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6 package bzip2
7
8 import "io"
9
10
11
12
13
14
15
16
17 type StructuralError string
18
19 func (s StructuralError) Error() string {
20 return "bzip2 data invalid: " + string(s)
21 }
22
23
24 type reader struct {
25 br bitReader
26 fileCRC uint32
27 blockCRC uint32
28 wantBlockCRC uint32
29 setupDone bool
30 blockSize int
31 eof bool
32 c [256]uint
33 tt []uint32
34 tPos uint32
35
36 preRLE []uint32
37 preRLEUsed int
38 lastByte int
39 byteRepeats uint
40 repeats uint
41 }
42
43
44
45
46 func NewReader(r io.Reader) io.Reader {
47 bz2 := new(reader)
48 bz2.br = newBitReader(r)
49 return bz2
50 }
51
52 const bzip2FileMagic = 0x425a
53 const bzip2BlockMagic = 0x314159265359
54 const bzip2FinalMagic = 0x177245385090
55
56
57 func (bz2 *reader) setup(needMagic bool) error {
58 br := &bz2.br
59
60 if needMagic {
61 magic := br.ReadBits(16)
62 if magic != bzip2FileMagic {
63 return StructuralError("bad magic value")
64 }
65 }
66
67 t := br.ReadBits(8)
68 if t != 'h' {
69 return StructuralError("non-Huffman entropy encoding")
70 }
71
72 level := br.ReadBits(8)
73 if level < '1' || level > '9' {
74 return StructuralError("invalid compression level")
75 }
76
77 bz2.fileCRC = 0
78 bz2.blockSize = 100 * 1000 * (level - '0')
79 if bz2.blockSize > len(bz2.tt) {
80 bz2.tt = make([]uint32, bz2.blockSize)
81 }
82 return nil
83 }
84
85 func (bz2 *reader) Read(buf []byte) (n int, err error) {
86 if bz2.eof {
87 return 0, io.EOF
88 }
89
90 if !bz2.setupDone {
91 err = bz2.setup(true)
92 brErr := bz2.br.Err()
93 if brErr != nil {
94 err = brErr
95 }
96 if err != nil {
97 return 0, err
98 }
99 bz2.setupDone = true
100 }
101
102 n, err = bz2.read(buf)
103 brErr := bz2.br.Err()
104 if brErr != nil {
105 err = brErr
106 }
107 return
108 }
109
110 func (bz2 *reader) readFromBlock(buf []byte) int {
111
112
113
114
115
116
117 n := 0
118 for (bz2.repeats > 0 || bz2.preRLEUsed < len(bz2.preRLE)) && n < len(buf) {
119
120
121
122
123
124
125
126
127
128 if bz2.repeats > 0 {
129 buf[n] = byte(bz2.lastByte)
130 n++
131 bz2.repeats--
132 if bz2.repeats == 0 {
133 bz2.lastByte = -1
134 }
135 continue
136 }
137
138 bz2.tPos = bz2.preRLE[bz2.tPos]
139 b := byte(bz2.tPos)
140 bz2.tPos >>= 8
141 bz2.preRLEUsed++
142
143 if bz2.byteRepeats == 3 {
144 bz2.repeats = uint(b)
145 bz2.byteRepeats = 0
146 continue
147 }
148
149 if bz2.lastByte == int(b) {
150 bz2.byteRepeats++
151 } else {
152 bz2.byteRepeats = 0
153 }
154 bz2.lastByte = int(b)
155
156 buf[n] = b
157 n++
158 }
159
160 return n
161 }
162
163 func (bz2 *reader) read(buf []byte) (int, error) {
164 for {
165 n := bz2.readFromBlock(buf)
166 if n > 0 || len(buf) == 0 {
167 bz2.blockCRC = updateCRC(bz2.blockCRC, buf[:n])
168 return n, nil
169 }
170
171
172 if bz2.blockCRC != bz2.wantBlockCRC {
173 bz2.br.err = StructuralError("block checksum mismatch")
174 return 0, bz2.br.err
175 }
176
177
178 br := &bz2.br
179 switch br.ReadBits64(48) {
180 default:
181 return 0, StructuralError("bad magic value found")
182
183 case bzip2BlockMagic:
184
185 err := bz2.readBlock()
186 if err != nil {
187 return 0, err
188 }
189
190 case bzip2FinalMagic:
191
192 wantFileCRC := uint32(br.ReadBits64(32))
193 if br.err != nil {
194 return 0, br.err
195 }
196 if bz2.fileCRC != wantFileCRC {
197 br.err = StructuralError("file checksum mismatch")
198 return 0, br.err
199 }
200
201
202
203
204 if br.bits%8 != 0 {
205 br.ReadBits(br.bits % 8)
206 }
207 b, err := br.r.ReadByte()
208 if err == io.EOF {
209 br.err = io.EOF
210 bz2.eof = true
211 return 0, io.EOF
212 }
213 if err != nil {
214 br.err = err
215 return 0, err
216 }
217 z, err := br.r.ReadByte()
218 if err != nil {
219 if err == io.EOF {
220 err = io.ErrUnexpectedEOF
221 }
222 br.err = err
223 return 0, err
224 }
225 if b != 'B' || z != 'Z' {
226 return 0, StructuralError("bad magic value in continuation file")
227 }
228 if err := bz2.setup(false); err != nil {
229 return 0, err
230 }
231 }
232 }
233 }
234
235
236 func (bz2 *reader) readBlock() (err error) {
237 br := &bz2.br
238 bz2.wantBlockCRC = uint32(br.ReadBits64(32))
239 bz2.blockCRC = 0
240 bz2.fileCRC = (bz2.fileCRC<<1 | bz2.fileCRC>>31) ^ bz2.wantBlockCRC
241 randomized := br.ReadBits(1)
242 if randomized != 0 {
243 return StructuralError("deprecated randomized files")
244 }
245 origPtr := uint(br.ReadBits(24))
246
247
248
249
250 symbolRangeUsedBitmap := br.ReadBits(16)
251 symbolPresent := make([]bool, 256)
252 numSymbols := 0
253 for symRange := uint(0); symRange < 16; symRange++ {
254 if symbolRangeUsedBitmap&(1<<(15-symRange)) != 0 {
255 bits := br.ReadBits(16)
256 for symbol := uint(0); symbol < 16; symbol++ {
257 if bits&(1<<(15-symbol)) != 0 {
258 symbolPresent[16*symRange+symbol] = true
259 numSymbols++
260 }
261 }
262 }
263 }
264
265 if numSymbols == 0 {
266
267 return StructuralError("no symbols in input")
268 }
269
270
271 numHuffmanTrees := br.ReadBits(3)
272 if numHuffmanTrees < 2 || numHuffmanTrees > 6 {
273 return StructuralError("invalid number of Huffman trees")
274 }
275
276
277
278 numSelectors := br.ReadBits(15)
279 treeIndexes := make([]uint8, numSelectors)
280
281
282
283 mtfTreeDecoder := newMTFDecoderWithRange(numHuffmanTrees)
284 for i := range treeIndexes {
285 c := 0
286 for {
287 inc := br.ReadBits(1)
288 if inc == 0 {
289 break
290 }
291 c++
292 }
293 if c >= numHuffmanTrees {
294 return StructuralError("tree index too large")
295 }
296 treeIndexes[i] = mtfTreeDecoder.Decode(c)
297 }
298
299
300
301 symbols := make([]byte, numSymbols)
302 nextSymbol := 0
303 for i := 0; i < 256; i++ {
304 if symbolPresent[i] {
305 symbols[nextSymbol] = byte(i)
306 nextSymbol++
307 }
308 }
309 mtf := newMTFDecoder(symbols)
310
311 numSymbols += 2
312 huffmanTrees := make([]huffmanTree, numHuffmanTrees)
313
314
315 lengths := make([]uint8, numSymbols)
316 for i := range huffmanTrees {
317
318 length := br.ReadBits(5)
319 for j := range lengths {
320 for {
321 if length < 1 || length > 20 {
322 return StructuralError("Huffman length out of range")
323 }
324 if !br.ReadBit() {
325 break
326 }
327 if br.ReadBit() {
328 length--
329 } else {
330 length++
331 }
332 }
333 lengths[j] = uint8(length)
334 }
335 huffmanTrees[i], err = newHuffmanTree(lengths)
336 if err != nil {
337 return err
338 }
339 }
340
341 selectorIndex := 1
342 if len(treeIndexes) == 0 {
343 return StructuralError("no tree selectors given")
344 }
345 if int(treeIndexes[0]) >= len(huffmanTrees) {
346 return StructuralError("tree selector out of range")
347 }
348 currentHuffmanTree := huffmanTrees[treeIndexes[0]]
349 bufIndex := 0
350
351
352
353
354 repeat := 0
355 repeatPower := 0
356
357
358 for i := range bz2.c {
359 bz2.c[i] = 0
360 }
361
362 decoded := 0
363 for {
364 if decoded == 50 {
365 if selectorIndex >= numSelectors {
366 return StructuralError("insufficient selector indices for number of symbols")
367 }
368 if int(treeIndexes[selectorIndex]) >= len(huffmanTrees) {
369 return StructuralError("tree selector out of range")
370 }
371 currentHuffmanTree = huffmanTrees[treeIndexes[selectorIndex]]
372 selectorIndex++
373 decoded = 0
374 }
375
376 v := currentHuffmanTree.Decode(br)
377 decoded++
378
379 if v < 2 {
380
381 if repeat == 0 {
382 repeatPower = 1
383 }
384 repeat += repeatPower << v
385 repeatPower <<= 1
386
387
388
389 if repeat > 2*1024*1024 {
390 return StructuralError("repeat count too large")
391 }
392 continue
393 }
394
395 if repeat > 0 {
396
397
398 if repeat > bz2.blockSize-bufIndex {
399 return StructuralError("repeats past end of block")
400 }
401 for i := 0; i < repeat; i++ {
402 b := mtf.First()
403 bz2.tt[bufIndex] = uint32(b)
404 bz2.c[b]++
405 bufIndex++
406 }
407 repeat = 0
408 }
409
410 if int(v) == numSymbols-1 {
411
412
413
414 break
415 }
416
417
418
419
420
421
422
423 b := mtf.Decode(int(v - 1))
424 if bufIndex >= bz2.blockSize {
425 return StructuralError("data exceeds block size")
426 }
427 bz2.tt[bufIndex] = uint32(b)
428 bz2.c[b]++
429 bufIndex++
430 }
431
432 if origPtr >= uint(bufIndex) {
433 return StructuralError("origPtr out of bounds")
434 }
435
436
437
438 bz2.preRLE = bz2.tt[:bufIndex]
439 bz2.preRLEUsed = 0
440 bz2.tPos = inverseBWT(bz2.preRLE, origPtr, bz2.c[:])
441 bz2.lastByte = -1
442 bz2.byteRepeats = 0
443 bz2.repeats = 0
444
445 return nil
446 }
447
448
449
450
451
452
453
454
455
456
457
458 func inverseBWT(tt []uint32, origPtr uint, c []uint) uint32 {
459 sum := uint(0)
460 for i := 0; i < 256; i++ {
461 sum += c[i]
462 c[i] = sum - c[i]
463 }
464
465 for i := range tt {
466 b := tt[i] & 0xff
467 tt[c[b]] |= uint32(i) << 8
468 c[b]++
469 }
470
471 return tt[origPtr] >> 8
472 }
473
474
475
476
477 var crctab [256]uint32
478
479 func init() {
480 const poly = 0x04C11DB7
481 for i := range crctab {
482 crc := uint32(i) << 24
483 for j := 0; j < 8; j++ {
484 if crc&0x80000000 != 0 {
485 crc = (crc << 1) ^ poly
486 } else {
487 crc <<= 1
488 }
489 }
490 crctab[i] = crc
491 }
492 }
493
494
495
496 func updateCRC(val uint32, b []byte) uint32 {
497 crc := ^val
498 for _, v := range b {
499 crc = crctab[byte(crc>>24)^v] ^ (crc << 8)
500 }
501 return ^crc
502 }
503
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