/* os-ip.c -- platform-specific TCP & UDP related code */ /* $OpenLDAP: pkg/ldap/libraries/libldap/os-ip.c,v 1.108.2.13 2007/01/02 21:43:49 kurt Exp $ */ /* This work is part of OpenLDAP Software . * * Copyright 1998-2007 The OpenLDAP Foundation. * Portions Copyright 1999 Lars Uffmann. * 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. */ /* Significant additional contributors include: * Lars Uffman */ #include "portable.h" #include #include #include #include #include #include #include #ifdef HAVE_IO_H #include #endif /* HAVE_IO_H */ #include "ldap-int.h" #if defined( HAVE_GETADDRINFO ) && defined( HAVE_INET_NTOP ) # ifdef LDAP_PF_INET6 int ldap_int_inet4or6 = AF_UNSPEC; # else int ldap_int_inet4or6 = AF_INET; # endif #endif #ifdef LDAP_DEBUG #define osip_debug(ld,fmt,arg1,arg2,arg3) \ do { \ ldap_log_printf(NULL, LDAP_DEBUG_TRACE, fmt, arg1, arg2, arg3); \ } while(0) #else #define osip_debug(ld,fmt,arg1,arg2,arg3) ((void)0) #endif /* LDAP_DEBUG */ static void ldap_pvt_set_errno(int err) { sock_errset(err); } int ldap_int_timeval_dup( struct timeval **dest, const struct timeval *src ) { struct timeval *new; assert( dest != NULL ); if (src == NULL) { *dest = NULL; return 0; } new = (struct timeval *) LDAP_MALLOC(sizeof(struct timeval)); if( new == NULL ) { *dest = NULL; return 1; } AC_MEMCPY( (char *) new, (const char *) src, sizeof(struct timeval)); *dest = new; return 0; } static int ldap_pvt_ndelay_on(LDAP *ld, int fd) { osip_debug(ld, "ldap_ndelay_on: %d\n",fd,0,0); return ber_pvt_socket_set_nonblock( fd, 1 ); } static int ldap_pvt_ndelay_off(LDAP *ld, int fd) { osip_debug(ld, "ldap_ndelay_off: %d\n",fd,0,0); return ber_pvt_socket_set_nonblock( fd, 0 ); } static ber_socket_t ldap_int_socket(LDAP *ld, int family, int type ) { ber_socket_t s = socket(family, type, 0); osip_debug(ld, "ldap_new_socket: %d\n",s,0,0); return ( s ); } static int ldap_pvt_close_socket(LDAP *ld, int s) { osip_debug(ld, "ldap_close_socket: %d\n",s,0,0); return tcp_close(s); } static int ldap_int_prepare_socket(LDAP *ld, int s, int proto ) { osip_debug( ld, "ldap_prepare_socket: %d\n", s, 0, 0 ); #if defined( SO_KEEPALIVE ) || defined( TCP_NODELAY ) if ( proto == LDAP_PROTO_TCP ) { int dummy = 1; #ifdef SO_KEEPALIVE if ( setsockopt( s, SOL_SOCKET, SO_KEEPALIVE, (char*) &dummy, sizeof(dummy) ) == AC_SOCKET_ERROR ) { osip_debug( ld, "ldap_prepare_socket: " "setsockopt(%d, SO_KEEPALIVE) failed (ignored).\n", s, 0, 0 ); } #endif /* SO_KEEPALIVE */ #ifdef TCP_NODELAY if ( setsockopt( s, IPPROTO_TCP, TCP_NODELAY, (char*) &dummy, sizeof(dummy) ) == AC_SOCKET_ERROR ) { osip_debug( ld, "ldap_prepare_socket: " "setsockopt(%d, TCP_NODELAY) failed (ignored).\n", s, 0, 0 ); } #endif /* TCP_NODELAY */ } #endif /* SO_KEEPALIVE || TCP_NODELAY */ return 0; } #ifndef HAVE_WINSOCK #undef TRACE #define TRACE do { \ osip_debug(ld, \ "ldap_is_socket_ready: error on socket %d: errno: %d (%s)\n", \ s, \ errno, \ sock_errstr(errno) ); \ } while( 0 ) /* * check the socket for errors after select returned. */ static int ldap_pvt_is_socket_ready(LDAP *ld, int s) { osip_debug(ld, "ldap_is_sock_ready: %d\n",s,0,0); #if defined( notyet ) /* && defined( SO_ERROR ) */ { int so_errno; socklen_t dummy = sizeof(so_errno); if ( getsockopt( s, SOL_SOCKET, SO_ERROR, &so_errno, &dummy ) == AC_SOCKET_ERROR ) { return -1; } if ( so_errno ) { ldap_pvt_set_errno(so_errno); TRACE; return -1; } return 0; } #else { /* error slippery */ #ifdef LDAP_PF_INET6 struct sockaddr_storage sin; #else struct sockaddr_in sin; #endif char ch; socklen_t dummy = sizeof(sin); if ( getpeername( s, (struct sockaddr *) &sin, &dummy ) == AC_SOCKET_ERROR ) { /* XXX: needs to be replace with ber_stream_read() */ read(s, &ch, 1); TRACE; return -1; } return 0; } #endif return -1; } #undef TRACE #endif /* HAVE_WINSOCK */ static int ldap_pvt_connect(LDAP *ld, ber_socket_t s, struct sockaddr *sin, socklen_t addrlen, int async) { int rc, err; struct timeval tv = { 0 }, *opt_tv = NULL; #ifdef LDAP_CONNECTIONLESS /* We could do a connect() but that would interfere with * attempts to poll a broadcast address */ if (LDAP_IS_UDP(ld)) { if (ld->ld_options.ldo_peer) ldap_memfree(ld->ld_options.ldo_peer); ld->ld_options.ldo_peer=ldap_memalloc(sizeof(struct sockaddr)); AC_MEMCPY(ld->ld_options.ldo_peer,sin,sizeof(struct sockaddr)); return ( 0 ); } #endif opt_tv = ld->ld_options.ldo_tm_net; if ( opt_tv != NULL ) { tv = *opt_tv; } osip_debug(ld, "ldap_connect_timeout: fd: %d tm: %ld async: %d\n", s, opt_tv ? tv.tv_sec : -1L, async); if ( opt_tv && ldap_pvt_ndelay_on(ld, s) == -1 ) return ( -1 ); if ( connect(s, sin, addrlen) != AC_SOCKET_ERROR ) { if ( opt_tv && ldap_pvt_ndelay_off(ld, s) == -1 ) return ( -1 ); return ( 0 ); } err = sock_errno(); #ifndef _PLAN_9 if ( err != EINPROGRESS && err != EWOULDBLOCK ) { #else if ( err != EINPROGRESS ) { #endif return ( -1 ); } #ifdef notyet if ( async ) return ( -2 ); #endif #ifdef HAVE_POLL { struct pollfd fd; int timeout = INFTIM; if( opt_tv != NULL ) timeout = TV2MILLISEC( &tv ); fd.fd = s; fd.events = POLL_WRITE; do { fd.revents = 0; rc = poll( &fd, 1, timeout ); } while( rc == AC_SOCKET_ERROR && errno == EINTR && LDAP_BOOL_GET(&ld->ld_options, LDAP_BOOL_RESTART )); if( rc == AC_SOCKET_ERROR ) return rc; if( fd.revents & POLL_WRITE ) { if ( ldap_pvt_is_socket_ready(ld, s) == -1 ) return -1; if ( ldap_pvt_ndelay_off(ld, s) == -1 ) return -1; return ( 0 ); } } #else { fd_set wfds, *z=NULL; #ifdef HAVE_WINSOCK fd_set efds; #endif #if defined( FD_SETSIZE ) && !defined( HAVE_WINSOCK ) if ( s >= FD_SETSIZE ) { rc = AC_SOCKET_ERROR; tcp_close( s ); ldap_pvt_set_errno( EMFILE ); return rc; } #endif do { FD_ZERO(&wfds); FD_SET(s, &wfds ); #ifdef HAVE_WINSOCK FD_ZERO(&efds); FD_SET(s, &efds ); #endif rc = select(ldap_int_tblsize, z, &wfds, #ifdef HAVE_WINSOCK &efds, #else z, #endif opt_tv ? &tv : NULL); } while( rc == AC_SOCKET_ERROR && errno == EINTR && LDAP_BOOL_GET(&ld->ld_options, LDAP_BOOL_RESTART )); if( rc == AC_SOCKET_ERROR ) return rc; #ifdef HAVE_WINSOCK /* This means the connection failed */ if ( FD_ISSET(s, &efds) ) { int so_errno; int dummy = sizeof(so_errno); if ( getsockopt( s, SOL_SOCKET, SO_ERROR, (char *) &so_errno, &dummy ) == AC_SOCKET_ERROR || !so_errno ) { /* impossible */ so_errno = WSAGetLastError(); } ldap_pvt_set_errno(so_errno); osip_debug(ld, "ldap_pvt_connect: error on socket %d: " "errno: %d (%s)\n", s, errno, sock_errstr(errno)); return -1; } #endif if ( FD_ISSET(s, &wfds) ) { #ifndef HAVE_WINSOCK if ( ldap_pvt_is_socket_ready(ld, s) == -1 ) return -1; #endif if ( ldap_pvt_ndelay_off(ld, s) == -1 ) return -1; return 0; } } #endif osip_debug(ld, "ldap_connect_timeout: timed out\n",0,0,0); ldap_pvt_set_errno( ETIMEDOUT ); return -1; } #ifndef HAVE_INET_ATON int ldap_pvt_inet_aton( const char *host, struct in_addr *in) { unsigned long u = inet_addr( host ); #ifdef INADDR_NONE if ( u == INADDR_NONE ) return 0; #endif if ( u == 0xffffffffUL || u == (unsigned long) -1L ) return 0; in->s_addr = u; return 1; } #endif int ldap_connect_to_host(LDAP *ld, Sockbuf *sb, int proto, const char *host, int port, int async ) { int rc; int socktype; ber_socket_t s = AC_SOCKET_INVALID; #if defined( HAVE_GETADDRINFO ) && defined( HAVE_INET_NTOP ) char serv[7]; int err; struct addrinfo hints, *res, *sai; #else int i; int use_hp = 0; struct hostent *hp = NULL; struct hostent he_buf; struct in_addr in; char *ha_buf=NULL; #endif if( host == NULL ) host = "localhost"; switch(proto) { case LDAP_PROTO_TCP: socktype = SOCK_STREAM; osip_debug( ld, "ldap_connect_to_host: TCP %s:%d\n", host, port, 0); break; case LDAP_PROTO_UDP: socktype = SOCK_DGRAM; osip_debug( ld, "ldap_connect_to_host: UDP %s:%d\n", host, port, 0); break; default: osip_debug( ld, "ldap_connect_to_host: unknown proto: %d\n", proto, 0, 0 ); return -1; } #if defined( HAVE_GETADDRINFO ) && defined( HAVE_INET_NTOP ) memset( &hints, '\0', sizeof(hints) ); #ifdef USE_AI_ATTRCONFIG /* FIXME: configure test needed */ /* Use AI_ATTRCONFIG only on systems where its known to be needed. */ hints.ai_flags = AI_ATTRCONFIG; #endif hints.ai_family = ldap_int_inet4or6; hints.ai_socktype = socktype; snprintf(serv, sizeof serv, "%d", port ); #ifdef LDAP_R_COMPILE /* most getaddrinfo(3) use non-threadsafe resolver libraries */ ldap_pvt_thread_mutex_lock(&ldap_int_resolv_mutex); #endif err = getaddrinfo( host, serv, &hints, &res ); #ifdef LDAP_R_COMPILE ldap_pvt_thread_mutex_unlock(&ldap_int_resolv_mutex); #endif if ( err != 0 ) { osip_debug(ld, "ldap_connect_to_host: getaddrinfo failed: %s\n", AC_GAI_STRERROR(err), 0, 0); return -1; } rc = -1; for( sai=res; sai != NULL; sai=sai->ai_next) { if( sai->ai_addr == NULL ) { osip_debug(ld, "ldap_connect_to_host: getaddrinfo " "ai_addr is NULL?\n", 0, 0, 0); continue; } /* we assume AF_x and PF_x are equal for all x */ s = ldap_int_socket( ld, sai->ai_family, socktype ); if ( s == AC_SOCKET_INVALID ) { continue; } if ( ldap_int_prepare_socket(ld, s, proto ) == -1 ) { ldap_pvt_close_socket(ld, s); break; } switch (sai->ai_family) { #ifdef LDAP_PF_INET6 case AF_INET6: { char addr[INET6_ADDRSTRLEN]; inet_ntop( AF_INET6, &((struct sockaddr_in6 *)sai->ai_addr)->sin6_addr, addr, sizeof addr); osip_debug(ld, "ldap_connect_to_host: Trying %s %s\n", addr, serv, 0); } break; #endif case AF_INET: { char addr[INET_ADDRSTRLEN]; inet_ntop( AF_INET, &((struct sockaddr_in *)sai->ai_addr)->sin_addr, addr, sizeof addr); osip_debug(ld, "ldap_connect_to_host: Trying %s:%s\n", addr, serv, 0); } break; } rc = ldap_pvt_connect( ld, s, sai->ai_addr, sai->ai_addrlen, async ); if ( (rc == 0) || (rc == -2) ) { ber_sockbuf_ctrl( sb, LBER_SB_OPT_SET_FD, &s ); break; } ldap_pvt_close_socket(ld, s); } freeaddrinfo(res); #else if (! inet_aton( host, &in ) ) { int local_h_errno; rc = ldap_pvt_gethostbyname_a( host, &he_buf, &ha_buf, &hp, &local_h_errno ); if ( (rc < 0) || (hp == NULL) ) { #ifdef HAVE_WINSOCK ldap_pvt_set_errno( WSAGetLastError() ); #else /* not exactly right, but... */ ldap_pvt_set_errno( EHOSTUNREACH ); #endif if (ha_buf) LDAP_FREE(ha_buf); return -1; } use_hp = 1; } rc = s = -1; for ( i = 0; !use_hp || (hp->h_addr_list[i] != 0); ++i, rc = -1 ) { struct sockaddr_in sin; s = ldap_int_socket( ld, PF_INET, socktype ); if ( s == AC_SOCKET_INVALID ) { /* use_hp ? continue : break; */ break; } if ( ldap_int_prepare_socket( ld, s, proto ) == -1 ) { ldap_pvt_close_socket(ld, s); break; } (void)memset((char *)&sin, '\0', sizeof sin); sin.sin_family = AF_INET; sin.sin_port = htons((short) port); if( use_hp ) { AC_MEMCPY( &sin.sin_addr, hp->h_addr_list[i], sizeof(sin.sin_addr) ); } else { AC_MEMCPY( &sin.sin_addr, &in.s_addr, sizeof(sin.sin_addr) ); } #ifdef HAVE_INET_NTOA_B { /* for VxWorks */ char address[INET_ADDR_LEN]; inet_ntoa_b(sin.sin_address, address); osip_debug(ld, "ldap_connect_to_host: Trying %s:%d\n", address, port, 0); } #else osip_debug(ld, "ldap_connect_to_host: Trying %s:%d\n", inet_ntoa(sin.sin_addr), port, 0); #endif rc = ldap_pvt_connect(ld, s, (struct sockaddr *)&sin, sizeof(sin), async); if ( (rc == 0) || (rc == -2) ) { ber_sockbuf_ctrl( sb, LBER_SB_OPT_SET_FD, &s ); break; } ldap_pvt_close_socket(ld, s); if (!use_hp) break; } if (ha_buf) LDAP_FREE(ha_buf); #endif return rc; } #if defined( LDAP_API_FEATURE_X_OPENLDAP_V2_KBIND ) || \ defined( HAVE_CYRUS_SASL ) char * ldap_host_connected_to( Sockbuf *sb, const char *host ) { socklen_t len; #ifdef LDAP_PF_INET6 struct sockaddr_storage sabuf; #else struct sockaddr sabuf; #endif struct sockaddr *sa = (struct sockaddr *) &sabuf; ber_socket_t sd; (void)memset( (char *)sa, '\0', sizeof sabuf ); len = sizeof sabuf; ber_sockbuf_ctrl( sb, LBER_SB_OPT_GET_FD, &sd ); if ( getpeername( sd, sa, &len ) == -1 ) { return( NULL ); } /* * do a reverse lookup on the addr to get the official hostname. * this is necessary for kerberos to work right, since the official * hostname is used as the kerberos instance. */ switch (sa->sa_family) { #ifdef LDAP_PF_LOCAL case AF_LOCAL: return LDAP_STRDUP( ldap_int_hostname ); #endif #ifdef LDAP_PF_INET6 case AF_INET6: { struct in6_addr localhost = IN6ADDR_LOOPBACK_INIT; if( memcmp ( &((struct sockaddr_in6 *)sa)->sin6_addr, &localhost, sizeof(localhost)) == 0 ) { return LDAP_STRDUP( ldap_int_hostname ); } } break; #endif case AF_INET: { struct in_addr localhost; localhost.s_addr = htonl( INADDR_ANY ); if( memcmp ( &((struct sockaddr_in *)sa)->sin_addr, &localhost, sizeof(localhost) ) == 0 ) { return LDAP_STRDUP( ldap_int_hostname ); } #ifdef INADDR_LOOPBACK localhost.s_addr = htonl( INADDR_LOOPBACK ); if( memcmp ( &((struct sockaddr_in *)sa)->sin_addr, &localhost, sizeof(localhost) ) == 0 ) { return LDAP_STRDUP( ldap_int_hostname ); } #endif } break; default: return( NULL ); break; } { char *herr; #ifdef NI_MAXHOST char hbuf[NI_MAXHOST]; #elif defined( MAXHOSTNAMELEN char hbuf[MAXHOSTNAMELEN]; #else char hbuf[256]; #endif hbuf[0] = 0; if (ldap_pvt_get_hname( sa, len, hbuf, sizeof(hbuf), &herr ) == 0 && hbuf[0] ) { return LDAP_STRDUP( hbuf ); } } return host ? LDAP_STRDUP( host ) : NULL; } #endif struct selectinfo { #ifdef HAVE_POLL /* for UNIX poll(2) */ int si_maxfd; struct pollfd si_fds[FD_SETSIZE]; #else /* for UNIX select(2) */ fd_set si_readfds; fd_set si_writefds; fd_set si_use_readfds; fd_set si_use_writefds; #endif }; void ldap_mark_select_write( LDAP *ld, Sockbuf *sb ) { struct selectinfo *sip; ber_socket_t sd; sip = (struct selectinfo *)ld->ld_selectinfo; ber_sockbuf_ctrl( sb, LBER_SB_OPT_GET_FD, &sd ); #ifdef HAVE_POLL /* for UNIX poll(2) */ { int empty=-1; int i; for(i=0; i < sip->si_maxfd; i++) { if( sip->si_fds[i].fd == sd ) { sip->si_fds[i].events |= POLL_WRITE; return; } if( empty==-1 && sip->si_fds[i].fd == -1 ) { empty=i; } } if( empty == -1 ) { if( sip->si_maxfd >= FD_SETSIZE ) { /* FIXME */ return; } empty = sip->si_maxfd++; } sip->si_fds[empty].fd = sd; sip->si_fds[empty].events = POLL_WRITE; } #else /* for UNIX select(2) */ if ( !FD_ISSET( sd, &sip->si_writefds )) { FD_SET( sd, &sip->si_writefds ); } #endif } void ldap_mark_select_read( LDAP *ld, Sockbuf *sb ) { struct selectinfo *sip; ber_socket_t sd; sip = (struct selectinfo *)ld->ld_selectinfo; ber_sockbuf_ctrl( sb, LBER_SB_OPT_GET_FD, &sd ); #ifdef HAVE_POLL /* for UNIX poll(2) */ { int empty=-1; int i; for(i=0; i < sip->si_maxfd; i++) { if( sip->si_fds[i].fd == sd ) { sip->si_fds[i].events |= POLL_READ; return; } if( empty==-1 && sip->si_fds[i].fd == -1 ) { empty=i; } } if( empty == -1 ) { if( sip->si_maxfd >= FD_SETSIZE ) { /* FIXME */ return; } empty = sip->si_maxfd++; } sip->si_fds[empty].fd = sd; sip->si_fds[empty].events = POLL_READ; } #else /* for UNIX select(2) */ if ( !FD_ISSET( sd, &sip->si_readfds )) { FD_SET( sd, &sip->si_readfds ); } #endif } void ldap_mark_select_clear( LDAP *ld, Sockbuf *sb ) { struct selectinfo *sip; ber_socket_t sd; sip = (struct selectinfo *)ld->ld_selectinfo; ber_sockbuf_ctrl( sb, LBER_SB_OPT_GET_FD, &sd ); #ifdef HAVE_POLL /* for UNIX poll(2) */ { int i; for(i=0; i < sip->si_maxfd; i++) { if( sip->si_fds[i].fd == sd ) { sip->si_fds[i].fd = -1; } } } #else /* for UNIX select(2) */ FD_CLR( sd, &sip->si_writefds ); FD_CLR( sd, &sip->si_readfds ); #endif } int ldap_is_write_ready( LDAP *ld, Sockbuf *sb ) { struct selectinfo *sip; ber_socket_t sd; sip = (struct selectinfo *)ld->ld_selectinfo; ber_sockbuf_ctrl( sb, LBER_SB_OPT_GET_FD, &sd ); #ifdef HAVE_POLL /* for UNIX poll(2) */ { int i; for(i=0; i < sip->si_maxfd; i++) { if( sip->si_fds[i].fd == sd ) { return sip->si_fds[i].revents & POLL_WRITE; } } return 0; } #else /* for UNIX select(2) */ return( FD_ISSET( sd, &sip->si_use_writefds )); #endif } int ldap_is_read_ready( LDAP *ld, Sockbuf *sb ) { struct selectinfo *sip; ber_socket_t sd; sip = (struct selectinfo *)ld->ld_selectinfo; ber_sockbuf_ctrl( sb, LBER_SB_OPT_GET_FD, &sd ); #ifdef HAVE_POLL /* for UNIX poll(2) */ { int i; for(i=0; i < sip->si_maxfd; i++) { if( sip->si_fds[i].fd == sd ) { return sip->si_fds[i].revents & POLL_READ; } } return 0; } #else /* for UNIX select(2) */ return( FD_ISSET( sd, &sip->si_use_readfds )); #endif } void * ldap_new_select_info( void ) { struct selectinfo *sip; sip = (struct selectinfo *)LDAP_CALLOC( 1, sizeof( struct selectinfo )); if ( sip == NULL ) return NULL; #ifdef HAVE_POLL /* for UNIX poll(2) */ /* sip->si_maxfd=0 */ #else /* for UNIX select(2) */ FD_ZERO( &sip->si_readfds ); FD_ZERO( &sip->si_writefds ); #endif return( (void *)sip ); } void ldap_free_select_info( void *sip ) { LDAP_FREE( sip ); } #ifndef HAVE_POLL int ldap_int_tblsize = 0; void ldap_int_ip_init( void ) { #if defined( HAVE_SYSCONF ) long tblsize = sysconf( _SC_OPEN_MAX ); if( tblsize > INT_MAX ) tblsize = INT_MAX; #elif defined( HAVE_GETDTABLESIZE ) int tblsize = getdtablesize(); #else int tblsize = FD_SETSIZE; #endif /* !USE_SYSCONF */ #ifdef FD_SETSIZE if( tblsize > FD_SETSIZE ) tblsize = FD_SETSIZE; #endif /* FD_SETSIZE */ ldap_int_tblsize = tblsize; } #endif int ldap_int_select( LDAP *ld, struct timeval *timeout ) { int rc; struct selectinfo *sip; Debug( LDAP_DEBUG_TRACE, "ldap_int_select\n", 0, 0, 0 ); #ifndef HAVE_POLL if ( ldap_int_tblsize == 0 ) ldap_int_ip_init(); #endif sip = (struct selectinfo *)ld->ld_selectinfo; assert( sip != NULL ); #ifdef HAVE_POLL { int to = timeout ? TV2MILLISEC( timeout ) : INFTIM; rc = poll( sip->si_fds, sip->si_maxfd, to ); } #else sip->si_use_readfds = sip->si_readfds; sip->si_use_writefds = sip->si_writefds; rc = select( ldap_int_tblsize, &sip->si_use_readfds, &sip->si_use_writefds, NULL, timeout ); #endif return rc; }