2 * Server-side socket management
4 * Copyright (C) 1999 Marcus Meissner, Ove Kåven
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU Lesser General Public
8 * License as published by the Free Software Foundation; either
9 * version 2.1 of the License, or (at your option) any later version.
11 * This library is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 * Lesser General Public License for more details.
16 * You should have received a copy of the GNU Lesser General Public
17 * License along with this library; if not, write to the Free Software
18 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
20 * FIXME: we use read|write access in all cases. Shouldn't we depend that
21 * on the access of the current handle?
33 #ifdef HAVE_SYS_ERRNO_H
34 # include <sys/errno.h>
37 #include <sys/types.h>
38 #ifdef HAVE_SYS_SOCKET_H
39 # include <sys/socket.h>
41 #ifdef HAVE_SYS_IOCTL_H
42 #include <sys/ioctl.h>
44 #ifdef HAVE_SYS_FILIO_H
45 # include <sys/filio.h>
51 #define WIN32_NO_STATUS
62 /* To avoid conflicts with the Unix socket headers. Plus we only need a few
70 struct object obj
; /* object header */
71 struct fd
*fd
; /* socket file descriptor */
72 unsigned int state
; /* status bits */
73 unsigned int mask
; /* event mask */
74 unsigned int hmask
; /* held (blocked) events */
75 unsigned int pmask
; /* pending events */
76 unsigned int flags
; /* socket flags */
77 int polling
; /* is socket being polled? */
78 unsigned short type
; /* socket type */
79 unsigned short family
; /* socket family */
80 struct event
*event
; /* event object */
81 user_handle_t window
; /* window to send the message to */
82 unsigned int message
; /* message to send */
83 obj_handle_t wparam
; /* message wparam (socket handle) */
84 int errors
[FD_MAX_EVENTS
]; /* event errors */
85 struct sock
*deferred
; /* socket that waits for a deferred accept */
86 struct async_queue
*read_q
; /* queue for asynchronous reads */
87 struct async_queue
*write_q
; /* queue for asynchronous writes */
90 static void sock_dump( struct object
*obj
, int verbose
);
91 static int sock_signaled( struct object
*obj
, struct thread
*thread
);
92 static struct fd
*sock_get_fd( struct object
*obj
);
93 static void sock_destroy( struct object
*obj
);
95 static int sock_get_poll_events( struct fd
*fd
);
96 static void sock_poll_event( struct fd
*fd
, int event
);
97 static enum server_fd_type
sock_get_fd_type( struct fd
*fd
);
98 static void sock_queue_async( struct fd
*fd
, const async_data_t
*data
, int type
, int count
);
99 static void sock_reselect_async( struct fd
*fd
, struct async_queue
*queue
);
100 static void sock_cancel_async( struct fd
*fd
, struct process
*process
, struct thread
*thread
, client_ptr_t iosb
);
102 static int sock_get_error( int err
);
103 static void sock_set_error(void);
105 static const struct object_ops sock_ops
=
107 sizeof(struct sock
), /* size */
108 sock_dump
, /* dump */
109 no_get_type
, /* get_type */
110 add_queue
, /* add_queue */
111 remove_queue
, /* remove_queue */
112 sock_signaled
, /* signaled */
113 no_satisfied
, /* satisfied */
114 no_signal
, /* signal */
115 sock_get_fd
, /* get_fd */
116 default_fd_map_access
, /* map_access */
117 default_get_sd
, /* get_sd */
118 default_set_sd
, /* set_sd */
119 no_lookup_name
, /* lookup_name */
120 no_open_file
, /* open_file */
121 fd_close_handle
, /* close_handle */
122 sock_destroy
/* destroy */
125 static const struct fd_ops sock_fd_ops
=
127 sock_get_poll_events
, /* get_poll_events */
128 sock_poll_event
, /* poll_event */
129 no_flush
, /* flush */
130 sock_get_fd_type
, /* get_file_info */
131 default_fd_ioctl
, /* ioctl */
132 sock_queue_async
, /* queue_async */
133 sock_reselect_async
, /* reselect_async */
134 sock_cancel_async
/* cancel_async */
138 /* Permutation of 0..FD_MAX_EVENTS - 1 representing the order in which
139 * we post messages if there are multiple events. Used to send
140 * messages. The problem is if there is both a FD_CONNECT event and,
141 * say, an FD_READ event available on the same socket, we want to
142 * notify the app of the connect event first. Otherwise it may
143 * discard the read event because it thinks it hasn't connected yet.
145 static const int event_bitorder
[FD_MAX_EVENTS
] =
153 6, 7, 8, 9 /* leftovers */
156 /* Flags that make sense only for SOCK_STREAM sockets */
157 #define STREAM_FLAG_MASK ((unsigned int) (FD_CONNECT | FD_ACCEPT | FD_WINE_LISTENING | FD_WINE_CONNECTED))
160 SOCK_SHUTDOWN_ERROR
= -1,
161 SOCK_SHUTDOWN_EOF
= 0,
162 SOCK_SHUTDOWN_POLLHUP
= 1
165 static sock_shutdown_t sock_shutdown_type
= SOCK_SHUTDOWN_ERROR
;
167 static sock_shutdown_t
sock_check_pollhup(void)
169 sock_shutdown_t ret
= SOCK_SHUTDOWN_ERROR
;
174 if ( socketpair( AF_UNIX
, SOCK_STREAM
, 0, fd
) ) goto out
;
175 if ( shutdown( fd
[0], 1 ) ) goto out
;
181 n
= poll( &pfd
, 1, 0 );
182 if ( n
!= 1 ) goto out
; /* error or timeout */
183 if ( pfd
.revents
& POLLHUP
)
184 ret
= SOCK_SHUTDOWN_POLLHUP
;
185 else if ( pfd
.revents
& POLLIN
&&
186 read( fd
[1], &dummy
, 1 ) == 0 )
187 ret
= SOCK_SHUTDOWN_EOF
;
197 sock_shutdown_type
= sock_check_pollhup();
199 switch ( sock_shutdown_type
)
201 case SOCK_SHUTDOWN_EOF
:
202 if (debug_level
) fprintf( stderr
, "sock_init: shutdown() causes EOF\n" );
204 case SOCK_SHUTDOWN_POLLHUP
:
205 if (debug_level
) fprintf( stderr
, "sock_init: shutdown() causes POLLHUP\n" );
208 fprintf( stderr
, "sock_init: ERROR in sock_check_pollhup()\n" );
209 sock_shutdown_type
= SOCK_SHUTDOWN_EOF
;
213 static int sock_reselect( struct sock
*sock
)
215 int ev
= sock_get_poll_events( sock
->fd
);
218 fprintf(stderr
,"sock_reselect(%p): new mask %x\n", sock
, ev
);
220 if (!sock
->polling
) /* FIXME: should find a better way to do this */
222 /* previously unconnected socket, is this reselect supposed to connect it? */
223 if (!(sock
->state
& ~FD_WINE_NONBLOCKING
)) return 0;
224 /* ok, it is, attach it to the wineserver's main poll loop */
227 /* update condition mask */
228 set_fd_events( sock
->fd
, ev
);
232 /* After POLLHUP is received, the socket will no longer be in the main select loop.
233 This function is used to signal pending events nevertheless */
234 static void sock_try_event( struct sock
*sock
, int event
)
236 event
= check_fd_events( sock
->fd
, event
);
239 if ( debug_level
) fprintf( stderr
, "sock_try_event: %x\n", event
);
240 sock_poll_event( sock
->fd
, event
);
244 /* wake anybody waiting on the socket event or send the associated message */
245 static void sock_wake_up( struct sock
*sock
, int pollev
)
247 unsigned int events
= sock
->pmask
& sock
->mask
;
249 int async_active
= 0;
251 if ( pollev
& (POLLIN
|POLLPRI
|POLLERR
|POLLHUP
) && async_waiting( sock
->read_q
))
253 if (debug_level
) fprintf( stderr
, "activating read queue for socket %p\n", sock
);
254 async_wake_up( sock
->read_q
, STATUS_ALERTED
);
257 if ( pollev
& (POLLOUT
|POLLERR
|POLLHUP
) && async_waiting( sock
->write_q
))
259 if (debug_level
) fprintf( stderr
, "activating write queue for socket %p\n", sock
);
260 async_wake_up( sock
->write_q
, STATUS_ALERTED
);
264 /* Do not signal events if there are still pending asynchronous IO requests */
265 /* We need this to delay FD_CLOSE events until all pending overlapped requests are processed */
266 if ( !events
|| async_active
) return;
270 if (debug_level
) fprintf(stderr
, "signalling events %x ptr %p\n", events
, sock
->event
);
271 set_event( sock
->event
);
275 if (debug_level
) fprintf(stderr
, "signalling events %x win %08x\n", events
, sock
->window
);
276 for (i
= 0; i
< FD_MAX_EVENTS
; i
++)
278 int event
= event_bitorder
[i
];
279 if (sock
->pmask
& (1 << event
))
281 lparam_t lparam
= (1 << event
) | (sock
->errors
[event
] << 16);
282 post_message( sock
->window
, sock
->message
, sock
->wparam
, lparam
);
286 sock_reselect( sock
);
290 static inline int sock_error( struct fd
*fd
)
292 unsigned int optval
= 0, optlen
;
294 optlen
= sizeof(optval
);
295 getsockopt( get_unix_fd(fd
), SOL_SOCKET
, SO_ERROR
, (void *) &optval
, &optlen
);
296 return optval
? sock_get_error(optval
) : 0;
299 static void sock_poll_event( struct fd
*fd
, int event
)
301 struct sock
*sock
= get_fd_user( fd
);
304 assert( sock
->obj
.ops
== &sock_ops
);
306 fprintf(stderr
, "socket %p select event: %x\n", sock
, event
);
307 if (sock
->state
& FD_CONNECT
)
312 /* we got connected */
313 sock
->state
|= FD_WINE_CONNECTED
|FD_READ
|FD_WRITE
;
314 sock
->state
&= ~FD_CONNECT
;
315 sock
->pmask
|= FD_CONNECT
;
316 sock
->errors
[FD_CONNECT_BIT
] = 0;
318 fprintf(stderr
, "socket %p connection success\n", sock
);
320 else if (event
& (POLLERR
|POLLHUP
))
322 /* we didn't get connected? */
323 sock
->state
&= ~FD_CONNECT
;
324 sock
->pmask
|= FD_CONNECT
;
325 sock
->errors
[FD_CONNECT_BIT
] = sock_error( fd
);
327 fprintf(stderr
, "socket %p connection failure\n", sock
);
330 else if (sock
->state
& FD_WINE_LISTENING
)
335 /* incoming connection */
336 sock
->pmask
|= FD_ACCEPT
;
337 sock
->errors
[FD_ACCEPT_BIT
] = 0;
338 sock
->hmask
|= FD_ACCEPT
;
340 else if (event
& (POLLERR
|POLLHUP
))
342 /* failed incoming connection? */
343 sock
->pmask
|= FD_ACCEPT
;
344 sock
->errors
[FD_ACCEPT_BIT
] = sock_error( fd
);
345 sock
->hmask
|= FD_ACCEPT
;
350 /* normal data flow */
351 if ( sock
->type
== SOCK_STREAM
&& ( event
& POLLIN
) )
356 /* Linux 2.4 doesn't report POLLHUP if only one side of the socket
357 * has been closed, so we need to check for it explicitly here */
358 nr
= recv( get_unix_fd( fd
), &dummy
, 1, MSG_PEEK
);
362 sock
->pmask
|= FD_READ
;
363 sock
->hmask
|= (FD_READ
|FD_CLOSE
);
364 sock
->errors
[FD_READ_BIT
] = 0;
366 fprintf(stderr
, "socket %p is readable\n", sock
);
372 /* EAGAIN can happen if an async recv() falls between the server's poll()
373 call and the invocation of this routine */
374 if ( errno
== EAGAIN
)
379 fprintf( stderr
, "recv error on socket %p: %d\n", sock
, errno
);
385 else if ( sock_shutdown_type
== SOCK_SHUTDOWN_POLLHUP
&& (event
& POLLHUP
) )
389 else if ( event
& POLLIN
) /* POLLIN for non-stream socket */
391 sock
->pmask
|= FD_READ
;
392 sock
->hmask
|= (FD_READ
|FD_CLOSE
);
393 sock
->errors
[FD_READ_BIT
] = 0;
395 fprintf(stderr
, "socket %p is readable\n", sock
);
401 sock
->pmask
|= FD_WRITE
;
402 sock
->hmask
|= FD_WRITE
;
403 sock
->errors
[FD_WRITE_BIT
] = 0;
405 fprintf(stderr
, "socket %p is writable\n", sock
);
409 sock
->pmask
|= FD_OOB
;
410 sock
->hmask
|= FD_OOB
;
411 sock
->errors
[FD_OOB_BIT
] = 0;
413 fprintf(stderr
, "socket %p got OOB data\n", sock
);
415 /* According to WS2 specs, FD_CLOSE is only delivered when there is
416 no more data to be read (i.e. hangup_seen = 1) */
417 else if ( hangup_seen
&& (sock
->state
& (FD_READ
|FD_WRITE
) ))
419 sock
->errors
[FD_CLOSE_BIT
] = sock_error( fd
);
420 if ( (event
& POLLERR
) || ( sock_shutdown_type
== SOCK_SHUTDOWN_EOF
&& (event
& POLLHUP
) ))
421 sock
->state
&= ~FD_WRITE
;
422 sock
->pmask
|= FD_CLOSE
;
423 sock
->hmask
|= FD_CLOSE
;
425 fprintf(stderr
, "socket %p aborted by error %d, event: %x - removing from select loop\n",
426 sock
, sock
->errors
[FD_CLOSE_BIT
], event
);
430 if ( sock
->pmask
& FD_CLOSE
|| event
& (POLLERR
|POLLHUP
) )
433 fprintf( stderr
, "removing socket %p from select loop\n", sock
);
434 set_fd_events( sock
->fd
, -1 );
437 sock_reselect( sock
);
439 /* wake up anyone waiting for whatever just happened */
440 if ( sock
->pmask
& sock
->mask
|| sock
->flags
& WSA_FLAG_OVERLAPPED
) sock_wake_up( sock
, event
);
442 /* if anyone is stupid enough to wait on the socket object itself,
443 * maybe we should wake them up too, just in case? */
444 wake_up( &sock
->obj
, 0 );
447 static void sock_dump( struct object
*obj
, int verbose
)
449 struct sock
*sock
= (struct sock
*)obj
;
450 assert( obj
->ops
== &sock_ops
);
451 printf( "Socket fd=%p, state=%x, mask=%x, pending=%x, held=%x\n",
452 sock
->fd
, sock
->state
,
453 sock
->mask
, sock
->pmask
, sock
->hmask
);
456 static int sock_signaled( struct object
*obj
, struct thread
*thread
)
458 struct sock
*sock
= (struct sock
*)obj
;
459 assert( obj
->ops
== &sock_ops
);
461 return check_fd_events( sock
->fd
, sock_get_poll_events( sock
->fd
) ) != 0;
464 static int sock_get_poll_events( struct fd
*fd
)
466 struct sock
*sock
= get_fd_user( fd
);
467 unsigned int mask
= sock
->mask
& sock
->state
& ~sock
->hmask
;
470 assert( sock
->obj
.ops
== &sock_ops
);
472 if (sock
->state
& FD_CONNECT
)
473 /* connecting, wait for writable */
475 if (sock
->state
& FD_WINE_LISTENING
)
476 /* listening, wait for readable */
477 return (sock
->hmask
& FD_ACCEPT
) ? 0 : POLLIN
;
479 if (mask
& FD_READ
|| async_waiting( sock
->read_q
)) ev
|= POLLIN
| POLLPRI
;
480 if (mask
& FD_WRITE
|| async_waiting( sock
->write_q
)) ev
|= POLLOUT
;
481 /* We use POLLIN with 0 bytes recv() as FD_CLOSE indication for stream sockets. */
482 if ( sock
->type
== SOCK_STREAM
&& ( sock
->mask
& ~sock
->hmask
& FD_CLOSE
) )
488 static enum server_fd_type
sock_get_fd_type( struct fd
*fd
)
490 return FD_TYPE_SOCKET
;
493 static void sock_queue_async( struct fd
*fd
, const async_data_t
*data
, int type
, int count
)
495 struct sock
*sock
= get_fd_user( fd
);
496 struct async_queue
*queue
;
499 assert( sock
->obj
.ops
== &sock_ops
);
503 case ASYNC_TYPE_READ
:
504 if (!sock
->read_q
&& !(sock
->read_q
= create_async_queue( sock
->fd
))) return;
505 queue
= sock
->read_q
;
506 sock
->hmask
&= ~FD_CLOSE
;
508 case ASYNC_TYPE_WRITE
:
509 if (!sock
->write_q
&& !(sock
->write_q
= create_async_queue( sock
->fd
))) return;
510 queue
= sock
->write_q
;
513 set_error( STATUS_INVALID_PARAMETER
);
517 if ( ( !( sock
->state
& FD_READ
) && type
== ASYNC_TYPE_READ
) ||
518 ( !( sock
->state
& FD_WRITE
) && type
== ASYNC_TYPE_WRITE
) )
520 set_error( STATUS_PIPE_DISCONNECTED
);
525 if (!(async
= create_async( current
, queue
, data
))) return;
526 release_object( async
);
527 set_error( STATUS_PENDING
);
530 pollev
= sock_reselect( sock
);
531 if ( pollev
) sock_try_event( sock
, pollev
);
534 static void sock_reselect_async( struct fd
*fd
, struct async_queue
*queue
)
536 struct sock
*sock
= get_fd_user( fd
);
537 int events
= sock_reselect( sock
);
538 if (events
) sock_try_event( sock
, events
);
541 static void sock_cancel_async( struct fd
*fd
, struct process
*process
, struct thread
*thread
, client_ptr_t iosb
)
543 struct sock
*sock
= get_fd_user( fd
);
545 assert( sock
->obj
.ops
== &sock_ops
);
547 n
+= async_wake_up_by( sock
->read_q
, process
, thread
, iosb
, STATUS_CANCELLED
);
548 n
+= async_wake_up_by( sock
->write_q
, process
, thread
, iosb
, STATUS_CANCELLED
);
550 set_error( STATUS_NOT_FOUND
);
553 static struct fd
*sock_get_fd( struct object
*obj
)
555 struct sock
*sock
= (struct sock
*)obj
;
556 return (struct fd
*)grab_object( sock
->fd
);
559 static void sock_destroy( struct object
*obj
)
561 struct sock
*sock
= (struct sock
*)obj
;
562 assert( obj
->ops
== &sock_ops
);
564 /* FIXME: special socket shutdown stuff? */
566 if ( sock
->deferred
)
567 release_object( sock
->deferred
);
569 free_async_queue( sock
->read_q
);
570 free_async_queue( sock
->write_q
);
571 if (sock
->event
) release_object( sock
->event
);
574 /* shut the socket down to force pending poll() calls in the client to return */
575 shutdown( get_unix_fd(sock
->fd
), SHUT_RDWR
);
576 release_object( sock
->fd
);
580 /* create a new and unconnected socket */
581 static struct object
*create_socket( int family
, int type
, int protocol
, unsigned int flags
)
586 sockfd
= socket( family
, type
, protocol
);
588 fprintf(stderr
,"socket(%d,%d,%d)=%d\n",family
,type
,protocol
,sockfd
);
594 fcntl(sockfd
, F_SETFL
, O_NONBLOCK
); /* make socket nonblocking */
595 if (!(sock
= alloc_object( &sock_ops
)))
600 sock
->state
= (type
!= SOCK_STREAM
) ? (FD_READ
|FD_WRITE
) : 0;
607 sock
->family
= family
;
612 sock
->deferred
= NULL
;
614 sock
->write_q
= NULL
;
615 if (!(sock
->fd
= create_anonymous_fd( &sock_fd_ops
, sockfd
, &sock
->obj
,
616 (flags
& WSA_FLAG_OVERLAPPED
) ? 0 : FILE_SYNCHRONOUS_IO_NONALERT
)))
618 release_object( sock
);
621 sock_reselect( sock
);
626 /* accept a socket (creates a new fd) */
627 static struct sock
*accept_socket( obj_handle_t handle
)
629 struct sock
*acceptsock
;
632 struct sockaddr saddr
;
634 sock
= (struct sock
*)get_handle_obj( current
->process
, handle
, FILE_READ_DATA
, &sock_ops
);
638 if ( sock
->deferred
)
640 acceptsock
= sock
->deferred
;
641 sock
->deferred
= NULL
;
646 /* Try to accept(2). We can't be safe that this an already connected socket
647 * or that accept() is allowed on it. In those cases we will get -1/errno
650 unsigned int slen
= sizeof(saddr
);
651 acceptfd
= accept( get_unix_fd(sock
->fd
), &saddr
, &slen
);
655 release_object( sock
);
658 if (!(acceptsock
= alloc_object( &sock_ops
)))
661 release_object( sock
);
665 /* newly created socket gets the same properties of the listening socket */
666 fcntl(acceptfd
, F_SETFL
, O_NONBLOCK
); /* make socket nonblocking */
667 acceptsock
->state
= FD_WINE_CONNECTED
|FD_READ
|FD_WRITE
;
668 if (sock
->state
& FD_WINE_NONBLOCKING
)
669 acceptsock
->state
|= FD_WINE_NONBLOCKING
;
670 acceptsock
->mask
= sock
->mask
;
671 acceptsock
->hmask
= 0;
672 acceptsock
->pmask
= 0;
673 acceptsock
->polling
= 0;
674 acceptsock
->type
= sock
->type
;
675 acceptsock
->family
= sock
->family
;
676 acceptsock
->event
= NULL
;
677 acceptsock
->window
= sock
->window
;
678 acceptsock
->message
= sock
->message
;
679 acceptsock
->wparam
= 0;
680 if (sock
->event
) acceptsock
->event
= (struct event
*)grab_object( sock
->event
);
681 acceptsock
->flags
= sock
->flags
;
682 acceptsock
->deferred
= NULL
;
683 acceptsock
->read_q
= NULL
;
684 acceptsock
->write_q
= NULL
;
685 if (!(acceptsock
->fd
= create_anonymous_fd( &sock_fd_ops
, acceptfd
, &acceptsock
->obj
,
686 get_fd_options( sock
->fd
) )))
688 release_object( acceptsock
);
689 release_object( sock
);
694 sock
->pmask
&= ~FD_ACCEPT
;
695 sock
->hmask
&= ~FD_ACCEPT
;
696 sock_reselect( sock
);
697 release_object( sock
);
701 /* set the last error depending on errno */
702 static int sock_get_error( int err
)
706 case EINTR
: return WSAEINTR
;
707 case EBADF
: return WSAEBADF
;
709 case EACCES
: return WSAEACCES
;
710 case EFAULT
: return WSAEFAULT
;
711 case EINVAL
: return WSAEINVAL
;
712 case EMFILE
: return WSAEMFILE
;
713 case EWOULDBLOCK
: return WSAEWOULDBLOCK
;
714 case EINPROGRESS
: return WSAEINPROGRESS
;
715 case EALREADY
: return WSAEALREADY
;
716 case ENOTSOCK
: return WSAENOTSOCK
;
717 case EDESTADDRREQ
: return WSAEDESTADDRREQ
;
718 case EMSGSIZE
: return WSAEMSGSIZE
;
719 case EPROTOTYPE
: return WSAEPROTOTYPE
;
720 case ENOPROTOOPT
: return WSAENOPROTOOPT
;
721 case EPROTONOSUPPORT
: return WSAEPROTONOSUPPORT
;
722 case ESOCKTNOSUPPORT
: return WSAESOCKTNOSUPPORT
;
723 case EOPNOTSUPP
: return WSAEOPNOTSUPP
;
724 case EPFNOSUPPORT
: return WSAEPFNOSUPPORT
;
725 case EAFNOSUPPORT
: return WSAEAFNOSUPPORT
;
726 case EADDRINUSE
: return WSAEADDRINUSE
;
727 case EADDRNOTAVAIL
: return WSAEADDRNOTAVAIL
;
728 case ENETDOWN
: return WSAENETDOWN
;
729 case ENETUNREACH
: return WSAENETUNREACH
;
730 case ENETRESET
: return WSAENETRESET
;
731 case ECONNABORTED
: return WSAECONNABORTED
;
733 case ECONNRESET
: return WSAECONNRESET
;
734 case ENOBUFS
: return WSAENOBUFS
;
735 case EISCONN
: return WSAEISCONN
;
736 case ENOTCONN
: return WSAENOTCONN
;
737 case ESHUTDOWN
: return WSAESHUTDOWN
;
738 case ETOOMANYREFS
: return WSAETOOMANYREFS
;
739 case ETIMEDOUT
: return WSAETIMEDOUT
;
740 case ECONNREFUSED
: return WSAECONNREFUSED
;
741 case ELOOP
: return WSAELOOP
;
742 case ENAMETOOLONG
: return WSAENAMETOOLONG
;
743 case EHOSTDOWN
: return WSAEHOSTDOWN
;
744 case EHOSTUNREACH
: return WSAEHOSTUNREACH
;
745 case ENOTEMPTY
: return WSAENOTEMPTY
;
747 case EPROCLIM
: return WSAEPROCLIM
;
750 case EUSERS
: return WSAEUSERS
;
753 case EDQUOT
: return WSAEDQUOT
;
756 case ESTALE
: return WSAESTALE
;
759 case EREMOTE
: return WSAEREMOTE
;
763 perror("wineserver: sock_get_error() can't map error");
768 /* set the last error depending on errno */
769 static void sock_set_error(void)
771 set_error( sock_get_error( errno
) );
774 /* create a socket */
775 DECL_HANDLER(create_socket
)
780 if ((obj
= create_socket( req
->family
, req
->type
, req
->protocol
, req
->flags
)) != NULL
)
782 reply
->handle
= alloc_handle( current
->process
, obj
, req
->access
, req
->attributes
);
783 release_object( obj
);
787 /* accept a socket */
788 DECL_HANDLER(accept_socket
)
793 if ((sock
= accept_socket( req
->lhandle
)) != NULL
)
795 reply
->handle
= alloc_handle( current
->process
, &sock
->obj
, req
->access
, req
->attributes
);
796 sock
->wparam
= reply
->handle
; /* wparam for message is the socket handle */
797 sock_reselect( sock
);
798 release_object( &sock
->obj
);
802 /* set socket event parameters */
803 DECL_HANDLER(set_socket_event
)
806 struct event
*old_event
;
809 if (!(sock
= (struct sock
*)get_handle_obj( current
->process
, req
->handle
,
810 FILE_WRITE_ATTRIBUTES
, &sock_ops
))) return;
811 old_event
= sock
->event
;
812 sock
->mask
= req
->mask
;
813 sock
->hmask
&= ~req
->mask
; /* re-enable held events */
815 sock
->window
= req
->window
;
816 sock
->message
= req
->msg
;
817 sock
->wparam
= req
->handle
; /* wparam is the socket handle */
818 if (req
->event
) sock
->event
= get_event_obj( current
->process
, req
->event
, EVENT_MODIFY_STATE
);
820 if (debug_level
&& sock
->event
) fprintf(stderr
, "event ptr: %p\n", sock
->event
);
822 pollev
= sock_reselect( sock
);
823 if ( pollev
) sock_try_event( sock
, pollev
);
826 sock
->state
|= FD_WINE_NONBLOCKING
;
828 /* if a network event is pending, signal the event object
829 it is possible that FD_CONNECT or FD_ACCEPT network events has happened
830 before a WSAEventSelect() was done on it.
831 (when dealing with Asynchronous socket) */
832 if (sock
->pmask
& sock
->mask
) sock_wake_up( sock
, pollev
);
834 if (old_event
) release_object( old_event
); /* we're through with it */
835 release_object( &sock
->obj
);
838 /* get socket event parameters */
839 DECL_HANDLER(get_socket_event
)
843 sock
= (struct sock
*)get_handle_obj( current
->process
, req
->handle
, FILE_READ_ATTRIBUTES
, &sock_ops
);
849 set_error( WSAENOTSOCK
);
852 reply
->mask
= sock
->mask
;
853 reply
->pmask
= sock
->pmask
;
854 reply
->state
= sock
->state
;
855 set_reply_data( sock
->errors
, min( get_reply_max_size(), sizeof(sock
->errors
) ));
861 struct event
*cevent
= get_event_obj( current
->process
, req
->c_event
,
862 EVENT_MODIFY_STATE
);
865 reset_event( cevent
);
866 release_object( cevent
);
870 sock_reselect( sock
);
872 release_object( &sock
->obj
);
875 /* re-enable pending socket events */
876 DECL_HANDLER(enable_socket_event
)
881 if (!(sock
= (struct sock
*)get_handle_obj( current
->process
, req
->handle
,
882 FILE_WRITE_ATTRIBUTES
, &sock_ops
)))
885 sock
->pmask
&= ~req
->mask
; /* is this safe? */
886 sock
->hmask
&= ~req
->mask
;
887 if ( req
->mask
& FD_READ
)
888 sock
->hmask
&= ~FD_CLOSE
;
889 sock
->state
|= req
->sstate
;
890 sock
->state
&= ~req
->cstate
;
891 if ( sock
->type
!= SOCK_STREAM
) sock
->state
&= ~STREAM_FLAG_MASK
;
893 pollev
= sock_reselect( sock
);
894 if ( pollev
) sock_try_event( sock
, pollev
);
896 release_object( &sock
->obj
);
899 DECL_HANDLER(set_socket_deferred
)
901 struct sock
*sock
, *acceptsock
;
903 sock
=(struct sock
*)get_handle_obj( current
->process
, req
->handle
, FILE_WRITE_ATTRIBUTES
, &sock_ops
);
906 set_error( WSAENOTSOCK
);
909 acceptsock
= (struct sock
*)get_handle_obj( current
->process
, req
->deferred
, 0, &sock_ops
);
912 release_object( sock
);
913 set_error( WSAENOTSOCK
);
916 sock
->deferred
= acceptsock
;
917 release_object( sock
);