293dd2e848
* Add vendor dir so builds dont require dep * Pin specific version go-eth version
482 lines
12 KiB
Go
482 lines
12 KiB
Go
// Copyright 2017 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package bmt
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import (
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"bytes"
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crand "crypto/rand"
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"fmt"
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"hash"
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"io"
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"math/rand"
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"sync"
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"sync/atomic"
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"testing"
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"time"
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"github.com/ethereum/go-ethereum/crypto/sha3"
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)
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const (
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maxproccnt = 8
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)
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// TestRefHasher tests that the RefHasher computes the expected BMT hash for
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// all data lengths between 0 and 256 bytes
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func TestRefHasher(t *testing.T) {
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hashFunc := sha3.NewKeccak256
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sha3 := func(data ...[]byte) []byte {
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h := hashFunc()
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for _, v := range data {
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h.Write(v)
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}
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return h.Sum(nil)
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}
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// the test struct is used to specify the expected BMT hash for data
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// lengths between "from" and "to"
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type test struct {
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from int64
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to int64
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expected func([]byte) []byte
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}
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var tests []*test
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// all lengths in [0,64] should be:
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//
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// sha3(data)
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//
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tests = append(tests, &test{
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from: 0,
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to: 64,
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expected: func(data []byte) []byte {
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return sha3(data)
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},
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})
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// all lengths in [65,96] should be:
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//
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// sha3(
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// sha3(data[:64])
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// data[64:]
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// )
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//
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tests = append(tests, &test{
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from: 65,
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to: 96,
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expected: func(data []byte) []byte {
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return sha3(sha3(data[:64]), data[64:])
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},
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})
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// all lengths in [97,128] should be:
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//
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// sha3(
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// sha3(data[:64])
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// sha3(data[64:])
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// )
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//
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tests = append(tests, &test{
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from: 97,
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to: 128,
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expected: func(data []byte) []byte {
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return sha3(sha3(data[:64]), sha3(data[64:]))
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},
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})
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// all lengths in [129,160] should be:
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//
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// sha3(
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// sha3(
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// sha3(data[:64])
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// sha3(data[64:128])
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// )
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// data[128:]
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// )
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//
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tests = append(tests, &test{
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from: 129,
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to: 160,
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expected: func(data []byte) []byte {
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return sha3(sha3(sha3(data[:64]), sha3(data[64:128])), data[128:])
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},
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})
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// all lengths in [161,192] should be:
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//
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// sha3(
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// sha3(
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// sha3(data[:64])
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// sha3(data[64:128])
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// )
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// sha3(data[128:])
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// )
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//
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tests = append(tests, &test{
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from: 161,
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to: 192,
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expected: func(data []byte) []byte {
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return sha3(sha3(sha3(data[:64]), sha3(data[64:128])), sha3(data[128:]))
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},
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})
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// all lengths in [193,224] should be:
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//
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// sha3(
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// sha3(
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// sha3(data[:64])
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// sha3(data[64:128])
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// )
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// sha3(
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// sha3(data[128:192])
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// data[192:]
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// )
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// )
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//
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tests = append(tests, &test{
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from: 193,
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to: 224,
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expected: func(data []byte) []byte {
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return sha3(sha3(sha3(data[:64]), sha3(data[64:128])), sha3(sha3(data[128:192]), data[192:]))
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},
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})
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// all lengths in [225,256] should be:
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//
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// sha3(
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// sha3(
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// sha3(data[:64])
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// sha3(data[64:128])
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// )
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// sha3(
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// sha3(data[128:192])
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// sha3(data[192:])
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// )
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// )
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//
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tests = append(tests, &test{
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from: 225,
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to: 256,
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expected: func(data []byte) []byte {
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return sha3(sha3(sha3(data[:64]), sha3(data[64:128])), sha3(sha3(data[128:192]), sha3(data[192:])))
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},
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})
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// run the tests
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for _, x := range tests {
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for length := x.from; length <= x.to; length++ {
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t.Run(fmt.Sprintf("%d_bytes", length), func(t *testing.T) {
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data := make([]byte, length)
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if _, err := io.ReadFull(crand.Reader, data); err != nil && err != io.EOF {
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t.Fatal(err)
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}
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expected := x.expected(data)
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actual := NewRefHasher(hashFunc, 128).Hash(data)
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if !bytes.Equal(actual, expected) {
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t.Fatalf("expected %x, got %x", expected, actual)
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}
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})
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}
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}
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}
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func testDataReader(l int) (r io.Reader) {
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return io.LimitReader(crand.Reader, int64(l))
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}
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func TestHasherCorrectness(t *testing.T) {
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err := testHasher(testBaseHasher)
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if err != nil {
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t.Fatal(err)
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}
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}
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func testHasher(f func(BaseHasher, []byte, int, int) error) error {
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tdata := testDataReader(4128)
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data := make([]byte, 4128)
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tdata.Read(data)
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hasher := sha3.NewKeccak256
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size := hasher().Size()
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counts := []int{1, 2, 3, 4, 5, 8, 16, 32, 64, 128}
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var err error
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for _, count := range counts {
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max := count * size
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incr := 1
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for n := 0; n <= max+incr; n += incr {
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err = f(hasher, data, n, count)
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if err != nil {
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return err
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}
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}
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}
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return nil
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}
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func TestHasherReuseWithoutRelease(t *testing.T) {
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testHasherReuse(1, t)
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}
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func TestHasherReuseWithRelease(t *testing.T) {
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testHasherReuse(maxproccnt, t)
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}
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func testHasherReuse(i int, t *testing.T) {
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hasher := sha3.NewKeccak256
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pool := NewTreePool(hasher, 128, i)
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defer pool.Drain(0)
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bmt := New(pool)
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for i := 0; i < 500; i++ {
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n := rand.Intn(4096)
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tdata := testDataReader(n)
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data := make([]byte, n)
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tdata.Read(data)
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err := testHasherCorrectness(bmt, hasher, data, n, 128)
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if err != nil {
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t.Fatal(err)
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}
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}
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}
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func TestHasherConcurrency(t *testing.T) {
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hasher := sha3.NewKeccak256
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pool := NewTreePool(hasher, 128, maxproccnt)
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defer pool.Drain(0)
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wg := sync.WaitGroup{}
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cycles := 100
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wg.Add(maxproccnt * cycles)
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errc := make(chan error)
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for p := 0; p < maxproccnt; p++ {
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for i := 0; i < cycles; i++ {
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go func() {
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bmt := New(pool)
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n := rand.Intn(4096)
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tdata := testDataReader(n)
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data := make([]byte, n)
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tdata.Read(data)
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err := testHasherCorrectness(bmt, hasher, data, n, 128)
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wg.Done()
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if err != nil {
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errc <- err
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}
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}()
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}
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}
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go func() {
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wg.Wait()
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close(errc)
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}()
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var err error
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select {
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case <-time.NewTimer(5 * time.Second).C:
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err = fmt.Errorf("timed out")
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case err = <-errc:
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}
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if err != nil {
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t.Fatal(err)
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}
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}
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func testBaseHasher(hasher BaseHasher, d []byte, n, count int) error {
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pool := NewTreePool(hasher, count, 1)
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defer pool.Drain(0)
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bmt := New(pool)
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return testHasherCorrectness(bmt, hasher, d, n, count)
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}
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func testHasherCorrectness(bmt hash.Hash, hasher BaseHasher, d []byte, n, count int) (err error) {
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data := d[:n]
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rbmt := NewRefHasher(hasher, count)
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exp := rbmt.Hash(data)
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timeout := time.NewTimer(time.Second)
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c := make(chan error)
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go func() {
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bmt.Reset()
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bmt.Write(data)
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got := bmt.Sum(nil)
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if !bytes.Equal(got, exp) {
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c <- fmt.Errorf("wrong hash: expected %x, got %x", exp, got)
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}
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close(c)
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}()
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select {
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case <-timeout.C:
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err = fmt.Errorf("BMT hash calculation timed out")
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case err = <-c:
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}
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return err
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}
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func BenchmarkSHA3_4k(t *testing.B) { benchmarkSHA3(4096, t) }
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func BenchmarkSHA3_2k(t *testing.B) { benchmarkSHA3(4096/2, t) }
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func BenchmarkSHA3_1k(t *testing.B) { benchmarkSHA3(4096/4, t) }
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func BenchmarkSHA3_512b(t *testing.B) { benchmarkSHA3(4096/8, t) }
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func BenchmarkSHA3_256b(t *testing.B) { benchmarkSHA3(4096/16, t) }
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func BenchmarkSHA3_128b(t *testing.B) { benchmarkSHA3(4096/32, t) }
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func BenchmarkBMTBaseline_4k(t *testing.B) { benchmarkBMTBaseline(4096, t) }
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func BenchmarkBMTBaseline_2k(t *testing.B) { benchmarkBMTBaseline(4096/2, t) }
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func BenchmarkBMTBaseline_1k(t *testing.B) { benchmarkBMTBaseline(4096/4, t) }
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func BenchmarkBMTBaseline_512b(t *testing.B) { benchmarkBMTBaseline(4096/8, t) }
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func BenchmarkBMTBaseline_256b(t *testing.B) { benchmarkBMTBaseline(4096/16, t) }
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func BenchmarkBMTBaseline_128b(t *testing.B) { benchmarkBMTBaseline(4096/32, t) }
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func BenchmarkRefHasher_4k(t *testing.B) { benchmarkRefHasher(4096, t) }
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func BenchmarkRefHasher_2k(t *testing.B) { benchmarkRefHasher(4096/2, t) }
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func BenchmarkRefHasher_1k(t *testing.B) { benchmarkRefHasher(4096/4, t) }
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func BenchmarkRefHasher_512b(t *testing.B) { benchmarkRefHasher(4096/8, t) }
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func BenchmarkRefHasher_256b(t *testing.B) { benchmarkRefHasher(4096/16, t) }
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func BenchmarkRefHasher_128b(t *testing.B) { benchmarkRefHasher(4096/32, t) }
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func BenchmarkHasher_4k(t *testing.B) { benchmarkHasher(4096, t) }
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func BenchmarkHasher_2k(t *testing.B) { benchmarkHasher(4096/2, t) }
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func BenchmarkHasher_1k(t *testing.B) { benchmarkHasher(4096/4, t) }
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func BenchmarkHasher_512b(t *testing.B) { benchmarkHasher(4096/8, t) }
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func BenchmarkHasher_256b(t *testing.B) { benchmarkHasher(4096/16, t) }
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func BenchmarkHasher_128b(t *testing.B) { benchmarkHasher(4096/32, t) }
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func BenchmarkHasherNoReuse_4k(t *testing.B) { benchmarkHasherReuse(1, 4096, t) }
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func BenchmarkHasherNoReuse_2k(t *testing.B) { benchmarkHasherReuse(1, 4096/2, t) }
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func BenchmarkHasherNoReuse_1k(t *testing.B) { benchmarkHasherReuse(1, 4096/4, t) }
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func BenchmarkHasherNoReuse_512b(t *testing.B) { benchmarkHasherReuse(1, 4096/8, t) }
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func BenchmarkHasherNoReuse_256b(t *testing.B) { benchmarkHasherReuse(1, 4096/16, t) }
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func BenchmarkHasherNoReuse_128b(t *testing.B) { benchmarkHasherReuse(1, 4096/32, t) }
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func BenchmarkHasherReuse_4k(t *testing.B) { benchmarkHasherReuse(16, 4096, t) }
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func BenchmarkHasherReuse_2k(t *testing.B) { benchmarkHasherReuse(16, 4096/2, t) }
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func BenchmarkHasherReuse_1k(t *testing.B) { benchmarkHasherReuse(16, 4096/4, t) }
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func BenchmarkHasherReuse_512b(t *testing.B) { benchmarkHasherReuse(16, 4096/8, t) }
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func BenchmarkHasherReuse_256b(t *testing.B) { benchmarkHasherReuse(16, 4096/16, t) }
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func BenchmarkHasherReuse_128b(t *testing.B) { benchmarkHasherReuse(16, 4096/32, t) }
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// benchmarks the minimum hashing time for a balanced (for simplicity) BMT
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// by doing count/segmentsize parallel hashings of 2*segmentsize bytes
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// doing it on n maxproccnt each reusing the base hasher
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// the premise is that this is the minimum computation needed for a BMT
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// therefore this serves as a theoretical optimum for concurrent implementations
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func benchmarkBMTBaseline(n int, t *testing.B) {
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tdata := testDataReader(64)
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data := make([]byte, 64)
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tdata.Read(data)
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hasher := sha3.NewKeccak256
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t.ReportAllocs()
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t.ResetTimer()
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for i := 0; i < t.N; i++ {
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count := int32((n-1)/hasher().Size() + 1)
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wg := sync.WaitGroup{}
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wg.Add(maxproccnt)
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var i int32
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for j := 0; j < maxproccnt; j++ {
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go func() {
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defer wg.Done()
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h := hasher()
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for atomic.AddInt32(&i, 1) < count {
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h.Reset()
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h.Write(data)
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h.Sum(nil)
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}
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}()
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}
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wg.Wait()
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}
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}
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func benchmarkHasher(n int, t *testing.B) {
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tdata := testDataReader(n)
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data := make([]byte, n)
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tdata.Read(data)
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size := 1
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hasher := sha3.NewKeccak256
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segmentCount := 128
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pool := NewTreePool(hasher, segmentCount, size)
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bmt := New(pool)
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t.ReportAllocs()
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t.ResetTimer()
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for i := 0; i < t.N; i++ {
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bmt.Reset()
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bmt.Write(data)
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bmt.Sum(nil)
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}
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}
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func benchmarkHasherReuse(poolsize, n int, t *testing.B) {
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tdata := testDataReader(n)
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data := make([]byte, n)
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tdata.Read(data)
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hasher := sha3.NewKeccak256
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segmentCount := 128
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pool := NewTreePool(hasher, segmentCount, poolsize)
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cycles := 200
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t.ReportAllocs()
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t.ResetTimer()
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for i := 0; i < t.N; i++ {
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wg := sync.WaitGroup{}
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wg.Add(cycles)
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for j := 0; j < cycles; j++ {
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bmt := New(pool)
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go func() {
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defer wg.Done()
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bmt.Reset()
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bmt.Write(data)
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bmt.Sum(nil)
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}()
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}
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wg.Wait()
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}
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}
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func benchmarkSHA3(n int, t *testing.B) {
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data := make([]byte, n)
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tdata := testDataReader(n)
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tdata.Read(data)
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hasher := sha3.NewKeccak256
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h := hasher()
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t.ReportAllocs()
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t.ResetTimer()
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for i := 0; i < t.N; i++ {
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h.Reset()
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h.Write(data)
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h.Sum(nil)
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}
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}
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func benchmarkRefHasher(n int, t *testing.B) {
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data := make([]byte, n)
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tdata := testDataReader(n)
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tdata.Read(data)
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hasher := sha3.NewKeccak256
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rbmt := NewRefHasher(hasher, 128)
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t.ReportAllocs()
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t.ResetTimer()
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for i := 0; i < t.N; i++ {
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rbmt.Hash(data)
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}
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}
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