// Copyright 2017 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. //go:build 386 || amd64 package cpu const CacheLinePadSize = 64 // cpuid is implemented in cpu_x86.s. func cpuid(eaxArg, ecxArg uint32) (eax, ebx, ecx, edx uint32) // xgetbv with ecx = 0 is implemented in cpu_x86.s. func xgetbv() (eax, edx uint32) const ( // edx bits cpuid_SSE2 = 1 << 26 // ecx bits cpuid_SSE3 = 1 << 0 cpuid_PCLMULQDQ = 1 << 1 cpuid_SSSE3 = 1 << 9 cpuid_FMA = 1 << 12 cpuid_SSE41 = 1 << 19 cpuid_SSE42 = 1 << 20 cpuid_POPCNT = 1 << 23 cpuid_AES = 1 << 25 cpuid_OSXSAVE = 1 << 27 cpuid_AVX = 1 << 28 // ebx bits cpuid_BMI1 = 1 << 3 cpuid_AVX2 = 1 << 5 cpuid_BMI2 = 1 << 8 cpuid_ERMS = 1 << 9 cpuid_ADX = 1 << 19 // edx bits for CPUID 0x80000001 cpuid_RDTSCP = 1 << 27 ) var maxExtendedFunctionInformation uint32 func doinit() { options = []option{ {Name: "adx", Feature: &X86.HasADX}, {Name: "aes", Feature: &X86.HasAES}, {Name: "avx", Feature: &X86.HasAVX}, {Name: "avx2", Feature: &X86.HasAVX2}, {Name: "bmi1", Feature: &X86.HasBMI1}, {Name: "bmi2", Feature: &X86.HasBMI2}, {Name: "erms", Feature: &X86.HasERMS}, {Name: "fma", Feature: &X86.HasFMA}, {Name: "pclmulqdq", Feature: &X86.HasPCLMULQDQ}, {Name: "popcnt", Feature: &X86.HasPOPCNT}, {Name: "rdtscp", Feature: &X86.HasRDTSCP}, {Name: "sse3", Feature: &X86.HasSSE3}, {Name: "sse41", Feature: &X86.HasSSE41}, {Name: "sse42", Feature: &X86.HasSSE42}, {Name: "ssse3", Feature: &X86.HasSSSE3}, } maxID, _, _, _ := cpuid(0, 0) if maxID < 1 { return } maxExtendedFunctionInformation, _, _, _ = cpuid(0x80000000, 0) _, _, ecx1, _ := cpuid(1, 0) X86.HasSSE3 = isSet(ecx1, cpuid_SSE3) X86.HasPCLMULQDQ = isSet(ecx1, cpuid_PCLMULQDQ) X86.HasSSSE3 = isSet(ecx1, cpuid_SSSE3) X86.HasSSE41 = isSet(ecx1, cpuid_SSE41) X86.HasSSE42 = isSet(ecx1, cpuid_SSE42) X86.HasPOPCNT = isSet(ecx1, cpuid_POPCNT) X86.HasAES = isSet(ecx1, cpuid_AES) // OSXSAVE can be false when using older Operating Systems // or when explicitly disabled on newer Operating Systems by // e.g. setting the xsavedisable boot option on Windows 10. X86.HasOSXSAVE = isSet(ecx1, cpuid_OSXSAVE) // The FMA instruction set extension only has VEX prefixed instructions. // VEX prefixed instructions require OSXSAVE to be enabled. // See Intel 64 and IA-32 Architecture Software Developer’s Manual Volume 2 // Section 2.4 "AVX and SSE Instruction Exception Specification" X86.HasFMA = isSet(ecx1, cpuid_FMA) && X86.HasOSXSAVE osSupportsAVX := false // For XGETBV, OSXSAVE bit is required and sufficient. if X86.HasOSXSAVE { eax, _ := xgetbv() // Check if XMM and YMM registers have OS support. osSupportsAVX = isSet(eax, 1<<1) && isSet(eax, 1<<2) } X86.HasAVX = isSet(ecx1, cpuid_AVX) && osSupportsAVX if maxID < 7 { return } _, ebx7, _, _ := cpuid(7, 0) X86.HasBMI1 = isSet(ebx7, cpuid_BMI1) X86.HasAVX2 = isSet(ebx7, cpuid_AVX2) && osSupportsAVX X86.HasBMI2 = isSet(ebx7, cpuid_BMI2) X86.HasERMS = isSet(ebx7, cpuid_ERMS) X86.HasADX = isSet(ebx7, cpuid_ADX) var maxExtendedInformation uint32 maxExtendedInformation, _, _, _ = cpuid(0x80000000, 0) if maxExtendedInformation < 0x80000001 { return } _, _, _, edxExt1 := cpuid(0x80000001, 0) X86.HasRDTSCP = isSet(edxExt1, cpuid_RDTSCP) } func isSet(hwc uint32, value uint32) bool { return hwc&value != 0 } // Name returns the CPU name given by the vendor. // If the CPU name can not be determined an // empty string is returned. func Name() string { if maxExtendedFunctionInformation < 0x80000004 { return "" } data := make([]byte, 0, 3*4*4) var eax, ebx, ecx, edx uint32 eax, ebx, ecx, edx = cpuid(0x80000002, 0) data = appendBytes(data, eax, ebx, ecx, edx) eax, ebx, ecx, edx = cpuid(0x80000003, 0) data = appendBytes(data, eax, ebx, ecx, edx) eax, ebx, ecx, edx = cpuid(0x80000004, 0) data = appendBytes(data, eax, ebx, ecx, edx) // Trim leading spaces. for len(data) > 0 && data[0] == ' ' { data = data[1:] } // Trim tail after and including the first null byte. for i, c := range data { if c == '\x00' { data = data[:i] break } } return string(data) } func appendBytes(b []byte, args ...uint32) []byte { for _, arg := range args { b = append(b, byte((arg >> 0)), byte((arg >> 8)), byte((arg >> 16)), byte((arg >> 24))) } return b }