mirror of
https://github.com/superseriousbusiness/gotosocial.git
synced 2024-11-26 21:56:39 +00:00
9d0df426da
* feat: vendor minio client * feat: introduce storage package with s3 support * feat: serve s3 files directly this saves a lot of bandwith as the files are fetched from the object store directly * fix: use explicit local storage in tests * feat: integrate s3 storage with the main server * fix: add s3 config to cli tests * docs: explicitly set values in example config also adds license header to the storage package * fix: use better http status code on s3 redirect HTTP 302 Found is the best fit, as it signifies that the resource requested was found but not under its presumed URL 307/TemporaryRedirect would mean that this resource is usually located here, not in this case 303/SeeOther indicates that the redirection does not link to the requested resource but to another page * refactor: use context in storage driver interface
432 lines
11 KiB
Go
432 lines
11 KiB
Go
// Copyright 2016 The Snappy-Go Authors. All rights reserved.
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// Copyright (c) 2019 Klaus Post. 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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package s2
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import (
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"math/bits"
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)
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// hash4 returns the hash of the lowest 4 bytes of u to fit in a hash table with h bits.
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// Preferably h should be a constant and should always be <32.
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func hash4(u uint64, h uint8) uint32 {
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const prime4bytes = 2654435761
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return (uint32(u) * prime4bytes) >> ((32 - h) & 31)
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}
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// hash5 returns the hash of the lowest 5 bytes of u to fit in a hash table with h bits.
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// Preferably h should be a constant and should always be <64.
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func hash5(u uint64, h uint8) uint32 {
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const prime5bytes = 889523592379
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return uint32(((u << (64 - 40)) * prime5bytes) >> ((64 - h) & 63))
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}
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// hash7 returns the hash of the lowest 7 bytes of u to fit in a hash table with h bits.
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// Preferably h should be a constant and should always be <64.
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func hash7(u uint64, h uint8) uint32 {
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const prime7bytes = 58295818150454627
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return uint32(((u << (64 - 56)) * prime7bytes) >> ((64 - h) & 63))
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}
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// hash8 returns the hash of u to fit in a hash table with h bits.
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// Preferably h should be a constant and should always be <64.
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func hash8(u uint64, h uint8) uint32 {
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const prime8bytes = 0xcf1bbcdcb7a56463
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return uint32((u * prime8bytes) >> ((64 - h) & 63))
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}
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// encodeBlockBetter encodes a non-empty src to a guaranteed-large-enough dst. It
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// assumes that the varint-encoded length of the decompressed bytes has already
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// been written.
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//
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// It also assumes that:
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// len(dst) >= MaxEncodedLen(len(src)) &&
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// minNonLiteralBlockSize <= len(src) && len(src) <= maxBlockSize
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func encodeBlockBetterGo(dst, src []byte) (d int) {
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// sLimit is when to stop looking for offset/length copies. The inputMargin
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// lets us use a fast path for emitLiteral in the main loop, while we are
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// looking for copies.
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sLimit := len(src) - inputMargin
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if len(src) < minNonLiteralBlockSize {
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return 0
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}
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// Initialize the hash tables.
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const (
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// Long hash matches.
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lTableBits = 16
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maxLTableSize = 1 << lTableBits
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// Short hash matches.
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sTableBits = 14
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maxSTableSize = 1 << sTableBits
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)
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var lTable [maxLTableSize]uint32
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var sTable [maxSTableSize]uint32
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// Bail if we can't compress to at least this.
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dstLimit := len(src) - len(src)>>5 - 6
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// nextEmit is where in src the next emitLiteral should start from.
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nextEmit := 0
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// The encoded form must start with a literal, as there are no previous
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// bytes to copy, so we start looking for hash matches at s == 1.
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s := 1
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cv := load64(src, s)
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// We initialize repeat to 0, so we never match on first attempt
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repeat := 0
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for {
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candidateL := 0
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nextS := 0
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for {
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// Next src position to check
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nextS = s + (s-nextEmit)>>7 + 1
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if nextS > sLimit {
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goto emitRemainder
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}
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hashL := hash7(cv, lTableBits)
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hashS := hash4(cv, sTableBits)
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candidateL = int(lTable[hashL])
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candidateS := int(sTable[hashS])
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lTable[hashL] = uint32(s)
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sTable[hashS] = uint32(s)
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// Check repeat at offset checkRep.
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const checkRep = 1
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if false && uint32(cv>>(checkRep*8)) == load32(src, s-repeat+checkRep) {
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base := s + checkRep
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// Extend back
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for i := base - repeat; base > nextEmit && i > 0 && src[i-1] == src[base-1]; {
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i--
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base--
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}
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d += emitLiteral(dst[d:], src[nextEmit:base])
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// Extend forward
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candidate := s - repeat + 4 + checkRep
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s += 4 + checkRep
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for s < len(src) {
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if len(src)-s < 8 {
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if src[s] == src[candidate] {
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s++
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candidate++
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continue
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}
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break
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}
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if diff := load64(src, s) ^ load64(src, candidate); diff != 0 {
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s += bits.TrailingZeros64(diff) >> 3
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break
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}
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s += 8
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candidate += 8
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}
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if nextEmit > 0 {
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// same as `add := emitCopy(dst[d:], repeat, s-base)` but skips storing offset.
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d += emitRepeat(dst[d:], repeat, s-base)
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} else {
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// First match, cannot be repeat.
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d += emitCopy(dst[d:], repeat, s-base)
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}
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nextEmit = s
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if s >= sLimit {
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goto emitRemainder
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}
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cv = load64(src, s)
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continue
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}
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if uint32(cv) == load32(src, candidateL) {
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break
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}
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// Check our short candidate
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if uint32(cv) == load32(src, candidateS) {
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// Try a long candidate at s+1
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hashL = hash7(cv>>8, lTableBits)
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candidateL = int(lTable[hashL])
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lTable[hashL] = uint32(s + 1)
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if uint32(cv>>8) == load32(src, candidateL) {
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s++
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break
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}
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// Use our short candidate.
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candidateL = candidateS
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break
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}
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cv = load64(src, nextS)
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s = nextS
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}
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// Extend backwards
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for candidateL > 0 && s > nextEmit && src[candidateL-1] == src[s-1] {
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candidateL--
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s--
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}
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// Bail if we exceed the maximum size.
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if d+(s-nextEmit) > dstLimit {
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return 0
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}
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base := s
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offset := base - candidateL
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// Extend the 4-byte match as long as possible.
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s += 4
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candidateL += 4
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for s < len(src) {
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if len(src)-s < 8 {
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if src[s] == src[candidateL] {
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s++
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candidateL++
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continue
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}
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break
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}
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if diff := load64(src, s) ^ load64(src, candidateL); diff != 0 {
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s += bits.TrailingZeros64(diff) >> 3
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break
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}
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s += 8
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candidateL += 8
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}
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if offset > 65535 && s-base <= 5 && repeat != offset {
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// Bail if the match is equal or worse to the encoding.
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s = nextS + 1
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if s >= sLimit {
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goto emitRemainder
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}
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cv = load64(src, s)
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continue
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}
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d += emitLiteral(dst[d:], src[nextEmit:base])
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if repeat == offset {
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d += emitRepeat(dst[d:], offset, s-base)
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} else {
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d += emitCopy(dst[d:], offset, s-base)
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repeat = offset
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}
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nextEmit = s
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if s >= sLimit {
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goto emitRemainder
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}
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if d > dstLimit {
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// Do we have space for more, if not bail.
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return 0
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}
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// Index match start+1 (long) and start+2 (short)
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index0 := base + 1
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// Index match end-2 (long) and end-1 (short)
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index1 := s - 2
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cv0 := load64(src, index0)
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cv1 := load64(src, index1)
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cv = load64(src, s)
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lTable[hash7(cv0, lTableBits)] = uint32(index0)
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lTable[hash7(cv0>>8, lTableBits)] = uint32(index0 + 1)
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lTable[hash7(cv1, lTableBits)] = uint32(index1)
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lTable[hash7(cv1>>8, lTableBits)] = uint32(index1 + 1)
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sTable[hash4(cv0>>8, sTableBits)] = uint32(index0 + 1)
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sTable[hash4(cv0>>16, sTableBits)] = uint32(index0 + 2)
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sTable[hash4(cv1>>8, sTableBits)] = uint32(index1 + 1)
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}
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emitRemainder:
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if nextEmit < len(src) {
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// Bail if we exceed the maximum size.
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if d+len(src)-nextEmit > dstLimit {
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return 0
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}
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d += emitLiteral(dst[d:], src[nextEmit:])
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}
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return d
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}
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// encodeBlockBetterSnappyGo encodes a non-empty src to a guaranteed-large-enough dst. It
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// assumes that the varint-encoded length of the decompressed bytes has already
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// been written.
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//
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// It also assumes that:
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// len(dst) >= MaxEncodedLen(len(src)) &&
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// minNonLiteralBlockSize <= len(src) && len(src) <= maxBlockSize
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func encodeBlockBetterSnappyGo(dst, src []byte) (d int) {
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// sLimit is when to stop looking for offset/length copies. The inputMargin
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// lets us use a fast path for emitLiteral in the main loop, while we are
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// looking for copies.
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sLimit := len(src) - inputMargin
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if len(src) < minNonLiteralBlockSize {
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return 0
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}
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// Initialize the hash tables.
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const (
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// Long hash matches.
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lTableBits = 16
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maxLTableSize = 1 << lTableBits
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// Short hash matches.
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sTableBits = 14
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maxSTableSize = 1 << sTableBits
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)
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var lTable [maxLTableSize]uint32
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var sTable [maxSTableSize]uint32
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// Bail if we can't compress to at least this.
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dstLimit := len(src) - len(src)>>5 - 6
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// nextEmit is where in src the next emitLiteral should start from.
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nextEmit := 0
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// The encoded form must start with a literal, as there are no previous
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// bytes to copy, so we start looking for hash matches at s == 1.
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s := 1
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cv := load64(src, s)
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// We initialize repeat to 0, so we never match on first attempt
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repeat := 0
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const maxSkip = 100
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for {
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candidateL := 0
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nextS := 0
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for {
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// Next src position to check
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nextS = (s-nextEmit)>>7 + 1
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if nextS > maxSkip {
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nextS = s + maxSkip
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} else {
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nextS += s
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}
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if nextS > sLimit {
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goto emitRemainder
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}
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hashL := hash7(cv, lTableBits)
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hashS := hash4(cv, sTableBits)
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candidateL = int(lTable[hashL])
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candidateS := int(sTable[hashS])
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lTable[hashL] = uint32(s)
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sTable[hashS] = uint32(s)
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if uint32(cv) == load32(src, candidateL) {
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break
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}
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// Check our short candidate
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if uint32(cv) == load32(src, candidateS) {
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// Try a long candidate at s+1
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hashL = hash7(cv>>8, lTableBits)
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candidateL = int(lTable[hashL])
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lTable[hashL] = uint32(s + 1)
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if uint32(cv>>8) == load32(src, candidateL) {
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s++
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break
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}
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// Use our short candidate.
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candidateL = candidateS
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break
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}
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cv = load64(src, nextS)
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s = nextS
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}
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// Extend backwards
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for candidateL > 0 && s > nextEmit && src[candidateL-1] == src[s-1] {
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candidateL--
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s--
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}
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// Bail if we exceed the maximum size.
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if d+(s-nextEmit) > dstLimit {
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return 0
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}
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base := s
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offset := base - candidateL
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// Extend the 4-byte match as long as possible.
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s += 4
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candidateL += 4
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for s < len(src) {
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if len(src)-s < 8 {
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if src[s] == src[candidateL] {
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s++
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candidateL++
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continue
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}
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break
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}
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if diff := load64(src, s) ^ load64(src, candidateL); diff != 0 {
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s += bits.TrailingZeros64(diff) >> 3
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break
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}
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s += 8
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candidateL += 8
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}
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if offset > 65535 && s-base <= 5 && repeat != offset {
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// Bail if the match is equal or worse to the encoding.
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s = nextS + 1
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if s >= sLimit {
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goto emitRemainder
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}
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cv = load64(src, s)
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continue
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}
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d += emitLiteral(dst[d:], src[nextEmit:base])
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d += emitCopyNoRepeat(dst[d:], offset, s-base)
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repeat = offset
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nextEmit = s
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if s >= sLimit {
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goto emitRemainder
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}
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if d > dstLimit {
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// Do we have space for more, if not bail.
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return 0
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}
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// Index match start+1 (long) and start+2 (short)
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index0 := base + 1
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// Index match end-2 (long) and end-1 (short)
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index1 := s - 2
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cv0 := load64(src, index0)
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cv1 := load64(src, index1)
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cv = load64(src, s)
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lTable[hash7(cv0, lTableBits)] = uint32(index0)
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lTable[hash7(cv0>>8, lTableBits)] = uint32(index0 + 1)
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lTable[hash7(cv1, lTableBits)] = uint32(index1)
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lTable[hash7(cv1>>8, lTableBits)] = uint32(index1 + 1)
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sTable[hash4(cv0>>8, sTableBits)] = uint32(index0 + 1)
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sTable[hash4(cv0>>16, sTableBits)] = uint32(index0 + 2)
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sTable[hash4(cv1>>8, sTableBits)] = uint32(index1 + 1)
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}
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emitRemainder:
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if nextEmit < len(src) {
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// Bail if we exceed the maximum size.
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if d+len(src)-nextEmit > dstLimit {
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return 0
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}
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d += emitLiteral(dst[d:], src[nextEmit:])
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}
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return d
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}
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