[ViewVC] Diff of: cvs/libev/ev.c

Comparing libev/ev.c (file contents):
Revision 1.6 by root, Tue Oct 30 23:55:29 2007 UTC vs.
Revision 1.41 by root, Fri Nov 2 16:54:34 2007 UTC

…		…
		1	/*
		2	* libev event processing core, watcher management
		3	*
		4	* Copyright (c) 2007 Marc Alexander Lehmann <libev@schmorp.de>
		5	* All rights reserved.
		6	*
		7	* Redistribution and use in source and binary forms, with or without
		8	* modification, are permitted provided that the following conditions are
		9	* met:
		10	*
		11	* * Redistributions of source code must retain the above copyright
		12	* notice, this list of conditions and the following disclaimer.
		13	*
		14	* * Redistributions in binary form must reproduce the above
		15	* copyright notice, this list of conditions and the following
		16	* disclaimer in the documentation and/or other materials provided
		17	* with the distribution.
		18	*
		19	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
		20	* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
		21	* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
		22	* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
		23	* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
		24	* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
		25	* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
		26	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
		27	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
		28	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
		29	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
		30	*/
		31	#if EV_USE_CONFIG_H
		32	# include "config.h"
		33	#endif
		34
1	#include <math.h>	35	#include <math.h>
2	#include <stdlib.h>	36	#include <stdlib.h>
		37	#include <unistd.h>
		38	#include <fcntl.h>
		39	#include <signal.h>
		40	#include <stddef.h>
3		41
4	#include <stdio.h>	42	#include <stdio.h>
5		43
6	#include <assert.h>	44	#include <assert.h>
7	#include <errno.h>	45	#include <errno.h>
		46	#include <sys/types.h>
		47	#include <sys/wait.h>
8	#include <sys/time.h>	48	#include <sys/time.h>
9	#include <time.h>	49	#include <time.h>
10		50
		51	/**/
		52
		53	#ifndef EV_USE_MONOTONIC
		54	# define EV_USE_MONOTONIC 1
		55	#endif
		56
		57	#ifndef EV_USE_SELECT
		58	# define EV_USE_SELECT 1
		59	#endif
		60
		61	#ifndef EV_USE_POLL
		62	# define EV_USE_POLL 0 /* poll is usually slower than select, and not as well tested */
		63	#endif
		64
		65	#ifndef EV_USE_EPOLL
		66	# define EV_USE_EPOLL 0
		67	#endif
		68
		69	#ifndef EV_USE_REALTIME
		70	# define EV_USE_REALTIME 1
		71	#endif
		72
		73	/**/
		74
11	#ifdef CLOCK_MONOTONIC	75	#ifndef CLOCK_MONOTONIC
		76	# undef EV_USE_MONOTONIC
12	# define HAVE_MONOTONIC 1	77	# define EV_USE_MONOTONIC 0
13	#endif	78	#endif
14		79
		80	#ifndef CLOCK_REALTIME
		81	# undef EV_USE_REALTIME
15	#define HAVE_REALTIME 1	82	# define EV_USE_REALTIME 0
16	#define HAVE_EPOLL 1	83	#endif
17	#define HAVE_SELECT 1	84
		85	/**/
18		86
19	#define MIN_TIMEJUMP 1. /* minimum timejump that gets detected (if monotonic clock available) */	87	#define MIN_TIMEJUMP 1. /* minimum timejump that gets detected (if monotonic clock available) */
20	#define MAX_BLOCKTIME 60.	88	#define MAX_BLOCKTIME 59.731 /* never wait longer than this time (to detect time jumps) */
		89	#define PID_HASHSIZE 16 /* size of pid hash table, must be power of two */
		90	/#define CLEANUP_INTERVAL 300. / how often to try to free memory and re-check fds */
21		91
22	#include "ev.h"	92	#include "ev.h"
23		93
		94	#if __GNUC__ >= 3
		95	# define expect(expr,value) __builtin_expect ((expr),(value))
		96	# define inline inline
		97	#else
		98	# define expect(expr,value) (expr)
		99	# define inline static
		100	#endif
		101
		102	#define expect_false(expr) expect ((expr) != 0, 0)
		103	#define expect_true(expr) expect ((expr) != 0, 1)
		104
24	struct ev_watcher {	105	typedef struct ev_watcher *W;
25	EV_WATCHER (ev_watcher);
26	};
27
28	struct ev_watcher_list {	106	typedef struct ev_watcher_list *WL;
29	EV_WATCHER_LIST (ev_watcher_list);	107	typedef struct ev_watcher_time *WT;
30	};
31		108
32	static ev_tstamp now, diff; /* monotonic clock */	109	static ev_tstamp now_floor, now, diff; /* monotonic clock */
33	ev_tstamp ev_now;	110	ev_tstamp ev_now;
34	int ev_method;	111	int ev_method;
35		112
36	static int have_monotonic; /* runtime */	113	static int have_monotonic; /* runtime */
37		114
38	static ev_tstamp method_fudge; /* stupid epoll-returns-early bug */	115	static ev_tstamp method_fudge; /* stupid epoll-returns-early bug */
39	static void (*method_modify)(int fd, int oev, int nev);	116	static void (*method_modify)(int fd, int oev, int nev);
40	static void (*method_poll)(ev_tstamp timeout);	117	static void (*method_poll)(ev_tstamp timeout);
41		118
		119	/*****************************************************************************/
		120
42	ev_tstamp	121	ev_tstamp
43	ev_time (void)	122	ev_time (void)
44	{	123	{
45	#if HAVE_REALTIME	124	#if EV_USE_REALTIME
46	struct timespec ts;	125	struct timespec ts;
47	clock_gettime (CLOCK_REALTIME, &ts);	126	clock_gettime (CLOCK_REALTIME, &ts);
48	return ts.tv_sec + ts.tv_nsec * 1e-9;	127	return ts.tv_sec + ts.tv_nsec * 1e-9;
49	#else	128	#else
50	struct timeval tv;	129	struct timeval tv;
54	}	133	}
55		134
56	static ev_tstamp	135	static ev_tstamp
57	get_clock (void)	136	get_clock (void)
58	{	137	{
59	#if HAVE_MONOTONIC	138	#if EV_USE_MONOTONIC
60	if (have_monotonic)	139	if (expect_true (have_monotonic))
61	{	140	{
62	struct timespec ts;	141	struct timespec ts;
63	clock_gettime (CLOCK_MONOTONIC, &ts);	142	clock_gettime (CLOCK_MONOTONIC, &ts);
64	return ts.tv_sec + ts.tv_nsec * 1e-9;	143	return ts.tv_sec + ts.tv_nsec * 1e-9;
65	}	144	}
66	#endif	145	#endif
67		146
68	return ev_time ();	147	return ev_time ();
69	}	148	}
70		149
		150	#define array_roundsize(base,n) ((n) \| 4 & ~3)
		151
71	#define array_needsize(base,cur,cnt,init) \	152	#define array_needsize(base,cur,cnt,init) \
72	if ((cnt) > cur) \	153	if (expect_false ((cnt) > cur)) \
73	{ \	154	{ \
74	int newcnt = cur ? cur << 1 : 16; \	155	int newcnt = cur; \
75	fprintf (stderr, "resize(" # base ") from %d to %d\n", cur, newcnt);\	156	do \
		157	{ \
		158	newcnt = array_roundsize (base, newcnt << 1); \
		159	} \
		160	while ((cnt) > newcnt); \
		161	\
76	base = realloc (base, sizeof (base) (newcnt)); \	162	base = realloc (base, sizeof (base) (newcnt)); \
77	init (base + cur, newcnt - cur); \	163	init (base + cur, newcnt - cur); \
78	cur = newcnt; \	164	cur = newcnt; \
79	}	165	}
80		166
		167	/*****************************************************************************/
		168
81	typedef struct	169	typedef struct
82	{	170	{
83	struct ev_io *head;	171	struct ev_io *head;
84	unsigned char wev, rev; /* want, received event set */	172	unsigned char events;
		173	unsigned char reify;
85	} ANFD;	174	} ANFD;
86		175
87	static ANFD *anfds;	176	static ANFD *anfds;
88	static int anfdmax;	177	static int anfdmax;
89		178
90	static int *fdchanges;
91	static int fdchangemax, fdchangecnt;
92
93	static void	179	static void
94	anfds_init (ANFD *base, int count)	180	anfds_init (ANFD *base, int count)
95	{	181	{
96	while (count--)	182	while (count--)
97	{	183	{
98	base->head = 0;	184	base->head = 0;
99	base->wev = base->rev = EV_NONE;	185	base->events = EV_NONE;
		186	base->reify = 0;
		187
100	++base;	188	++base;
101	}	189	}
102	}	190	}
103		191
104	typedef struct	192	typedef struct
105	{	193	{
106	struct ev_watcher *w;	194	W w;
107	int events;	195	int events;
108	} ANPENDING;	196	} ANPENDING;
109		197
110	static ANPENDING *pendings;	198	static ANPENDING *pendings;
111	static int pendingmax, pendingcnt;	199	static int pendingmax, pendingcnt;
112		200
113	static void	201	static void
114	event (struct ev_watcher *w, int events)	202	event (W w, int events)
115	{	203	{
		204	if (w->pending)
		205	{
		206	pendings [w->pending - 1].events \|= events;
		207	return;
		208	}
		209
116	w->pending = ++pendingcnt;	210	w->pending = ++pendingcnt;
117	array_needsize (pendings, pendingmax, pendingcnt, );	211	array_needsize (pendings, pendingmax, pendingcnt, );
118	pendings [pendingcnt - 1].w = w;	212	pendings [pendingcnt - 1].w = w;
119	pendings [pendingcnt - 1].events = events;	213	pendings [pendingcnt - 1].events = events;
120	}	214	}
121		215
122	static void	216	static void
		217	queue_events (W *events, int eventcnt, int type)
		218	{
		219	int i;
		220
		221	for (i = 0; i < eventcnt; ++i)
		222	event (events [i], type);
		223	}
		224
		225	static void
123	fd_event (int fd, int events)	226	fd_event (int fd, int events)
124	{	227	{
125	ANFD *anfd = anfds + fd;	228	ANFD *anfd = anfds + fd;
126	struct ev_io *w;	229	struct ev_io *w;
127		230
128	for (w = anfd->head; w; w = w->next)	231	for (w = anfd->head; w; w = w->next)
129	{	232	{
130	int ev = w->events & events;	233	int ev = w->events & events;
131		234
132	if (ev)	235	if (ev)
133	event ((struct ev_watcher *)w, ev);	236	event ((W)w, ev);
		237	}
		238	}
		239
		240	/*****************************************************************************/
		241
		242	static int *fdchanges;
		243	static int fdchangemax, fdchangecnt;
		244
		245	static void
		246	fd_reify (void)
		247	{
		248	int i;
		249
		250	for (i = 0; i < fdchangecnt; ++i)
		251	{
		252	int fd = fdchanges [i];
		253	ANFD *anfd = anfds + fd;
		254	struct ev_io *w;
		255
		256	int events = 0;
		257
		258	for (w = anfd->head; w; w = w->next)
		259	events \|= w->events;
		260
		261	anfd->reify = 0;
		262
		263	if (anfd->events != events)
		264	{
		265	method_modify (fd, anfd->events, events);
		266	anfd->events = events;
		267	}
		268	}
		269
		270	fdchangecnt = 0;
		271	}
		272
		273	static void
		274	fd_change (int fd)
		275	{
		276	if (anfds [fd].reify \|\| fdchangecnt < 0)
		277	return;
		278
		279	anfds [fd].reify = 1;
		280
		281	++fdchangecnt;
		282	array_needsize (fdchanges, fdchangemax, fdchangecnt, );
		283	fdchanges [fdchangecnt - 1] = fd;
		284	}
		285
		286	static void
		287	fd_kill (int fd)
		288	{
		289	struct ev_io *w;
		290
		291	printf ("killing fd %d\n", fd);//D
		292	while ((w = anfds [fd].head))
		293	{
		294	ev_io_stop (w);
		295	event ((W)w, EV_ERROR \| EV_READ \| EV_WRITE);
		296	}
		297	}
		298
		299	/* called on EBADF to verify fds */
		300	static void
		301	fd_ebadf (void)
		302	{
		303	int fd;
		304
		305	for (fd = 0; fd < anfdmax; ++fd)
		306	if (anfds [fd].events)
		307	if (fcntl (fd, F_GETFD) == -1 && errno == EBADF)
		308	fd_kill (fd);
		309	}
		310
		311	/* called on ENOMEM in select/poll to kill some fds and retry */
		312	static void
		313	fd_enomem (void)
		314	{
		315	int fd = anfdmax;
		316
		317	while (fd--)
		318	if (anfds [fd].events)
		319	{
		320	close (fd);
		321	fd_kill (fd);
		322	return;
134	}	323	}
135	}	324	}
136		325
		326	/*****************************************************************************/
		327
137	static struct ev_timer **atimers;	328	static struct ev_timer **timers;
138	static int atimermax, atimercnt;	329	static int timermax, timercnt;
139		330
140	static struct ev_timer **rtimers;	331	static struct ev_periodic **periodics;
141	static int rtimermax, rtimercnt;	332	static int periodicmax, periodiccnt;
142		333
143	static void	334	static void
144	upheap (struct ev_timer **timers, int k)	335	upheap (WT *timers, int k)
145	{	336	{
146	struct ev_timer *w = timers [k];	337	WT w = timers [k];
147		338
148	while (k && timers [k >> 1]->at > w->at)	339	while (k && timers [k >> 1]->at > w->at)
149	{	340	{
150	timers [k] = timers [k >> 1];	341	timers [k] = timers [k >> 1];
151	timers [k]->active = k + 1;	342	timers [k]->active = k + 1;
…		…
156	timers [k]->active = k + 1;	347	timers [k]->active = k + 1;
157		348
158	}	349	}
159		350
160	static void	351	static void
161	downheap (struct ev_timer **timers, int N, int k)	352	downheap (WT *timers, int N, int k)
162	{	353	{
163	struct ev_timer *w = timers [k];	354	WT w = timers [k];
164		355
165	while (k < (N >> 1))	356	while (k < (N >> 1))
166	{	357	{
167	int j = k << 1;	358	int j = k << 1;
168		359
…		…
179		370
180	timers [k] = w;	371	timers [k] = w;
181	timers [k]->active = k + 1;	372	timers [k]->active = k + 1;
182	}	373	}
183		374
184	static struct ev_signal **signals;	375	/*****************************************************************************/
		376
		377	typedef struct
		378	{
		379	struct ev_signal *head;
		380	sig_atomic_t volatile gotsig;
		381	} ANSIG;
		382
		383	static ANSIG *signals;
185	static int signalmax;	384	static int signalmax;
186		385
		386	static int sigpipe [2];
		387	static sig_atomic_t volatile gotsig;
		388	static struct ev_io sigev;
		389
187	static void	390	static void
188	signals_init (struct ev_signal **base, int count)	391	signals_init (ANSIG *base, int count)
189	{	392	{
190	while (count--)	393	while (count--)
191	*base++ = 0;	394	{
192	}	395	base->head = 0;
		396	base->gotsig = 0;
193		397
		398	++base;
		399	}
		400	}
		401
		402	static void
		403	sighandler (int signum)
		404	{
		405	signals [signum - 1].gotsig = 1;
		406
		407	if (!gotsig)
		408	{
		409	gotsig = 1;
		410	write (sigpipe [1], &signum, 1);
		411	}
		412	}
		413
		414	static void
		415	sigcb (struct ev_io *iow, int revents)
		416	{
		417	struct ev_signal *w;
		418	int signum;
		419
		420	read (sigpipe [0], &revents, 1);
		421	gotsig = 0;
		422
		423	for (signum = signalmax; signum--; )
		424	if (signals [signum].gotsig)
		425	{
		426	signals [signum].gotsig = 0;
		427
		428	for (w = signals [signum].head; w; w = w->next)
		429	event ((W)w, EV_SIGNAL);
		430	}
		431	}
		432
		433	static void
		434	siginit (void)
		435	{
		436	fcntl (sigpipe [0], F_SETFD, FD_CLOEXEC);
		437	fcntl (sigpipe [1], F_SETFD, FD_CLOEXEC);
		438
		439	/* rather than sort out wether we really need nb, set it */
		440	fcntl (sigpipe [0], F_SETFL, O_NONBLOCK);
		441	fcntl (sigpipe [1], F_SETFL, O_NONBLOCK);
		442
		443	ev_io_set (&sigev, sigpipe [0], EV_READ);
		444	ev_io_start (&sigev);
		445	}
		446
		447	/*****************************************************************************/
		448
		449	static struct ev_idle **idles;
		450	static int idlemax, idlecnt;
		451
		452	static struct ev_prepare **prepares;
		453	static int preparemax, preparecnt;
		454
		455	static struct ev_check **checks;
		456	static int checkmax, checkcnt;
		457
		458	/*****************************************************************************/
		459
		460	static struct ev_child *childs [PID_HASHSIZE];
		461	static struct ev_signal childev;
		462
		463	#ifndef WCONTINUED
		464	# define WCONTINUED 0
		465	#endif
		466
		467	static void
		468	childcb (struct ev_signal *sw, int revents)
		469	{
		470	struct ev_child *w;
		471	int pid, status;
		472
		473	while ((pid = waitpid (-1, &status, WNOHANG \| WUNTRACED \| WCONTINUED)) != -1)
		474	for (w = childs [pid & (PID_HASHSIZE - 1)]; w; w = w->next)
		475	if (w->pid == pid \|\| !w->pid)
		476	{
		477	w->status = status;
		478	event ((W)w, EV_CHILD);
		479	}
		480	}
		481
		482	/*****************************************************************************/
		483
194	#if HAVE_EPOLL	484	#if EV_USE_EPOLL
195	# include "ev_epoll.c"	485	# include "ev_epoll.c"
196	#endif	486	#endif
		487	#if EV_USE_POLL
		488	# include "ev_poll.c"
		489	#endif
197	#if HAVE_SELECT	490	#if EV_USE_SELECT
198	# include "ev_select.c"	491	# include "ev_select.c"
199	#endif	492	#endif
200		493
		494	int
		495	ev_version_major (void)
		496	{
		497	return EV_VERSION_MAJOR;
		498	}
		499
		500	int
		501	ev_version_minor (void)
		502	{
		503	return EV_VERSION_MINOR;
		504	}
		505
		506	/* return true if we are running with elevated privileges and ignore env variables */
		507	static int
		508	enable_secure ()
		509	{
		510	return getuid () != geteuid ()
		511	\|\| getgid () != getegid ();
		512	}
		513
201	int ev_init (int flags)	514	int ev_init (int methods)
202	{	515	{
		516	if (!ev_method)
		517	{
203	#if HAVE_MONOTONIC	518	#if EV_USE_MONOTONIC
204	{	519	{
205	struct timespec ts;	520	struct timespec ts;
206	if (!clock_gettime (CLOCK_MONOTONIC, &ts))	521	if (!clock_gettime (CLOCK_MONOTONIC, &ts))
207	have_monotonic = 1;	522	have_monotonic = 1;
208	}	523	}
209	#endif	524	#endif
210		525
211	ev_now = ev_time ();	526	ev_now = ev_time ();
212	now = get_clock ();	527	now = get_clock ();
		528	now_floor = now;
213	diff = ev_now - now;	529	diff = ev_now - now;
214		530
		531	if (pipe (sigpipe))
		532	return 0;
		533
		534	if (methods == EVMETHOD_AUTO)
		535	if (!enable_secure () && getenv ("LIBEV_METHODS"))
		536	methods = atoi (getenv ("LIBEV_METHODS"));
		537	else
		538	methods = EVMETHOD_ANY;
		539
		540	ev_method = 0;
215	#if HAVE_EPOLL	541	#if EV_USE_EPOLL
216	if (epoll_init (flags))	542	if (!ev_method && (methods & EVMETHOD_EPOLL )) epoll_init (methods);
217	return ev_method;
218	#endif	543	#endif
		544	#if EV_USE_POLL
		545	if (!ev_method && (methods & EVMETHOD_POLL )) poll_init (methods);
		546	#endif
219	#if HAVE_SELECT	547	#if EV_USE_SELECT
220	if (select_init (flags))	548	if (!ev_method && (methods & EVMETHOD_SELECT)) select_init (methods);
221	return ev_method;
222	#endif	549	#endif
223		550
224	ev_method = EVMETHOD_NONE;	551	if (ev_method)
		552	{
		553	ev_watcher_init (&sigev, sigcb);
		554	siginit ();
		555
		556	ev_signal_init (&childev, childcb, SIGCHLD);
		557	ev_signal_start (&childev);
		558	}
		559	}
		560
225	return ev_method;	561	return ev_method;
226	}	562	}
227		563
228	void ev_prefork (void)	564	/*****************************************************************************/
229	{
230	}
231		565
		566	void
		567	ev_fork_prepare (void)
		568	{
		569	/* nop */
		570	}
		571
		572	void
232	void ev_postfork_parent (void)	573	ev_fork_parent (void)
233	{	574	{
		575	/* nop */
234	}	576	}
235		577
		578	void
236	void ev_postfork_child (void)	579	ev_fork_child (void)
237	{	580	{
238	#if HAVE_EPOLL	581	#if EV_USE_EPOLL
239	if (ev_method == EVMETHOD_EPOLL)	582	if (ev_method == EVMETHOD_EPOLL)
240	epoll_postfork_child ();	583	epoll_postfork_child ();
241	#endif	584	#endif
242	}
243		585
244	static void	586	ev_io_stop (&sigev);
245	fd_reify (void)	587	close (sigpipe [0]);
246	{	588	close (sigpipe [1]);
247	int i;	589	pipe (sigpipe);
248		590	siginit ();
249	for (i = 0; i < fdchangecnt; ++i)
250	{
251	int fd = fdchanges [i];
252	ANFD *anfd = anfds + fd;
253	struct ev_io *w;
254
255	int wev = 0;
256
257	for (w = anfd->head; w; w = w->next)
258	wev \|= w->events;
259
260	if (anfd->wev != wev)
261	{
262	method_modify (fd, anfd->wev, wev);
263	anfd->wev = wev;
264	}
265	}
266
267	fdchangecnt = 0;
268	}	591	}
269		592
		593	/*****************************************************************************/
		594
270	static void	595	static void
271	call_pending ()	596	call_pending (void)
272	{	597	{
273	int i;	598	while (pendingcnt)
274
275	for (i = 0; i < pendingcnt; ++i)
276	{	599	{
277	ANPENDING *p = pendings + i;	600	ANPENDING *p = pendings + --pendingcnt;
278		601
279	if (p->w)	602	if (p->w)
280	{	603	{
281	p->w->pending = 0;	604	p->w->pending = 0;
282	p->w->cb (p->w, p->events);	605	p->w->cb (p->w, p->events);
283	}	606	}
284	}	607	}
285
286	pendingcnt = 0;
287	}	608	}
288		609
289	static void	610	static void
290	timers_reify (struct ev_timer **timers, int timercnt, ev_tstamp now)	611	timers_reify (void)
291	{	612	{
292	while (timercnt && timers [0]->at <= now)	613	while (timercnt && timers [0]->at <= now)
293	{	614	{
294	struct ev_timer *w = timers [0];	615	struct ev_timer *w = timers [0];
295		616
296	/* first reschedule or stop timer */	617	/* first reschedule or stop timer */
297	if (w->repeat)	618	if (w->repeat)
298	{	619	{
299	if (w->is_abs)	620	assert (("negative ev_timer repeat value found while processing timers", w->repeat > 0.));
300	w->at += floor ((now - w->at) / w->repeat + 1.) * w->repeat;
301	else
302	w->at = now + w->repeat;	621	w->at = now + w->repeat;
303
304	assert (w->at > now);
305
306	downheap (timers, timercnt, 0);	622	downheap ((WT *)timers, timercnt, 0);
307	}	623	}
308	else	624	else
309	{
310	evtimer_stop (w); /* nonrepeating: stop timer */	625	ev_timer_stop (w); /* nonrepeating: stop timer */
311	--timercnt; /* maybe pass by reference instead? */	626
		627	event ((W)w, EV_TIMEOUT);
		628	}
		629	}
		630
		631	static void
		632	periodics_reify (void)
		633	{
		634	while (periodiccnt && periodics [0]->at <= ev_now)
		635	{
		636	struct ev_periodic *w = periodics [0];
		637
		638	/* first reschedule or stop timer */
		639	if (w->interval)
312	}	640	{
		641	w->at += floor ((ev_now - w->at) / w->interval + 1.) * w->interval;
		642	assert (("ev_periodic timeout in the past detected while processing timers, negative interval?", w->at > ev_now));
		643	downheap ((WT *)periodics, periodiccnt, 0);
		644	}
		645	else
		646	ev_periodic_stop (w); /* nonrepeating: stop timer */
313		647
314	event ((struct ev_watcher *)w, EV_TIMEOUT);	648	event ((W)w, EV_PERIODIC);
315	}	649	}
316	}	650	}
317		651
318	static void	652	static void
319	time_update ()	653	periodics_reschedule (ev_tstamp diff)
320	{	654	{
321	int i;	655	int i;
322	ev_now = ev_time ();
323		656
324	if (have_monotonic)	657	/* adjust periodics after time jump */
		658	for (i = 0; i < periodiccnt; ++i)
325	{	659	{
326	ev_tstamp odiff = diff;	660	struct ev_periodic *w = periodics [i];
327		661
328	/* detecting time jumps is much more difficult */	662	if (w->interval)
329	for (i = 2; --i; ) /* loop a few times, before making important decisions */
330	{
331	now = get_clock ();
332	diff = ev_now - now;
333
334	if (fabs (odiff - diff) < MIN_TIMEJUMP)
335	return; /* all is well */
336
337	ev_now = ev_time ();
338	}	663	{
		664	ev_tstamp diff = ceil ((ev_now - w->at) / w->interval) * w->interval;
339		665
340	/* time jump detected, reschedule atimers */	666	if (fabs (diff) >= 1e-4)
341	for (i = 0; i < atimercnt; ++i)	667	{
		668	ev_periodic_stop (w);
		669	ev_periodic_start (w);
		670
		671	i = 0; /* restart loop, inefficient, but time jumps should be rare */
		672	}
342	{	673	}
343	struct ev_timer *w = atimers [i];	674	}
344	w->at += ceil ((ev_now - w->at) / w->repeat + 1.) * w->repeat;	675	}
345	}	676
		677	static int
		678	time_update_monotonic (void)
		679	{
		680	now = get_clock ();
		681
		682	if (expect_true (now - now_floor < MIN_TIMEJUMP * .5))
		683	{
		684	ev_now = now + diff;
		685	return 0;
346	}	686	}
347	else	687	else
348	{	688	{
		689	now_floor = now;
		690	ev_now = ev_time ();
		691	return 1;
		692	}
		693	}
		694
		695	static void
		696	time_update (void)
		697	{
		698	int i;
		699
		700	#if EV_USE_MONOTONIC
		701	if (expect_true (have_monotonic))
		702	{
		703	if (time_update_monotonic ())
		704	{
		705	ev_tstamp odiff = diff;
		706
		707	for (i = 4; --i; ) /* loop a few times, before making important decisions */
		708	{
		709	diff = ev_now - now;
		710
		711	if (fabs (odiff - diff) < MIN_TIMEJUMP)
		712	return; /* all is well */
		713
		714	ev_now = ev_time ();
		715	now = get_clock ();
		716	now_floor = now;
		717	}
		718
		719	periodics_reschedule (diff - odiff);
		720	/* no timer adjustment, as the monotonic clock doesn't jump */
		721	}
		722	}
		723	else
		724	#endif
		725	{
		726	ev_now = ev_time ();
		727
349	if (now > ev_now \|\| now < ev_now - MAX_BLOCKTIME - MIN_TIMEJUMP)	728	if (expect_false (now > ev_now \|\| now < ev_now - MAX_BLOCKTIME - MIN_TIMEJUMP))
350	/* time jump detected, adjust rtimers */	729	{
		730	periodics_reschedule (ev_now - now);
		731
		732	/* adjust timers. this is easy, as the offset is the same for all */
351	for (i = 0; i < rtimercnt; ++i)	733	for (i = 0; i < timercnt; ++i)
352	rtimers [i]->at += ev_now - now;	734	timers [i]->at += diff;
		735	}
353		736
354	now = ev_now;	737	now = ev_now;
355	}	738	}
356	}	739	}
357		740
358	int ev_loop_done;	741	int ev_loop_done;
359		742
360	void ev_loop (int flags)	743	void ev_loop (int flags)
361	{	744	{
362	double block;	745	double block;
363	ev_loop_done = flags & EVLOOP_ONESHOT;	746	ev_loop_done = flags & (EVLOOP_ONESHOT \| EVLOOP_NONBLOCK) ? 1 : 0;
364		747
365	do	748	do
366	{	749	{
		750	/* queue check watchers (and execute them) */
		751	if (expect_false (preparecnt))
		752	{
		753	queue_events ((W *)prepares, preparecnt, EV_PREPARE);
		754	call_pending ();
		755	}
		756
367	/* update fd-related kernel structures */	757	/* update fd-related kernel structures */
368	fd_reify ();	758	fd_reify ();
369		759
370	/* calculate blocking time */	760	/* calculate blocking time */
		761
		762	/* we only need this for !monotonic clockor timers, but as we basically
		763	always have timers, we just calculate it always */
		764	#if EV_USE_MONOTONIC
		765	if (expect_true (have_monotonic))
		766	time_update_monotonic ();
		767	else
		768	#endif
		769	{
		770	ev_now = ev_time ();
		771	now = ev_now;
		772	}
		773
371	if (flags & EVLOOP_NONBLOCK)	774	if (flags & EVLOOP_NONBLOCK \|\| idlecnt)
372	block = 0.;	775	block = 0.;
373	else	776	else
374	{	777	{
375	block = MAX_BLOCKTIME;	778	block = MAX_BLOCKTIME;
376		779
377	if (rtimercnt)	780	if (timercnt)
378	{	781	{
379	ev_tstamp to = rtimers [0]->at - get_clock () + method_fudge;	782	ev_tstamp to = timers [0]->at - now + method_fudge;
380	if (block > to) block = to;	783	if (block > to) block = to;
381	}	784	}
382		785
383	if (atimercnt)	786	if (periodiccnt)
384	{	787	{
385	ev_tstamp to = atimers [0]->at - ev_time () + method_fudge;	788	ev_tstamp to = periodics [0]->at - ev_now + method_fudge;
386	if (block > to) block = to;	789	if (block > to) block = to;
387	}	790	}
388		791
389	if (block < 0.) block = 0.;	792	if (block < 0.) block = 0.;
390	}	793	}
…		…
392	method_poll (block);	795	method_poll (block);
393		796
394	/* update ev_now, do magic */	797	/* update ev_now, do magic */
395	time_update ();	798	time_update ();
396		799
397	/* put pending timers into pendign queue and reschedule them */	800	/* queue pending timers and reschedule them */
398	/* absolute timers first */	801	timers_reify (); /* relative timers called last */
399	timers_reify (atimers, atimercnt, ev_now);	802	periodics_reify (); /* absolute timers called first */
400	/* relative timers second */	803
401	timers_reify (rtimers, rtimercnt, now);	804	/* queue idle watchers unless io or timers are pending */
		805	if (!pendingcnt)
		806	queue_events ((W *)idles, idlecnt, EV_IDLE);
		807
		808	/* queue check watchers, to be executed first */
		809	if (checkcnt)
		810	queue_events ((W *)checks, checkcnt, EV_CHECK);
402		811
403	call_pending ();	812	call_pending ();
404	}	813	}
405	while (!ev_loop_done);	814	while (!ev_loop_done);
406	}
407		815
		816	if (ev_loop_done != 2)
		817	ev_loop_done = 0;
		818	}
		819
		820	/*****************************************************************************/
		821
408	static void	822	static void
409	wlist_add (struct ev_watcher_list *head, struct ev_watcher_list elem)	823	wlist_add (WL *head, WL elem)
410	{	824	{
411	elem->next = *head;	825	elem->next = *head;
412	*head = elem;	826	*head = elem;
413	}	827	}
414		828
415	static void	829	static void
416	wlist_del (struct ev_watcher_list *head, struct ev_watcher_list elem)	830	wlist_del (WL *head, WL elem)
417	{	831	{
418	while (*head)	832	while (*head)
419	{	833	{
420	if (*head == elem)	834	if (*head == elem)
421	{	835	{
…		…
426	head = &(*head)->next;	840	head = &(*head)->next;
427	}	841	}
428	}	842	}
429		843
430	static void	844	static void
431	ev_start (struct ev_watcher *w, int active)	845	ev_clear_pending (W w)
432	{	846	{
		847	if (w->pending)
		848	{
		849	pendings [w->pending - 1].w = 0;
433	w->pending = 0;	850	w->pending = 0;
		851	}
		852	}
		853
		854	static void
		855	ev_start (W w, int active)
		856	{
434	w->active = active;	857	w->active = active;
435	}	858	}
436		859
437	static void	860	static void
438	ev_stop (struct ev_watcher *w)	861	ev_stop (W w)
439	{	862	{
440	if (w->pending)
441	pendings [w->pending - 1].w = 0;
442
443	w->active = 0;	863	w->active = 0;
444	/* nop */
445	}	864	}
446		865
		866	/*****************************************************************************/
		867
447	void	868	void
448	evio_start (struct ev_io *w)	869	ev_io_start (struct ev_io *w)
449	{	870	{
		871	int fd = w->fd;
		872
450	if (ev_is_active (w))	873	if (ev_is_active (w))
451	return;	874	return;
452		875
453	int fd = w->fd;	876	assert (("ev_io_start called with negative fd", fd >= 0));
454		877
455	ev_start ((struct ev_watcher *)w, 1);	878	ev_start ((W)w, 1);
456	array_needsize (anfds, anfdmax, fd + 1, anfds_init);	879	array_needsize (anfds, anfdmax, fd + 1, anfds_init);
457	wlist_add ((struct ev_watcher_list *)&anfds[fd].head, (struct ev_watcher_list )w);	880	wlist_add ((WL *)&anfds[fd].head, (WL)w);
458		881
459	++fdchangecnt;	882	fd_change (fd);
460	array_needsize (fdchanges, fdchangemax, fdchangecnt, );
461	fdchanges [fdchangecnt - 1] = fd;
462	}	883	}
463		884
464	void	885	void
465	evio_stop (struct ev_io *w)	886	ev_io_stop (struct ev_io *w)
466	{	887	{
		888	ev_clear_pending ((W)w);
467	if (!ev_is_active (w))	889	if (!ev_is_active (w))
468	return;	890	return;
469		891
470	wlist_del ((struct ev_watcher_list *)&anfds[w->fd].head, (struct ev_watcher_list )w);	892	wlist_del ((WL *)&anfds[w->fd].head, (WL)w);
471	ev_stop ((struct ev_watcher *)w);	893	ev_stop ((W)w);
472		894
473	++fdchangecnt;	895	fd_change (w->fd);
474	array_needsize (fdchanges, fdchangemax, fdchangecnt, );
475	fdchanges [fdchangecnt - 1] = w->fd;
476	}	896	}
477		897
478	void	898	void
479	evtimer_start (struct ev_timer *w)	899	ev_timer_start (struct ev_timer *w)
480	{	900	{
481	if (ev_is_active (w))	901	if (ev_is_active (w))
482	return;	902	return;
483		903
484	if (w->is_abs)	904	w->at += now;
		905
		906	assert (("ev_timer_start called with negative timer repeat value", w->repeat >= 0.));
		907
		908	ev_start ((W)w, ++timercnt);
		909	array_needsize (timers, timermax, timercnt, );
		910	timers [timercnt - 1] = w;
		911	upheap ((WT *)timers, timercnt - 1);
		912	}
		913
		914	void
		915	ev_timer_stop (struct ev_timer *w)
		916	{
		917	ev_clear_pending ((W)w);
		918	if (!ev_is_active (w))
		919	return;
		920
		921	if (w->active < timercnt--)
		922	{
		923	timers [w->active - 1] = timers [timercnt];
		924	downheap ((WT *)timers, timercnt, w->active - 1);
485	{	925	}
486	/* this formula differs from the one in timer_reify becuse we do not round up */	926
		927	w->at = w->repeat;
		928
		929	ev_stop ((W)w);
		930	}
		931
		932	void
		933	ev_timer_again (struct ev_timer *w)
		934	{
		935	if (ev_is_active (w))
		936	{
487	if (w->repeat)	937	if (w->repeat)
		938	{
		939	w->at = now + w->repeat;
		940	downheap ((WT *)timers, timercnt, w->active - 1);
		941	}
		942	else
		943	ev_timer_stop (w);
		944	}
		945	else if (w->repeat)
		946	ev_timer_start (w);
		947	}
		948
		949	void
		950	ev_periodic_start (struct ev_periodic *w)
		951	{
		952	if (ev_is_active (w))
		953	return;
		954
		955	assert (("ev_periodic_start called with negative interval value", w->interval >= 0.));
		956
		957	/* this formula differs from the one in periodic_reify because we do not always round up */
		958	if (w->interval)
488	w->at += ceil ((ev_now - w->at) / w->repeat) * w->repeat;	959	w->at += ceil ((ev_now - w->at) / w->interval) * w->interval;
489		960
490	ev_start ((struct ev_watcher *)w, ++atimercnt);	961	ev_start ((W)w, ++periodiccnt);
491	array_needsize (atimers, atimermax, atimercnt, );	962	array_needsize (periodics, periodicmax, periodiccnt, );
492	atimers [atimercnt - 1] = w;	963	periodics [periodiccnt - 1] = w;
493	upheap (atimers, atimercnt - 1);	964	upheap ((WT *)periodics, periodiccnt - 1);
		965	}
		966
		967	void
		968	ev_periodic_stop (struct ev_periodic *w)
		969	{
		970	ev_clear_pending ((W)w);
		971	if (!ev_is_active (w))
		972	return;
		973
		974	if (w->active < periodiccnt--)
494	}	975	{
		976	periodics [w->active - 1] = periodics [periodiccnt];
		977	downheap ((WT *)periodics, periodiccnt, w->active - 1);
		978	}
		979
		980	ev_stop ((W)w);
		981	}
		982
		983	void
		984	ev_signal_start (struct ev_signal *w)
		985	{
		986	if (ev_is_active (w))
		987	return;
		988
		989	assert (("ev_signal_start called with illegal signal number", w->signum > 0));
		990
		991	ev_start ((W)w, 1);
		992	array_needsize (signals, signalmax, w->signum, signals_init);
		993	wlist_add ((WL *)&signals [w->signum - 1].head, (WL)w);
		994
		995	if (!w->next)
		996	{
		997	struct sigaction sa;
		998	sa.sa_handler = sighandler;
		999	sigfillset (&sa.sa_mask);
		1000	sa.sa_flags = 0;
		1001	sigaction (w->signum, &sa, 0);
		1002	}
		1003	}
		1004
		1005	void
		1006	ev_signal_stop (struct ev_signal *w)
		1007	{
		1008	ev_clear_pending ((W)w);
		1009	if (!ev_is_active (w))
		1010	return;
		1011
		1012	wlist_del ((WL *)&signals [w->signum - 1].head, (WL)w);
		1013	ev_stop ((W)w);
		1014
		1015	if (!signals [w->signum - 1].head)
		1016	signal (w->signum, SIG_DFL);
		1017	}
		1018
		1019	void
		1020	ev_idle_start (struct ev_idle *w)
		1021	{
		1022	if (ev_is_active (w))
		1023	return;
		1024
		1025	ev_start ((W)w, ++idlecnt);
		1026	array_needsize (idles, idlemax, idlecnt, );
		1027	idles [idlecnt - 1] = w;
		1028	}
		1029
		1030	void
		1031	ev_idle_stop (struct ev_idle *w)
		1032	{
		1033	ev_clear_pending ((W)w);
		1034	if (ev_is_active (w))
		1035	return;
		1036
		1037	idles [w->active - 1] = idles [--idlecnt];
		1038	ev_stop ((W)w);
		1039	}
		1040
		1041	void
		1042	ev_prepare_start (struct ev_prepare *w)
		1043	{
		1044	if (ev_is_active (w))
		1045	return;
		1046
		1047	ev_start ((W)w, ++preparecnt);
		1048	array_needsize (prepares, preparemax, preparecnt, );
		1049	prepares [preparecnt - 1] = w;
		1050	}
		1051
		1052	void
		1053	ev_prepare_stop (struct ev_prepare *w)
		1054	{
		1055	ev_clear_pending ((W)w);
		1056	if (ev_is_active (w))
		1057	return;
		1058
		1059	prepares [w->active - 1] = prepares [--preparecnt];
		1060	ev_stop ((W)w);
		1061	}
		1062
		1063	void
		1064	ev_check_start (struct ev_check *w)
		1065	{
		1066	if (ev_is_active (w))
		1067	return;
		1068
		1069	ev_start ((W)w, ++checkcnt);
		1070	array_needsize (checks, checkmax, checkcnt, );
		1071	checks [checkcnt - 1] = w;
		1072	}
		1073
		1074	void
		1075	ev_check_stop (struct ev_check *w)
		1076	{
		1077	ev_clear_pending ((W)w);
		1078	if (ev_is_active (w))
		1079	return;
		1080
		1081	checks [w->active - 1] = checks [--checkcnt];
		1082	ev_stop ((W)w);
		1083	}
		1084
		1085	void
		1086	ev_child_start (struct ev_child *w)
		1087	{
		1088	if (ev_is_active (w))
		1089	return;
		1090
		1091	ev_start ((W)w, 1);
		1092	wlist_add ((WL *)&childs [w->pid & (PID_HASHSIZE - 1)], (WL)w);
		1093	}
		1094
		1095	void
		1096	ev_child_stop (struct ev_child *w)
		1097	{
		1098	ev_clear_pending ((W)w);
		1099	if (ev_is_active (w))
		1100	return;
		1101
		1102	wlist_del ((WL *)&childs [w->pid & (PID_HASHSIZE - 1)], (WL)w);
		1103	ev_stop ((W)w);
		1104	}
		1105
		1106	/*****************************************************************************/
		1107
		1108	struct ev_once
		1109	{
		1110	struct ev_io io;
		1111	struct ev_timer to;
		1112	void (cb)(int revents, void arg);
		1113	void *arg;
		1114	};
		1115
		1116	static void
		1117	once_cb (struct ev_once *once, int revents)
		1118	{
		1119	void (cb)(int revents, void arg) = once->cb;
		1120	void *arg = once->arg;
		1121
		1122	ev_io_stop (&once->io);
		1123	ev_timer_stop (&once->to);
		1124	free (once);
		1125
		1126	cb (revents, arg);
		1127	}
		1128
		1129	static void
		1130	once_cb_io (struct ev_io *w, int revents)
		1131	{
		1132	once_cb ((struct ev_once )(((char )w) - offsetof (struct ev_once, io)), revents);
		1133	}
		1134
		1135	static void
		1136	once_cb_to (struct ev_timer *w, int revents)
		1137	{
		1138	once_cb ((struct ev_once )(((char )w) - offsetof (struct ev_once, to)), revents);
		1139	}
		1140
		1141	void
		1142	ev_once (int fd, int events, ev_tstamp timeout, void (cb)(int revents, void arg), void *arg)
		1143	{
		1144	struct ev_once *once = malloc (sizeof (struct ev_once));
		1145
		1146	if (!once)
		1147	cb (EV_ERROR \| EV_READ \| EV_WRITE \| EV_TIMEOUT, arg);
495	else	1148	else
496	{	1149	{
497	w->at += now;	1150	once->cb = cb;
		1151	once->arg = arg;
498		1152
499	ev_start ((struct ev_watcher *)w, ++rtimercnt);	1153	ev_watcher_init (&once->io, once_cb_io);
500	array_needsize (rtimers, rtimermax, rtimercnt, );	1154	if (fd >= 0)
501	rtimers [rtimercnt - 1] = w;
502	upheap (rtimers, rtimercnt - 1);
503	}
504
505	}
506
507	void
508	evtimer_stop (struct ev_timer *w)
509	{
510	if (!ev_is_active (w))
511	return;
512
513	if (w->is_abs)
514	{
515	if (w->active < atimercnt--)
516	{
517	atimers [w->active - 1] = atimers [atimercnt];
518	downheap (atimers, atimercnt, w->active - 1);
519	}	1155	{
520	}	1156	ev_io_set (&once->io, fd, events);
521	else	1157	ev_io_start (&once->io);
522	{
523	if (w->active < rtimercnt--)
524	{	1158	}
525	rtimers [w->active - 1] = rtimers [rtimercnt];	1159
526	downheap (rtimers, rtimercnt, w->active - 1);	1160	ev_watcher_init (&once->to, once_cb_to);
		1161	if (timeout >= 0.)
527	}	1162	{
		1163	ev_timer_set (&once->to, timeout, 0.);
		1164	ev_timer_start (&once->to);
		1165	}
528	}	1166	}
529
530	ev_stop ((struct ev_watcher *)w);
531	}	1167	}
532		1168
533	void
534	evsignal_start (struct ev_signal *w)
535	{
536	if (ev_is_active (w))
537	return;
538
539	ev_start ((struct ev_watcher *)w, 1);
540	array_needsize (signals, signalmax, w->signum, signals_init);
541	wlist_add ((struct ev_watcher_list *)&signals [w->signum - 1], (struct ev_watcher_list )w);
542	}
543
544	void
545	evsignal_stop (struct ev_signal *w)
546	{
547	if (!ev_is_active (w))
548	return;
549
550	wlist_del ((struct ev_watcher_list *)&signals [w->signum - 1], (struct ev_watcher_list )w);
551	ev_stop ((struct ev_watcher *)w);
552	}
553
554	/*****************************************************************************/	1169	/*****************************************************************************/
		1170
555	#if 1	1171	#if 0
		1172
		1173	struct ev_io wio;
556		1174
557	static void	1175	static void
558	sin_cb (struct ev_io *w, int revents)	1176	sin_cb (struct ev_io *w, int revents)
559	{	1177	{
560	fprintf (stderr, "sin %d, revents %d\n", w->fd, revents);	1178	fprintf (stderr, "sin %d, revents %d\n", w->fd, revents);
…		…
562		1180
563	static void	1181	static void
564	ocb (struct ev_timer *w, int revents)	1182	ocb (struct ev_timer *w, int revents)
565	{	1183	{
566	//fprintf (stderr, "timer %f,%f (%x) (%f) d%p\n", w->at, w->repeat, revents, w->at - ev_time (), w->data);	1184	//fprintf (stderr, "timer %f,%f (%x) (%f) d%p\n", w->at, w->repeat, revents, w->at - ev_time (), w->data);
567	evtimer_stop (w);	1185	ev_timer_stop (w);
568	evtimer_start (w);	1186	ev_timer_start (w);
		1187	}
		1188
		1189	static void
		1190	scb (struct ev_signal *w, int revents)
		1191	{
		1192	fprintf (stderr, "signal %x,%d\n", revents, w->signum);
		1193	ev_io_stop (&wio);
		1194	ev_io_start (&wio);
		1195	}
		1196
		1197	static void
		1198	gcb (struct ev_signal *w, int revents)
		1199	{
		1200	fprintf (stderr, "generic %x\n", revents);
		1201
569	}	1202	}
570		1203
571	int main (void)	1204	int main (void)
572	{	1205	{
573	struct ev_io sin;
574
575	ev_init (0);	1206	ev_init (0);
576		1207
577	evw_init (&sin, sin_cb, 55);
578	evio_set (&sin, 0, EV_READ);	1208	ev_io_init (&wio, sin_cb, 0, EV_READ);
579	evio_start (&sin);	1209	ev_io_start (&wio);
580		1210
581	struct ev_timer t[10000];	1211	struct ev_timer t[10000];
582		1212
583	#if 1	1213	#if 0
584	int i;	1214	int i;
585	for (i = 0; i < 10000; ++i)	1215	for (i = 0; i < 10000; ++i)
586	{	1216	{
587	struct ev_timer *w = t + i;	1217	struct ev_timer *w = t + i;
588	evw_init (w, ocb, i);	1218	ev_watcher_init (w, ocb, i);
589	evtimer_set_abs (w, drand48 (), 0.99775533);	1219	ev_timer_init_abs (w, ocb, drand48 (), 0.99775533);
590	evtimer_start (w);	1220	ev_timer_start (w);
591	if (drand48 () < 0.5)	1221	if (drand48 () < 0.5)
592	evtimer_stop (w);	1222	ev_timer_stop (w);
593	}	1223	}
594	#endif	1224	#endif
595		1225
596	struct ev_timer t1;	1226	struct ev_timer t1;
597	evw_init (&t1, ocb, 0);	1227	ev_timer_init (&t1, ocb, 5, 10);
598	evtimer_set_abs (&t1, 5, 10);
599	evtimer_start (&t1);	1228	ev_timer_start (&t1);
		1229
		1230	struct ev_signal sig;
		1231	ev_signal_init (&sig, scb, SIGQUIT);
		1232	ev_signal_start (&sig);
		1233
		1234	struct ev_check cw;
		1235	ev_check_init (&cw, gcb);
		1236	ev_check_start (&cw);
		1237
		1238	struct ev_idle iw;
		1239	ev_idle_init (&iw, gcb);
		1240	ev_idle_start (&iw);
600		1241
601	ev_loop (0);	1242	ev_loop (0);
602		1243
603	return 0;	1244	return 0;
604	}	1245	}

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Comparing libev/ev.c (file contents): Revision 1.6 by root, Tue Oct 30 23:55:29 2007 UTC vs. Revision 1.41 by root, Fri Nov 2 16:54:34 2007 UTC

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Comparing libev/ev.c (file contents):
Revision 1.6 by root, Tue Oct 30 23:55:29 2007 UTC vs.
Revision 1.41 by root, Fri Nov 2 16:54:34 2007 UTC