Coverage Report

Created: 2026-07-16 06:23

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/libxml2/xmlstring.c
Line
Count
Source
1
/*
2
 * string.c : an XML string utilities module
3
 *
4
 * This module provides various utility functions for manipulating
5
 * the xmlChar* type. All functions named xmlStr* have been moved here
6
 * from the parser.c file (their original home).
7
 *
8
 * See Copyright for the status of this software.
9
 *
10
 * UTF8 string routines from:
11
 * William Brack <wbrack@mmm.com.hk>
12
 *
13
 * daniel@veillard.com
14
 */
15
16
#define IN_LIBXML
17
#include "libxml.h"
18
19
#include <stdlib.h>
20
#include <string.h>
21
#include <limits.h>
22
#include <libxml/xmlmemory.h>
23
#include <libxml/parserInternals.h>
24
#include <libxml/xmlstring.h>
25
26
#include "private/parser.h"
27
#include "private/string.h"
28
29
#ifndef va_copy
30
  #ifdef __va_copy
31
    #define va_copy(dest, src) __va_copy(dest, src)
32
  #else
33
    #define va_copy(dest, src) memcpy(&(dest), &(src), sizeof(va_list))
34
  #endif
35
#endif
36
37
/************************************************************************
38
 *                                                                      *
39
 *                Commodity functions to handle xmlChars                *
40
 *                                                                      *
41
 ************************************************************************/
42
43
/**
44
 * xmlStrndup:
45
 * @cur:  the input xmlChar *
46
 * @len:  the len of @cur
47
 *
48
 * a strndup for array of xmlChar's
49
 *
50
 * Returns a new xmlChar * or NULL
51
 */
52
xmlChar *
53
2.35M
xmlStrndup(const xmlChar *cur, int len) {
54
2.35M
    xmlChar *ret;
55
56
2.35M
    if ((cur == NULL) || (len < 0)) return(NULL);
57
2.35M
    ret = xmlMalloc((size_t) len + 1);
58
2.35M
    if (ret == NULL) {
59
84
        return(NULL);
60
84
    }
61
2.35M
    memcpy(ret, cur, len);
62
2.35M
    ret[len] = 0;
63
2.35M
    return(ret);
64
2.35M
}
65
66
/**
67
 * xmlStrdup:
68
 * @cur:  the input xmlChar *
69
 *
70
 * a strdup for array of xmlChar's. Since they are supposed to be
71
 * encoded in UTF-8 or an encoding with 8bit based chars, we assume
72
 * a termination mark of '0'.
73
 *
74
 * Returns a new xmlChar * or NULL
75
 */
76
xmlChar *
77
1.95M
xmlStrdup(const xmlChar *cur) {
78
1.95M
    const xmlChar *p = cur;
79
80
1.95M
    if (cur == NULL) return(NULL);
81
2.64G
    while (*p != 0) p++; /* non input consuming */
82
1.95M
    return(xmlStrndup(cur, p - cur));
83
1.95M
}
84
85
/**
86
 * xmlCharStrndup:
87
 * @cur:  the input char *
88
 * @len:  the len of @cur
89
 *
90
 * a strndup for char's to xmlChar's
91
 *
92
 * Returns a new xmlChar * or NULL
93
 */
94
95
xmlChar *
96
1.16k
xmlCharStrndup(const char *cur, int len) {
97
1.16k
    int i;
98
1.16k
    xmlChar *ret;
99
100
1.16k
    if ((cur == NULL) || (len < 0)) return(NULL);
101
1.16k
    ret = xmlMalloc((size_t) len + 1);
102
1.16k
    if (ret == NULL) {
103
0
        return(NULL);
104
0
    }
105
66.0M
    for (i = 0;i < len;i++) {
106
        /* Explicit sign change */
107
66.0M
        ret[i] = (xmlChar) cur[i];
108
66.0M
        if (ret[i] == 0) return(ret);
109
66.0M
    }
110
1.16k
    ret[len] = 0;
111
1.16k
    return(ret);
112
1.16k
}
113
114
/**
115
 * xmlCharStrdup:
116
 * @cur:  the input char *
117
 *
118
 * a strdup for char's to xmlChar's
119
 *
120
 * Returns a new xmlChar * or NULL
121
 */
122
123
xmlChar *
124
1.16k
xmlCharStrdup(const char *cur) {
125
1.16k
    const char *p = cur;
126
127
1.16k
    if (cur == NULL) return(NULL);
128
66.0M
    while (*p != '\0') p++; /* non input consuming */
129
1.16k
    return(xmlCharStrndup(cur, p - cur));
130
1.16k
}
131
132
/**
133
 * xmlStrcmp:
134
 * @str1:  the first xmlChar *
135
 * @str2:  the second xmlChar *
136
 *
137
 * a strcmp for xmlChar's
138
 *
139
 * Returns the integer result of the comparison
140
 */
141
142
int
143
0
xmlStrcmp(const xmlChar *str1, const xmlChar *str2) {
144
0
    if (str1 == str2) return(0);
145
0
    if (str1 == NULL) return(-1);
146
0
    if (str2 == NULL) return(1);
147
0
#ifdef FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION
148
0
    return(strcmp((const char *)str1, (const char *)str2));
149
#else
150
    do {
151
        int tmp = *str1++ - *str2;
152
        if (tmp != 0) return(tmp);
153
    } while (*str2++ != 0);
154
    return 0;
155
#endif
156
0
}
157
158
/**
159
 * xmlStrEqual:
160
 * @str1:  the first xmlChar *
161
 * @str2:  the second xmlChar *
162
 *
163
 * Check if both strings are equal of have same content.
164
 * Should be a bit more readable and faster than xmlStrcmp()
165
 *
166
 * Returns 1 if they are equal, 0 if they are different
167
 */
168
169
int
170
2.69M
xmlStrEqual(const xmlChar *str1, const xmlChar *str2) {
171
2.69M
    if (str1 == str2) return(1);
172
2.69M
    if (str1 == NULL) return(0);
173
2.68M
    if (str2 == NULL) return(0);
174
2.68M
#ifdef FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION
175
2.68M
    return(strcmp((const char *)str1, (const char *)str2) == 0);
176
#else
177
    do {
178
        if (*str1++ != *str2) return(0);
179
    } while (*str2++);
180
    return(1);
181
#endif
182
2.68M
}
183
184
/**
185
 * xmlStrQEqual:
186
 * @pref:  the prefix of the QName
187
 * @name:  the localname of the QName
188
 * @str:  the second xmlChar *
189
 *
190
 * Check if a QName is Equal to a given string
191
 *
192
 * Returns 1 if they are equal, 0 if they are different
193
 */
194
195
int
196
15.3k
xmlStrQEqual(const xmlChar *pref, const xmlChar *name, const xmlChar *str) {
197
15.3k
    if (pref == NULL) return(xmlStrEqual(name, str));
198
14.7k
    if (name == NULL) return(0);
199
14.7k
    if (str == NULL) return(0);
200
201
154k
    do {
202
154k
        if (*pref++ != *str) return(0);
203
154k
    } while ((*str++) && (*pref));
204
14.7k
    if (*str++ != ':') return(0);
205
43.2k
    do {
206
43.2k
        if (*name++ != *str) return(0);
207
43.2k
    } while (*str++);
208
14.7k
    return(1);
209
14.7k
}
210
211
/**
212
 * xmlStrncmp:
213
 * @str1:  the first xmlChar *
214
 * @str2:  the second xmlChar *
215
 * @len:  the max comparison length
216
 *
217
 * a strncmp for xmlChar's
218
 *
219
 * Returns the integer result of the comparison
220
 */
221
222
int
223
81.0M
xmlStrncmp(const xmlChar *str1, const xmlChar *str2, int len) {
224
81.0M
    if (len <= 0) return(0);
225
81.0M
    if (str1 == str2) return(0);
226
81.0M
    if (str1 == NULL) return(-1);
227
81.0M
    if (str2 == NULL) return(1);
228
81.0M
#ifdef FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION
229
81.0M
    return(strncmp((const char *)str1, (const char *)str2, len));
230
#else
231
    do {
232
        int tmp = *str1++ - *str2;
233
        if (tmp != 0 || --len == 0) return(tmp);
234
    } while (*str2++ != 0);
235
    return 0;
236
#endif
237
81.0M
}
238
239
static const xmlChar casemap[256] = {
240
    0x00,0x01,0x02,0x03,0x04,0x05,0x06,0x07,
241
    0x08,0x09,0x0A,0x0B,0x0C,0x0D,0x0E,0x0F,
242
    0x10,0x11,0x12,0x13,0x14,0x15,0x16,0x17,
243
    0x18,0x19,0x1A,0x1B,0x1C,0x1D,0x1E,0x1F,
244
    0x20,0x21,0x22,0x23,0x24,0x25,0x26,0x27,
245
    0x28,0x29,0x2A,0x2B,0x2C,0x2D,0x2E,0x2F,
246
    0x30,0x31,0x32,0x33,0x34,0x35,0x36,0x37,
247
    0x38,0x39,0x3A,0x3B,0x3C,0x3D,0x3E,0x3F,
248
    0x40,0x61,0x62,0x63,0x64,0x65,0x66,0x67,
249
    0x68,0x69,0x6A,0x6B,0x6C,0x6D,0x6E,0x6F,
250
    0x70,0x71,0x72,0x73,0x74,0x75,0x76,0x77,
251
    0x78,0x79,0x7A,0x7B,0x5C,0x5D,0x5E,0x5F,
252
    0x60,0x61,0x62,0x63,0x64,0x65,0x66,0x67,
253
    0x68,0x69,0x6A,0x6B,0x6C,0x6D,0x6E,0x6F,
254
    0x70,0x71,0x72,0x73,0x74,0x75,0x76,0x77,
255
    0x78,0x79,0x7A,0x7B,0x7C,0x7D,0x7E,0x7F,
256
    0x80,0x81,0x82,0x83,0x84,0x85,0x86,0x87,
257
    0x88,0x89,0x8A,0x8B,0x8C,0x8D,0x8E,0x8F,
258
    0x90,0x91,0x92,0x93,0x94,0x95,0x96,0x97,
259
    0x98,0x99,0x9A,0x9B,0x9C,0x9D,0x9E,0x9F,
260
    0xA0,0xA1,0xA2,0xA3,0xA4,0xA5,0xA6,0xA7,
261
    0xA8,0xA9,0xAA,0xAB,0xAC,0xAD,0xAE,0xAF,
262
    0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,
263
    0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF,
264
    0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,
265
    0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF,
266
    0xD0,0xD1,0xD2,0xD3,0xD4,0xD5,0xD6,0xD7,
267
    0xD8,0xD9,0xDA,0xDB,0xDC,0xDD,0xDE,0xDF,
268
    0xE0,0xE1,0xE2,0xE3,0xE4,0xE5,0xE6,0xE7,
269
    0xE8,0xE9,0xEA,0xEB,0xEC,0xED,0xEE,0xEF,
270
    0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,
271
    0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF
272
};
273
274
/**
275
 * xmlStrcasecmp:
276
 * @str1:  the first xmlChar *
277
 * @str2:  the second xmlChar *
278
 *
279
 * a strcasecmp for xmlChar's
280
 *
281
 * Returns the integer result of the comparison
282
 */
283
284
int
285
4.89k
xmlStrcasecmp(const xmlChar *str1, const xmlChar *str2) {
286
4.89k
    register int tmp;
287
288
4.89k
    if (str1 == str2) return(0);
289
4.89k
    if (str1 == NULL) return(-1);
290
4.89k
    if (str2 == NULL) return(1);
291
14.4k
    do {
292
14.4k
        tmp = casemap[*str1++] - casemap[*str2];
293
14.4k
        if (tmp != 0) return(tmp);
294
14.4k
    } while (*str2++ != 0);
295
1.99k
    return 0;
296
4.89k
}
297
298
/**
299
 * xmlStrncasecmp:
300
 * @str1:  the first xmlChar *
301
 * @str2:  the second xmlChar *
302
 * @len:  the max comparison length
303
 *
304
 * a strncasecmp for xmlChar's
305
 *
306
 * Returns the integer result of the comparison
307
 */
308
309
int
310
0
xmlStrncasecmp(const xmlChar *str1, const xmlChar *str2, int len) {
311
0
    register int tmp;
312
313
0
    if (len <= 0) return(0);
314
0
    if (str1 == str2) return(0);
315
0
    if (str1 == NULL) return(-1);
316
0
    if (str2 == NULL) return(1);
317
0
    do {
318
0
        tmp = casemap[*str1++] - casemap[*str2];
319
0
        if (tmp != 0 || --len == 0) return(tmp);
320
0
    } while (*str2++ != 0);
321
0
    return 0;
322
0
}
323
324
/**
325
 * xmlStrchr:
326
 * @str:  the xmlChar * array
327
 * @val:  the xmlChar to search
328
 *
329
 * a strchr for xmlChar's
330
 *
331
 * Returns the xmlChar * for the first occurrence or NULL.
332
 */
333
334
const xmlChar *
335
80.1M
xmlStrchr(const xmlChar *str, xmlChar val) {
336
80.1M
    if (str == NULL) return(NULL);
337
1.15G
    while (*str != 0) { /* non input consuming */
338
1.07G
        if (*str == val) return((xmlChar *) str);
339
1.07G
        str++;
340
1.07G
    }
341
80.1M
    return(NULL);
342
80.1M
}
343
344
/**
345
 * xmlStrstr:
346
 * @str:  the xmlChar * array (haystack)
347
 * @val:  the xmlChar to search (needle)
348
 *
349
 * a strstr for xmlChar's
350
 *
351
 * Returns the xmlChar * for the first occurrence or NULL.
352
 */
353
354
const xmlChar *
355
82.8k
xmlStrstr(const xmlChar *str, const xmlChar *val) {
356
82.8k
    int n;
357
358
82.8k
    if (str == NULL) return(NULL);
359
82.8k
    if (val == NULL) return(NULL);
360
82.8k
    n = xmlStrlen(val);
361
362
82.8k
    if (n == 0) return(str);
363
38.1M
    while (*str != 0) { /* non input consuming */
364
38.1M
        if (*str == *val) {
365
38.9k
            if (!xmlStrncmp(str, val, n)) return((const xmlChar *) str);
366
38.9k
        }
367
38.1M
        str++;
368
38.1M
    }
369
51.9k
    return(NULL);
370
82.8k
}
371
372
/**
373
 * xmlStrcasestr:
374
 * @str:  the xmlChar * array (haystack)
375
 * @val:  the xmlChar to search (needle)
376
 *
377
 * a case-ignoring strstr for xmlChar's
378
 *
379
 * Returns the xmlChar * for the first occurrence or NULL.
380
 */
381
382
const xmlChar *
383
0
xmlStrcasestr(const xmlChar *str, const xmlChar *val) {
384
0
    int n;
385
386
0
    if (str == NULL) return(NULL);
387
0
    if (val == NULL) return(NULL);
388
0
    n = xmlStrlen(val);
389
390
0
    if (n == 0) return(str);
391
0
    while (*str != 0) { /* non input consuming */
392
0
        if (casemap[*str] == casemap[*val])
393
0
            if (!xmlStrncasecmp(str, val, n)) return(str);
394
0
        str++;
395
0
    }
396
0
    return(NULL);
397
0
}
398
399
/**
400
 * xmlStrsub:
401
 * @str:  the xmlChar * array (haystack)
402
 * @start:  the index of the first char (zero based)
403
 * @len:  the length of the substring
404
 *
405
 * Extract a substring of a given string
406
 *
407
 * Returns the xmlChar * for the first occurrence or NULL.
408
 */
409
410
xmlChar *
411
0
xmlStrsub(const xmlChar *str, int start, int len) {
412
0
    int i;
413
414
0
    if (str == NULL) return(NULL);
415
0
    if (start < 0) return(NULL);
416
0
    if (len < 0) return(NULL);
417
418
0
    for (i = 0;i < start;i++) {
419
0
        if (*str == 0) return(NULL);
420
0
        str++;
421
0
    }
422
0
    if (*str == 0) return(NULL);
423
0
    return(xmlStrndup(str, len));
424
0
}
425
426
/**
427
 * xmlStrlen:
428
 * @str:  the xmlChar * array
429
 *
430
 * length of a xmlChar's string
431
 *
432
 * Returns the number of xmlChar contained in the ARRAY.
433
 */
434
435
int
436
274k
xmlStrlen(const xmlChar *str) {
437
274k
    size_t len = str ? strlen((const char *)str) : 0;
438
274k
    return(len > INT_MAX ? 0 : len);
439
274k
}
440
441
/**
442
 * xmlStrncat:
443
 * @cur:  the original xmlChar * array
444
 * @add:  the xmlChar * array added
445
 * @len:  the length of @add
446
 *
447
 * a strncat for array of xmlChar's, it will extend @cur with the len
448
 * first bytes of @add. Note that if @len < 0 then this is an API error
449
 * and NULL will be returned.
450
 *
451
 * Returns a new xmlChar *, the original @cur is reallocated and should
452
 * not be freed.
453
 */
454
455
xmlChar *
456
2.19k
xmlStrncat(xmlChar *cur, const xmlChar *add, int len) {
457
2.19k
    int size;
458
2.19k
    xmlChar *ret;
459
460
2.19k
    if ((add == NULL) || (len == 0))
461
0
        return(cur);
462
2.19k
    if (len < 0)
463
0
  return(NULL);
464
2.19k
    if (cur == NULL)
465
0
        return(xmlStrndup(add, len));
466
467
2.19k
    size = xmlStrlen(cur);
468
2.19k
    if ((size < 0) || (size > INT_MAX - len))
469
0
        return(NULL);
470
2.19k
    ret = (xmlChar *) xmlRealloc(cur, (size_t) size + len + 1);
471
2.19k
    if (ret == NULL) {
472
0
        xmlFree(cur);
473
0
        return(NULL);
474
0
    }
475
2.19k
    memcpy(&ret[size], add, len);
476
2.19k
    ret[size + len] = 0;
477
2.19k
    return(ret);
478
2.19k
}
479
480
/**
481
 * xmlStrncatNew:
482
 * @str1:  first xmlChar string
483
 * @str2:  second xmlChar string
484
 * @len:  the len of @str2 or < 0
485
 *
486
 * same as xmlStrncat, but creates a new string.  The original
487
 * two strings are not freed. If @len is < 0 then the length
488
 * will be calculated automatically.
489
 *
490
 * Returns a new xmlChar * or NULL
491
 */
492
xmlChar *
493
0
xmlStrncatNew(const xmlChar *str1, const xmlChar *str2, int len) {
494
0
    int size;
495
0
    xmlChar *ret;
496
497
0
    if (len < 0) {
498
0
        len = xmlStrlen(str2);
499
0
        if (len < 0)
500
0
            return(NULL);
501
0
    }
502
0
    if (str1 == NULL)
503
0
        return(xmlStrndup(str2, len));
504
0
    if ((str2 == NULL) || (len == 0))
505
0
        return(xmlStrdup(str1));
506
507
0
    size = xmlStrlen(str1);
508
0
    if ((size < 0) || (size > INT_MAX - len))
509
0
        return(NULL);
510
0
    ret = (xmlChar *) xmlMalloc((size_t) size + len + 1);
511
0
    if (ret == NULL)
512
0
        return(NULL);
513
0
    memcpy(ret, str1, size);
514
0
    memcpy(&ret[size], str2, len);
515
0
    ret[size + len] = 0;
516
0
    return(ret);
517
0
}
518
519
/**
520
 * xmlStrcat:
521
 * @cur:  the original xmlChar * array
522
 * @add:  the xmlChar * array added
523
 *
524
 * a strcat for array of xmlChar's. Since they are supposed to be
525
 * encoded in UTF-8 or an encoding with 8bit based chars, we assume
526
 * a termination mark of '0'.
527
 *
528
 * Returns a new xmlChar * containing the concatenated string. The original
529
 * @cur is reallocated and should not be freed.
530
 */
531
xmlChar *
532
2.19k
xmlStrcat(xmlChar *cur, const xmlChar *add) {
533
2.19k
    const xmlChar *p = add;
534
535
2.19k
    if (add == NULL) return(cur);
536
2.19k
    if (cur == NULL)
537
0
        return(xmlStrdup(add));
538
539
659M
    while (*p != 0) p++; /* non input consuming */
540
2.19k
    return(xmlStrncat(cur, add, p - add));
541
2.19k
}
542
543
/**
544
 * xmlStrPrintf:
545
 * @buf:   the result buffer.
546
 * @len:   the result buffer length.
547
 * @msg:   the message with printf formatting.
548
 * @...:   extra parameters for the message.
549
 *
550
 * Formats @msg and places result into @buf.
551
 *
552
 * Returns the number of characters written to @buf or -1 if an error occurs.
553
 */
554
int
555
0
xmlStrPrintf(xmlChar *buf, int len, const char *msg, ...) {
556
0
    va_list args;
557
0
    int ret;
558
559
0
    if((buf == NULL) || (msg == NULL)) {
560
0
        return(-1);
561
0
    }
562
563
0
    va_start(args, msg);
564
0
    ret = vsnprintf((char *) buf, len, (const char *) msg, args);
565
0
    va_end(args);
566
0
    buf[len - 1] = 0; /* be safe ! */
567
568
0
    return(ret);
569
0
}
570
571
/**
572
 * xmlStrVPrintf:
573
 * @buf:   the result buffer.
574
 * @len:   the result buffer length.
575
 * @msg:   the message with printf formatting.
576
 * @ap:    extra parameters for the message.
577
 *
578
 * Formats @msg and places result into @buf.
579
 *
580
 * Returns the number of characters written to @buf or -1 if an error occurs.
581
 */
582
int
583
0
xmlStrVPrintf(xmlChar *buf, int len, const char *msg, va_list ap) {
584
0
    int ret;
585
586
0
    if((buf == NULL) || (msg == NULL)) {
587
0
        return(-1);
588
0
    }
589
590
0
    ret = vsnprintf((char *) buf, len, (const char *) msg, ap);
591
0
    buf[len - 1] = 0; /* be safe ! */
592
593
0
    return(ret);
594
0
}
595
596
/**
597
 * xmlStrVASPrintf:
598
 * @out:  pointer to the resulting string
599
 * @maxSize:  maximum size of the output buffer
600
 * @msg:  printf format string
601
 * @ap:  arguments for format string
602
 *
603
 * Creates a newly allocated string according to format.
604
 *
605
 * Returns 0 on success, 1 if the result was truncated or on other
606
 * errors, -1 if a memory allocation failed.
607
 */
608
int
609
139k
xmlStrVASPrintf(xmlChar **out, int maxSize, const char *msg, va_list ap) {
610
139k
    char empty[1];
611
139k
    va_list copy;
612
139k
    xmlChar *buf;
613
139k
    int res, size;
614
139k
    int truncated = 0;
615
616
139k
    if (out == NULL)
617
0
        return(1);
618
139k
    *out = NULL;
619
139k
    if (msg == NULL)
620
0
        return(1);
621
139k
    if (maxSize < 32)
622
0
        maxSize = 32;
623
624
139k
    va_copy(copy, ap);
625
139k
    res = vsnprintf(empty, 1, msg, copy);
626
139k
    va_end(copy);
627
628
139k
    if (res > 0) {
629
        /* snprintf seems to work according to C99. */
630
631
139k
        if (res < maxSize) {
632
139k
            size = res + 1;
633
139k
        } else {
634
191
            size = maxSize;
635
191
            truncated = 1;
636
191
        }
637
139k
        buf = xmlMalloc(size);
638
139k
        if (buf == NULL)
639
1
            return(-1);
640
139k
        if (vsnprintf((char *) buf, size, msg, ap) < 0) {
641
0
            xmlFree(buf);
642
0
            return(1);
643
0
        }
644
139k
    } else {
645
        /*
646
         * Unfortunately, older snprintf implementations don't follow the
647
         * C99 spec. If the output exceeds the size of the buffer, they can
648
         * return -1, 0 or the number of characters written instead of the
649
         * needed size. Older MSCVRT also won't write a terminating null
650
         * byte if the buffer is too small.
651
         *
652
         * If the value returned is non-negative and strictly less than
653
         * the buffer size (without terminating null), the result should
654
         * have been written completely, so we double the buffer size
655
         * until this condition is true. This assumes that snprintf will
656
         * eventually return a non-negative value. Otherwise, we will
657
         * allocate more and more memory until we run out.
658
         *
659
         * Note that this code path is also executed on conforming
660
         * platforms if the output is the empty string.
661
         */
662
663
0
        buf = NULL;
664
0
        size = 32;
665
0
        while (1) {
666
0
            buf = xmlMalloc(size);
667
0
            if (buf == NULL)
668
0
                return(-1);
669
670
0
            va_copy(copy, ap);
671
0
            res = vsnprintf((char *) buf, size, msg, copy);
672
0
            va_end(copy);
673
0
            if ((res >= 0) && (res < size - 1))
674
0
                break;
675
676
0
            if (size >= maxSize) {
677
0
                truncated = 1;
678
0
                break;
679
0
            }
680
681
0
            xmlFree(buf);
682
683
0
            if (size > maxSize / 2)
684
0
                size = maxSize;
685
0
            else
686
0
                size *= 2;
687
0
        }
688
0
    }
689
690
    /*
691
     * If the output was truncated, make sure that the buffer doesn't
692
     * end with a truncated UTF-8 sequence.
693
     */
694
139k
    if (truncated != 0) {
695
191
        int i = size - 1;
696
697
365
        while (i > 0) {
698
            /* Break after ASCII */
699
365
            if (buf[i-1] < 0x80)
700
2
                break;
701
363
            i -= 1;
702
            /* Break before non-ASCII */
703
363
            if (buf[i] >= 0xc0)
704
189
                break;
705
363
        }
706
707
191
        buf[i] = 0;
708
191
    }
709
710
139k
    *out = (xmlChar *) buf;
711
139k
    return(truncated);
712
139k
}
713
714
/**
715
 * xmlStrASPrintf:
716
 * @out:  pointer to the resulting string
717
 * @maxSize:  maximum size of the output buffer
718
 * @msg:  printf format string
719
 * @...:  arguments for format string
720
 *
721
 * See xmlStrVASPrintf.
722
 *
723
 * Returns 0 on success, 1 if the result was truncated or on other
724
 * errors, -1 if a memory allocation failed.
725
 */
726
int
727
0
xmlStrASPrintf(xmlChar **out, int maxSize, const char *msg, ...) {
728
0
    va_list ap;
729
0
    int ret;
730
731
0
    va_start(ap, msg);
732
0
    ret = xmlStrVASPrintf(out, maxSize, msg, ap);
733
0
    va_end(ap);
734
735
0
    return(ret);
736
0
}
737
738
/************************************************************************
739
 *                                                                      *
740
 *              Generic UTF8 handling routines                          *
741
 *                                                                      *
742
 * From rfc2044: encoding of the Unicode values on UTF-8:               *
743
 *                                                                      *
744
 * UCS-4 range (hex.)           UTF-8 octet sequence (binary)           *
745
 * 0000 0000-0000 007F   0xxxxxxx                                       *
746
 * 0000 0080-0000 07FF   110xxxxx 10xxxxxx                              *
747
 * 0000 0800-0000 FFFF   1110xxxx 10xxxxxx 10xxxxxx                     *
748
 *                                                                      *
749
 * I hope we won't use values > 0xFFFF anytime soon !                   *
750
 *                                                                      *
751
 ************************************************************************/
752
753
754
/**
755
 * xmlUTF8Size:
756
 * @utf: pointer to the UTF8 character
757
 *
758
 * calculates the internal size of a UTF8 character
759
 *
760
 * returns the numbers of bytes in the character, -1 on format error
761
 */
762
int
763
40.1M
xmlUTF8Size(const xmlChar *utf) {
764
40.1M
    xmlChar mask;
765
40.1M
    int len;
766
767
40.1M
    if (utf == NULL)
768
0
        return -1;
769
40.1M
    if (*utf < 0x80)
770
31.7M
        return 1;
771
    /* check valid UTF8 character */
772
8.43M
    if (!(*utf & 0x40))
773
0
        return -1;
774
    /* determine number of bytes in char */
775
8.43M
    len = 2;
776
15.8M
    for (mask=0x20; mask != 0; mask>>=1) {
777
15.8M
        if (!(*utf & mask))
778
8.43M
            return len;
779
7.43M
        len++;
780
7.43M
    }
781
0
    return -1;
782
8.43M
}
783
784
/**
785
 * xmlUTF8Charcmp:
786
 * @utf1: pointer to first UTF8 char
787
 * @utf2: pointer to second UTF8 char
788
 *
789
 * compares the two UCS4 values
790
 *
791
 * returns result of the compare as with xmlStrncmp
792
 */
793
int
794
40.1M
xmlUTF8Charcmp(const xmlChar *utf1, const xmlChar *utf2) {
795
796
40.1M
    if (utf1 == NULL ) {
797
0
        if (utf2 == NULL)
798
0
            return 0;
799
0
        return -1;
800
0
    }
801
40.1M
    return xmlStrncmp(utf1, utf2, xmlUTF8Size(utf1));
802
40.1M
}
803
804
/**
805
 * xmlUTF8Strlen:
806
 * @utf:  a sequence of UTF-8 encoded bytes
807
 *
808
 * compute the length of an UTF8 string, it doesn't do a full UTF8
809
 * checking of the content of the string.
810
 *
811
 * Returns the number of characters in the string or -1 in case of error
812
 */
813
int
814
11.0k
xmlUTF8Strlen(const xmlChar *utf) {
815
11.0k
    size_t ret = 0;
816
817
11.0k
    if (utf == NULL)
818
2
        return(-1);
819
820
1.02G
    while (*utf != 0) {
821
1.02G
        if (utf[0] & 0x80) {
822
940M
            if ((utf[1] & 0xc0) != 0x80)
823
0
                return(-1);
824
940M
            if ((utf[0] & 0xe0) == 0xe0) {
825
940M
                if ((utf[2] & 0xc0) != 0x80)
826
0
                    return(-1);
827
940M
                if ((utf[0] & 0xf0) == 0xf0) {
828
94.7k
                    if ((utf[0] & 0xf8) != 0xf0 || (utf[3] & 0xc0) != 0x80)
829
0
                        return(-1);
830
94.7k
                    utf += 4;
831
940M
                } else {
832
940M
                    utf += 3;
833
940M
                }
834
940M
            } else {
835
677k
                utf += 2;
836
677k
            }
837
940M
        } else {
838
83.4M
            utf++;
839
83.4M
        }
840
1.02G
        ret++;
841
1.02G
    }
842
11.0k
    return(ret > INT_MAX ? 0 : ret);
843
11.0k
}
844
845
/**
846
 * xmlGetUTF8Char:
847
 * @utf:  a sequence of UTF-8 encoded bytes
848
 * @len:  a pointer to the minimum number of bytes present in
849
 *        the sequence.  This is used to assure the next character
850
 *        is completely contained within the sequence.
851
 *
852
 * Read the first UTF8 character from @utf
853
 *
854
 * Returns the char value or -1 in case of error, and sets *len to
855
 *        the actual number of bytes consumed (0 in case of error)
856
 */
857
int
858
6.41M
xmlGetUTF8Char(const unsigned char *utf, int *len) {
859
6.41M
    unsigned int c;
860
861
6.41M
    if (utf == NULL)
862
0
        goto error;
863
6.41M
    if (len == NULL)
864
0
        goto error;
865
866
6.41M
    c = utf[0];
867
6.41M
    if (c < 0x80) {
868
1.55M
        if (*len < 1)
869
0
            goto error;
870
        /* 1-byte code */
871
1.55M
        *len = 1;
872
4.86M
    } else {
873
4.86M
        if ((*len < 2) || ((utf[1] & 0xc0) != 0x80))
874
20.6k
            goto error;
875
4.84M
        if (c < 0xe0) {
876
290k
            if (c < 0xc2)
877
3.82k
                goto error;
878
            /* 2-byte code */
879
286k
            *len = 2;
880
286k
            c = (c & 0x1f) << 6;
881
286k
            c |= utf[1] & 0x3f;
882
4.55M
        } else {
883
4.55M
            if ((*len < 3) || ((utf[2] & 0xc0) != 0x80))
884
740
                goto error;
885
4.55M
            if (c < 0xf0) {
886
                /* 3-byte code */
887
4.55M
                *len = 3;
888
4.55M
                c = (c & 0xf) << 12;
889
4.55M
                c |= (utf[1] & 0x3f) << 6;
890
4.55M
                c |= utf[2] & 0x3f;
891
4.55M
                if ((c < 0x800) || ((c >= 0xd800) && (c < 0xe000)))
892
0
                    goto error;
893
4.55M
            } else {
894
425
                if ((*len < 4) || ((utf[3] & 0xc0) != 0x80))
895
6
                    goto error;
896
419
                *len = 4;
897
                /* 4-byte code */
898
419
                c = (c & 0x7) << 18;
899
419
                c |= (utf[1] & 0x3f) << 12;
900
419
                c |= (utf[2] & 0x3f) << 6;
901
419
                c |= utf[3] & 0x3f;
902
419
                if ((c < 0x10000) || (c >= 0x110000))
903
96
                    goto error;
904
419
            }
905
4.55M
        }
906
4.84M
    }
907
6.39M
    return(c);
908
909
25.3k
error:
910
25.3k
    if (len != NULL)
911
25.3k
  *len = 0;
912
25.3k
    return(-1);
913
6.41M
}
914
915
/**
916
 * xmlCheckUTF8:
917
 * @utf: Pointer to putative UTF-8 encoded string.
918
 *
919
 * Checks @utf for being valid UTF-8. @utf is assumed to be
920
 * null-terminated. This function is not super-strict, as it will
921
 * allow longer UTF-8 sequences than necessary. Note that Java is
922
 * capable of producing these sequences if provoked. Also note, this
923
 * routine checks for the 4-byte maximum size, but does not check for
924
 * 0x10ffff maximum value.
925
 *
926
 * Return value: true if @utf is valid.
927
 **/
928
int
929
xmlCheckUTF8(const unsigned char *utf)
930
124
{
931
124
    int ix;
932
124
    unsigned char c;
933
934
124
    if (utf == NULL)
935
0
        return(0);
936
    /*
937
     * utf is a string of 1, 2, 3 or 4 bytes.  The valid strings
938
     * are as follows (in "bit format"):
939
     *    0xxxxxxx                                      valid 1-byte
940
     *    110xxxxx 10xxxxxx                             valid 2-byte
941
     *    1110xxxx 10xxxxxx 10xxxxxx                    valid 3-byte
942
     *    11110xxx 10xxxxxx 10xxxxxx 10xxxxxx           valid 4-byte
943
     */
944
22.1k
    while ((c = utf[0])) {      /* string is 0-terminated */
945
21.9k
        ix = 0;
946
21.9k
        if ((c & 0x80) == 0x00) { /* 1-byte code, starts with 10 */
947
17.7k
            ix = 1;
948
17.7k
  } else if ((c & 0xe0) == 0xc0) {/* 2-byte code, starts with 110 */
949
15
      if ((utf[1] & 0xc0 ) != 0x80)
950
2
          return 0;
951
13
      ix = 2;
952
4.23k
  } else if ((c & 0xf0) == 0xe0) {/* 3-byte code, starts with 1110 */
953
4.22k
      if (((utf[1] & 0xc0) != 0x80) ||
954
4.22k
          ((utf[2] & 0xc0) != 0x80))
955
0
        return 0;
956
4.22k
      ix = 3;
957
4.22k
  } else if ((c & 0xf8) == 0xf0) {/* 4-byte code, starts with 11110 */
958
0
      if (((utf[1] & 0xc0) != 0x80) ||
959
0
          ((utf[2] & 0xc0) != 0x80) ||
960
0
    ((utf[3] & 0xc0) != 0x80))
961
0
        return 0;
962
0
      ix = 4;
963
0
  } else       /* unknown encoding */
964
12
      return 0;
965
21.9k
        utf += ix;
966
21.9k
      }
967
110
      return(1);
968
124
}
969
970
/**
971
 * xmlUTF8Strsize:
972
 * @utf:  a sequence of UTF-8 encoded bytes
973
 * @len:  the number of characters in the array
974
 *
975
 * storage size of an UTF8 string
976
 * the behaviour is not guaranteed if the input string is not UTF-8
977
 *
978
 * Returns the storage size of
979
 * the first 'len' characters of ARRAY
980
 */
981
982
int
983
45.3M
xmlUTF8Strsize(const xmlChar *utf, int len) {
984
45.3M
    const xmlChar *ptr=utf;
985
45.3M
    int ch;
986
45.3M
    size_t ret;
987
988
45.3M
    if (utf == NULL)
989
0
        return(0);
990
991
45.3M
    if (len <= 0)
992
2.57k
        return(0);
993
994
293M
    while ( len-- > 0) {
995
248M
        if ( !*ptr )
996
402
            break;
997
248M
        ch = *ptr++;
998
248M
        if ((ch & 0x80))
999
701M
            while ((ch<<=1) & 0x80 ) {
1000
467M
    if (*ptr == 0) break;
1001
467M
                ptr++;
1002
467M
      }
1003
248M
    }
1004
45.3M
    ret = ptr - utf;
1005
45.3M
    return (ret > INT_MAX ? 0 : ret);
1006
45.3M
}
1007
1008
1009
/**
1010
 * xmlUTF8Strndup:
1011
 * @utf:  the input UTF8 *
1012
 * @len:  the len of @utf (in chars)
1013
 *
1014
 * a strndup for array of UTF8's
1015
 *
1016
 * Returns a new UTF8 * or NULL
1017
 */
1018
xmlChar *
1019
2.26k
xmlUTF8Strndup(const xmlChar *utf, int len) {
1020
2.26k
    xmlChar *ret;
1021
2.26k
    int i;
1022
1023
2.26k
    if ((utf == NULL) || (len < 0)) return(NULL);
1024
2.26k
    i = xmlUTF8Strsize(utf, len);
1025
2.26k
    ret = xmlMalloc((size_t) i + 1);
1026
2.26k
    if (ret == NULL) {
1027
0
        return(NULL);
1028
0
    }
1029
2.26k
    memcpy(ret, utf, i);
1030
2.26k
    ret[i] = 0;
1031
2.26k
    return(ret);
1032
2.26k
}
1033
1034
/**
1035
 * xmlUTF8Strpos:
1036
 * @utf:  the input UTF8 *
1037
 * @pos:  the position of the desired UTF8 char (in chars)
1038
 *
1039
 * a function to provide the equivalent of fetching a
1040
 * character from a string array
1041
 *
1042
 * Returns a pointer to the UTF8 character or NULL
1043
 */
1044
const xmlChar *
1045
426
xmlUTF8Strpos(const xmlChar *utf, int pos) {
1046
426
    int ch;
1047
1048
426
    if (utf == NULL) return(NULL);
1049
426
    if (pos < 0)
1050
0
        return(NULL);
1051
21.6M
    while (pos--) {
1052
21.6M
        ch = *utf++;
1053
21.6M
        if (ch == 0)
1054
0
            return(NULL);
1055
21.6M
        if ( ch & 0x80 ) {
1056
            /* if not simple ascii, verify proper format */
1057
12.2M
            if ( (ch & 0xc0) != 0xc0 )
1058
0
                return(NULL);
1059
            /* then skip over remaining bytes for this char */
1060
36.8M
            while ( (ch <<= 1) & 0x80 )
1061
24.5M
                if ( (*utf++ & 0xc0) != 0x80 )
1062
0
                    return(NULL);
1063
12.2M
        }
1064
21.6M
    }
1065
426
    return((xmlChar *)utf);
1066
426
}
1067
1068
/**
1069
 * xmlUTF8Strloc:
1070
 * @utf:  the input UTF8 *
1071
 * @utfchar:  the UTF8 character to be found
1072
 *
1073
 * a function to provide the relative location of a UTF8 char
1074
 *
1075
 * Returns the relative character position of the desired char
1076
 * or -1 if not found
1077
 */
1078
int
1079
644
xmlUTF8Strloc(const xmlChar *utf, const xmlChar *utfchar) {
1080
644
    size_t i;
1081
644
    int size;
1082
644
    int ch;
1083
1084
644
    if (utf==NULL || utfchar==NULL) return -1;
1085
644
    size = xmlUTF8Strsize(utfchar, 1);
1086
40.2M
        for(i=0; (ch=*utf) != 0; i++) {
1087
40.2M
            if (xmlStrncmp(utf, utfchar, size)==0)
1088
542
                return(i > INT_MAX ? 0 : i);
1089
40.2M
            utf++;
1090
40.2M
            if ( ch & 0x80 ) {
1091
                /* if not simple ascii, verify proper format */
1092
25.9M
                if ( (ch & 0xc0) != 0xc0 )
1093
0
                    return(-1);
1094
                /* then skip over remaining bytes for this char */
1095
77.7M
                while ( (ch <<= 1) & 0x80 )
1096
51.8M
                    if ( (*utf++ & 0xc0) != 0x80 )
1097
0
                        return(-1);
1098
25.9M
            }
1099
40.2M
        }
1100
1101
102
    return(-1);
1102
644
}
1103
/**
1104
 * xmlUTF8Strsub:
1105
 * @utf:  a sequence of UTF-8 encoded bytes
1106
 * @start: relative pos of first char
1107
 * @len:   total number to copy
1108
 *
1109
 * Create a substring from a given UTF-8 string
1110
 * Note:  positions are given in units of UTF-8 chars
1111
 *
1112
 * Returns a pointer to a newly created string or NULL if the
1113
 * start index is out of bounds or a memory allocation failed.
1114
 * If len is too large, the result is truncated.
1115
 */
1116
1117
xmlChar *
1118
402
xmlUTF8Strsub(const xmlChar *utf, int start, int len) {
1119
402
    int i;
1120
402
    int ch;
1121
1122
402
    if (utf == NULL) return(NULL);
1123
402
    if (start < 0) return(NULL);
1124
402
    if (len < 0) return(NULL);
1125
1126
    /*
1127
     * Skip over any leading chars
1128
     */
1129
1.26k
    for (i = 0; i < start; i++) {
1130
864
        ch = *utf++;
1131
864
        if (ch == 0)
1132
0
            return(NULL);
1133
        /* skip over remaining bytes for this char */
1134
864
        if (ch & 0x80) {
1135
506
            ch <<= 1;
1136
1.50k
            while (ch & 0x80) {
1137
998
                if (*utf++ == 0)
1138
0
                    return(NULL);
1139
998
                ch <<= 1;
1140
998
            }
1141
506
        }
1142
864
    }
1143
1144
402
    return(xmlUTF8Strndup(utf, len));
1145
402
}
1146
1147
/**
1148
 * xmlEscapeFormatString:
1149
 * @msg:  a pointer to the string in which to escape '%' characters.
1150
 * Must be a heap-allocated buffer created by libxml2 that may be
1151
 * returned, or that may be freed and replaced.
1152
 *
1153
 * Replaces the string pointed to by 'msg' with an escaped string.
1154
 * Returns the same string with all '%' characters escaped.
1155
 */
1156
xmlChar *
1157
xmlEscapeFormatString(xmlChar **msg)
1158
0
{
1159
0
    xmlChar *msgPtr = NULL;
1160
0
    xmlChar *result = NULL;
1161
0
    xmlChar *resultPtr = NULL;
1162
0
    size_t count = 0;
1163
0
    size_t msgLen = 0;
1164
0
    size_t resultLen = 0;
1165
1166
0
    if (!msg || !*msg)
1167
0
        return(NULL);
1168
1169
0
    for (msgPtr = *msg; *msgPtr != '\0'; ++msgPtr) {
1170
0
        ++msgLen;
1171
0
        if (*msgPtr == '%')
1172
0
            ++count;
1173
0
    }
1174
1175
0
    if (count == 0)
1176
0
        return(*msg);
1177
1178
0
    if ((count > INT_MAX) || (msgLen > INT_MAX - count))
1179
0
        return(NULL);
1180
0
    resultLen = msgLen + count + 1;
1181
0
    result = xmlMalloc(resultLen);
1182
0
    if (result == NULL) {
1183
        /* Clear *msg to prevent format string vulnerabilities in
1184
           out-of-memory situations. */
1185
0
        xmlFree(*msg);
1186
0
        *msg = NULL;
1187
0
        return(NULL);
1188
0
    }
1189
1190
0
    for (msgPtr = *msg, resultPtr = result; *msgPtr != '\0'; ++msgPtr, ++resultPtr) {
1191
0
        *resultPtr = *msgPtr;
1192
0
        if (*msgPtr == '%')
1193
0
            *(++resultPtr) = '%';
1194
0
    }
1195
0
    result[resultLen - 1] = '\0';
1196
1197
0
    xmlFree(*msg);
1198
0
    *msg = result;
1199
1200
0
    return *msg;
1201
0
}
1202