/* $OpenLDAP$ */ /* * Copyright 1998-1999 The OpenLDAP Foundation, All Rights Reserved. * COPYING RESTRICTIONS APPLY, see COPYRIGHT file */ #include "portable.h" #include #include #include #include #include #include #include "slap.h" /* we need LBER internals */ #include "../../libraries/liblber/lber-int.h" /* protected by connections_mutex */ static ldap_pvt_thread_mutex_t connections_mutex; static Connection *connections = NULL; static unsigned long conn_nextid = 0; /* structure state (protected by connections_mutex) */ #define SLAP_C_UNINITIALIZED 0x00 /* MUST BE ZERO (0) */ #define SLAP_C_UNUSED 0x01 #define SLAP_C_USED 0x02 /* connection state (protected by c_mutex ) */ #define SLAP_C_INVALID 0x00 /* MUST BE ZERO (0) */ #define SLAP_C_INACTIVE 0x01 /* zero threads */ #define SLAP_C_ACTIVE 0x02 /* one or more threads */ #define SLAP_C_BINDING 0x03 /* binding */ #define SLAP_C_CLOSING 0x04 /* closing */ const char * connection_state2str( int state ) { switch( state ) { case SLAP_C_INVALID: return "!"; case SLAP_C_INACTIVE: return "|"; case SLAP_C_ACTIVE: return ""; case SLAP_C_BINDING: return "B"; case SLAP_C_CLOSING: return "C"; } return "?"; } static Connection* connection_get( ber_socket_t s ); static int connection_input( Connection *c ); static void connection_close( Connection *c ); static int connection_op_activate( Connection *conn, Operation *op ); static int connection_resched( Connection *conn ); static void connection_abandon( Connection *conn ); static void connection_destroy( Connection *c ); struct co_arg { Connection *co_conn; Operation *co_op; }; /* * Initialize connection management infrastructure. */ int connections_init(void) { assert( connections == NULL ); if( connections != NULL) { Debug( LDAP_DEBUG_ANY, "connections_init: already initialized.\n", 0, 0, 0 ); return -1; } /* should check return of every call */ ldap_pvt_thread_mutex_init( &connections_mutex ); connections = (Connection *) calloc( dtblsize, sizeof(Connection) ); if( connections == NULL ) { Debug( LDAP_DEBUG_ANY, "connections_init: allocation (%d*%ld) of connection array failed\n", dtblsize, (long) sizeof(Connection), 0 ); return -1; } assert( connections[0].c_struct_state == SLAP_C_UNINITIALIZED ); assert( connections[dtblsize-1].c_struct_state == SLAP_C_UNINITIALIZED ); /* * per entry initialization of the Connection array initialization * will be done by connection_init() */ return 0; } /* * Destroy connection management infrastructure. */ int connections_destroy(void) { ber_socket_t i; /* should check return of every call */ if( connections == NULL) { Debug( LDAP_DEBUG_ANY, "connections_destroy: nothing to destroy.\n", 0, 0, 0 ); return -1; } for ( i = 0; i < dtblsize; i++ ) { if( connections[i].c_struct_state != SLAP_C_UNINITIALIZED ) { ber_sockbuf_free( connections[i].c_sb ); ldap_pvt_thread_mutex_destroy( &connections[i].c_mutex ); ldap_pvt_thread_mutex_destroy( &connections[i].c_write_mutex ); ldap_pvt_thread_cond_destroy( &connections[i].c_write_cv ); } } free( connections ); connections = NULL; ldap_pvt_thread_mutex_destroy( &connections_mutex ); return 0; } /* * shutdown all connections */ int connections_shutdown(void) { ber_socket_t i; ldap_pvt_thread_mutex_lock( &connections_mutex ); for ( i = 0; i < dtblsize; i++ ) { if( connections[i].c_struct_state != SLAP_C_USED ) { continue; } ldap_pvt_thread_mutex_lock( &connections[i].c_mutex ); /* connections_mutex and c_mutex are locked */ connection_closing( &connections[i] ); connection_close( &connections[i] ); ldap_pvt_thread_mutex_unlock( &connections[i].c_mutex ); } ldap_pvt_thread_mutex_unlock( &connections_mutex ); return 0; } /* * Timeout idle connections. */ int connections_timeout_idle(time_t now) { int i = 0; int connindex; Connection* c; ldap_pvt_thread_mutex_lock( &connections_mutex ); for( c = connection_first( &connindex ); c != NULL; c = connection_next( c, &connindex ) ) { if( difftime( c->c_activitytime+global_idletimeout, now) < 0 ) { /* close it */ connection_closing( c ); connection_close( c ); i++; } } connection_done( c ); ldap_pvt_thread_mutex_unlock( &connections_mutex ); return i; } static Connection* connection_get( ber_socket_t s ) { /* connections_mutex should be locked by caller */ Connection *c; Debug( LDAP_DEBUG_ARGS, "connection_get(%ld)\n", (long) s, 0, 0 ); assert( connections != NULL ); if(s == AC_SOCKET_INVALID) { return NULL; } #ifndef HAVE_WINSOCK c = &connections[s]; assert( c->c_struct_state != SLAP_C_UNINITIALIZED ); #else c = NULL; { ber_socket_t i; for(i=0; i unused by resched, * so don't assert details here. */ if( ber_pvt_sb_get_desc( connections[i].c_sb ) == s ) { c = &connections[i]; break; } } } #endif if( c != NULL ) { ldap_pvt_thread_mutex_lock( &c->c_mutex ); if( c->c_struct_state != SLAP_C_USED ) { /* connection must have been closed due to resched */ assert( c->c_conn_state == SLAP_C_INVALID ); assert( !ber_pvt_sb_in_use( c->c_sb ) ); Debug( LDAP_DEBUG_TRACE, "connection_get(%d): connection not used\n", s, 0, 0 ); ldap_pvt_thread_mutex_unlock( &c->c_mutex ); return NULL; } Debug( LDAP_DEBUG_TRACE, "connection_get(%d): got connid=%ld\n", s, c->c_connid, 0 ); c->c_n_get++; assert( c->c_struct_state == SLAP_C_USED ); assert( c->c_conn_state != SLAP_C_INVALID ); assert( ber_pvt_sb_in_use( c->c_sb ) ); c->c_activitytime = slap_get_time(); } return c; } static void connection_return( Connection *c ) { ldap_pvt_thread_mutex_unlock( &c->c_mutex ); } long connection_init( ber_socket_t s, const char* url, const char* dnsname, const char* peername, const char* sockname, int use_tls ) { unsigned long id; Connection *c; assert( connections != NULL ); assert( dnsname != NULL ); assert( peername != NULL ); assert( sockname != NULL ); #ifndef HAVE_TLS assert( !use_tls ); #endif if( s == AC_SOCKET_INVALID ) { Debug( LDAP_DEBUG_ANY, "connection_init(%ld): invalid.\n", (long) s, 0, 0 ); return -1; } assert( s >= 0 ); #ifndef HAVE_WINSOCK assert( s < dtblsize ); #endif ldap_pvt_thread_mutex_lock( &connections_mutex ); #ifndef HAVE_WINSOCK c = &connections[s]; #else { unsigned int i; c = NULL; for( i=0; i < dtblsize; i++) { if( connections[i].c_struct_state == SLAP_C_UNINITIALIZED ) { assert( connections[i].c_sb == 0 ); c = &connections[i]; break; } if( connections[i].c_struct_state == SLAP_C_UNUSED ) { assert( !ber_pvt_sb_in_use( connections[i].c_sb )); c = &connections[i]; break; } assert( connections[i].c_struct_state == SLAP_C_USED ); assert( connections[i].c_conn_state != SLAP_C_INVALID ); assert( ber_pvt_sb_in_use( connections[i].c_sb )); } if( c == NULL ) { Debug( LDAP_DEBUG_ANY, "connection_init(%d): connection table full (%d/%d)\n", s, i, dtblsize); ldap_pvt_thread_mutex_unlock( &connections_mutex ); return -1; } } #endif assert( c != NULL ); if( c->c_struct_state == SLAP_C_UNINITIALIZED ) { c->c_authmech = NULL; c->c_dn = NULL; c->c_cdn = NULL; c->c_listener_url = NULL; c->c_peer_domain = NULL; c->c_peer_name = NULL; c->c_sock_name = NULL; c->c_ops = NULL; c->c_pending_ops = NULL; c->c_sasl_bind_mech = NULL; #ifdef HAVE_CYRUS_SASL c->c_sasl_bind_context = NULL; #endif c->c_sb = ber_sockbuf_alloc( ); c->c_currentber = NULL; /* should check status of thread calls */ ldap_pvt_thread_mutex_init( &c->c_mutex ); ldap_pvt_thread_mutex_init( &c->c_write_mutex ); ldap_pvt_thread_cond_init( &c->c_write_cv ); c->c_struct_state = SLAP_C_UNUSED; } ldap_pvt_thread_mutex_lock( &c->c_mutex ); assert( c->c_struct_state == SLAP_C_UNUSED ); assert( c->c_authmech == NULL ); assert( c->c_dn == NULL ); assert( c->c_cdn == NULL ); assert( c->c_listener_url == NULL ); assert( c->c_peer_domain == NULL ); assert( c->c_peer_name == NULL ); assert( c->c_sock_name == NULL ); assert( c->c_ops == NULL ); assert( c->c_pending_ops == NULL ); assert( c->c_sasl_bind_mech == NULL ); #ifdef HAVE_CYRUS_SASL assert( c->c_sasl_bind_context == NULL ); #endif assert( c->c_currentber == NULL ); c->c_listener_url = ch_strdup( url ); c->c_peer_domain = ch_strdup( dnsname ); c->c_peer_name = ch_strdup( peername ); c->c_sock_name = ch_strdup( sockname ); c->c_n_ops_received = 0; c->c_n_ops_executing = 0; c->c_n_ops_pending = 0; c->c_n_ops_completed = 0; c->c_n_get = 0; c->c_n_read = 0; c->c_n_write = 0; /* assume LDAPv3 until bind */ c->c_protocol = LDAP_VERSION3; c->c_activitytime = c->c_starttime = slap_get_time(); ber_pvt_sb_set_desc( c->c_sb, s ); ber_pvt_sb_set_io( c->c_sb, &ber_pvt_sb_io_tcp, NULL ); if( ber_pvt_sb_set_nonblock( c->c_sb, 1 ) < 0 ) { Debug( LDAP_DEBUG_ANY, "connection_init(%d, %s): set nonblocking failed\n", s, c->c_peer_name,0 ); } id = c->c_connid = conn_nextid++; c->c_conn_state = SLAP_C_INACTIVE; c->c_struct_state = SLAP_C_USED; #ifdef HAVE_TLS if ( use_tls ) { c->c_is_tls = 1; c->c_needs_tls_accept = 1; } else { c->c_is_tls = 0; c->c_needs_tls_accept = 0; } #endif ldap_pvt_thread_mutex_unlock( &c->c_mutex ); ldap_pvt_thread_mutex_unlock( &connections_mutex ); backend_connection_init(c); return id; } static void connection_destroy( Connection *c ) { /* note: connections_mutex should be locked by caller */ assert( connections != NULL ); assert( c != NULL ); assert( c->c_struct_state != SLAP_C_UNUSED ); assert( c->c_conn_state != SLAP_C_INVALID ); assert( c->c_ops == NULL ); backend_connection_destroy(c); c->c_protocol = 0; c->c_connid = -1; c->c_activitytime = c->c_starttime = 0; if(c->c_authmech != NULL ) { free(c->c_authmech); c->c_authmech = NULL; } if(c->c_dn != NULL) { free(c->c_dn); c->c_dn = NULL; } if(c->c_cdn != NULL) { free(c->c_cdn); c->c_cdn = NULL; } if(c->c_listener_url != NULL) { free(c->c_listener_url); c->c_listener_url = NULL; } if(c->c_peer_domain != NULL) { free(c->c_peer_domain); c->c_peer_domain = NULL; } if(c->c_peer_name != NULL) { #ifdef LDAP_PF_LOCAL /* * If peer was a domain socket, unlink. Mind you, * they may be un-named. Should we leave this to * the client? */ if (strncmp(c->c_peer_name, "PATH=", 5) == 0) { char *path = c->c_peer_name + 5; if (path != '\0') { (void)unlink(path); } } #endif /* LDAP_PF_LOCAL */ free(c->c_peer_name); c->c_peer_name = NULL; } if(c->c_sock_name != NULL) { free(c->c_sock_name); c->c_sock_name = NULL; } c->c_sasl_bind_in_progress = 0; if(c->c_sasl_bind_mech != NULL) { free(c->c_sasl_bind_mech); c->c_sasl_bind_mech = NULL; } #ifdef HAVE_CYRUS_SASL if(c->c_sasl_bind_context != NULL ) { sasl_dispose( &c->c_sasl_bind_context ); c->c_sasl_bind_context = NULL; } #endif if ( c->c_currentber != NULL ) { ber_free( c->c_currentber, 1 ); c->c_currentber = NULL; } if ( ber_pvt_sb_in_use(c->c_sb) ) { int sd = ber_pvt_sb_get_desc(c->c_sb); slapd_remove( sd, 0 ); ber_pvt_sb_close( c->c_sb ); Statslog( LDAP_DEBUG_STATS, "conn=%ld fd=%d closed\n", c->c_connid, sd, 0, 0, 0 ); } ber_pvt_sb_destroy( c->c_sb ); c->c_conn_state = SLAP_C_INVALID; c->c_struct_state = SLAP_C_UNUSED; } int connection_state_closing( Connection *c ) { /* c_mutex must be locked by caller */ int state; assert( c != NULL ); assert( c->c_struct_state == SLAP_C_USED ); state = c->c_conn_state; assert( state != SLAP_C_INVALID ); return state == SLAP_C_CLOSING; } static void connection_abandon( Connection *c ) { /* c_mutex must be locked by caller */ Operation *o; for( o = c->c_ops; o != NULL; o = o->o_next ) { ldap_pvt_thread_mutex_lock( &o->o_abandonmutex ); o->o_abandon = 1; ldap_pvt_thread_mutex_unlock( &o->o_abandonmutex ); } /* remove pending operations */ for( o = slap_op_pop( &c->c_pending_ops ); o != NULL; o = slap_op_pop( &c->c_pending_ops ) ) { slap_op_free( o ); } } void connection_closing( Connection *c ) { assert( connections != NULL ); assert( c != NULL ); assert( c->c_struct_state == SLAP_C_USED ); assert( c->c_conn_state != SLAP_C_INVALID ); /* c_mutex must be locked by caller */ if( c->c_conn_state != SLAP_C_CLOSING ) { Debug( LDAP_DEBUG_TRACE, "connection_closing: readying conn=%ld sd=%d for close\n", c->c_connid, ber_pvt_sb_get_desc( c->c_sb ), 0 ); /* update state to closing */ c->c_conn_state = SLAP_C_CLOSING; /* don't listen on this port anymore */ slapd_clr_read( ber_pvt_sb_get_desc( c->c_sb ), 1 ); /* shutdown I/O -- not yet implemented */ /* abandon active operations */ connection_abandon( c ); /* wake write blocked operations */ slapd_clr_write( ber_pvt_sb_get_desc(c->c_sb), 1 ); ldap_pvt_thread_cond_signal( &c->c_write_cv ); } } static void connection_close( Connection *c ) { assert( connections != NULL ); assert( c != NULL ); assert( c->c_struct_state == SLAP_C_USED ); assert( c->c_conn_state == SLAP_C_CLOSING ); /* note: connections_mutex and c_mutex should be locked by caller */ if( c->c_ops != NULL ) { Debug( LDAP_DEBUG_TRACE, "connection_close: deferring conn=%ld sd=%d\n", c->c_connid, ber_pvt_sb_get_desc( c->c_sb ), 0 ); return; } Debug( LDAP_DEBUG_TRACE, "connection_close: conn=%ld sd=%d\n", c->c_connid, ber_pvt_sb_get_desc( c->c_sb ), 0 ); connection_destroy( c ); } unsigned long connections_nextid(void) { unsigned long id; assert( connections != NULL ); ldap_pvt_thread_mutex_lock( &connections_mutex ); id = conn_nextid; ldap_pvt_thread_mutex_unlock( &connections_mutex ); return id; } Connection* connection_first( ber_socket_t *index ) { assert( connections != NULL ); assert( index != NULL ); ldap_pvt_thread_mutex_lock( &connections_mutex ); *index = 0; return connection_next(NULL, index); } Connection* connection_next( Connection *c, ber_socket_t *index ) { assert( connections != NULL ); assert( index != NULL ); assert( *index <= dtblsize ); if( c != NULL ) { ldap_pvt_thread_mutex_unlock( &c->c_mutex ); } c = NULL; for(; *index < dtblsize; (*index)++) { if( connections[*index].c_struct_state == SLAP_C_UNINITIALIZED ) { assert( connections[*index].c_conn_state == SLAP_C_INVALID ); #ifndef HAVE_WINSOCK continue; #else break; #endif } if( connections[*index].c_struct_state == SLAP_C_USED ) { assert( connections[*index].c_conn_state != SLAP_C_INVALID ); c = &connections[(*index)++]; break; } assert( connections[*index].c_struct_state == SLAP_C_UNUSED ); assert( connections[*index].c_conn_state == SLAP_C_INVALID ); } if( c != NULL ) { ldap_pvt_thread_mutex_lock( &c->c_mutex ); } return c; } void connection_done( Connection *c ) { assert( connections != NULL ); if( c != NULL ) { ldap_pvt_thread_mutex_unlock( &c->c_mutex ); } ldap_pvt_thread_mutex_unlock( &connections_mutex ); } /* * connection_activity - handle the request operation op on connection * conn. This routine figures out what kind of operation it is and * calls the appropriate stub to handle it. */ static void * connection_operation( void *arg_v ) { int rc; struct co_arg *arg = arg_v; ber_tag_t tag = arg->co_op->o_tag; Connection *conn = arg->co_conn; ldap_pvt_thread_mutex_lock( &num_ops_mutex ); num_ops_initiated++; ldap_pvt_thread_mutex_unlock( &num_ops_mutex ); if( conn->c_sasl_bind_in_progress && tag != LDAP_REQ_BIND ) { Debug( LDAP_DEBUG_ANY, "connection_operation: " "error: SASL bind in progress (tag=%ld).\n", (long) tag, 0, 0 ); send_ldap_result( conn, arg->co_op, rc = LDAP_OPERATIONS_ERROR, NULL, "SASL bind in progress", NULL, NULL ); goto operations_error; } switch ( tag ) { case LDAP_REQ_BIND: rc = do_bind( conn, arg->co_op ); break; case LDAP_REQ_UNBIND: rc = do_unbind( conn, arg->co_op ); break; case LDAP_REQ_ADD: rc = do_add( conn, arg->co_op ); break; case LDAP_REQ_DELETE: rc = do_delete( conn, arg->co_op ); break; case LDAP_REQ_MODRDN: rc = do_modrdn( conn, arg->co_op ); break; case LDAP_REQ_MODIFY: rc = do_modify( conn, arg->co_op ); break; case LDAP_REQ_COMPARE: rc = do_compare( conn, arg->co_op ); break; case LDAP_REQ_SEARCH: rc = do_search( conn, arg->co_op ); break; case LDAP_REQ_ABANDON: rc = do_abandon( conn, arg->co_op ); break; case LDAP_REQ_EXTENDED: rc = do_extended( conn, arg->co_op ); break; default: Debug( LDAP_DEBUG_ANY, "unknown LDAP request 0x%lx\n", tag, 0, 0 ); arg->co_op->o_tag = LBER_ERROR; send_ldap_disconnect( conn, arg->co_op, LDAP_PROTOCOL_ERROR, "unknown LDAP request" ); rc = -1; break; } if( rc == SLAPD_DISCONNECT ) tag = LBER_ERROR; operations_error: ldap_pvt_thread_mutex_lock( &num_ops_mutex ); num_ops_completed++; ldap_pvt_thread_mutex_unlock( &num_ops_mutex ); ldap_pvt_thread_mutex_lock( &conn->c_mutex ); conn->c_n_ops_executing--; conn->c_n_ops_completed++; slap_op_remove( &conn->c_ops, arg->co_op ); slap_op_free( arg->co_op ); arg->co_op = NULL; arg->co_conn = NULL; free( (char *) arg ); arg = NULL; switch( tag ) { case LBER_ERROR: case LDAP_REQ_UNBIND: /* c_mutex is locked */ connection_closing( conn ); break; case LDAP_REQ_BIND: conn->c_sasl_bind_in_progress = rc == LDAP_SASL_BIND_IN_PROGRESS ? 1 : 0; if( conn->c_conn_state == SLAP_C_BINDING) { conn->c_conn_state = SLAP_C_ACTIVE; } } ldap_pvt_thread_mutex_lock( &active_threads_mutex ); active_threads--; if( active_threads < 1 ) { ldap_pvt_thread_cond_signal(&active_threads_cond); } ldap_pvt_thread_mutex_unlock( &active_threads_mutex ); connection_resched( conn ); ldap_pvt_thread_mutex_unlock( &conn->c_mutex ); return NULL; } int connection_read(ber_socket_t s) { int rc = 0; Connection *c; assert( connections != NULL ); ldap_pvt_thread_mutex_lock( &connections_mutex ); /* get (locked) connection */ c = connection_get( s ); if( c == NULL ) { Debug( LDAP_DEBUG_ANY, "connection_read(%ld): no connection!\n", (long) s, 0, 0 ); slapd_remove(s, 0); ldap_pvt_thread_mutex_unlock( &connections_mutex ); return -1; } c->c_n_read++; if( c->c_conn_state == SLAP_C_CLOSING ) { Debug( LDAP_DEBUG_TRACE, "connection_read(%d): closing, ignoring input for id=%ld\n", s, c->c_connid, 0 ); connection_return( c ); ldap_pvt_thread_mutex_unlock( &connections_mutex ); return 0; } Debug( LDAP_DEBUG_TRACE, "connection_read(%d): checking for input on id=%ld\n", s, c->c_connid, 0 ); #ifdef HAVE_TLS if ( c->c_is_tls && c->c_needs_tls_accept ) { rc = ldap_pvt_tls_accept( c->c_sb, NULL ); if ( rc < 0 ) { struct timeval tv; fd_set rfd; Debug( LDAP_DEBUG_TRACE, "connection_read(%d): TLS accept error error=%d id=%ld, closing\n", s, rc, c->c_connid ); c->c_needs_tls_accept = 0; /* connections_mutex and c_mutex are locked */ connection_closing( c ); /* Drain input before close, to allow SSL error codes * to propagate to client. */ FD_ZERO(&rfd); FD_SET(s, &rfd); ber_pvt_sb_set_readahead(c->c_sb, 0); for (rc=1; rc>0;) { char buf[4096]; tv.tv_sec = 1; tv.tv_usec = 0; rc = select(s+1, &rfd, NULL, NULL, &tv); if (rc == 1) rc = ber_pvt_sb_read(c->c_sb, buf, sizeof(buf)); } connection_close( c ); } else if ( rc == 0 ) { c->c_needs_tls_accept = 0; } connection_return( c ); ldap_pvt_thread_mutex_unlock( &connections_mutex ); return 0; } #endif #define CONNECTION_INPUT_LOOP 1 #ifdef DATA_READY_LOOP while(!rc && ber_pvt_sb_data_ready(&c->c_sb)) #elif CONNECTION_INPUT_LOOP while(!rc) #endif { /* How do we do this without getting into a busy loop ? */ rc = connection_input( c ); } if( rc < 0 ) { Debug( LDAP_DEBUG_TRACE, "connection_read(%d): input error=%d id=%ld, closing.\n", s, rc, c->c_connid ); /* connections_mutex and c_mutex are locked */ connection_closing( c ); connection_close( c ); } if ( ber_pvt_sb_needs_read( c->c_sb ) ) slapd_set_read( s, 1 ); if ( ber_pvt_sb_needs_write( c->c_sb ) ) slapd_set_write( s, 1 ); connection_return( c ); ldap_pvt_thread_mutex_unlock( &connections_mutex ); return 0; } static int connection_input( Connection *conn ) { Operation *op; ber_tag_t tag; ber_len_t len; ber_int_t msgid; BerElement *ber; if ( conn->c_currentber == NULL && (conn->c_currentber = ber_alloc()) == NULL ) { Debug( LDAP_DEBUG_ANY, "ber_alloc failed\n", 0, 0, 0 ); return -1; } errno = 0; if ( (tag = ber_get_next( conn->c_sb, &len, conn->c_currentber )) != LDAP_TAG_MESSAGE ) { int err = errno; Debug( LDAP_DEBUG_TRACE, "ber_get_next on fd %d failed errno=%d (%s)\n", ber_pvt_sb_get_desc( conn->c_sb ), err, sock_errstr(err) ); Debug( LDAP_DEBUG_TRACE, "\t*** got %ld of %lu so far\n", (long) ( conn->c_currentber->ber_buf ? conn->c_currentber->ber_rwptr - conn->c_currentber->ber_buf : 0 ), (long) conn->c_currentber->ber_len, 0 ); if ( err != EWOULDBLOCK && err != EAGAIN ) { /* log, close and send error */ ber_free( conn->c_currentber, 1 ); conn->c_currentber = NULL; return -2; } return 1; } ber = conn->c_currentber; conn->c_currentber = NULL; if ( (tag = ber_get_int( ber, &msgid )) != LDAP_TAG_MSGID ) { /* log, close and send error */ Debug( LDAP_DEBUG_ANY, "ber_get_int returns 0x%lx\n", tag, 0, 0 ); ber_free( ber, 1 ); return -1; } if ( (tag = ber_peek_tag( ber, &len )) == LBER_ERROR ) { /* log, close and send error */ Debug( LDAP_DEBUG_ANY, "ber_peek_tag returns 0x%lx\n", tag, 0, 0 ); ber_free( ber, 1 ); return -1; } if(tag == LDAP_REQ_BIND) { /* immediately abandon all exiting operations upon BIND */ connection_abandon( conn ); } op = slap_op_alloc( ber, msgid, tag, conn->c_n_ops_received++ ); if ( conn->c_conn_state == SLAP_C_BINDING || conn->c_conn_state == SLAP_C_CLOSING ) { Debug( LDAP_DEBUG_ANY, "deferring operation\n", 0, 0, 0 ); conn->c_n_ops_pending++; slap_op_add( &conn->c_pending_ops, op ); } else { conn->c_n_ops_executing++; connection_op_activate( conn, op ); } #ifdef NO_THREADS if ( conn->c_struct_state != SLAP_C_USED ) { /* connection must have got closed underneath us */ return 1; } #endif assert( conn->c_struct_state == SLAP_C_USED ); return 0; } static int connection_resched( Connection *conn ) { Operation *op; if( conn->c_conn_state == SLAP_C_CLOSING ) { Debug( LDAP_DEBUG_TRACE, "connection_resched: attempting closing conn=%ld sd=%d\n", conn->c_connid, ber_pvt_sb_get_desc( conn->c_sb ), 0 ); connection_close( conn ); return 0; } if( conn->c_conn_state != SLAP_C_ACTIVE ) { /* other states need different handling */ return 0; } for( op = slap_op_pop( &conn->c_pending_ops ); op != NULL; op = slap_op_pop( &conn->c_pending_ops ) ) { /* pending operations should not be marked for abandonment */ assert(!op->o_abandon); conn->c_n_ops_pending--; conn->c_n_ops_executing++; connection_op_activate( conn, op ); if ( conn->c_conn_state == SLAP_C_BINDING ) { break; } } return 0; } static int connection_op_activate( Connection *conn, Operation *op ) { struct co_arg *arg; char *tmpdn; int status; ber_tag_t tag = op->o_tag; if(tag == LDAP_REQ_BIND) { conn->c_conn_state = SLAP_C_BINDING; } if ( conn->c_dn != NULL ) { tmpdn = ch_strdup( conn->c_dn ); } else { tmpdn = NULL; } arg = (struct co_arg *) ch_malloc( sizeof(struct co_arg) ); arg->co_conn = conn; arg->co_op = op; arg->co_op->o_dn = ch_strdup( tmpdn != NULL ? tmpdn : "" ); arg->co_op->o_ndn = ch_strdup( arg->co_op->o_dn ); (void) dn_normalize( arg->co_op->o_ndn ); arg->co_op->o_protocol = conn->c_protocol; arg->co_op->o_connid = conn->c_connid; arg->co_op->o_authtype = conn->c_authtype; arg->co_op->o_authmech = conn->c_authmech != NULL ? ch_strdup( conn->c_authmech ) : NULL; slap_op_add( &conn->c_ops, arg->co_op ); if( tmpdn != NULL ) { free( tmpdn ); } ldap_pvt_thread_mutex_lock( &active_threads_mutex ); active_threads++; ldap_pvt_thread_mutex_unlock( &active_threads_mutex ); status = ldap_pvt_thread_create( &arg->co_op->o_tid, 1, connection_operation, (void *) arg ); if ( status != 0 ) { Debug( LDAP_DEBUG_ANY, "ldap_pvt_thread_create failed (%d)\n", status, 0, 0 ); /* should move op to pending list */ } return status; } int connection_write(ber_socket_t s) { Connection *c; assert( connections != NULL ); ldap_pvt_thread_mutex_lock( &connections_mutex ); c = connection_get( s ); slapd_clr_write( s, 0); if( c == NULL ) { Debug( LDAP_DEBUG_ANY, "connection_write(%ld): no connection!\n", (long) s, 0, 0 ); slapd_remove(s, 0); ldap_pvt_thread_mutex_unlock( &connections_mutex ); return -1; } c->c_n_write++; Debug( LDAP_DEBUG_TRACE, "connection_write(%d): waking output for id=%ld\n", s, c->c_connid, 0 ); ldap_pvt_thread_cond_signal( &c->c_write_cv ); if ( ber_pvt_sb_needs_read( c->c_sb ) ) slapd_set_read( s, 1 ); if ( ber_pvt_sb_needs_write( c->c_sb ) ) slapd_set_write( s, 1 ); connection_return( c ); ldap_pvt_thread_mutex_unlock( &connections_mutex ); return 0; }