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gitea/vendor/github.com/dsnet/compress/bzip2/reader.go

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// Copyright 2015, Joe Tsai. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE.md file.
package bzip2
import (
"io"
"github.com/dsnet/compress/internal"
"github.com/dsnet/compress/internal/errors"
"github.com/dsnet/compress/internal/prefix"
)
type Reader struct {
InputOffset int64 // Total number of bytes read from underlying io.Reader
OutputOffset int64 // Total number of bytes emitted from Read
rd prefixReader
err error
level int // The current compression level
rdHdrFtr int // Number of times we read the stream header and footer
blkCRC uint32 // CRC-32 IEEE of each block (as stored)
endCRC uint32 // Checksum of all blocks using bzip2's custom method
crc crc
mtf moveToFront
bwt burrowsWheelerTransform
rle runLengthEncoding
// These fields are allocated with Reader and re-used later.
treeSels []uint8
codes2D [maxNumTrees][maxNumSyms]prefix.PrefixCode
codes1D [maxNumTrees]prefix.PrefixCodes
trees1D [maxNumTrees]prefix.Decoder
syms []uint16
fuzzReader // Exported functionality when fuzz testing
}
type ReaderConfig struct {
_ struct{} // Blank field to prevent unkeyed struct literals
}
func NewReader(r io.Reader, conf *ReaderConfig) (*Reader, error) {
zr := new(Reader)
zr.Reset(r)
return zr, nil
}
func (zr *Reader) Reset(r io.Reader) error {
*zr = Reader{
rd: zr.rd,
mtf: zr.mtf,
bwt: zr.bwt,
rle: zr.rle,
treeSels: zr.treeSels,
trees1D: zr.trees1D,
syms: zr.syms,
}
zr.rd.Init(r)
return nil
}
func (zr *Reader) Read(buf []byte) (int, error) {
for {
cnt, err := zr.rle.Read(buf)
if err != rleDone && zr.err == nil {
zr.err = err
}
if cnt > 0 {
zr.crc.update(buf[:cnt])
zr.OutputOffset += int64(cnt)
return cnt, nil
}
if zr.err != nil || len(buf) == 0 {
return 0, zr.err
}
// Read the next chunk.
zr.rd.Offset = zr.InputOffset
func() {
defer errors.Recover(&zr.err)
if zr.rdHdrFtr%2 == 0 {
// Check if we are already at EOF.
if err := zr.rd.PullBits(1); err != nil {
if err == io.ErrUnexpectedEOF && zr.rdHdrFtr > 0 {
err = io.EOF // EOF is okay if we read at least one stream
}
errors.Panic(err)
}
// Read stream header.
if zr.rd.ReadBitsBE64(16) != hdrMagic {
panicf(errors.Corrupted, "invalid stream magic")
}
if ver := zr.rd.ReadBitsBE64(8); ver != 'h' {
if ver == '0' {
panicf(errors.Deprecated, "bzip1 format is not supported")
}
panicf(errors.Corrupted, "invalid version: %q", ver)
}
lvl := int(zr.rd.ReadBitsBE64(8)) - '0'
if lvl < BestSpeed || lvl > BestCompression {
panicf(errors.Corrupted, "invalid block size: %d", lvl*blockSize)
}
zr.level = lvl
zr.rdHdrFtr++
} else {
// Check and update the CRC.
if internal.GoFuzz {
zr.updateChecksum(-1, zr.crc.val) // Update with value
zr.blkCRC = zr.crc.val // Suppress CRC failures
}
if zr.blkCRC != zr.crc.val {
panicf(errors.Corrupted, "mismatching block checksum")
}
zr.endCRC = (zr.endCRC<<1 | zr.endCRC>>31) ^ zr.blkCRC
}
buf := zr.decodeBlock()
zr.rle.Init(buf)
}()
if zr.InputOffset, err = zr.rd.Flush(); zr.err == nil {
zr.err = err
}
if zr.err != nil {
zr.err = errWrap(zr.err, errors.Corrupted)
return 0, zr.err
}
}
}
func (zr *Reader) Close() error {
if zr.err == io.EOF || zr.err == errClosed {
zr.rle.Init(nil) // Make sure future reads fail
zr.err = errClosed
return nil
}
return zr.err // Return the persistent error
}
func (zr *Reader) decodeBlock() []byte {
if magic := zr.rd.ReadBitsBE64(48); magic != blkMagic {
if magic == endMagic {
endCRC := uint32(zr.rd.ReadBitsBE64(32))
if internal.GoFuzz {
zr.updateChecksum(zr.rd.BitsRead()-32, zr.endCRC)
endCRC = zr.endCRC // Suppress CRC failures
}
if zr.endCRC != endCRC {
panicf(errors.Corrupted, "mismatching stream checksum")
}
zr.endCRC = 0
zr.rd.ReadPads()
zr.rdHdrFtr++
return nil
}
panicf(errors.Corrupted, "invalid block or footer magic")
}
zr.crc.val = 0
zr.blkCRC = uint32(zr.rd.ReadBitsBE64(32))
if internal.GoFuzz {
zr.updateChecksum(zr.rd.BitsRead()-32, 0) // Record offset only
}
if zr.rd.ReadBitsBE64(1) != 0 {
panicf(errors.Deprecated, "block randomization is not supported")
}
// Read BWT related fields.
ptr := int(zr.rd.ReadBitsBE64(24)) // BWT origin pointer
// Read MTF related fields.
var dictArr [256]uint8
dict := dictArr[:0]
bmapHi := uint16(zr.rd.ReadBits(16))
for i := 0; i < 256; i, bmapHi = i+16, bmapHi>>1 {
if bmapHi&1 > 0 {
bmapLo := uint16(zr.rd.ReadBits(16))
for j := 0; j < 16; j, bmapLo = j+1, bmapLo>>1 {
if bmapLo&1 > 0 {
dict = append(dict, uint8(i+j))
}
}
}
}
// Step 1: Prefix encoding.
syms := zr.decodePrefix(len(dict))
// Step 2: Move-to-front transform and run-length encoding.
zr.mtf.Init(dict, zr.level*blockSize)
buf := zr.mtf.Decode(syms)
// Step 3: Burrows-Wheeler transformation.
if ptr >= len(buf) {
panicf(errors.Corrupted, "origin pointer (0x%06x) exceeds block size: %d", ptr, len(buf))
}
zr.bwt.Decode(buf, ptr)
return buf
}
func (zr *Reader) decodePrefix(numSyms int) (syms []uint16) {
numSyms += 2 // Remove 0 symbol, add RUNA, RUNB, and EOF symbols
if numSyms < 3 {
panicf(errors.Corrupted, "not enough prefix symbols: %d", numSyms)
}
// Read information about the trees and tree selectors.
var mtf internal.MoveToFront
numTrees := int(zr.rd.ReadBitsBE64(3))
if numTrees < minNumTrees || numTrees > maxNumTrees {
panicf(errors.Corrupted, "invalid number of prefix trees: %d", numTrees)
}
numSels := int(zr.rd.ReadBitsBE64(15))
if cap(zr.treeSels) < numSels {
zr.treeSels = make([]uint8, numSels)
}
treeSels := zr.treeSels[:numSels]
for i := range treeSels {
sym, ok := zr.rd.TryReadSymbol(&decSel)
if !ok {
sym = zr.rd.ReadSymbol(&decSel)
}
if int(sym) >= numTrees {
panicf(errors.Corrupted, "invalid prefix tree selector: %d", sym)
}
treeSels[i] = uint8(sym)
}
mtf.Decode(treeSels)
zr.treeSels = treeSels
// Initialize prefix codes.
for i := range zr.codes2D[:numTrees] {
zr.codes1D[i] = zr.codes2D[i][:numSyms]
}
zr.rd.ReadPrefixCodes(zr.codes1D[:numTrees], zr.trees1D[:numTrees])
// Read prefix encoded symbols of compressed data.
var tree *prefix.Decoder
var blkLen, selIdx int
syms = zr.syms[:0]
for {
if blkLen == 0 {
blkLen = numBlockSyms
if selIdx >= len(treeSels) {
panicf(errors.Corrupted, "not enough prefix tree selectors")
}
tree = &zr.trees1D[treeSels[selIdx]]
selIdx++
}
blkLen--
sym, ok := zr.rd.TryReadSymbol(tree)
if !ok {
sym = zr.rd.ReadSymbol(tree)
}
if int(sym) == numSyms-1 {
break // EOF marker
}
if int(sym) >= numSyms {
panicf(errors.Corrupted, "invalid prefix symbol: %d", sym)
}
if len(syms) >= zr.level*blockSize {
panicf(errors.Corrupted, "number of prefix symbols exceeds block size")
}
syms = append(syms, uint16(sym))
}
zr.syms = syms
return syms
}