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openldap/servers/slapd/back-meta/config.c
Howard Chu 10d5815c62 Fix typo in cancel config
2014-10-15 11:21:19 +01:00

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/* $OpenLDAP$ */
/* This work is part of OpenLDAP Software <http://www.openldap.org/>.
*
* Copyright 1999-2014 The OpenLDAP Foundation.
* Portions Copyright 2001-2003 Pierangelo Masarati.
* Portions Copyright 1999-2003 Howard Chu.
* 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>.
*/
/* ACKNOWLEDGEMENTS:
* This work was initially developed by the Howard Chu for inclusion
* in OpenLDAP Software and subsequently enhanced by Pierangelo
* Masarati.
*/
#include "portable.h"
#include <stdio.h>
#include <ctype.h>
#include <ac/string.h>
#include <ac/socket.h>
#include "slap.h"
#include "config.h"
#include "lutil.h"
#include "ldif.h"
#include "../back-ldap/back-ldap.h"
#include "back-meta.h"
#define SLAP_AUTH_DN 1
static ConfigDriver meta_back_cf_gen;
static ConfigLDAPadd meta_ldadd;
static ConfigCfAdd meta_cfadd;
static int ldap_back_map_config(
ConfigArgs *c,
struct ldapmap *oc_map,
struct ldapmap *at_map );
/* Three sets of enums:
* 1) attrs that are only valid in the base config
* 2) attrs that are valid in base or target
* 3) attrs that are only valid in a target
*/
/* Base attrs */
enum {
LDAP_BACK_CFG_CONN_TTL = 1,
LDAP_BACK_CFG_DNCACHE_TTL,
LDAP_BACK_CFG_IDLE_TIMEOUT,
LDAP_BACK_CFG_ONERR,
LDAP_BACK_CFG_PSEUDOROOT_BIND_DEFER,
LDAP_BACK_CFG_SINGLECONN,
LDAP_BACK_CFG_USETEMP,
LDAP_BACK_CFG_CONNPOOLMAX,
LDAP_BACK_CFG_LAST_BASE
};
/* Base or target */
enum {
LDAP_BACK_CFG_BIND_TIMEOUT = LDAP_BACK_CFG_LAST_BASE,
LDAP_BACK_CFG_CANCEL,
LDAP_BACK_CFG_CHASE,
LDAP_BACK_CFG_CLIENT_PR,
LDAP_BACK_CFG_DEFAULT_T,
LDAP_BACK_CFG_NETWORK_TIMEOUT,
LDAP_BACK_CFG_NOREFS,
LDAP_BACK_CFG_NOUNDEFFILTER,
LDAP_BACK_CFG_NRETRIES,
LDAP_BACK_CFG_QUARANTINE,
LDAP_BACK_CFG_REBIND,
LDAP_BACK_CFG_TIMEOUT,
LDAP_BACK_CFG_VERSION,
LDAP_BACK_CFG_ST_REQUEST,
LDAP_BACK_CFG_T_F,
LDAP_BACK_CFG_TLS,
LDAP_BACK_CFG_LAST_BOTH
};
/* Target attrs */
enum {
LDAP_BACK_CFG_URI = LDAP_BACK_CFG_LAST_BOTH,
LDAP_BACK_CFG_ACL_AUTHCDN,
LDAP_BACK_CFG_ACL_PASSWD,
LDAP_BACK_CFG_IDASSERT_AUTHZFROM,
LDAP_BACK_CFG_IDASSERT_BIND,
LDAP_BACK_CFG_REWRITE,
LDAP_BACK_CFG_SUFFIXM,
LDAP_BACK_CFG_MAP,
LDAP_BACK_CFG_SUBTREE_EX,
LDAP_BACK_CFG_SUBTREE_IN,
LDAP_BACK_CFG_PSEUDOROOTDN,
LDAP_BACK_CFG_PSEUDOROOTPW,
LDAP_BACK_CFG_KEEPALIVE,
LDAP_BACK_CFG_FILTER,
LDAP_BACK_CFG_LAST
};
static ConfigTable metacfg[] = {
{ "uri", "uri", 2, 0, 0,
ARG_MAGIC|LDAP_BACK_CFG_URI,
meta_back_cf_gen, "( OLcfgDbAt:0.14 "
"NAME 'olcDbURI' "
"DESC 'URI (list) for remote DSA' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "tls", "what", 2, 0, 0,
ARG_MAGIC|LDAP_BACK_CFG_TLS,
meta_back_cf_gen, "( OLcfgDbAt:3.1 "
"NAME 'olcDbStartTLS' "
"DESC 'StartTLS' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "acl-authcDN", "DN", 2, 2, 0,
ARG_DN|ARG_MAGIC|LDAP_BACK_CFG_ACL_AUTHCDN,
meta_back_cf_gen, "( OLcfgDbAt:3.2 "
"NAME 'olcDbACLAuthcDn' "
"DESC 'Remote ACL administrative identity' "
"OBSOLETE "
"SYNTAX OMsDN "
"SINGLE-VALUE )",
NULL, NULL },
/* deprecated, will be removed; aliases "acl-authcDN" */
{ "binddn", "DN", 2, 2, 0,
ARG_DN|ARG_MAGIC|LDAP_BACK_CFG_ACL_AUTHCDN,
meta_back_cf_gen, NULL, NULL, NULL },
{ "acl-passwd", "cred", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_ACL_PASSWD,
meta_back_cf_gen, "( OLcfgDbAt:3.3 "
"NAME 'olcDbACLPasswd' "
"DESC 'Remote ACL administrative identity credentials' "
"OBSOLETE "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
/* deprecated, will be removed; aliases "acl-passwd" */
{ "bindpw", "cred", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_ACL_PASSWD,
meta_back_cf_gen, NULL, NULL, NULL },
{ "idassert-bind", "args", 2, 0, 0,
ARG_MAGIC|LDAP_BACK_CFG_IDASSERT_BIND,
meta_back_cf_gen, "( OLcfgDbAt:3.7 "
"NAME 'olcDbIDAssertBind' "
"DESC 'Remote Identity Assertion administrative identity auth bind configuration' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "idassert-authzFrom", "authzRule", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_IDASSERT_AUTHZFROM,
meta_back_cf_gen, "( OLcfgDbAt:3.9 "
"NAME 'olcDbIDAssertAuthzFrom' "
"DESC 'Remote Identity Assertion authz rules' "
"EQUALITY caseIgnoreMatch "
"SYNTAX OMsDirectoryString "
"X-ORDERED 'VALUES' )",
NULL, NULL },
{ "rebind-as-user", "true|FALSE", 1, 2, 0,
ARG_MAGIC|ARG_ON_OFF|LDAP_BACK_CFG_REBIND,
meta_back_cf_gen, "( OLcfgDbAt:3.10 "
"NAME 'olcDbRebindAsUser' "
"DESC 'Rebind as user' "
"SYNTAX OMsBoolean "
"SINGLE-VALUE )",
NULL, NULL },
{ "chase-referrals", "true|FALSE", 2, 2, 0,
ARG_MAGIC|ARG_ON_OFF|LDAP_BACK_CFG_CHASE,
meta_back_cf_gen, "( OLcfgDbAt:3.11 "
"NAME 'olcDbChaseReferrals' "
"DESC 'Chase referrals' "
"SYNTAX OMsBoolean "
"SINGLE-VALUE )",
NULL, NULL },
{ "t-f-support", "true|FALSE|discover", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_T_F,
meta_back_cf_gen, "( OLcfgDbAt:3.12 "
"NAME 'olcDbTFSupport' "
"DESC 'Absolute filters support' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "timeout", "timeout(list)", 2, 0, 0,
ARG_MAGIC|LDAP_BACK_CFG_TIMEOUT,
meta_back_cf_gen, "( OLcfgDbAt:3.14 "
"NAME 'olcDbTimeout' "
"DESC 'Per-operation timeouts' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "idle-timeout", "timeout", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_IDLE_TIMEOUT,
meta_back_cf_gen, "( OLcfgDbAt:3.15 "
"NAME 'olcDbIdleTimeout' "
"DESC 'connection idle timeout' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "conn-ttl", "ttl", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_CONN_TTL,
meta_back_cf_gen, "( OLcfgDbAt:3.16 "
"NAME 'olcDbConnTtl' "
"DESC 'connection ttl' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "network-timeout", "timeout", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_NETWORK_TIMEOUT,
meta_back_cf_gen, "( OLcfgDbAt:3.17 "
"NAME 'olcDbNetworkTimeout' "
"DESC 'connection network timeout' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "protocol-version", "version", 2, 2, 0,
ARG_MAGIC|ARG_INT|LDAP_BACK_CFG_VERSION,
meta_back_cf_gen, "( OLcfgDbAt:3.18 "
"NAME 'olcDbProtocolVersion' "
"DESC 'protocol version' "
"SYNTAX OMsInteger "
"SINGLE-VALUE )",
NULL, NULL },
{ "single-conn", "true|FALSE", 2, 2, 0,
ARG_MAGIC|ARG_ON_OFF|LDAP_BACK_CFG_SINGLECONN,
meta_back_cf_gen, "( OLcfgDbAt:3.19 "
"NAME 'olcDbSingleConn' "
"DESC 'cache a single connection per identity' "
"SYNTAX OMsBoolean "
"SINGLE-VALUE )",
NULL, NULL },
{ "cancel", "ABANDON|ignore|exop", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_CANCEL,
meta_back_cf_gen, "( OLcfgDbAt:3.20 "
"NAME 'olcDbCancel' "
"DESC 'abandon/ignore/exop operations when appropriate' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "quarantine", "retrylist", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_QUARANTINE,
meta_back_cf_gen, "( OLcfgDbAt:3.21 "
"NAME 'olcDbQuarantine' "
"DESC 'Quarantine database if connection fails and retry according to rule' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "use-temporary-conn", "true|FALSE", 2, 2, 0,
ARG_MAGIC|ARG_ON_OFF|LDAP_BACK_CFG_USETEMP,
meta_back_cf_gen, "( OLcfgDbAt:3.22 "
"NAME 'olcDbUseTemporaryConn' "
"DESC 'Use temporary connections if the cached one is busy' "
"SYNTAX OMsBoolean "
"SINGLE-VALUE )",
NULL, NULL },
{ "conn-pool-max", "<n>", 2, 2, 0,
ARG_MAGIC|ARG_INT|LDAP_BACK_CFG_CONNPOOLMAX,
meta_back_cf_gen, "( OLcfgDbAt:3.23 "
"NAME 'olcDbConnectionPoolMax' "
"DESC 'Max size of privileged connections pool' "
"SYNTAX OMsInteger "
"SINGLE-VALUE )",
NULL, NULL },
#ifdef SLAP_CONTROL_X_SESSION_TRACKING
{ "session-tracking-request", "true|FALSE", 2, 2, 0,
ARG_MAGIC|ARG_ON_OFF|LDAP_BACK_CFG_ST_REQUEST,
meta_back_cf_gen, "( OLcfgDbAt:3.24 "
"NAME 'olcDbSessionTrackingRequest' "
"DESC 'Add session tracking control to proxied requests' "
"SYNTAX OMsBoolean "
"SINGLE-VALUE )",
NULL, NULL },
#endif /* SLAP_CONTROL_X_SESSION_TRACKING */
{ "norefs", "true|FALSE", 2, 2, 0,
ARG_MAGIC|ARG_ON_OFF|LDAP_BACK_CFG_NOREFS,
meta_back_cf_gen, "( OLcfgDbAt:3.25 "
"NAME 'olcDbNoRefs' "
"DESC 'Do not return search reference responses' "
"SYNTAX OMsBoolean "
"SINGLE-VALUE )",
NULL, NULL },
{ "noundeffilter", "true|FALSE", 2, 2, 0,
ARG_MAGIC|ARG_ON_OFF|LDAP_BACK_CFG_NOUNDEFFILTER,
meta_back_cf_gen, "( OLcfgDbAt:3.26 "
"NAME 'olcDbNoUndefFilter' "
"DESC 'Do not propagate undefined search filters' "
"SYNTAX OMsBoolean "
"SINGLE-VALUE )",
NULL, NULL },
{ "rewrite", "arglist", 2, 0, STRLENOF( "rewrite" ),
ARG_MAGIC|LDAP_BACK_CFG_REWRITE,
meta_back_cf_gen, "( OLcfgDbAt:3.101 "
"NAME 'olcDbRewrite' "
"DESC 'DN rewriting rules' "
"EQUALITY caseIgnoreMatch "
"SYNTAX OMsDirectoryString "
"X-ORDERED 'VALUES' )",
NULL, NULL },
{ "suffixmassage", "virtual> <real", 2, 3, 0,
ARG_MAGIC|LDAP_BACK_CFG_SUFFIXM,
meta_back_cf_gen, NULL, NULL, NULL },
{ "map", "attribute|objectClass> [*|<local>] *|<remote", 3, 4, 0,
ARG_MAGIC|LDAP_BACK_CFG_MAP,
meta_back_cf_gen, "( OLcfgDbAt:3.102 "
"NAME 'olcDbMap' "
"DESC 'Map attribute and objectclass names' "
"EQUALITY caseIgnoreMatch "
"SYNTAX OMsDirectoryString "
"X-ORDERED 'VALUES' )",
NULL, NULL },
{ "subtree-exclude", "pattern", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_SUBTREE_EX,
meta_back_cf_gen, "( OLcfgDbAt:3.103 "
"NAME 'olcDbSubtreeExclude' "
"DESC 'DN of subtree to exclude from target' "
"EQUALITY caseIgnoreMatch "
"SYNTAX OMsDirectoryString )",
NULL, NULL },
{ "subtree-include", "pattern", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_SUBTREE_IN,
meta_back_cf_gen, "( OLcfgDbAt:3.104 "
"NAME 'olcDbSubtreeInclude' "
"DESC 'DN of subtree to include in target' "
"EQUALITY caseIgnoreMatch "
"SYNTAX OMsDirectoryString )",
NULL, NULL },
{ "default-target", "[none|<target ID>]", 1, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_DEFAULT_T,
meta_back_cf_gen, "( OLcfgDbAt:3.105 "
"NAME 'olcDbDefaultTarget' "
"DESC 'Specify the default target' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "dncache-ttl", "ttl", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_DNCACHE_TTL,
meta_back_cf_gen, "( OLcfgDbAt:3.106 "
"NAME 'olcDbDnCacheTtl' "
"DESC 'dncache ttl' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "bind-timeout", "microseconds", 2, 2, 0,
ARG_MAGIC|ARG_ULONG|LDAP_BACK_CFG_BIND_TIMEOUT,
meta_back_cf_gen, "( OLcfgDbAt:3.107 "
"NAME 'olcDbBindTimeout' "
"DESC 'bind timeout' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "onerr", "CONTINUE|report|stop", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_ONERR,
meta_back_cf_gen, "( OLcfgDbAt:3.108 "
"NAME 'olcDbOnErr' "
"DESC 'error handling' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "pseudoroot-bind-defer", "TRUE|false", 2, 2, 0,
ARG_MAGIC|ARG_ON_OFF|LDAP_BACK_CFG_PSEUDOROOT_BIND_DEFER,
meta_back_cf_gen, "( OLcfgDbAt:3.109 "
"NAME 'olcDbPseudoRootBindDefer' "
"DESC 'error handling' "
"SYNTAX OMsBoolean "
"SINGLE-VALUE )",
NULL, NULL },
{ "root-bind-defer", "TRUE|false", 2, 2, 0,
ARG_MAGIC|ARG_ON_OFF|LDAP_BACK_CFG_PSEUDOROOT_BIND_DEFER,
meta_back_cf_gen, NULL, NULL, NULL },
{ "pseudorootdn", "dn", 2, 2, 0,
ARG_MAGIC|ARG_DN|LDAP_BACK_CFG_PSEUDOROOTDN,
meta_back_cf_gen, NULL, NULL, NULL },
{ "pseudorootpw", "password", 2, 2, 0,
ARG_MAGIC|ARG_STRING|LDAP_BACK_CFG_PSEUDOROOTDN,
meta_back_cf_gen, NULL, NULL, NULL },
{ "nretries", "NEVER|forever|<number>", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_NRETRIES,
meta_back_cf_gen, "( OLcfgDbAt:3.110 "
"NAME 'olcDbNretries' "
"DESC 'retry handling' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "client-pr", "accept-unsolicited|disable|<size>", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_CLIENT_PR,
meta_back_cf_gen, "( OLcfgDbAt:3.111 "
"NAME 'olcDbClientPr' "
"DESC 'PagedResults handling' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "", "", 0, 0, 0, ARG_IGNORED,
NULL, "( OLcfgDbAt:3.100 NAME 'olcMetaSub' "
"DESC 'Placeholder to name a Target entry' "
"EQUALITY caseIgnoreMatch "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE X-ORDERED 'SIBLINGS' )", NULL, NULL },
{ "keepalive", "keepalive", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_KEEPALIVE,
meta_back_cf_gen, "( OLcfgDbAt:3.29 "
"NAME 'olcDbKeepalive' "
"DESC 'TCP keepalive' "
"SYNTAX OMsDirectoryString "
"SINGLE-VALUE )",
NULL, NULL },
{ "filter", "pattern", 2, 2, 0,
ARG_MAGIC|LDAP_BACK_CFG_FILTER,
meta_back_cf_gen, "( OLcfgDbAt:3.112 "
"NAME 'olcDbFilter' "
"DESC 'Filter regex pattern to include in target' "
"EQUALITY caseExactMatch "
"SYNTAX OMsDirectoryString )",
NULL, NULL },
{ NULL, NULL, 0, 0, 0, ARG_IGNORED,
NULL, NULL, NULL, NULL }
};
#ifdef SLAP_CONTROL_X_SESSION_TRACKING
#define ST_ATTR "$ olcDbSessionTrackingRequest "
#else
#define ST_ATTR ""
#endif /* SLAP_CONTROL_X_SESSION_TRACKING */
#define COMMON_ATTRS \
"$ olcDbBindTimeout " \
"$ olcDbCancel " \
"$ olcDbChaseReferrals " \
"$ olcDbClientPr " \
"$ olcDbDefaultTarget " \
"$ olcDbNetworkTimeout " \
"$ olcDbNoRefs " \
"$ olcDbNoUndefFilter " \
"$ olcDbNretries " \
"$ olcDbProtocolVersion " \
"$ olcDbQuarantine " \
"$ olcDbRebindAsUser " \
ST_ATTR \
"$ olcDbStartTLS " \
"$ olcDbTFSupport "
static ConfigOCs metaocs[] = {
{ "( OLcfgDbOc:3.2 "
"NAME 'olcMetaConfig' "
"DESC 'Meta backend configuration' "
"SUP olcDatabaseConfig "
"MAY ( olcDbConnTtl "
"$ olcDbDnCacheTtl "
"$ olcDbIdleTimeout "
"$ olcDbOnErr "
"$ olcDbPseudoRootBindDefer "
"$ olcDbSingleConn "
"$ olcDbUseTemporaryConn "
"$ olcDbConnectionPoolMax "
/* defaults, may be overridden per-target */
COMMON_ATTRS
") )",
Cft_Database, metacfg, NULL, meta_cfadd },
{ "( OLcfgDbOc:3.3 "
"NAME 'olcMetaTargetConfig' "
"DESC 'Meta target configuration' "
"SUP olcConfig STRUCTURAL "
"MUST ( olcMetaSub $ olcDbURI ) "
"MAY ( olcDbACLAuthcDn "
"$ olcDbACLPasswd "
"$ olcDbIDAssertAuthzFrom "
"$ olcDbIDAssertBind "
"$ olcDbMap "
"$ olcDbRewrite "
"$ olcDbSubtreeExclude "
"$ olcDbSubtreeInclude "
"$ olcDbTimeout "
"$ olcDbKeepalive "
"$ olcDbFilter "
/* defaults may be inherited */
COMMON_ATTRS
") )",
Cft_Misc, metacfg, meta_ldadd },
{ NULL, 0, NULL }
};
static int
meta_ldadd( CfEntryInfo *p, Entry *e, ConfigArgs *c )
{
if ( p->ce_type != Cft_Database || !p->ce_be ||
p->ce_be->be_cf_ocs != metaocs )
return LDAP_CONSTRAINT_VIOLATION;
c->be = p->ce_be;
return LDAP_SUCCESS;
}
static int
meta_cfadd( Operation *op, SlapReply *rs, Entry *p, ConfigArgs *c )
{
metainfo_t *mi = ( metainfo_t * )c->be->be_private;
struct berval bv;
int i;
bv.bv_val = c->cr_msg;
for ( i=0; i<mi->mi_ntargets; i++ ) {
bv.bv_len = snprintf( c->cr_msg, sizeof(c->cr_msg),
"olcMetaSub=" SLAP_X_ORDERED_FMT "uri", i );
c->ca_private = mi->mi_targets[i];
c->valx = i;
config_build_entry( op, rs, p->e_private, c,
&bv, &metaocs[1], NULL );
}
return LDAP_SUCCESS;
}
static int
meta_rwi_init( struct rewrite_info **rwm_rw )
{
char *rargv[ 3 ];
*rwm_rw = rewrite_info_init( REWRITE_MODE_USE_DEFAULT );
if ( *rwm_rw == NULL ) {
return -1;
}
/*
* the filter rewrite as a string must be disabled
* by default; it can be re-enabled by adding rules;
* this creates an empty rewriteContext
*/
rargv[ 0 ] = "rewriteContext";
rargv[ 1 ] = "searchFilter";
rargv[ 2 ] = NULL;
rewrite_parse( *rwm_rw, "<suffix massage>", 1, 2, rargv );
rargv[ 0 ] = "rewriteContext";
rargv[ 1 ] = "default";
rargv[ 2 ] = NULL;
rewrite_parse( *rwm_rw, "<suffix massage>", 1, 2, rargv );
return 0;
}
static int
meta_back_new_target(
metatarget_t **mtp )
{
metatarget_t *mt;
*mtp = NULL;
mt = ch_calloc( sizeof( metatarget_t ), 1 );
if ( meta_rwi_init( &mt->mt_rwmap.rwm_rw )) {
ch_free( mt );
return -1;
}
ldap_pvt_thread_mutex_init( &mt->mt_uri_mutex );
mt->mt_idassert_mode = LDAP_BACK_IDASSERT_LEGACY;
mt->mt_idassert_authmethod = LDAP_AUTH_NONE;
mt->mt_idassert_tls = SB_TLS_DEFAULT;
/* by default, use proxyAuthz control on each operation */
mt->mt_idassert_flags = LDAP_BACK_AUTH_PRESCRIPTIVE;
*mtp = mt;
return 0;
}
/* Validation for suffixmassage_config */
static int
meta_suffixm_config(
ConfigArgs *c,
int argc,
char **argv,
metatarget_t *mt
)
{
BackendDB *tmp_bd;
struct berval dn, nvnc, pvnc, nrnc, prnc;
int j, rc;
/*
* syntax:
*
* suffixmassage <suffix> <massaged suffix>
*
* the <suffix> field must be defined as a valid suffix
* (or suffixAlias?) for the current database;
* the <massaged suffix> shouldn't have already been
* defined as a valid suffix or suffixAlias for the
* current server
*/
ber_str2bv( argv[ 1 ], 0, 0, &dn );
if ( dnPrettyNormal( NULL, &dn, &pvnc, &nvnc, NULL ) != LDAP_SUCCESS ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"suffix \"%s\" is invalid",
argv[1] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
for ( j = 0; !BER_BVISNULL( &c->be->be_nsuffix[ j ] ); j++ ) {
if ( dnIsSuffix( &nvnc, &c->be->be_nsuffix[ 0 ] ) ) {
break;
}
}
if ( BER_BVISNULL( &c->be->be_nsuffix[ j ] ) ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"suffix \"%s\" must be within the database naming context",
argv[1] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
free( pvnc.bv_val );
free( nvnc.bv_val );
return 1;
}
ber_str2bv( argv[ 2 ], 0, 0, &dn );
if ( dnPrettyNormal( NULL, &dn, &prnc, &nrnc, NULL ) != LDAP_SUCCESS ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"massaged suffix \"%s\" is invalid",
argv[2] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
free( pvnc.bv_val );
free( nvnc.bv_val );
return 1;
}
tmp_bd = select_backend( &nrnc, 0 );
if ( tmp_bd != NULL && tmp_bd->be_private == c->be->be_private ) {
Debug( LDAP_DEBUG_ANY,
"%s: warning: <massaged suffix> \"%s\" resolves to this database, in "
"\"suffixMassage <suffix> <massaged suffix>\"\n",
c->log, prnc.bv_val, 0 );
}
/*
* The suffix massaging is emulated by means of the
* rewrite capabilities
*/
rc = suffix_massage_config( mt->mt_rwmap.rwm_rw,
&pvnc, &nvnc, &prnc, &nrnc );
free( pvnc.bv_val );
free( nvnc.bv_val );
free( prnc.bv_val );
free( nrnc.bv_val );
return rc;
}
static int
slap_bv_x_ordered_unparse( BerVarray in, BerVarray *out )
{
int i;
BerVarray bva = NULL;
char ibuf[32], *ptr;
struct berval idx;
assert( in != NULL );
for ( i = 0; !BER_BVISNULL( &in[i] ); i++ )
/* count'em */ ;
if ( i == 0 ) {
return 1;
}
idx.bv_val = ibuf;
bva = ch_malloc( ( i + 1 ) * sizeof(struct berval) );
BER_BVZERO( &bva[ 0 ] );
for ( i = 0; !BER_BVISNULL( &in[i] ); i++ ) {
idx.bv_len = snprintf( idx.bv_val, sizeof( ibuf ), SLAP_X_ORDERED_FMT, i );
if ( idx.bv_len >= sizeof( ibuf ) ) {
ber_bvarray_free( bva );
return 1;
}
bva[i].bv_len = idx.bv_len + in[i].bv_len;
bva[i].bv_val = ch_malloc( bva[i].bv_len + 1 );
ptr = lutil_strcopy( bva[i].bv_val, ibuf );
ptr = lutil_strcopy( ptr, in[i].bv_val );
*ptr = '\0';
BER_BVZERO( &bva[ i + 1 ] );
}
*out = bva;
return 0;
}
int
meta_subtree_free( metasubtree_t *ms )
{
switch ( ms->ms_type ) {
case META_ST_SUBTREE:
case META_ST_SUBORDINATE:
ber_memfree( ms->ms_dn.bv_val );
break;
case META_ST_REGEX:
regfree( &ms->ms_regex );
ber_memfree( ms->ms_regex_pattern.bv_val );
break;
default:
return -1;
}
ch_free( ms );
return 0;
}
int
meta_subtree_destroy( metasubtree_t *ms )
{
if ( ms->ms_next ) {
meta_subtree_destroy( ms->ms_next );
}
return meta_subtree_free( ms );
}
static void
meta_filter_free( metafilter_t *mf )
{
regfree( &mf->mf_regex );
ber_memfree( mf->mf_regex_pattern.bv_val );
ch_free( mf );
}
void
meta_filter_destroy( metafilter_t *mf )
{
if ( mf->mf_next )
meta_filter_destroy( mf->mf_next );
meta_filter_free( mf );
}
static struct berval st_styles[] = {
BER_BVC("subtree"),
BER_BVC("children"),
BER_BVC("regex")
};
static int
meta_subtree_unparse(
ConfigArgs *c,
metatarget_t *mt )
{
metasubtree_t *ms;
struct berval bv, *style;
if ( !mt->mt_subtree )
return 1;
/* can only be one of exclude or include */
if (( c->type == LDAP_BACK_CFG_SUBTREE_EX ) ^ mt->mt_subtree_exclude )
return 1;
bv.bv_val = c->cr_msg;
for ( ms=mt->mt_subtree; ms; ms=ms->ms_next ) {
if (ms->ms_type == META_ST_SUBTREE)
style = &st_styles[0];
else if ( ms->ms_type == META_ST_SUBORDINATE )
style = &st_styles[1];
else if ( ms->ms_type == META_ST_REGEX )
style = &st_styles[2];
else {
assert(0);
continue;
}
bv.bv_len = snprintf( c->cr_msg, sizeof(c->cr_msg),
"dn.%s:%s", style->bv_val, ms->ms_dn.bv_val );
value_add_one( &c->rvalue_vals, &bv );
}
return 0;
}
static int
meta_subtree_config(
metatarget_t *mt,
ConfigArgs *c )
{
meta_st_t type = META_ST_SUBTREE;
char *pattern;
struct berval ndn = BER_BVNULL;
metasubtree_t *ms = NULL;
if ( c->type == LDAP_BACK_CFG_SUBTREE_EX ) {
if ( mt->mt_subtree && !mt->mt_subtree_exclude ) {
snprintf( c->cr_msg, sizeof(c->cr_msg),
"\"subtree-exclude\" incompatible with previous \"subtree-include\" directives" );
return 1;
}
mt->mt_subtree_exclude = 1;
} else {
if ( mt->mt_subtree && mt->mt_subtree_exclude ) {
snprintf( c->cr_msg, sizeof(c->cr_msg),
"\"subtree-include\" incompatible with previous \"subtree-exclude\" directives" );
return 1;
}
}
pattern = c->argv[1];
if ( strncasecmp( pattern, "dn", STRLENOF( "dn" ) ) == 0 ) {
char *style;
pattern = &pattern[STRLENOF( "dn")];
if ( pattern[0] == '.' ) {
style = &pattern[1];
if ( strncasecmp( style, "subtree", STRLENOF( "subtree" ) ) == 0 ) {
type = META_ST_SUBTREE;
pattern = &style[STRLENOF( "subtree" )];
} else if ( strncasecmp( style, "children", STRLENOF( "children" ) ) == 0 ) {
type = META_ST_SUBORDINATE;
pattern = &style[STRLENOF( "children" )];
} else if ( strncasecmp( style, "sub", STRLENOF( "sub" ) ) == 0 ) {
type = META_ST_SUBTREE;
pattern = &style[STRLENOF( "sub" )];
} else if ( strncasecmp( style, "regex", STRLENOF( "regex" ) ) == 0 ) {
type = META_ST_REGEX;
pattern = &style[STRLENOF( "regex" )];
} else {
snprintf( c->cr_msg, sizeof(c->cr_msg), "unknown style in \"dn.<style>\"" );
return 1;
}
}
if ( pattern[0] != ':' ) {
snprintf( c->cr_msg, sizeof(c->cr_msg), "missing colon after \"dn.<style>\"" );
return 1;
}
pattern++;
}
switch ( type ) {
case META_ST_SUBTREE:
case META_ST_SUBORDINATE: {
struct berval dn;
ber_str2bv( pattern, 0, 0, &dn );
if ( dnNormalize( 0, NULL, NULL, &dn, &ndn, NULL )
!= LDAP_SUCCESS )
{
snprintf( c->cr_msg, sizeof(c->cr_msg), "DN=\"%s\" is invalid", pattern );
return 1;
}
if ( !dnIsSuffix( &ndn, &mt->mt_nsuffix ) ) {
snprintf( c->cr_msg, sizeof(c->cr_msg),
"DN=\"%s\" is not a subtree of target \"%s\"",
pattern, mt->mt_nsuffix.bv_val );
ber_memfree( ndn.bv_val );
return( 1 );
}
} break;
default:
/* silence warnings */
break;
}
ms = ch_calloc( sizeof( metasubtree_t ), 1 );
ms->ms_type = type;
switch ( ms->ms_type ) {
case META_ST_SUBTREE:
case META_ST_SUBORDINATE:
ms->ms_dn = ndn;
break;
case META_ST_REGEX: {
int rc;
rc = regcomp( &ms->ms_regex, pattern, REG_EXTENDED|REG_ICASE );
if ( rc != 0 ) {
char regerr[ SLAP_TEXT_BUFLEN ];
regerror( rc, &ms->ms_regex, regerr, sizeof(regerr) );
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"regular expression \"%s\" bad because of %s",
pattern, regerr );
ch_free( ms );
return 1;
}
ber_str2bv( pattern, 0, 1, &ms->ms_regex_pattern );
} break;
}
if ( mt->mt_subtree == NULL ) {
mt->mt_subtree = ms;
} else {
metasubtree_t **msp;
for ( msp = &mt->mt_subtree; *msp; ) {
switch ( ms->ms_type ) {
case META_ST_SUBTREE:
switch ( (*msp)->ms_type ) {
case META_ST_SUBTREE:
if ( dnIsSuffix( &(*msp)->ms_dn, &ms->ms_dn ) ) {
metasubtree_t *tmp = *msp;
Debug( LDAP_DEBUG_CONFIG,
"%s: previous rule \"dn.subtree:%s\" is contained in rule \"dn.subtree:%s\" (replaced)\n",
c->log, pattern, (*msp)->ms_dn.bv_val );
*msp = (*msp)->ms_next;
tmp->ms_next = NULL;
meta_subtree_destroy( tmp );
continue;
} else if ( dnIsSuffix( &ms->ms_dn, &(*msp)->ms_dn ) ) {
Debug( LDAP_DEBUG_CONFIG,
"%s: previous rule \"dn.subtree:%s\" contains rule \"dn.subtree:%s\" (ignored)\n",
c->log, (*msp)->ms_dn.bv_val, pattern );
meta_subtree_destroy( ms );
ms = NULL;
return( 0 );
}
break;
case META_ST_SUBORDINATE:
if ( dnIsSuffix( &(*msp)->ms_dn, &ms->ms_dn ) ) {
metasubtree_t *tmp = *msp;
Debug( LDAP_DEBUG_CONFIG,
"%s: previous rule \"dn.children:%s\" is contained in rule \"dn.subtree:%s\" (replaced)\n",
c->log, pattern, (*msp)->ms_dn.bv_val );
*msp = (*msp)->ms_next;
tmp->ms_next = NULL;
meta_subtree_destroy( tmp );
continue;
} else if ( dnIsSuffix( &ms->ms_dn, &(*msp)->ms_dn ) && ms->ms_dn.bv_len > (*msp)->ms_dn.bv_len ) {
Debug( LDAP_DEBUG_CONFIG,
"%s: previous rule \"dn.children:%s\" contains rule \"dn.subtree:%s\" (ignored)\n",
c->log, (*msp)->ms_dn.bv_val, pattern );
meta_subtree_destroy( ms );
ms = NULL;
return( 0 );
}
break;
case META_ST_REGEX:
if ( regexec( &(*msp)->ms_regex, ms->ms_dn.bv_val, 0, NULL, 0 ) == 0 ) {
Debug( LDAP_DEBUG_CONFIG,
"%s: previous rule \"dn.regex:%s\" may contain rule \"dn.subtree:%s\"\n",
c->log, (*msp)->ms_regex_pattern.bv_val, ms->ms_dn.bv_val );
}
break;
}
break;
case META_ST_SUBORDINATE:
switch ( (*msp)->ms_type ) {
case META_ST_SUBTREE:
if ( dnIsSuffix( &(*msp)->ms_dn, &ms->ms_dn ) ) {
metasubtree_t *tmp = *msp;
Debug( LDAP_DEBUG_CONFIG,
"%s: previous rule \"dn.children:%s\" is contained in rule \"dn.subtree:%s\" (replaced)\n",
c->log, pattern, (*msp)->ms_dn.bv_val );
*msp = (*msp)->ms_next;
tmp->ms_next = NULL;
meta_subtree_destroy( tmp );
continue;
} else if ( dnIsSuffix( &ms->ms_dn, &(*msp)->ms_dn ) && ms->ms_dn.bv_len > (*msp)->ms_dn.bv_len ) {
Debug( LDAP_DEBUG_CONFIG,
"%s: previous rule \"dn.children:%s\" contains rule \"dn.subtree:%s\" (ignored)\n",
c->log, (*msp)->ms_dn.bv_val, pattern );
meta_subtree_destroy( ms );
ms = NULL;
return( 0 );
}
break;
case META_ST_SUBORDINATE:
if ( dnIsSuffix( &(*msp)->ms_dn, &ms->ms_dn ) ) {
metasubtree_t *tmp = *msp;
Debug( LDAP_DEBUG_CONFIG,
"%s: previous rule \"dn.children:%s\" is contained in rule \"dn.children:%s\" (replaced)\n",
c->log, pattern, (*msp)->ms_dn.bv_val );
*msp = (*msp)->ms_next;
tmp->ms_next = NULL;
meta_subtree_destroy( tmp );
continue;
} else if ( dnIsSuffix( &ms->ms_dn, &(*msp)->ms_dn ) ) {
Debug( LDAP_DEBUG_CONFIG,
"%s: previous rule \"dn.children:%s\" contains rule \"dn.children:%s\" (ignored)\n",
c->log, (*msp)->ms_dn.bv_val, pattern );
meta_subtree_destroy( ms );
ms = NULL;
return( 0 );
}
break;
case META_ST_REGEX:
if ( regexec( &(*msp)->ms_regex, ms->ms_dn.bv_val, 0, NULL, 0 ) == 0 ) {
Debug( LDAP_DEBUG_CONFIG,
"%s: previous rule \"dn.regex:%s\" may contain rule \"dn.subtree:%s\"\n",
c->log, (*msp)->ms_regex_pattern.bv_val, ms->ms_dn.bv_val );
}
break;
}
break;
case META_ST_REGEX:
switch ( (*msp)->ms_type ) {
case META_ST_SUBTREE:
case META_ST_SUBORDINATE:
if ( regexec( &ms->ms_regex, (*msp)->ms_dn.bv_val, 0, NULL, 0 ) == 0 ) {
Debug( LDAP_DEBUG_CONFIG,
"%s: previous rule \"dn.subtree:%s\" may be contained in rule \"dn.regex:%s\"\n",
c->log, (*msp)->ms_dn.bv_val, ms->ms_regex_pattern.bv_val );
}
break;
case META_ST_REGEX:
/* no check possible */
break;
}
break;
}
msp = &(*msp)->ms_next;
}
*msp = ms;
}
return 0;
}
static slap_verbmasks idassert_mode[] = {
{ BER_BVC("self"), LDAP_BACK_IDASSERT_SELF },
{ BER_BVC("anonymous"), LDAP_BACK_IDASSERT_ANONYMOUS },
{ BER_BVC("none"), LDAP_BACK_IDASSERT_NOASSERT },
{ BER_BVC("legacy"), LDAP_BACK_IDASSERT_LEGACY },
{ BER_BVNULL, 0 }
};
static slap_verbmasks tls_mode[] = {
{ BER_BVC( "propagate" ), LDAP_BACK_F_TLS_PROPAGATE_MASK },
{ BER_BVC( "try-propagate" ), LDAP_BACK_F_PROPAGATE_TLS },
{ BER_BVC( "start" ), LDAP_BACK_F_TLS_USE_MASK },
{ BER_BVC( "try-start" ), LDAP_BACK_F_USE_TLS },
{ BER_BVC( "ldaps" ), LDAP_BACK_F_TLS_LDAPS },
{ BER_BVC( "none" ), LDAP_BACK_F_NONE },
{ BER_BVNULL, 0 }
};
static slap_verbmasks t_f_mode[] = {
{ BER_BVC( "yes" ), LDAP_BACK_F_T_F },
{ BER_BVC( "discover" ), LDAP_BACK_F_T_F_DISCOVER },
{ BER_BVC( "no" ), LDAP_BACK_F_NONE },
{ BER_BVNULL, 0 }
};
static slap_verbmasks cancel_mode[] = {
{ BER_BVC( "ignore" ), LDAP_BACK_F_CANCEL_IGNORE },
{ BER_BVC( "exop" ), LDAP_BACK_F_CANCEL_EXOP },
{ BER_BVC( "exop-discover" ), LDAP_BACK_F_CANCEL_EXOP_DISCOVER },
{ BER_BVC( "abandon" ), LDAP_BACK_F_CANCEL_ABANDON },
{ BER_BVNULL, 0 }
};
static slap_verbmasks onerr_mode[] = {
{ BER_BVC( "stop" ), META_BACK_F_ONERR_STOP },
{ BER_BVC( "report" ), META_BACK_F_ONERR_REPORT },
{ BER_BVC( "continue" ), LDAP_BACK_F_NONE },
{ BER_BVNULL, 0 }
};
/* see enum in slap.h */
static slap_cf_aux_table timeout_table[] = {
{ BER_BVC("bind="), SLAP_OP_BIND * sizeof( time_t ), 'u', 0, NULL },
/* unbind makes no sense */
{ BER_BVC("add="), SLAP_OP_ADD * sizeof( time_t ), 'u', 0, NULL },
{ BER_BVC("delete="), SLAP_OP_DELETE * sizeof( time_t ), 'u', 0, NULL },
{ BER_BVC("modrdn="), SLAP_OP_MODRDN * sizeof( time_t ), 'u', 0, NULL },
{ BER_BVC("modify="), SLAP_OP_MODIFY * sizeof( time_t ), 'u', 0, NULL },
{ BER_BVC("compare="), SLAP_OP_COMPARE * sizeof( time_t ), 'u', 0, NULL },
{ BER_BVC("search="), SLAP_OP_SEARCH * sizeof( time_t ), 'u', 0, NULL },
/* abandon makes little sense */
#if 0 /* not implemented yet */
{ BER_BVC("extended="), SLAP_OP_EXTENDED * sizeof( time_t ), 'u', 0, NULL },
#endif
{ BER_BVNULL, 0, 0, 0, NULL }
};
static int
meta_cf_cleanup( ConfigArgs *c )
{
metainfo_t *mi = ( metainfo_t * )c->be->be_private;
metatarget_t *mt = c->ca_private;
return meta_target_finish( mi, mt, c->log, c->cr_msg, sizeof( c->cr_msg ));
}
static int
meta_back_cf_gen( ConfigArgs *c )
{
metainfo_t *mi = ( metainfo_t * )c->be->be_private;
metatarget_t *mt;
metacommon_t *mc;
int i, rc = 0;
assert( mi != NULL );
if ( c->op == SLAP_CONFIG_EMIT || c->op == LDAP_MOD_DELETE ) {
if ( !mi )
return 1;
if ( c->table == Cft_Database ) {
mt = NULL;
mc = &mi->mi_mc;
} else {
mt = c->ca_private;
mc = &mt->mt_mc;
}
}
if ( c->op == SLAP_CONFIG_EMIT ) {
struct berval bv = BER_BVNULL;
switch( c->type ) {
/* Base attrs */
case LDAP_BACK_CFG_CONN_TTL:
if ( mi->mi_conn_ttl == 0 ) {
return 1;
} else {
char buf[ SLAP_TEXT_BUFLEN ];
lutil_unparse_time( buf, sizeof( buf ), mi->mi_conn_ttl );
ber_str2bv( buf, 0, 0, &bv );
value_add_one( &c->rvalue_vals, &bv );
}
break;
case LDAP_BACK_CFG_DNCACHE_TTL:
if ( mi->mi_cache.ttl == META_DNCACHE_DISABLED ) {
return 1;
} else if ( mi->mi_cache.ttl == META_DNCACHE_FOREVER ) {
BER_BVSTR( &bv, "forever" );
} else {
char buf[ SLAP_TEXT_BUFLEN ];
lutil_unparse_time( buf, sizeof( buf ), mi->mi_cache.ttl );
ber_str2bv( buf, 0, 0, &bv );
}
value_add_one( &c->rvalue_vals, &bv );
break;
case LDAP_BACK_CFG_IDLE_TIMEOUT:
if ( mi->mi_idle_timeout == 0 ) {
return 1;
} else {
char buf[ SLAP_TEXT_BUFLEN ];
lutil_unparse_time( buf, sizeof( buf ), mi->mi_idle_timeout );
ber_str2bv( buf, 0, 0, &bv );
value_add_one( &c->rvalue_vals, &bv );
}
break;
case LDAP_BACK_CFG_ONERR:
enum_to_verb( onerr_mode, mi->mi_flags & META_BACK_F_ONERR_MASK, &bv );
if ( BER_BVISNULL( &bv )) {
rc = 1;
} else {
value_add_one( &c->rvalue_vals, &bv );
}
break;
case LDAP_BACK_CFG_PSEUDOROOT_BIND_DEFER:
c->value_int = META_BACK_DEFER_ROOTDN_BIND( mi );
break;
case LDAP_BACK_CFG_SINGLECONN:
c->value_int = LDAP_BACK_SINGLECONN( mi );
break;
case LDAP_BACK_CFG_USETEMP:
c->value_int = LDAP_BACK_USE_TEMPORARIES( mi );
break;
case LDAP_BACK_CFG_CONNPOOLMAX:
c->value_int = mi->mi_conn_priv_max;
break;
/* common attrs */
case LDAP_BACK_CFG_BIND_TIMEOUT:
if ( mc->mc_bind_timeout.tv_sec == 0 &&
mc->mc_bind_timeout.tv_usec == 0 ) {
return 1;
} else {
c->value_ulong = mc->mc_bind_timeout.tv_sec * 1000000UL +
mc->mc_bind_timeout.tv_usec;
}
break;
case LDAP_BACK_CFG_CANCEL: {
slap_mask_t mask = LDAP_BACK_F_CANCEL_MASK2;
if ( mt && META_BACK_TGT_CANCEL_DISCOVER( mt ) ) {
mask &= ~LDAP_BACK_F_CANCEL_EXOP;
}
enum_to_verb( cancel_mode, (mc->mc_flags & mask), &bv );
if ( BER_BVISNULL( &bv ) ) {
/* there's something wrong... */
assert( 0 );
rc = 1;
} else {
value_add_one( &c->rvalue_vals, &bv );
}
} break;
case LDAP_BACK_CFG_CHASE:
c->value_int = META_BACK_CMN_CHASE_REFERRALS(mc);
break;
#ifdef SLAPD_META_CLIENT_PR
case LDAP_BACK_CFG_CLIENT_PR:
if ( mc->mc_ps == META_CLIENT_PR_DISABLE ) {
return 1;
} else if ( mc->mc_ps == META_CLIENT_PR_ACCEPT_UNSOLICITED ) {
BER_BVSTR( &bv, "accept-unsolicited" );
} else {
bv.bv_len = snprintf( c->cr_msg, sizeof(c->cr_msg), "%d", mc->mc_ps );
bv.bv_val = c->cr_msg;
}
value_add_one( &c->rvalue_vals, &bv );
break;
#endif /* SLAPD_META_CLIENT_PR */
case LDAP_BACK_CFG_DEFAULT_T:
if ( mt || mi->mi_defaulttarget == META_DEFAULT_TARGET_NONE )
return 1;
bv.bv_len = snprintf( c->cr_msg, sizeof(c->cr_msg), "%d", mi->mi_defaulttarget );
bv.bv_val = c->cr_msg;
value_add_one( &c->rvalue_vals, &bv );
break;
case LDAP_BACK_CFG_NETWORK_TIMEOUT:
if ( mc->mc_network_timeout == 0 ) {
return 1;
}
bv.bv_len = snprintf( c->cr_msg, sizeof(c->cr_msg), "%ld",
mc->mc_network_timeout );
bv.bv_val = c->cr_msg;
value_add_one( &c->rvalue_vals, &bv );
break;
case LDAP_BACK_CFG_NOREFS:
c->value_int = META_BACK_CMN_NOREFS(mc);
break;
case LDAP_BACK_CFG_NOUNDEFFILTER:
c->value_int = META_BACK_CMN_NOUNDEFFILTER(mc);
break;
case LDAP_BACK_CFG_NRETRIES:
if ( mc->mc_nretries == META_RETRY_FOREVER ) {
BER_BVSTR( &bv, "forever" );
} else if ( mc->mc_nretries == META_RETRY_NEVER ) {
BER_BVSTR( &bv, "never" );
} else {
bv.bv_len = snprintf( c->cr_msg, sizeof(c->cr_msg), "%d",
mc->mc_nretries );
bv.bv_val = c->cr_msg;
}
value_add_one( &c->rvalue_vals, &bv );
break;
case LDAP_BACK_CFG_QUARANTINE:
if ( !META_BACK_CMN_QUARANTINE( mc )) {
rc = 1;
break;
}
rc = mi->mi_ldap_extra->retry_info_unparse( &mc->mc_quarantine, &bv );
if ( rc == 0 ) {
ber_bvarray_add( &c->rvalue_vals, &bv );
}
break;
case LDAP_BACK_CFG_REBIND:
c->value_int = META_BACK_CMN_SAVECRED(mc);
break;
case LDAP_BACK_CFG_TIMEOUT:
for ( i = 0; i < SLAP_OP_LAST; i++ ) {
if ( mc->mc_timeout[ i ] != 0 ) {
break;
}
}
if ( i == SLAP_OP_LAST ) {
return 1;
}
BER_BVZERO( &bv );
slap_cf_aux_table_unparse( mc->mc_timeout, &bv, timeout_table );
if ( BER_BVISNULL( &bv ) ) {
return 1;
}
for ( i = 0; isspace( (unsigned char) bv.bv_val[ i ] ); i++ )
/* count spaces */ ;
if ( i ) {
bv.bv_len -= i;
AC_MEMCPY( bv.bv_val, &bv.bv_val[ i ],
bv.bv_len + 1 );
}
ber_bvarray_add( &c->rvalue_vals, &bv );
break;
case LDAP_BACK_CFG_VERSION:
if ( mc->mc_version == 0 )
return 1;
c->value_int = mc->mc_version;
break;
#ifdef SLAP_CONTROL_X_SESSION_TRACKING
case LDAP_BACK_CFG_ST_REQUEST:
c->value_int = META_BACK_CMN_ST_REQUEST( mc );
break;
#endif /* SLAP_CONTROL_X_SESSION_TRACKING */
case LDAP_BACK_CFG_T_F:
enum_to_verb( t_f_mode, (mc->mc_flags & LDAP_BACK_F_T_F_MASK2), &bv );
if ( BER_BVISNULL( &bv ) ) {
/* there's something wrong... */
assert( 0 );
rc = 1;
} else {
value_add_one( &c->rvalue_vals, &bv );
}
break;
case LDAP_BACK_CFG_TLS: {
struct berval bc = BER_BVNULL, bv2;
if (( mc->mc_flags & LDAP_BACK_F_TLS_MASK ) == LDAP_BACK_F_NONE ) {
rc = 1;
break;
}
enum_to_verb( tls_mode, ( mc->mc_flags & LDAP_BACK_F_TLS_MASK ), &bv );
assert( !BER_BVISNULL( &bv ) );
if ( mt ) {
bindconf_tls_unparse( &mt->mt_tls, &bc );
}
if ( !BER_BVISEMPTY( &bc )) {
bv2.bv_len = bv.bv_len + bc.bv_len + 1;
bv2.bv_val = ch_malloc( bv2.bv_len + 1 );
strcpy( bv2.bv_val, bv.bv_val );
bv2.bv_val[bv.bv_len] = ' ';
strcpy( &bv2.bv_val[bv.bv_len + 1], bc.bv_val );
ber_memfree( bc.bv_val );
ber_bvarray_add( &c->rvalue_vals, &bv2 );
} else {
value_add_one( &c->rvalue_vals, &bv );
}
} break;
/* target attrs */
case LDAP_BACK_CFG_URI: {
char *p2, *p1 = strchr( mt->mt_uri, ' ' );
bv.bv_len = strlen( mt->mt_uri ) + 3 + mt->mt_psuffix.bv_len;
bv.bv_val = ch_malloc( bv.bv_len + 1 );
p2 = bv.bv_val;
*p2++ = '"';
if ( p1 ) {
p2 = lutil_strncopy( p2, mt->mt_uri, p1 - mt->mt_uri );
} else {
p2 = lutil_strcopy( p2, mt->mt_uri );
}
*p2++ = '/';
p2 = lutil_strcopy( p2, mt->mt_psuffix.bv_val );
*p2++ = '"';
if ( p1 ) {
strcpy( p2, p1 );
}
ber_bvarray_add( &c->rvalue_vals, &bv );
} break;
case LDAP_BACK_CFG_ACL_AUTHCDN:
case LDAP_BACK_CFG_ACL_PASSWD:
/* FIXME no point here, there is no code implementing
* their features. Was this supposed to implement
* acl-bind like back-ldap?
*/
rc = 1;
break;
case LDAP_BACK_CFG_IDASSERT_AUTHZFROM: {
BerVarray *bvp;
int i;
struct berval bv = BER_BVNULL;
char buf[SLAP_TEXT_BUFLEN];
bvp = &mt->mt_idassert_authz;
if ( *bvp == NULL ) {
if ( mt->mt_idassert_flags & LDAP_BACK_AUTH_AUTHZ_ALL )
{
BER_BVSTR( &bv, "*" );
value_add_one( &c->rvalue_vals, &bv );
} else {
rc = 1;
}
break;
}
for ( i = 0; !BER_BVISNULL( &((*bvp)[ i ]) ); i++ ) {
char *ptr;
int len = snprintf( buf, sizeof( buf ), SLAP_X_ORDERED_FMT, i );
bv.bv_len = ((*bvp)[ i ]).bv_len + len;
bv.bv_val = ber_memrealloc( bv.bv_val, bv.bv_len + 1 );
ptr = bv.bv_val;
ptr = lutil_strcopy( ptr, buf );
ptr = lutil_strncopy( ptr, ((*bvp)[ i ]).bv_val, ((*bvp)[ i ]).bv_len );
value_add_one( &c->rvalue_vals, &bv );
}
if ( bv.bv_val ) {
ber_memfree( bv.bv_val );
}
break;
}
case LDAP_BACK_CFG_IDASSERT_BIND: {
int i;
struct berval bc = BER_BVNULL;
char *ptr;
if ( mt->mt_idassert_authmethod == LDAP_AUTH_NONE ) {
return 1;
} else {
ber_len_t len;
switch ( mt->mt_idassert_mode ) {
case LDAP_BACK_IDASSERT_OTHERID:
case LDAP_BACK_IDASSERT_OTHERDN:
break;
default: {
struct berval mode = BER_BVNULL;
enum_to_verb( idassert_mode, mt->mt_idassert_mode, &mode );
if ( BER_BVISNULL( &mode ) ) {
/* there's something wrong... */
assert( 0 );
rc = 1;
} else {
bv.bv_len = STRLENOF( "mode=" ) + mode.bv_len;
bv.bv_val = ch_malloc( bv.bv_len + 1 );
ptr = lutil_strcopy( bv.bv_val, "mode=" );
ptr = lutil_strcopy( ptr, mode.bv_val );
}
break;
}
}
if ( mt->mt_idassert_flags & LDAP_BACK_AUTH_NATIVE_AUTHZ ) {
len = bv.bv_len + STRLENOF( "authz=native" );
if ( !BER_BVISEMPTY( &bv ) ) {
len += STRLENOF( " " );
}
bv.bv_val = ch_realloc( bv.bv_val, len + 1 );
ptr = &bv.bv_val[ bv.bv_len ];
if ( !BER_BVISEMPTY( &bv ) ) {
ptr = lutil_strcopy( ptr, " " );
}
(void)lutil_strcopy( ptr, "authz=native" );
}
len = bv.bv_len + STRLENOF( "flags=non-prescriptive,override,obsolete-encoding-workaround,proxy-authz-non-critical,dn-authzid" );
/* flags */
if ( !BER_BVISEMPTY( &bv ) ) {
len += STRLENOF( " " );
}
bv.bv_val = ch_realloc( bv.bv_val, len + 1 );
ptr = &bv.bv_val[ bv.bv_len ];
if ( !BER_BVISEMPTY( &bv ) ) {
ptr = lutil_strcopy( ptr, " " );
}
ptr = lutil_strcopy( ptr, "flags=" );
if ( mt->mt_idassert_flags & LDAP_BACK_AUTH_PRESCRIPTIVE ) {
ptr = lutil_strcopy( ptr, "prescriptive" );
} else {
ptr = lutil_strcopy( ptr, "non-prescriptive" );
}
if ( mt->mt_idassert_flags & LDAP_BACK_AUTH_OVERRIDE ) {
ptr = lutil_strcopy( ptr, ",override" );
}
if ( mt->mt_idassert_flags & LDAP_BACK_AUTH_OBSOLETE_PROXY_AUTHZ ) {
ptr = lutil_strcopy( ptr, ",obsolete-proxy-authz" );
} else if ( mt->mt_idassert_flags & LDAP_BACK_AUTH_OBSOLETE_ENCODING_WORKAROUND ) {
ptr = lutil_strcopy( ptr, ",obsolete-encoding-workaround" );
}
if ( mt->mt_idassert_flags & LDAP_BACK_AUTH_PROXYAUTHZ_CRITICAL ) {
ptr = lutil_strcopy( ptr, ",proxy-authz-critical" );
} else {
ptr = lutil_strcopy( ptr, ",proxy-authz-non-critical" );
}
#ifdef SLAP_AUTH_DN
switch ( mt->mt_idassert_flags & LDAP_BACK_AUTH_DN_MASK ) {
case LDAP_BACK_AUTH_DN_AUTHZID:
ptr = lutil_strcopy( ptr, ",dn-authzid" );
break;
case LDAP_BACK_AUTH_DN_WHOAMI:
ptr = lutil_strcopy( ptr, ",dn-whoami" );
break;
default:
#if 0 /* implicit */
ptr = lutil_strcopy( ptr, ",dn-none" );
#endif
break;
}
#endif
bv.bv_len = ( ptr - bv.bv_val );
/* end-of-flags */
}
bindconf_unparse( &mt->mt_idassert.si_bc, &bc );
if ( !BER_BVISNULL( &bv ) ) {
ber_len_t len = bv.bv_len + bc.bv_len;
bv.bv_val = ch_realloc( bv.bv_val, len + 1 );
assert( bc.bv_val[ 0 ] == ' ' );
ptr = lutil_strcopy( &bv.bv_val[ bv.bv_len ], bc.bv_val );
free( bc.bv_val );
bv.bv_len = ptr - bv.bv_val;
} else {
for ( i = 0; isspace( (unsigned char) bc.bv_val[ i ] ); i++ )
/* count spaces */ ;
if ( i ) {
bc.bv_len -= i;
AC_MEMCPY( bc.bv_val, &bc.bv_val[ i ], bc.bv_len + 1 );
}
bv = bc;
}
ber_bvarray_add( &c->rvalue_vals, &bv );
break;
}
case LDAP_BACK_CFG_SUFFIXM: /* unused */
case LDAP_BACK_CFG_REWRITE:
if ( mt->mt_rwmap.rwm_bva_rewrite == NULL ) {
rc = 1;
} else {
rc = slap_bv_x_ordered_unparse( mt->mt_rwmap.rwm_bva_rewrite, &c->rvalue_vals );
}
break;
case LDAP_BACK_CFG_MAP:
if ( mt->mt_rwmap.rwm_bva_map == NULL ) {
rc = 1;
} else {
rc = slap_bv_x_ordered_unparse( mt->mt_rwmap.rwm_bva_map, &c->rvalue_vals );
}
break;
case LDAP_BACK_CFG_SUBTREE_EX:
case LDAP_BACK_CFG_SUBTREE_IN:
rc = meta_subtree_unparse( c, mt );
break;
case LDAP_BACK_CFG_FILTER:
if ( mt->mt_filter == NULL ) {
rc = 1;
} else {
metafilter_t *mf;
for ( mf = mt->mt_filter; mf; mf = mf->mf_next )
value_add_one( &c->rvalue_vals, &mf->mf_regex_pattern );
}
break;
/* replaced by idassert */
case LDAP_BACK_CFG_PSEUDOROOTDN:
case LDAP_BACK_CFG_PSEUDOROOTPW:
rc = 1;
break;
case LDAP_BACK_CFG_KEEPALIVE: {
struct berval bv;
char buf[AC_LINE_MAX];
bv.bv_len = AC_LINE_MAX;
bv.bv_val = &buf[0];
slap_keepalive_parse(&bv, &mt->mt_tls.sb_keepalive, 0, 0, 1);
value_add_one( &c->rvalue_vals, &bv );
break;
}
default:
rc = 1;
}
return rc;
} else if ( c->op == LDAP_MOD_DELETE ) {
switch( c->type ) {
/* Base attrs */
case LDAP_BACK_CFG_CONN_TTL:
mi->mi_conn_ttl = 0;
break;
case LDAP_BACK_CFG_DNCACHE_TTL:
mi->mi_cache.ttl = META_DNCACHE_DISABLED;
break;
case LDAP_BACK_CFG_IDLE_TIMEOUT:
mi->mi_idle_timeout = 0;
break;
case LDAP_BACK_CFG_ONERR:
mi->mi_flags &= ~META_BACK_F_ONERR_MASK;
break;
case LDAP_BACK_CFG_PSEUDOROOT_BIND_DEFER:
mi->mi_flags &= ~META_BACK_F_DEFER_ROOTDN_BIND;
break;
case LDAP_BACK_CFG_SINGLECONN:
mi->mi_flags &= ~LDAP_BACK_F_SINGLECONN;
break;
case LDAP_BACK_CFG_USETEMP:
mi->mi_flags &= ~LDAP_BACK_F_USE_TEMPORARIES;
break;
case LDAP_BACK_CFG_CONNPOOLMAX:
mi->mi_conn_priv_max = LDAP_BACK_CONN_PRIV_MIN;
break;
/* common attrs */
case LDAP_BACK_CFG_BIND_TIMEOUT:
mc->mc_bind_timeout.tv_sec = 0;
mc->mc_bind_timeout.tv_usec = 0;
break;
case LDAP_BACK_CFG_CANCEL:
mc->mc_flags &= ~LDAP_BACK_F_CANCEL_MASK2;
break;
case LDAP_BACK_CFG_CHASE:
mc->mc_flags &= ~LDAP_BACK_F_CHASE_REFERRALS;
break;
#ifdef SLAPD_META_CLIENT_PR
case LDAP_BACK_CFG_CLIENT_PR:
mc->mc_ps = META_CLIENT_PR_DISABLE;
break;
#endif /* SLAPD_META_CLIENT_PR */
case LDAP_BACK_CFG_DEFAULT_T:
mi->mi_defaulttarget = META_DEFAULT_TARGET_NONE;
break;
case LDAP_BACK_CFG_NETWORK_TIMEOUT:
mc->mc_network_timeout = 0;
break;
case LDAP_BACK_CFG_NOREFS:
mc->mc_flags &= ~LDAP_BACK_F_NOREFS;
break;
case LDAP_BACK_CFG_NOUNDEFFILTER:
mc->mc_flags &= ~LDAP_BACK_F_NOUNDEFFILTER;
break;
case LDAP_BACK_CFG_NRETRIES:
mc->mc_nretries = META_RETRY_DEFAULT;
break;
case LDAP_BACK_CFG_QUARANTINE:
if ( META_BACK_CMN_QUARANTINE( mc )) {
mi->mi_ldap_extra->retry_info_destroy( &mc->mc_quarantine );
mc->mc_flags &= ~LDAP_BACK_F_QUARANTINE;
if ( mc == &mt->mt_mc ) {
ldap_pvt_thread_mutex_destroy( &mt->mt_quarantine_mutex );
mt->mt_isquarantined = 0;
}
}
break;
case LDAP_BACK_CFG_REBIND:
mc->mc_flags &= ~LDAP_BACK_F_SAVECRED;
break;
case LDAP_BACK_CFG_TIMEOUT:
for ( i = 0; i < SLAP_OP_LAST; i++ ) {
mc->mc_timeout[ i ] = 0;
}
break;
case LDAP_BACK_CFG_VERSION:
mc->mc_version = 0;
break;
#ifdef SLAP_CONTROL_X_SESSION_TRACKING
case LDAP_BACK_CFG_ST_REQUEST:
mc->mc_flags &= ~LDAP_BACK_F_ST_REQUEST;
break;
#endif /* SLAP_CONTROL_X_SESSION_TRACKING */
case LDAP_BACK_CFG_T_F:
mc->mc_flags &= ~LDAP_BACK_F_T_F_MASK2;
break;
case LDAP_BACK_CFG_TLS:
mc->mc_flags &= ~LDAP_BACK_F_TLS_MASK;
if ( mt )
bindconf_free( &mt->mt_tls );
break;
/* target attrs */
case LDAP_BACK_CFG_URI:
if ( mt->mt_uri ) {
ch_free( mt->mt_uri );
mt->mt_uri = NULL;
}
/* FIXME: should have a way to close all cached
* connections associated with this target.
*/
break;
case LDAP_BACK_CFG_IDASSERT_AUTHZFROM: {
BerVarray *bvp;
bvp = &mt->mt_idassert_authz; break;
if ( c->valx < 0 ) {
if ( *bvp != NULL ) {
ber_bvarray_free( *bvp );
*bvp = NULL;
}
} else {
if ( *bvp == NULL ) {
rc = 1;
break;
}
for ( i = 0; !BER_BVISNULL( &((*bvp)[ i ]) ); i++ )
;
if ( i >= c->valx ) {
rc = 1;
break;
}
ber_memfree( ((*bvp)[ c->valx ]).bv_val );
for ( i = c->valx; !BER_BVISNULL( &((*bvp)[ i + 1 ]) ); i++ ) {
(*bvp)[ i ] = (*bvp)[ i + 1 ];
}
BER_BVZERO( &((*bvp)[ i ]) );
}
} break;
case LDAP_BACK_CFG_IDASSERT_BIND:
bindconf_free( &mt->mt_idassert.si_bc );
memset( &mt->mt_idassert, 0, sizeof( slap_idassert_t ) );
break;
case LDAP_BACK_CFG_SUFFIXM: /* unused */
case LDAP_BACK_CFG_REWRITE:
if ( mt->mt_rwmap.rwm_bva_rewrite ) {
ber_bvarray_free( mt->mt_rwmap.rwm_bva_rewrite );
mt->mt_rwmap.rwm_bva_rewrite = NULL;
}
if ( mt->mt_rwmap.rwm_rw )
rewrite_info_delete( &mt->mt_rwmap.rwm_rw );
break;
case LDAP_BACK_CFG_MAP:
if ( mt->mt_rwmap.rwm_bva_map ) {
ber_bvarray_free( mt->mt_rwmap.rwm_bva_map );
mt->mt_rwmap.rwm_bva_map = NULL;
}
meta_back_map_free( &mt->mt_rwmap.rwm_oc );
meta_back_map_free( &mt->mt_rwmap.rwm_at );
mt->mt_rwmap.rwm_oc.drop_missing = 0;
mt->mt_rwmap.rwm_at.drop_missing = 0;
break;
case LDAP_BACK_CFG_SUBTREE_EX:
case LDAP_BACK_CFG_SUBTREE_IN:
/* can only be one of exclude or include */
if (( c->type == LDAP_BACK_CFG_SUBTREE_EX ) ^ mt->mt_subtree_exclude ) {
rc = 1;
break;
}
if ( c->valx < 0 ) {
meta_subtree_destroy( mt->mt_subtree );
mt->mt_subtree = NULL;
} else {
metasubtree_t *ms, **mprev;
for (i=0, mprev = &mt->mt_subtree, ms = *mprev; ms; ms = *mprev) {
if ( i == c->valx ) {
*mprev = ms->ms_next;
meta_subtree_free( ms );
break;
}
i++;
mprev = &ms->ms_next;
}
if ( i != c->valx )
rc = 1;
}
break;
case LDAP_BACK_CFG_FILTER:
if ( c->valx < 0 ) {
meta_filter_destroy( mt->mt_filter );
mt->mt_filter = NULL;
} else {
metafilter_t *mf, **mprev;
for (i=0, mprev = &mt->mt_filter, mf = *mprev; mf; mf = *mprev) {
if ( i == c->valx ) {
*mprev = mf->mf_next;
meta_filter_free( mf );
break;
}
i++;
mprev = &mf->mf_next;
}
if ( i != c->valx )
rc = 1;
}
break;
case LDAP_BACK_CFG_KEEPALIVE:
mt->mt_tls.sb_keepalive.sk_idle = 0;
mt->mt_tls.sb_keepalive.sk_probes = 0;
mt->mt_tls.sb_keepalive.sk_interval = 0;
break;
default:
rc = 1;
break;
}
return rc;
}
if ( c->op == SLAP_CONFIG_ADD ) {
if ( c->type >= LDAP_BACK_CFG_LAST_BASE ) {
/* exclude CFG_URI from this check */
if ( c->type > LDAP_BACK_CFG_LAST_BOTH ) {
if ( !mi->mi_ntargets ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"need \"uri\" directive first" );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
}
if ( mi->mi_ntargets ) {
mt = mi->mi_targets[ mi->mi_ntargets-1 ];
mc = &mt->mt_mc;
} else {
mt = NULL;
mc = &mi->mi_mc;
}
}
} else {
if ( c->table == Cft_Database ) {
mt = NULL;
mc = &mi->mi_mc;
} else {
mt = c->ca_private;
if ( mt )
mc = &mt->mt_mc;
else
mc = NULL;
}
}
switch( c->type ) {
case LDAP_BACK_CFG_URI: {
LDAPURLDesc *ludp;
struct berval dn;
int j;
char **uris = NULL;
if ( c->be->be_nsuffix == NULL ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"the suffix must be defined before any target" );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
i = mi->mi_ntargets++;
mi->mi_targets = ( metatarget_t ** )ch_realloc( mi->mi_targets,
sizeof( metatarget_t * ) * mi->mi_ntargets );
if ( mi->mi_targets == NULL ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"out of memory while storing server name"
" in \"%s <protocol>://<server>[:port]/<naming context>\"",
c->argv[0] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
if ( meta_back_new_target( &mi->mi_targets[ i ] ) != 0 ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"unable to init server"
" in \"%s <protocol>://<server>[:port]/<naming context>\"",
c->argv[0] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
mt = mi->mi_targets[ i ];
mt->mt_rebind_f = mi->mi_rebind_f;
mt->mt_urllist_f = mi->mi_urllist_f;
mt->mt_urllist_p = mt;
if ( META_BACK_QUARANTINE( mi ) ) {
ldap_pvt_thread_mutex_init( &mt->mt_quarantine_mutex );
}
mt->mt_mc = mi->mi_mc;
for ( j = 1; j < c->argc; j++ ) {
char **tmpuris = ldap_str2charray( c->argv[ j ], "\t" );
if ( tmpuris == NULL ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"unable to parse URIs #%d"
" in \"%s <protocol>://<server>[:port]/<naming context>\"",
j-1, c->argv[0] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
if ( j == 1 ) {
uris = tmpuris;
} else {
ldap_charray_merge( &uris, tmpuris );
ldap_charray_free( tmpuris );
}
}
for ( j = 0; uris[ j ] != NULL; j++ ) {
char *tmpuri = NULL;
/*
* uri MUST be legal!
*/
if ( ldap_url_parselist_ext( &ludp, uris[ j ], "\t",
LDAP_PVT_URL_PARSE_NONE ) != LDAP_SUCCESS
|| ludp->lud_next != NULL )
{
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"unable to parse URI #%d"
" in \"%s <protocol>://<server>[:port]/<naming context>\"",
j-1, c->argv[0] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
ldap_charray_free( uris );
return 1;
}
if ( j == 0 ) {
/*
* uri MUST have the <dn> part!
*/
if ( ludp->lud_dn == NULL ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"missing <naming context> "
" in \"%s <protocol>://<server>[:port]/<naming context>\"",
c->argv[0] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
ldap_free_urllist( ludp );
ldap_charray_free( uris );
return 1;
}
/*
* copies and stores uri and suffix
*/
ber_str2bv( ludp->lud_dn, 0, 0, &dn );
rc = dnPrettyNormal( NULL, &dn, &mt->mt_psuffix,
&mt->mt_nsuffix, NULL );
if ( rc != LDAP_SUCCESS ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"target DN is invalid \"%s\"",
c->argv[1] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
ldap_free_urllist( ludp );
ldap_charray_free( uris );
return( 1 );
}
ludp->lud_dn[ 0 ] = '\0';
switch ( ludp->lud_scope ) {
case LDAP_SCOPE_DEFAULT:
mt->mt_scope = LDAP_SCOPE_SUBTREE;
break;
case LDAP_SCOPE_SUBTREE:
case LDAP_SCOPE_SUBORDINATE:
mt->mt_scope = ludp->lud_scope;
break;
default:
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"invalid scope for target \"%s\"",
c->argv[1] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
ldap_free_urllist( ludp );
ldap_charray_free( uris );
return( 1 );
}
} else {
/* check all, to apply the scope check on the first one */
if ( ludp->lud_dn != NULL && ludp->lud_dn[ 0 ] != '\0' ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"multiple URIs must have no DN part" );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
ldap_free_urllist( ludp );
ldap_charray_free( uris );
return( 1 );
}
}
tmpuri = ldap_url_list2urls( ludp );
ldap_free_urllist( ludp );
if ( tmpuri == NULL ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ), "no memory?" );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
ldap_charray_free( uris );
return( 1 );
}
ldap_memfree( uris[ j ] );
uris[ j ] = tmpuri;
}
mt->mt_uri = ldap_charray2str( uris, " " );
ldap_charray_free( uris );
if ( mt->mt_uri == NULL) {
snprintf( c->cr_msg, sizeof( c->cr_msg ), "no memory?" );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return( 1 );
}
/*
* uri MUST be a branch of suffix!
*/
for ( j = 0; !BER_BVISNULL( &c->be->be_nsuffix[ j ] ); j++ ) {
if ( dnIsSuffix( &mt->mt_nsuffix, &c->be->be_nsuffix[ j ] ) ) {
break;
}
}
if ( BER_BVISNULL( &c->be->be_nsuffix[ j ] ) ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"<naming context> of URI must be within the naming context of this database." );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
c->ca_private = mt;
c->cleanup = meta_cf_cleanup;
} break;
case LDAP_BACK_CFG_SUBTREE_EX:
case LDAP_BACK_CFG_SUBTREE_IN:
/* subtree-exclude */
if ( meta_subtree_config( mt, c )) {
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
break;
case LDAP_BACK_CFG_FILTER: {
metafilter_t *mf, **m2;
mf = ch_malloc( sizeof( metafilter_t ));
rc = regcomp( &mf->mf_regex, c->argv[1], REG_EXTENDED );
if ( rc ) {
char regerr[ SLAP_TEXT_BUFLEN ];
regerror( rc, &mf->mf_regex, regerr, sizeof(regerr) );
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"regular expression \"%s\" bad because of %s",
c->argv[1], regerr );
ch_free( mf );
return 1;
}
ber_str2bv( c->argv[1], 0, 1, &mf->mf_regex_pattern );
for ( m2 = &mt->mt_filter; *m2; m2 = &(*m2)->mf_next )
;
*m2 = mf;
} break;
case LDAP_BACK_CFG_DEFAULT_T:
/* default target directive */
i = mi->mi_ntargets - 1;
if ( c->argc == 1 ) {
if ( i < 0 ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"\"%s\" alone must be inside a \"uri\" directive",
c->argv[0] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
mi->mi_defaulttarget = i;
} else {
if ( strcasecmp( c->argv[ 1 ], "none" ) == 0 ) {
if ( i >= 0 ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"\"%s none\" should go before uri definitions",
c->argv[0] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
}
mi->mi_defaulttarget = META_DEFAULT_TARGET_NONE;
} else {
if ( lutil_atoi( &mi->mi_defaulttarget, c->argv[ 1 ] ) != 0
|| mi->mi_defaulttarget < 0
|| mi->mi_defaulttarget >= i - 1 )
{
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"illegal target number %d",
mi->mi_defaulttarget );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
}
}
break;
case LDAP_BACK_CFG_DNCACHE_TTL:
/* ttl of dn cache */
if ( strcasecmp( c->argv[ 1 ], "forever" ) == 0 ) {
mi->mi_cache.ttl = META_DNCACHE_FOREVER;
} else if ( strcasecmp( c->argv[ 1 ], "disabled" ) == 0 ) {
mi->mi_cache.ttl = META_DNCACHE_DISABLED;
} else {
unsigned long t;
if ( lutil_parse_time( c->argv[ 1 ], &t ) != 0 ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"unable to parse dncache ttl \"%s\"",
c->argv[ 1 ] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
mi->mi_cache.ttl = (time_t)t;
}
break;
case LDAP_BACK_CFG_NETWORK_TIMEOUT: {
/* network timeout when connecting to ldap servers */
unsigned long t;
if ( lutil_parse_time( c->argv[ 1 ], &t ) ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"unable to parse network timeout \"%s\"",
c->argv[ 1 ] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
mc->mc_network_timeout = (time_t)t;
} break;
case LDAP_BACK_CFG_IDLE_TIMEOUT: {
/* idle timeout when connecting to ldap servers */
unsigned long t;
if ( lutil_parse_time( c->argv[ 1 ], &t ) ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"unable to parse idle timeout \"%s\"",
c->argv[ 1 ] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
mi->mi_idle_timeout = (time_t)t;
} break;
case LDAP_BACK_CFG_CONN_TTL: {
/* conn ttl */
unsigned long t;
if ( lutil_parse_time( c->argv[ 1 ], &t ) ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"unable to parse conn ttl \"%s\"",
c->argv[ 1 ] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
mi->mi_conn_ttl = (time_t)t;
} break;
case LDAP_BACK_CFG_BIND_TIMEOUT:
/* bind timeout when connecting to ldap servers */
mc->mc_bind_timeout.tv_sec = c->value_ulong/1000000;
mc->mc_bind_timeout.tv_usec = c->value_ulong%1000000;
break;
case LDAP_BACK_CFG_ACL_AUTHCDN:
/* name to use for meta_back_group */
if ( strcasecmp( c->argv[ 0 ], "binddn" ) == 0 ) {
Debug( LDAP_DEBUG_ANY, "%s: "
"\"binddn\" statement is deprecated; "
"use \"acl-authcDN\" instead\n",
c->log, 0, 0 );
/* FIXME: some day we'll need to throw an error */
}
ber_memfree_x( c->value_dn.bv_val, NULL );
mt->mt_binddn = c->value_ndn;
BER_BVZERO( &c->value_dn );
BER_BVZERO( &c->value_ndn );
break;
case LDAP_BACK_CFG_ACL_PASSWD:
/* password to use for meta_back_group */
if ( strcasecmp( c->argv[ 0 ], "bindpw" ) == 0 ) {
Debug( LDAP_DEBUG_ANY, "%s "
"\"bindpw\" statement is deprecated; "
"use \"acl-passwd\" instead\n",
c->log, 0, 0 );
/* FIXME: some day we'll need to throw an error */
}
ber_str2bv( c->argv[ 1 ], 0L, 1, &mt->mt_bindpw );
break;
case LDAP_BACK_CFG_REBIND:
/* save bind creds for referral rebinds? */
if ( c->argc == 1 || c->value_int ) {
mc->mc_flags |= LDAP_BACK_F_SAVECRED;
} else {
mc->mc_flags &= ~LDAP_BACK_F_SAVECRED;
}
break;
case LDAP_BACK_CFG_CHASE:
if ( c->argc == 1 || c->value_int ) {
mc->mc_flags |= LDAP_BACK_F_CHASE_REFERRALS;
} else {
mc->mc_flags &= ~LDAP_BACK_F_CHASE_REFERRALS;
}
break;
case LDAP_BACK_CFG_TLS:
i = verb_to_mask( c->argv[1], tls_mode );
if ( BER_BVISNULL( &tls_mode[i].word ) ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"%s unknown argument \"%s\"",
c->argv[0], c->argv[1] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
mc->mc_flags &= ~LDAP_BACK_F_TLS_MASK;
mc->mc_flags |= tls_mode[i].mask;
if ( c->argc > 2 ) {
if ( c->op == SLAP_CONFIG_ADD && mi->mi_ntargets == 0 ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"need \"uri\" directive first" );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
for ( i = 2; i < c->argc; i++ ) {
if ( bindconf_tls_parse( c->argv[i], &mt->mt_tls ))
return 1;
}
bindconf_tls_defaults( &mt->mt_tls );
}
break;
case LDAP_BACK_CFG_T_F:
i = verb_to_mask( c->argv[1], t_f_mode );
if ( BER_BVISNULL( &t_f_mode[i].word ) ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"%s unknown argument \"%s\"",
c->argv[0], c->argv[1] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
mc->mc_flags &= ~LDAP_BACK_F_T_F_MASK2;
mc->mc_flags |= t_f_mode[i].mask;
break;
case LDAP_BACK_CFG_ONERR:
/* onerr? */
i = verb_to_mask( c->argv[1], onerr_mode );
if ( BER_BVISNULL( &onerr_mode[i].word ) ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"%s unknown argument \"%s\"",
c->argv[0], c->argv[1] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
mi->mi_flags &= ~META_BACK_F_ONERR_MASK;
mi->mi_flags |= onerr_mode[i].mask;
break;
case LDAP_BACK_CFG_PSEUDOROOT_BIND_DEFER:
/* bind-defer? */
if ( c->argc == 1 || c->value_int ) {
mi->mi_flags |= META_BACK_F_DEFER_ROOTDN_BIND;
} else {
mi->mi_flags &= ~META_BACK_F_DEFER_ROOTDN_BIND;
}
break;
case LDAP_BACK_CFG_SINGLECONN:
/* single-conn? */
if ( mi->mi_ntargets > 0 ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"\"%s\" must appear before target definitions",
c->argv[0] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return( 1 );
}
if ( c->value_int ) {
mi->mi_flags |= LDAP_BACK_F_SINGLECONN;
} else {
mi->mi_flags &= ~LDAP_BACK_F_SINGLECONN;
}
break;
case LDAP_BACK_CFG_USETEMP:
/* use-temporaries? */
if ( mi->mi_ntargets > 0 ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"\"%s\" must appear before target definitions",
c->argv[0] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return( 1 );
}
if ( c->value_int ) {
mi->mi_flags |= LDAP_BACK_F_USE_TEMPORARIES;
} else {
mi->mi_flags &= ~LDAP_BACK_F_USE_TEMPORARIES;
}
break;
case LDAP_BACK_CFG_CONNPOOLMAX:
/* privileged connections pool max size ? */
if ( mi->mi_ntargets > 0 ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"\"%s\" must appear before target definitions",
c->argv[0] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return( 1 );
}
if ( c->value_int < LDAP_BACK_CONN_PRIV_MIN
|| c->value_int > LDAP_BACK_CONN_PRIV_MAX )
{
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"invalid max size " "of privileged "
"connections pool \"%s\" "
"in \"conn-pool-max <n> "
"(must be between %d and %d)\"",
c->argv[ 1 ],
LDAP_BACK_CONN_PRIV_MIN,
LDAP_BACK_CONN_PRIV_MAX );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
mi->mi_conn_priv_max = c->value_int;
break;
case LDAP_BACK_CFG_CANCEL:
i = verb_to_mask( c->argv[1], cancel_mode );
if ( BER_BVISNULL( &cancel_mode[i].word ) ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"%s unknown argument \"%s\"",
c->argv[0], c->argv[1] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
mc->mc_flags &= ~LDAP_BACK_F_CANCEL_MASK2;
mc->mc_flags |= cancel_mode[i].mask;
break;
case LDAP_BACK_CFG_TIMEOUT:
for ( i = 1; i < c->argc; i++ ) {
if ( isdigit( (unsigned char) c->argv[ i ][ 0 ] ) ) {
int j;
unsigned u;
if ( lutil_atoux( &u, c->argv[ i ], 0 ) != 0 ) {
snprintf( c->cr_msg, sizeof( c->cr_msg),
"unable to parse timeout \"%s\"",
c->argv[ i ] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
for ( j = 0; j < SLAP_OP_LAST; j++ ) {
mc->mc_timeout[ j ] = u;
}
continue;
}
if ( slap_cf_aux_table_parse( c->argv[ i ], mc->mc_timeout, timeout_table, "slapd-meta timeout" ) ) {
snprintf( c->cr_msg, sizeof( c->cr_msg),
"unable to parse timeout \"%s\"",
c->argv[ i ] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
}
break;
case LDAP_BACK_CFG_PSEUDOROOTDN:
/* name to use as pseudo-root dn */
/*
* exact replacement:
*
idassert-bind bindmethod=simple
binddn=<pseudorootdn>
credentials=<pseudorootpw>
mode=none
flags=non-prescriptive
idassert-authzFrom "dn:<rootdn>"
* so that only when authc'd as <rootdn> the proxying occurs
* rebinding as the <pseudorootdn> without proxyAuthz.
*/
Debug( LDAP_DEBUG_ANY,
"%s: \"pseudorootdn\", \"pseudorootpw\" are no longer supported; "
"use \"idassert-bind\" and \"idassert-authzFrom\" instead.\n",
c->log, 0, 0 );
{
char binddn[ SLAP_TEXT_BUFLEN ];
char *cargv[] = {
"idassert-bind",
"bindmethod=simple",
NULL,
"mode=none",
"flags=non-prescriptive",
NULL
};
char **oargv;
int oargc;
int cargc = 5;
int rc;
if ( BER_BVISNULL( &c->be->be_rootndn ) ) {
Debug( LDAP_DEBUG_ANY, "%s: \"pseudorootpw\": \"rootdn\" must be defined first.\n",
c->log, 0, 0 );
return 1;
}
if ( sizeof( binddn ) <= (unsigned) snprintf( binddn,
sizeof( binddn ), "binddn=%s", c->argv[ 1 ] ))
{
Debug( LDAP_DEBUG_ANY, "%s: \"pseudorootdn\" too long.\n",
c->log, 0, 0 );
return 1;
}
cargv[ 2 ] = binddn;
oargv = c->argv;
oargc = c->argc;
c->argv = cargv;
c->argc = cargc;
rc = mi->mi_ldap_extra->idassert_parse( c, &mt->mt_idassert );
c->argv = oargv;
c->argc = oargc;
if ( rc == 0 ) {
struct berval bv;
if ( mt->mt_idassert_authz != NULL ) {
Debug( LDAP_DEBUG_ANY, "%s: \"idassert-authzFrom\" already defined (discarded).\n",
c->log, 0, 0 );
ber_bvarray_free( mt->mt_idassert_authz );
mt->mt_idassert_authz = NULL;
}
assert( !BER_BVISNULL( &mt->mt_idassert_authcDN ) );
bv.bv_len = STRLENOF( "dn:" ) + c->be->be_rootndn.bv_len;
bv.bv_val = ber_memalloc( bv.bv_len + 1 );
AC_MEMCPY( bv.bv_val, "dn:", STRLENOF( "dn:" ) );
AC_MEMCPY( &bv.bv_val[ STRLENOF( "dn:" ) ], c->be->be_rootndn.bv_val, c->be->be_rootndn.bv_len + 1 );
ber_bvarray_add( &mt->mt_idassert_authz, &bv );
}
return rc;
}
break;
case LDAP_BACK_CFG_PSEUDOROOTPW:
/* password to use as pseudo-root */
Debug( LDAP_DEBUG_ANY,
"%s: \"pseudorootdn\", \"pseudorootpw\" are no longer supported; "
"use \"idassert-bind\" and \"idassert-authzFrom\" instead.\n",
c->log, 0, 0 );
if ( BER_BVISNULL( &mt->mt_idassert_authcDN ) ) {
Debug( LDAP_DEBUG_ANY, "%s: \"pseudorootpw\": \"pseudorootdn\" must be defined first.\n",
c->log, 0, 0 );
return 1;
}
if ( !BER_BVISNULL( &mt->mt_idassert_passwd ) ) {
memset( mt->mt_idassert_passwd.bv_val, 0,
mt->mt_idassert_passwd.bv_len );
ber_memfree( mt->mt_idassert_passwd.bv_val );
}
ber_str2bv( c->argv[ 1 ], 0, 1, &mt->mt_idassert_passwd );
break;
case LDAP_BACK_CFG_IDASSERT_BIND:
/* idassert-bind */
rc = mi->mi_ldap_extra->idassert_parse( c, &mt->mt_idassert );
break;
case LDAP_BACK_CFG_IDASSERT_AUTHZFROM:
/* idassert-authzFrom */
rc = mi->mi_ldap_extra->idassert_authzfrom_parse( c, &mt->mt_idassert );
break;
case LDAP_BACK_CFG_QUARANTINE:
/* quarantine */
if ( META_BACK_CMN_QUARANTINE( mc ) )
{
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"quarantine already defined" );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
if ( mt ) {
mc->mc_quarantine.ri_interval = NULL;
mc->mc_quarantine.ri_num = NULL;
if ( !META_BACK_QUARANTINE( mi ) ) {
ldap_pvt_thread_mutex_init( &mt->mt_quarantine_mutex );
}
}
if ( mi->mi_ldap_extra->retry_info_parse( c->argv[ 1 ], &mc->mc_quarantine, c->cr_msg, sizeof( c->cr_msg ) ) ) {
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
mc->mc_flags |= LDAP_BACK_F_QUARANTINE;
break;
#ifdef SLAP_CONTROL_X_SESSION_TRACKING
case LDAP_BACK_CFG_ST_REQUEST:
/* session tracking request */
if ( c->value_int ) {
mc->mc_flags |= LDAP_BACK_F_ST_REQUEST;
} else {
mc->mc_flags &= ~LDAP_BACK_F_ST_REQUEST;
}
break;
#endif /* SLAP_CONTROL_X_SESSION_TRACKING */
case LDAP_BACK_CFG_SUFFIXM: /* FALLTHRU */
case LDAP_BACK_CFG_REWRITE: {
/* rewrite stuff ... */
ConfigArgs ca = { 0 };
char *line, **argv;
struct rewrite_info *rwi;
int cnt = 0, argc, ix = c->valx;
if ( mt->mt_rwmap.rwm_bva_rewrite ) {
for ( ; !BER_BVISNULL( &mt->mt_rwmap.rwm_bva_rewrite[ cnt ] ); cnt++ )
/* count */ ;
}
if ( ix >= cnt || ix < 0 ) {
ix = cnt;
} else {
rwi = mt->mt_rwmap.rwm_rw;
mt->mt_rwmap.rwm_rw = NULL;
rc = meta_rwi_init( &mt->mt_rwmap.rwm_rw );
/* re-parse all rewrite rules, up to the one
* that needs to be added */
ca.fname = c->fname;
ca.lineno = c->lineno;
for ( i = 0; i < ix; i++ ) {
ca.line = mt->mt_rwmap.rwm_bva_rewrite[ i ].bv_val;
ca.argc = 0;
config_fp_parse_line( &ca );
if ( !strcasecmp( ca.argv[0], "suffixmassage" )) {
rc = meta_suffixm_config( &ca, ca.argc, ca.argv, mt );
} else {
rc = rewrite_parse( mt->mt_rwmap.rwm_rw,
c->fname, c->lineno, ca.argc, ca.argv );
}
assert( rc == 0 );
ch_free( ca.argv );
ch_free( ca.tline );
}
}
argc = c->argc;
argv = c->argv;
if ( c->op != SLAP_CONFIG_ADD ) {
argc--;
argv++;
}
/* add the new rule */
if ( !strcasecmp( argv[0], "suffixmassage" )) {
rc = meta_suffixm_config( c, argc, argv, mt );
} else {
rc = rewrite_parse( mt->mt_rwmap.rwm_rw,
c->fname, c->lineno, argc, argv );
}
if ( rc ) {
if ( ix < cnt ) {
rewrite_info_delete( &mt->mt_rwmap.rwm_rw );
mt->mt_rwmap.rwm_rw = rwi;
}
return 1;
}
if ( ix < cnt ) {
for ( ; i < cnt; i++ ) {
ca.line = mt->mt_rwmap.rwm_bva_rewrite[ i ].bv_val;
ca.argc = 0;
config_fp_parse_line( &ca );
if ( !strcasecmp( ca.argv[0], "suffixmassage" )) {
rc = meta_suffixm_config( &ca, ca.argc, ca.argv, mt );
} else {
rc = rewrite_parse( mt->mt_rwmap.rwm_rw,
c->fname, c->lineno, ca.argc, argv );
}
assert( rc == 0 );
ch_free( ca.argv );
ch_free( ca.tline );
}
}
/* save the rule info */
line = ldap_charray2str( argv, "\" \"" );
if ( line != NULL ) {
struct berval bv;
int len = strlen( argv[ 0 ] );
ber_str2bv( line, 0, 0, &bv );
AC_MEMCPY( &bv.bv_val[ len ], &bv.bv_val[ len + 1 ],
bv.bv_len - ( len + 1 ));
bv.bv_val[ bv.bv_len - 1] = '"';
ber_bvarray_add( &mt->mt_rwmap.rwm_bva_rewrite, &bv );
/* move it to the right slot */
if ( ix < cnt ) {
for ( i=cnt; i>ix; i-- )
mt->mt_rwmap.rwm_bva_rewrite[i+1] = mt->mt_rwmap.rwm_bva_rewrite[i];
mt->mt_rwmap.rwm_bva_rewrite[i] = bv;
/* destroy old rules */
rewrite_info_delete( &rwi );
}
}
} break;
case LDAP_BACK_CFG_MAP: {
/* objectclass/attribute mapping */
ConfigArgs ca = { 0 };
char *argv[5];
struct ldapmap rwm_oc;
struct ldapmap rwm_at;
int cnt = 0, ix = c->valx;
if ( mt->mt_rwmap.rwm_bva_map ) {
for ( ; !BER_BVISNULL( &mt->mt_rwmap.rwm_bva_map[ cnt ] ); cnt++ )
/* count */ ;
}
if ( ix >= cnt || ix < 0 ) {
ix = cnt;
} else {
rwm_oc = mt->mt_rwmap.rwm_oc;
rwm_at = mt->mt_rwmap.rwm_at;
memset( &mt->mt_rwmap.rwm_oc, 0, sizeof( mt->mt_rwmap.rwm_oc ) );
memset( &mt->mt_rwmap.rwm_at, 0, sizeof( mt->mt_rwmap.rwm_at ) );
/* re-parse all mappings, up to the one
* that needs to be added */
argv[0] = c->argv[0];
ca.fname = c->fname;
ca.lineno = c->lineno;
for ( i = 0; i < ix; i++ ) {
ca.line = mt->mt_rwmap.rwm_bva_map[ i ].bv_val;
ca.argc = 0;
config_fp_parse_line( &ca );
argv[1] = ca.argv[0];
argv[2] = ca.argv[1];
argv[3] = ca.argv[2];
argv[4] = ca.argv[3];
ch_free( ca.argv );
ca.argv = argv;
ca.argc++;
rc = ldap_back_map_config( &ca, &mt->mt_rwmap.rwm_oc,
&mt->mt_rwmap.rwm_at );
ch_free( ca.tline );
ca.tline = NULL;
ca.argv = NULL;
/* in case of failure, restore
* the existing mapping */
if ( rc ) {
goto map_fail;
}
}
}
/* add the new mapping */
rc = ldap_back_map_config( c, &mt->mt_rwmap.rwm_oc,
&mt->mt_rwmap.rwm_at );
if ( rc ) {
goto map_fail;
}
if ( ix < cnt ) {
for ( ; i<cnt ; cnt++ ) {
ca.line = mt->mt_rwmap.rwm_bva_map[ i ].bv_val;
ca.argc = 0;
config_fp_parse_line( &ca );
argv[1] = ca.argv[0];
argv[2] = ca.argv[1];
argv[3] = ca.argv[2];
argv[4] = ca.argv[3];
ch_free( ca.argv );
ca.argv = argv;
ca.argc++;
rc = ldap_back_map_config( &ca, &mt->mt_rwmap.rwm_oc,
&mt->mt_rwmap.rwm_at );
ch_free( ca.tline );
ca.tline = NULL;
ca.argv = NULL;
/* in case of failure, restore
* the existing mapping */
if ( rc ) {
goto map_fail;
}
}
}
/* save the map info */
argv[0] = ldap_charray2str( &c->argv[ 1 ], " " );
if ( argv[0] != NULL ) {
struct berval bv;
ber_str2bv( argv[0], 0, 0, &bv );
ber_bvarray_add( &mt->mt_rwmap.rwm_bva_map, &bv );
/* move it to the right slot */
if ( ix < cnt ) {
for ( i=cnt; i>ix; i-- )
mt->mt_rwmap.rwm_bva_map[i+1] = mt->mt_rwmap.rwm_bva_map[i];
mt->mt_rwmap.rwm_bva_map[i] = bv;
/* destroy old mapping */
meta_back_map_free( &rwm_oc );
meta_back_map_free( &rwm_at );
}
}
break;
map_fail:;
if ( ix < cnt ) {
meta_back_map_free( &mt->mt_rwmap.rwm_oc );
meta_back_map_free( &mt->mt_rwmap.rwm_at );
mt->mt_rwmap.rwm_oc = rwm_oc;
mt->mt_rwmap.rwm_at = rwm_at;
}
} break;
case LDAP_BACK_CFG_NRETRIES: {
int nretries = META_RETRY_UNDEFINED;
if ( strcasecmp( c->argv[ 1 ], "forever" ) == 0 ) {
nretries = META_RETRY_FOREVER;
} else if ( strcasecmp( c->argv[ 1 ], "never" ) == 0 ) {
nretries = META_RETRY_NEVER;
} else {
if ( lutil_atoi( &nretries, c->argv[ 1 ] ) != 0 ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"unable to parse nretries {never|forever|<retries>}: \"%s\"",
c->argv[ 1 ] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
}
mc->mc_nretries = nretries;
} break;
case LDAP_BACK_CFG_VERSION:
if ( c->value_int != 0 && ( c->value_int < LDAP_VERSION_MIN || c->value_int > LDAP_VERSION_MAX ) ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"unsupported protocol version \"%s\"",
c->argv[ 1 ] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
mc->mc_version = c->value_int;
break;
case LDAP_BACK_CFG_NOREFS:
/* do not return search references */
if ( c->value_int ) {
mc->mc_flags |= LDAP_BACK_F_NOREFS;
} else {
mc->mc_flags &= ~LDAP_BACK_F_NOREFS;
}
break;
case LDAP_BACK_CFG_NOUNDEFFILTER:
/* do not propagate undefined search filters */
if ( c->value_int ) {
mc->mc_flags |= LDAP_BACK_F_NOUNDEFFILTER;
} else {
mc->mc_flags &= ~LDAP_BACK_F_NOUNDEFFILTER;
}
break;
#ifdef SLAPD_META_CLIENT_PR
case LDAP_BACK_CFG_CLIENT_PR:
if ( strcasecmp( c->argv[ 1 ], "accept-unsolicited" ) == 0 ) {
mc->mc_ps = META_CLIENT_PR_ACCEPT_UNSOLICITED;
} else if ( strcasecmp( c->argv[ 1 ], "disable" ) == 0 ) {
mc->mc_ps = META_CLIENT_PR_DISABLE;
} else if ( lutil_atoi( &mc->mc_ps, c->argv[ 1 ] ) || mc->mc_ps < -1 ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"unable to parse client-pr {accept-unsolicited|disable|<size>}: \"%s\"",
c->argv[ 1 ] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return( 1 );
}
break;
#endif /* SLAPD_META_CLIENT_PR */
case LDAP_BACK_CFG_KEEPALIVE:
slap_keepalive_parse( ber_bvstrdup(c->argv[1]),
&mt->mt_tls.sb_keepalive, 0, 0, 0);
break;
/* anything else */
default:
return SLAP_CONF_UNKNOWN;
}
return rc;
}
int
meta_back_init_cf( BackendInfo *bi )
{
int rc;
AttributeDescription *ad = NULL;
const char *text;
/* Make sure we don't exceed the bits reserved for userland */
config_check_userland( LDAP_BACK_CFG_LAST );
bi->bi_cf_ocs = metaocs;
rc = config_register_schema( metacfg, metaocs );
if ( rc ) {
return rc;
}
/* setup olcDbAclPasswd and olcDbIDAssertPasswd
* to be base64-encoded when written in LDIF form;
* basically, we don't care if it fails */
rc = slap_str2ad( "olcDbACLPasswd", &ad, &text );
if ( rc ) {
Debug( LDAP_DEBUG_ANY, "config_back_initialize: "
"warning, unable to get \"olcDbACLPasswd\" "
"attribute description: %d: %s\n",
rc, text, 0 );
} else {
(void)ldif_must_b64_encode_register( ad->ad_cname.bv_val,
ad->ad_type->sat_oid );
}
ad = NULL;
rc = slap_str2ad( "olcDbIDAssertPasswd", &ad, &text );
if ( rc ) {
Debug( LDAP_DEBUG_ANY, "config_back_initialize: "
"warning, unable to get \"olcDbIDAssertPasswd\" "
"attribute description: %d: %s\n",
rc, text, 0 );
} else {
(void)ldif_must_b64_encode_register( ad->ad_cname.bv_val,
ad->ad_type->sat_oid );
}
return 0;
}
static int
ldap_back_map_config(
ConfigArgs *c,
struct ldapmap *oc_map,
struct ldapmap *at_map )
{
struct ldapmap *map;
struct ldapmapping *mapping;
char *src, *dst;
int is_oc = 0;
if ( strcasecmp( c->argv[ 1 ], "objectclass" ) == 0 ) {
map = oc_map;
is_oc = 1;
} else if ( strcasecmp( c->argv[ 1 ], "attribute" ) == 0 ) {
map = at_map;
} else {
snprintf( c->cr_msg, sizeof(c->cr_msg),
"%s unknown argument \"%s\"",
c->argv[0], c->argv[1] );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
if ( !is_oc && map->map == NULL ) {
/* only init if required */
ldap_back_map_init( map, &mapping );
}
if ( strcmp( c->argv[ 2 ], "*" ) == 0 ) {
if ( c->argc < 4 || strcmp( c->argv[ 3 ], "*" ) == 0 ) {
map->drop_missing = ( c->argc < 4 );
goto success_return;
}
src = dst = c->argv[ 3 ];
} else if ( c->argc < 4 ) {
src = "";
dst = c->argv[ 2 ];
} else {
src = c->argv[ 2 ];
dst = ( strcmp( c->argv[ 3 ], "*" ) == 0 ? src : c->argv[ 3 ] );
}
if ( ( map == at_map )
&& ( strcasecmp( src, "objectclass" ) == 0
|| strcasecmp( dst, "objectclass" ) == 0 ) )
{
snprintf( c->cr_msg, sizeof(c->cr_msg),
"objectclass attribute cannot be mapped" );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
mapping = (struct ldapmapping *)ch_calloc( 2,
sizeof(struct ldapmapping) );
if ( mapping == NULL ) {
snprintf( c->cr_msg, sizeof(c->cr_msg),
"out of memory" );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
ber_str2bv( src, 0, 1, &mapping[ 0 ].src );
ber_str2bv( dst, 0, 1, &mapping[ 0 ].dst );
mapping[ 1 ].src = mapping[ 0 ].dst;
mapping[ 1 ].dst = mapping[ 0 ].src;
/*
* schema check
*/
if ( is_oc ) {
if ( src[ 0 ] != '\0' ) {
if ( oc_bvfind( &mapping[ 0 ].src ) == NULL ) {
Debug( LDAP_DEBUG_ANY,
"warning, source objectClass '%s' should be defined in schema\n",
c->log, src, 0 );
/*
* FIXME: this should become an err
*/
goto error_return;
}
}
if ( oc_bvfind( &mapping[ 0 ].dst ) == NULL ) {
Debug( LDAP_DEBUG_ANY,
"warning, destination objectClass '%s' is not defined in schema\n",
c->log, dst, 0 );
}
} else {
int rc;
const char *text = NULL;
AttributeDescription *ad = NULL;
if ( src[ 0 ] != '\0' ) {
rc = slap_bv2ad( &mapping[ 0 ].src, &ad, &text );
if ( rc != LDAP_SUCCESS ) {
Debug( LDAP_DEBUG_ANY,
"warning, source attributeType '%s' should be defined in schema\n",
c->log, src, 0 );
/*
* FIXME: this should become an err
*/
/*
* we create a fake "proxied" ad
* and add it here.
*/
rc = slap_bv2undef_ad( &mapping[ 0 ].src,
&ad, &text, SLAP_AD_PROXIED );
if ( rc != LDAP_SUCCESS ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"source attributeType \"%s\": %d (%s)",
src, rc, text ? text : "" );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
goto error_return;
}
}
ad = NULL;
}
rc = slap_bv2ad( &mapping[ 0 ].dst, &ad, &text );
if ( rc != LDAP_SUCCESS ) {
Debug( LDAP_DEBUG_ANY,
"warning, destination attributeType '%s' is not defined in schema\n",
c->log, dst, 0 );
/*
* we create a fake "proxied" ad
* and add it here.
*/
rc = slap_bv2undef_ad( &mapping[ 0 ].dst,
&ad, &text, SLAP_AD_PROXIED );
if ( rc != LDAP_SUCCESS ) {
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"destination attributeType \"%s\": %d (%s)\n",
dst, rc, text ? text : "" );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
return 1;
}
}
}
if ( (src[ 0 ] != '\0' && avl_find( map->map, (caddr_t)&mapping[ 0 ], mapping_cmp ) != NULL)
|| avl_find( map->remap, (caddr_t)&mapping[ 1 ], mapping_cmp ) != NULL)
{
snprintf( c->cr_msg, sizeof( c->cr_msg ),
"duplicate mapping found." );
Debug( LDAP_DEBUG_ANY, "%s: %s.\n", c->log, c->cr_msg, 0 );
goto error_return;
}
if ( src[ 0 ] != '\0' ) {
avl_insert( &map->map, (caddr_t)&mapping[ 0 ],
mapping_cmp, mapping_dup );
}
avl_insert( &map->remap, (caddr_t)&mapping[ 1 ],
mapping_cmp, mapping_dup );
success_return:;
return 0;
error_return:;
if ( mapping ) {
ch_free( mapping[ 0 ].src.bv_val );
ch_free( mapping[ 0 ].dst.bv_val );
ch_free( mapping );
}
return 1;
}
#ifdef ENABLE_REWRITE
static char *
suffix_massage_regexize( const char *s )
{
char *res, *ptr;
const char *p, *r;
int i;
if ( s[ 0 ] == '\0' ) {
return ch_strdup( "^(.+)$" );
}
for ( i = 0, p = s;
( r = strchr( p, ',' ) ) != NULL;
p = r + 1, i++ )
;
res = ch_calloc( sizeof( char ),
strlen( s )
+ STRLENOF( "((.+),)?" )
+ STRLENOF( "[ ]?" ) * i
+ STRLENOF( "$" ) + 1 );
ptr = lutil_strcopy( res, "((.+),)?" );
for ( i = 0, p = s;
( r = strchr( p, ',' ) ) != NULL;
p = r + 1 , i++ ) {
ptr = lutil_strncopy( ptr, p, r - p + 1 );
ptr = lutil_strcopy( ptr, "[ ]?" );
if ( r[ 1 ] == ' ' ) {
r++;
}
}
ptr = lutil_strcopy( ptr, p );
ptr[ 0 ] = '$';
ptr++;
ptr[ 0 ] = '\0';
return res;
}
static char *
suffix_massage_patternize( const char *s, const char *p )
{
ber_len_t len;
char *res, *ptr;
len = strlen( p );
if ( s[ 0 ] == '\0' ) {
len++;
}
res = ch_calloc( sizeof( char ), len + STRLENOF( "%1" ) + 1 );
if ( res == NULL ) {
return NULL;
}
ptr = lutil_strcopy( res, ( p[ 0 ] == '\0' ? "%2" : "%1" ) );
if ( s[ 0 ] == '\0' ) {
ptr[ 0 ] = ',';
ptr++;
}
lutil_strcopy( ptr, p );
return res;
}
int
suffix_massage_config(
struct rewrite_info *info,
struct berval *pvnc,
struct berval *nvnc,
struct berval *prnc,
struct berval *nrnc
)
{
char *rargv[ 5 ];
int line = 0;
rargv[ 0 ] = "rewriteEngine";
rargv[ 1 ] = "on";
rargv[ 2 ] = NULL;
rewrite_parse( info, "<suffix massage>", ++line, 2, rargv );
rargv[ 0 ] = "rewriteContext";
rargv[ 1 ] = "default";
rargv[ 2 ] = NULL;
rewrite_parse( info, "<suffix massage>", ++line, 2, rargv );
rargv[ 0 ] = "rewriteRule";
rargv[ 1 ] = suffix_massage_regexize( pvnc->bv_val );
rargv[ 2 ] = suffix_massage_patternize( pvnc->bv_val, prnc->bv_val );
rargv[ 3 ] = ":";
rargv[ 4 ] = NULL;
rewrite_parse( info, "<suffix massage>", ++line, 4, rargv );
ch_free( rargv[ 1 ] );
ch_free( rargv[ 2 ] );
if ( BER_BVISEMPTY( pvnc ) ) {
rargv[ 0 ] = "rewriteRule";
rargv[ 1 ] = "^$";
rargv[ 2 ] = prnc->bv_val;
rargv[ 3 ] = ":";
rargv[ 4 ] = NULL;
rewrite_parse( info, "<suffix massage>", ++line, 4, rargv );
}
rargv[ 0 ] = "rewriteContext";
rargv[ 1 ] = "searchEntryDN";
rargv[ 2 ] = NULL;
rewrite_parse( info, "<suffix massage>", ++line, 2, rargv );
rargv[ 0 ] = "rewriteRule";
rargv[ 1 ] = suffix_massage_regexize( prnc->bv_val );
rargv[ 2 ] = suffix_massage_patternize( prnc->bv_val, pvnc->bv_val );
rargv[ 3 ] = ":";
rargv[ 4 ] = NULL;
rewrite_parse( info, "<suffix massage>", ++line, 4, rargv );
ch_free( rargv[ 1 ] );
ch_free( rargv[ 2 ] );
if ( BER_BVISEMPTY( prnc ) ) {
rargv[ 0 ] = "rewriteRule";
rargv[ 1 ] = "^$";
rargv[ 2 ] = pvnc->bv_val;
rargv[ 3 ] = ":";
rargv[ 4 ] = NULL;
rewrite_parse( info, "<suffix massage>", ++line, 4, rargv );
}
/* backward compatibility */
rargv[ 0 ] = "rewriteContext";
rargv[ 1 ] = "searchResult";
rargv[ 2 ] = "alias";
rargv[ 3 ] = "searchEntryDN";
rargv[ 4 ] = NULL;
rewrite_parse( info, "<suffix massage>", ++line, 4, rargv );
rargv[ 0 ] = "rewriteContext";
rargv[ 1 ] = "matchedDN";
rargv[ 2 ] = "alias";
rargv[ 3 ] = "searchEntryDN";
rargv[ 4 ] = NULL;
rewrite_parse( info, "<suffix massage>", ++line, 4, rargv );
rargv[ 0 ] = "rewriteContext";
rargv[ 1 ] = "searchAttrDN";
rargv[ 2 ] = "alias";
rargv[ 3 ] = "searchEntryDN";
rargv[ 4 ] = NULL;
rewrite_parse( info, "<suffix massage>", ++line, 4, rargv );
/* NOTE: this corresponds to #undef'ining RWM_REFERRAL_REWRITE;
* see servers/slapd/overlays/rwm.h for details */
rargv[ 0 ] = "rewriteContext";
rargv[ 1 ] = "referralAttrDN";
rargv[ 2 ] = NULL;
rewrite_parse( info, "<suffix massage>", ++line, 2, rargv );
rargv[ 0 ] = "rewriteContext";
rargv[ 1 ] = "referralDN";
rargv[ 2 ] = NULL;
rewrite_parse( info, "<suffix massage>", ++line, 2, rargv );
return 0;
}
#endif /* ENABLE_REWRITE */
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