gecko/netwerk/dns/nameprep.c

348 lines
9.3 KiB
C

/*
* Copyright (c) 2001,2002 Japan Network Information Center.
* All rights reserved.
*
* By using this file, you agree to the terms and conditions set forth bellow.
*
* LICENSE TERMS AND CONDITIONS
*
* The following License Terms and Conditions apply, unless a different
* license is obtained from Japan Network Information Center ("JPNIC"),
* a Japanese association, Kokusai-Kougyou-Kanda Bldg 6F, 2-3-4 Uchi-Kanda,
* Chiyoda-ku, Tokyo 101-0047, Japan.
*
* 1. Use, Modification and Redistribution (including distribution of any
* modified or derived work) in source and/or binary forms is permitted
* under this License Terms and Conditions.
*
* 2. Redistribution of source code must retain the copyright notices as they
* appear in each source code file, this License Terms and Conditions.
*
* 3. Redistribution in binary form must reproduce the Copyright Notice,
* this License Terms and Conditions, in the documentation and/or other
* materials provided with the distribution. For the purposes of binary
* distribution the "Copyright Notice" refers to the following language:
* "Copyright (c) 2000-2002 Japan Network Information Center. All rights reserved."
*
* 4. The name of JPNIC may not be used to endorse or promote products
* derived from this Software without specific prior written approval of
* JPNIC.
*
* 5. Disclaimer/Limitation of Liability: THIS SOFTWARE IS PROVIDED BY JPNIC
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL JPNIC BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
*/
#include <stdlib.h>
#include <string.h>
#include "nsIDNKitInterface.h"
#define UCS_MAX 0x7fffffff
#define UNICODE_MAX 0x10ffff
/*
* Load NAMEPREP compiled tables.
*/
#include "nameprepdata.c"
/*
* Define mapping/checking functions for each version of the draft.
*/
#define VERSION id11
#include "nameprep_template.c"
#undef VERSION
typedef const char *(*nameprep_mapproc)(PRUint32 v);
typedef int (*nameprep_checkproc)(PRUint32 v);
typedef idn_biditype_t (*nameprep_biditypeproc)(PRUint32 v);
static struct idn_nameprep {
char *version;
nameprep_mapproc map_proc;
nameprep_checkproc prohibited_proc;
nameprep_checkproc unassigned_proc;
nameprep_biditypeproc biditype_proc;
} nameprep_versions[] = {
#define MAKE_NAMEPREP_HANDLE(version, id) \
{ version, \
compose_sym2(nameprep_map_, id), \
compose_sym2(nameprep_prohibited_, id), \
compose_sym2(nameprep_unassigned_, id), \
compose_sym2(nameprep_biditype_, id), }
MAKE_NAMEPREP_HANDLE("nameprep-11", id11),
{ NULL, NULL, NULL, NULL, NULL },
};
static idn_result_t idn_nameprep_check(nameprep_checkproc proc,
const PRUint32 *str,
const PRUint32 **found);
idn_result_t
idn_nameprep_create(const char *version, idn_nameprep_t *handlep) {
idn_nameprep_t handle;
assert(handlep != NULL);
TRACE(("idn_nameprep_create(version=%-.50s)\n",
version == NULL ? "<NULL>" : version));
if (version == NULL)
version = IDN_NAMEPREP_CURRENT;
/*
* Lookup table for the specified version. Since the number of
* versions won't be large (I don't want see draft-23 or such :-),
* simple linear search is OK.
*/
for (handle = nameprep_versions; handle->version != NULL; handle++) {
if (strcmp(handle->version, version) == 0) {
*handlep = handle;
return (idn_success);
}
}
return (idn_notfound);
}
void
idn_nameprep_destroy(idn_nameprep_t handle) {
assert(handle != NULL);
TRACE(("idn_nameprep_destroy()\n"));
/* Nothing to do. */
}
idn_result_t
idn_nameprep_map(idn_nameprep_t handle, const PRUint32 *from,
PRUint32 *to, size_t tolen) {
assert(handle != NULL && from != NULL && to != NULL);
TRACE(("idn_nameprep_map(ctx=%s, from=\"%s\")\n",
handle->version, idn__debug_ucs4xstring(from, 50)));
while (*from != '\0') {
PRUint32 v = *from;
const char *mapped;
if (v > UCS_MAX) {
/* This cannot happen, but just in case.. */
return (idn_invalid_codepoint);
} else if (v > UNICODE_MAX) {
/* No mapping is possible. */
mapped = NULL;
} else {
/* Try mapping. */
mapped = (*handle->map_proc)(v);
}
if (mapped == NULL) {
/* No mapping. Just copy verbatim. */
if (tolen < 1)
return (idn_buffer_overflow);
*to++ = v;
tolen--;
} else {
const unsigned char *mappeddata;
size_t mappedlen;
mappeddata = (const unsigned char *)mapped + 1;
mappedlen = *mapped;
if (tolen < (mappedlen + 3) / 4)
return (idn_buffer_overflow);
tolen -= (mappedlen + 3) / 4;
while (mappedlen >= 4) {
*to = *mappeddata++;
*to |= *mappeddata++ << 8;
*to |= *mappeddata++ << 16;
*to |= *mappeddata++ << 24;
mappedlen -= 4;
to++;
}
if (mappedlen > 0) {
*to = *mappeddata++;
*to |= (mappedlen >= 2) ?
*mappeddata++ << 8: 0;
*to |= (mappedlen >= 3) ?
*mappeddata++ << 16: 0;
to++;
}
}
from++;
}
if (tolen == 0)
return (idn_buffer_overflow);
*to = '\0';
return (idn_success);
}
idn_result_t
idn_nameprep_isprohibited(idn_nameprep_t handle, const PRUint32 *str,
const PRUint32 **found) {
assert(handle != NULL && str != NULL && found != NULL);
TRACE(("idn_nameprep_isprohibited(ctx=%s, str=\"%s\")\n",
handle->version, idn__debug_ucs4xstring(str, 50)));
return (idn_nameprep_check(handle->prohibited_proc, str, found));
}
idn_result_t
idn_nameprep_isunassigned(idn_nameprep_t handle, const PRUint32 *str,
const PRUint32 **found) {
assert(handle != NULL && str != NULL && found != NULL);
TRACE(("idn_nameprep_isunassigned(handle->version, str=\"%s\")\n",
handle->version, idn__debug_ucs4xstring(str, 50)));
return (idn_nameprep_check(handle->unassigned_proc, str, found));
}
static idn_result_t
idn_nameprep_check(nameprep_checkproc proc, const PRUint32 *str,
const PRUint32 **found) {
PRUint32 v;
while (*str != '\0') {
v = *str;
if (v > UCS_MAX) {
/* This cannot happen, but just in case.. */
return (idn_invalid_codepoint);
} else if (v > UNICODE_MAX) {
/* It is invalid.. */
*found = str;
return (idn_success);
} else if ((*proc)(v)) {
*found = str;
return (idn_success);
}
str++;
}
*found = NULL;
return (idn_success);
}
idn_result_t
idn_nameprep_isvalidbidi(idn_nameprep_t handle, const PRUint32 *str,
const PRUint32 **found) {
PRUint32 v;
idn_biditype_t first_char;
idn_biditype_t last_char;
int found_r_al;
assert(handle != NULL && str != NULL && found != NULL);
TRACE(("idn_nameprep_isvalidbidi(ctx=%s, str=\"%s\")\n",
handle->version, idn__debug_ucs4xstring(str, 50)));
if (*str == '\0') {
*found = NULL;
return (idn_success);
}
/*
* check first character's type and initialize variables.
*/
found_r_al = 0;
if (*str > UCS_MAX) {
/* This cannot happen, but just in case.. */
return (idn_invalid_codepoint);
} else if (*str > UNICODE_MAX) {
/* It is invalid.. */
*found = str;
return (idn_success);
}
first_char = last_char = (*(handle->biditype_proc))(*str);
if (first_char == idn_biditype_r_al) {
found_r_al = 1;
}
str++;
/*
* see whether string is valid or not.
*/
while (*str != '\0') {
v = *str;
if (v > UCS_MAX) {
/* This cannot happen, but just in case.. */
return (idn_invalid_codepoint);
} else if (v > UNICODE_MAX) {
/* It is invalid.. */
*found = str;
return (idn_success);
} else {
last_char = (*(handle->biditype_proc))(v);
if (found_r_al && last_char == idn_biditype_l) {
*found = str;
return (idn_success);
}
if (first_char != idn_biditype_r_al && last_char == idn_biditype_r_al) {
*found = str;
return (idn_success);
}
if (last_char == idn_biditype_r_al) {
found_r_al = 1;
}
}
str++;
}
if (found_r_al) {
if (last_char != idn_biditype_r_al) {
*found = str - 1;
return (idn_success);
}
}
*found = NULL;
return (idn_success);
}
idn_result_t
idn_nameprep_createproc(const char *parameter, void **handlep) {
return idn_nameprep_create(parameter, (idn_nameprep_t *)handlep);
}
void
idn_nameprep_destroyproc(void *handle) {
idn_nameprep_destroy((idn_nameprep_t)handle);
}
idn_result_t
idn_nameprep_mapproc(void *handle, const PRUint32 *from,
PRUint32 *to, size_t tolen) {
return idn_nameprep_map((idn_nameprep_t)handle, from, to, tolen);
}
idn_result_t
idn_nameprep_prohibitproc(void *handle, const PRUint32 *str,
const PRUint32 **found) {
return idn_nameprep_isprohibited((idn_nameprep_t)handle, str, found);
}
idn_result_t
idn_nameprep_unassignedproc(void *handle, const PRUint32 *str,
const PRUint32 **found) {
return idn_nameprep_isunassigned((idn_nameprep_t)handle, str, found);
}
idn_result_t
idn_nameprep_bidiproc(void *handle, const PRUint32 *str,
const PRUint32 **found) {
return idn_nameprep_isvalidbidi((idn_nameprep_t)handle, str, found);
}