espelhamento de
https://github.com/henrydcase/nobs.git
sincronizado 2024-11-22 15:18:57 +00:00
cleanup
Esse commit está contido em:
pai
68ba33e34f
commit
516ea4f5e8
@ -1,91 +0,0 @@
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// Copyright 2014 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package sha3
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// This file provides functions for creating instances of the SHA-3
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// and SHAKE hash functions, as well as utility functions for hashing
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// bytes.
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import (
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"hash"
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)
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// New224 creates a new SHA3-224 hash.
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// Its generic security strength is 224 bits against preimage attacks,
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// and 112 bits against collision attacks.
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func New224() hash.Hash {
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if h := new224Asm(); h != nil {
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return h
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}
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return &state{rate: 144, outputLen: 28, dsbyte: 0x06}
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}
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// New256 creates a new SHA3-256 hash.
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// Its generic security strength is 256 bits against preimage attacks,
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// and 128 bits against collision attacks.
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func New256() hash.Hash {
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if h := new256Asm(); h != nil {
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return h
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}
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return &state{rate: 136, outputLen: 32, dsbyte: 0x06}
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}
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// New384 creates a new SHA3-384 hash.
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// Its generic security strength is 384 bits against preimage attacks,
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// and 192 bits against collision attacks.
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func New384() hash.Hash {
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if h := new384Asm(); h != nil {
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return h
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}
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return &state{rate: 104, outputLen: 48, dsbyte: 0x06}
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}
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// New512 creates a new SHA3-512 hash.
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// Its generic security strength is 512 bits against preimage attacks,
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// and 256 bits against collision attacks.
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func New512() hash.Hash {
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if h := new512Asm(); h != nil {
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return h
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}
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return &state{rate: 72, outputLen: 64, dsbyte: 0x06}
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}
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// NewLegacyKeccak256 creates a new Keccak-256 hash.
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//
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// Only use this function if you require compatibility with an existing cryptosystem
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// that uses non-standard padding. All other users should use New256 instead.
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func NewLegacyKeccak256() hash.Hash { return &state{rate: 136, outputLen: 32, dsbyte: 0x01} }
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// Sum224 returns the SHA3-224 digest of the data.
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func Sum224(data []byte) (digest [28]byte) {
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h := New224()
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h.Write(data)
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h.Sum(digest[:0])
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return
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}
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// Sum256 returns the SHA3-256 digest of the data.
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func Sum256(data []byte) (digest [32]byte) {
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h := New256()
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h.Write(data)
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h.Sum(digest[:0])
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return
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}
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// Sum384 returns the SHA3-384 digest of the data.
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func Sum384(data []byte) (digest [48]byte) {
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h := New384()
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h.Write(data)
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h.Sum(digest[:0])
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return
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}
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// Sum512 returns the SHA3-512 digest of the data.
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func Sum512(data []byte) (digest [64]byte) {
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h := New512()
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h.Write(data)
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h.Sum(digest[:0])
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return
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}
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@ -1,27 +0,0 @@
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// Copyright 2017 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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//+build gccgo appengine !s390x
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package sha3
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import (
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"hash"
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)
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// new224Asm returns an assembly implementation of SHA3-224 if available,
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// otherwise it returns nil.
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func new224Asm() hash.Hash { return nil }
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// new256Asm returns an assembly implementation of SHA3-256 if available,
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// otherwise it returns nil.
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func new256Asm() hash.Hash { return nil }
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// new384Asm returns an assembly implementation of SHA3-384 if available,
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// otherwise it returns nil.
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func new384Asm() hash.Hash { return nil }
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// new512Asm returns an assembly implementation of SHA3-512 if available,
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// otherwise it returns nil.
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func new512Asm() hash.Hash { return nil }
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@ -1,18 +0,0 @@
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// Copyright 2014 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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// +build go1.4
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package sha3
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import (
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"crypto"
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)
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func init() {
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crypto.RegisterHash(crypto.SHA3_224, New224)
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crypto.RegisterHash(crypto.SHA3_256, New256)
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crypto.RegisterHash(crypto.SHA3_384, New384)
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crypto.RegisterHash(crypto.SHA3_512, New512)
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}
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@ -4,6 +4,8 @@
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package sha3
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import "hash"
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// spongeDirection indicates the direction bytes are flowing through the sponge.
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type spongeDirection int
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@ -38,8 +40,9 @@ type state struct {
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// [1] http://csrc.nist.gov/publications/drafts/fips-202/fips_202_draft.pdf
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// "Draft FIPS 202: SHA-3 Standard: Permutation-Based Hash and
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// Extendable-Output Functions (May 2014)"
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dsbyte byte
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storage [maxRate]byte
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dsbyte byte
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storage storageBuf
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// Specific to SHA-3 and SHAKE.
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outputLen int // the default output size in bytes
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@ -60,15 +63,15 @@ func (d *state) Reset() {
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d.a[i] = 0
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}
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d.state = spongeAbsorbing
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d.buf = d.storage[:0]
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d.buf = d.storage.asBytes()[:0]
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}
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func (d *state) clone() *state {
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ret := *d
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if ret.state == spongeAbsorbing {
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ret.buf = ret.storage[:len(ret.buf)]
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ret.buf = ret.storage.asBytes()[:len(ret.buf)]
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} else {
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ret.buf = ret.storage[d.rate-cap(d.buf) : d.rate]
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ret.buf = ret.storage.asBytes()[d.rate-cap(d.buf) : d.rate]
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}
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return &ret
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@ -82,13 +85,13 @@ func (d *state) permute() {
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// If we're absorbing, we need to xor the input into the state
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// before applying the permutation.
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xorIn(d, d.buf)
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d.buf = d.storage[:0]
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d.buf = d.storage.asBytes()[:0]
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keccakF1600(&d.a)
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case spongeSqueezing:
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// If we're squeezing, we need to apply the permutatin before
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// copying more output.
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keccakF1600(&d.a)
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d.buf = d.storage[:d.rate]
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d.buf = d.storage.asBytes()[:d.rate]
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copyOut(d, d.buf)
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}
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}
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@ -97,7 +100,7 @@ func (d *state) permute() {
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// the multi-bitrate 10..1 padding rule, and permutes the state.
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func (d *state) padAndPermute(dsbyte byte) {
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if d.buf == nil {
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d.buf = d.storage[:0]
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d.buf = d.storage.asBytes()[:0]
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}
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// Pad with this instance's domain-separator bits. We know that there's
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// at least one byte of space in d.buf because, if it were full,
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@ -105,7 +108,7 @@ func (d *state) padAndPermute(dsbyte byte) {
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// first one bit for the padding. See the comment in the state struct.
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d.buf = append(d.buf, dsbyte)
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zerosStart := len(d.buf)
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d.buf = d.storage[:d.rate]
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d.buf = d.storage.asBytes()[:d.rate]
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for i := zerosStart; i < d.rate; i++ {
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d.buf[i] = 0
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}
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@ -116,7 +119,7 @@ func (d *state) padAndPermute(dsbyte byte) {
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// Apply the permutation
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d.permute()
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d.state = spongeSqueezing
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d.buf = d.storage[:d.rate]
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d.buf = d.storage.asBytes()[:d.rate]
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copyOut(d, d.buf)
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}
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@ -127,7 +130,7 @@ func (d *state) Write(p []byte) (written int, err error) {
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panic("sha3: write to sponge after read")
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}
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if d.buf == nil {
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d.buf = d.storage[:0]
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d.buf = d.storage.asBytes()[:0]
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}
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written = len(p)
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@ -190,3 +193,63 @@ func (d *state) Sum(in []byte) []byte {
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dup.Read(hash)
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return append(in, hash...)
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}
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// New224 creates a new SHA3-224 hash.
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// Its generic security strength is 224 bits against preimage attacks,
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// and 112 bits against collision attacks.
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func New224() hash.Hash {
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return &state{rate: 144, outputLen: 28, dsbyte: 0x06}
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}
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// New256 creates a new SHA3-256 hash.
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// Its generic security strength is 256 bits against preimage attacks,
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// and 128 bits against collision attacks.
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func New256() hash.Hash {
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return &state{rate: 136, outputLen: 32, dsbyte: 0x06}
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}
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// New384 creates a new SHA3-384 hash.
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// Its generic security strength is 384 bits against preimage attacks,
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// and 192 bits against collision attacks.
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func New384() hash.Hash {
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return &state{rate: 104, outputLen: 48, dsbyte: 0x06}
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}
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// New512 creates a new SHA3-512 hash.
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// Its generic security strength is 512 bits against preimage attacks,
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// and 256 bits against collision attacks.
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func New512() hash.Hash {
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return &state{rate: 72, outputLen: 64, dsbyte: 0x06}
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}
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// Sum224 returns the SHA3-224 digest of the data.
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func Sum224(data []byte) (digest [28]byte) {
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h := New224()
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h.Write(data)
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h.Sum(digest[:0])
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return
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}
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// Sum256 returns the SHA3-256 digest of the data.
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func Sum256(data []byte) (digest [32]byte) {
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h := New256()
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h.Write(data)
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h.Sum(digest[:0])
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return
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}
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// Sum384 returns the SHA3-384 digest of the data.
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func Sum384(data []byte) (digest [48]byte) {
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h := New384()
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h.Write(data)
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h.Sum(digest[:0])
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return
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}
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// Sum512 returns the SHA3-512 digest of the data.
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func Sum512(data []byte) (digest [64]byte) {
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h := New512()
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h.Write(data)
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h.Sum(digest[:0])
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return
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}
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@ -31,11 +31,10 @@ const (
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// with output-length equal to the KAT length for SHA-3, Keccak
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// and SHAKE instances.
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var testDigests = map[string]func() hash.Hash{
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"SHA3-224": New224,
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"SHA3-256": New256,
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"SHA3-384": New384,
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"SHA3-512": New512,
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"Keccak-256": NewLegacyKeccak256,
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"SHA3-224": New224,
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"SHA3-256": New256,
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"SHA3-384": New384,
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"SHA3-512": New512,
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}
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// testShakes contains functions that return sha3.ShakeHash instances for
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@ -156,31 +155,6 @@ func TestKeccakKats(t *testing.T) {
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})
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}
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// TestKeccak does a basic test of the non-standardized Keccak hash functions.
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func TestKeccak(t *testing.T) {
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tests := []struct {
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fn func() hash.Hash
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data []byte
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want string
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}{
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{
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NewLegacyKeccak256,
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[]byte("abc"),
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"4e03657aea45a94fc7d47ba826c8d667c0d1e6e33a64a036ec44f58fa12d6c45",
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},
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}
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for _, u := range tests {
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h := u.fn()
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h.Write(u.data)
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got := h.Sum(nil)
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want := decodeHex(u.want)
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if !bytes.Equal(got, want) {
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t.Errorf("unexpected hash for size %d: got '%x' want '%s'", h.Size()*8, got, u.want)
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}
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}
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}
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// TestUnalignedWrite tests that writing data in an arbitrary pattern with
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// small input buffers.
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func TestUnalignedWrite(t *testing.T) {
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@ -116,9 +116,6 @@ func (c *state) Clone() ShakeHash {
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// Its generic security strength is 128 bits against all attacks if at
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// least 32 bytes of its output are used.
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func NewShake128() ShakeHash {
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if h := newShake128Asm(); h != nil {
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return h
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}
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return &state{rate: rate128, dsbyte: dsbyteShake}
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}
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@ -126,9 +123,6 @@ func NewShake128() ShakeHash {
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// Its generic security strength is 256 bits against all attacks if
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// at least 64 bytes of its output are used.
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func NewShake256() ShakeHash {
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if h := newShake256Asm(); h != nil {
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return h
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}
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return &state{rate: rate256, dsbyte: dsbyteShake}
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}
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@ -1,19 +0,0 @@
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// Copyright 2017 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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//+build gccgo appengine !s390x
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package sha3
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// newShake128Asm returns an assembly implementation of SHAKE-128 if available,
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// otherwise it returns nil.
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func newShake128Asm() ShakeHash {
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return nil
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}
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// newShake256Asm returns an assembly implementation of SHAKE-256 if available,
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// otherwise it returns nil.
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func newShake256Asm() ShakeHash {
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return nil
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}
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@ -6,6 +6,13 @@
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package sha3
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// A storageBuf is an aligned array of maxRate bytes.
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type storageBuf [maxRate]byte
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func (b *storageBuf) asBytes() *[maxRate]byte {
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return (*[maxRate]byte)(b)
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}
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var (
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xorIn = xorInGeneric
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copyOut = copyOutGeneric
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@ -9,9 +9,16 @@ package sha3
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import "unsafe"
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// A storageBuf is an aligned array of maxRate bytes.
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type storageBuf [maxRate / 8]uint64
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func (b *storageBuf) asBytes() *[maxRate]byte {
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return (*[maxRate]byte)(unsafe.Pointer(b))
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}
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func xorInUnaligned(d *state, buf []byte) {
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bw := (*[maxRate / 8]uint64)(unsafe.Pointer(&buf[0]))
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n := len(buf)
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bw := (*[maxRate / 8]uint64)(unsafe.Pointer(&buf[0]))[: n/8 : n/8]
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if n >= 72 {
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d.a[0] ^= bw[0]
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d.a[1] ^= bw[1]
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|
@ -4,8 +4,6 @@
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package shake
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import "hash"
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// spongeDirection indicates the direction bytes are flowing through the sponge.
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type spongeDirection int
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@ -193,7 +191,3 @@ func (d *state) Sum(in []byte) []byte {
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dup.Read(hash)
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return append(in, hash...)
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}
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|
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// Only use this function if you require compatibility with an existing cryptosystem
|
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// that uses non-standard padding. All other users should use New256 instead.
|
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func NewLegacyKeccak256() hash.Hash { return &state{rate: 136, outputLen: 32, dsbyte: 0x01} }
|
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|
@ -112,31 +112,6 @@ func TestKeccakKats(t *testing.T) {
|
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}
|
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}
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|
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// TestKeccak does a basic test of the non-standardized Keccak hash functions.
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func TestKeccak(t *testing.T) {
|
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tests := []struct {
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fn func() hash.Hash
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data []byte
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want string
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}{
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{
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NewLegacyKeccak256,
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[]byte("abc"),
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"4e03657aea45a94fc7d47ba826c8d667c0d1e6e33a64a036ec44f58fa12d6c45",
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},
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}
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|
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for _, u := range tests {
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h := u.fn()
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h.Write(u.data)
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got := h.Sum(nil)
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want := decodeHex(u.want)
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if !bytes.Equal(got, want) {
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t.Errorf("unexpected hash for size %d: got '%x' want '%s'", h.Size()*8, got, u.want)
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}
|
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}
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}
|
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|
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// TestUnalignedWrite tests that writing data in an arbitrary pattern with
|
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// small input buffers.
|
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func TestUnalignedWrite(t *testing.T) {
|
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|
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