/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- * * The contents of this file are subject to the Netscape Public License * Version 1.0 (the "NPL"); you may not use this file except in * compliance with the NPL. You may obtain a copy of the NPL at * http://www.mozilla.org/NPL/ * * Software distributed under the NPL is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL * for the specific language governing rights and limitations under the * NPL. * * The Initial Developer of this code under the NPL is Netscape * Communications Corporation. Portions created by Netscape are * Copyright (C) 1998 Netscape Communications Corporation. All Rights * Reserved. */ /* * Copyright (c) 1995 Regents of the University of Michigan. * All rights reserved. */ /* * macos-ip.c -- Macintosh platform-specific TCP & UDP related code */ #ifndef lint static char copyright[] = "@(#) Copyright (c) 1995 Regents of the University of Michigan.\nAll rights reserved.\n"; #endif #include #include #include #include #include "ldap-int.h" int nsldapi_connect_to_host( LDAP *ld, Sockbuf *sb, char *host, unsigned long address, int port, int async, int secure ) /* * if host == NULL, connect using address * "address" and "port" must be in network byte order * zero is returned upon success, -1 if fatal error, -2 EINPROGRESS * if -1 is returned, ld_errno is set * async is only used ifndef NO_REFERRALS (non-0 means don't wait for connect) * XXX async is not used yet! */ { void *tcps; short i; int err; #ifdef SUPPORT_OPENTRANSPORT InetHostInfo hi; #else /* SUPPORT_OPENTRANSPORT */ struct hostInfo hi; #endif /* SUPPORT_OPENTRANSPORT */ LDAPDebug( LDAP_DEBUG_TRACE, "connect_to_host: %s:%d\n", ( host == NULL ) ? "(by address)" : host, ntohs( port ), 0 ); /* Initialize OpenTransport, or find out from the host app whether it is installed */ (void)tcp_init(); if ( host != NULL && gethostinfobyname( host, &hi ) != noErr ) { LDAP_SET_LDERRNO( ld, LDAP_CONNECT_ERROR, NULL, NULL ); return( -1 ); } if ( ld->ld_socket_fn == NULL ) { tcps = tcpopen( NULL, TCP_BUFSIZ ); } else { tcps = ld->ld_socket_fn( AF_INET, SOCK_STREAM, 0 ); } if ( tcps == NULL ) { LDAP_SET_LDERRNO( ld, LDAP_LOCAL_ERROR, NULL, NULL ); return( -1 ); } if ( secure && ld->ld_ssl_enable_fn( tcps ) < 0 ) { if ( ld->ld_close_fn == NULL ) { tcpclose( (tcpstream *)tcps ); } else { ld->ld_close_fn( tcps ); } LDAP_SET_LDERRNO( ld, LDAP_LOCAL_ERROR, NULL, NULL ); return( -1 ); } #ifdef SUPPORT_OPENTRANSPORT for ( i = 0; host == NULL || hi.addrs[ i ] != 0; ++i ) { if ( host != NULL ) { SAFEMEMCPY( (char *)&address, (char *)&hi.addrs[ i ], sizeof( long )); } #else /* SUPPORT_OPENTRANSPORT */ for ( i = 0; host == NULL || hi.addr[ i ] != 0; ++i ) { if ( host != NULL ) { SAFEMEMCPY( (char *)&address, (char *)&hi.addr[ i ], sizeof( long )); } #endif /* SUPPORT_OPENTRANSPORT */ if ( ld->ld_connect_fn == NULL ) { if ( tcpconnect( tcps, address, port ) == 0 ) { err = -1; } else { err = 0; } } else { struct sockaddr_in sin; (void)memset( (char *)&sin, 0, sizeof( struct sockaddr_in )); sin.sin_family = AF_INET; sin.sin_port = port; sin.sin_addr.s_addr = address; err = ld->ld_connect_fn( tcps, (struct sockaddr *)&sin, sizeof( struct sockaddr_in )); } if ( err == 0 ) { sb->sb_sd = (void *)tcps; return( 0 ); } if ( host == NULL ) { /* using single address -- not hi.addrs array */ break; } } LDAPDebug( LDAP_DEBUG_TRACE, "tcpconnect failed\n", 0, 0, 0 ); LDAP_SET_LDERRNO( ld, LDAP_CONNECT_ERROR, NULL, NULL ); LDAP_SET_ERRNO( ld, EHOSTUNREACH ); /* close enough */ if ( ld->ld_close_fn == NULL ) { tcpclose( (tcpstream *)tcps ); } else { ld->ld_close_fn( tcps ); } return( -1 ); } void nsldapi_close_connection( LDAP *ld, Sockbuf *sb ) { if ( ld->ld_close_fn == NULL ) { tcpclose( (tcpstream *)sb->sb_sd ); } else { ld->ld_close_fn( sb->sb_sd ); } } #ifdef KERBEROS char * host_connected_to( Sockbuf *sb ) { ip_addr addr; #ifdef SUPPORT_OPENTRANSPORT InetHostInfo hi; #else /* SUPPORT_OPENTRANSPORT */ struct hostInfo hi; #endif /* SUPPORT_OPENTRANSPORT */ if ( tcpgetpeername( (tcpstream *)sb->sb_sd, &addr, NULL ) != noErr ) { return( NULL ); } #ifdef SUPPORT_OPENTRANSPORT if ( gethostinfobyaddr( addr, &hi ) == noErr ) { return( strdup( hi.name )); } #else /* SUPPORT_OPENTRANSPORT */ if ( gethostinfobyaddr( addr, &hi ) == noErr ) { return( strdup( hi.cname )); } #endif /* SUPPORT_OPENTRANSPORT */ return( NULL ); } #endif /* KERBEROS */ struct tcpstreaminfo { struct tcpstream *tcpsi_stream; Boolean tcpsi_check_read; Boolean tcpsi_is_read_ready; /* Boolean tcpsi_check_write; /* no write select support needed yet */ /* Boolean tcpsi_is_write_ready; /* ditto */ }; /* for BSD-compatible I/O functions */ struct stdselectinfo { fd_set ssi_readfds; fd_set ssi_writefds; fd_set ssi_use_readfds; fd_set ssi_use_writefds; }; struct selectinfo { short si_count; struct tcpstreaminfo *si_streaminfo; struct stdselectinfo si_stdinfo; }; void nsldapi_mark_select_read( LDAP *ld, Sockbuf *sb ) { struct selectinfo *sip; struct tcpstreaminfo *tcpsip; short i; LDAPDebug( LDAP_DEBUG_TRACE, "mark_select_read: stream %x\n", (tcpstream *)sb->sb_sd, 0, 0 ); if (( sip = (struct selectinfo *)ld->ld_selectinfo ) == NULL ) { return; } if ( ld->ld_select_fn != NULL ) { if ( !FD_ISSET( (int)sb->sb_sd, &sip->si_stdinfo.ssi_readfds )) { FD_SET( (int)sb->sb_sd, &sip->si_stdinfo.ssi_readfds ); } return; } for ( i = 0; i < sip->si_count; ++i ) { /* make sure stream is not already in the list... */ if ( sip->si_streaminfo[ i ].tcpsi_stream == (tcpstream *)sb->sb_sd ) { sip->si_streaminfo[ i ].tcpsi_check_read = true; sip->si_streaminfo[ i ].tcpsi_is_read_ready = false; return; } } /* add a new stream element to our array... */ if ( sip->si_count <= 0 ) { tcpsip = (struct tcpstreaminfo *)malloc( sizeof( struct tcpstreaminfo )); } else { tcpsip = (struct tcpstreaminfo *)realloc( sip->si_streaminfo, ( sip->si_count + 1 ) * sizeof( struct tcpstreaminfo )); } if ( tcpsip != NULL ) { tcpsip[ sip->si_count ].tcpsi_stream = (tcpstream *)sb->sb_sd; tcpsip[ sip->si_count ].tcpsi_check_read = true; tcpsip[ sip->si_count ].tcpsi_is_read_ready = false; sip->si_streaminfo = tcpsip; ++sip->si_count; } } void nsldapi_mark_select_clear( LDAP *ld, Sockbuf *sb ) { struct selectinfo *sip; short i; LDAPDebug( LDAP_DEBUG_TRACE, "mark_select_clear: stream %x\n", (tcpstream *)sb->sb_sd, 0, 0 ); if (( sip = (struct selectinfo *)ld->ld_selectinfo ) == NULL ) { return; } if ( ld->ld_select_fn != NULL ) { FD_CLR( (int)sb->sb_sd, &sip->si_stdinfo.ssi_writefds ); FD_CLR( (int)sb->sb_sd, &sip->si_stdinfo.ssi_readfds ); } else if ( sip->si_count > 0 && sip->si_streaminfo != NULL ) { for ( i = 0; i < sip->si_count; ++i ) { if ( sip->si_streaminfo[ i ].tcpsi_stream == (tcpstream *)sb->sb_sd ) { break; } } if ( i < sip->si_count ) { --sip->si_count; for ( ; i < sip->si_count; ++i ) { sip->si_streaminfo[ i ] = sip->si_streaminfo[ i + 1 ]; } /* we don't bother to use realloc to make the si_streaminfo array smaller */ } } } int nsldapi_is_read_ready( LDAP *ld, Sockbuf *sb ) { struct selectinfo *sip; short i; if (( sip = (struct selectinfo *)ld->ld_selectinfo ) == NULL ) { return( 0 ); /* punt */ } if ( ld->ld_select_fn != NULL ) { return( FD_ISSET( (int)sb->sb_sd, &sip->si_stdinfo.ssi_use_readfds )); } if ( sip->si_count > 0 && sip->si_streaminfo != NULL ) { for ( i = 0; i < sip->si_count; ++i ) { if ( sip->si_streaminfo[ i ].tcpsi_stream == (tcpstream *)sb->sb_sd ) { #ifdef LDAP_DEBUG if ( sip->si_streaminfo[ i ].tcpsi_is_read_ready ) { LDAPDebug( LDAP_DEBUG_TRACE, "is_read_ready: stream %x READY\n", (tcpstream *)sb->sb_sd, 0, 0 ); } else { LDAPDebug( LDAP_DEBUG_TRACE, "is_read_ready: stream %x Not Ready\n", (tcpstream *)sb->sb_sd, 0, 0 ); } #endif /* LDAP_DEBUG */ return( sip->si_streaminfo[ i ].tcpsi_is_read_ready ? 1 : 0 ); } } } LDAPDebug( LDAP_DEBUG_TRACE, "is_read_ready: stream %x: NOT FOUND\n", (tcpstream *)sb->sb_sd, 0, 0 ); return( 0 ); } void * nsldapi_new_select_info() { struct selectinfo *sip; if (( sip = (struct selectinfo *)calloc( 1, sizeof( struct selectinfo ))) != NULL ) { FD_ZERO( &sip->si_stdinfo.ssi_readfds ); FD_ZERO( &sip->si_stdinfo.ssi_writefds ); } return( (void *)sip ); } void nsldapi_free_select_info( void *sip ) { if ( sip != NULL ) { free( sip ); } } int nsldapi_do_ldap_select( LDAP *ld, struct timeval *timeout ) { struct selectinfo *sip; Boolean ready, gotselecterr; unsigned long ticks, endticks; short i, err; static int tblsize = 0; LDAPDebug( LDAP_DEBUG_TRACE, "do_ldap_select\n", 0, 0, 0 ); if (( sip = (struct selectinfo *)ld->ld_selectinfo ) == NULL ) { return( -1 ); } if ( ld->ld_select_fn != NULL ) { if ( tblsize == 0 ) { tblsize = FD_SETSIZE - 1; } sip->si_stdinfo.ssi_use_readfds = sip->si_stdinfo.ssi_readfds; sip->si_stdinfo.ssi_use_writefds = sip->si_stdinfo.ssi_writefds; return( ld->ld_select_fn( tblsize, &sip->si_stdinfo.ssi_use_readfds, &sip->si_stdinfo.ssi_use_writefds, NULL, timeout )); } if ( sip->si_count == 0 ) { return( 1 ); } if ( timeout != NULL ) { endticks = 60 * timeout->tv_sec + ( 60 * timeout->tv_usec ) / 1000000 + TickCount(); } for ( i = 0; i < sip->si_count; ++i ) { if ( sip->si_streaminfo[ i ].tcpsi_check_read ) { sip->si_streaminfo[ i ].tcpsi_is_read_ready = false; } } ready = gotselecterr = false; do { for ( i = 0; i < sip->si_count; ++i ) { if ( sip->si_streaminfo[ i ].tcpsi_check_read && !sip->si_streaminfo[ i ].tcpsi_is_read_ready ) { if (( err = tcpreadready( sip->si_streaminfo[ i ].tcpsi_stream )) > 0 ) { sip->si_streaminfo[ i ].tcpsi_is_read_ready = ready = true; } else if ( err < 0 ) { gotselecterr = true; } } } if ( !ready && !gotselecterr ) { Delay( 2L, &ticks ); SystemTask(); } } while ( !ready && !gotselecterr && ( timeout == NULL || ticks < endticks )); LDAPDebug( LDAP_DEBUG_TRACE, "do_ldap_select returns %d\n", ready ? 1 : ( gotselecterr ? -1 : 0 ), 0, 0 ); return( ready ? 1 : ( gotselecterr ? -1 : 0 )); }