Coverage Report

Created: 2026-07-05 07:04

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/libidn2/lib/lookup.c
Line
Count
Source
1
/* lookup.c - implementation of IDNA2008 lookup functions
2
   Copyright (C) 2011-2026 Simon Josefsson
3
   Copyright (C) 2017-2026 Tim Ruehsen
4
5
   Libidn2 is free software: you can redistribute it and/or modify it
6
   under the terms of either:
7
8
     * the GNU Lesser General Public License as published by the Free
9
       Software Foundation; either version 3 of the License, or (at
10
       your option) any later version.
11
12
   or
13
14
     * the GNU General Public License as published by the Free
15
       Software Foundation; either version 2 of the License, or (at
16
       your option) any later version.
17
18
   or both in parallel, as here.
19
20
   This program is distributed in the hope that it will be useful,
21
   but WITHOUT ANY WARRANTY; without even the implied warranty of
22
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
23
   GNU General Public License for more details.
24
25
   You should have received copies of the GNU General Public License and
26
   the GNU Lesser General Public License along with this program.  If
27
   not, see <http://www.gnu.org/licenses/>.
28
*/
29
30
#include <config.h>
31
32
#include "idn2.h"
33
34
#include <errno.h>    /* errno */
35
#include <stdlib.h>   /* malloc, free */
36
37
#include <unitypes.h>
38
#include <uniconv.h>    /* u8_strconv_from_locale */
39
#include <uninorm.h>    /* u32_normalize */
40
#include <unistr.h>   /* u8_to_u32 */
41
42
#include "idna.h"   /* _idn2_label_test */
43
#include "tr46map.h"    /* definition for tr46map.c */
44
45
#ifdef HAVE_LIBUNISTRING
46
/* copied from gnulib */
47
# include <limits.h>
48
# define _C_CTYPE_LOWER_N(N) \
49
0
   case 'a' + (N): case 'b' + (N): case 'c' + (N): case 'd' + (N): \
50
0
   case 'e' + (N): case 'f' + (N): \
51
0
   case 'g' + (N): case 'h' + (N): case 'i' + (N): case 'j' + (N): \
52
0
   case 'k' + (N): case 'l' + (N): case 'm' + (N): case 'n' + (N): \
53
0
   case 'o' + (N): case 'p' + (N): case 'q' + (N): case 'r' + (N): \
54
0
   case 's' + (N): case 't' + (N): case 'u' + (N): case 'v' + (N): \
55
0
   case 'w' + (N): case 'x' + (N): case 'y' + (N): case 'z' + (N)
56
0
# define _C_CTYPE_UPPER _C_CTYPE_LOWER_N ('A' - 'a')
57
static inline int
58
c_tolower (int c)
59
0
{
60
0
  switch (c)
61
0
    {
62
0
    _C_CTYPE_UPPER:
63
0
      return c - 'A' + 'a';
64
0
    default:
65
0
      return c;
66
0
    }
67
0
}
68
69
static int
70
c_strncasecmp (const char *s1, const char *s2, size_t n)
71
0
{
72
0
  register const unsigned char *p1 = (const unsigned char *) s1;
73
0
  register const unsigned char *p2 = (const unsigned char *) s2;
74
0
  unsigned char c1, c2;
75
76
0
  if (p1 == p2 || n == 0)
77
0
    return 0;
78
79
0
  do
80
0
    {
81
0
      c1 = c_tolower (*p1);
82
0
      c2 = c_tolower (*p2);
83
84
0
      if (--n == 0 || c1 == '\0')
85
0
  break;
86
87
0
      ++p1;
88
0
      ++p2;
89
0
    }
90
0
  while (c1 == c2);
91
92
0
  if (UCHAR_MAX <= INT_MAX)
93
0
    return c1 - c2;
94
0
  else
95
    /* On machines where 'char' and 'int' are types of the same size, the
96
       difference of two 'unsigned char' values - including the sign bit -
97
       doesn't fit in an 'int'.  */
98
0
    return (c1 > c2 ? 1 : c1 < c2 ? -1 : 0);
99
0
}
100
#else
101
# include <c-strcase.h>
102
#endif
103
104
static int
105
set_default_flags (int *flags)
106
99
{
107
99
  if (((*flags) & IDN2_TRANSITIONAL) && ((*flags) & IDN2_NONTRANSITIONAL))
108
0
    return IDN2_INVALID_FLAGS;
109
110
99
  if (((*flags) & (IDN2_TRANSITIONAL | IDN2_NONTRANSITIONAL))
111
0
      && ((*flags) & IDN2_NO_TR46))
112
0
    return IDN2_INVALID_FLAGS;
113
114
99
  if (((*flags) & IDN2_ALABEL_ROUNDTRIP)
115
0
      && ((*flags) & IDN2_NO_ALABEL_ROUNDTRIP))
116
0
    return IDN2_INVALID_FLAGS;
117
118
99
  if (!((*flags) & (IDN2_NO_TR46 | IDN2_TRANSITIONAL)))
119
99
    *flags |= IDN2_NONTRANSITIONAL;
120
121
99
  return IDN2_OK;
122
99
}
123
124
static int
125
label (const uint8_t *src, size_t srclen, uint8_t *dst, size_t *dstlen,
126
       int flags)
127
198
{
128
198
  size_t plen;
129
198
  uint32_t *p = NULL;
130
198
  const uint8_t *src_org = NULL;
131
198
  uint8_t *src_allocated = NULL;
132
198
  int rc, check_roundtrip = 0;
133
198
  size_t tmpl, srclen_org = 0;
134
198
  uint32_t label_u32[IDN2_LABEL_MAX_LENGTH];
135
198
  size_t label32_len = IDN2_LABEL_MAX_LENGTH;
136
137
198
  if (_idn2_ascii_p (src, srclen))
138
99
    {
139
99
      if (!(flags & IDN2_NO_ALABEL_ROUNDTRIP) && srclen >= 4
140
0
    && memcmp (src, "xn--", 4) == 0)
141
0
  {
142
    /*
143
       If the input to this procedure appears to be an A-label
144
       (i.e., it starts in "xn--", interpreted
145
       case-insensitively), the lookup application MAY attempt to
146
       convert it to a U-label, first ensuring that the A-label is
147
       entirely in lowercase (converting it to lowercase if
148
       necessary), and apply the tests of Section 5.4 and the
149
       conversion of Section 5.5 to that form. */
150
0
    rc = idn2_punycode_decode ((char *) src + 4, srclen - 4,
151
0
             label_u32, &label32_len);
152
0
    if (rc)
153
0
      return rc;
154
155
0
    check_roundtrip = 1;
156
0
    src_org = src;
157
0
    srclen_org = srclen;
158
159
0
    srclen = IDN2_LABEL_MAX_LENGTH;
160
0
    src = src_allocated =
161
0
      u32_to_u8 (label_u32, label32_len, NULL, &srclen);
162
0
    if (!src)
163
0
      {
164
0
        if (errno == ENOMEM)
165
0
    return IDN2_MALLOC;
166
0
        return IDN2_ENCODING_ERROR;
167
0
      }
168
0
  }
169
99
      else
170
99
  {
171
99
    if (srclen > IDN2_LABEL_MAX_LENGTH)
172
0
      return IDN2_TOO_BIG_LABEL;
173
99
    if (srclen > *dstlen)
174
0
      return IDN2_TOO_BIG_DOMAIN;
175
176
99
    memcpy (dst, src, srclen);
177
99
    *dstlen = srclen;
178
99
    return IDN2_OK;
179
99
  }
180
99
    }
181
182
99
  rc = _idn2_u8_to_u32_nfc (src, srclen, &p, &plen, flags & IDN2_NFC_INPUT);
183
99
  if (rc != IDN2_OK)
184
0
    goto out;
185
186
99
  if (!(flags & IDN2_TRANSITIONAL))
187
99
    {
188
99
      rc = _idn2_label_test (TEST_NFC |
189
99
           TEST_2HYPHEN |
190
99
           TEST_LEADING_COMBINING |
191
99
           TEST_DISALLOWED |
192
99
           TEST_CONTEXTJ_RULE |
193
99
           TEST_CONTEXTO_WITH_RULE |
194
99
           TEST_UNASSIGNED | TEST_BIDI |
195
99
           ((flags & IDN2_NONTRANSITIONAL) ?
196
99
            TEST_NONTRANSITIONAL : 0) | ((flags &
197
99
                  IDN2_USE_STD3_ASCII_RULES)
198
99
                 ? 0 :
199
99
                 TEST_ALLOW_STD3_DISALLOWED),
200
99
           p, plen);
201
202
99
      if (rc != IDN2_OK)
203
0
  goto out;
204
99
    }
205
206
99
  dst[0] = 'x';
207
99
  dst[1] = 'n';
208
99
  dst[2] = '-';
209
99
  dst[3] = '-';
210
211
99
  tmpl = *dstlen - 4;
212
99
  rc = idn2_punycode_encode (p, plen, (char *) dst + 4, &tmpl);
213
99
  if (rc != IDN2_OK)
214
0
    goto out;
215
216
217
99
  *dstlen = 4 + tmpl;
218
219
99
  if (check_roundtrip)
220
0
    {
221
0
      if (srclen_org != *dstlen
222
0
    || c_strncasecmp ((char *) src_org, (char *) dst, srclen_org))
223
0
  {
224
0
    rc = IDN2_ALABEL_ROUNDTRIP_FAILED;
225
0
    goto out;
226
0
  }
227
0
    }
228
99
  else if (!(flags & IDN2_NO_ALABEL_ROUNDTRIP))
229
99
    {
230
99
      rc = idn2_punycode_decode ((char *) dst + 4, *dstlen - 4,
231
99
         label_u32, &label32_len);
232
99
      if (rc)
233
0
  {
234
0
    rc = IDN2_ALABEL_ROUNDTRIP_FAILED;
235
0
    goto out;
236
0
  }
237
238
99
      if (plen != label32_len || u32_cmp (p, label_u32, label32_len))
239
0
  {
240
0
    rc = IDN2_ALABEL_ROUNDTRIP_FAILED;
241
0
    goto out;
242
0
  }
243
99
    }
244
245
99
  rc = IDN2_OK;
246
247
99
out:
248
99
  free (p);
249
99
  free (src_allocated);
250
99
  return rc;
251
99
}
252
253
#define TR46_TRANSITIONAL_CHECK \
254
0
  (TEST_NFC | TEST_2HYPHEN | TEST_HYPHEN_STARTEND | TEST_LEADING_COMBINING | TEST_TRANSITIONAL)
255
#define TR46_NONTRANSITIONAL_CHECK \
256
396
  (TEST_NFC | TEST_2HYPHEN | TEST_HYPHEN_STARTEND | TEST_LEADING_COMBINING | TEST_NONTRANSITIONAL)
257
258
static int
259
_tr46 (const uint8_t *domain_u8, uint8_t **out, int flags)
260
99
{
261
99
  size_t len, it;
262
99
  uint32_t *domain_u32;
263
99
  int err = IDN2_OK, rc;
264
99
  int transitional = 0;
265
99
  int test_flags;
266
267
99
  if (flags & IDN2_TRANSITIONAL)
268
0
    transitional = 1;
269
270
  /* convert UTF-8 to UTF-32 */
271
99
  if (!(domain_u32 =
272
99
  u8_to_u32 (domain_u8, u8_strlen (domain_u8) + 1, NULL, &len)))
273
0
    {
274
0
      if (errno == ENOMEM)
275
0
  return IDN2_MALLOC;
276
0
      return IDN2_ENCODING_ERROR;
277
0
    }
278
279
99
  size_t len2 = 0;
280
594
  for (it = 0; it < len - 1; it++)
281
495
    {
282
495
      IDNAMap map;
283
284
495
      get_idna_map (domain_u32[it], &map);
285
286
495
      if (map_is (&map, TR46_FLG_DISALLOWED))
287
0
  {
288
0
    if (domain_u32[it])
289
0
      {
290
0
        free (domain_u32);
291
0
        return IDN2_DISALLOWED;
292
0
      }
293
0
    len2++;
294
0
  }
295
495
      else if (map_is (&map, TR46_FLG_MAPPED))
296
0
  {
297
0
    len2 += map.nmappings;
298
0
  }
299
495
      else if (map_is (&map, TR46_FLG_VALID))
300
495
  {
301
495
    len2++;
302
495
  }
303
0
      else if (map_is (&map, TR46_FLG_IGNORED))
304
0
  {
305
0
    continue;
306
0
  }
307
0
      else if (map_is (&map, TR46_FLG_DEVIATION))
308
0
  {
309
0
    if (transitional)
310
0
      {
311
0
        len2 += map.nmappings;
312
0
      }
313
0
    else
314
0
      len2++;
315
0
  }
316
0
      else if (!(flags & IDN2_USE_STD3_ASCII_RULES))
317
0
  {
318
0
    if (map_is (&map, TR46_FLG_DISALLOWED_STD3_VALID))
319
0
      {
320
        /* valid because UseSTD3ASCIIRules=false, see #TR46 5 */
321
0
        len2++;
322
0
      }
323
0
    else if (map_is (&map, TR46_FLG_DISALLOWED_STD3_MAPPED))
324
0
      {
325
        /* mapped because UseSTD3ASCIIRules=false, see #TR46 5 */
326
0
        len2 += map.nmappings;
327
0
      }
328
0
  }
329
495
    }
330
331
  /* Exit early if result is too long.
332
   * This avoids excessive CPU usage in punycode encoding, which is O(N^2). */
333
99
  if (len2 >= IDN2_DOMAIN_MAX_LENGTH)
334
0
    {
335
0
      free (domain_u32);
336
0
      return IDN2_TOO_BIG_DOMAIN;
337
0
    }
338
339
99
  uint32_t *tmp = (uint32_t *) malloc ((len2 + 1) * sizeof (uint32_t));
340
99
  if (!tmp)
341
0
    {
342
0
      free (domain_u32);
343
0
      return IDN2_MALLOC;
344
0
    }
345
346
99
  len2 = 0;
347
594
  for (it = 0; it < len - 1; it++)
348
495
    {
349
495
      uint32_t c = domain_u32[it];
350
495
      IDNAMap map;
351
352
495
      get_idna_map (c, &map);
353
354
495
      if (map_is (&map, TR46_FLG_DISALLOWED))
355
0
  {
356
0
    tmp[len2++] = c;
357
0
  }
358
495
      else if (map_is (&map, TR46_FLG_MAPPED))
359
0
  {
360
0
    len2 += get_map_data (tmp + len2, &map);
361
0
  }
362
495
      else if (map_is (&map, TR46_FLG_VALID))
363
495
  {
364
495
    tmp[len2++] = c;
365
495
  }
366
0
      else if (map_is (&map, TR46_FLG_IGNORED))
367
0
  {
368
0
    continue;
369
0
  }
370
0
      else if (map_is (&map, TR46_FLG_DEVIATION))
371
0
  {
372
0
    if (transitional)
373
0
      {
374
0
        len2 += get_map_data (tmp + len2, &map);
375
0
      }
376
0
    else
377
0
      tmp[len2++] = c;
378
0
  }
379
0
      else if (!(flags & IDN2_USE_STD3_ASCII_RULES))
380
0
  {
381
0
    if (map_is (&map, TR46_FLG_DISALLOWED_STD3_VALID))
382
0
      {
383
0
        tmp[len2++] = c;
384
0
      }
385
0
    else if (map_is (&map, TR46_FLG_DISALLOWED_STD3_MAPPED))
386
0
      {
387
0
        len2 += get_map_data (tmp + len2, &map);
388
0
      }
389
0
  }
390
495
    }
391
99
  free (domain_u32);
392
393
  /* Normalize to NFC */
394
99
  tmp[len2] = 0;
395
99
  domain_u32 = u32_normalize (UNINORM_NFC, tmp, len2 + 1, NULL, &len);
396
99
  free (tmp);
397
99
  tmp = NULL;
398
399
99
  if (!domain_u32)
400
0
    {
401
0
      if (errno == ENOMEM)
402
0
  return IDN2_MALLOC;
403
0
      return IDN2_ENCODING_ERROR;
404
0
    }
405
406
  /* split into labels and check */
407
99
  uint32_t *e, *s;
408
297
  for (e = s = domain_u32; *e; s = e)
409
198
    {
410
594
      while (*e && *e != '.')
411
396
  e++;
412
413
198
      if (e - s >= 4 && s[0] == 'x' && s[1] == 'n' && s[2] == '-'
414
0
    && s[3] == '-')
415
0
  {
416
    /* decode punycode and check result non-transitional */
417
0
    size_t ace_len;
418
0
    uint32_t name_u32[IDN2_LABEL_MAX_LENGTH];
419
0
    size_t name_len = IDN2_LABEL_MAX_LENGTH;
420
0
    uint8_t *ace;
421
422
0
    ace = u32_to_u8 (s + 4, e - s - 4, NULL, &ace_len);
423
0
    if (!ace)
424
0
      {
425
0
        free (domain_u32);
426
0
        if (errno == ENOMEM)
427
0
    return IDN2_MALLOC;
428
0
        return IDN2_ENCODING_ERROR;
429
0
      }
430
431
0
    rc = idn2_punycode_decode ((char *) ace, ace_len,
432
0
             name_u32, &name_len);
433
434
0
    free (ace);
435
436
0
    if (rc)
437
0
      {
438
0
        free (domain_u32);
439
0
        return rc;
440
0
      }
441
442
0
    test_flags = TR46_NONTRANSITIONAL_CHECK;
443
444
0
    if (!(flags & IDN2_USE_STD3_ASCII_RULES))
445
0
      test_flags |= TEST_ALLOW_STD3_DISALLOWED;
446
447
0
    if ((rc = _idn2_label_test (test_flags, name_u32, name_len)))
448
0
      err = rc;
449
0
  }
450
198
      else
451
198
  {
452
198
    test_flags =
453
198
      transitional ? TR46_TRANSITIONAL_CHECK :
454
198
      TR46_NONTRANSITIONAL_CHECK;
455
456
198
    if (!(flags & IDN2_USE_STD3_ASCII_RULES))
457
198
      test_flags |= TEST_ALLOW_STD3_DISALLOWED;
458
459
198
    if ((rc = _idn2_label_test (test_flags, s, e - s)))
460
0
      err = rc;
461
198
  }
462
463
198
      if (*e)
464
99
  e++;
465
198
    }
466
467
99
  if (err == IDN2_OK && out)
468
99
    {
469
99
      uint8_t *_out = u32_to_u8 (domain_u32, len, NULL, &len);
470
99
      free (domain_u32);
471
472
99
      if (!_out)
473
0
  {
474
0
    if (errno == ENOMEM)
475
0
      return IDN2_MALLOC;
476
0
    return IDN2_ENCODING_ERROR;
477
0
  }
478
479
99
      *out = _out;
480
99
    }
481
0
  else
482
99
    free (domain_u32);
483
484
99
  return err;
485
99
}
486
487
/**
488
 * idn2_lookup_u8:
489
 * @src: input zero-terminated UTF-8 string in Unicode NFC normalized form.
490
 * @lookupname: newly allocated output variable with name to lookup in DNS.
491
 * @flags: optional #idn2_flags to modify behaviour.
492
 *
493
 * Perform IDNA2008 lookup string conversion on domain name @src, as
494
 * described in section 5 of RFC 5891.  Note that the input string
495
 * must be encoded in UTF-8 and be in Unicode NFC form.
496
 *
497
 * Pass %IDN2_NFC_INPUT in @flags to convert input to NFC form before
498
 * further processing.  %IDN2_TRANSITIONAL and %IDN2_NONTRANSITIONAL
499
 * do already imply %IDN2_NFC_INPUT.
500
 *
501
 * Pass %IDN2_ALABEL_ROUNDTRIP in @flags to
502
 * convert any input A-labels to U-labels and perform additional
503
 * testing. This is default since version 2.2.
504
 * To switch this behavior off, pass IDN2_NO_ALABEL_ROUNDTRIP
505
 *
506
 * Pass %IDN2_TRANSITIONAL to enable Unicode TR46
507
 * transitional processing, and %IDN2_NONTRANSITIONAL to enable
508
 * Unicode TR46 non-transitional processing.
509
 *
510
 * Multiple flags may be specified by binary or:ing them together.
511
 *
512
 * After version 2.0.3: %IDN2_USE_STD3_ASCII_RULES disabled by default.
513
 * Previously we were eliminating non-STD3 characters from domain strings
514
 * such as _443._tcp.example.com, or IPs 1.2.3.4/24 provided to libidn2
515
 * functions. That was an unexpected regression for applications switching
516
 * from libidn and thus it is no longer applied by default.
517
 * Use %IDN2_USE_STD3_ASCII_RULES to enable that behavior again.
518
 *
519
 * After version 0.11: @lookupname may be NULL to test lookup of @src
520
 * without allocating memory.
521
 *
522
 * Returns: On successful conversion %IDN2_OK is returned, if the
523
 *   output domain or any label would have been too long
524
 *   %IDN2_TOO_BIG_DOMAIN or %IDN2_TOO_BIG_LABEL is returned, or
525
 *   another error code is returned.
526
 *
527
 * Since: 0.1
528
 **/
529
int
530
idn2_lookup_u8 (const uint8_t *src, uint8_t **lookupname, int flags)
531
99
{
532
99
  size_t lookupnamelen = 0;
533
99
  uint8_t _lookupname[IDN2_DOMAIN_MAX_LENGTH + 1];
534
99
  uint8_t *src_allocated = NULL;
535
99
  int rc;
536
537
99
  if (src == NULL)
538
0
    {
539
0
      if (lookupname)
540
0
  *lookupname = NULL;
541
0
      return IDN2_OK;
542
0
    }
543
544
99
  rc = set_default_flags (&flags);
545
99
  if (rc != IDN2_OK)
546
0
    return rc;
547
548
99
  if (!(flags & IDN2_NO_TR46))
549
99
    {
550
99
      uint8_t *out = NULL;
551
552
99
      rc = _tr46 (src, &out, flags);
553
99
      if (rc != IDN2_OK)
554
0
  return rc;
555
556
99
      src = src_allocated = out;
557
99
    }
558
559
99
  do
560
198
    {
561
198
      const uint8_t *end = (uint8_t *) strchrnul ((const char *) src, '.');
562
      /* XXX Do we care about non-U+002E dots such as U+3002, U+FF0E
563
         and U+FF61 here?  Perhaps when IDN2_NFC_INPUT? */
564
198
      size_t labellen = end - src;
565
198
      uint8_t tmp[IDN2_LABEL_MAX_LENGTH];
566
198
      size_t tmplen = IDN2_LABEL_MAX_LENGTH;
567
568
198
      rc = label (src, labellen, tmp, &tmplen, flags);
569
198
      if (rc != IDN2_OK)
570
0
  {
571
0
    free (src_allocated);
572
0
    return rc;
573
0
  }
574
575
198
      if (lookupnamelen + tmplen
576
198
    > IDN2_DOMAIN_MAX_LENGTH - (tmplen == 0 && *end == '\0' ? 1 : 2))
577
0
  {
578
0
    free (src_allocated);
579
0
    return IDN2_TOO_BIG_DOMAIN;
580
0
  }
581
582
198
      memcpy (_lookupname + lookupnamelen, tmp, tmplen);
583
198
      lookupnamelen += tmplen;
584
585
198
      if (*end == '.')
586
99
  {
587
99
    if (lookupnamelen + 1 > IDN2_DOMAIN_MAX_LENGTH)
588
0
      {
589
0
        free (src_allocated);
590
0
        return IDN2_TOO_BIG_DOMAIN;
591
0
      }
592
593
99
    _lookupname[lookupnamelen] = '.';
594
99
    lookupnamelen++;
595
99
  }
596
198
      _lookupname[lookupnamelen] = '\0';
597
598
198
      src = end;
599
198
    }
600
198
  while (*src++);
601
602
99
  free (src_allocated);
603
604
99
  if (lookupname)
605
99
    {
606
99
      uint8_t *tmp = (uint8_t *) malloc (lookupnamelen + 1);
607
608
99
      if (tmp == NULL)
609
0
  return IDN2_MALLOC;
610
611
99
      memcpy (tmp, _lookupname, lookupnamelen + 1);
612
99
      *lookupname = tmp;
613
99
    }
614
615
99
  return IDN2_OK;
616
99
}
617
618
/**
619
 * idn2_lookup_ul:
620
 * @src: input zero-terminated locale encoded string.
621
 * @lookupname: newly allocated output variable with name to lookup in DNS.
622
 * @flags: optional #idn2_flags to modify behaviour.
623
 *
624
 * Perform IDNA2008 lookup string conversion on domain name @src, as
625
 * described in section 5 of RFC 5891.  Note that the input is assumed
626
 * to be encoded in the locale's default coding system, and will be
627
 * transcoded to UTF-8 and NFC normalized by this function.
628
 *
629
 * Pass %IDN2_ALABEL_ROUNDTRIP in @flags to
630
 * convert any input A-labels to U-labels and perform additional
631
 * testing. This is default since version 2.2.
632
 * To switch this behavior off, pass IDN2_NO_ALABEL_ROUNDTRIP
633
 *
634
 * Pass %IDN2_TRANSITIONAL to enable Unicode TR46 transitional processing,
635
 * and %IDN2_NONTRANSITIONAL to enable Unicode TR46 non-transitional
636
 * processing.
637
 *
638
 * Multiple flags may be specified by binary or:ing them together, for
639
 * example %IDN2_ALABEL_ROUNDTRIP | %IDN2_NONTRANSITIONAL.
640
 *
641
 * The %IDN2_NFC_INPUT in @flags is always enabled in this function.
642
 *
643
 * After version 0.11: @lookupname may be NULL to test lookup of @src
644
 * without allocating memory.
645
 *
646
 * Returns: On successful conversion %IDN2_OK is returned, if
647
 *   conversion from locale to UTF-8 fails then %IDN2_ICONV_FAIL is
648
 *   returned, if the output domain or any label would have been too
649
 *   long %IDN2_TOO_BIG_DOMAIN or %IDN2_TOO_BIG_LABEL is returned, or
650
 *   another error code is returned.
651
 *
652
 * Since: 0.1
653
 **/
654
int
655
idn2_lookup_ul (const char *src, char **lookupname, int flags)
656
0
{
657
0
  uint8_t *utf8src = NULL;
658
0
  int rc;
659
660
0
  if (src)
661
0
    {
662
0
      const char *encoding = locale_charset ();
663
664
0
      utf8src = u8_strconv_from_encoding (src, encoding, iconveh_error);
665
666
0
      if (!utf8src)
667
0
  {
668
0
    if (errno == ENOMEM)
669
0
      return IDN2_MALLOC;
670
0
    return IDN2_ICONV_FAIL;
671
0
  }
672
0
    }
673
674
0
  rc = idn2_lookup_u8 (utf8src, (uint8_t **) lookupname,
675
0
           flags | IDN2_NFC_INPUT);
676
677
0
  free (utf8src);
678
679
0
  return rc;
680
0
}
681
682
/**
683
 * idn2_to_ascii_4i:
684
 * @input: zero terminated input Unicode (UCS-4) string.
685
 * @inlen: number of elements in @input.
686
 * @output: output zero terminated string that must have room for at
687
 *       least 63 characters plus the terminating zero.
688
 * @flags: optional #idn2_flags to modify behaviour.
689
 *
690
 * The ToASCII operation takes a sequence of Unicode code points that make
691
 * up one domain label and transforms it into a sequence of code points in
692
 * the ASCII range (0..7F). If ToASCII succeeds, the original sequence and
693
 * the resulting sequence are equivalent labels.
694
 *
695
 * It is important to note that the ToASCII operation can fail.
696
 * ToASCII fails if any step of it fails. If any step of the
697
 * ToASCII operation fails on any label in a domain name, that domain
698
 * name MUST NOT be used as an internationalized domain name.
699
 * The method for dealing with this failure is application-specific.
700
 *
701
 * The inputs to ToASCII are a sequence of code points.
702
 *
703
 * ToASCII never alters a sequence of code points that are all in the ASCII
704
 * range to begin with (although it could fail). Applying the ToASCII operation multiple
705
 * effect as applying it just once.
706
 *
707
 * The default behavior of this function (when flags are zero) is to apply
708
 * the IDNA2008 rules without the TR46 amendments. As the TR46
709
 * non-transitional processing is nowadays ubiquitous, when unsure, it is
710
 * recommended to call this function with the %IDN2_NONTRANSITIONAL
711
 * and the %IDN2_NFC_INPUT flags for compatibility with other software.
712
 *
713
 * Warning: With version 2.1.1 until before version 2.3.5 this
714
 * function was deprecated in favor idn2_to_ascii_4i2().  We still
715
 * encourage you to use idn2_to_ascii_4i2() when appropriate.
716
 *
717
 * Returns: On successful conversion %IDN2_OK is returned; if the
718
 *   output label would have been too long %IDN2_TOO_BIG_LABEL is
719
 *   returned, or another error code is returned.
720
 *
721
 * Since: 2.0.0
722
 **/
723
int
724
idn2_to_ascii_4i (const uint32_t *input, size_t inlen, char *output,
725
      int flags)
726
0
{
727
0
  char *out;
728
0
  int rc;
729
730
0
  if (!input)
731
0
    {
732
0
      if (output)
733
0
  *output = 0;
734
0
      return IDN2_OK;
735
0
    }
736
737
0
  rc = idn2_to_ascii_4i2 (input, inlen, &out, flags);
738
0
  if (rc == IDN2_OK)
739
0
    {
740
0
      size_t len = strlen (out);
741
742
0
      if (len > IDN2_LABEL_MAX_LENGTH)
743
0
  rc = IDN2_TOO_BIG_LABEL;
744
0
      else if (output)
745
0
  strcpy (output, out);
746
747
0
      free (out);
748
0
    }
749
750
0
  return rc;
751
0
}
752
753
/**
754
 * idn2_to_ascii_4i2:
755
 * @input: zero terminated input Unicode (UCS-4) string.
756
 * @inlen: number of elements in @input.
757
 * @output: pointer to newly allocated zero-terminated output string.
758
 * @flags: optional #idn2_flags to modify behaviour.
759
 *
760
 * The ToASCII operation takes a sequence of Unicode code points that make
761
 * up one domain label and transforms it into a sequence of code points in
762
 * the ASCII range (0..7F). If ToASCII succeeds, the original sequence and
763
 * the resulting sequence are equivalent labels.
764
 *
765
 * It is important to note that the ToASCII operation can fail.
766
 * ToASCII fails if any step of it fails. If any step of the
767
 * ToASCII operation fails on any label in a domain name, that domain
768
 * name MUST NOT be used as an internationalized domain name.
769
 * The method for dealing with this failure is application-specific.
770
 *
771
 * The inputs to ToASCII are a sequence of code points.
772
 *
773
 * ToASCII never alters a sequence of code points that are all in the ASCII
774
 * range to begin with (although it could fail). Applying the ToASCII operation multiple
775
 * effect as applying it just once.
776
 *
777
 * The default behavior of this function (when flags are zero) is to apply
778
 * the IDNA2008 rules without the TR46 amendments. As the TR46
779
 * non-transitional processing is nowadays ubiquitous, when unsure, it is
780
 * recommended to call this function with the %IDN2_NONTRANSITIONAL
781
 * and the %IDN2_NFC_INPUT flags for compatibility with other software.
782
 *
783
 * Returns: On successful conversion %IDN2_OK is returned; if the
784
 *   output label would have been too long %IDN2_TOO_BIG_LABEL is
785
 *   returned, or another error code is returned.
786
 *
787
 * Since: 2.1.1
788
 **/
789
int
790
idn2_to_ascii_4i2 (const uint32_t *input, size_t inlen, char **output,
791
       int flags)
792
0
{
793
0
  uint32_t *input_u32;
794
0
  uint8_t *input_u8, *output_u8;
795
0
  size_t length;
796
0
  int rc;
797
798
0
  if (!input)
799
0
    {
800
0
      if (output)
801
0
  *output = NULL;
802
0
      return IDN2_OK;
803
0
    }
804
805
0
  input_u32 = (uint32_t *) malloc ((inlen + 1) * sizeof (uint32_t));
806
0
  if (!input_u32)
807
0
    return IDN2_MALLOC;
808
809
0
  u32_cpy (input_u32, input, inlen);
810
0
  input_u32[inlen] = 0;
811
812
0
  input_u8 = u32_to_u8 (input_u32, inlen + 1, NULL, &length);
813
0
  free (input_u32);
814
0
  if (!input_u8)
815
0
    {
816
0
      if (errno == ENOMEM)
817
0
  return IDN2_MALLOC;
818
0
      return IDN2_ENCODING_ERROR;
819
0
    }
820
821
0
  rc = idn2_lookup_u8 (input_u8, &output_u8, flags);
822
0
  free (input_u8);
823
824
0
  if (rc == IDN2_OK)
825
0
    {
826
0
      if (output)
827
0
  *output = (char *) output_u8;
828
0
      else
829
0
  free (output_u8);
830
0
    }
831
832
0
  return rc;
833
0
}
834
835
/**
836
 * idn2_to_ascii_4z:
837
 * @input: zero terminated input Unicode (UCS-4) string.
838
 * @output: pointer to newly allocated zero-terminated output string.
839
 * @flags: optional #idn2_flags to modify behaviour.
840
 *
841
 * Convert UCS-4 domain name to ASCII string using the IDNA2008
842
 * rules.  The domain name may contain several labels, separated by dots.
843
 * The output buffer must be deallocated by the caller.
844
 *
845
 * The default behavior of this function (when flags are zero) is to apply
846
 * the IDNA2008 rules without the TR46 amendments. As the TR46
847
 * non-transitional processing is nowadays ubiquitous, when unsure, it is
848
 * recommended to call this function with the %IDN2_NONTRANSITIONAL
849
 * and the %IDN2_NFC_INPUT flags for compatibility with other software.
850
 *
851
 * Return value: Returns %IDN2_OK on success, or error code.
852
 *
853
 * Since: 2.0.0
854
 **/
855
int
856
idn2_to_ascii_4z (const uint32_t *input, char **output, int flags)
857
0
{
858
0
  uint8_t *input_u8;
859
0
  size_t length;
860
0
  int rc;
861
862
0
  if (!input)
863
0
    {
864
0
      if (output)
865
0
  *output = NULL;
866
0
      return IDN2_OK;
867
0
    }
868
869
0
  input_u8 = u32_to_u8 (input, u32_strlen (input) + 1, NULL, &length);
870
0
  if (!input_u8)
871
0
    {
872
0
      if (errno == ENOMEM)
873
0
  return IDN2_MALLOC;
874
0
      return IDN2_ENCODING_ERROR;
875
0
    }
876
877
0
  rc = idn2_lookup_u8 (input_u8, (uint8_t **) output, flags);
878
0
  free (input_u8);
879
880
0
  return rc;
881
0
}
882
883
/**
884
 * idn2_to_ascii_8z:
885
 * @input: zero terminated input UTF-8 string.
886
 * @output: pointer to newly allocated output string.
887
 * @flags: optional #idn2_flags to modify behaviour.
888
 *
889
 * Convert UTF-8 domain name to ASCII string using the IDNA2008
890
 * rules.  The domain name may contain several labels, separated by dots.
891
 * The output buffer must be deallocated by the caller.
892
 *
893
 * The default behavior of this function (when flags are zero) is to apply
894
 * the IDNA2008 rules without the TR46 amendments. As the TR46
895
 * non-transitional processing is nowadays ubiquitous, when unsure, it is
896
 * recommended to call this function with the %IDN2_NONTRANSITIONAL
897
 * and the %IDN2_NFC_INPUT flags for compatibility with other software.
898
 *
899
 * Return value: Returns %IDN2_OK on success, or error code.
900
 *
901
 * Since: 2.0.0
902
 **/
903
int
904
idn2_to_ascii_8z (const char *input, char **output, int flags)
905
0
{
906
0
  return idn2_lookup_u8 ((const uint8_t *) input, (uint8_t **) output, flags);
907
0
}
908
909
/**
910
 * idn2_to_ascii_lz:
911
 * @input: zero terminated input UTF-8 string.
912
 * @output: pointer to newly allocated output string.
913
 * @flags: optional #idn2_flags to modify behaviour.
914
 *
915
 * Convert a domain name in locale's encoding to ASCII string using the IDNA2008
916
 * rules.  The domain name may contain several labels, separated by dots.
917
 * The output buffer must be deallocated by the caller.
918
 *
919
 * The default behavior of this function (when flags are zero) is to apply
920
 * the IDNA2008 rules without the TR46 amendments. As the TR46
921
 * non-transitional processing is nowadays ubiquitous, when unsure, it is
922
 * recommended to call this function with the %IDN2_NONTRANSITIONAL
923
 * and the %IDN2_NFC_INPUT flags for compatibility with other software.
924
 *
925
 * Returns: %IDN2_OK on success, or error code.
926
 * Same as described in idn2_lookup_ul() documentation.
927
 *
928
 * Since: 2.0.0
929
 **/
930
int
931
idn2_to_ascii_lz (const char *input, char **output, int flags)
932
0
{
933
0
  return idn2_lookup_ul (input, output, flags);
934
0
}