mirror of
https://github.com/octoleo/restic.git
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345 lines
7.3 KiB
Go
345 lines
7.3 KiB
Go
package chunker
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import (
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"errors"
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"hash"
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"io"
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"sync"
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)
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const (
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KiB = 1024
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MiB = 1024 * KiB
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// WindowSize is the size of the sliding window.
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windowSize = 64
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// aim to create chunks of 20 bits or about 1MiB on average.
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averageBits = 20
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// MinSize is the minimal size of a chunk.
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MinSize = 512 * KiB
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// MaxSize is the maximal size of a chunk.
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MaxSize = 8 * MiB
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splitmask = (1 << averageBits) - 1
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)
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type tables struct {
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out [256]Pol
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mod [256]Pol
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}
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// cache precomputed tables, these are read-only anyway
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var cache struct {
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entries map[Pol]*tables
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sync.Mutex
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}
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func init() {
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cache.entries = make(map[Pol]*tables)
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}
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// Chunk is one content-dependent chunk of bytes whose end was cut when the
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// Rabin Fingerprint had the value stored in Cut.
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type Chunk struct {
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Start uint
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Length uint
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Cut uint64
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Digest []byte
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}
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func (c Chunk) Reader(r io.ReaderAt) io.Reader {
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return io.NewSectionReader(r, int64(c.Start), int64(c.Length))
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}
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// Chunker splits content with Rabin Fingerprints.
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type Chunker struct {
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pol Pol
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polShift uint
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tables *tables
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rd io.Reader
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closed bool
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window [windowSize]byte
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wpos int
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buf []byte
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bpos uint
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bmax uint
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start uint
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count uint
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pos uint
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pre uint // wait for this many bytes before start calculating an new chunk
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digest uint64
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h hash.Hash
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}
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// New returns a new Chunker based on polynomial p that reads from data from rd
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// with bufsize and pass all data to hash along the way.
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func New(rd io.Reader, p Pol, bufsize int, hash hash.Hash) *Chunker {
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c := &Chunker{
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buf: make([]byte, bufsize),
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h: hash,
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}
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c.Reset(rd, p)
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return c
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}
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// Reset restarts a chunker so that it can be reused with a different
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// polynomial and reader.
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func (c *Chunker) Reset(rd io.Reader, p Pol) {
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c.pol = p
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c.polShift = uint(p.Deg() - 8)
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c.fillTables()
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c.rd = rd
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for i := 0; i < windowSize; i++ {
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c.window[i] = 0
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}
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c.closed = false
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c.digest = 0
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c.wpos = 0
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c.pos = 0
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c.start = 0
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c.count = 0
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if p != 0 {
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c.slide(1)
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}
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if c.h != nil {
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c.h.Reset()
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}
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// do not start a new chunk unless at least MinSize bytes have been read
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c.pre = MinSize - windowSize
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}
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// Calculate out_table and mod_table for optimization. Must be called only
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// once. This implementation uses a cache in the global variable cache.
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func (c *Chunker) fillTables() {
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// if polynomial hasn't been specified, do not compute anything for now
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if c.pol == 0 {
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return
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}
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// test if the tables are cached for this polynomial
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cache.Lock()
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defer cache.Unlock()
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if t, ok := cache.entries[c.pol]; ok {
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c.tables = t
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return
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}
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// else create a new entry
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c.tables = &tables{}
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cache.entries[c.pol] = c.tables
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// calculate table for sliding out bytes. The byte to slide out is used as
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// the index for the table, the value contains the following:
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// out_table[b] = Hash(b || 0 || ... || 0)
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// \ windowsize-1 zero bytes /
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// To slide out byte b_0 for window size w with known hash
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// H := H(b_0 || ... || b_w), it is sufficient to add out_table[b_0]:
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// H(b_0 || ... || b_w) + H(b_0 || 0 || ... || 0)
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// = H(b_0 + b_0 || b_1 + 0 || ... || b_w + 0)
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// = H( 0 || b_1 || ... || b_w)
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//
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// Afterwards a new byte can be shifted in.
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for b := 0; b < 256; b++ {
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var h Pol
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h = appendByte(h, byte(b), c.pol)
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for i := 0; i < windowSize-1; i++ {
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h = appendByte(h, 0, c.pol)
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}
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c.tables.out[b] = h
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}
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// calculate table for reduction mod Polynomial
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k := c.pol.Deg()
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for b := 0; b < 256; b++ {
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// mod_table[b] = A | B, where A = (b(x) * x^k mod pol) and B = b(x) * x^k
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//
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// The 8 bits above deg(Polynomial) determine what happens next and so
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// these bits are used as a lookup to this table. The value is split in
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// two parts: Part A contains the result of the modulus operation, part
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// B is used to cancel out the 8 top bits so that one XOR operation is
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// enough to reduce modulo Polynomial
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c.tables.mod[b] = Pol(uint64(b)<<uint(k)).Mod(c.pol) | (Pol(b) << uint(k))
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}
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}
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// Next returns the position and length of the next chunk of data. If an error
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// occurs while reading, the error is returned with a nil chunk. The state of
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// the current chunk is undefined. When the last chunk has been returned, all
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// subsequent calls yield a nil chunk and an io.EOF error.
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func (c *Chunker) Next() (*Chunk, error) {
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if c.tables == nil {
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return nil, errors.New("polynomial is not set")
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}
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for {
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if c.bpos >= c.bmax {
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n, err := io.ReadFull(c.rd, c.buf[:])
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if err == io.ErrUnexpectedEOF {
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err = nil
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}
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// io.ReadFull only returns io.EOF when no bytes could be read. If
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// this is the case and we're in this branch, there are no more
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// bytes to buffer, so this was the last chunk. If a different
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// error has occurred, return that error and abandon the current
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// chunk.
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if err == io.EOF && !c.closed {
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c.closed = true
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// return current chunk, if any bytes have been processed
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if c.count > 0 {
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return &Chunk{
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Start: c.start,
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Length: c.count,
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Cut: c.digest,
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Digest: c.hashDigest(),
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}, nil
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}
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}
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if err != nil {
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return nil, err
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}
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c.bpos = 0
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c.bmax = uint(n)
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}
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// check if bytes have to be dismissed before starting a new chunk
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if c.pre > 0 {
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n := c.bmax - c.bpos
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if c.pre > uint(n) {
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c.pre -= uint(n)
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c.updateHash(c.buf[c.bpos:c.bmax])
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c.count += uint(n)
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c.pos += uint(n)
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c.bpos = c.bmax
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continue
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}
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c.updateHash(c.buf[c.bpos : c.bpos+c.pre])
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c.bpos += c.pre
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c.count += c.pre
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c.pos += c.pre
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c.pre = 0
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}
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add := c.count
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for _, b := range c.buf[c.bpos:c.bmax] {
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// inline c.slide(b) and append(b) to increase performance
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out := c.window[c.wpos]
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c.window[c.wpos] = b
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c.digest ^= uint64(c.tables.out[out])
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c.wpos = (c.wpos + 1) % windowSize
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// c.append(b)
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index := c.digest >> c.polShift
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c.digest <<= 8
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c.digest |= uint64(b)
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c.digest ^= uint64(c.tables.mod[index])
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// end inline
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add++
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if add < MinSize {
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continue
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}
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if (c.digest&splitmask) == 0 || add >= MaxSize {
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i := add - c.count - 1
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c.updateHash(c.buf[c.bpos : c.bpos+uint(i)+1])
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c.count = add
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c.pos += uint(i) + 1
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c.bpos += uint(i) + 1
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chunk := &Chunk{
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Start: c.start,
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Length: c.count,
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Cut: c.digest,
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Digest: c.hashDigest(),
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}
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if c.h != nil {
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c.h.Reset()
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}
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// reset chunker, but keep position
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pos := c.pos
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c.Reset(c.rd, c.pol)
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c.pos = pos
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c.start = pos
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c.pre = MinSize - windowSize
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return chunk, nil
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}
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}
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steps := c.bmax - c.bpos
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if steps > 0 {
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c.updateHash(c.buf[c.bpos : c.bpos+steps])
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}
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c.count += steps
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c.pos += steps
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c.bpos = c.bmax
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}
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}
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func (c *Chunker) updateHash(data []byte) {
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if c.h != nil {
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// the hashes from crypto/sha* do not return an error
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_, err := c.h.Write(data)
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if err != nil {
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panic(err)
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}
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}
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}
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func (c *Chunker) hashDigest() []byte {
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if c.h == nil {
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return nil
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}
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return c.h.Sum(nil)
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}
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func (c *Chunker) append(b byte) {
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index := c.digest >> c.polShift
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c.digest <<= 8
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c.digest |= uint64(b)
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c.digest ^= uint64(c.tables.mod[index])
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}
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func (c *Chunker) slide(b byte) {
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out := c.window[c.wpos]
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c.window[c.wpos] = b
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c.digest ^= uint64(c.tables.out[out])
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c.wpos = (c.wpos + 1) % windowSize
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c.append(b)
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}
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func appendByte(hash Pol, b byte, pol Pol) Pol {
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hash <<= 8
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hash |= Pol(b)
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return hash.Mod(pol)
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}
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