1 /* sockbuf.c - i/o routines with support for adding i/o layers. */
3 * Copyright 1998-1999 The OpenLDAP Foundation, All Rights Reserved.
4 * COPYING RESTRICTIONS APPLY, see COPYRIGHT file
11 #include <ac/stdlib.h>
15 #include <ac/socket.h>
16 #include <ac/string.h>
17 #include <ac/unistd.h>
21 #endif /* HAVE_IO_H */
23 #if defined( HAVE_SYS_FILIO_H )
24 #include <sys/filio.h>
25 #elif defined( HAVE_SYS_IOCTL_H )
26 #include <sys/ioctl.h>
30 #define LDAP_F_PRE LDAP_F_EXPORT
35 #undef TEST_PARTIAL_READ
36 #undef TEST_PARTIAL_WRITE
39 #define MAX_BUF_SIZE 65535
40 #define MIN_BUF_SIZE 4096
42 #define sockbuf_io_write( sb, buf, len ) \
43 ((sb)->sb_io->sbi_write( (sb), (buf), (len) ))
45 #define sockbuf_io_read( sb, buf, len ) \
46 ((sb)->sb_io->sbi_read( (sb), (buf), (len) ))
48 static long have_no_read( Sockbuf *sb, void *buf, long len );
49 static long have_no_write( Sockbuf *sb, void *buf, long len );
50 static int have_no_close( Sockbuf *sb );
52 static Sockbuf_IO sb_IO_None=
55 NULL, /* sbi_release */
56 have_no_read, /* sbi_read */
57 have_no_write, /* sbi_write */
58 have_no_close /* sbi_close */
62 update_status( Sockbuf *sb )
65 assert( SOCKBUF_VALID( sb ) );
67 sb->sb_buf_ready = (sb->sb_buf.buf_ptr < sb->sb_buf.buf_end);
69 sb->sb_sec_ready = ((sb->sb_sec_buf_in.buf_end!=0) &&
70 (sb->sb_sec_buf_in.buf_ptr >=
71 sb->sb_sec_buf_in.buf_end));
77 status_is_ok( Sockbuf *sb )
85 assert( SOCKBUF_VALID( sb ) );
87 obr = sb->sb_buf_ready;
89 osr = sb->sb_sec_ready;
93 if (obr!=sb->sb_buf_ready)
97 if (osr!=sb->sb_sec_ready)
107 packet_length( char *buf )
111 assert( buf != NULL );
113 size = (((unsigned long)buf[0])<<24)|
114 (((unsigned long)buf[1])<<16)|
115 (((unsigned long)buf[2])<<8)|
116 (((unsigned long)buf[3]));
118 if ((size<0) || (size>MAX_BUF_SIZE)) {
119 /* somebody is trying to mess me up. */
120 lber_log_printf( LDAP_DEBUG_SASL, sb->sb_debug,
121 "SASL: received packet length of %d bytes\n",
123 size = 16; /* this should lead to an error. */
126 return size + 4; /* include the size !!! */
131 grow_buffer( Sockbuf_Buf * buf, long minsize )
135 assert( buf != NULL );
137 for( pw=MIN_BUF_SIZE; pw<minsize; pw<<=1 ) {
138 if (pw > MAX_BUF_SIZE) {
139 /* this could mean that somebody is trying to crash us. */
145 if (buf->buf_size<minsize) {
146 if ((buf->buf_base==NULL) || ((buf->buf_end==0) && (buf->buf_ptr==0))) {
148 if (buf->buf_base!=NULL)
149 LBER_FREE( buf->buf_base );
150 assert( buf->buf_ptr==0 );
151 assert( buf->buf_end==0 );
152 buf->buf_base = LBER_MALLOC( minsize );
153 if (buf->buf_base==NULL)
157 nb = LBER_REALLOC( buf->buf_base, minsize );
162 buf->buf_size = minsize;
169 sockbuf_sec_release( Sockbuf *sb, char *buf, long len )
171 /* when this is called:
172 * sb->sb_sec_buf_in.buf_base points to a packet.
173 * sb->sb_sec_buf_in.buf_ptr contains the total bytes read.
174 * sb->sb_sec_end.buf_end contains the packet length.
176 * sb->sb_buf.buf_ptr == sb->sb_buf.buf_end == 0;
184 assert( buf != NULL );
185 assert( sb != NULL );
186 assert( SOCKBUF_VALID( sb ) );
188 assert( sb->sb_sec );
189 assert( sb->sb_sec->sbs_release );
190 assert( sb->sb_sec_buf_in.sb_ptr >= sb->sb_sec_buf_in.sb_end );
192 assert( sb->sb_buf.sb_ptr == 0 );
193 assert( sb->sb_buf.sb_end == 0 );
195 assert( status_is_ok(sb) );
199 ptr = sb->sb_sec_buf_in.buf_base;
200 end = ptr+ sb->sb_sec_buf_in.buf_ptr;
201 size = sb->sb_sec_buf_in.buf_end;
203 sb->sb_sec_ready = 1;
205 for(;(ptr+size<=end);) {
207 rlen = sb->sb_sec->sbs_release( sb, ptr, size,
210 sb->sb_buf.buf_size );
212 /* this means a security violation. */
213 return total; /* total ? total : 0 */
216 /* this means that the buffer isn't big enough. */
217 if (grow_buffer( &(sb->sb_buf), -rlen )<0)
218 /* memory violation. */
219 return total; /* total ? total : 0 */
227 /* move to the next packet... */
231 size = packet_length( ptr );
232 /* size is always at least 4, so the loop condition is always OK !!*/
239 sb->sb_buf_ready = (sb->sb_buf.buf_end = rlen - len) ? 1 : 0;
245 sb->sb_sec_ready = 0;
246 /* clean up the mess. */
248 /* copy back to beginning of buffer. */
249 SAFEMEMCPY( sb->sb_sec_buf_in.buf_base, ptr, end-ptr );
250 sb->sb_sec_buf_in.buf_ptr = 0;
251 sb->sb_sec_buf_in.buf_end -= (ptr - sb->sb_sec_buf_in.buf_base);
253 assert( status_is_ok(sb) );
258 sockbuf_sec_protect( Sockbuf *sb, char *buf, long len )
264 assert( buf != NULL );
266 assert( sb != NULL );
267 assert( SOCKBUF_VALID( sb ) );
269 assert( sb->sb_sec_out.buf_end == 0 );
270 assert( sb->sb_sec_out.buf_ptr == 0 );
272 assert( sb->sb_sec );
273 assert( sb->sb_sec->sbs_protect );
275 assert( status_is_ok(sb) );
281 ret = sb->sb_sec->sbs_protect( sb, buf, &blen,
282 sb->sb_sec_out.buf_base+
283 sb->sb_sec_out.buf_end,
284 sb->sb_sec_out.buf_size -
285 sb->sb_sec_out.buf_end );
287 /* protection error ? */
290 if (grow_buffer( &(sb->sb_sec_out),-ret-sb->sb_sec_out.buf_end )<0)
295 /* else if (ret>0) */
298 sb->sb_sec_out.buf_end += ret;
302 assert( status_is_ok(sb) );
308 sockbuf_copy_out( Sockbuf *sb, char **buf, long len )
310 long blen = (sb->sb_buf.buf_end - sb->sb_buf.buf_ptr );
312 assert( buf != NULL );
314 assert( sb != NULL );
315 assert( SOCKBUF_VALID( sb ) );
316 assert( status_is_ok(sb) );
319 long rlen = (blen<len) ? blen : len;
320 memcpy( *buf, sb->sb_buf.buf_base + sb->sb_buf.buf_ptr, rlen );
321 sb->sb_buf.buf_ptr+=rlen;
324 if (sb->sb_buf.buf_ptr >= sb->sb_buf.buf_end) {
325 sb->sb_buf.buf_ptr = sb->sb_buf.buf_end = 0;
326 sb->sb_buf_ready = 0;
328 sb->sb_buf_ready = 1;
331 assert( status_is_ok(sb) );
335 Sockbuf *ber_sockbuf_alloc( void )
339 ber_int_options.lbo_valid = LBER_INITIALIZED;
341 sb = LBER_CALLOC(1, sizeof(Sockbuf));
343 if( sb == NULL ) return NULL;
345 ber_pvt_sb_init( sb );
349 Sockbuf *ber_sockbuf_alloc_fd( int fd )
351 Sockbuf *sb = ber_sockbuf_alloc();
353 if( sb == NULL ) return NULL;
355 ber_pvt_sb_set_desc( sb, fd );
356 ber_pvt_sb_set_io( sb, &ber_pvt_sb_io_tcp, NULL );
360 void ber_sockbuf_free( Sockbuf *sb )
363 assert( SOCKBUF_VALID( sb ) );
364 ber_pvt_sb_destroy( sb );
369 ber_pvt_sb_read( Sockbuf *sb, void *buf_arg, long len )
374 assert( buf_arg != NULL );
375 assert( sb != NULL );
376 assert( SOCKBUF_VALID( sb ) );
377 assert( status_is_ok(sb) );
379 /* breaks slapd :-< */
380 assert( ber_pvt_sb_in_use( sb ) );
383 #ifdef TEST_PARTIAL_READ
384 if ((rand() & 3)==1) { /* 1 out of 4 */
390 len = (rand() % len)+1;
393 buf = (char *) buf_arg;
395 if (sb->sb_buf.buf_ptr!=sb->sb_buf.buf_end) {
396 len = sockbuf_copy_out( sb, &buf, len );
398 return (buf - (char *) buf_arg);
405 assert( sb->sb_sec->sbs_release );
406 assert( sb->sb_sec_buf_in.buf_base );
407 if (sb->sb_read_ahead) {
408 max = sb->sb_sec_buf_in.buf_size - sb->sb_sec_buf_in.buf_ptr;
410 max = sb->sb_sec_buf_in.buf_end - sb->sb_sec_buf_in.buf_ptr;
412 /* special situation. This means that we need to read the first
413 * four bytes for the packet length.
419 /* read from stream into sb_sec_buf_in */
421 ret = sockbuf_io_read( sb, sb->sb_sec_buf_in.buf_base +
422 sb->sb_sec_buf_in.buf_ptr, max );
424 if ((ret<0) && (errno==EINTR))
430 /* read error. return */
433 sb->sb_sec_buf_in.buf_ptr += ret;
435 if (sb->sb_sec_buf_in.buf_ptr < sb->sb_sec_buf_in.buf_end) {
436 /* did not finish a packet. give up. */
440 if (sb->sb_sec_buf_in.buf_end == 0) {
441 /* Were trying to read the first four bytes... */
442 if (sb->sb_sec_buf_in.buf_ptr < 4) {
443 /* did not read enough for packet length. give up. */
446 /* calculate the packet length. */
447 sb->sb_sec_buf_in.buf_end =
448 packet_length(sb->sb_sec_buf_in.buf_base );
449 if ((sb->sb_sec_buf_in.buf_end > sb->sb_sec_buf_in.buf_size) &&
450 (grow_buffer( &(sb->sb_sec_buf_in), sb->sb_sec_buf_in.buf_end)<0)) {
451 /* buffer has to be to big. exit with error. */
455 if (sb->sb_sec_buf_in.buf_ptr >= sb_sec_buf_in.buf_end) {
456 /* finished packet. decode it. */
459 /* did not finish packet yet. try again ? */
460 if (sb->sb_read_ahead) {
461 /* we were trying to read the max anyway. forget it */
466 /* we read enough for at least 1 packet */
467 ret = sockbuf_sec_release( sb, buf, len );
469 /* something went wrong... */
474 /* we are finished !!! */
475 if ((len==0) || (ret!=max))
480 if (sb->sb_read_ahead) {
482 max = sb->sb_buf.buf_size - sb->sb_buf.buf_end;
485 ret = sockbuf_io_read( sb,
486 sb->sb_buf.buf_base +
490 if ((ret<0) && (errno==EINTR))
496 /* some error occured */
499 sb->sb_buf.buf_end += ret;
500 /* move out the data... */
501 len = sockbuf_copy_out( sb, &buf, len );
505 /* no read_ahead, just try to put the data in the buf. */
507 ret = sockbuf_io_read( sb, buf, len );
509 if ((ret<0) && (errno==EINTR))
518 /* we might as well return, since there is nothing to do... */
523 assert( status_is_ok(sb) );
524 if ((ret<=0) && (buf==buf_arg)) {
525 /* there was an error. */
528 return (buf - ((char *) buf_arg));
532 long sockbuf_do_write( Sockbuf *sb )
536 assert( sb != NULL );
537 assert( SOCKBUF_VALID( sb ) );
539 to_go = sb->sb_sec_out.buf_end - sb->sb_sec_out.buf_ptr;
541 /* there is something left of the last time... */
543 ret = sockbuf_io_write( sb, sb->sb_sec_out.buf_base+
544 sb->sb_sec_out.buf_ptr, to_go );
546 if ((ret<0) && (errno==EINTR))
551 if (ret<=0) /* error */
553 sb->sb_sec_out.buf_ptr += ret;
554 if (ret<to_go) /* not enough data, so pretend no data was sent. */
560 long ber_pvt_sb_write( Sockbuf *sb, void *buf, long len_arg )
565 assert( buf != NULL );
566 assert( sb != NULL );
567 assert( SOCKBUF_VALID( sb ) );
568 assert( status_is_ok(sb) );
570 /* unfortunately breaks slapd */
571 assert( ber_pvt_sb_in_use( sb ) );
573 #ifdef TEST_PARTIAL_WRITE
574 if ((rand() & 3)==1) { /* 1 out of 4 */
579 len_arg = (rand() % len_arg)+1;
585 assert( sb->sb_sec_prev_len <= len );
586 if (sb->sb_sec_prev_len) {
587 ret = sockbuf_do_write( sb );
591 len -= sb->sb_sec_prev_len;
592 sb->sb_sec_prev_len = 0;
593 sb->sb_sec_out.buf_end = sb->sb_sec_out.buf_ptr = 0;
595 /* now protect the next packet. */
596 ret = sockbuf_sec_protect( sb, buf, len );
599 ret = sockbuf_do_write( sb );
601 sb->sb_sec_prev_len = len;
608 ret = sockbuf_io_write( sb, buf, len );
610 if ((ret<0) && (errno==EINTR))
622 int ber_pvt_sb_close( Sockbuf *sb )
626 assert( sb != NULL );
627 assert( SOCKBUF_VALID( sb ) );
629 assert( sb->sb_io->sbi_close );
630 assert( status_is_ok(sb) );
631 assert( ber_pvt_sb_in_use( sb ) );
633 ret = sb->sb_io->sbi_close( sb );
634 ber_pvt_sb_set_desc( sb, -1 );
639 int ber_pvt_sb_set_readahead( Sockbuf *sb, int rh )
641 assert( sb != NULL );
642 assert( SOCKBUF_VALID( sb ) );
643 assert( status_is_ok(sb) );
644 sb->sb_read_ahead = (rh!=0);
650 int ber_pvt_sb_set_nonblock( Sockbuf *sb, int nb )
652 assert( sb != NULL );
653 assert( SOCKBUF_VALID( sb ) );
654 assert( status_is_ok(sb) );
656 sb->sb_non_block = 1;
658 sb->sb_read_ahead = 1;
661 sb->sb_non_block = 0;
663 sb->sb_read_ahead = 0;
666 if (ber_pvt_sb_in_use(sb)) {
668 int flags = fcntl(ber_pvt_sb_get_desc(sb), F_GETFL);
670 return fcntl(ber_pvt_sb_get_desc(sb), F_SETFL, flags);
672 #elif defined( FIONBIO )
673 /* WINSOCK requires the status to be a long */
674 ioctl_t status = (nb!=0);
675 return ioctl( ber_pvt_sb_get_desc(sb), FIONBIO, &status );
682 #define sockbuf_buf_init( bb ) do { \
683 Sockbuf_Buf *sbb = (bb); \
684 sbb->buf_base = NULL; \
691 sockbuf_buf_destroy( Sockbuf_Buf *buf )
693 assert( buf != NULL);
696 LBER_FREE( buf->buf_base );
697 sockbuf_buf_init( buf );
701 int ber_pvt_sb_init( Sockbuf *sb )
705 ber_int_options.lbo_valid = LBER_INITIALIZED;
707 sb->sb_valid=LBER_VALID_SOCKBUF;
710 sb->sb_trans_ready = 0;
711 sb->sb_buf_ready = 0;
713 sb->sb_sec_ready = 0;
715 sb->sb_read_ahead = 0;
716 sb->sb_non_block = 0;
718 sb->sb_iodata = NULL;
719 sb->sb_io = &sb_IO_None;
722 sb->sb_max_incoming = 0;
724 sockbuf_buf_init( &(sb->sb_buf) );
726 sockbuf_buf_init( &(sb->sb_sec_buf_in) );
727 sockbuf_buf_init( &(sb->sb_sec_buf_out) );
730 sb->sb_sec_prev_len = 0;
733 assert( SOCKBUF_VALID( sb ) );
737 int ber_pvt_sb_destroy( Sockbuf *sb )
740 assert( SOCKBUF_VALID(sb) );
742 ber_pvt_sb_clear_sec(sb);
743 sockbuf_buf_destroy( &(sb->sb_sec_buf_in) );
744 sockbuf_buf_destroy( &(sb->sb_sec_buf_out) );
746 ber_pvt_sb_clear_io(sb);
747 sockbuf_buf_destroy( &(sb->sb_buf) );
748 return ber_pvt_sb_init( sb );
752 int ber_pvt_sb_set_sec( Sockbuf *sb, Sockbuf_Sec * sec, void *arg )
756 assert( SOCKBUF_VALID( *sb ) );
757 if ((sb->sb_sec) || (sec==NULL))
762 if ((sec->sbs_setup) && (sec->sbs_setup( sb, arg)<0)) {
766 len = sb->sb_buf.buf_end - sb->sb_buf.buf_ptr;
769 /* move this to the security layer. */
770 if (grow_buffer( &(sb->sb_sec_buf_in), len )<0)
772 memcpy( sb->sb_sec_buf_in.buf_base,
773 sb->sb_buf.buf_base + sb->sb_buf.buf_ptr, len );
774 sb->sb_sec_buf_in.buf_ptr = len;
775 sb->sb_sec_buf_in.buf_end = (len>4) ? packet_length( sb->sb_sec_buf_in ) : 0;
776 sb->sb_buf.buf_ptr = sb->sb_buf.buf_end = 0;
782 int ber_pvt_sb_clear_sec( Sockbuf *sb )
785 assert( SOCKBUF_VALID( sb ) );
787 if (sb->sb_buf.buf_ptr!=0)
789 if (sb->sb_sec==NULL)
791 if ((sb->sb_sec->sbs_remove) && (sb->sb_sec->sbs_remove(sb)<0))
795 if (sb->sb_sec_buf_in.buf_ptr!=0) {
796 if (grow_buffer( &(sb->sb_buf),
797 sb->sb_buf.buf_end + sb->sb_sec_buf_in.buf_ptr)<0)
799 memcpy( sb->sb_buf.buf_base + sb->sb_buf.buf_end,
800 sb->sb_sec_buf_in.buf_base, sb->sb_sec_buf_in.buf_ptr );
801 sb->sb_buf.buf_end += sb->sb_sec_buf_in.buf_ptr;
802 sb->sb_buf_ready = 1;
804 sockbuf_buf_destroy( &(sb->sb_sec_buf_in) );
805 assert( sb->sb_sec_buf.buf_end==0 );
806 sockbuf_buf_destroy( &(sb->sb_sec_buf_out) );
808 sb->sb_sec_ready = 0;
814 int ber_pvt_sb_set_io( Sockbuf *sb, Sockbuf_IO *trans, void *arg )
817 assert( SOCKBUF_VALID( sb ) );
818 assert( sb->sb_io == &sb_IO_None );
825 if ((trans->sbi_setup) && (trans->sbi_setup( sb, arg)<0))
831 int ber_pvt_sb_clear_io( Sockbuf *sb )
834 assert( SOCKBUF_VALID( sb ) );
836 if (sb->sb_io==&sb_IO_None)
839 if ((sb->sb_io->sbi_remove) && (sb->sb_io->sbi_remove( sb )<0))
842 sb->sb_io = &sb_IO_None;
844 sb->sb_trans_ready = 0;
854 stream_read( Sockbuf *sb, void *buf, long len )
857 assert( SOCKBUF_VALID( sb ) );
861 * MacTCP/OpenTransport
863 return tcpread( ber_pvt_sb_get_desc(sb), 0, (unsigned char *)buf,
866 #elif defined( HAVE_PCNFS ) || \
867 defined( HAVE_WINSOCK ) || defined ( __BEOS__ )
872 * Windows Socket API (under DOS/Windows 3.x)
875 * 32-bit Windows Socket API (under Windows NT or Windows 95)
879 rc = recv( ber_pvt_sb_get_desc(sb), buf, len, 0 );
881 if ( rc < 0 ) errno = WSAGetLastError();
885 #elif defined( HAVE_NCSA )
887 * NCSA Telnet TCP/IP stack (under DOS)
889 return nread( ber_pvt_sb_get_desc(sb), buf, len );
892 return read( ber_pvt_sb_get_desc(sb), buf, len );
897 stream_write( Sockbuf *sb, void *buf, long len )
900 assert( SOCKBUF_VALID( sb ) );
904 * MacTCP/OpenTransport
906 #define MAX_WRITE 65535
907 return tcpwrite( ber_pvt_sb_get_desc(sb),
908 (unsigned char *)(buf),
909 (len<MAX_WRITE)? len : MAX_WRITE );
911 #elif defined( HAVE_PCNFS) \
912 || defined( HAVE_WINSOCK) || defined ( __BEOS__ )
917 * Windows Socket API (under DOS/Windows 3.x)
920 * 32-bit Windows Socket API (under Windows NT or Windows 95)
925 rc = send( ber_pvt_sb_get_desc(sb), buf, len, 0 );
927 if ( rc < 0 ) errno = WSAGetLastError();
932 #elif defined(HAVE_NCSA)
933 return netwrite( ber_pvt_sb_get_desc(sb), buf, len );
937 * VMS -- each write must be 64K or smaller
939 #define MAX_WRITE 65535
940 return write( ber_pvt_sb_get_desc(sb), buf,
941 (len<MAX_WRITE)? len : MAX_WRITE);
943 return write( ber_pvt_sb_get_desc(sb), buf, len );
948 stream_close( Sockbuf *sb )
951 assert( SOCKBUF_VALID( sb ) );
952 tcp_close( ber_pvt_sb_get_desc( sb ) );
956 Sockbuf_IO ber_pvt_sb_io_tcp=
958 NULL, /* sbi_setup */
959 NULL, /* sbi_release */
960 stream_read, /* sbi_read */
961 stream_write, /* sbi_write */
962 stream_close, /* sbi_close */
966 * Support for UDP (CLDAP)
976 dgram_setup( Sockbuf *sb, void *arg )
979 assert( SOCKBUF_VALID( sb ) );
981 sb->sb_iodata = LBER_MALLOC( sizeof( struct dgram_data ) );
982 if (sb->sb_iodata==NULL)
984 sb->sb_read_ahead = 1; /* important since udp is packet based. */
989 dgram_release( Sockbuf *sb )
992 assert( SOCKBUF_VALID( sb ) );
994 LBER_FREE( sb->sb_iodata );
999 dgram_read( Sockbuf *sb, void *buf, long len )
1001 #ifdef LDAP_CONNECTIONLESS
1004 struct dgram_data *dd;
1006 assert( sb != NULL );
1007 assert( SOCKBUF_VALID( sb ) );
1008 assert( buf != NULL );
1010 dd = (struct dgram_data *)(sb->sb_iodata);
1012 addrlen = sizeof( struct sockaddr );
1013 rc=recvfrom( ber_pvt_sb_get_desc(sb), buf, len, 0, &(dd->src), &addrlen );
1015 if ( sb->sb_debug ) {
1016 ber_log_printf( LDAP_DEBUG_ANY, sb->sb_debug,
1017 "dgram_read udp_read %d bytes\n",
1020 ber_log_bprint( LDAP_DEBUG_PACKETS, sb->sb_debug,
1024 # else /* LDAP_CONNECTIONLESS */
1026 # endif /* LDAP_CONNECTIONLESS */
1030 dgram_write( Sockbuf *sb, void *buf, long len )
1032 #ifdef LDAP_CONNECTIONLESS
1034 struct dgram_data *dd;
1036 assert( sb != NULL );
1037 assert( SOCKBUF_VALID( sb ) );
1038 assert( buf != NULL );
1040 dd = (struct dgram_data *)(sb->sb_iodata);
1042 rc=sendto( ber_pvt_sb_get_desc(sb), buf, len, 0, &(dd->dst),
1043 sizeof( struct sockaddr ) );
1048 /* fake error if write was not atomic */
1062 dgram_close( Sockbuf *sb )
1064 assert( sb != NULL );
1065 assert( SOCKBUF_VALID( sb ) );
1067 tcp_close( ber_pvt_sb_get_desc(sb) );
1071 Sockbuf_IO ber_pvt_sb_io_udp=
1073 dgram_setup, /* sbi_setup */
1074 dgram_release, /* sbi_release */
1075 dgram_read, /* sbi_read */
1076 dgram_write, /* sbi_write */
1077 dgram_close, /* sbi_close */
1080 int ber_pvt_sb_udp_set_dst(Sockbuf *sb, void *addr )
1082 struct dgram_data *dd;
1083 assert( sb != NULL );
1084 assert( SOCKBUF_VALID( sb ) );
1085 assert( sb->sb_io == &ber_pvt_sb_io_udp );
1086 dd = (struct dgram_data *) (sb->sb_iodata);
1087 memcpy( &(dd->dst), addr, sizeof( struct sockaddr ) );
1091 void *ber_pvt_sb_udp_get_src( Sockbuf *sb )
1093 struct dgram_data *dd;
1095 assert( sb != NULL );
1096 assert( SOCKBUF_VALID( sb ) );
1097 assert( sb->sb_io == &ber_pvt_sb_io_udp );
1098 dd = (struct dgram_data *) (sb->sb_iodata);
1106 * These routines should really call abort, but at the moment that would
1107 * break the servers.
1111 have_no_read( Sockbuf *sb, void *buf, long len )
1113 assert( sb != NULL );
1114 assert( SOCKBUF_VALID( sb ) );
1116 ber_log_printf( LDAP_DEBUG_ANY, ber_int_debug,
1117 "warning: reading from uninitialized sockbuf\n");
1123 have_no_write( Sockbuf *sb, void *buf, long len )
1125 assert( sb != NULL );
1126 assert( SOCKBUF_VALID( sb ) );
1128 ber_log_printf( LDAP_DEBUG_ANY, ber_int_debug,
1129 "warning: writing to uninitialized sockbuf\n");
1135 have_no_close( Sockbuf *sb )
1137 assert( sb != NULL );
1138 assert( SOCKBUF_VALID( sb ) );