cpu/cpu_linux_arm64.go - sys - Git at Google

 // Copyright 2018 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.

 package cpu

 import (
 	"strings"
 	"syscall"
 )

 // HWCAP/HWCAP2 bits. These are exposed by Linux.
 const (
 	hwcap_FP       = 1 << 0
 	hwcap_ASIMD    = 1 << 1
 	hwcap_EVTSTRM  = 1 << 2
 	hwcap_AES      = 1 << 3
 	hwcap_PMULL    = 1 << 4
 	hwcap_SHA1     = 1 << 5
 	hwcap_SHA2     = 1 << 6
 	hwcap_CRC32    = 1 << 7
 	hwcap_ATOMICS  = 1 << 8
 	hwcap_FPHP     = 1 << 9
 	hwcap_ASIMDHP  = 1 << 10
 	hwcap_CPUID    = 1 << 11
 	hwcap_ASIMDRDM = 1 << 12
 	hwcap_JSCVT    = 1 << 13
 	hwcap_FCMA     = 1 << 14
 	hwcap_LRCPC    = 1 << 15
 	hwcap_DCPOP    = 1 << 16
 	hwcap_SHA3     = 1 << 17
 	hwcap_SM3      = 1 << 18
 	hwcap_SM4      = 1 << 19
 	hwcap_ASIMDDP  = 1 << 20
 	hwcap_SHA512   = 1 << 21
 	hwcap_SVE      = 1 << 22
 	hwcap_ASIMDFHM = 1 << 23
 	hwcap_DIT      = 1 << 24

 	hwcap2_SVE2 = 1 << 1
 	hwcap2_I8MM = 1 << 13
 )

 // linuxKernelCanEmulateCPUID reports whether we're running
 // on Linux 4.11+. Ideally we'd like to ask the question about
 // whether the current kernel contains
 // https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/commit/?id=77c97b4ee21290f5f083173d957843b615abbff2
 // but the version number will have to do.
 func linuxKernelCanEmulateCPUID() bool {
 	var un syscall.Utsname
 	syscall.Uname(&un)
 	var sb strings.Builder
 	for _, b := range un.Release[:] {
 		if b == 0 {
 			break
 		}
 		sb.WriteByte(byte(b))
 	}
 	major, minor, _, ok := parseRelease(sb.String())
 	return ok && (major > 4 || major == 4 && minor >= 11)
 }

 func doinit() {
 	if err := readHWCAP(); err != nil {
 		// We failed to read /proc/self/auxv. This can happen if the binary has
 		// been given extra capabilities(7) with /bin/setcap.
 		//
 		// When this happens, we have two options. If the Linux kernel is new
 		// enough (4.11+), we can read the arm64 registers directly which'll
 		// trap into the kernel and then return back to userspace.
 		//
 		// But on older kernels, such as Linux 4.4.180 as used on many Synology
 		// devices, calling readARM64Registers (specifically getisar0) will
 		// cause a SIGILL and we'll die. So for older kernels, parse /proc/cpuinfo
 		// instead.
 		//
 		// See golang/go#57336.
 		if linuxKernelCanEmulateCPUID() {
 			readARM64Registers()
 		} else {
 			readLinuxProcCPUInfo()
 		}
 		return
 	}

 	// HWCAP feature bits
 	ARM64.HasFP = isSet(hwCap, hwcap_FP)
 	ARM64.HasASIMD = isSet(hwCap, hwcap_ASIMD)
 	ARM64.HasEVTSTRM = isSet(hwCap, hwcap_EVTSTRM)
 	ARM64.HasAES = isSet(hwCap, hwcap_AES)
 	ARM64.HasPMULL = isSet(hwCap, hwcap_PMULL)
 	ARM64.HasSHA1 = isSet(hwCap, hwcap_SHA1)
 	ARM64.HasSHA2 = isSet(hwCap, hwcap_SHA2)
 	ARM64.HasCRC32 = isSet(hwCap, hwcap_CRC32)
 	ARM64.HasATOMICS = isSet(hwCap, hwcap_ATOMICS)
 	ARM64.HasFPHP = isSet(hwCap, hwcap_FPHP)
 	ARM64.HasASIMDHP = isSet(hwCap, hwcap_ASIMDHP)
 	ARM64.HasCPUID = isSet(hwCap, hwcap_CPUID)
 	ARM64.HasASIMDRDM = isSet(hwCap, hwcap_ASIMDRDM)
 	ARM64.HasJSCVT = isSet(hwCap, hwcap_JSCVT)
 	ARM64.HasFCMA = isSet(hwCap, hwcap_FCMA)
 	ARM64.HasLRCPC = isSet(hwCap, hwcap_LRCPC)
 	ARM64.HasDCPOP = isSet(hwCap, hwcap_DCPOP)
 	ARM64.HasSHA3 = isSet(hwCap, hwcap_SHA3)
 	ARM64.HasSM3 = isSet(hwCap, hwcap_SM3)
 	ARM64.HasSM4 = isSet(hwCap, hwcap_SM4)
 	ARM64.HasASIMDDP = isSet(hwCap, hwcap_ASIMDDP)
 	ARM64.HasSHA512 = isSet(hwCap, hwcap_SHA512)
 	ARM64.HasSVE = isSet(hwCap, hwcap_SVE)
 	ARM64.HasASIMDFHM = isSet(hwCap, hwcap_ASIMDFHM)
 	ARM64.HasDIT = isSet(hwCap, hwcap_DIT)


 	// HWCAP2 feature bits
 	ARM64.HasSVE2 = isSet(hwCap2, hwcap2_SVE2)
 	ARM64.HasI8MM = isSet(hwCap2, hwcap2_I8MM)
 }

 func isSet(hwc uint, value uint) bool {
 	return hwc&value != 0
 }
	// Copyright 2018 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.

	package cpu

	import (
	"strings"
	"syscall"
	)

	// HWCAP/HWCAP2 bits. These are exposed by Linux.
	const (
	hwcap_FP = 1 << 0
	hwcap_ASIMD = 1 << 1
	hwcap_EVTSTRM = 1 << 2
	hwcap_AES = 1 << 3
	hwcap_PMULL = 1 << 4
	hwcap_SHA1 = 1 << 5
	hwcap_SHA2 = 1 << 6
	hwcap_CRC32 = 1 << 7
	hwcap_ATOMICS = 1 << 8
	hwcap_FPHP = 1 << 9
	hwcap_ASIMDHP = 1 << 10
	hwcap_CPUID = 1 << 11
	hwcap_ASIMDRDM = 1 << 12
	hwcap_JSCVT = 1 << 13
	hwcap_FCMA = 1 << 14
	hwcap_LRCPC = 1 << 15
	hwcap_DCPOP = 1 << 16
	hwcap_SHA3 = 1 << 17
	hwcap_SM3 = 1 << 18
	hwcap_SM4 = 1 << 19
	hwcap_ASIMDDP = 1 << 20
	hwcap_SHA512 = 1 << 21
	hwcap_SVE = 1 << 22
	hwcap_ASIMDFHM = 1 << 23
	hwcap_DIT = 1 << 24

	hwcap2_SVE2 = 1 << 1
	hwcap2_I8MM = 1 << 13
	)

	// linuxKernelCanEmulateCPUID reports whether we're running
	// on Linux 4.11+. Ideally we'd like to ask the question about
	// whether the current kernel contains
	// https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/commit/?id=77c97b4ee21290f5f083173d957843b615abbff2
	// but the version number will have to do.
	func linuxKernelCanEmulateCPUID() bool {
	var un syscall.Utsname
	syscall.Uname(&un)
	var sb strings.Builder
	for _, b := range un.Release[:] {
	if b == 0 {
	break
	}
	sb.WriteByte(byte(b))
	}
	major, minor, _, ok := parseRelease(sb.String())
	return ok && (major > 4 \|\| major == 4 && minor >= 11)
	}

	func doinit() {
	if err := readHWCAP(); err != nil {
	// We failed to read /proc/self/auxv. This can happen if the binary has
	// been given extra capabilities(7) with /bin/setcap.
	//
	// When this happens, we have two options. If the Linux kernel is new
	// enough (4.11+), we can read the arm64 registers directly which'll
	// trap into the kernel and then return back to userspace.
	//
	// But on older kernels, such as Linux 4.4.180 as used on many Synology
	// devices, calling readARM64Registers (specifically getisar0) will
	// cause a SIGILL and we'll die. So for older kernels, parse /proc/cpuinfo
	// instead.
	//
	// See golang/go#57336.
	if linuxKernelCanEmulateCPUID() {
	readARM64Registers()
	} else {
	readLinuxProcCPUInfo()
	}
	return
	}

	// HWCAP feature bits
	ARM64.HasFP = isSet(hwCap, hwcap_FP)
	ARM64.HasASIMD = isSet(hwCap, hwcap_ASIMD)
	ARM64.HasEVTSTRM = isSet(hwCap, hwcap_EVTSTRM)
	ARM64.HasAES = isSet(hwCap, hwcap_AES)
	ARM64.HasPMULL = isSet(hwCap, hwcap_PMULL)
	ARM64.HasSHA1 = isSet(hwCap, hwcap_SHA1)
	ARM64.HasSHA2 = isSet(hwCap, hwcap_SHA2)
	ARM64.HasCRC32 = isSet(hwCap, hwcap_CRC32)
	ARM64.HasATOMICS = isSet(hwCap, hwcap_ATOMICS)
	ARM64.HasFPHP = isSet(hwCap, hwcap_FPHP)
	ARM64.HasASIMDHP = isSet(hwCap, hwcap_ASIMDHP)
	ARM64.HasCPUID = isSet(hwCap, hwcap_CPUID)
	ARM64.HasASIMDRDM = isSet(hwCap, hwcap_ASIMDRDM)
	ARM64.HasJSCVT = isSet(hwCap, hwcap_JSCVT)
	ARM64.HasFCMA = isSet(hwCap, hwcap_FCMA)
	ARM64.HasLRCPC = isSet(hwCap, hwcap_LRCPC)
	ARM64.HasDCPOP = isSet(hwCap, hwcap_DCPOP)
	ARM64.HasSHA3 = isSet(hwCap, hwcap_SHA3)
	ARM64.HasSM3 = isSet(hwCap, hwcap_SM3)
	ARM64.HasSM4 = isSet(hwCap, hwcap_SM4)
	ARM64.HasASIMDDP = isSet(hwCap, hwcap_ASIMDDP)
	ARM64.HasSHA512 = isSet(hwCap, hwcap_SHA512)
	ARM64.HasSVE = isSet(hwCap, hwcap_SVE)
	ARM64.HasASIMDFHM = isSet(hwCap, hwcap_ASIMDFHM)
	ARM64.HasDIT = isSet(hwCap, hwcap_DIT)


	// HWCAP2 feature bits
	ARM64.HasSVE2 = isSet(hwCap2, hwcap2_SVE2)
	ARM64.HasI8MM = isSet(hwCap2, hwcap2_I8MM)
	}

	func isSet(hwc uint, value uint) bool {
	return hwc&value != 0
	}