[bpt/emacs.git] / src / atimer.c

/* Asynchronous timers.
   Copyright (C) 2000-2014 Free Software Foundation, Inc.

This file is part of GNU Emacs.

GNU Emacs is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

GNU Emacs is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with GNU Emacs.  If not, see <http://www.gnu.org/licenses/>.  */

#include <config.h>
#include <stdio.h>

#include "lisp.h"
#include "syssignal.h"
#include "systime.h"
#include "blockinput.h"
#include "atimer.h"
#include <unistd.h>

/* Free-list of atimer structures.  */

static struct atimer *free_atimers;

/* List of currently not running timers due to a call to
   lock_atimer.  */

static struct atimer *stopped_atimers;

/* List of active atimers, sorted by expiration time.  The timer that
   will become ripe next is always at the front of this list.  */

static struct atimer *atimers;

/* The alarm timer and whether it was properly initialized, if
   POSIX timers are available.  */
#ifdef HAVE_ITIMERSPEC
static timer_t alarm_timer;
static bool alarm_timer_ok;
#endif

/* Block/unblock SIGALRM.  */

static void
sigmask_atimers (int how)
{
  sigset_t blocked;
  sigemptyset (&blocked);
  sigaddset (&blocked, SIGALRM);
  pthread_sigmask (how, &blocked, 0);
}
static void
block_atimers (void)
{
  sigmask_atimers (SIG_BLOCK);
}
static void
unblock_atimers (void)
{
  sigmask_atimers (SIG_UNBLOCK);
}

/* Function prototypes.  */

static void set_alarm (void);
static void schedule_atimer (struct atimer *);
static struct atimer *append_atimer_lists (struct atimer *,
                                           struct atimer *);

/* Start a new atimer of type TYPE.  TIME specifies when the timer is
   ripe.  FN is the function to call when the timer fires.
   CLIENT_DATA is stored in the client_data member of the atimer
   structure returned and so made available to FN when it is called.

   If TYPE is ATIMER_ABSOLUTE, TIME is the absolute time at which the
   timer fires.

   If TYPE is ATIMER_RELATIVE, the timer is ripe TIME s/us in the
   future.

   In both cases, the timer is automatically freed after it has fired.

   If TYPE is ATIMER_CONTINUOUS, the timer fires every TIME s/us.

   Value is a pointer to the atimer started.  It can be used in calls
   to cancel_atimer; don't free it yourself.  */

struct atimer *
start_atimer (enum atimer_type type, struct timespec timestamp,
	      atimer_callback fn, void *client_data)
{
  struct atimer *t;

  /* Round TIME up to the next full second if we don't have
     itimers.  */
#ifndef HAVE_SETITIMER
  if (timestamp.tv_nsec != 0 && timestamp.tv_sec < TYPE_MAXIMUM (time_t))
    timestamp = make_timespec (timestamp.tv_sec + 1, 0);
#endif /* not HAVE_SETITIMER */

  /* Get an atimer structure from the free-list, or allocate
     a new one.  */
  if (free_atimers)
    {
      t = free_atimers;
      free_atimers = t->next;
    }
  else
    t = xmalloc (sizeof *t);

  /* Fill the atimer structure.  */
  memset (t, 0, sizeof *t);
  t->type = type;
  t->fn = fn;
  t->client_data = client_data;

  block_atimers ();

  /* Compute the timer's expiration time.  */
  switch (type)
    {
    case ATIMER_ABSOLUTE:
      t->expiration = timestamp;
      break;

    case ATIMER_RELATIVE:
      t->expiration = timespec_add (current_timespec (), timestamp);
      break;

    case ATIMER_CONTINUOUS:
      t->expiration = timespec_add (current_timespec (), timestamp);
      t->interval = timestamp;
      break;
    }

  /* Insert the timer in the list of active atimers.  */
  schedule_atimer (t);
  unblock_atimers ();

  /* Arrange for a SIGALRM at the time the next atimer is ripe.  */
  set_alarm ();

  return t;
}


/* Cancel and free atimer TIMER.  */

void
cancel_atimer (struct atimer *timer)
{
  int i;

  block_atimers ();

  for (i = 0; i < 2; ++i)
    {
      struct atimer *t, *prev;
      struct atimer **list = i ? &stopped_atimers : &atimers;

      /* See if TIMER is active or stopped.  */
      for (t = *list, prev = NULL; t && t != timer; prev = t, t = t->next)
	;

      /* If it is, take it off its list, and put in on the free-list.
	 We don't bother to arrange for setting a different alarm time,
	 since a too early one doesn't hurt.  */
      if (t)
	{
	  if (prev)
	    prev->next = t->next;
	  else
	    *list = t->next;

	  t->next = free_atimers;
	  free_atimers = t;
	  break;
	}
    }

  unblock_atimers ();
}


/* Append two lists of atimers LIST_1 and LIST_2 and return the
   result list.  */

static struct atimer *
append_atimer_lists (struct atimer *list_1, struct atimer *list_2)
{
  if (list_1 == NULL)
    return list_2;
  else if (list_2 == NULL)
    return list_1;
  else
    {
      struct atimer *p;

      for (p = list_1; p->next; p = p->next)
	;
      p->next = list_2;
      return list_1;
    }
}


/* Stop all timers except timer T.  T null means stop all timers.  */

void
stop_other_atimers (struct atimer *t)
{
  block_atimers ();

  if (t)
    {
      struct atimer *p, *prev;

      /* See if T is active.  */
      for (p = atimers, prev = NULL; p && p != t; prev = p, p = p->next)
	;

      if (p == t)
	{
	  if (prev)
	    prev->next = t->next;
	  else
	    atimers = t->next;
	  t->next = NULL;
	}
      else
	/* T is not active.  Let's handle this like T == 0.  */
	t = NULL;
    }

  stopped_atimers = append_atimer_lists (atimers, stopped_atimers);
  atimers = t;
  unblock_atimers ();
}


/* Run all timers again, if some have been stopped with a call to
   stop_other_atimers.  */

void
run_all_atimers (void)
{
  if (stopped_atimers)
    {
      struct atimer *t = atimers;
      struct atimer *next;

      block_atimers ();
      atimers = stopped_atimers;
      stopped_atimers = NULL;

      while (t)
	{
	  next = t->next;
	  schedule_atimer (t);
	  t = next;
	}

      unblock_atimers ();
    }
}


/* Arrange for a SIGALRM to arrive when the next timer is ripe.  */

static void
set_alarm (void)
{
  if (atimers)
    {
#ifdef HAVE_SETITIMER
      struct itimerval it;
#endif
      struct timespec now, interval;

#ifdef HAVE_ITIMERSPEC
      if (alarm_timer_ok)
	{
	  struct itimerspec ispec;
	  ispec.it_value = atimers->expiration;
	  ispec.it_interval.tv_sec = ispec.it_interval.tv_nsec = 0;
	  if (timer_settime (alarm_timer, 0, &ispec, 0) == 0)
	    return;
	}
#endif

      /* Determine interval till the next timer is ripe.
	 Don't set the interval to 0; this disables the timer.  */
      now = current_timespec ();
      interval = (timespec_cmp (atimers->expiration, now) <= 0
		  ? make_timespec (0, 1000 * 1000)
		  : timespec_sub (atimers->expiration, now));

#ifdef HAVE_SETITIMER

      memset (&it, 0, sizeof it);
      it.it_value = make_timeval (interval);
      setitimer (ITIMER_REAL, &it, 0);
#else /* not HAVE_SETITIMER */
      alarm (max (interval.tv_sec, 1));
#endif /* not HAVE_SETITIMER */
    }
}


/* Insert timer T into the list of active atimers `atimers', keeping
   the list sorted by expiration time.  T must not be in this list
   already.  */

static void
schedule_atimer (struct atimer *t)
{
  struct atimer *a = atimers, *prev = NULL;

  /* Look for the first atimer that is ripe after T.  */
  while (a && timespec_cmp (a->expiration, t->expiration) < 0)
    prev = a, a = a->next;

  /* Insert T in front of the atimer found, if any.  */
  if (prev)
    prev->next = t;
  else
    atimers = t;

  t->next = a;
}

static void
run_timers (void)
{
  struct timespec now = current_timespec ();

  while (atimers && timespec_cmp (atimers->expiration, now) <= 0)
    {
      struct atimer *t = atimers;
      atimers = atimers->next;
      t->fn (t);

      if (t->type == ATIMER_CONTINUOUS)
	{
	  t->expiration = timespec_add (now, t->interval);
	  schedule_atimer (t);
	}
      else
	{
	  t->next = free_atimers;
	  free_atimers = t;
	}
    }

  set_alarm ();
}


/* Signal handler for SIGALRM.  SIGNO is the signal number, i.e.
   SIGALRM.  */

static void
handle_alarm_signal (int sig)
{
  pending_signals = 1;
}


/* Do pending timers.  */

void
do_pending_atimers (void)
{
  if (atimers)
    {
      block_atimers ();
      run_timers ();
      unblock_atimers ();
    }
}


/* Turn alarms on/off.  This seems to be temporarily necessary on
   some systems like HPUX (see process.c).  */

void
turn_on_atimers (bool on)
{
  if (on)
    set_alarm ();
  else
    alarm (0);
}


void
init_atimer (void)
{
  struct sigaction action;
#ifdef HAVE_ITIMERSPEC
  struct sigevent sigev;
  sigev.sigev_notify = SIGEV_SIGNAL;
  sigev.sigev_signo = SIGALRM;
  sigev.sigev_value.sival_ptr = &alarm_timer;
  alarm_timer_ok = timer_create (CLOCK_REALTIME, &sigev, &alarm_timer) == 0;
#endif
  free_atimers = stopped_atimers = atimers = NULL;
  /* pending_signals is initialized in init_keyboard.*/
  emacs_sigaction_init (&action, handle_alarm_signal);
  sigaction (SIGALRM, &action, 0);
}
Commit	Line	Data
e12489f9	1	/* Asynchronous timers.
ba318903	2	Copyright (C) 2000-2014 Free Software Foundation, Inc.
e12489f9 GM	3
	4	This file is part of GNU Emacs.
	5
9ec0b715	6	GNU Emacs is free software: you can redistribute it and/or modify
e12489f9	7	it under the terms of the GNU General Public License as published by
9ec0b715 GM	8	the Free Software Foundation, either version 3 of the License, or
9ec0b715 GM	9	(at your option) any later version.
e12489f9 GM	10
	11	GNU Emacs 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
	14	GNU General Public License for more details.
	15
	16	You should have received a copy of the GNU General Public License
9ec0b715	17	along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>. */
e12489f9 GM	18
e12489f9 GM	19	#include <config.h>
5890e9f7	20	#include <stdio.h>
0328b6de	21
898b4c5c DN	22	#include "lisp.h"
	23	#include "syssignal.h"
	24	#include "systime.h"
	25	#include "blockinput.h"
	26	#include "atimer.h"
e12489f9	27	#include <unistd.h>
e12489f9	28
e12489f9 GM	29	/* Free-list of atimer structures. */
	30
	31	static struct atimer *free_atimers;
	32
9c2e3e8d GM	33	/* List of currently not running timers due to a call to
	34	lock_atimer. */
	35
	36	static struct atimer *stopped_atimers;
	37
e12489f9 GM	38	/* List of active atimers, sorted by expiration time. The timer that
	39	will become ripe next is always at the front of this list. */
	40
	41	static struct atimer *atimers;
	42
e26fd2e4 PE	43	/* The alarm timer and whether it was properly initialized, if
e26fd2e4 PE	44	POSIX timers are available. */
2b794d69	45	#ifdef HAVE_ITIMERSPEC
e26fd2e4 PE	46	static timer_t alarm_timer;
	47	static bool alarm_timer_ok;
	48	#endif
	49
5f351ff1	50	/* Block/unblock SIGALRM. */
e12489f9	51
2fe28299 PE	52	static void
	53	sigmask_atimers (int how)
	54	{
	55	sigset_t blocked;
	56	sigemptyset (&blocked);
	57	sigaddset (&blocked, SIGALRM);
	58	pthread_sigmask (how, &blocked, 0);
	59	}
	60	static void
	61	block_atimers (void)
	62	{
	63	sigmask_atimers (SIG_BLOCK);
	64	}
	65	static void
	66	unblock_atimers (void)
	67	{
	68	sigmask_atimers (SIG_UNBLOCK);
	69	}
e12489f9 GM	70
	71	/* Function prototypes. */
	72
f57e2426 J	73	static void set_alarm (void);
	74	static void schedule_atimer (struct atimer *);
	75	static struct atimer append_atimer_lists (struct atimer ,
	76	struct atimer *);
e12489f9 GM	77
	78	/* Start a new atimer of type TYPE. TIME specifies when the timer is
	79	ripe. FN is the function to call when the timer fires.
	80	CLIENT_DATA is stored in the client_data member of the atimer
	81	structure returned and so made available to FN when it is called.
	82
	83	If TYPE is ATIMER_ABSOLUTE, TIME is the absolute time at which the
	84	timer fires.
	85
	86	If TYPE is ATIMER_RELATIVE, the timer is ripe TIME s/us in the
	87	future.
	88
	89	In both cases, the timer is automatically freed after it has fired.
	90
	91	If TYPE is ATIMER_CONTINUOUS, the timer fires every TIME s/us.
	92
	93	Value is a pointer to the atimer started. It can be used in calls
	94	to cancel_atimer; don't free it yourself. */
	95
	96	struct atimer *
43aac990 PE	97	start_atimer (enum atimer_type type, struct timespec timestamp,
43aac990 PE	98	atimer_callback fn, void *client_data)
e12489f9 GM	99	{
	100	struct atimer *t;
	101
	102	/* Round TIME up to the next full second if we don't have
	103	itimers. */
	104	#ifndef HAVE_SETITIMER
43aac990 PE	105	if (timestamp.tv_nsec != 0 && timestamp.tv_sec < TYPE_MAXIMUM (time_t))
43aac990 PE	106	timestamp = make_timespec (timestamp.tv_sec + 1, 0);
e12489f9 GM	107	#endif /* not HAVE_SETITIMER */
	108
	109	/* Get an atimer structure from the free-list, or allocate
	110	a new one. */
	111	if (free_atimers)
	112	{
	113	t = free_atimers;
	114	free_atimers = t->next;
	115	}
	116	else
23f86fce	117	t = xmalloc (sizeof *t);
e12489f9 GM	118
e12489f9 GM	119	/* Fill the atimer structure. */
72af86bd	120	memset (t, 0, sizeof *t);
e12489f9 GM	121	t->type = type;
	122	t->fn = fn;
	123	t->client_data = client_data;
	124
2fe28299	125	block_atimers ();
e12489f9 GM	126
	127	/* Compute the timer's expiration time. */
	128	switch (type)
	129	{
	130	case ATIMER_ABSOLUTE:
3e7d6594	131	t->expiration = timestamp;
e12489f9	132	break;
177c0ea7	133
e12489f9	134	case ATIMER_RELATIVE:
43aac990	135	t->expiration = timespec_add (current_timespec (), timestamp);
e12489f9	136	break;
177c0ea7	137
e12489f9	138	case ATIMER_CONTINUOUS:
43aac990	139	t->expiration = timespec_add (current_timespec (), timestamp);
3e7d6594	140	t->interval = timestamp;
e12489f9 GM	141	break;
	142	}
	143
	144	/* Insert the timer in the list of active atimers. */
	145	schedule_atimer (t);
2fe28299	146	unblock_atimers ();
e12489f9 GM	147
	148	/* Arrange for a SIGALRM at the time the next atimer is ripe. */
	149	set_alarm ();
177c0ea7	150
e12489f9 GM	151	return t;
	152	}
	153
	154
	155	/* Cancel and free atimer TIMER. */
	156
	157	void
971de7fb	158	cancel_atimer (struct atimer *timer)
e12489f9	159	{
50b1039f	160	int i;
177c0ea7	161
2fe28299	162	block_atimers ();
e12489f9	163
50b1039f	164	for (i = 0; i < 2; ++i)
94870977	165	{
50b1039f GM	166	struct atimer t, prev;
50b1039f GM	167	struct atimer **list = i ? &stopped_atimers : &atimers;
177c0ea7	168
94870977	169	/* See if TIMER is active or stopped. */
4ab1d4be	170	for (t = *list, prev = NULL; t && t != timer; prev = t, t = t->next)
94870977 GM	171	;
94870977 GM	172
88dbda51 JB	173	/* If it is, take it off its list, and put in on the free-list.
	174	We don't bother to arrange for setting a different alarm time,
	175	since a too early one doesn't hurt. */
94870977 GM	176	if (t)
	177	{
	178	if (prev)
	179	prev->next = t->next;
	180	else
	181	*list = t->next;
177c0ea7	182
94870977 GM	183	t->next = free_atimers;
94870977 GM	184	free_atimers = t;
4ab1d4be	185	break;
94870977	186	}
e12489f9 GM	187	}
e12489f9 GM	188
2fe28299	189	unblock_atimers ();
e12489f9 GM	190	}
	191
	192
3e7d6594	193	/* Append two lists of atimers LIST_1 and LIST_2 and return the
50b1039f GM	194	result list. */
	195
	196	static struct atimer *
3e7d6594	197	append_atimer_lists (struct atimer list_1, struct atimer list_2)
50b1039f	198	{
3e7d6594 PE	199	if (list_1 == NULL)
	200	return list_2;
	201	else if (list_2 == NULL)
	202	return list_1;
50b1039f GM	203	else
	204	{
	205	struct atimer *p;
177c0ea7	206
3e7d6594	207	for (p = list_1; p->next; p = p->next)
50b1039f	208	;
3e7d6594 PE	209	p->next = list_2;
3e7d6594 PE	210	return list_1;
50b1039f GM	211	}
	212	}
	213
	214
	215	/* Stop all timers except timer T. T null means stop all timers. */
9c2e3e8d GM	216
9c2e3e8d GM	217	void
971de7fb	218	stop_other_atimers (struct atimer *t)
9c2e3e8d	219	{
2fe28299	220	block_atimers ();
177c0ea7	221
9c2e3e8d GM	222	if (t)
9c2e3e8d GM	223	{
2503c8b1	224	struct atimer p, prev;
177c0ea7	225
2503c8b1	226	/* See if T is active. */
96013ba9	227	for (p = atimers, prev = NULL; p && p != t; prev = p, p = p->next)
2503c8b1 GM	228	;
	229
	230	if (p == t)
	231	{
	232	if (prev)
	233	prev->next = t->next;
	234	else
	235	atimers = t->next;
	236	t->next = NULL;
	237	}
	238	else
	239	/* T is not active. Let's handle this like T == 0. */
	240	t = NULL;
9c2e3e8d	241	}
177c0ea7	242
50b1039f	243	stopped_atimers = append_atimer_lists (atimers, stopped_atimers);
9c2e3e8d	244	atimers = t;
2fe28299	245	unblock_atimers ();
9c2e3e8d GM	246	}
	247
	248
	249	/* Run all timers again, if some have been stopped with a call to
	250	stop_other_atimers. */
	251
27e498e6	252	void
971de7fb	253	run_all_atimers (void)
9c2e3e8d GM	254	{
	255	if (stopped_atimers)
	256	{
	257	struct atimer *t = atimers;
50b1039f	258	struct atimer *next;
177c0ea7	259
2fe28299	260	block_atimers ();
9c2e3e8d GM	261	atimers = stopped_atimers;
9c2e3e8d GM	262	stopped_atimers = NULL;
177c0ea7	263
50b1039f GM	264	while (t)
	265	{
	266	next = t->next;
	267	schedule_atimer (t);
	268	t = next;
	269	}
177c0ea7	270
2fe28299	271	unblock_atimers ();
9c2e3e8d GM	272	}
	273	}
	274
	275
e12489f9 GM	276	/* Arrange for a SIGALRM to arrive when the next timer is ripe. */
	277
	278	static void
971de7fb	279	set_alarm (void)
e12489f9	280	{
e12489f9 GM	281	if (atimers)
e12489f9 GM	282	{
e12489f9 GM	283	#ifdef HAVE_SETITIMER
	284	struct itimerval it;
	285	#endif
43aac990	286	struct timespec now, interval;
e12489f9	287
2b794d69	288	#ifdef HAVE_ITIMERSPEC
e26fd2e4 PE	289	if (alarm_timer_ok)
	290	{
	291	struct itimerspec ispec;
	292	ispec.it_value = atimers->expiration;
	293	ispec.it_interval.tv_sec = ispec.it_interval.tv_nsec = 0;
	294	if (timer_settime (alarm_timer, 0, &ispec, 0) == 0)
	295	return;
	296	}
	297	#endif
e12489f9	298
e26fd2e4 PE	299	/* Determine interval till the next timer is ripe.
e26fd2e4 PE	300	Don't set the interval to 0; this disables the timer. */
43aac990 PE	301	now = current_timespec ();
	302	interval = (timespec_cmp (atimers->expiration, now) <= 0
	303	? make_timespec (0, 1000 * 1000)
	304	: timespec_sub (atimers->expiration, now));
d35af63c PE	305
d35af63c PE	306	#ifdef HAVE_SETITIMER
177c0ea7	307
72af86bd	308	memset (&it, 0, sizeof it);
e9a9ae03	309	it.it_value = make_timeval (interval);
e12489f9 GM	310	setitimer (ITIMER_REAL, &it, 0);
e12489f9 GM	311	#else /* not HAVE_SETITIMER */
43aac990	312	alarm (max (interval.tv_sec, 1));
e12489f9 GM	313	#endif /* not HAVE_SETITIMER */
	314	}
	315	}
	316
	317
	318	/* Insert timer T into the list of active atimers `atimers', keeping
	319	the list sorted by expiration time. T must not be in this list
	320	already. */
	321
	322	static void
971de7fb	323	schedule_atimer (struct atimer *t)
e12489f9 GM	324	{
	325	struct atimer a = atimers, prev = NULL;
	326
	327	/* Look for the first atimer that is ripe after T. */
43aac990	328	while (a && timespec_cmp (a->expiration, t->expiration) < 0)
e12489f9 GM	329	prev = a, a = a->next;
	330
	331	/* Insert T in front of the atimer found, if any. */
	332	if (prev)
	333	prev->next = t;
	334	else
	335	atimers = t;
177c0ea7	336
e12489f9 GM	337	t->next = a;
	338	}
	339
170c80be	340	static void
971de7fb	341	run_timers (void)
e12489f9	342	{
43aac990	343	struct timespec now = current_timespec ();
177c0ea7	344
43aac990	345	while (atimers && timespec_cmp (atimers->expiration, now) <= 0)
e12489f9	346	{
4d7e6e51	347	struct atimer *t = atimers;
e12489f9 GM	348	atimers = atimers->next;
e12489f9 GM	349	t->fn (t);
177c0ea7	350
e12489f9 GM	351	if (t->type == ATIMER_CONTINUOUS)
e12489f9 GM	352	{
43aac990	353	t->expiration = timespec_add (now, t->interval);
e12489f9 GM	354	schedule_atimer (t);
	355	}
	356	else
	357	{
	358	t->next = free_atimers;
	359	free_atimers = t;
	360	}
e12489f9	361	}
177c0ea7	362
4d7e6e51	363	set_alarm ();
e12489f9 GM	364	}
	365
	366
170c80be JD	367	/* Signal handler for SIGALRM. SIGNO is the signal number, i.e.
	368	SIGALRM. */
	369
20ef56db PE	370	static void
20ef56db PE	371	handle_alarm_signal (int sig)
170c80be	372	{
325530de	373	pending_signals = 1;
170c80be JD	374	}
	375
	376
4d7e6e51	377	/* Do pending timers. */
e12489f9 GM	378
e12489f9 GM	379	void
971de7fb	380	do_pending_atimers (void)
e12489f9	381	{
4d7e6e51	382	if (atimers)
e12489f9	383	{
2fe28299	384	block_atimers ();
170c80be	385	run_timers ();
2fe28299	386	unblock_atimers ();
e12489f9 GM	387	}
	388	}
	389
	390
	391	/* Turn alarms on/off. This seems to be temporarily necessary on
	392	some systems like HPUX (see process.c). */
	393
	394	void
b1bb8011	395	turn_on_atimers (bool on)
e12489f9 GM	396	{
e12489f9 GM	397	if (on)
4d7e6e51	398	set_alarm ();
e12489f9 GM	399	else
	400	alarm (0);
	401	}
	402
	403
	404	void
971de7fb	405	init_atimer (void)
e12489f9	406	{
2fe28299	407	struct sigaction action;
2b794d69	408	#ifdef HAVE_ITIMERSPEC
e26fd2e4 PE	409	struct sigevent sigev;
	410	sigev.sigev_notify = SIGEV_SIGNAL;
	411	sigev.sigev_signo = SIGALRM;
	412	sigev.sigev_value.sival_ptr = &alarm_timer;
	413	alarm_timer_ok = timer_create (CLOCK_REALTIME, &sigev, &alarm_timer) == 0;
	414	#endif
bcdf96ba	415	free_atimers = stopped_atimers = atimers = NULL;
325530de	416	/* pending_signals is initialized in init_keyboard.*/
4d7e6e51	417	emacs_sigaction_init (&action, handle_alarm_signal);
2fe28299	418	sigaction (SIGALRM, &action, 0);
e12489f9	419	}