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1/* ------------------------------------------------------------------------ */
2/* */
3/* These are the decompression algorithms. */
4/* Don't change here anything (apart from memory allocation perhaps). */
5/* Any changes will very likely cause bugs! */
6/* */
7/* ------------------------------------------------------------------------ */
8
9#include "os.h"
10
11#if defined(AMIGA)
12 #include <string.h> // mem*()
13#endif
14#if defined(DOS) || defined(WIN16) || defined(WINNT) || defined(OS2) || defined(UNIX)
15#if !defined(__CYGWIN__)
16 #include <mem.h> // mem*()
17#endif
18#endif
19
20#include <stdio.h> // pipeit()
21#include <stdlib.h> // malloc()
22#include <string.h>
23
24#include "globals.h"
25#include "portable.h"
26#include "uac_comm.h"
27#include "uac_crc.h"
28#include "uac_dcpr.h"
29#include "uac_sys.h"
30#ifdef CRYPT
31 #include "unace_ps.h"
32#endif /* CRYPT */
33
34
35//------------------------------ QUICKSORT ---------------------------------//
36#define xchg_def(v1,v2) {INT dummy;\
37 dummy=v1; \
38 v1=v2; \
39 v2=dummy;}
40
41void sortrange(INT left, INT right)
42{
43 INT zl = left,
44 zr = right,
45 hyphen;
46
47 hyphen = sort_freq[right];
48
49 //divides by hyphen the given range into 2 parts
50 do
51 {
52 while (sort_freq[zl] > hyphen)
53 zl++;
54 while (sort_freq[zr] < hyphen)
55 zr--;
56 //found a too small (left side) and
57 //a too big (right side) element-->exchange them
58 if (zl <= zr)
59 {
60 xchg_def(sort_freq[zl], sort_freq[zr]);
61 xchg_def(sort_org[zl], sort_org[zr]);
62 zl++;
63 zr--;
64 }
65 }
66 while (zl < zr);
67
68 //sort partial ranges - when very small, sort directly
69 if (left < zr)
70 {
71 if (left < zr - 1)
72 sortrange(left, zr);
73 else if (sort_freq[left] < sort_freq[zr])
74 {
75 xchg_def(sort_freq[left], sort_freq[zr]);
76 xchg_def(sort_org[left], sort_org[zr]);
77 }
78 }
79
80 if (right > zl)
81 {
82 if (zl < right - 1)
83 sortrange(zl, right);
84 else if (sort_freq[zl] < sort_freq[right])
85 {
86 xchg_def(sort_freq[zl], sort_freq[right]);
87 xchg_def(sort_org[zl], sort_org[right]);
88 }
89 }
90}
91
92void quicksort(INT n)
93{
94 INT i;
95
96 for (i = n + 1; i--;)
97 sort_org[i] = i;
98 sortrange(0, n);
99}
100
101//------------------------------ read bits ---------------------------------//
102void readdat(void)
103{
104 UINT i;
105
106 i = (size_rdb - 2) << 2;
107 rpos -= size_rdb - 2;
108 buf_rd[0] = buf_rd[size_rdb - 2];
109 buf_rd[1] = buf_rd[size_rdb - 1];
110 read_adds_blk((CHAR *) & buf_rd[2], i);
111#ifdef HI_LO_BYTE_ORDER
112 {
113 ULONG *p;
114 i>>=2; // count LONGs not BYTEs
115 p=&buf_rd[2];
116 while (i--)
117 {
118 LONGswap(p);
119 p++;
120 }
121 }
122#endif
123}
124
125#define addbits(bits) \
126{ \
127 rpos+=(bits_rd+=bits)>>5; \
128 bits_rd&=31; \
129 if (rpos==(size_rdb-2)) readdat(); \
130 code_rd=(buf_rd[rpos] << bits_rd) \
131 +((buf_rd[rpos+1] >> (32-bits_rd))&(!bits_rd-1)); \
132 }
133
134
135//---------------------- COMMENT DECOMPRESSION -----------------------------//
136
137#define comm_cpr_hf(a,b) (a+b)
138
139void dcpr_comm_init(void)
140{
141 INT i;
142
143 i = comm_cpr_size > size_rdb * sizeof(LONG) ? size_rdb * sizeof(LONG) : comm_cpr_size;
144 if (!f_err)
145 memcpy(buf_rd, comm, i);
146#ifdef HI_LO_BYTE_ORDER
147 {
148 ULONG *p;
149 i>>=2; // count LONGs not BYTEs
150 p=buf_rd;
151 while (i--)
152 {
153 LONGswap(p);
154 p++;
155 }
156 }
157#endif
158 code_rd = buf_rd[0];
159 rpos = bits_rd = 0;
160}
161
162void dcpr_comm(INT comm_size)
163{
164 SHORT hash[comm_cpr_hf(255, 255) + 1];
165 INT dpos = 0,
166 c,
167 pos = 0,
168 len,
169 hs;
170
171 memset(&hash, 0, sizeof(hash));
172 if (comm_cpr_size)
173 {
174 dcpr_comm_init();
175 len = code_rd >> (32 - 15);
176 addbits(15);
177 if (len >= comm_size)
178 len = comm_size - 1;
179 if (read_wd(maxwd_mn, dcpr_code_mn, dcpr_wd_mn, max_cd_mn))
180 do
181 {
182 if (dpos > 1)
183 {
184 pos = hash[hs = comm_cpr_hf(comm[dpos - 1], comm[dpos - 2])];
185 hash[hs] = dpos;
186 }
187 addbits(dcpr_wd_mn[(c = dcpr_code_mn[code_rd >> (32 - maxwd_mn)])]);
188 if (rpos == size_rdb - 3)
189 rpos = 0;
190 if (c > 255)
191 {
192 c -= 256;
193 c += 2;
194 while (c--)
195 comm[dpos++] = comm[pos++];
196 }
197 else
198 {
199 comm[dpos++] = c;
200 }
201 }
202 while (dpos < len);
203 comm[len] = 0;
204 }
205}
206
207//------------------------- LZW1 DECOMPRESSION -----------------------------//
208void wrchar(CHAR ch)
209{
210 dcpr_do++;
211
212 dcpr_text[dcpr_dpos] = ch;
213 dcpr_dpos++;
214 dcpr_dpos &= dcpr_dican;
215}
216
217void copystr(LONG d, INT l)
218{
219 INT mpos;
220
221 dcpr_do += l;
222
223 mpos = dcpr_dpos - d;
224 mpos &= dcpr_dican;
225
226 if ((mpos >= dcpr_dicsiz - maxlength) || (dcpr_dpos >= dcpr_dicsiz - maxlength))
227 {
228 while (l--)
229 {
230 dcpr_text[dcpr_dpos] = dcpr_text[mpos];
231 dcpr_dpos++;
232 dcpr_dpos &= dcpr_dican;
233 mpos++;
234 mpos &= dcpr_dican;
235 }
236 }
237 else
238 {
239 while (l--)
240 dcpr_text[dcpr_dpos++] = dcpr_text[mpos++];
241 dcpr_dpos &= dcpr_dican;
242 }
243}
244
245void decompress(void)
246{
247 INT c,
248 lg,
249 i,
250 k;
251 ULONG dist;
252
253 while (dcpr_do < dcpr_do_max)
254 {
255 if (!blocksize)
256 if (!calc_dectabs())
257 return;
258
259 addbits(dcpr_wd_mn[(c = dcpr_code_mn[code_rd >> (32 - maxwd_mn)])]);
260 blocksize--;
261 if (c > 255)
262 {
263 if (c > 259)
264 {
265 if ((c -= 260) > 1)
266 {
267 dist = (code_rd >> (33 - c)) + (1L << (c - 1));
268 addbits(c - 1);
269 }
270 else
271 dist = c;
272 dcpr_olddist[(dcpr_oldnum = (dcpr_oldnum + 1) & 3)] = dist;
273 i = 2;
274 if (dist > maxdis2)
275 {
276 i++;
277 if (dist > maxdis3)
278 i++;
279 }
280 }
281 else
282 {
283 dist = dcpr_olddist[(dcpr_oldnum - (c &= 255)) & 3];
284 for (k = c + 1; k--;)
285 dcpr_olddist[(dcpr_oldnum - k) & 3] = dcpr_olddist[(dcpr_oldnum - k + 1) & 3];
286 dcpr_olddist[dcpr_oldnum] = dist;
287 i = 2;
288 if (c > 1)
289 i++;
290 }
291 addbits(dcpr_wd_lg[(lg = dcpr_code_lg[code_rd >> (32 - maxwd_lg)])]);
292 dist++;
293 lg += i;
294 copystr(dist, lg);
295 }
296 else
297 wrchar(c);
298 }
299}
300
301//-------------------------- HUFFMAN ROUTINES ------------------------------//
302INT makecode(UINT maxwd, UINT size1_t, UCHAR * wd, USHORT * code)
303{
304 UINT maxc,
305 size2_t,
306 l,
307 c,
308 i,
309 max_make_code;
310
311 memcpy(&sort_freq, wd, (size1_t + 1) * sizeof(CHAR));
312 if (size1_t)
313 quicksort(size1_t);
314 else
315 sort_org[0] = 0;
316 sort_freq[size1_t + 1] = size2_t = c = 0;
317 while (sort_freq[size2_t])
318 size2_t++;
319 if (size2_t < 2)
320 {
321 i = sort_org[0];
322 wd[i] = 1;
323 size2_t += (size2_t == 0);
324 }
325 size2_t--;
326
327 max_make_code = 1 << maxwd;
328 for (i = size2_t + 1; i-- && c < max_make_code;)
329 {
330 maxc = 1 << (maxwd - sort_freq[i]);
331 l = sort_org[i];
332 if (c + maxc > max_make_code)
333 {
334 dcpr_do = dcpr_do_max;
335 return (0);
336 }
337 memset16(&code[c], l, maxc);
338 c += maxc;
339 }
340 return (1);
341}
342
343INT read_wd(UINT maxwd, USHORT * code, UCHAR * wd, INT max_el)
344{
345 UINT c,
346 i,
347 j,
348 num_el,
349 l,
350 uplim,
351 lolim;
352
353 memset(wd, 0, max_el * sizeof(CHAR));
354 memset(code, 0, (1 << maxwd) * sizeof(SHORT));
355
356 num_el = code_rd >> (32 - 9);
357 addbits(9);
358 if (num_el > max_el)
359 num_el = max_el;
360
361 lolim = code_rd >> (32 - 4);
362 addbits(4);
363 uplim = code_rd >> (32 - 4);
364 addbits(4);
365
366 for (i = -1; ++i <= uplim;)
367 {
368 wd_svwd[i] = code_rd >> (32 - 3);
369 addbits(3);
370 }
371 if (!makecode(maxwd_svwd, uplim, wd_svwd, code))
372 return (0);
373 j = 0;
374 while (j <= num_el)
375 {
376 c = code[code_rd >> (32 - maxwd_svwd)];
377 addbits(wd_svwd[c]);
378 if (c < uplim)
379 wd[j++] = c;
380 else
381 {
382 l = (code_rd >> 28) + 4;
383 addbits(4);
384 while (l-- && j <= num_el)
385 wd[j++] = 0;
386 }
387 }
388 if (uplim)
389 for (i = 0; ++i <= num_el;)
390 wd[i] = (wd[i] + wd[i - 1]) % uplim;
391 for (i = -1; ++i <= num_el;)
392 if (wd[i])
393 wd[i] += lolim;
394
395 return (makecode(maxwd, num_el, wd, code));
396
397}
398
399INT calc_dectabs(void)
400{
401 if (!read_wd(maxwd_mn, dcpr_code_mn, dcpr_wd_mn, max_cd_mn)
402 || !read_wd(maxwd_lg, dcpr_code_lg, dcpr_wd_lg, max_cd_lg))
403 return (0);
404
405 blocksize = code_rd >> (32 - 15);
406 addbits(15);
407
408 return (1);
409}
410
411//---------------------------- BLOCK ROUTINES ------------------------------//
412INT decompress_blk(CHAR * buf, UINT len)
413{
414 LONG old_pos = dcpr_dpos;
415 INT i;
416
417 dcpr_do = 0;
418 if ((dcpr_do_max = len - maxlength) > dcpr_size)
419 dcpr_do_max = dcpr_size;
420 if ((LONG) dcpr_size > 0 && dcpr_do_max)
421 {
422 decompress();
423 if (old_pos + dcpr_do > dcpr_dicsiz)
424 {
425 i = dcpr_dicsiz - old_pos;
426 memcpy(buf, &dcpr_text[old_pos], i);
427 memcpy(&buf[i], dcpr_text, dcpr_do - i);
428 }
429 else
430 memcpy(buf, &dcpr_text[old_pos], dcpr_do);
431 }
432 dcpr_size -= dcpr_do;
433 return (dcpr_do);
434}
435
436INT unstore(CHAR * buf, UINT len)
437{
438 UINT rd = 0,
439 i,
440 pos = 0;
441
442#ifdef CRYPT
443 len = crypt_len(len - 8); /* because of decryption */
444#endif /* CRYPT */
445
446 while ((i = read_adds_blk((CHAR *) buf_rd, (INT) ((i = ((len > dcpr_size) ? dcpr_size : len)) > size_rdb ? size_rdb : i))) != 0)
447 {
448 rd += i;
449 len -= i;
450 memcpy(&buf[pos], buf_rd, i);
451 pos += i;
452 }
453 dcpr_size -= rd;
454 for (i = 0; i < rd; i++)
455 {
456 dcpr_text[dcpr_dpos] = buf[i];
457 dcpr_dpos++;
458 dcpr_dpos &= dcpr_dican;
459 }
460 return (INT)rd;
461}
462
463INT dcpr_adds_blk(CHAR * buf, UINT len)
464{
465 INT r;
466
467 switch (fhead.TECH.TYPE)
468 {
469 case TYPE_STORE:
470 r = unstore(buf, len);
471 break;
472 case TYPE_LZW1:
473 r = decompress_blk(buf, len);
474 break;
475 default:
476 pipeit("\nFile compressed with unknown method. Decompression not possible.\n");
477 f_err = ERR_OTHER;
478 r = 0;
479 }
480 rd_crc = getcrc(rd_crc, (UCHAR *)buf, r);
481 return r;
482}
483
484
485//----------------------------- INIT ROUTINES ------------------------------//
486void dcpr_init(void)
487{
488 dcpr_frst_file = 1;
489
490 dcpr_dic = 20;
491 while ((dcpr_text = malloc(dcpr_dicsiz = (LONG) 1 << dcpr_dic))==NULL)
492 dcpr_dic--;
493 dcpr_dican = dcpr_dicsiz - 1;
494}
495
496void dcpr_init_file(void)
497{
498 UINT i;
499
500#ifdef CRYPT
501
502 reset_cryptkey();
503
504#else /* CRYPT */
505
506 if (head.HEAD_FLAGS & ACE_PASSW)
507 {
508 pipeit("\nFound passworded file. Decryption not supported.\n");
509 f_err = ERR_OTHER;
510 return;
511 }
512
513#endif /* CRYPT */
514
515 rd_crc = CRC_MASK;
516 dcpr_size = fhead.SIZE;
517 if (fhead.TECH.TYPE == TYPE_LZW1)
518 {
519 if ((fhead.TECH.PARM & 15) + 10 > dcpr_dic)
520 {
521 pipeit("\nNot enough memory or dictionary of archive too large.\n");
522 f_err = ERR_MEM;
523 return;
524 }
525
526 i = size_rdb * sizeof(LONG);
527 read_adds_blk((CHAR *) buf_rd, i);
528#ifdef HI_LO_BYTE_ORDER
529 {
530 ULONG *p;
531 i>>=2; // count LONGs not BYTEs
532 p=buf_rd;
533 while (i--)
534 {
535 LONGswap(p);
536 p++;
537 }
538 }
539#endif
540 code_rd = buf_rd[0];
541 bits_rd = rpos = 0;
542
543 blocksize = 0;
544 }
545 if (!adat.sol || dcpr_frst_file)
546 dcpr_dpos = 0;
547
548 dcpr_oldnum = 0;
549 memset(&dcpr_olddist, 0, sizeof(dcpr_olddist));
550
551 dcpr_frst_file = 0;
552}
553