/* $OpenLDAP$ */
/* This work is part of OpenLDAP Software .
*
* Copyright 1998-2022 The OpenLDAP Foundation.
* 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
* .
*/
/* Portions Copyright (c) 1995 Regents of the University of Michigan.
* All rights reserved.
*/
/* This notice applies to changes, created by or for Novell, Inc.,
* to preexisting works for which notices appear elsewhere in this file.
*
* Copyright (C) 1999, 2000 Novell, Inc. All Rights Reserved.
*
* THIS WORK IS SUBJECT TO U.S. AND INTERNATIONAL COPYRIGHT LAWS AND TREATIES.
* USE, MODIFICATION, AND REDISTRIBUTION OF THIS WORK IS SUBJECT TO VERSION
* 2.0.1 OF THE OPENLDAP PUBLIC LICENSE, A COPY OF WHICH IS AVAILABLE AT
* HTTP://WWW.OPENLDAP.ORG/LICENSE.HTML OR IN THE FILE "LICENSE" IN THE
* TOP-LEVEL DIRECTORY OF THE DISTRIBUTION. ANY USE OR EXPLOITATION OF THIS
* WORK OTHER THAN AS AUTHORIZED IN VERSION 2.0.1 OF THE OPENLDAP PUBLIC
* LICENSE, OR OTHER PRIOR WRITTEN CONSENT FROM NOVELL, COULD SUBJECT THE
* PERPETRATOR TO CRIMINAL AND CIVIL LIABILITY.
*---
* Modification to OpenLDAP source by Novell, Inc.
* April 2000 sfs Added code to chase V3 referrals
* request.c - sending of ldap requests; handling of referrals
*---
* Note: A verbatim copy of version 2.0.1 of the OpenLDAP Public License
* can be found in the file "build/LICENSE-2.0.1" in this distribution
* of OpenLDAP Software.
*/
#include "portable.h"
#include
#include
#include
#include
#include
#include
#include
#include
#include "ldap-int.h"
#include "lber.h"
/* used by ldap_send_server_request and ldap_new_connection */
#ifdef LDAP_R_COMPILE
#define LDAP_CONN_LOCK_IF(nolock) \
{ if (nolock) LDAP_MUTEX_LOCK( &ld->ld_conn_mutex ); }
#define LDAP_CONN_UNLOCK_IF(nolock) \
{ if (nolock) LDAP_MUTEX_UNLOCK( &ld->ld_conn_mutex ); }
#define LDAP_REQ_LOCK_IF(nolock) \
{ if (nolock) LDAP_MUTEX_LOCK( &ld->ld_req_mutex ); }
#define LDAP_REQ_UNLOCK_IF(nolock) \
{ if (nolock) LDAP_MUTEX_UNLOCK( &ld->ld_req_mutex ); }
#define LDAP_RES_LOCK_IF(nolock) \
{ if (nolock) LDAP_MUTEX_LOCK( &ld->ld_res_mutex ); }
#define LDAP_RES_UNLOCK_IF(nolock) \
{ if (nolock) LDAP_MUTEX_UNLOCK( &ld->ld_res_mutex ); }
#else
#define LDAP_CONN_LOCK_IF(nolock)
#define LDAP_CONN_UNLOCK_IF(nolock)
#define LDAP_REQ_LOCK_IF(nolock)
#define LDAP_REQ_UNLOCK_IF(nolock)
#define LDAP_RES_LOCK_IF(nolock)
#define LDAP_RES_UNLOCK_IF(nolock)
#endif
static LDAPConn *find_connection LDAP_P(( LDAP *ld, LDAPURLDesc *srv, int any ));
static void use_connection LDAP_P(( LDAP *ld, LDAPConn *lc ));
static void ldap_free_request_int LDAP_P(( LDAP *ld, LDAPRequest *lr ));
static BerElement *
re_encode_request( LDAP *ld,
BerElement *origber,
ber_int_t msgid,
int sref,
LDAPURLDesc *srv,
int *type );
BerElement *
ldap_alloc_ber_with_options( LDAP *ld )
{
BerElement *ber;
ber = ber_alloc_t( ld->ld_lberoptions );
if ( ber == NULL ) {
ld->ld_errno = LDAP_NO_MEMORY;
}
return( ber );
}
void
ldap_set_ber_options( LDAP *ld, BerElement *ber )
{
/* ld_lberoptions is constant, hence no lock */
ber->ber_options = ld->ld_lberoptions;
}
/* sets needed mutexes - no mutexes set to this point */
ber_int_t
ldap_send_initial_request(
LDAP *ld,
ber_tag_t msgtype,
const char *dn,
BerElement *ber,
ber_int_t msgid)
{
int rc = 1;
ber_socket_t sd = AC_SOCKET_INVALID;
Debug0( LDAP_DEBUG_TRACE, "ldap_send_initial_request\n" );
LDAP_MUTEX_LOCK( &ld->ld_conn_mutex );
if ( ber_sockbuf_ctrl( ld->ld_sb, LBER_SB_OPT_GET_FD, &sd ) == -1 ) {
/* not connected yet */
rc = ldap_open_defconn( ld );
if ( rc == 0 ) {
ber_sockbuf_ctrl( ld->ld_defconn->lconn_sb,
LBER_SB_OPT_GET_FD, &sd );
}
}
if ( ld->ld_defconn && ld->ld_defconn->lconn_status == LDAP_CONNST_CONNECTING )
rc = ldap_int_check_async_open( ld, sd );
if( rc < 0 ) {
ber_free( ber, 1 );
LDAP_MUTEX_UNLOCK( &ld->ld_conn_mutex );
return( -1 );
} else if ( rc == 0 ) {
Debug0( LDAP_DEBUG_TRACE,
"ldap_open_defconn: successful\n" );
}
#ifdef LDAP_CONNECTIONLESS
if (LDAP_IS_UDP(ld)) {
if (msgtype == LDAP_REQ_BIND) {
LDAP_MUTEX_LOCK( &ld->ld_options.ldo_mutex );
if (ld->ld_options.ldo_cldapdn)
ldap_memfree(ld->ld_options.ldo_cldapdn);
ld->ld_options.ldo_cldapdn = ldap_strdup(dn);
ber_free( ber, 1 );
LDAP_MUTEX_UNLOCK( &ld->ld_options.ldo_mutex );
LDAP_MUTEX_UNLOCK( &ld->ld_conn_mutex );
return 0;
}
if (msgtype != LDAP_REQ_ABANDON && msgtype != LDAP_REQ_SEARCH)
{
ber_free( ber, 1 );
LDAP_MUTEX_UNLOCK( &ld->ld_conn_mutex );
return LDAP_PARAM_ERROR;
}
}
#endif
LDAP_MUTEX_LOCK( &ld->ld_req_mutex );
rc = ldap_send_server_request( ld, ber, msgid, NULL,
NULL, NULL, NULL, 0, 0 );
LDAP_MUTEX_UNLOCK( &ld->ld_req_mutex );
LDAP_MUTEX_UNLOCK( &ld->ld_conn_mutex );
return(rc);
}
/* protected by conn_mutex */
int
ldap_int_flush_request(
LDAP *ld,
LDAPRequest *lr )
{
LDAPConn *lc = lr->lr_conn;
LDAP_ASSERT_MUTEX_OWNER( &ld->ld_conn_mutex );
if ( ber_flush2( lc->lconn_sb, lr->lr_ber, LBER_FLUSH_FREE_NEVER ) != 0 ) {
if (( sock_errno() == EAGAIN ) || ( sock_errno() == ENOTCONN )) {
/* ENOTCONN is returned in Solaris 10 */
/* need to continue write later */
lr->lr_status = LDAP_REQST_WRITING;
ldap_mark_select_write( ld, lc->lconn_sb );
ld->ld_errno = LDAP_BUSY;
return -2;
} else {
ld->ld_errno = LDAP_SERVER_DOWN;
ldap_free_request( ld, lr );
ldap_free_connection( ld, lc, 0, 0 );
return( -1 );
}
} else {
if ( lr->lr_parent == NULL ) {
lr->lr_ber->ber_end = lr->lr_ber->ber_ptr;
lr->lr_ber->ber_ptr = lr->lr_ber->ber_buf;
}
lr->lr_status = LDAP_REQST_INPROGRESS;
/* sent -- waiting for a response */
ldap_mark_select_read( ld, lc->lconn_sb );
ldap_clear_select_write( ld, lc->lconn_sb );
}
return 0;
}
/*
* protected by req_mutex
* if m_noconn then protect using conn_lock
* else already protected with conn_lock
* if m_res then also protected by res_mutex
*/
int
ldap_send_server_request(
LDAP *ld,
BerElement *ber,
ber_int_t msgid,
LDAPRequest *parentreq,
LDAPURLDesc **srvlist,
LDAPConn *lc,
LDAPreqinfo *bind,
int m_noconn,
int m_res )
{
LDAPRequest *lr;
int incparent, rc;
LDAP_ASSERT_MUTEX_OWNER( &ld->ld_req_mutex );
Debug0( LDAP_DEBUG_TRACE, "ldap_send_server_request\n" );
incparent = 0;
ld->ld_errno = LDAP_SUCCESS; /* optimistic */
LDAP_CONN_LOCK_IF(m_noconn);
if ( lc == NULL ) {
if ( srvlist == NULL ) {
lc = ld->ld_defconn;
} else {
lc = find_connection( ld, *srvlist, 1 );
if ( lc == NULL ) {
if ( (bind != NULL) && (parentreq != NULL) ) {
/* Remember the bind in the parent */
incparent = 1;
++parentreq->lr_outrefcnt;
}
lc = ldap_new_connection( ld, srvlist, 0,
1, bind, 1, m_res );
}
}
}
/* async connect... */
if ( lc != NULL && lc->lconn_status == LDAP_CONNST_CONNECTING ) {
ber_socket_t sd = AC_SOCKET_ERROR;
struct timeval tv = { 0 };
ber_sockbuf_ctrl( lc->lconn_sb, LBER_SB_OPT_GET_FD, &sd );
/* poll ... */
switch ( ldap_int_poll( ld, sd, &tv, 1 ) ) {
case 0:
/* go on! */
lc->lconn_status = LDAP_CONNST_CONNECTED;
break;
case -2:
/* async only occurs if a network timeout is set */
/* honor network timeout */
LDAP_MUTEX_LOCK( &ld->ld_options.ldo_mutex );
if ( time( NULL ) - lc->lconn_created <= ld->ld_options.ldo_tm_net.tv_sec )
{
/* caller will have to call again */
ld->ld_errno = LDAP_X_CONNECTING;
}
LDAP_MUTEX_UNLOCK( &ld->ld_options.ldo_mutex );
/* fallthru */
default:
/* error */
break;
}
}
if ( lc == NULL || lc->lconn_status != LDAP_CONNST_CONNECTED ) {
if ( ld->ld_errno == LDAP_SUCCESS ) {
ld->ld_errno = LDAP_SERVER_DOWN;
}
ber_free( ber, 1 );
if ( incparent ) {
/* Forget about the bind */
--parentreq->lr_outrefcnt;
}
LDAP_CONN_UNLOCK_IF(m_noconn);
return( -1 );
}
use_connection( ld, lc );
#ifdef LDAP_CONNECTIONLESS
if ( LDAP_IS_UDP( ld )) {
BerElement tmpber = *ber;
ber_rewind( &tmpber );
LDAP_MUTEX_LOCK( &ld->ld_options.ldo_mutex );
rc = ber_write( &tmpber, ld->ld_options.ldo_peer,
sizeof( struct sockaddr_storage ), 0 );
LDAP_MUTEX_UNLOCK( &ld->ld_options.ldo_mutex );
if ( rc == -1 ) {
ld->ld_errno = LDAP_ENCODING_ERROR;
ber_free( ber, 1 );
LDAP_CONN_UNLOCK_IF(m_noconn);
return rc;
}
}
#endif
/* If we still have an incomplete write, try to finish it before
* dealing with the new request. If we don't finish here, return
* LDAP_BUSY and let the caller retry later. We only allow a single
* request to be in WRITING state.
*/
rc = 0;
if ( ld->ld_requests != NULL ) {
TAvlnode *node = ldap_tavl_end( ld->ld_requests, TAVL_DIR_RIGHT );
LDAPRequest *lr;
assert( node != NULL );
lr = node->avl_data;
if ( lr->lr_status == LDAP_REQST_WRITING &&
ldap_int_flush_request( ld, lr ) < 0 ) {
rc = -1;
}
}
if ( rc ) {
ber_free( ber, 1 );
LDAP_CONN_UNLOCK_IF(m_noconn);
return rc;
}
lr = (LDAPRequest *)LDAP_CALLOC( 1, sizeof( LDAPRequest ) );
if ( lr == NULL ) {
ld->ld_errno = LDAP_NO_MEMORY;
ldap_free_connection( ld, lc, 0, 0 );
ber_free( ber, 1 );
if ( incparent ) {
/* Forget about the bind */
--parentreq->lr_outrefcnt;
}
LDAP_CONN_UNLOCK_IF(m_noconn);
return( -1 );
}
lr->lr_msgid = msgid;
lr->lr_status = LDAP_REQST_INPROGRESS;
lr->lr_res_errno = LDAP_SUCCESS; /* optimistic */
lr->lr_ber = ber;
lr->lr_conn = lc;
if ( parentreq != NULL ) { /* sub-request */
if ( !incparent ) {
/* Increment if we didn't do it before the bind */
++parentreq->lr_outrefcnt;
}
lr->lr_origid = parentreq->lr_origid;
lr->lr_parentcnt = ++parentreq->lr_parentcnt;
lr->lr_parent = parentreq;
lr->lr_refnext = parentreq->lr_child;
parentreq->lr_child = lr;
} else { /* original request */
lr->lr_origid = lr->lr_msgid;
}
/* Extract requestDN for future reference */
#ifdef LDAP_CONNECTIONLESS
if ( !LDAP_IS_UDP(ld) )
#endif
{
BerElement tmpber = *ber;
ber_int_t bint;
ber_tag_t tag, rtag;
ber_reset( &tmpber, 1 );
rtag = ber_scanf( &tmpber, "{it", /*}*/ &bint, &tag );
switch ( tag ) {
case LDAP_REQ_BIND:
rtag = ber_scanf( &tmpber, "{i" /*}*/, &bint );
break;
case LDAP_REQ_DELETE:
break;
default:
rtag = ber_scanf( &tmpber, "{" /*}*/ );
case LDAP_REQ_ABANDON:
break;
}
if ( tag != LDAP_REQ_ABANDON ) {
ber_skip_tag( &tmpber, &lr->lr_dn.bv_len );
lr->lr_dn.bv_val = tmpber.ber_ptr;
}
}
rc = ldap_tavl_insert( &ld->ld_requests, lr, ldap_req_cmp, ldap_avl_dup_error );
assert( rc == LDAP_SUCCESS );
ld->ld_errno = LDAP_SUCCESS;
if ( ldap_int_flush_request( ld, lr ) == -1 ) {
msgid = -1;
}
LDAP_CONN_UNLOCK_IF(m_noconn);
return( msgid );
}
/* return 0 if no StartTLS ext, 1 if present, 2 if critical */
static int
find_tls_ext( LDAPURLDesc *srv )
{
int i, crit;
char *ext;
if ( !srv->lud_exts )
return 0;
for (i=0; srv->lud_exts[i]; i++) {
crit = 0;
ext = srv->lud_exts[i];
if ( ext[0] == '!') {
ext++;
crit = 1;
}
if ( !strcasecmp( ext, "StartTLS" ) ||
!strcasecmp( ext, "X-StartTLS" ) ||
!strcmp( ext, LDAP_EXOP_START_TLS )) {
return crit + 1;
}
}
return 0;
}
/*
* always protected by conn_mutex
* optionally protected by req_mutex and res_mutex
*/
LDAPConn *
ldap_new_connection( LDAP *ld, LDAPURLDesc **srvlist, int use_ldsb,
int connect, LDAPreqinfo *bind, int m_req, int m_res )
{
LDAPConn *lc;
int async = 0;
LDAP_ASSERT_MUTEX_OWNER( &ld->ld_conn_mutex );
Debug3( LDAP_DEBUG_TRACE, "ldap_new_connection %d %d %d\n",
use_ldsb, connect, (bind != NULL) );
/*
* make a new LDAP server connection
* XXX open connection synchronously for now
*/
lc = (LDAPConn *)LDAP_CALLOC( 1, sizeof( LDAPConn ) );
if ( lc == NULL ) {
ld->ld_errno = LDAP_NO_MEMORY;
return( NULL );
}
if ( use_ldsb ) {
assert( ld->ld_sb != NULL );
lc->lconn_sb = ld->ld_sb;
} else {
lc->lconn_sb = ber_sockbuf_alloc();
if ( lc->lconn_sb == NULL ) {
LDAP_FREE( (char *)lc );
ld->ld_errno = LDAP_NO_MEMORY;
return( NULL );
}
}
if ( connect ) {
LDAPURLDesc **srvp, *srv = NULL;
async = LDAP_BOOL_GET( &ld->ld_options, LDAP_BOOL_CONNECT_ASYNC );
for ( srvp = srvlist; *srvp != NULL; srvp = &(*srvp)->lud_next ) {
int rc;
rc = ldap_int_open_connection( ld, lc, *srvp, async );
if ( rc != -1 ) {
srv = *srvp;
/* If we fully connected, async is moot */
if ( rc == 0 )
async = 0;
if ( ld->ld_urllist_proc && ( !async || rc != -2 ) ) {
ld->ld_urllist_proc( ld, srvlist, srvp, ld->ld_urllist_params );
}
break;
}
}
if ( srv == NULL ) {
if ( !use_ldsb ) {
ber_sockbuf_free( lc->lconn_sb );
}
LDAP_FREE( (char *)lc );
ld->ld_errno = LDAP_SERVER_DOWN;
return( NULL );
}
lc->lconn_server = ldap_url_dup( srv );
if ( !lc->lconn_server ) {
if ( !use_ldsb )
ber_sockbuf_free( lc->lconn_sb );
LDAP_FREE( (char *)lc );
ld->ld_errno = LDAP_NO_MEMORY;
return( NULL );
}
}
lc->lconn_status = async ? LDAP_CONNST_CONNECTING : LDAP_CONNST_CONNECTED;
lc->lconn_next = ld->ld_conns;
ld->ld_conns = lc;
if ( connect ) {
#ifdef HAVE_TLS
if ( lc->lconn_server->lud_exts ) {
int rc, ext = find_tls_ext( lc->lconn_server );
if ( ext ) {
LDAPConn *savedefconn;
savedefconn = ld->ld_defconn;
++lc->lconn_refcnt; /* avoid premature free */
ld->ld_defconn = lc;
LDAP_REQ_UNLOCK_IF(m_req);
LDAP_MUTEX_UNLOCK( &ld->ld_conn_mutex );
LDAP_RES_UNLOCK_IF(m_res);
rc = ldap_start_tls_s( ld, NULL, NULL );
LDAP_RES_LOCK_IF(m_res);
LDAP_MUTEX_LOCK( &ld->ld_conn_mutex );
LDAP_REQ_LOCK_IF(m_req);
ld->ld_defconn = savedefconn;
--lc->lconn_refcnt;
if ( rc != LDAP_SUCCESS && ext == 2 ) {
ldap_free_connection( ld, lc, 1, 0 );
return NULL;
}
}
}
#endif
}
if ( bind != NULL ) {
int err = 0;
LDAPConn *savedefconn;
/* Set flag to prevent additional referrals
* from being processed on this
* connection until the bind has completed
*/
lc->lconn_rebind_inprogress = 1;
/* V3 rebind function */
if ( ld->ld_rebind_proc != NULL) {
LDAPURLDesc *srvfunc;
srvfunc = ldap_url_dup( *srvlist );
if ( srvfunc == NULL ) {
ld->ld_errno = LDAP_NO_MEMORY;
err = -1;
} else {
savedefconn = ld->ld_defconn;
++lc->lconn_refcnt; /* avoid premature free */
ld->ld_defconn = lc;
Debug0( LDAP_DEBUG_TRACE, "Call application rebind_proc\n" );
LDAP_REQ_UNLOCK_IF(m_req);
LDAP_MUTEX_UNLOCK( &ld->ld_conn_mutex );
LDAP_RES_UNLOCK_IF(m_res);
err = (*ld->ld_rebind_proc)( ld,
bind->ri_url, bind->ri_request, bind->ri_msgid,
ld->ld_rebind_params );
LDAP_RES_LOCK_IF(m_res);
LDAP_MUTEX_LOCK( &ld->ld_conn_mutex );
LDAP_REQ_LOCK_IF(m_req);
ld->ld_defconn = savedefconn;
--lc->lconn_refcnt;
if ( err != 0 ) {
err = -1;
ldap_free_connection( ld, lc, 1, 0 );
lc = NULL;
}
ldap_free_urldesc( srvfunc );
}
} else {
int msgid, rc;
struct berval passwd = BER_BVNULL;
savedefconn = ld->ld_defconn;
++lc->lconn_refcnt; /* avoid premature free */
ld->ld_defconn = lc;
Debug0( LDAP_DEBUG_TRACE,
"anonymous rebind via ldap_sasl_bind(\"\")\n" );
LDAP_REQ_UNLOCK_IF(m_req);
LDAP_MUTEX_UNLOCK( &ld->ld_conn_mutex );
LDAP_RES_UNLOCK_IF(m_res);
rc = ldap_sasl_bind( ld, "", LDAP_SASL_SIMPLE, &passwd,
NULL, NULL, &msgid );
if ( rc != LDAP_SUCCESS ) {
err = -1;
} else {
for ( err = 1; err > 0; ) {
struct timeval tv = { 0, 100000 };
LDAPMessage *res = NULL;
switch ( ldap_result( ld, msgid, LDAP_MSG_ALL, &tv, &res ) ) {
case -1:
err = -1;
break;
case 0:
#ifdef LDAP_R_COMPILE
ldap_pvt_thread_yield();
#endif
break;
case LDAP_RES_BIND:
rc = ldap_parse_result( ld, res, &err, NULL, NULL, NULL, NULL, 1 );
if ( rc != LDAP_SUCCESS ) {
err = -1;
} else if ( err != LDAP_SUCCESS ) {
err = -1;
}
/* else err == LDAP_SUCCESS == 0 */
break;
default:
Debug3( LDAP_DEBUG_TRACE,
"ldap_new_connection %p: "
"unexpected response %d "
"from BIND request id=%d\n",
(void *) ld, ldap_msgtype( res ), msgid );
err = -1;
break;
}
}
}
LDAP_RES_LOCK_IF(m_res);
LDAP_MUTEX_LOCK( &ld->ld_conn_mutex );
LDAP_REQ_LOCK_IF(m_req);
ld->ld_defconn = savedefconn;
--lc->lconn_refcnt;
if ( err != 0 ) {
ldap_free_connection( ld, lc, 1, 0 );
lc = NULL;
}
}
if ( lc != NULL )
lc->lconn_rebind_inprogress = 0;
}
return( lc );
}
/* protected by ld_conn_mutex */
static LDAPConn *
find_connection( LDAP *ld, LDAPURLDesc *srv, int any )
/*
* return an existing connection (if any) to the server srv
* if "any" is non-zero, check for any server in the "srv" chain
*/
{
LDAPConn *lc;
LDAPURLDesc *lcu, *lsu;
int lcu_port, lsu_port;
int found = 0;
LDAP_ASSERT_MUTEX_OWNER( &ld->ld_conn_mutex );
for ( lc = ld->ld_conns; lc != NULL; lc = lc->lconn_next ) {
lcu = lc->lconn_server;
lcu_port = ldap_pvt_url_scheme_port( lcu->lud_scheme,
lcu->lud_port );
for ( lsu = srv; lsu != NULL; lsu = lsu->lud_next ) {
lsu_port = ldap_pvt_url_scheme_port( lsu->lud_scheme,
lsu->lud_port );
if ( lsu_port == lcu_port
&& strcmp( lcu->lud_scheme, lsu->lud_scheme ) == 0
&& lcu->lud_host != NULL && lsu->lud_host != NULL
&& strcasecmp( lsu->lud_host, lcu->lud_host ) == 0 )
{
found = 1;
break;
}
if ( !any ) break;
}
if ( found )
break;
}
return lc;
}
/* protected by ld_conn_mutex */
static void
use_connection( LDAP *ld, LDAPConn *lc )
{
LDAP_ASSERT_MUTEX_OWNER( &ld->ld_conn_mutex );
++lc->lconn_refcnt;
lc->lconn_lastused = time( NULL );
}
/* protected by ld_conn_mutex */
void
ldap_free_connection( LDAP *ld, LDAPConn *lc, int force, int unbind )
{
LDAPConn *tmplc, *prevlc;
LDAP_ASSERT_MUTEX_OWNER( &ld->ld_conn_mutex );
Debug2( LDAP_DEBUG_TRACE,
"ldap_free_connection %d %d\n",
force, unbind );
if ( force || --lc->lconn_refcnt <= 0 ) {
/* remove from connections list first */
for ( prevlc = NULL, tmplc = ld->ld_conns;
tmplc != NULL;
tmplc = tmplc->lconn_next )
{
if ( tmplc == lc ) {
if ( prevlc == NULL ) {
ld->ld_conns = tmplc->lconn_next;
} else {
prevlc->lconn_next = tmplc->lconn_next;
}
if ( ld->ld_defconn == lc ) {
ld->ld_defconn = NULL;
}
break;
}
prevlc = tmplc;
}
/* process connection callbacks */
{
struct ldapoptions *lo;
ldaplist *ll;
ldap_conncb *cb;
lo = &ld->ld_options;
LDAP_MUTEX_LOCK( &lo->ldo_mutex );
if ( lo->ldo_conn_cbs ) {
for ( ll=lo->ldo_conn_cbs; ll; ll=ll->ll_next ) {
cb = ll->ll_data;
cb->lc_del( ld, lc->lconn_sb, cb );
}
}
LDAP_MUTEX_UNLOCK( &lo->ldo_mutex );
lo = LDAP_INT_GLOBAL_OPT();
LDAP_MUTEX_LOCK( &lo->ldo_mutex );
if ( lo->ldo_conn_cbs ) {
for ( ll=lo->ldo_conn_cbs; ll; ll=ll->ll_next ) {
cb = ll->ll_data;
cb->lc_del( ld, lc->lconn_sb, cb );
}
}
LDAP_MUTEX_UNLOCK( &lo->ldo_mutex );
}
if ( lc->lconn_status == LDAP_CONNST_CONNECTED ) {
ldap_mark_select_clear( ld, lc->lconn_sb );
if ( unbind ) {
ldap_send_unbind( ld, lc->lconn_sb,
NULL, NULL );
}
}
if ( lc->lconn_ber != NULL ) {
ber_free( lc->lconn_ber, 1 );
}
ldap_int_sasl_close( ld, lc );
ldap_free_urllist( lc->lconn_server );
/* FIXME: is this at all possible?
* ldap_ld_free() in unbind.c calls ldap_free_connection()
* with force == 1 __after__ explicitly calling
* ldap_tavl_free on ld->ld_requests */
if ( force ) {
ldap_tavl_free( ld->ld_requests, ldap_do_free_request );
ld->ld_requests = NULL;
}
if ( lc->lconn_sb != ld->ld_sb ) {
ber_sockbuf_free( lc->lconn_sb );
} else {
ber_int_sb_close( lc->lconn_sb );
}
if ( lc->lconn_rebind_queue != NULL) {
int i;
for( i = 0; lc->lconn_rebind_queue[i] != NULL; i++ ) {
LDAP_VFREE( lc->lconn_rebind_queue[i] );
}
LDAP_FREE( lc->lconn_rebind_queue );
}
LDAP_FREE( lc );
Debug0( LDAP_DEBUG_TRACE,
"ldap_free_connection: actually freed\n" );
} else {
lc->lconn_lastused = time( NULL );
Debug1( LDAP_DEBUG_TRACE, "ldap_free_connection: refcnt %d\n",
lc->lconn_refcnt );
}
}
/* Protects self with ld_conn_mutex */
#ifdef LDAP_DEBUG
void
ldap_dump_connection( LDAP *ld, LDAPConn *lconns, int all )
{
LDAPConn *lc;
char timebuf[32];
Debug2( LDAP_DEBUG_TRACE, "** ld %p Connection%s:\n", (void *)ld, all ? "s" : "" );
LDAP_MUTEX_LOCK( &ld->ld_conn_mutex );
for ( lc = lconns; lc != NULL; lc = lc->lconn_next ) {
if ( lc->lconn_server != NULL ) {
Debug3( LDAP_DEBUG_TRACE, "* host: %s port: %d%s\n",
( lc->lconn_server->lud_host == NULL ) ? "(null)"
: lc->lconn_server->lud_host,
lc->lconn_server->lud_port, ( lc->lconn_sb ==
ld->ld_sb ) ? " (default)" : "" );
}
if ( lc->lconn_sb != NULL ) {
char from[LDAP_IPADDRLEN];
struct berval frombv = BER_BVC(from);
ber_socket_t sb;
if ( ber_sockbuf_ctrl( lc->lconn_sb, LBER_SB_OPT_GET_FD, &sb ) == 1 ) {
Sockaddr sin;
socklen_t len = sizeof( sin );
if ( getsockname( sb, (struct sockaddr *)&sin, &len ) == 0 ) {
ldap_pvt_sockaddrstr( &sin, &frombv );
Debug1( LDAP_DEBUG_TRACE, "* from: %s\n",
( from == NULL ) ? "(null)" : from );
}
}
}
Debug2( LDAP_DEBUG_TRACE, " refcnt: %d status: %s\n", lc->lconn_refcnt,
( lc->lconn_status == LDAP_CONNST_NEEDSOCKET )
? "NeedSocket" :
( lc->lconn_status == LDAP_CONNST_CONNECTING )
? "Connecting" : "Connected" );
Debug2( LDAP_DEBUG_TRACE, " last used: %s%s\n",
ldap_pvt_ctime( &lc->lconn_lastused, timebuf ),
lc->lconn_rebind_inprogress ? " rebind in progress" : "" );
if ( lc->lconn_rebind_inprogress ) {
if ( lc->lconn_rebind_queue != NULL) {
int i;
for ( i = 0; lc->lconn_rebind_queue[i] != NULL; i++ ) {
int j;
for( j = 0; lc->lconn_rebind_queue[i][j] != 0; j++ ) {
Debug3( LDAP_DEBUG_TRACE, " queue %d entry %d - %s\n",
i, j, lc->lconn_rebind_queue[i][j] );
}
}
} else {
Debug0( LDAP_DEBUG_TRACE, " queue is empty\n" );
}
}
Debug0( LDAP_DEBUG_TRACE, "\n" );
if ( !all ) {
break;
}
}
LDAP_MUTEX_UNLOCK( &ld->ld_conn_mutex );
}
/* protected by req_mutex and res_mutex */
void
ldap_dump_requests_and_responses( LDAP *ld )
{
LDAPMessage *lm, *l;
TAvlnode *node;
int i;
Debug1( LDAP_DEBUG_TRACE, "** ld %p Outstanding Requests:\n",
(void *)ld );
node = ldap_tavl_end( ld->ld_requests, TAVL_DIR_LEFT );
if ( node == NULL ) {
Debug0( LDAP_DEBUG_TRACE, " Empty\n" );
}
for ( i = 0 ; node != NULL; i++, node = ldap_tavl_next( node, TAVL_DIR_RIGHT ) ) {
LDAPRequest *lr = node->avl_data;
Debug3( LDAP_DEBUG_TRACE, " * msgid %d, origid %d, status %s\n",
lr->lr_msgid, lr->lr_origid,
( lr->lr_status == LDAP_REQST_INPROGRESS ) ? "InProgress" :
( lr->lr_status == LDAP_REQST_CHASINGREFS ) ? "ChasingRefs" :
( lr->lr_status == LDAP_REQST_NOTCONNECTED ) ? "NotConnected" :
( lr->lr_status == LDAP_REQST_WRITING ) ? "Writing" :
( lr->lr_status == LDAP_REQST_COMPLETED ) ? "RequestCompleted"
: "InvalidStatus" );
Debug2( LDAP_DEBUG_TRACE, " outstanding referrals %d, parent count %d\n",
lr->lr_outrefcnt, lr->lr_parentcnt );
}
Debug3( LDAP_DEBUG_TRACE, " ld %p request count %d (abandoned %lu)\n",
(void *)ld, i, ld->ld_nabandoned );
Debug1( LDAP_DEBUG_TRACE, "** ld %p Response Queue:\n", (void *)ld );
if ( ( lm = ld->ld_responses ) == NULL ) {
Debug0( LDAP_DEBUG_TRACE, " Empty\n" );
}
for ( i = 0; lm != NULL; lm = lm->lm_next, i++ ) {
Debug2( LDAP_DEBUG_TRACE, " * msgid %d, type %lu\n",
lm->lm_msgid, (unsigned long)lm->lm_msgtype );
if ( lm->lm_chain != NULL ) {
Debug0( LDAP_DEBUG_TRACE, " chained responses:\n" );
for ( l = lm->lm_chain; l != NULL; l = l->lm_chain ) {
Debug2( LDAP_DEBUG_TRACE,
" * msgid %d, type %lu\n",
l->lm_msgid,
(unsigned long)l->lm_msgtype );
}
}
}
Debug2( LDAP_DEBUG_TRACE, " ld %p response count %d\n", (void *)ld, i );
}
#endif /* LDAP_DEBUG */
/* protected by req_mutex */
void
ldap_do_free_request( void *arg )
{
LDAPRequest *lr = arg;
Debug3( LDAP_DEBUG_TRACE, "ldap_do_free_request: "
"asked to free lr %p msgid %d refcnt %d\n",
lr, lr->lr_msgid, lr->lr_refcnt );
/* if lr_refcnt > 0, the request has been looked up
* by ldap_find_request_by_msgid(); if in the meanwhile
* the request is free()'d by someone else, just decrease
* the reference count; later on, it will be freed. */
if ( lr->lr_refcnt > 0 ) {
assert( lr->lr_refcnt == 1 );
lr->lr_refcnt = -lr->lr_refcnt;
return;
}
if ( lr->lr_ber != NULL ) {
ber_free( lr->lr_ber, 1 );
lr->lr_ber = NULL;
}
if ( lr->lr_res_error != NULL ) {
LDAP_FREE( lr->lr_res_error );
lr->lr_res_error = NULL;
}
if ( lr->lr_res_matched != NULL ) {
LDAP_FREE( lr->lr_res_matched );
lr->lr_res_matched = NULL;
}
LDAP_FREE( lr );
}
int
ldap_req_cmp( const void *l, const void *r )
{
const LDAPRequest *left = l, *right = r;
return left->lr_msgid - right->lr_msgid;
}
/* protected by req_mutex */
static void
ldap_free_request_int( LDAP *ld, LDAPRequest *lr )
{
LDAPRequest *removed;
LDAP_ASSERT_MUTEX_OWNER( &ld->ld_req_mutex );
removed = ldap_tavl_delete( &ld->ld_requests, lr, ldap_req_cmp );
assert( !removed || removed == lr );
Debug3( LDAP_DEBUG_TRACE, "ldap_free_request_int: "
"lr %p msgid %d%s removed\n",
lr, lr->lr_msgid, removed ? "" : " not" );
ldap_do_free_request( lr );
}
/* protected by req_mutex */
void
ldap_free_request( LDAP *ld, LDAPRequest *lr )
{
LDAP_ASSERT_MUTEX_OWNER( &ld->ld_req_mutex );
Debug2( LDAP_DEBUG_TRACE, "ldap_free_request (origid %d, msgid %d)\n",
lr->lr_origid, lr->lr_msgid );
/* free all referrals (child requests) */
while ( lr->lr_child ) {
ldap_free_request( ld, lr->lr_child );
}
if ( lr->lr_parent != NULL ) {
LDAPRequest **lrp;
--lr->lr_parent->lr_outrefcnt;
for ( lrp = &lr->lr_parent->lr_child;
*lrp && *lrp != lr;
lrp = &(*lrp)->lr_refnext );
if ( *lrp == lr ) {
*lrp = lr->lr_refnext;
}
}
ldap_free_request_int( ld, lr );
}
/*
* call first time with *cntp = -1
* when returns *cntp == -1, no referrals are left
*
* NOTE: may replace *refsp, or shuffle the contents
* of the original array.
*/
static int ldap_int_nextref(
LDAP *ld,
char ***refsp,
int *cntp,
void *params )
{
assert( refsp != NULL );
assert( *refsp != NULL );
assert( cntp != NULL );
if ( *cntp < -1 ) {
*cntp = -1;
return -1;
}
(*cntp)++;
if ( (*refsp)[ *cntp ] == NULL ) {
*cntp = -1;
}
return 0;
}
/*
* Chase v3 referrals
*
* Parameters:
* (IN) ld = LDAP connection handle
* (IN) lr = LDAP Request structure
* (IN) refs = array of pointers to referral strings that we will chase
* The array will be free'd by this function when no longer needed
* (IN) sref != 0 if following search reference
* (OUT) errstrp = Place to return a string of referrals which could not be followed
* (OUT) hadrefp = 1 if successfully followed referral
*
* Return value - number of referrals followed
*
* Protected by res_mutex, conn_mutex and req_mutex (try_read1msg)
*/
int
ldap_chase_v3referrals( LDAP *ld, LDAPRequest *lr, char **refs, int sref, char **errstrp, int *hadrefp )
{
char *unfollowed;
int unfollowedcnt = 0;
LDAPRequest *origreq;
LDAPURLDesc *srv = NULL;
BerElement *ber;
char **refarray = NULL;
LDAPConn *lc;
int rc, count, i, j, id;
LDAPreqinfo rinfo;
LDAP_NEXTREF_PROC *nextref_proc = ld->ld_nextref_proc ? ld->ld_nextref_proc : ldap_int_nextref;
LDAP_ASSERT_MUTEX_OWNER( &ld->ld_res_mutex );
LDAP_ASSERT_MUTEX_OWNER( &ld->ld_conn_mutex );
LDAP_ASSERT_MUTEX_OWNER( &ld->ld_req_mutex );
Debug0( LDAP_DEBUG_TRACE, "ldap_chase_v3referrals\n" );
ld->ld_errno = LDAP_SUCCESS; /* optimistic */
*hadrefp = 0;
unfollowed = NULL;
rc = count = 0;
/* If no referrals in array, return */
if ( (refs == NULL) || ( (refs)[0] == NULL) ) {
rc = 0;
goto done;
}
/* Check for hop limit exceeded */
if ( lr->lr_parentcnt >= ld->ld_refhoplimit ) {
Debug1( LDAP_DEBUG_ANY,
"more than %d referral hops (dropping)\n", ld->ld_refhoplimit );
ld->ld_errno = LDAP_REFERRAL_LIMIT_EXCEEDED;
rc = -1;
goto done;
}
/* find original request */
for ( origreq = lr;
origreq->lr_parent != NULL;
origreq = origreq->lr_parent )
{
/* empty */ ;
}
refarray = refs;
refs = NULL;
/* parse out & follow referrals */
/* NOTE: if nextref_proc == ldap_int_nextref, params is ignored */
i = -1;
for ( nextref_proc( ld, &refarray, &i, ld->ld_nextref_params );
i != -1;
nextref_proc( ld, &refarray, &i, ld->ld_nextref_params ) )
{
/* Parse the referral URL */
rc = ldap_url_parse_ext( refarray[i], &srv, LDAP_PVT_URL_PARSE_NOEMPTY_DN );
if ( rc != LDAP_URL_SUCCESS ) {
/* ldap_url_parse_ext() returns LDAP_URL_* errors
* which do not map on API errors */
ld->ld_errno = LDAP_PARAM_ERROR;
rc = -1;
goto done;
}
if( srv->lud_crit_exts ) {
int ok = 0;
#ifdef HAVE_TLS
/* If StartTLS is the only critical ext, OK. */
if ( find_tls_ext( srv ) == 2 && srv->lud_crit_exts == 1 )
ok = 1;
#endif
if ( !ok ) {
/* we do not support any other extensions */
ld->ld_errno = LDAP_NOT_SUPPORTED;
rc = -1;
goto done;
}
}
/* check connection for re-bind in progress */
if (( lc = find_connection( ld, srv, 1 )) != NULL ) {
/* See if we've already requested this DN with this conn */
LDAPRequest *lp;
int looped = 0;
ber_len_t len = srv->lud_dn ? strlen( srv->lud_dn ) : 0;
for ( lp = origreq; lp; ) {
if ( lp->lr_conn == lc
&& len == lp->lr_dn.bv_len
&& len
&& strncmp( srv->lud_dn, lp->lr_dn.bv_val, len ) == 0 )
{
looped = 1;
break;
}
if ( lp == origreq ) {
lp = lp->lr_child;
} else {
lp = lp->lr_refnext;
}
}
if ( looped ) {
ldap_free_urllist( srv );
srv = NULL;
ld->ld_errno = LDAP_CLIENT_LOOP;
rc = -1;
continue;
}
if ( lc->lconn_rebind_inprogress ) {
/* We are already chasing a referral or search reference and a
* bind on that connection is in progress. We must queue
* referrals on that connection, so we don't get a request
* going out before the bind operation completes. This happens
* if two search references come in one behind the other
* for the same server with different contexts.
*/
Debug1( LDAP_DEBUG_TRACE,
"ldap_chase_v3referrals: queue referral \"%s\"\n",
refarray[i] );
if( lc->lconn_rebind_queue == NULL ) {
/* Create a referral list */
lc->lconn_rebind_queue =
(char ***) LDAP_MALLOC( sizeof(void *) * 2);
if( lc->lconn_rebind_queue == NULL) {
ld->ld_errno = LDAP_NO_MEMORY;
rc = -1;
goto done;
}
lc->lconn_rebind_queue[0] = refarray;
lc->lconn_rebind_queue[1] = NULL;
refarray = NULL;
} else {
/* Count how many referral arrays we already have */
for( j = 0; lc->lconn_rebind_queue[j] != NULL; j++) {
/* empty */;
}
/* Add the new referral to the list */
lc->lconn_rebind_queue = (char ***) LDAP_REALLOC(
lc->lconn_rebind_queue, sizeof(void *) * (j + 2));
if( lc->lconn_rebind_queue == NULL ) {
ld->ld_errno = LDAP_NO_MEMORY;
rc = -1;
goto done;
}
lc->lconn_rebind_queue[j] = refarray;
lc->lconn_rebind_queue[j+1] = NULL;
refarray = NULL;
}
/* We have queued the referral/reference, now just return */
rc = 0;
*hadrefp = 1;
count = 1; /* Pretend we already followed referral */
goto done;
}
}
/* Re-encode the request with the new starting point of the search.
* Note: In the future we also need to replace the filter if one
* was provided with the search reference
*/
/* For references we don't want old dn if new dn empty */
if ( sref && srv->lud_dn == NULL ) {
srv->lud_dn = LDAP_STRDUP( "" );
}
LDAP_NEXT_MSGID( ld, id );
ber = re_encode_request( ld, origreq->lr_ber, id,
sref, srv, &rinfo.ri_request );
if( ber == NULL ) {
ld->ld_errno = LDAP_ENCODING_ERROR;
rc = -1;
goto done;
}
Debug2( LDAP_DEBUG_TRACE,
"ldap_chase_v3referral: msgid %d, url \"%s\"\n",
lr->lr_msgid, refarray[i] );
/* Send the new request to the server - may require a bind */
rinfo.ri_msgid = origreq->lr_origid;
rinfo.ri_url = refarray[i];
rc = ldap_send_server_request( ld, ber, id,
origreq, &srv, NULL, &rinfo, 0, 1 );
if ( rc < 0 ) {
/* Failure, try next referral in the list */
Debug3( LDAP_DEBUG_ANY, "Unable to chase referral \"%s\" (%d: %s)\n",
refarray[i], ld->ld_errno, ldap_err2string( ld->ld_errno ) );
unfollowedcnt += ldap_append_referral( ld, &unfollowed, refarray[i] );
ldap_free_urllist( srv );
srv = NULL;
ld->ld_errno = LDAP_REFERRAL;
} else {
/* Success, no need to try this referral list further */
rc = 0;
++count;
*hadrefp = 1;
/* check if there is a queue of referrals that came in during bind */
if ( lc == NULL) {
lc = find_connection( ld, srv, 1 );
if ( lc == NULL ) {
ld->ld_errno = LDAP_OPERATIONS_ERROR;
rc = -1;
LDAP_MUTEX_UNLOCK( &ld->ld_conn_mutex );
goto done;
}
}
if ( lc->lconn_rebind_queue != NULL ) {
/* Release resources of previous list */
LDAP_VFREE( refarray );
refarray = NULL;
ldap_free_urllist( srv );
srv = NULL;
/* Pull entries off end of queue so list always null terminated */
for( j = 0; lc->lconn_rebind_queue[j] != NULL; j++ )
;
refarray = lc->lconn_rebind_queue[j - 1];
lc->lconn_rebind_queue[j-1] = NULL;
/* we pulled off last entry from queue, free queue */
if ( j == 1 ) {
LDAP_FREE( lc->lconn_rebind_queue );
lc->lconn_rebind_queue = NULL;
}
/* restart the loop the with new referral list */
i = -1;
continue;
}
break; /* referral followed, break out of for loop */
}
} /* end for loop */
done:
LDAP_VFREE( refarray );
ldap_free_urllist( srv );
LDAP_FREE( *errstrp );
if( rc == 0 ) {
*errstrp = NULL;
LDAP_FREE( unfollowed );
return count;
} else {
*errstrp = unfollowed;
return rc;
}
}
/*
* XXX merging of errors in this routine needs to be improved
* Protected by res_mutex, conn_mutex and req_mutex (try_read1msg)
*/
int
ldap_chase_referrals( LDAP *ld,
LDAPRequest *lr,
char **errstrp,
int sref,
int *hadrefp )
{
int rc, count, id;
unsigned len;
char *p, *ref, *unfollowed;
LDAPRequest *origreq;
LDAPURLDesc *srv;
BerElement *ber;
LDAPreqinfo rinfo;
LDAPConn *lc;
LDAP_ASSERT_MUTEX_OWNER( &ld->ld_res_mutex );
LDAP_ASSERT_MUTEX_OWNER( &ld->ld_conn_mutex );
LDAP_ASSERT_MUTEX_OWNER( &ld->ld_req_mutex );
Debug0( LDAP_DEBUG_TRACE, "ldap_chase_referrals\n" );
ld->ld_errno = LDAP_SUCCESS; /* optimistic */
*hadrefp = 0;
if ( *errstrp == NULL ) {
return( 0 );
}
len = strlen( *errstrp );
for ( p = *errstrp; len >= LDAP_REF_STR_LEN; ++p, --len ) {
if ( strncasecmp( p, LDAP_REF_STR, LDAP_REF_STR_LEN ) == 0 ) {
*p = '\0';
p += LDAP_REF_STR_LEN;
break;
}
}
if ( len < LDAP_REF_STR_LEN ) {
return( 0 );
}
if ( lr->lr_parentcnt >= ld->ld_refhoplimit ) {
Debug1( LDAP_DEBUG_ANY,
"more than %d referral hops (dropping)\n",
ld->ld_refhoplimit );
/* XXX report as error in ld->ld_errno? */
return( 0 );
}
/* find original request */
for ( origreq = lr; origreq->lr_parent != NULL;
origreq = origreq->lr_parent ) {
/* empty */;
}
unfollowed = NULL;
rc = count = 0;
/* parse out & follow referrals */
for ( ref = p; rc == 0 && ref != NULL; ref = p ) {
p = strchr( ref, '\n' );
if ( p != NULL ) {
*p++ = '\0';
}
rc = ldap_url_parse_ext( ref, &srv, LDAP_PVT_URL_PARSE_NOEMPTY_DN );
if ( rc != LDAP_URL_SUCCESS ) {
Debug2( LDAP_DEBUG_TRACE,
"ignoring %s referral <%s>\n",
ref, rc == LDAP_URL_ERR_BADSCHEME ? "unknown" : "incorrect" );
rc = ldap_append_referral( ld, &unfollowed, ref );
*hadrefp = 1;
continue;
}
Debug1( LDAP_DEBUG_TRACE,
"chasing LDAP referral: <%s>\n", ref );
*hadrefp = 1;
/* See if we've already been here */
if (( lc = find_connection( ld, srv, 1 )) != NULL ) {
LDAPRequest *lp;
int looped = 0;
ber_len_t len = srv->lud_dn ? strlen( srv->lud_dn ) : 0;
for ( lp = lr; lp; lp = lp->lr_parent ) {
if ( lp->lr_conn == lc
&& len == lp->lr_dn.bv_len )
{
if ( len && strncmp( srv->lud_dn, lp->lr_dn.bv_val, len ) )
continue;
looped = 1;
break;
}
}
if ( looped ) {
ldap_free_urllist( srv );
ld->ld_errno = LDAP_CLIENT_LOOP;
rc = -1;
continue;
}
}
LDAP_NEXT_MSGID( ld, id );
ber = re_encode_request( ld, origreq->lr_ber,
id, sref, srv, &rinfo.ri_request );
if ( ber == NULL ) {
ldap_free_urllist( srv );
return -1 ;
}
/* copy the complete referral for rebind process */
rinfo.ri_url = LDAP_STRDUP( ref );
rinfo.ri_msgid = origreq->lr_origid;
rc = ldap_send_server_request( ld, ber, id,
lr, &srv, NULL, &rinfo, 0, 1 );
LDAP_FREE( rinfo.ri_url );
if( rc >= 0 ) {
++count;
} else {
Debug3( LDAP_DEBUG_ANY,
"Unable to chase referral \"%s\" (%d: %s)\n",
ref, ld->ld_errno, ldap_err2string( ld->ld_errno ) );
rc = ldap_append_referral( ld, &unfollowed, ref );
}
ldap_free_urllist(srv);
}
LDAP_FREE( *errstrp );
*errstrp = unfollowed;
return(( rc == 0 ) ? count : rc );
}
int
ldap_append_referral( LDAP *ld, char **referralsp, char *s )
{
int first;
if ( *referralsp == NULL ) {
first = 1;
*referralsp = (char *)LDAP_MALLOC( strlen( s ) + LDAP_REF_STR_LEN
+ 1 );
} else {
first = 0;
*referralsp = (char *)LDAP_REALLOC( *referralsp,
strlen( *referralsp ) + strlen( s ) + 2 );
}
if ( *referralsp == NULL ) {
ld->ld_errno = LDAP_NO_MEMORY;
return( -1 );
}
if ( first ) {
strcpy( *referralsp, LDAP_REF_STR );
} else {
strcat( *referralsp, "\n" );
}
strcat( *referralsp, s );
return( 0 );
}
static BerElement *
re_encode_request( LDAP *ld,
BerElement *origber,
ber_int_t msgid,
int sref,
LDAPURLDesc *srv,
int *type )
{
/*
* XXX this routine knows way too much about how the lber library works!
*/
ber_int_t along;
ber_tag_t tag;
ber_tag_t rtag;
ber_int_t ver;
ber_int_t scope;
int rc;
BerElement tmpber, *ber;
struct berval dn;
Debug2( LDAP_DEBUG_TRACE,
"re_encode_request: new msgid %ld, new dn <%s>\n",
(long) msgid,
( srv == NULL || srv->lud_dn == NULL) ? "NONE" : srv->lud_dn );
tmpber = *origber;
/*
* all LDAP requests are sequences that start with a message id.
* For all except delete, this is followed by a sequence that is
* tagged with the operation code. For delete, the provided DN
* is not wrapped by a sequence.
*/
rtag = ber_scanf( &tmpber, "{it", /*}*/ &along, &tag );
if ( rtag == LBER_ERROR ) {
ld->ld_errno = LDAP_DECODING_ERROR;
return( NULL );
}
assert( tag != 0);
if ( tag == LDAP_REQ_BIND ) {
/* bind requests have a version number before the DN & other stuff */
rtag = ber_scanf( &tmpber, "{im" /*}*/, &ver, &dn );
} else if ( tag == LDAP_REQ_DELETE ) {
/* delete requests don't have a DN wrapping sequence */
rtag = ber_scanf( &tmpber, "m", &dn );
} else if ( tag == LDAP_REQ_SEARCH ) {
/* search requests need to be re-scope-ed */
rtag = ber_scanf( &tmpber, "{me" /*"}"*/, &dn, &scope );
if( srv->lud_scope != LDAP_SCOPE_DEFAULT ) {
/* use the scope provided in reference */
scope = srv->lud_scope;
} else if ( sref ) {
/* use scope implied by previous operation
* base -> base
* one -> base
* subtree -> subtree
* subordinate -> subtree
*/
switch( scope ) {
default:
case LDAP_SCOPE_BASE:
case LDAP_SCOPE_ONELEVEL:
scope = LDAP_SCOPE_BASE;
break;
case LDAP_SCOPE_SUBTREE:
case LDAP_SCOPE_SUBORDINATE:
scope = LDAP_SCOPE_SUBTREE;
break;
}
}
} else {
rtag = ber_scanf( &tmpber, "{m" /*}*/, &dn );
}
if( rtag == LBER_ERROR ) {
ld->ld_errno = LDAP_DECODING_ERROR;
return NULL;
}
/* restore character zero'd out by ber_scanf*/
dn.bv_val[dn.bv_len] = tmpber.ber_tag;
if (( ber = ldap_alloc_ber_with_options( ld )) == NULL ) {
return NULL;
}
if ( srv->lud_dn ) {
ber_str2bv( srv->lud_dn, 0, 0, &dn );
}
if ( tag == LDAP_REQ_BIND ) {
rc = ber_printf( ber, "{it{iO" /*}}*/, msgid, tag, ver, &dn );
} else if ( tag == LDAP_REQ_DELETE ) {
rc = ber_printf( ber, "{itON}", msgid, tag, &dn );
} else if ( tag == LDAP_REQ_SEARCH ) {
rc = ber_printf( ber, "{it{Oe" /*}}*/, msgid, tag, &dn, scope );
} else {
rc = ber_printf( ber, "{it{O" /*}}*/, msgid, tag, &dn );
}
if ( rc == -1 ) {
ld->ld_errno = LDAP_ENCODING_ERROR;
ber_free( ber, 1 );
return NULL;
}
if ( tag != LDAP_REQ_DELETE && (
ber_write(ber, tmpber.ber_ptr, ( tmpber.ber_end - tmpber.ber_ptr ), 0)
!= ( tmpber.ber_end - tmpber.ber_ptr ) ||
ber_printf( ber, /*{{*/ "N}N}" ) == -1 ) )
{
ld->ld_errno = LDAP_ENCODING_ERROR;
ber_free( ber, 1 );
return NULL;
}
#ifdef LDAP_DEBUG
if ( ldap_debug & LDAP_DEBUG_PACKETS ) {
Debug0( LDAP_DEBUG_ANY, "re_encode_request new request is:\n" );
ber_log_dump( LDAP_DEBUG_BER, ldap_debug, ber, 0 );
}
#endif /* LDAP_DEBUG */
*type = tag; /* return request type */
return ber;
}
/* protected by req_mutex */
LDAPRequest *
ldap_find_request_by_msgid( LDAP *ld, ber_int_t msgid )
{
LDAPRequest *lr, needle = {0};
needle.lr_msgid = msgid;
lr = ldap_tavl_find( ld->ld_requests, &needle, ldap_req_cmp );
if ( lr != NULL && lr->lr_status != LDAP_REQST_COMPLETED ) {
/* lr_refcnt is only negative when we removed it from ld_requests
* already, it is positive if we have sub-requests (referrals) */
assert( lr->lr_refcnt >= 0 );
lr->lr_refcnt++;
Debug3( LDAP_DEBUG_TRACE, "ldap_find_request_by_msgid: "
"msgid %d, lr %p lr->lr_refcnt = %d\n",
msgid, lr, lr->lr_refcnt );
return lr;
}
Debug2( LDAP_DEBUG_TRACE, "ldap_find_request_by_msgid: "
"msgid %d, lr %p\n", msgid, lr );
return NULL;
}
/* protected by req_mutex */
void
ldap_return_request( LDAP *ld, LDAPRequest *lrx, int freeit )
{
LDAPRequest *lr;
lr = ldap_tavl_find( ld->ld_requests, lrx, ldap_req_cmp );
Debug2( LDAP_DEBUG_TRACE, "ldap_return_request: "
"lrx %p, lr %p\n", lrx, lr );
if ( lr ) {
assert( lr == lrx );
if ( lr->lr_refcnt > 0 ) {
lr->lr_refcnt--;
} else if ( lr->lr_refcnt < 0 ) {
lr->lr_refcnt++;
if ( lr->lr_refcnt == 0 ) {
lr = NULL;
}
}
}
Debug3( LDAP_DEBUG_TRACE, "ldap_return_request: "
"lrx->lr_msgid %d, lrx->lr_refcnt is now %d, lr is %s present\n",
lrx->lr_msgid, lrx->lr_refcnt, lr ? "still" : "not" );
/* The request is not tracked anymore */
if ( lr == NULL ) {
ldap_free_request_int( ld, lrx );
} else if ( freeit ) {
ldap_free_request( ld, lrx );
}
}