/src/libidn2/lib/idna.c

Source (jump to first uncovered line)
/* idna.c - implementation of high-level IDNA processing function
   Copyright (C) 2011-2024 Simon Josefsson

   Libidn2 is free software: you can redistribute it and/or modify it
   under the terms of either:

     * the GNU Lesser General Public License as published by the Free
       Software Foundation; either version 3 of the License, or (at
       your option) any later version.

   or

     * the GNU General Public License as published by the Free
       Software Foundation; either version 2 of the License, or (at
       your option) any later version.

   or both in parallel, as here.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received copies of the GNU General Public License and
   the GNU Lesser General Public License along with this program.  If
   not, see <http://www.gnu.org/licenses/>.
*/

#include <config.h>

#include <stdlib.h>   /* free */
#include <errno.h>    /* errno */

#include "idn2.h"
#include "bidi.h"
#include "tables.h"
#include "context.h"
#include "tr46map.h"

#include <unitypes.h>
#include <unictype.h>   /* uc_is_general_category, UC_CATEGORY_M */
#include <uninorm.h>    /* u32_normalize */
#include <unistr.h>   /* u8_to_u32 */

#include "idna.h"

/*
 * NFC Quick Check from
 * http://unicode.org/reports/tr15/#Detecting_Normalization_Forms
 *
 * They say, this is much faster than 'brute force' normalization.
 * Strings are very likely already in NFC form.
 */
G_GNUC_IDN2_ATTRIBUTE_PURE static int
_isNFC (uint32_t *label, size_t len)
{
  int lastCanonicalClass = 0;
  int result = 1;
  size_t it;

  for (it = 0; it < len; it++)
    {
      uint32_t ch = label[it];

      // supplementary code point
      if (ch >= 0x10000)
  it++;

      int canonicalClass = uc_combining_class (ch);
      if (lastCanonicalClass > canonicalClass && canonicalClass != 0)
  return 0;

      NFCQCMap *map = get_nfcqc_map (ch);
      if (map)
  {
    if (map->check)
      return 0;
    result = -1;
  }

      lastCanonicalClass = canonicalClass;
    }

  return result;
}

int
_idn2_u8_to_u32_nfc (const uint8_t *src, size_t srclen,
         uint32_t **out, size_t *outlen, int nfc)
{
  uint32_t *p;
  size_t plen;

  p = u8_to_u32 (src, srclen, NULL, &plen);
  if (p == NULL)
    {
      if (errno == ENOMEM)
  return IDN2_MALLOC;
      return IDN2_ENCODING_ERROR;
    }

  if (nfc && !_isNFC (p, plen))
    {
      size_t tmplen;
      uint32_t *tmp = u32_normalize (UNINORM_NFC, p, plen, NULL, &tmplen);
      free (p);
      if (tmp == NULL)
  {
    if (errno == ENOMEM)
      return IDN2_MALLOC;
    return IDN2_NFC;
  }

      p = tmp;
      plen = tmplen;
    }

  *out = p;
  *outlen = plen;
  return IDN2_OK;
}

bool
_idn2_ascii_p (const uint8_t *src, size_t srclen)
{
  size_t i;

  for (i = 0; i < srclen; i++)
    if (src[i] >= 0x80)
      return false;

  return true;
}

int
_idn2_label_test (int what, const uint32_t *label, size_t llen)
{
  if (what & TEST_NFC)
    {
      size_t plen;
      uint32_t *p = u32_normalize (UNINORM_NFC, label, llen,
           NULL, &plen);
      int ok;
      if (p == NULL)
  {
    if (errno == ENOMEM)
      return IDN2_MALLOC;
    return IDN2_NFC;
  }
      ok = llen == plen && memcmp (label, p, plen * sizeof (*label)) == 0;
      free (p);
      if (!ok)
  return IDN2_NOT_NFC;
    }

  if (what & TEST_2HYPHEN)
    {
      if (llen >= 4 && label[2] == '-' && label[3] == '-')
  return IDN2_2HYPHEN;
    }

  if (what & TEST_HYPHEN_STARTEND)
    {
      if (llen > 0 && (label[0] == '-' || label[llen - 1] == '-'))
  return IDN2_HYPHEN_STARTEND;
    }

  if (what & TEST_LEADING_COMBINING)
    {
      if (llen > 0 && uc_is_general_category (label[0], UC_CATEGORY_M))
  return IDN2_LEADING_COMBINING;
    }

  if (what & TEST_DISALLOWED)
    {
      size_t i;
      for (i = 0; i < llen; i++)
  if (_idn2_disallowed_p (label[i]))
    {
      if ((what & (TEST_TRANSITIONAL | TEST_NONTRANSITIONAL)) &&
    (what & TEST_ALLOW_STD3_DISALLOWED))
        {
    IDNAMap map;
    get_idna_map (label[i], &map);
    if (map_is (&map, TR46_FLG_DISALLOWED_STD3_VALID) ||
        map_is (&map, TR46_FLG_DISALLOWED_STD3_MAPPED))
      continue;

        }

      return IDN2_DISALLOWED;
    }
    }

  if (what & TEST_CONTEXTJ)
    {
      size_t i;
      for (i = 0; i < llen; i++)
  if (_idn2_contextj_p (label[i]))
    return IDN2_CONTEXTJ;
    }

  if (what & TEST_CONTEXTJ_RULE)
    {
      size_t i;
      int rc;

      for (i = 0; i < llen; i++)
  {
    rc = _idn2_contextj_rule (label, llen, i);
    if (rc != IDN2_OK)
      return rc;
  }
    }

  if (what & TEST_CONTEXTO)
    {
      size_t i;
      for (i = 0; i < llen; i++)
  if (_idn2_contexto_p (label[i]))
    return IDN2_CONTEXTO;
    }

  if (what & TEST_CONTEXTO_WITH_RULE)
    {
      size_t i;
      for (i = 0; i < llen; i++)
  if (_idn2_contexto_p (label[i])
      && !_idn2_contexto_with_rule (label[i]))
    return IDN2_CONTEXTO_NO_RULE;
    }

  if (what & TEST_CONTEXTO_RULE)
    {
      size_t i;
      int rc;

      for (i = 0; i < llen; i++)
  {
    rc = _idn2_contexto_rule (label, llen, i);
    if (rc != IDN2_OK)
      return rc;
  }
    }

  if (what & TEST_UNASSIGNED)
    {
      size_t i;
      for (i = 0; i < llen; i++)
  if (_idn2_unassigned_p (label[i]))
    return IDN2_UNASSIGNED;
    }

  if (what & TEST_BIDI)
    {
      int rc = _idn2_bidi (label, llen);
      if (rc != IDN2_OK)
  return rc;
    }

  if (what & (TEST_TRANSITIONAL | TEST_NONTRANSITIONAL))
    {
      size_t i;
      int transitional = what & TEST_TRANSITIONAL;

      /* TR46: 4. The label must not contain a U+002E ( . ) FULL STOP */
      for (i = 0; i < llen; i++)
  if (label[i] == 0x002E)
    return IDN2_DOT_IN_LABEL;

      /* TR46: 6. Each code point in the label must only have certain status
       * values according to Section 5, IDNA Mapping Table:
       *    a. For Transitional Processing, each value must be valid.
       *    b. For Nontransitional Processing, each value must be either valid or deviation. */
      for (i = 0; i < llen; i++)
  {
    IDNAMap map;

    get_idna_map (label[i], &map);

    if (map_is (&map, TR46_FLG_VALID) ||
        (!transitional && map_is (&map, TR46_FLG_DEVIATION)))
      continue;

    if (what & TEST_ALLOW_STD3_DISALLOWED &&
        (map_is (&map, TR46_FLG_DISALLOWED_STD3_VALID) ||
         map_is (&map, TR46_FLG_DISALLOWED_STD3_MAPPED)))
      continue;

    return transitional ? IDN2_INVALID_TRANSITIONAL :
      IDN2_INVALID_NONTRANSITIONAL;
  }
    }

  return IDN2_OK;
}

Coverage Report

Created: 2025-01-28 06:58

Line	Count	Source (jump to first uncovered line)
1		/* idna.c - implementation of high-level IDNA processing function
2		Copyright (C) 2011-2024 Simon Josefsson
3
4		Libidn2 is free software: you can redistribute it and/or modify it
5		under the terms of either:
6
7		* the GNU Lesser General Public License as published by the Free
8		Software Foundation; either version 3 of the License, or (at
9		your option) any later version.
10
11		or
12
13		* the GNU General Public License as published by the Free
14		Software Foundation; either version 2 of the License, or (at
15		your option) any later version.
16
17		or both in parallel, as here.
18
19		This program is distributed in the hope that it will be useful,
20		but WITHOUT ANY WARRANTY; without even the implied warranty of
21		MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
22		GNU General Public License for more details.
23
24		You should have received copies of the GNU General Public License and
25		the GNU Lesser General Public License along with this program. If
26		not, see <http://www.gnu.org/licenses/>.
27		*/
28
29		#include <config.h>
30
31		#include <stdlib.h> /* free */
32		#include <errno.h> /* errno */
33
34		#include "idn2.h"
35		#include "bidi.h"
36		#include "tables.h"
37		#include "context.h"
38		#include "tr46map.h"
39
40		#include <unitypes.h>
41		#include <unictype.h> /* uc_is_general_category, UC_CATEGORY_M */
42		#include <uninorm.h> /* u32_normalize */
43		#include <unistr.h> /* u8_to_u32 */
44
45		#include "idna.h"
46
47		/*
48		* NFC Quick Check from
49		* http://unicode.org/reports/tr15/#Detecting_Normalization_Forms
50		*
51		* They say, this is much faster than 'brute force' normalization.
52		* Strings are very likely already in NFC form.
53		*/
54		G_GNUC_IDN2_ATTRIBUTE_PURE static int
55		_isNFC (uint32_t *label, size_t len)
56	0	{
57	0	int lastCanonicalClass = 0;
58	0	int result = 1;
59	0	size_t it;
60
61	0	for (it = 0; it < len; it++)
62	0	{
63	0	uint32_t ch = label[it];
64
65		// supplementary code point
66	0	if (ch >= 0x10000)
67	0	it++;
68
69	0	int canonicalClass = uc_combining_class (ch);
70	0	if (lastCanonicalClass > canonicalClass && canonicalClass != 0)
71	0	return 0;
72
73	0	NFCQCMap *map = get_nfcqc_map (ch);
74	0	if (map)
75	0	{
76	0	if (map->check)
77	0	return 0;
78	0	result = -1;
79	0	}
80
81	0	lastCanonicalClass = canonicalClass;
82	0	}
83
84	0	return result;
85	0	}
86
87		int
88		_idn2_u8_to_u32_nfc (const uint8_t *src, size_t srclen,
89		uint32_t *out, size_t outlen, int nfc)
90	0	{
91	0	uint32_t *p;
92	0	size_t plen;
93
94	0	p = u8_to_u32 (src, srclen, NULL, &plen);
95	0	if (p == NULL)
96	0	{
97	0	if (errno == ENOMEM)
98	0	return IDN2_MALLOC;
99	0	return IDN2_ENCODING_ERROR;
100	0	}
101
102	0	if (nfc && !_isNFC (p, plen))
103	0	{
104	0	size_t tmplen;
105	0	uint32_t *tmp = u32_normalize (UNINORM_NFC, p, plen, NULL, &tmplen);
106	0	free (p);
107	0	if (tmp == NULL)
108	0	{
109	0	if (errno == ENOMEM)
110	0	return IDN2_MALLOC;
111	0	return IDN2_NFC;
112	0	}
113
114	0	p = tmp;
115	0	plen = tmplen;
116	0	}
117
118	0	*out = p;
119	0	*outlen = plen;
120	0	return IDN2_OK;
121	0	}
122
123		bool
124		_idn2_ascii_p (const uint8_t *src, size_t srclen)
125	0	{
126	0	size_t i;
127
128	0	for (i = 0; i < srclen; i++)
129	0	if (src[i] >= 0x80)
130	0	return false;
131
132	0	return true;
133	0	}
134
135		int
136		_idn2_label_test (int what, const uint32_t *label, size_t llen)
137	0	{
138	0	if (what & TEST_NFC)
139	0	{
140	0	size_t plen;
141	0	uint32_t *p = u32_normalize (UNINORM_NFC, label, llen,
142	0	NULL, &plen);
143	0	int ok;
144	0	if (p == NULL)
145	0	{
146	0	if (errno == ENOMEM)
147	0	return IDN2_MALLOC;
148	0	return IDN2_NFC;
149	0	}
150	0	ok = llen == plen && memcmp (label, p, plen * sizeof (*label)) == 0;
151	0	free (p);
152	0	if (!ok)
153	0	return IDN2_NOT_NFC;
154	0	}
155
156	0	if (what & TEST_2HYPHEN)
157	0	{
158	0	if (llen >= 4 && label[2] == '-' && label[3] == '-')
159	0	return IDN2_2HYPHEN;
160	0	}
161
162	0	if (what & TEST_HYPHEN_STARTEND)
163	0	{
164	0	if (llen > 0 && (label[0] == '-' \|\| label[llen - 1] == '-'))
165	0	return IDN2_HYPHEN_STARTEND;
166	0	}
167
168	0	if (what & TEST_LEADING_COMBINING)
169	0	{
170	0	if (llen > 0 && uc_is_general_category (label[0], UC_CATEGORY_M))
171	0	return IDN2_LEADING_COMBINING;
172	0	}
173
174	0	if (what & TEST_DISALLOWED)
175	0	{
176	0	size_t i;
177	0	for (i = 0; i < llen; i++)
178	0	if (_idn2_disallowed_p (label[i]))
179	0	{
180	0	if ((what & (TEST_TRANSITIONAL \| TEST_NONTRANSITIONAL)) &&
181	0	(what & TEST_ALLOW_STD3_DISALLOWED))
182	0	{
183	0	IDNAMap map;
184	0	get_idna_map (label[i], &map);
185	0	if (map_is (&map, TR46_FLG_DISALLOWED_STD3_VALID) \|\|
186	0	map_is (&map, TR46_FLG_DISALLOWED_STD3_MAPPED))
187	0	continue;
188
189	0	}
190
191	0	return IDN2_DISALLOWED;
192	0	}
193	0	}
194
195	0	if (what & TEST_CONTEXTJ)
196	0	{
197	0	size_t i;
198	0	for (i = 0; i < llen; i++)
199	0	if (_idn2_contextj_p (label[i]))
200	0	return IDN2_CONTEXTJ;
201	0	}
202
203	0	if (what & TEST_CONTEXTJ_RULE)
204	0	{
205	0	size_t i;
206	0	int rc;
207
208	0	for (i = 0; i < llen; i++)
209	0	{
210	0	rc = _idn2_contextj_rule (label, llen, i);
211	0	if (rc != IDN2_OK)
212	0	return rc;
213	0	}
214	0	}
215
216	0	if (what & TEST_CONTEXTO)
217	0	{
218	0	size_t i;
219	0	for (i = 0; i < llen; i++)
220	0	if (_idn2_contexto_p (label[i]))
221	0	return IDN2_CONTEXTO;
222	0	}
223
224	0	if (what & TEST_CONTEXTO_WITH_RULE)
225	0	{
226	0	size_t i;
227	0	for (i = 0; i < llen; i++)
228	0	if (_idn2_contexto_p (label[i])
229	0	&& !_idn2_contexto_with_rule (label[i]))
230	0	return IDN2_CONTEXTO_NO_RULE;
231	0	}
232
233	0	if (what & TEST_CONTEXTO_RULE)
234	0	{
235	0	size_t i;
236	0	int rc;
237
238	0	for (i = 0; i < llen; i++)
239	0	{
240	0	rc = _idn2_contexto_rule (label, llen, i);
241	0	if (rc != IDN2_OK)
242	0	return rc;
243	0	}
244	0	}
245
246	0	if (what & TEST_UNASSIGNED)
247	0	{
248	0	size_t i;
249	0	for (i = 0; i < llen; i++)
250	0	if (_idn2_unassigned_p (label[i]))
251	0	return IDN2_UNASSIGNED;
252	0	}
253
254	0	if (what & TEST_BIDI)
255	0	{
256	0	int rc = _idn2_bidi (label, llen);
257	0	if (rc != IDN2_OK)
258	0	return rc;
259	0	}
260
261	0	if (what & (TEST_TRANSITIONAL \| TEST_NONTRANSITIONAL))
262	0	{
263	0	size_t i;
264	0	int transitional = what & TEST_TRANSITIONAL;
265
266		/* TR46: 4. The label must not contain a U+002E ( . ) FULL STOP */
267	0	for (i = 0; i < llen; i++)
268	0	if (label[i] == 0x002E)
269	0	return IDN2_DOT_IN_LABEL;
270
271		/* TR46: 6. Each code point in the label must only have certain status
272		* values according to Section 5, IDNA Mapping Table:
273		* a. For Transitional Processing, each value must be valid.
274		* b. For Nontransitional Processing, each value must be either valid or deviation. */
275	0	for (i = 0; i < llen; i++)
276	0	{
277	0	IDNAMap map;
278
279	0	get_idna_map (label[i], &map);
280
281	0	if (map_is (&map, TR46_FLG_VALID) \|\|
282	0	(!transitional && map_is (&map, TR46_FLG_DEVIATION)))
283	0	continue;
284
285	0	if (what & TEST_ALLOW_STD3_DISALLOWED &&
286	0	(map_is (&map, TR46_FLG_DISALLOWED_STD3_VALID) \|\|
287	0	map_is (&map, TR46_FLG_DISALLOWED_STD3_MAPPED)))
288	0	continue;
289
290	0	return transitional ? IDN2_INVALID_TRANSITIONAL :
291	0	IDN2_INVALID_NONTRANSITIONAL;
292	0	}
293	0	}
294
295	0	return IDN2_OK;
296	0	}