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https://git.openldap.org/openldap/openldap.git
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1026 lines
23 KiB
C
1026 lines
23 KiB
C
/* entry.c - routines for dealing with entries */
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/* $OpenLDAP$ */
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/* This work is part of OpenLDAP Software <http://www.openldap.org/>.
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*
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* Copyright 1998-2018 The OpenLDAP Foundation.
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted only as authorized by the OpenLDAP
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* Public License.
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*
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* A copy of this license is available in the file LICENSE in the
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* top-level directory of the distribution or, alternatively, at
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* <http://www.OpenLDAP.org/license.html>.
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*/
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/* Portions Copyright (c) 1995 Regents of the University of Michigan.
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms are permitted
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* provided that this notice is preserved and that due credit is given
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* to the University of Michigan at Ann Arbor. The name of the University
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* may not be used to endorse or promote products derived from this
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* software without specific prior written permission. This software
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* 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>
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#include <ac/errno.h>
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#include <ac/socket.h>
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#include <ac/string.h>
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#include "slap.h"
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#include "ldif.h"
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static char *ebuf; /* buf returned by entry2str */
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static char *ecur; /* pointer to end of currently used ebuf */
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static int emaxsize;/* max size of ebuf */
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/*
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* Empty root entry
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*/
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const Entry slap_entry_root = {
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NOID, { 0, "" }, { 0, "" }, NULL, 0, { 0, "" }, NULL
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};
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/*
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* these mutexes must be used when calling the entry2str()
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* routine since it returns a pointer to static data.
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*/
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ldap_pvt_thread_mutex_t entry2str_mutex;
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static const struct berval dn_bv = BER_BVC("dn");
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/*
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* Entry free list
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*
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* Allocate in chunks, minimum of 1000 at a time.
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*/
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#define CHUNK_SIZE 1000
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typedef struct slap_list {
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struct slap_list *next;
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} slap_list;
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static slap_list *entry_chunks;
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static Entry *entry_list;
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static ldap_pvt_thread_mutex_t entry_mutex;
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int entry_destroy(void)
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{
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slap_list *e;
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if ( ebuf ) free( ebuf );
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ebuf = NULL;
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ecur = NULL;
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emaxsize = 0;
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for ( e=entry_chunks; e; e=entry_chunks ) {
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entry_chunks = e->next;
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free( e );
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}
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ldap_pvt_thread_mutex_destroy( &entry_mutex );
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ldap_pvt_thread_mutex_destroy( &entry2str_mutex );
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return attr_destroy();
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}
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int
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entry_init(void)
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{
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ldap_pvt_thread_mutex_init( &entry2str_mutex );
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ldap_pvt_thread_mutex_init( &entry_mutex );
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return attr_init();
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}
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Entry *
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str2entry( char *s )
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{
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return str2entry2( s, 1 );
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}
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#define bvcasematch(bv1, bv2) (ber_bvstrcasecmp(bv1, bv2) == 0)
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Entry *
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str2entry2( char *s, int checkvals )
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{
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int rc;
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Entry *e;
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struct berval *type, *vals, *nvals;
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char *freeval;
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AttributeDescription *ad, *ad_prev;
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const char *text;
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char *next;
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int attr_cnt;
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int i, lines;
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Attribute ahead, *atail;
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/*
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* LDIF is used as the string format.
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* An entry looks like this:
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*
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* dn: <dn>\n
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* [<attr>:[:] <value>\n]
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* [<tab><continuedvalue>\n]*
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* ...
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*
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* If a double colon is used after a type, it means the
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* following value is encoded as a base 64 string. This
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* happens if the value contains a non-printing character
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* or newline.
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*/
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Debug( LDAP_DEBUG_TRACE, "=> str2entry: \"%s\"\n",
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s ? s : "NULL", 0, 0 );
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e = entry_alloc();
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if( e == NULL ) {
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Debug( LDAP_DEBUG_ANY,
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"<= str2entry NULL (entry allocation failed)\n",
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0, 0, 0 );
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return( NULL );
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}
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/* initialize entry */
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e->e_id = NOID;
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/* dn + attributes */
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atail = &ahead;
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ahead.a_next = NULL;
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ad = NULL;
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ad_prev = NULL;
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attr_cnt = 0;
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next = s;
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lines = ldif_countlines( s );
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type = ch_calloc( 1, (lines+1)*3*sizeof(struct berval)+lines );
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vals = type+lines+1;
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nvals = vals+lines+1;
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freeval = (char *)(nvals+lines+1);
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i = -1;
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/* parse into individual values, record DN */
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while ( (s = ldif_getline( &next )) != NULL ) {
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int freev;
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if ( *s == '\n' || *s == '\0' ) {
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break;
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}
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i++;
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if (i >= lines) {
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Debug( LDAP_DEBUG_TRACE,
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"<= str2entry ran past end of entry\n", 0, 0, 0 );
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goto fail;
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}
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rc = ldif_parse_line2( s, type+i, vals+i, &freev );
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freeval[i] = freev;
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if ( rc ) {
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Debug( LDAP_DEBUG_TRACE,
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"<= str2entry NULL (parse_line)\n", 0, 0, 0 );
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continue;
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}
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if ( bvcasematch( &type[i], &dn_bv ) ) {
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if ( e->e_dn != NULL ) {
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Debug( LDAP_DEBUG_ANY, "str2entry: "
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"entry %ld has multiple DNs \"%s\" and \"%s\"\n",
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(long) e->e_id, e->e_dn, vals[i].bv_val );
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goto fail;
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}
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rc = dnPrettyNormal( NULL, &vals[i], &e->e_name, &e->e_nname, NULL );
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if( rc != LDAP_SUCCESS ) {
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Debug( LDAP_DEBUG_ANY, "str2entry: "
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"entry %ld has invalid DN \"%s\"\n",
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(long) e->e_id, vals[i].bv_val, 0 );
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goto fail;
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}
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if ( freeval[i] ) free( vals[i].bv_val );
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vals[i].bv_val = NULL;
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i--;
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continue;
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}
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}
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lines = i+1;
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/* check to make sure there was a dn: line */
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if ( BER_BVISNULL( &e->e_name )) {
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Debug( LDAP_DEBUG_ANY, "str2entry: entry %ld has no dn\n",
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(long) e->e_id, 0, 0 );
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goto fail;
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}
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/* Make sure all attributes with multiple values are contiguous */
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if ( checkvals ) {
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int j, k;
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struct berval bv;
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int fv;
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for (i=0; i<lines; i++) {
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for ( j=i+1; j<lines; j++ ) {
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if ( bvcasematch( type+i, type+j )) {
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/* out of order, move intervening attributes down */
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if ( j != i+1 ) {
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bv = vals[j];
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fv = freeval[j];
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for ( k=j; k>i; k-- ) {
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type[k] = type[k-1];
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vals[k] = vals[k-1];
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freeval[k] = freeval[k-1];
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}
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k++;
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type[k] = type[i];
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vals[k] = bv;
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freeval[k] = fv;
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}
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i++;
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}
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}
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}
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}
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if ( lines > 0 ) {
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for ( i=0; i<=lines; i++ ) {
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ad_prev = ad;
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if ( !ad || ( i<lines && !bvcasematch( type+i, &ad->ad_cname ))) {
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ad = NULL;
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rc = slap_bv2ad( type+i, &ad, &text );
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if( rc != LDAP_SUCCESS ) {
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int wtool = ( slapMode & (SLAP_TOOL_MODE|SLAP_TOOL_READONLY) ) == SLAP_TOOL_MODE;
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Debug( wtool ? LDAP_DEBUG_ANY : LDAP_DEBUG_TRACE,
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"<= str2entry: str2ad(%s): %s\n", type[i].bv_val, text, 0 );
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if( wtool ) {
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goto fail;
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}
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rc = slap_bv2undef_ad( type+i, &ad, &text, 0 );
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if( rc != LDAP_SUCCESS ) {
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Debug( LDAP_DEBUG_ANY,
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"<= str2entry: slap_str2undef_ad(%s): %s\n",
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type[i].bv_val, text, 0 );
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goto fail;
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}
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}
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/* require ';binary' when appropriate (ITS#5071) */
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if ( slap_syntax_is_binary( ad->ad_type->sat_syntax ) && !slap_ad_is_binary( ad ) ) {
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Debug( LDAP_DEBUG_ANY,
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"str2entry: attributeType %s #%d: "
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"needs ';binary' transfer as per syntax %s\n",
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ad->ad_cname.bv_val, 0,
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ad->ad_type->sat_syntax->ssyn_oid );
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goto fail;
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}
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}
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if (( ad_prev && ad != ad_prev ) || ( i == lines )) {
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int j, k;
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atail->a_next = attr_alloc( NULL );
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atail = atail->a_next;
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atail->a_flags = 0;
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atail->a_numvals = attr_cnt;
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atail->a_desc = ad_prev;
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atail->a_vals = ch_malloc( (attr_cnt + 1) * sizeof(struct berval));
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if( ad_prev->ad_type->sat_equality &&
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ad_prev->ad_type->sat_equality->smr_normalize )
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atail->a_nvals = ch_malloc( (attr_cnt + 1) * sizeof(struct berval));
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else
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atail->a_nvals = NULL;
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k = i - attr_cnt;
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for ( j=0; j<attr_cnt; j++ ) {
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if ( freeval[k] )
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atail->a_vals[j] = vals[k];
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else
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ber_dupbv( atail->a_vals+j, &vals[k] );
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vals[k].bv_val = NULL;
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if ( atail->a_nvals ) {
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atail->a_nvals[j] = nvals[k];
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nvals[k].bv_val = NULL;
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}
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k++;
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}
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BER_BVZERO( &atail->a_vals[j] );
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if ( atail->a_nvals ) {
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BER_BVZERO( &atail->a_nvals[j] );
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} else {
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atail->a_nvals = atail->a_vals;
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}
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attr_cnt = 0;
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/* FIXME: we only need this when migrating from an unsorted DB */
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if ( atail->a_desc->ad_type->sat_flags & SLAP_AT_SORTED_VAL ) {
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rc = slap_sort_vals( (Modifications *)atail, &text, &j, NULL );
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if ( rc == LDAP_SUCCESS ) {
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atail->a_flags |= SLAP_ATTR_SORTED_VALS;
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} else if ( rc == LDAP_TYPE_OR_VALUE_EXISTS ) {
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Debug( LDAP_DEBUG_ANY,
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"str2entry: attributeType %s value #%d provided more than once\n",
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atail->a_desc->ad_cname.bv_val, j, 0 );
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goto fail;
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}
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}
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if ( i == lines ) break;
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}
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if ( BER_BVISNULL( &vals[i] ) ) {
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Debug( LDAP_DEBUG_ANY,
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"str2entry: attributeType %s #%d: "
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"no value\n",
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ad->ad_cname.bv_val, attr_cnt, 0 );
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goto fail;
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}
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if ( ad->ad_type->sat_equality &&
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ad->ad_type->sat_equality->smr_normalize )
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{
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rc = ordered_value_normalize(
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SLAP_MR_VALUE_OF_ATTRIBUTE_SYNTAX,
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ad,
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ad->ad_type->sat_equality,
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&vals[i], &nvals[i], NULL );
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if ( rc ) {
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Debug( LDAP_DEBUG_ANY,
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"<= str2entry NULL (smr_normalize %s %d)\n", ad->ad_cname.bv_val, rc, 0 );
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goto fail;
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}
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}
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attr_cnt++;
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}
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}
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free( type );
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atail->a_next = NULL;
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e->e_attrs = ahead.a_next;
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Debug(LDAP_DEBUG_TRACE, "<= str2entry(%s) -> 0x%lx\n",
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e->e_dn, (unsigned long) e, 0 );
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return( e );
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fail:
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for ( i=0; i<lines; i++ ) {
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if ( freeval[i] ) free( vals[i].bv_val );
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free( nvals[i].bv_val );
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}
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free( type );
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entry_free( e );
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return NULL;
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}
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#define GRABSIZE BUFSIZ
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#define MAKE_SPACE( n ) { \
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while ( ecur + (n) > ebuf + emaxsize ) { \
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ptrdiff_t offset; \
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offset = (int) (ecur - ebuf); \
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ebuf = ch_realloc( ebuf, \
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emaxsize + GRABSIZE ); \
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emaxsize += GRABSIZE; \
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ecur = ebuf + offset; \
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} \
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}
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/* NOTE: only preserved for binary compatibility */
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char *
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entry2str(
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Entry *e,
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int *len )
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{
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return entry2str_wrap( e, len, LDIF_LINE_WIDTH );
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}
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char *
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entry2str_wrap(
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Entry *e,
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int *len,
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ber_len_t wrap )
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{
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Attribute *a;
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struct berval *bv;
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int i;
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ber_len_t tmplen;
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assert( e != NULL );
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/*
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* In string format, an entry looks like this:
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* dn: <dn>\n
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* [<attr>: <value>\n]*
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*/
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ecur = ebuf;
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/* put the dn */
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if ( e->e_dn != NULL ) {
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/* put "dn: <dn>" */
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tmplen = e->e_name.bv_len;
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MAKE_SPACE( LDIF_SIZE_NEEDED( 2, tmplen ));
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ldif_sput_wrap( &ecur, LDIF_PUT_VALUE, "dn", e->e_dn, tmplen, wrap );
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}
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/* put the attributes */
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for ( a = e->e_attrs; a != NULL; a = a->a_next ) {
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/* put "<type>:[:] <value>" line for each value */
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for ( i = 0; a->a_vals[i].bv_val != NULL; i++ ) {
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bv = &a->a_vals[i];
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tmplen = a->a_desc->ad_cname.bv_len;
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MAKE_SPACE( LDIF_SIZE_NEEDED( tmplen, bv->bv_len ));
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ldif_sput_wrap( &ecur, LDIF_PUT_VALUE,
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a->a_desc->ad_cname.bv_val,
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bv->bv_val, bv->bv_len, wrap );
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}
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}
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MAKE_SPACE( 1 );
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*ecur = '\0';
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*len = ecur - ebuf;
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|
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return( ebuf );
|
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}
|
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|
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void
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entry_clean( Entry *e )
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{
|
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/* free an entry structure */
|
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assert( e != NULL );
|
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|
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/* e_private must be freed by the caller */
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assert( e->e_private == NULL );
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|
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e->e_id = 0;
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|
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/* free DNs */
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if ( !BER_BVISNULL( &e->e_name ) ) {
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free( e->e_name.bv_val );
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BER_BVZERO( &e->e_name );
|
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}
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if ( !BER_BVISNULL( &e->e_nname ) ) {
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free( e->e_nname.bv_val );
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BER_BVZERO( &e->e_nname );
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}
|
|
|
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if ( !BER_BVISNULL( &e->e_bv ) ) {
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free( e->e_bv.bv_val );
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BER_BVZERO( &e->e_bv );
|
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}
|
|
|
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/* free attributes */
|
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if ( e->e_attrs ) {
|
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attrs_free( e->e_attrs );
|
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e->e_attrs = NULL;
|
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}
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|
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e->e_ocflags = 0;
|
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}
|
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|
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void
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entry_free( Entry *e )
|
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{
|
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entry_clean( e );
|
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|
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ldap_pvt_thread_mutex_lock( &entry_mutex );
|
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e->e_private = entry_list;
|
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entry_list = e;
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ldap_pvt_thread_mutex_unlock( &entry_mutex );
|
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}
|
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|
|
/* These parameters work well on AMD64 */
|
|
#if 0
|
|
#define STRIDE 8
|
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#define STRIPE 5
|
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#else
|
|
#define STRIDE 1
|
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#define STRIPE 1
|
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#endif
|
|
#define STRIDE_FACTOR (STRIDE*STRIPE)
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|
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int
|
|
entry_prealloc( int num )
|
|
{
|
|
Entry *e, **prev, *tmp;
|
|
slap_list *s;
|
|
int i, j;
|
|
|
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if (!num) return 0;
|
|
|
|
#if STRIDE_FACTOR > 1
|
|
/* Round up to our stride factor */
|
|
num += STRIDE_FACTOR-1;
|
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num /= STRIDE_FACTOR;
|
|
num *= STRIDE_FACTOR;
|
|
#endif
|
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|
|
s = ch_calloc( 1, sizeof(slap_list) + num * sizeof(Entry));
|
|
s->next = entry_chunks;
|
|
entry_chunks = s;
|
|
|
|
prev = &tmp;
|
|
for (i=0; i<STRIPE; i++) {
|
|
e = (Entry *)(s+1);
|
|
e += i;
|
|
for (j=i; j<num; j+= STRIDE) {
|
|
*prev = e;
|
|
prev = (Entry **)&e->e_private;
|
|
e += STRIDE;
|
|
}
|
|
}
|
|
*prev = entry_list;
|
|
entry_list = (Entry *)(s+1);
|
|
|
|
return 0;
|
|
}
|
|
|
|
Entry *
|
|
entry_alloc( void )
|
|
{
|
|
Entry *e;
|
|
|
|
ldap_pvt_thread_mutex_lock( &entry_mutex );
|
|
if ( !entry_list )
|
|
entry_prealloc( CHUNK_SIZE );
|
|
e = entry_list;
|
|
entry_list = e->e_private;
|
|
e->e_private = NULL;
|
|
ldap_pvt_thread_mutex_unlock( &entry_mutex );
|
|
|
|
return e;
|
|
}
|
|
|
|
|
|
/*
|
|
* These routines are used only by Backend.
|
|
*
|
|
* the Entry has three entry points (ways to find things):
|
|
*
|
|
* by entry e.g., if you already have an entry from the cache
|
|
* and want to delete it. (really by entry ptr)
|
|
* by dn e.g., when looking for the base object of a search
|
|
* by id e.g., for search candidates
|
|
*
|
|
* these correspond to three different avl trees that are maintained.
|
|
*/
|
|
|
|
int
|
|
entry_cmp( Entry *e1, Entry *e2 )
|
|
{
|
|
return SLAP_PTRCMP( e1, e2 );
|
|
}
|
|
|
|
int
|
|
entry_dn_cmp( const void *v_e1, const void *v_e2 )
|
|
{
|
|
/* compare their normalized UPPERCASED dn's */
|
|
const Entry *e1 = v_e1, *e2 = v_e2;
|
|
|
|
return ber_bvcmp( &e1->e_nname, &e2->e_nname );
|
|
}
|
|
|
|
int
|
|
entry_id_cmp( const void *v_e1, const void *v_e2 )
|
|
{
|
|
const Entry *e1 = v_e1, *e2 = v_e2;
|
|
return( e1->e_id < e2->e_id ? -1 : (e1->e_id > e2->e_id ? 1 : 0) );
|
|
}
|
|
|
|
/* This is like a ber_len */
|
|
#define entry_lenlen(l) (((l) < 0x80) ? 1 : ((l) < 0x100) ? 2 : \
|
|
((l) < 0x10000) ? 3 : ((l) < 0x1000000) ? 4 : 5)
|
|
|
|
static void
|
|
entry_putlen(unsigned char **buf, ber_len_t len)
|
|
{
|
|
ber_len_t lenlen = entry_lenlen(len);
|
|
|
|
if (lenlen == 1) {
|
|
**buf = (unsigned char) len;
|
|
} else {
|
|
int i;
|
|
**buf = 0x80 | ((unsigned char) lenlen - 1);
|
|
for (i=lenlen-1; i>0; i--) {
|
|
(*buf)[i] = (unsigned char) len;
|
|
len >>= 8;
|
|
}
|
|
}
|
|
*buf += lenlen;
|
|
}
|
|
|
|
static ber_len_t
|
|
entry_getlen(unsigned char **buf)
|
|
{
|
|
ber_len_t len;
|
|
int i;
|
|
|
|
len = *(*buf)++;
|
|
if (len <= 0x7f)
|
|
return len;
|
|
i = len & 0x7f;
|
|
len = 0;
|
|
for (;i > 0; i--) {
|
|
len <<= 8;
|
|
len |= *(*buf)++;
|
|
}
|
|
return len;
|
|
}
|
|
|
|
/* Count up the sizes of the components of an entry */
|
|
void entry_partsize(Entry *e, ber_len_t *plen,
|
|
int *pnattrs, int *pnvals, int norm)
|
|
{
|
|
ber_len_t len, dnlen, ndnlen;
|
|
int i, nat = 0, nval = 0;
|
|
Attribute *a;
|
|
|
|
dnlen = e->e_name.bv_len;
|
|
len = dnlen + 1; /* trailing NUL byte */
|
|
len += entry_lenlen(dnlen);
|
|
if (norm) {
|
|
ndnlen = e->e_nname.bv_len;
|
|
len += ndnlen + 1;
|
|
len += entry_lenlen(ndnlen);
|
|
}
|
|
for (a=e->e_attrs; a; a=a->a_next) {
|
|
/* For AttributeDesc, we only store the attr name */
|
|
nat++;
|
|
len += a->a_desc->ad_cname.bv_len+1;
|
|
len += entry_lenlen(a->a_desc->ad_cname.bv_len);
|
|
for (i=0; a->a_vals[i].bv_val; i++) {
|
|
nval++;
|
|
len += a->a_vals[i].bv_len + 1;
|
|
len += entry_lenlen(a->a_vals[i].bv_len);
|
|
}
|
|
len += entry_lenlen(i);
|
|
nval++; /* empty berval at end */
|
|
if (norm && a->a_nvals != a->a_vals) {
|
|
for (i=0; a->a_nvals[i].bv_val; i++) {
|
|
nval++;
|
|
len += a->a_nvals[i].bv_len + 1;
|
|
len += entry_lenlen(a->a_nvals[i].bv_len);
|
|
}
|
|
len += entry_lenlen(i); /* i nvals */
|
|
nval++;
|
|
} else {
|
|
len += entry_lenlen(0); /* 0 nvals */
|
|
}
|
|
}
|
|
len += entry_lenlen(nat);
|
|
len += entry_lenlen(nval);
|
|
*plen = len;
|
|
*pnattrs = nat;
|
|
*pnvals = nval;
|
|
}
|
|
|
|
/* Add up the size of the entry for a flattened buffer */
|
|
ber_len_t entry_flatsize(Entry *e, int norm)
|
|
{
|
|
ber_len_t len;
|
|
int nattrs, nvals;
|
|
|
|
entry_partsize(e, &len, &nattrs, &nvals, norm);
|
|
len += sizeof(Entry) + (nattrs * sizeof(Attribute)) +
|
|
(nvals * sizeof(struct berval));
|
|
return len;
|
|
}
|
|
|
|
/* Flatten an Entry into a buffer. The buffer is filled with just the
|
|
* strings/bervals of all the entry components. Each field is preceded
|
|
* by its length, encoded the way ber_put_len works. Every field is NUL
|
|
* terminated. The entire buffer size is precomputed so that a single
|
|
* malloc can be performed. The entry size is also recorded,
|
|
* to aid in entry_decode.
|
|
*/
|
|
int entry_encode(Entry *e, struct berval *bv)
|
|
{
|
|
ber_len_t len, dnlen, ndnlen, i;
|
|
int nattrs, nvals;
|
|
Attribute *a;
|
|
unsigned char *ptr;
|
|
|
|
Debug( LDAP_DEBUG_TRACE, "=> entry_encode(0x%08lx): %s\n",
|
|
(long) e->e_id, e->e_dn, 0 );
|
|
|
|
dnlen = e->e_name.bv_len;
|
|
ndnlen = e->e_nname.bv_len;
|
|
|
|
entry_partsize( e, &len, &nattrs, &nvals, 1 );
|
|
|
|
bv->bv_len = len;
|
|
bv->bv_val = ch_malloc(len);
|
|
ptr = (unsigned char *)bv->bv_val;
|
|
entry_putlen(&ptr, nattrs);
|
|
entry_putlen(&ptr, nvals);
|
|
entry_putlen(&ptr, dnlen);
|
|
AC_MEMCPY(ptr, e->e_dn, dnlen);
|
|
ptr += dnlen;
|
|
*ptr++ = '\0';
|
|
entry_putlen(&ptr, ndnlen);
|
|
AC_MEMCPY(ptr, e->e_ndn, ndnlen);
|
|
ptr += ndnlen;
|
|
*ptr++ = '\0';
|
|
|
|
for (a=e->e_attrs; a; a=a->a_next) {
|
|
entry_putlen(&ptr, a->a_desc->ad_cname.bv_len);
|
|
AC_MEMCPY(ptr, a->a_desc->ad_cname.bv_val,
|
|
a->a_desc->ad_cname.bv_len);
|
|
ptr += a->a_desc->ad_cname.bv_len;
|
|
*ptr++ = '\0';
|
|
if (a->a_vals) {
|
|
for (i=0; a->a_vals[i].bv_val; i++);
|
|
assert( i == a->a_numvals );
|
|
entry_putlen(&ptr, i);
|
|
for (i=0; a->a_vals[i].bv_val; i++) {
|
|
entry_putlen(&ptr, a->a_vals[i].bv_len);
|
|
AC_MEMCPY(ptr, a->a_vals[i].bv_val,
|
|
a->a_vals[i].bv_len);
|
|
ptr += a->a_vals[i].bv_len;
|
|
*ptr++ = '\0';
|
|
}
|
|
if (a->a_nvals != a->a_vals) {
|
|
entry_putlen(&ptr, i);
|
|
for (i=0; a->a_nvals[i].bv_val; i++) {
|
|
entry_putlen(&ptr, a->a_nvals[i].bv_len);
|
|
AC_MEMCPY(ptr, a->a_nvals[i].bv_val,
|
|
a->a_nvals[i].bv_len);
|
|
ptr += a->a_nvals[i].bv_len;
|
|
*ptr++ = '\0';
|
|
}
|
|
} else {
|
|
entry_putlen(&ptr, 0);
|
|
}
|
|
}
|
|
}
|
|
|
|
Debug( LDAP_DEBUG_TRACE, "<= entry_encode(0x%08lx): %s\n",
|
|
(long) e->e_id, e->e_dn, 0 );
|
|
|
|
return 0;
|
|
}
|
|
|
|
/* Retrieve an Entry that was stored using entry_encode above.
|
|
* First entry_header must be called to decode the size of the entry.
|
|
* Then a single block of memory must be malloc'd to accomodate the
|
|
* bervals and the bulk data. Next the bulk data is retrieved from
|
|
* the DB and parsed by entry_decode.
|
|
*
|
|
* Note: everything is stored in a single contiguous block, so
|
|
* you can not free individual attributes or names from this
|
|
* structure. Attempting to do so will likely corrupt memory.
|
|
*/
|
|
int entry_header(EntryHeader *eh)
|
|
{
|
|
unsigned char *ptr = (unsigned char *)eh->bv.bv_val;
|
|
|
|
/* Some overlays can create empty entries
|
|
* so don't check for zeros here.
|
|
*/
|
|
eh->nattrs = entry_getlen(&ptr);
|
|
eh->nvals = entry_getlen(&ptr);
|
|
eh->data = (char *)ptr;
|
|
return LDAP_SUCCESS;
|
|
}
|
|
|
|
int
|
|
entry_decode_dn( EntryHeader *eh, struct berval *dn, struct berval *ndn )
|
|
{
|
|
int i;
|
|
unsigned char *ptr = (unsigned char *)eh->bv.bv_val;
|
|
|
|
assert( dn != NULL || ndn != NULL );
|
|
|
|
ptr = (unsigned char *)eh->data;
|
|
i = entry_getlen(&ptr);
|
|
if ( dn != NULL ) {
|
|
dn->bv_val = (char *) ptr;
|
|
dn->bv_len = i;
|
|
}
|
|
|
|
if ( ndn != NULL ) {
|
|
ptr += i + 1;
|
|
i = entry_getlen(&ptr);
|
|
ndn->bv_val = (char *) ptr;
|
|
ndn->bv_len = i;
|
|
}
|
|
|
|
Debug( LDAP_DEBUG_TRACE,
|
|
"entry_decode_dn: \"%s\"\n",
|
|
dn ? dn->bv_val : ndn->bv_val, 0, 0 );
|
|
|
|
return 0;
|
|
}
|
|
|
|
#ifdef SLAP_ZONE_ALLOC
|
|
int entry_decode(EntryHeader *eh, Entry **e, void *ctx)
|
|
#else
|
|
int entry_decode(EntryHeader *eh, Entry **e)
|
|
#endif
|
|
{
|
|
int i, j, nattrs, nvals;
|
|
int rc;
|
|
Attribute *a;
|
|
Entry *x;
|
|
const char *text;
|
|
AttributeDescription *ad;
|
|
unsigned char *ptr = (unsigned char *)eh->bv.bv_val;
|
|
BerVarray bptr;
|
|
|
|
nattrs = eh->nattrs;
|
|
nvals = eh->nvals;
|
|
x = entry_alloc();
|
|
x->e_attrs = attrs_alloc( nattrs );
|
|
ptr = (unsigned char *)eh->data;
|
|
i = entry_getlen(&ptr);
|
|
x->e_name.bv_val = (char *) ptr;
|
|
x->e_name.bv_len = i;
|
|
ptr += i+1;
|
|
i = entry_getlen(&ptr);
|
|
x->e_nname.bv_val = (char *) ptr;
|
|
x->e_nname.bv_len = i;
|
|
ptr += i+1;
|
|
Debug( LDAP_DEBUG_TRACE,
|
|
"entry_decode: \"%s\"\n",
|
|
x->e_dn, 0, 0 );
|
|
x->e_bv = eh->bv;
|
|
|
|
a = x->e_attrs;
|
|
bptr = (BerVarray)eh->bv.bv_val;
|
|
|
|
while ((i = entry_getlen(&ptr))) {
|
|
struct berval bv;
|
|
bv.bv_len = i;
|
|
bv.bv_val = (char *) ptr;
|
|
ad = NULL;
|
|
rc = slap_bv2ad( &bv, &ad, &text );
|
|
|
|
if( rc != LDAP_SUCCESS ) {
|
|
Debug( LDAP_DEBUG_TRACE,
|
|
"<= entry_decode: str2ad(%s): %s\n", ptr, text, 0 );
|
|
rc = slap_bv2undef_ad( &bv, &ad, &text, 0 );
|
|
|
|
if( rc != LDAP_SUCCESS ) {
|
|
Debug( LDAP_DEBUG_ANY,
|
|
"<= entry_decode: slap_str2undef_ad(%s): %s\n",
|
|
ptr, text, 0 );
|
|
return rc;
|
|
}
|
|
}
|
|
ptr += i + 1;
|
|
a->a_desc = ad;
|
|
a->a_flags = SLAP_ATTR_DONT_FREE_DATA | SLAP_ATTR_DONT_FREE_VALS;
|
|
j = entry_getlen(&ptr);
|
|
a->a_numvals = j;
|
|
a->a_vals = bptr;
|
|
|
|
while (j) {
|
|
i = entry_getlen(&ptr);
|
|
bptr->bv_len = i;
|
|
bptr->bv_val = (char *)ptr;
|
|
ptr += i+1;
|
|
bptr++;
|
|
j--;
|
|
}
|
|
bptr->bv_val = NULL;
|
|
bptr->bv_len = 0;
|
|
bptr++;
|
|
|
|
j = entry_getlen(&ptr);
|
|
if (j) {
|
|
a->a_nvals = bptr;
|
|
while (j) {
|
|
i = entry_getlen(&ptr);
|
|
bptr->bv_len = i;
|
|
bptr->bv_val = (char *)ptr;
|
|
ptr += i+1;
|
|
bptr++;
|
|
j--;
|
|
}
|
|
bptr->bv_val = NULL;
|
|
bptr->bv_len = 0;
|
|
bptr++;
|
|
} else {
|
|
a->a_nvals = a->a_vals;
|
|
}
|
|
/* FIXME: This is redundant once a sorted entry is saved into the DB */
|
|
if ( a->a_desc->ad_type->sat_flags & SLAP_AT_SORTED_VAL ) {
|
|
rc = slap_sort_vals( (Modifications *)a, &text, &j, NULL );
|
|
if ( rc == LDAP_SUCCESS ) {
|
|
a->a_flags |= SLAP_ATTR_SORTED_VALS;
|
|
} else if ( rc == LDAP_TYPE_OR_VALUE_EXISTS ) {
|
|
/* should never happen */
|
|
Debug( LDAP_DEBUG_ANY,
|
|
"entry_decode: attributeType %s value #%d provided more than once\n",
|
|
a->a_desc->ad_cname.bv_val, j, 0 );
|
|
return rc;
|
|
}
|
|
}
|
|
a = a->a_next;
|
|
nattrs--;
|
|
if ( !nattrs )
|
|
break;
|
|
}
|
|
|
|
Debug(LDAP_DEBUG_TRACE, "<= entry_decode(%s)\n",
|
|
x->e_dn, 0, 0 );
|
|
*e = x;
|
|
return 0;
|
|
}
|
|
|
|
Entry *
|
|
entry_dup2( Entry *dest, Entry *source )
|
|
{
|
|
assert( dest != NULL );
|
|
assert( source != NULL );
|
|
|
|
assert( dest->e_private == NULL );
|
|
|
|
dest->e_id = source->e_id;
|
|
ber_dupbv( &dest->e_name, &source->e_name );
|
|
ber_dupbv( &dest->e_nname, &source->e_nname );
|
|
dest->e_attrs = attrs_dup( source->e_attrs );
|
|
dest->e_ocflags = source->e_ocflags;
|
|
|
|
return dest;
|
|
}
|
|
|
|
Entry *
|
|
entry_dup( Entry *e )
|
|
{
|
|
return entry_dup2( entry_alloc(), e );
|
|
}
|
|
|
|
#if 1
|
|
/* Duplicates an entry using a single malloc. Saves CPU time, increases
|
|
* heap usage because a single large malloc is harder to satisfy than
|
|
* lots of small ones, and the freed space isn't as easily reusable.
|
|
*
|
|
* Probably not worth using this function.
|
|
*/
|
|
Entry *entry_dup_bv( Entry *e )
|
|
{
|
|
ber_len_t len;
|
|
int nattrs, nvals;
|
|
Entry *ret;
|
|
struct berval *bvl;
|
|
char *ptr;
|
|
Attribute *src, *dst;
|
|
|
|
ret = entry_alloc();
|
|
|
|
entry_partsize(e, &len, &nattrs, &nvals, 1);
|
|
ret->e_id = e->e_id;
|
|
ret->e_attrs = attrs_alloc( nattrs );
|
|
ret->e_ocflags = e->e_ocflags;
|
|
ret->e_bv.bv_len = len + nvals * sizeof(struct berval);
|
|
ret->e_bv.bv_val = ch_malloc( ret->e_bv.bv_len );
|
|
|
|
bvl = (struct berval *)ret->e_bv.bv_val;
|
|
ptr = (char *)(bvl + nvals);
|
|
|
|
ret->e_name.bv_len = e->e_name.bv_len;
|
|
ret->e_name.bv_val = ptr;
|
|
AC_MEMCPY( ptr, e->e_name.bv_val, e->e_name.bv_len );
|
|
ptr += e->e_name.bv_len;
|
|
*ptr++ = '\0';
|
|
|
|
ret->e_nname.bv_len = e->e_nname.bv_len;
|
|
ret->e_nname.bv_val = ptr;
|
|
AC_MEMCPY( ptr, e->e_nname.bv_val, e->e_nname.bv_len );
|
|
ptr += e->e_name.bv_len;
|
|
*ptr++ = '\0';
|
|
|
|
dst = ret->e_attrs;
|
|
for (src = e->e_attrs; src; src=src->a_next,dst=dst->a_next ) {
|
|
int i;
|
|
dst->a_desc = src->a_desc;
|
|
dst->a_flags = SLAP_ATTR_DONT_FREE_DATA | SLAP_ATTR_DONT_FREE_VALS;
|
|
dst->a_vals = bvl;
|
|
dst->a_numvals = src->a_numvals;
|
|
for ( i=0; src->a_vals[i].bv_val; i++ ) {
|
|
bvl->bv_len = src->a_vals[i].bv_len;
|
|
bvl->bv_val = ptr;
|
|
AC_MEMCPY( ptr, src->a_vals[i].bv_val, bvl->bv_len );
|
|
ptr += bvl->bv_len;
|
|
*ptr++ = '\0';
|
|
bvl++;
|
|
}
|
|
BER_BVZERO(bvl);
|
|
bvl++;
|
|
if ( src->a_vals != src->a_nvals ) {
|
|
dst->a_nvals = bvl;
|
|
for ( i=0; src->a_nvals[i].bv_val; i++ ) {
|
|
bvl->bv_len = src->a_nvals[i].bv_len;
|
|
bvl->bv_val = ptr;
|
|
AC_MEMCPY( ptr, src->a_nvals[i].bv_val, bvl->bv_len );
|
|
ptr += bvl->bv_len;
|
|
*ptr++ = '\0';
|
|
bvl++;
|
|
}
|
|
BER_BVZERO(bvl);
|
|
bvl++;
|
|
}
|
|
}
|
|
return ret;
|
|
}
|
|
#endif
|