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/*
ldb database library
Copyright ( C ) Andrew Tridgell 2004
* * NOTE ! The following LGPL license applies to the ldb
* * library . This does NOT imply that all of Samba is released
* * under the LGPL
This library 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
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version 3 of the License , or ( at your option ) any later version .
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This library 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
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License along with this library ; if not , see < http : //www.gnu.org/licenses/>.
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*/
/*
* Name : ldb
*
* Component : ldb expression parsing
*
* Description : parse LDAP - like search expressions
*
* Author : Andrew Tridgell
*/
/*
TODO :
- add RFC2254 binary string handling
- possibly add ~ = , < = and > = handling
- expand the test suite
- add better parse error handling
*/
# include "includes.h"
# include "ldb/include/includes.h"
# include "system/locale.h"
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struct ldb_val ldb_binary_decode ( void * mem_ctx , const char * str ) ;
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/*
a filter is defined by :
< filter > : : = ' ( ' < filtercomp > ' ) '
< filtercomp > : : = < and > | < or > | < not > | < simple >
< and > : : = ' & ' < filterlist >
< or > : : = ' | ' < filterlist >
< not > : : = ' ! ' < filter >
< filterlist > : : = < filter > | < filter > < filterlist >
< simple > : : = < attributetype > < filtertype > < attributevalue >
< filtertype > : : = ' = ' | ' ~ = ' | ' < = ' | ' > = '
*/
/*
decode a RFC2254 binary string representation of a buffer .
Used in LDAP filters .
*/
struct ldb_val ldb_binary_decode ( void * mem_ctx , const char * str )
{
int i , j ;
struct ldb_val ret ;
int slen = str ? strlen ( str ) : 0 ;
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ret . data = ( uint8_t * ) talloc_size ( mem_ctx , slen + 1 ) ;
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ret . length = 0 ;
if ( ret . data = = NULL ) return ret ;
for ( i = j = 0 ; i < slen ; i + + ) {
if ( str [ i ] = = ' \\ ' ) {
unsigned c ;
if ( sscanf ( & str [ i + 1 ] , " %02X " , & c ) ! = 1 ) {
talloc_free ( ret . data ) ;
memset ( & ret , 0 , sizeof ( ret ) ) ;
return ret ;
}
( ( uint8_t * ) ret . data ) [ j + + ] = c ;
i + = 2 ;
} else {
( ( uint8_t * ) ret . data ) [ j + + ] = str [ i ] ;
}
}
ret . length = j ;
( ( uint8_t * ) ret . data ) [ j ] = 0 ;
return ret ;
}
/*
encode a blob as a RFC2254 binary string , escaping any
non - printable or ' \ ' characters
*/
char * ldb_binary_encode ( void * mem_ctx , struct ldb_val val )
{
int i ;
char * ret ;
int len = val . length ;
unsigned char * buf = val . data ;
for ( i = 0 ; i < val . length ; i + + ) {
if ( ! isprint ( buf [ i ] ) | | strchr ( " *() \\ &|! \" " , buf [ i ] ) ) {
len + = 2 ;
}
}
ret = talloc_array ( mem_ctx , char , len + 1 ) ;
if ( ret = = NULL ) return NULL ;
len = 0 ;
for ( i = 0 ; i < val . length ; i + + ) {
if ( ! isprint ( buf [ i ] ) | | strchr ( " *() \\ &|! \" " , buf [ i ] ) ) {
snprintf ( ret + len , 4 , " \\ %02X " , buf [ i ] ) ;
len + = 3 ;
} else {
ret [ len + + ] = buf [ i ] ;
}
}
ret [ len ] = 0 ;
return ret ;
}
/*
encode a string as a RFC2254 binary string , escaping any
non - printable or ' \ ' characters . This routine is suitable for use
in escaping user data in ldap filters .
*/
char * ldb_binary_encode_string ( void * mem_ctx , const char * string )
{
struct ldb_val val ;
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val . data = discard_const_p ( uint8_t , string ) ;
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val . length = strlen ( string ) ;
return ldb_binary_encode ( mem_ctx , val ) ;
}
/* find the first matching wildcard */
static char * ldb_parse_find_wildcard ( char * value )
{
while ( * value ) {
value = strpbrk ( value , " \\ * " ) ;
if ( value = = NULL ) return NULL ;
if ( value [ 0 ] = = ' \\ ' ) {
if ( value [ 1 ] = = ' \0 ' ) return NULL ;
value + = 2 ;
continue ;
}
if ( value [ 0 ] = = ' * ' ) return value ;
}
return NULL ;
}
/* return a NULL terminated list of binary strings representing the value
chunks separated by wildcards that makes the value portion of the filter
*/
static struct ldb_val * * ldb_wildcard_decode ( void * mem_ctx , const char * string )
{
struct ldb_val * * ret = NULL ;
int val = 0 ;
char * wc , * str ;
wc = talloc_strdup ( mem_ctx , string ) ;
if ( wc = = NULL ) return NULL ;
while ( wc & & * wc ) {
str = wc ;
wc = ldb_parse_find_wildcard ( str ) ;
if ( wc & & * wc ) {
if ( wc = = str ) {
wc + + ;
continue ;
}
* wc = 0 ;
wc + + ;
}
ret = talloc_realloc ( mem_ctx , ret , struct ldb_val * , val + 2 ) ;
if ( ret = = NULL ) return NULL ;
ret [ val ] = talloc ( mem_ctx , struct ldb_val ) ;
if ( ret [ val ] = = NULL ) return NULL ;
* ( ret [ val ] ) = ldb_binary_decode ( mem_ctx , str ) ;
if ( ( ret [ val ] ) - > data = = NULL ) return NULL ;
val + + ;
}
if ( ret ! = NULL ) {
ret [ val ] = NULL ;
}
return ret ;
}
static struct ldb_parse_tree * ldb_parse_filter ( void * mem_ctx , const char * * s ) ;
/*
parse an extended match
possible forms :
( attr : oid : = value )
( attr : dn : oid : = value )
( attr : dn : = value )
( : dn : oid : = value )
the ' : dn ' part sets the dnAttributes boolean if present
the oid sets the rule_id string
*/
static struct ldb_parse_tree * ldb_parse_extended ( struct ldb_parse_tree * ret ,
char * attr , char * value )
{
char * p1 , * p2 ;
ret - > operation = LDB_OP_EXTENDED ;
ret - > u . extended . value = ldb_binary_decode ( ret , value ) ;
if ( ret - > u . extended . value . data = = NULL ) goto failed ;
p1 = strchr ( attr , ' : ' ) ;
if ( p1 = = NULL ) goto failed ;
p2 = strchr ( p1 + 1 , ' : ' ) ;
* p1 = 0 ;
if ( p2 ) * p2 = 0 ;
ret - > u . extended . attr = attr ;
if ( strcmp ( p1 + 1 , " dn " ) = = 0 ) {
ret - > u . extended . dnAttributes = 1 ;
if ( p2 ) {
ret - > u . extended . rule_id = talloc_strdup ( ret , p2 + 1 ) ;
if ( ret - > u . extended . rule_id = = NULL ) goto failed ;
} else {
ret - > u . extended . rule_id = NULL ;
}
} else {
ret - > u . extended . dnAttributes = 0 ;
ret - > u . extended . rule_id = talloc_strdup ( ret , p1 + 1 ) ;
if ( ret - > u . extended . rule_id = = NULL ) goto failed ;
}
return ret ;
failed :
talloc_free ( ret ) ;
return NULL ;
}
static enum ldb_parse_op ldb_parse_filtertype ( void * mem_ctx , char * * type , char * * value , const char * * s )
{
enum ldb_parse_op filter = 0 ;
char * name , * val , * k ;
const char * p = * s ;
const char * t , * t1 ;
/* retrieve attributetype name */
t = p ;
while ( ( isascii ( * p ) & & isalnum ( ( unsigned char ) * p ) ) | | ( * p = = ' - ' ) ) { /* attribute names can only be alphanums */
p + + ;
}
if ( * p = = ' : ' ) { /* but extended searches have : and . chars too */
p = strstr ( p , " := " ) ;
if ( p = = NULL ) { /* malformed attribute name */
return 0 ;
}
}
t1 = p ;
while ( isspace ( ( unsigned char ) * p ) ) p + + ;
if ( ! strchr ( " =<>~: " , * p ) ) {
return 0 ;
}
/* save name */
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name = ( char * ) talloc_memdup ( mem_ctx , t , t1 - t + 1 ) ;
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if ( name = = NULL ) return 0 ;
name [ t1 - t ] = ' \0 ' ;
/* retrieve filtertype */
if ( * p = = ' = ' ) {
filter = LDB_OP_EQUALITY ;
} else if ( * ( p + 1 ) = = ' = ' ) {
switch ( * p ) {
case ' < ' :
filter = LDB_OP_LESS ;
p + + ;
break ;
case ' > ' :
filter = LDB_OP_GREATER ;
p + + ;
break ;
case ' ~ ' :
filter = LDB_OP_APPROX ;
p + + ;
break ;
case ' : ' :
filter = LDB_OP_EXTENDED ;
p + + ;
break ;
}
}
if ( ! filter ) {
talloc_free ( name ) ;
return filter ;
}
p + + ;
while ( isspace ( ( unsigned char ) * p ) ) p + + ;
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/* retrieve value */
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t = p ;
while ( * p & & ( ( * p ! = ' ) ' ) | | ( ( * p = = ' ) ' ) & & ( * ( p - 1 ) = = ' \\ ' ) ) ) ) p + + ;
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val = ( char * ) talloc_memdup ( mem_ctx , t , p - t + 1 ) ;
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if ( val = = NULL ) {
talloc_free ( name ) ;
return 0 ;
}
val [ p - t ] = ' \0 ' ;
k = & ( val [ p - t ] ) ;
/* remove trailing spaces from value */
while ( ( k > val ) & & ( isspace ( ( unsigned char ) * ( k - 1 ) ) ) ) k - - ;
* k = ' \0 ' ;
* type = name ;
* value = val ;
* s = p ;
return filter ;
}
/*
< simple > : : = < attributetype > < filtertype > < attributevalue >
*/
static struct ldb_parse_tree * ldb_parse_simple ( void * mem_ctx , const char * * s )
{
char * attr , * value ;
struct ldb_parse_tree * ret ;
enum ldb_parse_op filtertype ;
ret = talloc ( mem_ctx , struct ldb_parse_tree ) ;
if ( ! ret ) {
errno = ENOMEM ;
return NULL ;
}
filtertype = ldb_parse_filtertype ( ret , & attr , & value , s ) ;
if ( ! filtertype ) {
talloc_free ( ret ) ;
return NULL ;
}
switch ( filtertype ) {
case LDB_OP_PRESENT :
ret - > operation = LDB_OP_PRESENT ;
ret - > u . present . attr = attr ;
break ;
case LDB_OP_EQUALITY :
if ( strcmp ( value , " * " ) = = 0 ) {
ret - > operation = LDB_OP_PRESENT ;
ret - > u . present . attr = attr ;
break ;
}
if ( ldb_parse_find_wildcard ( value ) ! = NULL ) {
ret - > operation = LDB_OP_SUBSTRING ;
ret - > u . substring . attr = attr ;
ret - > u . substring . start_with_wildcard = 0 ;
ret - > u . substring . end_with_wildcard = 0 ;
ret - > u . substring . chunks = ldb_wildcard_decode ( ret , value ) ;
if ( ret - > u . substring . chunks = = NULL ) {
talloc_free ( ret ) ;
return NULL ;
}
if ( value [ 0 ] = = ' * ' )
ret - > u . substring . start_with_wildcard = 1 ;
if ( value [ strlen ( value ) - 1 ] = = ' * ' )
ret - > u . substring . end_with_wildcard = 1 ;
talloc_free ( value ) ;
break ;
}
ret - > operation = LDB_OP_EQUALITY ;
ret - > u . equality . attr = attr ;
ret - > u . equality . value = ldb_binary_decode ( ret , value ) ;
if ( ret - > u . equality . value . data = = NULL ) {
talloc_free ( ret ) ;
return NULL ;
}
talloc_free ( value ) ;
break ;
case LDB_OP_GREATER :
ret - > operation = LDB_OP_GREATER ;
ret - > u . comparison . attr = attr ;
ret - > u . comparison . value = ldb_binary_decode ( ret , value ) ;
if ( ret - > u . comparison . value . data = = NULL ) {
talloc_free ( ret ) ;
return NULL ;
}
talloc_free ( value ) ;
break ;
case LDB_OP_LESS :
ret - > operation = LDB_OP_LESS ;
ret - > u . comparison . attr = attr ;
ret - > u . comparison . value = ldb_binary_decode ( ret , value ) ;
if ( ret - > u . comparison . value . data = = NULL ) {
talloc_free ( ret ) ;
return NULL ;
}
talloc_free ( value ) ;
break ;
case LDB_OP_APPROX :
ret - > operation = LDB_OP_APPROX ;
ret - > u . comparison . attr = attr ;
ret - > u . comparison . value = ldb_binary_decode ( ret , value ) ;
if ( ret - > u . comparison . value . data = = NULL ) {
talloc_free ( ret ) ;
return NULL ;
}
talloc_free ( value ) ;
break ;
case LDB_OP_EXTENDED :
ret = ldb_parse_extended ( ret , attr , value ) ;
break ;
default :
talloc_free ( ret ) ;
return NULL ;
}
return ret ;
}
/*
parse a filterlist
< and > : : = ' & ' < filterlist >
< or > : : = ' | ' < filterlist >
< filterlist > : : = < filter > | < filter > < filterlist >
*/
static struct ldb_parse_tree * ldb_parse_filterlist ( void * mem_ctx , const char * * s )
{
struct ldb_parse_tree * ret , * next ;
enum ldb_parse_op op ;
const char * p = * s ;
switch ( * p ) {
case ' & ' :
op = LDB_OP_AND ;
break ;
case ' | ' :
op = LDB_OP_OR ;
break ;
default :
return NULL ;
}
p + + ;
while ( isspace ( ( unsigned char ) * p ) ) p + + ;
ret = talloc ( mem_ctx , struct ldb_parse_tree ) ;
if ( ! ret ) {
errno = ENOMEM ;
return NULL ;
}
ret - > operation = op ;
ret - > u . list . num_elements = 1 ;
ret - > u . list . elements = talloc ( ret , struct ldb_parse_tree * ) ;
if ( ! ret - > u . list . elements ) {
errno = ENOMEM ;
talloc_free ( ret ) ;
return NULL ;
}
ret - > u . list . elements [ 0 ] = ldb_parse_filter ( ret - > u . list . elements , & p ) ;
if ( ! ret - > u . list . elements [ 0 ] ) {
talloc_free ( ret ) ;
return NULL ;
}
while ( isspace ( ( unsigned char ) * p ) ) p + + ;
while ( * p & & ( next = ldb_parse_filter ( ret - > u . list . elements , & p ) ) ) {
struct ldb_parse_tree * * e ;
e = talloc_realloc ( ret , ret - > u . list . elements ,
struct ldb_parse_tree * ,
ret - > u . list . num_elements + 1 ) ;
if ( ! e ) {
errno = ENOMEM ;
talloc_free ( ret ) ;
return NULL ;
}
ret - > u . list . elements = e ;
ret - > u . list . elements [ ret - > u . list . num_elements ] = next ;
ret - > u . list . num_elements + + ;
while ( isspace ( ( unsigned char ) * p ) ) p + + ;
}
* s = p ;
return ret ;
}
/*
< not > : : = ' ! ' < filter >
*/
static struct ldb_parse_tree * ldb_parse_not ( void * mem_ctx , const char * * s )
{
struct ldb_parse_tree * ret ;
const char * p = * s ;
if ( * p ! = ' ! ' ) {
return NULL ;
}
p + + ;
ret = talloc ( mem_ctx , struct ldb_parse_tree ) ;
if ( ! ret ) {
errno = ENOMEM ;
return NULL ;
}
ret - > operation = LDB_OP_NOT ;
ret - > u . isnot . child = ldb_parse_filter ( ret , & p ) ;
if ( ! ret - > u . isnot . child ) {
talloc_free ( ret ) ;
return NULL ;
}
* s = p ;
return ret ;
}
/*
parse a filtercomp
< filtercomp > : : = < and > | < or > | < not > | < simple >
*/
static struct ldb_parse_tree * ldb_parse_filtercomp ( void * mem_ctx , const char * * s )
{
struct ldb_parse_tree * ret ;
const char * p = * s ;
while ( isspace ( ( unsigned char ) * p ) ) p + + ;
switch ( * p ) {
case ' & ' :
ret = ldb_parse_filterlist ( mem_ctx , & p ) ;
break ;
case ' | ' :
ret = ldb_parse_filterlist ( mem_ctx , & p ) ;
break ;
case ' ! ' :
ret = ldb_parse_not ( mem_ctx , & p ) ;
break ;
case ' ( ' :
case ' ) ' :
return NULL ;
default :
ret = ldb_parse_simple ( mem_ctx , & p ) ;
}
* s = p ;
return ret ;
}
/*
< filter > : : = ' ( ' < filtercomp > ' ) '
*/
static struct ldb_parse_tree * ldb_parse_filter ( void * mem_ctx , const char * * s )
{
struct ldb_parse_tree * ret ;
const char * p = * s ;
if ( * p ! = ' ( ' ) {
return NULL ;
}
p + + ;
ret = ldb_parse_filtercomp ( mem_ctx , & p ) ;
if ( * p ! = ' ) ' ) {
return NULL ;
}
p + + ;
while ( isspace ( ( unsigned char ) * p ) ) {
p + + ;
}
* s = p ;
return ret ;
}
/*
main parser entry point . Takes a search string and returns a parse tree
expression : : = < simple > | < filter >
*/
struct ldb_parse_tree * ldb_parse_tree ( void * mem_ctx , const char * s )
{
if ( s = = NULL | | * s = = 0 ) {
s = " (|(objectClass=*)(distinguishedName=*)) " ;
}
while ( isspace ( ( unsigned char ) * s ) ) s + + ;
if ( * s = = ' ( ' ) {
return ldb_parse_filter ( mem_ctx , & s ) ;
}
return ldb_parse_simple ( mem_ctx , & s ) ;
}
/*
construct a ldap parse filter given a parse tree
*/
char * ldb_filter_from_tree ( void * mem_ctx , struct ldb_parse_tree * tree )
{
char * s , * s2 , * ret ;
int i ;
if ( tree = = NULL ) {
return NULL ;
}
switch ( tree - > operation ) {
case LDB_OP_AND :
case LDB_OP_OR :
ret = talloc_asprintf ( mem_ctx , " (%c " , tree - > operation = = LDB_OP_AND ? ' & ' : ' | ' ) ;
if ( ret = = NULL ) return NULL ;
for ( i = 0 ; i < tree - > u . list . num_elements ; i + + ) {
s = ldb_filter_from_tree ( mem_ctx , tree - > u . list . elements [ i ] ) ;
if ( s = = NULL ) {
talloc_free ( ret ) ;
return NULL ;
}
s2 = talloc_asprintf_append ( ret , " %s " , s ) ;
talloc_free ( s ) ;
if ( s2 = = NULL ) {
talloc_free ( ret ) ;
return NULL ;
}
ret = s2 ;
}
s = talloc_asprintf_append ( ret , " ) " ) ;
if ( s = = NULL ) {
talloc_free ( ret ) ;
return NULL ;
}
return s ;
case LDB_OP_NOT :
s = ldb_filter_from_tree ( mem_ctx , tree - > u . isnot . child ) ;
if ( s = = NULL ) return NULL ;
ret = talloc_asprintf ( mem_ctx , " (!%s) " , s ) ;
talloc_free ( s ) ;
return ret ;
case LDB_OP_EQUALITY :
s = ldb_binary_encode ( mem_ctx , tree - > u . equality . value ) ;
if ( s = = NULL ) return NULL ;
ret = talloc_asprintf ( mem_ctx , " (%s=%s) " ,
tree - > u . equality . attr , s ) ;
talloc_free ( s ) ;
return ret ;
case LDB_OP_SUBSTRING :
ret = talloc_asprintf ( mem_ctx , " (%s=%s " , tree - > u . substring . attr ,
tree - > u . substring . start_with_wildcard ? " * " : " " ) ;
if ( ret = = NULL ) return NULL ;
for ( i = 0 ; tree - > u . substring . chunks [ i ] ; i + + ) {
s2 = ldb_binary_encode ( mem_ctx , * ( tree - > u . substring . chunks [ i ] ) ) ;
if ( s2 = = NULL ) {
talloc_free ( ret ) ;
return NULL ;
}
if ( tree - > u . substring . chunks [ i + 1 ] | |
tree - > u . substring . end_with_wildcard ) {
s = talloc_asprintf_append ( ret , " %s* " , s2 ) ;
} else {
s = talloc_asprintf_append ( ret , " %s " , s2 ) ;
}
if ( s = = NULL ) {
talloc_free ( ret ) ;
return NULL ;
}
ret = s ;
}
s = talloc_asprintf_append ( ret , " ) " ) ;
if ( s = = NULL ) {
talloc_free ( ret ) ;
return NULL ;
}
ret = s ;
return ret ;
case LDB_OP_GREATER :
s = ldb_binary_encode ( mem_ctx , tree - > u . equality . value ) ;
if ( s = = NULL ) return NULL ;
ret = talloc_asprintf ( mem_ctx , " (%s>=%s) " ,
tree - > u . equality . attr , s ) ;
talloc_free ( s ) ;
return ret ;
case LDB_OP_LESS :
s = ldb_binary_encode ( mem_ctx , tree - > u . equality . value ) ;
if ( s = = NULL ) return NULL ;
ret = talloc_asprintf ( mem_ctx , " (%s<=%s) " ,
tree - > u . equality . attr , s ) ;
talloc_free ( s ) ;
return ret ;
case LDB_OP_PRESENT :
ret = talloc_asprintf ( mem_ctx , " (%s=*) " , tree - > u . present . attr ) ;
return ret ;
case LDB_OP_APPROX :
s = ldb_binary_encode ( mem_ctx , tree - > u . equality . value ) ;
if ( s = = NULL ) return NULL ;
ret = talloc_asprintf ( mem_ctx , " (%s~=%s) " ,
tree - > u . equality . attr , s ) ;
talloc_free ( s ) ;
return ret ;
case LDB_OP_EXTENDED :
s = ldb_binary_encode ( mem_ctx , tree - > u . extended . value ) ;
if ( s = = NULL ) return NULL ;
ret = talloc_asprintf ( mem_ctx , " (%s%s%s%s:=%s) " ,
tree - > u . extended . attr ? tree - > u . extended . attr : " " ,
tree - > u . extended . dnAttributes ? " :dn " : " " ,
tree - > u . extended . rule_id ? " : " : " " ,
tree - > u . extended . rule_id ? tree - > u . extended . rule_id : " " ,
s ) ;
talloc_free ( s ) ;
return ret ;
}
return NULL ;
}
/*
replace any occurances of an attribute name in the parse tree with a
new name
*/
void ldb_parse_tree_attr_replace ( struct ldb_parse_tree * tree ,
const char * attr ,
const char * replace )
{
int i ;
switch ( tree - > operation ) {
case LDB_OP_AND :
case LDB_OP_OR :
for ( i = 0 ; i < tree - > u . list . num_elements ; i + + ) {
ldb_parse_tree_attr_replace ( tree - > u . list . elements [ i ] ,
attr , replace ) ;
}
break ;
case LDB_OP_NOT :
ldb_parse_tree_attr_replace ( tree - > u . isnot . child , attr , replace ) ;
break ;
case LDB_OP_EQUALITY :
case LDB_OP_GREATER :
case LDB_OP_LESS :
case LDB_OP_APPROX :
if ( ldb_attr_cmp ( tree - > u . equality . attr , attr ) = = 0 ) {
tree - > u . equality . attr = replace ;
}
break ;
case LDB_OP_SUBSTRING :
if ( ldb_attr_cmp ( tree - > u . substring . attr , attr ) = = 0 ) {
tree - > u . substring . attr = replace ;
}
break ;
case LDB_OP_PRESENT :
if ( ldb_attr_cmp ( tree - > u . present . attr , attr ) = = 0 ) {
tree - > u . present . attr = replace ;
}
break ;
case LDB_OP_EXTENDED :
if ( tree - > u . extended . attr & &
ldb_attr_cmp ( tree - > u . extended . attr , attr ) = = 0 ) {
tree - > u . extended . attr = replace ;
}
break ;
}
}