307 строки
8.7 KiB
Go
307 строки
8.7 KiB
Go
// 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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// Tests include all the ShortMsgKATs provided by the Keccak team at
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// https://github.com/gvanas/KeccakCodePackage
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//
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// They only include the zero-bit case of the bitwise testvectors
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// published by NIST in the draft of FIPS-202.
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import (
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"bytes"
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"compress/flate"
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"encoding/hex"
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"encoding/json"
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"hash"
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"os"
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"strings"
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"testing"
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)
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const (
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testString = "brekeccakkeccak koax koax"
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katFilename = "testdata/keccakKats.json.deflate"
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)
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// Internal-use instances of SHAKE used to test against KATs.
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func newHashShake128() hash.Hash {
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return &state{rate: 168, dsbyte: 0x1f, outputLen: 512}
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}
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func newHashShake256() hash.Hash {
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return &state{rate: 136, dsbyte: 0x1f, outputLen: 512}
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}
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// testDigests contains functions returning hash.Hash instances
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// with output-length equal to the KAT length for both SHA-3 and
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// 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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"SHAKE128": newHashShake128,
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"SHAKE256": newHashShake256,
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}
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// testShakes contains functions that return ShakeHash instances for
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// testing the ShakeHash-specific interface.
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var testShakes = map[string]func() ShakeHash{
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"SHAKE128": NewShake128,
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"SHAKE256": NewShake256,
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}
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// decodeHex converts a hex-encoded string into a raw byte string.
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func decodeHex(s string) []byte {
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b, err := hex.DecodeString(s)
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if err != nil {
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panic(err)
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}
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return b
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}
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// structs used to marshal JSON test-cases.
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type KeccakKats struct {
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Kats map[string][]struct {
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Digest string `json:"digest"`
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Length int64 `json:"length"`
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Message string `json:"message"`
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}
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}
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func testUnalignedAndGeneric(t *testing.T, testf func(impl string)) {
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xorInOrig, copyOutOrig := xorIn, copyOut
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xorIn, copyOut = xorInGeneric, copyOutGeneric
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testf("generic")
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if xorImplementationUnaligned != "generic" {
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xorIn, copyOut = xorInUnaligned, copyOutUnaligned
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testf("unaligned")
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}
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xorIn, copyOut = xorInOrig, copyOutOrig
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}
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// TestKeccakKats tests the SHA-3 and Shake implementations against all the
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// ShortMsgKATs from https://github.com/gvanas/KeccakCodePackage
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// (The testvectors are stored in keccakKats.json.deflate due to their length.)
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func TestKeccakKats(t *testing.T) {
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testUnalignedAndGeneric(t, func(impl string) {
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// Read the KATs.
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deflated, err := os.Open(katFilename)
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if err != nil {
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t.Errorf("error opening %s: %s", katFilename, err)
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}
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file := flate.NewReader(deflated)
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dec := json.NewDecoder(file)
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var katSet KeccakKats
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err = dec.Decode(&katSet)
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if err != nil {
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t.Errorf("error decoding KATs: %s", err)
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}
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// Do the KATs.
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for functionName, kats := range katSet.Kats {
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d := testDigests[functionName]()
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for _, kat := range kats {
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d.Reset()
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in, err := hex.DecodeString(kat.Message)
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if err != nil {
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t.Errorf("error decoding KAT: %s", err)
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}
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d.Write(in[:kat.Length/8])
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got := strings.ToUpper(hex.EncodeToString(d.Sum(nil)))
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if got != kat.Digest {
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t.Errorf("function=%s, implementation=%s, length=%d\nmessage:\n %s\ngot:\n %s\nwanted:\n %s",
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functionName, impl, kat.Length, kat.Message, got, kat.Digest)
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t.Logf("wanted %+v", kat)
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t.FailNow()
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}
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continue
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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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testUnalignedAndGeneric(t, func(impl string) {
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buf := sequentialBytes(0x10000)
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for alg, df := range testDigests {
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d := df()
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d.Reset()
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d.Write(buf)
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want := d.Sum(nil)
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d.Reset()
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for i := 0; i < len(buf); {
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// Cycle through offsets which make a 137 byte sequence.
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// Because 137 is prime this sequence should exercise all corner cases.
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offsets := [17]int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 1}
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for _, j := range offsets {
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if v := len(buf) - i; v < j {
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j = v
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}
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d.Write(buf[i : i+j])
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i += j
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}
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}
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got := d.Sum(nil)
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if !bytes.Equal(got, want) {
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t.Errorf("Unaligned writes, implementation=%s, alg=%s\ngot %q, want %q", impl, alg, got, want)
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}
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}
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})
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}
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// TestAppend checks that appending works when reallocation is necessary.
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func TestAppend(t *testing.T) {
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testUnalignedAndGeneric(t, func(impl string) {
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d := New224()
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for capacity := 2; capacity <= 66; capacity += 64 {
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// The first time around the loop, Sum will have to reallocate.
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// The second time, it will not.
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buf := make([]byte, 2, capacity)
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d.Reset()
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d.Write([]byte{0xcc})
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buf = d.Sum(buf)
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expected := "0000DF70ADC49B2E76EEE3A6931B93FA41841C3AF2CDF5B32A18B5478C39"
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if got := strings.ToUpper(hex.EncodeToString(buf)); got != expected {
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t.Errorf("got %s, want %s", got, expected)
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}
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}
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})
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}
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// TestAppendNoRealloc tests that appending works when no reallocation is necessary.
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func TestAppendNoRealloc(t *testing.T) {
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testUnalignedAndGeneric(t, func(impl string) {
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buf := make([]byte, 1, 200)
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d := New224()
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d.Write([]byte{0xcc})
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buf = d.Sum(buf)
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expected := "00DF70ADC49B2E76EEE3A6931B93FA41841C3AF2CDF5B32A18B5478C39"
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if got := strings.ToUpper(hex.EncodeToString(buf)); got != expected {
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t.Errorf("%s: got %s, want %s", impl, got, expected)
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}
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})
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}
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// TestSqueezing checks that squeezing the full output a single time produces
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// the same output as repeatedly squeezing the instance.
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func TestSqueezing(t *testing.T) {
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testUnalignedAndGeneric(t, func(impl string) {
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for functionName, newShakeHash := range testShakes {
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d0 := newShakeHash()
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d0.Write([]byte(testString))
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ref := make([]byte, 32)
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d0.Read(ref)
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d1 := newShakeHash()
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d1.Write([]byte(testString))
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var multiple []byte
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for _ = range ref {
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one := make([]byte, 1)
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d1.Read(one)
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multiple = append(multiple, one...)
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}
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if !bytes.Equal(ref, multiple) {
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t.Errorf("%s (%s): squeezing %d bytes one at a time failed", functionName, impl, len(ref))
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}
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}
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})
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}
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// sequentialBytes produces a buffer of size consecutive bytes 0x00, 0x01, ..., used for testing.
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func sequentialBytes(size int) []byte {
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result := make([]byte, size)
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for i := range result {
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result[i] = byte(i)
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}
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return result
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}
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// BenchmarkPermutationFunction measures the speed of the permutation function
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// with no input data.
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func BenchmarkPermutationFunction(b *testing.B) {
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b.SetBytes(int64(200))
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var lanes [25]uint64
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for i := 0; i < b.N; i++ {
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keccakF1600(&lanes)
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}
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}
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// benchmarkHash tests the speed to hash num buffers of buflen each.
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func benchmarkHash(b *testing.B, h hash.Hash, size, num int) {
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b.StopTimer()
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h.Reset()
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data := sequentialBytes(size)
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b.SetBytes(int64(size * num))
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b.StartTimer()
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var state []byte
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for i := 0; i < b.N; i++ {
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for j := 0; j < num; j++ {
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h.Write(data)
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}
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state = h.Sum(state[:0])
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}
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b.StopTimer()
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h.Reset()
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}
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// benchmarkShake is specialized to the Shake instances, which don't
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// require a copy on reading output.
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func benchmarkShake(b *testing.B, h ShakeHash, size, num int) {
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b.StopTimer()
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h.Reset()
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data := sequentialBytes(size)
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d := make([]byte, 32)
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b.SetBytes(int64(size * num))
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b.StartTimer()
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for i := 0; i < b.N; i++ {
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h.Reset()
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for j := 0; j < num; j++ {
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h.Write(data)
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}
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h.Read(d)
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}
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}
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func BenchmarkSha3_512_MTU(b *testing.B) { benchmarkHash(b, New512(), 1350, 1) }
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func BenchmarkSha3_384_MTU(b *testing.B) { benchmarkHash(b, New384(), 1350, 1) }
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func BenchmarkSha3_256_MTU(b *testing.B) { benchmarkHash(b, New256(), 1350, 1) }
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func BenchmarkSha3_224_MTU(b *testing.B) { benchmarkHash(b, New224(), 1350, 1) }
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func BenchmarkShake128_MTU(b *testing.B) { benchmarkShake(b, NewShake128(), 1350, 1) }
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func BenchmarkShake256_MTU(b *testing.B) { benchmarkShake(b, NewShake256(), 1350, 1) }
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func BenchmarkShake256_16x(b *testing.B) { benchmarkShake(b, NewShake256(), 16, 1024) }
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func BenchmarkShake256_1MiB(b *testing.B) { benchmarkShake(b, NewShake256(), 1024, 1024) }
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func BenchmarkSha3_512_1MiB(b *testing.B) { benchmarkHash(b, New512(), 1024, 1024) }
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func Example_sum() {
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buf := []byte("some data to hash")
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// A hash needs to be 64 bytes long to have 256-bit collision resistance.
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h := make([]byte, 64)
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// Compute a 64-byte hash of buf and put it in h.
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ShakeSum256(h, buf)
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}
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func Example_mac() {
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k := []byte("this is a secret key; you should generate a strong random key that's at least 32 bytes long")
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buf := []byte("and this is some data to authenticate")
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// A MAC with 32 bytes of output has 256-bit security strength -- if you use at least a 32-byte-long key.
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h := make([]byte, 32)
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d := NewShake256()
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// Write the key into the hash.
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d.Write(k)
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// Now write the data.
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d.Write(buf)
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// Read 32 bytes of output from the hash into h.
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d.Read(h)
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}
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