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447 lines
9.2 KiB
C
447 lines
9.2 KiB
C
/* cache.c - routines to maintain an in-core cache of 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 2001-2021 The OpenLDAP Foundation.
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* Portions Copyright 2001-2003 Pierangelo Masarati.
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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 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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/* ACKNOWLEDGEMENTS:
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* This work was initially developed by Pierangelo Masarati for inclusion
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* in OpenLDAP Software.
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*/
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#include "portable.h"
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#include <stdio.h>
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#include "ac/string.h"
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#include "slap.h"
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#include "back-monitor.h"
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/*
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* The cache maps DNs to Entries.
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* Each entry, on turn, holds the list of its children in the e_private field.
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* This is used by search operation to perform onelevel and subtree candidate
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* selection.
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*/
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typedef struct monitor_cache_t {
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struct berval mc_ndn;
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Entry *mc_e;
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} monitor_cache_t;
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/*
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* compares entries based on the dn
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*/
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int
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monitor_cache_cmp(
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const void *c1,
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const void *c2 )
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{
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monitor_cache_t *cc1 = ( monitor_cache_t * )c1;
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monitor_cache_t *cc2 = ( monitor_cache_t * )c2;
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/*
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* case sensitive, because the dn MUST be normalized
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*/
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return ber_bvcmp( &cc1->mc_ndn, &cc2->mc_ndn );
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}
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/*
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* checks for duplicate entries
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*/
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int
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monitor_cache_dup(
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void *c1,
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void *c2 )
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{
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monitor_cache_t *cc1 = ( monitor_cache_t * )c1;
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monitor_cache_t *cc2 = ( monitor_cache_t * )c2;
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/*
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* case sensitive, because the dn MUST be normalized
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*/
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return ber_bvcmp( &cc1->mc_ndn, &cc2->mc_ndn ) == 0 ? -1 : 0;
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}
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/*
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* adds an entry to the cache and inits the mutex
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*/
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int
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monitor_cache_add(
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monitor_info_t *mi,
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Entry *e )
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{
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monitor_cache_t *mc;
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int rc;
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assert( mi != NULL );
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assert( e != NULL );
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mc = ( monitor_cache_t * )ch_malloc( sizeof( monitor_cache_t ) );
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mc->mc_ndn = e->e_nname;
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mc->mc_e = e;
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ldap_pvt_thread_mutex_lock( &mi->mi_cache_mutex );
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rc = ldap_avl_insert( &mi->mi_cache, ( caddr_t )mc,
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monitor_cache_cmp, monitor_cache_dup );
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ldap_pvt_thread_mutex_unlock( &mi->mi_cache_mutex );
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return rc;
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}
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/*
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* locks the entry (no r/w)
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*/
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int
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monitor_cache_lock(
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Entry *e )
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{
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monitor_entry_t *mp;
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assert( e != NULL );
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assert( e->e_private != NULL );
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mp = ( monitor_entry_t * )e->e_private;
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ldap_pvt_thread_mutex_lock( &mp->mp_mutex );
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return( 0 );
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}
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/*
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* tries to lock the entry (no r/w)
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*/
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int
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monitor_cache_trylock(
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Entry *e )
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{
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monitor_entry_t *mp;
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assert( e != NULL );
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assert( e->e_private != NULL );
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mp = ( monitor_entry_t * )e->e_private;
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return ldap_pvt_thread_mutex_trylock( &mp->mp_mutex );
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}
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/*
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* gets an entry from the cache based on the normalized dn
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* with mutex locked
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*/
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int
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monitor_cache_get(
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monitor_info_t *mi,
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struct berval *ndn,
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Entry **ep )
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{
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monitor_cache_t tmp_mc, *mc;
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assert( mi != NULL );
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assert( ndn != NULL );
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assert( ep != NULL );
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*ep = NULL;
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tmp_mc.mc_ndn = *ndn;
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retry:;
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ldap_pvt_thread_mutex_lock( &mi->mi_cache_mutex );
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mc = ( monitor_cache_t * )ldap_avl_find( mi->mi_cache,
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( caddr_t )&tmp_mc, monitor_cache_cmp );
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if ( mc != NULL ) {
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/* entry is returned with mutex locked */
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if ( monitor_cache_trylock( mc->mc_e ) ) {
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ldap_pvt_thread_mutex_unlock( &mi->mi_cache_mutex );
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ldap_pvt_thread_yield();
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goto retry;
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}
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*ep = mc->mc_e;
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}
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ldap_pvt_thread_mutex_unlock( &mi->mi_cache_mutex );
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return ( *ep == NULL ? -1 : 0 );
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}
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/*
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* gets an entry from the cache based on the normalized dn
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* with mutex locked
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*/
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int
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monitor_cache_remove(
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monitor_info_t *mi,
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struct berval *ndn,
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Entry **ep )
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{
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monitor_cache_t tmp_mc, *mc;
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struct berval pndn;
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assert( mi != NULL );
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assert( ndn != NULL );
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assert( ep != NULL );
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*ep = NULL;
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dnParent( ndn, &pndn );
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retry:;
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ldap_pvt_thread_mutex_lock( &mi->mi_cache_mutex );
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tmp_mc.mc_ndn = *ndn;
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mc = ( monitor_cache_t * )ldap_avl_find( mi->mi_cache,
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( caddr_t )&tmp_mc, monitor_cache_cmp );
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if ( mc != NULL ) {
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monitor_cache_t *pmc;
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if ( monitor_cache_trylock( mc->mc_e ) ) {
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ldap_pvt_thread_mutex_unlock( &mi->mi_cache_mutex );
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goto retry;
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}
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tmp_mc.mc_ndn = pndn;
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pmc = ( monitor_cache_t * )ldap_avl_find( mi->mi_cache,
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( caddr_t )&tmp_mc, monitor_cache_cmp );
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if ( pmc != NULL ) {
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monitor_entry_t *mp = (monitor_entry_t *)mc->mc_e->e_private,
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*pmp = (monitor_entry_t *)pmc->mc_e->e_private;
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Entry **entryp;
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if ( monitor_cache_trylock( pmc->mc_e ) ) {
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monitor_cache_release( mi, mc->mc_e );
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ldap_pvt_thread_mutex_unlock( &mi->mi_cache_mutex );
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goto retry;
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}
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for ( entryp = &pmp->mp_children; *entryp != NULL; ) {
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monitor_entry_t *next = (monitor_entry_t *)(*entryp)->e_private;
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if ( next == mp ) {
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*entryp = next->mp_next;
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entryp = NULL;
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break;
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}
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entryp = &next->mp_next;
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}
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if ( entryp != NULL ) {
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Debug( LDAP_DEBUG_ANY,
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"monitor_cache_remove(\"%s\"): "
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"not in parent's list\n",
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ndn->bv_val );
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}
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/* either succeeded, and the entry is no longer
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* in its parent's list, or failed, and the
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* entry is neither mucked with nor returned */
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monitor_cache_release( mi, pmc->mc_e );
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if ( entryp == NULL ) {
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monitor_cache_t *tmpmc;
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tmp_mc.mc_ndn = *ndn;
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tmpmc = ldap_avl_delete( &mi->mi_cache,
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( caddr_t )&tmp_mc, monitor_cache_cmp );
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assert( tmpmc == mc );
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*ep = mc->mc_e;
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ch_free( mc );
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mc = NULL;
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/* NOTE: we destroy the mutex, but otherwise
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* leave the private data around; specifically,
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* callbacks need be freed by someone else */
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ldap_pvt_thread_mutex_destroy( &mp->mp_mutex );
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mp->mp_next = NULL;
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mp->mp_children = NULL;
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}
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}
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if ( mc ) {
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monitor_cache_release( mi, mc->mc_e );
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}
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}
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ldap_pvt_thread_mutex_unlock( &mi->mi_cache_mutex );
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return ( *ep == NULL ? -1 : 0 );
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}
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/*
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* If the entry exists in cache, it is returned in locked status;
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* otherwise, if the parent exists, if it may generate volatile
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* descendants an attempt to generate the required entry is
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* performed and, if successful, the entry is returned
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*/
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int
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monitor_cache_dn2entry(
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Operation *op,
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SlapReply *rs,
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struct berval *ndn,
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Entry **ep,
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Entry **matched )
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{
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monitor_info_t *mi = (monitor_info_t *)op->o_bd->be_private;
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int rc;
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struct berval p_ndn = BER_BVNULL;
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Entry *e_parent;
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monitor_entry_t *mp;
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assert( mi != NULL );
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assert( ndn != NULL );
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assert( ep != NULL );
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assert( matched != NULL );
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*matched = NULL;
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if ( !dnIsSuffix( ndn, &op->o_bd->be_nsuffix[ 0 ] ) ) {
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return( -1 );
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}
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rc = monitor_cache_get( mi, ndn, ep );
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if ( !rc && *ep != NULL ) {
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return( 0 );
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}
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/* try with parent/ancestors */
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if ( BER_BVISNULL( ndn ) ) {
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BER_BVSTR( &p_ndn, "" );
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} else {
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dnParent( ndn, &p_ndn );
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}
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rc = monitor_cache_dn2entry( op, rs, &p_ndn, &e_parent, matched );
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if ( rc || e_parent == NULL ) {
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return( -1 );
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}
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mp = ( monitor_entry_t * )e_parent->e_private;
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rc = -1;
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if ( mp->mp_flags & MONITOR_F_VOLATILE_CH ) {
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/* parent entry generates volatile children */
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rc = monitor_entry_create( op, rs, ndn, e_parent, ep );
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}
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if ( !rc ) {
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monitor_cache_lock( *ep );
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monitor_cache_release( mi, e_parent );
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} else {
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*matched = e_parent;
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}
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return( rc );
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}
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/*
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* releases the lock of the entry; if it is marked as volatile, it is
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* destroyed.
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*/
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int
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monitor_cache_release(
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monitor_info_t *mi,
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Entry *e )
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{
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monitor_entry_t *mp;
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assert( mi != NULL );
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assert( e != NULL );
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assert( e->e_private != NULL );
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mp = ( monitor_entry_t * )e->e_private;
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if ( mp->mp_flags & MONITOR_F_VOLATILE ) {
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monitor_cache_t *mc, tmp_mc;
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/* volatile entries do not return to cache */
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ldap_pvt_thread_mutex_lock( &mi->mi_cache_mutex );
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tmp_mc.mc_ndn = e->e_nname;
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mc = ldap_avl_delete( &mi->mi_cache,
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( caddr_t )&tmp_mc, monitor_cache_cmp );
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ldap_pvt_thread_mutex_unlock( &mi->mi_cache_mutex );
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if ( mc != NULL ) {
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ch_free( mc );
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}
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ldap_pvt_thread_mutex_unlock( &mp->mp_mutex );
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ldap_pvt_thread_mutex_destroy( &mp->mp_mutex );
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ch_free( mp );
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e->e_private = NULL;
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entry_free( e );
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return( 0 );
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}
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ldap_pvt_thread_mutex_unlock( &mp->mp_mutex );
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return( 0 );
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}
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static void
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monitor_entry_destroy( void *v_mc )
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{
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monitor_cache_t *mc = (monitor_cache_t *)v_mc;
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if ( mc->mc_e != NULL ) {
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monitor_entry_t *mp;
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assert( mc->mc_e->e_private != NULL );
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mp = ( monitor_entry_t * )mc->mc_e->e_private;
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if ( mp->mp_cb ) {
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monitor_callback_t *cb;
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for ( cb = mp->mp_cb; cb != NULL; ) {
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monitor_callback_t *next = cb->mc_next;
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if ( cb->mc_free ) {
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(void)cb->mc_free( mc->mc_e, &cb->mc_private );
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}
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ch_free( mp->mp_cb );
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cb = next;
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}
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}
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ldap_pvt_thread_mutex_destroy( &mp->mp_mutex );
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ch_free( mp );
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mc->mc_e->e_private = NULL;
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entry_free( mc->mc_e );
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}
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ch_free( mc );
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}
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int
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monitor_cache_destroy(
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monitor_info_t *mi )
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{
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if ( mi->mi_cache ) {
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ldap_avl_free( mi->mi_cache, monitor_entry_destroy );
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}
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return 0;
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}
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int monitor_back_release(
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Operation *op,
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Entry *e,
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int rw )
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{
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monitor_info_t *mi = ( monitor_info_t * )op->o_bd->be_private;
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return monitor_cache_release( mi, e );
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}
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