/* abandon.c */ /* $OpenLDAP$ */ /* This work is part of OpenLDAP Software . * * Copyright 1998-2021 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) 1990 Regents of the University of Michigan. * All rights reserved. */ #include "portable.h" #include #include #include #include #include #include "ldap-int.h" /* * An abandon request looks like this: * AbandonRequest ::= [APPLICATION 16] MessageID * and has no response. (Source: RFC 4511) */ #include "lutil.h" static int do_abandon( LDAP *ld, ber_int_t origid, LDAPRequest *lr, LDAPControl **sctrls, int sendabandon ); /* * ldap_abandon_ext - perform an ldap extended abandon operation. * * Parameters: * ld LDAP descriptor * msgid The message id of the operation to abandon * scntrls Server Controls * ccntrls Client Controls * * ldap_abandon_ext returns a LDAP error code. * (LDAP_SUCCESS if everything went ok) * * Example: * ldap_abandon_ext( ld, msgid, scntrls, ccntrls ); */ int ldap_abandon_ext( LDAP *ld, int msgid, LDAPControl **sctrls, LDAPControl **cctrls ) { int rc; Debug1( LDAP_DEBUG_TRACE, "ldap_abandon_ext %d\n", msgid ); /* check client controls */ LDAP_MUTEX_LOCK( &ld->ld_req_mutex ); rc = ldap_int_client_controls( ld, cctrls ); if ( rc == LDAP_SUCCESS ) { rc = do_abandon( ld, msgid, NULL, sctrls, 1 ); } LDAP_MUTEX_UNLOCK( &ld->ld_req_mutex ); return rc; } /* * ldap_abandon - perform an ldap abandon operation. Parameters: * * ld LDAP descriptor * msgid The message id of the operation to abandon * * ldap_abandon returns 0 if everything went ok, -1 otherwise. * * Example: * ldap_abandon( ld, msgid ); */ int ldap_abandon( LDAP *ld, int msgid ) { Debug1( LDAP_DEBUG_TRACE, "ldap_abandon %d\n", msgid ); return ldap_abandon_ext( ld, msgid, NULL, NULL ) == LDAP_SUCCESS ? 0 : -1; } int ldap_pvt_discard( LDAP *ld, ber_int_t msgid ) { int rc; LDAP_MUTEX_LOCK( &ld->ld_req_mutex ); rc = do_abandon( ld, msgid, NULL, NULL, 0 ); LDAP_MUTEX_UNLOCK( &ld->ld_req_mutex ); return rc; } static int do_abandon( LDAP *ld, ber_int_t origid, LDAPRequest *lr, LDAPControl **sctrls, int sendabandon ) { BerElement *ber; int i, err; ber_int_t msgid = origid; Sockbuf *sb; LDAPRequest needle = {0}; needle.lr_msgid = origid; if ( lr != NULL ) { msgid = lr->lr_msgid; Debug2( LDAP_DEBUG_TRACE, "do_abandon origid %d, msgid %d\n", origid, msgid ); } else if ( (lr = ldap_tavl_find( ld->ld_requests, &needle, ldap_req_cmp )) != NULL ) { Debug2( LDAP_DEBUG_TRACE, "do_abandon origid %d, msgid %d\n", origid, msgid ); if ( lr->lr_parent != NULL ) { /* don't let caller abandon child requests! */ ld->ld_errno = LDAP_PARAM_ERROR; return( LDAP_PARAM_ERROR ); } msgid = lr->lr_msgid; } if ( lr != NULL ) { LDAPRequest **childp = &lr->lr_child; needle.lr_msgid = lr->lr_msgid; if ( lr->lr_status != LDAP_REQST_INPROGRESS ) { /* no need to send abandon message */ sendabandon = 0; } while ( *childp ) { /* Abandon children */ LDAPRequest *child = *childp; (void)do_abandon( ld, lr->lr_origid, child, sctrls, sendabandon ); if ( *childp == child ) { childp = &child->lr_refnext; } } } /* ldap_msgdelete locks the res_mutex. Give up the req_mutex * while we're in there. */ LDAP_MUTEX_UNLOCK( &ld->ld_req_mutex ); err = ldap_msgdelete( ld, msgid ); LDAP_MUTEX_LOCK( &ld->ld_req_mutex ); if ( err == 0 ) { ld->ld_errno = LDAP_SUCCESS; return LDAP_SUCCESS; } /* fetch again the request that we are abandoning */ if ( lr != NULL ) { lr = ldap_tavl_find( ld->ld_requests, &needle, ldap_req_cmp ); } err = 0; if ( sendabandon ) { if ( ber_sockbuf_ctrl( ld->ld_sb, LBER_SB_OPT_GET_FD, NULL ) == -1 ) { /* not connected */ err = -1; ld->ld_errno = LDAP_SERVER_DOWN; } else if ( ( ber = ldap_alloc_ber_with_options( ld ) ) == NULL ) { /* BER element allocation failed */ err = -1; ld->ld_errno = LDAP_NO_MEMORY; } else { /* * We already have the mutex in LDAP_R_COMPILE, so * don't try to get it again. * LDAP_NEXT_MSGID(ld, i); */ LDAP_NEXT_MSGID(ld, i); #ifdef LDAP_CONNECTIONLESS if ( LDAP_IS_UDP(ld) ) { struct sockaddr_storage sa = {0}; /* dummy, filled with ldo_peer in request.c */ err = ber_write( ber, (char *) &sa, sizeof(sa), 0 ); } if ( LDAP_IS_UDP(ld) && ld->ld_options.ldo_version == LDAP_VERSION2 ) { char *dn; LDAP_MUTEX_LOCK( &ld->ld_options.ldo_mutex ); dn = ld->ld_options.ldo_cldapdn; if (!dn) dn = ""; err = ber_printf( ber, "{isti", /* '}' */ i, dn, LDAP_REQ_ABANDON, msgid ); LDAP_MUTEX_UNLOCK( &ld->ld_options.ldo_mutex ); } else #endif { /* create a message to send */ err = ber_printf( ber, "{iti", /* '}' */ i, LDAP_REQ_ABANDON, msgid ); } if ( err == -1 ) { /* encoding error */ ld->ld_errno = LDAP_ENCODING_ERROR; } else { /* Put Server Controls */ if ( ldap_int_put_controls( ld, sctrls, ber ) != LDAP_SUCCESS ) { err = -1; } else { /* close '{' */ err = ber_printf( ber, /*{*/ "N}" ); if ( err == -1 ) { /* encoding error */ ld->ld_errno = LDAP_ENCODING_ERROR; } } } if ( err == -1 ) { ber_free( ber, 1 ); } else { /* send the message */ if ( lr != NULL ) { assert( lr->lr_conn != NULL ); sb = lr->lr_conn->lconn_sb; } else { sb = ld->ld_sb; } if ( ber_flush2( sb, ber, LBER_FLUSH_FREE_ALWAYS ) != 0 ) { ld->ld_errno = LDAP_SERVER_DOWN; err = -1; } else { err = 0; } } } } if ( lr != NULL ) { LDAPConn *lc; int freeconn = 0; if ( sendabandon || lr->lr_status == LDAP_REQST_WRITING ) { freeconn = 1; lc = lr->lr_conn; } if ( origid == msgid ) { ldap_free_request( ld, lr ); } else { lr->lr_abandoned = 1; } if ( freeconn ) { /* release ld_req_mutex while grabbing ld_conn_mutex to * prevent deadlock. */ LDAP_MUTEX_UNLOCK( &ld->ld_req_mutex ); LDAP_MUTEX_LOCK( &ld->ld_conn_mutex ); ldap_free_connection( ld, lc, 0, 1 ); LDAP_MUTEX_UNLOCK( &ld->ld_conn_mutex ); LDAP_MUTEX_LOCK( &ld->ld_req_mutex ); } } LDAP_MUTEX_LOCK( &ld->ld_abandon_mutex ); /* use bisection */ i = 0; if ( ld->ld_nabandoned == 0 || ldap_int_bisect_find( ld->ld_abandoned, ld->ld_nabandoned, msgid, &i ) == 0 ) { ldap_int_bisect_insert( &ld->ld_abandoned, &ld->ld_nabandoned, msgid, i ); } if ( err != -1 ) { ld->ld_errno = LDAP_SUCCESS; } LDAP_MUTEX_UNLOCK( &ld->ld_abandon_mutex ); return( ld->ld_errno ); } /* * ldap_int_bisect_find * * args: * v: array of length n (in) * n: length of array v (in) * id: value to look for (in) * idxp: pointer to location of value/insert point * * return: * 0: not found * 1: found * -1: error */ int ldap_int_bisect_find( ber_int_t *v, ber_len_t n, ber_int_t id, int *idxp ) { int begin, end, rc = 0; assert( id >= 0 ); begin = 0; end = n - 1; if ( n <= 0 || id < v[ begin ] ) { *idxp = 0; } else if ( id > v[ end ] ) { *idxp = n; } else { int pos; ber_int_t curid; do { pos = (begin + end)/2; curid = v[ pos ]; if ( id < curid ) { end = pos - 1; } else if ( id > curid ) { begin = ++pos; } else { /* already abandoned? */ rc = 1; break; } } while ( end >= begin ); *idxp = pos; } return rc; } /* * ldap_int_bisect_insert * * args: * vp: pointer to array of length *np (in/out) * np: pointer to length of array *vp (in/out) * id: value to insert (in) * idx: location of insert point (as computed by ldap_int_bisect_find()) * * return: * 0: inserted * -1: error */ int ldap_int_bisect_insert( ber_int_t **vp, ber_len_t *np, int id, int idx ) { ber_int_t *v; ber_len_t n; int i; assert( vp != NULL ); assert( np != NULL ); assert( idx >= 0 ); assert( (unsigned) idx <= *np ); n = *np; v = ber_memrealloc( *vp, sizeof( ber_int_t ) * ( n + 1 ) ); if ( v == NULL ) { return -1; } *vp = v; for ( i = n; i > idx; i-- ) { v[ i ] = v[ i - 1 ]; } v[ idx ] = id; ++(*np); return 0; } /* * ldap_int_bisect_delete * * args: * vp: pointer to array of length *np (in/out) * np: pointer to length of array *vp (in/out) * id: value to delete (in) * idx: location of value to delete (as computed by ldap_int_bisect_find()) * * return: * 0: deleted */ int ldap_int_bisect_delete( ber_int_t **vp, ber_len_t *np, int id, int idx ) { ber_int_t *v; ber_len_t i, n; assert( vp != NULL ); assert( np != NULL ); assert( idx >= 0 ); assert( (unsigned) idx < *np ); v = *vp; assert( v[ idx ] == id ); --(*np); n = *np; for ( i = idx; i < n; i++ ) { v[ i ] = v[ i + 1 ]; } return 0; }