| // Copyright 2017 Google LLC |
| // Copyright 2020 Intel Corporation |
| // |
| // Licensed under the Apache License, Version 2.0 (the "License"); |
| // you may not use this file except in compliance with the License. |
| // You may obtain a copy of the License at |
| // |
| // http://www.apache.org/licenses/LICENSE-2.0 |
| // |
| // Unless required by applicable law or agreed to in writing, software |
| // distributed under the License is distributed on an "AS IS" BASIS, |
| // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| // See the License for the specific language governing permissions and |
| // limitations under the License. |
| |
| #include "cpuinfo_x86.h" |
| |
| #include <stdbool.h> |
| #include <string.h> |
| |
| #include "internal/bit_utils.h" |
| #include "internal/cpuid_x86.h" |
| |
| #if !defined(CPU_FEATURES_ARCH_X86) |
| #error "Cannot compile cpuinfo_x86 on a non x86 platform." |
| #endif |
| |
| // Generation of feature's getters/setters functions and kGetters, kSetters, |
| // kCpuInfoFlags global tables. |
| #define DEFINE_TABLE_FEATURES \ |
| FEATURE(X86_FPU, fpu, "fpu", 0, 0) \ |
| FEATURE(X86_TSC, tsc, "tsc", 0, 0) \ |
| FEATURE(X86_CX8, cx8, "cx8", 0, 0) \ |
| FEATURE(X86_CLFSH, clfsh, "clfsh", 0, 0) \ |
| FEATURE(X86_MMX, mmx, "mmx", 0, 0) \ |
| FEATURE(X86_AES, aes, "aes", 0, 0) \ |
| FEATURE(X86_ERMS, erms, "erms", 0, 0) \ |
| FEATURE(X86_F16C, f16c, "f16c", 0, 0) \ |
| FEATURE(X86_FMA4, fma4, "fma4", 0, 0) \ |
| FEATURE(X86_FMA3, fma3, "fma3", 0, 0) \ |
| FEATURE(X86_VAES, vaes, "vaes", 0, 0) \ |
| FEATURE(X86_VPCLMULQDQ, vpclmulqdq, "vpclmulqdq", 0, 0) \ |
| FEATURE(X86_BMI1, bmi1, "bmi1", 0, 0) \ |
| FEATURE(X86_HLE, hle, "hle", 0, 0) \ |
| FEATURE(X86_BMI2, bmi2, "bmi2", 0, 0) \ |
| FEATURE(X86_RTM, rtm, "rtm", 0, 0) \ |
| FEATURE(X86_RDSEED, rdseed, "rdseed", 0, 0) \ |
| FEATURE(X86_CLFLUSHOPT, clflushopt, "clflushopt", 0, 0) \ |
| FEATURE(X86_CLWB, clwb, "clwb", 0, 0) \ |
| FEATURE(X86_SSE, sse, "sse", 0, 0) \ |
| FEATURE(X86_SSE2, sse2, "sse2", 0, 0) \ |
| FEATURE(X86_SSE3, sse3, "sse3", 0, 0) \ |
| FEATURE(X86_SSSE3, ssse3, "ssse3", 0, 0) \ |
| FEATURE(X86_SSE4_1, sse4_1, "sse4_1", 0, 0) \ |
| FEATURE(X86_SSE4_2, sse4_2, "sse4_2", 0, 0) \ |
| FEATURE(X86_SSE4A, sse4a, "sse4a", 0, 0) \ |
| FEATURE(X86_AVX, avx, "avx", 0, 0) \ |
| FEATURE(X86_AVX2, avx2, "avx2", 0, 0) \ |
| FEATURE(X86_AVX512F, avx512f, "avx512f", 0, 0) \ |
| FEATURE(X86_AVX512CD, avx512cd, "avx512cd", 0, 0) \ |
| FEATURE(X86_AVX512ER, avx512er, "avx512er", 0, 0) \ |
| FEATURE(X86_AVX512PF, avx512pf, "avx512pf", 0, 0) \ |
| FEATURE(X86_AVX512BW, avx512bw, "avx512bw", 0, 0) \ |
| FEATURE(X86_AVX512DQ, avx512dq, "avx512dq", 0, 0) \ |
| FEATURE(X86_AVX512VL, avx512vl, "avx512vl", 0, 0) \ |
| FEATURE(X86_AVX512IFMA, avx512ifma, "avx512ifma", 0, 0) \ |
| FEATURE(X86_AVX512VBMI, avx512vbmi, "avx512vbmi", 0, 0) \ |
| FEATURE(X86_AVX512VBMI2, avx512vbmi2, "avx512vbmi2", 0, 0) \ |
| FEATURE(X86_AVX512VNNI, avx512vnni, "avx512vnni", 0, 0) \ |
| FEATURE(X86_AVX512BITALG, avx512bitalg, "avx512bitalg", 0, 0) \ |
| FEATURE(X86_AVX512VPOPCNTDQ, avx512vpopcntdq, "avx512vpopcntdq", 0, 0) \ |
| FEATURE(X86_AVX512_4VNNIW, avx512_4vnniw, "avx512_4vnniw", 0, 0) \ |
| FEATURE(X86_AVX512_4VBMI2, avx512_4vbmi2, "avx512_4vbmi2", 0, 0) \ |
| FEATURE(X86_AVX512_SECOND_FMA, avx512_second_fma, "avx512_second_fma", 0, 0) \ |
| FEATURE(X86_AVX512_4FMAPS, avx512_4fmaps, "avx512_4fmaps", 0, 0) \ |
| FEATURE(X86_AVX512_BF16, avx512_bf16, "avx512_bf16", 0, 0) \ |
| FEATURE(X86_AVX512_VP2INTERSECT, avx512_vp2intersect, "avx512_vp2intersect", \ |
| 0, 0) \ |
| FEATURE(X86_AMX_BF16, amx_bf16, "amx_bf16", 0, 0) \ |
| FEATURE(X86_AMX_TILE, amx_tile, "amx_tile", 0, 0) \ |
| FEATURE(X86_AMX_INT8, amx_int8, "amx_int8", 0, 0) \ |
| FEATURE(X86_PCLMULQDQ, pclmulqdq, "pclmulqdq", 0, 0) \ |
| FEATURE(X86_SMX, smx, "smx", 0, 0) \ |
| FEATURE(X86_SGX, sgx, "sgx", 0, 0) \ |
| FEATURE(X86_CX16, cx16, "cx16", 0, 0) \ |
| FEATURE(X86_SHA, sha, "sha", 0, 0) \ |
| FEATURE(X86_POPCNT, popcnt, "popcnt", 0, 0) \ |
| FEATURE(X86_MOVBE, movbe, "movbe", 0, 0) \ |
| FEATURE(X86_RDRND, rdrnd, "rdrnd", 0, 0) \ |
| FEATURE(X86_DCA, dca, "dca", 0, 0) \ |
| FEATURE(X86_SS, ss, "ss", 0, 0) |
| #define DEFINE_TABLE_FEATURE_TYPE X86Features |
| #define DEFINE_TABLE_DONT_GENERATE_HWCAPS |
| #include "define_tables.h" |
| |
| // The following includes are necessary to provide SSE detections on pre-AVX |
| // microarchitectures. |
| #if defined(CPU_FEATURES_OS_WINDOWS) |
| #include <windows.h> // IsProcessorFeaturePresent |
| #elif defined(CPU_FEATURES_OS_LINUX_OR_ANDROID) |
| #include "internal/filesystem.h" // Needed to parse /proc/cpuinfo |
| #include "internal/stack_line_reader.h" // Needed to parse /proc/cpuinfo |
| #include "internal/string_view.h" // Needed to parse /proc/cpuinfo |
| #elif defined(CPU_FEATURES_OS_DARWIN) |
| #if !defined(HAVE_SYSCTLBYNAME) |
| #error "Darwin needs support for sysctlbyname" |
| #endif |
| #include <sys/sysctl.h> |
| #else |
| #error "Unsupported OS" |
| #endif // CPU_FEATURES_OS |
| |
| //////////////////////////////////////////////////////////////////////////////// |
| // Definitions for CpuId and GetXCR0Eax. |
| //////////////////////////////////////////////////////////////////////////////// |
| |
| #if defined(CPU_FEATURES_MOCK_CPUID_X86) |
| // Implementation will be provided by test/cpuinfo_x86_test.cc. |
| #elif defined(CPU_FEATURES_COMPILER_CLANG) || defined(CPU_FEATURES_COMPILER_GCC) |
| |
| #include <cpuid.h> |
| |
| Leaf GetCpuidLeaf(uint32_t leaf_id, int ecx) { |
| Leaf leaf; |
| __cpuid_count(leaf_id, ecx, leaf.eax, leaf.ebx, leaf.ecx, leaf.edx); |
| return leaf; |
| } |
| |
| uint32_t GetXCR0Eax(void) { |
| uint32_t eax, edx; |
| /* named form of xgetbv not supported on OSX, so must use byte form, see: |
| https://github.com/asmjit/asmjit/issues/78 |
| */ |
| __asm(".byte 0x0F, 0x01, 0xd0" : "=a"(eax), "=d"(edx) : "c"(0)); |
| return eax; |
| } |
| |
| #elif defined(CPU_FEATURES_COMPILER_MSC) |
| |
| #include <immintrin.h> |
| #include <intrin.h> // For __cpuidex() |
| |
| Leaf GetCpuidLeaf(uint32_t leaf_id, int ecx) { |
| Leaf leaf; |
| int data[4]; |
| __cpuidex(data, leaf_id, ecx); |
| leaf.eax = data[0]; |
| leaf.ebx = data[1]; |
| leaf.ecx = data[2]; |
| leaf.edx = data[3]; |
| return leaf; |
| } |
| |
| uint32_t GetXCR0Eax(void) { return (uint32_t)_xgetbv(0); } |
| |
| #else |
| #error "Unsupported compiler, x86 cpuid requires either GCC, Clang or MSVC." |
| #endif |
| |
| static Leaf CpuId(uint32_t leaf_id) { return GetCpuidLeaf(leaf_id, 0); } |
| |
| static const Leaf kEmptyLeaf; |
| |
| static Leaf SafeCpuIdEx(uint32_t max_cpuid_leaf, uint32_t leaf_id, int ecx) { |
| if (leaf_id <= max_cpuid_leaf) { |
| return GetCpuidLeaf(leaf_id, ecx); |
| } else { |
| return kEmptyLeaf; |
| } |
| } |
| |
| static Leaf SafeCpuId(uint32_t max_cpuid_leaf, uint32_t leaf_id) { |
| return SafeCpuIdEx(max_cpuid_leaf, leaf_id, 0); |
| } |
| |
| #define MASK_XMM 0x2 |
| #define MASK_YMM 0x4 |
| #define MASK_MASKREG 0x20 |
| #define MASK_ZMM0_15 0x40 |
| #define MASK_ZMM16_31 0x80 |
| #define MASK_XTILECFG 0x20000 |
| #define MASK_XTILEDATA 0x40000 |
| |
| static bool HasMask(uint32_t value, uint32_t mask) { |
| return (value & mask) == mask; |
| } |
| |
| // Checks that operating system saves and restores xmm registers during context |
| // switches. |
| static bool HasXmmOsXSave(uint32_t xcr0_eax) { |
| return HasMask(xcr0_eax, MASK_XMM); |
| } |
| |
| // Checks that operating system saves and restores ymm registers during context |
| // switches. |
| static bool HasYmmOsXSave(uint32_t xcr0_eax) { |
| return HasMask(xcr0_eax, MASK_XMM | MASK_YMM); |
| } |
| |
| // Checks that operating system saves and restores zmm registers during context |
| // switches. |
| static bool HasZmmOsXSave(uint32_t xcr0_eax) { |
| return HasMask(xcr0_eax, MASK_XMM | MASK_YMM | MASK_MASKREG | MASK_ZMM0_15 | |
| MASK_ZMM16_31); |
| } |
| |
| // Checks that operating system saves and restores AMX/TMUL state during context |
| // switches. |
| static bool HasTmmOsXSave(uint32_t xcr0_eax) { |
| return HasMask(xcr0_eax, MASK_XMM | MASK_YMM | MASK_MASKREG | MASK_ZMM0_15 | |
| MASK_ZMM16_31 | MASK_XTILECFG | MASK_XTILEDATA); |
| } |
| |
| static bool HasSecondFMA(uint32_t model) { |
| // Skylake server |
| if (model == 0x55) { |
| char proc_name[49] = {0}; |
| FillX86BrandString(proc_name); |
| // detect Xeon |
| if (proc_name[9] == 'X') { |
| // detect Silver or Bronze |
| if (proc_name[17] == 'S' || proc_name[17] == 'B') return false; |
| // detect Gold 5_20 and below, except for Gold 53__ |
| if (proc_name[17] == 'G' && proc_name[22] == '5') |
| return ((proc_name[23] == '3') || |
| (proc_name[24] == '2' && proc_name[25] == '2')); |
| // detect Xeon W 210x |
| if (proc_name[17] == 'W' && proc_name[21] == '0') return false; |
| // detect Xeon D 2xxx |
| if (proc_name[17] == 'D' && proc_name[19] == '2' && proc_name[20] == '1') |
| return false; |
| } |
| return true; |
| } |
| // Cannon Lake client |
| if (model == 0x66) return false; |
| // Ice Lake client |
| if (model == 0x7d || model == 0x7e) return false; |
| // This is the right default... |
| return true; |
| } |
| |
| static void SetVendor(const Leaf leaf, char* const vendor) { |
| *(uint32_t*)(vendor) = leaf.ebx; |
| *(uint32_t*)(vendor + 4) = leaf.edx; |
| *(uint32_t*)(vendor + 8) = leaf.ecx; |
| vendor[12] = '\0'; |
| } |
| |
| static int IsVendor(const Leaf leaf, const char* const name) { |
| const uint32_t ebx = *(const uint32_t*)(name); |
| const uint32_t edx = *(const uint32_t*)(name + 4); |
| const uint32_t ecx = *(const uint32_t*)(name + 8); |
| return leaf.ebx == ebx && leaf.ecx == ecx && leaf.edx == edx; |
| } |
| |
| static const CacheLevelInfo kEmptyCacheLevelInfo; |
| |
| static CacheLevelInfo GetCacheLevelInfo(const uint32_t reg) { |
| const int UNDEF = -1; |
| const int KiB = 1024; |
| const int MiB = 1024 * KiB; |
| switch (reg) { |
| case 0x01: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 32, |
| .partitioning = 0}; |
| case 0x02: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * MiB, |
| .ways = 0xFF, |
| .line_size = UNDEF, |
| .tlb_entries = 2, |
| .partitioning = 0}; |
| case 0x03: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 64, |
| .partitioning = 0}; |
| case 0x04: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * MiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 8, |
| .partitioning = 0}; |
| case 0x05: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * MiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 32, |
| .partitioning = 0}; |
| case 0x06: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_INSTRUCTION, |
| .cache_size = 8 * KiB, |
| .ways = 4, |
| .line_size = 32, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x08: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_INSTRUCTION, |
| .cache_size = 16 * KiB, |
| .ways = 4, |
| .line_size = 32, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x09: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_INSTRUCTION, |
| .cache_size = 32 * KiB, |
| .ways = 4, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x0A: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 8 * KiB, |
| .ways = 2, |
| .line_size = 32, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x0B: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * MiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 4, |
| .partitioning = 0}; |
| case 0x0C: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 16 * KiB, |
| .ways = 4, |
| .line_size = 32, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x0D: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 16 * KiB, |
| .ways = 4, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x0E: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 24 * KiB, |
| .ways = 6, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x1D: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 128 * KiB, |
| .ways = 2, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x21: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 256 * KiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x22: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 512 * KiB, |
| .ways = 4, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 2}; |
| case 0x23: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 1 * MiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 2}; |
| case 0x24: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 1 * MiB, |
| .ways = 16, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x25: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 2 * MiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 2}; |
| case 0x29: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 4 * MiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 2}; |
| case 0x2C: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 32 * KiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x30: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_INSTRUCTION, |
| .cache_size = 32 * KiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x40: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = UNDEF, |
| .ways = UNDEF, |
| .line_size = UNDEF, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x41: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 128 * KiB, |
| .ways = 4, |
| .line_size = 32, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x42: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 256 * KiB, |
| .ways = 4, |
| .line_size = 32, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x43: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 512 * KiB, |
| .ways = 4, |
| .line_size = 32, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x44: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 1 * MiB, |
| .ways = 4, |
| .line_size = 32, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x45: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 2 * MiB, |
| .ways = 4, |
| .line_size = 32, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x46: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 4 * MiB, |
| .ways = 4, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x47: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 8 * MiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x48: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 3 * MiB, |
| .ways = 12, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x49: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 4 * MiB, |
| .ways = 16, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case (0x49 | (1 << 8)): |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 4 * MiB, |
| .ways = 16, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x4A: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 6 * MiB, |
| .ways = 12, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x4B: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 8 * MiB, |
| .ways = 16, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x4C: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 12 * MiB, |
| .ways = 12, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x4D: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 16 * MiB, |
| .ways = 16, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x4E: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 6 * MiB, |
| .ways = 24, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x4F: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = UNDEF, |
| .line_size = UNDEF, |
| .tlb_entries = 32, |
| .partitioning = 0}; |
| case 0x50: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = UNDEF, |
| .line_size = UNDEF, |
| .tlb_entries = 64, |
| .partitioning = 0}; |
| case 0x51: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = UNDEF, |
| .line_size = UNDEF, |
| .tlb_entries = 128, |
| .partitioning = 0}; |
| case 0x52: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = UNDEF, |
| .line_size = UNDEF, |
| .tlb_entries = 256, |
| .partitioning = 0}; |
| case 0x55: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 2 * MiB, |
| .ways = 0xFF, |
| .line_size = UNDEF, |
| .tlb_entries = 7, |
| .partitioning = 0}; |
| case 0x56: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * MiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 16, |
| .partitioning = 0}; |
| case 0x57: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 16, |
| .partitioning = 0}; |
| case 0x59: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = 0xFF, |
| .line_size = UNDEF, |
| .tlb_entries = 16, |
| .partitioning = 0}; |
| case 0x5A: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 2 * MiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 32, |
| .partitioning = 0}; |
| case 0x5B: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = UNDEF, |
| .line_size = UNDEF, |
| .tlb_entries = 64, |
| .partitioning = 0}; |
| case 0x5C: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = UNDEF, |
| .line_size = UNDEF, |
| .tlb_entries = 128, |
| .partitioning = 0}; |
| case 0x5D: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4, |
| .ways = UNDEF, |
| .line_size = UNDEF, |
| .tlb_entries = 256, |
| .partitioning = 0}; |
| case 0x60: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 16 * KiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x61: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = 0xFF, |
| .line_size = UNDEF, |
| .tlb_entries = 48, |
| .partitioning = 0}; |
| case 0x63: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 2 * MiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 4, |
| .partitioning = 0}; |
| case 0x66: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 8 * KiB, |
| .ways = 4, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x67: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 16 * KiB, |
| .ways = 4, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x68: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 32 * KiB, |
| .ways = 4, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x70: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_INSTRUCTION, |
| .cache_size = 12 * KiB, |
| .ways = 8, |
| .line_size = UNDEF, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x71: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_INSTRUCTION, |
| .cache_size = 16 * KiB, |
| .ways = 8, |
| .line_size = UNDEF, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x72: |
| return (CacheLevelInfo){.level = 1, |
| .cache_type = CPU_FEATURE_CACHE_INSTRUCTION, |
| .cache_size = 32 * KiB, |
| .ways = 8, |
| .line_size = UNDEF, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x76: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 2 * MiB, |
| .ways = 0xFF, |
| .line_size = UNDEF, |
| .tlb_entries = 8, |
| .partitioning = 0}; |
| case 0x78: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 1 * MiB, |
| .ways = 4, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x79: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 128 * KiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 2}; |
| case 0x7A: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 256 * KiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 2}; |
| case 0x7B: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 512 * KiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 2}; |
| case 0x7C: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 1 * MiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 2}; |
| case 0x7D: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 2 * MiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x7F: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 512 * KiB, |
| .ways = 2, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x80: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 512 * KiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x82: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 256 * KiB, |
| .ways = 8, |
| .line_size = 32, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x83: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 512 * KiB, |
| .ways = 8, |
| .line_size = 32, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x84: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 1 * MiB, |
| .ways = 8, |
| .line_size = 32, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x85: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 2 * MiB, |
| .ways = 8, |
| .line_size = 32, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x86: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 512 * KiB, |
| .ways = 4, |
| .line_size = 32, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0x87: |
| return (CacheLevelInfo){.level = 2, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 1 * MiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xA0: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_DTLB, |
| .cache_size = 4 * KiB, |
| .ways = 0xFF, |
| .line_size = UNDEF, |
| .tlb_entries = 32, |
| .partitioning = 0}; |
| case 0xB0: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 128, |
| .partitioning = 0}; |
| case 0xB1: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 2 * MiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 8, |
| .partitioning = 0}; |
| case 0xB2: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 64, |
| .partitioning = 0}; |
| case 0xB3: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 128, |
| .partitioning = 0}; |
| case 0xB4: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 256, |
| .partitioning = 0}; |
| case 0xB5: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = 8, |
| .line_size = UNDEF, |
| .tlb_entries = 64, |
| .partitioning = 0}; |
| case 0xB6: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = 8, |
| .line_size = UNDEF, |
| .tlb_entries = 128, |
| .partitioning = 0}; |
| case 0xBA: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 64, |
| .partitioning = 0}; |
| case 0xC0: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_TLB, |
| .cache_size = 4 * KiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 8, |
| .partitioning = 0}; |
| case 0xC1: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_STLB, |
| .cache_size = 4 * KiB, |
| .ways = 8, |
| .line_size = UNDEF, |
| .tlb_entries = 1024, |
| .partitioning = 0}; |
| case 0xC2: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_DTLB, |
| .cache_size = 4 * KiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 16, |
| .partitioning = 0}; |
| case 0xC3: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_STLB, |
| .cache_size = 4 * KiB, |
| .ways = 6, |
| .line_size = UNDEF, |
| .tlb_entries = 1536, |
| .partitioning = 0}; |
| case 0xCA: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_STLB, |
| .cache_size = 4 * KiB, |
| .ways = 4, |
| .line_size = UNDEF, |
| .tlb_entries = 512, |
| .partitioning = 0}; |
| case 0xD0: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 512 * KiB, |
| .ways = 4, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xD1: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 1 * MiB, |
| .ways = 4, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xD2: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 2 * MiB, |
| .ways = 4, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xD6: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 1 * MiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xD7: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 2 * MiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xD8: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 4 * MiB, |
| .ways = 8, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xDC: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 1 * 1536 * KiB, |
| .ways = 12, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xDD: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 3 * MiB, |
| .ways = 12, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xDE: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 6 * MiB, |
| .ways = 12, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xE2: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 2 * MiB, |
| .ways = 16, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xE3: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 4 * MiB, |
| .ways = 16, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xE4: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 8 * MiB, |
| .ways = 16, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xEA: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 12 * MiB, |
| .ways = 24, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xEB: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 18 * MiB, |
| .ways = 24, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xEC: |
| return (CacheLevelInfo){.level = 3, |
| .cache_type = CPU_FEATURE_CACHE_DATA, |
| .cache_size = 24 * MiB, |
| .ways = 24, |
| .line_size = 64, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xF0: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_PREFETCH, |
| .cache_size = 64 * KiB, |
| .ways = UNDEF, |
| .line_size = UNDEF, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xF1: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_PREFETCH, |
| .cache_size = 128 * KiB, |
| .ways = UNDEF, |
| .line_size = UNDEF, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| case 0xFF: |
| return (CacheLevelInfo){.level = UNDEF, |
| .cache_type = CPU_FEATURE_CACHE_NULL, |
| .cache_size = UNDEF, |
| .ways = UNDEF, |
| .line_size = UNDEF, |
| .tlb_entries = UNDEF, |
| .partitioning = 0}; |
| default: |
| return kEmptyCacheLevelInfo; |
| } |
| } |
| |
| static void GetByteArrayFromRegister(uint32_t result[4], const uint32_t reg) { |
| for (int i = 0; i < 4; ++i) { |
| result[i] = ExtractBitRange(reg, (i + 1) * 8, i * 8); |
| } |
| } |
| |
| static void ParseLeaf2(const int max_cpuid_leaf, CacheInfo* info) { |
| Leaf leaf = SafeCpuId(max_cpuid_leaf, 2); |
| uint32_t registers[] = {leaf.eax, leaf.ebx, leaf.ecx, leaf.edx}; |
| for (int i = 0; i < 4; ++i) { |
| if (registers[i] & (1U << 31)) { |
| continue; // register does not contains valid information |
| } |
| uint32_t bytes[4]; |
| GetByteArrayFromRegister(bytes, registers[i]); |
| for (int j = 0; j < 4; ++j) { |
| if (bytes[j] == 0xFF) |
| break; // leaf 4 should be used to fetch cache information |
| info->levels[info->size] = GetCacheLevelInfo(bytes[j]); |
| } |
| info->size++; |
| } |
| } |
| |
| static void ParseLeaf4(const int max_cpuid_leaf, CacheInfo* info) { |
| info->size = 0; |
| for (int cache_id = 0; cache_id < CPU_FEATURES_MAX_CACHE_LEVEL; cache_id++) { |
| const Leaf leaf = SafeCpuIdEx(max_cpuid_leaf, 4, cache_id); |
| CacheType cache_type = ExtractBitRange(leaf.eax, 4, 0); |
| if (cache_type == CPU_FEATURE_CACHE_NULL) { |
| info->levels[cache_id] = kEmptyCacheLevelInfo; |
| continue; |
| } |
| int level = ExtractBitRange(leaf.eax, 7, 5); |
| int line_size = ExtractBitRange(leaf.ebx, 11, 0) + 1; |
| int partitioning = ExtractBitRange(leaf.ebx, 21, 12) + 1; |
| int ways = ExtractBitRange(leaf.ebx, 31, 22) + 1; |
| int tlb_entries = leaf.ecx + 1; |
| int cache_size = (ways * partitioning * line_size * (tlb_entries)); |
| info->levels[cache_id] = (CacheLevelInfo){.level = level, |
| .cache_type = cache_type, |
| .cache_size = cache_size, |
| .ways = ways, |
| .line_size = line_size, |
| .tlb_entries = tlb_entries, |
| .partitioning = partitioning}; |
| info->size++; |
| } |
| } |
| |
| // Internal structure to hold the OS support for vector operations. |
| // Avoid to recompute them since each call to cpuid is ~100 cycles. |
| typedef struct { |
| bool have_sse_via_os; |
| bool have_sse_via_cpuid; |
| bool have_avx; |
| bool have_avx512; |
| bool have_amx; |
| } OsSupport; |
| |
| static const OsSupport kEmptyOsSupport; |
| |
| static OsSupport CheckOsSupport(const uint32_t max_cpuid_leaf) { |
| const Leaf leaf_1 = SafeCpuId(max_cpuid_leaf, 1); |
| const bool have_xsave = IsBitSet(leaf_1.ecx, 26); |
| const bool have_osxsave = IsBitSet(leaf_1.ecx, 27); |
| const bool have_xcr0 = have_xsave && have_osxsave; |
| |
| OsSupport os_support = kEmptyOsSupport; |
| |
| if (have_xcr0) { |
| // AVX capable cpu will expose XCR0. |
| const uint32_t xcr0_eax = GetXCR0Eax(); |
| os_support.have_sse_via_cpuid = HasXmmOsXSave(xcr0_eax); |
| os_support.have_avx = HasYmmOsXSave(xcr0_eax); |
| os_support.have_avx512 = HasZmmOsXSave(xcr0_eax); |
| os_support.have_amx = HasTmmOsXSave(xcr0_eax); |
| } else { |
| // Atom based or older cpus need to ask the OS for sse support. |
| os_support.have_sse_via_os = true; |
| } |
| |
| return os_support; |
| } |
| |
| #if defined(CPU_FEATURES_OS_WINDOWS) |
| #if defined(CPU_FEATURES_MOCK_CPUID_X86) |
| extern bool GetWindowsIsProcessorFeaturePresent(DWORD); |
| #else // CPU_FEATURES_MOCK_CPUID_X86 |
| static bool GetWindowsIsProcessorFeaturePresent(DWORD ProcessorFeature) { |
| return IsProcessorFeaturePresent(ProcessorFeature); |
| } |
| #endif |
| #endif // CPU_FEATURES_OS_WINDOWS |
| |
| #if defined(CPU_FEATURES_OS_DARWIN) |
| #if defined(CPU_FEATURES_MOCK_CPUID_X86) |
| extern bool GetDarwinSysCtlByName(const char*); |
| #else // CPU_FEATURES_MOCK_CPUID_X86 |
| static bool GetDarwinSysCtlByName(const char* name) { |
| int enabled; |
| size_t enabled_len = sizeof(enabled); |
| const int failure = sysctlbyname(name, &enabled, &enabled_len, NULL, 0); |
| return failure ? false : enabled; |
| } |
| #endif |
| #endif // CPU_FEATURES_OS_DARWIN |
| |
| static void DetectSseViaOs(X86Features* features) { |
| #if defined(CPU_FEATURES_OS_WINDOWS) |
| // https://docs.microsoft.com/en-us/windows/win32/api/processthreadsapi/nf-processthreadsapi-isprocessorfeaturepresent |
| features->sse = |
| GetWindowsIsProcessorFeaturePresent(PF_XMMI_INSTRUCTIONS_AVAILABLE); |
| features->sse2 = |
| GetWindowsIsProcessorFeaturePresent(PF_XMMI64_INSTRUCTIONS_AVAILABLE); |
| features->sse3 = |
| GetWindowsIsProcessorFeaturePresent(PF_SSE3_INSTRUCTIONS_AVAILABLE); |
| #elif defined(CPU_FEATURES_OS_DARWIN) |
| // Handling Darwin platform through sysctlbyname. |
| features->sse = GetDarwinSysCtlByName("hw.optional.sse"); |
| features->sse2 = GetDarwinSysCtlByName("hw.optional.sse2"); |
| features->sse3 = GetDarwinSysCtlByName("hw.optional.sse3"); |
| features->ssse3 = GetDarwinSysCtlByName("hw.optional.supplementalsse3"); |
| features->sse4_1 = GetDarwinSysCtlByName("hw.optional.sse4_1"); |
| features->sse4_2 = GetDarwinSysCtlByName("hw.optional.sse4_2"); |
| #elif defined(CPU_FEATURES_OS_LINUX_OR_ANDROID) |
| // Handling Linux platform through /proc/cpuinfo. |
| const int fd = CpuFeatures_OpenFile("/proc/cpuinfo"); |
| if (fd >= 0) { |
| StackLineReader reader; |
| StackLineReader_Initialize(&reader, fd); |
| for (;;) { |
| const LineResult result = StackLineReader_NextLine(&reader); |
| const StringView line = result.line; |
| StringView key, value; |
| if (CpuFeatures_StringView_GetAttributeKeyValue(line, &key, &value)) { |
| if (CpuFeatures_StringView_IsEquals(key, str("flags"))) { |
| features->sse = CpuFeatures_StringView_HasWord(value, "sse"); |
| features->sse2 = CpuFeatures_StringView_HasWord(value, "sse2"); |
| features->sse3 = CpuFeatures_StringView_HasWord(value, "sse3"); |
| features->ssse3 = CpuFeatures_StringView_HasWord(value, "ssse3"); |
| features->sse4_1 = CpuFeatures_StringView_HasWord(value, "sse4_1"); |
| features->sse4_2 = CpuFeatures_StringView_HasWord(value, "sse4_2"); |
| break; |
| } |
| } |
| if (result.eof) break; |
| } |
| CpuFeatures_CloseFile(fd); |
| } |
| #else |
| #error "Unsupported fallback detection of SSE OS support." |
| #endif |
| } |
| |
| // Reference https://en.wikipedia.org/wiki/CPUID. |
| static void ParseCpuId(const uint32_t max_cpuid_leaf, |
| const OsSupport os_support, X86Info* info) { |
| const Leaf leaf_1 = SafeCpuId(max_cpuid_leaf, 1); |
| const Leaf leaf_7 = SafeCpuId(max_cpuid_leaf, 7); |
| const Leaf leaf_7_1 = SafeCpuIdEx(max_cpuid_leaf, 7, 1); |
| |
| const uint32_t family = ExtractBitRange(leaf_1.eax, 11, 8); |
| const uint32_t extended_family = ExtractBitRange(leaf_1.eax, 27, 20); |
| const uint32_t model = ExtractBitRange(leaf_1.eax, 7, 4); |
| const uint32_t extended_model = ExtractBitRange(leaf_1.eax, 19, 16); |
| |
| X86Features* const features = &info->features; |
| |
| info->family = extended_family + family; |
| info->model = (extended_model << 4) + model; |
| info->stepping = ExtractBitRange(leaf_1.eax, 3, 0); |
| |
| features->fpu = IsBitSet(leaf_1.edx, 0); |
| features->tsc = IsBitSet(leaf_1.edx, 4); |
| features->cx8 = IsBitSet(leaf_1.edx, 8); |
| features->clfsh = IsBitSet(leaf_1.edx, 19); |
| features->mmx = IsBitSet(leaf_1.edx, 23); |
| features->ss = IsBitSet(leaf_1.edx, 27); |
| features->pclmulqdq = IsBitSet(leaf_1.ecx, 1); |
| features->smx = IsBitSet(leaf_1.ecx, 6); |
| features->cx16 = IsBitSet(leaf_1.ecx, 13); |
| features->dca = IsBitSet(leaf_1.ecx, 18); |
| features->movbe = IsBitSet(leaf_1.ecx, 22); |
| features->popcnt = IsBitSet(leaf_1.ecx, 23); |
| features->aes = IsBitSet(leaf_1.ecx, 25); |
| features->f16c = IsBitSet(leaf_1.ecx, 29); |
| features->rdrnd = IsBitSet(leaf_1.ecx, 30); |
| features->sgx = IsBitSet(leaf_7.ebx, 2); |
| features->bmi1 = IsBitSet(leaf_7.ebx, 3); |
| features->hle = IsBitSet(leaf_7.ebx, 4); |
| features->bmi2 = IsBitSet(leaf_7.ebx, 8); |
| features->erms = IsBitSet(leaf_7.ebx, 9); |
| features->rtm = IsBitSet(leaf_7.ebx, 11); |
| features->rdseed = IsBitSet(leaf_7.ebx, 18); |
| features->clflushopt = IsBitSet(leaf_7.ebx, 23); |
| features->clwb = IsBitSet(leaf_7.ebx, 24); |
| features->sha = IsBitSet(leaf_7.ebx, 29); |
| features->vaes = IsBitSet(leaf_7.ecx, 9); |
| features->vpclmulqdq = IsBitSet(leaf_7.ecx, 10); |
| |
| if (os_support.have_sse_via_os) { |
| DetectSseViaOs(features); |
| } else if (os_support.have_sse_via_cpuid) { |
| features->sse = IsBitSet(leaf_1.edx, 25); |
| features->sse2 = IsBitSet(leaf_1.edx, 26); |
| features->sse3 = IsBitSet(leaf_1.ecx, 0); |
| features->ssse3 = IsBitSet(leaf_1.ecx, 9); |
| features->sse4_1 = IsBitSet(leaf_1.ecx, 19); |
| features->sse4_2 = IsBitSet(leaf_1.ecx, 20); |
| } |
| |
| if (os_support.have_avx) { |
| features->fma3 = IsBitSet(leaf_1.ecx, 12); |
| features->avx = IsBitSet(leaf_1.ecx, 28); |
| features->avx2 = IsBitSet(leaf_7.ebx, 5); |
| } |
| |
| if (os_support.have_avx512) { |
| features->avx512f = IsBitSet(leaf_7.ebx, 16); |
| features->avx512cd = IsBitSet(leaf_7.ebx, 28); |
| features->avx512er = IsBitSet(leaf_7.ebx, 27); |
| features->avx512pf = IsBitSet(leaf_7.ebx, 26); |
| features->avx512bw = IsBitSet(leaf_7.ebx, 30); |
| features->avx512dq = IsBitSet(leaf_7.ebx, 17); |
| features->avx512vl = IsBitSet(leaf_7.ebx, 31); |
| features->avx512ifma = IsBitSet(leaf_7.ebx, 21); |
| features->avx512vbmi = IsBitSet(leaf_7.ecx, 1); |
| features->avx512vbmi2 = IsBitSet(leaf_7.ecx, 6); |
| features->avx512vnni = IsBitSet(leaf_7.ecx, 11); |
| features->avx512bitalg = IsBitSet(leaf_7.ecx, 12); |
| features->avx512vpopcntdq = IsBitSet(leaf_7.ecx, 14); |
| features->avx512_4vnniw = IsBitSet(leaf_7.edx, 2); |
| features->avx512_4vbmi2 = IsBitSet(leaf_7.edx, 3); |
| features->avx512_second_fma = HasSecondFMA(info->model); |
| features->avx512_4fmaps = IsBitSet(leaf_7.edx, 3); |
| features->avx512_bf16 = IsBitSet(leaf_7_1.eax, 5); |
| features->avx512_vp2intersect = IsBitSet(leaf_7.edx, 8); |
| } |
| |
| if (os_support.have_amx) { |
| features->amx_bf16 = IsBitSet(leaf_7.edx, 22); |
| features->amx_tile = IsBitSet(leaf_7.edx, 24); |
| features->amx_int8 = IsBitSet(leaf_7.edx, 25); |
| } |
| } |
| |
| // Reference |
| // https://en.wikipedia.org/wiki/CPUID#EAX=80000000h:_Get_Highest_Extended_Function_Implemented. |
| static void ParseExtraAMDCpuId(X86Info* info, OsSupport os_support) { |
| const Leaf leaf_80000000 = CpuId(0x80000000); |
| const uint32_t max_extended_cpuid_leaf = leaf_80000000.eax; |
| const Leaf leaf_80000001 = SafeCpuId(max_extended_cpuid_leaf, 0x80000001); |
| |
| X86Features* const features = &info->features; |
| |
| if (os_support.have_sse_via_cpuid) { |
| features->sse4a = IsBitSet(leaf_80000001.ecx, 6); |
| } |
| |
| if (os_support.have_avx) { |
| features->fma4 = IsBitSet(leaf_80000001.ecx, 16); |
| } |
| } |
| |
| static const X86Info kEmptyX86Info; |
| static const CacheInfo kEmptyCacheInfo; |
| |
| X86Info GetX86Info(void) { |
| X86Info info = kEmptyX86Info; |
| const Leaf leaf_0 = CpuId(0); |
| const bool is_intel = IsVendor(leaf_0, "GenuineIntel"); |
| const bool is_amd = IsVendor(leaf_0, "AuthenticAMD"); |
| SetVendor(leaf_0, info.vendor); |
| if (is_intel || is_amd) { |
| const uint32_t max_cpuid_leaf = leaf_0.eax; |
| const OsSupport os_support = CheckOsSupport(max_cpuid_leaf); |
| ParseCpuId(max_cpuid_leaf, os_support, &info); |
| if (is_amd) { |
| ParseExtraAMDCpuId(&info, os_support); |
| } |
| } |
| return info; |
| } |
| |
| CacheInfo GetX86CacheInfo(void) { |
| CacheInfo info = kEmptyCacheInfo; |
| const Leaf leaf_0 = CpuId(0); |
| const uint32_t max_cpuid_leaf = leaf_0.eax; |
| if (IsVendor(leaf_0, "GenuineIntel")) { |
| ParseLeaf2(max_cpuid_leaf, &info); |
| ParseLeaf4(max_cpuid_leaf, &info); |
| } |
| return info; |
| } |
| |
| #define CPUID(FAMILY, MODEL) ((((FAMILY)&0xFF) << 8) | ((MODEL)&0xFF)) |
| |
| X86Microarchitecture GetX86Microarchitecture(const X86Info* info) { |
| if (memcmp(info->vendor, "GenuineIntel", sizeof(info->vendor)) == 0) { |
| switch (CPUID(info->family, info->model)) { |
| case CPUID(0x06, 0x35): |
| case CPUID(0x06, 0x36): |
| // https://en.wikipedia.org/wiki/Bonnell_(microarchitecture) |
| return INTEL_ATOM_BNL; |
| case CPUID(0x06, 0x37): |
| case CPUID(0x06, 0x4C): |
| // https://en.wikipedia.org/wiki/Silvermont |
| return INTEL_ATOM_SMT; |
| case CPUID(0x06, 0x5C): |
| // https://en.wikipedia.org/wiki/Goldmont |
| return INTEL_ATOM_GMT; |
| case CPUID(0x06, 0x0F): |
| case CPUID(0x06, 0x16): |
| // https://en.wikipedia.org/wiki/Intel_Core_(microarchitecture) |
| return INTEL_CORE; |
| case CPUID(0x06, 0x17): |
| case CPUID(0x06, 0x1D): |
| // https://en.wikipedia.org/wiki/Penryn_(microarchitecture) |
| return INTEL_PNR; |
| case CPUID(0x06, 0x1A): |
| case CPUID(0x06, 0x1E): |
| case CPUID(0x06, 0x1F): |
| case CPUID(0x06, 0x2E): |
| // https://en.wikipedia.org/wiki/Nehalem_(microarchitecture) |
| return INTEL_NHM; |
| case CPUID(0x06, 0x25): |
| case CPUID(0x06, 0x2C): |
| case CPUID(0x06, 0x2F): |
| // https://en.wikipedia.org/wiki/Westmere_(microarchitecture) |
| return INTEL_WSM; |
| case CPUID(0x06, 0x2A): |
| case CPUID(0x06, 0x2D): |
| // https://en.wikipedia.org/wiki/Sandy_Bridge#Models_and_steppings |
| return INTEL_SNB; |
| case CPUID(0x06, 0x3A): |
| case CPUID(0x06, 0x3E): |
| // https://en.wikipedia.org/wiki/Ivy_Bridge_(microarchitecture)#Models_and_steppings |
| return INTEL_IVB; |
| case CPUID(0x06, 0x3C): |
| case CPUID(0x06, 0x3F): |
| case CPUID(0x06, 0x45): |
| case CPUID(0x06, 0x46): |
| // https://en.wikipedia.org/wiki/Haswell_(microarchitecture) |
| return INTEL_HSW; |
| case CPUID(0x06, 0x3D): |
| case CPUID(0x06, 0x47): |
| case CPUID(0x06, 0x4F): |
| case CPUID(0x06, 0x56): |
| // https://en.wikipedia.org/wiki/Broadwell_(microarchitecture) |
| return INTEL_BDW; |
| case CPUID(0x06, 0x4E): |
| case CPUID(0x06, 0x55): |
| case CPUID(0x06, 0x5E): |
| // https://en.wikipedia.org/wiki/Skylake_(microarchitecture) |
| return INTEL_SKL; |
| case CPUID(0x06, 0x66): |
| // https://en.wikipedia.org/wiki/Cannon_Lake_(microarchitecture) |
| return INTEL_CNL; |
| case CPUID(0x06, 0x7D): // client |
| case CPUID(0x06, 0x7E): // client |
| case CPUID(0x06, 0x9D): // NNP-I |
| case CPUID(0x06, 0x6A): // server |
| case CPUID(0x06, 0x6C): // server |
| // https://en.wikipedia.org/wiki/Ice_Lake_(microprocessor) |
| return INTEL_ICL; |
| case CPUID(0x06, 0x8C): |
| case CPUID(0x06, 0x8D): |
| // https://en.wikipedia.org/wiki/Tiger_Lake_(microarchitecture) |
| return INTEL_TGL; |
| case CPUID(0x06, 0x8F): |
| // https://en.wikipedia.org/wiki/Sapphire_Rapids |
| return INTEL_SPR; |
| case CPUID(0x06, 0x8E): |
| switch (info->stepping) { |
| case 9: |
| return INTEL_KBL; // https://en.wikipedia.org/wiki/Kaby_Lake |
| case 10: |
| return INTEL_CFL; // https://en.wikipedia.org/wiki/Coffee_Lake |
| case 11: |
| return INTEL_WHL; // https://en.wikipedia.org/wiki/Whiskey_Lake_(microarchitecture) |
| default: |
| return X86_UNKNOWN; |
| } |
| case CPUID(0x06, 0x9E): |
| if (info->stepping > 9) { |
| // https://en.wikipedia.org/wiki/Coffee_Lake |
| return INTEL_CFL; |
| } else { |
| // https://en.wikipedia.org/wiki/Kaby_Lake |
| return INTEL_KBL; |
| } |
| default: |
| return X86_UNKNOWN; |
| } |
| } |
| if (memcmp(info->vendor, "AuthenticAMD", sizeof(info->vendor)) == 0) { |
| switch (info->family) { |
| // https://en.wikipedia.org/wiki/List_of_AMD_CPU_microarchitectures |
| case 0x0F: |
| return AMD_HAMMER; |
| case 0x10: |
| return AMD_K10; |
| case 0x14: |
| return AMD_BOBCAT; |
| case 0x15: |
| return AMD_BULLDOZER; |
| case 0x16: |
| return AMD_JAGUAR; |
| case 0x17: |
| return AMD_ZEN; |
| default: |
| return X86_UNKNOWN; |
| } |
| } |
| return X86_UNKNOWN; |
| } |
| |
| static void SetString(const uint32_t max_cpuid_ext_leaf, const uint32_t leaf_id, |
| char* buffer) { |
| const Leaf leaf = SafeCpuId(max_cpuid_ext_leaf, leaf_id); |
| // We allow calling memcpy from SetString which is only called when requesting |
| // X86BrandString. |
| memcpy(buffer, &leaf, sizeof(Leaf)); |
| } |
| |
| void FillX86BrandString(char brand_string[49]) { |
| const Leaf leaf_ext_0 = CpuId(0x80000000); |
| const uint32_t max_cpuid_leaf_ext = leaf_ext_0.eax; |
| SetString(max_cpuid_leaf_ext, 0x80000002, brand_string); |
| SetString(max_cpuid_leaf_ext, 0x80000003, brand_string + 16); |
| SetString(max_cpuid_leaf_ext, 0x80000004, brand_string + 32); |
| brand_string[48] = '\0'; |
| } |
| |
| //////////////////////////////////////////////////////////////////////////////// |
| // Introspection functions |
| |
| int GetX86FeaturesEnumValue(const X86Features* features, |
| X86FeaturesEnum value) { |
| if (value >= X86_LAST_) return false; |
| return kGetters[value](features); |
| } |
| |
| const char* GetX86FeaturesEnumName(X86FeaturesEnum value) { |
| if (value >= X86_LAST_) return "unknown_feature"; |
| return kCpuInfoFlags[value]; |
| } |
| |
| const char* GetX86MicroarchitectureName(X86Microarchitecture uarch) { |
| switch (uarch) { |
| case X86_UNKNOWN: |
| return "X86_UNKNOWN"; |
| case INTEL_CORE: |
| return "INTEL_CORE"; |
| case INTEL_PNR: |
| return "INTEL_PNR"; |
| case INTEL_NHM: |
| return "INTEL_NHM"; |
| case INTEL_ATOM_BNL: |
| return "INTEL_ATOM_BNL"; |
| case INTEL_WSM: |
| return "INTEL_WSM"; |
| case INTEL_SNB: |
| return "INTEL_SNB"; |
| case INTEL_IVB: |
| return "INTEL_IVB"; |
| case INTEL_ATOM_SMT: |
| return "INTEL_ATOM_SMT"; |
| case INTEL_HSW: |
| return "INTEL_HSW"; |
| case INTEL_BDW: |
| return "INTEL_BDW"; |
| case INTEL_SKL: |
| return "INTEL_SKL"; |
| case INTEL_ATOM_GMT: |
| return "INTEL_ATOM_GMT"; |
| case INTEL_KBL: |
| return "INTEL_KBL"; |
| case INTEL_CFL: |
| return "INTEL_CFL"; |
| case INTEL_WHL: |
| return "INTEL_WHL"; |
| case INTEL_CNL: |
| return "INTEL_CNL"; |
| case INTEL_ICL: |
| return "INTEL_ICL"; |
| case INTEL_TGL: |
| return "INTEL_TGL"; |
| case INTEL_SPR: |
| return "INTEL_SPR"; |
| case AMD_HAMMER: |
| return "AMD_HAMMER"; |
| case AMD_K10: |
| return "AMD_K10"; |
| case AMD_BOBCAT: |
| return "AMD_BOBCAT"; |
| case AMD_BULLDOZER: |
| return "AMD_BULLDOZER"; |
| case AMD_JAGUAR: |
| return "AMD_JAGUAR"; |
| case AMD_ZEN: |
| return "AMD_ZEN"; |
| } |
| return "unknown microarchitecture"; |
| } |