mirror of https://gitee.com/openkylin/linux.git
arm64: cpufeature: Fix handling of CTR_EL0.IDC field
CTR_EL0.IDC reports the data cache clean requirements for instruction
to data coherence. However, if the field is 0, we need to check the
CLIDR_EL1 fields to detect the status of the feature. Currently we
don't do this and generate a warning with tainting the kernel, when
there is a mismatch in the field among the CPUs. Also the userspace
doesn't have a reliable way to check the CLIDR_EL1 register to check
the status.
This patch fixes the problem by checking the CLIDR_EL1 fields, when
(CTR_EL0.IDC == 0) and updates the kernel's copy of the CTR_EL0 for
the CPU with the actual status of the feature. This would allow the
sanity check infrastructure to do the proper checking of the fields
and also allow the CTR_EL0 emulation code to supply the real status
of the feature.
Now, if a CPU has raw CTR_EL0.IDC == 0 and effective IDC == 1 (with
overall system wide IDC == 1), we need to expose the real value to
the user. So, we trap CTR_EL0 access on the CPU which reports incorrect
CTR_EL0.IDC.
Fixes: commit 6ae4b6e057
("arm64: Add support for new control bits CTR_EL0.DIC and CTR_EL0.IDC")
Cc: Shanker Donthineni <shankerd@codeaurora.org>
Cc: Philip Elcan <pelcan@codeaurora.org>
Cc: Will Deacon <will.deacon@arm.com>
Cc: Mark Rutland <mark.rutland@arm.com>
Signed-off-by: Suzuki K Poulose <suzuki.poulose@arm.com>
Signed-off-by: Catalin Marinas <catalin.marinas@arm.com>
This commit is contained in:
parent
8ab66cbe63
commit
1602df02f3
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@ -40,6 +40,15 @@
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#define L1_CACHE_SHIFT (6)
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#define L1_CACHE_BYTES (1 << L1_CACHE_SHIFT)
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#define CLIDR_LOUU_SHIFT 27
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#define CLIDR_LOC_SHIFT 24
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#define CLIDR_LOUIS_SHIFT 21
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#define CLIDR_LOUU(clidr) (((clidr) >> CLIDR_LOUU_SHIFT) & 0x7)
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#define CLIDR_LOC(clidr) (((clidr) >> CLIDR_LOC_SHIFT) & 0x7)
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#define CLIDR_LOUIS(clidr) (((clidr) >> CLIDR_LOUIS_SHIFT) & 0x7)
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/*
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* Memory returned by kmalloc() may be used for DMA, so we must make
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* sure that all such allocations are cache aligned. Otherwise,
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@ -84,6 +93,37 @@ static inline int cache_line_size(void)
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return cwg ? 4 << cwg : ARCH_DMA_MINALIGN;
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}
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/*
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* Read the effective value of CTR_EL0.
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*
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* According to ARM ARM for ARMv8-A (ARM DDI 0487C.a),
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* section D10.2.33 "CTR_EL0, Cache Type Register" :
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*
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* CTR_EL0.IDC reports the data cache clean requirements for
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* instruction to data coherence.
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*
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* 0 - dcache clean to PoU is required unless :
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* (CLIDR_EL1.LoC == 0) || (CLIDR_EL1.LoUIS == 0 && CLIDR_EL1.LoUU == 0)
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* 1 - dcache clean to PoU is not required for i-to-d coherence.
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*
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* This routine provides the CTR_EL0 with the IDC field updated to the
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* effective state.
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*/
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static inline u32 __attribute_const__ read_cpuid_effective_cachetype(void)
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{
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u32 ctr = read_cpuid_cachetype();
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if (!(ctr & BIT(CTR_IDC_SHIFT))) {
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u64 clidr = read_sysreg(clidr_el1);
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if (CLIDR_LOC(clidr) == 0 ||
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(CLIDR_LOUIS(clidr) == 0 && CLIDR_LOUU(clidr) == 0))
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ctr |= BIT(CTR_IDC_SHIFT);
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}
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return ctr;
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}
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#endif /* __ASSEMBLY__ */
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#endif
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@ -68,11 +68,32 @@ static bool
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has_mismatched_cache_type(const struct arm64_cpu_capabilities *entry,
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int scope)
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{
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u64 mask = arm64_ftr_reg_ctrel0.strict_mask;;
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u64 mask = arm64_ftr_reg_ctrel0.strict_mask;
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u64 sys = arm64_ftr_reg_ctrel0.sys_val & mask;
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u64 ctr_raw, ctr_real;
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WARN_ON(scope != SCOPE_LOCAL_CPU || preemptible());
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return (read_cpuid_cachetype() & mask) !=
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(arm64_ftr_reg_ctrel0.sys_val & mask);
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/*
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* We want to make sure that all the CPUs in the system expose
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* a consistent CTR_EL0 to make sure that applications behaves
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* correctly with migration.
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*
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* If a CPU has CTR_EL0.IDC but does not advertise it via CTR_EL0 :
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*
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* 1) It is safe if the system doesn't support IDC, as CPU anyway
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* reports IDC = 0, consistent with the rest.
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*
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* 2) If the system has IDC, it is still safe as we trap CTR_EL0
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* access on this CPU via the ARM64_HAS_CACHE_IDC capability.
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*
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* So, we need to make sure either the raw CTR_EL0 or the effective
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* CTR_EL0 matches the system's copy to allow a secondary CPU to boot.
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*/
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ctr_raw = read_cpuid_cachetype() & mask;
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ctr_real = read_cpuid_effective_cachetype() & mask;
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return (ctr_real != sys) && (ctr_raw != sys);
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}
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static void
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@ -861,11 +861,23 @@ static bool has_cache_idc(const struct arm64_cpu_capabilities *entry,
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if (scope == SCOPE_SYSTEM)
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ctr = arm64_ftr_reg_ctrel0.sys_val;
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else
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ctr = read_cpuid_cachetype();
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ctr = read_cpuid_effective_cachetype();
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return ctr & BIT(CTR_IDC_SHIFT);
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}
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static void cpu_emulate_effective_ctr(const struct arm64_cpu_capabilities *__unused)
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{
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/*
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* If the CPU exposes raw CTR_EL0.IDC = 0, while effectively
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* CTR_EL0.IDC = 1 (from CLIDR values), we need to trap accesses
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* to the CTR_EL0 on this CPU and emulate it with the real/safe
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* value.
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*/
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if (!(read_cpuid_cachetype() & BIT(CTR_IDC_SHIFT)))
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sysreg_clear_set(sctlr_el1, SCTLR_EL1_UCT, 0);
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}
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static bool has_cache_dic(const struct arm64_cpu_capabilities *entry,
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int scope)
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{
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@ -1282,6 +1294,7 @@ static const struct arm64_cpu_capabilities arm64_features[] = {
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.capability = ARM64_HAS_CACHE_IDC,
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.type = ARM64_CPUCAP_SYSTEM_FEATURE,
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.matches = has_cache_idc,
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.cpu_enable = cpu_emulate_effective_ctr,
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},
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{
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.desc = "Instruction cache invalidation not required for I/D coherence",
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@ -325,7 +325,15 @@ static void cpuinfo_detect_icache_policy(struct cpuinfo_arm64 *info)
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static void __cpuinfo_store_cpu(struct cpuinfo_arm64 *info)
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{
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info->reg_cntfrq = arch_timer_get_cntfrq();
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info->reg_ctr = read_cpuid_cachetype();
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/*
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* Use the effective value of the CTR_EL0 than the raw value
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* exposed by the CPU. CTR_E0.IDC field value must be interpreted
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* with the CLIDR_EL1 fields to avoid triggering false warnings
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* when there is a mismatch across the CPUs. Keep track of the
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* effective value of the CTR_EL0 in our internal records for
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* acurate sanity check and feature enablement.
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*/
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info->reg_ctr = read_cpuid_effective_cachetype();
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info->reg_dczid = read_cpuid(DCZID_EL0);
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info->reg_midr = read_cpuid_id();
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info->reg_revidr = read_cpuid(REVIDR_EL1);
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