openldap/servers/slapd/value.c

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/* value.c - routines for dealing with values */
/* $OpenLDAP$ */
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/* This work is part of OpenLDAP Software <http://www.openldap.org/>.
*
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* Copyright 1998-2007 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>.
*/
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/*
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* 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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#include <ac/ctype.h>
#include <ac/socket.h>
#include <ac/string.h>
#include <ac/time.h>
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#include <sys/stat.h>
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#include "slap.h"
int
value_add(
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BerVarray *vals,
BerVarray addvals )
{
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int n, nn = 0;
BerVarray v2;
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if ( addvals != NULL ) {
for ( ; !BER_BVISNULL( &addvals[nn] ); nn++ )
; /* NULL */
}
if ( *vals == NULL ) {
*vals = (BerVarray) SLAP_MALLOC( (nn + 1)
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* sizeof(struct berval) );
if( *vals == NULL ) {
Debug(LDAP_DEBUG_TRACE,
"value_add: SLAP_MALLOC failed.\n", 0, 0, 0 );
return LBER_ERROR_MEMORY;
}
n = 0;
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} else {
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for ( n = 0; !BER_BVISNULL( &(*vals)[n] ); n++ ) {
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; /* Empty */
}
*vals = (BerVarray) SLAP_REALLOC( (char *) *vals,
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(n + nn + 1) * sizeof(struct berval) );
if( *vals == NULL ) {
Debug(LDAP_DEBUG_TRACE,
"value_add: SLAP_MALLOC failed.\n", 0, 0, 0 );
return LBER_ERROR_MEMORY;
}
}
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v2 = &(*vals)[n];
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for ( n = 0 ; n < nn; v2++, addvals++ ) {
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ber_dupbv( v2, addvals );
if ( BER_BVISNULL( v2 ) ) break;
}
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BER_BVZERO( v2 );
return LDAP_SUCCESS;
}
int
value_add_one(
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BerVarray *vals,
struct berval *addval )
{
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int n;
BerVarray v2;
if ( *vals == NULL ) {
*vals = (BerVarray) SLAP_MALLOC( 2 * sizeof(struct berval) );
if( *vals == NULL ) {
Debug(LDAP_DEBUG_TRACE,
"value_add_one: SLAP_MALLOC failed.\n", 0, 0, 0 );
return LBER_ERROR_MEMORY;
}
n = 0;
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} else {
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for ( n = 0; !BER_BVISNULL( &(*vals)[n] ); n++ ) {
; /* Empty */
}
*vals = (BerVarray) SLAP_REALLOC( (char *) *vals,
(n + 2) * sizeof(struct berval) );
if( *vals == NULL ) {
Debug(LDAP_DEBUG_TRACE,
"value_add_one: SLAP_MALLOC failed.\n", 0, 0, 0 );
return LBER_ERROR_MEMORY;
}
}
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v2 = &(*vals)[n];
ber_dupbv(v2, addval);
v2++;
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BER_BVZERO( v2 );
return LDAP_SUCCESS;
}
int asserted_value_validate_normalize(
AttributeDescription *ad,
MatchingRule *mr,
unsigned usage,
struct berval *in,
struct berval *out,
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const char ** text,
void *ctx )
{
int rc;
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struct berval pval;
pval.bv_val = NULL;
/* we expect the value to be in the assertion syntax */
assert( !SLAP_MR_IS_VALUE_OF_ATTRIBUTE_SYNTAX(usage) );
if( mr == NULL ) {
*text = "inappropriate matching request";
return LDAP_INAPPROPRIATE_MATCHING;
}
if( !mr->smr_match ) {
*text = "requested matching rule not supported";
return LDAP_INAPPROPRIATE_MATCHING;
}
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if( mr->smr_syntax->ssyn_pretty ) {
rc = (mr->smr_syntax->ssyn_pretty)( mr->smr_syntax, in, &pval, ctx );
in = &pval;
} else if ( mr->smr_syntax->ssyn_validate ) {
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rc = (mr->smr_syntax->ssyn_validate)( mr->smr_syntax, in );
} else {
*text = "inappropriate matching request";
return LDAP_INAPPROPRIATE_MATCHING;
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}
if( rc != LDAP_SUCCESS ) {
*text = "value does not conform to assertion syntax";
return LDAP_INVALID_SYNTAX;
}
if( mr->smr_normalize ) {
rc = (mr->smr_normalize)(
usage|SLAP_MR_VALUE_OF_ASSERTION_SYNTAX,
ad ? ad->ad_type->sat_syntax : NULL,
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mr, in, out, ctx );
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if( pval.bv_val ) ber_memfree_x( pval.bv_val, ctx );
if( rc != LDAP_SUCCESS ) {
*text = "unable to normalize value for matching";
return LDAP_INVALID_SYNTAX;
}
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} else if ( pval.bv_val != NULL ) {
*out = pval;
} else {
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ber_dupbv_x( out, in, ctx );
}
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return LDAP_SUCCESS;
}
int
value_match(
int *match,
AttributeDescription *ad,
MatchingRule *mr,
unsigned flags,
struct berval *v1, /* stored value */
void *v2, /* assertion */
const char ** text )
{
int rc;
assert( mr != NULL );
if( !mr->smr_match ) {
return LDAP_INAPPROPRIATE_MATCHING;
}
rc = (mr->smr_match)( match, flags,
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ad->ad_type->sat_syntax, mr, v1, v2 );
return rc;
}
int value_find_ex(
AttributeDescription *ad,
unsigned flags,
BerVarray vals,
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struct berval *val,
void *ctx )
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{
int i;
int rc;
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struct berval nval = BER_BVNULL;
MatchingRule *mr = ad->ad_type->sat_equality;
if( mr == NULL || !mr->smr_match ) {
return LDAP_INAPPROPRIATE_MATCHING;
}
assert( SLAP_IS_MR_ATTRIBUTE_VALUE_NORMALIZED_MATCH( flags ) != 0 );
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),
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ad->ad_type->sat_syntax,
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mr, val, &nval, ctx );
if( rc != LDAP_SUCCESS ) {
return LDAP_INVALID_SYNTAX;
}
}
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for ( i = 0; vals[i].bv_val != NULL; i++ ) {
int match;
const char *text;
rc = value_match( &match, ad, mr, flags,
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&vals[i], nval.bv_val == NULL ? val : &nval, &text );
if( rc == LDAP_SUCCESS && match == 0 ) {
slap_sl_free( nval.bv_val, ctx );
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return rc;
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}
}
slap_sl_free( nval.bv_val, ctx );
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return LDAP_NO_SUCH_ATTRIBUTE;
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}
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/* assign new indexes to an attribute's ordered values */
void
ordered_value_renumber( Attribute *a, int vals )
{
char *ptr, ibuf[64]; /* many digits */
struct berval ibv, tmp, vtmp;
int i;
ibv.bv_val = ibuf;
for (i=0; i<vals; i++) {
ibv.bv_len = sprintf(ibv.bv_val, "{%d}", i);
vtmp = a->a_vals[i];
if ( vtmp.bv_val[0] == '{' ) {
ptr = ber_bvchr(&vtmp, '}');
assert( ptr != NULL );
++ptr;
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vtmp.bv_len -= ptr - vtmp.bv_val;
vtmp.bv_val = ptr;
}
tmp.bv_len = ibv.bv_len + vtmp.bv_len;
tmp.bv_val = ch_malloc( tmp.bv_len + 1 );
strcpy( tmp.bv_val, ibv.bv_val );
AC_MEMCPY( tmp.bv_val + ibv.bv_len, vtmp.bv_val, vtmp.bv_len );
tmp.bv_val[tmp.bv_len] = '\0';
ch_free( a->a_vals[i].bv_val );
a->a_vals[i] = tmp;
if ( a->a_nvals && a->a_nvals != a->a_vals ) {
vtmp = a->a_nvals[i];
if ( vtmp.bv_val[0] == '{' ) {
ptr = ber_bvchr(&vtmp, '}');
assert( ptr != NULL );
++ptr;
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vtmp.bv_len -= ptr - vtmp.bv_val;
vtmp.bv_val = ptr;
}
tmp.bv_len = ibv.bv_len + vtmp.bv_len;
tmp.bv_val = ch_malloc( tmp.bv_len + 1 );
strcpy( tmp.bv_val, ibv.bv_val );
AC_MEMCPY( tmp.bv_val + ibv.bv_len, vtmp.bv_val, vtmp.bv_len );
tmp.bv_val[tmp.bv_len] = '\0';
ch_free( a->a_nvals[i].bv_val );
a->a_nvals[i] = tmp;
}
}
}
/* Sort the values in an X-ORDERED VALUES attribute.
* If the values have no index, index them in their given order.
* If the values have indexes, sort them.
* If some are indexed and some are not, return Error.
*/
int
ordered_value_sort( Attribute *a, int do_renumber )
{
int i, vals;
int index = 0, noindex = 0, renumber = 0, gotnvals = 0;
struct berval tmp;
if ( a->a_nvals && a->a_nvals != a->a_vals )
gotnvals = 1;
/* count attrs, look for index */
for (i=0; a->a_vals[i].bv_val; i++) {
if ( a->a_vals[i].bv_val[0] == '{' ) {
char *ptr;
index = 1;
ptr = ber_bvchr( &a->a_vals[i], '}' );
if ( !ptr )
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return LDAP_INVALID_SYNTAX;
if ( noindex )
return LDAP_INVALID_SYNTAX;
} else {
noindex = 1;
if ( index )
return LDAP_INVALID_SYNTAX;
}
}
vals = i;
/* If values have indexes, sort the values */
if ( index ) {
int *indexes, j, idx;
struct berval ntmp;
#if 0
/* Strip index from normalized values */
if ( !a->a_nvals || a->a_vals == a->a_nvals ) {
a->a_nvals = ch_malloc( (vals+1)*sizeof(struct berval));
BER_BVZERO(a->a_nvals+vals);
for ( i=0; i<vals; i++ ) {
char *ptr = ber_bvchr(&a->a_vals[i], '}') + 1;
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a->a_nvals[i].bv_len = a->a_vals[i].bv_len -
(ptr - a->a_vals[i].bv_val);
a->a_nvals[i].bv_val = ch_malloc( a->a_nvals[i].bv_len + 1);
strcpy(a->a_nvals[i].bv_val, ptr );
}
} else {
for ( i=0; i<vals; i++ ) {
char *ptr = ber_bvchr(&a->a_nvals[i], '}') + 1;
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a->a_nvals[i].bv_len -= ptr - a->a_nvals[i].bv_val;
strcpy(a->a_nvals[i].bv_val, ptr);
}
}
#endif
indexes = ch_malloc( vals * sizeof(int) );
for ( i=0; i<vals; i++) {
char *ptr;
indexes[i] = strtol(a->a_vals[i].bv_val+1, &ptr, 0);
if ( *ptr != '}' ) {
ch_free( indexes );
return LDAP_INVALID_SYNTAX;
}
}
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/* Insertion sort */
for ( i=1; i<vals; i++ ) {
idx = indexes[i];
tmp = a->a_vals[i];
if ( gotnvals ) ntmp = a->a_nvals[i];
j = i;
while ((j > 0) && (indexes[j-1] > idx)) {
indexes[j] = indexes[j-1];
a->a_vals[j] = a->a_vals[j-1];
if ( gotnvals ) a->a_nvals[j] = a->a_nvals[j-1];
j--;
}
indexes[j] = idx;
a->a_vals[j] = tmp;
if ( gotnvals ) a->a_nvals[j] = ntmp;
}
/* If range is not contiguous, must renumber */
if ( indexes[0] != 0 || indexes[vals-1] != vals-1 ) {
renumber = 1;
}
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ch_free( indexes );
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} else {
renumber = 1;
}
if ( do_renumber && renumber )
ordered_value_renumber( a, vals );
return 0;
}
/*
* wrapper for validate function
* uses the validate function of the syntax after removing
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* the index, if allowed and present
*/
int
ordered_value_validate(
AttributeDescription *ad,
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struct berval *in,
int mop )
{
struct berval bv = *in;
assert( ad->ad_type->sat_syntax != NULL );
assert( ad->ad_type->sat_syntax->ssyn_validate != NULL );
if ( ad->ad_type->sat_flags & SLAP_AT_ORDERED ) {
/* Skip past the assertion index */
if ( bv.bv_val[0] == '{' ) {
char *ptr;
ptr = ber_bvchr( &bv, '}' );
if ( ptr != NULL ) {
struct berval ns;
ns.bv_val = bv.bv_val + 1;
ns.bv_len = ptr - ns.bv_val;
if ( numericStringValidate( NULL, &ns ) == LDAP_SUCCESS ) {
ptr++;
bv.bv_len -= ptr - bv.bv_val;
bv.bv_val = ptr;
in = &bv;
/* If deleting by index, just succeed */
if ( mop == LDAP_MOD_DELETE && BER_BVISEMPTY( &bv ) ) {
return LDAP_SUCCESS;
}
}
}
}
}
return ad->ad_type->sat_syntax->ssyn_validate( ad->ad_type->sat_syntax, in );
}
/*
* wrapper for pretty function
* uses the pretty function of the syntax after removing
* the index, if allowed and present; in case, it's prepended
* to the pretty value
*/
int
ordered_value_pretty(
AttributeDescription *ad,
struct berval *val,
struct berval *out,
void *ctx )
{
struct berval bv = *val,
idx = BER_BVNULL;
int rc;
assert( ad->ad_type->sat_syntax != NULL );
assert( ad->ad_type->sat_syntax->ssyn_pretty != NULL );
assert( val != NULL );
assert( out != NULL );
if ( ad->ad_type->sat_flags & SLAP_AT_ORDERED ) {
/* Skip past the assertion index */
if ( bv.bv_val[0] == '{' ) {
char *ptr;
ptr = ber_bvchr( &bv, '}' );
if ( ptr != NULL ) {
struct berval ns;
ns.bv_val = bv.bv_val + 1;
ns.bv_len = ptr - ns.bv_val;
if ( numericStringValidate( NULL, &ns ) == LDAP_SUCCESS ) {
ptr++;
idx = bv;
idx.bv_len = ptr - bv.bv_val;
bv.bv_len -= idx.bv_len;
bv.bv_val = ptr;
val = &bv;
}
}
}
}
rc = ad->ad_type->sat_syntax->ssyn_pretty( ad->ad_type->sat_syntax, val, out, ctx );
if ( rc == LDAP_SUCCESS && !BER_BVISNULL( &idx ) ) {
bv = *out;
out->bv_len = idx.bv_len + bv.bv_len;
out->bv_val = ber_memalloc_x( out->bv_len + 1, ctx );
AC_MEMCPY( out->bv_val, idx.bv_val, idx.bv_len );
AC_MEMCPY( &out->bv_val[ idx.bv_len ], bv.bv_val, bv.bv_len + 1 );
ber_memfree_x( bv.bv_val, ctx );
}
return rc;
}
/*
* wrapper for normalize function
* uses the normalize function of the attribute description equality rule
* after removing the index, if allowed and present; in case, it's
* prepended to the value
*/
int
ordered_value_normalize(
slap_mask_t usage,
AttributeDescription *ad,
MatchingRule *mr,
struct berval *val,
struct berval *normalized,
void *ctx )
{
struct berval bv = *val,
idx = BER_BVNULL;
int rc;
assert( ad->ad_type->sat_equality != NULL );
assert( ad->ad_type->sat_equality->smr_normalize != NULL );
assert( val != NULL );
assert( normalized != NULL );
if ( ad->ad_type->sat_flags & SLAP_AT_ORDERED ) {
/* Skip past the assertion index */
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if ( bv.bv_val[ 0 ] == '{' ) {
char *ptr;
ptr = ber_bvchr( &bv, '}' );
if ( ptr != NULL ) {
struct berval ns;
ns.bv_val = bv.bv_val + 1;
ns.bv_len = ptr - ns.bv_val;
if ( numericStringValidate( NULL, &ns ) == LDAP_SUCCESS ) {
ptr++;
idx = bv;
idx.bv_len = ptr - bv.bv_val;
bv.bv_len -= idx.bv_len;
bv.bv_val = ptr;
/* validator will already prevent this for Adds */
if ( BER_BVISEMPTY( &bv )) {
ber_dupbv_x( normalized, &idx, ctx );
return LDAP_SUCCESS;
}
val = &bv;
}
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}
}
}
rc = ad->ad_type->sat_equality->smr_normalize( usage,
ad->ad_type->sat_syntax, mr, val, normalized, ctx );
if ( rc == LDAP_SUCCESS && !BER_BVISNULL( &idx ) ) {
bv = *normalized;
normalized->bv_len = idx.bv_len + bv.bv_len;
normalized->bv_val = ber_memalloc_x( normalized->bv_len + 1, ctx );
AC_MEMCPY( normalized->bv_val, idx.bv_val, idx.bv_len );
AC_MEMCPY( &normalized->bv_val[ idx.bv_len ], bv.bv_val, bv.bv_len + 1 );
ber_memfree_x( bv.bv_val, ctx );
}
return rc;
}
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/* A wrapper for value match, handles Equality matches for attributes
* with ordered values.
*/
int
ordered_value_match(
int *match,
AttributeDescription *ad,
MatchingRule *mr,
unsigned flags,
struct berval *v1, /* stored value */
struct berval *v2, /* assertion */
const char ** text )
{
struct berval bv1, bv2;
/* X-ORDERED VALUES equality matching:
* If (SLAP_MR_IS_VALUE_OF_ATTRIBUTE_SYNTAX) that means we are
* comparing two attribute values. In this case, we want to ignore
* the ordering index of both values, we just want to know if their
* main values are equal.
*
* If (SLAP_MR_IS_VALUE_OF_ASSERTION_SYNTAX) then we are comparing
* an assertion against an attribute value.
* If the assertion has no index, the index of the value is ignored.
* If the assertion has only an index, the remainder of the value is
* ignored.
* If the assertion has index and value, both are compared.
*/
if ( ad->ad_type->sat_flags & SLAP_AT_ORDERED ) {
char *ptr;
struct berval ns1 = BER_BVNULL, ns2 = BER_BVNULL;
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bv1 = *v1;
bv2 = *v2;
/* Skip past the assertion index */
if ( bv2.bv_val[0] == '{' ) {
ptr = ber_bvchr( &bv2, '}' );
if ( ptr != NULL ) {
ns2.bv_val = bv2.bv_val + 1;
ns2.bv_len = ptr - ns2.bv_val;
if ( numericStringValidate( NULL, &ns2 ) == LDAP_SUCCESS ) {
ptr++;
bv2.bv_len -= ptr - bv2.bv_val;
bv2.bv_val = ptr;
v2 = &bv2;
}
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}
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}
/* Skip past the attribute index */
if ( bv1.bv_val[0] == '{' ) {
ptr = ber_bvchr( &bv1, '}' );
if ( ptr != NULL ) {
ns1.bv_val = bv1.bv_val + 1;
ns1.bv_len = ptr - ns1.bv_val;
if ( numericStringValidate( NULL, &ns1 ) == LDAP_SUCCESS ) {
ptr++;
bv1.bv_len -= ptr - bv1.bv_val;
bv1.bv_val = ptr;
v1 = &bv1;
}
}
}
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if ( SLAP_MR_IS_VALUE_OF_ASSERTION_SYNTAX( flags )) {
if ( !BER_BVISNULL( &ns2 ) && !BER_BVISNULL( &ns1 ) ) {
/* compare index values first */
(void)octetStringOrderingMatch( match, 0, NULL, NULL, &ns1, &ns2 );
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/* If not equal, or we're only comparing the index,
* return result now.
*/
if ( *match != 0 || BER_BVISEMPTY( &bv2 ) ) {
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return LDAP_SUCCESS;
}
}
}
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}
if ( !mr || !mr->smr_match ) {
*match = ber_bvcmp( v1, v2 );
return LDAP_SUCCESS;
}
return value_match( match, ad, mr, flags, v1, v2, text );
}
int
ordered_value_add(
Entry *e,
AttributeDescription *ad,
Attribute *a,
BerVarray vals,
BerVarray nvals
)
{
int i, j, k, anum, vnum;
BerVarray new, nnew = NULL;
/* count new vals */
for (i=0; !BER_BVISNULL( vals+i ); i++) ;
vnum = i;
if ( a ) {
for (i=0; !BER_BVISNULL( a->a_vals+i ); i++) ;
anum = i;
ordered_value_sort( a, 0 );
} else {
Attribute **ap;
anum = 0;
for ( ap=&e->e_attrs; *ap; ap = &(*ap)->a_next ) ;
a = attr_alloc( ad );
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*ap = a;
}
new = ch_malloc( (anum+vnum+1) * sizeof(struct berval));
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/* sanity check: if normalized modifications come in, either
* no values are present or normalized existing values differ
* from non-normalized; if no normalized modifications come in,
* either no values are present or normalized existing values
* don't differ from non-normalized */
if ( nvals != NULL ) {
assert( nvals != vals );
assert( a->a_nvals == NULL || a->a_nvals != a->a_vals );
} else {
assert( a->a_nvals == NULL || a->a_nvals == a->a_vals );
}
if ( ( a->a_nvals && a->a_nvals != a->a_vals ) || nvals != NULL ) {
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nnew = ch_malloc( (anum+vnum+1) * sizeof(struct berval));
/* Shouldn't happen... */
if ( !nvals ) nvals = vals;
}
if ( anum ) {
AC_MEMCPY( new, a->a_vals, anum * sizeof(struct berval));
if ( nnew )
AC_MEMCPY( nnew, a->a_nvals, anum * sizeof(struct berval));
}
for (i=0; i<vnum; i++) {
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char *next;
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k = -1;
if ( vals[i].bv_val[0] == '{' ) {
/* FIXME: strtol() could go past end... */
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k = strtol( vals[i].bv_val + 1, &next, 0 );
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if ( next == vals[i].bv_val + 1 ||
next[ 0 ] != '}' ||
next - vals[i].bv_val > vals[i].bv_len )
{
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ch_free( nnew );
ch_free( new );
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return -1;
}
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if ( k > anum ) k = -1;
}
/* No index, or index is greater than current number of
* values, just tack onto the end
*/
if ( k < 0 ) {
ber_dupbv( new+anum, vals+i );
if ( nnew ) ber_dupbv( nnew+anum, nvals+i );
/* Indexed, push everything else down one and insert */
} else {
for (j=anum; j>k; j--) {
new[j] = new[j-1];
if ( nnew ) nnew[j] = nnew[j-1];
}
ber_dupbv( new+k, vals+i );
if ( nnew ) ber_dupbv( nnew+k, nvals+i );
}
anum++;
}
BER_BVZERO( new+anum );
ch_free( a->a_vals );
a->a_vals = new;
if ( nnew ) {
BER_BVZERO( nnew+anum );
ch_free( a->a_nvals );
a->a_nvals = nnew;
} else {
a->a_nvals = a->a_vals;
}
ordered_value_renumber( a, anum );
return 0;
}