openldap/servers/slapd/attr.c

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/* attr.c - routines for dealing with attributes */
/* $OpenLDAP$ */
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/* This work is part of OpenLDAP Software <http://www.openldap.org/>.
*
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* Copyright 1998-2010 The OpenLDAP Foundation.
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* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted only as authorized by the OpenLDAP
* Public License.
*
* A copy of this license is available in the file LICENSE in the
* top-level directory of the distribution or, alternatively, at
* <http://www.OpenLDAP.org/license.html>.
*/
/* Portions Copyright (c) 1995 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.
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*/
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#include "portable.h"
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#include <stdio.h>
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#ifdef HAVE_FCNTL_H
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#include <fcntl.h>
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#endif
#include <ac/ctype.h>
#include <ac/errno.h>
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#include <ac/socket.h>
#include <ac/string.h>
#include <ac/time.h>
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#include "slap.h"
/*
* Allocate in chunks, minimum of 1000 at a time.
*/
#define CHUNK_SIZE 1000
typedef struct slap_list {
struct slap_list *next;
} slap_list;
static slap_list *attr_chunks;
static Attribute *attr_list;
static ldap_pvt_thread_mutex_t attr_mutex;
int
attr_prealloc( int num )
{
Attribute *a;
slap_list *s;
if (!num) return 0;
s = ch_calloc( 1, sizeof(slap_list) + num * sizeof(Attribute));
s->next = attr_chunks;
attr_chunks = s;
a = (Attribute *)(s+1);
for ( ;num>1; num--) {
a->a_next = a+1;
a++;
}
a->a_next = attr_list;
attr_list = (Attribute *)(s+1);
return 0;
}
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Attribute *
attr_alloc( AttributeDescription *ad )
{
Attribute *a;
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ldap_pvt_thread_mutex_lock( &attr_mutex );
if ( !attr_list )
attr_prealloc( CHUNK_SIZE );
a = attr_list;
attr_list = a->a_next;
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a->a_next = NULL;
ldap_pvt_thread_mutex_unlock( &attr_mutex );
a->a_desc = ad;
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return a;
}
/* Return a list of num attrs */
Attribute *
attrs_alloc( int num )
{
Attribute *head = NULL;
Attribute **a;
ldap_pvt_thread_mutex_lock( &attr_mutex );
for ( a = &attr_list; *a && num > 0; a = &(*a)->a_next ) {
if ( !head )
head = *a;
num--;
}
attr_list = *a;
if ( num > 0 ) {
attr_prealloc( num > CHUNK_SIZE ? num : CHUNK_SIZE );
*a = attr_list;
for ( ; *a && num > 0; a = &(*a)->a_next ) {
if ( !head )
head = *a;
num--;
}
attr_list = *a;
}
*a = NULL;
ldap_pvt_thread_mutex_unlock( &attr_mutex );
return head;
}
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void
attr_clean( Attribute *a )
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{
if ( a->a_nvals && a->a_nvals != a->a_vals &&
!( a->a_flags & SLAP_ATTR_DONT_FREE_VALS )) {
if ( a->a_flags & SLAP_ATTR_DONT_FREE_DATA ) {
free( a->a_nvals );
} else {
ber_bvarray_free( a->a_nvals );
}
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}
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/* a_vals may be equal to slap_dummy_bv, a static empty berval;
* this is used as a placeholder for attributes that do not carry
* values, e.g. when proxying search entries with the "attrsonly"
* bit set. */
if ( a->a_vals != &slap_dummy_bv &&
!( a->a_flags & SLAP_ATTR_DONT_FREE_VALS )) {
if ( a->a_flags & SLAP_ATTR_DONT_FREE_DATA ) {
free( a->a_vals );
} else {
ber_bvarray_free( a->a_vals );
}
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}
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a->a_desc = NULL;
a->a_vals = NULL;
a->a_nvals = NULL;
#ifdef LDAP_COMP_MATCH
a->a_comp_data = NULL;
#endif
a->a_flags = 0;
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a->a_numvals = 0;
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}
void
attr_free( Attribute *a )
{
attr_clean( a );
ldap_pvt_thread_mutex_lock( &attr_mutex );
a->a_next = attr_list;
attr_list = a;
ldap_pvt_thread_mutex_unlock( &attr_mutex );
}
#ifdef LDAP_COMP_MATCH
void
comp_tree_free( Attribute *a )
{
Attribute *next;
for( ; a != NULL ; a = next ) {
next = a->a_next;
if ( component_destructor && a->a_comp_data ) {
if ( a->a_comp_data->cd_mem_op )
component_destructor( a->a_comp_data->cd_mem_op );
free ( a->a_comp_data );
}
}
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}
#endif
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void
attrs_free( Attribute *a )
{
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if ( a ) {
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Attribute *b = (Attribute *)0xBAD, *tail, *next;
/* save tail */
tail = a;
do {
next = a->a_next;
attr_clean( a );
a->a_next = b;
b = a;
a = next;
} while ( next );
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ldap_pvt_thread_mutex_lock( &attr_mutex );
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/* replace NULL with current attr list and let attr list
* start from last attribute returned to list */
tail->a_next = attr_list;
attr_list = b;
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ldap_pvt_thread_mutex_unlock( &attr_mutex );
}
}
static void
attr_dup2( Attribute *tmp, Attribute *a )
{
tmp->a_flags = a->a_flags & SLAP_ATTR_PERSISTENT_FLAGS;
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if ( a->a_vals != NULL ) {
unsigned i, j;
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tmp->a_numvals = a->a_numvals;
tmp->a_vals = ch_malloc( (tmp->a_numvals + 1) * sizeof(struct berval) );
for ( i = 0; i < tmp->a_numvals; i++ ) {
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ber_dupbv( &tmp->a_vals[i], &a->a_vals[i] );
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if ( BER_BVISNULL( &tmp->a_vals[i] ) ) break;
/* FIXME: error? */
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}
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BER_BVZERO( &tmp->a_vals[i] );
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/* a_nvals must be non null; it may be equal to a_vals */
assert( a->a_nvals != NULL );
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if ( a->a_nvals != a->a_vals ) {
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tmp->a_nvals = ch_malloc( (tmp->a_numvals + 1) * sizeof(struct berval) );
for ( j = 0; !BER_BVISNULL( &a->a_nvals[j] ); j++ ) {
assert( j < i );
ber_dupbv( &tmp->a_nvals[j], &a->a_nvals[j] );
if ( BER_BVISNULL( &tmp->a_nvals[j] ) ) break;
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/* FIXME: error? */
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}
assert( j == i );
BER_BVZERO( &tmp->a_nvals[j] );
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} else {
tmp->a_nvals = tmp->a_vals;
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}
}
}
Attribute *
attr_dup( Attribute *a )
{
Attribute *tmp;
if ( a == NULL) return NULL;
tmp = attr_alloc( a->a_desc );
attr_dup2( tmp, a );
return tmp;
}
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Attribute *
attrs_dup( Attribute *a )
{
int i;
Attribute *tmp, *anew;
if( a == NULL ) return NULL;
/* count them */
for( tmp=a,i=0; tmp; tmp=tmp->a_next ) {
i++;
}
anew = attrs_alloc( i );
for( tmp=anew; a; a=a->a_next ) {
tmp->a_desc = a->a_desc;
attr_dup2( tmp, a );
tmp=tmp->a_next;
}
return anew;
}
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int
attr_valfind(
Attribute *a,
unsigned flags,
struct berval *val,
unsigned *slot,
void *ctx )
{
struct berval nval = BER_BVNULL, *cval;
MatchingRule *mr;
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const char *text;
int match = -1, rc;
unsigned i, n;
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if ( flags & SLAP_MR_ORDERING )
mr = a->a_desc->ad_type->sat_ordering;
else
mr = a->a_desc->ad_type->sat_equality;
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if( !SLAP_IS_MR_ASSERTED_VALUE_NORMALIZED_MATCH( flags ) &&
mr->smr_normalize )
{
rc = (mr->smr_normalize)(
flags & (SLAP_MR_TYPE_MASK|SLAP_MR_SUBTYPE_MASK|SLAP_MR_VALUE_OF_SYNTAX),
a->a_desc->ad_type->sat_syntax,
mr, val, &nval, ctx );
if( rc != LDAP_SUCCESS ) {
return LDAP_INVALID_SYNTAX;
}
cval = &nval;
} else {
cval = val;
}
n = a->a_numvals;
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if ( a->a_flags & SLAP_ATTR_SORTED_VALS ) {
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/* Binary search */
unsigned base = 0;
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while ( 0 < n ) {
unsigned pivot = n >> 1;
i = base + pivot;
rc = value_match( &match, a->a_desc, mr, flags,
&a->a_nvals[i], cval, &text );
if ( rc == LDAP_SUCCESS && match == 0 )
break;
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if ( match < 0 ) {
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base = i+1;
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n -= pivot+1;
} else {
n = pivot;
}
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}
if ( match < 0 )
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i++;
} else {
/* Linear search */
for ( i = 0; i < n; i++ ) {
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const char *text;
rc = ordered_value_match( &match, a->a_desc, mr, flags,
&a->a_nvals[i], cval, &text );
if ( rc == LDAP_SUCCESS && match == 0 )
break;
}
}
if ( match )
rc = LDAP_NO_SUCH_ATTRIBUTE;
if ( slot )
*slot = i;
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if ( nval.bv_val )
slap_sl_free( nval.bv_val, ctx );
return rc;
}
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int
attr_valadd(
Attribute *a,
BerVarray vals,
BerVarray nvals,
int nn )
{
int i;
BerVarray v2;
v2 = (BerVarray) SLAP_REALLOC( (char *) a->a_vals,
(a->a_numvals + nn + 1) * sizeof(struct berval) );
if( v2 == NULL ) {
Debug(LDAP_DEBUG_TRACE,
"attr_valadd: SLAP_REALLOC failed.\n", 0, 0, 0 );
return LBER_ERROR_MEMORY;
}
a->a_vals = v2;
if ( nvals ) {
v2 = (BerVarray) SLAP_REALLOC( (char *) a->a_nvals,
(a->a_numvals + nn + 1) * sizeof(struct berval) );
if( v2 == NULL ) {
Debug(LDAP_DEBUG_TRACE,
"attr_valadd: SLAP_REALLOC failed.\n", 0, 0, 0 );
return LBER_ERROR_MEMORY;
}
a->a_nvals = v2;
} else {
a->a_nvals = a->a_vals;
}
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/* If sorted and old vals exist, must insert */
if (( a->a_flags & SLAP_ATTR_SORTED_VALS ) && a->a_numvals ) {
unsigned slot;
int j, rc;
v2 = nvals ? nvals : vals;
for ( i = 0; i < nn; i++ ) {
rc = attr_valfind( a, SLAP_MR_EQUALITY | SLAP_MR_VALUE_OF_ASSERTION_SYNTAX |
SLAP_MR_ASSERTED_VALUE_NORMALIZED_MATCH | SLAP_MR_ATTRIBUTE_VALUE_NORMALIZED_MATCH,
&v2[i], &slot, NULL );
if ( rc != LDAP_NO_SUCH_ATTRIBUTE ) {
/* should never happen */
if ( rc == LDAP_SUCCESS )
rc = LDAP_TYPE_OR_VALUE_EXISTS;
return rc;
}
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for ( j = a->a_numvals; j >= (int)slot; j-- ) {
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a->a_vals[j+1] = a->a_vals[j];
if ( nvals )
a->a_nvals[j+1] = a->a_nvals[j];
}
ber_dupbv( &a->a_nvals[slot], &v2[i] );
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if ( nvals )
ber_dupbv( &a->a_vals[slot], &vals[i] );
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a->a_numvals++;
}
BER_BVZERO( &a->a_vals[a->a_numvals] );
if ( a->a_vals != a->a_nvals )
BER_BVZERO( &a->a_nvals[a->a_numvals] );
} else {
v2 = &a->a_vals[a->a_numvals];
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for ( i = 0 ; i < nn; i++ ) {
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ber_dupbv( &v2[i], &vals[i] );
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if ( BER_BVISNULL( &v2[i] ) ) break;
}
BER_BVZERO( &v2[i] );
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if ( nvals ) {
v2 = &a->a_nvals[a->a_numvals];
for ( i = 0 ; i < nn; i++ ) {
ber_dupbv( &v2[i], &nvals[i] );
if ( BER_BVISNULL( &v2[i] ) ) break;
}
BER_BVZERO( &v2[i] );
}
a->a_numvals += i;
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}
return 0;
}
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/*
* attr_merge - merge the given type and value with the list of
* attributes in attrs.
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*
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* nvals must be NULL if the attribute has no normalizer.
* In this case, a->a_nvals will be set equal to a->a_vals.
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*
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* returns 0 everything went ok
* -1 trouble
*/
int
attr_merge(
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Entry *e,
AttributeDescription *desc,
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BerVarray vals,
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BerVarray nvals )
{
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int i = 0;
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Attribute **a;
for ( a = &e->e_attrs; *a != NULL; a = &(*a)->a_next ) {
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if ( (*a)->a_desc == desc ) {
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break;
}
}
if ( *a == NULL ) {
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*a = attr_alloc( desc );
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} else {
/*
* FIXME: if the attribute already exists, the presence
* of nvals and the value of (*a)->a_nvals must be consistent
*/
assert( ( nvals == NULL && (*a)->a_nvals == (*a)->a_vals )
|| ( nvals != NULL && (
( (*a)->a_vals == NULL && (*a)->a_nvals == NULL )
|| ( (*a)->a_nvals != (*a)->a_vals ) ) ) );
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}
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if ( vals != NULL ) {
for ( ; !BER_BVISNULL( &vals[i] ); i++ ) ;
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}
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return attr_valadd( *a, vals, nvals, i );
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}
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/*
* if a normalization function is defined for the equality matchingRule
* of desc, the value is normalized and stored in nval; otherwise nval
* is NULL
*/
int
attr_normalize(
AttributeDescription *desc,
BerVarray vals,
BerVarray *nvalsp,
void *memctx )
{
int rc = LDAP_SUCCESS;
BerVarray nvals = NULL;
*nvalsp = NULL;
if ( desc->ad_type->sat_equality &&
desc->ad_type->sat_equality->smr_normalize )
{
int i;
for ( i = 0; !BER_BVISNULL( &vals[i] ); i++ );
nvals = slap_sl_calloc( sizeof(struct berval), i + 1, memctx );
for ( i = 0; !BER_BVISNULL( &vals[i] ); i++ ) {
rc = desc->ad_type->sat_equality->smr_normalize(
SLAP_MR_VALUE_OF_ATTRIBUTE_SYNTAX,
desc->ad_type->sat_syntax,
desc->ad_type->sat_equality,
&vals[i], &nvals[i], memctx );
if ( rc != LDAP_SUCCESS ) {
BER_BVZERO( &nvals[i + 1] );
break;
}
}
BER_BVZERO( &nvals[i] );
*nvalsp = nvals;
}
if ( rc != LDAP_SUCCESS && nvals != NULL ) {
ber_bvarray_free_x( nvals, memctx );
}
return rc;
}
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int
attr_merge_normalize(
Entry *e,
AttributeDescription *desc,
BerVarray vals,
void *memctx )
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{
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BerVarray nvals = NULL;
int rc;
rc = attr_normalize( desc, vals, &nvals, memctx );
if ( rc == LDAP_SUCCESS ) {
rc = attr_merge( e, desc, vals, nvals );
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if ( nvals != NULL ) {
ber_bvarray_free_x( nvals, memctx );
}
}
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return rc;
}
int
attr_merge_one(
Entry *e,
AttributeDescription *desc,
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struct berval *val,
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struct berval *nval )
{
Attribute **a;
for ( a = &e->e_attrs; *a != NULL; a = &(*a)->a_next ) {
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if ( (*a)->a_desc == desc ) {
break;
}
}
if ( *a == NULL ) {
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*a = attr_alloc( desc );
}
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return attr_valadd( *a, val, nval, 1 );
}
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/*
* if a normalization function is defined for the equality matchingRule
* of desc, the value is normalized and stored in nval; otherwise nval
* is NULL
*/
int
attr_normalize_one(
AttributeDescription *desc,
struct berval *val,
struct berval *nval,
void *memctx )
{
int rc = LDAP_SUCCESS;
BER_BVZERO( nval );
if ( desc->ad_type->sat_equality &&
desc->ad_type->sat_equality->smr_normalize )
{
rc = desc->ad_type->sat_equality->smr_normalize(
SLAP_MR_VALUE_OF_ATTRIBUTE_SYNTAX,
desc->ad_type->sat_syntax,
desc->ad_type->sat_equality,
val, nval, memctx );
if ( rc != LDAP_SUCCESS ) {
return rc;
}
}
return rc;
}
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int
attr_merge_normalize_one(
Entry *e,
AttributeDescription *desc,
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struct berval *val,
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void *memctx )
{
struct berval nval = BER_BVNULL;
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struct berval *nvalp = NULL;
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int rc;
rc = attr_normalize_one( desc, val, &nval, memctx );
if ( rc == LDAP_SUCCESS && !BER_BVISNULL( &nval ) ) {
nvalp = &nval;
}
rc = attr_merge_one( e, desc, val, nvalp );
if ( nvalp != NULL ) {
slap_sl_free( nval.bv_val, memctx );
}
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return rc;
}
/*
* attrs_find - find attribute(s) by AttributeDescription
* returns next attribute which is subtype of provided description.
*/
Attribute *
attrs_find(
Attribute *a,
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AttributeDescription *desc )
{
for ( ; a != NULL; a = a->a_next ) {
if ( is_ad_subtype( a->a_desc, desc ) ) {
return( a );
}
}
return( NULL );
}
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/*
* attr_find - find attribute by type
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*/
Attribute *
attr_find(
Attribute *a,
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AttributeDescription *desc )
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{
for ( ; a != NULL; a = a->a_next ) {
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if ( a->a_desc == desc ) {
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return( a );
}
}
return( NULL );
}
/*
* attr_delete - delete the attribute type in list pointed to by attrs
* return 0 deleted ok
* 1 not found in list a
* -1 something bad happened
*/
int
attr_delete(
Attribute **attrs,
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AttributeDescription *desc )
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{
Attribute **a;
for ( a = attrs; *a != NULL; a = &(*a)->a_next ) {
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if ( (*a)->a_desc == desc ) {
Attribute *save = *a;
*a = (*a)->a_next;
attr_free( save );
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return LDAP_SUCCESS;
}
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}
return LDAP_NO_SUCH_ATTRIBUTE;
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}
int
attr_init( void )
{
ldap_pvt_thread_mutex_init( &attr_mutex );
return 0;
}
int
attr_destroy( void )
{
slap_list *a;
for ( a=attr_chunks; a; a=attr_chunks ) {
attr_chunks = a->next;
free( a );
}
ldap_pvt_thread_mutex_destroy( &attr_mutex );
return 0;
}