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-rw-r--r--vendor/github.com/klauspost/compress/flate/deflate.go39
-rw-r--r--vendor/github.com/klauspost/compress/flate/fast_encoder.go7
-rw-r--r--vendor/github.com/klauspost/compress/flate/gen_inflate.go274
-rw-r--r--vendor/github.com/klauspost/compress/flate/huffman_bit_writer.go13
-rw-r--r--vendor/github.com/klauspost/compress/flate/huffman_code.go4
-rw-r--r--vendor/github.com/klauspost/compress/flate/inflate.go113
-rw-r--r--vendor/github.com/klauspost/compress/flate/inflate_gen.go922
-rw-r--r--vendor/github.com/klauspost/compress/flate/level1.go22
-rw-r--r--vendor/github.com/klauspost/compress/flate/level2.go28
-rw-r--r--vendor/github.com/klauspost/compress/flate/level3.go54
-rw-r--r--vendor/github.com/klauspost/compress/flate/level4.go32
-rw-r--r--vendor/github.com/klauspost/compress/flate/level5.go46
-rw-r--r--vendor/github.com/klauspost/compress/flate/level6.go36
-rw-r--r--vendor/github.com/klauspost/compress/flate/token.go4
14 files changed, 1428 insertions, 166 deletions
diff --git a/vendor/github.com/klauspost/compress/flate/deflate.go b/vendor/github.com/klauspost/compress/flate/deflate.go
index d9948ab40..2b101d26b 100644
--- a/vendor/github.com/klauspost/compress/flate/deflate.go
+++ b/vendor/github.com/klauspost/compress/flate/deflate.go
@@ -48,6 +48,8 @@ const (
maxHashOffset = 1 << 24
skipNever = math.MaxInt32
+
+ debugDeflate = false
)
type compressionLevel struct {
@@ -59,15 +61,13 @@ type compressionLevel struct {
// See https://blog.klauspost.com/rebalancing-deflate-compression-levels/
var levels = []compressionLevel{
{}, // 0
- // Level 1-4 uses specialized algorithm - values not used
+ // Level 1-6 uses specialized algorithm - values not used
{0, 0, 0, 0, 0, 1},
{0, 0, 0, 0, 0, 2},
{0, 0, 0, 0, 0, 3},
{0, 0, 0, 0, 0, 4},
- // For levels 5-6 we don't bother trying with lazy matches.
- // Lazy matching is at least 30% slower, with 1.5% increase.
- {6, 0, 12, 8, 12, 5},
- {8, 0, 24, 16, 16, 6},
+ {0, 0, 0, 0, 0, 5},
+ {0, 0, 0, 0, 0, 6},
// Levels 7-9 use increasingly more lazy matching
// and increasingly stringent conditions for "good enough".
{8, 8, 24, 16, skipNever, 7},
@@ -203,9 +203,8 @@ func (d *compressor) writeBlockSkip(tok *tokens, index int, eof bool) error {
// This is much faster than doing a full encode.
// Should only be used after a start/reset.
func (d *compressor) fillWindow(b []byte) {
- // Do not fill window if we are in store-only mode,
- // use constant or Snappy compression.
- if d.level == 0 {
+ // Do not fill window if we are in store-only or huffman mode.
+ if d.level <= 0 {
return
}
if d.fast != nil {
@@ -368,7 +367,7 @@ func (d *compressor) deflateLazy() {
// Sanity enables additional runtime tests.
// It's intended to be used during development
// to supplement the currently ad-hoc unit tests.
- const sanity = false
+ const sanity = debugDeflate
if d.windowEnd-s.index < minMatchLength+maxMatchLength && !d.sync {
return
@@ -667,6 +666,7 @@ func (d *compressor) init(w io.Writer, level int) (err error) {
default:
return fmt.Errorf("flate: invalid compression level %d: want value in range [-2, 9]", level)
}
+ d.level = level
return nil
}
@@ -720,6 +720,7 @@ func (d *compressor) close() error {
return d.w.err
}
d.w.flush()
+ d.w.reset(nil)
return d.w.err
}
@@ -750,8 +751,7 @@ func NewWriter(w io.Writer, level int) (*Writer, error) {
// can only be decompressed by a Reader initialized with the
// same dictionary.
func NewWriterDict(w io.Writer, level int, dict []byte) (*Writer, error) {
- dw := &dictWriter{w}
- zw, err := NewWriter(dw, level)
+ zw, err := NewWriter(w, level)
if err != nil {
return nil, err
}
@@ -760,14 +760,6 @@ func NewWriterDict(w io.Writer, level int, dict []byte) (*Writer, error) {
return zw, err
}
-type dictWriter struct {
- w io.Writer
-}
-
-func (w *dictWriter) Write(b []byte) (n int, err error) {
- return w.w.Write(b)
-}
-
// A Writer takes data written to it and writes the compressed
// form of that data to an underlying writer (see NewWriter).
type Writer struct {
@@ -805,11 +797,12 @@ func (w *Writer) Close() error {
// the result of NewWriter or NewWriterDict called with dst
// and w's level and dictionary.
func (w *Writer) Reset(dst io.Writer) {
- if dw, ok := w.d.w.writer.(*dictWriter); ok {
+ if len(w.dict) > 0 {
// w was created with NewWriterDict
- dw.w = dst
- w.d.reset(dw)
- w.d.fillWindow(w.dict)
+ w.d.reset(dst)
+ if dst != nil {
+ w.d.fillWindow(w.dict)
+ }
} else {
// w was created with NewWriter
w.d.reset(dst)
diff --git a/vendor/github.com/klauspost/compress/flate/fast_encoder.go b/vendor/github.com/klauspost/compress/flate/fast_encoder.go
index 3d2fdcd77..6d4c1e98b 100644
--- a/vendor/github.com/klauspost/compress/flate/fast_encoder.go
+++ b/vendor/github.com/klauspost/compress/flate/fast_encoder.go
@@ -35,16 +35,16 @@ func newFastEnc(level int) fastEnc {
}
const (
- tableBits = 16 // Bits used in the table
+ tableBits = 15 // Bits used in the table
tableSize = 1 << tableBits // Size of the table
tableShift = 32 - tableBits // Right-shift to get the tableBits most significant bits of a uint32.
baseMatchOffset = 1 // The smallest match offset
baseMatchLength = 3 // The smallest match length per the RFC section 3.2.5
maxMatchOffset = 1 << 15 // The largest match offset
- bTableBits = 18 // Bits used in the big tables
+ bTableBits = 17 // Bits used in the big tables
bTableSize = 1 << bTableBits // Size of the table
- allocHistory = maxStoreBlockSize * 20 // Size to preallocate for history.
+ allocHistory = maxStoreBlockSize * 10 // Size to preallocate for history.
bufferReset = (1 << 31) - allocHistory - maxStoreBlockSize - 1 // Reset the buffer offset when reaching this.
)
@@ -92,7 +92,6 @@ func hash(u uint32) uint32 {
}
type tableEntry struct {
- val uint32
offset int32
}
diff --git a/vendor/github.com/klauspost/compress/flate/gen_inflate.go b/vendor/github.com/klauspost/compress/flate/gen_inflate.go
new file mode 100644
index 000000000..c74a95fe7
--- /dev/null
+++ b/vendor/github.com/klauspost/compress/flate/gen_inflate.go
@@ -0,0 +1,274 @@
+// +build generate
+
+//go:generate go run $GOFILE && gofmt -w inflate_gen.go
+
+package main
+
+import (
+ "os"
+ "strings"
+)
+
+func main() {
+ f, err := os.Create("inflate_gen.go")
+ if err != nil {
+ panic(err)
+ }
+ defer f.Close()
+ types := []string{"*bytes.Buffer", "*bytes.Reader", "*bufio.Reader", "*strings.Reader"}
+ names := []string{"BytesBuffer", "BytesReader", "BufioReader", "StringsReader"}
+ imports := []string{"bytes", "bufio", "io", "strings", "math/bits"}
+ f.WriteString(`// Code generated by go generate gen_inflate.go. DO NOT EDIT.
+
+package flate
+
+import (
+`)
+
+ for _, imp := range imports {
+ f.WriteString("\t\"" + imp + "\"\n")
+ }
+ f.WriteString(")\n\n")
+
+ template := `
+
+// Decode a single Huffman block from f.
+// hl and hd are the Huffman states for the lit/length values
+// and the distance values, respectively. If hd == nil, using the
+// fixed distance encoding associated with fixed Huffman blocks.
+func (f *decompressor) $FUNCNAME$() {
+ const (
+ stateInit = iota // Zero value must be stateInit
+ stateDict
+ )
+ fr := f.r.($TYPE$)
+ moreBits := func() error {
+ c, err := fr.ReadByte()
+ if err != nil {
+ return noEOF(err)
+ }
+ f.roffset++
+ f.b |= uint32(c) << f.nb
+ f.nb += 8
+ return nil
+ }
+
+ switch f.stepState {
+ case stateInit:
+ goto readLiteral
+ case stateDict:
+ goto copyHistory
+ }
+
+readLiteral:
+ // Read literal and/or (length, distance) according to RFC section 3.2.3.
+ {
+ var v int
+ {
+ // Inlined v, err := f.huffSym(f.hl)
+ // Since a huffmanDecoder can be empty or be composed of a degenerate tree
+ // with single element, huffSym must error on these two edge cases. In both
+ // cases, the chunks slice will be 0 for the invalid sequence, leading it
+ // satisfy the n == 0 check below.
+ n := uint(f.hl.maxRead)
+ // Optimization. Compiler isn't smart enough to keep f.b,f.nb in registers,
+ // but is smart enough to keep local variables in registers, so use nb and b,
+ // inline call to moreBits and reassign b,nb back to f on return.
+ nb, b := f.nb, f.b
+ for {
+ for nb < n {
+ c, err := fr.ReadByte()
+ if err != nil {
+ f.b = b
+ f.nb = nb
+ f.err = noEOF(err)
+ return
+ }
+ f.roffset++
+ b |= uint32(c) << (nb & 31)
+ nb += 8
+ }
+ chunk := f.hl.chunks[b&(huffmanNumChunks-1)]
+ n = uint(chunk & huffmanCountMask)
+ if n > huffmanChunkBits {
+ chunk = f.hl.links[chunk>>huffmanValueShift][(b>>huffmanChunkBits)&f.hl.linkMask]
+ n = uint(chunk & huffmanCountMask)
+ }
+ if n <= nb {
+ if n == 0 {
+ f.b = b
+ f.nb = nb
+ if debugDecode {
+ fmt.Println("huffsym: n==0")
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+ f.b = b >> (n & 31)
+ f.nb = nb - n
+ v = int(chunk >> huffmanValueShift)
+ break
+ }
+ }
+ }
+
+ var n uint // number of bits extra
+ var length int
+ var err error
+ switch {
+ case v < 256:
+ f.dict.writeByte(byte(v))
+ if f.dict.availWrite() == 0 {
+ f.toRead = f.dict.readFlush()
+ f.step = (*decompressor).$FUNCNAME$
+ f.stepState = stateInit
+ return
+ }
+ goto readLiteral
+ case v == 256:
+ f.finishBlock()
+ return
+ // otherwise, reference to older data
+ case v < 265:
+ length = v - (257 - 3)
+ n = 0
+ case v < 269:
+ length = v*2 - (265*2 - 11)
+ n = 1
+ case v < 273:
+ length = v*4 - (269*4 - 19)
+ n = 2
+ case v < 277:
+ length = v*8 - (273*8 - 35)
+ n = 3
+ case v < 281:
+ length = v*16 - (277*16 - 67)
+ n = 4
+ case v < 285:
+ length = v*32 - (281*32 - 131)
+ n = 5
+ case v < maxNumLit:
+ length = 258
+ n = 0
+ default:
+ if debugDecode {
+ fmt.Println(v, ">= maxNumLit")
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+ if n > 0 {
+ for f.nb < n {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits n>0:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ length += int(f.b & uint32(1<<n-1))
+ f.b >>= n
+ f.nb -= n
+ }
+
+ var dist int
+ if f.hd == nil {
+ for f.nb < 5 {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits f.nb<5:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ dist = int(bits.Reverse8(uint8(f.b & 0x1F << 3)))
+ f.b >>= 5
+ f.nb -= 5
+ } else {
+ if dist, err = f.huffSym(f.hd); err != nil {
+ if debugDecode {
+ fmt.Println("huffsym:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+
+ switch {
+ case dist < 4:
+ dist++
+ case dist < maxNumDist:
+ nb := uint(dist-2) >> 1
+ // have 1 bit in bottom of dist, need nb more.
+ extra := (dist & 1) << nb
+ for f.nb < nb {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits f.nb<nb:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ extra |= int(f.b & uint32(1<<nb-1))
+ f.b >>= nb
+ f.nb -= nb
+ dist = 1<<(nb+1) + 1 + extra
+ default:
+ if debugDecode {
+ fmt.Println("dist too big:", dist, maxNumDist)
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+
+ // No check on length; encoding can be prescient.
+ if dist > f.dict.histSize() {
+ if debugDecode {
+ fmt.Println("dist > f.dict.histSize():", dist, f.dict.histSize())
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+
+ f.copyLen, f.copyDist = length, dist
+ goto copyHistory
+ }
+
+copyHistory:
+ // Perform a backwards copy according to RFC section 3.2.3.
+ {
+ cnt := f.dict.tryWriteCopy(f.copyDist, f.copyLen)
+ if cnt == 0 {
+ cnt = f.dict.writeCopy(f.copyDist, f.copyLen)
+ }
+ f.copyLen -= cnt
+
+ if f.dict.availWrite() == 0 || f.copyLen > 0 {
+ f.toRead = f.dict.readFlush()
+ f.step = (*decompressor).$FUNCNAME$ // We need to continue this work
+ f.stepState = stateDict
+ return
+ }
+ goto readLiteral
+ }
+}
+
+`
+ for i, t := range types {
+ s := strings.Replace(template, "$FUNCNAME$", "huffman"+names[i], -1)
+ s = strings.Replace(s, "$TYPE$", t, -1)
+ f.WriteString(s)
+ }
+ f.WriteString("func (f *decompressor) huffmanBlockDecoder() func() {\n")
+ f.WriteString("\tswitch f.r.(type) {\n")
+ for i, t := range types {
+ f.WriteString("\t\tcase " + t + ":\n")
+ f.WriteString("\t\t\treturn f.huffman" + names[i] + "\n")
+ }
+ f.WriteString("\t\tdefault:\n")
+ f.WriteString("\t\t\treturn f.huffmanBlockGeneric")
+ f.WriteString("\t}\n}\n")
+}
diff --git a/vendor/github.com/klauspost/compress/flate/huffman_bit_writer.go b/vendor/github.com/klauspost/compress/flate/huffman_bit_writer.go
index 56ee6dc8b..53fe1d06e 100644
--- a/vendor/github.com/klauspost/compress/flate/huffman_bit_writer.go
+++ b/vendor/github.com/klauspost/compress/flate/huffman_bit_writer.go
@@ -484,6 +484,9 @@ func (w *huffmanBitWriter) writeDynamicHeader(numLiterals int, numOffsets int, n
}
}
+// writeStoredHeader will write a stored header.
+// If the stored block is only used for EOF,
+// it is replaced with a fixed huffman block.
func (w *huffmanBitWriter) writeStoredHeader(length int, isEof bool) {
if w.err != nil {
return
@@ -493,6 +496,16 @@ func (w *huffmanBitWriter) writeStoredHeader(length int, isEof bool) {
w.writeCode(w.literalEncoding.codes[endBlockMarker])
w.lastHeader = 0
}
+
+ // To write EOF, use a fixed encoding block. 10 bits instead of 5 bytes.
+ if length == 0 && isEof {
+ w.writeFixedHeader(isEof)
+ // EOB: 7 bits, value: 0
+ w.writeBits(0, 7)
+ w.flush()
+ return
+ }
+
var flag int32
if isEof {
flag = 1
diff --git a/vendor/github.com/klauspost/compress/flate/huffman_code.go b/vendor/github.com/klauspost/compress/flate/huffman_code.go
index 9d8e81ad6..4c39a3018 100644
--- a/vendor/github.com/klauspost/compress/flate/huffman_code.go
+++ b/vendor/github.com/klauspost/compress/flate/huffman_code.go
@@ -109,8 +109,8 @@ func generateFixedOffsetEncoding() *huffmanEncoder {
return h
}
-var fixedLiteralEncoding *huffmanEncoder = generateFixedLiteralEncoding()
-var fixedOffsetEncoding *huffmanEncoder = generateFixedOffsetEncoding()
+var fixedLiteralEncoding = generateFixedLiteralEncoding()
+var fixedOffsetEncoding = generateFixedOffsetEncoding()
func (h *huffmanEncoder) bitLength(freq []uint16) int {
var total int
diff --git a/vendor/github.com/klauspost/compress/flate/inflate.go b/vendor/github.com/klauspost/compress/flate/inflate.go
index 6dc5b5d06..7f175a4ec 100644
--- a/vendor/github.com/klauspost/compress/flate/inflate.go
+++ b/vendor/github.com/klauspost/compress/flate/inflate.go
@@ -106,7 +106,7 @@ const (
)
type huffmanDecoder struct {
- min int // the minimum code length
+ maxRead int // the maximum number of bits we can read and not overread
chunks *[huffmanNumChunks]uint16 // chunks as described above
links [][]uint16 // overflow links
linkMask uint32 // mask the width of the link table
@@ -126,12 +126,12 @@ func (h *huffmanDecoder) init(lengths []int) bool {
if h.chunks == nil {
h.chunks = &[huffmanNumChunks]uint16{}
}
- if h.min != 0 {
+ if h.maxRead != 0 {
*h = huffmanDecoder{chunks: h.chunks, links: h.links}
}
// Count number of codes of each length,
- // compute min and max length.
+ // compute maxRead and max length.
var count [maxCodeLen]int
var min, max int
for _, n := range lengths {
@@ -178,7 +178,7 @@ func (h *huffmanDecoder) init(lengths []int) bool {
return false
}
- h.min = min
+ h.maxRead = min
chunks := h.chunks[:]
for i := range chunks {
chunks[i] = 0
@@ -342,7 +342,7 @@ func (f *decompressor) nextBlock() {
// compressed, fixed Huffman tables
f.hl = &fixedHuffmanDecoder
f.hd = nil
- f.huffmanBlock()
+ f.huffmanBlockDecoder()()
case 2:
// compressed, dynamic Huffman tables
if f.err = f.readHuffman(); f.err != nil {
@@ -350,7 +350,7 @@ func (f *decompressor) nextBlock() {
}
f.hl = &f.h1
f.hd = &f.h2
- f.huffmanBlock()
+ f.huffmanBlockDecoder()()
default:
// 3 is reserved.
if debugDecode {
@@ -543,12 +543,18 @@ func (f *decompressor) readHuffman() error {
return CorruptInputError(f.roffset)
}
- // As an optimization, we can initialize the min bits to read at a time
+ // As an optimization, we can initialize the maxRead bits to read at a time
// for the HLIT tree to the length of the EOB marker since we know that
// every block must terminate with one. This preserves the property that
// we never read any extra bytes after the end of the DEFLATE stream.
- if f.h1.min < f.bits[endBlockMarker] {
- f.h1.min = f.bits[endBlockMarker]
+ if f.h1.maxRead < f.bits[endBlockMarker] {
+ f.h1.maxRead = f.bits[endBlockMarker]
+ }
+ if !f.final {
+ // If not the final block, the smallest block possible is
+ // a predefined table, BTYPE=01, with a single EOB marker.
+ // This will take up 3 + 7 bits.
+ f.h1.maxRead += 10
}
return nil
@@ -558,7 +564,7 @@ func (f *decompressor) readHuffman() error {
// hl and hd are the Huffman states for the lit/length values
// and the distance values, respectively. If hd == nil, using the
// fixed distance encoding associated with fixed Huffman blocks.
-func (f *decompressor) huffmanBlock() {
+func (f *decompressor) huffmanBlockGeneric() {
const (
stateInit = iota // Zero value must be stateInit
stateDict
@@ -574,19 +580,64 @@ func (f *decompressor) huffmanBlock() {
readLiteral:
// Read literal and/or (length, distance) according to RFC section 3.2.3.
{
- v, err := f.huffSym(f.hl)
- if err != nil {
- f.err = err
- return
+ var v int
+ {
+ // Inlined v, err := f.huffSym(f.hl)
+ // Since a huffmanDecoder can be empty or be composed of a degenerate tree
+ // with single element, huffSym must error on these two edge cases. In both
+ // cases, the chunks slice will be 0 for the invalid sequence, leading it
+ // satisfy the n == 0 check below.
+ n := uint(f.hl.maxRead)
+ // Optimization. Compiler isn't smart enough to keep f.b,f.nb in registers,
+ // but is smart enough to keep local variables in registers, so use nb and b,
+ // inline call to moreBits and reassign b,nb back to f on return.
+ nb, b := f.nb, f.b
+ for {
+ for nb < n {
+ c, err := f.r.ReadByte()
+ if err != nil {
+ f.b = b
+ f.nb = nb
+ f.err = noEOF(err)
+ return
+ }
+ f.roffset++
+ b |= uint32(c) << (nb & 31)
+ nb += 8
+ }
+ chunk := f.hl.chunks[b&(huffmanNumChunks-1)]
+ n = uint(chunk & huffmanCountMask)
+ if n > huffmanChunkBits {
+ chunk = f.hl.links[chunk>>huffmanValueShift][(b>>huffmanChunkBits)&f.hl.linkMask]
+ n = uint(chunk & huffmanCountMask)
+ }
+ if n <= nb {
+ if n == 0 {
+ f.b = b
+ f.nb = nb
+ if debugDecode {
+ fmt.Println("huffsym: n==0")
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+ f.b = b >> (n & 31)
+ f.nb = nb - n
+ v = int(chunk >> huffmanValueShift)
+ break
+ }
+ }
}
+
var n uint // number of bits extra
var length int
+ var err error
switch {
case v < 256:
f.dict.writeByte(byte(v))
if f.dict.availWrite() == 0 {
f.toRead = f.dict.readFlush()
- f.step = (*decompressor).huffmanBlock
+ f.step = (*decompressor).huffmanBlockGeneric
f.stepState = stateInit
return
}
@@ -714,7 +765,7 @@ copyHistory:
if f.dict.availWrite() == 0 || f.copyLen > 0 {
f.toRead = f.dict.readFlush()
- f.step = (*decompressor).huffmanBlock // We need to continue this work
+ f.step = (*decompressor).huffmanBlockGeneric // We need to continue this work
f.stepState = stateDict
return
}
@@ -726,21 +777,33 @@ copyHistory:
func (f *decompressor) dataBlock() {
// Uncompressed.
// Discard current half-byte.
- f.nb = 0
- f.b = 0
+ left := (f.nb) & 7
+ f.nb -= left
+ f.b >>= left
+
+ offBytes := f.nb >> 3
+ // Unfilled values will be overwritten.
+ f.buf[0] = uint8(f.b)
+ f.buf[1] = uint8(f.b >> 8)
+ f.buf[2] = uint8(f.b >> 16)
+ f.buf[3] = uint8(f.b >> 24)
+
+ f.roffset += int64(offBytes)
+ f.nb, f.b = 0, 0
// Length then ones-complement of length.
- nr, err := io.ReadFull(f.r, f.buf[0:4])
+ nr, err := io.ReadFull(f.r, f.buf[offBytes:4])
f.roffset += int64(nr)
if err != nil {
f.err = noEOF(err)
return
}
- n := int(f.buf[0]) | int(f.buf[1])<<8
- nn := int(f.buf[2]) | int(f.buf[3])<<8
- if uint16(nn) != uint16(^n) {
+ n := uint16(f.buf[0]) | uint16(f.buf[1])<<8
+ nn := uint16(f.buf[2]) | uint16(f.buf[3])<<8
+ if nn != ^n {
if debugDecode {
- fmt.Println("uint16(nn) != uint16(^n)", nn, ^n)
+ ncomp := ^n
+ fmt.Println("uint16(nn) != uint16(^n)", nn, ncomp)
}
f.err = CorruptInputError(f.roffset)
return
@@ -752,7 +815,7 @@ func (f *decompressor) dataBlock() {
return
}
- f.copyLen = n
+ f.copyLen = int(n)
f.copyData()
}
@@ -816,7 +879,7 @@ func (f *decompressor) huffSym(h *huffmanDecoder) (int, error) {
// with single element, huffSym must error on these two edge cases. In both
// cases, the chunks slice will be 0 for the invalid sequence, leading it
// satisfy the n == 0 check below.
- n := uint(h.min)
+ n := uint(h.maxRead)
// Optimization. Compiler isn't smart enough to keep f.b,f.nb in registers,
// but is smart enough to keep local variables in registers, so use nb and b,
// inline call to moreBits and reassign b,nb back to f on return.
diff --git a/vendor/github.com/klauspost/compress/flate/inflate_gen.go b/vendor/github.com/klauspost/compress/flate/inflate_gen.go
new file mode 100644
index 000000000..397dc1b1a
--- /dev/null
+++ b/vendor/github.com/klauspost/compress/flate/inflate_gen.go
@@ -0,0 +1,922 @@
+// Code generated by go generate gen_inflate.go. DO NOT EDIT.
+
+package flate
+
+import (
+ "bufio"
+ "bytes"
+ "fmt"
+ "math/bits"
+ "strings"
+)
+
+// Decode a single Huffman block from f.
+// hl and hd are the Huffman states for the lit/length values
+// and the distance values, respectively. If hd == nil, using the
+// fixed distance encoding associated with fixed Huffman blocks.
+func (f *decompressor) huffmanBytesBuffer() {
+ const (
+ stateInit = iota // Zero value must be stateInit
+ stateDict
+ )
+ fr := f.r.(*bytes.Buffer)
+ moreBits := func() error {
+ c, err := fr.ReadByte()
+ if err != nil {
+ return noEOF(err)
+ }
+ f.roffset++
+ f.b |= uint32(c) << f.nb
+ f.nb += 8
+ return nil
+ }
+
+ switch f.stepState {
+ case stateInit:
+ goto readLiteral
+ case stateDict:
+ goto copyHistory
+ }
+
+readLiteral:
+ // Read literal and/or (length, distance) according to RFC section 3.2.3.
+ {
+ var v int
+ {
+ // Inlined v, err := f.huffSym(f.hl)
+ // Since a huffmanDecoder can be empty or be composed of a degenerate tree
+ // with single element, huffSym must error on these two edge cases. In both
+ // cases, the chunks slice will be 0 for the invalid sequence, leading it
+ // satisfy the n == 0 check below.
+ n := uint(f.hl.maxRead)
+ // Optimization. Compiler isn't smart enough to keep f.b,f.nb in registers,
+ // but is smart enough to keep local variables in registers, so use nb and b,
+ // inline call to moreBits and reassign b,nb back to f on return.
+ nb, b := f.nb, f.b
+ for {
+ for nb < n {
+ c, err := fr.ReadByte()
+ if err != nil {
+ f.b = b
+ f.nb = nb
+ f.err = noEOF(err)
+ return
+ }
+ f.roffset++
+ b |= uint32(c) << (nb & 31)
+ nb += 8
+ }
+ chunk := f.hl.chunks[b&(huffmanNumChunks-1)]
+ n = uint(chunk & huffmanCountMask)
+ if n > huffmanChunkBits {
+ chunk = f.hl.links[chunk>>huffmanValueShift][(b>>huffmanChunkBits)&f.hl.linkMask]
+ n = uint(chunk & huffmanCountMask)
+ }
+ if n <= nb {
+ if n == 0 {
+ f.b = b
+ f.nb = nb
+ if debugDecode {
+ fmt.Println("huffsym: n==0")
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+ f.b = b >> (n & 31)
+ f.nb = nb - n
+ v = int(chunk >> huffmanValueShift)
+ break
+ }
+ }
+ }
+
+ var n uint // number of bits extra
+ var length int
+ var err error
+ switch {
+ case v < 256:
+ f.dict.writeByte(byte(v))
+ if f.dict.availWrite() == 0 {
+ f.toRead = f.dict.readFlush()
+ f.step = (*decompressor).huffmanBytesBuffer
+ f.stepState = stateInit
+ return
+ }
+ goto readLiteral
+ case v == 256:
+ f.finishBlock()
+ return
+ // otherwise, reference to older data
+ case v < 265:
+ length = v - (257 - 3)
+ n = 0
+ case v < 269:
+ length = v*2 - (265*2 - 11)
+ n = 1
+ case v < 273:
+ length = v*4 - (269*4 - 19)
+ n = 2
+ case v < 277:
+ length = v*8 - (273*8 - 35)
+ n = 3
+ case v < 281:
+ length = v*16 - (277*16 - 67)
+ n = 4
+ case v < 285:
+ length = v*32 - (281*32 - 131)
+ n = 5
+ case v < maxNumLit:
+ length = 258
+ n = 0
+ default:
+ if debugDecode {
+ fmt.Println(v, ">= maxNumLit")
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+ if n > 0 {
+ for f.nb < n {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits n>0:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ length += int(f.b & uint32(1<<n-1))
+ f.b >>= n
+ f.nb -= n
+ }
+
+ var dist int
+ if f.hd == nil {
+ for f.nb < 5 {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits f.nb<5:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ dist = int(bits.Reverse8(uint8(f.b & 0x1F << 3)))
+ f.b >>= 5
+ f.nb -= 5
+ } else {
+ if dist, err = f.huffSym(f.hd); err != nil {
+ if debugDecode {
+ fmt.Println("huffsym:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+
+ switch {
+ case dist < 4:
+ dist++
+ case dist < maxNumDist:
+ nb := uint(dist-2) >> 1
+ // have 1 bit in bottom of dist, need nb more.
+ extra := (dist & 1) << nb
+ for f.nb < nb {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits f.nb<nb:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ extra |= int(f.b & uint32(1<<nb-1))
+ f.b >>= nb
+ f.nb -= nb
+ dist = 1<<(nb+1) + 1 + extra
+ default:
+ if debugDecode {
+ fmt.Println("dist too big:", dist, maxNumDist)
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+
+ // No check on length; encoding can be prescient.
+ if dist > f.dict.histSize() {
+ if debugDecode {
+ fmt.Println("dist > f.dict.histSize():", dist, f.dict.histSize())
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+
+ f.copyLen, f.copyDist = length, dist
+ goto copyHistory
+ }
+
+copyHistory:
+ // Perform a backwards copy according to RFC section 3.2.3.
+ {
+ cnt := f.dict.tryWriteCopy(f.copyDist, f.copyLen)
+ if cnt == 0 {
+ cnt = f.dict.writeCopy(f.copyDist, f.copyLen)
+ }
+ f.copyLen -= cnt
+
+ if f.dict.availWrite() == 0 || f.copyLen > 0 {
+ f.toRead = f.dict.readFlush()
+ f.step = (*decompressor).huffmanBytesBuffer // We need to continue this work
+ f.stepState = stateDict
+ return
+ }
+ goto readLiteral
+ }
+}
+
+// Decode a single Huffman block from f.
+// hl and hd are the Huffman states for the lit/length values
+// and the distance values, respectively. If hd == nil, using the
+// fixed distance encoding associated with fixed Huffman blocks.
+func (f *decompressor) huffmanBytesReader() {
+ const (
+ stateInit = iota // Zero value must be stateInit
+ stateDict
+ )
+ fr := f.r.(*bytes.Reader)
+ moreBits := func() error {
+ c, err := fr.ReadByte()
+ if err != nil {
+ return noEOF(err)
+ }
+ f.roffset++
+ f.b |= uint32(c) << f.nb
+ f.nb += 8
+ return nil
+ }
+
+ switch f.stepState {
+ case stateInit:
+ goto readLiteral
+ case stateDict:
+ goto copyHistory
+ }
+
+readLiteral:
+ // Read literal and/or (length, distance) according to RFC section 3.2.3.
+ {
+ var v int
+ {
+ // Inlined v, err := f.huffSym(f.hl)
+ // Since a huffmanDecoder can be empty or be composed of a degenerate tree
+ // with single element, huffSym must error on these two edge cases. In both
+ // cases, the chunks slice will be 0 for the invalid sequence, leading it
+ // satisfy the n == 0 check below.
+ n := uint(f.hl.maxRead)
+ // Optimization. Compiler isn't smart enough to keep f.b,f.nb in registers,
+ // but is smart enough to keep local variables in registers, so use nb and b,
+ // inline call to moreBits and reassign b,nb back to f on return.
+ nb, b := f.nb, f.b
+ for {
+ for nb < n {
+ c, err := fr.ReadByte()
+ if err != nil {
+ f.b = b
+ f.nb = nb
+ f.err = noEOF(err)
+ return
+ }
+ f.roffset++
+ b |= uint32(c) << (nb & 31)
+ nb += 8
+ }
+ chunk := f.hl.chunks[b&(huffmanNumChunks-1)]
+ n = uint(chunk & huffmanCountMask)
+ if n > huffmanChunkBits {
+ chunk = f.hl.links[chunk>>huffmanValueShift][(b>>huffmanChunkBits)&f.hl.linkMask]
+ n = uint(chunk & huffmanCountMask)
+ }
+ if n <= nb {
+ if n == 0 {
+ f.b = b
+ f.nb = nb
+ if debugDecode {
+ fmt.Println("huffsym: n==0")
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+ f.b = b >> (n & 31)
+ f.nb = nb - n
+ v = int(chunk >> huffmanValueShift)
+ break
+ }
+ }
+ }
+
+ var n uint // number of bits extra
+ var length int
+ var err error
+ switch {
+ case v < 256:
+ f.dict.writeByte(byte(v))
+ if f.dict.availWrite() == 0 {
+ f.toRead = f.dict.readFlush()
+ f.step = (*decompressor).huffmanBytesReader
+ f.stepState = stateInit
+ return
+ }
+ goto readLiteral
+ case v == 256:
+ f.finishBlock()
+ return
+ // otherwise, reference to older data
+ case v < 265:
+ length = v - (257 - 3)
+ n = 0
+ case v < 269:
+ length = v*2 - (265*2 - 11)
+ n = 1
+ case v < 273:
+ length = v*4 - (269*4 - 19)
+ n = 2
+ case v < 277:
+ length = v*8 - (273*8 - 35)
+ n = 3
+ case v < 281:
+ length = v*16 - (277*16 - 67)
+ n = 4
+ case v < 285:
+ length = v*32 - (281*32 - 131)
+ n = 5
+ case v < maxNumLit:
+ length = 258
+ n = 0
+ default:
+ if debugDecode {
+ fmt.Println(v, ">= maxNumLit")
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+ if n > 0 {
+ for f.nb < n {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits n>0:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ length += int(f.b & uint32(1<<n-1))
+ f.b >>= n
+ f.nb -= n
+ }
+
+ var dist int
+ if f.hd == nil {
+ for f.nb < 5 {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits f.nb<5:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ dist = int(bits.Reverse8(uint8(f.b & 0x1F << 3)))
+ f.b >>= 5
+ f.nb -= 5
+ } else {
+ if dist, err = f.huffSym(f.hd); err != nil {
+ if debugDecode {
+ fmt.Println("huffsym:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+
+ switch {
+ case dist < 4:
+ dist++
+ case dist < maxNumDist:
+ nb := uint(dist-2) >> 1
+ // have 1 bit in bottom of dist, need nb more.
+ extra := (dist & 1) << nb
+ for f.nb < nb {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits f.nb<nb:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ extra |= int(f.b & uint32(1<<nb-1))
+ f.b >>= nb
+ f.nb -= nb
+ dist = 1<<(nb+1) + 1 + extra
+ default:
+ if debugDecode {
+ fmt.Println("dist too big:", dist, maxNumDist)
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+
+ // No check on length; encoding can be prescient.
+ if dist > f.dict.histSize() {
+ if debugDecode {
+ fmt.Println("dist > f.dict.histSize():", dist, f.dict.histSize())
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+
+ f.copyLen, f.copyDist = length, dist
+ goto copyHistory
+ }
+
+copyHistory:
+ // Perform a backwards copy according to RFC section 3.2.3.
+ {
+ cnt := f.dict.tryWriteCopy(f.copyDist, f.copyLen)
+ if cnt == 0 {
+ cnt = f.dict.writeCopy(f.copyDist, f.copyLen)
+ }
+ f.copyLen -= cnt
+
+ if f.dict.availWrite() == 0 || f.copyLen > 0 {
+ f.toRead = f.dict.readFlush()
+ f.step = (*decompressor).huffmanBytesReader // We need to continue this work
+ f.stepState = stateDict
+ return
+ }
+ goto readLiteral
+ }
+}
+
+// Decode a single Huffman block from f.
+// hl and hd are the Huffman states for the lit/length values
+// and the distance values, respectively. If hd == nil, using the
+// fixed distance encoding associated with fixed Huffman blocks.
+func (f *decompressor) huffmanBufioReader() {
+ const (
+ stateInit = iota // Zero value must be stateInit
+ stateDict
+ )
+ fr := f.r.(*bufio.Reader)
+ moreBits := func() error {
+ c, err := fr.ReadByte()
+ if err != nil {
+ return noEOF(err)
+ }
+ f.roffset++
+ f.b |= uint32(c) << f.nb
+ f.nb += 8
+ return nil
+ }
+
+ switch f.stepState {
+ case stateInit:
+ goto readLiteral
+ case stateDict:
+ goto copyHistory
+ }
+
+readLiteral:
+ // Read literal and/or (length, distance) according to RFC section 3.2.3.
+ {
+ var v int
+ {
+ // Inlined v, err := f.huffSym(f.hl)
+ // Since a huffmanDecoder can be empty or be composed of a degenerate tree
+ // with single element, huffSym must error on these two edge cases. In both
+ // cases, the chunks slice will be 0 for the invalid sequence, leading it
+ // satisfy the n == 0 check below.
+ n := uint(f.hl.maxRead)
+ // Optimization. Compiler isn't smart enough to keep f.b,f.nb in registers,
+ // but is smart enough to keep local variables in registers, so use nb and b,
+ // inline call to moreBits and reassign b,nb back to f on return.
+ nb, b := f.nb, f.b
+ for {
+ for nb < n {
+ c, err := fr.ReadByte()
+ if err != nil {
+ f.b = b
+ f.nb = nb
+ f.err = noEOF(err)
+ return
+ }
+ f.roffset++
+ b |= uint32(c) << (nb & 31)
+ nb += 8
+ }
+ chunk := f.hl.chunks[b&(huffmanNumChunks-1)]
+ n = uint(chunk & huffmanCountMask)
+ if n > huffmanChunkBits {
+ chunk = f.hl.links[chunk>>huffmanValueShift][(b>>huffmanChunkBits)&f.hl.linkMask]
+ n = uint(chunk & huffmanCountMask)
+ }
+ if n <= nb {
+ if n == 0 {
+ f.b = b
+ f.nb = nb
+ if debugDecode {
+ fmt.Println("huffsym: n==0")
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+ f.b = b >> (n & 31)
+ f.nb = nb - n
+ v = int(chunk >> huffmanValueShift)
+ break
+ }
+ }
+ }
+
+ var n uint // number of bits extra
+ var length int
+ var err error
+ switch {
+ case v < 256:
+ f.dict.writeByte(byte(v))
+ if f.dict.availWrite() == 0 {
+ f.toRead = f.dict.readFlush()
+ f.step = (*decompressor).huffmanBufioReader
+ f.stepState = stateInit
+ return
+ }
+ goto readLiteral
+ case v == 256:
+ f.finishBlock()
+ return
+ // otherwise, reference to older data
+ case v < 265:
+ length = v - (257 - 3)
+ n = 0
+ case v < 269:
+ length = v*2 - (265*2 - 11)
+ n = 1
+ case v < 273:
+ length = v*4 - (269*4 - 19)
+ n = 2
+ case v < 277:
+ length = v*8 - (273*8 - 35)
+ n = 3
+ case v < 281:
+ length = v*16 - (277*16 - 67)
+ n = 4
+ case v < 285:
+ length = v*32 - (281*32 - 131)
+ n = 5
+ case v < maxNumLit:
+ length = 258
+ n = 0
+ default:
+ if debugDecode {
+ fmt.Println(v, ">= maxNumLit")
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+ if n > 0 {
+ for f.nb < n {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits n>0:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ length += int(f.b & uint32(1<<n-1))
+ f.b >>= n
+ f.nb -= n
+ }
+
+ var dist int
+ if f.hd == nil {
+ for f.nb < 5 {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits f.nb<5:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ dist = int(bits.Reverse8(uint8(f.b & 0x1F << 3)))
+ f.b >>= 5
+ f.nb -= 5
+ } else {
+ if dist, err = f.huffSym(f.hd); err != nil {
+ if debugDecode {
+ fmt.Println("huffsym:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+
+ switch {
+ case dist < 4:
+ dist++
+ case dist < maxNumDist:
+ nb := uint(dist-2) >> 1
+ // have 1 bit in bottom of dist, need nb more.
+ extra := (dist & 1) << nb
+ for f.nb < nb {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits f.nb<nb:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ extra |= int(f.b & uint32(1<<nb-1))
+ f.b >>= nb
+ f.nb -= nb
+ dist = 1<<(nb+1) + 1 + extra
+ default:
+ if debugDecode {
+ fmt.Println("dist too big:", dist, maxNumDist)
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+
+ // No check on length; encoding can be prescient.
+ if dist > f.dict.histSize() {
+ if debugDecode {
+ fmt.Println("dist > f.dict.histSize():", dist, f.dict.histSize())
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+
+ f.copyLen, f.copyDist = length, dist
+ goto copyHistory
+ }
+
+copyHistory:
+ // Perform a backwards copy according to RFC section 3.2.3.
+ {
+ cnt := f.dict.tryWriteCopy(f.copyDist, f.copyLen)
+ if cnt == 0 {
+ cnt = f.dict.writeCopy(f.copyDist, f.copyLen)
+ }
+ f.copyLen -= cnt
+
+ if f.dict.availWrite() == 0 || f.copyLen > 0 {
+ f.toRead = f.dict.readFlush()
+ f.step = (*decompressor).huffmanBufioReader // We need to continue this work
+ f.stepState = stateDict
+ return
+ }
+ goto readLiteral
+ }
+}
+
+// Decode a single Huffman block from f.
+// hl and hd are the Huffman states for the lit/length values
+// and the distance values, respectively. If hd == nil, using the
+// fixed distance encoding associated with fixed Huffman blocks.
+func (f *decompressor) huffmanStringsReader() {
+ const (
+ stateInit = iota // Zero value must be stateInit
+ stateDict
+ )
+ fr := f.r.(*strings.Reader)
+ moreBits := func() error {
+ c, err := fr.ReadByte()
+ if err != nil {
+ return noEOF(err)
+ }
+ f.roffset++
+ f.b |= uint32(c) << f.nb
+ f.nb += 8
+ return nil
+ }
+
+ switch f.stepState {
+ case stateInit:
+ goto readLiteral
+ case stateDict:
+ goto copyHistory
+ }
+
+readLiteral:
+ // Read literal and/or (length, distance) according to RFC section 3.2.3.
+ {
+ var v int
+ {
+ // Inlined v, err := f.huffSym(f.hl)
+ // Since a huffmanDecoder can be empty or be composed of a degenerate tree
+ // with single element, huffSym must error on these two edge cases. In both
+ // cases, the chunks slice will be 0 for the invalid sequence, leading it
+ // satisfy the n == 0 check below.
+ n := uint(f.hl.maxRead)
+ // Optimization. Compiler isn't smart enough to keep f.b,f.nb in registers,
+ // but is smart enough to keep local variables in registers, so use nb and b,
+ // inline call to moreBits and reassign b,nb back to f on return.
+ nb, b := f.nb, f.b
+ for {
+ for nb < n {
+ c, err := fr.ReadByte()
+ if err != nil {
+ f.b = b
+ f.nb = nb
+ f.err = noEOF(err)
+ return
+ }
+ f.roffset++
+ b |= uint32(c) << (nb & 31)
+ nb += 8
+ }
+ chunk := f.hl.chunks[b&(huffmanNumChunks-1)]
+ n = uint(chunk & huffmanCountMask)
+ if n > huffmanChunkBits {
+ chunk = f.hl.links[chunk>>huffmanValueShift][(b>>huffmanChunkBits)&f.hl.linkMask]
+ n = uint(chunk & huffmanCountMask)
+ }
+ if n <= nb {
+ if n == 0 {
+ f.b = b
+ f.nb = nb
+ if debugDecode {
+ fmt.Println("huffsym: n==0")
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+ f.b = b >> (n & 31)
+ f.nb = nb - n
+ v = int(chunk >> huffmanValueShift)
+ break
+ }
+ }
+ }
+
+ var n uint // number of bits extra
+ var length int
+ var err error
+ switch {
+ case v < 256:
+ f.dict.writeByte(byte(v))
+ if f.dict.availWrite() == 0 {
+ f.toRead = f.dict.readFlush()
+ f.step = (*decompressor).huffmanStringsReader
+ f.stepState = stateInit
+ return
+ }
+ goto readLiteral
+ case v == 256:
+ f.finishBlock()
+ return
+ // otherwise, reference to older data
+ case v < 265:
+ length = v - (257 - 3)
+ n = 0
+ case v < 269:
+ length = v*2 - (265*2 - 11)
+ n = 1
+ case v < 273:
+ length = v*4 - (269*4 - 19)
+ n = 2
+ case v < 277:
+ length = v*8 - (273*8 - 35)
+ n = 3
+ case v < 281:
+ length = v*16 - (277*16 - 67)
+ n = 4
+ case v < 285:
+ length = v*32 - (281*32 - 131)
+ n = 5
+ case v < maxNumLit:
+ length = 258
+ n = 0
+ default:
+ if debugDecode {
+ fmt.Println(v, ">= maxNumLit")
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+ if n > 0 {
+ for f.nb < n {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits n>0:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ length += int(f.b & uint32(1<<n-1))
+ f.b >>= n
+ f.nb -= n
+ }
+
+ var dist int
+ if f.hd == nil {
+ for f.nb < 5 {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits f.nb<5:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ dist = int(bits.Reverse8(uint8(f.b & 0x1F << 3)))
+ f.b >>= 5
+ f.nb -= 5
+ } else {
+ if dist, err = f.huffSym(f.hd); err != nil {
+ if debugDecode {
+ fmt.Println("huffsym:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+
+ switch {
+ case dist < 4:
+ dist++
+ case dist < maxNumDist:
+ nb := uint(dist-2) >> 1
+ // have 1 bit in bottom of dist, need nb more.
+ extra := (dist & 1) << nb
+ for f.nb < nb {
+ if err = moreBits(); err != nil {
+ if debugDecode {
+ fmt.Println("morebits f.nb<nb:", err)
+ }
+ f.err = err
+ return
+ }
+ }
+ extra |= int(f.b & uint32(1<<nb-1))
+ f.b >>= nb
+ f.nb -= nb
+ dist = 1<<(nb+1) + 1 + extra
+ default:
+ if debugDecode {
+ fmt.Println("dist too big:", dist, maxNumDist)
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+
+ // No check on length; encoding can be prescient.
+ if dist > f.dict.histSize() {
+ if debugDecode {
+ fmt.Println("dist > f.dict.histSize():", dist, f.dict.histSize())
+ }
+ f.err = CorruptInputError(f.roffset)
+ return
+ }
+
+ f.copyLen, f.copyDist = length, dist
+ goto copyHistory
+ }
+
+copyHistory:
+ // Perform a backwards copy according to RFC section 3.2.3.
+ {
+ cnt := f.dict.tryWriteCopy(f.copyDist, f.copyLen)
+ if cnt == 0 {
+ cnt = f.dict.writeCopy(f.copyDist, f.copyLen)
+ }
+ f.copyLen -= cnt
+
+ if f.dict.availWrite() == 0 || f.copyLen > 0 {
+ f.toRead = f.dict.readFlush()
+ f.step = (*decompressor).huffmanStringsReader // We need to continue this work
+ f.stepState = stateDict
+ return
+ }
+ goto readLiteral
+ }
+}
+
+func (f *decompressor) huffmanBlockDecoder() func() {
+ switch f.r.(type) {
+ case *bytes.Buffer:
+ return f.huffmanBytesBuffer
+ case *bytes.Reader:
+ return f.huffmanBytesReader
+ case *bufio.Reader:
+ return f.huffmanBufioReader
+ case *strings.Reader:
+ return f.huffmanStringsReader
+ default:
+ return f.huffmanBlockGeneric
+ }
+}
diff --git a/vendor/github.com/klauspost/compress/flate/level1.go b/vendor/github.com/klauspost/compress/flate/level1.go
index 102fc74c7..1e5eea396 100644
--- a/vendor/github.com/klauspost/compress/flate/level1.go
+++ b/vendor/github.com/klauspost/compress/flate/level1.go
@@ -16,7 +16,7 @@ func (e *fastEncL1) Encode(dst *tokens, src []byte) {
inputMargin = 12 - 1
minNonLiteralBlockSize = 1 + 1 + inputMargin
)
- if debugDecode && e.cur < 0 {
+ if debugDeflate && e.cur < 0 {
panic(fmt.Sprint("e.cur < 0: ", e.cur))
}
@@ -81,12 +81,12 @@ func (e *fastEncL1) Encode(dst *tokens, src []byte) {
}
now := load6432(src, nextS)
- e.table[nextHash] = tableEntry{offset: s + e.cur, val: cv}
+ e.table[nextHash] = tableEntry{offset: s + e.cur}
nextHash = hash(uint32(now))
offset := s - (candidate.offset - e.cur)
- if offset < maxMatchOffset && cv == candidate.val {
- e.table[nextHash] = tableEntry{offset: nextS + e.cur, val: uint32(now)}
+ if offset < maxMatchOffset && cv == load3232(src, candidate.offset-e.cur) {
+ e.table[nextHash] = tableEntry{offset: nextS + e.cur}
break
}
@@ -96,11 +96,11 @@ func (e *fastEncL1) Encode(dst *tokens, src []byte) {
nextS++
candidate = e.table[nextHash]
now >>= 8
- e.table[nextHash] = tableEntry{offset: s + e.cur, val: cv}
+ e.table[nextHash] = tableEntry{offset: s + e.cur}
offset = s - (candidate.offset - e.cur)
- if offset < maxMatchOffset && cv == candidate.val {
- e.table[nextHash] = tableEntry{offset: nextS + e.cur, val: uint32(now)}
+ if offset < maxMatchOffset && cv == load3232(src, candidate.offset-e.cur) {
+ e.table[nextHash] = tableEntry{offset: nextS + e.cur}
break
}
cv = uint32(now)
@@ -139,7 +139,7 @@ func (e *fastEncL1) Encode(dst *tokens, src []byte) {
// Index first pair after match end.
if int(s+l+4) < len(src) {
cv := load3232(src, s)
- e.table[hash(cv)] = tableEntry{offset: s + e.cur, val: cv}
+ e.table[hash(cv)] = tableEntry{offset: s + e.cur}
}
goto emitRemainder
}
@@ -153,14 +153,14 @@ func (e *fastEncL1) Encode(dst *tokens, src []byte) {
x := load6432(src, s-2)
o := e.cur + s - 2
prevHash := hash(uint32(x))
- e.table[prevHash] = tableEntry{offset: o, val: uint32(x)}
+ e.table[prevHash] = tableEntry{offset: o}
x >>= 16
currHash := hash(uint32(x))
candidate = e.table[currHash]
- e.table[currHash] = tableEntry{offset: o + 2, val: uint32(x)}
+ e.table[currHash] = tableEntry{offset: o + 2}
offset := s - (candidate.offset - e.cur)
- if offset > maxMatchOffset || uint32(x) != candidate.val {
+ if offset > maxMatchOffset || uint32(x) != load3232(src, candidate.offset-e.cur) {
cv = uint32(x >> 8)
s++
break
diff --git a/vendor/github.com/klauspost/compress/flate/level2.go b/vendor/github.com/klauspost/compress/flate/level2.go
index dc6b1d314..5b986a194 100644
--- a/vendor/github.com/klauspost/compress/flate/level2.go
+++ b/vendor/github.com/klauspost/compress/flate/level2.go
@@ -18,7 +18,7 @@ func (e *fastEncL2) Encode(dst *tokens, src []byte) {
minNonLiteralBlockSize = 1 + 1 + inputMargin
)
- if debugDecode && e.cur < 0 {
+ if debugDeflate && e.cur < 0 {
panic(fmt.Sprint("e.cur < 0: ", e.cur))
}
@@ -83,12 +83,12 @@ func (e *fastEncL2) Encode(dst *tokens, src []byte) {
}
candidate = e.table[nextHash]
now := load6432(src, nextS)
- e.table[nextHash] = tableEntry{offset: s + e.cur, val: cv}
+ e.table[nextHash] = tableEntry{offset: s + e.cur}
nextHash = hash4u(uint32(now), bTableBits)
offset := s - (candidate.offset - e.cur)
- if offset < maxMatchOffset && cv == candidate.val {
- e.table[nextHash] = tableEntry{offset: nextS + e.cur, val: uint32(now)}
+ if offset < maxMatchOffset && cv == load3232(src, candidate.offset-e.cur) {
+ e.table[nextHash] = tableEntry{offset: nextS + e.cur}
break
}
@@ -98,10 +98,10 @@ func (e *fastEncL2) Encode(dst *tokens, src []byte) {
nextS++
candidate = e.table[nextHash]
now >>= 8
- e.table[nextHash] = tableEntry{offset: s + e.cur, val: cv}
+ e.table[nextHash] = tableEntry{offset: s + e.cur}
offset = s - (candidate.offset - e.cur)
- if offset < maxMatchOffset && cv == candidate.val {
+ if offset < maxMatchOffset && cv == load3232(src, candidate.offset-e.cur) {
break
}
cv = uint32(now)
@@ -148,7 +148,7 @@ func (e *fastEncL2) Encode(dst *tokens, src []byte) {
// Index first pair after match end.
if int(s+l+4) < len(src) {
cv := load3232(src, s)
- e.table[hash4u(cv, bTableBits)] = tableEntry{offset: s + e.cur, val: cv}
+ e.table[hash4u(cv, bTableBits)] = tableEntry{offset: s + e.cur}
}
goto emitRemainder
}
@@ -157,15 +157,15 @@ func (e *fastEncL2) Encode(dst *tokens, src []byte) {
for i := s - l + 2; i < s-5; i += 7 {
x := load6432(src, int32(i))
nextHash := hash4u(uint32(x), bTableBits)
- e.table[nextHash] = tableEntry{offset: e.cur + i, val: uint32(x)}
+ e.table[nextHash] = tableEntry{offset: e.cur + i}
// Skip one
x >>= 16
nextHash = hash4u(uint32(x), bTableBits)
- e.table[nextHash] = tableEntry{offset: e.cur + i + 2, val: uint32(x)}
+ e.table[nextHash] = tableEntry{offset: e.cur + i + 2}
// Skip one
x >>= 16
nextHash = hash4u(uint32(x), bTableBits)
- e.table[nextHash] = tableEntry{offset: e.cur + i + 4, val: uint32(x)}
+ e.table[nextHash] = tableEntry{offset: e.cur + i + 4}
}
// We could immediately start working at s now, but to improve
@@ -178,14 +178,14 @@ func (e *fastEncL2) Encode(dst *tokens, src []byte) {
o := e.cur + s - 2
prevHash := hash4u(uint32(x), bTableBits)
prevHash2 := hash4u(uint32(x>>8), bTableBits)
- e.table[prevHash] = tableEntry{offset: o, val: uint32(x)}
- e.table[prevHash2] = tableEntry{offset: o + 1, val: uint32(x >> 8)}
+ e.table[prevHash] = tableEntry{offset: o}
+ e.table[prevHash2] = tableEntry{offset: o + 1}
currHash := hash4u(uint32(x>>16), bTableBits)
candidate = e.table[currHash]
- e.table[currHash] = tableEntry{offset: o + 2, val: uint32(x >> 16)}
+ e.table[currHash] = tableEntry{offset: o + 2}
offset := s - (candidate.offset - e.cur)
- if offset > maxMatchOffset || uint32(x>>16) != candidate.val {
+ if offset > maxMatchOffset || uint32(x>>16) != load3232(src, candidate.offset-e.cur) {
cv = uint32(x >> 24)
s++
break
diff --git a/vendor/github.com/klauspost/compress/flate/level3.go b/vendor/github.com/klauspost/compress/flate/level3.go
index 1a3ff9b6b..c22b4244a 100644
--- a/vendor/github.com/klauspost/compress/flate/level3.go
+++ b/vendor/github.com/klauspost/compress/flate/level3.go
@@ -15,7 +15,7 @@ func (e *fastEncL3) Encode(dst *tokens, src []byte) {
minNonLiteralBlockSize = 1 + 1 + inputMargin
)
- if debugDecode && e.cur < 0 {
+ if debugDeflate && e.cur < 0 {
panic(fmt.Sprint("e.cur < 0: ", e.cur))
}
@@ -81,22 +81,26 @@ func (e *fastEncL3) Encode(dst *tokens, src []byte) {
}
candidates := e.table[nextHash]
now := load3232(src, nextS)
- e.table[nextHash] = tableEntryPrev{Prev: candidates.Cur, Cur: tableEntry{offset: s + e.cur, val: cv}}
+
+ // Safe offset distance until s + 4...
+ minOffset := e.cur + s - (maxMatchOffset - 4)
+ e.table[nextHash] = tableEntryPrev{Prev: candidates.Cur, Cur: tableEntry{offset: s + e.cur}}
// Check both candidates
candidate = candidates.Cur
- offset := s - (candidate.offset - e.cur)
- if cv == candidate.val {
- if offset > maxMatchOffset {
- cv = now
- // Previous will also be invalid, we have nothing.
- continue
- }
- o2 := s - (candidates.Prev.offset - e.cur)
- if cv != candidates.Prev.val || o2 > maxMatchOffset {
+ if candidate.offset < minOffset {
+ cv = now
+ // Previous will also be invalid, we have nothing.
+ continue
+ }
+
+ if cv == load3232(src, candidate.offset-e.cur) {
+ if candidates.Prev.offset < minOffset || cv != load3232(src, candidates.Prev.offset-e.cur) {
break
}
// Both match and are valid, pick longest.
+ offset := s - (candidate.offset - e.cur)
+ o2 := s - (candidates.Prev.offset - e.cur)
l1, l2 := matchLen(src[s+4:], src[s-offset+4:]), matchLen(src[s+4:], src[s-o2+4:])
if l2 > l1 {
candidate = candidates.Prev
@@ -106,11 +110,8 @@ func (e *fastEncL3) Encode(dst *tokens, src []byte) {
// We only check if value mismatches.
// Offset will always be invalid in other cases.
candidate = candidates.Prev
- if cv == candidate.val {
- offset := s - (candidate.offset - e.cur)
- if offset <= maxMatchOffset {
- break
- }
+ if candidate.offset > minOffset && cv == load3232(src, candidate.offset-e.cur) {
+ break
}
}
cv = now
@@ -158,7 +159,7 @@ func (e *fastEncL3) Encode(dst *tokens, src []byte) {
nextHash := hash(cv)
e.table[nextHash] = tableEntryPrev{
Prev: e.table[nextHash].Cur,
- Cur: tableEntry{offset: e.cur + t, val: cv},
+ Cur: tableEntry{offset: e.cur + t},
}
}
goto emitRemainder
@@ -170,21 +171,21 @@ func (e *fastEncL3) Encode(dst *tokens, src []byte) {
prevHash := hash(uint32(x))
e.table[prevHash] = tableEntryPrev{
Prev: e.table[prevHash].Cur,
- Cur: tableEntry{offset: e.cur + s - 3, val: uint32(x)},
+ Cur: tableEntry{offset: e.cur + s - 3},
}
x >>= 8
prevHash = hash(uint32(x))
e.table[prevHash] = tableEntryPrev{
Prev: e.table[prevHash].Cur,
- Cur: tableEntry{offset: e.cur + s - 2, val: uint32(x)},
+ Cur: tableEntry{offset: e.cur + s - 2},
}
x >>= 8
prevHash = hash(uint32(x))
e.table[prevHash] = tableEntryPrev{
Prev: e.table[prevHash].Cur,
- Cur: tableEntry{offset: e.cur + s - 1, val: uint32(x)},
+ Cur: tableEntry{offset: e.cur + s - 1},
}
x >>= 8
currHash := hash(uint32(x))
@@ -192,21 +193,18 @@ func (e *fastEncL3) Encode(dst *tokens, src []byte) {
cv = uint32(x)
e.table[currHash] = tableEntryPrev{
Prev: candidates.Cur,
- Cur: tableEntry{offset: s + e.cur, val: cv},
+ Cur: tableEntry{offset: s + e.cur},
}
// Check both candidates
candidate = candidates.Cur
- if cv == candidate.val {
- offset := s - (candidate.offset - e.cur)
- if offset <= maxMatchOffset {
- continue
- }
- } else {
+ minOffset := e.cur + s - (maxMatchOffset - 4)
+
+ if candidate.offset > minOffset && cv != load3232(src, candidate.offset-e.cur) {
// We only check if value mismatches.
// Offset will always be invalid in other cases.
candidate = candidates.Prev
- if cv == candidate.val {
+ if candidate.offset > minOffset && cv == load3232(src, candidate.offset-e.cur) {
offset := s - (candidate.offset - e.cur)
if offset <= maxMatchOffset {
continue
diff --git a/vendor/github.com/klauspost/compress/flate/level4.go b/vendor/github.com/klauspost/compress/flate/level4.go
index f3ecc9c4d..e62f0c02b 100644
--- a/vendor/github.com/klauspost/compress/flate/level4.go
+++ b/vendor/github.com/klauspost/compress/flate/level4.go
@@ -13,7 +13,7 @@ func (e *fastEncL4) Encode(dst *tokens, src []byte) {
inputMargin = 12 - 1
minNonLiteralBlockSize = 1 + 1 + inputMargin
)
- if debugDecode && e.cur < 0 {
+ if debugDeflate && e.cur < 0 {
panic(fmt.Sprint("e.cur < 0: ", e.cur))
}
// Protect against e.cur wraparound.
@@ -92,24 +92,24 @@ func (e *fastEncL4) Encode(dst *tokens, src []byte) {
sCandidate := e.table[nextHashS]
lCandidate := e.bTable[nextHashL]
next := load6432(src, nextS)
- entry := tableEntry{offset: s + e.cur, val: uint32(cv)}
+ entry := tableEntry{offset: s + e.cur}
e.table[nextHashS] = entry
e.bTable[nextHashL] = entry
t = lCandidate.offset - e.cur
- if s-t < maxMatchOffset && uint32(cv) == lCandidate.val {
+ if s-t < maxMatchOffset && uint32(cv) == load3232(src, lCandidate.offset-e.cur) {
// We got a long match. Use that.
break
}
t = sCandidate.offset - e.cur
- if s-t < maxMatchOffset && uint32(cv) == sCandidate.val {
+ if s-t < maxMatchOffset && uint32(cv) == load3232(src, sCandidate.offset-e.cur) {
// Found a 4 match...
lCandidate = e.bTable[hash7(next, tableBits)]
// If the next long is a candidate, check if we should use that instead...
lOff := nextS - (lCandidate.offset - e.cur)
- if lOff < maxMatchOffset && lCandidate.val == uint32(next) {
+ if lOff < maxMatchOffset && load3232(src, lCandidate.offset-e.cur) == uint32(next) {
l1, l2 := matchLen(src[s+4:], src[t+4:]), matchLen(src[nextS+4:], src[nextS-lOff+4:])
if l2 > l1 {
s = nextS
@@ -137,7 +137,7 @@ func (e *fastEncL4) Encode(dst *tokens, src []byte) {
if nextEmit < s {
emitLiteral(dst, src[nextEmit:s])
}
- if false {
+ if debugDeflate {
if t >= s {
panic("s-t")
}
@@ -160,8 +160,8 @@ func (e *fastEncL4) Encode(dst *tokens, src []byte) {
// Index first pair after match end.
if int(s+8) < len(src) {
cv := load6432(src, s)
- e.table[hash4x64(cv, tableBits)] = tableEntry{offset: s + e.cur, val: uint32(cv)}
- e.bTable[hash7(cv, tableBits)] = tableEntry{offset: s + e.cur, val: uint32(cv)}
+ e.table[hash4x64(cv, tableBits)] = tableEntry{offset: s + e.cur}
+ e.bTable[hash7(cv, tableBits)] = tableEntry{offset: s + e.cur}
}
goto emitRemainder
}
@@ -171,20 +171,20 @@ func (e *fastEncL4) Encode(dst *tokens, src []byte) {
i := nextS
if i < s-1 {
cv := load6432(src, i)
- t := tableEntry{offset: i + e.cur, val: uint32(cv)}
- t2 := tableEntry{val: uint32(cv >> 8), offset: t.offset + 1}
+ t := tableEntry{offset: i + e.cur}
+ t2 := tableEntry{offset: t.offset + 1}
e.bTable[hash7(cv, tableBits)] = t
e.bTable[hash7(cv>>8, tableBits)] = t2
- e.table[hash4u(t2.val, tableBits)] = t2
+ e.table[hash4u(uint32(cv>>8), tableBits)] = t2
i += 3
for ; i < s-1; i += 3 {
cv := load6432(src, i)
- t := tableEntry{offset: i + e.cur, val: uint32(cv)}
- t2 := tableEntry{val: uint32(cv >> 8), offset: t.offset + 1}
+ t := tableEntry{offset: i + e.cur}
+ t2 := tableEntry{offset: t.offset + 1}
e.bTable[hash7(cv, tableBits)] = t
e.bTable[hash7(cv>>8, tableBits)] = t2
- e.table[hash4u(t2.val, tableBits)] = t2
+ e.table[hash4u(uint32(cv>>8), tableBits)] = t2
}
}
}
@@ -195,8 +195,8 @@ func (e *fastEncL4) Encode(dst *tokens, src []byte) {
o := e.cur + s - 1
prevHashS := hash4x64(x, tableBits)
prevHashL := hash7(x, tableBits)
- e.table[prevHashS] = tableEntry{offset: o, val: uint32(x)}
- e.bTable[prevHashL] = tableEntry{offset: o, val: uint32(x)}
+ e.table[prevHashS] = tableEntry{offset: o}
+ e.bTable[prevHashL] = tableEntry{offset: o}
cv = x >> 8
}
diff --git a/vendor/github.com/klauspost/compress/flate/level5.go b/vendor/github.com/klauspost/compress/flate/level5.go
index 4e3916825..d513f1ffd 100644
--- a/vendor/github.com/klauspost/compress/flate/level5.go
+++ b/vendor/github.com/klauspost/compress/flate/level5.go
@@ -13,7 +13,7 @@ func (e *fastEncL5) Encode(dst *tokens, src []byte) {
inputMargin = 12 - 1
minNonLiteralBlockSize = 1 + 1 + inputMargin
)
- if debugDecode && e.cur < 0 {
+ if debugDeflate && e.cur < 0 {
panic(fmt.Sprint("e.cur < 0: ", e.cur))
}
@@ -100,7 +100,7 @@ func (e *fastEncL5) Encode(dst *tokens, src []byte) {
sCandidate := e.table[nextHashS]
lCandidate := e.bTable[nextHashL]
next := load6432(src, nextS)
- entry := tableEntry{offset: s + e.cur, val: uint32(cv)}
+ entry := tableEntry{offset: s + e.cur}
e.table[nextHashS] = entry
eLong := &e.bTable[nextHashL]
eLong.Cur, eLong.Prev = entry, eLong.Cur
@@ -110,14 +110,14 @@ func (e *fastEncL5) Encode(dst *tokens, src []byte) {
t = lCandidate.Cur.offset - e.cur
if s-t < maxMatchOffset {
- if uint32(cv) == lCandidate.Cur.val {
+ if uint32(cv) == load3232(src, lCandidate.Cur.offset-e.cur) {
// Store the next match
- e.table[nextHashS] = tableEntry{offset: nextS + e.cur, val: uint32(next)}
+ e.table[nextHashS] = tableEntry{offset: nextS + e.cur}
eLong := &e.bTable[nextHashL]
- eLong.Cur, eLong.Prev = tableEntry{offset: nextS + e.cur, val: uint32(next)}, eLong.Cur
+ eLong.Cur, eLong.Prev = tableEntry{offset: nextS + e.cur}, eLong.Cur
t2 := lCandidate.Prev.offset - e.cur
- if s-t2 < maxMatchOffset && uint32(cv) == lCandidate.Prev.val {
+ if s-t2 < maxMatchOffset && uint32(cv) == load3232(src, lCandidate.Prev.offset-e.cur) {
l = e.matchlen(s+4, t+4, src) + 4
ml1 := e.matchlen(s+4, t2+4, src) + 4
if ml1 > l {
@@ -129,30 +129,30 @@ func (e *fastEncL5) Encode(dst *tokens, src []byte) {
break
}
t = lCandidate.Prev.offset - e.cur
- if s-t < maxMatchOffset && uint32(cv) == lCandidate.Prev.val {
+ if s-t < maxMatchOffset && uint32(cv) == load3232(src, lCandidate.Prev.offset-e.cur) {
// Store the next match
- e.table[nextHashS] = tableEntry{offset: nextS + e.cur, val: uint32(next)}
+ e.table[nextHashS] = tableEntry{offset: nextS + e.cur}
eLong := &e.bTable[nextHashL]
- eLong.Cur, eLong.Prev = tableEntry{offset: nextS + e.cur, val: uint32(next)}, eLong.Cur
+ eLong.Cur, eLong.Prev = tableEntry{offset: nextS + e.cur}, eLong.Cur
break
}
}
t = sCandidate.offset - e.cur
- if s-t < maxMatchOffset && uint32(cv) == sCandidate.val {
+ if s-t < maxMatchOffset && uint32(cv) == load3232(src, sCandidate.offset-e.cur) {
// Found a 4 match...
l = e.matchlen(s+4, t+4, src) + 4
lCandidate = e.bTable[nextHashL]
// Store the next match
- e.table[nextHashS] = tableEntry{offset: nextS + e.cur, val: uint32(next)}
+ e.table[nextHashS] = tableEntry{offset: nextS + e.cur}
eLong := &e.bTable[nextHashL]
- eLong.Cur, eLong.Prev = tableEntry{offset: nextS + e.cur, val: uint32(next)}, eLong.Cur
+ eLong.Cur, eLong.Prev = tableEntry{offset: nextS + e.cur}, eLong.Cur
// If the next long is a candidate, use that...
t2 := lCandidate.Cur.offset - e.cur
if nextS-t2 < maxMatchOffset {
- if lCandidate.Cur.val == uint32(next) {
+ if load3232(src, lCandidate.Cur.offset-e.cur) == uint32(next) {
ml := e.matchlen(nextS+4, t2+4, src) + 4
if ml > l {
t = t2
@@ -163,7 +163,7 @@ func (e *fastEncL5) Encode(dst *tokens, src []byte) {
}
// If the previous long is a candidate, use that...
t2 = lCandidate.Prev.offset - e.cur
- if nextS-t2 < maxMatchOffset && lCandidate.Prev.val == uint32(next) {
+ if nextS-t2 < maxMatchOffset && load3232(src, lCandidate.Prev.offset-e.cur) == uint32(next) {
ml := e.matchlen(nextS+4, t2+4, src) + 4
if ml > l {
t = t2
@@ -197,7 +197,7 @@ func (e *fastEncL5) Encode(dst *tokens, src []byte) {
if nextEmit < s {
emitLiteral(dst, src[nextEmit:s])
}
- if false {
+ if debugDeflate {
if t >= s {
panic(fmt.Sprintln("s-t", s, t))
}
@@ -226,31 +226,31 @@ func (e *fastEncL5) Encode(dst *tokens, src []byte) {
i := s - l + 1
if i < s-1 {
cv := load6432(src, i)
- t := tableEntry{offset: i + e.cur, val: uint32(cv)}
+ t := tableEntry{offset: i + e.cur}
e.table[hash4x64(cv, tableBits)] = t
eLong := &e.bTable[hash7(cv, tableBits)]
eLong.Cur, eLong.Prev = t, eLong.Cur
// Do an long at i+1
cv >>= 8
- t = tableEntry{offset: t.offset + 1, val: uint32(cv)}
+ t = tableEntry{offset: t.offset + 1}
eLong = &e.bTable[hash7(cv, tableBits)]
eLong.Cur, eLong.Prev = t, eLong.Cur
// We only have enough bits for a short entry at i+2
cv >>= 8
- t = tableEntry{offset: t.offset + 1, val: uint32(cv)}
+ t = tableEntry{offset: t.offset + 1}
e.table[hash4x64(cv, tableBits)] = t
// Skip one - otherwise we risk hitting 's'
i += 4
for ; i < s-1; i += hashEvery {
cv := load6432(src, i)
- t := tableEntry{offset: i + e.cur, val: uint32(cv)}
- t2 := tableEntry{offset: t.offset + 1, val: uint32(cv >> 8)}
+ t := tableEntry{offset: i + e.cur}
+ t2 := tableEntry{offset: t.offset + 1}
eLong := &e.bTable[hash7(cv, tableBits)]
eLong.Cur, eLong.Prev = t, eLong.Cur
- e.table[hash4u(t2.val, tableBits)] = t2
+ e.table[hash4u(uint32(cv>>8), tableBits)] = t2
}
}
}
@@ -261,9 +261,9 @@ func (e *fastEncL5) Encode(dst *tokens, src []byte) {
o := e.cur + s - 1
prevHashS := hash4x64(x, tableBits)
prevHashL := hash7(x, tableBits)
- e.table[prevHashS] = tableEntry{offset: o, val: uint32(x)}
+ e.table[prevHashS] = tableEntry{offset: o}
eLong := &e.bTable[prevHashL]
- eLong.Cur, eLong.Prev = tableEntry{offset: o, val: uint32(x)}, eLong.Cur
+ eLong.Cur, eLong.Prev = tableEntry{offset: o}, eLong.Cur
cv = x >> 8
}
diff --git a/vendor/github.com/klauspost/compress/flate/level6.go b/vendor/github.com/klauspost/compress/flate/level6.go
index 00a311977..a52c80ea4 100644
--- a/vendor/github.com/klauspost/compress/flate/level6.go
+++ b/vendor/github.com/klauspost/compress/flate/level6.go
@@ -13,7 +13,7 @@ func (e *fastEncL6) Encode(dst *tokens, src []byte) {
inputMargin = 12 - 1
minNonLiteralBlockSize = 1 + 1 + inputMargin
)
- if debugDecode && e.cur < 0 {
+ if debugDeflate && e.cur < 0 {
panic(fmt.Sprint("e.cur < 0: ", e.cur))
}
@@ -101,7 +101,7 @@ func (e *fastEncL6) Encode(dst *tokens, src []byte) {
sCandidate := e.table[nextHashS]
lCandidate := e.bTable[nextHashL]
next := load6432(src, nextS)
- entry := tableEntry{offset: s + e.cur, val: uint32(cv)}
+ entry := tableEntry{offset: s + e.cur}
e.table[nextHashS] = entry
eLong := &e.bTable[nextHashL]
eLong.Cur, eLong.Prev = entry, eLong.Cur
@@ -112,17 +112,17 @@ func (e *fastEncL6) Encode(dst *tokens, src []byte) {
t = lCandidate.Cur.offset - e.cur
if s-t < maxMatchOffset {
- if uint32(cv) == lCandidate.Cur.val {
+ if uint32(cv) == load3232(src, lCandidate.Cur.offset-e.cur) {
// Long candidate matches at least 4 bytes.
// Store the next match
- e.table[nextHashS] = tableEntry{offset: nextS + e.cur, val: uint32(next)}
+ e.table[nextHashS] = tableEntry{offset: nextS + e.cur}
eLong := &e.bTable[nextHashL]
- eLong.Cur, eLong.Prev = tableEntry{offset: nextS + e.cur, val: uint32(next)}, eLong.Cur
+ eLong.Cur, eLong.Prev = tableEntry{offset: nextS + e.cur}, eLong.Cur
// Check the previous long candidate as well.
t2 := lCandidate.Prev.offset - e.cur
- if s-t2 < maxMatchOffset && uint32(cv) == lCandidate.Prev.val {
+ if s-t2 < maxMatchOffset && uint32(cv) == load3232(src, lCandidate.Prev.offset-e.cur) {
l = e.matchlen(s+4, t+4, src) + 4
ml1 := e.matchlen(s+4, t2+4, src) + 4
if ml1 > l {
@@ -135,17 +135,17 @@ func (e *fastEncL6) Encode(dst *tokens, src []byte) {
}
// Current value did not match, but check if previous long value does.
t = lCandidate.Prev.offset - e.cur
- if s-t < maxMatchOffset && uint32(cv) == lCandidate.Prev.val {
+ if s-t < maxMatchOffset && uint32(cv) == load3232(src, lCandidate.Prev.offset-e.cur) {
// Store the next match
- e.table[nextHashS] = tableEntry{offset: nextS + e.cur, val: uint32(next)}
+ e.table[nextHashS] = tableEntry{offset: nextS + e.cur}
eLong := &e.bTable[nextHashL]
- eLong.Cur, eLong.Prev = tableEntry{offset: nextS + e.cur, val: uint32(next)}, eLong.Cur
+ eLong.Cur, eLong.Prev = tableEntry{offset: nextS + e.cur}, eLong.Cur
break
}
}
t = sCandidate.offset - e.cur
- if s-t < maxMatchOffset && uint32(cv) == sCandidate.val {
+ if s-t < maxMatchOffset && uint32(cv) == load3232(src, sCandidate.offset-e.cur) {
// Found a 4 match...
l = e.matchlen(s+4, t+4, src) + 4
@@ -153,9 +153,9 @@ func (e *fastEncL6) Encode(dst *tokens, src []byte) {
lCandidate = e.bTable[nextHashL]
// Store the next match
- e.table[nextHashS] = tableEntry{offset: nextS + e.cur, val: uint32(next)}
+ e.table[nextHashS] = tableEntry{offset: nextS + e.cur}
eLong := &e.bTable[nextHashL]
- eLong.Cur, eLong.Prev = tableEntry{offset: nextS + e.cur, val: uint32(next)}, eLong.Cur
+ eLong.Cur, eLong.Prev = tableEntry{offset: nextS + e.cur}, eLong.Cur
// Check repeat at s + repOff
const repOff = 1
@@ -174,7 +174,7 @@ func (e *fastEncL6) Encode(dst *tokens, src []byte) {
// If the next long is a candidate, use that...
t2 = lCandidate.Cur.offset - e.cur
if nextS-t2 < maxMatchOffset {
- if lCandidate.Cur.val == uint32(next) {
+ if load3232(src, lCandidate.Cur.offset-e.cur) == uint32(next) {
ml := e.matchlen(nextS+4, t2+4, src) + 4
if ml > l {
t = t2
@@ -185,7 +185,7 @@ func (e *fastEncL6) Encode(dst *tokens, src []byte) {
}
// If the previous long is a candidate, use that...
t2 = lCandidate.Prev.offset - e.cur
- if nextS-t2 < maxMatchOffset && lCandidate.Prev.val == uint32(next) {
+ if nextS-t2 < maxMatchOffset && load3232(src, lCandidate.Prev.offset-e.cur) == uint32(next) {
ml := e.matchlen(nextS+4, t2+4, src) + 4
if ml > l {
t = t2
@@ -244,9 +244,9 @@ func (e *fastEncL6) Encode(dst *tokens, src []byte) {
// Index after match end.
for i := nextS + 1; i < int32(len(src))-8; i += 2 {
cv := load6432(src, i)
- e.table[hash4x64(cv, tableBits)] = tableEntry{offset: i + e.cur, val: uint32(cv)}
+ e.table[hash4x64(cv, tableBits)] = tableEntry{offset: i + e.cur}
eLong := &e.bTable[hash7(cv, tableBits)]
- eLong.Cur, eLong.Prev = tableEntry{offset: i + e.cur, val: uint32(cv)}, eLong.Cur
+ eLong.Cur, eLong.Prev = tableEntry{offset: i + e.cur}, eLong.Cur
}
goto emitRemainder
}
@@ -255,8 +255,8 @@ func (e *fastEncL6) Encode(dst *tokens, src []byte) {
if true {
for i := nextS + 1; i < s-1; i += 2 {
cv := load6432(src, i)
- t := tableEntry{offset: i + e.cur, val: uint32(cv)}
- t2 := tableEntry{offset: t.offset + 1, val: uint32(cv >> 8)}
+ t := tableEntry{offset: i + e.cur}
+ t2 := tableEntry{offset: t.offset + 1}
eLong := &e.bTable[hash7(cv, tableBits)]
eLong2 := &e.bTable[hash7(cv>>8, tableBits)]
e.table[hash4x64(cv, tableBits)] = t
diff --git a/vendor/github.com/klauspost/compress/flate/token.go b/vendor/github.com/klauspost/compress/flate/token.go
index 099c0ddbc..f9abf606d 100644
--- a/vendor/github.com/klauspost/compress/flate/token.go
+++ b/vendor/github.com/klauspost/compress/flate/token.go
@@ -262,7 +262,7 @@ func (t *tokens) EstimatedBits() int {
// AddMatch adds a match to the tokens.
// This function is very sensitive to inlining and right on the border.
func (t *tokens) AddMatch(xlength uint32, xoffset uint32) {
- if debugDecode {
+ if debugDeflate {
if xlength >= maxMatchLength+baseMatchLength {
panic(fmt.Errorf("invalid length: %v", xlength))
}
@@ -281,7 +281,7 @@ func (t *tokens) AddMatch(xlength uint32, xoffset uint32) {
// AddMatchLong adds a match to the tokens, potentially longer than max match length.
// Length should NOT have the base subtracted, only offset should.
func (t *tokens) AddMatchLong(xlength int32, xoffset uint32) {
- if debugDecode {
+ if debugDeflate {
if xoffset >= maxMatchOffset+baseMatchOffset {
panic(fmt.Errorf("invalid offset: %v", xoffset))
}