2 * Server-side file descriptor management
4 * Copyright (C) 2000, 2003 Alexandre Julliard
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
23 #include "wine/port.h"
37 #ifdef HAVE_SYS_POLL_H
40 #ifdef HAVE_LINUX_MAJOR_H
41 #include <linux/major.h>
43 #ifdef HAVE_SYS_STATVFS_H
44 #include <sys/statvfs.h>
48 * Solaris defines its system list in sys/list.h.
49 * This need to be workaround it here.
52 #define list_next SYSLIST_NEXT
53 #define list_prev SYSLIST_PREV
54 #define list_head SYSLIST_HEAD
55 #define list_tail SYSLIST_TAIL
56 #define list_move_tail SYSLIST_MOVE_TAIL
57 #define list_remove SYSLIST_REMOVE
67 #ifdef HAVE_SYS_PARAM_H
68 #include <sys/param.h>
70 #ifdef HAVE_SYS_MOUNT_H
71 #include <sys/mount.h>
73 #ifdef HAVE_SYS_STATFS_H
74 #include <sys/statfs.h>
76 #ifdef HAVE_SYS_SYSCTL_H
77 #include <sys/sysctl.h>
79 #ifdef HAVE_SYS_EVENT_H
80 #include <sys/event.h>
89 #include <sys/types.h>
93 #define WIN32_NO_STATUS
100 #include "winternl.h"
101 #include "winioctl.h"
103 #if defined(HAVE_SYS_EPOLL_H) && defined(HAVE_EPOLL_CREATE)
104 # include <sys/epoll.h>
106 #elif defined(linux) && defined(__i386__) && defined(HAVE_STDINT_H)
108 # define EPOLLIN POLLIN
109 # define EPOLLOUT POLLOUT
110 # define EPOLLERR POLLERR
111 # define EPOLLHUP POLLHUP
112 # define EPOLL_CTL_ADD 1
113 # define EPOLL_CTL_DEL 2
114 # define EPOLL_CTL_MOD 3
116 typedef union epoll_data
130 #define SYSCALL_RET(ret) do { \
131 if (ret < 0) { errno = -ret; ret = -1; } \
135 static inline int epoll_create( int size
)
138 __asm__( "pushl %%ebx; movl %2,%%ebx; int $0x80; popl %%ebx"
139 : "=a" (ret
) : "0" (254 /*NR_epoll_create*/), "r" (size
) );
143 static inline int epoll_ctl( int epfd
, int op
, int fd
, const struct epoll_event
*event
)
146 __asm__( "pushl %%ebx; movl %2,%%ebx; int $0x80; popl %%ebx"
148 : "0" (255 /*NR_epoll_ctl*/), "r" (epfd
), "c" (op
), "d" (fd
), "S" (event
), "m" (*event
) );
152 static inline int epoll_wait( int epfd
, struct epoll_event
*events
, int maxevents
, int timeout
)
155 __asm__( "pushl %%ebx; movl %2,%%ebx; int $0x80; popl %%ebx"
157 : "0" (256 /*NR_epoll_wait*/), "r" (epfd
), "c" (events
), "d" (maxevents
), "S" (timeout
)
163 #endif /* linux && __i386__ && HAVE_STDINT_H */
166 /* Because of the stupid Posix locking semantics, we need to keep
167 * track of all file descriptors referencing a given file, and not
168 * close a single one until all the locks are gone (sigh).
171 /* file descriptor object */
173 /* closed_fd is used to keep track of the unix fd belonging to a closed fd object */
176 struct list entry
; /* entry in inode closed list */
177 int unix_fd
; /* the unix file descriptor */
178 char unlink
[1]; /* name to unlink on close (if any) */
183 struct object obj
; /* object header */
184 const struct fd_ops
*fd_ops
; /* file descriptor operations */
185 struct inode
*inode
; /* inode that this fd belongs to */
186 struct list inode_entry
; /* entry in inode fd list */
187 struct closed_fd
*closed
; /* structure to store the unix fd at destroy time */
188 struct object
*user
; /* object using this file descriptor */
189 struct list locks
; /* list of locks on this fd */
190 unsigned int access
; /* file access (FILE_READ_DATA etc.) */
191 unsigned int options
; /* file options (FILE_DELETE_ON_CLOSE, FILE_SYNCHRONOUS...) */
192 unsigned int sharing
; /* file sharing mode */
193 int unix_fd
; /* unix file descriptor */
194 unsigned int no_fd_status
;/* status to return when unix_fd is -1 */
195 int signaled
:1; /* is the fd signaled? */
196 int fs_locks
:1; /* can we use filesystem locks for this fd? */
197 int poll_index
; /* index of fd in poll array */
198 struct async_queue
*read_q
; /* async readers of this fd */
199 struct async_queue
*write_q
; /* async writers of this fd */
200 struct async_queue
*wait_q
; /* other async waiters of this fd */
201 struct completion
*completion
; /* completion object attached to this fd */
202 apc_param_t comp_key
; /* completion key to set in completion events */
205 static void fd_dump( struct object
*obj
, int verbose
);
206 static void fd_destroy( struct object
*obj
);
208 static const struct object_ops fd_ops
=
210 sizeof(struct fd
), /* size */
212 no_get_type
, /* get_type */
213 no_add_queue
, /* add_queue */
214 NULL
, /* remove_queue */
216 NULL
, /* satisfied */
217 no_signal
, /* signal */
218 no_get_fd
, /* get_fd */
219 no_map_access
, /* map_access */
220 default_get_sd
, /* get_sd */
221 default_set_sd
, /* set_sd */
222 no_lookup_name
, /* lookup_name */
223 no_open_file
, /* open_file */
224 no_close_handle
, /* close_handle */
225 fd_destroy
/* destroy */
230 #define DEVICE_HASH_SIZE 7
231 #define INODE_HASH_SIZE 17
235 struct object obj
; /* object header */
236 struct list entry
; /* entry in device hash list */
237 dev_t dev
; /* device number */
238 int removable
; /* removable device? (or -1 if unknown) */
239 struct list inode_hash
[INODE_HASH_SIZE
]; /* inodes hash table */
242 static void device_dump( struct object
*obj
, int verbose
);
243 static void device_destroy( struct object
*obj
);
245 static const struct object_ops device_ops
=
247 sizeof(struct device
), /* size */
248 device_dump
, /* dump */
249 no_get_type
, /* get_type */
250 no_add_queue
, /* add_queue */
251 NULL
, /* remove_queue */
253 NULL
, /* satisfied */
254 no_signal
, /* signal */
255 no_get_fd
, /* get_fd */
256 no_map_access
, /* map_access */
257 default_get_sd
, /* get_sd */
258 default_set_sd
, /* set_sd */
259 no_lookup_name
, /* lookup_name */
260 no_open_file
, /* open_file */
261 no_close_handle
, /* close_handle */
262 device_destroy
/* destroy */
269 struct object obj
; /* object header */
270 struct list entry
; /* inode hash list entry */
271 struct device
*device
; /* device containing this inode */
272 ino_t ino
; /* inode number */
273 struct list open
; /* list of open file descriptors */
274 struct list locks
; /* list of file locks */
275 struct list closed
; /* list of file descriptors to close at destroy time */
278 static void inode_dump( struct object
*obj
, int verbose
);
279 static void inode_destroy( struct object
*obj
);
281 static const struct object_ops inode_ops
=
283 sizeof(struct inode
), /* size */
284 inode_dump
, /* dump */
285 no_get_type
, /* get_type */
286 no_add_queue
, /* add_queue */
287 NULL
, /* remove_queue */
289 NULL
, /* satisfied */
290 no_signal
, /* signal */
291 no_get_fd
, /* get_fd */
292 no_map_access
, /* map_access */
293 default_get_sd
, /* get_sd */
294 default_set_sd
, /* set_sd */
295 no_lookup_name
, /* lookup_name */
296 no_open_file
, /* open_file */
297 no_close_handle
, /* close_handle */
298 inode_destroy
/* destroy */
301 /* file lock object */
305 struct object obj
; /* object header */
306 struct fd
*fd
; /* fd owning this lock */
307 struct list fd_entry
; /* entry in list of locks on a given fd */
308 struct list inode_entry
; /* entry in inode list of locks */
309 int shared
; /* shared lock? */
310 file_pos_t start
; /* locked region is interval [start;end) */
312 struct process
*process
; /* process owning this lock */
313 struct list proc_entry
; /* entry in list of locks owned by the process */
316 static void file_lock_dump( struct object
*obj
, int verbose
);
317 static int file_lock_signaled( struct object
*obj
, struct thread
*thread
);
319 static const struct object_ops file_lock_ops
=
321 sizeof(struct file_lock
), /* size */
322 file_lock_dump
, /* dump */
323 no_get_type
, /* get_type */
324 add_queue
, /* add_queue */
325 remove_queue
, /* remove_queue */
326 file_lock_signaled
, /* signaled */
327 no_satisfied
, /* satisfied */
328 no_signal
, /* signal */
329 no_get_fd
, /* get_fd */
330 no_map_access
, /* map_access */
331 default_get_sd
, /* get_sd */
332 default_set_sd
, /* set_sd */
333 no_lookup_name
, /* lookup_name */
334 no_open_file
, /* open_file */
335 no_close_handle
, /* close_handle */
336 no_destroy
/* destroy */
340 #define OFF_T_MAX (~((file_pos_t)1 << (8*sizeof(off_t)-1)))
341 #define FILE_POS_T_MAX (~(file_pos_t)0)
343 static file_pos_t max_unix_offset
= OFF_T_MAX
;
345 #define DUMP_LONG_LONG(val) do { \
346 if (sizeof(val) > sizeof(unsigned long) && (val) > ~0UL) \
347 fprintf( stderr, "%lx%08lx", (unsigned long)((unsigned long long)(val) >> 32), (unsigned long)(val) ); \
349 fprintf( stderr, "%lx", (unsigned long)(val) ); \
354 /****************************************************************/
355 /* timeouts support */
359 struct list entry
; /* entry in sorted timeout list */
360 timeout_t when
; /* timeout expiry (absolute time) */
361 timeout_callback callback
; /* callback function */
362 void *private; /* callback private data */
365 static struct list timeout_list
= LIST_INIT(timeout_list
); /* sorted timeouts list */
366 timeout_t current_time
;
368 static inline void set_current_time(void)
370 static const timeout_t ticks_1601_to_1970
= (timeout_t
)86400 * (369 * 365 + 89) * TICKS_PER_SEC
;
372 gettimeofday( &now
, NULL
);
373 current_time
= (timeout_t
)now
.tv_sec
* TICKS_PER_SEC
+ now
.tv_usec
* 10 + ticks_1601_to_1970
;
376 /* add a timeout user */
377 struct timeout_user
*add_timeout_user( timeout_t when
, timeout_callback func
, void *private )
379 struct timeout_user
*user
;
382 if (!(user
= mem_alloc( sizeof(*user
) ))) return NULL
;
383 user
->when
= (when
> 0) ? when
: current_time
- when
;
384 user
->callback
= func
;
385 user
->private = private;
387 /* Now insert it in the linked list */
389 LIST_FOR_EACH( ptr
, &timeout_list
)
391 struct timeout_user
*timeout
= LIST_ENTRY( ptr
, struct timeout_user
, entry
);
392 if (timeout
->when
>= user
->when
) break;
394 list_add_before( ptr
, &user
->entry
);
398 /* remove a timeout user */
399 void remove_timeout_user( struct timeout_user
*user
)
401 list_remove( &user
->entry
);
405 /* return a text description of a timeout for debugging purposes */
406 const char *get_timeout_str( timeout_t timeout
)
408 static char buffer
[64];
411 if (!timeout
) return "0";
412 if (timeout
== TIMEOUT_INFINITE
) return "infinite";
414 if (timeout
< 0) /* relative */
416 secs
= -timeout
/ TICKS_PER_SEC
;
417 nsecs
= -timeout
% TICKS_PER_SEC
;
418 sprintf( buffer
, "+%ld.%07ld", secs
, nsecs
);
422 secs
= (timeout
- current_time
) / TICKS_PER_SEC
;
423 nsecs
= (timeout
- current_time
) % TICKS_PER_SEC
;
426 nsecs
+= TICKS_PER_SEC
;
430 sprintf( buffer
, "%x%08x (+%ld.%07ld)",
431 (unsigned int)(timeout
>> 32), (unsigned int)timeout
, secs
, nsecs
);
433 sprintf( buffer
, "%x%08x (-%ld.%07ld)",
434 (unsigned int)(timeout
>> 32), (unsigned int)timeout
,
435 -(secs
+ 1), TICKS_PER_SEC
- nsecs
);
441 /****************************************************************/
444 static struct fd
**poll_users
; /* users array */
445 static struct pollfd
*pollfd
; /* poll fd array */
446 static int nb_users
; /* count of array entries actually in use */
447 static int active_users
; /* current number of active users */
448 static int allocated_users
; /* count of allocated entries in the array */
449 static struct fd
**freelist
; /* list of free entries in the array */
451 static int get_next_timeout(void);
453 static inline void fd_poll_event( struct fd
*fd
, int event
)
455 fd
->fd_ops
->poll_event( fd
, event
);
460 static int epoll_fd
= -1;
462 static inline void init_epoll(void)
464 epoll_fd
= epoll_create( 128 );
467 /* set the events that epoll waits for on this fd; helper for set_fd_events */
468 static inline void set_fd_epoll_events( struct fd
*fd
, int user
, int events
)
470 struct epoll_event ev
;
473 if (epoll_fd
== -1) return;
475 if (events
== -1) /* stop waiting on this fd completely */
477 if (pollfd
[user
].fd
== -1) return; /* already removed */
480 else if (pollfd
[user
].fd
== -1)
482 if (pollfd
[user
].events
) return; /* stopped waiting on it, don't restart */
487 if (pollfd
[user
].events
== events
) return; /* nothing to do */
492 memset(&ev
.data
, 0, sizeof(ev
.data
));
495 if (epoll_ctl( epoll_fd
, ctl
, fd
->unix_fd
, &ev
) == -1)
497 if (errno
== ENOMEM
) /* not enough memory, give up on epoll */
502 else perror( "epoll_ctl" ); /* should not happen */
506 static inline void remove_epoll_user( struct fd
*fd
, int user
)
508 if (epoll_fd
== -1) return;
510 if (pollfd
[user
].fd
!= -1)
512 struct epoll_event dummy
;
513 epoll_ctl( epoll_fd
, EPOLL_CTL_DEL
, fd
->unix_fd
, &dummy
);
517 static inline void main_loop_epoll(void)
520 struct epoll_event events
[128];
522 assert( POLLIN
== EPOLLIN
);
523 assert( POLLOUT
== EPOLLOUT
);
524 assert( POLLERR
== EPOLLERR
);
525 assert( POLLHUP
== EPOLLHUP
);
527 if (epoll_fd
== -1) return;
531 timeout
= get_next_timeout();
533 if (!active_users
) break; /* last user removed by a timeout */
534 if (epoll_fd
== -1) break; /* an error occurred with epoll */
536 ret
= epoll_wait( epoll_fd
, events
, sizeof(events
)/sizeof(events
[0]), timeout
);
539 /* put the events into the pollfd array first, like poll does */
540 for (i
= 0; i
< ret
; i
++)
542 int user
= events
[i
].data
.u32
;
543 pollfd
[user
].revents
= events
[i
].events
;
546 /* read events from the pollfd array, as set_fd_events may modify them */
547 for (i
= 0; i
< ret
; i
++)
549 int user
= events
[i
].data
.u32
;
550 if (pollfd
[user
].revents
) fd_poll_event( poll_users
[user
], pollfd
[user
].revents
);
555 #elif defined(HAVE_KQUEUE)
557 static int kqueue_fd
= -1;
559 static inline void init_epoll(void)
561 #ifdef __APPLE__ /* kqueue support is broken in Mac OS < 10.5 */
564 size_t len
= sizeof(release
);
567 mib
[1] = KERN_OSRELEASE
;
568 if (sysctl( mib
, 2, release
, &len
, NULL
, 0 ) == -1) return;
569 if (atoi(release
) < 9) return;
571 kqueue_fd
= kqueue();
574 static inline void set_fd_epoll_events( struct fd
*fd
, int user
, int events
)
578 if (kqueue_fd
== -1) return;
580 EV_SET( &ev
[0], fd
->unix_fd
, EVFILT_READ
, 0, NOTE_LOWAT
, 1, (void *)user
);
581 EV_SET( &ev
[1], fd
->unix_fd
, EVFILT_WRITE
, 0, NOTE_LOWAT
, 1, (void *)user
);
583 if (events
== -1) /* stop waiting on this fd completely */
585 if (pollfd
[user
].fd
== -1) return; /* already removed */
586 ev
[0].flags
|= EV_DELETE
;
587 ev
[1].flags
|= EV_DELETE
;
589 else if (pollfd
[user
].fd
== -1)
591 if (pollfd
[user
].events
) return; /* stopped waiting on it, don't restart */
592 ev
[0].flags
|= EV_ADD
| ((events
& POLLIN
) ? EV_ENABLE
: EV_DISABLE
);
593 ev
[1].flags
|= EV_ADD
| ((events
& POLLOUT
) ? EV_ENABLE
: EV_DISABLE
);
597 if (pollfd
[user
].events
== events
) return; /* nothing to do */
598 ev
[0].flags
|= (events
& POLLIN
) ? EV_ENABLE
: EV_DISABLE
;
599 ev
[1].flags
|= (events
& POLLOUT
) ? EV_ENABLE
: EV_DISABLE
;
602 if (kevent( kqueue_fd
, ev
, 2, NULL
, 0, NULL
) == -1)
604 if (errno
== ENOMEM
) /* not enough memory, give up on kqueue */
609 else perror( "kevent" ); /* should not happen */
613 static inline void remove_epoll_user( struct fd
*fd
, int user
)
615 if (kqueue_fd
== -1) return;
617 if (pollfd
[user
].fd
!= -1)
621 EV_SET( &ev
[0], fd
->unix_fd
, EVFILT_READ
, EV_DELETE
, 0, 0, 0 );
622 EV_SET( &ev
[1], fd
->unix_fd
, EVFILT_WRITE
, EV_DELETE
, 0, 0, 0 );
623 kevent( kqueue_fd
, ev
, 2, NULL
, 0, NULL
);
627 static inline void main_loop_epoll(void)
630 struct kevent events
[128];
632 if (kqueue_fd
== -1) return;
636 timeout
= get_next_timeout();
638 if (!active_users
) break; /* last user removed by a timeout */
639 if (kqueue_fd
== -1) break; /* an error occurred with kqueue */
645 ts
.tv_sec
= timeout
/ 1000;
646 ts
.tv_nsec
= (timeout
% 1000) * 1000000;
647 ret
= kevent( kqueue_fd
, NULL
, 0, events
, sizeof(events
)/sizeof(events
[0]), &ts
);
649 else ret
= kevent( kqueue_fd
, NULL
, 0, events
, sizeof(events
)/sizeof(events
[0]), NULL
);
653 /* put the events into the pollfd array first, like poll does */
654 for (i
= 0; i
< ret
; i
++)
656 long user
= (long)events
[i
].udata
;
657 pollfd
[user
].revents
= 0;
659 for (i
= 0; i
< ret
; i
++)
661 long user
= (long)events
[i
].udata
;
662 if (events
[i
].filter
== EVFILT_READ
) pollfd
[user
].revents
|= POLLIN
;
663 else if (events
[i
].filter
== EVFILT_WRITE
) pollfd
[user
].revents
|= POLLOUT
;
664 if (events
[i
].flags
& EV_EOF
) pollfd
[user
].revents
|= POLLHUP
;
665 if (events
[i
].flags
& EV_ERROR
) pollfd
[user
].revents
|= POLLERR
;
668 /* read events from the pollfd array, as set_fd_events may modify them */
669 for (i
= 0; i
< ret
; i
++)
671 long user
= (long)events
[i
].udata
;
672 if (pollfd
[user
].revents
) fd_poll_event( poll_users
[user
], pollfd
[user
].revents
);
673 pollfd
[user
].revents
= 0;
678 #else /* HAVE_KQUEUE */
680 static inline void init_epoll(void) { }
681 static inline void set_fd_epoll_events( struct fd
*fd
, int user
, int events
) { }
682 static inline void remove_epoll_user( struct fd
*fd
, int user
) { }
683 static inline void main_loop_epoll(void) { }
685 #endif /* USE_EPOLL */
688 /* add a user in the poll array and return its index, or -1 on failure */
689 static int add_poll_user( struct fd
*fd
)
694 ret
= freelist
- poll_users
;
695 freelist
= (struct fd
**)poll_users
[ret
];
699 if (nb_users
== allocated_users
)
701 struct fd
**newusers
;
702 struct pollfd
*newpoll
;
703 int new_count
= allocated_users
? (allocated_users
+ allocated_users
/ 2) : 16;
704 if (!(newusers
= realloc( poll_users
, new_count
* sizeof(*poll_users
) ))) return -1;
705 if (!(newpoll
= realloc( pollfd
, new_count
* sizeof(*pollfd
) )))
708 poll_users
= newusers
;
713 poll_users
= newusers
;
715 if (!allocated_users
) init_epoll();
716 allocated_users
= new_count
;
721 pollfd
[ret
].events
= 0;
722 pollfd
[ret
].revents
= 0;
723 poll_users
[ret
] = fd
;
728 /* remove a user from the poll list */
729 static void remove_poll_user( struct fd
*fd
, int user
)
732 assert( poll_users
[user
] == fd
);
734 remove_epoll_user( fd
, user
);
735 pollfd
[user
].fd
= -1;
736 pollfd
[user
].events
= 0;
737 pollfd
[user
].revents
= 0;
738 poll_users
[user
] = (struct fd
*)freelist
;
739 freelist
= &poll_users
[user
];
743 /* process pending timeouts and return the time until the next timeout, in milliseconds */
744 static int get_next_timeout(void)
746 if (!list_empty( &timeout_list
))
748 struct list expired_list
, *ptr
;
750 /* first remove all expired timers from the list */
752 list_init( &expired_list
);
753 while ((ptr
= list_head( &timeout_list
)) != NULL
)
755 struct timeout_user
*timeout
= LIST_ENTRY( ptr
, struct timeout_user
, entry
);
757 if (timeout
->when
<= current_time
)
759 list_remove( &timeout
->entry
);
760 list_add_tail( &expired_list
, &timeout
->entry
);
765 /* now call the callback for all the removed timers */
767 while ((ptr
= list_head( &expired_list
)) != NULL
)
769 struct timeout_user
*timeout
= LIST_ENTRY( ptr
, struct timeout_user
, entry
);
770 list_remove( &timeout
->entry
);
771 timeout
->callback( timeout
->private );
775 if ((ptr
= list_head( &timeout_list
)) != NULL
)
777 struct timeout_user
*timeout
= LIST_ENTRY( ptr
, struct timeout_user
, entry
);
778 int diff
= (timeout
->when
- current_time
+ 9999) / 10000;
779 if (diff
< 0) diff
= 0;
783 return -1; /* no pending timeouts */
786 /* server main poll() loop */
792 server_start_time
= current_time
;
795 /* fall through to normal poll loop */
799 timeout
= get_next_timeout();
801 if (!active_users
) break; /* last user removed by a timeout */
803 ret
= poll( pollfd
, nb_users
, timeout
);
808 for (i
= 0; i
< nb_users
; i
++)
810 if (pollfd
[i
].revents
)
812 fd_poll_event( poll_users
[i
], pollfd
[i
].revents
);
821 /****************************************************************/
822 /* device functions */
824 static struct list device_hash
[DEVICE_HASH_SIZE
];
826 static int is_device_removable( dev_t dev
, int unix_fd
)
828 #if defined(linux) && defined(HAVE_FSTATFS)
831 /* check for floppy disk */
832 if (major(dev
) == FLOPPY_MAJOR
) return 1;
834 if (fstatfs( unix_fd
, &stfs
) == -1) return 0;
835 return (stfs
.f_type
== 0x9660 || /* iso9660 */
836 stfs
.f_type
== 0x9fa1 || /* supermount */
837 stfs
.f_type
== 0x15013346); /* udf */
838 #elif defined(__FreeBSD__) || defined(__FreeBSD_kernel__) || defined(__APPLE__)
841 if (fstatfs( unix_fd
, &stfs
) == -1) return 0;
842 return (!strcmp("cd9660", stfs
.f_fstypename
) || !strcmp("udf", stfs
.f_fstypename
));
843 #elif defined(__NetBSD__)
846 if (fstatvfs( unix_fd
, &stfs
) == -1) return 0;
847 return (!strcmp("cd9660", stfs
.f_fstypename
) || !strcmp("udf", stfs
.f_fstypename
));
849 # include <sys/dkio.h>
850 # include <sys/vtoc.h>
851 struct dk_cinfo dkinf
;
852 if (ioctl( unix_fd
, DKIOCINFO
, &dkinf
) == -1) return 0;
853 return (dkinf
.dki_ctype
== DKC_CDROM
||
854 dkinf
.dki_ctype
== DKC_NCRFLOPPY
||
855 dkinf
.dki_ctype
== DKC_SMSFLOPPY
||
856 dkinf
.dki_ctype
== DKC_INTEL82072
||
857 dkinf
.dki_ctype
== DKC_INTEL82077
);
863 /* retrieve the device object for a given fd, creating it if needed */
864 static struct device
*get_device( dev_t dev
, int unix_fd
)
866 struct device
*device
;
867 unsigned int i
, hash
= dev
% DEVICE_HASH_SIZE
;
869 if (device_hash
[hash
].next
)
871 LIST_FOR_EACH_ENTRY( device
, &device_hash
[hash
], struct device
, entry
)
872 if (device
->dev
== dev
) return (struct device
*)grab_object( device
);
874 else list_init( &device_hash
[hash
] );
876 /* not found, create it */
878 if (unix_fd
== -1) return NULL
;
879 if ((device
= alloc_object( &device_ops
)))
882 device
->removable
= is_device_removable( dev
, unix_fd
);
883 for (i
= 0; i
< INODE_HASH_SIZE
; i
++) list_init( &device
->inode_hash
[i
] );
884 list_add_head( &device_hash
[hash
], &device
->entry
);
889 static void device_dump( struct object
*obj
, int verbose
)
891 struct device
*device
= (struct device
*)obj
;
892 fprintf( stderr
, "Device dev=" );
893 DUMP_LONG_LONG( device
->dev
);
894 fprintf( stderr
, "\n" );
897 static void device_destroy( struct object
*obj
)
899 struct device
*device
= (struct device
*)obj
;
902 for (i
= 0; i
< INODE_HASH_SIZE
; i
++)
903 assert( list_empty(&device
->inode_hash
[i
]) );
905 list_remove( &device
->entry
); /* remove it from the hash table */
909 /****************************************************************/
910 /* inode functions */
912 /* close all pending file descriptors in the closed list */
913 static void inode_close_pending( struct inode
*inode
, int keep_unlinks
)
915 struct list
*ptr
= list_head( &inode
->closed
);
919 struct closed_fd
*fd
= LIST_ENTRY( ptr
, struct closed_fd
, entry
);
920 struct list
*next
= list_next( &inode
->closed
, ptr
);
922 if (fd
->unix_fd
!= -1)
924 close( fd
->unix_fd
);
927 if (!keep_unlinks
|| !fd
->unlink
[0]) /* get rid of it unless there's an unlink pending on that file */
936 static void inode_dump( struct object
*obj
, int verbose
)
938 struct inode
*inode
= (struct inode
*)obj
;
939 fprintf( stderr
, "Inode device=%p ino=", inode
->device
);
940 DUMP_LONG_LONG( inode
->ino
);
941 fprintf( stderr
, "\n" );
944 static void inode_destroy( struct object
*obj
)
946 struct inode
*inode
= (struct inode
*)obj
;
949 assert( list_empty(&inode
->open
) );
950 assert( list_empty(&inode
->locks
) );
952 list_remove( &inode
->entry
);
954 while ((ptr
= list_head( &inode
->closed
)))
956 struct closed_fd
*fd
= LIST_ENTRY( ptr
, struct closed_fd
, entry
);
958 if (fd
->unix_fd
!= -1) close( fd
->unix_fd
);
961 /* make sure it is still the same file */
963 if (!stat( fd
->unlink
, &st
) && st
.st_dev
== inode
->device
->dev
&& st
.st_ino
== inode
->ino
)
965 if (S_ISDIR(st
.st_mode
)) rmdir( fd
->unlink
);
966 else unlink( fd
->unlink
);
971 release_object( inode
->device
);
974 /* retrieve the inode object for a given fd, creating it if needed */
975 static struct inode
*get_inode( dev_t dev
, ino_t ino
, int unix_fd
)
977 struct device
*device
;
979 unsigned int hash
= ino
% INODE_HASH_SIZE
;
981 if (!(device
= get_device( dev
, unix_fd
))) return NULL
;
983 LIST_FOR_EACH_ENTRY( inode
, &device
->inode_hash
[hash
], struct inode
, entry
)
985 if (inode
->ino
== ino
)
987 release_object( device
);
988 return (struct inode
*)grab_object( inode
);
992 /* not found, create it */
993 if ((inode
= alloc_object( &inode_ops
)))
995 inode
->device
= device
;
997 list_init( &inode
->open
);
998 list_init( &inode
->locks
);
999 list_init( &inode
->closed
);
1000 list_add_head( &device
->inode_hash
[hash
], &inode
->entry
);
1002 else release_object( device
);
1007 /* add fd to the inode list of file descriptors to close */
1008 static void inode_add_closed_fd( struct inode
*inode
, struct closed_fd
*fd
)
1010 if (!list_empty( &inode
->locks
))
1012 list_add_head( &inode
->closed
, &fd
->entry
);
1014 else if (fd
->unlink
[0]) /* close the fd but keep the structure around for unlink */
1016 if (fd
->unix_fd
!= -1) close( fd
->unix_fd
);
1018 list_add_head( &inode
->closed
, &fd
->entry
);
1020 else /* no locks on this inode and no unlink, get rid of the fd */
1022 if (fd
->unix_fd
!= -1) close( fd
->unix_fd
);
1028 /****************************************************************/
1029 /* file lock functions */
1031 static void file_lock_dump( struct object
*obj
, int verbose
)
1033 struct file_lock
*lock
= (struct file_lock
*)obj
;
1034 fprintf( stderr
, "Lock %s fd=%p proc=%p start=",
1035 lock
->shared
? "shared" : "excl", lock
->fd
, lock
->process
);
1036 DUMP_LONG_LONG( lock
->start
);
1037 fprintf( stderr
, " end=" );
1038 DUMP_LONG_LONG( lock
->end
);
1039 fprintf( stderr
, "\n" );
1042 static int file_lock_signaled( struct object
*obj
, struct thread
*thread
)
1044 struct file_lock
*lock
= (struct file_lock
*)obj
;
1045 /* lock is signaled if it has lost its owner */
1046 return !lock
->process
;
1049 /* set (or remove) a Unix lock if possible for the given range */
1050 static int set_unix_lock( struct fd
*fd
, file_pos_t start
, file_pos_t end
, int type
)
1054 if (!fd
->fs_locks
) return 1; /* no fs locks possible for this fd */
1057 if (start
== end
) return 1; /* can't set zero-byte lock */
1058 if (start
> max_unix_offset
) return 1; /* ignore it */
1060 fl
.l_whence
= SEEK_SET
;
1062 if (!end
|| end
> max_unix_offset
) fl
.l_len
= 0;
1063 else fl
.l_len
= end
- start
;
1064 if (fcntl( fd
->unix_fd
, F_SETLK
, &fl
) != -1) return 1;
1069 /* check whether locks work at all on this file system */
1070 if (fcntl( fd
->unix_fd
, F_GETLK
, &fl
) != -1)
1072 set_error( STATUS_FILE_LOCK_CONFLICT
);
1078 /* no locking on this fs, just ignore it */
1082 set_error( STATUS_FILE_LOCK_CONFLICT
);
1085 /* this can happen if we try to set a write lock on a read-only file */
1086 /* we just ignore that error */
1087 if (fl
.l_type
== F_WRLCK
) return 1;
1088 set_error( STATUS_ACCESS_DENIED
);
1094 /* this can happen if off_t is 64-bit but the kernel only supports 32-bit */
1095 /* in that case we shrink the limit and retry */
1096 if (max_unix_offset
> INT_MAX
)
1098 max_unix_offset
= INT_MAX
;
1109 /* check if interval [start;end) overlaps the lock */
1110 static inline int lock_overlaps( struct file_lock
*lock
, file_pos_t start
, file_pos_t end
)
1112 if (lock
->end
&& start
>= lock
->end
) return 0;
1113 if (end
&& lock
->start
>= end
) return 0;
1117 /* remove Unix locks for all bytes in the specified area that are no longer locked */
1118 static void remove_unix_locks( struct fd
*fd
, file_pos_t start
, file_pos_t end
)
1126 } *first
, *cur
, *next
, *buffer
;
1131 if (!fd
->inode
) return;
1132 if (!fd
->fs_locks
) return;
1133 if (start
== end
|| start
> max_unix_offset
) return;
1134 if (!end
|| end
> max_unix_offset
) end
= max_unix_offset
+ 1;
1136 /* count the number of locks overlapping the specified area */
1138 LIST_FOR_EACH( ptr
, &fd
->inode
->locks
)
1140 struct file_lock
*lock
= LIST_ENTRY( ptr
, struct file_lock
, inode_entry
);
1141 if (lock
->start
== lock
->end
) continue;
1142 if (lock_overlaps( lock
, start
, end
)) count
++;
1145 if (!count
) /* no locks at all, we can unlock everything */
1147 set_unix_lock( fd
, start
, end
, F_UNLCK
);
1151 /* allocate space for the list of holes */
1152 /* max. number of holes is number of locks + 1 */
1154 if (!(buffer
= malloc( sizeof(*buffer
) * (count
+1) ))) return;
1158 first
->start
= start
;
1162 /* build a sorted list of unlocked holes in the specified area */
1164 LIST_FOR_EACH( ptr
, &fd
->inode
->locks
)
1166 struct file_lock
*lock
= LIST_ENTRY( ptr
, struct file_lock
, inode_entry
);
1167 if (lock
->start
== lock
->end
) continue;
1168 if (!lock_overlaps( lock
, start
, end
)) continue;
1170 /* go through all the holes touched by this lock */
1171 for (cur
= first
; cur
; cur
= cur
->next
)
1173 if (cur
->end
<= lock
->start
) continue; /* hole is before start of lock */
1174 if (lock
->end
&& cur
->start
>= lock
->end
) break; /* hole is after end of lock */
1176 /* now we know that lock is overlapping hole */
1178 if (cur
->start
>= lock
->start
) /* lock starts before hole, shrink from start */
1180 cur
->start
= lock
->end
;
1181 if (cur
->start
&& cur
->start
< cur
->end
) break; /* done with this lock */
1182 /* now hole is empty, remove it */
1183 if (cur
->next
) cur
->next
->prev
= cur
->prev
;
1184 if (cur
->prev
) cur
->prev
->next
= cur
->next
;
1185 else if (!(first
= cur
->next
)) goto done
; /* no more holes at all */
1187 else if (!lock
->end
|| cur
->end
<= lock
->end
) /* lock larger than hole, shrink from end */
1189 cur
->end
= lock
->start
;
1190 assert( cur
->start
< cur
->end
);
1192 else /* lock is in the middle of hole, split hole in two */
1195 next
->next
= cur
->next
;
1197 next
->start
= lock
->end
;
1198 next
->end
= cur
->end
;
1199 cur
->end
= lock
->start
;
1200 assert( next
->start
< next
->end
);
1201 assert( cur
->end
< next
->start
);
1203 break; /* done with this lock */
1208 /* clear Unix locks for all the holes */
1210 for (cur
= first
; cur
; cur
= cur
->next
)
1211 set_unix_lock( fd
, cur
->start
, cur
->end
, F_UNLCK
);
1217 /* create a new lock on a fd */
1218 static struct file_lock
*add_lock( struct fd
*fd
, int shared
, file_pos_t start
, file_pos_t end
)
1220 struct file_lock
*lock
;
1222 if (!(lock
= alloc_object( &file_lock_ops
))) return NULL
;
1223 lock
->shared
= shared
;
1224 lock
->start
= start
;
1227 lock
->process
= current
->process
;
1229 /* now try to set a Unix lock */
1230 if (!set_unix_lock( lock
->fd
, lock
->start
, lock
->end
, lock
->shared
? F_RDLCK
: F_WRLCK
))
1232 release_object( lock
);
1235 list_add_head( &fd
->locks
, &lock
->fd_entry
);
1236 list_add_head( &fd
->inode
->locks
, &lock
->inode_entry
);
1237 list_add_head( &lock
->process
->locks
, &lock
->proc_entry
);
1241 /* remove an existing lock */
1242 static void remove_lock( struct file_lock
*lock
, int remove_unix
)
1244 struct inode
*inode
= lock
->fd
->inode
;
1246 list_remove( &lock
->fd_entry
);
1247 list_remove( &lock
->inode_entry
);
1248 list_remove( &lock
->proc_entry
);
1249 if (remove_unix
) remove_unix_locks( lock
->fd
, lock
->start
, lock
->end
);
1250 if (list_empty( &inode
->locks
)) inode_close_pending( inode
, 1 );
1251 lock
->process
= NULL
;
1252 wake_up( &lock
->obj
, 0 );
1253 release_object( lock
);
1256 /* remove all locks owned by a given process */
1257 void remove_process_locks( struct process
*process
)
1261 while ((ptr
= list_head( &process
->locks
)))
1263 struct file_lock
*lock
= LIST_ENTRY( ptr
, struct file_lock
, proc_entry
);
1264 remove_lock( lock
, 1 ); /* this removes it from the list */
1268 /* remove all locks on a given fd */
1269 static void remove_fd_locks( struct fd
*fd
)
1271 file_pos_t start
= FILE_POS_T_MAX
, end
= 0;
1274 while ((ptr
= list_head( &fd
->locks
)))
1276 struct file_lock
*lock
= LIST_ENTRY( ptr
, struct file_lock
, fd_entry
);
1277 if (lock
->start
< start
) start
= lock
->start
;
1278 if (!lock
->end
|| lock
->end
> end
) end
= lock
->end
- 1;
1279 remove_lock( lock
, 0 );
1281 if (start
< end
) remove_unix_locks( fd
, start
, end
+ 1 );
1284 /* add a lock on an fd */
1285 /* returns handle to wait on */
1286 obj_handle_t
lock_fd( struct fd
*fd
, file_pos_t start
, file_pos_t count
, int shared
, int wait
)
1289 file_pos_t end
= start
+ count
;
1291 if (!fd
->inode
) /* not a regular file */
1293 set_error( STATUS_INVALID_DEVICE_REQUEST
);
1297 /* don't allow wrapping locks */
1298 if (end
&& end
< start
)
1300 set_error( STATUS_INVALID_PARAMETER
);
1304 /* check if another lock on that file overlaps the area */
1305 LIST_FOR_EACH( ptr
, &fd
->inode
->locks
)
1307 struct file_lock
*lock
= LIST_ENTRY( ptr
, struct file_lock
, inode_entry
);
1308 if (!lock_overlaps( lock
, start
, end
)) continue;
1309 if (lock
->shared
&& shared
) continue;
1313 set_error( STATUS_FILE_LOCK_CONFLICT
);
1316 set_error( STATUS_PENDING
);
1317 return alloc_handle( current
->process
, lock
, SYNCHRONIZE
, 0 );
1320 /* not found, add it */
1321 if (add_lock( fd
, shared
, start
, end
)) return 0;
1322 if (get_error() == STATUS_FILE_LOCK_CONFLICT
)
1324 /* Unix lock conflict -> tell client to wait and retry */
1325 if (wait
) set_error( STATUS_PENDING
);
1330 /* remove a lock on an fd */
1331 void unlock_fd( struct fd
*fd
, file_pos_t start
, file_pos_t count
)
1334 file_pos_t end
= start
+ count
;
1336 /* find an existing lock with the exact same parameters */
1337 LIST_FOR_EACH( ptr
, &fd
->locks
)
1339 struct file_lock
*lock
= LIST_ENTRY( ptr
, struct file_lock
, fd_entry
);
1340 if ((lock
->start
== start
) && (lock
->end
== end
))
1342 remove_lock( lock
, 1 );
1346 set_error( STATUS_FILE_LOCK_CONFLICT
);
1350 /****************************************************************/
1351 /* file descriptor functions */
1353 static void fd_dump( struct object
*obj
, int verbose
)
1355 struct fd
*fd
= (struct fd
*)obj
;
1356 fprintf( stderr
, "Fd unix_fd=%d user=%p options=%08x", fd
->unix_fd
, fd
->user
, fd
->options
);
1357 if (fd
->inode
) fprintf( stderr
, " inode=%p unlink='%s'", fd
->inode
, fd
->closed
->unlink
);
1358 fprintf( stderr
, "\n" );
1361 static void fd_destroy( struct object
*obj
)
1363 struct fd
*fd
= (struct fd
*)obj
;
1365 free_async_queue( fd
->read_q
);
1366 free_async_queue( fd
->write_q
);
1367 free_async_queue( fd
->wait_q
);
1369 if (fd
->completion
) release_object( fd
->completion
);
1370 remove_fd_locks( fd
);
1371 list_remove( &fd
->inode_entry
);
1372 if (fd
->poll_index
!= -1) remove_poll_user( fd
, fd
->poll_index
);
1375 inode_add_closed_fd( fd
->inode
, fd
->closed
);
1376 release_object( fd
->inode
);
1378 else /* no inode, close it right away */
1380 if (fd
->unix_fd
!= -1) close( fd
->unix_fd
);
1384 /* set the events that select waits for on this fd */
1385 void set_fd_events( struct fd
*fd
, int events
)
1387 int user
= fd
->poll_index
;
1388 assert( poll_users
[user
] == fd
);
1390 set_fd_epoll_events( fd
, user
, events
);
1392 if (events
== -1) /* stop waiting on this fd completely */
1394 pollfd
[user
].fd
= -1;
1395 pollfd
[user
].events
= POLLERR
;
1396 pollfd
[user
].revents
= 0;
1398 else if (pollfd
[user
].fd
!= -1 || !pollfd
[user
].events
)
1400 pollfd
[user
].fd
= fd
->unix_fd
;
1401 pollfd
[user
].events
= events
;
1405 /* prepare an fd for unmounting its corresponding device */
1406 static inline void unmount_fd( struct fd
*fd
)
1408 assert( fd
->inode
);
1410 async_wake_up( fd
->read_q
, STATUS_VOLUME_DISMOUNTED
);
1411 async_wake_up( fd
->write_q
, STATUS_VOLUME_DISMOUNTED
);
1413 if (fd
->poll_index
!= -1) set_fd_events( fd
, -1 );
1415 if (fd
->unix_fd
!= -1) close( fd
->unix_fd
);
1418 fd
->no_fd_status
= STATUS_VOLUME_DISMOUNTED
;
1419 fd
->closed
->unix_fd
= -1;
1420 fd
->closed
->unlink
[0] = 0;
1422 /* stop using Unix locks on this fd (existing locks have been removed by close) */
1426 /* allocate an fd object, without setting the unix fd yet */
1427 static struct fd
*alloc_fd_object(void)
1429 struct fd
*fd
= alloc_object( &fd_ops
);
1431 if (!fd
) return NULL
;
1443 fd
->poll_index
= -1;
1447 fd
->completion
= NULL
;
1448 list_init( &fd
->inode_entry
);
1449 list_init( &fd
->locks
);
1451 if ((fd
->poll_index
= add_poll_user( fd
)) == -1)
1453 release_object( fd
);
1459 /* allocate a pseudo fd object, for objects that need to behave like files but don't have a unix fd */
1460 struct fd
*alloc_pseudo_fd( const struct fd_ops
*fd_user_ops
, struct object
*user
, unsigned int options
)
1462 struct fd
*fd
= alloc_object( &fd_ops
);
1464 if (!fd
) return NULL
;
1466 fd
->fd_ops
= fd_user_ops
;
1471 fd
->options
= options
;
1476 fd
->poll_index
= -1;
1480 fd
->completion
= NULL
;
1481 fd
->no_fd_status
= STATUS_BAD_DEVICE_TYPE
;
1482 list_init( &fd
->inode_entry
);
1483 list_init( &fd
->locks
);
1487 /* set the status to return when the fd has no associated unix fd */
1488 void set_no_fd_status( struct fd
*fd
, unsigned int status
)
1490 fd
->no_fd_status
= status
;
1493 /* check if the desired access is possible without violating */
1494 /* the sharing mode of other opens of the same file */
1495 static int check_sharing( struct fd
*fd
, unsigned int access
, unsigned int sharing
)
1497 unsigned int existing_sharing
= FILE_SHARE_READ
| FILE_SHARE_WRITE
| FILE_SHARE_DELETE
;
1498 unsigned int existing_access
= 0;
1501 /* if access mode is 0, sharing mode is ignored */
1502 if (!access
) sharing
= existing_sharing
;
1503 fd
->access
= access
;
1504 fd
->sharing
= sharing
;
1506 LIST_FOR_EACH( ptr
, &fd
->inode
->open
)
1508 struct fd
*fd_ptr
= LIST_ENTRY( ptr
, struct fd
, inode_entry
);
1511 existing_sharing
&= fd_ptr
->sharing
;
1512 existing_access
|= fd_ptr
->access
;
1516 if ((access
& FILE_UNIX_READ_ACCESS
) && !(existing_sharing
& FILE_SHARE_READ
)) return 0;
1517 if ((access
& FILE_UNIX_WRITE_ACCESS
) && !(existing_sharing
& FILE_SHARE_WRITE
)) return 0;
1518 if ((access
& DELETE
) && !(existing_sharing
& FILE_SHARE_DELETE
)) return 0;
1519 if ((existing_access
& FILE_UNIX_READ_ACCESS
) && !(sharing
& FILE_SHARE_READ
)) return 0;
1520 if ((existing_access
& FILE_UNIX_WRITE_ACCESS
) && !(sharing
& FILE_SHARE_WRITE
)) return 0;
1521 if ((existing_access
& DELETE
) && !(sharing
& FILE_SHARE_DELETE
)) return 0;
1525 /* sets the user of an fd that previously had no user */
1526 void set_fd_user( struct fd
*fd
, const struct fd_ops
*user_ops
, struct object
*user
)
1528 assert( fd
->fd_ops
== NULL
);
1529 fd
->fd_ops
= user_ops
;
1533 /* open() wrapper that returns a struct fd with no fd user set */
1534 struct fd
*open_fd( const char *name
, int flags
, mode_t
*mode
, unsigned int access
,
1535 unsigned int sharing
, unsigned int options
)
1538 struct closed_fd
*closed_fd
;
1540 const char *unlink_name
= "";
1543 if ((options
& FILE_DELETE_ON_CLOSE
) && !(access
& DELETE
))
1545 set_error( STATUS_INVALID_PARAMETER
);
1549 if (!(fd
= alloc_fd_object())) return NULL
;
1551 fd
->options
= options
;
1552 if (options
& FILE_DELETE_ON_CLOSE
) unlink_name
= name
;
1553 if (!(closed_fd
= mem_alloc( sizeof(*closed_fd
) + strlen(unlink_name
) )))
1555 release_object( fd
);
1559 /* create the directory if needed */
1560 if ((options
& FILE_DIRECTORY_FILE
) && (flags
& O_CREAT
))
1562 if (mkdir( name
, 0777 ) == -1)
1564 if (errno
!= EEXIST
|| (flags
& O_EXCL
))
1570 flags
&= ~(O_CREAT
| O_EXCL
| O_TRUNC
);
1573 if ((access
& FILE_UNIX_WRITE_ACCESS
) && !(options
& FILE_DIRECTORY_FILE
))
1575 if (access
& FILE_UNIX_READ_ACCESS
) rw_mode
= O_RDWR
;
1576 else rw_mode
= O_WRONLY
;
1578 else rw_mode
= O_RDONLY
;
1580 if ((fd
->unix_fd
= open( name
, rw_mode
| (flags
& ~O_TRUNC
), *mode
)) == -1)
1582 /* if we tried to open a directory for write access, retry read-only */
1583 if (errno
!= EISDIR
||
1584 !(access
& FILE_UNIX_WRITE_ACCESS
) ||
1585 (fd
->unix_fd
= open( name
, O_RDONLY
| (flags
& ~(O_TRUNC
| O_CREAT
| O_EXCL
)), *mode
)) == -1)
1592 closed_fd
->unix_fd
= fd
->unix_fd
;
1593 closed_fd
->unlink
[0] = 0;
1594 fstat( fd
->unix_fd
, &st
);
1597 /* only bother with an inode for normal files and directories */
1598 if (S_ISREG(st
.st_mode
) || S_ISDIR(st
.st_mode
))
1600 struct inode
*inode
= get_inode( st
.st_dev
, st
.st_ino
, fd
->unix_fd
);
1604 /* we can close the fd because there are no others open on the same file,
1605 * otherwise we wouldn't have failed to allocate a new inode
1610 fd
->closed
= closed_fd
;
1611 list_add_head( &inode
->open
, &fd
->inode_entry
);
1613 /* check directory options */
1614 if ((options
& FILE_DIRECTORY_FILE
) && !S_ISDIR(st
.st_mode
))
1616 release_object( fd
);
1617 set_error( STATUS_NOT_A_DIRECTORY
);
1620 if ((options
& FILE_NON_DIRECTORY_FILE
) && S_ISDIR(st
.st_mode
))
1622 release_object( fd
);
1623 set_error( STATUS_FILE_IS_A_DIRECTORY
);
1626 if (!check_sharing( fd
, access
, sharing
))
1628 release_object( fd
);
1629 set_error( STATUS_SHARING_VIOLATION
);
1632 strcpy( closed_fd
->unlink
, unlink_name
);
1633 if (flags
& O_TRUNC
) ftruncate( fd
->unix_fd
, 0 );
1635 else /* special file */
1637 if (options
& FILE_DIRECTORY_FILE
)
1639 set_error( STATUS_NOT_A_DIRECTORY
);
1642 if (unlink_name
[0]) /* we can't unlink special files */
1644 set_error( STATUS_INVALID_PARAMETER
);
1652 release_object( fd
);
1657 /* create an fd for an anonymous file */
1658 /* if the function fails the unix fd is closed */
1659 struct fd
*create_anonymous_fd( const struct fd_ops
*fd_user_ops
, int unix_fd
, struct object
*user
,
1660 unsigned int options
)
1662 struct fd
*fd
= alloc_fd_object();
1666 set_fd_user( fd
, fd_user_ops
, user
);
1667 fd
->unix_fd
= unix_fd
;
1668 fd
->options
= options
;
1675 /* retrieve the object that is using an fd */
1676 void *get_fd_user( struct fd
*fd
)
1681 /* retrieve the opening options for the fd */
1682 unsigned int get_fd_options( struct fd
*fd
)
1687 /* retrieve the unix fd for an object */
1688 int get_unix_fd( struct fd
*fd
)
1690 if (fd
->unix_fd
== -1) set_error( fd
->no_fd_status
);
1694 /* check if two file descriptors point to the same file */
1695 int is_same_file_fd( struct fd
*fd1
, struct fd
*fd2
)
1697 return fd1
->inode
== fd2
->inode
;
1700 /* check if fd is on a removable device */
1701 int is_fd_removable( struct fd
*fd
)
1703 return (fd
->inode
&& fd
->inode
->device
->removable
);
1706 /* set or clear the fd signaled state */
1707 void set_fd_signaled( struct fd
*fd
, int signaled
)
1709 fd
->signaled
= signaled
;
1710 if (signaled
) wake_up( fd
->user
, 0 );
1713 /* handler for close_handle that refuses to close fd-associated handles in other processes */
1714 int fd_close_handle( struct object
*obj
, struct process
*process
, obj_handle_t handle
)
1716 return (!current
|| current
->process
== process
);
1719 /* check if events are pending and if yes return which one(s) */
1720 int check_fd_events( struct fd
*fd
, int events
)
1724 if (fd
->unix_fd
== -1) return POLLERR
;
1725 if (fd
->inode
) return events
; /* regular files are always signaled */
1727 pfd
.fd
= fd
->unix_fd
;
1728 pfd
.events
= events
;
1729 if (poll( &pfd
, 1, 0 ) <= 0) return 0;
1733 /* default signaled() routine for objects that poll() on an fd */
1734 int default_fd_signaled( struct object
*obj
, struct thread
*thread
)
1736 struct fd
*fd
= get_obj_fd( obj
);
1737 int ret
= fd
->signaled
;
1738 release_object( fd
);
1742 /* default map_access() routine for objects that behave like an fd */
1743 unsigned int default_fd_map_access( struct object
*obj
, unsigned int access
)
1745 if (access
& GENERIC_READ
) access
|= FILE_GENERIC_READ
;
1746 if (access
& GENERIC_WRITE
) access
|= FILE_GENERIC_WRITE
;
1747 if (access
& GENERIC_EXECUTE
) access
|= FILE_GENERIC_EXECUTE
;
1748 if (access
& GENERIC_ALL
) access
|= FILE_ALL_ACCESS
;
1749 return access
& ~(GENERIC_READ
| GENERIC_WRITE
| GENERIC_EXECUTE
| GENERIC_ALL
);
1752 int default_fd_get_poll_events( struct fd
*fd
)
1756 if (async_waiting( fd
->read_q
)) events
|= POLLIN
;
1757 if (async_waiting( fd
->write_q
)) events
|= POLLOUT
;
1761 /* default handler for poll() events */
1762 void default_poll_event( struct fd
*fd
, int event
)
1764 if (event
& (POLLIN
| POLLERR
| POLLHUP
)) async_wake_up( fd
->read_q
, STATUS_ALERTED
);
1765 if (event
& (POLLOUT
| POLLERR
| POLLHUP
)) async_wake_up( fd
->write_q
, STATUS_ALERTED
);
1767 /* if an error occurred, stop polling this fd to avoid busy-looping */
1768 if (event
& (POLLERR
| POLLHUP
)) set_fd_events( fd
, -1 );
1769 else if (!fd
->inode
) set_fd_events( fd
, fd
->fd_ops
->get_poll_events( fd
) );
1772 struct async
*fd_queue_async( struct fd
*fd
, const async_data_t
*data
, int type
, int count
)
1774 struct async_queue
*queue
;
1775 struct async
*async
;
1779 case ASYNC_TYPE_READ
:
1780 if (!fd
->read_q
&& !(fd
->read_q
= create_async_queue( fd
))) return NULL
;
1783 case ASYNC_TYPE_WRITE
:
1784 if (!fd
->write_q
&& !(fd
->write_q
= create_async_queue( fd
))) return NULL
;
1785 queue
= fd
->write_q
;
1787 case ASYNC_TYPE_WAIT
:
1788 if (!fd
->wait_q
&& !(fd
->wait_q
= create_async_queue( fd
))) return NULL
;
1796 if ((async
= create_async( current
, queue
, data
)) && type
!= ASYNC_TYPE_WAIT
)
1799 set_fd_events( fd
, fd
->fd_ops
->get_poll_events( fd
) );
1800 else /* regular files are always ready for read and write */
1801 async_wake_up( queue
, STATUS_ALERTED
);
1806 void fd_async_wake_up( struct fd
*fd
, int type
, unsigned int status
)
1810 case ASYNC_TYPE_READ
:
1811 async_wake_up( fd
->read_q
, status
);
1813 case ASYNC_TYPE_WRITE
:
1814 async_wake_up( fd
->write_q
, status
);
1816 case ASYNC_TYPE_WAIT
:
1817 async_wake_up( fd
->wait_q
, status
);
1824 void fd_reselect_async( struct fd
*fd
, struct async_queue
*queue
)
1826 fd
->fd_ops
->reselect_async( fd
, queue
);
1829 void default_fd_queue_async( struct fd
*fd
, const async_data_t
*data
, int type
, int count
)
1831 struct async
*async
;
1833 if ((async
= fd_queue_async( fd
, data
, type
, count
)))
1835 release_object( async
);
1836 set_error( STATUS_PENDING
);
1840 /* default reselect_async() fd routine */
1841 void default_fd_reselect_async( struct fd
*fd
, struct async_queue
*queue
)
1843 if (queue
!= fd
->wait_q
)
1845 int poll_events
= fd
->fd_ops
->get_poll_events( fd
);
1846 int events
= check_fd_events( fd
, poll_events
);
1847 if (events
) fd
->fd_ops
->poll_event( fd
, events
);
1848 else set_fd_events( fd
, poll_events
);
1852 /* default cancel_async() fd routine */
1853 void default_fd_cancel_async( struct fd
*fd
)
1855 async_wake_up( fd
->read_q
, STATUS_CANCELLED
);
1856 async_wake_up( fd
->write_q
, STATUS_CANCELLED
);
1857 async_wake_up( fd
->wait_q
, STATUS_CANCELLED
);
1860 /* default flush() routine */
1861 void no_flush( struct fd
*fd
, struct event
**event
)
1863 set_error( STATUS_OBJECT_TYPE_MISMATCH
);
1866 static inline int is_valid_mounted_device( struct stat
*st
)
1868 #if defined(linux) || defined(__sun__)
1869 return S_ISBLK( st
->st_mode
);
1871 /* disks are char devices on *BSD */
1872 return S_ISCHR( st
->st_mode
);
1876 /* close all Unix file descriptors on a device to allow unmounting it */
1877 static void unmount_device( struct fd
*device_fd
)
1881 struct device
*device
;
1882 struct inode
*inode
;
1884 int unix_fd
= get_unix_fd( device_fd
);
1886 if (unix_fd
== -1) return;
1888 if (fstat( unix_fd
, &st
) == -1 || !is_valid_mounted_device( &st
))
1890 set_error( STATUS_INVALID_PARAMETER
);
1894 if (!(device
= get_device( st
.st_rdev
, -1 ))) return;
1896 for (i
= 0; i
< INODE_HASH_SIZE
; i
++)
1898 LIST_FOR_EACH_ENTRY( inode
, &device
->inode_hash
[i
], struct inode
, entry
)
1900 LIST_FOR_EACH_ENTRY( fd
, &inode
->open
, struct fd
, inode_entry
)
1904 inode_close_pending( inode
, 0 );
1907 /* remove it from the hash table */
1908 list_remove( &device
->entry
);
1909 list_init( &device
->entry
);
1910 release_object( device
);
1913 /* default ioctl() routine */
1914 obj_handle_t
default_fd_ioctl( struct fd
*fd
, ioctl_code_t code
, const async_data_t
*async
,
1915 const void *data
, data_size_t size
)
1919 case FSCTL_DISMOUNT_VOLUME
:
1920 unmount_device( fd
);
1923 set_error( STATUS_NOT_SUPPORTED
);
1928 /* same as get_handle_obj but retrieve the struct fd associated to the object */
1929 static struct fd
*get_handle_fd_obj( struct process
*process
, obj_handle_t handle
,
1930 unsigned int access
)
1932 struct fd
*fd
= NULL
;
1935 if ((obj
= get_handle_obj( process
, handle
, access
, NULL
)))
1937 fd
= get_obj_fd( obj
);
1938 release_object( obj
);
1943 void fd_assign_completion( struct fd
*fd
, struct completion
**p_port
, apc_param_t
*p_key
)
1945 *p_key
= fd
->comp_key
;
1946 *p_port
= fd
->completion
? (struct completion
*)grab_object( fd
->completion
) : NULL
;
1949 /* flush a file buffers */
1950 DECL_HANDLER(flush_file
)
1952 struct fd
*fd
= get_handle_fd_obj( current
->process
, req
->handle
, 0 );
1953 struct event
* event
= NULL
;
1957 fd
->fd_ops
->flush( fd
, &event
);
1960 reply
->event
= alloc_handle( current
->process
, event
, SYNCHRONIZE
, 0 );
1962 release_object( fd
);
1966 /* open a file object */
1967 DECL_HANDLER(open_file_object
)
1969 struct unicode_str name
;
1970 struct directory
*root
= NULL
;
1971 struct object
*obj
, *result
;
1973 get_req_unicode_str( &name
);
1974 if (req
->rootdir
&& !(root
= get_directory_obj( current
->process
, req
->rootdir
, 0 )))
1977 if ((obj
= open_object_dir( root
, &name
, req
->attributes
, NULL
)))
1979 if ((result
= obj
->ops
->open_file( obj
, req
->access
, req
->sharing
, req
->options
)))
1981 reply
->handle
= alloc_handle( current
->process
, result
, req
->access
, req
->attributes
);
1982 release_object( result
);
1984 release_object( obj
);
1987 if (root
) release_object( root
);
1990 /* get a Unix fd to access a file */
1991 DECL_HANDLER(get_handle_fd
)
1995 if ((fd
= get_handle_fd_obj( current
->process
, req
->handle
, 0 )))
1997 int unix_fd
= get_unix_fd( fd
);
2000 reply
->type
= fd
->fd_ops
->get_fd_type( fd
);
2001 reply
->removable
= is_fd_removable(fd
);
2002 reply
->options
= fd
->options
;
2003 reply
->access
= get_handle_access( current
->process
, req
->handle
);
2004 send_client_fd( current
->process
, unix_fd
, req
->handle
);
2006 release_object( fd
);
2010 /* perform an ioctl on a file */
2013 unsigned int access
= (req
->code
>> 14) & (FILE_READ_DATA
|FILE_WRITE_DATA
);
2014 struct fd
*fd
= get_handle_fd_obj( current
->process
, req
->handle
, access
);
2018 reply
->wait
= fd
->fd_ops
->ioctl( fd
, req
->code
, &req
->async
,
2019 get_req_data(), get_req_data_size() );
2020 reply
->options
= fd
->options
;
2021 release_object( fd
);
2025 /* create / reschedule an async I/O */
2026 DECL_HANDLER(register_async
)
2028 unsigned int access
;
2033 case ASYNC_TYPE_READ
:
2034 access
= FILE_READ_DATA
;
2036 case ASYNC_TYPE_WRITE
:
2037 access
= FILE_WRITE_DATA
;
2040 set_error( STATUS_INVALID_PARAMETER
);
2044 if ((fd
= get_handle_fd_obj( current
->process
, req
->handle
, access
)))
2046 if (get_unix_fd( fd
) != -1) fd
->fd_ops
->queue_async( fd
, &req
->async
, req
->type
, req
->count
);
2047 release_object( fd
);
2051 /* cancels all async I/O */
2052 DECL_HANDLER(cancel_async
)
2054 struct fd
*fd
= get_handle_fd_obj( current
->process
, req
->handle
, 0 );
2058 if (get_unix_fd( fd
) != -1) fd
->fd_ops
->cancel_async( fd
);
2059 release_object( fd
);
2063 /* attach completion object to a fd */
2064 DECL_HANDLER(set_completion_info
)
2066 struct fd
*fd
= get_handle_fd_obj( current
->process
, req
->handle
, 0 );
2070 if (!(fd
->options
& (FILE_SYNCHRONOUS_IO_ALERT
| FILE_SYNCHRONOUS_IO_NONALERT
)) && !fd
->completion
)
2072 fd
->completion
= get_completion_obj( current
->process
, req
->chandle
, IO_COMPLETION_MODIFY_STATE
);
2073 fd
->comp_key
= req
->ckey
;
2075 else set_error( STATUS_INVALID_PARAMETER
);
2076 release_object( fd
);
2080 /* push new completion msg into a completion queue attached to the fd */
2081 DECL_HANDLER(add_fd_completion
)
2083 struct fd
*fd
= get_handle_fd_obj( current
->process
, req
->handle
, 0 );
2087 add_completion( fd
->completion
, fd
->comp_key
, req
->cvalue
, req
->status
, req
->information
);
2088 release_object( fd
);