glibc/libidn/stringprep.c

670 lines
21 KiB
C
Raw Normal View History

/* stringprep.c --- Core stringprep implementation.
* Copyright (C) 2002, 2003, 2004 Simon Josefsson
*
* This file is part of GNU Libidn.
*
* GNU Libidn is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* GNU Libidn 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with GNU Libidn; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*/
#if HAVE_CONFIG_H
# include "config.h"
#endif
#include <stdlib.h>
#include <string.h>
#include "stringprep.h"
static ssize_t
stringprep_find_character_in_table (uint32_t ucs4,
const Stringprep_table_element * table)
{
ssize_t i;
/* This is where typical uses of Libidn spends very close to all CPU
time and causes most cache misses. One could easily do a binary
search instead. Before rewriting this, I want hard evidence this
slowness is at all relevant in typical applications. (I don't
dispute optimization may improve matters significantly, I'm
mostly interested in having someone give real-world benchmark on
the impact of libidn.) */
for (i = 0; table[i].start || table[i].end; i++)
if (ucs4 >= table[i].start &&
ucs4 <= (table[i].end ? table[i].end : table[i].start))
return i;
return -1;
}
static ssize_t
stringprep_find_string_in_table (uint32_t * ucs4,
size_t ucs4len,
size_t * tablepos,
const Stringprep_table_element * table)
{
size_t j;
ssize_t pos;
for (j = 0; j < ucs4len; j++)
if ((pos = stringprep_find_character_in_table (ucs4[j], table)) != -1)
{
if (tablepos)
*tablepos = pos;
return j;
}
return -1;
}
static int
stringprep_apply_table_to_string (uint32_t * ucs4,
size_t * ucs4len,
size_t maxucs4len,
const Stringprep_table_element * table)
{
ssize_t pos;
size_t i, maplen;
while ((pos = stringprep_find_string_in_table (ucs4, *ucs4len,
&i, table)) != -1)
{
for (maplen = STRINGPREP_MAX_MAP_CHARS;
maplen > 0 && table[i].map[maplen - 1] == 0; maplen--)
;
if (*ucs4len - 1 + maplen >= maxucs4len)
return STRINGPREP_TOO_SMALL_BUFFER;
memmove (&ucs4[pos + maplen], &ucs4[pos + 1],
sizeof (uint32_t) * (*ucs4len - pos - 1));
memcpy (&ucs4[pos], table[i].map, sizeof (uint32_t) * maplen);
*ucs4len = *ucs4len - 1 + maplen;
}
return STRINGPREP_OK;
}
#define INVERTED(x) ((x) & ((~0UL) >> 1))
#define UNAPPLICAPLEFLAGS(flags, profileflags) \
((!INVERTED(profileflags) && !(profileflags & flags) && profileflags) || \
( INVERTED(profileflags) && (profileflags & flags)))
/**
* stringprep_4i:
* @ucs4: input/output array with string to prepare.
* @len: on input, length of input array with Unicode code points,
* on exit, length of output array with Unicode code points.
* @maxucs4len: maximum length of input/output array.
* @flags: stringprep profile flags, or 0.
* @profile: pointer to stringprep profile to use.
*
* Prepare the input UCS-4 string according to the stringprep profile,
* and write back the result to the input string.
*
* The input is not required to be zero terminated (@ucs4[@len] = 0).
* The output will not be zero terminated unless @ucs4[@len] = 0.
* Instead, see stringprep_4zi() if your input is zero terminated or
* if you want the output to be.
*
* Since the stringprep operation can expand the string, @maxucs4len
* indicate how large the buffer holding the string is. This function
* will not read or write to code points outside that size.
*
* The @flags are one of Stringprep_profile_flags, or 0.
*
* The @profile contain the instructions to perform. Your application
* can define new profiles, possibly re-using the generic stringprep
* tables that always will be part of the library, or use one of the
* currently supported profiles.
*
* Return value: Returns %STRINGPREP_OK iff successful, or an error code.
**/
int
stringprep_4i (uint32_t * ucs4, size_t * len, size_t maxucs4len,
Stringprep_profile_flags flags,
const Stringprep_profile * profile)
{
size_t i, j;
ssize_t k;
size_t ucs4len = *len;
int rc;
for (i = 0; profile[i].operation; i++)
{
switch (profile[i].operation)
{
case STRINGPREP_NFKC:
{
uint32_t *q = 0;
if (UNAPPLICAPLEFLAGS (flags, profile[i].flags))
break;
if (flags & STRINGPREP_NO_NFKC && !profile[i].flags)
/* Profile requires NFKC, but callee asked for no NFKC. */
return STRINGPREP_FLAG_ERROR;
q = stringprep_ucs4_nfkc_normalize (ucs4, ucs4len);
if (!q)
return STRINGPREP_NFKC_FAILED;
for (ucs4len = 0; q[ucs4len]; ucs4len++)
;
if (ucs4len >= maxucs4len)
{
free (q);
return STRINGPREP_TOO_SMALL_BUFFER;
}
memcpy (ucs4, q, ucs4len * sizeof (ucs4[0]));
free (q);
}
break;
case STRINGPREP_PROHIBIT_TABLE:
k = stringprep_find_string_in_table (ucs4, ucs4len,
NULL, profile[i].table);
if (k != -1)
return STRINGPREP_CONTAINS_PROHIBITED;
break;
case STRINGPREP_UNASSIGNED_TABLE:
if (UNAPPLICAPLEFLAGS (flags, profile[i].flags))
break;
if (flags & STRINGPREP_NO_UNASSIGNED)
{
k = stringprep_find_string_in_table
(ucs4, ucs4len, NULL, profile[i].table);
if (k != -1)
return STRINGPREP_CONTAINS_UNASSIGNED;
}
break;
case STRINGPREP_MAP_TABLE:
if (UNAPPLICAPLEFLAGS (flags, profile[i].flags))
break;
rc = stringprep_apply_table_to_string
(ucs4, &ucs4len, maxucs4len, profile[i].table);
if (rc != STRINGPREP_OK)
return rc;
break;
case STRINGPREP_BIDI_PROHIBIT_TABLE:
case STRINGPREP_BIDI_RAL_TABLE:
case STRINGPREP_BIDI_L_TABLE:
break;
case STRINGPREP_BIDI:
{
int done_prohibited = 0;
int done_ral = 0;
int done_l = 0;
int contains_ral = -1;
int contains_l = -1;
for (j = 0; profile[j].operation; j++)
if (profile[j].operation == STRINGPREP_BIDI_PROHIBIT_TABLE)
{
done_prohibited = 1;
k = stringprep_find_string_in_table (ucs4, ucs4len,
NULL,
profile[j].table);
if (k != -1)
return STRINGPREP_BIDI_CONTAINS_PROHIBITED;
}
else if (profile[j].operation == STRINGPREP_BIDI_RAL_TABLE)
{
done_ral = 1;
if (stringprep_find_string_in_table
(ucs4, ucs4len, NULL, profile[j].table) != -1)
contains_ral = j;
}
else if (profile[j].operation == STRINGPREP_BIDI_L_TABLE)
{
done_l = 1;
if (stringprep_find_string_in_table
(ucs4, ucs4len, NULL, profile[j].table) != -1)
contains_l = j;
}
if (!done_prohibited || !done_ral || !done_l)
return STRINGPREP_PROFILE_ERROR;
if (contains_ral != -1 && contains_l != -1)
return STRINGPREP_BIDI_BOTH_L_AND_RAL;
if (contains_ral != -1)
{
if (!(stringprep_find_character_in_table
(ucs4[0], profile[contains_ral].table) != -1 &&
stringprep_find_character_in_table
(ucs4[ucs4len - 1], profile[contains_ral].table) != -1))
return STRINGPREP_BIDI_LEADTRAIL_NOT_RAL;
}
}
break;
default:
return STRINGPREP_PROFILE_ERROR;
break;
}
}
*len = ucs4len;
return STRINGPREP_OK;
}
static int
stringprep_4zi_1 (uint32_t * ucs4, size_t ucs4len, size_t maxucs4len,
Stringprep_profile_flags flags,
const Stringprep_profile * profile)
{
int rc;
rc = stringprep_4i (ucs4, &ucs4len, maxucs4len, flags, profile);
if (rc != STRINGPREP_OK)
return rc;
if (ucs4len >= maxucs4len)
return STRINGPREP_TOO_SMALL_BUFFER;
ucs4[ucs4len] = 0;
return STRINGPREP_OK;
}
/**
* stringprep_4zi:
* @ucs4: input/output array with zero terminated string to prepare.
* @maxucs4len: maximum length of input/output array.
* @flags: stringprep profile flags, or 0.
* @profile: pointer to stringprep profile to use.
*
* Prepare the input zero terminated UCS-4 string according to the
* stringprep profile, and write back the result to the input string.
*
* Since the stringprep operation can expand the string, @maxucs4len
* indicate how large the buffer holding the string is. This function
* will not read or write to code points outside that size.
*
* The @flags are one of Stringprep_profile_flags, or 0.
*
* The @profile contain the instructions to perform. Your application
* can define new profiles, possibly re-using the generic stringprep
* tables that always will be part of the library, or use one of the
* currently supported profiles.
*
* Return value: Returns %STRINGPREP_OK iff successful, or an error code.
**/
int
stringprep_4zi (uint32_t * ucs4, size_t maxucs4len,
Stringprep_profile_flags flags,
const Stringprep_profile * profile)
{
size_t ucs4len;
for (ucs4len = 0; ucs4len < maxucs4len && ucs4[ucs4len] != 0; ucs4len++)
;
return stringprep_4zi_1 (ucs4, ucs4len, maxucs4len, flags, profile);
}
/**
* stringprep:
* @in: input/ouput array with string to prepare.
* @maxlen: maximum length of input/output array.
* @flags: stringprep profile flags, or 0.
* @profile: pointer to stringprep profile to use.
*
* Prepare the input zero terminated UTF-8 string according to the
* stringprep profile, and write back the result to the input string.
*
* Note that you must convert strings entered in the systems locale
* into UTF-8 before using this function, see
* stringprep_locale_to_utf8().
*
* Since the stringprep operation can expand the string, @maxlen
* indicate how large the buffer holding the string is. This function
* will not read or write to characters outside that size.
*
* The @flags are one of Stringprep_profile_flags, or 0.
*
* The @profile contain the instructions to perform. Your application
* can define new profiles, possibly re-using the generic stringprep
* tables that always will be part of the library, or use one of the
* currently supported profiles.
*
* Return value: Returns %STRINGPREP_OK iff successful, or an error code.
**/
int
stringprep (char *in,
size_t maxlen,
Stringprep_profile_flags flags,
const Stringprep_profile * profile)
{
int rc;
char *utf8 = NULL;
uint32_t *ucs4 = NULL;
size_t ucs4len, maxucs4len, adducs4len = 50;
do
{
2008-03-19 06:43:34 +00:00
free (ucs4);
ucs4 = stringprep_utf8_to_ucs4 (in, -1, &ucs4len);
maxucs4len = ucs4len + adducs4len;
uint32_t *newp = realloc (ucs4, maxucs4len * sizeof (uint32_t));
if (!newp)
{
free (ucs4);
return STRINGPREP_MALLOC_ERROR;
}
ucs4 = newp;
rc = stringprep_4i (ucs4, &ucs4len, maxucs4len, flags, profile);
adducs4len += 50;
}
while (rc == STRINGPREP_TOO_SMALL_BUFFER);
if (rc != STRINGPREP_OK)
{
free (ucs4);
return rc;
}
utf8 = stringprep_ucs4_to_utf8 (ucs4, ucs4len, 0, 0);
free (ucs4);
if (!utf8)
return STRINGPREP_MALLOC_ERROR;
if (strlen (utf8) >= maxlen)
{
free (utf8);
return STRINGPREP_TOO_SMALL_BUFFER;
}
strcpy (in, utf8); /* flawfinder: ignore */
free (utf8);
return STRINGPREP_OK;
}
/**
* stringprep_profile:
* @in: input array with UTF-8 string to prepare.
* @out: output variable with pointer to newly allocate string.
* @profile: name of stringprep profile to use.
* @flags: stringprep profile flags, or 0.
*
* Prepare the input zero terminated UTF-8 string according to the
* stringprep profile, and return the result in a newly allocated
* variable.
*
* Note that you must convert strings entered in the systems locale
* into UTF-8 before using this function, see
* stringprep_locale_to_utf8().
*
* The output @out variable must be deallocated by the caller.
*
* The @flags are one of Stringprep_profile_flags, or 0.
*
* The @profile specifies the name of the stringprep profile to use.
* It must be one of the internally supported stringprep profiles.
*
* Return value: Returns %STRINGPREP_OK iff successful, or an error code.
**/
int
stringprep_profile (const char *in,
char **out,
const char *profile, Stringprep_profile_flags flags)
{
const Stringprep_profiles *p;
char *str = NULL;
size_t len = strlen (in) + 1;
int rc;
for (p = &stringprep_profiles[0]; p->name; p++)
if (strcmp (p->name, profile) == 0)
break;
if (!p || !p->name || !p->tables)
return STRINGPREP_UNKNOWN_PROFILE;
do
{
2008-03-19 06:43:34 +00:00
free (str);
str = (char *) malloc (len);
if (str == NULL)
return STRINGPREP_MALLOC_ERROR;
strcpy (str, in);
rc = stringprep (str, len, flags, p->tables);
len += 50;
}
while (rc == STRINGPREP_TOO_SMALL_BUFFER);
if (rc == STRINGPREP_OK)
*out = str;
else
free (str);
return rc;
}
/*! \mainpage GNU Internationalized Domain Name Library
*
* \section intro Introduction
*
* GNU Libidn is an implementation of the Stringprep, Punycode and IDNA
* specifications defined by the IETF Internationalized Domain Names
* (IDN) working group, used for internationalized domain names. The
* package is available under the GNU Lesser General Public License.
*
* The library contains a generic Stringprep implementation that does
* Unicode 3.2 NFKC normalization, mapping and prohibitation of
* characters, and bidirectional character handling. Profiles for
* Nameprep, iSCSI, SASL and XMPP are included. Punycode and ASCII
* Compatible Encoding (ACE) via IDNA are supported. A mechanism to
* define Top-Level Domain (TLD) specific validation tables, and to
* compare strings against those tables, is included. Default tables
* for some TLDs are also included.
*
* The Stringprep API consists of two main functions, one for
* converting data from the system's native representation into UTF-8,
* and one function to perform the Stringprep processing. Adding a
* new Stringprep profile for your application within the API is
* straightforward. The Punycode API consists of one encoding
* function and one decoding function. The IDNA API consists of the
* ToASCII and ToUnicode functions, as well as an high-level interface
* for converting entire domain names to and from the ACE encoded
* form. The TLD API consists of one set of functions to extract the
* TLD name from a domain string, one set of functions to locate the
* proper TLD table to use based on the TLD name, and core functions
* to validate a string against a TLD table, and some utility wrappers
* to perform all the steps in one call.
*
* The library is used by, e.g., GNU SASL and Shishi to process user
* names and passwords. Libidn can be built into GNU Libc to enable a
* new system-wide getaddrinfo() flag for IDN processing.
*
* Libidn is developed for the GNU/Linux system, but runs on over 20 Unix
* platforms (including Solaris, IRIX, AIX, and Tru64) and Windows.
* Libidn is written in C and (parts of) the API is accessible from C,
* C++, Emacs Lisp, Python and Java.
*
* The project web page:\n
* http://www.gnu.org/software/libidn/
*
* The software archive:\n
* ftp://alpha.gnu.org/pub/gnu/libidn/
*
* For more information see:\n
* http://www.ietf.org/html.charters/idn-charter.html\n
* http://www.ietf.org/rfc/rfc3454.txt (stringprep specification)\n
* http://www.ietf.org/rfc/rfc3490.txt (idna specification)\n
* http://www.ietf.org/rfc/rfc3491.txt (nameprep specification)\n
* http://www.ietf.org/rfc/rfc3492.txt (punycode specification)\n
* http://www.ietf.org/internet-drafts/draft-ietf-ips-iscsi-string-prep-04.txt\n
* http://www.ietf.org/internet-drafts/draft-ietf-krb-wg-utf8-profile-01.txt\n
* http://www.ietf.org/internet-drafts/draft-ietf-sasl-anon-00.txt\n
* http://www.ietf.org/internet-drafts/draft-ietf-sasl-saslprep-00.txt\n
* http://www.ietf.org/internet-drafts/draft-ietf-xmpp-nodeprep-01.txt\n
* http://www.ietf.org/internet-drafts/draft-ietf-xmpp-resourceprep-01.txt\n
*
* Further information and paid contract development:\n
* Simon Josefsson <simon@josefsson.org>
*
* \section examples Examples
*
* \include example.c
* \include example3.c
* \include example4.c
* \include example5.c
*/
/**
* STRINGPREP_VERSION
*
* String defined via CPP denoting the header file version number.
* Used together with stringprep_check_version() to verify header file
* and run-time library consistency.
*/
/**
* STRINGPREP_MAX_MAP_CHARS
*
* Maximum number of code points that can replace a single code point,
* during stringprep mapping.
*/
/**
* Stringprep_rc:
* @STRINGPREP_OK: Successful operation. This value is guaranteed to
* always be zero, the remaining ones are only guaranteed to hold
* non-zero values, for logical comparison purposes.
* @STRINGPREP_CONTAINS_UNASSIGNED: String contain unassigned Unicode
* code points, which is forbidden by the profile.
* @STRINGPREP_CONTAINS_PROHIBITED: String contain code points
* prohibited by the profile.
* @STRINGPREP_BIDI_BOTH_L_AND_RAL: String contain code points with
* conflicting bidirection category.
* @STRINGPREP_BIDI_LEADTRAIL_NOT_RAL: Leading and trailing character
* in string not of proper bidirectional category.
* @STRINGPREP_BIDI_CONTAINS_PROHIBITED: Contains prohibited code
* points detected by bidirectional code.
* @STRINGPREP_TOO_SMALL_BUFFER: Buffer handed to function was too
* small. This usually indicate a problem in the calling
* application.
* @STRINGPREP_PROFILE_ERROR: The stringprep profile was inconsistent.
* This usually indicate an internal error in the library.
* @STRINGPREP_FLAG_ERROR: The supplied flag conflicted with profile.
* This usually indicate a problem in the calling application.
* @STRINGPREP_UNKNOWN_PROFILE: The supplied profile name was not
* known to the library.
* @STRINGPREP_NFKC_FAILED: The Unicode NFKC operation failed. This
* usually indicate an internal error in the library.
* @STRINGPREP_MALLOC_ERROR: The malloc() was out of memory. This is
* usually a fatal error.
*
* Enumerated return codes of stringprep(), stringprep_profile()
* functions (and macros using those functions). The value 0 is
* guaranteed to always correspond to success.
*/
/**
* Stringprep_profile_flags:
* @STRINGPREP_NO_NFKC: Disable the NFKC normalization, as well as
* selecting the non-NFKC case folding tables. Usually the profile
* specifies BIDI and NFKC settings, and applications should not
* override it unless in special situations.
* @STRINGPREP_NO_BIDI: Disable the BIDI step. Usually the profile
* specifies BIDI and NFKC settings, and applications should not
* override it unless in special situations.
* @STRINGPREP_NO_UNASSIGNED: Make the library return with an error if
* string contains unassigned characters according to profile.
*
* Stringprep profile flags.
*/
/**
* Stringprep_profile_steps:
*
* Various steps in the stringprep algorithm. You really want to
* study the source code to understand this one. Only useful if you
* want to add another profile.
*/
/**
* stringprep_nameprep:
* @in: input/ouput array with string to prepare.
* @maxlen: maximum length of input/output array.
*
* Prepare the input UTF-8 string according to the nameprep profile.
* The AllowUnassigned flag is true, use
* stringprep_nameprep_no_unassigned() if you want a false
* AllowUnassigned. Returns 0 iff successful, or an error code.
**/
/**
* stringprep_nameprep_no_unassigned:
* @in: input/ouput array with string to prepare.
* @maxlen: maximum length of input/output array.
*
* Prepare the input UTF-8 string according to the nameprep profile.
* The AllowUnassigned flag is false, use stringprep_nameprep() for
* true AllowUnassigned. Returns 0 iff successful, or an error code.
**/
/**
* stringprep_iscsi:
* @in: input/ouput array with string to prepare.
* @maxlen: maximum length of input/output array.
*
* Prepare the input UTF-8 string according to the draft iSCSI
* stringprep profile. Returns 0 iff successful, or an error code.
**/
/**
* stringprep_plain:
* @in: input/ouput array with string to prepare.
* @maxlen: maximum length of input/output array.
*
* Prepare the input UTF-8 string according to the draft SASL
* ANONYMOUS profile. Returns 0 iff successful, or an error code.
**/
/**
* stringprep_xmpp_nodeprep:
* @in: input/ouput array with string to prepare.
* @maxlen: maximum length of input/output array.
*
* Prepare the input UTF-8 string according to the draft XMPP node
* identifier profile. Returns 0 iff successful, or an error code.
**/
/**
* stringprep_xmpp_resourceprep:
* @in: input/ouput array with string to prepare.
* @maxlen: maximum length of input/output array.
*
* Prepare the input UTF-8 string according to the draft XMPP resource
* identifier profile. Returns 0 iff successful, or an error code.
**/