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|
/* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is Mozilla Communicator client code, released
* March 31, 1998.
*
* The Initial Developer of the Original Code is
* Netscape Communications Corporation.
* Portions created by the Initial Developer are Copyright (C) 1998-1999
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
*
* Alternatively, the contents of this file may be used under the terms of
* either of the GNU General Public License Version 2 or later (the "GPL"),
* or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
/*
* Copyright (c) 1990 Regents of the University of Michigan.
* All rights reserved.
*
* Redistribution and use in source and binary forms are permitted
* provided that this notice is preserved and that due credit is given
* to the University of Michigan at Ann Arbor. The name of the University
* may not be used to endorse or promote products derived from this
* software without specific prior written permission. This software
* is provided ``as is'' without express or implied warranty.
*/
/* decode.c - ber input decoding routines */
#include "lber-int.h"
/*
* Note: ber_get_tag() only uses the ber_end and ber_ptr elements of ber.
* If that changes, the ber_peek_tag() and/or ber_skip_tag() implementations
* will need to be changed.
*/
/* return the tag - LBER_DEFAULT returned means trouble */
ber_tag_t
LDAP_CALL
ber_get_tag( BerElement *ber )
{
unsigned char xbyte;
ber_tag_t tag;
char *tagp;
int i;
if ( ber_read( ber, (char *) &xbyte, 1 ) != 1 )
return( LBER_DEFAULT );
if ( (xbyte & LBER_BIG_TAG_MASK) != LBER_BIG_TAG_MASK )
return( (ber_uint_t) xbyte );
tagp = (char *) &tag;
tagp[0] = xbyte;
for ( i = 1; i < sizeof(ber_int_t); i++ ) {
if ( ber_read( ber, (char *) &xbyte, 1 ) != 1 )
return( LBER_DEFAULT );
tagp[i] = xbyte;
if ( ! (xbyte & LBER_MORE_TAG_MASK) )
break;
}
/* tag too big! */
if ( i == sizeof(ber_int_t) )
return( LBER_DEFAULT );
/* want leading, not trailing 0's */
return( tag >> (sizeof(ber_int_t) - i - 1) );
}
/*
* Note: ber_skip_tag() only uses the ber_end and ber_ptr elements of ber.
* If that changes, the implementation of ber_peek_tag() will need to
* be changed.
*/
ber_tag_t
LDAP_CALL
ber_skip_tag( BerElement *ber, ber_len_t *len )
{
ber_tag_t tag;
unsigned char lc;
int noctets, diff;
ber_len_t netlen;
/*
* Any ber element looks like this: tag length contents.
* Assuming everything's ok, we return the tag byte (we
* can assume a single byte), and return the length in len.
*
* Assumptions:
* 1) definite lengths
* 2) primitive encodings used whenever possible
*/
/*
* First, we read the tag.
*/
if ( (tag = ber_get_tag( ber )) == LBER_DEFAULT )
return( LBER_DEFAULT );
/*
* Next, read the length. The first byte contains the length of
* the length. If bit 8 is set, the length is the long form,
* otherwise it's the short form. We don't allow a length that's
* greater than what we can hold in an unsigned long.
*/
*len = netlen = 0;
if ( ber_read( ber, (char *) &lc, 1 ) != 1 )
return( LBER_DEFAULT );
if ( lc & 0x80 ) {
noctets = (lc & 0x7f);
if ( noctets > sizeof(ber_uint_t) )
return( LBER_DEFAULT );
diff = sizeof(ber_int_t) - noctets;
if ( ber_read( ber, (char *) &netlen + diff, noctets )
!= noctets )
return( LBER_DEFAULT );
*len = LBER_NTOHL( netlen );
} else {
*len = lc;
}
return( tag );
}
/*
* Note: Previously, we passed the "ber" parameter directly to ber_skip_tag(),
* saving and restoring the ber_ptr element only. We now take advantage
* of the fact that the only ber structure elements touched by ber_skip_tag()
* are ber_end and ber_ptr. If that changes, this code must change too.
*/
ber_tag_t
LDAP_CALL
ber_peek_tag( BerElement *ber, ber_len_t *len )
{
BerElement bercopy;
bercopy.ber_end = ber->ber_end;
bercopy.ber_ptr = ber->ber_ptr;
return( ber_skip_tag( &bercopy, len ));
}
static int
ber_getnint( BerElement *ber, ber_int_t *num, ber_slen_t len )
{
int i;
ber_int_t value;
unsigned char buffer[sizeof(ber_int_t)];
/*
* The tag and length have already been stripped off. We should
* be sitting right before len bytes of 2's complement integer,
* ready to be read straight into an int. We may have to sign
* extend after we read it in.
*/
if ( len > sizeof(ber_slen_t) )
return( -1 );
/* read into the low-order bytes of netnum */
if ( ber_read( ber, (char *) buffer, len ) != len )
return( -1 );
/* This sets the required sign extension */
if ( len != 0) {
value = 0x80 & buffer[0] ? (-1) : 0;
} else {
value = 0;
}
for ( i = 0; i < len; i++ )
value = (value << 8) | buffer[i];
*num = value;
return( len );
}
ber_tag_t
LDAP_CALL
ber_get_int( BerElement *ber, ber_int_t *num )
{
ber_tag_t tag;
ber_len_t len;
if ( (tag = ber_skip_tag( ber, &len )) == LBER_DEFAULT )
return( LBER_DEFAULT );
/*
* len is being demoted to a long here -- possible conversion error
*/
if ( ber_getnint( ber, num, (int)len ) != (ber_slen_t)len )
return( LBER_DEFAULT );
else
return( tag );
}
ber_tag_t
LDAP_CALL
ber_get_stringb( BerElement *ber, char *buf, ber_len_t *len )
{
ber_len_t datalen;
ber_tag_t tag;
#ifdef STR_TRANSLATION
char *transbuf;
#endif /* STR_TRANSLATION */
if ( (tag = ber_skip_tag( ber, &datalen )) == LBER_DEFAULT )
return( LBER_DEFAULT );
if ( datalen > (*len - 1) )
return( LBER_DEFAULT );
/*
* datalen is being demoted to a long here -- possible conversion error
*/
if ( ber_read( ber, buf, datalen ) != (ber_slen_t) datalen )
return( LBER_DEFAULT );
buf[datalen] = '\0';
#ifdef STR_TRANSLATION
if ( datalen > 0 && ( ber->ber_options & LBER_OPT_TRANSLATE_STRINGS )
!= 0 && ber->ber_decode_translate_proc != NULL ) {
transbuf = buf;
++datalen;
if ( (*(ber->ber_decode_translate_proc))( &transbuf, &datalen,
0 ) != 0 ) {
return( LBER_DEFAULT );
}
if ( datalen > *len ) {
NSLBERI_FREE( transbuf );
return( LBER_DEFAULT );
}
SAFEMEMCPY( buf, transbuf, datalen );
NSLBERI_FREE( transbuf );
--datalen;
}
#endif /* STR_TRANSLATION */
*len = datalen;
return( tag );
}
ber_tag_t
LDAP_CALL
ber_get_stringa( BerElement *ber, char **buf )
{
ber_len_t datalen, ndatalen;
ber_tag_t tag;
if ( (tag = ber_skip_tag( ber, &datalen )) == LBER_DEFAULT )
return( LBER_DEFAULT );
if ( ((ndatalen = (size_t)datalen + 1) < (size_t) datalen) ||
( datalen > (ber->ber_end - ber->ber_ptr) ) ||
( (*buf = (char *)NSLBERI_MALLOC( (size_t)ndatalen )) == NULL ))
return( LBER_DEFAULT );
/*
* datalen is being demoted to a long here -- possible conversion error
*/
if ( ber_read( ber, *buf, datalen ) != (ber_slen_t) datalen ) {
NSLBERI_FREE( *buf );
*buf = NULL;
return( LBER_DEFAULT );
}
(*buf)[datalen] = '\0';
#ifdef STR_TRANSLATION
if ( datalen > 0 && ( ber->ber_options & LBER_OPT_TRANSLATE_STRINGS )
!= 0 && ber->ber_decode_translate_proc != NULL ) {
++datalen;
if ( (*(ber->ber_decode_translate_proc))( buf, &datalen, 1 )
!= 0 ) {
NSLBERI_FREE( *buf );
*buf = NULL;
return( LBER_DEFAULT );
}
}
#endif /* STR_TRANSLATION */
return( tag );
}
ber_tag_t
LDAP_CALL
ber_get_stringal( BerElement *ber, struct berval **bv )
{
ber_len_t len, nlen;
ber_tag_t tag;
if ( (*bv = (struct berval *)NSLBERI_MALLOC( sizeof(struct berval) ))
== NULL ) {
return( LBER_DEFAULT );
}
(*bv)->bv_val = NULL;
(*bv)->bv_len = 0;
if ( (tag = ber_skip_tag( ber, &len )) == LBER_DEFAULT ) {
NSLBERI_FREE( *bv );
*bv = NULL;
return( LBER_DEFAULT );
}
if ( ((nlen = (size_t) len + 1) < (size_t)len) ||
( len > (ber->ber_end - ber->ber_ptr) ) ||
(((*bv)->bv_val = (char *)NSLBERI_MALLOC( (size_t)nlen ))
== NULL )) {
NSLBERI_FREE( *bv );
*bv = NULL;
return( LBER_DEFAULT );
}
/*
* len is being demoted to a long here -- possible conversion error
*/
if ( ber_read( ber, (*bv)->bv_val, len ) != (ber_slen_t) len ) {
NSLBERI_FREE( (*bv)->bv_val );
(*bv)->bv_val = NULL;
NSLBERI_FREE( *bv );
*bv = NULL;
return( LBER_DEFAULT );
}
((*bv)->bv_val)[len] = '\0';
(*bv)->bv_len = len;
#ifdef STR_TRANSLATION
if ( len > 0 && ( ber->ber_options & LBER_OPT_TRANSLATE_STRINGS ) != 0
&& ber->ber_decode_translate_proc != NULL ) {
++len;
if ( (*(ber->ber_decode_translate_proc))( &((*bv)->bv_val),
&len, 1 ) != 0 ) {
NSLBERI_FREE( (*bv)->bv_val );
(*bv)->bv_val = NULL;
NSLBERI_FREE( *bv );
*bv = NULL;
return( LBER_DEFAULT );
}
(*bv)->bv_len = len - 1;
}
#endif /* STR_TRANSLATION */
return( tag );
}
ber_tag_t
LDAP_CALL
ber_get_bitstringa( BerElement *ber, char **buf, ber_len_t *blen )
{
ber_len_t datalen;
ber_tag_t tag;
unsigned char unusedbits;
if ( (tag = ber_skip_tag( ber, &datalen )) == LBER_DEFAULT )
return( LBER_DEFAULT );
--datalen;
if ( (datalen > (ber->ber_end - ber->ber_ptr)) ||
( (*buf = (char *)NSLBERI_MALLOC((size_t)datalen )) == NULL ) )
return( LBER_DEFAULT );
if ( ber_read( ber, (char *)&unusedbits, 1 ) != 1 ) {
NSLBERI_FREE( *buf );
*buf = NULL;
return( LBER_DEFAULT );
}
/*
* datalen is being demoted to a long here -- possible conversion error
*/
if ( ber_read( ber, *buf, datalen ) != (ber_slen_t) datalen ) {
NSLBERI_FREE( *buf );
*buf = NULL;
return( LBER_DEFAULT );
}
*blen = datalen * 8 - unusedbits;
return( tag );
}
ber_tag_t
LDAP_CALL
ber_get_null( BerElement *ber )
{
ber_len_t len;
ber_tag_t tag;
if ( (tag = ber_skip_tag( ber, &len )) == LBER_DEFAULT )
return( LBER_DEFAULT );
if ( len != 0 )
return( LBER_DEFAULT );
return( tag );
}
ber_tag_t
LDAP_CALL
ber_get_boolean( BerElement *ber, ber_int_t *boolval )
{
int rc;
rc = ber_get_int( ber, boolval );
return( rc );
}
ber_tag_t
LDAP_CALL
ber_first_element( BerElement *ber, ber_len_t *len, char **last )
{
/* skip the sequence header, use the len to mark where to stop */
if ( ber_skip_tag( ber, len ) == LBER_DEFAULT ) {
return( LBER_ERROR );
}
*last = ber->ber_ptr + *len;
if ( *last == ber->ber_ptr ) {
return( LBER_END_OF_SEQORSET );
}
return( ber_peek_tag( ber, len ) );
}
ber_tag_t
LDAP_CALL
ber_next_element( BerElement *ber, ber_len_t *len, char *last )
{
if ( ber->ber_ptr == last ) {
return( LBER_END_OF_SEQORSET );
}
return( ber_peek_tag( ber, len ) );
}
/* VARARGS */
ber_tag_t
LDAP_C
ber_scanf( BerElement *ber, const char *fmt, ... )
{
va_list ap;
char *last, *p;
char *s, **ss, ***sss;
struct berval ***bv, **bvp, *bval;
int *i, j;
ber_int_t *l, rc, tag;
ber_tag_t *t;
ber_len_t len;
size_t array_size;
va_start( ap, fmt );
#ifdef LDAP_DEBUG
if ( lber_debug & 64 ) {
char msg[80];
sprintf( msg, "ber_scanf fmt (%s) ber:\n", fmt );
ber_err_print( msg );
ber_dump( ber, 1 );
}
#endif
for ( rc = 0, p = (char *) fmt; *p && rc != LBER_DEFAULT; p++ ) {
switch ( *p ) {
case 'a': /* octet string - allocate storage as needed */
ss = va_arg( ap, char ** );
rc = ber_get_stringa( ber, ss );
break;
case 'b': /* boolean */
i = va_arg( ap, int * );
rc = ber_get_boolean( ber, i );
break;
case 'e': /* enumerated */
case 'i': /* int */
l = va_arg( ap, ber_slen_t * );
rc = ber_get_int( ber, l );
break;
case 'l': /* length of next item */
l = va_arg( ap, ber_slen_t * );
rc = ber_peek_tag( ber, (ber_len_t *)l );
break;
case 'n': /* null */
rc = ber_get_null( ber );
break;
case 's': /* octet string - in a buffer */
s = va_arg( ap, char * );
l = va_arg( ap, ber_slen_t * );
rc = ber_get_stringb( ber, s, (ber_len_t *)l );
break;
case 'o': /* octet string in a supplied berval */
bval = va_arg( ap, struct berval * );
ber_peek_tag( ber, &bval->bv_len );
rc = ber_get_stringa( ber, &bval->bv_val );
break;
case 'O': /* octet string - allocate & include length */
bvp = va_arg( ap, struct berval ** );
rc = ber_get_stringal( ber, bvp );
break;
case 'B': /* bit string - allocate storage as needed */
ss = va_arg( ap, char ** );
l = va_arg( ap, ber_slen_t * ); /* for length, in bits */
rc = ber_get_bitstringa( ber, ss, (ber_len_t *)l );
break;
case 't': /* tag of next item */
t = va_arg( ap, ber_tag_t * );
*t = rc = ber_peek_tag( ber, &len );
break;
case 'T': /* skip tag of next item */
t = va_arg( ap, ber_tag_t * );
*t = rc = ber_skip_tag( ber, &len );
break;
case 'v': /* sequence of strings */
sss = va_arg( ap, char *** );
*sss = NULL;
j = 0;
array_size = 0;
for ( tag = ber_first_element( ber, &len, &last );
tag != LBER_DEFAULT && tag != LBER_END_OF_SEQORSET
&& rc != LBER_DEFAULT;
tag = ber_next_element( ber, &len, last ) ) {
if ( *sss == NULL ) {
/* Make room for at least 15 strings */
*sss = (char **)NSLBERI_MALLOC(16 * sizeof(char *) );
if (!*sss) {
rc = LBER_DEFAULT;
break; /* out of memory - cannot continue */
}
array_size = 16;
} else {
char **save_sss = *sss;
if ( (size_t)(j+2) > array_size) {
/* We'v overflowed our buffer */
*sss = (char **)NSLBERI_REALLOC( *sss, (array_size * 2) * sizeof(char *) );
array_size = array_size * 2;
}
if (!*sss) {
rc = LBER_DEFAULT;
ber_svecfree(save_sss);
break; /* out of memory - cannot continue */
}
}
(*sss)[j] = NULL;
rc = ber_get_stringa( ber, &((*sss)[j]) );
j++;
}
if ( rc != LBER_DEFAULT &&
tag != LBER_END_OF_SEQORSET ) {
rc = LBER_DEFAULT;
}
if ( *sss && (j > 0) ) {
(*sss)[j] = NULL;
}
break;
case 'V': /* sequence of strings + lengths */
bv = va_arg( ap, struct berval *** );
*bv = NULL;
j = 0;
for ( tag = ber_first_element( ber, &len, &last );
tag != LBER_DEFAULT && tag != LBER_END_OF_SEQORSET
&& rc != LBER_DEFAULT;
tag = ber_next_element( ber, &len, last ) ) {
if ( *bv == NULL ) {
*bv = (struct berval **)NSLBERI_MALLOC(
2 * sizeof(struct berval *) );
if (!*bv) {
rc = LBER_DEFAULT;
break; /* out of memory - cannot continue */
}
} else {
struct berval **save_bv = *bv;
*bv = (struct berval **)NSLBERI_REALLOC(
*bv,
(j + 2) * sizeof(struct berval *) );
if (!*bv) {
rc = LBER_DEFAULT;
ber_bvecfree(save_bv);
break; /* out of memory - cannot continue */
}
}
rc = ber_get_stringal( ber, &((*bv)[j]) );
j++;
}
if ( rc != LBER_DEFAULT &&
tag != LBER_END_OF_SEQORSET ) {
rc = LBER_DEFAULT;
}
if ( *bv && (j > 0) ) {
(*bv)[j] = NULL;
}
break;
case 'x': /* skip the next element - whatever it is */
if ( (rc = ber_skip_tag( ber, &len )) == LBER_DEFAULT )
break;
ber->ber_ptr += len;
break;
case '{': /* begin sequence */
case '[': /* begin set */
if ( *(p + 1) != 'v' && *(p + 1) != 'V' )
rc = ber_skip_tag( ber, &len );
break;
case '}': /* end sequence */
case ']': /* end set */
break;
default:
{
char msg[80];
sprintf( msg, "unknown fmt %c\n", *p );
ber_err_print( msg );
}
rc = LBER_DEFAULT;
break;
}
}
va_end( ap );
if (rc == LBER_DEFAULT) {
va_start( ap, fmt );
for ( p--; fmt < p && *fmt; fmt++ ) {
switch ( *fmt ) {
case 'a': /* octet string - allocate storage as needed */
ss = va_arg( ap, char ** );
NSLBERI_FREE(*ss);
*ss = NULL;
break;
case 'b': /* boolean */
i = va_arg( ap, int * );
break;
case 'e': /* enumerated */
case 'i': /* int */
l = va_arg( ap, ber_slen_t * );
break;
case 'l': /* length of next item */
l = va_arg( ap, ber_slen_t * );
break;
case 'n': /* null */
break;
case 's': /* octet string - in a buffer */
s = va_arg( ap, char * );
l = va_arg( ap, ber_slen_t * );
break;
case 'o': /* octet string in a supplied berval */
bval = va_arg( ap, struct berval * );
if (bval->bv_val) NSLBERI_FREE(bval->bv_val);
memset(bval, 0, sizeof(struct berval));
break;
case 'O': /* octet string - allocate & include length */
bvp = va_arg( ap, struct berval ** );
ber_bvfree(*bvp);
bvp = NULL;
break;
case 'B': /* bit string - allocate storage as needed */
ss = va_arg( ap, char ** );
l = va_arg( ap, ber_slen_t * ); /* for length, in bits */
if (*ss) NSLBERI_FREE(*ss);
*ss = NULL;
break;
case 't': /* tag of next item */
t = va_arg( ap, ber_tag_t * );
break;
case 'T': /* skip tag of next item */
t = va_arg( ap, ber_tag_t * );
break;
case 'v': /* sequence of strings */
sss = va_arg( ap, char *** );
ber_svecfree(*sss);
*sss = NULL;
break;
case 'V': /* sequence of strings + lengths */
bv = va_arg( ap, struct berval *** );
ber_bvecfree(*bv);
*bv = NULL;
break;
case 'x': /* skip the next element - whatever it is */
break;
case '{': /* begin sequence */
case '[': /* begin set */
break;
case '}': /* end sequence */
case ']': /* end set */
break;
default:
break;
}
} /* for */
va_end( ap );
} /* if */
return( rc );
}
void
LDAP_CALL
ber_bvfree( struct berval *bv )
{
if ( bv != NULL ) {
if ( bv->bv_val != NULL ) {
NSLBERI_FREE( bv->bv_val );
}
NSLBERI_FREE( (char *) bv );
}
}
void
LDAP_CALL
ber_bvecfree( struct berval **bv )
{
int i;
if ( bv != NULL ) {
for ( i = 0; bv[i] != NULL; i++ ) {
ber_bvfree( bv[i] );
}
NSLBERI_FREE( (char *) bv );
}
}
struct berval *
LDAP_CALL
ber_bvdup( const struct berval *bv )
{
struct berval *new;
if ( (new = (struct berval *)NSLBERI_MALLOC( sizeof(struct berval) ))
== NULL ) {
return( NULL );
}
if ( bv->bv_val == NULL ) {
new->bv_val = NULL;
new->bv_len = 0;
} else {
if ( (new->bv_val = (char *)NSLBERI_MALLOC( bv->bv_len + 1 ))
== NULL ) {
NSLBERI_FREE( new );
new = NULL;
return( NULL );
}
SAFEMEMCPY( new->bv_val, bv->bv_val, (size_t) bv->bv_len );
new->bv_val[bv->bv_len] = '\0';
new->bv_len = bv->bv_len;
}
return( new );
}
void
LDAP_CALL
ber_svecfree( char **vals )
{
int i;
if ( vals == NULL )
return;
for ( i = 0; vals[i] != NULL; i++ )
NSLBERI_FREE( vals[i] );
NSLBERI_FREE( (char *) vals );
}
#ifdef STR_TRANSLATION
void
LDAP_CALL
ber_set_string_translators(
BerElement *ber,
BERTranslateProc encode_proc,
BERTranslateProc decode_proc
)
{
ber->ber_encode_translate_proc = encode_proc;
ber->ber_decode_translate_proc = decode_proc;
}
#endif /* STR_TRANSLATION */
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