/* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * The contents of this file are subject to the Netscape Public * License Version 1.1 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.mozilla.org/NPL/ * * Software distributed under the License is distributed on an "AS * IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or * implied. See the License for the specific language governing * rights and limitations under the License. * * The Original Code is Mozilla Communicator client code, released * March 31, 1998. * * The Initial Developer of the Original Code is Netscape * Communications Corporation. Portions created by Netscape are * Copyright (C) 1998-1999 Netscape Communications Corporation. All * Rights Reserved. * * Contributor(s): */ /* * Extended I/O callback functions for libldap that use * NSPR (Netscape Portable Runtime) I/O. * * High level strategy: we use the socket-specific arg to hold our own data * structure that includes the NSPR file handle (PRFileDesc *), among other * useful information. We use the default argument to hold an LDAP session * handle specific data structure. */ #include "ldappr-int.h" #include #define PRLDAP_POLL_ARRAY_GROWTH 5 /* grow arrays 5 elements at a time */ /* * Local function prototypes: */ static PRIntervalTime prldap_timeout2it( int ms_timeout, int ms_maxtimeout ); static int LDAP_CALLBACK prldap_read( int s, void *buf, int bufsize, struct lextiof_socket_private *socketarg ); static int LDAP_CALLBACK prldap_write( int s, const void *buf, int len, struct lextiof_socket_private *socketarg ); static int LDAP_CALLBACK prldap_poll( LDAP_X_PollFD fds[], int nfds, int timeout, struct lextiof_session_private *sessionarg ); static int LDAP_CALLBACK prldap_connect( const char *hostlist, int defport, int timeout, unsigned long options, struct lextiof_session_private *sessionarg, struct lextiof_socket_private **socketargp #ifdef _SOLARIS_SDK , void **dhost ); #else ); #endif /* _SOLARIS_SDK */ static int LDAP_CALLBACK prldap_close( int s, struct lextiof_socket_private *socketarg ); static int LDAP_CALLBACK prldap_newhandle( LDAP *ld, struct lextiof_session_private *sessionarg ); static void LDAP_CALLBACK prldap_disposehandle( LDAP *ld, struct lextiof_session_private *sessionarg ); static int LDAP_CALLBACK prldap_shared_newhandle( LDAP *ld, struct lextiof_session_private *sessionarg ); static void LDAP_CALLBACK prldap_shared_disposehandle( LDAP *ld, struct lextiof_session_private *sessionarg ); static PRLDAPIOSessionArg *prldap_session_arg_alloc( void ); static void prldap_session_arg_free( PRLDAPIOSessionArg **prsesspp ); static PRLDAPIOSocketArg *prldap_socket_arg_alloc( PRLDAPIOSessionArg *sessionarg ); static void prldap_socket_arg_free( PRLDAPIOSocketArg **prsockpp ); static void *prldap_safe_realloc( void *ptr, PRUint32 size ); /* * Local macros: */ /* given a socket-specific arg, return the corresponding PRFileDesc * */ #define PRLDAP_GET_PRFD( socketarg ) \ (((PRLDAPIOSocketArg *)(socketarg))->prsock_prfd) /* * Static variables. */ static int prldap_default_io_max_timeout = LDAP_X_IO_TIMEOUT_NO_TIMEOUT; /* * Install NSPR I/O functions into ld (if ld is NULL, they are installed * as the default functions for new LDAP * handles). * * Returns 0 if all goes well and -1 if not. */ int prldap_install_io_functions( LDAP *ld, int shared ) { struct ldap_x_ext_io_fns iofns; memset( &iofns, 0, sizeof(iofns)); iofns.lextiof_size = LDAP_X_EXTIO_FNS_SIZE; iofns.lextiof_read = prldap_read; iofns.lextiof_write = prldap_write; iofns.lextiof_poll = prldap_poll; iofns.lextiof_connect = prldap_connect; iofns.lextiof_close = prldap_close; if ( shared ) { iofns.lextiof_newhandle = prldap_shared_newhandle; iofns.lextiof_disposehandle = prldap_shared_disposehandle; } else { iofns.lextiof_newhandle = prldap_newhandle; iofns.lextiof_disposehandle = prldap_disposehandle; } if ( NULL != ld ) { /* * If we are dealing with a real ld, we allocate the session specific * data structure now. If not allocated here, it will be allocated * inside prldap_newhandle() or prldap_shared_newhandle(). */ if ( NULL == ( iofns.lextiof_session_arg = prldap_session_arg_alloc())) { ldap_set_lderrno( ld, LDAP_NO_MEMORY, NULL, NULL ); return( -1 ); } } else { iofns.lextiof_session_arg = NULL; } if ( ldap_set_option( ld, LDAP_X_OPT_EXTIO_FN_PTRS, &iofns ) != 0 ) { prldap_session_arg_free( (PRLDAPIOSessionArg **) &iofns.lextiof_session_arg ); return( -1 ); } return( 0 ); } static PRIntervalTime prldap_timeout2it( int ms_timeout, int ms_maxtimeout ) { PRIntervalTime prit; if ( LDAP_X_IO_TIMEOUT_NO_WAIT == ms_timeout ) { prit = PR_INTERVAL_NO_WAIT; } else if ( LDAP_X_IO_TIMEOUT_NO_TIMEOUT == ms_timeout ) { prit = PR_INTERVAL_NO_TIMEOUT; } else { prit = PR_MillisecondsToInterval( ms_timeout ); } /* cap at maximum I/O timeout */ if ( LDAP_X_IO_TIMEOUT_NO_WAIT == ms_maxtimeout ) { prit = LDAP_X_IO_TIMEOUT_NO_WAIT; } else if ( LDAP_X_IO_TIMEOUT_NO_TIMEOUT != ms_maxtimeout ) { if ( LDAP_X_IO_TIMEOUT_NO_TIMEOUT == ms_timeout || ms_timeout > ms_maxtimeout ) { prit = PR_MillisecondsToInterval( ms_maxtimeout ); } } #ifdef PRLDAP_DEBUG if ( PR_INTERVAL_NO_WAIT == prit ) { fprintf( stderr, "prldap_timeout2it: NO_WAIT\n" ); } else if ( PR_INTERVAL_NO_TIMEOUT == prit ) { fprintf( stderr, "prldap_timeout2it: NO_TIMEOUT\n" ); } else { fprintf( stderr, "prldap_timeout2it: %dms\n", PR_IntervalToMilliseconds(prit)); } #endif /* PRLDAP_DEBUG */ return( prit ); } static int LDAP_CALLBACK prldap_read( int s, void *buf, int bufsize, struct lextiof_socket_private *socketarg ) { PRIntervalTime prit; prit = prldap_timeout2it( LDAP_X_IO_TIMEOUT_NO_TIMEOUT, socketarg->prsock_io_max_timeout ); return( PR_Recv( PRLDAP_GET_PRFD(socketarg), buf, bufsize, 0, prit )); } static int LDAP_CALLBACK prldap_write( int s, const void *buf, int len, struct lextiof_socket_private *socketarg ) { PRIntervalTime prit; prit = prldap_timeout2it( LDAP_X_IO_TIMEOUT_NO_TIMEOUT, socketarg->prsock_io_max_timeout ); /* * Note the 4th parameter (flags) to PR_Send() has been obsoleted and * must always be 0 */ return( PR_Send( PRLDAP_GET_PRFD(socketarg), buf, len, 0, prit )); } struct prldap_eventmap_entry { PRInt16 evm_nspr; /* corresponding NSPR PR_Poll() event */ int evm_ldap; /* LDAP poll event */ }; static struct prldap_eventmap_entry prldap_eventmap[] = { { PR_POLL_READ, LDAP_X_POLLIN }, { PR_POLL_EXCEPT, LDAP_X_POLLPRI }, { PR_POLL_WRITE, LDAP_X_POLLOUT }, { PR_POLL_ERR, LDAP_X_POLLERR }, { PR_POLL_HUP, LDAP_X_POLLHUP }, { PR_POLL_NVAL, LDAP_X_POLLNVAL }, }; #define PRLDAP_EVENTMAP_ENTRIES \ sizeof(prldap_eventmap)/sizeof(struct prldap_eventmap_entry ) static int LDAP_CALLBACK prldap_poll( LDAP_X_PollFD fds[], int nfds, int timeout, struct lextiof_session_private *sessionarg ) { PRLDAPIOSessionArg *prsessp = sessionarg; PRPollDesc *pds; int i, j, rc; if ( NULL == prsessp ) { prldap_set_system_errno( EINVAL ); return( -1 ); } /* allocate or resize NSPR poll descriptor array */ if ( prsessp->prsess_pollds_count < nfds ) { pds = prldap_safe_realloc( prsessp->prsess_pollds, ( nfds + PRLDAP_POLL_ARRAY_GROWTH ) * sizeof( PRPollDesc )); if ( NULL == pds ) { prldap_set_system_errno( prldap_prerr2errno()); return( -1 ); } prsessp->prsess_pollds = pds; prsessp->prsess_pollds_count = nfds + PRLDAP_POLL_ARRAY_GROWTH; } else { pds = prsessp->prsess_pollds; } /* populate NSPR poll info. based on LDAP info. */ for ( i = 0; i < nfds; ++i ) { if ( NULL == fds[i].lpoll_socketarg ) { pds[i].fd = NULL; } else { pds[i].fd = PRLDAP_GET_PRFD( fds[i].lpoll_socketarg ); } pds[i].in_flags = pds[i].out_flags = 0; if ( fds[i].lpoll_fd >= 0 ) { for ( j = 0; j < PRLDAP_EVENTMAP_ENTRIES; ++j ) { if (( fds[i].lpoll_events & prldap_eventmap[j].evm_ldap ) != 0 ) { pds[i].in_flags |= prldap_eventmap[j].evm_nspr; } } } fds[i].lpoll_revents = 0; /* clear revents */ } /* call PR_Poll() to do the real work */ rc = PR_Poll( pds, nfds, prldap_timeout2it( timeout, prsessp->prsess_io_max_timeout )); /* populate LDAP info. based on NSPR results */ for ( i = 0; i < nfds; ++i ) { if ( pds[i].fd != NULL ) { for ( j = 0; j < PRLDAP_EVENTMAP_ENTRIES; ++j ) { if (( pds[i].out_flags & prldap_eventmap[j].evm_nspr ) != 0 ) { fds[i].lpoll_revents |= prldap_eventmap[j].evm_ldap; } } } } return( rc ); } /* * Utility function to try one TCP connect() * Returns 1 if successful and -1 if not. Sets the NSPR fd inside prsockp. */ static int prldap_try_one_address( struct lextiof_socket_private *prsockp, PRNetAddr *addrp, int port, int timeout, unsigned long options ) { /* * Set up address and open a TCP socket: */ if ( PR_SUCCESS != PR_SetNetAddr( PR_IpAddrNull, /* don't touch IP addr. */ PRLDAP_DEFAULT_ADDRESS_FAMILY, (PRUint16)port, addrp )) { return( -1 ); } if (( prsockp->prsock_prfd = PR_OpenTCPSocket( PRLDAP_DEFAULT_ADDRESS_FAMILY )) == NULL ) { return( -1 ); } /* * Set nonblocking option if requested: */ if ( 0 != ( options & LDAP_X_EXTIOF_OPT_NONBLOCKING )) { PRSocketOptionData optdata; optdata.option = PR_SockOpt_Nonblocking; optdata.value.non_blocking = PR_TRUE; if ( PR_SetSocketOption( prsockp->prsock_prfd, &optdata ) != PR_SUCCESS ) { prldap_set_system_errno( prldap_prerr2errno()); PR_Close( prsockp->prsock_prfd ); return( -1 ); } } #ifdef PRLDAP_DEBUG { char buf[ 256 ], *p, *fmtstr; if ( PR_SUCCESS != PR_NetAddrToString( addrp, buf, sizeof(buf ))) { strcpy( buf, "conversion failed!" ); } if ( strncmp( buf, "::ffff:", 7 ) == 0 ) { /* IPv4 address mapped into IPv6 address space */ p = buf + 7; fmtstr = "prldap_try_one_address(): Trying %s:%d...\n"; } else { p = buf; fmtstr = "prldap_try_one_address(): Trying [%s]:%d...\n"; } fprintf( stderr, fmtstr, p, PR_ntohs( addrp->ipv6.port )); } #endif /* PRLDAP_DEBUG */ /* * Try to open the TCP connection itself: */ if ( PR_SUCCESS != PR_Connect( prsockp->prsock_prfd, addrp, prldap_timeout2it( timeout, prsockp->prsock_io_max_timeout ))) { PR_Close( prsockp->prsock_prfd ); prsockp->prsock_prfd = NULL; return( -1 ); } #ifdef PRLDAP_DEBUG fputs( "prldap_try_one_address(): Connected.\n", stderr ); #endif /* PRLDAP_DEBUG */ /* * Success. Return a valid file descriptor (1 is always valid) */ return( 1 ); } /* * XXXmcs: At present, this code ignores the timeout when doing DNS lookups. */ static int LDAP_CALLBACK prldap_connect( const char *hostlist, int defport, int timeout, unsigned long options, struct lextiof_session_private *sessionarg, struct lextiof_socket_private **socketargp #ifdef _SOLARIS_SDK , void **dhost ) #else ) #endif /* _SOLARIS_SDK */ { int rc, parse_err, port; char *host, hbuf[ PR_NETDB_BUF_SIZE ]; struct ldap_x_hostlist_status *status; struct lextiof_socket_private *prsockp; PRNetAddr addr; PRHostEnt hent; #ifdef _SOLARIS_SDK char *hostname = NULL; char *nsldapi_strdup(char *); #endif /* _SOLARIS_SDK */ if ( 0 != ( options & LDAP_X_EXTIOF_OPT_SECURE )) { prldap_set_system_errno( EINVAL ); return( -1 ); } if ( NULL == ( prsockp = prldap_socket_arg_alloc( sessionarg ))) { prldap_set_system_errno( prldap_prerr2errno()); return( -1 ); } rc = -1; /* pessimistic */ for ( parse_err = ldap_x_hostlist_first( hostlist, defport, &host, &port, &status ); rc < 0 && LDAP_SUCCESS == parse_err && NULL != host; parse_err = ldap_x_hostlist_next( &host, &port, status )) { if ( PR_SUCCESS == PR_StringToNetAddr( host, &addr )) { if ( PRLDAP_DEFAULT_ADDRESS_FAMILY == PR_AF_INET6 && PR_AF_INET == PR_NetAddrFamily( &addr )) { PRUint32 ipv4ip = addr.inet.ip; memset( &addr, 0, sizeof(addr)); PR_ConvertIPv4AddrToIPv6( ipv4ip, &addr.ipv6.ip ); addr.ipv6.family = PR_AF_INET6; } rc = prldap_try_one_address( prsockp, &addr, port, timeout, options ); } else { if ( PR_SUCCESS == PR_GetIPNodeByName( host, PRLDAP_DEFAULT_ADDRESS_FAMILY, PR_AI_DEFAULT | PR_AI_ALL, hbuf, sizeof( hbuf ), &hent )) { PRIntn enumIndex = 0; while ( rc < 0 && ( enumIndex = PR_EnumerateHostEnt( enumIndex, &hent, (PRUint16)port, &addr )) > 0 ) { rc = prldap_try_one_address( prsockp, &addr, port, timeout, options ); } } } #ifdef _SOLARIS_SDK if ( NULL != hostname ) { ldap_memfree(hostname); hostname = NULL; } if ( rc >= 0 ) { hostname = nsldapi_strdup(host); } #endif /* _SOLARIS_SDK */ ldap_memfree( host ); } ldap_x_hostlist_statusfree( status ); if ( rc < 0 ) { prldap_set_system_errno( prldap_prerr2errno()); prldap_socket_arg_free( &prsockp ); } else { *socketargp = prsockp; } #ifdef _SOLARIS_SDK if ( NULL != hostname && NULL != dhost ) *dhost = hostname; else if ( NULL != hostname ) ldap_memfree(hostname); #endif /* _SOLARIS_SDK */ return( rc ); } static int LDAP_CALLBACK prldap_close( int s, struct lextiof_socket_private *socketarg ) { int rc; rc = 0; if ( PR_Close( PRLDAP_GET_PRFD(socketarg)) != PR_SUCCESS ) { rc = -1; prldap_set_system_errno( prldap_prerr2errno()); } prldap_socket_arg_free( &socketarg ); return( rc ); } /* * LDAP session handle creation callback. * * Allocate a session argument if not already done, and then call the * thread's new handle function. */ static int LDAP_CALLBACK prldap_newhandle( LDAP *ld, struct lextiof_session_private *sessionarg ) { if ( NULL == sessionarg ) { struct ldap_x_ext_io_fns iofns; memset( &iofns, 0, sizeof(iofns)); iofns.lextiof_size = LDAP_X_EXTIO_FNS_SIZE; if ( ldap_get_option( ld, LDAP_X_OPT_EXTIO_FN_PTRS, (void *)&iofns ) < 0 ) { return( ldap_get_lderrno( ld, NULL, NULL )); } if ( NULL == ( iofns.lextiof_session_arg = prldap_session_arg_alloc())) { return( LDAP_NO_MEMORY ); } if ( ldap_set_option( ld, LDAP_X_OPT_EXTIO_FN_PTRS, (void *)&iofns ) < 0 ) { return( ldap_get_lderrno( ld, NULL, NULL )); } } return( LDAP_SUCCESS ); } /* only called/installed if shared is non-zero. */ static int LDAP_CALLBACK prldap_shared_newhandle( LDAP *ld, struct lextiof_session_private *sessionarg ) { int rc; if (( rc = prldap_newhandle( ld, sessionarg )) == LDAP_SUCCESS ) { rc = prldap_thread_new_handle( ld, sessionarg ); } return( rc ); } static void LDAP_CALLBACK prldap_disposehandle( LDAP *ld, struct lextiof_session_private *sessionarg ) { prldap_session_arg_free( &sessionarg ); } /* only called/installed if shared is non-zero */ static void LDAP_CALLBACK prldap_shared_disposehandle( LDAP *ld, struct lextiof_session_private *sessionarg ) { prldap_thread_dispose_handle( ld, sessionarg ); prldap_disposehandle( ld, sessionarg ); } /* * Allocate a session argument. */ static PRLDAPIOSessionArg * prldap_session_arg_alloc( void ) { PRLDAPIOSessionArg *prsessp; prsessp = PR_Calloc( 1, sizeof( PRLDAPIOSessionArg )); if ( NULL != prsessp ) { /* copy global defaults to the new session handle */ prsessp->prsess_io_max_timeout = prldap_default_io_max_timeout; } return( prsessp ); } static void prldap_session_arg_free( PRLDAPIOSessionArg **prsesspp ) { if ( NULL != prsesspp && NULL != *prsesspp ) { if ( NULL != (*prsesspp)->prsess_pollds ) { PR_Free( (*prsesspp)->prsess_pollds ); (*prsesspp)->prsess_pollds = NULL; } PR_Free( *prsesspp ); *prsesspp = NULL; } } /* * Given an LDAP session handle, retrieve a session argument. * Returns an LDAP error code. */ int prldap_session_arg_from_ld( LDAP *ld, PRLDAPIOSessionArg **sessargpp ) { struct ldap_x_ext_io_fns iofns; if ( NULL == ld || NULL == sessargpp ) { /* XXXmcs: NULL ld's are not supported */ ldap_set_lderrno( ld, LDAP_PARAM_ERROR, NULL, NULL ); return( LDAP_PARAM_ERROR ); } memset( &iofns, 0, sizeof(iofns)); iofns.lextiof_size = LDAP_X_EXTIO_FNS_SIZE; if ( ldap_get_option( ld, LDAP_X_OPT_EXTIO_FN_PTRS, (void *)&iofns ) < 0 ) { return( ldap_get_lderrno( ld, NULL, NULL )); } if ( NULL == iofns.lextiof_session_arg ) { ldap_set_lderrno( ld, LDAP_LOCAL_ERROR, NULL, NULL ); return( LDAP_LOCAL_ERROR ); } *sessargpp = iofns.lextiof_session_arg; return( LDAP_SUCCESS ); } /* * Given an LDAP session handle, retrieve a socket argument. * Returns an LDAP error code. */ int prldap_socket_arg_from_ld( LDAP *ld, PRLDAPIOSocketArg **sockargpp ) { Sockbuf *sbp; struct lber_x_ext_io_fns extiofns; if ( NULL == ld || NULL == sockargpp ) { /* XXXmcs: NULL ld's are not supported */ ldap_set_lderrno( ld, LDAP_PARAM_ERROR, NULL, NULL ); return( LDAP_PARAM_ERROR ); } if ( ldap_get_option( ld, LDAP_X_OPT_SOCKBUF, (void *)&sbp ) < 0 ) { return( ldap_get_lderrno( ld, NULL, NULL )); } memset( &extiofns, 0, sizeof(extiofns)); extiofns.lbextiofn_size = LBER_X_EXTIO_FNS_SIZE; if ( ber_sockbuf_get_option( sbp, LBER_SOCKBUF_OPT_EXT_IO_FNS, (void *)&extiofns ) < 0 ) { return( ldap_get_lderrno( ld, NULL, NULL )); } if ( NULL == extiofns.lbextiofn_socket_arg ) { ldap_set_lderrno( ld, LDAP_LOCAL_ERROR, NULL, NULL ); return( LDAP_LOCAL_ERROR ); } *sockargpp = extiofns.lbextiofn_socket_arg; return( LDAP_SUCCESS ); } /* * Allocate a socket argument. */ static PRLDAPIOSocketArg * prldap_socket_arg_alloc( PRLDAPIOSessionArg *sessionarg ) { PRLDAPIOSocketArg *prsockp; prsockp = PR_Calloc( 1, sizeof( PRLDAPIOSocketArg )); if ( NULL != prsockp && NULL != sessionarg ) { /* copy socket defaults from the session */ prsockp->prsock_io_max_timeout = sessionarg->prsess_io_max_timeout; } return( prsockp ); } static void prldap_socket_arg_free( PRLDAPIOSocketArg **prsockpp ) { if ( NULL != prsockpp && NULL != *prsockpp ) { PR_Free( *prsockpp ); *prsockpp = NULL; } } static void * prldap_safe_realloc( void *ptr, PRUint32 size ) { void *p; if ( NULL == ptr ) { p = PR_Malloc( size ); } else { p = PR_Realloc( ptr, size ); } return( p ); } /* returns an LDAP result code */ int prldap_set_io_max_timeout( PRLDAPIOSessionArg *prsessp, int io_max_timeout ) { int rc = LDAP_SUCCESS; /* optimistic */ if ( NULL == prsessp ) { prldap_default_io_max_timeout = io_max_timeout; } else { prsessp->prsess_io_max_timeout = io_max_timeout; } return( rc ); } /* returns an LDAP result code */ int prldap_get_io_max_timeout( PRLDAPIOSessionArg *prsessp, int *io_max_timeoutp ) { int rc = LDAP_SUCCESS; /* optimistic */ if ( NULL == io_max_timeoutp ) { rc = LDAP_PARAM_ERROR; } else if ( NULL == prsessp ) { *io_max_timeoutp = prldap_default_io_max_timeout; } else { *io_max_timeoutp = prsessp->prsess_io_max_timeout; } return( rc ); }