#include #if CPUINFO_MOCK #include #endif #include #include #include #include #if CPUINFO_MOCK uint32_t cpuinfo_arm_fpsid = 0; uint32_t cpuinfo_arm_mvfr0 = 0; uint32_t cpuinfo_arm_wcid = 0; void cpuinfo_set_fpsid(uint32_t fpsid) { cpuinfo_arm_fpsid = fpsid; } void cpuinfo_set_wcid(uint32_t wcid) { cpuinfo_arm_wcid = wcid; } #endif void cpuinfo_arm_linux_decode_isa_from_proc_cpuinfo( uint32_t features, uint32_t features2, uint32_t midr, uint32_t architecture_version, uint32_t architecture_flags, const struct cpuinfo_arm_chipset chipset[restrict static 1], struct cpuinfo_arm_isa isa[restrict static 1]) { if (architecture_version >= 8) { /* * ARMv7 code running on ARMv8: IDIV, VFP, NEON are always supported, * but may be not reported in /proc/cpuinfo features. */ isa->armv5e = true; isa->armv6 = true; isa->armv6k = true; isa->armv7 = true; isa->armv7mp = true; isa->armv8 = true; isa->thumb = true; isa->thumb2 = true; isa->idiv = true; isa->vfpv3 = true; isa->d32 = true; isa->fp16 = true; isa->fma = true; isa->neon = true; /* * NEON FP16 compute extension and VQRDMLAH/VQRDMLSH instructions are not indicated in /proc/cpuinfo. * Use a MIDR-based heuristic to whitelist processors known to support it: * - Processors with Cortex-A55 cores * - Processors with Cortex-A65 cores * - Processors with Cortex-A75 cores * - Processors with Cortex-A76 cores * - Processors with Cortex-A77 cores * - Processors with Exynos M4 cores * - Processors with Exynos M5 cores * - Neoverse N1 cores */ if (chipset->series == cpuinfo_arm_chipset_series_samsung_exynos && chipset->model == 9810) { /* Only little cores of Exynos 9810 support FP16 & RDM */ cpuinfo_log_warning("FP16 arithmetics and RDM disabled: only little cores in Exynos 9810 support these extensions"); } else { switch (midr & (CPUINFO_ARM_MIDR_IMPLEMENTER_MASK | CPUINFO_ARM_MIDR_PART_MASK)) { case UINT32_C(0x4100D050): /* Cortex-A55 */ case UINT32_C(0x4100D060): /* Cortex-A65 */ case UINT32_C(0x4100D0B0): /* Cortex-A76 */ case UINT32_C(0x4100D0C0): /* Neoverse N1 */ case UINT32_C(0x4100D0D0): /* Cortex-A77 */ case UINT32_C(0x4100D0E0): /* Cortex-A76AE */ case UINT32_C(0x4800D400): /* Cortex-A76 (HiSilicon) */ case UINT32_C(0x51008020): /* Kryo 385 Gold (Cortex-A75) */ case UINT32_C(0x51008030): /* Kryo 385 Silver (Cortex-A55) */ case UINT32_C(0x51008040): /* Kryo 485 Gold (Cortex-A76) */ case UINT32_C(0x51008050): /* Kryo 485 Silver (Cortex-A55) */ case UINT32_C(0x53000030): /* Exynos M4 */ case UINT32_C(0x53000040): /* Exynos M5 */ isa->fp16arith = true; isa->rdm = true; break; } } /* * NEON VDOT instructions are not indicated in /proc/cpuinfo. * Use a MIDR-based heuristic to whitelist processors known to support it. */ switch (midr & (CPUINFO_ARM_MIDR_IMPLEMENTER_MASK | CPUINFO_ARM_MIDR_PART_MASK)) { case UINT32_C(0x4100D0B0): /* Cortex-A76 */ case UINT32_C(0x4100D0D0): /* Cortex-A77 */ case UINT32_C(0x4100D0E0): /* Cortex-A76AE */ case UINT32_C(0x4800D400): /* Cortex-A76 (HiSilicon) */ case UINT32_C(0x51008040): /* Kryo 485 Gold (Cortex-A76) */ case UINT32_C(0x51008050): /* Kryo 485 Silver (Cortex-A55) */ case UINT32_C(0x53000030): /* Exynos-M4 */ case UINT32_C(0x53000040): /* Exynos-M5 */ isa->dot = true; break; case UINT32_C(0x4100D050): /* Cortex A55: revision 1 or later only */ isa->dot = !!(midr_get_variant(midr) >= 1); break; case UINT32_C(0x4100D0A0): /* Cortex A75: revision 2 or later only */ isa->dot = !!(midr_get_variant(midr) >= 2); break; } } else { /* ARMv7 or lower: use feature flags to detect optional features */ /* * ARM11 (ARM 1136/1156/1176/11 MPCore) processors can report v7 architecture * even though they support only ARMv6 instruction set. */ if (architecture_version == 7 && midr_is_arm11(midr)) { cpuinfo_log_warning("kernel-reported architecture ARMv7 ignored due to mismatch with processor microarchitecture (ARM11)"); architecture_version = 6; } if (architecture_version < 7) { const uint32_t armv7_features_mask = CPUINFO_ARM_LINUX_FEATURE_VFPV3 | CPUINFO_ARM_LINUX_FEATURE_VFPV3D16 | CPUINFO_ARM_LINUX_FEATURE_VFPD32 | CPUINFO_ARM_LINUX_FEATURE_VFPV4 | CPUINFO_ARM_LINUX_FEATURE_NEON | CPUINFO_ARM_LINUX_FEATURE_IDIVT | CPUINFO_ARM_LINUX_FEATURE_IDIVA; if (features & armv7_features_mask) { architecture_version = 7; } } if ((architecture_version >= 6) || (features & CPUINFO_ARM_LINUX_FEATURE_EDSP) || (architecture_flags & CPUINFO_ARM_LINUX_ARCH_E)) { isa->armv5e = true; } if (architecture_version >= 6) { isa->armv6 = true; } if (architecture_version >= 7) { isa->armv6k = true; isa->armv7 = true; /* * ARMv7 MP extension (PLDW instruction) is not indicated in /proc/cpuinfo. * Use heuristic list of supporting processors: * - Processors supporting UDIV/SDIV instructions ("idiva" + "idivt" features in /proc/cpuinfo) * - Cortex-A5 * - Cortex-A9 * - Dual-Core Scorpion * - Krait (supports UDIV/SDIV, but kernels may not report it in /proc/cpuinfo) * * TODO: check single-core Qualcomm Scorpion. */ switch (midr & (CPUINFO_ARM_MIDR_IMPLEMENTER_MASK | CPUINFO_ARM_MIDR_PART_MASK)) { case UINT32_C(0x4100C050): /* Cortex-A5 */ case UINT32_C(0x4100C090): /* Cortex-A9 */ case UINT32_C(0x510002D0): /* Scorpion (dual-core) */ case UINT32_C(0x510004D0): /* Krait (dual-core) */ case UINT32_C(0x510006F0): /* Krait (quad-core) */ isa->armv7mp = true; break; default: /* In practice IDIV instruction implies ARMv7+MP ISA */ isa->armv7mp = (features & CPUINFO_ARM_LINUX_FEATURE_IDIV) == CPUINFO_ARM_LINUX_FEATURE_IDIV; break; } } if (features & CPUINFO_ARM_LINUX_FEATURE_IWMMXT) { const uint32_t wcid = read_wcid(); cpuinfo_log_debug("WCID = 0x%08"PRIx32, wcid); const uint32_t coprocessor_type = (wcid >> 8) & UINT32_C(0xFF); if (coprocessor_type >= 0x10) { isa->wmmx = true; if (coprocessor_type >= 0x20) { isa->wmmx2 = true; } } else { cpuinfo_log_warning("WMMX ISA disabled: OS reported iwmmxt feature, " "but WCID coprocessor type 0x%"PRIx32" indicates no WMMX support", coprocessor_type); } } if ((features & CPUINFO_ARM_LINUX_FEATURE_THUMB) || (architecture_flags & CPUINFO_ARM_LINUX_ARCH_T)) { isa->thumb = true; /* * There is no separate feature flag for Thumb 2. * All ARMv7 processors and ARM 1156 support Thumb 2. */ if (architecture_version >= 7 || midr_is_arm1156(midr)) { isa->thumb2 = true; } } if (features & CPUINFO_ARM_LINUX_FEATURE_THUMBEE) { isa->thumbee = true; } if ((features & CPUINFO_ARM_LINUX_FEATURE_JAVA) || (architecture_flags & CPUINFO_ARM_LINUX_ARCH_J)) { isa->jazelle = true; } /* Qualcomm Krait may have buggy kernel configuration that doesn't report IDIV */ if ((features & CPUINFO_ARM_LINUX_FEATURE_IDIV) == CPUINFO_ARM_LINUX_FEATURE_IDIV || midr_is_krait(midr)) { isa->idiv = true; } const uint32_t vfp_mask = \ CPUINFO_ARM_LINUX_FEATURE_VFP | CPUINFO_ARM_LINUX_FEATURE_VFPV3 | CPUINFO_ARM_LINUX_FEATURE_VFPV3D16 | \ CPUINFO_ARM_LINUX_FEATURE_VFPD32 | CPUINFO_ARM_LINUX_FEATURE_VFPV4 | CPUINFO_ARM_LINUX_FEATURE_NEON; if (features & vfp_mask) { const uint32_t vfpv3_mask = CPUINFO_ARM_LINUX_FEATURE_VFPV3 | CPUINFO_ARM_LINUX_FEATURE_VFPV3D16 | \ CPUINFO_ARM_LINUX_FEATURE_VFPD32 | CPUINFO_ARM_LINUX_FEATURE_VFPV4 | CPUINFO_ARM_LINUX_FEATURE_NEON; if ((architecture_version >= 7) || (features & vfpv3_mask)) { isa->vfpv3 = true; const uint32_t d32_mask = CPUINFO_ARM_LINUX_FEATURE_VFPD32 | CPUINFO_ARM_LINUX_FEATURE_NEON; if (features & d32_mask) { isa->d32 = true; } } else { #if defined(__ARM_ARCH_7A__) || defined(__ARM_ARCH_8A__) || defined(__ARM_ARCH) && (__ARM_ARCH >= 7) isa->vfpv3 = true; #else const uint32_t fpsid = read_fpsid(); cpuinfo_log_debug("FPSID = 0x%08"PRIx32, fpsid); const uint32_t subarchitecture = (fpsid >> 16) & UINT32_C(0x7F); if (subarchitecture >= 0x01) { isa->vfpv2 = true; } #endif } } if (features & CPUINFO_ARM_LINUX_FEATURE_NEON) { isa->neon = true; } /* * There is no separate feature flag for FP16 support. * VFPv4 implies VFPv3-FP16 support (and in practice, NEON-HP as well). * Additionally, ARM Cortex-A9 and Qualcomm Scorpion support FP16. */ if ((features & CPUINFO_ARM_LINUX_FEATURE_VFPV4) || midr_is_cortex_a9(midr) || midr_is_scorpion(midr)) { isa->fp16 = true; } if (features & CPUINFO_ARM_LINUX_FEATURE_VFPV4) { isa->fma = true; } } if (features2 & CPUINFO_ARM_LINUX_FEATURE2_AES) { isa->aes = true; } if (features2 & CPUINFO_ARM_LINUX_FEATURE2_PMULL) { isa->pmull = true; } if (features2 & CPUINFO_ARM_LINUX_FEATURE2_SHA1) { isa->sha1 = true; } if (features2 & CPUINFO_ARM_LINUX_FEATURE2_SHA2) { isa->sha2 = true; } if (features2 & CPUINFO_ARM_LINUX_FEATURE2_CRC32) { isa->crc32 = true; } }