common/bitutil, consensus/ethash: reusable bitutil package
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188
common/bitutil/bitutil.go
Normal file
188
common/bitutil/bitutil.go
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@ -0,0 +1,188 @@
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// Copyright 2013 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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// Adapted from: https://golang.org/src/crypto/cipher/xor.go
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// Package bitutil implements fast bitwise operations.
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package bitutil
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import (
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"runtime"
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"unsafe"
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)
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const wordSize = int(unsafe.Sizeof(uintptr(0)))
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const supportsUnaligned = runtime.GOARCH == "386" || runtime.GOARCH == "amd64" || runtime.GOARCH == "ppc64" || runtime.GOARCH == "ppc64le" || runtime.GOARCH == "s390x"
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// XORBytes xors the bytes in a and b. The destination is assumed to have enough
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// space. Returns the number of bytes xor'd.
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func XORBytes(dst, a, b []byte) int {
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if supportsUnaligned {
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return fastXORBytes(dst, a, b)
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}
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return safeXORBytes(dst, a, b)
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}
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// fastXORBytes xors in bulk. It only works on architectures that support
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// unaligned read/writes.
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func fastXORBytes(dst, a, b []byte) int {
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n := len(a)
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if len(b) < n {
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n = len(b)
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}
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w := n / wordSize
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if w > 0 {
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dw := *(*[]uintptr)(unsafe.Pointer(&dst))
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aw := *(*[]uintptr)(unsafe.Pointer(&a))
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bw := *(*[]uintptr)(unsafe.Pointer(&b))
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for i := 0; i < w; i++ {
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dw[i] = aw[i] ^ bw[i]
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}
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}
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for i := (n - n%wordSize); i < n; i++ {
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dst[i] = a[i] ^ b[i]
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}
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return n
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}
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// safeXORBytes xors one by one. It works on all architectures, independent if
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// it supports unaligned read/writes or not.
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func safeXORBytes(dst, a, b []byte) int {
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n := len(a)
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if len(b) < n {
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n = len(b)
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}
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for i := 0; i < n; i++ {
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dst[i] = a[i] ^ b[i]
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}
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return n
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}
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// ANDBytes ands the bytes in a and b. The destination is assumed to have enough
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// space. Returns the number of bytes and'd.
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func ANDBytes(dst, a, b []byte) int {
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if supportsUnaligned {
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return fastANDBytes(dst, a, b)
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}
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return safeANDBytes(dst, a, b)
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}
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// fastANDBytes ands in bulk. It only works on architectures that support
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// unaligned read/writes.
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func fastANDBytes(dst, a, b []byte) int {
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n := len(a)
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if len(b) < n {
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n = len(b)
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}
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w := n / wordSize
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if w > 0 {
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dw := *(*[]uintptr)(unsafe.Pointer(&dst))
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aw := *(*[]uintptr)(unsafe.Pointer(&a))
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bw := *(*[]uintptr)(unsafe.Pointer(&b))
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for i := 0; i < w; i++ {
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dw[i] = aw[i] & bw[i]
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}
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}
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for i := (n - n%wordSize); i < n; i++ {
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dst[i] = a[i] & b[i]
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}
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return n
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}
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// safeANDBytes ands one by one. It works on all architectures, independent if
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// it supports unaligned read/writes or not.
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func safeANDBytes(dst, a, b []byte) int {
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n := len(a)
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if len(b) < n {
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n = len(b)
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}
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for i := 0; i < n; i++ {
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dst[i] = a[i] & b[i]
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}
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return n
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}
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// ORBytes ors the bytes in a and b. The destination is assumed to have enough
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// space. Returns the number of bytes or'd.
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func ORBytes(dst, a, b []byte) int {
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if supportsUnaligned {
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return fastORBytes(dst, a, b)
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}
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return safeORBytes(dst, a, b)
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}
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// fastORBytes ors in bulk. It only works on architectures that support
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// unaligned read/writes.
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func fastORBytes(dst, a, b []byte) int {
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n := len(a)
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if len(b) < n {
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n = len(b)
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}
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w := n / wordSize
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if w > 0 {
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dw := *(*[]uintptr)(unsafe.Pointer(&dst))
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aw := *(*[]uintptr)(unsafe.Pointer(&a))
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bw := *(*[]uintptr)(unsafe.Pointer(&b))
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for i := 0; i < w; i++ {
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dw[i] = aw[i] | bw[i]
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}
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}
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for i := (n - n%wordSize); i < n; i++ {
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dst[i] = a[i] | b[i]
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}
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return n
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}
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// safeORBytes ors one by one. It works on all architectures, independent if
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// it supports unaligned read/writes or not.
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func safeORBytes(dst, a, b []byte) int {
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n := len(a)
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if len(b) < n {
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n = len(b)
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}
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for i := 0; i < n; i++ {
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dst[i] = a[i] | b[i]
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}
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return n
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}
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// TestBytes tests whether any bit is set in the input byte slice.
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func TestBytes(p []byte) bool {
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if supportsUnaligned {
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return fastTestBytes(p)
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}
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return safeTestBytes(p)
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}
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// fastTestBytes tests for set bits in bulk. It only works on architectures that
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// support unaligned read/writes.
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func fastTestBytes(p []byte) bool {
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n := len(p)
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w := n / wordSize
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if w > 0 {
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pw := *(*[]uintptr)(unsafe.Pointer(&p))
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for i := 0; i < w; i++ {
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if pw[i] != 0 {
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return true
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}
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}
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}
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for i := (n - n%wordSize); i < n; i++ {
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if p[i] != 0 {
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return true
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}
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}
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return false
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}
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// safeTestBytes tests for set bits one byte at a time. It works on all
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// architectures, independent if it supports unaligned read/writes or not.
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func safeTestBytes(p []byte) bool {
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for i := 0; i < len(p); i++ {
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if p[i] != 0 {
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return true
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}
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}
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return false
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}
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215
common/bitutil/bitutil_test.go
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215
common/bitutil/bitutil_test.go
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@ -0,0 +1,215 @@
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// Copyright 2013 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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// Adapted from: https://golang.org/src/crypto/cipher/xor_test.go
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package bitutil
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import (
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"bytes"
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"testing"
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)
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// Tests that bitwise XOR works for various alignments.
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func TestXOR(t *testing.T) {
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for alignP := 0; alignP < 2; alignP++ {
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for alignQ := 0; alignQ < 2; alignQ++ {
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for alignD := 0; alignD < 2; alignD++ {
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p := make([]byte, 1023)[alignP:]
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q := make([]byte, 1023)[alignQ:]
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for i := 0; i < len(p); i++ {
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p[i] = byte(i)
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}
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for i := 0; i < len(q); i++ {
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q[i] = byte(len(q) - i)
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}
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d1 := make([]byte, 1023+alignD)[alignD:]
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d2 := make([]byte, 1023+alignD)[alignD:]
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XORBytes(d1, p, q)
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safeXORBytes(d2, p, q)
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if !bytes.Equal(d1, d2) {
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t.Error("not equal", d1, d2)
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}
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}
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}
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}
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}
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// Tests that bitwise AND works for various alignments.
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func TestAND(t *testing.T) {
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for alignP := 0; alignP < 2; alignP++ {
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for alignQ := 0; alignQ < 2; alignQ++ {
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for alignD := 0; alignD < 2; alignD++ {
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p := make([]byte, 1023)[alignP:]
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q := make([]byte, 1023)[alignQ:]
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for i := 0; i < len(p); i++ {
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p[i] = byte(i)
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}
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for i := 0; i < len(q); i++ {
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q[i] = byte(len(q) - i)
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}
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d1 := make([]byte, 1023+alignD)[alignD:]
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d2 := make([]byte, 1023+alignD)[alignD:]
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ANDBytes(d1, p, q)
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safeANDBytes(d2, p, q)
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if !bytes.Equal(d1, d2) {
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t.Error("not equal")
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}
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}
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}
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}
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}
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// Tests that bitwise OR works for various alignments.
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func TestOR(t *testing.T) {
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for alignP := 0; alignP < 2; alignP++ {
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for alignQ := 0; alignQ < 2; alignQ++ {
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for alignD := 0; alignD < 2; alignD++ {
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p := make([]byte, 1023)[alignP:]
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q := make([]byte, 1023)[alignQ:]
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for i := 0; i < len(p); i++ {
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p[i] = byte(i)
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}
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for i := 0; i < len(q); i++ {
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q[i] = byte(len(q) - i)
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}
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d1 := make([]byte, 1023+alignD)[alignD:]
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d2 := make([]byte, 1023+alignD)[alignD:]
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ORBytes(d1, p, q)
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safeORBytes(d2, p, q)
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if !bytes.Equal(d1, d2) {
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t.Error("not equal")
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}
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}
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}
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}
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}
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// Tests that bit testing works for various alignments.
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func TestTest(t *testing.T) {
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for align := 0; align < 2; align++ {
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// Test for bits set in the bulk part
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p := make([]byte, 1023)[align:]
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p[100] = 1
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if TestBytes(p) != safeTestBytes(p) {
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t.Error("not equal")
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}
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// Test for bits set in the tail part
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q := make([]byte, 1023)[align:]
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q[len(q)-1] = 1
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if TestBytes(q) != safeTestBytes(q) {
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t.Error("not equal")
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}
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}
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}
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// Benchmarks the potentially optimized XOR performance.
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func BenchmarkFastXOR1KB(b *testing.B) { benchmarkFastXOR(b, 1024) }
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func BenchmarkFastXOR2KB(b *testing.B) { benchmarkFastXOR(b, 2048) }
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func BenchmarkFastXOR4KB(b *testing.B) { benchmarkFastXOR(b, 4096) }
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func benchmarkFastXOR(b *testing.B, size int) {
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p, q := make([]byte, size), make([]byte, size)
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for i := 0; i < b.N; i++ {
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XORBytes(p, p, q)
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}
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}
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// Benchmarks the baseline XOR performance.
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func BenchmarkBaseXOR1KB(b *testing.B) { benchmarkBaseXOR(b, 1024) }
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func BenchmarkBaseXOR2KB(b *testing.B) { benchmarkBaseXOR(b, 2048) }
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func BenchmarkBaseXOR4KB(b *testing.B) { benchmarkBaseXOR(b, 4096) }
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func benchmarkBaseXOR(b *testing.B, size int) {
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p, q := make([]byte, size), make([]byte, size)
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for i := 0; i < b.N; i++ {
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safeXORBytes(p, p, q)
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}
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}
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// Benchmarks the potentially optimized AND performance.
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func BenchmarkFastAND1KB(b *testing.B) { benchmarkFastAND(b, 1024) }
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func BenchmarkFastAND2KB(b *testing.B) { benchmarkFastAND(b, 2048) }
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func BenchmarkFastAND4KB(b *testing.B) { benchmarkFastAND(b, 4096) }
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func benchmarkFastAND(b *testing.B, size int) {
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p, q := make([]byte, size), make([]byte, size)
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for i := 0; i < b.N; i++ {
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ANDBytes(p, p, q)
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}
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}
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// Benchmarks the baseline AND performance.
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func BenchmarkBaseAND1KB(b *testing.B) { benchmarkBaseAND(b, 1024) }
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func BenchmarkBaseAND2KB(b *testing.B) { benchmarkBaseAND(b, 2048) }
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func BenchmarkBaseAND4KB(b *testing.B) { benchmarkBaseAND(b, 4096) }
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func benchmarkBaseAND(b *testing.B, size int) {
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p, q := make([]byte, size), make([]byte, size)
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for i := 0; i < b.N; i++ {
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safeANDBytes(p, p, q)
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}
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}
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// Benchmarks the potentially optimized OR performance.
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func BenchmarkFastOR1KB(b *testing.B) { benchmarkFastOR(b, 1024) }
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func BenchmarkFastOR2KB(b *testing.B) { benchmarkFastOR(b, 2048) }
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func BenchmarkFastOR4KB(b *testing.B) { benchmarkFastOR(b, 4096) }
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func benchmarkFastOR(b *testing.B, size int) {
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p, q := make([]byte, size), make([]byte, size)
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for i := 0; i < b.N; i++ {
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ORBytes(p, p, q)
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}
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}
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// Benchmarks the baseline OR performance.
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func BenchmarkBaseOR1KB(b *testing.B) { benchmarkBaseOR(b, 1024) }
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func BenchmarkBaseOR2KB(b *testing.B) { benchmarkBaseOR(b, 2048) }
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func BenchmarkBaseOR4KB(b *testing.B) { benchmarkBaseOR(b, 4096) }
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func benchmarkBaseOR(b *testing.B, size int) {
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p, q := make([]byte, size), make([]byte, size)
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for i := 0; i < b.N; i++ {
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safeORBytes(p, p, q)
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}
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}
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// Benchmarks the potentially optimized bit testing performance.
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func BenchmarkFastTest1KB(b *testing.B) { benchmarkFastTest(b, 1024) }
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func BenchmarkFastTest2KB(b *testing.B) { benchmarkFastTest(b, 2048) }
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func BenchmarkFastTest4KB(b *testing.B) { benchmarkFastTest(b, 4096) }
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func benchmarkFastTest(b *testing.B, size int) {
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p := make([]byte, size)
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for i := 0; i < b.N; i++ {
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TestBytes(p)
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}
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}
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// Benchmarks the baseline bit testing performance.
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func BenchmarkBaseTest1KB(b *testing.B) { benchmarkBaseTest(b, 1024) }
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func BenchmarkBaseTest2KB(b *testing.B) { benchmarkBaseTest(b, 2048) }
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func BenchmarkBaseTest4KB(b *testing.B) { benchmarkBaseTest(b, 4096) }
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func benchmarkBaseTest(b *testing.B, size int) {
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p := make([]byte, size)
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for i := 0; i < b.N; i++ {
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safeTestBytes(p)
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}
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}
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@ -27,6 +27,7 @@ import (
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"unsafe"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/common/bitutil"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/ethereum/go-ethereum/crypto/sha3"
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"github.com/ethereum/go-ethereum/log"
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@ -142,7 +143,7 @@ func generateCache(dest []uint32, epoch uint64, seed []byte) {
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dstOff = j * hashBytes
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xorOff = (binary.LittleEndian.Uint32(cache[dstOff:]) % uint32(rows)) * hashBytes
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)
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xorBytes(temp, cache[srcOff:srcOff+hashBytes], cache[xorOff:xorOff+hashBytes])
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bitutil.XORBytes(temp, cache[srcOff:srcOff+hashBytes], cache[xorOff:xorOff+hashBytes])
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keccak512(cache[dstOff:], temp)
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atomic.AddUint32(&progress, 1)
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@ -1,85 +0,0 @@
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// Copyright 2013 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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// Source: https://golang.org/src/crypto/cipher/xor.go
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package ethash
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import (
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"runtime"
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"unsafe"
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)
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const wordSize = int(unsafe.Sizeof(uintptr(0)))
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const supportsUnaligned = runtime.GOARCH == "386" || runtime.GOARCH == "amd64" || runtime.GOARCH == "ppc64" || runtime.GOARCH == "ppc64le" || runtime.GOARCH == "s390x"
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// fastXORBytes xors in bulk. It only works on architectures that
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// support unaligned read/writes.
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func fastXORBytes(dst, a, b []byte) int {
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n := len(a)
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if len(b) < n {
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n = len(b)
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}
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w := n / wordSize
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if w > 0 {
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dw := *(*[]uintptr)(unsafe.Pointer(&dst))
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aw := *(*[]uintptr)(unsafe.Pointer(&a))
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bw := *(*[]uintptr)(unsafe.Pointer(&b))
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for i := 0; i < w; i++ {
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dw[i] = aw[i] ^ bw[i]
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}
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}
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for i := (n - n%wordSize); i < n; i++ {
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dst[i] = a[i] ^ b[i]
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}
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return n
|
||||
}
|
||||
|
||||
func safeXORBytes(dst, a, b []byte) int {
|
||||
n := len(a)
|
||||
if len(b) < n {
|
||||
n = len(b)
|
||||
}
|
||||
for i := 0; i < n; i++ {
|
||||
dst[i] = a[i] ^ b[i]
|
||||
}
|
||||
return n
|
||||
}
|
||||
|
||||
// xorBytes xors the bytes in a and b. The destination is assumed to have enough
|
||||
// space. Returns the number of bytes xor'd.
|
||||
func xorBytes(dst, a, b []byte) int {
|
||||
if supportsUnaligned {
|
||||
return fastXORBytes(dst, a, b)
|
||||
}
|
||||
// TODO(hanwen): if (dst, a, b) have common alignment
|
||||
// we could still try fastXORBytes. It is not clear
|
||||
// how often this happens, and it's only worth it if
|
||||
// the block encryption itself is hardware
|
||||
// accelerated.
|
||||
return safeXORBytes(dst, a, b)
|
||||
}
|
||||
|
||||
// fastXORWords XORs multiples of 4 or 8 bytes (depending on architecture.)
|
||||
// The arguments are assumed to be of equal length.
|
||||
func fastXORWords(dst, a, b []byte) {
|
||||
dw := *(*[]uintptr)(unsafe.Pointer(&dst))
|
||||
aw := *(*[]uintptr)(unsafe.Pointer(&a))
|
||||
bw := *(*[]uintptr)(unsafe.Pointer(&b))
|
||||
n := len(b) / wordSize
|
||||
for i := 0; i < n; i++ {
|
||||
dw[i] = aw[i] ^ bw[i]
|
||||
}
|
||||
}
|
||||
|
||||
func xorWords(dst, a, b []byte) {
|
||||
if supportsUnaligned {
|
||||
fastXORWords(dst, a, b)
|
||||
} else {
|
||||
safeXORBytes(dst, a, b)
|
||||
}
|
||||
}
|
Loading…
Reference in New Issue
Block a user