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The GODEBUG environment variable can be used to disable usage of specific processor features of Go programs that use the sys/cpu package. This is useful for testing and benchmarking different code paths that are guarded by sys/cpu variable checks. Use of processor features can not be enabled through GODEBUG. To disable usage of AVX and SSE41 cpu features on GOARCH amd64 use: GODEBUG=cpu.avx=off,cpu.sse41=off The special "all" option can be used to disable all options: GODEBUG=all=off This aligns the support of GODEBUG for sys/cpu with existing support for GODEBUG in the Go standard library package internal/cpu. Fixes golang/go#33963 Change-Id: I618b71af397bf06c57a49b2a300d032a16d05664 Reviewed-on: https://go-review.googlesource.com/c/sys/+/245237 Run-TryBot: Martin Möhrmann <moehrmann@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Martin Möhrmann <moehrmann@google.com> Reviewed-by: Tobias Klauser <tobias.klauser@gmail.com>
160 lines
3.9 KiB
Go
160 lines
3.9 KiB
Go
// Copyright 2019 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package cpu
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const (
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// bit mask values from /usr/include/bits/hwcap.h
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hwcap_ZARCH = 2
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hwcap_STFLE = 4
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hwcap_MSA = 8
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hwcap_LDISP = 16
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hwcap_EIMM = 32
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hwcap_DFP = 64
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hwcap_ETF3EH = 256
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hwcap_VX = 2048
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hwcap_VXE = 8192
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)
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// bitIsSet reports whether the bit at index is set. The bit index
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// is in big endian order, so bit index 0 is the leftmost bit.
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func bitIsSet(bits []uint64, index uint) bool {
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return bits[index/64]&((1<<63)>>(index%64)) != 0
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}
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// function is the code for the named cryptographic function.
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type function uint8
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const (
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// KM{,A,C,CTR} function codes
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aes128 function = 18 // AES-128
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aes192 function = 19 // AES-192
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aes256 function = 20 // AES-256
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// K{I,L}MD function codes
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sha1 function = 1 // SHA-1
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sha256 function = 2 // SHA-256
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sha512 function = 3 // SHA-512
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sha3_224 function = 32 // SHA3-224
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sha3_256 function = 33 // SHA3-256
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sha3_384 function = 34 // SHA3-384
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sha3_512 function = 35 // SHA3-512
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shake128 function = 36 // SHAKE-128
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shake256 function = 37 // SHAKE-256
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// KLMD function codes
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ghash function = 65 // GHASH
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)
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// queryResult contains the result of a Query function
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// call. Bits are numbered in big endian order so the
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// leftmost bit (the MSB) is at index 0.
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type queryResult struct {
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bits [2]uint64
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}
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// Has reports whether the given functions are present.
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func (q *queryResult) Has(fns ...function) bool {
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if len(fns) == 0 {
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panic("no function codes provided")
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}
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for _, f := range fns {
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if !bitIsSet(q.bits[:], uint(f)) {
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return false
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}
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}
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return true
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}
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// facility is a bit index for the named facility.
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type facility uint8
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const (
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// cryptography facilities
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msa4 facility = 77 // message-security-assist extension 4
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msa8 facility = 146 // message-security-assist extension 8
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)
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// facilityList contains the result of an STFLE call.
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// Bits are numbered in big endian order so the
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// leftmost bit (the MSB) is at index 0.
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type facilityList struct {
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bits [4]uint64
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}
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// Has reports whether the given facilities are present.
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func (s *facilityList) Has(fs ...facility) bool {
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if len(fs) == 0 {
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panic("no facility bits provided")
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}
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for _, f := range fs {
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if !bitIsSet(s.bits[:], uint(f)) {
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return false
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}
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}
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return true
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}
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func doinit() {
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// test HWCAP bit vector
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has := func(featureMask uint) bool {
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return hwCap&featureMask == featureMask
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}
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// mandatory
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S390X.HasZARCH = has(hwcap_ZARCH)
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// optional
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S390X.HasSTFLE = has(hwcap_STFLE)
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S390X.HasLDISP = has(hwcap_LDISP)
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S390X.HasEIMM = has(hwcap_EIMM)
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S390X.HasETF3EH = has(hwcap_ETF3EH)
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S390X.HasDFP = has(hwcap_DFP)
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S390X.HasMSA = has(hwcap_MSA)
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S390X.HasVX = has(hwcap_VX)
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if S390X.HasVX {
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S390X.HasVXE = has(hwcap_VXE)
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}
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// We need implementations of stfle, km and so on
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// to detect cryptographic features.
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if !haveAsmFunctions() {
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return
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}
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// optional cryptographic functions
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if S390X.HasMSA {
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aes := []function{aes128, aes192, aes256}
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// cipher message
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km, kmc := kmQuery(), kmcQuery()
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S390X.HasAES = km.Has(aes...)
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S390X.HasAESCBC = kmc.Has(aes...)
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if S390X.HasSTFLE {
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facilities := stfle()
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if facilities.Has(msa4) {
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kmctr := kmctrQuery()
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S390X.HasAESCTR = kmctr.Has(aes...)
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}
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if facilities.Has(msa8) {
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kma := kmaQuery()
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S390X.HasAESGCM = kma.Has(aes...)
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}
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}
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// compute message digest
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kimd := kimdQuery() // intermediate (no padding)
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klmd := klmdQuery() // last (padding)
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S390X.HasSHA1 = kimd.Has(sha1) && klmd.Has(sha1)
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S390X.HasSHA256 = kimd.Has(sha256) && klmd.Has(sha256)
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S390X.HasSHA512 = kimd.Has(sha512) && klmd.Has(sha512)
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S390X.HasGHASH = kimd.Has(ghash) // KLMD-GHASH does not exist
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sha3 := []function{
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sha3_224, sha3_256, sha3_384, sha3_512,
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shake128, shake256,
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}
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S390X.HasSHA3 = kimd.Has(sha3...) && klmd.Has(sha3...)
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}
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}
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