blob: bca1ecddfdd4bace28c336375e42cbe681d66760 [file] [log] [blame]
#include <stdbool.h>
#include <stdint.h>
#include <stddef.h>
#include <x86/cpuid.h>
#include <cpuinfo.h>
#if CPUINFO_ARCH_X86
#ifdef _MSC_VER
#pragma pack(push, 2)
#endif
struct fxsave_region {
uint16_t fpu_control_word;
uint16_t fpu_status_word;
uint16_t fpu_tag_word;
uint16_t fpu_opcode;
uint32_t fpu_instruction_pointer_offset;
uint32_t fpu_instruction_pointer_selector;
uint32_t fpu_operand_pointer_offset;
uint32_t fpu_operand_pointer_selector;
uint32_t mxcsr_state;
uint32_t mxcsr_mask;
uint64_t fpu_registers[8 * 2];
uint64_t xmm_registers[8 * 2];
uint64_t padding[28];
}
#ifndef _MSC_VER
__attribute__((__aligned__(16), __packed__))
#endif
; /* end of fxsave_region structure */
#ifdef _MSC_VER
#pragma pack(pop, 2)
#endif
#endif
struct cpuinfo_x86_isa cpuinfo_x86_detect_isa(
const struct cpuid_regs basic_info, const struct cpuid_regs extended_info,
uint32_t max_base_index, uint32_t max_extended_index,
enum cpuinfo_vendor vendor, enum cpuinfo_uarch uarch)
{
struct cpuinfo_x86_isa isa = { 0 };
const struct cpuid_regs structured_feature_info =
(max_base_index >= 7) ? cpuidex(7, 0) : (struct cpuid_regs) { 0, 0, 0, 0};
const uint32_t processor_capacity_info_index = UINT32_C(0x80000008);
const struct cpuid_regs processor_capacity_info =
(max_extended_index >= processor_capacity_info_index) ?
cpuid(processor_capacity_info_index) : (struct cpuid_regs) { 0, 0, 0, 0 };
bool avx_regs = false, avx512_regs = false, mpx_regs = false;
/*
* OSXSAVE: Operating system enabled XSAVE instructions for application use:
* - Intel, AMD: ecx[bit 26] in basic info = XSAVE/XRSTOR instructions supported by a chip.
* - Intel, AMD: ecx[bit 27] in basic info = XSAVE/XRSTOR instructions enabled by OS.
*/
const uint32_t osxsave_mask = UINT32_C(0x0C000000);
if ((basic_info.ecx & osxsave_mask) == osxsave_mask) {
uint64_t xcr0_valid_bits = 0;
if (max_base_index >= 0xD) {
const struct cpuid_regs regs = cpuidex(0xD, 0);
xcr0_valid_bits = ((uint64_t) regs.edx << 32) | regs.eax;
}
const uint64_t xfeature_enabled_mask = xgetbv(0);
/*
* AVX registers:
* - Intel, AMD: XFEATURE_ENABLED_MASK[bit 1] for low 128 bits of ymm registers
* - Intel, AMD: XFEATURE_ENABLED_MASK[bit 2] for high 128 bits of ymm registers
*/
const uint64_t avx_regs_mask = UINT64_C(0x0000000000000006);
if ((xcr0_valid_bits & avx_regs_mask) == avx_regs_mask) {
avx_regs = (xfeature_enabled_mask & avx_regs_mask) == avx_regs_mask;
}
/*
* AVX512 registers:
* - Intel, AMD: XFEATURE_ENABLED_MASK[bit 1] for low 128 bits of zmm registers
* - Intel, AMD: XFEATURE_ENABLED_MASK[bit 2] for bits 128-255 of zmm registers
* - Intel: XFEATURE_ENABLED_MASK[bit 5] for 8 64-bit OpMask registers (k0-k7)
* - Intel: XFEATURE_ENABLED_MASK[bit 6] for the high 256 bits of the zmm registers zmm0-zmm15
* - Intel: XFEATURE_ENABLED_MASK[bit 7] for the 512-bit zmm registers zmm16-zmm31
*/
const uint64_t avx512_regs_mask = UINT64_C(0x00000000000000E6);
if ((xcr0_valid_bits & avx512_regs_mask) == avx512_regs_mask) {
avx512_regs = (xfeature_enabled_mask & avx512_regs_mask) == avx512_regs_mask;
}
/*
* MPX registers:
* - Intel: XFEATURE_ENABLED_MASK[bit 3] for BNDREGS
* - Intel: XFEATURE_ENABLED_MASK[bit 4] for BNDCSR
*/
const uint64_t mpx_regs_mask = UINT64_C(0x0000000000000018);
if ((xcr0_valid_bits & mpx_regs_mask) == mpx_regs_mask) {
mpx_regs = (xfeature_enabled_mask & mpx_regs_mask) == mpx_regs_mask;
}
}
#if CPUINFO_ARCH_X86
/*
* RDTSC instruction:
* - Intel, AMD: edx[bit 4] in basic info.
* - AMD: edx[bit 4] in extended info (reserved bit on Intel CPUs).
*/
isa.rdtsc = !!((basic_info.edx | extended_info.edx) & UINT32_C(0x00000010));
#endif
/*
* SYSENTER/SYSEXIT instructions:
* - Intel, AMD: edx[bit 11] in basic info.
*/
isa.sysenter = !!(basic_info.edx & UINT32_C(0x00000800));
#if CPUINFO_ARCH_X86
/*
* SYSCALL/SYSRET instructions:
* - Intel, AMD: edx[bit 11] in extended info.
*/
isa.syscall = !!(extended_info.edx & UINT32_C(0x00000800));
#endif
/*
* RDMSR/WRMSR instructions:
* - Intel, AMD: edx[bit 5] in basic info.
* - AMD: edx[bit 5] in extended info (reserved bit on Intel CPUs).
*/
isa.msr = !!((basic_info.edx | extended_info.edx) & UINT32_C(0x00000020));
/*
* CLZERO instruction:
* - AMD: ebx[bit 0] in processor capacity info (reserved bit on Intel CPUs).
*/
isa.clzero = !!(processor_capacity_info.ebx & UINT32_C(0x00000001));
/*
* CLFLUSH instruction:
* - Intel, AMD: edx[bit 19] in basic info.
*/
isa.clflush = !!(basic_info.edx & UINT32_C(0x00080000));
/*
* CLFLUSHOPT instruction:
* - Intel: ebx[bit 23] in structured feature info.
*/
isa.clflushopt = !!(structured_feature_info.ebx & UINT32_C(0x00800000));
/*
* MWAIT/MONITOR instructions:
* - Intel, AMD: ecx[bit 3] in basic info.
*/
isa.mwait = !!(basic_info.ecx & UINT32_C(0x00000008));
/*
* MWAITX/MONITORX instructions:
* - AMD: ecx[bit 29] in extended info.
*/
isa.mwaitx = !!(extended_info.ecx & UINT32_C(0x20000000));
/*
* FXSAVE/FXRSTOR instructions:
* - Intel, AMD: edx[bit 24] in basic info.
* - AMD: edx[bit 24] in extended info (zero bit on Intel CPUs, EMMX bit on Cyrix CPUs).
*/
switch (vendor) {
#if CPUINFO_ARCH_X86
case cpuinfo_vendor_cyrix:
case cpuinfo_vendor_nsc:
isa.emmx = !!(extended_info.edx & UINT32_C(0x01000000));
break;
#endif
default:
isa.fxsave = !!((basic_info.edx | extended_info.edx) & UINT32_C(0x01000000));
break;
}
/*
* XSAVE/XRSTOR instructions:
* - Intel, AMD: ecx[bit 26] in basic info.
*/
isa.xsave = !!(basic_info.ecx & UINT32_C(0x04000000));
#if CPUINFO_ARCH_X86
/*
* x87 FPU instructions:
* - Intel, AMD: edx[bit 0] in basic info.
* - AMD: edx[bit 0] in extended info (reserved bit on Intel CPUs).
*/
isa.fpu = !!((basic_info.edx | extended_info.edx) & UINT32_C(0x00000001));
/*
* MMX instructions:
* - Intel, AMD: edx[bit 23] in basic info.
* - AMD: edx[bit 23] in extended info (zero bit on Intel CPUs).
*/
isa.mmx = !!((basic_info.edx | extended_info.edx) & UINT32_C(0x00800000));
/*
* MMX+/Integer SSE instructions:
* - Intel, AMD: edx[bit 25] in basic info (SSE feature flag).
* - Pre-SSE AMD: edx[bit 22] in extended info (zero bit on Intel CPUs).
*/
isa.mmx_plus = !!((basic_info.edx & UINT32_C(0x02000000)) | (extended_info.edx & UINT32_C(0x00400000)));
#endif
/*
* 3dnow! instructions:
* - AMD: edx[bit 31] of extended info (zero bit on Intel CPUs).
*/
isa.three_d_now = !!(extended_info.edx & UINT32_C(0x80000000));
/*
* 3dnow!+ instructions:
* - AMD: edx[bit 30] of extended info (zero bit on Intel CPUs).
*/
isa.three_d_now_plus = !!(extended_info.edx & UINT32_C(0x40000000));
#if CPUINFO_ARCH_X86
/*
* 3dnow! Geode instructions:
* - No CPUID bit, detect as Geode microarchitecture + 3dnow!+ support
*/
isa.three_d_now_geode = isa.three_d_now_plus && (uarch == cpuinfo_uarch_geode);
#endif
/*
* PREFETCH instruction:
* - AMD: ecx[bit 8] of extended info (one of 3dnow! prefetch instructions).
* On Intel this bit indicates PREFETCHW, but not PREFETCH support.
* - AMD: edx[bit 31] of extended info (implied by 3dnow! support). Reserved bit on Intel CPUs.
* - AMD: edx[bit 30] of extended info (implied by 3dnow!+ support). Reserved bit on Intel CPUs.
* - AMD: edx[bit 29] of extended info (x86-64 support). Does not imply PREFETCH support on non-AMD CPUs!!!
*/
switch (vendor) {
case cpuinfo_vendor_intel:
/*
* Instruction is not documented in the manual,
* and the 3dnow! prefetch CPUID bit indicates PREFETCHW instruction.
*/
break;
case cpuinfo_vendor_amd:
isa.prefetch = !!((extended_info.ecx & UINT32_C(0x00000100)) | (extended_info.edx & UINT32_C(0xE0000000)));
break;
default:
/*
* Conservatively assume, that 3dnow!/3dnow!+ support implies PREFETCH support, but
* 3dnow! prefetch CPUID bit follows Intel spec (PREFETCHW, but not PREFETCH).
*/
isa.prefetch = !!(extended_info.edx & UINT32_C(0xC0000000));
break;
}
/*
* PREFETCHW instruction:
* - AMD: ecx[bit 8] of extended info (one of 3dnow! prefetch instructions).
* - Intel: ecx[bit 8] of extended info (PREFETCHW instruction only).
* - AMD: edx[bit 31] of extended info (implied by 3dnow! support). Reserved bit on Intel CPUs.
* - AMD: edx[bit 30] of extended info (implied by 3dnow!+ support). Reserved bit on Intel CPUs.
* - AMD: edx[bit 29] of extended info (x86-64 support). Does not imply PREFETCHW support on non-AMD CPUs!!!
*/
switch (vendor) {
case cpuinfo_vendor_amd:
isa.prefetchw = !!((extended_info.ecx & UINT32_C(0x00000100)) | (extended_info.edx & UINT32_C(0xE0000000)));
break;
default:
/* Assume, that 3dnow!/3dnow!+ support implies PREFETCHW support, not implications from x86-64 support */
isa.prefetchw = !!((extended_info.ecx & UINT32_C(0x00000100)) | (extended_info.edx & UINT32_C(0xC0000000)));
break;
}
/*
* PREFETCHWT1 instruction:
* - Intel: ecx[bit 0] of structured feature info. Reserved bit on AMD.
*/
isa.prefetchwt1 = !!(structured_feature_info.ecx & UINT32_C(0x00000001));
#if CPUINFO_ARCH_X86
/*
* SSE instructions:
* - Intel, AMD: edx[bit 25] in basic info.
*/
isa.sse = !!(basic_info.edx & UINT32_C(0x02000000));
/*
* SSE2 instructions:
* - Intel, AMD: edx[bit 26] in basic info.
*/
isa.sse2 = !!(basic_info.edx & UINT32_C(0x04000000));
#endif
/*
* SSE3 instructions:
* - Intel, AMD: ecx[bit 0] in basic info.
*/
isa.sse3 = !!(basic_info.ecx & UINT32_C(0x00000001));
#if CPUINFO_ARCH_X86
/*
* CPUs with x86-64 or SSE3 always support DAZ (denormals-as-zero) mode.
* Only early Pentium 4 models may not support it.
*/
if (isa.sse3) {
isa.daz = true;
} else {
/* Detect DAZ support from masked MXCSR bits */
if (isa.sse && isa.fxsave) {
struct fxsave_region region = { 0 };
#ifdef _MSC_VER
_fxsave(&region);
#else
__asm__ __volatile__ ("fxsave %[region];" : [region] "+m" (region));
#endif
/*
* Denormals-as-zero (DAZ) flag:
* - Intel, AMD: MXCSR[bit 6]
*/
isa.daz = !!(region.mxcsr_mask & UINT32_C(0x00000040));
}
}
#endif
/*
* SSSE3 instructions:
* - Intel, AMD: ecx[bit 9] in basic info.
*/
isa.ssse3 = !!(basic_info.ecx & UINT32_C(0x0000200));
/*
* SSE4.1 instructions:
* - Intel, AMD: ecx[bit 19] in basic info.
*/
isa.sse4_1 = !!(basic_info.ecx & UINT32_C(0x00080000));
/*
* SSE4.2 instructions:
* - Intel: ecx[bit 20] in basic info (reserved bit on AMD CPUs).
*/
isa.sse4_2 = !!(basic_info.ecx & UINT32_C(0x00100000));
/*
* SSE4A instructions:
* - AMD: ecx[bit 6] in extended info (reserved bit on Intel CPUs).
*/
isa.sse4a = !!(extended_info.ecx & UINT32_C(0x00000040));
/*
* Misaligned memory operands in SSE instructions:
* - AMD: ecx[bit 7] in extended info (reserved bit on Intel CPUs).
*/
isa.misaligned_sse = !!(extended_info.ecx & UINT32_C(0x00000080));
/*
* AVX instructions:
* - Intel, AMD: ecx[bit 28] in basic info.
*/
isa.avx = avx_regs && !!(basic_info.ecx & UINT32_C(0x10000000));
/*
* FMA3 instructions:
* - Intel: ecx[bit 12] in basic info (reserved bit on AMD CPUs).
*/
isa.fma3 = avx_regs && !!(basic_info.ecx & UINT32_C(0x00001000));
/*
* FMA4 instructions:
* - AMD: ecx[bit 16] in extended info (reserved bit on Intel CPUs).
*/
isa.fma4 = avx_regs && !!(extended_info.ecx & UINT32_C(0x00010000));
/*
* XOP instructions:
* - AMD: ecx[bit 11] in extended info (reserved bit on Intel CPUs).
*/
isa.xop = avx_regs && !!(extended_info.ecx & UINT32_C(0x00000800));
/*
* F16C instructions:
* - Intel, AMD: ecx[bit 29] in basic info.
*/
isa.f16c = avx_regs && !!(basic_info.ecx & UINT32_C(0x20000000));
/*
* AVX2 instructions:
* - Intel: ebx[bit 5] in structured feature info.
*/
isa.avx2 = avx_regs && !!(structured_feature_info.ebx & UINT32_C(0x00000020));
/*
* AVX512F instructions:
* - Intel: ebx[bit 16] in structured feature info.
*/
isa.avx512f = avx512_regs && !!(structured_feature_info.ebx & UINT32_C(0x00010000));
/*
* AVX512PF instructions:
* - Intel: ebx[bit 26] in structured feature info.
*/
isa.avx512pf = avx512_regs && !!(structured_feature_info.ebx & UINT32_C(0x04000000));
/*
* AVX512ER instructions:
* - Intel: ebx[bit 27] in structured feature info.
*/
isa.avx512er = avx512_regs && !!(structured_feature_info.ebx & UINT32_C(0x08000000));
/*
* AVX512CD instructions:
* - Intel: ebx[bit 28] in structured feature info.
*/
isa.avx512cd = avx512_regs && !!(structured_feature_info.ebx & UINT32_C(0x10000000));
/*
* AVX512DQ instructions:
* - Intel: ebx[bit 17] in structured feature info.
*/
isa.avx512dq = avx512_regs && !!(structured_feature_info.ebx & UINT32_C(0x00020000));
/*
* AVX512BW instructions:
* - Intel: ebx[bit 30] in structured feature info.
*/
isa.avx512bw = avx512_regs && !!(structured_feature_info.ebx & UINT32_C(0x40000000));
/*
* AVX512VL instructions:
* - Intel: ebx[bit 31] in structured feature info.
*/
isa.avx512vl = avx512_regs && !!(structured_feature_info.ebx & UINT32_C(0x80000000));
/*
* AVX512IFMA instructions:
* - Intel: ebx[bit 21] in structured feature info.
*/
isa.avx512ifma = avx512_regs && !!(structured_feature_info.ebx & UINT32_C(0x00200000));
/*
* AVX512VBMI instructions:
* - Intel: ecx[bit 1] in structured feature info.
*/
isa.avx512vbmi = avx512_regs && !!(structured_feature_info.ecx & UINT32_C(0x00000002));
/*
* AVX512VBMI2 instructions:
* - Intel: ecx[bit 6] in structured feature info.
*/
isa.avx512vbmi2 = avx512_regs && !!(structured_feature_info.ecx & UINT32_C(0x00000040));
/*
* AVX512BITALG instructions:
* - Intel: ecx[bit 12] in structured feature info.
*/
isa.avx512bitalg = avx512_regs && !!(structured_feature_info.ecx & UINT32_C(0x00001000));
/*
* AVX512VPOPCNTDQ instructions:
* - Intel: ecx[bit 14] in structured feature info.
*/
isa.avx512vpopcntdq = avx512_regs && !!(structured_feature_info.ecx & UINT32_C(0x00004000));
/*
* AVX512VNNI instructions:
* - Intel: ecx[bit 11] in structured feature info.
*/
isa.avx512vnni = avx512_regs && !!(structured_feature_info.ecx & UINT32_C(0x00000800));
/*
* AVX512_4VNNIW instructions:
* - Intel: edx[bit 2] in structured feature info.
*/
isa.avx512_4vnniw = avx512_regs && !!(structured_feature_info.edx & UINT32_C(0x00000004));
/*
* AVX512_4FMAPS instructions:
* - Intel: edx[bit 3] in structured feature info.
*/
isa.avx512_4fmaps = avx512_regs && !!(structured_feature_info.edx & UINT32_C(0x00000008));
/*
* HLE instructions:
* - Intel: ebx[bit 4] in structured feature info.
*/
isa.hle = !!(structured_feature_info.ebx & UINT32_C(0x00000010));
/*
* RTM instructions:
* - Intel: ebx[bit 11] in structured feature info.
*/
isa.rtm = !!(structured_feature_info.ebx & UINT32_C(0x00000800));
/*
* XTEST instruction:
* - Intel: either HLE or RTM is supported
*/
isa.xtest = isa.hle || isa.rtm;
/*
* MPX registers and instructions:
* - Intel: ebx[bit 14] in structured feature info.
*/
isa.mpx = mpx_regs && !!(structured_feature_info.ebx & UINT32_C(0x00004000));
#if CPUINFO_ARCH_X86
/*
* CMOV instructions:
* - Intel, AMD: edx[bit 15] in basic info.
* - AMD: edx[bit 15] in extended info (zero bit on Intel CPUs).
*/
isa.cmov = !!((basic_info.edx | extended_info.edx) & UINT32_C(0x00008000));
/*
* CMPXCHG8B instruction:
* - Intel, AMD: edx[bit 8] in basic info.
* - AMD: edx[bit 8] in extended info (reserved bit on Intel CPUs).
*/
isa.cmpxchg8b = !!((basic_info.edx | extended_info.edx) & UINT32_C(0x00000100));
#endif
/*
* CMPXCHG16B instruction:
* - Intel, AMD: ecx[bit 13] in basic info.
*/
isa.cmpxchg16b = !!(basic_info.ecx & UINT32_C(0x00002000));
/*
* CLWB instruction:
* - Intel: ebx[bit 24] in structured feature info.
*/
isa.clwb = !!(structured_feature_info.ebx & UINT32_C(0x01000000));
/*
* MOVBE instruction:
* - Intel: ecx[bit 22] in basic info.
*/
isa.movbe = !!(basic_info.ecx & UINT32_C(0x00400000));
#if CPUINFO_ARCH_X86_64
/*
* Some early x86-64 CPUs lack LAHF & SAHF instructions.
* A special CPU feature bit must be checked to ensure their availability:
* - Intel, AMD: ecx[bit 0] in extended info.
*/
isa.lahf_sahf = !!(extended_info.ecx & UINT32_C(0x00000001));
#endif
/*
* RDFSBASE/RDGSBASE/WRFSBASE/WRGSBASE instructions.
* - Intel: ebx[bit 0] in structured feature info.
*/
isa.fs_gs_base = !!(structured_feature_info.ebx & UINT32_C(0x00000001));
/*
* LZCNT instruction:
* - Intel, AMD: ecx[bit 5] in extended info.
*/
isa.lzcnt = !!(extended_info.ecx & UINT32_C(0x00000020));
/*
* POPCNT instruction:
* - Intel, AMD: ecx[bit 23] in basic info.
*/
isa.popcnt = !!(basic_info.ecx & UINT32_C(0x00800000));
/*
* TBM instructions:
* - AMD: ecx[bit 21] in extended info (reserved bit on Intel CPUs).
*/
isa.tbm = !!(extended_info.ecx & UINT32_C(0x00200000));
/*
* BMI instructions:
* - Intel, AMD: ebx[bit 3] in structured feature info.
*/
isa.bmi = !!(structured_feature_info.ebx & UINT32_C(0x00000008));
/*
* BMI2 instructions:
* - Intel: ebx[bit 8] in structured feature info.
*/
isa.bmi2 = !!(structured_feature_info.ebx & UINT32_C(0x00000100));
/*
* ADCX/ADOX instructions:
* - Intel: ebx[bit 19] in structured feature info.
*/
isa.adx = !!(structured_feature_info.ebx & UINT32_C(0x00080000));
/*
* AES instructions:
* - Intel: ecx[bit 25] in basic info (reserved bit on AMD CPUs).
*/
isa.aes = !!(basic_info.ecx & UINT32_C(0x02000000));
/*
* VAES instructions:
* - Intel: ecx[bit 9] in structured feature info.
*/
isa.vaes = !!(structured_feature_info.ecx & UINT32_C(0x00000200));
/*
* PCLMULQDQ instruction:
* - Intel: ecx[bit 1] in basic info (reserved bit on AMD CPUs).
*/
isa.pclmulqdq = !!(basic_info.ecx & UINT32_C(0x00000002));
/*
* VPCLMULQDQ instruction:
* - Intel: ecx[bit 10] in structured feature info.
*/
isa.vpclmulqdq = !!(structured_feature_info.ecx & UINT32_C(0x00000400));
/*
* GFNI instructions:
* - Intel: ecx[bit 8] in structured feature info.
*/
isa.gfni = !!(structured_feature_info.ecx & UINT32_C(0x00000100));
/*
* RDRAND instruction:
* - Intel: ecx[bit 30] in basic info (reserved bit on AMD CPUs).
*/
isa.rdrand = !!(basic_info.ecx & UINT32_C(0x40000000));
/*
* RDSEED instruction:
* - Intel: ebx[bit 18] in structured feature info.
*/
isa.rdseed = !!(structured_feature_info.ebx & UINT32_C(0x00040000));
/*
* SHA instructions:
* - Intel: ebx[bit 29] in structured feature info.
*/
isa.sha = !!(structured_feature_info.ebx & UINT32_C(0x20000000));
if (vendor == cpuinfo_vendor_via) {
const struct cpuid_regs padlock_meta_info = cpuid(UINT32_C(0xC0000000));
const uint32_t max_padlock_index = padlock_meta_info.eax;
const uint32_t padlock_info_index = UINT32_C(0xC0000001);
if (max_padlock_index >= padlock_info_index) {
const struct cpuid_regs padlock_info = cpuid(padlock_info_index);
/*
* Padlock RNG extension:
* - VIA: edx[bit 2] in padlock info = RNG exists on chip flag.
* - VIA: edx[bit 3] in padlock info = RNG enabled by OS.
*/
const uint32_t padlock_rng_mask = UINT32_C(0x0000000C);
isa.rng = (padlock_info.edx & padlock_rng_mask) == padlock_rng_mask;
/*
* Padlock ACE extension:
* - VIA: edx[bit 6] in padlock info = ACE exists on chip flag.
* - VIA: edx[bit 7] in padlock info = ACE enabled by OS.
*/
const uint32_t padlock_ace_mask = UINT32_C(0x000000C0);
isa.ace = (padlock_info.edx & padlock_ace_mask) == padlock_ace_mask;
/*
* Padlock ACE 2 extension:
* - VIA: edx[bit 8] in padlock info = ACE2 exists on chip flag.
* - VIA: edx[bit 9] in padlock info = ACE 2 enabled by OS.
*/
const uint32_t padlock_ace2_mask = UINT32_C(0x00000300);
isa.ace2 = (padlock_info.edx & padlock_ace2_mask) == padlock_ace2_mask;
/*
* Padlock PHE extension:
* - VIA: edx[bit 10] in padlock info = PHE exists on chip flag.
* - VIA: edx[bit 11] in padlock info = PHE enabled by OS.
*/
const uint32_t padlock_phe_mask = UINT32_C(0x00000C00);
isa.phe = (padlock_info.edx & padlock_phe_mask) == padlock_phe_mask;
/*
* Padlock PMM extension:
* - VIA: edx[bit 12] in padlock info = PMM exists on chip flag.
* - VIA: edx[bit 13] in padlock info = PMM enabled by OS.
*/
const uint32_t padlock_pmm_mask = UINT32_C(0x00003000);
isa.pmm = (padlock_info.edx & padlock_pmm_mask) == padlock_pmm_mask;
}
}
/*
* LWP instructions:
* - AMD: ecx[bit 15] in extended info (reserved bit on Intel CPUs).
*/
isa.lwp = !!(extended_info.ecx & UINT32_C(0x00008000));
/*
* RDTSCP instruction:
* - Intel, AMD: edx[bit 27] in extended info.
*/
isa.rdtscp = !!(extended_info.edx & UINT32_C(0x08000000));
/*
* RDPID instruction:
* - Intel: ecx[bit 22] in structured feature info.
*/
isa.rdpid = !!(structured_feature_info.ecx & UINT32_C(0x00400000));
return isa;
}