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chunker.go
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chunker.go
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package desync
import (
"errors"
"fmt"
"io"
"io/ioutil"
"math/bits"
)
// ChunkerWindowSize is the number of bytes in the rolling hash window
const ChunkerWindowSize = 48
func discriminatorFromAvg(avg uint64) uint32 {
return uint32(float64(avg) / (-1.42888852e-7*float64(avg) + 1.33237515))
}
var hashTable = []uint32{
0x458be752, 0xc10748cc, 0xfbbcdbb8, 0x6ded5b68,
0xb10a82b5, 0x20d75648, 0xdfc5665f, 0xa8428801,
0x7ebf5191, 0x841135c7, 0x65cc53b3, 0x280a597c,
0x16f60255, 0xc78cbc3e, 0x294415f5, 0xb938d494,
0xec85c4e6, 0xb7d33edc, 0xe549b544, 0xfdeda5aa,
0x882bf287, 0x3116737c, 0x05569956, 0xe8cc1f68,
0x0806ac5e, 0x22a14443, 0x15297e10, 0x50d090e7,
0x4ba60f6f, 0xefd9f1a7, 0x5c5c885c, 0x82482f93,
0x9bfd7c64, 0x0b3e7276, 0xf2688e77, 0x8fad8abc,
0xb0509568, 0xf1ada29f, 0xa53efdfe, 0xcb2b1d00,
0xf2a9e986, 0x6463432b, 0x95094051, 0x5a223ad2,
0x9be8401b, 0x61e579cb, 0x1a556a14, 0x5840fdc2,
0x9261ddf6, 0xcde002bb, 0x52432bb0, 0xbf17373e,
0x7b7c222f, 0x2955ed16, 0x9f10ca59, 0xe840c4c9,
0xccabd806, 0x14543f34, 0x1462417a, 0x0d4a1f9c,
0x087ed925, 0xd7f8f24c, 0x7338c425, 0xcf86c8f5,
0xb19165cd, 0x9891c393, 0x325384ac, 0x0308459d,
0x86141d7e, 0xc922116a, 0xe2ffa6b6, 0x53f52aed,
0x2cd86197, 0xf5b9f498, 0xbf319c8f, 0xe0411fae,
0x977eb18c, 0xd8770976, 0x9833466a, 0xc674df7f,
0x8c297d45, 0x8ca48d26, 0xc49ed8e2, 0x7344f874,
0x556f79c7, 0x6b25eaed, 0xa03e2b42, 0xf68f66a4,
0x8e8b09a2, 0xf2e0e62a, 0x0d3a9806, 0x9729e493,
0x8c72b0fc, 0x160b94f6, 0x450e4d3d, 0x7a320e85,
0xbef8f0e1, 0x21d73653, 0x4e3d977a, 0x1e7b3929,
0x1cc6c719, 0xbe478d53, 0x8d752809, 0xe6d8c2c6,
0x275f0892, 0xc8acc273, 0x4cc21580, 0xecc4a617,
0xf5f7be70, 0xe795248a, 0x375a2fe9, 0x425570b6,
0x8898dcf8, 0xdc2d97c4, 0x0106114b, 0x364dc22f,
0x1e0cad1f, 0xbe63803c, 0x5f69fac2, 0x4d5afa6f,
0x1bc0dfb5, 0xfb273589, 0x0ea47f7b, 0x3c1c2b50,
0x21b2a932, 0x6b1223fd, 0x2fe706a8, 0xf9bd6ce2,
0xa268e64e, 0xe987f486, 0x3eacf563, 0x1ca2018c,
0x65e18228, 0x2207360a, 0x57cf1715, 0x34c37d2b,
0x1f8f3cde, 0x93b657cf, 0x31a019fd, 0xe69eb729,
0x8bca7b9b, 0x4c9d5bed, 0x277ebeaf, 0xe0d8f8ae,
0xd150821c, 0x31381871, 0xafc3f1b0, 0x927db328,
0xe95effac, 0x305a47bd, 0x426ba35b, 0x1233af3f,
0x686a5b83, 0x50e072e5, 0xd9d3bb2a, 0x8befc475,
0x487f0de6, 0xc88dff89, 0xbd664d5e, 0x971b5d18,
0x63b14847, 0xd7d3c1ce, 0x7f583cf3, 0x72cbcb09,
0xc0d0a81c, 0x7fa3429b, 0xe9158a1b, 0x225ea19a,
0xd8ca9ea3, 0xc763b282, 0xbb0c6341, 0x020b8293,
0xd4cd299d, 0x58cfa7f8, 0x91b4ee53, 0x37e4d140,
0x95ec764c, 0x30f76b06, 0x5ee68d24, 0x679c8661,
0xa41979c2, 0xf2b61284, 0x4fac1475, 0x0adb49f9,
0x19727a23, 0x15a7e374, 0xc43a18d5, 0x3fb1aa73,
0x342fc615, 0x924c0793, 0xbee2d7f0, 0x8a279de9,
0x4aa2d70c, 0xe24dd37f, 0xbe862c0b, 0x177c22c2,
0x5388e5ee, 0xcd8a7510, 0xf901b4fd, 0xdbc13dbc,
0x6c0bae5b, 0x64efe8c7, 0x48b02079, 0x80331a49,
0xca3d8ae6, 0xf3546190, 0xfed7108b, 0xc49b941b,
0x32baf4a9, 0xeb833a4a, 0x88a3f1a5, 0x3a91ce0a,
0x3cc27da1, 0x7112e684, 0x4a3096b1, 0x3794574c,
0xa3c8b6f3, 0x1d213941, 0x6e0a2e00, 0x233479f1,
0x0f4cd82f, 0x6093edd2, 0x5d7d209e, 0x464fe319,
0xd4dcac9e, 0x0db845cb, 0xfb5e4bc3, 0xe0256ce1,
0x09fb4ed1, 0x0914be1e, 0xa5bdb2c3, 0xc6eb57bb,
0x30320350, 0x3f397e91, 0xa67791bc, 0x86bc0e2c,
0xefa0a7e2, 0xe9ff7543, 0xe733612c, 0xd185897b,
0x329e5388, 0x91dd236b, 0x2ecb0d93, 0xf4d82a3d,
0x35b5c03f, 0xe4e606f0, 0x05b21843, 0x37b45964,
0x5eff22f4, 0x6027f4cc, 0x77178b3c, 0xae507131,
0x7bf7cabc, 0xf9c18d66, 0x593ade65, 0xd95ddf11,
}
// Chunker is used to break up a data stream into chunks of data.
type Chunker struct {
r io.Reader
min, avg, max uint64
start uint64
buf []byte
hitEOF bool // true once the reader returned EOF
// rolling hash values
hValue uint32
hWindow [ChunkerWindowSize]byte
hIdx int
hDiscriminator uint32
}
// NewChunker initializes a chunker for a data stream according to min/avg/max chunk size.
func NewChunker(r io.Reader, min, avg, max uint64) (Chunker, error) {
if min < ChunkerWindowSize {
return Chunker{}, fmt.Errorf("min chunk size too small, must be over %d", ChunkerWindowSize)
}
if min > max {
return Chunker{}, errors.New("min chunk size must not be greater than max")
}
if min > avg {
return Chunker{}, errors.New("min chunk size must not be greater than avg")
}
if avg > max {
return Chunker{}, errors.New("avg chunk size must not be greater than max")
}
return Chunker{
r: r,
min: min,
avg: avg,
max: max,
hDiscriminator: discriminatorFromAvg(avg),
}, nil
}
// Make a new buffer with 10*max bytes and copy anything that may be leftover
// from before into it, then fill it up with new bytes. Don't fail on EOF.
func (c *Chunker) fillBuffer() (n int, err error) {
if c.hitEOF { // We won't get anymore here, no need for more allocations
return
}
size := 10 * c.max
buf := make([]byte, int(size)) // Make a new slice large enough
n = copy(buf, c.buf) // copy the remaining bytes from the old buffer
for uint64(n) < size && err == nil { // read until the buffer is at max or we get an EOF
var nn int
nn, err = c.r.Read(buf[n:])
n += nn
}
c.buf = buf[:n] // we are not going to get any more, resize the buffer
if err == io.EOF {
c.hitEOF = true
err = nil
}
return
}
// Next returns the starting position as well as the chunk data. Returns
// an empty byte slice when complete
func (c *Chunker) Next() (uint64, []byte, error) {
if len(c.buf) < int(c.max) {
n, err := c.fillBuffer()
if err != nil {
return c.split(n, err)
}
}
// No need to carry on if we don't have enough bytes left to even fill the min chunk
if len(c.buf) <= int(c.min) {
return c.split(len(c.buf), nil)
}
// m is the upper boundary for the current chunk. It's either c.max if we have
// enough bytes in the buffer, or len(c.buf)
m := int(c.max)
if len(c.buf) < int(c.max) {
m = len(c.buf)
}
// Initialize the rolling hash window with the ChunkerWindowSize bytes
// immediately prior to min size
window := c.buf[c.min-ChunkerWindowSize : c.min]
for i, b := range window {
c.hValue ^= bits.RotateLeft32(hashTable[b], ChunkerWindowSize-i-1)
}
copy(c.hWindow[:], window)
// Position the pointer at the minimum size
var pos = int(c.min)
var out, in byte
for {
// Add a byte to the hash
in = c.buf[pos]
out = c.hWindow[c.hIdx]
c.hWindow[c.hIdx] = in
c.hIdx = (c.hIdx + 1) % ChunkerWindowSize
c.hValue = bits.RotateLeft32(c.hValue, 1) ^
bits.RotateLeft32(hashTable[out], ChunkerWindowSize) ^
hashTable[in]
pos++
// didn't find a boundry before reaching the max?
if pos >= m {
return c.split(pos, nil)
}
// Did we find a boundry?
if c.hValue%c.hDiscriminator == c.hDiscriminator-1 {
return c.split(pos, nil)
}
}
}
func (c *Chunker) split(i int, err error) (uint64, []byte, error) {
// save the remaining bytes (after the split position) for the next round
start := c.start
b := c.buf[:i]
c.buf = c.buf[i:]
c.start += uint64(i)
// reset the hash
c.hIdx = 0
c.hValue = 0
return start, b, err
}
// Advance n bytes without producing chunks. This can be used if the content of the next
// section in the file is known (i.e. it is known that there are a number of null chunks
// coming). This resets everything in the chunker and behaves as if the streams starts
// at (current position+n).
func (c *Chunker) Advance(n int) error {
// We might still have bytes in the buffer. These count towards the move forward.
// It's possible the advance stays within the buffer and doesn't impact the reader.
c.start += uint64(n)
if n <= len(c.buf) {
c.buf = c.buf[n:]
return nil
}
readerN := int64(n - len(c.buf))
c.buf = nil
rs, ok := c.r.(io.Seeker)
if ok {
_, err := rs.Seek(readerN, io.SeekCurrent)
return err
}
_, err := io.CopyN(ioutil.Discard, c.r, readerN)
return err
}
// Min returns the minimum chunk size
func (c *Chunker) Min() uint64 { return c.min }
// Avg returns the average chunk size
func (c *Chunker) Avg() uint64 { return c.avg }
// Max returns the maximum chunk size
func (c *Chunker) Max() uint64 { return c.max }
// Hash implements the rolling hash algorithm used to find chunk bounaries
// in a stream of bytes.
type Hash struct {
value uint32
window []byte
size int
idx int
discriminator uint32
}
// NewHash returns a new instance of a hash. size determines the length of the
// hash window used and the discriminator is used to find the boundary.
func NewHash(size int, discriminator uint32) Hash {
return Hash{
window: make([]byte, size),
size: size,
discriminator: discriminator,
}
}
// Roll adds a new byte to the hash calculation. No useful value is returned until
// the hash window has been populated.
func (h *Hash) Roll(b byte) {
ob := h.window[h.idx]
h.window[h.idx] = b
h.idx = (h.idx + 1) % h.size
h.value = bits.RotateLeft32(h.value, 1) ^
bits.RotateLeft32(hashTable[ob], len(h.window)) ^
hashTable[b]
}
// Initialize the window used for the rolling hash calculation. The size of the
// slice must match the window size
func (h *Hash) Initialize(b []byte) {
for i, c := range b {
h.value ^= bits.RotateLeft32(hashTable[c], h.size-i-1)
}
copy(h.window, b)
}
// IsBoundary returns true if the discriminator and hash match to signal a
// chunk boundary has been reached
func (h *Hash) IsBoundary() bool {
return h.value%h.discriminator == h.discriminator-1
}
// Reset the hash window and value
func (h *Hash) Reset() {
h.idx = 0
h.value = 0
}