mirror of
https://github.com/golang/go
synced 2024-11-26 04:07:59 -07:00
all: update vendored golang.org/x/crypto
Ran the following commands inside std and cmd modules: go get -d golang.org/x/crypto@32db794688a5a24a23a43f2a984cecd5b3d8da58 # master go mod tidy go mod vendor Also add the new golang.org/x/crypto/curve25519/internal/field package (it was created in x/crypto CL 315269) to TestDependencies in go/build. Position it next to its upstream copy, since its required dependencies are expected to be identical. For #36905. Change-Id: I589499cd7176c9b4b8758e59025653d19b58130e Reviewed-on: https://go-review.googlesource.com/c/go/+/347190 Trust: Dmitri Shuralyov <dmitshur@golang.org> Run-TryBot: Dmitri Shuralyov <dmitshur@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Carlos Amedee <carlos@golang.org>
This commit is contained in:
parent
782aa42255
commit
d01388b04f
@ -6,7 +6,7 @@ require (
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github.com/google/pprof v0.0.0-20210506205249-923b5ab0fc1a
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github.com/ianlancetaylor/demangle v0.0.0-20200824232613-28f6c0f3b639 // indirect
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golang.org/x/arch v0.0.0-20210502124803-cbf565b21d1e
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golang.org/x/crypto v0.0.0-20210503195802-e9a32991a82e // indirect
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golang.org/x/crypto v0.0.0-20210817164053-32db794688a5 // indirect
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golang.org/x/mod v0.5.1-0.20210827163434-4029241eb1d5
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golang.org/x/sys v0.0.0-20210831042530-f4d43177bf5e // indirect
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golang.org/x/term v0.0.0-20210503060354-a79de5458b56
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@ -7,8 +7,8 @@ github.com/ianlancetaylor/demangle v0.0.0-20200824232613-28f6c0f3b639 h1:mV02weK
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github.com/ianlancetaylor/demangle v0.0.0-20200824232613-28f6c0f3b639/go.mod h1:aSSvb/t6k1mPoxDqO4vJh6VOCGPwU4O0C2/Eqndh1Sc=
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golang.org/x/arch v0.0.0-20210502124803-cbf565b21d1e h1:pv3V0NlNSh5Q6AX/StwGLBjcLS7UN4m4Gq+V+uSecqM=
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golang.org/x/arch v0.0.0-20210502124803-cbf565b21d1e/go.mod h1:5om86z9Hs0C8fWVUuoMHwpExlXzs5Tkyp9hOrfG7pp8=
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golang.org/x/crypto v0.0.0-20210503195802-e9a32991a82e h1:8foAy0aoO5GkqCvAEJ4VC4P3zksTg4X4aJCDpZzmgQI=
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golang.org/x/crypto v0.0.0-20210503195802-e9a32991a82e/go.mod h1:P+XmwS30IXTQdn5tA2iutPOUgjI07+tq3H3K9MVA1s8=
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golang.org/x/crypto v0.0.0-20210817164053-32db794688a5 h1:HWj/xjIHfjYU5nVXpTM0s39J9CbLn7Cc5a7IC5rwsMQ=
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golang.org/x/crypto v0.0.0-20210817164053-32db794688a5/go.mod h1:GvvjBRRGRdwPK5ydBHafDWAxML/pGHZbMvKqRZ5+Abc=
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golang.org/x/mod v0.5.1-0.20210827163434-4029241eb1d5 h1:BJ9Nc92Yf5inqB18HHrMgflMJKHraE07Z29Vjc+Z/Mk=
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golang.org/x/mod v0.5.1-0.20210827163434-4029241eb1d5/go.mod h1:5OXOZSfqPIIbmVBIIKWRFfZjPR0E5r58TLhUjH0a2Ro=
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golang.org/x/sys v0.0.0-20191204072324-ce4227a45e2e/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
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2
src/cmd/vendor/modules.txt
vendored
2
src/cmd/vendor/modules.txt
vendored
@ -24,7 +24,7 @@ golang.org/x/arch/arm/armasm
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golang.org/x/arch/arm64/arm64asm
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golang.org/x/arch/ppc64/ppc64asm
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golang.org/x/arch/x86/x86asm
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# golang.org/x/crypto v0.0.0-20210503195802-e9a32991a82e
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# golang.org/x/crypto v0.0.0-20210817164053-32db794688a5
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## explicit; go 1.17
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golang.org/x/crypto/ed25519
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golang.org/x/crypto/ed25519/internal/edwards25519
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@ -3,7 +3,7 @@ module std
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go 1.18
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require (
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golang.org/x/crypto v0.0.0-20210503195802-e9a32991a82e
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golang.org/x/crypto v0.0.0-20210817164053-32db794688a5
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golang.org/x/net v0.0.0-20210825183410-e898025ed96a
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golang.org/x/sys v0.0.0-20210831042530-f4d43177bf5e // indirect
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golang.org/x/text v0.3.7-0.20210503195748-5c7c50ebbd4f // indirect
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@ -1,5 +1,5 @@
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golang.org/x/crypto v0.0.0-20210503195802-e9a32991a82e h1:8foAy0aoO5GkqCvAEJ4VC4P3zksTg4X4aJCDpZzmgQI=
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golang.org/x/crypto v0.0.0-20210503195802-e9a32991a82e/go.mod h1:P+XmwS30IXTQdn5tA2iutPOUgjI07+tq3H3K9MVA1s8=
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golang.org/x/crypto v0.0.0-20210817164053-32db794688a5 h1:HWj/xjIHfjYU5nVXpTM0s39J9CbLn7Cc5a7IC5rwsMQ=
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golang.org/x/crypto v0.0.0-20210817164053-32db794688a5/go.mod h1:GvvjBRRGRdwPK5ydBHafDWAxML/pGHZbMvKqRZ5+Abc=
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golang.org/x/net v0.0.0-20210825183410-e898025ed96a h1:bRuuGXV8wwSdGTB+CtJf+FjgO1APK1CoO39T4BN/XBw=
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golang.org/x/net v0.0.0-20210825183410-e898025ed96a/go.mod h1:9nx3DQGgdP8bBQD5qxJ1jj9UTztislL4KSBs9R2vV5Y=
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golang.org/x/sys v0.0.0-20210831042530-f4d43177bf5e h1:XMgFehsDnnLGtjvjOfqWSUzt0alpTR1RSEuznObga2c=
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@ -395,7 +395,7 @@ var depsRules = `
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< crypto/subtle
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< crypto/internal/subtle
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< crypto/elliptic/internal/fiat
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< crypto/ed25519/internal/edwards25519/field
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< crypto/ed25519/internal/edwards25519/field, golang.org/x/crypto/curve25519/internal/field
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< crypto/ed25519/internal/edwards25519
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< crypto/cipher
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< crypto/aes, crypto/des, crypto/hmac, crypto/md5, crypto/rc4,
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1
src/vendor/golang.org/x/crypto/chacha20/chacha_arm64.s
generated
vendored
1
src/vendor/golang.org/x/crypto/chacha20/chacha_arm64.s
generated
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@ -2,6 +2,7 @@
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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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//go:build go1.11 && gc && !purego
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// +build go1.11,gc,!purego
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#include "textflag.h"
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1
src/vendor/golang.org/x/crypto/chacha20/chacha_ppc64le.s
generated
vendored
1
src/vendor/golang.org/x/crypto/chacha20/chacha_ppc64le.s
generated
vendored
@ -19,6 +19,7 @@
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// The differences in this and the original implementation are
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// due to the calling conventions and initialization of constants.
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//go:build gc && !purego
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// +build gc,!purego
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#include "textflag.h"
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1
src/vendor/golang.org/x/crypto/chacha20/chacha_s390x.s
generated
vendored
1
src/vendor/golang.org/x/crypto/chacha20/chacha_s390x.s
generated
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@ -2,6 +2,7 @@
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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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//go:build gc && !purego
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// +build gc,!purego
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#include "go_asm.h"
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1
src/vendor/golang.org/x/crypto/chacha20poly1305/chacha20poly1305_amd64.s
generated
vendored
1
src/vendor/golang.org/x/crypto/chacha20poly1305/chacha20poly1305_amd64.s
generated
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@ -4,6 +4,7 @@
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// This file was originally from https://golang.org/cl/24717 by Vlad Krasnov of CloudFlare.
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//go:build gc && !purego
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// +build gc,!purego
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#include "textflag.h"
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52
src/vendor/golang.org/x/crypto/curve25519/curve25519.go
generated
vendored
52
src/vendor/golang.org/x/crypto/curve25519/curve25519.go
generated
vendored
@ -10,6 +10,8 @@ package curve25519 // import "golang.org/x/crypto/curve25519"
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import (
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"crypto/subtle"
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"fmt"
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"golang.org/x/crypto/curve25519/internal/field"
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)
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// ScalarMult sets dst to the product scalar * point.
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@ -18,7 +20,55 @@ import (
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// zeroes, irrespective of the scalar. Instead, use the X25519 function, which
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// will return an error.
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func ScalarMult(dst, scalar, point *[32]byte) {
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scalarMult(dst, scalar, point)
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var e [32]byte
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copy(e[:], scalar[:])
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e[0] &= 248
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e[31] &= 127
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e[31] |= 64
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var x1, x2, z2, x3, z3, tmp0, tmp1 field.Element
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x1.SetBytes(point[:])
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x2.One()
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x3.Set(&x1)
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z3.One()
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swap := 0
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for pos := 254; pos >= 0; pos-- {
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b := e[pos/8] >> uint(pos&7)
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b &= 1
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swap ^= int(b)
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x2.Swap(&x3, swap)
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z2.Swap(&z3, swap)
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swap = int(b)
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tmp0.Subtract(&x3, &z3)
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tmp1.Subtract(&x2, &z2)
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x2.Add(&x2, &z2)
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z2.Add(&x3, &z3)
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z3.Multiply(&tmp0, &x2)
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z2.Multiply(&z2, &tmp1)
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tmp0.Square(&tmp1)
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tmp1.Square(&x2)
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x3.Add(&z3, &z2)
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z2.Subtract(&z3, &z2)
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x2.Multiply(&tmp1, &tmp0)
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tmp1.Subtract(&tmp1, &tmp0)
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z2.Square(&z2)
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z3.Mult32(&tmp1, 121666)
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x3.Square(&x3)
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tmp0.Add(&tmp0, &z3)
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z3.Multiply(&x1, &z2)
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z2.Multiply(&tmp1, &tmp0)
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}
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x2.Swap(&x3, swap)
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z2.Swap(&z3, swap)
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z2.Invert(&z2)
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x2.Multiply(&x2, &z2)
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copy(dst[:], x2.Bytes())
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}
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// ScalarBaseMult sets dst to the product scalar * base where base is the
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241
src/vendor/golang.org/x/crypto/curve25519/curve25519_amd64.go
generated
vendored
241
src/vendor/golang.org/x/crypto/curve25519/curve25519_amd64.go
generated
vendored
@ -1,241 +0,0 @@
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// Copyright 2012 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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//go:build amd64 && gc && !purego
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// +build amd64,gc,!purego
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package curve25519
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// These functions are implemented in the .s files. The names of the functions
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// in the rest of the file are also taken from the SUPERCOP sources to help
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// people following along.
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//go:noescape
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func cswap(inout *[5]uint64, v uint64)
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//go:noescape
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func ladderstep(inout *[5][5]uint64)
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//go:noescape
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func freeze(inout *[5]uint64)
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//go:noescape
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func mul(dest, a, b *[5]uint64)
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//go:noescape
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func square(out, in *[5]uint64)
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// mladder uses a Montgomery ladder to calculate (xr/zr) *= s.
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func mladder(xr, zr *[5]uint64, s *[32]byte) {
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var work [5][5]uint64
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work[0] = *xr
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setint(&work[1], 1)
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setint(&work[2], 0)
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work[3] = *xr
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setint(&work[4], 1)
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j := uint(6)
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var prevbit byte
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for i := 31; i >= 0; i-- {
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for j < 8 {
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bit := ((*s)[i] >> j) & 1
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swap := bit ^ prevbit
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prevbit = bit
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cswap(&work[1], uint64(swap))
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ladderstep(&work)
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j--
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}
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j = 7
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}
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*xr = work[1]
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*zr = work[2]
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}
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func scalarMult(out, in, base *[32]byte) {
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var e [32]byte
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copy(e[:], (*in)[:])
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e[0] &= 248
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e[31] &= 127
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e[31] |= 64
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var t, z [5]uint64
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unpack(&t, base)
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mladder(&t, &z, &e)
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invert(&z, &z)
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mul(&t, &t, &z)
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pack(out, &t)
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}
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func setint(r *[5]uint64, v uint64) {
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r[0] = v
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r[1] = 0
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r[2] = 0
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r[3] = 0
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r[4] = 0
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}
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// unpack sets r = x where r consists of 5, 51-bit limbs in little-endian
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// order.
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func unpack(r *[5]uint64, x *[32]byte) {
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r[0] = uint64(x[0]) |
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uint64(x[1])<<8 |
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uint64(x[2])<<16 |
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uint64(x[3])<<24 |
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uint64(x[4])<<32 |
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uint64(x[5])<<40 |
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uint64(x[6]&7)<<48
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r[1] = uint64(x[6])>>3 |
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uint64(x[7])<<5 |
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uint64(x[8])<<13 |
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uint64(x[9])<<21 |
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uint64(x[10])<<29 |
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uint64(x[11])<<37 |
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uint64(x[12]&63)<<45
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r[2] = uint64(x[12])>>6 |
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uint64(x[13])<<2 |
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uint64(x[14])<<10 |
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uint64(x[15])<<18 |
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uint64(x[16])<<26 |
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uint64(x[17])<<34 |
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uint64(x[18])<<42 |
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uint64(x[19]&1)<<50
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r[3] = uint64(x[19])>>1 |
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uint64(x[20])<<7 |
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uint64(x[21])<<15 |
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uint64(x[22])<<23 |
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uint64(x[23])<<31 |
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uint64(x[24])<<39 |
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uint64(x[25]&15)<<47
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r[4] = uint64(x[25])>>4 |
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uint64(x[26])<<4 |
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uint64(x[27])<<12 |
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uint64(x[28])<<20 |
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uint64(x[29])<<28 |
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uint64(x[30])<<36 |
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uint64(x[31]&127)<<44
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}
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// pack sets out = x where out is the usual, little-endian form of the 5,
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// 51-bit limbs in x.
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func pack(out *[32]byte, x *[5]uint64) {
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t := *x
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freeze(&t)
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out[0] = byte(t[0])
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out[1] = byte(t[0] >> 8)
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out[2] = byte(t[0] >> 16)
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out[3] = byte(t[0] >> 24)
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out[4] = byte(t[0] >> 32)
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out[5] = byte(t[0] >> 40)
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out[6] = byte(t[0] >> 48)
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out[6] ^= byte(t[1]<<3) & 0xf8
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out[7] = byte(t[1] >> 5)
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out[8] = byte(t[1] >> 13)
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out[9] = byte(t[1] >> 21)
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out[10] = byte(t[1] >> 29)
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out[11] = byte(t[1] >> 37)
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out[12] = byte(t[1] >> 45)
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out[12] ^= byte(t[2]<<6) & 0xc0
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out[13] = byte(t[2] >> 2)
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out[14] = byte(t[2] >> 10)
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out[15] = byte(t[2] >> 18)
|
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out[16] = byte(t[2] >> 26)
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out[17] = byte(t[2] >> 34)
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||||
out[18] = byte(t[2] >> 42)
|
||||
out[19] = byte(t[2] >> 50)
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||||
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out[19] ^= byte(t[3]<<1) & 0xfe
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||||
out[20] = byte(t[3] >> 7)
|
||||
out[21] = byte(t[3] >> 15)
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out[22] = byte(t[3] >> 23)
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||||
out[23] = byte(t[3] >> 31)
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out[24] = byte(t[3] >> 39)
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out[25] = byte(t[3] >> 47)
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out[25] ^= byte(t[4]<<4) & 0xf0
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out[26] = byte(t[4] >> 4)
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out[27] = byte(t[4] >> 12)
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out[28] = byte(t[4] >> 20)
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out[29] = byte(t[4] >> 28)
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out[30] = byte(t[4] >> 36)
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out[31] = byte(t[4] >> 44)
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}
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// invert calculates r = x^-1 mod p using Fermat's little theorem.
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func invert(r *[5]uint64, x *[5]uint64) {
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var z2, z9, z11, z2_5_0, z2_10_0, z2_20_0, z2_50_0, z2_100_0, t [5]uint64
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||||
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square(&z2, x) /* 2 */
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square(&t, &z2) /* 4 */
|
||||
square(&t, &t) /* 8 */
|
||||
mul(&z9, &t, x) /* 9 */
|
||||
mul(&z11, &z9, &z2) /* 11 */
|
||||
square(&t, &z11) /* 22 */
|
||||
mul(&z2_5_0, &t, &z9) /* 2^5 - 2^0 = 31 */
|
||||
|
||||
square(&t, &z2_5_0) /* 2^6 - 2^1 */
|
||||
for i := 1; i < 5; i++ { /* 2^20 - 2^10 */
|
||||
square(&t, &t)
|
||||
}
|
||||
mul(&z2_10_0, &t, &z2_5_0) /* 2^10 - 2^0 */
|
||||
|
||||
square(&t, &z2_10_0) /* 2^11 - 2^1 */
|
||||
for i := 1; i < 10; i++ { /* 2^20 - 2^10 */
|
||||
square(&t, &t)
|
||||
}
|
||||
mul(&z2_20_0, &t, &z2_10_0) /* 2^20 - 2^0 */
|
||||
|
||||
square(&t, &z2_20_0) /* 2^21 - 2^1 */
|
||||
for i := 1; i < 20; i++ { /* 2^40 - 2^20 */
|
||||
square(&t, &t)
|
||||
}
|
||||
mul(&t, &t, &z2_20_0) /* 2^40 - 2^0 */
|
||||
|
||||
square(&t, &t) /* 2^41 - 2^1 */
|
||||
for i := 1; i < 10; i++ { /* 2^50 - 2^10 */
|
||||
square(&t, &t)
|
||||
}
|
||||
mul(&z2_50_0, &t, &z2_10_0) /* 2^50 - 2^0 */
|
||||
|
||||
square(&t, &z2_50_0) /* 2^51 - 2^1 */
|
||||
for i := 1; i < 50; i++ { /* 2^100 - 2^50 */
|
||||
square(&t, &t)
|
||||
}
|
||||
mul(&z2_100_0, &t, &z2_50_0) /* 2^100 - 2^0 */
|
||||
|
||||
square(&t, &z2_100_0) /* 2^101 - 2^1 */
|
||||
for i := 1; i < 100; i++ { /* 2^200 - 2^100 */
|
||||
square(&t, &t)
|
||||
}
|
||||
mul(&t, &t, &z2_100_0) /* 2^200 - 2^0 */
|
||||
|
||||
square(&t, &t) /* 2^201 - 2^1 */
|
||||
for i := 1; i < 50; i++ { /* 2^250 - 2^50 */
|
||||
square(&t, &t)
|
||||
}
|
||||
mul(&t, &t, &z2_50_0) /* 2^250 - 2^0 */
|
||||
|
||||
square(&t, &t) /* 2^251 - 2^1 */
|
||||
square(&t, &t) /* 2^252 - 2^2 */
|
||||
square(&t, &t) /* 2^253 - 2^3 */
|
||||
|
||||
square(&t, &t) /* 2^254 - 2^4 */
|
||||
|
||||
square(&t, &t) /* 2^255 - 2^5 */
|
||||
mul(r, &t, &z11) /* 2^255 - 21 */
|
||||
}
|
1793
src/vendor/golang.org/x/crypto/curve25519/curve25519_amd64.s
generated
vendored
1793
src/vendor/golang.org/x/crypto/curve25519/curve25519_amd64.s
generated
vendored
File diff suppressed because it is too large
Load Diff
828
src/vendor/golang.org/x/crypto/curve25519/curve25519_generic.go
generated
vendored
828
src/vendor/golang.org/x/crypto/curve25519/curve25519_generic.go
generated
vendored
@ -1,828 +0,0 @@
|
||||
// Copyright 2013 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 curve25519
|
||||
|
||||
import "encoding/binary"
|
||||
|
||||
// This code is a port of the public domain, "ref10" implementation of
|
||||
// curve25519 from SUPERCOP 20130419 by D. J. Bernstein.
|
||||
|
||||
// fieldElement represents an element of the field GF(2^255 - 19). An element
|
||||
// t, entries t[0]...t[9], represents the integer t[0]+2^26 t[1]+2^51 t[2]+2^77
|
||||
// t[3]+2^102 t[4]+...+2^230 t[9]. Bounds on each t[i] vary depending on
|
||||
// context.
|
||||
type fieldElement [10]int32
|
||||
|
||||
func feZero(fe *fieldElement) {
|
||||
for i := range fe {
|
||||
fe[i] = 0
|
||||
}
|
||||
}
|
||||
|
||||
func feOne(fe *fieldElement) {
|
||||
feZero(fe)
|
||||
fe[0] = 1
|
||||
}
|
||||
|
||||
func feAdd(dst, a, b *fieldElement) {
|
||||
for i := range dst {
|
||||
dst[i] = a[i] + b[i]
|
||||
}
|
||||
}
|
||||
|
||||
func feSub(dst, a, b *fieldElement) {
|
||||
for i := range dst {
|
||||
dst[i] = a[i] - b[i]
|
||||
}
|
||||
}
|
||||
|
||||
func feCopy(dst, src *fieldElement) {
|
||||
for i := range dst {
|
||||
dst[i] = src[i]
|
||||
}
|
||||
}
|
||||
|
||||
// feCSwap replaces (f,g) with (g,f) if b == 1; replaces (f,g) with (f,g) if b == 0.
|
||||
//
|
||||
// Preconditions: b in {0,1}.
|
||||
func feCSwap(f, g *fieldElement, b int32) {
|
||||
b = -b
|
||||
for i := range f {
|
||||
t := b & (f[i] ^ g[i])
|
||||
f[i] ^= t
|
||||
g[i] ^= t
|
||||
}
|
||||
}
|
||||
|
||||
// load3 reads a 24-bit, little-endian value from in.
|
||||
func load3(in []byte) int64 {
|
||||
var r int64
|
||||
r = int64(in[0])
|
||||
r |= int64(in[1]) << 8
|
||||
r |= int64(in[2]) << 16
|
||||
return r
|
||||
}
|
||||
|
||||
// load4 reads a 32-bit, little-endian value from in.
|
||||
func load4(in []byte) int64 {
|
||||
return int64(binary.LittleEndian.Uint32(in))
|
||||
}
|
||||
|
||||
func feFromBytes(dst *fieldElement, src *[32]byte) {
|
||||
h0 := load4(src[:])
|
||||
h1 := load3(src[4:]) << 6
|
||||
h2 := load3(src[7:]) << 5
|
||||
h3 := load3(src[10:]) << 3
|
||||
h4 := load3(src[13:]) << 2
|
||||
h5 := load4(src[16:])
|
||||
h6 := load3(src[20:]) << 7
|
||||
h7 := load3(src[23:]) << 5
|
||||
h8 := load3(src[26:]) << 4
|
||||
h9 := (load3(src[29:]) & 0x7fffff) << 2
|
||||
|
||||
var carry [10]int64
|
||||
carry[9] = (h9 + 1<<24) >> 25
|
||||
h0 += carry[9] * 19
|
||||
h9 -= carry[9] << 25
|
||||
carry[1] = (h1 + 1<<24) >> 25
|
||||
h2 += carry[1]
|
||||
h1 -= carry[1] << 25
|
||||
carry[3] = (h3 + 1<<24) >> 25
|
||||
h4 += carry[3]
|
||||
h3 -= carry[3] << 25
|
||||
carry[5] = (h5 + 1<<24) >> 25
|
||||
h6 += carry[5]
|
||||
h5 -= carry[5] << 25
|
||||
carry[7] = (h7 + 1<<24) >> 25
|
||||
h8 += carry[7]
|
||||
h7 -= carry[7] << 25
|
||||
|
||||
carry[0] = (h0 + 1<<25) >> 26
|
||||
h1 += carry[0]
|
||||
h0 -= carry[0] << 26
|
||||
carry[2] = (h2 + 1<<25) >> 26
|
||||
h3 += carry[2]
|
||||
h2 -= carry[2] << 26
|
||||
carry[4] = (h4 + 1<<25) >> 26
|
||||
h5 += carry[4]
|
||||
h4 -= carry[4] << 26
|
||||
carry[6] = (h6 + 1<<25) >> 26
|
||||
h7 += carry[6]
|
||||
h6 -= carry[6] << 26
|
||||
carry[8] = (h8 + 1<<25) >> 26
|
||||
h9 += carry[8]
|
||||
h8 -= carry[8] << 26
|
||||
|
||||
dst[0] = int32(h0)
|
||||
dst[1] = int32(h1)
|
||||
dst[2] = int32(h2)
|
||||
dst[3] = int32(h3)
|
||||
dst[4] = int32(h4)
|
||||
dst[5] = int32(h5)
|
||||
dst[6] = int32(h6)
|
||||
dst[7] = int32(h7)
|
||||
dst[8] = int32(h8)
|
||||
dst[9] = int32(h9)
|
||||
}
|
||||
|
||||
// feToBytes marshals h to s.
|
||||
// Preconditions:
|
||||
// |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc.
|
||||
//
|
||||
// Write p=2^255-19; q=floor(h/p).
|
||||
// Basic claim: q = floor(2^(-255)(h + 19 2^(-25)h9 + 2^(-1))).
|
||||
//
|
||||
// Proof:
|
||||
// Have |h|<=p so |q|<=1 so |19^2 2^(-255) q|<1/4.
|
||||
// Also have |h-2^230 h9|<2^230 so |19 2^(-255)(h-2^230 h9)|<1/4.
|
||||
//
|
||||
// Write y=2^(-1)-19^2 2^(-255)q-19 2^(-255)(h-2^230 h9).
|
||||
// Then 0<y<1.
|
||||
//
|
||||
// Write r=h-pq.
|
||||
// Have 0<=r<=p-1=2^255-20.
|
||||
// Thus 0<=r+19(2^-255)r<r+19(2^-255)2^255<=2^255-1.
|
||||
//
|
||||
// Write x=r+19(2^-255)r+y.
|
||||
// Then 0<x<2^255 so floor(2^(-255)x) = 0 so floor(q+2^(-255)x) = q.
|
||||
//
|
||||
// Have q+2^(-255)x = 2^(-255)(h + 19 2^(-25) h9 + 2^(-1))
|
||||
// so floor(2^(-255)(h + 19 2^(-25) h9 + 2^(-1))) = q.
|
||||
func feToBytes(s *[32]byte, h *fieldElement) {
|
||||
var carry [10]int32
|
||||
|
||||
q := (19*h[9] + (1 << 24)) >> 25
|
||||
q = (h[0] + q) >> 26
|
||||
q = (h[1] + q) >> 25
|
||||
q = (h[2] + q) >> 26
|
||||
q = (h[3] + q) >> 25
|
||||
q = (h[4] + q) >> 26
|
||||
q = (h[5] + q) >> 25
|
||||
q = (h[6] + q) >> 26
|
||||
q = (h[7] + q) >> 25
|
||||
q = (h[8] + q) >> 26
|
||||
q = (h[9] + q) >> 25
|
||||
|
||||
// Goal: Output h-(2^255-19)q, which is between 0 and 2^255-20.
|
||||
h[0] += 19 * q
|
||||
// Goal: Output h-2^255 q, which is between 0 and 2^255-20.
|
||||
|
||||
carry[0] = h[0] >> 26
|
||||
h[1] += carry[0]
|
||||
h[0] -= carry[0] << 26
|
||||
carry[1] = h[1] >> 25
|
||||
h[2] += carry[1]
|
||||
h[1] -= carry[1] << 25
|
||||
carry[2] = h[2] >> 26
|
||||
h[3] += carry[2]
|
||||
h[2] -= carry[2] << 26
|
||||
carry[3] = h[3] >> 25
|
||||
h[4] += carry[3]
|
||||
h[3] -= carry[3] << 25
|
||||
carry[4] = h[4] >> 26
|
||||
h[5] += carry[4]
|
||||
h[4] -= carry[4] << 26
|
||||
carry[5] = h[5] >> 25
|
||||
h[6] += carry[5]
|
||||
h[5] -= carry[5] << 25
|
||||
carry[6] = h[6] >> 26
|
||||
h[7] += carry[6]
|
||||
h[6] -= carry[6] << 26
|
||||
carry[7] = h[7] >> 25
|
||||
h[8] += carry[7]
|
||||
h[7] -= carry[7] << 25
|
||||
carry[8] = h[8] >> 26
|
||||
h[9] += carry[8]
|
||||
h[8] -= carry[8] << 26
|
||||
carry[9] = h[9] >> 25
|
||||
h[9] -= carry[9] << 25
|
||||
// h10 = carry9
|
||||
|
||||
// Goal: Output h[0]+...+2^255 h10-2^255 q, which is between 0 and 2^255-20.
|
||||
// Have h[0]+...+2^230 h[9] between 0 and 2^255-1;
|
||||
// evidently 2^255 h10-2^255 q = 0.
|
||||
// Goal: Output h[0]+...+2^230 h[9].
|
||||
|
||||
s[0] = byte(h[0] >> 0)
|
||||
s[1] = byte(h[0] >> 8)
|
||||
s[2] = byte(h[0] >> 16)
|
||||
s[3] = byte((h[0] >> 24) | (h[1] << 2))
|
||||
s[4] = byte(h[1] >> 6)
|
||||
s[5] = byte(h[1] >> 14)
|
||||
s[6] = byte((h[1] >> 22) | (h[2] << 3))
|
||||
s[7] = byte(h[2] >> 5)
|
||||
s[8] = byte(h[2] >> 13)
|
||||
s[9] = byte((h[2] >> 21) | (h[3] << 5))
|
||||
s[10] = byte(h[3] >> 3)
|
||||
s[11] = byte(h[3] >> 11)
|
||||
s[12] = byte((h[3] >> 19) | (h[4] << 6))
|
||||
s[13] = byte(h[4] >> 2)
|
||||
s[14] = byte(h[4] >> 10)
|
||||
s[15] = byte(h[4] >> 18)
|
||||
s[16] = byte(h[5] >> 0)
|
||||
s[17] = byte(h[5] >> 8)
|
||||
s[18] = byte(h[5] >> 16)
|
||||
s[19] = byte((h[5] >> 24) | (h[6] << 1))
|
||||
s[20] = byte(h[6] >> 7)
|
||||
s[21] = byte(h[6] >> 15)
|
||||
s[22] = byte((h[6] >> 23) | (h[7] << 3))
|
||||
s[23] = byte(h[7] >> 5)
|
||||
s[24] = byte(h[7] >> 13)
|
||||
s[25] = byte((h[7] >> 21) | (h[8] << 4))
|
||||
s[26] = byte(h[8] >> 4)
|
||||
s[27] = byte(h[8] >> 12)
|
||||
s[28] = byte((h[8] >> 20) | (h[9] << 6))
|
||||
s[29] = byte(h[9] >> 2)
|
||||
s[30] = byte(h[9] >> 10)
|
||||
s[31] = byte(h[9] >> 18)
|
||||
}
|
||||
|
||||
// feMul calculates h = f * g
|
||||
// Can overlap h with f or g.
|
||||
//
|
||||
// Preconditions:
|
||||
// |f| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc.
|
||||
// |g| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc.
|
||||
//
|
||||
// Postconditions:
|
||||
// |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc.
|
||||
//
|
||||
// Notes on implementation strategy:
|
||||
//
|
||||
// Using schoolbook multiplication.
|
||||
// Karatsuba would save a little in some cost models.
|
||||
//
|
||||
// Most multiplications by 2 and 19 are 32-bit precomputations;
|
||||
// cheaper than 64-bit postcomputations.
|
||||
//
|
||||
// There is one remaining multiplication by 19 in the carry chain;
|
||||
// one *19 precomputation can be merged into this,
|
||||
// but the resulting data flow is considerably less clean.
|
||||
//
|
||||
// There are 12 carries below.
|
||||
// 10 of them are 2-way parallelizable and vectorizable.
|
||||
// Can get away with 11 carries, but then data flow is much deeper.
|
||||
//
|
||||
// With tighter constraints on inputs can squeeze carries into int32.
|
||||
func feMul(h, f, g *fieldElement) {
|
||||
f0 := f[0]
|
||||
f1 := f[1]
|
||||
f2 := f[2]
|
||||
f3 := f[3]
|
||||
f4 := f[4]
|
||||
f5 := f[5]
|
||||
f6 := f[6]
|
||||
f7 := f[7]
|
||||
f8 := f[8]
|
||||
f9 := f[9]
|
||||
g0 := g[0]
|
||||
g1 := g[1]
|
||||
g2 := g[2]
|
||||
g3 := g[3]
|
||||
g4 := g[4]
|
||||
g5 := g[5]
|
||||
g6 := g[6]
|
||||
g7 := g[7]
|
||||
g8 := g[8]
|
||||
g9 := g[9]
|
||||
g1_19 := 19 * g1 // 1.4*2^29
|
||||
g2_19 := 19 * g2 // 1.4*2^30; still ok
|
||||
g3_19 := 19 * g3
|
||||
g4_19 := 19 * g4
|
||||
g5_19 := 19 * g5
|
||||
g6_19 := 19 * g6
|
||||
g7_19 := 19 * g7
|
||||
g8_19 := 19 * g8
|
||||
g9_19 := 19 * g9
|
||||
f1_2 := 2 * f1
|
||||
f3_2 := 2 * f3
|
||||
f5_2 := 2 * f5
|
||||
f7_2 := 2 * f7
|
||||
f9_2 := 2 * f9
|
||||
f0g0 := int64(f0) * int64(g0)
|
||||
f0g1 := int64(f0) * int64(g1)
|
||||
f0g2 := int64(f0) * int64(g2)
|
||||
f0g3 := int64(f0) * int64(g3)
|
||||
f0g4 := int64(f0) * int64(g4)
|
||||
f0g5 := int64(f0) * int64(g5)
|
||||
f0g6 := int64(f0) * int64(g6)
|
||||
f0g7 := int64(f0) * int64(g7)
|
||||
f0g8 := int64(f0) * int64(g8)
|
||||
f0g9 := int64(f0) * int64(g9)
|
||||
f1g0 := int64(f1) * int64(g0)
|
||||
f1g1_2 := int64(f1_2) * int64(g1)
|
||||
f1g2 := int64(f1) * int64(g2)
|
||||
f1g3_2 := int64(f1_2) * int64(g3)
|
||||
f1g4 := int64(f1) * int64(g4)
|
||||
f1g5_2 := int64(f1_2) * int64(g5)
|
||||
f1g6 := int64(f1) * int64(g6)
|
||||
f1g7_2 := int64(f1_2) * int64(g7)
|
||||
f1g8 := int64(f1) * int64(g8)
|
||||
f1g9_38 := int64(f1_2) * int64(g9_19)
|
||||
f2g0 := int64(f2) * int64(g0)
|
||||
f2g1 := int64(f2) * int64(g1)
|
||||
f2g2 := int64(f2) * int64(g2)
|
||||
f2g3 := int64(f2) * int64(g3)
|
||||
f2g4 := int64(f2) * int64(g4)
|
||||
f2g5 := int64(f2) * int64(g5)
|
||||
f2g6 := int64(f2) * int64(g6)
|
||||
f2g7 := int64(f2) * int64(g7)
|
||||
f2g8_19 := int64(f2) * int64(g8_19)
|
||||
f2g9_19 := int64(f2) * int64(g9_19)
|
||||
f3g0 := int64(f3) * int64(g0)
|
||||
f3g1_2 := int64(f3_2) * int64(g1)
|
||||
f3g2 := int64(f3) * int64(g2)
|
||||
f3g3_2 := int64(f3_2) * int64(g3)
|
||||
f3g4 := int64(f3) * int64(g4)
|
||||
f3g5_2 := int64(f3_2) * int64(g5)
|
||||
f3g6 := int64(f3) * int64(g6)
|
||||
f3g7_38 := int64(f3_2) * int64(g7_19)
|
||||
f3g8_19 := int64(f3) * int64(g8_19)
|
||||
f3g9_38 := int64(f3_2) * int64(g9_19)
|
||||
f4g0 := int64(f4) * int64(g0)
|
||||
f4g1 := int64(f4) * int64(g1)
|
||||
f4g2 := int64(f4) * int64(g2)
|
||||
f4g3 := int64(f4) * int64(g3)
|
||||
f4g4 := int64(f4) * int64(g4)
|
||||
f4g5 := int64(f4) * int64(g5)
|
||||
f4g6_19 := int64(f4) * int64(g6_19)
|
||||
f4g7_19 := int64(f4) * int64(g7_19)
|
||||
f4g8_19 := int64(f4) * int64(g8_19)
|
||||
f4g9_19 := int64(f4) * int64(g9_19)
|
||||
f5g0 := int64(f5) * int64(g0)
|
||||
f5g1_2 := int64(f5_2) * int64(g1)
|
||||
f5g2 := int64(f5) * int64(g2)
|
||||
f5g3_2 := int64(f5_2) * int64(g3)
|
||||
f5g4 := int64(f5) * int64(g4)
|
||||
f5g5_38 := int64(f5_2) * int64(g5_19)
|
||||
f5g6_19 := int64(f5) * int64(g6_19)
|
||||
f5g7_38 := int64(f5_2) * int64(g7_19)
|
||||
f5g8_19 := int64(f5) * int64(g8_19)
|
||||
f5g9_38 := int64(f5_2) * int64(g9_19)
|
||||
f6g0 := int64(f6) * int64(g0)
|
||||
f6g1 := int64(f6) * int64(g1)
|
||||
f6g2 := int64(f6) * int64(g2)
|
||||
f6g3 := int64(f6) * int64(g3)
|
||||
f6g4_19 := int64(f6) * int64(g4_19)
|
||||
f6g5_19 := int64(f6) * int64(g5_19)
|
||||
f6g6_19 := int64(f6) * int64(g6_19)
|
||||
f6g7_19 := int64(f6) * int64(g7_19)
|
||||
f6g8_19 := int64(f6) * int64(g8_19)
|
||||
f6g9_19 := int64(f6) * int64(g9_19)
|
||||
f7g0 := int64(f7) * int64(g0)
|
||||
f7g1_2 := int64(f7_2) * int64(g1)
|
||||
f7g2 := int64(f7) * int64(g2)
|
||||
f7g3_38 := int64(f7_2) * int64(g3_19)
|
||||
f7g4_19 := int64(f7) * int64(g4_19)
|
||||
f7g5_38 := int64(f7_2) * int64(g5_19)
|
||||
f7g6_19 := int64(f7) * int64(g6_19)
|
||||
f7g7_38 := int64(f7_2) * int64(g7_19)
|
||||
f7g8_19 := int64(f7) * int64(g8_19)
|
||||
f7g9_38 := int64(f7_2) * int64(g9_19)
|
||||
f8g0 := int64(f8) * int64(g0)
|
||||
f8g1 := int64(f8) * int64(g1)
|
||||
f8g2_19 := int64(f8) * int64(g2_19)
|
||||
f8g3_19 := int64(f8) * int64(g3_19)
|
||||
f8g4_19 := int64(f8) * int64(g4_19)
|
||||
f8g5_19 := int64(f8) * int64(g5_19)
|
||||
f8g6_19 := int64(f8) * int64(g6_19)
|
||||
f8g7_19 := int64(f8) * int64(g7_19)
|
||||
f8g8_19 := int64(f8) * int64(g8_19)
|
||||
f8g9_19 := int64(f8) * int64(g9_19)
|
||||
f9g0 := int64(f9) * int64(g0)
|
||||
f9g1_38 := int64(f9_2) * int64(g1_19)
|
||||
f9g2_19 := int64(f9) * int64(g2_19)
|
||||
f9g3_38 := int64(f9_2) * int64(g3_19)
|
||||
f9g4_19 := int64(f9) * int64(g4_19)
|
||||
f9g5_38 := int64(f9_2) * int64(g5_19)
|
||||
f9g6_19 := int64(f9) * int64(g6_19)
|
||||
f9g7_38 := int64(f9_2) * int64(g7_19)
|
||||
f9g8_19 := int64(f9) * int64(g8_19)
|
||||
f9g9_38 := int64(f9_2) * int64(g9_19)
|
||||
h0 := f0g0 + f1g9_38 + f2g8_19 + f3g7_38 + f4g6_19 + f5g5_38 + f6g4_19 + f7g3_38 + f8g2_19 + f9g1_38
|
||||
h1 := f0g1 + f1g0 + f2g9_19 + f3g8_19 + f4g7_19 + f5g6_19 + f6g5_19 + f7g4_19 + f8g3_19 + f9g2_19
|
||||
h2 := f0g2 + f1g1_2 + f2g0 + f3g9_38 + f4g8_19 + f5g7_38 + f6g6_19 + f7g5_38 + f8g4_19 + f9g3_38
|
||||
h3 := f0g3 + f1g2 + f2g1 + f3g0 + f4g9_19 + f5g8_19 + f6g7_19 + f7g6_19 + f8g5_19 + f9g4_19
|
||||
h4 := f0g4 + f1g3_2 + f2g2 + f3g1_2 + f4g0 + f5g9_38 + f6g8_19 + f7g7_38 + f8g6_19 + f9g5_38
|
||||
h5 := f0g5 + f1g4 + f2g3 + f3g2 + f4g1 + f5g0 + f6g9_19 + f7g8_19 + f8g7_19 + f9g6_19
|
||||
h6 := f0g6 + f1g5_2 + f2g4 + f3g3_2 + f4g2 + f5g1_2 + f6g0 + f7g9_38 + f8g8_19 + f9g7_38
|
||||
h7 := f0g7 + f1g6 + f2g5 + f3g4 + f4g3 + f5g2 + f6g1 + f7g0 + f8g9_19 + f9g8_19
|
||||
h8 := f0g8 + f1g7_2 + f2g6 + f3g5_2 + f4g4 + f5g3_2 + f6g2 + f7g1_2 + f8g0 + f9g9_38
|
||||
h9 := f0g9 + f1g8 + f2g7 + f3g6 + f4g5 + f5g4 + f6g3 + f7g2 + f8g1 + f9g0
|
||||
var carry [10]int64
|
||||
|
||||
// |h0| <= (1.1*1.1*2^52*(1+19+19+19+19)+1.1*1.1*2^50*(38+38+38+38+38))
|
||||
// i.e. |h0| <= 1.2*2^59; narrower ranges for h2, h4, h6, h8
|
||||
// |h1| <= (1.1*1.1*2^51*(1+1+19+19+19+19+19+19+19+19))
|
||||
// i.e. |h1| <= 1.5*2^58; narrower ranges for h3, h5, h7, h9
|
||||
|
||||
carry[0] = (h0 + (1 << 25)) >> 26
|
||||
h1 += carry[0]
|
||||
h0 -= carry[0] << 26
|
||||
carry[4] = (h4 + (1 << 25)) >> 26
|
||||
h5 += carry[4]
|
||||
h4 -= carry[4] << 26
|
||||
// |h0| <= 2^25
|
||||
// |h4| <= 2^25
|
||||
// |h1| <= 1.51*2^58
|
||||
// |h5| <= 1.51*2^58
|
||||
|
||||
carry[1] = (h1 + (1 << 24)) >> 25
|
||||
h2 += carry[1]
|
||||
h1 -= carry[1] << 25
|
||||
carry[5] = (h5 + (1 << 24)) >> 25
|
||||
h6 += carry[5]
|
||||
h5 -= carry[5] << 25
|
||||
// |h1| <= 2^24; from now on fits into int32
|
||||
// |h5| <= 2^24; from now on fits into int32
|
||||
// |h2| <= 1.21*2^59
|
||||
// |h6| <= 1.21*2^59
|
||||
|
||||
carry[2] = (h2 + (1 << 25)) >> 26
|
||||
h3 += carry[2]
|
||||
h2 -= carry[2] << 26
|
||||
carry[6] = (h6 + (1 << 25)) >> 26
|
||||
h7 += carry[6]
|
||||
h6 -= carry[6] << 26
|
||||
// |h2| <= 2^25; from now on fits into int32 unchanged
|
||||
// |h6| <= 2^25; from now on fits into int32 unchanged
|
||||
// |h3| <= 1.51*2^58
|
||||
// |h7| <= 1.51*2^58
|
||||
|
||||
carry[3] = (h3 + (1 << 24)) >> 25
|
||||
h4 += carry[3]
|
||||
h3 -= carry[3] << 25
|
||||
carry[7] = (h7 + (1 << 24)) >> 25
|
||||
h8 += carry[7]
|
||||
h7 -= carry[7] << 25
|
||||
// |h3| <= 2^24; from now on fits into int32 unchanged
|
||||
// |h7| <= 2^24; from now on fits into int32 unchanged
|
||||
// |h4| <= 1.52*2^33
|
||||
// |h8| <= 1.52*2^33
|
||||
|
||||
carry[4] = (h4 + (1 << 25)) >> 26
|
||||
h5 += carry[4]
|
||||
h4 -= carry[4] << 26
|
||||
carry[8] = (h8 + (1 << 25)) >> 26
|
||||
h9 += carry[8]
|
||||
h8 -= carry[8] << 26
|
||||
// |h4| <= 2^25; from now on fits into int32 unchanged
|
||||
// |h8| <= 2^25; from now on fits into int32 unchanged
|
||||
// |h5| <= 1.01*2^24
|
||||
// |h9| <= 1.51*2^58
|
||||
|
||||
carry[9] = (h9 + (1 << 24)) >> 25
|
||||
h0 += carry[9] * 19
|
||||
h9 -= carry[9] << 25
|
||||
// |h9| <= 2^24; from now on fits into int32 unchanged
|
||||
// |h0| <= 1.8*2^37
|
||||
|
||||
carry[0] = (h0 + (1 << 25)) >> 26
|
||||
h1 += carry[0]
|
||||
h0 -= carry[0] << 26
|
||||
// |h0| <= 2^25; from now on fits into int32 unchanged
|
||||
// |h1| <= 1.01*2^24
|
||||
|
||||
h[0] = int32(h0)
|
||||
h[1] = int32(h1)
|
||||
h[2] = int32(h2)
|
||||
h[3] = int32(h3)
|
||||
h[4] = int32(h4)
|
||||
h[5] = int32(h5)
|
||||
h[6] = int32(h6)
|
||||
h[7] = int32(h7)
|
||||
h[8] = int32(h8)
|
||||
h[9] = int32(h9)
|
||||
}
|
||||
|
||||
// feSquare calculates h = f*f. Can overlap h with f.
|
||||
//
|
||||
// Preconditions:
|
||||
// |f| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc.
|
||||
//
|
||||
// Postconditions:
|
||||
// |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc.
|
||||
func feSquare(h, f *fieldElement) {
|
||||
f0 := f[0]
|
||||
f1 := f[1]
|
||||
f2 := f[2]
|
||||
f3 := f[3]
|
||||
f4 := f[4]
|
||||
f5 := f[5]
|
||||
f6 := f[6]
|
||||
f7 := f[7]
|
||||
f8 := f[8]
|
||||
f9 := f[9]
|
||||
f0_2 := 2 * f0
|
||||
f1_2 := 2 * f1
|
||||
f2_2 := 2 * f2
|
||||
f3_2 := 2 * f3
|
||||
f4_2 := 2 * f4
|
||||
f5_2 := 2 * f5
|
||||
f6_2 := 2 * f6
|
||||
f7_2 := 2 * f7
|
||||
f5_38 := 38 * f5 // 1.31*2^30
|
||||
f6_19 := 19 * f6 // 1.31*2^30
|
||||
f7_38 := 38 * f7 // 1.31*2^30
|
||||
f8_19 := 19 * f8 // 1.31*2^30
|
||||
f9_38 := 38 * f9 // 1.31*2^30
|
||||
f0f0 := int64(f0) * int64(f0)
|
||||
f0f1_2 := int64(f0_2) * int64(f1)
|
||||
f0f2_2 := int64(f0_2) * int64(f2)
|
||||
f0f3_2 := int64(f0_2) * int64(f3)
|
||||
f0f4_2 := int64(f0_2) * int64(f4)
|
||||
f0f5_2 := int64(f0_2) * int64(f5)
|
||||
f0f6_2 := int64(f0_2) * int64(f6)
|
||||
f0f7_2 := int64(f0_2) * int64(f7)
|
||||
f0f8_2 := int64(f0_2) * int64(f8)
|
||||
f0f9_2 := int64(f0_2) * int64(f9)
|
||||
f1f1_2 := int64(f1_2) * int64(f1)
|
||||
f1f2_2 := int64(f1_2) * int64(f2)
|
||||
f1f3_4 := int64(f1_2) * int64(f3_2)
|
||||
f1f4_2 := int64(f1_2) * int64(f4)
|
||||
f1f5_4 := int64(f1_2) * int64(f5_2)
|
||||
f1f6_2 := int64(f1_2) * int64(f6)
|
||||
f1f7_4 := int64(f1_2) * int64(f7_2)
|
||||
f1f8_2 := int64(f1_2) * int64(f8)
|
||||
f1f9_76 := int64(f1_2) * int64(f9_38)
|
||||
f2f2 := int64(f2) * int64(f2)
|
||||
f2f3_2 := int64(f2_2) * int64(f3)
|
||||
f2f4_2 := int64(f2_2) * int64(f4)
|
||||
f2f5_2 := int64(f2_2) * int64(f5)
|
||||
f2f6_2 := int64(f2_2) * int64(f6)
|
||||
f2f7_2 := int64(f2_2) * int64(f7)
|
||||
f2f8_38 := int64(f2_2) * int64(f8_19)
|
||||
f2f9_38 := int64(f2) * int64(f9_38)
|
||||
f3f3_2 := int64(f3_2) * int64(f3)
|
||||
f3f4_2 := int64(f3_2) * int64(f4)
|
||||
f3f5_4 := int64(f3_2) * int64(f5_2)
|
||||
f3f6_2 := int64(f3_2) * int64(f6)
|
||||
f3f7_76 := int64(f3_2) * int64(f7_38)
|
||||
f3f8_38 := int64(f3_2) * int64(f8_19)
|
||||
f3f9_76 := int64(f3_2) * int64(f9_38)
|
||||
f4f4 := int64(f4) * int64(f4)
|
||||
f4f5_2 := int64(f4_2) * int64(f5)
|
||||
f4f6_38 := int64(f4_2) * int64(f6_19)
|
||||
f4f7_38 := int64(f4) * int64(f7_38)
|
||||
f4f8_38 := int64(f4_2) * int64(f8_19)
|
||||
f4f9_38 := int64(f4) * int64(f9_38)
|
||||
f5f5_38 := int64(f5) * int64(f5_38)
|
||||
f5f6_38 := int64(f5_2) * int64(f6_19)
|
||||
f5f7_76 := int64(f5_2) * int64(f7_38)
|
||||
f5f8_38 := int64(f5_2) * int64(f8_19)
|
||||
f5f9_76 := int64(f5_2) * int64(f9_38)
|
||||
f6f6_19 := int64(f6) * int64(f6_19)
|
||||
f6f7_38 := int64(f6) * int64(f7_38)
|
||||
f6f8_38 := int64(f6_2) * int64(f8_19)
|
||||
f6f9_38 := int64(f6) * int64(f9_38)
|
||||
f7f7_38 := int64(f7) * int64(f7_38)
|
||||
f7f8_38 := int64(f7_2) * int64(f8_19)
|
||||
f7f9_76 := int64(f7_2) * int64(f9_38)
|
||||
f8f8_19 := int64(f8) * int64(f8_19)
|
||||
f8f9_38 := int64(f8) * int64(f9_38)
|
||||
f9f9_38 := int64(f9) * int64(f9_38)
|
||||
h0 := f0f0 + f1f9_76 + f2f8_38 + f3f7_76 + f4f6_38 + f5f5_38
|
||||
h1 := f0f1_2 + f2f9_38 + f3f8_38 + f4f7_38 + f5f6_38
|
||||
h2 := f0f2_2 + f1f1_2 + f3f9_76 + f4f8_38 + f5f7_76 + f6f6_19
|
||||
h3 := f0f3_2 + f1f2_2 + f4f9_38 + f5f8_38 + f6f7_38
|
||||
h4 := f0f4_2 + f1f3_4 + f2f2 + f5f9_76 + f6f8_38 + f7f7_38
|
||||
h5 := f0f5_2 + f1f4_2 + f2f3_2 + f6f9_38 + f7f8_38
|
||||
h6 := f0f6_2 + f1f5_4 + f2f4_2 + f3f3_2 + f7f9_76 + f8f8_19
|
||||
h7 := f0f7_2 + f1f6_2 + f2f5_2 + f3f4_2 + f8f9_38
|
||||
h8 := f0f8_2 + f1f7_4 + f2f6_2 + f3f5_4 + f4f4 + f9f9_38
|
||||
h9 := f0f9_2 + f1f8_2 + f2f7_2 + f3f6_2 + f4f5_2
|
||||
var carry [10]int64
|
||||
|
||||
carry[0] = (h0 + (1 << 25)) >> 26
|
||||
h1 += carry[0]
|
||||
h0 -= carry[0] << 26
|
||||
carry[4] = (h4 + (1 << 25)) >> 26
|
||||
h5 += carry[4]
|
||||
h4 -= carry[4] << 26
|
||||
|
||||
carry[1] = (h1 + (1 << 24)) >> 25
|
||||
h2 += carry[1]
|
||||
h1 -= carry[1] << 25
|
||||
carry[5] = (h5 + (1 << 24)) >> 25
|
||||
h6 += carry[5]
|
||||
h5 -= carry[5] << 25
|
||||
|
||||
carry[2] = (h2 + (1 << 25)) >> 26
|
||||
h3 += carry[2]
|
||||
h2 -= carry[2] << 26
|
||||
carry[6] = (h6 + (1 << 25)) >> 26
|
||||
h7 += carry[6]
|
||||
h6 -= carry[6] << 26
|
||||
|
||||
carry[3] = (h3 + (1 << 24)) >> 25
|
||||
h4 += carry[3]
|
||||
h3 -= carry[3] << 25
|
||||
carry[7] = (h7 + (1 << 24)) >> 25
|
||||
h8 += carry[7]
|
||||
h7 -= carry[7] << 25
|
||||
|
||||
carry[4] = (h4 + (1 << 25)) >> 26
|
||||
h5 += carry[4]
|
||||
h4 -= carry[4] << 26
|
||||
carry[8] = (h8 + (1 << 25)) >> 26
|
||||
h9 += carry[8]
|
||||
h8 -= carry[8] << 26
|
||||
|
||||
carry[9] = (h9 + (1 << 24)) >> 25
|
||||
h0 += carry[9] * 19
|
||||
h9 -= carry[9] << 25
|
||||
|
||||
carry[0] = (h0 + (1 << 25)) >> 26
|
||||
h1 += carry[0]
|
||||
h0 -= carry[0] << 26
|
||||
|
||||
h[0] = int32(h0)
|
||||
h[1] = int32(h1)
|
||||
h[2] = int32(h2)
|
||||
h[3] = int32(h3)
|
||||
h[4] = int32(h4)
|
||||
h[5] = int32(h5)
|
||||
h[6] = int32(h6)
|
||||
h[7] = int32(h7)
|
||||
h[8] = int32(h8)
|
||||
h[9] = int32(h9)
|
||||
}
|
||||
|
||||
// feMul121666 calculates h = f * 121666. Can overlap h with f.
|
||||
//
|
||||
// Preconditions:
|
||||
// |f| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc.
|
||||
//
|
||||
// Postconditions:
|
||||
// |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc.
|
||||
func feMul121666(h, f *fieldElement) {
|
||||
h0 := int64(f[0]) * 121666
|
||||
h1 := int64(f[1]) * 121666
|
||||
h2 := int64(f[2]) * 121666
|
||||
h3 := int64(f[3]) * 121666
|
||||
h4 := int64(f[4]) * 121666
|
||||
h5 := int64(f[5]) * 121666
|
||||
h6 := int64(f[6]) * 121666
|
||||
h7 := int64(f[7]) * 121666
|
||||
h8 := int64(f[8]) * 121666
|
||||
h9 := int64(f[9]) * 121666
|
||||
var carry [10]int64
|
||||
|
||||
carry[9] = (h9 + (1 << 24)) >> 25
|
||||
h0 += carry[9] * 19
|
||||
h9 -= carry[9] << 25
|
||||
carry[1] = (h1 + (1 << 24)) >> 25
|
||||
h2 += carry[1]
|
||||
h1 -= carry[1] << 25
|
||||
carry[3] = (h3 + (1 << 24)) >> 25
|
||||
h4 += carry[3]
|
||||
h3 -= carry[3] << 25
|
||||
carry[5] = (h5 + (1 << 24)) >> 25
|
||||
h6 += carry[5]
|
||||
h5 -= carry[5] << 25
|
||||
carry[7] = (h7 + (1 << 24)) >> 25
|
||||
h8 += carry[7]
|
||||
h7 -= carry[7] << 25
|
||||
|
||||
carry[0] = (h0 + (1 << 25)) >> 26
|
||||
h1 += carry[0]
|
||||
h0 -= carry[0] << 26
|
||||
carry[2] = (h2 + (1 << 25)) >> 26
|
||||
h3 += carry[2]
|
||||
h2 -= carry[2] << 26
|
||||
carry[4] = (h4 + (1 << 25)) >> 26
|
||||
h5 += carry[4]
|
||||
h4 -= carry[4] << 26
|
||||
carry[6] = (h6 + (1 << 25)) >> 26
|
||||
h7 += carry[6]
|
||||
h6 -= carry[6] << 26
|
||||
carry[8] = (h8 + (1 << 25)) >> 26
|
||||
h9 += carry[8]
|
||||
h8 -= carry[8] << 26
|
||||
|
||||
h[0] = int32(h0)
|
||||
h[1] = int32(h1)
|
||||
h[2] = int32(h2)
|
||||
h[3] = int32(h3)
|
||||
h[4] = int32(h4)
|
||||
h[5] = int32(h5)
|
||||
h[6] = int32(h6)
|
||||
h[7] = int32(h7)
|
||||
h[8] = int32(h8)
|
||||
h[9] = int32(h9)
|
||||
}
|
||||
|
||||
// feInvert sets out = z^-1.
|
||||
func feInvert(out, z *fieldElement) {
|
||||
var t0, t1, t2, t3 fieldElement
|
||||
var i int
|
||||
|
||||
feSquare(&t0, z)
|
||||
for i = 1; i < 1; i++ {
|
||||
feSquare(&t0, &t0)
|
||||
}
|
||||
feSquare(&t1, &t0)
|
||||
for i = 1; i < 2; i++ {
|
||||
feSquare(&t1, &t1)
|
||||
}
|
||||
feMul(&t1, z, &t1)
|
||||
feMul(&t0, &t0, &t1)
|
||||
feSquare(&t2, &t0)
|
||||
for i = 1; i < 1; i++ {
|
||||
feSquare(&t2, &t2)
|
||||
}
|
||||
feMul(&t1, &t1, &t2)
|
||||
feSquare(&t2, &t1)
|
||||
for i = 1; i < 5; i++ {
|
||||
feSquare(&t2, &t2)
|
||||
}
|
||||
feMul(&t1, &t2, &t1)
|
||||
feSquare(&t2, &t1)
|
||||
for i = 1; i < 10; i++ {
|
||||
feSquare(&t2, &t2)
|
||||
}
|
||||
feMul(&t2, &t2, &t1)
|
||||
feSquare(&t3, &t2)
|
||||
for i = 1; i < 20; i++ {
|
||||
feSquare(&t3, &t3)
|
||||
}
|
||||
feMul(&t2, &t3, &t2)
|
||||
feSquare(&t2, &t2)
|
||||
for i = 1; i < 10; i++ {
|
||||
feSquare(&t2, &t2)
|
||||
}
|
||||
feMul(&t1, &t2, &t1)
|
||||
feSquare(&t2, &t1)
|
||||
for i = 1; i < 50; i++ {
|
||||
feSquare(&t2, &t2)
|
||||
}
|
||||
feMul(&t2, &t2, &t1)
|
||||
feSquare(&t3, &t2)
|
||||
for i = 1; i < 100; i++ {
|
||||
feSquare(&t3, &t3)
|
||||
}
|
||||
feMul(&t2, &t3, &t2)
|
||||
feSquare(&t2, &t2)
|
||||
for i = 1; i < 50; i++ {
|
||||
feSquare(&t2, &t2)
|
||||
}
|
||||
feMul(&t1, &t2, &t1)
|
||||
feSquare(&t1, &t1)
|
||||
for i = 1; i < 5; i++ {
|
||||
feSquare(&t1, &t1)
|
||||
}
|
||||
feMul(out, &t1, &t0)
|
||||
}
|
||||
|
||||
func scalarMultGeneric(out, in, base *[32]byte) {
|
||||
var e [32]byte
|
||||
|
||||
copy(e[:], in[:])
|
||||
e[0] &= 248
|
||||
e[31] &= 127
|
||||
e[31] |= 64
|
||||
|
||||
var x1, x2, z2, x3, z3, tmp0, tmp1 fieldElement
|
||||
feFromBytes(&x1, base)
|
||||
feOne(&x2)
|
||||
feCopy(&x3, &x1)
|
||||
feOne(&z3)
|
||||
|
||||
swap := int32(0)
|
||||
for pos := 254; pos >= 0; pos-- {
|
||||
b := e[pos/8] >> uint(pos&7)
|
||||
b &= 1
|
||||
swap ^= int32(b)
|
||||
feCSwap(&x2, &x3, swap)
|
||||
feCSwap(&z2, &z3, swap)
|
||||
swap = int32(b)
|
||||
|
||||
feSub(&tmp0, &x3, &z3)
|
||||
feSub(&tmp1, &x2, &z2)
|
||||
feAdd(&x2, &x2, &z2)
|
||||
feAdd(&z2, &x3, &z3)
|
||||
feMul(&z3, &tmp0, &x2)
|
||||
feMul(&z2, &z2, &tmp1)
|
||||
feSquare(&tmp0, &tmp1)
|
||||
feSquare(&tmp1, &x2)
|
||||
feAdd(&x3, &z3, &z2)
|
||||
feSub(&z2, &z3, &z2)
|
||||
feMul(&x2, &tmp1, &tmp0)
|
||||
feSub(&tmp1, &tmp1, &tmp0)
|
||||
feSquare(&z2, &z2)
|
||||
feMul121666(&z3, &tmp1)
|
||||
feSquare(&x3, &x3)
|
||||
feAdd(&tmp0, &tmp0, &z3)
|
||||
feMul(&z3, &x1, &z2)
|
||||
feMul(&z2, &tmp1, &tmp0)
|
||||
}
|
||||
|
||||
feCSwap(&x2, &x3, swap)
|
||||
feCSwap(&z2, &z3, swap)
|
||||
|
||||
feInvert(&z2, &z2)
|
||||
feMul(&x2, &x2, &z2)
|
||||
feToBytes(out, &x2)
|
||||
}
|
12
src/vendor/golang.org/x/crypto/curve25519/curve25519_noasm.go
generated
vendored
12
src/vendor/golang.org/x/crypto/curve25519/curve25519_noasm.go
generated
vendored
@ -1,12 +0,0 @@
|
||||
// Copyright 2019 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 !amd64 || !gc || purego
|
||||
// +build !amd64 !gc purego
|
||||
|
||||
package curve25519
|
||||
|
||||
func scalarMult(out, in, base *[32]byte) {
|
||||
scalarMultGeneric(out, in, base)
|
||||
}
|
7
src/vendor/golang.org/x/crypto/curve25519/internal/field/README
generated
vendored
Normal file
7
src/vendor/golang.org/x/crypto/curve25519/internal/field/README
generated
vendored
Normal file
@ -0,0 +1,7 @@
|
||||
This package is kept in sync with crypto/ed25519/internal/edwards25519/field in
|
||||
the standard library.
|
||||
|
||||
If there are any changes in the standard library that need to be synced to this
|
||||
package, run sync.sh. It will not overwrite any local changes made since the
|
||||
previous sync, so it's ok to land changes in this package first, and then sync
|
||||
to the standard library later.
|
416
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe.go
generated
vendored
Normal file
416
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe.go
generated
vendored
Normal file
@ -0,0 +1,416 @@
|
||||
// Copyright (c) 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.
|
||||
|
||||
// Package field implements fast arithmetic modulo 2^255-19.
|
||||
package field
|
||||
|
||||
import (
|
||||
"crypto/subtle"
|
||||
"encoding/binary"
|
||||
"math/bits"
|
||||
)
|
||||
|
||||
// Element represents an element of the field GF(2^255-19). Note that this
|
||||
// is not a cryptographically secure group, and should only be used to interact
|
||||
// with edwards25519.Point coordinates.
|
||||
//
|
||||
// This type works similarly to math/big.Int, and all arguments and receivers
|
||||
// are allowed to alias.
|
||||
//
|
||||
// The zero value is a valid zero element.
|
||||
type Element struct {
|
||||
// An element t represents the integer
|
||||
// t.l0 + t.l1*2^51 + t.l2*2^102 + t.l3*2^153 + t.l4*2^204
|
||||
//
|
||||
// Between operations, all limbs are expected to be lower than 2^52.
|
||||
l0 uint64
|
||||
l1 uint64
|
||||
l2 uint64
|
||||
l3 uint64
|
||||
l4 uint64
|
||||
}
|
||||
|
||||
const maskLow51Bits uint64 = (1 << 51) - 1
|
||||
|
||||
var feZero = &Element{0, 0, 0, 0, 0}
|
||||
|
||||
// Zero sets v = 0, and returns v.
|
||||
func (v *Element) Zero() *Element {
|
||||
*v = *feZero
|
||||
return v
|
||||
}
|
||||
|
||||
var feOne = &Element{1, 0, 0, 0, 0}
|
||||
|
||||
// One sets v = 1, and returns v.
|
||||
func (v *Element) One() *Element {
|
||||
*v = *feOne
|
||||
return v
|
||||
}
|
||||
|
||||
// reduce reduces v modulo 2^255 - 19 and returns it.
|
||||
func (v *Element) reduce() *Element {
|
||||
v.carryPropagate()
|
||||
|
||||
// After the light reduction we now have a field element representation
|
||||
// v < 2^255 + 2^13 * 19, but need v < 2^255 - 19.
|
||||
|
||||
// If v >= 2^255 - 19, then v + 19 >= 2^255, which would overflow 2^255 - 1,
|
||||
// generating a carry. That is, c will be 0 if v < 2^255 - 19, and 1 otherwise.
|
||||
c := (v.l0 + 19) >> 51
|
||||
c = (v.l1 + c) >> 51
|
||||
c = (v.l2 + c) >> 51
|
||||
c = (v.l3 + c) >> 51
|
||||
c = (v.l4 + c) >> 51
|
||||
|
||||
// If v < 2^255 - 19 and c = 0, this will be a no-op. Otherwise, it's
|
||||
// effectively applying the reduction identity to the carry.
|
||||
v.l0 += 19 * c
|
||||
|
||||
v.l1 += v.l0 >> 51
|
||||
v.l0 = v.l0 & maskLow51Bits
|
||||
v.l2 += v.l1 >> 51
|
||||
v.l1 = v.l1 & maskLow51Bits
|
||||
v.l3 += v.l2 >> 51
|
||||
v.l2 = v.l2 & maskLow51Bits
|
||||
v.l4 += v.l3 >> 51
|
||||
v.l3 = v.l3 & maskLow51Bits
|
||||
// no additional carry
|
||||
v.l4 = v.l4 & maskLow51Bits
|
||||
|
||||
return v
|
||||
}
|
||||
|
||||
// Add sets v = a + b, and returns v.
|
||||
func (v *Element) Add(a, b *Element) *Element {
|
||||
v.l0 = a.l0 + b.l0
|
||||
v.l1 = a.l1 + b.l1
|
||||
v.l2 = a.l2 + b.l2
|
||||
v.l3 = a.l3 + b.l3
|
||||
v.l4 = a.l4 + b.l4
|
||||
// Using the generic implementation here is actually faster than the
|
||||
// assembly. Probably because the body of this function is so simple that
|
||||
// the compiler can figure out better optimizations by inlining the carry
|
||||
// propagation. TODO
|
||||
return v.carryPropagateGeneric()
|
||||
}
|
||||
|
||||
// Subtract sets v = a - b, and returns v.
|
||||
func (v *Element) Subtract(a, b *Element) *Element {
|
||||
// We first add 2 * p, to guarantee the subtraction won't underflow, and
|
||||
// then subtract b (which can be up to 2^255 + 2^13 * 19).
|
||||
v.l0 = (a.l0 + 0xFFFFFFFFFFFDA) - b.l0
|
||||
v.l1 = (a.l1 + 0xFFFFFFFFFFFFE) - b.l1
|
||||
v.l2 = (a.l2 + 0xFFFFFFFFFFFFE) - b.l2
|
||||
v.l3 = (a.l3 + 0xFFFFFFFFFFFFE) - b.l3
|
||||
v.l4 = (a.l4 + 0xFFFFFFFFFFFFE) - b.l4
|
||||
return v.carryPropagate()
|
||||
}
|
||||
|
||||
// Negate sets v = -a, and returns v.
|
||||
func (v *Element) Negate(a *Element) *Element {
|
||||
return v.Subtract(feZero, a)
|
||||
}
|
||||
|
||||
// Invert sets v = 1/z mod p, and returns v.
|
||||
//
|
||||
// If z == 0, Invert returns v = 0.
|
||||
func (v *Element) Invert(z *Element) *Element {
|
||||
// Inversion is implemented as exponentiation with exponent p − 2. It uses the
|
||||
// same sequence of 255 squarings and 11 multiplications as [Curve25519].
|
||||
var z2, z9, z11, z2_5_0, z2_10_0, z2_20_0, z2_50_0, z2_100_0, t Element
|
||||
|
||||
z2.Square(z) // 2
|
||||
t.Square(&z2) // 4
|
||||
t.Square(&t) // 8
|
||||
z9.Multiply(&t, z) // 9
|
||||
z11.Multiply(&z9, &z2) // 11
|
||||
t.Square(&z11) // 22
|
||||
z2_5_0.Multiply(&t, &z9) // 31 = 2^5 - 2^0
|
||||
|
||||
t.Square(&z2_5_0) // 2^6 - 2^1
|
||||
for i := 0; i < 4; i++ {
|
||||
t.Square(&t) // 2^10 - 2^5
|
||||
}
|
||||
z2_10_0.Multiply(&t, &z2_5_0) // 2^10 - 2^0
|
||||
|
||||
t.Square(&z2_10_0) // 2^11 - 2^1
|
||||
for i := 0; i < 9; i++ {
|
||||
t.Square(&t) // 2^20 - 2^10
|
||||
}
|
||||
z2_20_0.Multiply(&t, &z2_10_0) // 2^20 - 2^0
|
||||
|
||||
t.Square(&z2_20_0) // 2^21 - 2^1
|
||||
for i := 0; i < 19; i++ {
|
||||
t.Square(&t) // 2^40 - 2^20
|
||||
}
|
||||
t.Multiply(&t, &z2_20_0) // 2^40 - 2^0
|
||||
|
||||
t.Square(&t) // 2^41 - 2^1
|
||||
for i := 0; i < 9; i++ {
|
||||
t.Square(&t) // 2^50 - 2^10
|
||||
}
|
||||
z2_50_0.Multiply(&t, &z2_10_0) // 2^50 - 2^0
|
||||
|
||||
t.Square(&z2_50_0) // 2^51 - 2^1
|
||||
for i := 0; i < 49; i++ {
|
||||
t.Square(&t) // 2^100 - 2^50
|
||||
}
|
||||
z2_100_0.Multiply(&t, &z2_50_0) // 2^100 - 2^0
|
||||
|
||||
t.Square(&z2_100_0) // 2^101 - 2^1
|
||||
for i := 0; i < 99; i++ {
|
||||
t.Square(&t) // 2^200 - 2^100
|
||||
}
|
||||
t.Multiply(&t, &z2_100_0) // 2^200 - 2^0
|
||||
|
||||
t.Square(&t) // 2^201 - 2^1
|
||||
for i := 0; i < 49; i++ {
|
||||
t.Square(&t) // 2^250 - 2^50
|
||||
}
|
||||
t.Multiply(&t, &z2_50_0) // 2^250 - 2^0
|
||||
|
||||
t.Square(&t) // 2^251 - 2^1
|
||||
t.Square(&t) // 2^252 - 2^2
|
||||
t.Square(&t) // 2^253 - 2^3
|
||||
t.Square(&t) // 2^254 - 2^4
|
||||
t.Square(&t) // 2^255 - 2^5
|
||||
|
||||
return v.Multiply(&t, &z11) // 2^255 - 21
|
||||
}
|
||||
|
||||
// Set sets v = a, and returns v.
|
||||
func (v *Element) Set(a *Element) *Element {
|
||||
*v = *a
|
||||
return v
|
||||
}
|
||||
|
||||
// SetBytes sets v to x, which must be a 32-byte little-endian encoding.
|
||||
//
|
||||
// Consistent with RFC 7748, the most significant bit (the high bit of the
|
||||
// last byte) is ignored, and non-canonical values (2^255-19 through 2^255-1)
|
||||
// are accepted. Note that this is laxer than specified by RFC 8032.
|
||||
func (v *Element) SetBytes(x []byte) *Element {
|
||||
if len(x) != 32 {
|
||||
panic("edwards25519: invalid field element input size")
|
||||
}
|
||||
|
||||
// Bits 0:51 (bytes 0:8, bits 0:64, shift 0, mask 51).
|
||||
v.l0 = binary.LittleEndian.Uint64(x[0:8])
|
||||
v.l0 &= maskLow51Bits
|
||||
// Bits 51:102 (bytes 6:14, bits 48:112, shift 3, mask 51).
|
||||
v.l1 = binary.LittleEndian.Uint64(x[6:14]) >> 3
|
||||
v.l1 &= maskLow51Bits
|
||||
// Bits 102:153 (bytes 12:20, bits 96:160, shift 6, mask 51).
|
||||
v.l2 = binary.LittleEndian.Uint64(x[12:20]) >> 6
|
||||
v.l2 &= maskLow51Bits
|
||||
// Bits 153:204 (bytes 19:27, bits 152:216, shift 1, mask 51).
|
||||
v.l3 = binary.LittleEndian.Uint64(x[19:27]) >> 1
|
||||
v.l3 &= maskLow51Bits
|
||||
// Bits 204:251 (bytes 24:32, bits 192:256, shift 12, mask 51).
|
||||
// Note: not bytes 25:33, shift 4, to avoid overread.
|
||||
v.l4 = binary.LittleEndian.Uint64(x[24:32]) >> 12
|
||||
v.l4 &= maskLow51Bits
|
||||
|
||||
return v
|
||||
}
|
||||
|
||||
// Bytes returns the canonical 32-byte little-endian encoding of v.
|
||||
func (v *Element) Bytes() []byte {
|
||||
// This function is outlined to make the allocations inline in the caller
|
||||
// rather than happen on the heap.
|
||||
var out [32]byte
|
||||
return v.bytes(&out)
|
||||
}
|
||||
|
||||
func (v *Element) bytes(out *[32]byte) []byte {
|
||||
t := *v
|
||||
t.reduce()
|
||||
|
||||
var buf [8]byte
|
||||
for i, l := range [5]uint64{t.l0, t.l1, t.l2, t.l3, t.l4} {
|
||||
bitsOffset := i * 51
|
||||
binary.LittleEndian.PutUint64(buf[:], l<<uint(bitsOffset%8))
|
||||
for i, bb := range buf {
|
||||
off := bitsOffset/8 + i
|
||||
if off >= len(out) {
|
||||
break
|
||||
}
|
||||
out[off] |= bb
|
||||
}
|
||||
}
|
||||
|
||||
return out[:]
|
||||
}
|
||||
|
||||
// Equal returns 1 if v and u are equal, and 0 otherwise.
|
||||
func (v *Element) Equal(u *Element) int {
|
||||
sa, sv := u.Bytes(), v.Bytes()
|
||||
return subtle.ConstantTimeCompare(sa, sv)
|
||||
}
|
||||
|
||||
// mask64Bits returns 0xffffffff if cond is 1, and 0 otherwise.
|
||||
func mask64Bits(cond int) uint64 { return ^(uint64(cond) - 1) }
|
||||
|
||||
// Select sets v to a if cond == 1, and to b if cond == 0.
|
||||
func (v *Element) Select(a, b *Element, cond int) *Element {
|
||||
m := mask64Bits(cond)
|
||||
v.l0 = (m & a.l0) | (^m & b.l0)
|
||||
v.l1 = (m & a.l1) | (^m & b.l1)
|
||||
v.l2 = (m & a.l2) | (^m & b.l2)
|
||||
v.l3 = (m & a.l3) | (^m & b.l3)
|
||||
v.l4 = (m & a.l4) | (^m & b.l4)
|
||||
return v
|
||||
}
|
||||
|
||||
// Swap swaps v and u if cond == 1 or leaves them unchanged if cond == 0, and returns v.
|
||||
func (v *Element) Swap(u *Element, cond int) {
|
||||
m := mask64Bits(cond)
|
||||
t := m & (v.l0 ^ u.l0)
|
||||
v.l0 ^= t
|
||||
u.l0 ^= t
|
||||
t = m & (v.l1 ^ u.l1)
|
||||
v.l1 ^= t
|
||||
u.l1 ^= t
|
||||
t = m & (v.l2 ^ u.l2)
|
||||
v.l2 ^= t
|
||||
u.l2 ^= t
|
||||
t = m & (v.l3 ^ u.l3)
|
||||
v.l3 ^= t
|
||||
u.l3 ^= t
|
||||
t = m & (v.l4 ^ u.l4)
|
||||
v.l4 ^= t
|
||||
u.l4 ^= t
|
||||
}
|
||||
|
||||
// IsNegative returns 1 if v is negative, and 0 otherwise.
|
||||
func (v *Element) IsNegative() int {
|
||||
return int(v.Bytes()[0] & 1)
|
||||
}
|
||||
|
||||
// Absolute sets v to |u|, and returns v.
|
||||
func (v *Element) Absolute(u *Element) *Element {
|
||||
return v.Select(new(Element).Negate(u), u, u.IsNegative())
|
||||
}
|
||||
|
||||
// Multiply sets v = x * y, and returns v.
|
||||
func (v *Element) Multiply(x, y *Element) *Element {
|
||||
feMul(v, x, y)
|
||||
return v
|
||||
}
|
||||
|
||||
// Square sets v = x * x, and returns v.
|
||||
func (v *Element) Square(x *Element) *Element {
|
||||
feSquare(v, x)
|
||||
return v
|
||||
}
|
||||
|
||||
// Mult32 sets v = x * y, and returns v.
|
||||
func (v *Element) Mult32(x *Element, y uint32) *Element {
|
||||
x0lo, x0hi := mul51(x.l0, y)
|
||||
x1lo, x1hi := mul51(x.l1, y)
|
||||
x2lo, x2hi := mul51(x.l2, y)
|
||||
x3lo, x3hi := mul51(x.l3, y)
|
||||
x4lo, x4hi := mul51(x.l4, y)
|
||||
v.l0 = x0lo + 19*x4hi // carried over per the reduction identity
|
||||
v.l1 = x1lo + x0hi
|
||||
v.l2 = x2lo + x1hi
|
||||
v.l3 = x3lo + x2hi
|
||||
v.l4 = x4lo + x3hi
|
||||
// The hi portions are going to be only 32 bits, plus any previous excess,
|
||||
// so we can skip the carry propagation.
|
||||
return v
|
||||
}
|
||||
|
||||
// mul51 returns lo + hi * 2⁵¹ = a * b.
|
||||
func mul51(a uint64, b uint32) (lo uint64, hi uint64) {
|
||||
mh, ml := bits.Mul64(a, uint64(b))
|
||||
lo = ml & maskLow51Bits
|
||||
hi = (mh << 13) | (ml >> 51)
|
||||
return
|
||||
}
|
||||
|
||||
// Pow22523 set v = x^((p-5)/8), and returns v. (p-5)/8 is 2^252-3.
|
||||
func (v *Element) Pow22523(x *Element) *Element {
|
||||
var t0, t1, t2 Element
|
||||
|
||||
t0.Square(x) // x^2
|
||||
t1.Square(&t0) // x^4
|
||||
t1.Square(&t1) // x^8
|
||||
t1.Multiply(x, &t1) // x^9
|
||||
t0.Multiply(&t0, &t1) // x^11
|
||||
t0.Square(&t0) // x^22
|
||||
t0.Multiply(&t1, &t0) // x^31
|
||||
t1.Square(&t0) // x^62
|
||||
for i := 1; i < 5; i++ { // x^992
|
||||
t1.Square(&t1)
|
||||
}
|
||||
t0.Multiply(&t1, &t0) // x^1023 -> 1023 = 2^10 - 1
|
||||
t1.Square(&t0) // 2^11 - 2
|
||||
for i := 1; i < 10; i++ { // 2^20 - 2^10
|
||||
t1.Square(&t1)
|
||||
}
|
||||
t1.Multiply(&t1, &t0) // 2^20 - 1
|
||||
t2.Square(&t1) // 2^21 - 2
|
||||
for i := 1; i < 20; i++ { // 2^40 - 2^20
|
||||
t2.Square(&t2)
|
||||
}
|
||||
t1.Multiply(&t2, &t1) // 2^40 - 1
|
||||
t1.Square(&t1) // 2^41 - 2
|
||||
for i := 1; i < 10; i++ { // 2^50 - 2^10
|
||||
t1.Square(&t1)
|
||||
}
|
||||
t0.Multiply(&t1, &t0) // 2^50 - 1
|
||||
t1.Square(&t0) // 2^51 - 2
|
||||
for i := 1; i < 50; i++ { // 2^100 - 2^50
|
||||
t1.Square(&t1)
|
||||
}
|
||||
t1.Multiply(&t1, &t0) // 2^100 - 1
|
||||
t2.Square(&t1) // 2^101 - 2
|
||||
for i := 1; i < 100; i++ { // 2^200 - 2^100
|
||||
t2.Square(&t2)
|
||||
}
|
||||
t1.Multiply(&t2, &t1) // 2^200 - 1
|
||||
t1.Square(&t1) // 2^201 - 2
|
||||
for i := 1; i < 50; i++ { // 2^250 - 2^50
|
||||
t1.Square(&t1)
|
||||
}
|
||||
t0.Multiply(&t1, &t0) // 2^250 - 1
|
||||
t0.Square(&t0) // 2^251 - 2
|
||||
t0.Square(&t0) // 2^252 - 4
|
||||
return v.Multiply(&t0, x) // 2^252 - 3 -> x^(2^252-3)
|
||||
}
|
||||
|
||||
// sqrtM1 is 2^((p-1)/4), which squared is equal to -1 by Euler's Criterion.
|
||||
var sqrtM1 = &Element{1718705420411056, 234908883556509,
|
||||
2233514472574048, 2117202627021982, 765476049583133}
|
||||
|
||||
// SqrtRatio sets r to the non-negative square root of the ratio of u and v.
|
||||
//
|
||||
// If u/v is square, SqrtRatio returns r and 1. If u/v is not square, SqrtRatio
|
||||
// sets r according to Section 4.3 of draft-irtf-cfrg-ristretto255-decaf448-00,
|
||||
// and returns r and 0.
|
||||
func (r *Element) SqrtRatio(u, v *Element) (rr *Element, wasSquare int) {
|
||||
var a, b Element
|
||||
|
||||
// r = (u * v3) * (u * v7)^((p-5)/8)
|
||||
v2 := a.Square(v)
|
||||
uv3 := b.Multiply(u, b.Multiply(v2, v))
|
||||
uv7 := a.Multiply(uv3, a.Square(v2))
|
||||
r.Multiply(uv3, r.Pow22523(uv7))
|
||||
|
||||
check := a.Multiply(v, a.Square(r)) // check = v * r^2
|
||||
|
||||
uNeg := b.Negate(u)
|
||||
correctSignSqrt := check.Equal(u)
|
||||
flippedSignSqrt := check.Equal(uNeg)
|
||||
flippedSignSqrtI := check.Equal(uNeg.Multiply(uNeg, sqrtM1))
|
||||
|
||||
rPrime := b.Multiply(r, sqrtM1) // r_prime = SQRT_M1 * r
|
||||
// r = CT_SELECT(r_prime IF flipped_sign_sqrt | flipped_sign_sqrt_i ELSE r)
|
||||
r.Select(rPrime, r, flippedSignSqrt|flippedSignSqrtI)
|
||||
|
||||
r.Absolute(r) // Choose the nonnegative square root.
|
||||
return r, correctSignSqrt | flippedSignSqrt
|
||||
}
|
13
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe_amd64.go
generated
vendored
Normal file
13
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe_amd64.go
generated
vendored
Normal file
@ -0,0 +1,13 @@
|
||||
// Code generated by command: go run fe_amd64_asm.go -out ../fe_amd64.s -stubs ../fe_amd64.go -pkg field. DO NOT EDIT.
|
||||
|
||||
// +build amd64,gc,!purego
|
||||
|
||||
package field
|
||||
|
||||
// feMul sets out = a * b. It works like feMulGeneric.
|
||||
//go:noescape
|
||||
func feMul(out *Element, a *Element, b *Element)
|
||||
|
||||
// feSquare sets out = a * a. It works like feSquareGeneric.
|
||||
//go:noescape
|
||||
func feSquare(out *Element, a *Element)
|
379
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe_amd64.s
generated
vendored
Normal file
379
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe_amd64.s
generated
vendored
Normal file
@ -0,0 +1,379 @@
|
||||
// Code generated by command: go run fe_amd64_asm.go -out ../fe_amd64.s -stubs ../fe_amd64.go -pkg field. DO NOT EDIT.
|
||||
|
||||
//go:build amd64 && gc && !purego
|
||||
// +build amd64,gc,!purego
|
||||
|
||||
#include "textflag.h"
|
||||
|
||||
// func feMul(out *Element, a *Element, b *Element)
|
||||
TEXT ·feMul(SB), NOSPLIT, $0-24
|
||||
MOVQ a+8(FP), CX
|
||||
MOVQ b+16(FP), BX
|
||||
|
||||
// r0 = a0×b0
|
||||
MOVQ (CX), AX
|
||||
MULQ (BX)
|
||||
MOVQ AX, DI
|
||||
MOVQ DX, SI
|
||||
|
||||
// r0 += 19×a1×b4
|
||||
MOVQ 8(CX), AX
|
||||
IMUL3Q $0x13, AX, AX
|
||||
MULQ 32(BX)
|
||||
ADDQ AX, DI
|
||||
ADCQ DX, SI
|
||||
|
||||
// r0 += 19×a2×b3
|
||||
MOVQ 16(CX), AX
|
||||
IMUL3Q $0x13, AX, AX
|
||||
MULQ 24(BX)
|
||||
ADDQ AX, DI
|
||||
ADCQ DX, SI
|
||||
|
||||
// r0 += 19×a3×b2
|
||||
MOVQ 24(CX), AX
|
||||
IMUL3Q $0x13, AX, AX
|
||||
MULQ 16(BX)
|
||||
ADDQ AX, DI
|
||||
ADCQ DX, SI
|
||||
|
||||
// r0 += 19×a4×b1
|
||||
MOVQ 32(CX), AX
|
||||
IMUL3Q $0x13, AX, AX
|
||||
MULQ 8(BX)
|
||||
ADDQ AX, DI
|
||||
ADCQ DX, SI
|
||||
|
||||
// r1 = a0×b1
|
||||
MOVQ (CX), AX
|
||||
MULQ 8(BX)
|
||||
MOVQ AX, R9
|
||||
MOVQ DX, R8
|
||||
|
||||
// r1 += a1×b0
|
||||
MOVQ 8(CX), AX
|
||||
MULQ (BX)
|
||||
ADDQ AX, R9
|
||||
ADCQ DX, R8
|
||||
|
||||
// r1 += 19×a2×b4
|
||||
MOVQ 16(CX), AX
|
||||
IMUL3Q $0x13, AX, AX
|
||||
MULQ 32(BX)
|
||||
ADDQ AX, R9
|
||||
ADCQ DX, R8
|
||||
|
||||
// r1 += 19×a3×b3
|
||||
MOVQ 24(CX), AX
|
||||
IMUL3Q $0x13, AX, AX
|
||||
MULQ 24(BX)
|
||||
ADDQ AX, R9
|
||||
ADCQ DX, R8
|
||||
|
||||
// r1 += 19×a4×b2
|
||||
MOVQ 32(CX), AX
|
||||
IMUL3Q $0x13, AX, AX
|
||||
MULQ 16(BX)
|
||||
ADDQ AX, R9
|
||||
ADCQ DX, R8
|
||||
|
||||
// r2 = a0×b2
|
||||
MOVQ (CX), AX
|
||||
MULQ 16(BX)
|
||||
MOVQ AX, R11
|
||||
MOVQ DX, R10
|
||||
|
||||
// r2 += a1×b1
|
||||
MOVQ 8(CX), AX
|
||||
MULQ 8(BX)
|
||||
ADDQ AX, R11
|
||||
ADCQ DX, R10
|
||||
|
||||
// r2 += a2×b0
|
||||
MOVQ 16(CX), AX
|
||||
MULQ (BX)
|
||||
ADDQ AX, R11
|
||||
ADCQ DX, R10
|
||||
|
||||
// r2 += 19×a3×b4
|
||||
MOVQ 24(CX), AX
|
||||
IMUL3Q $0x13, AX, AX
|
||||
MULQ 32(BX)
|
||||
ADDQ AX, R11
|
||||
ADCQ DX, R10
|
||||
|
||||
// r2 += 19×a4×b3
|
||||
MOVQ 32(CX), AX
|
||||
IMUL3Q $0x13, AX, AX
|
||||
MULQ 24(BX)
|
||||
ADDQ AX, R11
|
||||
ADCQ DX, R10
|
||||
|
||||
// r3 = a0×b3
|
||||
MOVQ (CX), AX
|
||||
MULQ 24(BX)
|
||||
MOVQ AX, R13
|
||||
MOVQ DX, R12
|
||||
|
||||
// r3 += a1×b2
|
||||
MOVQ 8(CX), AX
|
||||
MULQ 16(BX)
|
||||
ADDQ AX, R13
|
||||
ADCQ DX, R12
|
||||
|
||||
// r3 += a2×b1
|
||||
MOVQ 16(CX), AX
|
||||
MULQ 8(BX)
|
||||
ADDQ AX, R13
|
||||
ADCQ DX, R12
|
||||
|
||||
// r3 += a3×b0
|
||||
MOVQ 24(CX), AX
|
||||
MULQ (BX)
|
||||
ADDQ AX, R13
|
||||
ADCQ DX, R12
|
||||
|
||||
// r3 += 19×a4×b4
|
||||
MOVQ 32(CX), AX
|
||||
IMUL3Q $0x13, AX, AX
|
||||
MULQ 32(BX)
|
||||
ADDQ AX, R13
|
||||
ADCQ DX, R12
|
||||
|
||||
// r4 = a0×b4
|
||||
MOVQ (CX), AX
|
||||
MULQ 32(BX)
|
||||
MOVQ AX, R15
|
||||
MOVQ DX, R14
|
||||
|
||||
// r4 += a1×b3
|
||||
MOVQ 8(CX), AX
|
||||
MULQ 24(BX)
|
||||
ADDQ AX, R15
|
||||
ADCQ DX, R14
|
||||
|
||||
// r4 += a2×b2
|
||||
MOVQ 16(CX), AX
|
||||
MULQ 16(BX)
|
||||
ADDQ AX, R15
|
||||
ADCQ DX, R14
|
||||
|
||||
// r4 += a3×b1
|
||||
MOVQ 24(CX), AX
|
||||
MULQ 8(BX)
|
||||
ADDQ AX, R15
|
||||
ADCQ DX, R14
|
||||
|
||||
// r4 += a4×b0
|
||||
MOVQ 32(CX), AX
|
||||
MULQ (BX)
|
||||
ADDQ AX, R15
|
||||
ADCQ DX, R14
|
||||
|
||||
// First reduction chain
|
||||
MOVQ $0x0007ffffffffffff, AX
|
||||
SHLQ $0x0d, DI, SI
|
||||
SHLQ $0x0d, R9, R8
|
||||
SHLQ $0x0d, R11, R10
|
||||
SHLQ $0x0d, R13, R12
|
||||
SHLQ $0x0d, R15, R14
|
||||
ANDQ AX, DI
|
||||
IMUL3Q $0x13, R14, R14
|
||||
ADDQ R14, DI
|
||||
ANDQ AX, R9
|
||||
ADDQ SI, R9
|
||||
ANDQ AX, R11
|
||||
ADDQ R8, R11
|
||||
ANDQ AX, R13
|
||||
ADDQ R10, R13
|
||||
ANDQ AX, R15
|
||||
ADDQ R12, R15
|
||||
|
||||
// Second reduction chain (carryPropagate)
|
||||
MOVQ DI, SI
|
||||
SHRQ $0x33, SI
|
||||
MOVQ R9, R8
|
||||
SHRQ $0x33, R8
|
||||
MOVQ R11, R10
|
||||
SHRQ $0x33, R10
|
||||
MOVQ R13, R12
|
||||
SHRQ $0x33, R12
|
||||
MOVQ R15, R14
|
||||
SHRQ $0x33, R14
|
||||
ANDQ AX, DI
|
||||
IMUL3Q $0x13, R14, R14
|
||||
ADDQ R14, DI
|
||||
ANDQ AX, R9
|
||||
ADDQ SI, R9
|
||||
ANDQ AX, R11
|
||||
ADDQ R8, R11
|
||||
ANDQ AX, R13
|
||||
ADDQ R10, R13
|
||||
ANDQ AX, R15
|
||||
ADDQ R12, R15
|
||||
|
||||
// Store output
|
||||
MOVQ out+0(FP), AX
|
||||
MOVQ DI, (AX)
|
||||
MOVQ R9, 8(AX)
|
||||
MOVQ R11, 16(AX)
|
||||
MOVQ R13, 24(AX)
|
||||
MOVQ R15, 32(AX)
|
||||
RET
|
||||
|
||||
// func feSquare(out *Element, a *Element)
|
||||
TEXT ·feSquare(SB), NOSPLIT, $0-16
|
||||
MOVQ a+8(FP), CX
|
||||
|
||||
// r0 = l0×l0
|
||||
MOVQ (CX), AX
|
||||
MULQ (CX)
|
||||
MOVQ AX, SI
|
||||
MOVQ DX, BX
|
||||
|
||||
// r0 += 38×l1×l4
|
||||
MOVQ 8(CX), AX
|
||||
IMUL3Q $0x26, AX, AX
|
||||
MULQ 32(CX)
|
||||
ADDQ AX, SI
|
||||
ADCQ DX, BX
|
||||
|
||||
// r0 += 38×l2×l3
|
||||
MOVQ 16(CX), AX
|
||||
IMUL3Q $0x26, AX, AX
|
||||
MULQ 24(CX)
|
||||
ADDQ AX, SI
|
||||
ADCQ DX, BX
|
||||
|
||||
// r1 = 2×l0×l1
|
||||
MOVQ (CX), AX
|
||||
SHLQ $0x01, AX
|
||||
MULQ 8(CX)
|
||||
MOVQ AX, R8
|
||||
MOVQ DX, DI
|
||||
|
||||
// r1 += 38×l2×l4
|
||||
MOVQ 16(CX), AX
|
||||
IMUL3Q $0x26, AX, AX
|
||||
MULQ 32(CX)
|
||||
ADDQ AX, R8
|
||||
ADCQ DX, DI
|
||||
|
||||
// r1 += 19×l3×l3
|
||||
MOVQ 24(CX), AX
|
||||
IMUL3Q $0x13, AX, AX
|
||||
MULQ 24(CX)
|
||||
ADDQ AX, R8
|
||||
ADCQ DX, DI
|
||||
|
||||
// r2 = 2×l0×l2
|
||||
MOVQ (CX), AX
|
||||
SHLQ $0x01, AX
|
||||
MULQ 16(CX)
|
||||
MOVQ AX, R10
|
||||
MOVQ DX, R9
|
||||
|
||||
// r2 += l1×l1
|
||||
MOVQ 8(CX), AX
|
||||
MULQ 8(CX)
|
||||
ADDQ AX, R10
|
||||
ADCQ DX, R9
|
||||
|
||||
// r2 += 38×l3×l4
|
||||
MOVQ 24(CX), AX
|
||||
IMUL3Q $0x26, AX, AX
|
||||
MULQ 32(CX)
|
||||
ADDQ AX, R10
|
||||
ADCQ DX, R9
|
||||
|
||||
// r3 = 2×l0×l3
|
||||
MOVQ (CX), AX
|
||||
SHLQ $0x01, AX
|
||||
MULQ 24(CX)
|
||||
MOVQ AX, R12
|
||||
MOVQ DX, R11
|
||||
|
||||
// r3 += 2×l1×l2
|
||||
MOVQ 8(CX), AX
|
||||
IMUL3Q $0x02, AX, AX
|
||||
MULQ 16(CX)
|
||||
ADDQ AX, R12
|
||||
ADCQ DX, R11
|
||||
|
||||
// r3 += 19×l4×l4
|
||||
MOVQ 32(CX), AX
|
||||
IMUL3Q $0x13, AX, AX
|
||||
MULQ 32(CX)
|
||||
ADDQ AX, R12
|
||||
ADCQ DX, R11
|
||||
|
||||
// r4 = 2×l0×l4
|
||||
MOVQ (CX), AX
|
||||
SHLQ $0x01, AX
|
||||
MULQ 32(CX)
|
||||
MOVQ AX, R14
|
||||
MOVQ DX, R13
|
||||
|
||||
// r4 += 2×l1×l3
|
||||
MOVQ 8(CX), AX
|
||||
IMUL3Q $0x02, AX, AX
|
||||
MULQ 24(CX)
|
||||
ADDQ AX, R14
|
||||
ADCQ DX, R13
|
||||
|
||||
// r4 += l2×l2
|
||||
MOVQ 16(CX), AX
|
||||
MULQ 16(CX)
|
||||
ADDQ AX, R14
|
||||
ADCQ DX, R13
|
||||
|
||||
// First reduction chain
|
||||
MOVQ $0x0007ffffffffffff, AX
|
||||
SHLQ $0x0d, SI, BX
|
||||
SHLQ $0x0d, R8, DI
|
||||
SHLQ $0x0d, R10, R9
|
||||
SHLQ $0x0d, R12, R11
|
||||
SHLQ $0x0d, R14, R13
|
||||
ANDQ AX, SI
|
||||
IMUL3Q $0x13, R13, R13
|
||||
ADDQ R13, SI
|
||||
ANDQ AX, R8
|
||||
ADDQ BX, R8
|
||||
ANDQ AX, R10
|
||||
ADDQ DI, R10
|
||||
ANDQ AX, R12
|
||||
ADDQ R9, R12
|
||||
ANDQ AX, R14
|
||||
ADDQ R11, R14
|
||||
|
||||
// Second reduction chain (carryPropagate)
|
||||
MOVQ SI, BX
|
||||
SHRQ $0x33, BX
|
||||
MOVQ R8, DI
|
||||
SHRQ $0x33, DI
|
||||
MOVQ R10, R9
|
||||
SHRQ $0x33, R9
|
||||
MOVQ R12, R11
|
||||
SHRQ $0x33, R11
|
||||
MOVQ R14, R13
|
||||
SHRQ $0x33, R13
|
||||
ANDQ AX, SI
|
||||
IMUL3Q $0x13, R13, R13
|
||||
ADDQ R13, SI
|
||||
ANDQ AX, R8
|
||||
ADDQ BX, R8
|
||||
ANDQ AX, R10
|
||||
ADDQ DI, R10
|
||||
ANDQ AX, R12
|
||||
ADDQ R9, R12
|
||||
ANDQ AX, R14
|
||||
ADDQ R11, R14
|
||||
|
||||
// Store output
|
||||
MOVQ out+0(FP), AX
|
||||
MOVQ SI, (AX)
|
||||
MOVQ R8, 8(AX)
|
||||
MOVQ R10, 16(AX)
|
||||
MOVQ R12, 24(AX)
|
||||
MOVQ R14, 32(AX)
|
||||
RET
|
12
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe_amd64_noasm.go
generated
vendored
Normal file
12
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe_amd64_noasm.go
generated
vendored
Normal file
@ -0,0 +1,12 @@
|
||||
// Copyright (c) 2019 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 !amd64 || !gc || purego
|
||||
// +build !amd64 !gc purego
|
||||
|
||||
package field
|
||||
|
||||
func feMul(v, x, y *Element) { feMulGeneric(v, x, y) }
|
||||
|
||||
func feSquare(v, x *Element) { feSquareGeneric(v, x) }
|
16
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe_arm64.go
generated
vendored
Normal file
16
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe_arm64.go
generated
vendored
Normal file
@ -0,0 +1,16 @@
|
||||
// Copyright (c) 2020 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 arm64 && gc && !purego
|
||||
// +build arm64,gc,!purego
|
||||
|
||||
package field
|
||||
|
||||
//go:noescape
|
||||
func carryPropagate(v *Element)
|
||||
|
||||
func (v *Element) carryPropagate() *Element {
|
||||
carryPropagate(v)
|
||||
return v
|
||||
}
|
43
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe_arm64.s
generated
vendored
Normal file
43
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe_arm64.s
generated
vendored
Normal file
@ -0,0 +1,43 @@
|
||||
// Copyright (c) 2020 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 arm64 && gc && !purego
|
||||
// +build arm64,gc,!purego
|
||||
|
||||
#include "textflag.h"
|
||||
|
||||
// carryPropagate works exactly like carryPropagateGeneric and uses the
|
||||
// same AND, ADD, and LSR+MADD instructions emitted by the compiler, but
|
||||
// avoids loading R0-R4 twice and uses LDP and STP.
|
||||
//
|
||||
// See https://golang.org/issues/43145 for the main compiler issue.
|
||||
//
|
||||
// func carryPropagate(v *Element)
|
||||
TEXT ·carryPropagate(SB),NOFRAME|NOSPLIT,$0-8
|
||||
MOVD v+0(FP), R20
|
||||
|
||||
LDP 0(R20), (R0, R1)
|
||||
LDP 16(R20), (R2, R3)
|
||||
MOVD 32(R20), R4
|
||||
|
||||
AND $0x7ffffffffffff, R0, R10
|
||||
AND $0x7ffffffffffff, R1, R11
|
||||
AND $0x7ffffffffffff, R2, R12
|
||||
AND $0x7ffffffffffff, R3, R13
|
||||
AND $0x7ffffffffffff, R4, R14
|
||||
|
||||
ADD R0>>51, R11, R11
|
||||
ADD R1>>51, R12, R12
|
||||
ADD R2>>51, R13, R13
|
||||
ADD R3>>51, R14, R14
|
||||
// R4>>51 * 19 + R10 -> R10
|
||||
LSR $51, R4, R21
|
||||
MOVD $19, R22
|
||||
MADD R22, R10, R21, R10
|
||||
|
||||
STP (R10, R11), 0(R20)
|
||||
STP (R12, R13), 16(R20)
|
||||
MOVD R14, 32(R20)
|
||||
|
||||
RET
|
12
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe_arm64_noasm.go
generated
vendored
Normal file
12
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe_arm64_noasm.go
generated
vendored
Normal file
@ -0,0 +1,12 @@
|
||||
// Copyright (c) 2021 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 !arm64 || !gc || purego
|
||||
// +build !arm64 !gc purego
|
||||
|
||||
package field
|
||||
|
||||
func (v *Element) carryPropagate() *Element {
|
||||
return v.carryPropagateGeneric()
|
||||
}
|
264
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe_generic.go
generated
vendored
Normal file
264
src/vendor/golang.org/x/crypto/curve25519/internal/field/fe_generic.go
generated
vendored
Normal file
@ -0,0 +1,264 @@
|
||||
// Copyright (c) 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.
|
||||
|
||||
package field
|
||||
|
||||
import "math/bits"
|
||||
|
||||
// uint128 holds a 128-bit number as two 64-bit limbs, for use with the
|
||||
// bits.Mul64 and bits.Add64 intrinsics.
|
||||
type uint128 struct {
|
||||
lo, hi uint64
|
||||
}
|
||||
|
||||
// mul64 returns a * b.
|
||||
func mul64(a, b uint64) uint128 {
|
||||
hi, lo := bits.Mul64(a, b)
|
||||
return uint128{lo, hi}
|
||||
}
|
||||
|
||||
// addMul64 returns v + a * b.
|
||||
func addMul64(v uint128, a, b uint64) uint128 {
|
||||
hi, lo := bits.Mul64(a, b)
|
||||
lo, c := bits.Add64(lo, v.lo, 0)
|
||||
hi, _ = bits.Add64(hi, v.hi, c)
|
||||
return uint128{lo, hi}
|
||||
}
|
||||
|
||||
// shiftRightBy51 returns a >> 51. a is assumed to be at most 115 bits.
|
||||
func shiftRightBy51(a uint128) uint64 {
|
||||
return (a.hi << (64 - 51)) | (a.lo >> 51)
|
||||
}
|
||||
|
||||
func feMulGeneric(v, a, b *Element) {
|
||||
a0 := a.l0
|
||||
a1 := a.l1
|
||||
a2 := a.l2
|
||||
a3 := a.l3
|
||||
a4 := a.l4
|
||||
|
||||
b0 := b.l0
|
||||
b1 := b.l1
|
||||
b2 := b.l2
|
||||
b3 := b.l3
|
||||
b4 := b.l4
|
||||
|
||||
// Limb multiplication works like pen-and-paper columnar multiplication, but
|
||||
// with 51-bit limbs instead of digits.
|
||||
//
|
||||
// a4 a3 a2 a1 a0 x
|
||||
// b4 b3 b2 b1 b0 =
|
||||
// ------------------------
|
||||
// a4b0 a3b0 a2b0 a1b0 a0b0 +
|
||||
// a4b1 a3b1 a2b1 a1b1 a0b1 +
|
||||
// a4b2 a3b2 a2b2 a1b2 a0b2 +
|
||||
// a4b3 a3b3 a2b3 a1b3 a0b3 +
|
||||
// a4b4 a3b4 a2b4 a1b4 a0b4 =
|
||||
// ----------------------------------------------
|
||||
// r8 r7 r6 r5 r4 r3 r2 r1 r0
|
||||
//
|
||||
// We can then use the reduction identity (a * 2²⁵⁵ + b = a * 19 + b) to
|
||||
// reduce the limbs that would overflow 255 bits. r5 * 2²⁵⁵ becomes 19 * r5,
|
||||
// r6 * 2³⁰⁶ becomes 19 * r6 * 2⁵¹, etc.
|
||||
//
|
||||
// Reduction can be carried out simultaneously to multiplication. For
|
||||
// example, we do not compute r5: whenever the result of a multiplication
|
||||
// belongs to r5, like a1b4, we multiply it by 19 and add the result to r0.
|
||||
//
|
||||
// a4b0 a3b0 a2b0 a1b0 a0b0 +
|
||||
// a3b1 a2b1 a1b1 a0b1 19×a4b1 +
|
||||
// a2b2 a1b2 a0b2 19×a4b2 19×a3b2 +
|
||||
// a1b3 a0b3 19×a4b3 19×a3b3 19×a2b3 +
|
||||
// a0b4 19×a4b4 19×a3b4 19×a2b4 19×a1b4 =
|
||||
// --------------------------------------
|
||||
// r4 r3 r2 r1 r0
|
||||
//
|
||||
// Finally we add up the columns into wide, overlapping limbs.
|
||||
|
||||
a1_19 := a1 * 19
|
||||
a2_19 := a2 * 19
|
||||
a3_19 := a3 * 19
|
||||
a4_19 := a4 * 19
|
||||
|
||||
// r0 = a0×b0 + 19×(a1×b4 + a2×b3 + a3×b2 + a4×b1)
|
||||
r0 := mul64(a0, b0)
|
||||
r0 = addMul64(r0, a1_19, b4)
|
||||
r0 = addMul64(r0, a2_19, b3)
|
||||
r0 = addMul64(r0, a3_19, b2)
|
||||
r0 = addMul64(r0, a4_19, b1)
|
||||
|
||||
// r1 = a0×b1 + a1×b0 + 19×(a2×b4 + a3×b3 + a4×b2)
|
||||
r1 := mul64(a0, b1)
|
||||
r1 = addMul64(r1, a1, b0)
|
||||
r1 = addMul64(r1, a2_19, b4)
|
||||
r1 = addMul64(r1, a3_19, b3)
|
||||
r1 = addMul64(r1, a4_19, b2)
|
||||
|
||||
// r2 = a0×b2 + a1×b1 + a2×b0 + 19×(a3×b4 + a4×b3)
|
||||
r2 := mul64(a0, b2)
|
||||
r2 = addMul64(r2, a1, b1)
|
||||
r2 = addMul64(r2, a2, b0)
|
||||
r2 = addMul64(r2, a3_19, b4)
|
||||
r2 = addMul64(r2, a4_19, b3)
|
||||
|
||||
// r3 = a0×b3 + a1×b2 + a2×b1 + a3×b0 + 19×a4×b4
|
||||
r3 := mul64(a0, b3)
|
||||
r3 = addMul64(r3, a1, b2)
|
||||
r3 = addMul64(r3, a2, b1)
|
||||
r3 = addMul64(r3, a3, b0)
|
||||
r3 = addMul64(r3, a4_19, b4)
|
||||
|
||||
// r4 = a0×b4 + a1×b3 + a2×b2 + a3×b1 + a4×b0
|
||||
r4 := mul64(a0, b4)
|
||||
r4 = addMul64(r4, a1, b3)
|
||||
r4 = addMul64(r4, a2, b2)
|
||||
r4 = addMul64(r4, a3, b1)
|
||||
r4 = addMul64(r4, a4, b0)
|
||||
|
||||
// After the multiplication, we need to reduce (carry) the five coefficients
|
||||
// to obtain a result with limbs that are at most slightly larger than 2⁵¹,
|
||||
// to respect the Element invariant.
|
||||
//
|
||||
// Overall, the reduction works the same as carryPropagate, except with
|
||||
// wider inputs: we take the carry for each coefficient by shifting it right
|
||||
// by 51, and add it to the limb above it. The top carry is multiplied by 19
|
||||
// according to the reduction identity and added to the lowest limb.
|
||||
//
|
||||
// The largest coefficient (r0) will be at most 111 bits, which guarantees
|
||||
// that all carries are at most 111 - 51 = 60 bits, which fits in a uint64.
|
||||
//
|
||||
// r0 = a0×b0 + 19×(a1×b4 + a2×b3 + a3×b2 + a4×b1)
|
||||
// r0 < 2⁵²×2⁵² + 19×(2⁵²×2⁵² + 2⁵²×2⁵² + 2⁵²×2⁵² + 2⁵²×2⁵²)
|
||||
// r0 < (1 + 19 × 4) × 2⁵² × 2⁵²
|
||||
// r0 < 2⁷ × 2⁵² × 2⁵²
|
||||
// r0 < 2¹¹¹
|
||||
//
|
||||
// Moreover, the top coefficient (r4) is at most 107 bits, so c4 is at most
|
||||
// 56 bits, and c4 * 19 is at most 61 bits, which again fits in a uint64 and
|
||||
// allows us to easily apply the reduction identity.
|
||||
//
|
||||
// r4 = a0×b4 + a1×b3 + a2×b2 + a3×b1 + a4×b0
|
||||
// r4 < 5 × 2⁵² × 2⁵²
|
||||
// r4 < 2¹⁰⁷
|
||||
//
|
||||
|
||||
c0 := shiftRightBy51(r0)
|
||||
c1 := shiftRightBy51(r1)
|
||||
c2 := shiftRightBy51(r2)
|
||||
c3 := shiftRightBy51(r3)
|
||||
c4 := shiftRightBy51(r4)
|
||||
|
||||
rr0 := r0.lo&maskLow51Bits + c4*19
|
||||
rr1 := r1.lo&maskLow51Bits + c0
|
||||
rr2 := r2.lo&maskLow51Bits + c1
|
||||
rr3 := r3.lo&maskLow51Bits + c2
|
||||
rr4 := r4.lo&maskLow51Bits + c3
|
||||
|
||||
// Now all coefficients fit into 64-bit registers but are still too large to
|
||||
// be passed around as a Element. We therefore do one last carry chain,
|
||||
// where the carries will be small enough to fit in the wiggle room above 2⁵¹.
|
||||
*v = Element{rr0, rr1, rr2, rr3, rr4}
|
||||
v.carryPropagate()
|
||||
}
|
||||
|
||||
func feSquareGeneric(v, a *Element) {
|
||||
l0 := a.l0
|
||||
l1 := a.l1
|
||||
l2 := a.l2
|
||||
l3 := a.l3
|
||||
l4 := a.l4
|
||||
|
||||
// Squaring works precisely like multiplication above, but thanks to its
|
||||
// symmetry we get to group a few terms together.
|
||||
//
|
||||
// l4 l3 l2 l1 l0 x
|
||||
// l4 l3 l2 l1 l0 =
|
||||
// ------------------------
|
||||
// l4l0 l3l0 l2l0 l1l0 l0l0 +
|
||||
// l4l1 l3l1 l2l1 l1l1 l0l1 +
|
||||
// l4l2 l3l2 l2l2 l1l2 l0l2 +
|
||||
// l4l3 l3l3 l2l3 l1l3 l0l3 +
|
||||
// l4l4 l3l4 l2l4 l1l4 l0l4 =
|
||||
// ----------------------------------------------
|
||||
// r8 r7 r6 r5 r4 r3 r2 r1 r0
|
||||
//
|
||||
// l4l0 l3l0 l2l0 l1l0 l0l0 +
|
||||
// l3l1 l2l1 l1l1 l0l1 19×l4l1 +
|
||||
// l2l2 l1l2 l0l2 19×l4l2 19×l3l2 +
|
||||
// l1l3 l0l3 19×l4l3 19×l3l3 19×l2l3 +
|
||||
// l0l4 19×l4l4 19×l3l4 19×l2l4 19×l1l4 =
|
||||
// --------------------------------------
|
||||
// r4 r3 r2 r1 r0
|
||||
//
|
||||
// With precomputed 2×, 19×, and 2×19× terms, we can compute each limb with
|
||||
// only three Mul64 and four Add64, instead of five and eight.
|
||||
|
||||
l0_2 := l0 * 2
|
||||
l1_2 := l1 * 2
|
||||
|
||||
l1_38 := l1 * 38
|
||||
l2_38 := l2 * 38
|
||||
l3_38 := l3 * 38
|
||||
|
||||
l3_19 := l3 * 19
|
||||
l4_19 := l4 * 19
|
||||
|
||||
// r0 = l0×l0 + 19×(l1×l4 + l2×l3 + l3×l2 + l4×l1) = l0×l0 + 19×2×(l1×l4 + l2×l3)
|
||||
r0 := mul64(l0, l0)
|
||||
r0 = addMul64(r0, l1_38, l4)
|
||||
r0 = addMul64(r0, l2_38, l3)
|
||||
|
||||
// r1 = l0×l1 + l1×l0 + 19×(l2×l4 + l3×l3 + l4×l2) = 2×l0×l1 + 19×2×l2×l4 + 19×l3×l3
|
||||
r1 := mul64(l0_2, l1)
|
||||
r1 = addMul64(r1, l2_38, l4)
|
||||
r1 = addMul64(r1, l3_19, l3)
|
||||
|
||||
// r2 = l0×l2 + l1×l1 + l2×l0 + 19×(l3×l4 + l4×l3) = 2×l0×l2 + l1×l1 + 19×2×l3×l4
|
||||
r2 := mul64(l0_2, l2)
|
||||
r2 = addMul64(r2, l1, l1)
|
||||
r2 = addMul64(r2, l3_38, l4)
|
||||
|
||||
// r3 = l0×l3 + l1×l2 + l2×l1 + l3×l0 + 19×l4×l4 = 2×l0×l3 + 2×l1×l2 + 19×l4×l4
|
||||
r3 := mul64(l0_2, l3)
|
||||
r3 = addMul64(r3, l1_2, l2)
|
||||
r3 = addMul64(r3, l4_19, l4)
|
||||
|
||||
// r4 = l0×l4 + l1×l3 + l2×l2 + l3×l1 + l4×l0 = 2×l0×l4 + 2×l1×l3 + l2×l2
|
||||
r4 := mul64(l0_2, l4)
|
||||
r4 = addMul64(r4, l1_2, l3)
|
||||
r4 = addMul64(r4, l2, l2)
|
||||
|
||||
c0 := shiftRightBy51(r0)
|
||||
c1 := shiftRightBy51(r1)
|
||||
c2 := shiftRightBy51(r2)
|
||||
c3 := shiftRightBy51(r3)
|
||||
c4 := shiftRightBy51(r4)
|
||||
|
||||
rr0 := r0.lo&maskLow51Bits + c4*19
|
||||
rr1 := r1.lo&maskLow51Bits + c0
|
||||
rr2 := r2.lo&maskLow51Bits + c1
|
||||
rr3 := r3.lo&maskLow51Bits + c2
|
||||
rr4 := r4.lo&maskLow51Bits + c3
|
||||
|
||||
*v = Element{rr0, rr1, rr2, rr3, rr4}
|
||||
v.carryPropagate()
|
||||
}
|
||||
|
||||
// carryPropagate brings the limbs below 52 bits by applying the reduction
|
||||
// identity (a * 2²⁵⁵ + b = a * 19 + b) to the l4 carry. TODO inline
|
||||
func (v *Element) carryPropagateGeneric() *Element {
|
||||
c0 := v.l0 >> 51
|
||||
c1 := v.l1 >> 51
|
||||
c2 := v.l2 >> 51
|
||||
c3 := v.l3 >> 51
|
||||
c4 := v.l4 >> 51
|
||||
|
||||
v.l0 = v.l0&maskLow51Bits + c4*19
|
||||
v.l1 = v.l1&maskLow51Bits + c0
|
||||
v.l2 = v.l2&maskLow51Bits + c1
|
||||
v.l3 = v.l3&maskLow51Bits + c2
|
||||
v.l4 = v.l4&maskLow51Bits + c3
|
||||
|
||||
return v
|
||||
}
|
1
src/vendor/golang.org/x/crypto/curve25519/internal/field/sync.checkpoint
generated
vendored
Normal file
1
src/vendor/golang.org/x/crypto/curve25519/internal/field/sync.checkpoint
generated
vendored
Normal file
@ -0,0 +1 @@
|
||||
b0c49ae9f59d233526f8934262c5bbbe14d4358d
|
19
src/vendor/golang.org/x/crypto/curve25519/internal/field/sync.sh
generated
vendored
Normal file
19
src/vendor/golang.org/x/crypto/curve25519/internal/field/sync.sh
generated
vendored
Normal file
@ -0,0 +1,19 @@
|
||||
#! /bin/bash
|
||||
set -euo pipefail
|
||||
|
||||
cd "$(git rev-parse --show-toplevel)"
|
||||
|
||||
STD_PATH=src/crypto/ed25519/internal/edwards25519/field
|
||||
LOCAL_PATH=curve25519/internal/field
|
||||
LAST_SYNC_REF=$(cat $LOCAL_PATH/sync.checkpoint)
|
||||
|
||||
git fetch https://go.googlesource.com/go master
|
||||
|
||||
if git diff --quiet $LAST_SYNC_REF:$STD_PATH FETCH_HEAD:$STD_PATH; then
|
||||
echo "No changes."
|
||||
else
|
||||
NEW_REF=$(git rev-parse FETCH_HEAD | tee $LOCAL_PATH/sync.checkpoint)
|
||||
echo "Applying changes from $LAST_SYNC_REF to $NEW_REF..."
|
||||
git diff $LAST_SYNC_REF:$STD_PATH FETCH_HEAD:$STD_PATH | \
|
||||
git apply -3 --directory=$LOCAL_PATH
|
||||
fi
|
1
src/vendor/golang.org/x/crypto/poly1305/sum_amd64.s
generated
vendored
1
src/vendor/golang.org/x/crypto/poly1305/sum_amd64.s
generated
vendored
@ -2,6 +2,7 @@
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
//go:build gc && !purego
|
||||
// +build gc,!purego
|
||||
|
||||
#include "textflag.h"
|
||||
|
1
src/vendor/golang.org/x/crypto/poly1305/sum_ppc64le.s
generated
vendored
1
src/vendor/golang.org/x/crypto/poly1305/sum_ppc64le.s
generated
vendored
@ -2,6 +2,7 @@
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
//go:build gc && !purego
|
||||
// +build gc,!purego
|
||||
|
||||
#include "textflag.h"
|
||||
|
1
src/vendor/golang.org/x/crypto/poly1305/sum_s390x.s
generated
vendored
1
src/vendor/golang.org/x/crypto/poly1305/sum_s390x.s
generated
vendored
@ -2,6 +2,7 @@
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
//go:build gc && !purego
|
||||
// +build gc,!purego
|
||||
|
||||
#include "textflag.h"
|
||||
|
3
src/vendor/modules.txt
vendored
3
src/vendor/modules.txt
vendored
@ -1,10 +1,11 @@
|
||||
# golang.org/x/crypto v0.0.0-20210503195802-e9a32991a82e
|
||||
# golang.org/x/crypto v0.0.0-20210817164053-32db794688a5
|
||||
## explicit; go 1.17
|
||||
golang.org/x/crypto/chacha20
|
||||
golang.org/x/crypto/chacha20poly1305
|
||||
golang.org/x/crypto/cryptobyte
|
||||
golang.org/x/crypto/cryptobyte/asn1
|
||||
golang.org/x/crypto/curve25519
|
||||
golang.org/x/crypto/curve25519/internal/field
|
||||
golang.org/x/crypto/hkdf
|
||||
golang.org/x/crypto/internal/subtle
|
||||
golang.org/x/crypto/poly1305
|
||||
|
Loading…
Reference in New Issue
Block a user