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matterbridge/vendor/github.com/klauspost/cpuid/v2
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Update dependencies and build to go1.22 (#2113)
* Update dependencies and build to go1.22

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* Update golangci config
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cpuid

Package cpuid provides information about the CPU running the current program.

CPU features are detected on startup, and kept for fast access through the life of the application. Currently x86 / x64 (AMD64/i386) and ARM (ARM64) is supported, and no external C (cgo) code is used, which should make the library very easy to use.

You can access the CPU information by accessing the shared CPU variable of the cpuid library.

Package home: https://github.com/klauspost/cpuid

PkgGoDev Go

installing

go get -u github.com/klauspost/cpuid/v2 using modules. Drop v2 for others.

Installing binary:

go install github.com/klauspost/cpuid/v2/cmd/cpuid@latest

Or download binaries from release page: https://github.com/klauspost/cpuid/releases

Homebrew

For macOS/Linux users, you can install via brew

$ brew install cpuid

example

package main

import (
	"fmt"
	"strings"

	. "github.com/klauspost/cpuid/v2"
)

func main() {
	// Print basic CPU information:
	fmt.Println("Name:", CPU.BrandName)
	fmt.Println("PhysicalCores:", CPU.PhysicalCores)
	fmt.Println("ThreadsPerCore:", CPU.ThreadsPerCore)
	fmt.Println("LogicalCores:", CPU.LogicalCores)
	fmt.Println("Family", CPU.Family, "Model:", CPU.Model, "Vendor ID:", CPU.VendorID)
	fmt.Println("Features:", strings.Join(CPU.FeatureSet(), ","))
	fmt.Println("Cacheline bytes:", CPU.CacheLine)
	fmt.Println("L1 Data Cache:", CPU.Cache.L1D, "bytes")
	fmt.Println("L1 Instruction Cache:", CPU.Cache.L1I, "bytes")
	fmt.Println("L2 Cache:", CPU.Cache.L2, "bytes")
	fmt.Println("L3 Cache:", CPU.Cache.L3, "bytes")
	fmt.Println("Frequency", CPU.Hz, "hz")

	// Test if we have these specific features:
	if CPU.Supports(SSE, SSE2) {
		fmt.Println("We have Streaming SIMD 2 Extensions")
	}
}

Sample output:

>go run main.go
Name: AMD Ryzen 9 3950X 16-Core Processor
PhysicalCores: 16
ThreadsPerCore: 2
LogicalCores: 32
Family 23 Model: 113 Vendor ID: AMD
Features: ADX,AESNI,AVX,AVX2,BMI1,BMI2,CLMUL,CMOV,CX16,F16C,FMA3,HTT,HYPERVISOR,LZCNT,MMX,MMXEXT,NX,POPCNT,RDRAND,RDSEED,RDTSCP,SHA,SSE,SSE2,SSE3,SSE4,SSE42,SSE4A,SSSE3
Cacheline bytes: 64
L1 Data Cache: 32768 bytes
L1 Instruction Cache: 32768 bytes
L2 Cache: 524288 bytes
L3 Cache: 16777216 bytes
Frequency 0 hz
We have Streaming SIMD 2 Extensions

usage

The cpuid.CPU provides access to CPU features. Use cpuid.CPU.Supports() to check for CPU features. A faster cpuid.CPU.Has() is provided which will usually be inlined by the gc compiler.

To test a larger number of features, they can be combined using f := CombineFeatures(CMOV, CMPXCHG8, X87, FXSR, MMX, SYSCALL, SSE, SSE2), etc. This can be using with cpuid.CPU.HasAll(f) to quickly test if all features are supported.

Note that for some cpu/os combinations some features will not be detected. amd64 has rather good support and should work reliably on all platforms.

Note that hypervisors may not pass through all CPU features through to the guest OS, so even if your host supports a feature it may not be visible on guests.

arm64 feature detection

Not all operating systems provide ARM features directly and there is no safe way to do so for the rest.

Currently arm64/linux and arm64/freebsd should be quite reliable. arm64/darwin adds features expected from the M1 processor, but a lot remains undetected.

A DetectARM() can be used if you are able to control your deployment, it will detect CPU features, but may crash if the OS doesn't intercept the calls. A -cpu.arm flag for detecting unsafe ARM features can be added. See below.

Note that currently only features are detected on ARM, no additional information is currently available.

flags

It is possible to add flags that affects cpu detection.

For this the Flags() command is provided.

This must be called before flag.Parse() AND after the flags have been parsed Detect() must be called.

This means that any detection used in init() functions will not contain these flags.

Example:

package main

import (
	"flag"
	"fmt"
	"strings"

	"github.com/klauspost/cpuid/v2"
)

func main() {
	cpuid.Flags()
	flag.Parse()
	cpuid.Detect()

	// Test if we have these specific features:
	if cpuid.CPU.Supports(cpuid.SSE, cpuid.SSE2) {
		fmt.Println("We have Streaming SIMD 2 Extensions")
	}
}

commandline

Download as binary from: https://github.com/klauspost/cpuid/releases

Install from source:

go install github.com/klauspost/cpuid/v2/cmd/cpuid@latest

Example

λ cpuid
Name: AMD Ryzen 9 3950X 16-Core Processor
Vendor String: AuthenticAMD
Vendor ID: AMD
PhysicalCores: 16
Threads Per Core: 2
Logical Cores: 32
CPU Family 23 Model: 113
Features: ADX,AESNI,AVX,AVX2,BMI1,BMI2,CLMUL,CLZERO,CMOV,CMPXCHG8,CPBOOST,CX16,F16C,FMA3,FXSR,FXSROPT,HTT,HYPERVISOR,LAHF,LZCNT,MCAOVERFLOW,MMX,MMXEXT,MOVBE,NX,OSXSAVE,POPCNT,RDRAND,RDSEED,RDTSCP,SCE,SHA,SSE,SSE2,SSE3,SSE4,SSE42,SSE4A,SSSE3,SUCCOR,X87,XSAVE
Microarchitecture level: 3
Cacheline bytes: 64
L1 Instruction Cache: 32768 bytes
L1 Data Cache: 32768 bytes
L2 Cache: 524288 bytes
L3 Cache: 16777216 bytes

JSON Output:

λ cpuid --json
{
  "BrandName": "AMD Ryzen 9 3950X 16-Core Processor",
  "VendorID": 2,
  "VendorString": "AuthenticAMD",
  "PhysicalCores": 16,
  "ThreadsPerCore": 2,
  "LogicalCores": 32,
  "Family": 23,
  "Model": 113,
  "CacheLine": 64,
  "Hz": 0,
  "BoostFreq": 0,
  "Cache": {
    "L1I": 32768,
    "L1D": 32768,
    "L2": 524288,
    "L3": 16777216
  },
  "SGX": {
    "Available": false,
    "LaunchControl": false,
    "SGX1Supported": false,
    "SGX2Supported": false,
    "MaxEnclaveSizeNot64": 0,
    "MaxEnclaveSize64": 0,
    "EPCSections": null
  },
  "Features": [
    "ADX",
    "AESNI",
    "AVX",
    "AVX2",
    "BMI1",
    "BMI2",
    "CLMUL",
    "CLZERO",
    "CMOV",
    "CMPXCHG8",
    "CPBOOST",
    "CX16",
    "F16C",
    "FMA3",
    "FXSR",
    "FXSROPT",
    "HTT",
    "HYPERVISOR",
    "LAHF",
    "LZCNT",
    "MCAOVERFLOW",
    "MMX",
    "MMXEXT",
    "MOVBE",
    "NX",
    "OSXSAVE",
    "POPCNT",
    "RDRAND",
    "RDSEED",
    "RDTSCP",
    "SCE",
    "SHA",
    "SSE",
    "SSE2",
    "SSE3",
    "SSE4",
    "SSE42",
    "SSE4A",
    "SSSE3",
    "SUCCOR",
    "X87",
    "XSAVE"
  ],
  "X64Level": 3
}

Check CPU microarch level

λ cpuid --check-level=3
2022/03/18 17:04:40 AMD Ryzen 9 3950X 16-Core Processor
2022/03/18 17:04:40 Microarchitecture level 3 is supported. Max level is 3.
Exit Code 0

λ cpuid --check-level=4
2022/03/18 17:06:18 AMD Ryzen 9 3950X 16-Core Processor
2022/03/18 17:06:18 Microarchitecture level 4 not supported. Max level is 3.
Exit Code 1

Available flags

x86 & amd64

Feature Flag Description
ADX Intel ADX (Multi-Precision Add-Carry Instruction Extensions)
AESNI Advanced Encryption Standard New Instructions
AMD3DNOW AMD 3DNOW
AMD3DNOWEXT AMD 3DNowExt
AMXBF16 Tile computational operations on BFLOAT16 numbers
AMXINT8 Tile computational operations on 8-bit integers
AMXFP16 Tile computational operations on FP16 numbers
AMXTILE Tile architecture
APX_F Intel APX
AVX AVX functions
AVX10 If set the Intel AVX10 Converged Vector ISA is supported
AVX10_128 If set indicates that AVX10 128-bit vector support is present
AVX10_256 If set indicates that AVX10 256-bit vector support is present
AVX10_512 If set indicates that AVX10 512-bit vector support is present
AVX2 AVX2 functions
AVX512BF16 AVX-512 BFLOAT16 Instructions
AVX512BITALG AVX-512 Bit Algorithms
AVX512BW AVX-512 Byte and Word Instructions
AVX512CD AVX-512 Conflict Detection Instructions
AVX512DQ AVX-512 Doubleword and Quadword Instructions
AVX512ER AVX-512 Exponential and Reciprocal Instructions
AVX512F AVX-512 Foundation
AVX512FP16 AVX-512 FP16 Instructions
AVX512IFMA AVX-512 Integer Fused Multiply-Add Instructions
AVX512PF AVX-512 Prefetch Instructions
AVX512VBMI AVX-512 Vector Bit Manipulation Instructions
AVX512VBMI2 AVX-512 Vector Bit Manipulation Instructions, Version 2
AVX512VL AVX-512 Vector Length Extensions
AVX512VNNI AVX-512 Vector Neural Network Instructions
AVX512VP2INTERSECT AVX-512 Intersect for D/Q
AVX512VPOPCNTDQ AVX-512 Vector Population Count Doubleword and Quadword
AVXIFMA AVX-IFMA instructions
AVXNECONVERT AVX-NE-CONVERT instructions
AVXSLOW Indicates the CPU performs 2 128 bit operations instead of one
AVXVNNI AVX (VEX encoded) VNNI neural network instructions
AVXVNNIINT8 AVX-VNNI-INT8 instructions
BHI_CTRL Branch History Injection and Intra-mode Branch Target Injection / CVE-2022-0001, CVE-2022-0002 / INTEL-SA-00598
BMI1 Bit Manipulation Instruction Set 1
BMI2 Bit Manipulation Instruction Set 2
CETIBT Intel CET Indirect Branch Tracking
CETSS Intel CET Shadow Stack
CLDEMOTE Cache Line Demote
CLMUL Carry-less Multiplication
CLZERO CLZERO instruction supported
CMOV i686 CMOV
CMPCCXADD CMPCCXADD instructions
CMPSB_SCADBS_SHORT Fast short CMPSB and SCASB
CMPXCHG8 CMPXCHG8 instruction
CPBOOST Core Performance Boost
CPPC AMD: Collaborative Processor Performance Control
CX16 CMPXCHG16B Instruction
EFER_LMSLE_UNS AMD: =Core::X86::Msr::EFER[LMSLE] is not supported, and MBZ
ENQCMD Enqueue Command
ERMS Enhanced REP MOVSB/STOSB
F16C Half-precision floating-point conversion
FLUSH_L1D Flush L1D cache
FMA3 Intel FMA 3. Does not imply AVX.
FMA4 Bulldozer FMA4 functions
FP128 AMD: When set, the internal FP/SIMD execution datapath is 128-bits wide
FP256 AMD: When set, the internal FP/SIMD execution datapath is 256-bits wide
FSRM Fast Short Rep Mov
FXSR FXSAVE, FXRESTOR instructions, CR4 bit 9
FXSROPT FXSAVE/FXRSTOR optimizations
GFNI Galois Field New Instructions. May require other features (AVX, AVX512VL,AVX512F) based on usage.
HLE Hardware Lock Elision
HRESET If set CPU supports history reset and the IA32_HRESET_ENABLE MSR
HTT Hyperthreading (enabled)
HWA Hardware assert supported. Indicates support for MSRC001_10
HYBRID_CPU This part has CPUs of more than one type.
HYPERVISOR This bit has been reserved by Intel & AMD for use by hypervisors
IA32_ARCH_CAP IA32_ARCH_CAPABILITIES MSR (Intel)
IA32_CORE_CAP IA32_CORE_CAPABILITIES MSR
IBPB Indirect Branch Restricted Speculation (IBRS) and Indirect Branch Predictor Barrier (IBPB)
IBRS AMD: Indirect Branch Restricted Speculation
IBRS_PREFERRED AMD: IBRS is preferred over software solution
IBRS_PROVIDES_SMP AMD: IBRS provides Same Mode Protection
IBS Instruction Based Sampling (AMD)
IBSBRNTRGT Instruction Based Sampling Feature (AMD)
IBSFETCHSAM Instruction Based Sampling Feature (AMD)
IBSFFV Instruction Based Sampling Feature (AMD)
IBSOPCNT Instruction Based Sampling Feature (AMD)
IBSOPCNTEXT Instruction Based Sampling Feature (AMD)
IBSOPSAM Instruction Based Sampling Feature (AMD)
IBSRDWROPCNT Instruction Based Sampling Feature (AMD)
IBSRIPINVALIDCHK Instruction Based Sampling Feature (AMD)
IBS_FETCH_CTLX AMD: IBS fetch control extended MSR supported
IBS_OPDATA4 AMD: IBS op data 4 MSR supported
IBS_OPFUSE AMD: Indicates support for IbsOpFuse
IBS_PREVENTHOST Disallowing IBS use by the host supported
IBS_ZEN4 Fetch and Op IBS support IBS extensions added with Zen4
IDPRED_CTRL IPRED_DIS
INT_WBINVD WBINVD/WBNOINVD are interruptible.
INVLPGB NVLPGB and TLBSYNC instruction supported
KEYLOCKER Key locker
KEYLOCKERW Key locker wide
LAHF LAHF/SAHF in long mode
LAM If set, CPU supports Linear Address Masking
LBRVIRT LBR virtualization
LZCNT LZCNT instruction
MCAOVERFLOW MCA overflow recovery support.
MCDT_NO Processor do not exhibit MXCSR Configuration Dependent Timing behavior and do not need to mitigate it.
MCOMMIT MCOMMIT instruction supported
MD_CLEAR VERW clears CPU buffers
MMX standard MMX
MMXEXT SSE integer functions or AMD MMX ext
MOVBE MOVBE instruction (big-endian)
MOVDIR64B Move 64 Bytes as Direct Store
MOVDIRI Move Doubleword as Direct Store
MOVSB_ZL Fast Zero-Length MOVSB
MPX Intel MPX (Memory Protection Extensions)
MOVU MOVU SSE instructions are more efficient and should be preferred to SSE MOVL/MOVH. MOVUPS is more efficient than MOVLPS/MOVHPS. MOVUPD is more efficient than MOVLPD/MOVHPD
MSRIRC Instruction Retired Counter MSR available
MSRLIST Read/Write List of Model Specific Registers
MSR_PAGEFLUSH Page Flush MSR available
NRIPS Indicates support for NRIP save on VMEXIT
NX NX (No-Execute) bit
OSXSAVE XSAVE enabled by OS
PCONFIG PCONFIG for Intel Multi-Key Total Memory Encryption
POPCNT POPCNT instruction
PPIN AMD: Protected Processor Inventory Number support. Indicates that Protected Processor Inventory Number (PPIN) capability can be enabled
PREFETCHI PREFETCHIT0/1 instructions
PSFD Predictive Store Forward Disable
RDPRU RDPRU instruction supported
RDRAND RDRAND instruction is available
RDSEED RDSEED instruction is available
RDTSCP RDTSCP Instruction
RRSBA_CTRL Restricted RSB Alternate
RTM Restricted Transactional Memory
RTM_ALWAYS_ABORT Indicates that the loaded microcode is forcing RTM abort.
SERIALIZE Serialize Instruction Execution
SEV AMD Secure Encrypted Virtualization supported
SEV_64BIT AMD SEV guest execution only allowed from a 64-bit host
SEV_ALTERNATIVE AMD SEV Alternate Injection supported
SEV_DEBUGSWAP Full debug state swap supported for SEV-ES guests
SEV_ES AMD SEV Encrypted State supported
SEV_RESTRICTED AMD SEV Restricted Injection supported
SEV_SNP AMD SEV Secure Nested Paging supported
SGX Software Guard Extensions
SGXLC Software Guard Extensions Launch Control
SHA Intel SHA Extensions
SME AMD Secure Memory Encryption supported
SME_COHERENT AMD Hardware cache coherency across encryption domains enforced
SPEC_CTRL_SSBD Speculative Store Bypass Disable
SRBDS_CTRL SRBDS mitigation MSR available
SSE SSE functions
SSE2 P4 SSE functions
SSE3 Prescott SSE3 functions
SSE4 Penryn SSE4.1 functions
SSE42 Nehalem SSE4.2 functions
SSE4A AMD Barcelona microarchitecture SSE4a instructions
SSSE3 Conroe SSSE3 functions
STIBP Single Thread Indirect Branch Predictors
STIBP_ALWAYSON AMD: Single Thread Indirect Branch Prediction Mode has Enhanced Performance and may be left Always On
STOSB_SHORT Fast short STOSB
SUCCOR Software uncorrectable error containment and recovery capability.
SVM AMD Secure Virtual Machine
SVMDA Indicates support for the SVM decode assists.
SVMFBASID SVM, Indicates that TLB flush events, including CR3 writes and CR4.PGE toggles, flush only the current ASID's TLB entries. Also indicates support for the extended VMCBTLB_Control
SVML AMD SVM lock. Indicates support for SVM-Lock.
SVMNP AMD SVM nested paging
SVMPF SVM pause intercept filter. Indicates support for the pause intercept filter
SVMPFT SVM PAUSE filter threshold. Indicates support for the PAUSE filter cycle count threshold
SYSCALL System-Call Extension (SCE): SYSCALL and SYSRET instructions.
SYSEE SYSENTER and SYSEXIT instructions
TBM AMD Trailing Bit Manipulation
TDX_GUEST Intel Trust Domain Extensions Guest
TLB_FLUSH_NESTED AMD: Flushing includes all the nested translations for guest translations
TME Intel Total Memory Encryption. The following MSRs are supported: IA32_TME_CAPABILITY, IA32_TME_ACTIVATE, IA32_TME_EXCLUDE_MASK, and IA32_TME_EXCLUDE_BASE.
TOPEXT TopologyExtensions: topology extensions support. Indicates support for CPUID Fn8000_001D_EAX_x[N:0]-CPUID Fn8000_001E_EDX.
TSCRATEMSR MSR based TSC rate control. Indicates support for MSR TSC ratio MSRC000_0104
TSXLDTRK Intel TSX Suspend Load Address Tracking
VAES Vector AES. AVX(512) versions requires additional checks.
VMCBCLEAN VMCB clean bits. Indicates support for VMCB clean bits.
VMPL AMD VM Permission Levels supported
VMSA_REGPROT AMD VMSA Register Protection supported
VMX Virtual Machine Extensions
VPCLMULQDQ Carry-Less Multiplication Quadword. Requires AVX for 3 register versions.
VTE AMD Virtual Transparent Encryption supported
WAITPKG TPAUSE, UMONITOR, UMWAIT
WBNOINVD Write Back and Do Not Invalidate Cache
WRMSRNS Non-Serializing Write to Model Specific Register
X87 FPU
XGETBV1 Supports XGETBV with ECX = 1
XOP Bulldozer XOP functions
XSAVE XSAVE, XRESTOR, XSETBV, XGETBV
XSAVEC Supports XSAVEC and the compacted form of XRSTOR.
XSAVEOPT XSAVEOPT available
XSAVES Supports XSAVES/XRSTORS and IA32_XSS

ARM features:

Feature Flag Description
AESARM AES instructions
ARMCPUID Some CPU ID registers readable at user-level
ASIMD Advanced SIMD
ASIMDDP SIMD Dot Product
ASIMDHP Advanced SIMD half-precision floating point
ASIMDRDM Rounding Double Multiply Accumulate/Subtract (SQRDMLAH/SQRDMLSH)
ATOMICS Large System Extensions (LSE)
CRC32 CRC32/CRC32C instructions
DCPOP Data cache clean to Point of Persistence (DC CVAP)
EVTSTRM Generic timer
FCMA Floatin point complex number addition and multiplication
FP Single-precision and double-precision floating point
FPHP Half-precision floating point
GPA Generic Pointer Authentication
JSCVT Javascript-style double->int convert (FJCVTZS)
LRCPC Weaker release consistency (LDAPR, etc)
PMULL Polynomial Multiply instructions (PMULL/PMULL2)
SHA1 SHA-1 instructions (SHA1C, etc)
SHA2 SHA-2 instructions (SHA256H, etc)
SHA3 SHA-3 instructions (EOR3, RAXI, XAR, BCAX)
SHA512 SHA512 instructions
SM3 SM3 instructions
SM4 SM4 instructions
SVE Scalable Vector Extension

license

This code is published under an MIT license. See LICENSE file for more information.