %s\n", mpam_disable_reason); +} + +/* + * Enable mpam once all devices have been probed. + * Scheduled by mpam_discovery_cpu_online() once all devices have been created. + * Also scheduled when new devices are probed when new CPUs come online. + */ +void mpam_enable(struct work_struct *work) +{ + static atomic_t once; + struct mpam_msc *msc; + bool all_devices_probed = true; + + /* Have we probed all the hw devices? */ + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(msc, &mpam_all_msc, all_msc_list, + srcu_read_lock_held(&mpam_srcu)) { + mutex_lock(&msc->probe_lock); + if (!msc->probed) + all_devices_probed = false; + mutex_unlock(&msc->probe_lock); + + if (!all_devices_probed) + break; + } + + if (all_devices_probed && !atomic_fetch_inc(&once)) + mpam_enable_once(); +} + +#define maybe_update_config(cfg, feature, newcfg, member, changes) do { \ + if (mpam_has_feature(feature, newcfg) && \ + (newcfg)->member != (cfg)->member) { \ + (cfg)->member = (newcfg)->member; \ + mpam_set_feature(feature, cfg); \ + \ + (changes) = true; \ + } \ +} while (0) + +static bool mpam_update_config(struct mpam_config *cfg, + const struct mpam_config *newcfg) +{ + bool has_changes = false; + + maybe_update_config(cfg, mpam_feat_cpor_part, newcfg, cpbm, has_changes); + maybe_update_config(cfg, mpam_feat_mbw_part, newcfg, mbw_pbm, has_changes); + maybe_update_config(cfg, mpam_feat_mbw_max, newcfg, mbw_max, has_changes); + + return has_changes; +} + +int mpam_apply_config(struct mpam_component *comp, u16 partid, + struct mpam_config *cfg) +{ + struct mpam_write_config_arg arg; + struct mpam_msc_ris *ris; + struct mpam_vmsc *vmsc; + struct mpam_msc *msc; + + lockdep_assert_cpus_held(); + + /* Don't pass in the current config! */ + WARN_ON_ONCE(&comp->cfg[partid] == cfg); + + if (!mpam_update_config(&comp->cfg[partid], cfg)) + return 0; + + arg.comp = comp; + arg.partid = partid; + + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(vmsc, &comp->vmsc, comp_list, + srcu_read_lock_held(&mpam_srcu)) { + msc = vmsc->msc; + + mutex_lock(&msc->cfg_lock); + list_for_each_entry_srcu(ris, &vmsc->ris, vmsc_list, + srcu_read_lock_held(&mpam_srcu)) { + arg.ris = ris; + mpam_touch_msc(msc, __write_config, &arg); + ris->in_reset_state = false; + } + mutex_unlock(&msc->cfg_lock); + } + + return 0; +} + +static int __init mpam_msc_driver_init(void) +{ + if (!system_supports_mpam()) + return -EOPNOTSUPP; + + init_srcu_struct(&mpam_srcu); + + fw_num_msc = acpi_mpam_count_msc(); + if (fw_num_msc <= 0) { + pr_err("No MSC devices found in firmware\n"); + return -EINVAL; + } + + return platform_driver_register(&mpam_msc_driver); +} + +/* Must occur after arm64_mpam_register_cpus() from arch_initcall() */ +subsys_initcall(mpam_msc_driver_init); + +#ifdef CONFIG_MPAM_KUNIT_TEST +#include "test_mpam_devices.c" +#endif diff --git a/drivers/resctrl/mpam_internal.h b/drivers/resctrl/mpam_internal.h new file mode 100644 index 0000000000000..c458b75e87f13 --- /dev/null +++ b/drivers/resctrl/mpam_internal.h @@ -0,0 +1,751 @@ +/* SPDX-License-Identifier: GPL-2.0 */ +// Copyright (C) 2025 Arm Ltd. + +#ifndef MPAM_INTERNAL_H +#define MPAM_INTERNAL_H + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include + +#define MPAM_MSC_MAX_NUM_RIS 16 + +struct platform_device; + +#ifdef CONFIG_MPAM_KUNIT_TEST +#define PACKED_FOR_KUNIT __packed +#else +#define PACKED_FOR_KUNIT +#endif + +/* + * This 'mon' values must not alias an actual monitor, so must be larger than + * U16_MAX, but not be confused with an errno value, so smaller than + * (u32)-SZ_4K. + * USE_PRE_ALLOCATED is used to avoid confusion with an actual monitor. + */ +#define USE_PRE_ALLOCATED (U16_MAX + 1) + +static inline bool mpam_is_enabled(void) +{ + return static_branch_likely(&mpam_enabled); +} + +/* + * Structures protected by SRCU may not be freed for a surprising amount of + * time (especially if perf is running). To ensure the MPAM error interrupt can + * tear down all the structures, build a list of objects that can be garbage + * collected once synchronize_srcu() has returned. + * If pdev is non-NULL, use devm_kfree(). + */ +struct mpam_garbage { + /* member of mpam_garbage */ + struct llist_node llist; + + void *to_free; + struct platform_device *pdev; +}; + +struct mpam_msc { + /* member of mpam_all_msc */ + struct list_head all_msc_list; + + int id; + struct platform_device *pdev; + + /* Not modified after mpam_is_enabled() becomes true */ + enum mpam_msc_iface iface; + u32 nrdy_usec; + cpumask_t accessibility; + bool has_extd_esr; + + int reenable_error_ppi; + struct mpam_msc * __percpu *error_dev_id; + + atomic_t online_refs; + + /* + * probe_lock is only taken during discovery. After discovery these + * properties become read-only and the lists are protected by SRCU. + */ + struct mutex probe_lock; + bool probed; + u16 partid_max; + u8 pmg_max; + unsigned long ris_idxs; + u32 ris_max; + u32 iidr; + u16 quirks; + + /* + * error_irq_lock is taken when registering/unregistering the error + * interrupt and maniupulating the below flags. + */ + struct mutex error_irq_lock; + bool error_irq_req; + bool error_irq_hw_enabled; + + /* mpam_msc_ris of this component */ + struct list_head ris; + + /* + * part_sel_lock protects access to the MSC hardware registers that are + * affected by MPAMCFG_PART_SEL. (including the ID registers that vary + * by RIS). + * If needed, take msc->probe_lock first. + */ + struct mutex part_sel_lock; + + /* + * cfg_lock protects the msc configuration and guards against mbwu_state + * save and restore racing. + */ + struct mutex cfg_lock; + + /* + * mon_sel_lock protects access to the MSC hardware registers that are + * affected by MPAMCFG_MON_SEL, and the mbwu_state. + * Access to mon_sel is needed from both process and interrupt contexts, + * but is complicated by firmware-backed platforms that can't make any + * access unless they can sleep. + * Always use the mpam_mon_sel_lock() helpers. + * Accesses to mon_sel need to be able to fail if they occur in the wrong + * context. + * If needed, take msc->probe_lock first. + */ + raw_spinlock_t _mon_sel_lock; + unsigned long _mon_sel_flags; + + void __iomem *mapped_hwpage; + size_t mapped_hwpage_sz; + + /* Values only used on some platforms for quirks */ + u32 t241_id; + + struct mpam_garbage garbage; +}; + +/* Returning false here means accesses to mon_sel must fail and report an error. */ +static inline bool __must_check mpam_mon_sel_lock(struct mpam_msc *msc) +{ + /* Locking will require updating to support a firmware backed interface */ + if (WARN_ON_ONCE(msc->iface != MPAM_IFACE_MMIO)) + return false; + + raw_spin_lock_irqsave(&msc->_mon_sel_lock, msc->_mon_sel_flags); + return true; +} + +static inline void mpam_mon_sel_unlock(struct mpam_msc *msc) +{ + raw_spin_unlock_irqrestore(&msc->_mon_sel_lock, msc->_mon_sel_flags); +} + +static inline void mpam_mon_sel_lock_held(struct mpam_msc *msc) +{ + lockdep_assert_held_once(&msc->_mon_sel_lock); +} + +static inline void mpam_mon_sel_lock_init(struct mpam_msc *msc) +{ + raw_spin_lock_init(&msc->_mon_sel_lock); +} + +/* Bits for mpam features bitmaps */ +enum mpam_device_features { + mpam_feat_cpor_part, + mpam_feat_cmax_softlim, + mpam_feat_cmax_cmax, + mpam_feat_cmax_cmin, + mpam_feat_cmax_cassoc, + mpam_feat_mbw_part, + mpam_feat_mbw_min, + mpam_feat_mbw_max, + mpam_feat_mbw_prop, + mpam_feat_intpri_part, + mpam_feat_intpri_part_0_low, + mpam_feat_dspri_part, + mpam_feat_dspri_part_0_low, + mpam_feat_msmon, + mpam_feat_msmon_csu, + mpam_feat_msmon_csu_capture, + mpam_feat_msmon_csu_xcl, + mpam_feat_msmon_csu_hw_nrdy, + mpam_feat_msmon_mbwu, + mpam_feat_msmon_mbwu_31counter, + mpam_feat_msmon_mbwu_44counter, + mpam_feat_msmon_mbwu_63counter, + mpam_feat_msmon_mbwu_capture, + mpam_feat_msmon_mbwu_rwbw, + mpam_feat_msmon_mbwu_hw_nrdy, + mpam_feat_partid_nrw, + MPAM_FEATURE_LAST +}; + +struct mpam_props { + DECLARE_BITMAP(features, MPAM_FEATURE_LAST); + + u16 cpbm_wd; + u16 mbw_pbm_bits; + u16 bwa_wd; + u16 cmax_wd; + u16 cassoc_wd; + u16 intpri_wd; + u16 dspri_wd; + u16 num_csu_mon; + u16 num_mbwu_mon; + +/* + * Kunit tests use memset() to set up feature combinations that should be + * removed, and will false-positive if the compiler introduces padding that + * isn't cleared during sanitisation. + */ +} PACKED_FOR_KUNIT; + +#define mpam_has_feature(_feat, x) test_bit(_feat, (x)->features) +#define mpam_set_feature(_feat, x) set_bit(_feat, (x)->features) +#define mpam_clear_feature(_feat, x) clear_bit(_feat, (x)->features) + +/* Workaround bits for msc->quirks */ +enum mpam_device_quirks { + T241_SCRUB_SHADOW_REGS, + T241_FORCE_MBW_MIN_TO_ONE, + T241_MBW_COUNTER_SCALE_64, + IGNORE_CSU_NRDY, + MPAM_QUIRK_LAST +}; + +#define mpam_has_quirk(_quirk, x) ((1 << (_quirk) & (x)->quirks)) +#define mpam_set_quirk(_quirk, x) ((x)->quirks |= (1 << (_quirk))) + +struct mpam_quirk { + int (*init)(struct mpam_msc *msc, const struct mpam_quirk *quirk); + + u32 iidr; + u32 iidr_mask; + + enum mpam_device_quirks workaround; +}; + +#define MPAM_IIDR_MATCH_ONE (FIELD_PREP_CONST(MPAMF_IIDR_PRODUCTID, 0xfff) | \ + FIELD_PREP_CONST(MPAMF_IIDR_VARIANT, 0xf) | \ + FIELD_PREP_CONST(MPAMF_IIDR_REVISION, 0xf) | \ + FIELD_PREP_CONST(MPAMF_IIDR_IMPLEMENTER, 0xfff)) + +#define MPAM_IIDR_NVIDIA_T241 (FIELD_PREP_CONST(MPAMF_IIDR_PRODUCTID, 0x241) | \ + FIELD_PREP_CONST(MPAMF_IIDR_VARIANT, 0) | \ + FIELD_PREP_CONST(MPAMF_IIDR_REVISION, 0) | \ + FIELD_PREP_CONST(MPAMF_IIDR_IMPLEMENTER, 0x36b)) + +#define MPAM_IIDR_ARM_CMN_650 (FIELD_PREP_CONST(MPAMF_IIDR_PRODUCTID, 0) | \ + FIELD_PREP_CONST(MPAMF_IIDR_VARIANT, 0) | \ + FIELD_PREP_CONST(MPAMF_IIDR_REVISION, 0) | \ + FIELD_PREP_CONST(MPAMF_IIDR_IMPLEMENTER, 0x43b)) + +/* The values for MSMON_CFG_MBWU_FLT.RWBW */ +enum mon_filter_options { + COUNT_BOTH = 0, + COUNT_WRITE = 1, + COUNT_READ = 2, +}; + +struct mon_cfg { + /* + * mon must be large enough to hold out of range values like + * USE_PRE_ALLOCATED + */ + u32 mon; + u8 pmg; + bool match_pmg; + bool csu_exclude_clean; + u32 partid; + enum mon_filter_options opts; +}; + +/* Changes to msmon_mbwu_state are protected by the msc's mon_sel_lock. */ +struct msmon_mbwu_state { + bool enabled; + bool reset_on_next_read; + struct mon_cfg cfg; + + /* + * The value to add to the new reading to account for power management, + * and overflow. + */ + u64 correction; + + struct mpam_garbage garbage; +}; + +struct mpam_class { + /* mpam_components in this class */ + struct list_head components; + + cpumask_t affinity; + + struct mpam_props props; + u32 nrdy_usec; + u16 quirks; + u8 level; + enum mpam_class_types type; + + /* member of mpam_classes */ + struct list_head classes_list; + + struct ida ida_csu_mon; + struct ida ida_mbwu_mon; + + struct mpam_garbage garbage; +}; + +struct mpam_config { + /* Which configuration values are valid. */ + DECLARE_BITMAP(features, MPAM_FEATURE_LAST); + + u32 cpbm; + u32 mbw_pbm; + u16 mbw_max; + + struct mpam_garbage garbage; +}; + +struct mpam_component { + u32 comp_id; + + /* mpam_vmsc in this component */ + struct list_head vmsc; + + cpumask_t affinity; + + /* + * Array of configuration values, indexed by partid. + * Read from cpuhp callbacks, hold the cpuhp lock when writing. + */ + struct mpam_config *cfg; + + /* member of mpam_class:components */ + struct list_head class_list; + + /* parent: */ + struct mpam_class *class; + + struct mpam_garbage garbage; +}; + +struct mpam_vmsc { + /* member of mpam_component:vmsc_list */ + struct list_head comp_list; + + /* mpam_msc_ris in this vmsc */ + struct list_head ris; + + struct mpam_props props; + + /* All RIS in this vMSC are members of this MSC */ + struct mpam_msc *msc; + + /* parent: */ + struct mpam_component *comp; + + struct mpam_garbage garbage; +}; + +struct mpam_msc_ris { + u8 ris_idx; + u64 idr; + struct mpam_props props; + bool in_reset_state; + + cpumask_t affinity; + + /* member of mpam_vmsc:ris */ + struct list_head vmsc_list; + + /* member of mpam_msc:ris */ + struct list_head msc_list; + + /* parent: */ + struct mpam_vmsc *vmsc; + + /* msmon mbwu configuration is preserved over reset */ + struct msmon_mbwu_state *mbwu_state; + + struct mpam_garbage garbage; +}; + +struct mpam_resctrl_dom { + struct mpam_component *ctrl_comp; + + /* + * There is no single mon_comp because different events may be backed + * by different class/components. mon_comp is indexed by the event + * number. + */ + struct mpam_component *mon_comp[QOS_NUM_EVENTS]; + + struct rdt_ctrl_domain resctrl_ctrl_dom; + struct rdt_l3_mon_domain resctrl_mon_dom; +}; + +struct mpam_resctrl_res { + struct mpam_class *class; + struct rdt_resource resctrl_res; + bool cdp_enabled; +}; + +struct mpam_resctrl_mon { + struct mpam_class *class; + + /* per-class data that resctrl needs will live here */ +}; + +static inline int mpam_alloc_csu_mon(struct mpam_class *class) +{ + struct mpam_props *cprops = &class->props; + + if (!mpam_has_feature(mpam_feat_msmon_csu, cprops)) + return -EOPNOTSUPP; + + return ida_alloc_max(&class->ida_csu_mon, cprops->num_csu_mon - 1, + GFP_KERNEL); +} + +static inline void mpam_free_csu_mon(struct mpam_class *class, int csu_mon) +{ + ida_free(&class->ida_csu_mon, csu_mon); +} + +static inline int mpam_alloc_mbwu_mon(struct mpam_class *class) +{ + struct mpam_props *cprops = &class->props; + + if (!mpam_has_feature(mpam_feat_msmon_mbwu, cprops)) + return -EOPNOTSUPP; + + return ida_alloc_max(&class->ida_mbwu_mon, cprops->num_mbwu_mon - 1, + GFP_KERNEL); +} + +static inline void mpam_free_mbwu_mon(struct mpam_class *class, int mbwu_mon) +{ + ida_free(&class->ida_mbwu_mon, mbwu_mon); +} + +/* List of all classes - protected by srcu*/ +extern struct srcu_struct mpam_srcu; +extern struct list_head mpam_classes; + +/* System wide partid/pmg values */ +extern u16 mpam_partid_max; +extern u8 mpam_pmg_max; + +/* Scheduled work callback to enable mpam once all MSC have been probed */ +void mpam_enable(struct work_struct *work); +void mpam_disable(struct work_struct *work); + +/* Reset all the RIS in a class under cpus_read_lock() */ +void mpam_reset_class_locked(struct mpam_class *class); + +int mpam_apply_config(struct mpam_component *comp, u16 partid, + struct mpam_config *cfg); + +int mpam_msmon_read(struct mpam_component *comp, struct mon_cfg *ctx, + enum mpam_device_features, u64 *val); +void mpam_msmon_reset_mbwu(struct mpam_component *comp, struct mon_cfg *ctx); + +int mpam_get_cpumask_from_cache_id(unsigned long cache_id, u32 cache_level, + cpumask_t *affinity); + +#ifdef CONFIG_RESCTRL_FS +int mpam_resctrl_setup(void); +void mpam_resctrl_exit(void); +int mpam_resctrl_online_cpu(unsigned int cpu); +void mpam_resctrl_offline_cpu(unsigned int cpu); +void mpam_resctrl_teardown_class(struct mpam_class *class); +#else +static inline int mpam_resctrl_setup(void) { return 0; } +static inline void mpam_resctrl_exit(void) { } +static inline int mpam_resctrl_online_cpu(unsigned int cpu) { return 0; } +static inline void mpam_resctrl_offline_cpu(unsigned int cpu) { } +static inline void mpam_resctrl_teardown_class(struct mpam_class *class) { } +#endif /* CONFIG_RESCTRL_FS */ + +/* + * MPAM MSCs have the following register layout. See: + * Arm Memory System Resource Partitioning and Monitoring (MPAM) System + * Component Specification. + * https://developer.arm.com/documentation/ihi0099/aa/ + */ +#define MPAM_ARCHITECTURE_V1 0x10 + +/* Memory mapped control pages */ +/* ID Register offsets in the memory mapped page */ +#define MPAMF_IDR 0x0000 /* features id register */ +#define MPAMF_IIDR 0x0018 /* implementer id register */ +#define MPAMF_AIDR 0x0020 /* architectural id register */ +#define MPAMF_IMPL_IDR 0x0028 /* imp-def partitioning */ +#define MPAMF_CPOR_IDR 0x0030 /* cache-portion partitioning */ +#define MPAMF_CCAP_IDR 0x0038 /* cache-capacity partitioning */ +#define MPAMF_MBW_IDR 0x0040 /* mem-bw partitioning */ +#define MPAMF_PRI_IDR 0x0048 /* priority partitioning */ +#define MPAMF_MSMON_IDR 0x0080 /* performance monitoring features */ +#define MPAMF_CSUMON_IDR 0x0088 /* cache-usage monitor */ +#define MPAMF_MBWUMON_IDR 0x0090 /* mem-bw usage monitor */ +#define MPAMF_PARTID_NRW_IDR 0x0050 /* partid-narrowing */ + +/* Configuration and Status Register offsets in the memory mapped page */ +#define MPAMCFG_PART_SEL 0x0100 /* partid to configure */ +#define MPAMCFG_CPBM 0x1000 /* cache-portion config */ +#define MPAMCFG_CMAX 0x0108 /* cache-capacity config */ +#define MPAMCFG_CMIN 0x0110 /* cache-capacity config */ +#define MPAMCFG_CASSOC 0x0118 /* cache-associativity config */ +#define MPAMCFG_MBW_MIN 0x0200 /* min mem-bw config */ +#define MPAMCFG_MBW_MAX 0x0208 /* max mem-bw config */ +#define MPAMCFG_MBW_WINWD 0x0220 /* mem-bw accounting window config */ +#define MPAMCFG_MBW_PBM 0x2000 /* mem-bw portion bitmap config */ +#define MPAMCFG_PRI 0x0400 /* priority partitioning config */ +#define MPAMCFG_MBW_PROP 0x0500 /* mem-bw stride config */ +#define MPAMCFG_INTPARTID 0x0600 /* partid-narrowing config */ + +#define MSMON_CFG_MON_SEL 0x0800 /* monitor selector */ +#define MSMON_CFG_CSU_FLT 0x0810 /* cache-usage monitor filter */ +#define MSMON_CFG_CSU_CTL 0x0818 /* cache-usage monitor config */ +#define MSMON_CFG_MBWU_FLT 0x0820 /* mem-bw monitor filter */ +#define MSMON_CFG_MBWU_CTL 0x0828 /* mem-bw monitor config */ +#define MSMON_CSU 0x0840 /* current cache-usage */ +#define MSMON_CSU_CAPTURE 0x0848 /* last cache-usage value captured */ +#define MSMON_MBWU 0x0860 /* current mem-bw usage value */ +#define MSMON_MBWU_CAPTURE 0x0868 /* last mem-bw value captured */ +#define MSMON_MBWU_L 0x0880 /* current long mem-bw usage value */ +#define MSMON_MBWU_L_CAPTURE 0x0890 /* last long mem-bw value captured */ +#define MSMON_CAPT_EVNT 0x0808 /* signal a capture event */ +#define MPAMF_ESR 0x00F8 /* error status register */ +#define MPAMF_ECR 0x00F0 /* error control register */ + +/* MPAMF_IDR - MPAM features ID register */ +#define MPAMF_IDR_PARTID_MAX GENMASK(15, 0) +#define MPAMF_IDR_PMG_MAX GENMASK(23, 16) +#define MPAMF_IDR_HAS_CCAP_PART BIT(24) +#define MPAMF_IDR_HAS_CPOR_PART BIT(25) +#define MPAMF_IDR_HAS_MBW_PART BIT(26) +#define MPAMF_IDR_HAS_PRI_PART BIT(27) +#define MPAMF_IDR_EXT BIT(28) +#define MPAMF_IDR_HAS_IMPL_IDR BIT(29) +#define MPAMF_IDR_HAS_MSMON BIT(30) +#define MPAMF_IDR_HAS_PARTID_NRW BIT(31) +#define MPAMF_IDR_HAS_RIS BIT(32) +#define MPAMF_IDR_HAS_EXTD_ESR BIT(38) +#define MPAMF_IDR_HAS_ESR BIT(39) +#define MPAMF_IDR_RIS_MAX GENMASK(59, 56) + +/* MPAMF_MSMON_IDR - MPAM performance monitoring ID register */ +#define MPAMF_MSMON_IDR_MSMON_CSU BIT(16) +#define MPAMF_MSMON_IDR_MSMON_MBWU BIT(17) +#define MPAMF_MSMON_IDR_HAS_LOCAL_CAPT_EVNT BIT(31) + +/* MPAMF_CPOR_IDR - MPAM features cache portion partitioning ID register */ +#define MPAMF_CPOR_IDR_CPBM_WD GENMASK(15, 0) + +/* MPAMF_CCAP_IDR - MPAM features cache capacity partitioning ID register */ +#define MPAMF_CCAP_IDR_CMAX_WD GENMASK(5, 0) +#define MPAMF_CCAP_IDR_CASSOC_WD GENMASK(12, 8) +#define MPAMF_CCAP_IDR_HAS_CASSOC BIT(28) +#define MPAMF_CCAP_IDR_HAS_CMIN BIT(29) +#define MPAMF_CCAP_IDR_NO_CMAX BIT(30) +#define MPAMF_CCAP_IDR_HAS_CMAX_SOFTLIM BIT(31) + +/* MPAMF_MBW_IDR - MPAM features memory bandwidth partitioning ID register */ +#define MPAMF_MBW_IDR_BWA_WD GENMASK(5, 0) +#define MPAMF_MBW_IDR_HAS_MIN BIT(10) +#define MPAMF_MBW_IDR_HAS_MAX BIT(11) +#define MPAMF_MBW_IDR_HAS_PBM BIT(12) +#define MPAMF_MBW_IDR_HAS_PROP BIT(13) +#define MPAMF_MBW_IDR_WINDWR BIT(14) +#define MPAMF_MBW_IDR_BWPBM_WD GENMASK(28, 16) + +/* MPAMF_PRI_IDR - MPAM features priority partitioning ID register */ +#define MPAMF_PRI_IDR_HAS_INTPRI BIT(0) +#define MPAMF_PRI_IDR_INTPRI_0_IS_LOW BIT(1) +#define MPAMF_PRI_IDR_INTPRI_WD GENMASK(9, 4) +#define MPAMF_PRI_IDR_HAS_DSPRI BIT(16) +#define MPAMF_PRI_IDR_DSPRI_0_IS_LOW BIT(17) +#define MPAMF_PRI_IDR_DSPRI_WD GENMASK(25, 20) + +/* MPAMF_CSUMON_IDR - MPAM cache storage usage monitor ID register */ +#define MPAMF_CSUMON_IDR_NUM_MON GENMASK(15, 0) +#define MPAMF_CSUMON_IDR_HAS_OFLOW_CAPT BIT(24) +#define MPAMF_CSUMON_IDR_HAS_CEVNT_OFLW BIT(25) +#define MPAMF_CSUMON_IDR_HAS_OFSR BIT(26) +#define MPAMF_CSUMON_IDR_HAS_OFLOW_LNKG BIT(27) +#define MPAMF_CSUMON_IDR_HAS_XCL BIT(29) +#define MPAMF_CSUMON_IDR_CSU_RO BIT(30) +#define MPAMF_CSUMON_IDR_HAS_CAPTURE BIT(31) + +/* MPAMF_MBWUMON_IDR - MPAM memory bandwidth usage monitor ID register */ +#define MPAMF_MBWUMON_IDR_NUM_MON GENMASK(15, 0) +#define MPAMF_MBWUMON_IDR_HAS_RWBW BIT(28) +#define MPAMF_MBWUMON_IDR_LWD BIT(29) +#define MPAMF_MBWUMON_IDR_HAS_LONG BIT(30) +#define MPAMF_MBWUMON_IDR_HAS_CAPTURE BIT(31) + +/* MPAMF_PARTID_NRW_IDR - MPAM PARTID narrowing ID register */ +#define MPAMF_PARTID_NRW_IDR_INTPARTID_MAX GENMASK(15, 0) + +/* MPAMF_IIDR - MPAM implementation ID register */ +#define MPAMF_IIDR_IMPLEMENTER GENMASK(11, 0) +#define MPAMF_IIDR_REVISION GENMASK(15, 12) +#define MPAMF_IIDR_VARIANT GENMASK(19, 16) +#define MPAMF_IIDR_PRODUCTID GENMASK(31, 20) + +/* MPAMF_AIDR - MPAM architecture ID register */ +#define MPAMF_AIDR_ARCH_MINOR_REV GENMASK(3, 0) +#define MPAMF_AIDR_ARCH_MAJOR_REV GENMASK(7, 4) + +/* MPAMCFG_PART_SEL - MPAM partition configuration selection register */ +#define MPAMCFG_PART_SEL_PARTID_SEL GENMASK(15, 0) +#define MPAMCFG_PART_SEL_INTERNAL BIT(16) +#define MPAMCFG_PART_SEL_RIS GENMASK(27, 24) + +/* MPAMCFG_CASSOC - MPAM cache maximum associativity partition configuration register */ +#define MPAMCFG_CASSOC_CASSOC GENMASK(15, 0) + +/* MPAMCFG_CMAX - MPAM cache capacity configuration register */ +#define MPAMCFG_CMAX_SOFTLIM BIT(31) +#define MPAMCFG_CMAX_CMAX GENMASK(15, 0) + +/* MPAMCFG_CMIN - MPAM cache capacity configuration register */ +#define MPAMCFG_CMIN_CMIN GENMASK(15, 0) + +/* + * MPAMCFG_MBW_MIN - MPAM memory minimum bandwidth partitioning configuration + * register + */ +#define MPAMCFG_MBW_MIN_MIN GENMASK(15, 0) + +/* + * MPAMCFG_MBW_MAX - MPAM memory maximum bandwidth partitioning configuration + * register + */ +#define MPAMCFG_MBW_MAX_MAX GENMASK(15, 0) +#define MPAMCFG_MBW_MAX_HARDLIM BIT(31) + +/* + * MPAMCFG_MBW_WINWD - MPAM memory bandwidth partitioning window width + * register + */ +#define MPAMCFG_MBW_WINWD_US_FRAC GENMASK(7, 0) +#define MPAMCFG_MBW_WINWD_US_INT GENMASK(23, 8) + +/* MPAMCFG_PRI - MPAM priority partitioning configuration register */ +#define MPAMCFG_PRI_INTPRI GENMASK(15, 0) +#define MPAMCFG_PRI_DSPRI GENMASK(31, 16) + +/* + * MPAMCFG_MBW_PROP - Memory bandwidth proportional stride partitioning + * configuration register + */ +#define MPAMCFG_MBW_PROP_STRIDEM1 GENMASK(15, 0) +#define MPAMCFG_MBW_PROP_EN BIT(31) + +/* + * MPAMCFG_INTPARTID - MPAM internal partition narrowing configuration register + */ +#define MPAMCFG_INTPARTID_INTPARTID GENMASK(15, 0) +#define MPAMCFG_INTPARTID_INTERNAL BIT(16) + +/* MSMON_CFG_MON_SEL - Memory system performance monitor selection register */ +#define MSMON_CFG_MON_SEL_MON_SEL GENMASK(15, 0) +#define MSMON_CFG_MON_SEL_RIS GENMASK(27, 24) + +/* MPAMF_ESR - MPAM Error Status Register */ +#define MPAMF_ESR_PARTID_MON GENMASK(15, 0) +#define MPAMF_ESR_PMG GENMASK(23, 16) +#define MPAMF_ESR_ERRCODE GENMASK(27, 24) +#define MPAMF_ESR_OVRWR BIT(31) +#define MPAMF_ESR_RIS GENMASK(35, 32) + +/* MPAMF_ECR - MPAM Error Control Register */ +#define MPAMF_ECR_INTEN BIT(0) + +/* Error conditions in accessing memory mapped registers */ +#define MPAM_ERRCODE_NONE 0 +#define MPAM_ERRCODE_PARTID_SEL_RANGE 1 +#define MPAM_ERRCODE_REQ_PARTID_RANGE 2 +#define MPAM_ERRCODE_MSMONCFG_ID_RANGE 3 +#define MPAM_ERRCODE_REQ_PMG_RANGE 4 +#define MPAM_ERRCODE_MONITOR_RANGE 5 +#define MPAM_ERRCODE_INTPARTID_RANGE 6 +#define MPAM_ERRCODE_UNEXPECTED_INTERNAL 7 +#define MPAM_ERRCODE_UNDEFINED_RIS_PART_SEL 8 +#define MPAM_ERRCODE_RIS_NO_CONTROL 9 +#define MPAM_ERRCODE_UNDEFINED_RIS_MON_SEL 10 +#define MPAM_ERRCODE_RIS_NO_MONITOR 11 + +/* + * MSMON_CFG_CSU_CTL - Memory system performance monitor configure cache storage + * usage monitor control register + * MSMON_CFG_MBWU_CTL - Memory system performance monitor configure memory + * bandwidth usage monitor control register + */ +#define MSMON_CFG_x_CTL_TYPE GENMASK(7, 0) +#define MSMON_CFG_MBWU_CTL_OFLOW_STATUS_L BIT(15) +#define MSMON_CFG_x_CTL_MATCH_PARTID BIT(16) +#define MSMON_CFG_x_CTL_MATCH_PMG BIT(17) +#define MSMON_CFG_MBWU_CTL_SCLEN BIT(19) +#define MSMON_CFG_x_CTL_SUBTYPE GENMASK(22, 20) +#define MSMON_CFG_x_CTL_OFLOW_FRZ BIT(24) +#define MSMON_CFG_x_CTL_OFLOW_INTR BIT(25) +#define MSMON_CFG_x_CTL_OFLOW_STATUS BIT(26) +#define MSMON_CFG_x_CTL_CAPT_RESET BIT(27) +#define MSMON_CFG_x_CTL_CAPT_EVNT GENMASK(30, 28) +#define MSMON_CFG_x_CTL_EN BIT(31) + +#define MSMON_CFG_MBWU_CTL_TYPE_MBWU 0x42 +#define MSMON_CFG_CSU_CTL_TYPE_CSU 0x43 + +/* + * MSMON_CFG_CSU_FLT - Memory system performance monitor configure cache storage + * usage monitor filter register + * MSMON_CFG_MBWU_FLT - Memory system performance monitor configure memory + * bandwidth usage monitor filter register + */ +#define MSMON_CFG_x_FLT_PARTID GENMASK(15, 0) +#define MSMON_CFG_x_FLT_PMG GENMASK(23, 16) + +#define MSMON_CFG_MBWU_FLT_RWBW GENMASK(31, 30) +#define MSMON_CFG_CSU_FLT_XCL BIT(31) + +/* + * MSMON_CSU - Memory system performance monitor cache storage usage monitor + * register + * MSMON_CSU_CAPTURE - Memory system performance monitor cache storage usage + * capture register + * MSMON_MBWU - Memory system performance monitor memory bandwidth usage + * monitor register + * MSMON_MBWU_CAPTURE - Memory system performance monitor memory bandwidth usage + * capture register + */ +#define MSMON___VALUE GENMASK(30, 0) +#define MSMON___NRDY BIT(31) +#define MSMON___L_NRDY BIT(63) +#define MSMON___L_VALUE GENMASK(43, 0) +#define MSMON___LWD_VALUE GENMASK(62, 0) + +/* + * MSMON_CAPT_EVNT - Memory system performance monitoring capture event + * generation register + */ +#define MSMON_CAPT_EVNT_NOW BIT(0) + +#endif /* MPAM_INTERNAL_H */ diff --git a/drivers/resctrl/mpam_resctrl.c b/drivers/resctrl/mpam_resctrl.c new file mode 100644 index 0000000000000..a9938006d0e6e --- /dev/null +++ b/drivers/resctrl/mpam_resctrl.c @@ -0,0 +1,1704 @@ +// SPDX-License-Identifier: GPL-2.0 +// Copyright (C) 2025 Arm Ltd. + +#define pr_fmt(fmt) "%s:%s: " fmt, KBUILD_MODNAME, __func__ + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include + +#include "mpam_internal.h" + +DECLARE_WAIT_QUEUE_HEAD(resctrl_mon_ctx_waiters); + +/* + * The classes we've picked to map to resctrl resources, wrapped + * in with their resctrl structure. + * Class pointer may be NULL. + */ +static struct mpam_resctrl_res mpam_resctrl_controls[RDT_NUM_RESOURCES]; + +#define for_each_mpam_resctrl_control(res, rid) \ + for (rid = 0, res = &mpam_resctrl_controls[rid]; \ + rid < RDT_NUM_RESOURCES; \ + rid++, res = &mpam_resctrl_controls[rid]) + +/* + * The classes we've picked to map to resctrl events. + * Resctrl believes all the worlds a Xeon, and these are all on the L3. This + * array lets us find the actual class backing the event counters. e.g. + * the only memory bandwidth counters may be on the memory controller, but to + * make use of them, we pretend they are on L3. Restrict the events considered + * to those supported by MPAM. + * Class pointer may be NULL. + */ +#define MPAM_MAX_EVENT QOS_L3_MBM_TOTAL_EVENT_ID +static struct mpam_resctrl_mon mpam_resctrl_counters[MPAM_MAX_EVENT + 1]; + +#define for_each_mpam_resctrl_mon(mon, eventid) \ + for (eventid = QOS_FIRST_EVENT, mon = &mpam_resctrl_counters[eventid]; \ + eventid <= MPAM_MAX_EVENT; \ + eventid++, mon = &mpam_resctrl_counters[eventid]) + +/* The lock for modifying resctrl's domain lists from cpuhp callbacks. */ +static DEFINE_MUTEX(domain_list_lock); + +/* + * MPAM emulates CDP by setting different PARTID in the I/D fields of MPAM0_EL1. + * This applies globally to all traffic the CPU generates. + */ +static bool cdp_enabled; + +/* + * We use cacheinfo to discover the size of the caches and their id. cacheinfo + * populates this from a device_initcall(). mpam_resctrl_setup() must wait. + */ +static bool cacheinfo_ready; +static DECLARE_WAIT_QUEUE_HEAD(wait_cacheinfo_ready); + +/* + * If resctrl_init() succeeded, resctrl_exit() can be used to remove support + * for the filesystem in the event of an error. + */ +static bool resctrl_enabled; + +bool resctrl_arch_alloc_capable(void) +{ + struct mpam_resctrl_res *res; + enum resctrl_res_level rid; + + for_each_mpam_resctrl_control(res, rid) { + if (res->resctrl_res.alloc_capable) + return true; + } + + return false; +} + +bool resctrl_arch_mon_capable(void) +{ + struct mpam_resctrl_res *res = &mpam_resctrl_controls[RDT_RESOURCE_L3]; + struct rdt_resource *l3 = &res->resctrl_res; + + /* All monitors are presented as being on the L3 cache */ + return l3->mon_capable; +} + +bool resctrl_arch_is_evt_configurable(enum resctrl_event_id evt) +{ + return false; +} + +void resctrl_arch_mon_event_config_read(void *info) +{ +} + +void resctrl_arch_mon_event_config_write(void *info) +{ +} + +void resctrl_arch_reset_rmid_all(struct rdt_resource *r, struct rdt_l3_mon_domain *d) +{ +} + +void resctrl_arch_reset_rmid(struct rdt_resource *r, struct rdt_l3_mon_domain *d, + u32 closid, u32 rmid, enum resctrl_event_id eventid) +{ +} + +void resctrl_arch_reset_cntr(struct rdt_resource *r, struct rdt_l3_mon_domain *d, + u32 closid, u32 rmid, int cntr_id, + enum resctrl_event_id eventid) +{ +} + +void resctrl_arch_config_cntr(struct rdt_resource *r, struct rdt_l3_mon_domain *d, + enum resctrl_event_id evtid, u32 rmid, u32 closid, + u32 cntr_id, bool assign) +{ +} + +int resctrl_arch_cntr_read(struct rdt_resource *r, struct rdt_l3_mon_domain *d, + u32 unused, u32 rmid, int cntr_id, + enum resctrl_event_id eventid, u64 *val) +{ + return -EOPNOTSUPP; +} + +bool resctrl_arch_mbm_cntr_assign_enabled(struct rdt_resource *r) +{ + return false; +} + +int resctrl_arch_mbm_cntr_assign_set(struct rdt_resource *r, bool enable) +{ + return -EINVAL; +} + +int resctrl_arch_io_alloc_enable(struct rdt_resource *r, bool enable) +{ + return -EOPNOTSUPP; +} + +bool resctrl_arch_get_io_alloc_enabled(struct rdt_resource *r) +{ + return false; +} + +void resctrl_arch_pre_mount(void) +{ +} + +bool resctrl_arch_get_cdp_enabled(enum resctrl_res_level rid) +{ + return mpam_resctrl_controls[rid].cdp_enabled; +} + +/** + * resctrl_reset_task_closids() - Reset the PARTID/PMG values for all tasks. + * + * At boot, all existing tasks use partid zero for D and I. + * To enable/disable CDP emulation, all these tasks need relabelling. + */ +static void resctrl_reset_task_closids(void) +{ + struct task_struct *p, *t; + + read_lock(&tasklist_lock); + for_each_process_thread(p, t) { + resctrl_arch_set_closid_rmid(t, RESCTRL_RESERVED_CLOSID, + RESCTRL_RESERVED_RMID); + } + read_unlock(&tasklist_lock); +} + +int resctrl_arch_set_cdp_enabled(enum resctrl_res_level rid, bool enable) +{ + u32 partid_i = RESCTRL_RESERVED_CLOSID, partid_d = RESCTRL_RESERVED_CLOSID; + struct mpam_resctrl_res *res = &mpam_resctrl_controls[RDT_RESOURCE_L3]; + struct rdt_resource *l3 = &res->resctrl_res; + int cpu; + + if (!IS_ENABLED(CONFIG_EXPERT) && enable) { + /* + * If the resctrl fs is mounted more than once, sequentially, + * then CDP can lead to the use of out of range PARTIDs. + */ + pr_warn("CDP not supported\n"); + return -EOPNOTSUPP; + } + + if (enable) + pr_warn("CDP is an expert feature and may cause MPAM to malfunction.\n"); + + /* + * resctrl_arch_set_cdp_enabled() is only called with enable set to + * false on error and unmount. + */ + cdp_enabled = enable; + mpam_resctrl_controls[rid].cdp_enabled = enable; + + if (enable) + l3->mon.num_rmid = resctrl_arch_system_num_rmid_idx() / 2; + else + l3->mon.num_rmid = resctrl_arch_system_num_rmid_idx(); + + /* The mbw_max feature can't hide cdp as it's a per-partid maximum. */ + if (cdp_enabled && !mpam_resctrl_controls[RDT_RESOURCE_MBA].cdp_enabled) + mpam_resctrl_controls[RDT_RESOURCE_MBA].resctrl_res.alloc_capable = false; + + if (mpam_resctrl_controls[RDT_RESOURCE_MBA].cdp_enabled && + mpam_resctrl_controls[RDT_RESOURCE_MBA].class) + mpam_resctrl_controls[RDT_RESOURCE_MBA].resctrl_res.alloc_capable = true; + + if (enable) { + if (mpam_partid_max < 1) + return -EINVAL; + + partid_d = resctrl_get_config_index(RESCTRL_RESERVED_CLOSID, CDP_DATA); + partid_i = resctrl_get_config_index(RESCTRL_RESERVED_CLOSID, CDP_CODE); + } + + mpam_set_task_partid_pmg(current, partid_d, partid_i, 0, 0); + WRITE_ONCE(arm64_mpam_global_default, mpam_get_regval(current)); + + resctrl_reset_task_closids(); + + for_each_possible_cpu(cpu) + mpam_set_cpu_defaults(cpu, partid_d, partid_i, 0, 0); + on_each_cpu(resctrl_arch_sync_cpu_closid_rmid, NULL, 1); + + return 0; +} + +static bool mpam_resctrl_hide_cdp(enum resctrl_res_level rid) +{ + return cdp_enabled && !resctrl_arch_get_cdp_enabled(rid); +} + +/* + * MSC may raise an error interrupt if it sees an out or range partid/pmg, + * and go on to truncate the value. Regardless of what the hardware supports, + * only the system wide safe value is safe to use. + */ +u32 resctrl_arch_get_num_closid(struct rdt_resource *ignored) +{ + return mpam_partid_max + 1; +} + +u32 resctrl_arch_system_num_rmid_idx(void) +{ + return (mpam_pmg_max + 1) * (mpam_partid_max + 1); +} + +u32 resctrl_arch_rmid_idx_encode(u32 closid, u32 rmid) +{ + return closid * (mpam_pmg_max + 1) + rmid; +} + +void resctrl_arch_rmid_idx_decode(u32 idx, u32 *closid, u32 *rmid) +{ + *closid = idx / (mpam_pmg_max + 1); + *rmid = idx % (mpam_pmg_max + 1); +} + +void resctrl_arch_sched_in(struct task_struct *tsk) +{ + lockdep_assert_preemption_disabled(); + + mpam_thread_switch(tsk); +} + +void resctrl_arch_set_cpu_default_closid_rmid(int cpu, u32 closid, u32 rmid) +{ + WARN_ON_ONCE(closid > U16_MAX); + WARN_ON_ONCE(rmid > U8_MAX); + + if (!cdp_enabled) { + mpam_set_cpu_defaults(cpu, closid, closid, rmid, rmid); + } else { + /* + * When CDP is enabled, resctrl halves the closid range and we + * use odd/even partid for one closid. + */ + u32 partid_d = resctrl_get_config_index(closid, CDP_DATA); + u32 partid_i = resctrl_get_config_index(closid, CDP_CODE); + + mpam_set_cpu_defaults(cpu, partid_d, partid_i, rmid, rmid); + } +} + +void resctrl_arch_sync_cpu_closid_rmid(void *info) +{ + struct resctrl_cpu_defaults *r = info; + + lockdep_assert_preemption_disabled(); + + if (r) { + resctrl_arch_set_cpu_default_closid_rmid(smp_processor_id(), + r->closid, r->rmid); + } + + resctrl_arch_sched_in(current); +} + +void resctrl_arch_set_closid_rmid(struct task_struct *tsk, u32 closid, u32 rmid) +{ + WARN_ON_ONCE(closid > U16_MAX); + WARN_ON_ONCE(rmid > U8_MAX); + + if (!cdp_enabled) { + mpam_set_task_partid_pmg(tsk, closid, closid, rmid, rmid); + } else { + u32 partid_d = resctrl_get_config_index(closid, CDP_DATA); + u32 partid_i = resctrl_get_config_index(closid, CDP_CODE); + + mpam_set_task_partid_pmg(tsk, partid_d, partid_i, rmid, rmid); + } +} + +bool resctrl_arch_match_closid(struct task_struct *tsk, u32 closid) +{ + u64 regval = mpam_get_regval(tsk); + u32 tsk_closid = FIELD_GET(MPAM0_EL1_PARTID_D, regval); + + if (cdp_enabled) + tsk_closid >>= 1; + + return tsk_closid == closid; +} + +/* The task's pmg is not unique, the partid must be considered too */ +bool resctrl_arch_match_rmid(struct task_struct *tsk, u32 closid, u32 rmid) +{ + u64 regval = mpam_get_regval(tsk); + u32 tsk_closid = FIELD_GET(MPAM0_EL1_PARTID_D, regval); + u32 tsk_rmid = FIELD_GET(MPAM0_EL1_PMG_D, regval); + + if (cdp_enabled) + tsk_closid >>= 1; + + return (tsk_closid == closid) && (tsk_rmid == rmid); +} + +struct rdt_resource *resctrl_arch_get_resource(enum resctrl_res_level l) +{ + if (l >= RDT_NUM_RESOURCES) + return NULL; + + return &mpam_resctrl_controls[l].resctrl_res; +} + +static int resctrl_arch_mon_ctx_alloc_no_wait(enum resctrl_event_id evtid) +{ + struct mpam_resctrl_mon *mon = &mpam_resctrl_counters[evtid]; + + if (!mpam_is_enabled()) + return -EINVAL; + + if (!mon->class) + return -EINVAL; + + switch (evtid) { + case QOS_L3_OCCUP_EVENT_ID: + /* With CDP, one monitor gets used for both code/data reads */ + return mpam_alloc_csu_mon(mon->class); + case QOS_L3_MBM_LOCAL_EVENT_ID: + case QOS_L3_MBM_TOTAL_EVENT_ID: + return USE_PRE_ALLOCATED; + default: + return -EOPNOTSUPP; + } +} + +void *resctrl_arch_mon_ctx_alloc(struct rdt_resource *r, + enum resctrl_event_id evtid) +{ + DEFINE_WAIT(wait); + int *ret; + + ret = kmalloc_obj(*ret); + if (!ret) + return ERR_PTR(-ENOMEM); + + do { + prepare_to_wait(&resctrl_mon_ctx_waiters, &wait, + TASK_INTERRUPTIBLE); + *ret = resctrl_arch_mon_ctx_alloc_no_wait(evtid); + if (*ret == -ENOSPC) + schedule(); + } while (*ret == -ENOSPC && !signal_pending(current)); + finish_wait(&resctrl_mon_ctx_waiters, &wait); + + return ret; +} + +static void resctrl_arch_mon_ctx_free_no_wait(enum resctrl_event_id evtid, + u32 mon_idx) +{ + struct mpam_resctrl_mon *mon = &mpam_resctrl_counters[evtid]; + + if (!mpam_is_enabled()) + return; + + if (!mon->class) + return; + + if (evtid == QOS_L3_OCCUP_EVENT_ID) + mpam_free_csu_mon(mon->class, mon_idx); + + wake_up(&resctrl_mon_ctx_waiters); +} + +void resctrl_arch_mon_ctx_free(struct rdt_resource *r, + enum resctrl_event_id evtid, void *arch_mon_ctx) +{ + u32 mon_idx = *(u32 *)arch_mon_ctx; + + kfree(arch_mon_ctx); + + resctrl_arch_mon_ctx_free_no_wait(evtid, mon_idx); +} + +static int __read_mon(struct mpam_resctrl_mon *mon, struct mpam_component *mon_comp, + enum mpam_device_features mon_type, + int mon_idx, + enum resctrl_conf_type cdp_type, u32 closid, u32 rmid, u64 *val) +{ + struct mon_cfg cfg; + + if (!mpam_is_enabled()) + return -EINVAL; + + /* Shift closid to account for CDP */ + closid = resctrl_get_config_index(closid, cdp_type); + + if (irqs_disabled()) { + /* Check if we can access this domain without an IPI */ + return -EIO; + } + + cfg = (struct mon_cfg) { + .mon = mon_idx, + .match_pmg = true, + .partid = closid, + .pmg = rmid, + }; + + return mpam_msmon_read(mon_comp, &cfg, mon_type, val); +} + +static int read_mon_cdp_safe(struct mpam_resctrl_mon *mon, struct mpam_component *mon_comp, + enum mpam_device_features mon_type, + int mon_idx, u32 closid, u32 rmid, u64 *val) +{ + if (cdp_enabled) { + u64 code_val = 0, data_val = 0; + int err; + + err = __read_mon(mon, mon_comp, mon_type, mon_idx, + CDP_CODE, closid, rmid, &code_val); + if (err) + return err; + + err = __read_mon(mon, mon_comp, mon_type, mon_idx, + CDP_DATA, closid, rmid, &data_val); + if (err) + return err; + + *val += code_val + data_val; + return 0; + } + + return __read_mon(mon, mon_comp, mon_type, mon_idx, + CDP_NONE, closid, rmid, val); +} + +/* MBWU when not in ABMC mode (not supported), and CSU counters. */ +int resctrl_arch_rmid_read(struct rdt_resource *r, struct rdt_domain_hdr *hdr, + u32 closid, u32 rmid, enum resctrl_event_id eventid, + void *arch_priv, u64 *val, void *arch_mon_ctx) +{ + struct mpam_resctrl_dom *l3_dom; + struct mpam_component *mon_comp; + u32 mon_idx = *(u32 *)arch_mon_ctx; + enum mpam_device_features mon_type; + struct mpam_resctrl_mon *mon = &mpam_resctrl_counters[eventid]; + + resctrl_arch_rmid_read_context_check(); + + if (!mpam_is_enabled()) + return -EINVAL; + + if (eventid >= QOS_NUM_EVENTS || !mon->class) + return -EINVAL; + + l3_dom = container_of(hdr, struct mpam_resctrl_dom, resctrl_mon_dom.hdr); + mon_comp = l3_dom->mon_comp[eventid]; + + if (eventid != QOS_L3_OCCUP_EVENT_ID) + return -EINVAL; + + mon_type = mpam_feat_msmon_csu; + + return read_mon_cdp_safe(mon, mon_comp, mon_type, mon_idx, + closid, rmid, val); +} + +/* + * The rmid realloc threshold should be for the smallest cache exposed to + * resctrl. + */ +static int update_rmid_limits(struct mpam_class *class) +{ + u32 num_unique_pmg = resctrl_arch_system_num_rmid_idx(); + struct mpam_props *cprops = &class->props; + struct cacheinfo *ci; + + lockdep_assert_cpus_held(); + + if (!mpam_has_feature(mpam_feat_msmon_csu, cprops)) + return 0; + + /* + * Assume cache levels are the same size for all CPUs... + * The check just requires any online CPU and it can't go offline as we + * hold the cpu lock. + */ + ci = get_cpu_cacheinfo_level(raw_smp_processor_id(), class->level); + if (!ci || ci->size == 0) { + pr_debug("Could not read cache size for class %u\n", + class->level); + return -EINVAL; + } + + if (!resctrl_rmid_realloc_limit || + ci->size < resctrl_rmid_realloc_limit) { + resctrl_rmid_realloc_limit = ci->size; + resctrl_rmid_realloc_threshold = ci->size / num_unique_pmg; + } + + return 0; +} + +static bool cache_has_usable_cpor(struct mpam_class *class) +{ + struct mpam_props *cprops = &class->props; + + if (!mpam_has_feature(mpam_feat_cpor_part, cprops)) + return false; + + /* resctrl uses u32 for all bitmap configurations */ + return class->props.cpbm_wd <= 32; +} + +static bool mba_class_use_mbw_max(struct mpam_props *cprops) +{ + return (mpam_has_feature(mpam_feat_mbw_max, cprops) && + cprops->bwa_wd); +} + +static bool class_has_usable_mba(struct mpam_props *cprops) +{ + return mba_class_use_mbw_max(cprops); +} + +static bool cache_has_usable_csu(struct mpam_class *class) +{ + struct mpam_props *cprops; + + if (!class) + return false; + + cprops = &class->props; + + if (!mpam_has_feature(mpam_feat_msmon_csu, cprops)) + return false; + + /* + * CSU counters settle on the value, so we can get away with + * having only one. + */ + if (!cprops->num_csu_mon) + return false; + + return true; +} + +/* + * Calculate the worst-case percentage change from each implemented step + * in the control. + */ +static u32 get_mba_granularity(struct mpam_props *cprops) +{ + if (!mba_class_use_mbw_max(cprops)) + return 0; + + /* + * bwa_wd is the number of bits implemented in the 0.xxx + * fixed point fraction. 1 bit is 50%, 2 is 25% etc. + */ + return DIV_ROUND_UP(MAX_MBA_BW, 1 << cprops->bwa_wd); +} + +/* + * Each fixed-point hardware value architecturally represents a range + * of values: the full range 0% - 100% is split contiguously into + * (1 << cprops->bwa_wd) equal bands. + * + * Although the bwa_bwd fields have 6 bits the maximum valid value is 16 + * as it reports the width of fields that are at most 16 bits. When + * fewer than 16 bits are valid the least significant bits are + * ignored. The implied binary point is kept between bits 15 and 16 and + * so the valid bits are leftmost. + * + * See ARM IHI0099B.a "MPAM system component specification", Section 9.3, + * "The fixed-point fractional format" for more information. + * + * Find the nearest percentage value to the upper bound of the selected band: + */ +static u32 mbw_max_to_percent(u16 mbw_max, struct mpam_props *cprops) +{ + u32 val = mbw_max; + + val >>= 16 - cprops->bwa_wd; + val += 1; + val *= MAX_MBA_BW; + val = DIV_ROUND_CLOSEST(val, 1 << cprops->bwa_wd); + + return val; +} + +/* + * Find the band whose upper bound is closest to the specified percentage. + * + * A round-to-nearest policy is followed here as a balanced compromise + * between unexpected under-commit of the resource (where the total of + * a set of resource allocations after conversion is less than the + * expected total, due to rounding of the individual converted + * percentages) and over-commit (where the total of the converted + * allocations is greater than expected). + */ +static u16 percent_to_mbw_max(u8 pc, struct mpam_props *cprops) +{ + u32 val = pc; + + val <<= cprops->bwa_wd; + val = DIV_ROUND_CLOSEST(val, MAX_MBA_BW); + val = max(val, 1) - 1; + val <<= 16 - cprops->bwa_wd; + + return val; +} + +static u32 get_mba_min(struct mpam_props *cprops) +{ + if (!mba_class_use_mbw_max(cprops)) { + WARN_ON_ONCE(1); + return 0; + } + + return mbw_max_to_percent(0, cprops); +} + +/* Find the L3 cache that has affinity with this CPU */ +static int find_l3_equivalent_bitmask(int cpu, cpumask_var_t tmp_cpumask) +{ + u32 cache_id = get_cpu_cacheinfo_id(cpu, 3); + + lockdep_assert_cpus_held(); + + return mpam_get_cpumask_from_cache_id(cache_id, 3, tmp_cpumask); +} + +/* + * topology_matches_l3() - Is the provided class the same shape as L3 + * @victim: The class we'd like to pretend is L3. + * + * resctrl expects all the world's a Xeon, and all counters are on the + * L3. We allow some mapping counters on other classes. This requires + * that the CPU->domain mapping is the same kind of shape. + * + * Using cacheinfo directly would make this work even if resctrl can't + * use the L3 - but cacheinfo can't tell us anything about offline CPUs. + * Using the L3 resctrl domain list also depends on CPUs being online. + * Using the mpam_class we picked for L3 so we can use its domain list + * assumes that there are MPAM controls on the L3. + * Instead, this path eventually uses the mpam_get_cpumask_from_cache_id() + * helper which can tell us about offline CPUs ... but getting the cache_id + * to start with relies on at least one CPU per L3 cache being online at + * boot. + * + * Walk the victim component list and compare the affinity mask with the + * corresponding L3. The topology matches if each victim:component's affinity + * mask is the same as the CPU's corresponding L3's. These lists/masks are + * computed from firmware tables so don't change at runtime. + */ +static bool topology_matches_l3(struct mpam_class *victim) +{ + int cpu, err; + struct mpam_component *victim_iter; + + lockdep_assert_cpus_held(); + + cpumask_var_t __free(free_cpumask_var) tmp_cpumask = CPUMASK_VAR_NULL; + if (!alloc_cpumask_var(&tmp_cpumask, GFP_KERNEL)) + return false; + + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(victim_iter, &victim->components, class_list, + srcu_read_lock_held(&mpam_srcu)) { + if (cpumask_empty(&victim_iter->affinity)) { + pr_debug("class %u has CPU-less component %u - can't match L3!\n", + victim->level, victim_iter->comp_id); + return false; + } + + cpu = cpumask_any_and(&victim_iter->affinity, cpu_online_mask); + if (WARN_ON_ONCE(cpu >= nr_cpu_ids)) + return false; + + cpumask_clear(tmp_cpumask); + err = find_l3_equivalent_bitmask(cpu, tmp_cpumask); + if (err) { + pr_debug("Failed to find L3's equivalent component to class %u component %u\n", + victim->level, victim_iter->comp_id); + return false; + } + + /* Any differing bits in the affinity mask? */ + if (!cpumask_equal(tmp_cpumask, &victim_iter->affinity)) { + pr_debug("class %u component %u has Mismatched CPU mask with L3 equivalent\n" + "L3:%*pbl != victim:%*pbl\n", + victim->level, victim_iter->comp_id, + cpumask_pr_args(tmp_cpumask), + cpumask_pr_args(&victim_iter->affinity)); + + return false; + } + } + + return true; +} + +/* + * Test if the traffic for a class matches that at egress from the L3. For + * MSC at memory controllers this is only possible if there is a single L3 + * as otherwise the counters at the memory can include bandwidth from the + * non-local L3. + */ +static bool traffic_matches_l3(struct mpam_class *class) +{ + int err, cpu; + + lockdep_assert_cpus_held(); + + if (class->type == MPAM_CLASS_CACHE && class->level == 3) + return true; + + if (class->type == MPAM_CLASS_CACHE && class->level != 3) { + pr_debug("class %u is a different cache from L3\n", class->level); + return false; + } + + if (class->type != MPAM_CLASS_MEMORY) { + pr_debug("class %u is neither of type cache or memory\n", class->level); + return false; + } + + cpumask_var_t __free(free_cpumask_var) tmp_cpumask = CPUMASK_VAR_NULL; + if (!alloc_cpumask_var(&tmp_cpumask, GFP_KERNEL)) { + pr_debug("cpumask allocation failed\n"); + return false; + } + + cpu = cpumask_any_and(&class->affinity, cpu_online_mask); + err = find_l3_equivalent_bitmask(cpu, tmp_cpumask); + if (err) { + pr_debug("Failed to find L3 downstream to cpu %d\n", cpu); + return false; + } + + if (!cpumask_equal(tmp_cpumask, cpu_possible_mask)) { + pr_debug("There is more than one L3\n"); + return false; + } + + /* Be strict; the traffic might stop in the intermediate cache. */ + if (get_cpu_cacheinfo_id(cpu, 4) != -1) { + pr_debug("L3 isn't the last level of cache\n"); + return false; + } + + if (num_possible_nodes() > 1) { + pr_debug("There is more than one numa node\n"); + return false; + } + +#ifdef CONFIG_HMEM_REPORTING + if (node_devices[cpu_to_node(cpu)]->cache_dev) { + pr_debug("There is a memory side cache\n"); + return false; + } +#endif + + return true; +} + +/* Test whether we can export MPAM_CLASS_CACHE:{2,3}? */ +static void mpam_resctrl_pick_caches(void) +{ + struct mpam_class *class; + struct mpam_resctrl_res *res; + + lockdep_assert_cpus_held(); + + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(class, &mpam_classes, classes_list, + srcu_read_lock_held(&mpam_srcu)) { + if (class->type != MPAM_CLASS_CACHE) { + pr_debug("class %u is not a cache\n", class->level); + continue; + } + + if (class->level != 2 && class->level != 3) { + pr_debug("class %u is not L2 or L3\n", class->level); + continue; + } + + if (!cache_has_usable_cpor(class)) { + pr_debug("class %u cache misses CPOR\n", class->level); + continue; + } + + if (!cpumask_equal(&class->affinity, cpu_possible_mask)) { + pr_debug("class %u has missing CPUs, mask %*pb != %*pb\n", class->level, + cpumask_pr_args(&class->affinity), + cpumask_pr_args(cpu_possible_mask)); + continue; + } + + if (class->level == 2) + res = &mpam_resctrl_controls[RDT_RESOURCE_L2]; + else + res = &mpam_resctrl_controls[RDT_RESOURCE_L3]; + res->class = class; + } +} + +static void mpam_resctrl_pick_mba(void) +{ + struct mpam_class *class, *candidate_class = NULL; + struct mpam_resctrl_res *res; + + lockdep_assert_cpus_held(); + + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(class, &mpam_classes, classes_list, + srcu_read_lock_held(&mpam_srcu)) { + struct mpam_props *cprops = &class->props; + + if (class->level != 3 && class->type == MPAM_CLASS_CACHE) { + pr_debug("class %u is a cache but not the L3\n", class->level); + continue; + } + + if (!class_has_usable_mba(cprops)) { + pr_debug("class %u has no bandwidth control\n", + class->level); + continue; + } + + if (!cpumask_equal(&class->affinity, cpu_possible_mask)) { + pr_debug("class %u has missing CPUs\n", class->level); + continue; + } + + if (!topology_matches_l3(class)) { + pr_debug("class %u topology doesn't match L3\n", + class->level); + continue; + } + + if (!traffic_matches_l3(class)) { + pr_debug("class %u traffic doesn't match L3 egress\n", + class->level); + continue; + } + + /* + * Pick a resource to be MBA that as close as possible to + * the L3. mbm_total counts the bandwidth leaving the L3 + * cache and MBA should correspond as closely as possible + * for proper operation of mba_sc. + */ + if (!candidate_class || class->level < candidate_class->level) + candidate_class = class; + } + + if (candidate_class) { + pr_debug("selected class %u to back MBA\n", + candidate_class->level); + res = &mpam_resctrl_controls[RDT_RESOURCE_MBA]; + res->class = candidate_class; + } +} + +static void counter_update_class(enum resctrl_event_id evt_id, + struct mpam_class *class) +{ + struct mpam_class *existing_class = mpam_resctrl_counters[evt_id].class; + + if (existing_class) { + if (class->level == 3) { + pr_debug("Existing class is L3 - L3 wins\n"); + return; + } + + if (existing_class->level < class->level) { + pr_debug("Existing class is closer to L3, %u versus %u - closer is better\n", + existing_class->level, class->level); + return; + } + } + + mpam_resctrl_counters[evt_id].class = class; +} + +static void mpam_resctrl_pick_counters(void) +{ + struct mpam_class *class; + + lockdep_assert_cpus_held(); + + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(class, &mpam_classes, classes_list, + srcu_read_lock_held(&mpam_srcu)) { + /* The name of the resource is L3... */ + if (class->type == MPAM_CLASS_CACHE && class->level != 3) { + pr_debug("class %u is a cache but not the L3", class->level); + continue; + } + + if (!cpumask_equal(&class->affinity, cpu_possible_mask)) { + pr_debug("class %u does not cover all CPUs", + class->level); + continue; + } + + if (cache_has_usable_csu(class)) { + pr_debug("class %u has usable CSU", + class->level); + + /* CSU counters only make sense on a cache. */ + switch (class->type) { + case MPAM_CLASS_CACHE: + if (update_rmid_limits(class)) + break; + + counter_update_class(QOS_L3_OCCUP_EVENT_ID, class); + break; + default: + break; + } + } + } +} + +static int mpam_resctrl_control_init(struct mpam_resctrl_res *res) +{ + struct mpam_class *class = res->class; + struct mpam_props *cprops = &class->props; + struct rdt_resource *r = &res->resctrl_res; + + switch (r->rid) { + case RDT_RESOURCE_L2: + case RDT_RESOURCE_L3: + r->schema_fmt = RESCTRL_SCHEMA_BITMAP; + r->cache.arch_has_sparse_bitmasks = true; + + r->cache.cbm_len = class->props.cpbm_wd; + /* mpam_devices will reject empty bitmaps */ + r->cache.min_cbm_bits = 1; + + if (r->rid == RDT_RESOURCE_L2) { + r->name = "L2"; + r->ctrl_scope = RESCTRL_L2_CACHE; + r->cdp_capable = true; + } else { + r->name = "L3"; + r->ctrl_scope = RESCTRL_L3_CACHE; + r->cdp_capable = true; + } + + /* + * Which bits are shared with other ...things... Unknown + * devices use partid-0 which uses all the bitmap fields. Until + * we have configured the SMMU and GIC not to do this 'all the + * bits' is the correct answer here. + */ + r->cache.shareable_bits = resctrl_get_default_ctrl(r); + r->alloc_capable = true; + break; + case RDT_RESOURCE_MBA: + r->schema_fmt = RESCTRL_SCHEMA_RANGE; + r->ctrl_scope = RESCTRL_L3_CACHE; + + r->membw.delay_linear = true; + r->membw.throttle_mode = THREAD_THROTTLE_UNDEFINED; + r->membw.min_bw = get_mba_min(cprops); + r->membw.max_bw = MAX_MBA_BW; + r->membw.bw_gran = get_mba_granularity(cprops); + + r->name = "MB"; + r->alloc_capable = true; + break; + default: + return -EINVAL; + } + + return 0; +} + +static int mpam_resctrl_pick_domain_id(int cpu, struct mpam_component *comp) +{ + struct mpam_class *class = comp->class; + + if (class->type == MPAM_CLASS_CACHE) + return comp->comp_id; + + if (topology_matches_l3(class)) { + /* Use the corresponding L3 component ID as the domain ID */ + int id = get_cpu_cacheinfo_id(cpu, 3); + + /* Implies topology_matches_l3() made a mistake */ + if (WARN_ON_ONCE(id == -1)) + return comp->comp_id; + + return id; + } + + /* Otherwise, expose the ID used by the firmware table code. */ + return comp->comp_id; +} + +static int mpam_resctrl_monitor_init(struct mpam_resctrl_mon *mon, + enum resctrl_event_id type) +{ + struct mpam_resctrl_res *res = &mpam_resctrl_controls[RDT_RESOURCE_L3]; + struct rdt_resource *l3 = &res->resctrl_res; + + lockdep_assert_cpus_held(); + + /* + * There also needs to be an L3 cache present. + * The check just requires any online CPU and it can't go offline as we + * hold the cpu lock. + */ + if (get_cpu_cacheinfo_id(raw_smp_processor_id(), 3) == -1) + return 0; + + /* + * If there are no MPAM resources on L3, force it into existence. + * topology_matches_l3() already ensures this looks like the L3. + * The domain-ids will be fixed up by mpam_resctrl_domain_hdr_init(). + */ + if (!res->class) { + pr_warn_once("Faking L3 MSC to enable counters.\n"); + res->class = mpam_resctrl_counters[type].class; + } + + /* + * Called multiple times!, once per event type that has a + * monitoring class. + * Setting name is necessary on monitor only platforms. + */ + l3->name = "L3"; + l3->mon_scope = RESCTRL_L3_CACHE; + + /* + * num-rmid is the upper bound for the number of monitoring groups that + * can exist simultaneously, including the default monitoring group for + * each control group. Hence, advertise the whole rmid_idx space even + * though each control group has its own pmg/rmid space. Unfortunately, + * this does mean userspace needs to know the architecture to correctly + * interpret this value. + */ + l3->mon.num_rmid = resctrl_arch_system_num_rmid_idx(); + + if (resctrl_enable_mon_event(type, false, 0, NULL)) + l3->mon_capable = true; + + return 0; +} + +u32 resctrl_arch_get_config(struct rdt_resource *r, struct rdt_ctrl_domain *d, + u32 closid, enum resctrl_conf_type type) +{ + u32 partid; + struct mpam_config *cfg; + struct mpam_props *cprops; + struct mpam_resctrl_res *res; + struct mpam_resctrl_dom *dom; + enum mpam_device_features configured_by; + + lockdep_assert_cpus_held(); + + if (!mpam_is_enabled()) + return resctrl_get_default_ctrl(r); + + res = container_of(r, struct mpam_resctrl_res, resctrl_res); + dom = container_of(d, struct mpam_resctrl_dom, resctrl_ctrl_dom); + cprops = &res->class->props; + + /* + * When CDP is enabled, but the resource doesn't support it, + * the control is cloned across both partids. + * Pick one at random to read: + */ + if (mpam_resctrl_hide_cdp(r->rid)) + type = CDP_DATA; + + partid = resctrl_get_config_index(closid, type); + cfg = &dom->ctrl_comp->cfg[partid]; + + switch (r->rid) { + case RDT_RESOURCE_L2: + case RDT_RESOURCE_L3: + configured_by = mpam_feat_cpor_part; + break; + case RDT_RESOURCE_MBA: + if (mpam_has_feature(mpam_feat_mbw_max, cprops)) { + configured_by = mpam_feat_mbw_max; + break; + } + fallthrough; + default: + return resctrl_get_default_ctrl(r); + } + + if (!r->alloc_capable || partid >= resctrl_arch_get_num_closid(r) || + !mpam_has_feature(configured_by, cfg)) + return resctrl_get_default_ctrl(r); + + switch (configured_by) { + case mpam_feat_cpor_part: + return cfg->cpbm; + case mpam_feat_mbw_max: + return mbw_max_to_percent(cfg->mbw_max, cprops); + default: + return resctrl_get_default_ctrl(r); + } +} + +int resctrl_arch_update_one(struct rdt_resource *r, struct rdt_ctrl_domain *d, + u32 closid, enum resctrl_conf_type t, u32 cfg_val) +{ + int err; + u32 partid; + struct mpam_config cfg; + struct mpam_props *cprops; + struct mpam_resctrl_res *res; + struct mpam_resctrl_dom *dom; + + lockdep_assert_cpus_held(); + lockdep_assert_irqs_enabled(); + + if (!mpam_is_enabled()) + return -EINVAL; + + /* + * No need to check the CPU as mpam_apply_config() doesn't care, and + * resctrl_arch_update_domains() relies on this. + */ + res = container_of(r, struct mpam_resctrl_res, resctrl_res); + dom = container_of(d, struct mpam_resctrl_dom, resctrl_ctrl_dom); + cprops = &res->class->props; + + if (mpam_resctrl_hide_cdp(r->rid)) + t = CDP_DATA; + + partid = resctrl_get_config_index(closid, t); + if (!r->alloc_capable || partid >= resctrl_arch_get_num_closid(r)) { + pr_debug("Not alloc capable or computed PARTID out of range\n"); + return -EINVAL; + } + + /* + * Copy the current config to avoid clearing other resources when the + * same component is exposed multiple times through resctrl. + */ + cfg = dom->ctrl_comp->cfg[partid]; + + switch (r->rid) { + case RDT_RESOURCE_L2: + case RDT_RESOURCE_L3: + cfg.cpbm = cfg_val; + mpam_set_feature(mpam_feat_cpor_part, &cfg); + break; + case RDT_RESOURCE_MBA: + if (mpam_has_feature(mpam_feat_mbw_max, cprops)) { + cfg.mbw_max = percent_to_mbw_max(cfg_val, cprops); + mpam_set_feature(mpam_feat_mbw_max, &cfg); + break; + } + fallthrough; + default: + return -EINVAL; + } + + /* + * When CDP is enabled, but the resource doesn't support it, we need to + * apply the same configuration to the other partid. + */ + if (mpam_resctrl_hide_cdp(r->rid)) { + partid = resctrl_get_config_index(closid, CDP_CODE); + err = mpam_apply_config(dom->ctrl_comp, partid, &cfg); + if (err) + return err; + + partid = resctrl_get_config_index(closid, CDP_DATA); + return mpam_apply_config(dom->ctrl_comp, partid, &cfg); + } + + return mpam_apply_config(dom->ctrl_comp, partid, &cfg); +} + +int resctrl_arch_update_domains(struct rdt_resource *r, u32 closid) +{ + int err; + struct rdt_ctrl_domain *d; + + lockdep_assert_cpus_held(); + lockdep_assert_irqs_enabled(); + + if (!mpam_is_enabled()) + return -EINVAL; + + list_for_each_entry_rcu(d, &r->ctrl_domains, hdr.list) { + for (enum resctrl_conf_type t = 0; t < CDP_NUM_TYPES; t++) { + struct resctrl_staged_config *cfg = &d->staged_config[t]; + + if (!cfg->have_new_ctrl) + continue; + + err = resctrl_arch_update_one(r, d, closid, t, + cfg->new_ctrl); + if (err) + return err; + } + } + + return 0; +} + +void resctrl_arch_reset_all_ctrls(struct rdt_resource *r) +{ + struct mpam_resctrl_res *res; + + lockdep_assert_cpus_held(); + + if (!mpam_is_enabled()) + return; + + res = container_of(r, struct mpam_resctrl_res, resctrl_res); + mpam_reset_class_locked(res->class); +} + +static void mpam_resctrl_domain_hdr_init(int cpu, struct mpam_component *comp, + enum resctrl_res_level rid, + struct rdt_domain_hdr *hdr) +{ + lockdep_assert_cpus_held(); + + INIT_LIST_HEAD(&hdr->list); + hdr->id = mpam_resctrl_pick_domain_id(cpu, comp); + hdr->rid = rid; + cpumask_set_cpu(cpu, &hdr->cpu_mask); +} + +static void mpam_resctrl_online_domain_hdr(unsigned int cpu, + struct rdt_domain_hdr *hdr) +{ + lockdep_assert_cpus_held(); + + cpumask_set_cpu(cpu, &hdr->cpu_mask); +} + +/** + * mpam_resctrl_offline_domain_hdr() - Update the domain header to remove a CPU. + * @cpu: The CPU to remove from the domain. + * @hdr: The domain's header. + * + * Removes @cpu from the header mask. If this was the last CPU in the domain, + * the domain header is removed from its parent list and true is returned, + * indicating the parent structure can be freed. + * If there are other CPUs in the domain, returns false. + */ +static bool mpam_resctrl_offline_domain_hdr(unsigned int cpu, + struct rdt_domain_hdr *hdr) +{ + lockdep_assert_held(&domain_list_lock); + + cpumask_clear_cpu(cpu, &hdr->cpu_mask); + if (cpumask_empty(&hdr->cpu_mask)) { + list_del_rcu(&hdr->list); + synchronize_rcu(); + return true; + } + + return false; +} + +static void mpam_resctrl_domain_insert(struct list_head *list, + struct rdt_domain_hdr *new) +{ + struct rdt_domain_hdr *err; + struct list_head *pos = NULL; + + lockdep_assert_held(&domain_list_lock); + + err = resctrl_find_domain(list, new->id, &pos); + if (WARN_ON_ONCE(err)) + return; + + list_add_tail_rcu(&new->list, pos); +} + +static struct mpam_component *find_component(struct mpam_class *class, int cpu) +{ + struct mpam_component *comp; + + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(comp, &class->components, class_list, + srcu_read_lock_held(&mpam_srcu)) { + if (cpumask_test_cpu(cpu, &comp->affinity)) + return comp; + } + + return NULL; +} + +static struct mpam_resctrl_dom * +mpam_resctrl_alloc_domain(unsigned int cpu, struct mpam_resctrl_res *res) +{ + int err; + struct mpam_resctrl_dom *dom; + struct rdt_l3_mon_domain *mon_d; + struct rdt_ctrl_domain *ctrl_d; + struct mpam_class *class = res->class; + struct mpam_component *comp_iter, *ctrl_comp; + struct rdt_resource *r = &res->resctrl_res; + + lockdep_assert_held(&domain_list_lock); + + ctrl_comp = NULL; + guard(srcu)(&mpam_srcu); + list_for_each_entry_srcu(comp_iter, &class->components, class_list, + srcu_read_lock_held(&mpam_srcu)) { + if (cpumask_test_cpu(cpu, &comp_iter->affinity)) { + ctrl_comp = comp_iter; + break; + } + } + + /* class has no component for this CPU */ + if (WARN_ON_ONCE(!ctrl_comp)) + return ERR_PTR(-EINVAL); + + dom = kzalloc_node(sizeof(*dom), GFP_KERNEL, cpu_to_node(cpu)); + if (!dom) + return ERR_PTR(-ENOMEM); + + if (r->alloc_capable) { + dom->ctrl_comp = ctrl_comp; + + ctrl_d = &dom->resctrl_ctrl_dom; + mpam_resctrl_domain_hdr_init(cpu, ctrl_comp, r->rid, &ctrl_d->hdr); + ctrl_d->hdr.type = RESCTRL_CTRL_DOMAIN; + err = resctrl_online_ctrl_domain(r, ctrl_d); + if (err) + goto free_domain; + + mpam_resctrl_domain_insert(&r->ctrl_domains, &ctrl_d->hdr); + } else { + pr_debug("Skipped control domain online - no controls\n"); + } + + if (r->mon_capable) { + struct mpam_component *any_mon_comp; + struct mpam_resctrl_mon *mon; + enum resctrl_event_id eventid; + + /* + * Even if the monitor domain is backed by a different + * component, the L3 component IDs need to be used... only + * there may be no ctrl_comp for the L3. + * Search each event's class list for a component with + * overlapping CPUs and set up the dom->mon_comp array. + */ + + for_each_mpam_resctrl_mon(mon, eventid) { + struct mpam_component *mon_comp; + + if (!mon->class) + continue; // dummy resource + + mon_comp = find_component(mon->class, cpu); + dom->mon_comp[eventid] = mon_comp; + if (mon_comp) + any_mon_comp = mon_comp; + } + if (!any_mon_comp) { + WARN_ON_ONCE(0); + err = -EFAULT; + goto offline_ctrl_domain; + } + + mon_d = &dom->resctrl_mon_dom; + mpam_resctrl_domain_hdr_init(cpu, any_mon_comp, r->rid, &mon_d->hdr); + mon_d->hdr.type = RESCTRL_MON_DOMAIN; + err = resctrl_online_mon_domain(r, &mon_d->hdr); + if (err) + goto offline_ctrl_domain; + + mpam_resctrl_domain_insert(&r->mon_domains, &mon_d->hdr); + } else { + pr_debug("Skipped monitor domain online - no monitors\n"); + } + + return dom; + +offline_ctrl_domain: + if (r->alloc_capable) { + mpam_resctrl_offline_domain_hdr(cpu, &ctrl_d->hdr); + resctrl_offline_ctrl_domain(r, ctrl_d); + } +free_domain: + kfree(dom); + dom = ERR_PTR(err); + + return dom; +} + +/* + * We know all the monitors are associated with the L3, even if there are no + * controls and therefore no control component. Find the cache-id for the CPU + * and use that to search for existing resctrl domains. + * This relies on mpam_resctrl_pick_domain_id() using the L3 cache-id + * for anything that is not a cache. + */ +static struct mpam_resctrl_dom *mpam_resctrl_get_mon_domain_from_cpu(int cpu) +{ + int cache_id; + struct mpam_resctrl_dom *dom; + struct mpam_resctrl_res *l3 = &mpam_resctrl_controls[RDT_RESOURCE_L3]; + + lockdep_assert_cpus_held(); + + if (!l3->class) + return NULL; + cache_id = get_cpu_cacheinfo_id(cpu, 3); + if (cache_id < 0) + return NULL; + + list_for_each_entry_rcu(dom, &l3->resctrl_res.mon_domains, resctrl_mon_dom.hdr.list) { + if (dom->resctrl_mon_dom.hdr.id == cache_id) + return dom; + } + + return NULL; +} + +static struct mpam_resctrl_dom * +mpam_resctrl_get_domain_from_cpu(int cpu, struct mpam_resctrl_res *res) +{ + struct mpam_resctrl_dom *dom; + struct rdt_resource *r = &res->resctrl_res; + + lockdep_assert_cpus_held(); + + list_for_each_entry_rcu(dom, &r->ctrl_domains, resctrl_ctrl_dom.hdr.list) { + if (cpumask_test_cpu(cpu, &dom->ctrl_comp->affinity)) + return dom; + } + + if (r->rid != RDT_RESOURCE_L3) + return NULL; + + /* Search the mon domain list too - needed on monitor only platforms. */ + return mpam_resctrl_get_mon_domain_from_cpu(cpu); +} + +int mpam_resctrl_online_cpu(unsigned int cpu) +{ + struct mpam_resctrl_res *res; + enum resctrl_res_level rid; + + guard(mutex)(&domain_list_lock); + for_each_mpam_resctrl_control(res, rid) { + struct mpam_resctrl_dom *dom; + struct rdt_resource *r = &res->resctrl_res; + + if (!res->class) + continue; // dummy_resource; + + dom = mpam_resctrl_get_domain_from_cpu(cpu, res); + if (!dom) { + dom = mpam_resctrl_alloc_domain(cpu, res); + if (IS_ERR(dom)) + return PTR_ERR(dom); + } else { + if (r->alloc_capable) { + struct rdt_ctrl_domain *ctrl_d = &dom->resctrl_ctrl_dom; + + mpam_resctrl_online_domain_hdr(cpu, &ctrl_d->hdr); + } + if (r->mon_capable) { + struct rdt_l3_mon_domain *mon_d = &dom->resctrl_mon_dom; + + mpam_resctrl_online_domain_hdr(cpu, &mon_d->hdr); + } + } + } + + resctrl_online_cpu(cpu); + + return 0; +} + +void mpam_resctrl_offline_cpu(unsigned int cpu) +{ + struct mpam_resctrl_res *res; + enum resctrl_res_level rid; + + resctrl_offline_cpu(cpu); + + guard(mutex)(&domain_list_lock); + for_each_mpam_resctrl_control(res, rid) { + struct mpam_resctrl_dom *dom; + struct rdt_l3_mon_domain *mon_d; + struct rdt_ctrl_domain *ctrl_d; + bool ctrl_dom_empty, mon_dom_empty; + struct rdt_resource *r = &res->resctrl_res; + + if (!res->class) + continue; // dummy resource + + dom = mpam_resctrl_get_domain_from_cpu(cpu, res); + if (WARN_ON_ONCE(!dom)) + continue; + + if (r->alloc_capable) { + ctrl_d = &dom->resctrl_ctrl_dom; + ctrl_dom_empty = mpam_resctrl_offline_domain_hdr(cpu, &ctrl_d->hdr); + if (ctrl_dom_empty) + resctrl_offline_ctrl_domain(&res->resctrl_res, ctrl_d); + } else { + ctrl_dom_empty = true; + } + + if (r->mon_capable) { + mon_d = &dom->resctrl_mon_dom; + mon_dom_empty = mpam_resctrl_offline_domain_hdr(cpu, &mon_d->hdr); + if (mon_dom_empty) + resctrl_offline_mon_domain(&res->resctrl_res, &mon_d->hdr); + } else { + mon_dom_empty = true; + } + + if (ctrl_dom_empty && mon_dom_empty) + kfree(dom); + } +} + +int mpam_resctrl_setup(void) +{ + int err = 0; + struct mpam_resctrl_res *res; + enum resctrl_res_level rid; + struct mpam_resctrl_mon *mon; + enum resctrl_event_id eventid; + + wait_event(wait_cacheinfo_ready, cacheinfo_ready); + + cpus_read_lock(); + for_each_mpam_resctrl_control(res, rid) { + INIT_LIST_HEAD_RCU(&res->resctrl_res.ctrl_domains); + INIT_LIST_HEAD_RCU(&res->resctrl_res.mon_domains); + res->resctrl_res.rid = rid; + } + + /* Find some classes to use for controls */ + mpam_resctrl_pick_caches(); + mpam_resctrl_pick_mba(); + + /* Initialise the resctrl structures from the classes */ + for_each_mpam_resctrl_control(res, rid) { + if (!res->class) + continue; // dummy resource + + err = mpam_resctrl_control_init(res); + if (err) { + pr_debug("Failed to initialise rid %u\n", rid); + goto internal_error; + } + } + + /* Find some classes to use for monitors */ + mpam_resctrl_pick_counters(); + + for_each_mpam_resctrl_mon(mon, eventid) { + if (!mon->class) + continue; // dummy resource + + err = mpam_resctrl_monitor_init(mon, eventid); + if (err) { + pr_debug("Failed to initialise event %u\n", eventid); + goto internal_error; + } + } + + cpus_read_unlock(); + + if (!resctrl_arch_alloc_capable() && !resctrl_arch_mon_capable()) { + pr_debug("No alloc(%u) or monitor(%u) found - resctrl not supported\n", + resctrl_arch_alloc_capable(), resctrl_arch_mon_capable()); + return -EOPNOTSUPP; + } + + err = resctrl_init(); + if (err) + return err; + + WRITE_ONCE(resctrl_enabled, true); + + return 0; + +internal_error: + cpus_read_unlock(); + pr_debug("Internal error %d - resctrl not supported\n", err); + return err; +} + +void mpam_resctrl_exit(void) +{ + if (!READ_ONCE(resctrl_enabled)) + return; + + WRITE_ONCE(resctrl_enabled, false); + resctrl_exit(); +} + +/* + * The driver is detaching an MSC from this class, if resctrl was using it, + * pull on resctrl_exit(). + */ +void mpam_resctrl_teardown_class(struct mpam_class *class) +{ + struct mpam_resctrl_res *res; + enum resctrl_res_level rid; + struct mpam_resctrl_mon *mon; + enum resctrl_event_id eventid; + + might_sleep(); + + for_each_mpam_resctrl_control(res, rid) { + if (res->class == class) { + res->class = NULL; + break; + } + } + for_each_mpam_resctrl_mon(mon, eventid) { + if (mon->class == class) { + mon->class = NULL; + break; + } + } +} + +static int __init __cacheinfo_ready(void) +{ + cacheinfo_ready = true; + wake_up(&wait_cacheinfo_ready); + + return 0; +} +device_initcall_sync(__cacheinfo_ready); + +#ifdef CONFIG_MPAM_KUNIT_TEST +#include "test_mpam_resctrl.c" +#endif diff --git a/drivers/resctrl/test_mpam_devices.c b/drivers/resctrl/test_mpam_devices.c new file mode 100644 index 0000000000000..3e8d564a0c647 --- /dev/null +++ b/drivers/resctrl/test_mpam_devices.c @@ -0,0 +1,389 @@ +// SPDX-License-Identifier: GPL-2.0 +// Copyright (C) 2025 Arm Ltd. +/* This file is intended to be included into mpam_devices.c */ + +#include + +/* + * This test catches fields that aren't being sanitised - but can't tell you + * which one... + */ +static void test__props_mismatch(struct kunit *test) +{ + struct mpam_props parent = { 0 }; + struct mpam_props child; + + memset(&child, 0xff, sizeof(child)); + __props_mismatch(&parent, &child, false); + + memset(&child, 0, sizeof(child)); + KUNIT_EXPECT_EQ(test, memcmp(&parent, &child, sizeof(child)), 0); + + memset(&child, 0xff, sizeof(child)); + __props_mismatch(&parent, &child, true); + + KUNIT_EXPECT_EQ(test, memcmp(&parent, &child, sizeof(child)), 0); +} + +static struct list_head fake_classes_list; +static struct mpam_class fake_class = { 0 }; +static struct mpam_component fake_comp1 = { 0 }; +static struct mpam_component fake_comp2 = { 0 }; +static struct mpam_vmsc fake_vmsc1 = { 0 }; +static struct mpam_vmsc fake_vmsc2 = { 0 }; +static struct mpam_msc fake_msc1 = { 0 }; +static struct mpam_msc fake_msc2 = { 0 }; +static struct mpam_msc_ris fake_ris1 = { 0 }; +static struct mpam_msc_ris fake_ris2 = { 0 }; +static struct platform_device fake_pdev = { 0 }; + +static inline void reset_fake_hierarchy(void) +{ + INIT_LIST_HEAD(&fake_classes_list); + + memset(&fake_class, 0, sizeof(fake_class)); + fake_class.level = 3; + fake_class.type = MPAM_CLASS_CACHE; + INIT_LIST_HEAD_RCU(&fake_class.components); + INIT_LIST_HEAD(&fake_class.classes_list); + + memset(&fake_comp1, 0, sizeof(fake_comp1)); + memset(&fake_comp2, 0, sizeof(fake_comp2)); + fake_comp1.comp_id = 1; + fake_comp2.comp_id = 2; + INIT_LIST_HEAD(&fake_comp1.vmsc); + INIT_LIST_HEAD(&fake_comp1.class_list); + INIT_LIST_HEAD(&fake_comp2.vmsc); + INIT_LIST_HEAD(&fake_comp2.class_list); + + memset(&fake_vmsc1, 0, sizeof(fake_vmsc1)); + memset(&fake_vmsc2, 0, sizeof(fake_vmsc2)); + INIT_LIST_HEAD(&fake_vmsc1.ris); + INIT_LIST_HEAD(&fake_vmsc1.comp_list); + fake_vmsc1.msc = &fake_msc1; + INIT_LIST_HEAD(&fake_vmsc2.ris); + INIT_LIST_HEAD(&fake_vmsc2.comp_list); + fake_vmsc2.msc = &fake_msc2; + + memset(&fake_ris1, 0, sizeof(fake_ris1)); + memset(&fake_ris2, 0, sizeof(fake_ris2)); + fake_ris1.ris_idx = 1; + INIT_LIST_HEAD(&fake_ris1.msc_list); + fake_ris2.ris_idx = 2; + INIT_LIST_HEAD(&fake_ris2.msc_list); + + fake_msc1.pdev = &fake_pdev; + fake_msc2.pdev = &fake_pdev; + + list_add(&fake_class.classes_list, &fake_classes_list); +} + +static void test_mpam_enable_merge_features(struct kunit *test) +{ + reset_fake_hierarchy(); + + mutex_lock(&mpam_list_lock); + + /* One Class+Comp, two RIS in one vMSC with common features */ + fake_comp1.class = &fake_class; + list_add(&fake_comp1.class_list, &fake_class.components); + fake_comp2.class = NULL; + fake_vmsc1.comp = &fake_comp1; + list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); + fake_vmsc2.comp = NULL; + fake_ris1.vmsc = &fake_vmsc1; + list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); + fake_ris2.vmsc = &fake_vmsc1; + list_add(&fake_ris2.vmsc_list, &fake_vmsc1.ris); + + mpam_set_feature(mpam_feat_cpor_part, &fake_ris1.props); + mpam_set_feature(mpam_feat_cpor_part, &fake_ris2.props); + fake_ris1.props.cpbm_wd = 4; + fake_ris2.props.cpbm_wd = 4; + + mpam_enable_merge_features(&fake_classes_list); + + KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_cpor_part, &fake_class.props)); + KUNIT_EXPECT_EQ(test, fake_class.props.cpbm_wd, 4); + + reset_fake_hierarchy(); + + /* One Class+Comp, two RIS in one vMSC with non-overlapping features */ + fake_comp1.class = &fake_class; + list_add(&fake_comp1.class_list, &fake_class.components); + fake_comp2.class = NULL; + fake_vmsc1.comp = &fake_comp1; + list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); + fake_vmsc2.comp = NULL; + fake_ris1.vmsc = &fake_vmsc1; + list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); + fake_ris2.vmsc = &fake_vmsc1; + list_add(&fake_ris2.vmsc_list, &fake_vmsc1.ris); + + mpam_set_feature(mpam_feat_cpor_part, &fake_ris1.props); + mpam_set_feature(mpam_feat_cmax_cmin, &fake_ris2.props); + fake_ris1.props.cpbm_wd = 4; + fake_ris2.props.cmax_wd = 4; + + mpam_enable_merge_features(&fake_classes_list); + + /* Multiple RIS within one MSC controlling the same resource can be mismatched */ + KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_cpor_part, &fake_class.props)); + KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_cmax_cmin, &fake_class.props)); + KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_cmax_cmin, &fake_vmsc1.props)); + KUNIT_EXPECT_EQ(test, fake_class.props.cpbm_wd, 4); + KUNIT_EXPECT_EQ(test, fake_vmsc1.props.cmax_wd, 4); + KUNIT_EXPECT_EQ(test, fake_class.props.cmax_wd, 4); + + reset_fake_hierarchy(); + + /* One Class+Comp, two MSC with overlapping features */ + fake_comp1.class = &fake_class; + list_add(&fake_comp1.class_list, &fake_class.components); + fake_comp2.class = NULL; + fake_vmsc1.comp = &fake_comp1; + list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); + fake_vmsc2.comp = &fake_comp1; + list_add(&fake_vmsc2.comp_list, &fake_comp1.vmsc); + fake_ris1.vmsc = &fake_vmsc1; + list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); + fake_ris2.vmsc = &fake_vmsc2; + list_add(&fake_ris2.vmsc_list, &fake_vmsc2.ris); + + mpam_set_feature(mpam_feat_cpor_part, &fake_ris1.props); + mpam_set_feature(mpam_feat_cpor_part, &fake_ris2.props); + fake_ris1.props.cpbm_wd = 4; + fake_ris2.props.cpbm_wd = 4; + + mpam_enable_merge_features(&fake_classes_list); + + KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_cpor_part, &fake_class.props)); + KUNIT_EXPECT_EQ(test, fake_class.props.cpbm_wd, 4); + + reset_fake_hierarchy(); + + /* One Class+Comp, two MSC with non-overlapping features */ + fake_comp1.class = &fake_class; + list_add(&fake_comp1.class_list, &fake_class.components); + fake_comp2.class = NULL; + fake_vmsc1.comp = &fake_comp1; + list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); + fake_vmsc2.comp = &fake_comp1; + list_add(&fake_vmsc2.comp_list, &fake_comp1.vmsc); + fake_ris1.vmsc = &fake_vmsc1; + list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); + fake_ris2.vmsc = &fake_vmsc2; + list_add(&fake_ris2.vmsc_list, &fake_vmsc2.ris); + + mpam_set_feature(mpam_feat_cpor_part, &fake_ris1.props); + mpam_set_feature(mpam_feat_cmax_cmin, &fake_ris2.props); + fake_ris1.props.cpbm_wd = 4; + fake_ris2.props.cmax_wd = 4; + + mpam_enable_merge_features(&fake_classes_list); + + /* + * Multiple RIS in different MSC can't control the same resource, + * mismatched features can not be supported. + */ + KUNIT_EXPECT_FALSE(test, mpam_has_feature(mpam_feat_cpor_part, &fake_class.props)); + KUNIT_EXPECT_FALSE(test, mpam_has_feature(mpam_feat_cmax_cmin, &fake_class.props)); + KUNIT_EXPECT_EQ(test, fake_class.props.cpbm_wd, 0); + KUNIT_EXPECT_EQ(test, fake_class.props.cmax_wd, 0); + + reset_fake_hierarchy(); + + /* One Class+Comp, two MSC with incompatible overlapping features */ + fake_comp1.class = &fake_class; + list_add(&fake_comp1.class_list, &fake_class.components); + fake_comp2.class = NULL; + fake_vmsc1.comp = &fake_comp1; + list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); + fake_vmsc2.comp = &fake_comp1; + list_add(&fake_vmsc2.comp_list, &fake_comp1.vmsc); + fake_ris1.vmsc = &fake_vmsc1; + list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); + fake_ris2.vmsc = &fake_vmsc2; + list_add(&fake_ris2.vmsc_list, &fake_vmsc2.ris); + + mpam_set_feature(mpam_feat_cpor_part, &fake_ris1.props); + mpam_set_feature(mpam_feat_cpor_part, &fake_ris2.props); + mpam_set_feature(mpam_feat_mbw_part, &fake_ris1.props); + mpam_set_feature(mpam_feat_mbw_part, &fake_ris2.props); + fake_ris1.props.cpbm_wd = 5; + fake_ris2.props.cpbm_wd = 3; + fake_ris1.props.mbw_pbm_bits = 5; + fake_ris2.props.mbw_pbm_bits = 3; + + mpam_enable_merge_features(&fake_classes_list); + + /* + * Multiple RIS in different MSC can't control the same resource, + * mismatched features can not be supported. + */ + KUNIT_EXPECT_FALSE(test, mpam_has_feature(mpam_feat_cpor_part, &fake_class.props)); + KUNIT_EXPECT_FALSE(test, mpam_has_feature(mpam_feat_mbw_part, &fake_class.props)); + KUNIT_EXPECT_EQ(test, fake_class.props.cpbm_wd, 0); + KUNIT_EXPECT_EQ(test, fake_class.props.mbw_pbm_bits, 0); + + reset_fake_hierarchy(); + + /* One Class+Comp, two MSC with overlapping features that need tweaking */ + fake_comp1.class = &fake_class; + list_add(&fake_comp1.class_list, &fake_class.components); + fake_comp2.class = NULL; + fake_vmsc1.comp = &fake_comp1; + list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); + fake_vmsc2.comp = &fake_comp1; + list_add(&fake_vmsc2.comp_list, &fake_comp1.vmsc); + fake_ris1.vmsc = &fake_vmsc1; + list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); + fake_ris2.vmsc = &fake_vmsc2; + list_add(&fake_ris2.vmsc_list, &fake_vmsc2.ris); + + mpam_set_feature(mpam_feat_mbw_min, &fake_ris1.props); + mpam_set_feature(mpam_feat_mbw_min, &fake_ris2.props); + mpam_set_feature(mpam_feat_cmax_cmax, &fake_ris1.props); + mpam_set_feature(mpam_feat_cmax_cmax, &fake_ris2.props); + fake_ris1.props.bwa_wd = 5; + fake_ris2.props.bwa_wd = 3; + fake_ris1.props.cmax_wd = 5; + fake_ris2.props.cmax_wd = 3; + + mpam_enable_merge_features(&fake_classes_list); + + /* + * RIS with different control properties need to be sanitised so the + * class has the common set of properties. + */ + KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_mbw_min, &fake_class.props)); + KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_cmax_cmax, &fake_class.props)); + KUNIT_EXPECT_EQ(test, fake_class.props.bwa_wd, 3); + KUNIT_EXPECT_EQ(test, fake_class.props.cmax_wd, 3); + + reset_fake_hierarchy(); + + /* One Class Two Comp with overlapping features */ + fake_comp1.class = &fake_class; + list_add(&fake_comp1.class_list, &fake_class.components); + fake_comp2.class = &fake_class; + list_add(&fake_comp2.class_list, &fake_class.components); + fake_vmsc1.comp = &fake_comp1; + list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); + fake_vmsc2.comp = &fake_comp2; + list_add(&fake_vmsc2.comp_list, &fake_comp2.vmsc); + fake_ris1.vmsc = &fake_vmsc1; + list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); + fake_ris2.vmsc = &fake_vmsc2; + list_add(&fake_ris2.vmsc_list, &fake_vmsc2.ris); + + mpam_set_feature(mpam_feat_cpor_part, &fake_ris1.props); + mpam_set_feature(mpam_feat_cpor_part, &fake_ris2.props); + fake_ris1.props.cpbm_wd = 4; + fake_ris2.props.cpbm_wd = 4; + + mpam_enable_merge_features(&fake_classes_list); + + KUNIT_EXPECT_TRUE(test, mpam_has_feature(mpam_feat_cpor_part, &fake_class.props)); + KUNIT_EXPECT_EQ(test, fake_class.props.cpbm_wd, 4); + + reset_fake_hierarchy(); + + /* One Class Two Comp with non-overlapping features */ + fake_comp1.class = &fake_class; + list_add(&fake_comp1.class_list, &fake_class.components); + fake_comp2.class = &fake_class; + list_add(&fake_comp2.class_list, &fake_class.components); + fake_vmsc1.comp = &fake_comp1; + list_add(&fake_vmsc1.comp_list, &fake_comp1.vmsc); + fake_vmsc2.comp = &fake_comp2; + list_add(&fake_vmsc2.comp_list, &fake_comp2.vmsc); + fake_ris1.vmsc = &fake_vmsc1; + list_add(&fake_ris1.vmsc_list, &fake_vmsc1.ris); + fake_ris2.vmsc = &fake_vmsc2; + list_add(&fake_ris2.vmsc_list, &fake_vmsc2.ris); + + mpam_set_feature(mpam_feat_cpor_part, &fake_ris1.props); + mpam_set_feature(mpam_feat_cmax_cmin, &fake_ris2.props); + fake_ris1.props.cpbm_wd = 4; + fake_ris2.props.cmax_wd = 4; + + mpam_enable_merge_features(&fake_classes_list); + + /* + * Multiple components can't control the same resource, mismatched features can + * not be supported. + */ + KUNIT_EXPECT_FALSE(test, mpam_has_feature(mpam_feat_cpor_part, &fake_class.props)); + KUNIT_EXPECT_FALSE(test, mpam_has_feature(mpam_feat_cmax_cmin, &fake_class.props)); + KUNIT_EXPECT_EQ(test, fake_class.props.cpbm_wd, 0); + KUNIT_EXPECT_EQ(test, fake_class.props.cmax_wd, 0); + + mutex_unlock(&mpam_list_lock); +} + +static void test_mpam_reset_msc_bitmap(struct kunit *test) +{ + char __iomem *buf = kunit_kzalloc(test, SZ_16K, GFP_KERNEL); + struct mpam_msc fake_msc = {}; + u32 *test_result; + + if (!buf) + return; + + fake_msc.mapped_hwpage = buf; + fake_msc.mapped_hwpage_sz = SZ_16K; + cpumask_copy(&fake_msc.accessibility, cpu_possible_mask); + + /* Satisfy lockdep checks */ + mutex_init(&fake_msc.part_sel_lock); + mutex_lock(&fake_msc.part_sel_lock); + + test_result = (u32 *)(buf + MPAMCFG_CPBM); + + mpam_reset_msc_bitmap(&fake_msc, MPAMCFG_CPBM, 0); + KUNIT_EXPECT_EQ(test, test_result[0], 0); + KUNIT_EXPECT_EQ(test, test_result[1], 0); + test_result[0] = 0; + test_result[1] = 0; + + mpam_reset_msc_bitmap(&fake_msc, MPAMCFG_CPBM, 1); + KUNIT_EXPECT_EQ(test, test_result[0], 1); + KUNIT_EXPECT_EQ(test, test_result[1], 0); + test_result[0] = 0; + test_result[1] = 0; + + mpam_reset_msc_bitmap(&fake_msc, MPAMCFG_CPBM, 16); + KUNIT_EXPECT_EQ(test, test_result[0], 0xffff); + KUNIT_EXPECT_EQ(test, test_result[1], 0); + test_result[0] = 0; + test_result[1] = 0; + + mpam_reset_msc_bitmap(&fake_msc, MPAMCFG_CPBM, 32); + KUNIT_EXPECT_EQ(test, test_result[0], 0xffffffff); + KUNIT_EXPECT_EQ(test, test_result[1], 0); + test_result[0] = 0; + test_result[1] = 0; + + mpam_reset_msc_bitmap(&fake_msc, MPAMCFG_CPBM, 33); + KUNIT_EXPECT_EQ(test, test_result[0], 0xffffffff); + KUNIT_EXPECT_EQ(test, test_result[1], 1); + test_result[0] = 0; + test_result[1] = 0; + + mutex_unlock(&fake_msc.part_sel_lock); +} + +static struct kunit_case mpam_devices_test_cases[] = { + KUNIT_CASE(test_mpam_reset_msc_bitmap), + KUNIT_CASE(test_mpam_enable_merge_features), + KUNIT_CASE(test__props_mismatch), + {} +}; + +static struct kunit_suite mpam_devices_test_suite = { + .name = "mpam_devices_test_suite", + .test_cases = mpam_devices_test_cases, +}; + +kunit_test_suites(&mpam_devices_test_suite); diff --git a/drivers/resctrl/test_mpam_resctrl.c b/drivers/resctrl/test_mpam_resctrl.c new file mode 100644 index 0000000000000..b93d6ad87e43f --- /dev/null +++ b/drivers/resctrl/test_mpam_resctrl.c @@ -0,0 +1,315 @@ +// SPDX-License-Identifier: GPL-2.0 +// Copyright (C) 2025 Arm Ltd. +/* This file is intended to be included into mpam_resctrl.c */ + +#include +#include +#include +#include +#include + +struct percent_value_case { + u8 pc; + u8 width; + u16 value; +}; + +/* + * Mysterious inscriptions taken from the union of ARM DDI 0598D.b, + * "Arm Architecture Reference Manual Supplement - Memory System + * Resource Partitioning and Monitoring (MPAM), for A-profile + * architecture", Section 9.8, "About the fixed-point fractional + * format" (exact percentage entries only) and ARM IHI0099B.a + * "MPAM system component specification", Section 9.3, + * "The fixed-point fractional format": + */ +static const struct percent_value_case percent_value_cases[] = { + /* Architectural cases: */ + { 1, 8, 1 }, { 1, 12, 0x27 }, { 1, 16, 0x28e }, + { 25, 8, 0x3f }, { 25, 12, 0x3ff }, { 25, 16, 0x3fff }, + { 33, 8, 0x53 }, { 33, 12, 0x546 }, { 33, 16, 0x5479 }, + { 35, 8, 0x58 }, { 35, 12, 0x598 }, { 35, 16, 0x5998 }, + { 45, 8, 0x72 }, { 45, 12, 0x732 }, { 45, 16, 0x7332 }, + { 50, 8, 0x7f }, { 50, 12, 0x7ff }, { 50, 16, 0x7fff }, + { 52, 8, 0x84 }, { 52, 12, 0x850 }, { 52, 16, 0x851d }, + { 55, 8, 0x8b }, { 55, 12, 0x8cb }, { 55, 16, 0x8ccb }, + { 58, 8, 0x93 }, { 58, 12, 0x946 }, { 58, 16, 0x9479 }, + { 75, 8, 0xbf }, { 75, 12, 0xbff }, { 75, 16, 0xbfff }, + { 80, 8, 0xcb }, { 80, 12, 0xccb }, { 80, 16, 0xcccb }, + { 88, 8, 0xe0 }, { 88, 12, 0xe13 }, { 88, 16, 0xe146 }, + { 95, 8, 0xf2 }, { 95, 12, 0xf32 }, { 95, 16, 0xf332 }, + { 100, 8, 0xff }, { 100, 12, 0xfff }, { 100, 16, 0xffff }, +}; + +static void test_percent_value_desc(const struct percent_value_case *param, + char *desc) +{ + snprintf(desc, KUNIT_PARAM_DESC_SIZE, + "pc=%d, width=%d, value=0x%.*x\n", + param->pc, param->width, + DIV_ROUND_UP(param->width, 4), param->value); +} + +KUNIT_ARRAY_PARAM(test_percent_value, percent_value_cases, + test_percent_value_desc); + +struct percent_value_test_info { + u32 pc; /* result of value-to-percent conversion */ + u32 value; /* result of percent-to-value conversion */ + u32 max_value; /* maximum raw value allowed by test params */ + unsigned int shift; /* promotes raw testcase value to 16 bits */ +}; + +/* + * Convert a reference percentage to a fixed-point MAX value and + * vice-versa, based on param (not test->param_value!) + */ +static void __prepare_percent_value_test(struct kunit *test, + struct percent_value_test_info *res, + const struct percent_value_case *param) +{ + struct mpam_props fake_props = { }; + + /* Reject bogus test parameters that would break the tests: */ + KUNIT_ASSERT_GE(test, param->width, 1); + KUNIT_ASSERT_LE(test, param->width, 16); + KUNIT_ASSERT_LT(test, param->value, 1 << param->width); + + mpam_set_feature(mpam_feat_mbw_max, &fake_props); + fake_props.bwa_wd = param->width; + + res->shift = 16 - param->width; + res->max_value = GENMASK_U32(param->width - 1, 0); + res->value = percent_to_mbw_max(param->pc, &fake_props); + res->pc = mbw_max_to_percent(param->value << res->shift, &fake_props); +} + +static void test_get_mba_granularity(struct kunit *test) +{ + int ret; + struct mpam_props fake_props = { }; + + /* Use MBW_MAX */ + mpam_set_feature(mpam_feat_mbw_max, &fake_props); + + fake_props.bwa_wd = 0; + KUNIT_EXPECT_FALSE(test, mba_class_use_mbw_max(&fake_props)); + + fake_props.bwa_wd = 1; + KUNIT_EXPECT_TRUE(test, mba_class_use_mbw_max(&fake_props)); + + /* Architectural maximum: */ + fake_props.bwa_wd = 16; + KUNIT_EXPECT_TRUE(test, mba_class_use_mbw_max(&fake_props)); + + /* No usable control... */ + fake_props.bwa_wd = 0; + ret = get_mba_granularity(&fake_props); + KUNIT_EXPECT_EQ(test, ret, 0); + + fake_props.bwa_wd = 1; + ret = get_mba_granularity(&fake_props); + KUNIT_EXPECT_EQ(test, ret, 50); /* DIV_ROUND_UP(100, 1 << 1)% = 50% */ + + fake_props.bwa_wd = 2; + ret = get_mba_granularity(&fake_props); + KUNIT_EXPECT_EQ(test, ret, 25); /* DIV_ROUND_UP(100, 1 << 2)% = 25% */ + + fake_props.bwa_wd = 3; + ret = get_mba_granularity(&fake_props); + KUNIT_EXPECT_EQ(test, ret, 13); /* DIV_ROUND_UP(100, 1 << 3)% = 13% */ + + fake_props.bwa_wd = 6; + ret = get_mba_granularity(&fake_props); + KUNIT_EXPECT_EQ(test, ret, 2); /* DIV_ROUND_UP(100, 1 << 6)% = 2% */ + + fake_props.bwa_wd = 7; + ret = get_mba_granularity(&fake_props); + KUNIT_EXPECT_EQ(test, ret, 1); /* DIV_ROUND_UP(100, 1 << 7)% = 1% */ + + /* Granularity saturates at 1% */ + fake_props.bwa_wd = 16; /* architectural maximum */ + ret = get_mba_granularity(&fake_props); + KUNIT_EXPECT_EQ(test, ret, 1); /* DIV_ROUND_UP(100, 1 << 16)% = 1% */ +} + +static void test_mbw_max_to_percent(struct kunit *test) +{ + const struct percent_value_case *param = test->param_value; + struct percent_value_test_info res; + + /* + * Since the reference values in percent_value_cases[] all + * correspond to exact percentages, round-to-nearest will + * always give the exact percentage back when the MPAM max + * value has precision of 0.5% or finer. (Always true for the + * reference data, since they all specify 8 bits or more of + * precision. + * + * So, keep it simple and demand an exact match: + */ + __prepare_percent_value_test(test, &res, param); + KUNIT_EXPECT_EQ(test, res.pc, param->pc); +} + +static void test_percent_to_mbw_max(struct kunit *test) +{ + const struct percent_value_case *param = test->param_value; + struct percent_value_test_info res; + + __prepare_percent_value_test(test, &res, param); + + KUNIT_EXPECT_GE(test, res.value, param->value << res.shift); + KUNIT_EXPECT_LE(test, res.value, (param->value + 1) << res.shift); + KUNIT_EXPECT_LE(test, res.value, res.max_value << res.shift); + + /* No flexibility allowed for 0% and 100%! */ + + if (param->pc == 0) + KUNIT_EXPECT_EQ(test, res.value, 0); + + if (param->pc == 100) + KUNIT_EXPECT_EQ(test, res.value, res.max_value << res.shift); +} + +static const void *test_all_bwa_wd_gen_params(struct kunit *test, const void *prev, + char *desc) +{ + uintptr_t param = (uintptr_t)prev; + + if (param > 15) + return NULL; + + param++; + + snprintf(desc, KUNIT_PARAM_DESC_SIZE, "wd=%u\n", (unsigned int)param); + + return (void *)param; +} + +static unsigned int test_get_bwa_wd(struct kunit *test) +{ + uintptr_t param = (uintptr_t)test->param_value; + + KUNIT_ASSERT_GE(test, param, 1); + KUNIT_ASSERT_LE(test, param, 16); + + return param; +} + +static void test_mbw_max_to_percent_limits(struct kunit *test) +{ + struct mpam_props fake_props = {0}; + u32 max_value; + + mpam_set_feature(mpam_feat_mbw_max, &fake_props); + fake_props.bwa_wd = test_get_bwa_wd(test); + max_value = GENMASK(15, 16 - fake_props.bwa_wd); + + KUNIT_EXPECT_EQ(test, mbw_max_to_percent(max_value, &fake_props), + MAX_MBA_BW); + KUNIT_EXPECT_EQ(test, mbw_max_to_percent(0, &fake_props), + get_mba_min(&fake_props)); + + /* + * Rounding policy dependent 0% sanity-check: + * With round-to-nearest, the minimum mbw_max value really + * should map to 0% if there are at least 200 steps. + * (100 steps may be enough for some other rounding policies.) + */ + if (fake_props.bwa_wd >= 8) + KUNIT_EXPECT_EQ(test, mbw_max_to_percent(0, &fake_props), 0); + + if (fake_props.bwa_wd < 8 && + mbw_max_to_percent(0, &fake_props) == 0) + kunit_warn(test, "wd=%d: Testsuite/driver Rounding policy mismatch?", + fake_props.bwa_wd); +} + +/* + * Check that converting a percentage to mbw_max and back again (or, as + * appropriate, vice-versa) always restores the original value: + */ +static void test_percent_max_roundtrip_stability(struct kunit *test) +{ + struct mpam_props fake_props = {0}; + unsigned int shift; + u32 pc, max, pc2, max2; + + mpam_set_feature(mpam_feat_mbw_max, &fake_props); + fake_props.bwa_wd = test_get_bwa_wd(test); + shift = 16 - fake_props.bwa_wd; + + /* + * Converting a valid value from the coarser scale to the finer + * scale and back again must yield the original value: + */ + if (fake_props.bwa_wd >= 7) { + /* More than 100 steps: only test exact pc values: */ + for (pc = get_mba_min(&fake_props); pc <= MAX_MBA_BW; pc++) { + max = percent_to_mbw_max(pc, &fake_props); + pc2 = mbw_max_to_percent(max, &fake_props); + KUNIT_EXPECT_EQ(test, pc2, pc); + } + } else { + /* Fewer than 100 steps: only test exact mbw_max values: */ + for (max = 0; max < 1 << 16; max += 1 << shift) { + pc = mbw_max_to_percent(max, &fake_props); + max2 = percent_to_mbw_max(pc, &fake_props); + KUNIT_EXPECT_EQ(test, max2, max); + } + } +} + +static void test_percent_to_max_rounding(struct kunit *test) +{ + const struct percent_value_case *param = test->param_value; + unsigned int num_rounded_up = 0, total = 0; + struct percent_value_test_info res; + + for (param = percent_value_cases, total = 0; + param < &percent_value_cases[ARRAY_SIZE(percent_value_cases)]; + param++, total++) { + __prepare_percent_value_test(test, &res, param); + if (res.value > param->value << res.shift) + num_rounded_up++; + } + + /* + * The MPAM driver applies a round-to-nearest policy, whereas a + * round-down policy seems to have been applied in the + * reference table from which the test vectors were selected. + * + * For a large and well-distributed suite of test vectors, + * about half should be rounded up and half down compared with + * the reference table. The actual test vectors are few in + * number and probably not very well distributed however, so + * tolerate a round-up rate of between 1/4 and 3/4 before + * crying foul: + */ + + kunit_info(test, "Round-up rate: %u%% (%u/%u)\n", + DIV_ROUND_CLOSEST(num_rounded_up * 100, total), + num_rounded_up, total); + + KUNIT_EXPECT_GE(test, 4 * num_rounded_up, 1 * total); + KUNIT_EXPECT_LE(test, 4 * num_rounded_up, 3 * total); +} + +static struct kunit_case mpam_resctrl_test_cases[] = { + KUNIT_CASE(test_get_mba_granularity), + KUNIT_CASE_PARAM(test_mbw_max_to_percent, test_percent_value_gen_params), + KUNIT_CASE_PARAM(test_percent_to_mbw_max, test_percent_value_gen_params), + KUNIT_CASE_PARAM(test_mbw_max_to_percent_limits, test_all_bwa_wd_gen_params), + KUNIT_CASE(test_percent_to_max_rounding), + KUNIT_CASE_PARAM(test_percent_max_roundtrip_stability, + test_all_bwa_wd_gen_params), + {} +}; + +static struct kunit_suite mpam_resctrl_test_suite = { + .name = "mpam_resctrl_test_suite", + .test_cases = mpam_resctrl_test_cases, +}; + +kunit_test_suites(&mpam_resctrl_test_suite); diff --git a/include/linux/acpi.h b/include/linux/acpi.h index 5ff5d99f6ead5..ac8797f952365 100644 --- a/include/linux/acpi.h +++ b/include/linux/acpi.h @@ -8,6 +8,7 @@ #ifndef _LINUX_ACPI_H #define _LINUX_ACPI_H +#include #include #include /* for struct resource */ #include @@ -221,6 +222,17 @@ void acpi_reserve_initial_tables (void); void acpi_table_init_complete (void); int acpi_table_init (void); +static inline struct acpi_table_header *acpi_get_table_pointer(char *signature, u32 instance) +{ + struct acpi_table_header *table; + int status = acpi_get_table(signature, instance, &table); + + if (ACPI_FAILURE(status)) + return ERR_PTR(-ENOENT); + return table; +} +DEFINE_FREE(acpi_put_table, struct acpi_table_header *, if (!IS_ERR_OR_NULL(_T)) acpi_put_table(_T)) + int acpi_table_parse(char *id, acpi_tbl_table_handler handler); int __init_or_acpilib acpi_table_parse_entries(char *id, unsigned long table_size, int entry_id, @@ -1541,6 +1553,9 @@ int find_acpi_cpu_topology(unsigned int cpu, int level); int find_acpi_cpu_topology_cluster(unsigned int cpu); int find_acpi_cpu_topology_package(unsigned int cpu); int find_acpi_cpu_topology_hetero_id(unsigned int cpu); +void acpi_pptt_get_cpus_from_container(u32 acpi_cpu_id, cpumask_t *cpus); +int find_acpi_cache_level_from_id(u32 cache_id); +int acpi_pptt_get_cpumask_from_cache_id(u32 cache_id, cpumask_t *cpus); #else static inline int acpi_pptt_cpu_is_thread(unsigned int cpu) { @@ -1562,6 +1577,17 @@ static inline int find_acpi_cpu_topology_hetero_id(unsigned int cpu) { return -EINVAL; } +static inline void acpi_pptt_get_cpus_from_container(u32 acpi_cpu_id, + cpumask_t *cpus) { } +static inline int find_acpi_cache_level_from_id(u32 cache_id) +{ + return -ENOENT; +} +static inline int acpi_pptt_get_cpumask_from_cache_id(u32 cache_id, + cpumask_t *cpus) +{ + return -ENOENT; +} #endif void acpi_arch_init(void); diff --git a/include/linux/arm_mpam.h b/include/linux/arm_mpam.h new file mode 100644 index 0000000000000..f92a36187a527 --- /dev/null +++ b/include/linux/arm_mpam.h @@ -0,0 +1,98 @@ +/* SPDX-License-Identifier: GPL-2.0 */ +/* Copyright (C) 2025 Arm Ltd. */ + +#ifndef __LINUX_ARM_MPAM_H +#define __LINUX_ARM_MPAM_H + +#include +#include +#include + +struct mpam_msc; + +enum mpam_msc_iface { + MPAM_IFACE_MMIO, /* a real MPAM MSC */ + MPAM_IFACE_PCC, /* a fake MPAM MSC */ +}; + +enum mpam_class_types { + MPAM_CLASS_CACHE, /* Caches, e.g. L2, L3 */ + MPAM_CLASS_MEMORY, /* Main memory */ + MPAM_CLASS_UNKNOWN, /* Everything else, e.g. SMMU */ +}; + +#define MPAM_CLASS_ID_DEFAULT 255 + +#ifdef CONFIG_ACPI_MPAM +int acpi_mpam_parse_resources(struct mpam_msc *msc, + struct acpi_mpam_msc_node *tbl_msc); + +int acpi_mpam_count_msc(void); +#else +static inline int acpi_mpam_parse_resources(struct mpam_msc *msc, + struct acpi_mpam_msc_node *tbl_msc) +{ + return -EINVAL; +} + +static inline int acpi_mpam_count_msc(void) { return -EINVAL; } +#endif + +#ifdef CONFIG_ARM64_MPAM_DRIVER +int mpam_ris_create(struct mpam_msc *msc, u8 ris_idx, + enum mpam_class_types type, u8 class_id, int component_id); +#else +static inline int mpam_ris_create(struct mpam_msc *msc, u8 ris_idx, + enum mpam_class_types type, u8 class_id, + int component_id) +{ + return -EINVAL; +} +#endif + +bool resctrl_arch_alloc_capable(void); +bool resctrl_arch_mon_capable(void); + +void resctrl_arch_set_cpu_default_closid(int cpu, u32 closid); +void resctrl_arch_set_closid_rmid(struct task_struct *tsk, u32 closid, u32 rmid); +void resctrl_arch_set_cpu_default_closid_rmid(int cpu, u32 closid, u32 rmid); +void resctrl_arch_sched_in(struct task_struct *tsk); +bool resctrl_arch_match_closid(struct task_struct *tsk, u32 closid); +bool resctrl_arch_match_rmid(struct task_struct *tsk, u32 closid, u32 rmid); +u32 resctrl_arch_rmid_idx_encode(u32 closid, u32 rmid); +void resctrl_arch_rmid_idx_decode(u32 idx, u32 *closid, u32 *rmid); +u32 resctrl_arch_system_num_rmid_idx(void); + +struct rdt_resource; +void *resctrl_arch_mon_ctx_alloc(struct rdt_resource *r, enum resctrl_event_id evtid); +void resctrl_arch_mon_ctx_free(struct rdt_resource *r, enum resctrl_event_id evtid, void *ctx); + +/* + * The CPU configuration for MPAM is cheap to write, and is only written if it + * has changed. No need for fine grained enables. + */ +static inline void resctrl_arch_enable_mon(void) { } +static inline void resctrl_arch_disable_mon(void) { } +static inline void resctrl_arch_enable_alloc(void) { } +static inline void resctrl_arch_disable_alloc(void) { } + +static inline unsigned int resctrl_arch_round_mon_val(unsigned int val) +{ + return val; +} + +/** + * mpam_register_requestor() - Register a requestor with the MPAM driver + * @partid_max: The maximum PARTID value the requestor can generate. + * @pmg_max: The maximum PMG value the requestor can generate. + * + * Registers a requestor with the MPAM driver to ensure the chosen system-wide + * minimum PARTID and PMG values will allow the requestors features to be used. + * + * Returns an error if the registration is too late, and a larger PARTID/PMG + * value has been advertised to user-space. In this case the requestor should + * not use its MPAM features. Returns 0 on success. + */ +int mpam_register_requestor(u16 partid_max, u8 pmg_max); + +#endif /* __LINUX_ARM_MPAM_H */ diff --git a/include/linux/platform_device.h b/include/linux/platform_device.h index bc843d76066a5..8299c0541dd2e 100644 --- a/include/linux/platform_device.h +++ b/include/linux/platform_device.h @@ -227,6 +227,7 @@ extern int platform_device_add_data(struct platform_device *pdev, extern int platform_device_add(struct platform_device *pdev); extern void platform_device_del(struct platform_device *pdev); extern void platform_device_put(struct platform_device *pdev); +DEFINE_FREE(platform_device_put, struct platform_device *, if (_T) platform_device_put(_T)) struct platform_driver { int (*probe)(struct platform_device *);