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sparc64: Fix bootup with mcount in some configs.
[linux-2.6/mini2440.git] / fs / select.c
blobd870237e42c74f018b2824304345aa44a90b8607
1 /*
2 * This file contains the procedures for the handling of select and poll
3 *
4 * Created for Linux based loosely upon Mathius Lattner's minix
5 * patches by Peter MacDonald. Heavily edited by Linus.
6 *
7 * 4 February 1994
8 * COFF/ELF binary emulation. If the process has the STICKY_TIMEOUTS
9 * flag set in its personality we do *not* modify the given timeout
10 * parameter to reflect time remaining.
11 *
12 * 24 January 2000
13 * Changed sys_poll()/do_poll() to use PAGE_SIZE chunk-based allocation
14 * of fds to overcome nfds < 16390 descriptors limit (Tigran Aivazian).
15 */
16
17 #include <linux/kernel.h>
18 #include <linux/syscalls.h>
19 #include <linux/module.h>
20 #include <linux/slab.h>
21 #include <linux/poll.h>
22 #include <linux/personality.h> /* for STICKY_TIMEOUTS */
23 #include <linux/file.h>
24 #include <linux/fdtable.h>
25 #include <linux/fs.h>
26 #include <linux/rcupdate.h>
27 #include <linux/hrtimer.h>
28
29 #include <asm/uaccess.h>
30
31
32 /*
33 * Estimate expected accuracy in ns from a timeval.
34 *
35 * After quite a bit of churning around, we've settled on
36 * a simple thing of taking 0.1% of the timeout as the
37 * slack, with a cap of 100 msec.
38 * "nice" tasks get a 0.5% slack instead.
39 *
40 * Consider this comment an open invitation to come up with even
41 * better solutions..
42 */
43
44 static long __estimate_accuracy(struct timespec *tv)
45 {
46 long slack;
47 int divfactor = 1000;
48
49 if (task_nice(current) > 0)
50 divfactor = divfactor / 5;
51
52 slack = tv->tv_nsec / divfactor;
53 slack += tv->tv_sec * (NSEC_PER_SEC/divfactor);
54
55 if (slack > 100 * NSEC_PER_MSEC)
56 slack = 100 * NSEC_PER_MSEC;
57
58 if (slack < 0)
59 slack = 0;
60 return slack;
61 }
62
63 static long estimate_accuracy(struct timespec *tv)
64 {
65 unsigned long ret;
66 struct timespec now;
67
68 /*
69 * Realtime tasks get a slack of 0 for obvious reasons.
70 */
71
72 if (rt_task(current))
73 return 0;
74
75 ktime_get_ts(&now);
76 now = timespec_sub(*tv, now);
77 ret = __estimate_accuracy(&now);
78 if (ret < current->timer_slack_ns)
79 return current->timer_slack_ns;
80 return ret;
81 }
82
83
84
85 struct poll_table_page {
86 struct poll_table_page * next;
87 struct poll_table_entry * entry;
88 struct poll_table_entry entries[0];
89 };
90
91 #define POLL_TABLE_FULL(table) \
92 ((unsigned long)((table)->entry+1) > PAGE_SIZE + (unsigned long)(table))
93
94 /*
95 * Ok, Peter made a complicated, but straightforward multiple_wait() function.
96 * I have rewritten this, taking some shortcuts: This code may not be easy to
97 * follow, but it should be free of race-conditions, and it's practical. If you
98 * understand what I'm doing here, then you understand how the linux
99 * sleep/wakeup mechanism works.
100 *
101 * Two very simple procedures, poll_wait() and poll_freewait() make all the
102 * work. poll_wait() is an inline-function defined in <linux/poll.h>,
103 * as all select/poll functions have to call it to add an entry to the
104 * poll table.
105 */
106 static void __pollwait(struct file *filp, wait_queue_head_t *wait_address,
107 poll_table *p);
108
109 void poll_initwait(struct poll_wqueues *pwq)
110 {
111 init_poll_funcptr(&pwq->pt, __pollwait);
112 pwq->polling_task = current;
113 pwq->error = 0;
114 pwq->table = NULL;
115 pwq->inline_index = 0;
116 }
117 EXPORT_SYMBOL(poll_initwait);
118
119 static void free_poll_entry(struct poll_table_entry *entry)
120 {
121 remove_wait_queue(entry->wait_address, &entry->wait);
122 fput(entry->filp);
123 }
124
125 void poll_freewait(struct poll_wqueues *pwq)
126 {
127 struct poll_table_page * p = pwq->table;
128 int i;
129 for (i = 0; i < pwq->inline_index; i++)
130 free_poll_entry(pwq->inline_entries + i);
131 while (p) {
132 struct poll_table_entry * entry;
133 struct poll_table_page *old;
134
135 entry = p->entry;
136 do {
137 entry--;
138 free_poll_entry(entry);
139 } while (entry > p->entries);
140 old = p;
141 p = p->next;
142 free_page((unsigned long) old);
143 }
144 }
145 EXPORT_SYMBOL(poll_freewait);
146
147 static struct poll_table_entry *poll_get_entry(struct poll_wqueues *p)
148 {
149 struct poll_table_page *table = p->table;
150
151 if (p->inline_index < N_INLINE_POLL_ENTRIES)
152 return p->inline_entries + p->inline_index++;
153
154 if (!table || POLL_TABLE_FULL(table)) {
155 struct poll_table_page *new_table;
156
157 new_table = (struct poll_table_page *) __get_free_page(GFP_KERNEL);
158 if (!new_table) {
159 p->error = -ENOMEM;
160 return NULL;
161 }
162 new_table->entry = new_table->entries;
163 new_table->next = table;
164 p->table = new_table;
165 table = new_table;
166 }
167
168 return table->entry++;
169 }
170
171 static int __pollwake(wait_queue_t *wait, unsigned mode, int sync, void *key)
172 {
173 struct poll_wqueues *pwq = wait->private;
174 DECLARE_WAITQUEUE(dummy_wait, pwq->polling_task);
175
176 /*
177 * Although this function is called under waitqueue lock, LOCK
178 * doesn't imply write barrier and the users expect write
179 * barrier semantics on wakeup functions. The following
180 * smp_wmb() is equivalent to smp_wmb() in try_to_wake_up()
181 * and is paired with set_mb() in poll_schedule_timeout.
182 */
183 smp_wmb();
184 pwq->triggered = 1;
185
186 /*
187 * Perform the default wake up operation using a dummy
188 * waitqueue.
189 *
190 * TODO: This is hacky but there currently is no interface to
191 * pass in @sync. @sync is scheduled to be removed and once
192 * that happens, wake_up_process() can be used directly.
193 */
194 return default_wake_function(&dummy_wait, mode, sync, key);
195 }
196
197 static int pollwake(wait_queue_t *wait, unsigned mode, int sync, void *key)
198 {
199 struct poll_table_entry *entry;
200
201 entry = container_of(wait, struct poll_table_entry, wait);
202 if (key && !((unsigned long)key & entry->key))
203 return 0;
204 return __pollwake(wait, mode, sync, key);
205 }
206
207 /* Add a new entry */
208 static void __pollwait(struct file *filp, wait_queue_head_t *wait_address,
209 poll_table *p)
210 {
211 struct poll_wqueues *pwq = container_of(p, struct poll_wqueues, pt);
212 struct poll_table_entry *entry = poll_get_entry(pwq);
213 if (!entry)
214 return;
215 get_file(filp);
216 entry->filp = filp;
217 entry->wait_address = wait_address;
218 entry->key = p->key;
219 init_waitqueue_func_entry(&entry->wait, pollwake);
220 entry->wait.private = pwq;
221 add_wait_queue(wait_address, &entry->wait);
222 }
223
224 int poll_schedule_timeout(struct poll_wqueues *pwq, int state,
225 ktime_t *expires, unsigned long slack)
226 {
227 int rc = -EINTR;
228
229 set_current_state(state);
230 if (!pwq->triggered)
231 rc = schedule_hrtimeout_range(expires, slack, HRTIMER_MODE_ABS);
232 __set_current_state(TASK_RUNNING);
233
234 /*
235 * Prepare for the next iteration.
236 *
237 * The following set_mb() serves two purposes. First, it's
238 * the counterpart rmb of the wmb in pollwake() such that data
239 * written before wake up is always visible after wake up.
240 * Second, the full barrier guarantees that triggered clearing
241 * doesn't pass event check of the next iteration. Note that
242 * this problem doesn't exist for the first iteration as
243 * add_wait_queue() has full barrier semantics.
244 */
245 set_mb(pwq->triggered, 0);
246
247 return rc;
248 }
249 EXPORT_SYMBOL(poll_schedule_timeout);
250
251 /**
252 * poll_select_set_timeout - helper function to setup the timeout value
253 * @to: pointer to timespec variable for the final timeout
254 * @sec: seconds (from user space)
255 * @nsec: nanoseconds (from user space)
256 *
257 * Note, we do not use a timespec for the user space value here, That
258 * way we can use the function for timeval and compat interfaces as well.
259 *
260 * Returns -EINVAL if sec/nsec are not normalized. Otherwise 0.
261 */
262 int poll_select_set_timeout(struct timespec *to, long sec, long nsec)
263 {
264 struct timespec ts = {.tv_sec = sec, .tv_nsec = nsec};
265
266 if (!timespec_valid(&ts))
267 return -EINVAL;
268
269 /* Optimize for the zero timeout value here */
270 if (!sec && !nsec) {
271 to->tv_sec = to->tv_nsec = 0;
272 } else {
273 ktime_get_ts(to);
274 *to = timespec_add_safe(*to, ts);
275 }
276 return 0;
277 }
278
279 static int poll_select_copy_remaining(struct timespec *end_time, void __user *p,
280 int timeval, int ret)
281 {
282 struct timespec rts;
283 struct timeval rtv;
284
285 if (!p)
286 return ret;
287
288 if (current->personality & STICKY_TIMEOUTS)
289 goto sticky;
290
291 /* No update for zero timeout */
292 if (!end_time->tv_sec && !end_time->tv_nsec)
293 return ret;
294
295 ktime_get_ts(&rts);
296 rts = timespec_sub(*end_time, rts);
297 if (rts.tv_sec < 0)
298 rts.tv_sec = rts.tv_nsec = 0;
299
300 if (timeval) {
301 rtv.tv_sec = rts.tv_sec;
302 rtv.tv_usec = rts.tv_nsec / NSEC_PER_USEC;
303
304 if (!copy_to_user(p, &rtv, sizeof(rtv)))
305 return ret;
306
307 } else if (!copy_to_user(p, &rts, sizeof(rts)))
308 return ret;
309
310 /*
311 * If an application puts its timeval in read-only memory, we
312 * don't want the Linux-specific update to the timeval to
313 * cause a fault after the select has completed
314 * successfully. However, because we're not updating the
315 * timeval, we can't restart the system call.
316 */
317
318 sticky:
319 if (ret == -ERESTARTNOHAND)
320 ret = -EINTR;
321 return ret;
322 }
323
324 #define FDS_IN(fds, n) (fds->in + n)
325 #define FDS_OUT(fds, n) (fds->out + n)
326 #define FDS_EX(fds, n) (fds->ex + n)
327
328 #define BITS(fds, n) (*FDS_IN(fds, n)|*FDS_OUT(fds, n)|*FDS_EX(fds, n))
329
330 static int max_select_fd(unsigned long n, fd_set_bits *fds)
331 {
332 unsigned long *open_fds;
333 unsigned long set;
334 int max;
335 struct fdtable *fdt;
336
337 /* handle last in-complete long-word first */
338 set = ~(~0UL << (n & (__NFDBITS-1)));
339 n /= __NFDBITS;
340 fdt = files_fdtable(current->files);
341 open_fds = fdt->open_fds->fds_bits+n;
342 max = 0;
343 if (set) {
344 set &= BITS(fds, n);
345 if (set) {
346 if (!(set & ~*open_fds))
347 goto get_max;
348 return -EBADF;
349 }
350 }
351 while (n) {
352 open_fds--;
353 n--;
354 set = BITS(fds, n);
355 if (!set)
356 continue;
357 if (set & ~*open_fds)
358 return -EBADF;
359 if (max)
360 continue;
361 get_max:
362 do {
363 max++;
364 set >>= 1;
365 } while (set);
366 max += n * __NFDBITS;
367 }
368
369 return max;
370 }
371
372 #define POLLIN_SET (POLLRDNORM | POLLRDBAND | POLLIN | POLLHUP | POLLERR)
373 #define POLLOUT_SET (POLLWRBAND | POLLWRNORM | POLLOUT | POLLERR)
374 #define POLLEX_SET (POLLPRI)
375
376 static inline void wait_key_set(poll_table *wait, unsigned long in,
377 unsigned long out, unsigned long bit)
378 {
379 if (wait) {
380 wait->key = POLLEX_SET;
381 if (in & bit)
382 wait->key |= POLLIN_SET;
383 if (out & bit)
384 wait->key |= POLLOUT_SET;
385 }
386 }
387
388 int do_select(int n, fd_set_bits *fds, struct timespec *end_time)
389 {
390 ktime_t expire, *to = NULL;
391 struct poll_wqueues table;
392 poll_table *wait;
393 int retval, i, timed_out = 0;
394 unsigned long slack = 0;
395
396 rcu_read_lock();
397 retval = max_select_fd(n, fds);
398 rcu_read_unlock();
399
400 if (retval < 0)
401 return retval;
402 n = retval;
403
404 poll_initwait(&table);
405 wait = &table.pt;
406 if (end_time && !end_time->tv_sec && !end_time->tv_nsec) {
407 wait = NULL;
408 timed_out = 1;
409 }
410
411 if (end_time && !timed_out)
412 slack = estimate_accuracy(end_time);
413
414 retval = 0;
415 for (;;) {
416 unsigned long *rinp, *routp, *rexp, *inp, *outp, *exp;
417
418 inp = fds->in; outp = fds->out; exp = fds->ex;
419 rinp = fds->res_in; routp = fds->res_out; rexp = fds->res_ex;
420
421 for (i = 0; i < n; ++rinp, ++routp, ++rexp) {
422 unsigned long in, out, ex, all_bits, bit = 1, mask, j;
423 unsigned long res_in = 0, res_out = 0, res_ex = 0;
424 const struct file_operations *f_op = NULL;
425 struct file *file = NULL;
426
427 in = *inp++; out = *outp++; ex = *exp++;
428 all_bits = in | out | ex;
429 if (all_bits == 0) {
430 i += __NFDBITS;
431 continue;
432 }
433
434 for (j = 0; j < __NFDBITS; ++j, ++i, bit <<= 1) {
435 int fput_needed;
436 if (i >= n)
437 break;
438 if (!(bit & all_bits))
439 continue;
440 file = fget_light(i, &fput_needed);
441 if (file) {
442 f_op = file->f_op;
443 mask = DEFAULT_POLLMASK;
444 if (f_op && f_op->poll) {
445 wait_key_set(wait, in, out, bit);
446 mask = (*f_op->poll)(file, wait);
447 }
448 fput_light(file, fput_needed);
449 if ((mask & POLLIN_SET) && (in & bit)) {
450 res_in |= bit;
451 retval++;
452 wait = NULL;
453 }
454 if ((mask & POLLOUT_SET) && (out & bit)) {
455 res_out |= bit;
456 retval++;
457 wait = NULL;
458 }
459 if ((mask & POLLEX_SET) && (ex & bit)) {
460 res_ex |= bit;
461 retval++;
462 wait = NULL;
463 }
464 }
465 }
466 if (res_in)
467 *rinp = res_in;
468 if (res_out)
469 *routp = res_out;
470 if (res_ex)
471 *rexp = res_ex;
472 cond_resched();
473 }
474 wait = NULL;
475 if (retval || timed_out || signal_pending(current))
476 break;
477 if (table.error) {
478 retval = table.error;
479 break;
480 }
481
482 /*
483 * If this is the first loop and we have a timeout
484 * given, then we convert to ktime_t and set the to
485 * pointer to the expiry value.
486 */
487 if (end_time && !to) {
488 expire = timespec_to_ktime(*end_time);
489 to = &expire;
490 }
491
492 if (!poll_schedule_timeout(&table, TASK_INTERRUPTIBLE,
493 to, slack))
494 timed_out = 1;
495 }
496
497 poll_freewait(&table);
498
499 return retval;
500 }
501
502 /*
503 * We can actually return ERESTARTSYS instead of EINTR, but I'd
504 * like to be certain this leads to no problems. So I return
505 * EINTR just for safety.
506 *
507 * Update: ERESTARTSYS breaks at least the xview clock binary, so
508 * I'm trying ERESTARTNOHAND which restart only when you want to.
509 */
510 #define MAX_SELECT_SECONDS \
511 ((unsigned long) (MAX_SCHEDULE_TIMEOUT / HZ)-1)
512
513 int core_sys_select(int n, fd_set __user *inp, fd_set __user *outp,
514 fd_set __user *exp, struct timespec *end_time)
515 {
516 fd_set_bits fds;
517 void *bits;
518 int ret, max_fds;
519 unsigned int size;
520 struct fdtable *fdt;
521 /* Allocate small arguments on the stack to save memory and be faster */
522 long stack_fds[SELECT_STACK_ALLOC/sizeof(long)];
523
524 ret = -EINVAL;
525 if (n < 0)
526 goto out_nofds;
527
528 /* max_fds can increase, so grab it once to avoid race */
529 rcu_read_lock();
530 fdt = files_fdtable(current->files);
531 max_fds = fdt->max_fds;
532 rcu_read_unlock();
533 if (n > max_fds)
534 n = max_fds;
535
536 /*
537 * We need 6 bitmaps (in/out/ex for both incoming and outgoing),
538 * since we used fdset we need to allocate memory in units of
539 * long-words.
540 */
541 size = FDS_BYTES(n);
542 bits = stack_fds;
543 if (size > sizeof(stack_fds) / 6) {
544 /* Not enough space in on-stack array; must use kmalloc */
545 ret = -ENOMEM;
546 bits = kmalloc(6 * size, GFP_KERNEL);
547 if (!bits)
548 goto out_nofds;
549 }
550 fds.in = bits;
551 fds.out = bits + size;
552 fds.ex = bits + 2*size;
553 fds.res_in = bits + 3*size;
554 fds.res_out = bits + 4*size;
555 fds.res_ex = bits + 5*size;
556
557 if ((ret = get_fd_set(n, inp, fds.in)) ||
558 (ret = get_fd_set(n, outp, fds.out)) ||
559 (ret = get_fd_set(n, exp, fds.ex)))
560 goto out;
561 zero_fd_set(n, fds.res_in);
562 zero_fd_set(n, fds.res_out);
563 zero_fd_set(n, fds.res_ex);
564
565 ret = do_select(n, &fds, end_time);
566
567 if (ret < 0)
568 goto out;
569 if (!ret) {
570 ret = -ERESTARTNOHAND;
571 if (signal_pending(current))
572 goto out;
573 ret = 0;
574 }
575
576 if (set_fd_set(n, inp, fds.res_in) ||
577 set_fd_set(n, outp, fds.res_out) ||
578 set_fd_set(n, exp, fds.res_ex))
579 ret = -EFAULT;
580
581 out:
582 if (bits != stack_fds)
583 kfree(bits);
584 out_nofds:
585 return ret;
586 }
587
588 SYSCALL_DEFINE5(select, int, n, fd_set __user *, inp, fd_set __user *, outp,
589 fd_set __user *, exp, struct timeval __user *, tvp)
590 {
591 struct timespec end_time, *to = NULL;
592 struct timeval tv;
593 int ret;
594
595 if (tvp) {
596 if (copy_from_user(&tv, tvp, sizeof(tv)))
597 return -EFAULT;
598
599 to = &end_time;
600 if (poll_select_set_timeout(to,
601 tv.tv_sec + (tv.tv_usec / USEC_PER_SEC),
602 (tv.tv_usec % USEC_PER_SEC) * NSEC_PER_USEC))
603 return -EINVAL;
604 }
605
606 ret = core_sys_select(n, inp, outp, exp, to);
607 ret = poll_select_copy_remaining(&end_time, tvp, 1, ret);
608
609 return ret;
610 }
611
612 #ifdef HAVE_SET_RESTORE_SIGMASK
613 static long do_pselect(int n, fd_set __user *inp, fd_set __user *outp,
614 fd_set __user *exp, struct timespec __user *tsp,
615 const sigset_t __user *sigmask, size_t sigsetsize)
616 {
617 sigset_t ksigmask, sigsaved;
618 struct timespec ts, end_time, *to = NULL;
619 int ret;
620
621 if (tsp) {
622 if (copy_from_user(&ts, tsp, sizeof(ts)))
623 return -EFAULT;
624
625 to = &end_time;
626 if (poll_select_set_timeout(to, ts.tv_sec, ts.tv_nsec))
627 return -EINVAL;
628 }
629
630 if (sigmask) {
631 /* XXX: Don't preclude handling different sized sigset_t's. */
632 if (sigsetsize != sizeof(sigset_t))
633 return -EINVAL;
634 if (copy_from_user(&ksigmask, sigmask, sizeof(ksigmask)))
635 return -EFAULT;
636
637 sigdelsetmask(&ksigmask, sigmask(SIGKILL)|sigmask(SIGSTOP));
638 sigprocmask(SIG_SETMASK, &ksigmask, &sigsaved);
639 }
640
641 ret = core_sys_select(n, inp, outp, exp, to);
642 ret = poll_select_copy_remaining(&end_time, tsp, 0, ret);
643
644 if (ret == -ERESTARTNOHAND) {
645 /*
646 * Don't restore the signal mask yet. Let do_signal() deliver
647 * the signal on the way back to userspace, before the signal
648 * mask is restored.
649 */
650 if (sigmask) {
651 memcpy(&current->saved_sigmask, &sigsaved,
652 sizeof(sigsaved));
653 set_restore_sigmask();
654 }
655 } else if (sigmask)
656 sigprocmask(SIG_SETMASK, &sigsaved, NULL);
657
658 return ret;
659 }
660
661 /*
662 * Most architectures can't handle 7-argument syscalls. So we provide a
663 * 6-argument version where the sixth argument is a pointer to a structure
664 * which has a pointer to the sigset_t itself followed by a size_t containing
665 * the sigset size.
666 */
667 SYSCALL_DEFINE6(pselect6, int, n, fd_set __user *, inp, fd_set __user *, outp,
668 fd_set __user *, exp, struct timespec __user *, tsp,
669 void __user *, sig)
670 {
671 size_t sigsetsize = 0;
672 sigset_t __user *up = NULL;
673
674 if (sig) {
675 if (!access_ok(VERIFY_READ, sig, sizeof(void *)+sizeof(size_t))
676 || __get_user(up, (sigset_t __user * __user *)sig)
677 || __get_user(sigsetsize,
678 (size_t __user *)(sig+sizeof(void *))))
679 return -EFAULT;
680 }
681
682 return do_pselect(n, inp, outp, exp, tsp, up, sigsetsize);
683 }
684 #endif /* HAVE_SET_RESTORE_SIGMASK */
685
686 struct poll_list {
687 struct poll_list *next;
688 int len;
689 struct pollfd entries[0];
690 };
691
692 #define POLLFD_PER_PAGE ((PAGE_SIZE-sizeof(struct poll_list)) / sizeof(struct pollfd))
693
694 /*
695 * Fish for pollable events on the pollfd->fd file descriptor. We're only
696 * interested in events matching the pollfd->events mask, and the result
697 * matching that mask is both recorded in pollfd->revents and returned. The
698 * pwait poll_table will be used by the fd-provided poll handler for waiting,
699 * if non-NULL.
700 */
701 static inline unsigned int do_pollfd(struct pollfd *pollfd, poll_table *pwait)
702 {
703 unsigned int mask;
704 int fd;
705
706 mask = 0;
707 fd = pollfd->fd;
708 if (fd >= 0) {
709 int fput_needed;
710 struct file * file;
711
712 file = fget_light(fd, &fput_needed);
713 mask = POLLNVAL;
714 if (file != NULL) {
715 mask = DEFAULT_POLLMASK;
716 if (file->f_op && file->f_op->poll) {
717 if (pwait)
718 pwait->key = pollfd->events |
719 POLLERR | POLLHUP;
720 mask = file->f_op->poll(file, pwait);
721 }
722 /* Mask out unneeded events. */
723 mask &= pollfd->events | POLLERR | POLLHUP;
724 fput_light(file, fput_needed);
725 }
726 }
727 pollfd->revents = mask;
728
729 return mask;
730 }
731
732 static int do_poll(unsigned int nfds, struct poll_list *list,
733 struct poll_wqueues *wait, struct timespec *end_time)
734 {
735 poll_table* pt = &wait->pt;
736 ktime_t expire, *to = NULL;
737 int timed_out = 0, count = 0;
738 unsigned long slack = 0;
739
740 /* Optimise the no-wait case */
741 if (end_time && !end_time->tv_sec && !end_time->tv_nsec) {
742 pt = NULL;
743 timed_out = 1;
744 }
745
746 if (end_time && !timed_out)
747 slack = estimate_accuracy(end_time);
748
749 for (;;) {
750 struct poll_list *walk;
751
752 for (walk = list; walk != NULL; walk = walk->next) {
753 struct pollfd * pfd, * pfd_end;
754
755 pfd = walk->entries;
756 pfd_end = pfd + walk->len;
757 for (; pfd != pfd_end; pfd++) {
758 /*
759 * Fish for events. If we found one, record it
760 * and kill the poll_table, so we don't
761 * needlessly register any other waiters after
762 * this. They'll get immediately deregistered
763 * when we break out and return.
764 */
765 if (do_pollfd(pfd, pt)) {
766 count++;
767 pt = NULL;
768 }
769 }
770 }
771 /*
772 * All waiters have already been registered, so don't provide
773 * a poll_table to them on the next loop iteration.
774 */
775 pt = NULL;
776 if (!count) {
777 count = wait->error;
778 if (signal_pending(current))
779 count = -EINTR;
780 }
781 if (count || timed_out)
782 break;
783
784 /*
785 * If this is the first loop and we have a timeout
786 * given, then we convert to ktime_t and set the to
787 * pointer to the expiry value.
788 */
789 if (end_time && !to) {
790 expire = timespec_to_ktime(*end_time);
791 to = &expire;
792 }
793
794 if (!poll_schedule_timeout(wait, TASK_INTERRUPTIBLE, to, slack))
795 timed_out = 1;
796 }
797 return count;
798 }
799
800 #define N_STACK_PPS ((sizeof(stack_pps) - sizeof(struct poll_list)) / \
801 sizeof(struct pollfd))
802
803 int do_sys_poll(struct pollfd __user *ufds, unsigned int nfds,
804 struct timespec *end_time)
805 {
806 struct poll_wqueues table;
807 int err = -EFAULT, fdcount, len, size;
808 /* Allocate small arguments on the stack to save memory and be
809 faster - use long to make sure the buffer is aligned properly
810 on 64 bit archs to avoid unaligned access */
811 long stack_pps[POLL_STACK_ALLOC/sizeof(long)];
812 struct poll_list *const head = (struct poll_list *)stack_pps;
813 struct poll_list *walk = head;
814 unsigned long todo = nfds;
815
816 if (nfds > current->signal->rlim[RLIMIT_NOFILE].rlim_cur)
817 return -EINVAL;
818
819 len = min_t(unsigned int, nfds, N_STACK_PPS);
820 for (;;) {
821 walk->next = NULL;
822 walk->len = len;
823 if (!len)
824 break;
825
826 if (copy_from_user(walk->entries, ufds + nfds-todo,
827 sizeof(struct pollfd) * walk->len))
828 goto out_fds;
829
830 todo -= walk->len;
831 if (!todo)
832 break;
833
834 len = min(todo, POLLFD_PER_PAGE);
835 size = sizeof(struct poll_list) + sizeof(struct pollfd) * len;
836 walk = walk->next = kmalloc(size, GFP_KERNEL);
837 if (!walk) {
838 err = -ENOMEM;
839 goto out_fds;
840 }
841 }
842
843 poll_initwait(&table);
844 fdcount = do_poll(nfds, head, &table, end_time);
845 poll_freewait(&table);
846
847 for (walk = head; walk; walk = walk->next) {
848 struct pollfd *fds = walk->entries;
849 int j;
850
851 for (j = 0; j < walk->len; j++, ufds++)
852 if (__put_user(fds[j].revents, &ufds->revents))
853 goto out_fds;
854 }
855
856 err = fdcount;
857 out_fds:
858 walk = head->next;
859 while (walk) {
860 struct poll_list *pos = walk;
861 walk = walk->next;
862 kfree(pos);
863 }
864
865 return err;
866 }
867
868 static long do_restart_poll(struct restart_block *restart_block)
869 {
870 struct pollfd __user *ufds = restart_block->poll.ufds;
871 int nfds = restart_block->poll.nfds;
872 struct timespec *to = NULL, end_time;
873 int ret;
874
875 if (restart_block->poll.has_timeout) {
876 end_time.tv_sec = restart_block->poll.tv_sec;
877 end_time.tv_nsec = restart_block->poll.tv_nsec;
878 to = &end_time;
879 }
880
881 ret = do_sys_poll(ufds, nfds, to);
882
883 if (ret == -EINTR) {
884 restart_block->fn = do_restart_poll;
885 ret = -ERESTART_RESTARTBLOCK;
886 }
887 return ret;
888 }
889
890 SYSCALL_DEFINE3(poll, struct pollfd __user *, ufds, unsigned int, nfds,
891 long, timeout_msecs)
892 {
893 struct timespec end_time, *to = NULL;
894 int ret;
895
896 if (timeout_msecs >= 0) {
897 to = &end_time;
898 poll_select_set_timeout(to, timeout_msecs / MSEC_PER_SEC,
899 NSEC_PER_MSEC * (timeout_msecs % MSEC_PER_SEC));
900 }
901
902 ret = do_sys_poll(ufds, nfds, to);
903
904 if (ret == -EINTR) {
905 struct restart_block *restart_block;
906
907 restart_block = &current_thread_info()->restart_block;
908 restart_block->fn = do_restart_poll;
909 restart_block->poll.ufds = ufds;
910 restart_block->poll.nfds = nfds;
911
912 if (timeout_msecs >= 0) {
913 restart_block->poll.tv_sec = end_time.tv_sec;
914 restart_block->poll.tv_nsec = end_time.tv_nsec;
915 restart_block->poll.has_timeout = 1;
916 } else
917 restart_block->poll.has_timeout = 0;
918
919 ret = -ERESTART_RESTARTBLOCK;
920 }
921 return ret;
922 }
923
924 #ifdef HAVE_SET_RESTORE_SIGMASK
925 SYSCALL_DEFINE5(ppoll, struct pollfd __user *, ufds, unsigned int, nfds,
926 struct timespec __user *, tsp, const sigset_t __user *, sigmask,
927 size_t, sigsetsize)
928 {
929 sigset_t ksigmask, sigsaved;
930 struct timespec ts, end_time, *to = NULL;
931 int ret;
932
933 if (tsp) {
934 if (copy_from_user(&ts, tsp, sizeof(ts)))
935 return -EFAULT;
936
937 to = &end_time;
938 if (poll_select_set_timeout(to, ts.tv_sec, ts.tv_nsec))
939 return -EINVAL;
940 }
941
942 if (sigmask) {
943 /* XXX: Don't preclude handling different sized sigset_t's. */
944 if (sigsetsize != sizeof(sigset_t))
945 return -EINVAL;
946 if (copy_from_user(&ksigmask, sigmask, sizeof(ksigmask)))
947 return -EFAULT;
948
949 sigdelsetmask(&ksigmask, sigmask(SIGKILL)|sigmask(SIGSTOP));
950 sigprocmask(SIG_SETMASK, &ksigmask, &sigsaved);
951 }
952
953 ret = do_sys_poll(ufds, nfds, to);
954
955 /* We can restart this syscall, usually */
956 if (ret == -EINTR) {
957 /*
958 * Don't restore the signal mask yet. Let do_signal() deliver
959 * the signal on the way back to userspace, before the signal
960 * mask is restored.
961 */
962 if (sigmask) {
963 memcpy(&current->saved_sigmask, &sigsaved,
964 sizeof(sigsaved));
965 set_restore_sigmask();
966 }
967 ret = -ERESTARTNOHAND;
968 } else if (sigmask)
969 sigprocmask(SIG_SETMASK, &sigsaved, NULL);
970
971 ret = poll_select_copy_remaining(&end_time, tsp, 0, ret);
972
973 return ret;
974 }
975 #endif /* HAVE_SET_RESTORE_SIGMASK */
Support for the Chinese Samsung S3C2440 based development boards