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// Copyright 2009 The Go Authors. All rights reserved.// Use of this source code is governed by a BSD-style// license that can be found in the LICENSE file.// Package crc32 implements the 32-bit cyclic redundancy check, or CRC-32,// checksum. See http://en.wikipedia.org/wiki/Cyclic_redundancy_check for// information.package crc32import ("hash""sync")// The size of a CRC-32 checksum in bytes.const Size = 4// Predefined polynomials.const (// Far and away the most common CRC-32 polynomial.// Used by ethernet (IEEE 802.3), v.42, fddi, gzip, zip, png, mpeg-2, ...IEEE = 0xedb88320// Castagnoli's polynomial, used in iSCSI.// Has better error detection characteristics than IEEE.// http://dx.doi.org/10.1109/26.231911Castagnoli = 0x82f63b78// Koopman's polynomial.// Also has better error detection characteristics than IEEE.// http://dx.doi.org/10.1109/DSN.2002.1028931Koopman = 0xeb31d82e)// Table is a 256-word table representing the polynomial for efficient processing.type Table [256]uint32// castagnoliTable points to a lazily initialized Table for the Castagnoli// polynomial. MakeTable will always return this value when asked to make a// Castagnoli table so we can compare against it to find when the caller is// using this polynomial.var castagnoliTable *Tablevar castagnoliOnce sync.Oncefunc castagnoliInit() {castagnoliTable = makeTable(Castagnoli)}// IEEETable is the table for the IEEE polynomial.var IEEETable = makeTable(IEEE)// MakeTable returns the Table constructed from the specified polynomial.func MakeTable(poly uint32) *Table {switch poly {case IEEE:return IEEETablecase Castagnoli:castagnoliOnce.Do(castagnoliInit)return castagnoliTable}return makeTable(poly)}// makeTable returns the Table constructed from the specified polynomial.func makeTable(poly uint32) *Table {t := new(Table)for i := 0; i < 256; i++ {crc := uint32(i)for j := 0; j < 8; j++ {if crc&1 == 1 {crc = (crc >> 1) ^ poly} else {crc >>= 1}}t[i] = crc}return t}// digest represents the partial evaluation of a checksum.type digest struct {crc uint32tab *Table}// New creates a new hash.Hash32 computing the CRC-32 checksum// using the polynomial represented by the Table.func New(tab *Table) hash.Hash32 { return &digest{0, tab} }// NewIEEE creates a new hash.Hash32 computing the CRC-32 checksum// using the IEEE polynomial.func NewIEEE() hash.Hash32 { return New(IEEETable) }func (d *digest) Size() int { return Size }func (d *digest) BlockSize() int { return 1 }func (d *digest) Reset() { d.crc = 0 }func update(crc uint32, tab *Table, p []byte) uint32 {crc = ^crcfor _, v := range p {crc = tab[byte(crc)^v] ^ (crc >> 8)}return ^crc}// Update returns the result of adding the bytes in p to the crc.func Update(crc uint32, tab *Table, p []byte) uint32 {if tab == castagnoliTable {return updateCastagnoli(crc, p)}return update(crc, tab, p)}func (d *digest) Write(p []byte) (n int, err error) {d.crc = Update(d.crc, d.tab, p)return len(p), nil}func (d *digest) Sum32() uint32 { return d.crc }func (d *digest) Sum(in []byte) []byte {s := d.Sum32()in = append(in, byte(s>>24))in = append(in, byte(s>>16))in = append(in, byte(s>>8))in = append(in, byte(s))return in}// Checksum returns the CRC-32 checksum of data// using the polynomial represented by the Table.func Checksum(data []byte, tab *Table) uint32 { return Update(0, tab, data) }// ChecksumIEEE returns the CRC-32 checksum of data// using the IEEE polynomial.func ChecksumIEEE(data []byte) uint32 { return update(0, IEEETable, data) }