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1 745 jeremybenn
/* crc32.c -- compute the CRC-32 of a data stream
2
 * Copyright (C) 1995-2005 Mark Adler
3
 * For conditions of distribution and use, see copyright notice in zlib.h
4
 *
5
 * Thanks to Rodney Brown <rbrown64@csc.com.au> for his contribution of faster
6
 * CRC methods: exclusive-oring 32 bits of data at a time, and pre-computing
7
 * tables for updating the shift register in one step with three exclusive-ors
8
 * instead of four steps with four exclusive-ors.  This results in about a
9
 * factor of two increase in speed on a Power PC G4 (PPC7455) using gcc -O3.
10
 */
11
 
12
/* @(#) $Id: crc32.c,v 1.1.1.2 2002/03/11 21:53:23 tromey Exp $ */
13
 
14
/*
15
  Note on the use of DYNAMIC_CRC_TABLE: there is no mutex or semaphore
16
  protection on the static variables used to control the first-use generation
17
  of the crc tables.  Therefore, if you #define DYNAMIC_CRC_TABLE, you should
18
  first call get_crc_table() to initialize the tables before allowing more than
19
  one thread to use crc32().
20
 */
21
 
22
#ifdef MAKECRCH
23
#  include <stdio.h>
24
#  ifndef DYNAMIC_CRC_TABLE
25
#    define DYNAMIC_CRC_TABLE
26
#  endif /* !DYNAMIC_CRC_TABLE */
27
#endif /* MAKECRCH */
28
 
29
#include "zutil.h"      /* for STDC and FAR definitions */
30
 
31
#define local static
32
 
33
/* Find a four-byte integer type for crc32_little() and crc32_big(). */
34
#ifndef NOBYFOUR
35
#  ifdef STDC           /* need ANSI C limits.h to determine sizes */
36
#    include <limits.h>
37
#    define BYFOUR
38
#    if (UINT_MAX == 0xffffffffUL)
39
       typedef unsigned int u4;
40
#    else
41
#      if (ULONG_MAX == 0xffffffffUL)
42
         typedef unsigned long u4;
43
#      else
44
#        if (USHRT_MAX == 0xffffffffUL)
45
           typedef unsigned short u4;
46
#        else
47
#          undef BYFOUR     /* can't find a four-byte integer type! */
48
#        endif
49
#      endif
50
#    endif
51
#  endif /* STDC */
52
#endif /* !NOBYFOUR */
53
 
54
/* Definitions for doing the crc four data bytes at a time. */
55
#ifdef BYFOUR
56
#  define REV(w) (((w)>>24)+(((w)>>8)&0xff00)+ \
57
                (((w)&0xff00)<<8)+(((w)&0xff)<<24))
58
   local unsigned long crc32_little OF((unsigned long,
59
                        const unsigned char FAR *, unsigned));
60
   local unsigned long crc32_big OF((unsigned long,
61
                        const unsigned char FAR *, unsigned));
62
#  define TBLS 8
63
#else
64
#  define TBLS 1
65
#endif /* BYFOUR */
66
 
67
/* Local functions for crc concatenation */
68
local unsigned long gf2_matrix_times OF((unsigned long *mat,
69
                                         unsigned long vec));
70
local void gf2_matrix_square OF((unsigned long *square, unsigned long *mat));
71
 
72
#ifdef DYNAMIC_CRC_TABLE
73
 
74
local volatile int crc_table_empty = 1;
75
local unsigned long FAR crc_table[TBLS][256];
76
local void make_crc_table OF((void));
77
#ifdef MAKECRCH
78
   local void write_table OF((FILE *, const unsigned long FAR *));
79
#endif /* MAKECRCH */
80
/*
81
  Generate tables for a byte-wise 32-bit CRC calculation on the polynomial:
82
  x^32+x^26+x^23+x^22+x^16+x^12+x^11+x^10+x^8+x^7+x^5+x^4+x^2+x+1.
83
 
84
  Polynomials over GF(2) are represented in binary, one bit per coefficient,
85
  with the lowest powers in the most significant bit.  Then adding polynomials
86
  is just exclusive-or, and multiplying a polynomial by x is a right shift by
87
  one.  If we call the above polynomial p, and represent a byte as the
88
  polynomial q, also with the lowest power in the most significant bit (so the
89
  byte 0xb1 is the polynomial x^7+x^3+x+1), then the CRC is (q*x^32) mod p,
90
  where a mod b means the remainder after dividing a by b.
91
 
92
  This calculation is done using the shift-register method of multiplying and
93
  taking the remainder.  The register is initialized to zero, and for each
94
  incoming bit, x^32 is added mod p to the register if the bit is a one (where
95
  x^32 mod p is p+x^32 = x^26+...+1), and the register is multiplied mod p by
96
  x (which is shifting right by one and adding x^32 mod p if the bit shifted
97
  out is a one).  We start with the highest power (least significant bit) of
98
  q and repeat for all eight bits of q.
99
 
100
  The first table is simply the CRC of all possible eight bit values.  This is
101
  all the information needed to generate CRCs on data a byte at a time for all
102
  combinations of CRC register values and incoming bytes.  The remaining tables
103
  allow for word-at-a-time CRC calculation for both big-endian and little-
104
  endian machines, where a word is four bytes.
105
*/
106
local void make_crc_table()
107
{
108
    unsigned long c;
109
    int n, k;
110
    unsigned long poly;                 /* polynomial exclusive-or pattern */
111
    /* terms of polynomial defining this crc (except x^32): */
112
    static volatile int first = 1;      /* flag to limit concurrent making */
113
    static const unsigned char p[] = {0,1,2,4,5,7,8,10,11,12,16,22,23,26};
114
 
115
    /* See if another task is already doing this (not thread-safe, but better
116
       than nothing -- significantly reduces duration of vulnerability in
117
       case the advice about DYNAMIC_CRC_TABLE is ignored) */
118
    if (first) {
119
        first = 0;
120
 
121
        /* make exclusive-or pattern from polynomial (0xedb88320UL) */
122
        poly = 0UL;
123
        for (n = 0; n < sizeof(p)/sizeof(unsigned char); n++)
124
            poly |= 1UL << (31 - p[n]);
125
 
126
        /* generate a crc for every 8-bit value */
127
        for (n = 0; n < 256; n++) {
128
            c = (unsigned long)n;
129
            for (k = 0; k < 8; k++)
130
                c = c & 1 ? poly ^ (c >> 1) : c >> 1;
131
            crc_table[0][n] = c;
132
        }
133
 
134
#ifdef BYFOUR
135
        /* generate crc for each value followed by one, two, and three zeros,
136
           and then the byte reversal of those as well as the first table */
137
        for (n = 0; n < 256; n++) {
138
            c = crc_table[0][n];
139
            crc_table[4][n] = REV(c);
140
            for (k = 1; k < 4; k++) {
141
                c = crc_table[0][c & 0xff] ^ (c >> 8);
142
                crc_table[k][n] = c;
143
                crc_table[k + 4][n] = REV(c);
144
            }
145
        }
146
#endif /* BYFOUR */
147
 
148
        crc_table_empty = 0;
149
    }
150
    else {      /* not first */
151
        /* wait for the other guy to finish (not efficient, but rare) */
152
        while (crc_table_empty)
153
            ;
154
    }
155
 
156
#ifdef MAKECRCH
157
    /* write out CRC tables to crc32.h */
158
    {
159
        FILE *out;
160
 
161
        out = fopen("crc32.h", "w");
162
        if (out == NULL) return;
163
        fprintf(out, "/* crc32.h -- tables for rapid CRC calculation\n");
164
        fprintf(out, " * Generated automatically by crc32.c\n */\n\n");
165
        fprintf(out, "local const unsigned long FAR ");
166
        fprintf(out, "crc_table[TBLS][256] =\n{\n  {\n");
167
        write_table(out, crc_table[0]);
168
#  ifdef BYFOUR
169
        fprintf(out, "#ifdef BYFOUR\n");
170
        for (k = 1; k < 8; k++) {
171
            fprintf(out, "  },\n  {\n");
172
            write_table(out, crc_table[k]);
173
        }
174
        fprintf(out, "#endif\n");
175
#  endif /* BYFOUR */
176
        fprintf(out, "  }\n};\n");
177
        fclose(out);
178
    }
179
#endif /* MAKECRCH */
180
}
181
 
182
#ifdef MAKECRCH
183
local void write_table(out, table)
184
    FILE *out;
185
    const unsigned long FAR *table;
186
{
187
    int n;
188
 
189
    for (n = 0; n < 256; n++)
190
        fprintf(out, "%s0x%08lxUL%s", n % 5 ? "" : "    ", table[n],
191
                n == 255 ? "\n" : (n % 5 == 4 ? ",\n" : ", "));
192
}
193
#endif /* MAKECRCH */
194
 
195
#else /* !DYNAMIC_CRC_TABLE */
196
/* ========================================================================
197
 * Tables of CRC-32s of all single-byte values, made by make_crc_table().
198
 */
199
#include "crc32.h"
200
#endif /* DYNAMIC_CRC_TABLE */
201
 
202
/* =========================================================================
203
 * This function can be used by asm versions of crc32()
204
 */
205
const unsigned long FAR * ZEXPORT get_crc_table()
206
{
207
#ifdef DYNAMIC_CRC_TABLE
208
    if (crc_table_empty)
209
        make_crc_table();
210
#endif /* DYNAMIC_CRC_TABLE */
211
    return (const unsigned long FAR *)crc_table;
212
}
213
 
214
/* ========================================================================= */
215
#define DO1 crc = crc_table[0][((int)crc ^ (*buf++)) & 0xff] ^ (crc >> 8)
216
#define DO8 DO1; DO1; DO1; DO1; DO1; DO1; DO1; DO1
217
 
218
/* ========================================================================= */
219
unsigned long ZEXPORT crc32(crc, buf, len)
220
    unsigned long crc;
221
    const unsigned char FAR *buf;
222
    unsigned len;
223
{
224
    if (buf == Z_NULL) return 0UL;
225
 
226
#ifdef DYNAMIC_CRC_TABLE
227
    if (crc_table_empty)
228
        make_crc_table();
229
#endif /* DYNAMIC_CRC_TABLE */
230
 
231
#ifdef BYFOUR
232
    if (sizeof(void *) == sizeof(ptrdiff_t)) {
233
        u4 endian;
234
 
235
        endian = 1;
236
        if (*((unsigned char *)(&endian)))
237
            return crc32_little(crc, buf, len);
238
        else
239
            return crc32_big(crc, buf, len);
240
    }
241
#endif /* BYFOUR */
242
    crc = crc ^ 0xffffffffUL;
243
    while (len >= 8) {
244
        DO8;
245
        len -= 8;
246
    }
247
    if (len) do {
248
        DO1;
249
    } while (--len);
250
    return crc ^ 0xffffffffUL;
251
}
252
 
253
#ifdef BYFOUR
254
 
255
/* ========================================================================= */
256
#define DOLIT4 c ^= *buf4++; \
257
        c = crc_table[3][c & 0xff] ^ crc_table[2][(c >> 8) & 0xff] ^ \
258
            crc_table[1][(c >> 16) & 0xff] ^ crc_table[0][c >> 24]
259
#define DOLIT32 DOLIT4; DOLIT4; DOLIT4; DOLIT4; DOLIT4; DOLIT4; DOLIT4; DOLIT4
260
 
261
/* ========================================================================= */
262
local unsigned long crc32_little(crc, buf, len)
263
    unsigned long crc;
264
    const unsigned char FAR *buf;
265
    unsigned len;
266
{
267
    register u4 c;
268
    register const u4 FAR *buf4;
269
 
270
    c = (u4)crc;
271
    c = ~c;
272
    while (len && ((ptrdiff_t)buf & 3)) {
273
        c = crc_table[0][(c ^ *buf++) & 0xff] ^ (c >> 8);
274
        len--;
275
    }
276
 
277
    buf4 = (const u4 FAR *)(const void FAR *)buf;
278
    while (len >= 32) {
279
        DOLIT32;
280
        len -= 32;
281
    }
282
    while (len >= 4) {
283
        DOLIT4;
284
        len -= 4;
285
    }
286
    buf = (const unsigned char FAR *)buf4;
287
 
288
    if (len) do {
289
        c = crc_table[0][(c ^ *buf++) & 0xff] ^ (c >> 8);
290
    } while (--len);
291
    c = ~c;
292
    return (unsigned long)c;
293
}
294
 
295
/* ========================================================================= */
296
#define DOBIG4 c ^= *++buf4; \
297
        c = crc_table[4][c & 0xff] ^ crc_table[5][(c >> 8) & 0xff] ^ \
298
            crc_table[6][(c >> 16) & 0xff] ^ crc_table[7][c >> 24]
299
#define DOBIG32 DOBIG4; DOBIG4; DOBIG4; DOBIG4; DOBIG4; DOBIG4; DOBIG4; DOBIG4
300
 
301
/* ========================================================================= */
302
local unsigned long crc32_big(crc, buf, len)
303
    unsigned long crc;
304
    const unsigned char FAR *buf;
305
    unsigned len;
306
{
307
    register u4 c;
308
    register const u4 FAR *buf4;
309
 
310
    c = REV((u4)crc);
311
    c = ~c;
312
    while (len && ((ptrdiff_t)buf & 3)) {
313
        c = crc_table[4][(c >> 24) ^ *buf++] ^ (c << 8);
314
        len--;
315
    }
316
 
317
    buf4 = (const u4 FAR *)(const void FAR *)buf;
318
    buf4--;
319
    while (len >= 32) {
320
        DOBIG32;
321
        len -= 32;
322
    }
323
    while (len >= 4) {
324
        DOBIG4;
325
        len -= 4;
326
    }
327
    buf4++;
328
    buf = (const unsigned char FAR *)buf4;
329
 
330
    if (len) do {
331
        c = crc_table[4][(c >> 24) ^ *buf++] ^ (c << 8);
332
    } while (--len);
333
    c = ~c;
334
    return (unsigned long)(REV(c));
335
}
336
 
337
#endif /* BYFOUR */
338
 
339
#define GF2_DIM 32      /* dimension of GF(2) vectors (length of CRC) */
340
 
341
/* ========================================================================= */
342
local unsigned long gf2_matrix_times(mat, vec)
343
    unsigned long *mat;
344
    unsigned long vec;
345
{
346
    unsigned long sum;
347
 
348
    sum = 0;
349
    while (vec) {
350
        if (vec & 1)
351
            sum ^= *mat;
352
        vec >>= 1;
353
        mat++;
354
    }
355
    return sum;
356
}
357
 
358
/* ========================================================================= */
359
local void gf2_matrix_square(square, mat)
360
    unsigned long *square;
361
    unsigned long *mat;
362
{
363
    int n;
364
 
365
    for (n = 0; n < GF2_DIM; n++)
366
        square[n] = gf2_matrix_times(mat, mat[n]);
367
}
368
 
369
/* ========================================================================= */
370
uLong ZEXPORT crc32_combine(crc1, crc2, len2)
371
    uLong crc1;
372
    uLong crc2;
373
    z_off_t len2;
374
{
375
    int n;
376
    unsigned long row;
377
    unsigned long even[GF2_DIM];    /* even-power-of-two zeros operator */
378
    unsigned long odd[GF2_DIM];     /* odd-power-of-two zeros operator */
379
 
380
    /* degenerate case */
381
    if (len2 == 0)
382
        return crc1;
383
 
384
    /* put operator for one zero bit in odd */
385
    odd[0] = 0xedb88320L;           /* CRC-32 polynomial */
386
    row = 1;
387
    for (n = 1; n < GF2_DIM; n++) {
388
        odd[n] = row;
389
        row <<= 1;
390
    }
391
 
392
    /* put operator for two zero bits in even */
393
    gf2_matrix_square(even, odd);
394
 
395
    /* put operator for four zero bits in odd */
396
    gf2_matrix_square(odd, even);
397
 
398
    /* apply len2 zeros to crc1 (first square will put the operator for one
399
       zero byte, eight zero bits, in even) */
400
    do {
401
        /* apply zeros operator for this bit of len2 */
402
        gf2_matrix_square(even, odd);
403
        if (len2 & 1)
404
            crc1 = gf2_matrix_times(even, crc1);
405
        len2 >>= 1;
406
 
407
        /* if no more bits set, then done */
408
        if (len2 == 0)
409
            break;
410
 
411
        /* another iteration of the loop with odd and even swapped */
412
        gf2_matrix_square(odd, even);
413
        if (len2 & 1)
414
            crc1 = gf2_matrix_times(odd, crc1);
415
        len2 >>= 1;
416
 
417
        /* if no more bits set, then done */
418
    } while (len2 != 0);
419
 
420
    /* return combined crc */
421
    crc1 ^= crc2;
422
    return crc1;
423
}

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