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Comparing libev/ev.c (file contents):
Revision 1.288 by root, Sat Apr 25 14:12:48 2009 UTC vs.
Revision 1.373 by root, Sun Feb 20 02:56:23 2011 UTC

1	/*	1	/*
2	* libev event processing core, watcher management	2	* libev event processing core, watcher management
3	*	3	*
4	* Copyright (c) 2007,2008,2009 Marc Alexander Lehmann <libev@schmorp.de>	4	* Copyright (c) 2007,2008,2009,2010,2011 Marc Alexander Lehmann <libev@schmorp.de>
5	* All rights reserved.	5	* All rights reserved.
6	*	6	*
7	* Redistribution and use in source and binary forms, with or without modifica-	7	* Redistribution and use in source and binary forms, with or without modifica-
8	* tion, are permitted provided that the following conditions are met:	8	* tion, are permitted provided that the following conditions are met:
9	*	9	*
10	* 1. Redistributions of source code must retain the above copyright notice,	10	* 1. Redistributions of source code must retain the above copyright notice,
11	* this list of conditions and the following disclaimer.	11	* this list of conditions and the following disclaimer.
12	*	12	*
13	* 2. Redistributions in binary form must reproduce the above copyright	13	* 2. Redistributions in binary form must reproduce the above copyright
14	* notice, this list of conditions and the following disclaimer in the	14	* notice, this list of conditions and the following disclaimer in the
15	* documentation and/or other materials provided with the distribution.	15	* documentation and/or other materials provided with the distribution.
16	*	16	*
17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED	17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
18	* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MER-	18	* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MER-
19	* CHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO	19	* CHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
20	* EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPE-	20	* EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPE-
21	* CIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,	21	* CIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
…		…
35	* and other provisions required by the GPL. If you do not delete the	35	* and other provisions required by the GPL. If you do not delete the
36	* provisions above, a recipient may use your version of this file under	36	* provisions above, a recipient may use your version of this file under
37	* either the BSD or the GPL.	37	* either the BSD or the GPL.
38	*/	38	*/
39		39
40	#ifdef __cplusplus
41	extern "C" {
42	#endif
43
44	/* this big block deduces configuration from config.h */	40	/* this big block deduces configuration from config.h */
45	#ifndef EV_STANDALONE	41	#ifndef EV_STANDALONE
46	# ifdef EV_CONFIG_H	42	# ifdef EV_CONFIG_H
47	# include EV_CONFIG_H	43	# include EV_CONFIG_H
48	# else	44	# else
49	# include "config.h"	45	# include "config.h"
50	# endif	46	# endif
		47
		48	#if HAVE_FLOOR
		49	# ifndef EV_USE_FLOOR
		50	# define EV_USE_FLOOR 1
		51	# endif
		52	#endif
51		53
52	# if HAVE_CLOCK_SYSCALL	54	# if HAVE_CLOCK_SYSCALL
53	# ifndef EV_USE_CLOCK_SYSCALL	55	# ifndef EV_USE_CLOCK_SYSCALL
54	# define EV_USE_CLOCK_SYSCALL 1	56	# define EV_USE_CLOCK_SYSCALL 1
55	# ifndef EV_USE_REALTIME	57	# ifndef EV_USE_REALTIME
…		…
57	# endif	59	# endif
58	# ifndef EV_USE_MONOTONIC	60	# ifndef EV_USE_MONOTONIC
59	# define EV_USE_MONOTONIC 1	61	# define EV_USE_MONOTONIC 1
60	# endif	62	# endif
61	# endif	63	# endif
		64	# elif !defined(EV_USE_CLOCK_SYSCALL)
		65	# define EV_USE_CLOCK_SYSCALL 0
62	# endif	66	# endif
63		67
64	# if HAVE_CLOCK_GETTIME	68	# if HAVE_CLOCK_GETTIME
65	# ifndef EV_USE_MONOTONIC	69	# ifndef EV_USE_MONOTONIC
66	# define EV_USE_MONOTONIC 1	70	# define EV_USE_MONOTONIC 1
…		…
75	# ifndef EV_USE_REALTIME	79	# ifndef EV_USE_REALTIME
76	# define EV_USE_REALTIME 0	80	# define EV_USE_REALTIME 0
77	# endif	81	# endif
78	# endif	82	# endif
79		83
		84	# if HAVE_NANOSLEEP
80	# ifndef EV_USE_NANOSLEEP	85	# ifndef EV_USE_NANOSLEEP
81	# if HAVE_NANOSLEEP
82	# define EV_USE_NANOSLEEP 1	86	# define EV_USE_NANOSLEEP EV_FEATURE_OS
		87	# endif
83	# else	88	# else
		89	# undef EV_USE_NANOSLEEP
84	# define EV_USE_NANOSLEEP 0	90	# define EV_USE_NANOSLEEP 0
		91	# endif
		92
		93	# if HAVE_SELECT && HAVE_SYS_SELECT_H
		94	# ifndef EV_USE_SELECT
		95	# define EV_USE_SELECT EV_FEATURE_BACKENDS
85	# endif	96	# endif
		97	# else
		98	# undef EV_USE_SELECT
		99	# define EV_USE_SELECT 0
86	# endif	100	# endif
87		101
		102	# if HAVE_POLL && HAVE_POLL_H
88	# ifndef EV_USE_SELECT	103	# ifndef EV_USE_POLL
89	# if HAVE_SELECT && HAVE_SYS_SELECT_H	104	# define EV_USE_POLL EV_FEATURE_BACKENDS
90	# define EV_USE_SELECT 1
91	# else
92	# define EV_USE_SELECT 0
93	# endif	105	# endif
94	# endif
95
96	# ifndef EV_USE_POLL
97	# if HAVE_POLL && HAVE_POLL_H
98	# define EV_USE_POLL 1
99	# else	106	# else
		107	# undef EV_USE_POLL
100	# define EV_USE_POLL 0	108	# define EV_USE_POLL 0
101	# endif
102	# endif	109	# endif
103		110
104	# ifndef EV_USE_EPOLL
105	# if HAVE_EPOLL_CTL && HAVE_SYS_EPOLL_H	111	# if HAVE_EPOLL_CTL && HAVE_SYS_EPOLL_H
106	# define EV_USE_EPOLL 1	112	# ifndef EV_USE_EPOLL
107	# else	113	# define EV_USE_EPOLL EV_FEATURE_BACKENDS
108	# define EV_USE_EPOLL 0
109	# endif	114	# endif
		115	# else
		116	# undef EV_USE_EPOLL
		117	# define EV_USE_EPOLL 0
110	# endif	118	# endif
111		119
		120	# if HAVE_KQUEUE && HAVE_SYS_EVENT_H
112	# ifndef EV_USE_KQUEUE	121	# ifndef EV_USE_KQUEUE
113	# if HAVE_KQUEUE && HAVE_SYS_EVENT_H && HAVE_SYS_QUEUE_H	122	# define EV_USE_KQUEUE EV_FEATURE_BACKENDS
114	# define EV_USE_KQUEUE 1
115	# else
116	# define EV_USE_KQUEUE 0
117	# endif	123	# endif
		124	# else
		125	# undef EV_USE_KQUEUE
		126	# define EV_USE_KQUEUE 0
118	# endif	127	# endif
119		128
120	# ifndef EV_USE_PORT
121	# if HAVE_PORT_H && HAVE_PORT_CREATE	129	# if HAVE_PORT_H && HAVE_PORT_CREATE
122	# define EV_USE_PORT 1	130	# ifndef EV_USE_PORT
123	# else	131	# define EV_USE_PORT EV_FEATURE_BACKENDS
124	# define EV_USE_PORT 0
125	# endif	132	# endif
		133	# else
		134	# undef EV_USE_PORT
		135	# define EV_USE_PORT 0
126	# endif	136	# endif
127		137
128	# ifndef EV_USE_INOTIFY
129	# if HAVE_INOTIFY_INIT && HAVE_SYS_INOTIFY_H	138	# if HAVE_INOTIFY_INIT && HAVE_SYS_INOTIFY_H
130	# define EV_USE_INOTIFY 1	139	# ifndef EV_USE_INOTIFY
131	# else
132	# define EV_USE_INOTIFY 0	140	# define EV_USE_INOTIFY EV_FEATURE_OS
133	# endif	141	# endif
		142	# else
		143	# undef EV_USE_INOTIFY
		144	# define EV_USE_INOTIFY 0
134	# endif	145	# endif
135		146
		147	# if HAVE_SIGNALFD && HAVE_SYS_SIGNALFD_H
136	# ifndef EV_USE_EVENTFD	148	# ifndef EV_USE_SIGNALFD
137	# if HAVE_EVENTFD	149	# define EV_USE_SIGNALFD EV_FEATURE_OS
138	# define EV_USE_EVENTFD 1
139	# else
140	# define EV_USE_EVENTFD 0
141	# endif	150	# endif
		151	# else
		152	# undef EV_USE_SIGNALFD
		153	# define EV_USE_SIGNALFD 0
		154	# endif
		155
		156	# if HAVE_EVENTFD
		157	# ifndef EV_USE_EVENTFD
		158	# define EV_USE_EVENTFD EV_FEATURE_OS
		159	# endif
		160	# else
		161	# undef EV_USE_EVENTFD
		162	# define EV_USE_EVENTFD 0
142	# endif	163	# endif
143		164
144	#endif	165	#endif
145		166
146	#include <math.h>
147	#include <stdlib.h>	167	#include <stdlib.h>
		168	#include <string.h>
148	#include <fcntl.h>	169	#include <fcntl.h>
149	#include <stddef.h>	170	#include <stddef.h>
150		171
151	#include <stdio.h>	172	#include <stdio.h>
152		173
153	#include <assert.h>	174	#include <assert.h>
154	#include <errno.h>	175	#include <errno.h>
155	#include <sys/types.h>	176	#include <sys/types.h>
156	#include <time.h>	177	#include <time.h>
		178	#include <limits.h>
157		179
158	#include <signal.h>	180	#include <signal.h>
159		181
160	#ifdef EV_H	182	#ifdef EV_H
161	# include EV_H	183	# include EV_H
162	#else	184	#else
163	# include "ev.h"	185	# include "ev.h"
164	#endif	186	#endif
		187
		188	EV_CPP(extern "C" {)
165		189
166	#ifndef _WIN32	190	#ifndef _WIN32
167	# include <sys/time.h>	191	# include <sys/time.h>
168	# include <sys/wait.h>	192	# include <sys/wait.h>
169	# include <unistd.h>	193	# include <unistd.h>
…		…
172	# define WIN32_LEAN_AND_MEAN	196	# define WIN32_LEAN_AND_MEAN
173	# include <windows.h>	197	# include <windows.h>
174	# ifndef EV_SELECT_IS_WINSOCKET	198	# ifndef EV_SELECT_IS_WINSOCKET
175	# define EV_SELECT_IS_WINSOCKET 1	199	# define EV_SELECT_IS_WINSOCKET 1
176	# endif	200	# endif
		201	# undef EV_AVOID_STDIO
177	#endif	202	#endif
		203
		204	/* OS X, in its infinite idiocy, actually HARDCODES
		205	* a limit of 1024 into their select. Where people have brains,
		206	* OS X engineers apparently have a vacuum. Or maybe they were
		207	* ordered to have a vacuum, or they do anything for money.
		208	* This might help. Or not.
		209	*/
		210	#define _DARWIN_UNLIMITED_SELECT 1
178		211
179	/* this block tries to deduce configuration from header-defined symbols and defaults */	212	/* this block tries to deduce configuration from header-defined symbols and defaults */
		213
		214	/* try to deduce the maximum number of signals on this platform */
		215	#if defined (EV_NSIG)
		216	/* use what's provided */
		217	#elif defined (NSIG)
		218	# define EV_NSIG (NSIG)
		219	#elif defined(_NSIG)
		220	# define EV_NSIG (_NSIG)
		221	#elif defined (SIGMAX)
		222	# define EV_NSIG (SIGMAX+1)
		223	#elif defined (SIG_MAX)
		224	# define EV_NSIG (SIG_MAX+1)
		225	#elif defined (_SIG_MAX)
		226	# define EV_NSIG (_SIG_MAX+1)
		227	#elif defined (MAXSIG)
		228	# define EV_NSIG (MAXSIG+1)
		229	#elif defined (MAX_SIG)
		230	# define EV_NSIG (MAX_SIG+1)
		231	#elif defined (SIGARRAYSIZE)
		232	# define EV_NSIG (SIGARRAYSIZE) /* Assume ary[SIGARRAYSIZE] */
		233	#elif defined (_sys_nsig)
		234	# define EV_NSIG (_sys_nsig) /* Solaris 2.5 */
		235	#else
		236	# error "unable to find value for NSIG, please report"
		237	/* to make it compile regardless, just remove the above line, */
		238	/* but consider reporting it, too! :) */
		239	# define EV_NSIG 65
		240	#endif
		241
		242	#ifndef EV_USE_FLOOR
		243	# define EV_USE_FLOOR 0
		244	#endif
180		245
181	#ifndef EV_USE_CLOCK_SYSCALL	246	#ifndef EV_USE_CLOCK_SYSCALL
182	# if __linux && __GLIBC__ >= 2	247	# if __linux && __GLIBC__ >= 2
183	# define EV_USE_CLOCK_SYSCALL 1	248	# define EV_USE_CLOCK_SYSCALL EV_FEATURE_OS
184	# else	249	# else
185	# define EV_USE_CLOCK_SYSCALL 0	250	# define EV_USE_CLOCK_SYSCALL 0
186	# endif	251	# endif
187	#endif	252	#endif
188		253
189	#ifndef EV_USE_MONOTONIC	254	#ifndef EV_USE_MONOTONIC
190	# if defined (_POSIX_MONOTONIC_CLOCK) && _POSIX_MONOTONIC_CLOCK >= 0	255	# if defined (_POSIX_MONOTONIC_CLOCK) && _POSIX_MONOTONIC_CLOCK >= 0
191	# define EV_USE_MONOTONIC 1	256	# define EV_USE_MONOTONIC EV_FEATURE_OS
192	# else	257	# else
193	# define EV_USE_MONOTONIC 0	258	# define EV_USE_MONOTONIC 0
194	# endif	259	# endif
195	#endif	260	#endif
196		261
…		…
198	# define EV_USE_REALTIME !EV_USE_CLOCK_SYSCALL	263	# define EV_USE_REALTIME !EV_USE_CLOCK_SYSCALL
199	#endif	264	#endif
200		265
201	#ifndef EV_USE_NANOSLEEP	266	#ifndef EV_USE_NANOSLEEP
202	# if _POSIX_C_SOURCE >= 199309L	267	# if _POSIX_C_SOURCE >= 199309L
203	# define EV_USE_NANOSLEEP 1	268	# define EV_USE_NANOSLEEP EV_FEATURE_OS
204	# else	269	# else
205	# define EV_USE_NANOSLEEP 0	270	# define EV_USE_NANOSLEEP 0
206	# endif	271	# endif
207	#endif	272	#endif
208		273
209	#ifndef EV_USE_SELECT	274	#ifndef EV_USE_SELECT
210	# define EV_USE_SELECT 1	275	# define EV_USE_SELECT EV_FEATURE_BACKENDS
211	#endif	276	#endif
212		277
213	#ifndef EV_USE_POLL	278	#ifndef EV_USE_POLL
214	# ifdef _WIN32	279	# ifdef _WIN32
215	# define EV_USE_POLL 0	280	# define EV_USE_POLL 0
216	# else	281	# else
217	# define EV_USE_POLL 1	282	# define EV_USE_POLL EV_FEATURE_BACKENDS
218	# endif	283	# endif
219	#endif	284	#endif
220		285
221	#ifndef EV_USE_EPOLL	286	#ifndef EV_USE_EPOLL
222	# if __linux && (__GLIBC__ > 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ >= 4))	287	# if __linux && (__GLIBC__ > 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ >= 4))
223	# define EV_USE_EPOLL 1	288	# define EV_USE_EPOLL EV_FEATURE_BACKENDS
224	# else	289	# else
225	# define EV_USE_EPOLL 0	290	# define EV_USE_EPOLL 0
226	# endif	291	# endif
227	#endif	292	#endif
228		293
…		…
234	# define EV_USE_PORT 0	299	# define EV_USE_PORT 0
235	#endif	300	#endif
236		301
237	#ifndef EV_USE_INOTIFY	302	#ifndef EV_USE_INOTIFY
238	# if __linux && (__GLIBC__ > 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ >= 4))	303	# if __linux && (__GLIBC__ > 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ >= 4))
239	# define EV_USE_INOTIFY 1	304	# define EV_USE_INOTIFY EV_FEATURE_OS
240	# else	305	# else
241	# define EV_USE_INOTIFY 0	306	# define EV_USE_INOTIFY 0
242	# endif	307	# endif
243	#endif	308	#endif
244		309
245	#ifndef EV_PID_HASHSIZE	310	#ifndef EV_PID_HASHSIZE
246	# if EV_MINIMAL	311	# define EV_PID_HASHSIZE EV_FEATURE_DATA ? 16 : 1
247	# define EV_PID_HASHSIZE 1
248	# else
249	# define EV_PID_HASHSIZE 16
250	# endif
251	#endif	312	#endif
252		313
253	#ifndef EV_INOTIFY_HASHSIZE	314	#ifndef EV_INOTIFY_HASHSIZE
254	# if EV_MINIMAL	315	# define EV_INOTIFY_HASHSIZE EV_FEATURE_DATA ? 16 : 1
255	# define EV_INOTIFY_HASHSIZE 1
256	# else
257	# define EV_INOTIFY_HASHSIZE 16
258	# endif
259	#endif	316	#endif
260		317
261	#ifndef EV_USE_EVENTFD	318	#ifndef EV_USE_EVENTFD
262	# if __linux && (__GLIBC__ > 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ >= 7))	319	# if __linux && (__GLIBC__ > 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ >= 7))
263	# define EV_USE_EVENTFD 1	320	# define EV_USE_EVENTFD EV_FEATURE_OS
264	# else	321	# else
265	# define EV_USE_EVENTFD 0	322	# define EV_USE_EVENTFD 0
		323	# endif
		324	#endif
		325
		326	#ifndef EV_USE_SIGNALFD
		327	# if __linux && (__GLIBC__ > 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ >= 7))
		328	# define EV_USE_SIGNALFD EV_FEATURE_OS
		329	# else
		330	# define EV_USE_SIGNALFD 0
266	# endif	331	# endif
267	#endif	332	#endif
268		333
269	#if 0 /* debugging */	334	#if 0 /* debugging */
270	# define EV_VERIFY 3	335	# define EV_VERIFY 3
271	# define EV_USE_4HEAP 1	336	# define EV_USE_4HEAP 1
272	# define EV_HEAP_CACHE_AT 1	337	# define EV_HEAP_CACHE_AT 1
273	#endif	338	#endif
274		339
275	#ifndef EV_VERIFY	340	#ifndef EV_VERIFY
276	# define EV_VERIFY !EV_MINIMAL	341	# define EV_VERIFY (EV_FEATURE_API ? 1 : 0)
277	#endif	342	#endif
278		343
279	#ifndef EV_USE_4HEAP	344	#ifndef EV_USE_4HEAP
280	# define EV_USE_4HEAP !EV_MINIMAL	345	# define EV_USE_4HEAP EV_FEATURE_DATA
281	#endif	346	#endif
282		347
283	#ifndef EV_HEAP_CACHE_AT	348	#ifndef EV_HEAP_CACHE_AT
284	# define EV_HEAP_CACHE_AT !EV_MINIMAL	349	# define EV_HEAP_CACHE_AT EV_FEATURE_DATA
		350	#endif
		351
		352	/* on linux, we can use a (slow) syscall to avoid a dependency on pthread, */
		353	/* which makes programs even slower. might work on other unices, too. */
		354	#if EV_USE_CLOCK_SYSCALL
		355	# include <syscall.h>
		356	# ifdef SYS_clock_gettime
		357	# define clock_gettime(id, ts) syscall (SYS_clock_gettime, (id), (ts))
		358	# undef EV_USE_MONOTONIC
		359	# define EV_USE_MONOTONIC 1
		360	# else
		361	# undef EV_USE_CLOCK_SYSCALL
		362	# define EV_USE_CLOCK_SYSCALL 0
		363	# endif
285	#endif	364	#endif
286		365
287	/* this block fixes any misconfiguration where we know we run into trouble otherwise */	366	/* this block fixes any misconfiguration where we know we run into trouble otherwise */
		367
		368	#ifdef _AIX
		369	/* AIX has a completely broken poll.h header */
		370	# undef EV_USE_POLL
		371	# define EV_USE_POLL 0
		372	#endif
288		373
289	#ifndef CLOCK_MONOTONIC	374	#ifndef CLOCK_MONOTONIC
290	# undef EV_USE_MONOTONIC	375	# undef EV_USE_MONOTONIC
291	# define EV_USE_MONOTONIC 0	376	# define EV_USE_MONOTONIC 0
292	#endif	377	#endif
…		…
300	# undef EV_USE_INOTIFY	385	# undef EV_USE_INOTIFY
301	# define EV_USE_INOTIFY 0	386	# define EV_USE_INOTIFY 0
302	#endif	387	#endif
303		388
304	#if !EV_USE_NANOSLEEP	389	#if !EV_USE_NANOSLEEP
305	# ifndef _WIN32	390	/* hp-ux has it in sys/time.h, which we unconditionally include above */
		391	# if !defined(_WIN32) && !defined(__hpux)
306	# include <sys/select.h>	392	# include <sys/select.h>
307	# endif	393	# endif
308	#endif	394	#endif
309		395
310	#if EV_USE_INOTIFY	396	#if EV_USE_INOTIFY
311	# include <sys/utsname.h>
312	# include <sys/statfs.h>	397	# include <sys/statfs.h>
313	# include <sys/inotify.h>	398	# include <sys/inotify.h>
314	/* some very old inotify.h headers don't have IN_DONT_FOLLOW */	399	/* some very old inotify.h headers don't have IN_DONT_FOLLOW */
315	# ifndef IN_DONT_FOLLOW	400	# ifndef IN_DONT_FOLLOW
316	# undef EV_USE_INOTIFY	401	# undef EV_USE_INOTIFY
…		…
320		405
321	#if EV_SELECT_IS_WINSOCKET	406	#if EV_SELECT_IS_WINSOCKET
322	# include <winsock.h>	407	# include <winsock.h>
323	#endif	408	#endif
324		409
325	/* on linux, we can use a (slow) syscall to avoid a dependency on pthread, */
326	/* which makes programs even slower. might work on other unices, too. */
327	#if EV_USE_CLOCK_SYSCALL
328	# include <syscall.h>
329	# define clock_gettime(id, ts) syscall (SYS_clock_gettime, (id), (ts))
330	# undef EV_USE_MONOTONIC
331	# define EV_USE_MONOTONIC 1
332	#endif
333
334	#if EV_USE_EVENTFD	410	#if EV_USE_EVENTFD
335	/* our minimum requirement is glibc 2.7 which has the stub, but not the header */	411	/* our minimum requirement is glibc 2.7 which has the stub, but not the header */
336	# include <stdint.h>	412	# include <stdint.h>
337	# ifdef __cplusplus	413	# ifndef EFD_NONBLOCK
338	extern "C" {	414	# define EFD_NONBLOCK O_NONBLOCK
339	# endif	415	# endif
340	int eventfd (unsigned int initval, int flags);	416	# ifndef EFD_CLOEXEC
341	# ifdef __cplusplus	417	# ifdef O_CLOEXEC
342	}	418	# define EFD_CLOEXEC O_CLOEXEC
		419	# else
		420	# define EFD_CLOEXEC 02000000
		421	# endif
343	# endif	422	# endif
		423	EV_CPP(extern "C") int (eventfd) (unsigned int initval, int flags);
		424	#endif
		425
		426	#if EV_USE_SIGNALFD
		427	/* our minimum requirement is glibc 2.7 which has the stub, but not the header */
		428	# include <stdint.h>
		429	# ifndef SFD_NONBLOCK
		430	# define SFD_NONBLOCK O_NONBLOCK
		431	# endif
		432	# ifndef SFD_CLOEXEC
		433	# ifdef O_CLOEXEC
		434	# define SFD_CLOEXEC O_CLOEXEC
		435	# else
		436	# define SFD_CLOEXEC 02000000
		437	# endif
		438	# endif
		439	EV_CPP (extern "C") int signalfd (int fd, const sigset_t *mask, int flags);
		440
		441	struct signalfd_siginfo
		442	{
		443	uint32_t ssi_signo;
		444	char pad[128 - sizeof (uint32_t)];
		445	};
344	#endif	446	#endif
345		447
346	/**/	448	/**/
347		449
348	#if EV_VERIFY >= 3	450	#if EV_VERIFY >= 3
349	# define EV_FREQUENT_CHECK ev_loop_verify (EV_A)	451	# define EV_FREQUENT_CHECK ev_verify (EV_A)
350	#else	452	#else
351	# define EV_FREQUENT_CHECK do { } while (0)	453	# define EV_FREQUENT_CHECK do { } while (0)
352	#endif	454	#endif
353		455
354	/*	456	/*
355	* This is used to avoid floating point rounding problems.	457	* This is used to work around floating point rounding problems.
356	* It is added to ev_rt_now when scheduling periodics
357	* to ensure progress, time-wise, even when rounding
358	* errors are against us.
359	* This value is good at least till the year 4000.	458	* This value is good at least till the year 4000.
360	* Better solutions welcome.
361	*/	459	*/
362	#define TIME_EPSILON 0.0001220703125 /* 1/8192 */	460	#define MIN_INTERVAL 0.0001220703125 /* 1/2**13, good till 4000 */
		461	/*#define MIN_INTERVAL 0.00000095367431640625 /* 1/2**20, good till 2200 */
363		462
364	#define MIN_TIMEJUMP 1. /* minimum timejump that gets detected (if monotonic clock available) */	463	#define MIN_TIMEJUMP 1. /* minimum timejump that gets detected (if monotonic clock available) */
365	#define MAX_BLOCKTIME 59.743 /* never wait longer than this time (to detect time jumps) */	464	#define MAX_BLOCKTIME 59.743 /* never wait longer than this time (to detect time jumps) */
366	/*#define CLEANUP_INTERVAL (MAX_BLOCKTIME * 5.) /* how often to try to free memory and re-check fds, TODO */	465
		466	#define EV_TV_SET(tv,t) do { tv.tv_sec = (long)t; tv.tv_usec = (long)((t - tv.tv_sec) * 1e6); } while (0)
		467	#define EV_TS_SET(ts,t) do { ts.tv_sec = (long)t; ts.tv_nsec = (long)((t - ts.tv_sec) * 1e9); } while (0)
367		468
368	#if __GNUC__ >= 4	469	#if __GNUC__ >= 4
369	# define expect(expr,value) __builtin_expect ((expr),(value))	470	# define expect(expr,value) __builtin_expect ((expr),(value))
370	# define noinline __attribute__ ((noinline))	471	# define noinline __attribute__ ((noinline))
371	#else	472	#else
…		…
378		479
379	#define expect_false(expr) expect ((expr) != 0, 0)	480	#define expect_false(expr) expect ((expr) != 0, 0)
380	#define expect_true(expr) expect ((expr) != 0, 1)	481	#define expect_true(expr) expect ((expr) != 0, 1)
381	#define inline_size static inline	482	#define inline_size static inline
382		483
383	#if EV_MINIMAL	484	#if EV_FEATURE_CODE
		485	# define inline_speed static inline
		486	#else
384	# define inline_speed static noinline	487	# define inline_speed static noinline
		488	#endif
		489
		490	#define NUMPRI (EV_MAXPRI - EV_MINPRI + 1)
		491
		492	#if EV_MINPRI == EV_MAXPRI
		493	# define ABSPRI(w) (((W)w), 0)
385	#else	494	#else
386	# define inline_speed static inline
387	#endif
388
389	#define NUMPRI (EV_MAXPRI - EV_MINPRI + 1)
390	#define ABSPRI(w) (((W)w)->priority - EV_MINPRI)	495	# define ABSPRI(w) (((W)w)->priority - EV_MINPRI)
		496	#endif
391		497
392	#define EMPTY /* required for microsofts broken pseudo-c compiler */	498	#define EMPTY /* required for microsofts broken pseudo-c compiler */
393	#define EMPTY2(a,b) /* used to suppress some warnings */	499	#define EMPTY2(a,b) /* used to suppress some warnings */
394		500
395	typedef ev_watcher *W;	501	typedef ev_watcher *W;
…		…
399	#define ev_active(w) ((W)(w))->active	505	#define ev_active(w) ((W)(w))->active
400	#define ev_at(w) ((WT)(w))->at	506	#define ev_at(w) ((WT)(w))->at
401		507
402	#if EV_USE_REALTIME	508	#if EV_USE_REALTIME
403	/* sig_atomic_t is used to avoid per-thread variables or locking but still */	509	/* sig_atomic_t is used to avoid per-thread variables or locking but still */
404	/* giving it a reasonably high chance of working on typical architetcures */	510	/* giving it a reasonably high chance of working on typical architectures */
405	static EV_ATOMIC_T have_realtime; /* did clock_gettime (CLOCK_REALTIME) work? */	511	static EV_ATOMIC_T have_realtime; /* did clock_gettime (CLOCK_REALTIME) work? */
406	#endif	512	#endif
407		513
408	#if EV_USE_MONOTONIC	514	#if EV_USE_MONOTONIC
409	static EV_ATOMIC_T have_monotonic; /* did clock_gettime (CLOCK_MONOTONIC) work? */	515	static EV_ATOMIC_T have_monotonic; /* did clock_gettime (CLOCK_MONOTONIC) work? */
410	#endif	516	#endif
411		517
		518	#ifndef EV_FD_TO_WIN32_HANDLE
		519	# define EV_FD_TO_WIN32_HANDLE(fd) _get_osfhandle (fd)
		520	#endif
		521	#ifndef EV_WIN32_HANDLE_TO_FD
		522	# define EV_WIN32_HANDLE_TO_FD(handle) _open_osfhandle (handle, 0)
		523	#endif
		524	#ifndef EV_WIN32_CLOSE_FD
		525	# define EV_WIN32_CLOSE_FD(fd) close (fd)
		526	#endif
		527
412	#ifdef _WIN32	528	#ifdef _WIN32
413	# include "ev_win32.c"	529	# include "ev_win32.c"
414	#endif	530	#endif
415		531
416	/*****************************************************************************/	532	/*****************************************************************************/
		533
		534	/* define a suitable floor function (only used by periodics atm) */
		535
		536	#if EV_USE_FLOOR
		537	# include <math.h>
		538	# define ev_floor(v) floor (v)
		539	#else
		540
		541	#include <float.h>
		542
		543	/* a floor() replacement function, should be independent of ev_tstamp type */
		544	static ev_tstamp noinline
		545	ev_floor (ev_tstamp v)
		546	{
		547	/* the choice of shift factor is not terribly important */
		548	#if FLT_RADIX != 2 /* assume FLT_RADIX == 10 */
		549	const ev_tstamp shift = sizeof (unsigned long) >= 8 ? 10000000000000000000. : 1000000000.;
		550	#else
		551	const ev_tstamp shift = sizeof (unsigned long) >= 8 ? 18446744073709551616. : 4294967296.;
		552	#endif
		553
		554	/* argument too large for an unsigned long? */
		555	if (expect_false (v >= shift))
		556	{
		557	ev_tstamp f;
		558
		559	if (v == v - 1.)
		560	return v; /* very large number */
		561
		562	f = shift * ev_floor (v * (1. / shift));
		563	return f + ev_floor (v - f);
		564	}
		565
		566	/* special treatment for negative args? */
		567	if (expect_false (v < 0.))
		568	{
		569	ev_tstamp f = -ev_floor (-v);
		570
		571	return f - (f == v ? 0 : 1);
		572	}
		573
		574	/* fits into an unsigned long */
		575	return (unsigned long)v;
		576	}
		577
		578	#endif
		579
		580	/*****************************************************************************/
		581
		582	#ifdef __linux
		583	# include <sys/utsname.h>
		584	#endif
		585
		586	static unsigned int noinline
		587	ev_linux_version (void)
		588	{
		589	#ifdef __linux
		590	unsigned int v = 0;
		591	struct utsname buf;
		592	int i;
		593	char *p = buf.release;
		594
		595	if (uname (&buf))
		596	return 0;
		597
		598	for (i = 3+1; --i; )
		599	{
		600	unsigned int c = 0;
		601
		602	for (;;)
		603	{
		604	if (*p >= '0' && *p <= '9')
		605	c = c * 10 + *p++ - '0';
		606	else
		607	{
		608	p += *p == '.';
		609	break;
		610	}
		611	}
		612
		613	v = (v << 8) | c;
		614	}
		615
		616	return v;
		617	#else
		618	return 0;
		619	#endif
		620	}
		621
		622	/*****************************************************************************/
		623
		624	#if EV_AVOID_STDIO
		625	static void noinline
		626	ev_printerr (const char *msg)
		627	{
		628	write (STDERR_FILENO, msg, strlen (msg));
		629	}
		630	#endif
417		631
418	static void (*syserr_cb)(const char *msg);	632	static void (*syserr_cb)(const char *msg);
419		633
420	void	634	void
421	ev_set_syserr_cb (void (*cb)(const char *msg))	635	ev_set_syserr_cb (void (*cb)(const char *msg))
…		…
431		645
432	if (syserr_cb)	646	if (syserr_cb)
433	syserr_cb (msg);	647	syserr_cb (msg);
434	else	648	else
435	{	649	{
		650	#if EV_AVOID_STDIO
		651	ev_printerr (msg);
		652	ev_printerr (": ");
		653	ev_printerr (strerror (errno));
		654	ev_printerr ("\n");
		655	#else
436	perror (msg);	656	perror (msg);
		657	#endif
437	abort ();	658	abort ();
438	}	659	}
439	}	660	}
440		661
441	static void *	662	static void *
442	ev_realloc_emul (void *ptr, long size)	663	ev_realloc_emul (void *ptr, long size)
443	{	664	{
		665	#if __GLIBC__
		666	return realloc (ptr, size);
		667	#else
444	/* some systems, notably openbsd and darwin, fail to properly	668	/* some systems, notably openbsd and darwin, fail to properly
445	* implement realloc (x, 0) (as required by both ansi c-98 and	669	* implement realloc (x, 0) (as required by both ansi c-89 and
446	* the single unix specification, so work around them here.	670	* the single unix specification, so work around them here.
447	*/	671	*/
448		672
449	if (size)	673	if (size)
450	return realloc (ptr, size);	674	return realloc (ptr, size);
451		675
452	free (ptr);	676	free (ptr);
453	return 0;	677	return 0;
		678	#endif
454	}	679	}
455		680
456	static void *(*alloc)(void *ptr, long size) = ev_realloc_emul;	681	static void *(*alloc)(void *ptr, long size) = ev_realloc_emul;
457		682
458	void	683	void
…		…
466	{	691	{
467	ptr = alloc (ptr, size);	692	ptr = alloc (ptr, size);
468		693
469	if (!ptr && size)	694	if (!ptr && size)
470	{	695	{
		696	#if EV_AVOID_STDIO
		697	ev_printerr ("(libev) memory allocation failed, aborting.\n");
		698	#else
471	fprintf (stderr, "libev: cannot allocate %ld bytes, aborting.", size);	699	fprintf (stderr, "(libev) cannot allocate %ld bytes, aborting.", size);
		700	#endif
472	abort ();	701	abort ();
473	}	702	}
474		703
475	return ptr;	704	return ptr;
476	}	705	}
…		…
478	#define ev_malloc(size) ev_realloc (0, (size))	707	#define ev_malloc(size) ev_realloc (0, (size))
479	#define ev_free(ptr) ev_realloc ((ptr), 0)	708	#define ev_free(ptr) ev_realloc ((ptr), 0)
480		709
481	/*****************************************************************************/	710	/*****************************************************************************/
482		711
		712	/* set in reify when reification needed */
		713	#define EV_ANFD_REIFY 1
		714
483	/* file descriptor info structure */	715	/* file descriptor info structure */
484	typedef struct	716	typedef struct
485	{	717	{
486	WL head;	718	WL head;
487	unsigned char events; /* the events watched for */	719	unsigned char events; /* the events watched for */
488	unsigned char reify; /* flag set when this ANFD needs reification */	720	unsigned char reify; /* flag set when this ANFD needs reification (EV_ANFD_REIFY, EV__IOFDSET) */
489	unsigned char emask; /* the epoll backend stores the actual kernel mask in here */	721	unsigned char emask; /* the epoll backend stores the actual kernel mask in here */
490	unsigned char unused;	722	unsigned char unused;
491	#if EV_USE_EPOLL	723	#if EV_USE_EPOLL
492	unsigned int egen; /* generation counter to counter epoll bugs */	724	unsigned int egen; /* generation counter to counter epoll bugs */
493	#endif	725	#endif
494	#if EV_SELECT_IS_WINSOCKET	726	#if EV_SELECT_IS_WINSOCKET || EV_USE_IOCP
495	SOCKET handle;	727	SOCKET handle;
		728	#endif
		729	#if EV_USE_IOCP
		730	OVERLAPPED or, ow;
496	#endif	731	#endif
497	} ANFD;	732	} ANFD;
498		733
499	/* stores the pending event set for a given watcher */	734	/* stores the pending event set for a given watcher */
500	typedef struct	735	typedef struct
…		…
555		790
556	static int ev_default_loop_ptr;	791	static int ev_default_loop_ptr;
557		792
558	#endif	793	#endif
559		794
		795	#if EV_FEATURE_API
		796	# define EV_RELEASE_CB if (expect_false (release_cb)) release_cb (EV_A)
		797	# define EV_ACQUIRE_CB if (expect_false (acquire_cb)) acquire_cb (EV_A)
		798	# define EV_INVOKE_PENDING invoke_cb (EV_A)
		799	#else
		800	# define EV_RELEASE_CB (void)0
		801	# define EV_ACQUIRE_CB (void)0
		802	# define EV_INVOKE_PENDING ev_invoke_pending (EV_A)
		803	#endif
		804
		805	#define EVBREAK_RECURSE 0x80
		806
560	/*****************************************************************************/	807	/*****************************************************************************/
561		808
		809	#ifndef EV_HAVE_EV_TIME
562	ev_tstamp	810	ev_tstamp
563	ev_time (void)	811	ev_time (void)
564	{	812	{
565	#if EV_USE_REALTIME	813	#if EV_USE_REALTIME
566	if (expect_true (have_realtime))	814	if (expect_true (have_realtime))
…		…
573		821
574	struct timeval tv;	822	struct timeval tv;
575	gettimeofday (&tv, 0);	823	gettimeofday (&tv, 0);
576	return tv.tv_sec + tv.tv_usec * 1e-6;	824	return tv.tv_sec + tv.tv_usec * 1e-6;
577	}	825	}
		826	#endif
578		827
579	inline_size ev_tstamp	828	inline_size ev_tstamp
580	get_clock (void)	829	get_clock (void)
581	{	830	{
582	#if EV_USE_MONOTONIC	831	#if EV_USE_MONOTONIC
…		…
605	if (delay > 0.)	854	if (delay > 0.)
606	{	855	{
607	#if EV_USE_NANOSLEEP	856	#if EV_USE_NANOSLEEP
608	struct timespec ts;	857	struct timespec ts;
609		858
610	ts.tv_sec = (time_t)delay;	859	EV_TS_SET (ts, delay);
611	ts.tv_nsec = (long)((delay - (ev_tstamp)(ts.tv_sec)) * 1e9);
612
613	nanosleep (&ts, 0);	860	nanosleep (&ts, 0);
614	#elif defined(_WIN32)	861	#elif defined(_WIN32)
615	Sleep ((unsigned long)(delay * 1e3));	862	Sleep ((unsigned long)(delay * 1e3));
616	#else	863	#else
617	struct timeval tv;	864	struct timeval tv;
618		865
619	tv.tv_sec = (time_t)delay;
620	tv.tv_usec = (long)((delay - (ev_tstamp)(tv.tv_sec)) * 1e6);
621
622	/* here we rely on sys/time.h + sys/types.h + unistd.h providing select */	866	/* here we rely on sys/time.h + sys/types.h + unistd.h providing select */
623	/* somehting nto guaranteed by newer posix versions, but guaranteed */	867	/* something not guaranteed by newer posix versions, but guaranteed */
624	/* by older ones */	868	/* by older ones */
		869	EV_TV_SET (tv, delay);
625	select (0, 0, 0, 0, &tv);	870	select (0, 0, 0, 0, &tv);
626	#endif	871	#endif
627	}	872	}
628	}	873	}
629		874
		875	inline_speed int
		876	ev_timeout_to_ms (ev_tstamp timeout)
		877	{
		878	int ms = timeout * 1000. + .999999;
		879
		880	return expect_true (ms) ? ms : timeout < 1e-6 ? 0 : 1;
		881	}
		882
630	/*****************************************************************************/	883	/*****************************************************************************/
631		884
632	#define MALLOC_ROUND 4096 /* prefer to allocate in chunks of this size, must be 2**n and >> 4 longs */	885	#define MALLOC_ROUND 4096 /* prefer to allocate in chunks of this size, must be 2**n and >> 4 longs */
633		886
634	/* find a suitable new size for the given array, */	887	/* find a suitable new size for the given array, */
635	/* hopefully by rounding to a ncie-to-malloc size */	888	/* hopefully by rounding to a nice-to-malloc size */
636	inline_size int	889	inline_size int
637	array_nextsize (int elem, int cur, int cnt)	890	array_nextsize (int elem, int cur, int cnt)
638	{	891	{
639	int ncur = cur + 1;	892	int ncur = cur + 1;
640		893
…		…
736	}	989	}
737		990
738	/*****************************************************************************/	991	/*****************************************************************************/
739		992
740	inline_speed void	993	inline_speed void
741	fd_event (EV_P_ int fd, int revents)	994	fd_event_nocheck (EV_P_ int fd, int revents)
742	{	995	{
743	ANFD *anfd = anfds + fd;	996	ANFD *anfd = anfds + fd;
744	ev_io *w;	997	ev_io *w;
745		998
746	for (w = (ev_io *)anfd->head; w; w = (ev_io *)((WL)w)->next)	999	for (w = (ev_io *)anfd->head; w; w = (ev_io *)((WL)w)->next)
…		…
750	if (ev)	1003	if (ev)
751	ev_feed_event (EV_A_ (W)w, ev);	1004	ev_feed_event (EV_A_ (W)w, ev);
752	}	1005	}
753	}	1006	}
754		1007
		1008	/* do not submit kernel events for fds that have reify set */
		1009	/* because that means they changed while we were polling for new events */
		1010	inline_speed void
		1011	fd_event (EV_P_ int fd, int revents)
		1012	{
		1013	ANFD *anfd = anfds + fd;
		1014
		1015	if (expect_true (!anfd->reify))
		1016	fd_event_nocheck (EV_A_ fd, revents);
		1017	}
		1018
755	void	1019	void
756	ev_feed_fd_event (EV_P_ int fd, int revents)	1020	ev_feed_fd_event (EV_P_ int fd, int revents)
757	{	1021	{
758	if (fd >= 0 && fd < anfdmax)	1022	if (fd >= 0 && fd < anfdmax)
759	fd_event (EV_A_ fd, revents);	1023	fd_event_nocheck (EV_A_ fd, revents);
760	}	1024	}
761		1025
762	/* make sure the external fd watch events are in-sync */	1026	/* make sure the external fd watch events are in-sync */
763	/* with the kernel/libev internal state */	1027	/* with the kernel/libev internal state */
764	inline_size void	1028	inline_size void
765	fd_reify (EV_P)	1029	fd_reify (EV_P)
766	{	1030	{
767	int i;	1031	int i;
768		1032
		1033	#if EV_SELECT_IS_WINSOCKET || EV_USE_IOCP
		1034	for (i = 0; i < fdchangecnt; ++i)
		1035	{
		1036	int fd = fdchanges [i];
		1037	ANFD *anfd = anfds + fd;
		1038
		1039	if (anfd->reify & EV__IOFDSET)
		1040	{
		1041	SOCKET handle = EV_FD_TO_WIN32_HANDLE (fd);
		1042
		1043	if (handle != anfd->handle)
		1044	{
		1045	unsigned long arg;
		1046
		1047	assert (("libev: only socket fds supported in this configuration", ioctlsocket (handle, FIONREAD, &arg) == 0));
		1048
		1049	/* handle changed, but fd didn't - we need to do it in two steps */
		1050	backend_modify (EV_A_ fd, anfd->events, 0);
		1051	anfd->events = 0;
		1052	anfd->handle = handle;
		1053	}
		1054	}
		1055	}
		1056	#endif
		1057
769	for (i = 0; i < fdchangecnt; ++i)	1058	for (i = 0; i < fdchangecnt; ++i)
770	{	1059	{
771	int fd = fdchanges [i];	1060	int fd = fdchanges [i];
772	ANFD *anfd = anfds + fd;	1061	ANFD *anfd = anfds + fd;
773	ev_io *w;	1062	ev_io *w;
774		1063
775	unsigned char events = 0;	1064	unsigned char o_events = anfd->events;
		1065	unsigned char o_reify = anfd->reify;
776		1066
777	for (w = (ev_io *)anfd->head; w; w = (ev_io *)((WL)w)->next)	1067	anfd->reify = 0;
778	events |= (unsigned char)w->events;
779		1068
780	#if EV_SELECT_IS_WINSOCKET	1069	/*if (expect_true (o_reify & EV_ANFD_REIFY)) probably a deoptimisation */
781	if (events)
782	{	1070	{
783	unsigned long arg;	1071	anfd->events = 0;
784	#ifdef EV_FD_TO_WIN32_HANDLE	1072
785	anfd->handle = EV_FD_TO_WIN32_HANDLE (fd);	1073	for (w = (ev_io *)anfd->head; w; w = (ev_io *)((WL)w)->next)
786	#else	1074	anfd->events |= (unsigned char)w->events;
787	anfd->handle = _get_osfhandle (fd);	1075
788	#endif	1076	if (o_events != anfd->events)
789	assert (("libev: only socket fds supported in this configuration", ioctlsocket (anfd->handle, FIONREAD, &arg) == 0));	1077	o_reify = EV__IOFDSET; /* actually |= */
790	}	1078	}
791	#endif
792		1079
793	{	1080	if (o_reify & EV__IOFDSET)
794	unsigned char o_events = anfd->events;
795	unsigned char o_reify = anfd->reify;
796
797	anfd->reify = 0;
798	anfd->events = events;
799
800	if (o_events != events || o_reify & EV__IOFDSET)
801	backend_modify (EV_A_ fd, o_events, events);	1081	backend_modify (EV_A_ fd, o_events, anfd->events);
802	}
803	}	1082	}
804		1083
805	fdchangecnt = 0;	1084	fdchangecnt = 0;
806	}	1085	}
807		1086
…		…
831	ev_io_stop (EV_A_ w);	1110	ev_io_stop (EV_A_ w);
832	ev_feed_event (EV_A_ (W)w, EV_ERROR | EV_READ | EV_WRITE);	1111	ev_feed_event (EV_A_ (W)w, EV_ERROR | EV_READ | EV_WRITE);
833	}	1112	}
834	}	1113	}
835		1114
836	/* check whether the given fd is atcually valid, for error recovery */	1115	/* check whether the given fd is actually valid, for error recovery */
837	inline_size int	1116	inline_size int
838	fd_valid (int fd)	1117	fd_valid (int fd)
839	{	1118	{
840	#ifdef _WIN32	1119	#ifdef _WIN32
841	return _get_osfhandle (fd) != -1;	1120	return EV_FD_TO_WIN32_HANDLE (fd) != -1;
842	#else	1121	#else
843	return fcntl (fd, F_GETFD) != -1;	1122	return fcntl (fd, F_GETFD) != -1;
844	#endif	1123	#endif
845	}	1124	}
846		1125
…		…
864		1143
865	for (fd = anfdmax; fd--; )	1144	for (fd = anfdmax; fd--; )
866	if (anfds [fd].events)	1145	if (anfds [fd].events)
867	{	1146	{
868	fd_kill (EV_A_ fd);	1147	fd_kill (EV_A_ fd);
869	return;	1148	break;
870	}	1149	}
871	}	1150	}
872		1151
873	/* usually called after fork if backend needs to re-arm all fds from scratch */	1152	/* usually called after fork if backend needs to re-arm all fds from scratch */
874	static void noinline	1153	static void noinline
…		…
879	for (fd = 0; fd < anfdmax; ++fd)	1158	for (fd = 0; fd < anfdmax; ++fd)
880	if (anfds [fd].events)	1159	if (anfds [fd].events)
881	{	1160	{
882	anfds [fd].events = 0;	1161	anfds [fd].events = 0;
883	anfds [fd].emask = 0;	1162	anfds [fd].emask = 0;
884	fd_change (EV_A_ fd, EV__IOFDSET | 1);	1163	fd_change (EV_A_ fd, EV__IOFDSET | EV_ANFD_REIFY);
885	}	1164	}
886	}	1165	}
887		1166
		1167	/* used to prepare libev internal fd's */
		1168	/* this is not fork-safe */
		1169	inline_speed void
		1170	fd_intern (int fd)
		1171	{
		1172	#ifdef _WIN32
		1173	unsigned long arg = 1;
		1174	ioctlsocket (EV_FD_TO_WIN32_HANDLE (fd), FIONBIO, &arg);
		1175	#else
		1176	fcntl (fd, F_SETFD, FD_CLOEXEC);
		1177	fcntl (fd, F_SETFL, O_NONBLOCK);
		1178	#endif
		1179	}
		1180
888	/*****************************************************************************/	1181	/*****************************************************************************/
889		1182
890	/*	1183	/*
891	* the heap functions want a real array index. array index 0 uis guaranteed to not	1184	* the heap functions want a real array index. array index 0 is guaranteed to not
892	* be in-use at any time. the first heap entry is at array [HEAP0]. DHEAP gives	1185	* be in-use at any time. the first heap entry is at array [HEAP0]. DHEAP gives
893	* the branching factor of the d-tree.	1186	* the branching factor of the d-tree.
894	*/	1187	*/
895		1188
896	/*	1189	/*
…		…
964		1257
965	for (;;)	1258	for (;;)
966	{	1259	{
967	int c = k << 1;	1260	int c = k << 1;
968		1261
969	if (c > N + HEAP0 - 1)	1262	if (c >= N + HEAP0)
970	break;	1263	break;
971		1264
972	c += c + 1 < N + HEAP0 && ANHE_at (heap [c]) > ANHE_at (heap [c + 1])	1265	c += c + 1 < N + HEAP0 && ANHE_at (heap [c]) > ANHE_at (heap [c + 1])
973	? 1 : 0;	1266	? 1 : 0;
974		1267
…		…
1010		1303
1011	/* move an element suitably so it is in a correct place */	1304	/* move an element suitably so it is in a correct place */
1012	inline_size void	1305	inline_size void
1013	adjustheap (ANHE *heap, int N, int k)	1306	adjustheap (ANHE *heap, int N, int k)
1014	{	1307	{
1015	if (k > HEAP0 && ANHE_at (heap [HPARENT (k)]) >= ANHE_at (heap [k]))	1308	if (k > HEAP0 && ANHE_at (heap [k]) <= ANHE_at (heap [HPARENT (k)]))
1016	upheap (heap, k);	1309	upheap (heap, k);
1017	else	1310	else
1018	downheap (heap, N, k);	1311	downheap (heap, N, k);
1019	}	1312	}
1020		1313
…		…
1033	/*****************************************************************************/	1326	/*****************************************************************************/
1034		1327
1035	/* associate signal watchers to a signal signal */	1328	/* associate signal watchers to a signal signal */
1036	typedef struct	1329	typedef struct
1037	{	1330	{
		1331	EV_ATOMIC_T pending;
		1332	#if EV_MULTIPLICITY
		1333	EV_P;
		1334	#endif
1038	WL head;	1335	WL head;
1039	EV_ATOMIC_T gotsig;
1040	} ANSIG;	1336	} ANSIG;
1041		1337
1042	static ANSIG *signals;	1338	static ANSIG signals [EV_NSIG - 1];
1043	static int signalmax;
1044
1045	static EV_ATOMIC_T gotsig;
1046		1339
1047	/*****************************************************************************/	1340	/*****************************************************************************/
1048		1341
1049	/* used to prepare libev internal fd's */	1342	#if EV_SIGNAL_ENABLE || EV_ASYNC_ENABLE
1050	/* this is not fork-safe */
1051	inline_speed void
1052	fd_intern (int fd)
1053	{
1054	#ifdef _WIN32
1055	unsigned long arg = 1;
1056	ioctlsocket (_get_osfhandle (fd), FIONBIO, &arg);
1057	#else
1058	fcntl (fd, F_SETFD, FD_CLOEXEC);
1059	fcntl (fd, F_SETFL, O_NONBLOCK);
1060	#endif
1061	}
1062		1343
1063	static void noinline	1344	static void noinline
1064	evpipe_init (EV_P)	1345	evpipe_init (EV_P)
1065	{	1346	{
1066	if (!ev_is_active (&pipe_w))	1347	if (!ev_is_active (&pipe_w))
1067	{	1348	{
1068	#if EV_USE_EVENTFD	1349	# if EV_USE_EVENTFD
		1350	evfd = eventfd (0, EFD_NONBLOCK | EFD_CLOEXEC);
		1351	if (evfd < 0 && errno == EINVAL)
1069	if ((evfd = eventfd (0, 0)) >= 0)	1352	evfd = eventfd (0, 0);
		1353
		1354	if (evfd >= 0)
1070	{	1355	{
1071	evpipe [0] = -1;	1356	evpipe [0] = -1;
1072	fd_intern (evfd);	1357	fd_intern (evfd); /* doing it twice doesn't hurt */
1073	ev_io_set (&pipe_w, evfd, EV_READ);	1358	ev_io_set (&pipe_w, evfd, EV_READ);
1074	}	1359	}
1075	else	1360	else
1076	#endif	1361	# endif
1077	{	1362	{
1078	while (pipe (evpipe))	1363	while (pipe (evpipe))
1079	ev_syserr ("(libev) error creating signal/async pipe");	1364	ev_syserr ("(libev) error creating signal/async pipe");
1080		1365
1081	fd_intern (evpipe [0]);	1366	fd_intern (evpipe [0]);
…		…
1092	evpipe_write (EV_P_ EV_ATOMIC_T *flag)	1377	evpipe_write (EV_P_ EV_ATOMIC_T *flag)
1093	{	1378	{
1094	if (!*flag)	1379	if (!*flag)
1095	{	1380	{
1096	int old_errno = errno; /* save errno because write might clobber it */	1381	int old_errno = errno; /* save errno because write might clobber it */
		1382	char dummy;
1097		1383
1098	*flag = 1;	1384	*flag = 1;
1099		1385
1100	#if EV_USE_EVENTFD	1386	#if EV_USE_EVENTFD
1101	if (evfd >= 0)	1387	if (evfd >= 0)
…		…
1103	uint64_t counter = 1;	1389	uint64_t counter = 1;
1104	write (evfd, &counter, sizeof (uint64_t));	1390	write (evfd, &counter, sizeof (uint64_t));
1105	}	1391	}
1106	else	1392	else
1107	#endif	1393	#endif
		1394	/* win32 people keep sending patches that change this write() to send() */
		1395	/* and then run away. but send() is wrong, it wants a socket handle on win32 */
		1396	/* so when you think this write should be a send instead, please find out */
		1397	/* where your send() is from - it's definitely not the microsoft send, and */
		1398	/* tell me. thank you. */
1108	write (evpipe [1], &old_errno, 1);	1399	write (evpipe [1], &dummy, 1);
1109		1400
1110	errno = old_errno;	1401	errno = old_errno;
1111	}	1402	}
1112	}	1403	}
1113		1404
1114	/* called whenever the libev signal pipe */	1405	/* called whenever the libev signal pipe */
1115	/* got some events (signal, async) */	1406	/* got some events (signal, async) */
1116	static void	1407	static void
1117	pipecb (EV_P_ ev_io *iow, int revents)	1408	pipecb (EV_P_ ev_io *iow, int revents)
1118	{	1409	{
		1410	int i;
		1411
1119	#if EV_USE_EVENTFD	1412	#if EV_USE_EVENTFD
1120	if (evfd >= 0)	1413	if (evfd >= 0)
1121	{	1414	{
1122	uint64_t counter;	1415	uint64_t counter;
1123	read (evfd, &counter, sizeof (uint64_t));	1416	read (evfd, &counter, sizeof (uint64_t));
1124	}	1417	}
1125	else	1418	else
1126	#endif	1419	#endif
1127	{	1420	{
1128	char dummy;	1421	char dummy;
		1422	/* see discussion in evpipe_write when you think this read should be recv in win32 */
1129	read (evpipe [0], &dummy, 1);	1423	read (evpipe [0], &dummy, 1);
1130	}	1424	}
1131		1425
1132	if (gotsig && ev_is_default_loop (EV_A))	1426	#if EV_SIGNAL_ENABLE
1133	{	1427	if (sig_pending)
1134	int signum;	1428	{
1135	gotsig = 0;	1429	sig_pending = 0;
1136		1430
1137	for (signum = signalmax; signum--; )	1431	for (i = EV_NSIG - 1; i--; )
1138	if (signals [signum].gotsig)	1432	if (expect_false (signals [i].pending))
1139	ev_feed_signal_event (EV_A_ signum + 1);	1433	ev_feed_signal_event (EV_A_ i + 1);
1140	}	1434	}
		1435	#endif
1141		1436
1142	#if EV_ASYNC_ENABLE	1437	#if EV_ASYNC_ENABLE
1143	if (gotasync)	1438	if (async_pending)
1144	{	1439	{
1145	int i;	1440	async_pending = 0;
1146	gotasync = 0;
1147		1441
1148	for (i = asynccnt; i--; )	1442	for (i = asynccnt; i--; )
1149	if (asyncs [i]->sent)	1443	if (asyncs [i]->sent)
1150	{	1444	{
1151	asyncs [i]->sent = 0;	1445	asyncs [i]->sent = 0;
…		…
1155	#endif	1449	#endif
1156	}	1450	}
1157		1451
1158	/*****************************************************************************/	1452	/*****************************************************************************/
1159		1453
		1454	void
		1455	ev_feed_signal (int signum)
		1456	{
		1457	#if EV_MULTIPLICITY
		1458	EV_P = signals [signum - 1].loop;
		1459
		1460	if (!EV_A)
		1461	return;
		1462	#endif
		1463
		1464	signals [signum - 1].pending = 1;
		1465	evpipe_write (EV_A_ &sig_pending);
		1466	}
		1467
1160	static void	1468	static void
1161	ev_sighandler (int signum)	1469	ev_sighandler (int signum)
1162	{	1470	{
1163	#if EV_MULTIPLICITY
1164	struct ev_loop *loop = &default_loop_struct;
1165	#endif
1166
1167	#if _WIN32	1471	#ifdef _WIN32
1168	signal (signum, ev_sighandler);	1472	signal (signum, ev_sighandler);
1169	#endif	1473	#endif
1170		1474
1171	signals [signum - 1].gotsig = 1;	1475	ev_feed_signal (signum);
1172	evpipe_write (EV_A_ &gotsig);
1173	}	1476	}
1174		1477
1175	void noinline	1478	void noinline
1176	ev_feed_signal_event (EV_P_ int signum)	1479	ev_feed_signal_event (EV_P_ int signum)
1177	{	1480	{
1178	WL w;	1481	WL w;
1179		1482
		1483	if (expect_false (signum <= 0 || signum > EV_NSIG))
		1484	return;
		1485
		1486	--signum;
		1487
1180	#if EV_MULTIPLICITY	1488	#if EV_MULTIPLICITY
1181	assert (("libev: feeding signal events is only supported in the default loop", loop == ev_default_loop_ptr));	1489	/* it is permissible to try to feed a signal to the wrong loop */
1182	#endif	1490	/* or, likely more useful, feeding a signal nobody is waiting for */
1183		1491
1184	--signum;	1492	if (expect_false (signals [signum].loop != EV_A))
1185
1186	if (signum < 0 || signum >= signalmax)
1187	return;	1493	return;
		1494	#endif
1188		1495
1189	signals [signum].gotsig = 0;	1496	signals [signum].pending = 0;
1190		1497
1191	for (w = signals [signum].head; w; w = w->next)	1498	for (w = signals [signum].head; w; w = w->next)
1192	ev_feed_event (EV_A_ (W)w, EV_SIGNAL);	1499	ev_feed_event (EV_A_ (W)w, EV_SIGNAL);
1193	}	1500	}
1194		1501
		1502	#if EV_USE_SIGNALFD
		1503	static void
		1504	sigfdcb (EV_P_ ev_io *iow, int revents)
		1505	{
		1506	struct signalfd_siginfo si[2], *sip; /* these structs are big */
		1507
		1508	for (;;)
		1509	{
		1510	ssize_t res = read (sigfd, si, sizeof (si));
		1511
		1512	/* not ISO-C, as res might be -1, but works with SuS */
		1513	for (sip = si; (char *)sip < (char *)si + res; ++sip)
		1514	ev_feed_signal_event (EV_A_ sip->ssi_signo);
		1515
		1516	if (res < (ssize_t)sizeof (si))
		1517	break;
		1518	}
		1519	}
		1520	#endif
		1521
		1522	#endif
		1523
1195	/*****************************************************************************/	1524	/*****************************************************************************/
1196		1525
		1526	#if EV_CHILD_ENABLE
1197	static WL childs [EV_PID_HASHSIZE];	1527	static WL childs [EV_PID_HASHSIZE];
1198
1199	#ifndef _WIN32
1200		1528
1201	static ev_signal childev;	1529	static ev_signal childev;
1202		1530
1203	#ifndef WIFCONTINUED	1531	#ifndef WIFCONTINUED
1204	# define WIFCONTINUED(status) 0	1532	# define WIFCONTINUED(status) 0
…		…
1209	child_reap (EV_P_ int chain, int pid, int status)	1537	child_reap (EV_P_ int chain, int pid, int status)
1210	{	1538	{
1211	ev_child *w;	1539	ev_child *w;
1212	int traced = WIFSTOPPED (status) || WIFCONTINUED (status);	1540	int traced = WIFSTOPPED (status) || WIFCONTINUED (status);
1213		1541
1214	for (w = (ev_child *)childs [chain & (EV_PID_HASHSIZE - 1)]; w; w = (ev_child *)((WL)w)->next)	1542	for (w = (ev_child *)childs [chain & ((EV_PID_HASHSIZE) - 1)]; w; w = (ev_child *)((WL)w)->next)
1215	{	1543	{
1216	if ((w->pid == pid || !w->pid)	1544	if ((w->pid == pid || !w->pid)
1217	&& (!traced || (w->flags & 1)))	1545	&& (!traced || (w->flags & 1)))
1218	{	1546	{
1219	ev_set_priority (w, EV_MAXPRI); /* need to do it *now*, this *must* be the same prio as the signal watcher itself */	1547	ev_set_priority (w, EV_MAXPRI); /* need to do it *now*, this *must* be the same prio as the signal watcher itself */
…		…
1244	/* make sure we are called again until all children have been reaped */	1572	/* make sure we are called again until all children have been reaped */
1245	/* we need to do it this way so that the callback gets called before we continue */	1573	/* we need to do it this way so that the callback gets called before we continue */
1246	ev_feed_event (EV_A_ (W)sw, EV_SIGNAL);	1574	ev_feed_event (EV_A_ (W)sw, EV_SIGNAL);
1247		1575
1248	child_reap (EV_A_ pid, pid, status);	1576	child_reap (EV_A_ pid, pid, status);
1249	if (EV_PID_HASHSIZE > 1)	1577	if ((EV_PID_HASHSIZE) > 1)
1250	child_reap (EV_A_ 0, pid, status); /* this might trigger a watcher twice, but feed_event catches that */	1578	child_reap (EV_A_ 0, pid, status); /* this might trigger a watcher twice, but feed_event catches that */
1251	}	1579	}
1252		1580
1253	#endif	1581	#endif
1254		1582
1255	/*****************************************************************************/	1583	/*****************************************************************************/
1256		1584
		1585	#if EV_USE_IOCP
		1586	# include "ev_iocp.c"
		1587	#endif
1257	#if EV_USE_PORT	1588	#if EV_USE_PORT
1258	# include "ev_port.c"	1589	# include "ev_port.c"
1259	#endif	1590	#endif
1260	#if EV_USE_KQUEUE	1591	#if EV_USE_KQUEUE
1261	# include "ev_kqueue.c"	1592	# include "ev_kqueue.c"
…		…
1321	#ifdef __APPLE__	1652	#ifdef __APPLE__
1322	/* only select works correctly on that "unix-certified" platform */	1653	/* only select works correctly on that "unix-certified" platform */
1323	flags &= ~EVBACKEND_KQUEUE; /* horribly broken, even for sockets */	1654	flags &= ~EVBACKEND_KQUEUE; /* horribly broken, even for sockets */
1324	flags &= ~EVBACKEND_POLL; /* poll is based on kqueue from 10.5 onwards */	1655	flags &= ~EVBACKEND_POLL; /* poll is based on kqueue from 10.5 onwards */
1325	#endif	1656	#endif
		1657	#ifdef __FreeBSD__
		1658	flags &= ~EVBACKEND_POLL; /* poll return value is unusable (http://forums.freebsd.org/archive/index.php/t-10270.html) */
		1659	#endif
1326		1660
1327	return flags;	1661	return flags;
1328	}	1662	}
1329		1663
1330	unsigned int	1664	unsigned int
1331	ev_embeddable_backends (void)	1665	ev_embeddable_backends (void)
1332	{	1666	{
1333	int flags = EVBACKEND_EPOLL | EVBACKEND_KQUEUE | EVBACKEND_PORT;	1667	int flags = EVBACKEND_EPOLL | EVBACKEND_KQUEUE | EVBACKEND_PORT;
1334		1668
1335	/* epoll embeddability broken on all linux versions up to at least 2.6.23 */	1669	/* epoll embeddability broken on all linux versions up to at least 2.6.23 */
1336	/* please fix it and tell me how to detect the fix */	1670	if (ev_linux_version () < 0x020620) /* disable it on linux < 2.6.32 */
1337	flags &= ~EVBACKEND_EPOLL;	1671	flags &= ~EVBACKEND_EPOLL;
1338		1672
1339	return flags;	1673	return flags;
1340	}	1674	}
1341		1675
1342	unsigned int	1676	unsigned int
1343	ev_backend (EV_P)	1677	ev_backend (EV_P)
1344	{	1678	{
1345	return backend;	1679	return backend;
1346	}	1680	}
1347		1681
		1682	#if EV_FEATURE_API
1348	unsigned int	1683	unsigned int
1349	ev_loop_count (EV_P)	1684	ev_iteration (EV_P)
1350	{	1685	{
1351	return loop_count;	1686	return loop_count;
1352	}	1687	}
1353		1688
		1689	unsigned int
		1690	ev_depth (EV_P)
		1691	{
		1692	return loop_depth;
		1693	}
		1694
1354	void	1695	void
1355	ev_set_io_collect_interval (EV_P_ ev_tstamp interval)	1696	ev_set_io_collect_interval (EV_P_ ev_tstamp interval)
1356	{	1697	{
1357	io_blocktime = interval;	1698	io_blocktime = interval;
1358	}	1699	}
…		…
1360	void	1701	void
1361	ev_set_timeout_collect_interval (EV_P_ ev_tstamp interval)	1702	ev_set_timeout_collect_interval (EV_P_ ev_tstamp interval)
1362	{	1703	{
1363	timeout_blocktime = interval;	1704	timeout_blocktime = interval;
1364	}	1705	}
		1706
		1707	void
		1708	ev_set_userdata (EV_P_ void *data)
		1709	{
		1710	userdata = data;
		1711	}
		1712
		1713	void *
		1714	ev_userdata (EV_P)
		1715	{
		1716	return userdata;
		1717	}
		1718
		1719	void ev_set_invoke_pending_cb (EV_P_ void (*invoke_pending_cb)(EV_P))
		1720	{
		1721	invoke_cb = invoke_pending_cb;
		1722	}
		1723
		1724	void ev_set_loop_release_cb (EV_P_ void (*release)(EV_P), void (*acquire)(EV_P))
		1725	{
		1726	release_cb = release;
		1727	acquire_cb = acquire;
		1728	}
		1729	#endif
1365		1730
1366	/* initialise a loop structure, must be zero-initialised */	1731	/* initialise a loop structure, must be zero-initialised */
1367	static void noinline	1732	static void noinline
1368	loop_init (EV_P_ unsigned int flags)	1733	loop_init (EV_P_ unsigned int flags)
1369	{	1734	{
1370	if (!backend)	1735	if (!backend)
1371	{	1736	{
		1737	origflags = flags;
		1738
1372	#if EV_USE_REALTIME	1739	#if EV_USE_REALTIME
1373	if (!have_realtime)	1740	if (!have_realtime)
1374	{	1741	{
1375	struct timespec ts;	1742	struct timespec ts;
1376		1743
…		…
1387	if (!clock_gettime (CLOCK_MONOTONIC, &ts))	1754	if (!clock_gettime (CLOCK_MONOTONIC, &ts))
1388	have_monotonic = 1;	1755	have_monotonic = 1;
1389	}	1756	}
1390	#endif	1757	#endif
1391		1758
		1759	/* pid check not overridable via env */
		1760	#ifndef _WIN32
		1761	if (flags & EVFLAG_FORKCHECK)
		1762	curpid = getpid ();
		1763	#endif
		1764
		1765	if (!(flags & EVFLAG_NOENV)
		1766	&& !enable_secure ()
		1767	&& getenv ("LIBEV_FLAGS"))
		1768	flags = atoi (getenv ("LIBEV_FLAGS"));
		1769
1392	ev_rt_now = ev_time ();	1770	ev_rt_now = ev_time ();
1393	mn_now = get_clock ();	1771	mn_now = get_clock ();
1394	now_floor = mn_now;	1772	now_floor = mn_now;
1395	rtmn_diff = ev_rt_now - mn_now;	1773	rtmn_diff = ev_rt_now - mn_now;
		1774	#if EV_FEATURE_API
		1775	invoke_cb = ev_invoke_pending;
		1776	#endif
1396		1777
1397	io_blocktime = 0.;	1778	io_blocktime = 0.;
1398	timeout_blocktime = 0.;	1779	timeout_blocktime = 0.;
1399	backend = 0;	1780	backend = 0;
1400	backend_fd = -1;	1781	backend_fd = -1;
1401	gotasync = 0;	1782	sig_pending = 0;
		1783	#if EV_ASYNC_ENABLE
		1784	async_pending = 0;
		1785	#endif
1402	#if EV_USE_INOTIFY	1786	#if EV_USE_INOTIFY
1403	fs_fd = -2;	1787	fs_fd = flags & EVFLAG_NOINOTIFY ? -1 : -2;
1404	#endif	1788	#endif
1405		1789	#if EV_USE_SIGNALFD
1406	/* pid check not overridable via env */	1790	sigfd = flags & EVFLAG_SIGNALFD ? -2 : -1;
1407	#ifndef _WIN32
1408	if (flags & EVFLAG_FORKCHECK)
1409	curpid = getpid ();
1410	#endif	1791	#endif
1411		1792
1412	if (!(flags & EVFLAG_NOENV)	1793	if (!(flags & EVBACKEND_MASK))
1413	&& !enable_secure ()
1414	&& getenv ("LIBEV_FLAGS"))
1415	flags = atoi (getenv ("LIBEV_FLAGS"));
1416
1417	if (!(flags & 0x0000ffffU))
1418	flags |= ev_recommended_backends ();	1794	flags |= ev_recommended_backends ();
1419		1795
		1796	#if EV_USE_IOCP
		1797	if (!backend && (flags & EVBACKEND_IOCP )) backend = iocp_init (EV_A_ flags);
		1798	#endif
1420	#if EV_USE_PORT	1799	#if EV_USE_PORT
1421	if (!backend && (flags & EVBACKEND_PORT )) backend = port_init (EV_A_ flags);	1800	if (!backend && (flags & EVBACKEND_PORT )) backend = port_init (EV_A_ flags);
1422	#endif	1801	#endif
1423	#if EV_USE_KQUEUE	1802	#if EV_USE_KQUEUE
1424	if (!backend && (flags & EVBACKEND_KQUEUE)) backend = kqueue_init (EV_A_ flags);	1803	if (!backend && (flags & EVBACKEND_KQUEUE)) backend = kqueue_init (EV_A_ flags);
…		…
1433	if (!backend && (flags & EVBACKEND_SELECT)) backend = select_init (EV_A_ flags);	1812	if (!backend && (flags & EVBACKEND_SELECT)) backend = select_init (EV_A_ flags);
1434	#endif	1813	#endif
1435		1814
1436	ev_prepare_init (&pending_w, pendingcb);	1815	ev_prepare_init (&pending_w, pendingcb);
1437		1816
		1817	#if EV_SIGNAL_ENABLE || EV_ASYNC_ENABLE
1438	ev_init (&pipe_w, pipecb);	1818	ev_init (&pipe_w, pipecb);
1439	ev_set_priority (&pipe_w, EV_MAXPRI);	1819	ev_set_priority (&pipe_w, EV_MAXPRI);
		1820	#endif
1440	}	1821	}
1441	}	1822	}
1442		1823
1443	/* free up a loop structure */	1824	/* free up a loop structure */
1444	static void noinline	1825	void
1445	loop_destroy (EV_P)	1826	ev_loop_destroy (EV_P)
1446	{	1827	{
1447	int i;	1828	int i;
1448		1829
		1830	#if EV_MULTIPLICITY
		1831	/* mimic free (0) */
		1832	if (!EV_A)
		1833	return;
		1834	#endif
		1835
		1836	#if EV_CLEANUP_ENABLE
		1837	/* queue cleanup watchers (and execute them) */
		1838	if (expect_false (cleanupcnt))
		1839	{
		1840	queue_events (EV_A_ (W *)cleanups, cleanupcnt, EV_CLEANUP);
		1841	EV_INVOKE_PENDING;
		1842	}
		1843	#endif
		1844
		1845	#if EV_CHILD_ENABLE
		1846	if (ev_is_active (&childev))
		1847	{
		1848	ev_ref (EV_A); /* child watcher */
		1849	ev_signal_stop (EV_A_ &childev);
		1850	}
		1851	#endif
		1852
1449	if (ev_is_active (&pipe_w))	1853	if (ev_is_active (&pipe_w))
1450	{	1854	{
1451	ev_ref (EV_A); /* signal watcher */	1855	/*ev_ref (EV_A);*/
1452	ev_io_stop (EV_A_ &pipe_w);	1856	/*ev_io_stop (EV_A_ &pipe_w);*/
1453		1857
1454	#if EV_USE_EVENTFD	1858	#if EV_USE_EVENTFD
1455	if (evfd >= 0)	1859	if (evfd >= 0)
1456	close (evfd);	1860	close (evfd);
1457	#endif	1861	#endif
1458		1862
1459	if (evpipe [0] >= 0)	1863	if (evpipe [0] >= 0)
1460	{	1864	{
1461	close (evpipe [0]);	1865	EV_WIN32_CLOSE_FD (evpipe [0]);
1462	close (evpipe [1]);	1866	EV_WIN32_CLOSE_FD (evpipe [1]);
1463	}	1867	}
1464	}	1868	}
		1869
		1870	#if EV_USE_SIGNALFD
		1871	if (ev_is_active (&sigfd_w))
		1872	close (sigfd);
		1873	#endif
1465		1874
1466	#if EV_USE_INOTIFY	1875	#if EV_USE_INOTIFY
1467	if (fs_fd >= 0)	1876	if (fs_fd >= 0)
1468	close (fs_fd);	1877	close (fs_fd);
1469	#endif	1878	#endif
1470		1879
1471	if (backend_fd >= 0)	1880	if (backend_fd >= 0)
1472	close (backend_fd);	1881	close (backend_fd);
1473		1882
		1883	#if EV_USE_IOCP
		1884	if (backend == EVBACKEND_IOCP ) iocp_destroy (EV_A);
		1885	#endif
1474	#if EV_USE_PORT	1886	#if EV_USE_PORT
1475	if (backend == EVBACKEND_PORT ) port_destroy (EV_A);	1887	if (backend == EVBACKEND_PORT ) port_destroy (EV_A);
1476	#endif	1888	#endif
1477	#if EV_USE_KQUEUE	1889	#if EV_USE_KQUEUE
1478	if (backend == EVBACKEND_KQUEUE) kqueue_destroy (EV_A);	1890	if (backend == EVBACKEND_KQUEUE) kqueue_destroy (EV_A);
…		…
1493	#if EV_IDLE_ENABLE	1905	#if EV_IDLE_ENABLE
1494	array_free (idle, [i]);	1906	array_free (idle, [i]);
1495	#endif	1907	#endif
1496	}	1908	}
1497		1909
1498	ev_free (anfds); anfdmax = 0;	1910	ev_free (anfds); anfds = 0; anfdmax = 0;
1499		1911
1500	/* have to use the microsoft-never-gets-it-right macro */	1912	/* have to use the microsoft-never-gets-it-right macro */
1501	array_free (rfeed, EMPTY);	1913	array_free (rfeed, EMPTY);
1502	array_free (fdchange, EMPTY);	1914	array_free (fdchange, EMPTY);
1503	array_free (timer, EMPTY);	1915	array_free (timer, EMPTY);
…		…
1505	array_free (periodic, EMPTY);	1917	array_free (periodic, EMPTY);
1506	#endif	1918	#endif
1507	#if EV_FORK_ENABLE	1919	#if EV_FORK_ENABLE
1508	array_free (fork, EMPTY);	1920	array_free (fork, EMPTY);
1509	#endif	1921	#endif
		1922	#if EV_CLEANUP_ENABLE
		1923	array_free (cleanup, EMPTY);
		1924	#endif
1510	array_free (prepare, EMPTY);	1925	array_free (prepare, EMPTY);
1511	array_free (check, EMPTY);	1926	array_free (check, EMPTY);
1512	#if EV_ASYNC_ENABLE	1927	#if EV_ASYNC_ENABLE
1513	array_free (async, EMPTY);	1928	array_free (async, EMPTY);
1514	#endif	1929	#endif
1515		1930
1516	backend = 0;	1931	backend = 0;
		1932
		1933	#if EV_MULTIPLICITY
		1934	if (ev_is_default_loop (EV_A))
		1935	#endif
		1936	ev_default_loop_ptr = 0;
		1937	#if EV_MULTIPLICITY
		1938	else
		1939	ev_free (EV_A);
		1940	#endif
1517	}	1941	}
1518		1942
1519	#if EV_USE_INOTIFY	1943	#if EV_USE_INOTIFY
1520	inline_size void infy_fork (EV_P);	1944	inline_size void infy_fork (EV_P);
1521	#endif	1945	#endif
…		…
1538		1962
1539	if (ev_is_active (&pipe_w))	1963	if (ev_is_active (&pipe_w))
1540	{	1964	{
1541	/* this "locks" the handlers against writing to the pipe */	1965	/* this "locks" the handlers against writing to the pipe */
1542	/* while we modify the fd vars */	1966	/* while we modify the fd vars */
1543	gotsig = 1;	1967	sig_pending = 1;
1544	#if EV_ASYNC_ENABLE	1968	#if EV_ASYNC_ENABLE
1545	gotasync = 1;	1969	async_pending = 1;
1546	#endif	1970	#endif
1547		1971
1548	ev_ref (EV_A);	1972	ev_ref (EV_A);
1549	ev_io_stop (EV_A_ &pipe_w);	1973	ev_io_stop (EV_A_ &pipe_w);
1550		1974
…		…
1553	close (evfd);	1977	close (evfd);
1554	#endif	1978	#endif
1555		1979
1556	if (evpipe [0] >= 0)	1980	if (evpipe [0] >= 0)
1557	{	1981	{
1558	close (evpipe [0]);	1982	EV_WIN32_CLOSE_FD (evpipe [0]);
1559	close (evpipe [1]);	1983	EV_WIN32_CLOSE_FD (evpipe [1]);
1560	}	1984	}
1561		1985
		1986	#if EV_SIGNAL_ENABLE || EV_ASYNC_ENABLE
1562	evpipe_init (EV_A);	1987	evpipe_init (EV_A);
1563	/* now iterate over everything, in case we missed something */	1988	/* now iterate over everything, in case we missed something */
1564	pipecb (EV_A_ &pipe_w, EV_READ);	1989	pipecb (EV_A_ &pipe_w, EV_READ);
		1990	#endif
1565	}	1991	}
1566		1992
1567	postfork = 0;	1993	postfork = 0;
1568	}	1994	}
1569		1995
1570	#if EV_MULTIPLICITY	1996	#if EV_MULTIPLICITY
1571		1997
1572	struct ev_loop *	1998	struct ev_loop *
1573	ev_loop_new (unsigned int flags)	1999	ev_loop_new (unsigned int flags)
1574	{	2000	{
1575	struct ev_loop *loop = (struct ev_loop *)ev_malloc (sizeof (struct ev_loop));	2001	EV_P = (struct ev_loop *)ev_malloc (sizeof (struct ev_loop));
1576		2002
1577	memset (loop, 0, sizeof (struct ev_loop));	2003	memset (EV_A, 0, sizeof (struct ev_loop));
1578
1579	loop_init (EV_A_ flags);	2004	loop_init (EV_A_ flags);
1580		2005
1581	if (ev_backend (EV_A))	2006	if (ev_backend (EV_A))
1582	return loop;	2007	return EV_A;
1583		2008
		2009	ev_free (EV_A);
1584	return 0;	2010	return 0;
1585	}	2011	}
1586		2012
1587	void	2013	#endif /* multiplicity */
1588	ev_loop_destroy (EV_P)
1589	{
1590	loop_destroy (EV_A);
1591	ev_free (loop);
1592	}
1593
1594	void
1595	ev_loop_fork (EV_P)
1596	{
1597	postfork = 1; /* must be in line with ev_default_fork */
1598	}
1599		2014
1600	#if EV_VERIFY	2015	#if EV_VERIFY
1601	static void noinline	2016	static void noinline
1602	verify_watcher (EV_P_ W w)	2017	verify_watcher (EV_P_ W w)
1603	{	2018	{
…		…
1631	verify_watcher (EV_A_ ws [cnt]);	2046	verify_watcher (EV_A_ ws [cnt]);
1632	}	2047	}
1633	}	2048	}
1634	#endif	2049	#endif
1635		2050
		2051	#if EV_FEATURE_API
1636	void	2052	void
1637	ev_loop_verify (EV_P)	2053	ev_verify (EV_P)
1638	{	2054	{
1639	#if EV_VERIFY	2055	#if EV_VERIFY
1640	int i;	2056	int i;
1641	WL w;	2057	WL w;
1642		2058
…		…
1676	#if EV_FORK_ENABLE	2092	#if EV_FORK_ENABLE
1677	assert (forkmax >= forkcnt);	2093	assert (forkmax >= forkcnt);
1678	array_verify (EV_A_ (W *)forks, forkcnt);	2094	array_verify (EV_A_ (W *)forks, forkcnt);
1679	#endif	2095	#endif
1680		2096
		2097	#if EV_CLEANUP_ENABLE
		2098	assert (cleanupmax >= cleanupcnt);
		2099	array_verify (EV_A_ (W *)cleanups, cleanupcnt);
		2100	#endif
		2101
1681	#if EV_ASYNC_ENABLE	2102	#if EV_ASYNC_ENABLE
1682	assert (asyncmax >= asynccnt);	2103	assert (asyncmax >= asynccnt);
1683	array_verify (EV_A_ (W *)asyncs, asynccnt);	2104	array_verify (EV_A_ (W *)asyncs, asynccnt);
1684	#endif	2105	#endif
1685		2106
		2107	#if EV_PREPARE_ENABLE
1686	assert (preparemax >= preparecnt);	2108	assert (preparemax >= preparecnt);
1687	array_verify (EV_A_ (W *)prepares, preparecnt);	2109	array_verify (EV_A_ (W *)prepares, preparecnt);
		2110	#endif
1688		2111
		2112	#if EV_CHECK_ENABLE
1689	assert (checkmax >= checkcnt);	2113	assert (checkmax >= checkcnt);
1690	array_verify (EV_A_ (W *)checks, checkcnt);	2114	array_verify (EV_A_ (W *)checks, checkcnt);
		2115	#endif
1691		2116
1692	# if 0	2117	# if 0
		2118	#if EV_CHILD_ENABLE
1693	for (w = (ev_child *)childs [chain & (EV_PID_HASHSIZE - 1)]; w; w = (ev_child *)((WL)w)->next)	2119	for (w = (ev_child *)childs [chain & ((EV_PID_HASHSIZE) - 1)]; w; w = (ev_child *)((WL)w)->next)
1694	for (signum = signalmax; signum--; ) if (signals [signum].gotsig)	2120	for (signum = EV_NSIG; signum--; ) if (signals [signum].pending)
		2121	#endif
1695	# endif	2122	# endif
1696	#endif	2123	#endif
1697	}	2124	}
1698		2125	#endif
1699	#endif /* multiplicity */
1700		2126
1701	#if EV_MULTIPLICITY	2127	#if EV_MULTIPLICITY
1702	struct ev_loop *	2128	struct ev_loop *
1703	ev_default_loop_init (unsigned int flags)
1704	#else	2129	#else
1705	int	2130	int
		2131	#endif
1706	ev_default_loop (unsigned int flags)	2132	ev_default_loop (unsigned int flags)
1707	#endif
1708	{	2133	{
1709	if (!ev_default_loop_ptr)	2134	if (!ev_default_loop_ptr)
1710	{	2135	{
1711	#if EV_MULTIPLICITY	2136	#if EV_MULTIPLICITY
1712	struct ev_loop *loop = ev_default_loop_ptr = &default_loop_struct;	2137	EV_P = ev_default_loop_ptr = &default_loop_struct;
1713	#else	2138	#else
1714	ev_default_loop_ptr = 1;	2139	ev_default_loop_ptr = 1;
1715	#endif	2140	#endif
1716		2141
1717	loop_init (EV_A_ flags);	2142	loop_init (EV_A_ flags);
1718		2143
1719	if (ev_backend (EV_A))	2144	if (ev_backend (EV_A))
1720	{	2145	{
1721	#ifndef _WIN32	2146	#if EV_CHILD_ENABLE
1722	ev_signal_init (&childev, childcb, SIGCHLD);	2147	ev_signal_init (&childev, childcb, SIGCHLD);
1723	ev_set_priority (&childev, EV_MAXPRI);	2148	ev_set_priority (&childev, EV_MAXPRI);
1724	ev_signal_start (EV_A_ &childev);	2149	ev_signal_start (EV_A_ &childev);
1725	ev_unref (EV_A); /* child watcher should not keep loop alive */	2150	ev_unref (EV_A); /* child watcher should not keep loop alive */
1726	#endif	2151	#endif
…		…
1731		2156
1732	return ev_default_loop_ptr;	2157	return ev_default_loop_ptr;
1733	}	2158	}
1734		2159
1735	void	2160	void
1736	ev_default_destroy (void)	2161	ev_loop_fork (EV_P)
1737	{	2162	{
1738	#if EV_MULTIPLICITY
1739	struct ev_loop *loop = ev_default_loop_ptr;
1740	#endif
1741
1742	ev_default_loop_ptr = 0;
1743
1744	#ifndef _WIN32
1745	ev_ref (EV_A); /* child watcher */
1746	ev_signal_stop (EV_A_ &childev);
1747	#endif
1748
1749	loop_destroy (EV_A);
1750	}
1751
1752	void
1753	ev_default_fork (void)
1754	{
1755	#if EV_MULTIPLICITY
1756	struct ev_loop *loop = ev_default_loop_ptr;
1757	#endif
1758
1759	postfork = 1; /* must be in line with ev_loop_fork */	2163	postfork = 1; /* must be in line with ev_default_fork */
1760	}	2164	}
1761		2165
1762	/*****************************************************************************/	2166	/*****************************************************************************/
1763		2167
1764	void	2168	void
1765	ev_invoke (EV_P_ void *w, int revents)	2169	ev_invoke (EV_P_ void *w, int revents)
1766	{	2170	{
1767	EV_CB_INVOKE ((W)w, revents);	2171	EV_CB_INVOKE ((W)w, revents);
1768	}	2172	}
1769		2173
1770	inline_speed void	2174	unsigned int
1771	call_pending (EV_P)	2175	ev_pending_count (EV_P)
		2176	{
		2177	int pri;
		2178	unsigned int count = 0;
		2179
		2180	for (pri = NUMPRI; pri--; )
		2181	count += pendingcnt [pri];
		2182
		2183	return count;
		2184	}
		2185
		2186	void noinline
		2187	ev_invoke_pending (EV_P)
1772	{	2188	{
1773	int pri;	2189	int pri;
1774		2190
1775	for (pri = NUMPRI; pri--; )	2191	for (pri = NUMPRI; pri--; )
1776	while (pendingcnt [pri])	2192	while (pendingcnt [pri])
1777	{	2193	{
1778	ANPENDING *p = pendings [pri] + --pendingcnt [pri];	2194	ANPENDING *p = pendings [pri] + --pendingcnt [pri];
1779
1780	/*assert (("libev: non-pending watcher on pending list", p->w->pending));*/
1781	/* ^ this is no longer true, as pending_w could be here */
1782		2195
1783	p->w->pending = 0;	2196	p->w->pending = 0;
1784	EV_CB_INVOKE (p->w, p->events);	2197	EV_CB_INVOKE (p->w, p->events);
1785	EV_FREQUENT_CHECK;	2198	EV_FREQUENT_CHECK;
1786	}	2199	}
…		…
1843	EV_FREQUENT_CHECK;	2256	EV_FREQUENT_CHECK;
1844	feed_reverse (EV_A_ (W)w);	2257	feed_reverse (EV_A_ (W)w);
1845	}	2258	}
1846	while (timercnt && ANHE_at (timers [HEAP0]) < mn_now);	2259	while (timercnt && ANHE_at (timers [HEAP0]) < mn_now);
1847		2260
1848	feed_reverse_done (EV_A_ EV_TIMEOUT);	2261	feed_reverse_done (EV_A_ EV_TIMER);
1849	}	2262	}
1850	}	2263	}
1851		2264
1852	#if EV_PERIODIC_ENABLE	2265	#if EV_PERIODIC_ENABLE
		2266
		2267	static void noinline
		2268	periodic_recalc (EV_P_ ev_periodic *w)
		2269	{
		2270	ev_tstamp interval = w->interval > MIN_INTERVAL ? w->interval : MIN_INTERVAL;
		2271	ev_tstamp at = w->offset + interval * ev_floor ((ev_rt_now - w->offset) / interval);
		2272
		2273	/* the above almost always errs on the low side */
		2274	while (at <= ev_rt_now)
		2275	{
		2276	ev_tstamp nat = at + w->interval;
		2277
		2278	/* when resolution fails us, we use ev_rt_now */
		2279	if (expect_false (nat == at))
		2280	{
		2281	at = ev_rt_now;
		2282	break;
		2283	}
		2284
		2285	at = nat;
		2286	}
		2287
		2288	ev_at (w) = at;
		2289	}
		2290
1853	/* make periodics pending */	2291	/* make periodics pending */
1854	inline_size void	2292	inline_size void
1855	periodics_reify (EV_P)	2293	periodics_reify (EV_P)
1856	{	2294	{
1857	EV_FREQUENT_CHECK;	2295	EV_FREQUENT_CHECK;
…		…
1876	ANHE_at_cache (periodics [HEAP0]);	2314	ANHE_at_cache (periodics [HEAP0]);
1877	downheap (periodics, periodiccnt, HEAP0);	2315	downheap (periodics, periodiccnt, HEAP0);
1878	}	2316	}
1879	else if (w->interval)	2317	else if (w->interval)
1880	{	2318	{
1881	ev_at (w) = w->offset + ceil ((ev_rt_now - w->offset) / w->interval) * w->interval;	2319	periodic_recalc (EV_A_ w);
1882	/* if next trigger time is not sufficiently in the future, put it there */
1883	/* this might happen because of floating point inexactness */
1884	if (ev_at (w) - ev_rt_now < TIME_EPSILON)
1885	{
1886	ev_at (w) += w->interval;
1887
1888	/* if interval is unreasonably low we might still have a time in the past */
1889	/* so correct this. this will make the periodic very inexact, but the user */
1890	/* has effectively asked to get triggered more often than possible */
1891	if (ev_at (w) < ev_rt_now)
1892	ev_at (w) = ev_rt_now;
1893	}
1894
1895	ANHE_at_cache (periodics [HEAP0]);	2320	ANHE_at_cache (periodics [HEAP0]);
1896	downheap (periodics, periodiccnt, HEAP0);	2321	downheap (periodics, periodiccnt, HEAP0);
1897	}	2322	}
1898	else	2323	else
1899	ev_periodic_stop (EV_A_ w); /* nonrepeating: stop timer */	2324	ev_periodic_stop (EV_A_ w); /* nonrepeating: stop timer */
…		…
1906	feed_reverse_done (EV_A_ EV_PERIODIC);	2331	feed_reverse_done (EV_A_ EV_PERIODIC);
1907	}	2332	}
1908	}	2333	}
1909		2334
1910	/* simply recalculate all periodics */	2335	/* simply recalculate all periodics */
1911	/* TODO: maybe ensure that at leats one event happens when jumping forward? */	2336	/* TODO: maybe ensure that at least one event happens when jumping forward? */
1912	static void noinline	2337	static void noinline
1913	periodics_reschedule (EV_P)	2338	periodics_reschedule (EV_P)
1914	{	2339	{
1915	int i;	2340	int i;
1916		2341
…		…
1920	ev_periodic *w = (ev_periodic *)ANHE_w (periodics [i]);	2345	ev_periodic *w = (ev_periodic *)ANHE_w (periodics [i]);
1921		2346
1922	if (w->reschedule_cb)	2347	if (w->reschedule_cb)
1923	ev_at (w) = w->reschedule_cb (w, ev_rt_now);	2348	ev_at (w) = w->reschedule_cb (w, ev_rt_now);
1924	else if (w->interval)	2349	else if (w->interval)
1925	ev_at (w) = w->offset + ceil ((ev_rt_now - w->offset) / w->interval) * w->interval;	2350	periodic_recalc (EV_A_ w);
1926		2351
1927	ANHE_at_cache (periodics [i]);	2352	ANHE_at_cache (periodics [i]);
1928	}	2353	}
1929		2354
1930	reheap (periodics, periodiccnt);	2355	reheap (periodics, periodiccnt);
…		…
1944	ANHE_at_cache (*he);	2369	ANHE_at_cache (*he);
1945	}	2370	}
1946	}	2371	}
1947		2372
1948	/* fetch new monotonic and realtime times from the kernel */	2373	/* fetch new monotonic and realtime times from the kernel */
1949	/* also detetc if there was a timejump, and act accordingly */	2374	/* also detect if there was a timejump, and act accordingly */
1950	inline_speed void	2375	inline_speed void
1951	time_update (EV_P_ ev_tstamp max_block)	2376	time_update (EV_P_ ev_tstamp max_block)
1952	{	2377	{
1953	int i;
1954
1955	#if EV_USE_MONOTONIC	2378	#if EV_USE_MONOTONIC
1956	if (expect_true (have_monotonic))	2379	if (expect_true (have_monotonic))
1957	{	2380	{
		2381	int i;
1958	ev_tstamp odiff = rtmn_diff;	2382	ev_tstamp odiff = rtmn_diff;
1959		2383
1960	mn_now = get_clock ();	2384	mn_now = get_clock ();
1961		2385
1962	/* only fetch the realtime clock every 0.5*MIN_TIMEJUMP seconds */	2386	/* only fetch the realtime clock every 0.5*MIN_TIMEJUMP seconds */
…		…
1978	* doesn't hurt either as we only do this on time-jumps or	2402	* doesn't hurt either as we only do this on time-jumps or
1979	* in the unlikely event of having been preempted here.	2403	* in the unlikely event of having been preempted here.
1980	*/	2404	*/
1981	for (i = 4; --i; )	2405	for (i = 4; --i; )
1982	{	2406	{
		2407	ev_tstamp diff;
1983	rtmn_diff = ev_rt_now - mn_now;	2408	rtmn_diff = ev_rt_now - mn_now;
1984		2409
		2410	diff = odiff - rtmn_diff;
		2411
1985	if (expect_true (fabs (odiff - rtmn_diff) < MIN_TIMEJUMP))	2412	if (expect_true ((diff < 0. ? -diff : diff) < MIN_TIMEJUMP))
1986	return; /* all is well */	2413	return; /* all is well */
1987		2414
1988	ev_rt_now = ev_time ();	2415	ev_rt_now = ev_time ();
1989	mn_now = get_clock ();	2416	mn_now = get_clock ();
1990	now_floor = mn_now;	2417	now_floor = mn_now;
…		…
2012		2439
2013	mn_now = ev_rt_now;	2440	mn_now = ev_rt_now;
2014	}	2441	}
2015	}	2442	}
2016		2443
2017	static int loop_done;
2018
2019	void	2444	void
2020	ev_loop (EV_P_ int flags)	2445	ev_run (EV_P_ int flags)
2021	{	2446	{
		2447	#if EV_FEATURE_API
		2448	++loop_depth;
		2449	#endif
		2450
		2451	assert (("libev: ev_loop recursion during release detected", loop_done != EVBREAK_RECURSE));
		2452
2022	loop_done = EVUNLOOP_CANCEL;	2453	loop_done = EVBREAK_CANCEL;
2023		2454
2024	call_pending (EV_A); /* in case we recurse, ensure ordering stays nice and clean */	2455	EV_INVOKE_PENDING; /* in case we recurse, ensure ordering stays nice and clean */
2025		2456
2026	do	2457	do
2027	{	2458	{
2028	#if EV_VERIFY >= 2	2459	#if EV_VERIFY >= 2
2029	ev_loop_verify (EV_A);	2460	ev_verify (EV_A);
2030	#endif	2461	#endif
2031		2462
2032	#ifndef _WIN32	2463	#ifndef _WIN32
2033	if (expect_false (curpid)) /* penalise the forking check even more */	2464	if (expect_false (curpid)) /* penalise the forking check even more */
2034	if (expect_false (getpid () != curpid))	2465	if (expect_false (getpid () != curpid))
…		…
2042	/* we might have forked, so queue fork handlers */	2473	/* we might have forked, so queue fork handlers */
2043	if (expect_false (postfork))	2474	if (expect_false (postfork))
2044	if (forkcnt)	2475	if (forkcnt)
2045	{	2476	{
2046	queue_events (EV_A_ (W *)forks, forkcnt, EV_FORK);	2477	queue_events (EV_A_ (W *)forks, forkcnt, EV_FORK);
2047	call_pending (EV_A);	2478	EV_INVOKE_PENDING;
2048	}	2479	}
2049	#endif	2480	#endif
2050		2481
		2482	#if EV_PREPARE_ENABLE
2051	/* queue prepare watchers (and execute them) */	2483	/* queue prepare watchers (and execute them) */
2052	if (expect_false (preparecnt))	2484	if (expect_false (preparecnt))
2053	{	2485	{
2054	queue_events (EV_A_ (W *)prepares, preparecnt, EV_PREPARE);	2486	queue_events (EV_A_ (W *)prepares, preparecnt, EV_PREPARE);
2055	call_pending (EV_A);	2487	EV_INVOKE_PENDING;
2056	}	2488	}
		2489	#endif
		2490
		2491	if (expect_false (loop_done))
		2492	break;
2057		2493
2058	/* we might have forked, so reify kernel state if necessary */	2494	/* we might have forked, so reify kernel state if necessary */
2059	if (expect_false (postfork))	2495	if (expect_false (postfork))
2060	loop_fork (EV_A);	2496	loop_fork (EV_A);
2061		2497
…		…
2065	/* calculate blocking time */	2501	/* calculate blocking time */
2066	{	2502	{
2067	ev_tstamp waittime = 0.;	2503	ev_tstamp waittime = 0.;
2068	ev_tstamp sleeptime = 0.;	2504	ev_tstamp sleeptime = 0.;
2069		2505
		2506	/* remember old timestamp for io_blocktime calculation */
		2507	ev_tstamp prev_mn_now = mn_now;
		2508
		2509	/* update time to cancel out callback processing overhead */
		2510	time_update (EV_A_ 1e100);
		2511
2070	if (expect_true (!(flags & EVLOOP_NONBLOCK || idleall || !activecnt)))	2512	if (expect_true (!(flags & EVRUN_NOWAIT || idleall || !activecnt)))
2071	{	2513	{
2072	/* update time to cancel out callback processing overhead */
2073	time_update (EV_A_ 1e100);
2074
2075	waittime = MAX_BLOCKTIME;	2514	waittime = MAX_BLOCKTIME;
2076		2515
2077	if (timercnt)	2516	if (timercnt)
2078	{	2517	{
2079	ev_tstamp to = ANHE_at (timers [HEAP0]) - mn_now + backend_fudge;	2518	ev_tstamp to = ANHE_at (timers [HEAP0]) - mn_now + backend_fudge;
…		…
2086	ev_tstamp to = ANHE_at (periodics [HEAP0]) - ev_rt_now + backend_fudge;	2525	ev_tstamp to = ANHE_at (periodics [HEAP0]) - ev_rt_now + backend_fudge;
2087	if (waittime > to) waittime = to;	2526	if (waittime > to) waittime = to;
2088	}	2527	}
2089	#endif	2528	#endif
2090		2529
		2530	/* don't let timeouts decrease the waittime below timeout_blocktime */
2091	if (expect_false (waittime < timeout_blocktime))	2531	if (expect_false (waittime < timeout_blocktime))
2092	waittime = timeout_blocktime;	2532	waittime = timeout_blocktime;
2093		2533
2094	sleeptime = waittime - backend_fudge;	2534	/* extra check because io_blocktime is commonly 0 */
2095
2096	if (expect_true (sleeptime > io_blocktime))	2535	if (expect_false (io_blocktime))
2097	sleeptime = io_blocktime;
2098
2099	if (sleeptime)
2100	{	2536	{
		2537	sleeptime = io_blocktime - (mn_now - prev_mn_now);
		2538
		2539	if (sleeptime > waittime - backend_fudge)
		2540	sleeptime = waittime - backend_fudge;
		2541
		2542	if (expect_true (sleeptime > 0.))
		2543	{
2101	ev_sleep (sleeptime);	2544	ev_sleep (sleeptime);
2102	waittime -= sleeptime;	2545	waittime -= sleeptime;
		2546	}
2103	}	2547	}
2104	}	2548	}
2105		2549
		2550	#if EV_FEATURE_API
2106	++loop_count;	2551	++loop_count;
		2552	#endif
		2553	assert ((loop_done = EVBREAK_RECURSE, 1)); /* assert for side effect */
2107	backend_poll (EV_A_ waittime);	2554	backend_poll (EV_A_ waittime);
		2555	assert ((loop_done = EVBREAK_CANCEL, 1)); /* assert for side effect */
2108		2556
2109	/* update ev_rt_now, do magic */	2557	/* update ev_rt_now, do magic */
2110	time_update (EV_A_ waittime + sleeptime);	2558	time_update (EV_A_ waittime + sleeptime);
2111	}	2559	}
2112		2560
…		…
2119	#if EV_IDLE_ENABLE	2567	#if EV_IDLE_ENABLE
2120	/* queue idle watchers unless other events are pending */	2568	/* queue idle watchers unless other events are pending */
2121	idle_reify (EV_A);	2569	idle_reify (EV_A);
2122	#endif	2570	#endif
2123		2571
		2572	#if EV_CHECK_ENABLE
2124	/* queue check watchers, to be executed first */	2573	/* queue check watchers, to be executed first */
2125	if (expect_false (checkcnt))	2574	if (expect_false (checkcnt))
2126	queue_events (EV_A_ (W *)checks, checkcnt, EV_CHECK);	2575	queue_events (EV_A_ (W *)checks, checkcnt, EV_CHECK);
		2576	#endif
2127		2577
2128	call_pending (EV_A);	2578	EV_INVOKE_PENDING;
2129	}	2579	}
2130	while (expect_true (	2580	while (expect_true (
2131	activecnt	2581	activecnt
2132	&& !loop_done	2582	&& !loop_done
2133	&& !(flags & (EVLOOP_ONESHOT | EVLOOP_NONBLOCK))	2583	&& !(flags & (EVRUN_ONCE | EVRUN_NOWAIT))
2134	));	2584	));
2135		2585
2136	if (loop_done == EVUNLOOP_ONE)	2586	if (loop_done == EVBREAK_ONE)
2137	loop_done = EVUNLOOP_CANCEL;	2587	loop_done = EVBREAK_CANCEL;
2138	}
2139		2588
		2589	#if EV_FEATURE_API
		2590	--loop_depth;
		2591	#endif
		2592	}
		2593
2140	void	2594	void
2141	ev_unloop (EV_P_ int how)	2595	ev_break (EV_P_ int how)
2142	{	2596	{
2143	loop_done = how;	2597	loop_done = how;
2144	}	2598	}
2145		2599
2146	void	2600	void
…		…
2193	inline_size void	2647	inline_size void
2194	wlist_del (WL *head, WL elem)	2648	wlist_del (WL *head, WL elem)
2195	{	2649	{
2196	while (*head)	2650	while (*head)
2197	{	2651	{
2198	if (*head == elem)	2652	if (expect_true (*head == elem))
2199	{	2653	{
2200	*head = elem->next;	2654	*head = elem->next;
2201	return;	2655	break;
2202	}	2656	}
2203		2657
2204	head = &(*head)->next;	2658	head = &(*head)->next;
2205	}	2659	}
2206	}	2660	}
…		…
2234	}	2688	}
2235		2689
2236	inline_size void	2690	inline_size void
2237	pri_adjust (EV_P_ W w)	2691	pri_adjust (EV_P_ W w)
2238	{	2692	{
2239	int pri = w->priority;	2693	int pri = ev_priority (w);
2240	pri = pri < EV_MINPRI ? EV_MINPRI : pri;	2694	pri = pri < EV_MINPRI ? EV_MINPRI : pri;
2241	pri = pri > EV_MAXPRI ? EV_MAXPRI : pri;	2695	pri = pri > EV_MAXPRI ? EV_MAXPRI : pri;
2242	w->priority = pri;	2696	ev_set_priority (w, pri);
2243	}	2697	}
2244		2698
2245	inline_speed void	2699	inline_speed void
2246	ev_start (EV_P_ W w, int active)	2700	ev_start (EV_P_ W w, int active)
2247	{	2701	{
…		…
2266		2720
2267	if (expect_false (ev_is_active (w)))	2721	if (expect_false (ev_is_active (w)))
2268	return;	2722	return;
2269		2723
2270	assert (("libev: ev_io_start called with negative fd", fd >= 0));	2724	assert (("libev: ev_io_start called with negative fd", fd >= 0));
2271	assert (("libev: ev_io start called with illegal event mask", !(w->events & ~(EV__IOFDSET | EV_READ | EV_WRITE))));	2725	assert (("libev: ev_io_start called with illegal event mask", !(w->events & ~(EV__IOFDSET | EV_READ | EV_WRITE))));
2272		2726
2273	EV_FREQUENT_CHECK;	2727	EV_FREQUENT_CHECK;
2274		2728
2275	ev_start (EV_A_ (W)w, 1);	2729	ev_start (EV_A_ (W)w, 1);
2276	array_needsize (ANFD, anfds, anfdmax, fd + 1, array_init_zero);	2730	array_needsize (ANFD, anfds, anfdmax, fd + 1, array_init_zero);
2277	wlist_add (&anfds[fd].head, (WL)w);	2731	wlist_add (&anfds[fd].head, (WL)w);
2278		2732
2279	fd_change (EV_A_ fd, w->events & EV__IOFDSET | 1);	2733	fd_change (EV_A_ fd, w->events & EV__IOFDSET | EV_ANFD_REIFY);
2280	w->events &= ~EV__IOFDSET;	2734	w->events &= ~EV__IOFDSET;
2281		2735
2282	EV_FREQUENT_CHECK;	2736	EV_FREQUENT_CHECK;
2283	}	2737	}
2284		2738
…		…
2294	EV_FREQUENT_CHECK;	2748	EV_FREQUENT_CHECK;
2295		2749
2296	wlist_del (&anfds[w->fd].head, (WL)w);	2750	wlist_del (&anfds[w->fd].head, (WL)w);
2297	ev_stop (EV_A_ (W)w);	2751	ev_stop (EV_A_ (W)w);
2298		2752
2299	fd_change (EV_A_ w->fd, 1);	2753	fd_change (EV_A_ w->fd, EV_ANFD_REIFY);
2300		2754
2301	EV_FREQUENT_CHECK;	2755	EV_FREQUENT_CHECK;
2302	}	2756	}
2303		2757
2304	void noinline	2758	void noinline
…		…
2346	timers [active] = timers [timercnt + HEAP0];	2800	timers [active] = timers [timercnt + HEAP0];
2347	adjustheap (timers, timercnt, active);	2801	adjustheap (timers, timercnt, active);
2348	}	2802	}
2349	}	2803	}
2350		2804
2351	EV_FREQUENT_CHECK;
2352
2353	ev_at (w) -= mn_now;	2805	ev_at (w) -= mn_now;
2354		2806
2355	ev_stop (EV_A_ (W)w);	2807	ev_stop (EV_A_ (W)w);
		2808
		2809	EV_FREQUENT_CHECK;
2356	}	2810	}
2357		2811
2358	void noinline	2812	void noinline
2359	ev_timer_again (EV_P_ ev_timer *w)	2813	ev_timer_again (EV_P_ ev_timer *w)
2360	{	2814	{
…		…
2378	}	2832	}
2379		2833
2380	EV_FREQUENT_CHECK;	2834	EV_FREQUENT_CHECK;
2381	}	2835	}
2382		2836
		2837	ev_tstamp
		2838	ev_timer_remaining (EV_P_ ev_timer *w)
		2839	{
		2840	return ev_at (w) - (ev_is_active (w) ? mn_now : 0.);
		2841	}
		2842
2383	#if EV_PERIODIC_ENABLE	2843	#if EV_PERIODIC_ENABLE
2384	void noinline	2844	void noinline
2385	ev_periodic_start (EV_P_ ev_periodic *w)	2845	ev_periodic_start (EV_P_ ev_periodic *w)
2386	{	2846	{
2387	if (expect_false (ev_is_active (w)))	2847	if (expect_false (ev_is_active (w)))
…		…
2390	if (w->reschedule_cb)	2850	if (w->reschedule_cb)
2391	ev_at (w) = w->reschedule_cb (w, ev_rt_now);	2851	ev_at (w) = w->reschedule_cb (w, ev_rt_now);
2392	else if (w->interval)	2852	else if (w->interval)
2393	{	2853	{
2394	assert (("libev: ev_periodic_start called with negative interval value", w->interval >= 0.));	2854	assert (("libev: ev_periodic_start called with negative interval value", w->interval >= 0.));
2395	/* this formula differs from the one in periodic_reify because we do not always round up */	2855	periodic_recalc (EV_A_ w);
2396	ev_at (w) = w->offset + ceil ((ev_rt_now - w->offset) / w->interval) * w->interval;
2397	}	2856	}
2398	else	2857	else
2399	ev_at (w) = w->offset;	2858	ev_at (w) = w->offset;
2400		2859
2401	EV_FREQUENT_CHECK;	2860	EV_FREQUENT_CHECK;
…		…
2433	periodics [active] = periodics [periodiccnt + HEAP0];	2892	periodics [active] = periodics [periodiccnt + HEAP0];
2434	adjustheap (periodics, periodiccnt, active);	2893	adjustheap (periodics, periodiccnt, active);
2435	}	2894	}
2436	}	2895	}
2437		2896
2438	EV_FREQUENT_CHECK;
2439
2440	ev_stop (EV_A_ (W)w);	2897	ev_stop (EV_A_ (W)w);
		2898
		2899	EV_FREQUENT_CHECK;
2441	}	2900	}
2442		2901
2443	void noinline	2902	void noinline
2444	ev_periodic_again (EV_P_ ev_periodic *w)	2903	ev_periodic_again (EV_P_ ev_periodic *w)
2445	{	2904	{
…		…
2451		2910
2452	#ifndef SA_RESTART	2911	#ifndef SA_RESTART
2453	# define SA_RESTART 0	2912	# define SA_RESTART 0
2454	#endif	2913	#endif
2455		2914
		2915	#if EV_SIGNAL_ENABLE
		2916
2456	void noinline	2917	void noinline
2457	ev_signal_start (EV_P_ ev_signal *w)	2918	ev_signal_start (EV_P_ ev_signal *w)
2458	{	2919	{
2459	#if EV_MULTIPLICITY
2460	assert (("libev: signal watchers are only supported in the default loop", loop == ev_default_loop_ptr));
2461	#endif
2462	if (expect_false (ev_is_active (w)))	2920	if (expect_false (ev_is_active (w)))
2463	return;	2921	return;
2464		2922
2465	assert (("libev: ev_signal_start called with illegal signal number", w->signum > 0));	2923	assert (("libev: ev_signal_start called with illegal signal number", w->signum > 0 && w->signum < EV_NSIG));
2466		2924
2467	evpipe_init (EV_A);	2925	#if EV_MULTIPLICITY
		2926	assert (("libev: a signal must not be attached to two different loops",
		2927	!signals [w->signum - 1].loop || signals [w->signum - 1].loop == loop));
2468		2928
2469	EV_FREQUENT_CHECK;	2929	signals [w->signum - 1].loop = EV_A;
		2930	#endif
2470		2931
		2932	EV_FREQUENT_CHECK;
		2933
		2934	#if EV_USE_SIGNALFD
		2935	if (sigfd == -2)
2471	{	2936	{
2472	#ifndef _WIN32	2937	sigfd = signalfd (-1, &sigfd_set, SFD_NONBLOCK | SFD_CLOEXEC);
2473	sigset_t full, prev;	2938	if (sigfd < 0 && errno == EINVAL)
2474	sigfillset (&full);	2939	sigfd = signalfd (-1, &sigfd_set, 0); /* retry without flags */
2475	sigprocmask (SIG_SETMASK, &full, &prev);
2476	#endif
2477		2940
2478	array_needsize (ANSIG, signals, signalmax, w->signum, array_init_zero);	2941	if (sigfd >= 0)
		2942	{
		2943	fd_intern (sigfd); /* doing it twice will not hurt */
2479		2944
2480	#ifndef _WIN32	2945	sigemptyset (&sigfd_set);
2481	sigprocmask (SIG_SETMASK, &prev, 0);	2946
2482	#endif	2947	ev_io_init (&sigfd_w, sigfdcb, sigfd, EV_READ);
		2948	ev_set_priority (&sigfd_w, EV_MAXPRI);
		2949	ev_io_start (EV_A_ &sigfd_w);
		2950	ev_unref (EV_A); /* signalfd watcher should not keep loop alive */
		2951	}
2483	}	2952	}
		2953
		2954	if (sigfd >= 0)
		2955	{
		2956	/* TODO: check .head */
		2957	sigaddset (&sigfd_set, w->signum);
		2958	sigprocmask (SIG_BLOCK, &sigfd_set, 0);
		2959
		2960	signalfd (sigfd, &sigfd_set, 0);
		2961	}
		2962	#endif
2484		2963
2485	ev_start (EV_A_ (W)w, 1);	2964	ev_start (EV_A_ (W)w, 1);
2486	wlist_add (&signals [w->signum - 1].head, (WL)w);	2965	wlist_add (&signals [w->signum - 1].head, (WL)w);
2487		2966
2488	if (!((WL)w)->next)	2967	if (!((WL)w)->next)
		2968	# if EV_USE_SIGNALFD
		2969	if (sigfd < 0) /*TODO*/
		2970	# endif
2489	{	2971	{
2490	#if _WIN32	2972	# ifdef _WIN32
		2973	evpipe_init (EV_A);
		2974
2491	signal (w->signum, ev_sighandler);	2975	signal (w->signum, ev_sighandler);
2492	#else	2976	# else
2493	struct sigaction sa;	2977	struct sigaction sa;
		2978
		2979	evpipe_init (EV_A);
		2980
2494	sa.sa_handler = ev_sighandler;	2981	sa.sa_handler = ev_sighandler;
2495	sigfillset (&sa.sa_mask);	2982	sigfillset (&sa.sa_mask);
2496	sa.sa_flags = SA_RESTART; /* if restarting works we save one iteration */	2983	sa.sa_flags = SA_RESTART; /* if restarting works we save one iteration */
2497	sigaction (w->signum, &sa, 0);	2984	sigaction (w->signum, &sa, 0);
		2985
		2986	if (origflags & EVFLAG_NOSIGMASK)
		2987	{
		2988	sigemptyset (&sa.sa_mask);
		2989	sigaddset (&sa.sa_mask, w->signum);
		2990	sigprocmask (SIG_UNBLOCK, &sa.sa_mask, 0);
		2991	}
2498	#endif	2992	#endif
2499	}	2993	}
2500		2994
2501	EV_FREQUENT_CHECK;	2995	EV_FREQUENT_CHECK;
2502	}	2996	}
2503		2997
2504	void noinline	2998	void noinline
…		…
2512		3006
2513	wlist_del (&signals [w->signum - 1].head, (WL)w);	3007	wlist_del (&signals [w->signum - 1].head, (WL)w);
2514	ev_stop (EV_A_ (W)w);	3008	ev_stop (EV_A_ (W)w);
2515		3009
2516	if (!signals [w->signum - 1].head)	3010	if (!signals [w->signum - 1].head)
		3011	{
		3012	#if EV_MULTIPLICITY
		3013	signals [w->signum - 1].loop = 0; /* unattach from signal */
		3014	#endif
		3015	#if EV_USE_SIGNALFD
		3016	if (sigfd >= 0)
		3017	{
		3018	sigset_t ss;
		3019
		3020	sigemptyset (&ss);
		3021	sigaddset (&ss, w->signum);
		3022	sigdelset (&sigfd_set, w->signum);
		3023
		3024	signalfd (sigfd, &sigfd_set, 0);
		3025	sigprocmask (SIG_UNBLOCK, &ss, 0);
		3026	}
		3027	else
		3028	#endif
2517	signal (w->signum, SIG_DFL);	3029	signal (w->signum, SIG_DFL);
		3030	}
2518		3031
2519	EV_FREQUENT_CHECK;	3032	EV_FREQUENT_CHECK;
2520	}	3033	}
		3034
		3035	#endif
		3036
		3037	#if EV_CHILD_ENABLE
2521		3038
2522	void	3039	void
2523	ev_child_start (EV_P_ ev_child *w)	3040	ev_child_start (EV_P_ ev_child *w)
2524	{	3041	{
2525	#if EV_MULTIPLICITY	3042	#if EV_MULTIPLICITY
…		…
2529	return;	3046	return;
2530		3047
2531	EV_FREQUENT_CHECK;	3048	EV_FREQUENT_CHECK;
2532		3049
2533	ev_start (EV_A_ (W)w, 1);	3050	ev_start (EV_A_ (W)w, 1);
2534	wlist_add (&childs [w->pid & (EV_PID_HASHSIZE - 1)], (WL)w);	3051	wlist_add (&childs [w->pid & ((EV_PID_HASHSIZE) - 1)], (WL)w);
2535		3052
2536	EV_FREQUENT_CHECK;	3053	EV_FREQUENT_CHECK;
2537	}	3054	}
2538		3055
2539	void	3056	void
…		…
2543	if (expect_false (!ev_is_active (w)))	3060	if (expect_false (!ev_is_active (w)))
2544	return;	3061	return;
2545		3062
2546	EV_FREQUENT_CHECK;	3063	EV_FREQUENT_CHECK;
2547		3064
2548	wlist_del (&childs [w->pid & (EV_PID_HASHSIZE - 1)], (WL)w);	3065	wlist_del (&childs [w->pid & ((EV_PID_HASHSIZE) - 1)], (WL)w);
2549	ev_stop (EV_A_ (W)w);	3066	ev_stop (EV_A_ (W)w);
2550		3067
2551	EV_FREQUENT_CHECK;	3068	EV_FREQUENT_CHECK;
2552	}	3069	}
		3070
		3071	#endif
2553		3072
2554	#if EV_STAT_ENABLE	3073	#if EV_STAT_ENABLE
2555		3074
2556	# ifdef _WIN32	3075	# ifdef _WIN32
2557	# undef lstat	3076	# undef lstat
…		…
2563	#define MIN_STAT_INTERVAL 0.1074891	3082	#define MIN_STAT_INTERVAL 0.1074891
2564		3083
2565	static void noinline stat_timer_cb (EV_P_ ev_timer *w_, int revents);	3084	static void noinline stat_timer_cb (EV_P_ ev_timer *w_, int revents);
2566		3085
2567	#if EV_USE_INOTIFY	3086	#if EV_USE_INOTIFY
2568	# define EV_INOTIFY_BUFSIZE 8192	3087
		3088	/* the * 2 is to allow for alignment padding, which for some reason is >> 8 */
		3089	# define EV_INOTIFY_BUFSIZE (sizeof (struct inotify_event) * 2 + NAME_MAX)
2569		3090
2570	static void noinline	3091	static void noinline
2571	infy_add (EV_P_ ev_stat *w)	3092	infy_add (EV_P_ ev_stat *w)
2572	{	3093	{
2573	w->wd = inotify_add_watch (fs_fd, w->path, IN_ATTRIB | IN_DELETE_SELF | IN_MOVE_SELF | IN_MODIFY | IN_DONT_FOLLOW | IN_MASK_ADD);	3094	w->wd = inotify_add_watch (fs_fd, w->path, IN_ATTRIB | IN_DELETE_SELF | IN_MOVE_SELF | IN_MODIFY | IN_DONT_FOLLOW | IN_MASK_ADD);
2574		3095
2575	if (w->wd < 0)	3096	if (w->wd >= 0)
		3097	{
		3098	struct statfs sfs;
		3099
		3100	/* now local changes will be tracked by inotify, but remote changes won't */
		3101	/* unless the filesystem is known to be local, we therefore still poll */
		3102	/* also do poll on <2.6.25, but with normal frequency */
		3103
		3104	if (!fs_2625)
		3105	w->timer.repeat = w->interval ? w->interval : DEF_STAT_INTERVAL;
		3106	else if (!statfs (w->path, &sfs)
		3107	&& (sfs.f_type == 0x1373 /* devfs */
		3108	|| sfs.f_type == 0xEF53 /* ext2/3 */
		3109	|| sfs.f_type == 0x3153464a /* jfs */
		3110	|| sfs.f_type == 0x52654973 /* reiser3 */
		3111	|| sfs.f_type == 0x01021994 /* tempfs */
		3112	|| sfs.f_type == 0x58465342 /* xfs */))
		3113	w->timer.repeat = 0.; /* filesystem is local, kernel new enough */
		3114	else
		3115	w->timer.repeat = w->interval ? w->interval : NFS_STAT_INTERVAL; /* remote, use reduced frequency */
2576	{	3116	}
		3117	else
		3118	{
		3119	/* can't use inotify, continue to stat */
2577	w->timer.repeat = w->interval ? w->interval : DEF_STAT_INTERVAL;	3120	w->timer.repeat = w->interval ? w->interval : DEF_STAT_INTERVAL;
2578	ev_timer_again (EV_A_ &w->timer); /* this is not race-free, so we still need to recheck periodically */
2579		3121
2580	/* monitor some parent directory for speedup hints */	3122	/* if path is not there, monitor some parent directory for speedup hints */
2581	/* note that exceeding the hardcoded path limit is not a correctness issue, */	3123	/* note that exceeding the hardcoded path limit is not a correctness issue, */
2582	/* but an efficiency issue only */	3124	/* but an efficiency issue only */
2583	if ((errno == ENOENT || errno == EACCES) && strlen (w->path) < 4096)	3125	if ((errno == ENOENT || errno == EACCES) && strlen (w->path) < 4096)
2584	{	3126	{
2585	char path [4096];	3127	char path [4096];
…		…
2595	if (!pend || pend == path)	3137	if (!pend || pend == path)
2596	break;	3138	break;
2597		3139
2598	*pend = 0;	3140	*pend = 0;
2599	w->wd = inotify_add_watch (fs_fd, path, mask);	3141	w->wd = inotify_add_watch (fs_fd, path, mask);
2600	}	3142	}
2601	while (w->wd < 0 && (errno == ENOENT || errno == EACCES));	3143	while (w->wd < 0 && (errno == ENOENT || errno == EACCES));
2602	}	3144	}
2603	}	3145	}
2604		3146
2605	if (w->wd >= 0)	3147	if (w->wd >= 0)
2606	{
2607	wlist_add (&fs_hash [w->wd & (EV_INOTIFY_HASHSIZE - 1)].head, (WL)w);	3148	wlist_add (&fs_hash [w->wd & ((EV_INOTIFY_HASHSIZE) - 1)].head, (WL)w);
2608		3149
2609	/* now local changes will be tracked by inotify, but remote changes won't */	3150	/* now re-arm timer, if required */
2610	/* unless the filesystem it known to be local, we therefore still poll */	3151	if (ev_is_active (&w->timer)) ev_ref (EV_A);
2611	/* also do poll on <2.6.25, but with normal frequency */
2612	struct statfs sfs;
2613
2614	if (fs_2625 && !statfs (w->path, &sfs))
2615	if (sfs.f_type == 0x1373 /* devfs */
2616	|| sfs.f_type == 0xEF53 /* ext2/3 */
2617	|| sfs.f_type == 0x3153464a /* jfs */
2618	|| sfs.f_type == 0x52654973 /* reiser3 */
2619	|| sfs.f_type == 0x01021994 /* tempfs */
2620	|| sfs.f_type == 0x58465342 /* xfs */)
2621	return;
2622
2623	w->timer.repeat = w->interval ? w->interval : fs_2625 ? NFS_STAT_INTERVAL : DEF_STAT_INTERVAL;
2624	ev_timer_again (EV_A_ &w->timer);	3152	ev_timer_again (EV_A_ &w->timer);
2625	}	3153	if (ev_is_active (&w->timer)) ev_unref (EV_A);
2626	}	3154	}
2627		3155
2628	static void noinline	3156	static void noinline
2629	infy_del (EV_P_ ev_stat *w)	3157	infy_del (EV_P_ ev_stat *w)
2630	{	3158	{
…		…
2633		3161
2634	if (wd < 0)	3162	if (wd < 0)
2635	return;	3163	return;
2636		3164
2637	w->wd = -2;	3165	w->wd = -2;
2638	slot = wd & (EV_INOTIFY_HASHSIZE - 1);	3166	slot = wd & ((EV_INOTIFY_HASHSIZE) - 1);
2639	wlist_del (&fs_hash [slot].head, (WL)w);	3167	wlist_del (&fs_hash [slot].head, (WL)w);
2640		3168
2641	/* remove this watcher, if others are watching it, they will rearm */	3169	/* remove this watcher, if others are watching it, they will rearm */
2642	inotify_rm_watch (fs_fd, wd);	3170	inotify_rm_watch (fs_fd, wd);
2643	}	3171	}
…		…
2645	static void noinline	3173	static void noinline
2646	infy_wd (EV_P_ int slot, int wd, struct inotify_event *ev)	3174	infy_wd (EV_P_ int slot, int wd, struct inotify_event *ev)
2647	{	3175	{
2648	if (slot < 0)	3176	if (slot < 0)
2649	/* overflow, need to check for all hash slots */	3177	/* overflow, need to check for all hash slots */
2650	for (slot = 0; slot < EV_INOTIFY_HASHSIZE; ++slot)	3178	for (slot = 0; slot < (EV_INOTIFY_HASHSIZE); ++slot)
2651	infy_wd (EV_A_ slot, wd, ev);	3179	infy_wd (EV_A_ slot, wd, ev);
2652	else	3180	else
2653	{	3181	{
2654	WL w_;	3182	WL w_;
2655		3183
2656	for (w_ = fs_hash [slot & (EV_INOTIFY_HASHSIZE - 1)].head; w_; )	3184	for (w_ = fs_hash [slot & ((EV_INOTIFY_HASHSIZE) - 1)].head; w_; )
2657	{	3185	{
2658	ev_stat *w = (ev_stat *)w_;	3186	ev_stat *w = (ev_stat *)w_;
2659	w_ = w_->next; /* lets us remove this watcher and all before it */	3187	w_ = w_->next; /* lets us remove this watcher and all before it */
2660		3188
2661	if (w->wd == wd || wd == -1)	3189	if (w->wd == wd || wd == -1)
2662	{	3190	{
2663	if (ev->mask & (IN_IGNORED | IN_UNMOUNT | IN_DELETE_SELF))	3191	if (ev->mask & (IN_IGNORED | IN_UNMOUNT | IN_DELETE_SELF))
2664	{	3192	{
2665	wlist_del (&fs_hash [slot & (EV_INOTIFY_HASHSIZE - 1)].head, (WL)w);	3193	wlist_del (&fs_hash [slot & ((EV_INOTIFY_HASHSIZE) - 1)].head, (WL)w);
2666	w->wd = -1;	3194	w->wd = -1;
2667	infy_add (EV_A_ w); /* re-add, no matter what */	3195	infy_add (EV_A_ w); /* re-add, no matter what */
2668	}	3196	}
2669		3197
2670	stat_timer_cb (EV_A_ &w->timer, 0);	3198	stat_timer_cb (EV_A_ &w->timer, 0);
…		…
2675		3203
2676	static void	3204	static void
2677	infy_cb (EV_P_ ev_io *w, int revents)	3205	infy_cb (EV_P_ ev_io *w, int revents)
2678	{	3206	{
2679	char buf [EV_INOTIFY_BUFSIZE];	3207	char buf [EV_INOTIFY_BUFSIZE];
2680	struct inotify_event *ev = (struct inotify_event *)buf;
2681	int ofs;	3208	int ofs;
2682	int len = read (fs_fd, buf, sizeof (buf));	3209	int len = read (fs_fd, buf, sizeof (buf));
2683		3210
2684	for (ofs = 0; ofs < len; ofs += sizeof (struct inotify_event) + ev->len)	3211	for (ofs = 0; ofs < len; )
		3212	{
		3213	struct inotify_event *ev = (struct inotify_event *)(buf + ofs);
2685	infy_wd (EV_A_ ev->wd, ev->wd, ev);	3214	infy_wd (EV_A_ ev->wd, ev->wd, ev);
		3215	ofs += sizeof (struct inotify_event) + ev->len;
		3216	}
2686	}	3217	}
2687		3218
2688	inline_size void	3219	inline_size void
2689	check_2625 (EV_P)	3220	ev_check_2625 (EV_P)
2690	{	3221	{
2691	/* kernels < 2.6.25 are borked	3222	/* kernels < 2.6.25 are borked
2692	* http://www.ussg.indiana.edu/hypermail/linux/kernel/0711.3/1208.html	3223	* http://www.ussg.indiana.edu/hypermail/linux/kernel/0711.3/1208.html
2693	*/	3224	*/
2694	struct utsname buf;	3225	if (ev_linux_version () < 0x020619)
2695	int major, minor, micro;
2696
2697	if (uname (&buf))
2698	return;	3226	return;
2699		3227
2700	if (sscanf (buf.release, "%d.%d.%d", &major, &minor, &micro) != 3)
2701	return;
2702
2703	if (major < 2
2704	|| (major == 2 && minor < 6)
2705	|| (major == 2 && minor == 6 && micro < 25))
2706	return;
2707
2708	fs_2625 = 1;	3228	fs_2625 = 1;
		3229	}
		3230
		3231	inline_size int
		3232	infy_newfd (void)
		3233	{
		3234	#if defined (IN_CLOEXEC) && defined (IN_NONBLOCK)
		3235	int fd = inotify_init1 (IN_CLOEXEC | IN_NONBLOCK);
		3236	if (fd >= 0)
		3237	return fd;
		3238	#endif
		3239	return inotify_init ();
2709	}	3240	}
2710		3241
2711	inline_size void	3242	inline_size void
2712	infy_init (EV_P)	3243	infy_init (EV_P)
2713	{	3244	{
2714	if (fs_fd != -2)	3245	if (fs_fd != -2)
2715	return;	3246	return;
2716		3247
2717	fs_fd = -1;	3248	fs_fd = -1;
2718		3249
2719	check_2625 (EV_A);	3250	ev_check_2625 (EV_A);
2720		3251
2721	fs_fd = inotify_init ();	3252	fs_fd = infy_newfd ();
2722		3253
2723	if (fs_fd >= 0)	3254	if (fs_fd >= 0)
2724	{	3255	{
		3256	fd_intern (fs_fd);
2725	ev_io_init (&fs_w, infy_cb, fs_fd, EV_READ);	3257	ev_io_init (&fs_w, infy_cb, fs_fd, EV_READ);
2726	ev_set_priority (&fs_w, EV_MAXPRI);	3258	ev_set_priority (&fs_w, EV_MAXPRI);
2727	ev_io_start (EV_A_ &fs_w);	3259	ev_io_start (EV_A_ &fs_w);
		3260	ev_unref (EV_A);
2728	}	3261	}
2729	}	3262	}
2730		3263
2731	inline_size void	3264	inline_size void
2732	infy_fork (EV_P)	3265	infy_fork (EV_P)
…		…
2734	int slot;	3267	int slot;
2735		3268
2736	if (fs_fd < 0)	3269	if (fs_fd < 0)
2737	return;	3270	return;
2738		3271
		3272	ev_ref (EV_A);
		3273	ev_io_stop (EV_A_ &fs_w);
2739	close (fs_fd);	3274	close (fs_fd);
2740	fs_fd = inotify_init ();	3275	fs_fd = infy_newfd ();
2741		3276
		3277	if (fs_fd >= 0)
		3278	{
		3279	fd_intern (fs_fd);
		3280	ev_io_set (&fs_w, fs_fd, EV_READ);
		3281	ev_io_start (EV_A_ &fs_w);
		3282	ev_unref (EV_A);
		3283	}
		3284
2742	for (slot = 0; slot < EV_INOTIFY_HASHSIZE; ++slot)	3285	for (slot = 0; slot < (EV_INOTIFY_HASHSIZE); ++slot)
2743	{	3286	{
2744	WL w_ = fs_hash [slot].head;	3287	WL w_ = fs_hash [slot].head;
2745	fs_hash [slot].head = 0;	3288	fs_hash [slot].head = 0;
2746		3289
2747	while (w_)	3290	while (w_)
…		…
2752	w->wd = -1;	3295	w->wd = -1;
2753		3296
2754	if (fs_fd >= 0)	3297	if (fs_fd >= 0)
2755	infy_add (EV_A_ w); /* re-add, no matter what */	3298	infy_add (EV_A_ w); /* re-add, no matter what */
2756	else	3299	else
		3300	{
		3301	w->timer.repeat = w->interval ? w->interval : DEF_STAT_INTERVAL;
		3302	if (ev_is_active (&w->timer)) ev_ref (EV_A);
2757	ev_timer_again (EV_A_ &w->timer);	3303	ev_timer_again (EV_A_ &w->timer);
		3304	if (ev_is_active (&w->timer)) ev_unref (EV_A);
		3305	}
2758	}	3306	}
2759	}	3307	}
2760	}	3308	}
2761		3309
2762	#endif	3310	#endif
…		…
2779	static void noinline	3327	static void noinline
2780	stat_timer_cb (EV_P_ ev_timer *w_, int revents)	3328	stat_timer_cb (EV_P_ ev_timer *w_, int revents)
2781	{	3329	{
2782	ev_stat *w = (ev_stat *)(((char *)w_) - offsetof (ev_stat, timer));	3330	ev_stat *w = (ev_stat *)(((char *)w_) - offsetof (ev_stat, timer));
2783		3331
2784	/* we copy this here each the time so that */	3332	ev_statdata prev = w->attr;
2785	/* prev has the old value when the callback gets invoked */
2786	w->prev = w->attr;
2787	ev_stat_stat (EV_A_ w);	3333	ev_stat_stat (EV_A_ w);
2788		3334
2789	/* memcmp doesn't work on netbsd, they.... do stuff to their struct stat */	3335	/* memcmp doesn't work on netbsd, they.... do stuff to their struct stat */
2790	if (	3336	if (
2791	w->prev.st_dev != w->attr.st_dev	3337	prev.st_dev != w->attr.st_dev
2792	|| w->prev.st_ino != w->attr.st_ino	3338	|| prev.st_ino != w->attr.st_ino
2793	|| w->prev.st_mode != w->attr.st_mode	3339	|| prev.st_mode != w->attr.st_mode
2794	|| w->prev.st_nlink != w->attr.st_nlink	3340	|| prev.st_nlink != w->attr.st_nlink
2795	|| w->prev.st_uid != w->attr.st_uid	3341	|| prev.st_uid != w->attr.st_uid
2796	|| w->prev.st_gid != w->attr.st_gid	3342	|| prev.st_gid != w->attr.st_gid
2797	|| w->prev.st_rdev != w->attr.st_rdev	3343	|| prev.st_rdev != w->attr.st_rdev
2798	|| w->prev.st_size != w->attr.st_size	3344	|| prev.st_size != w->attr.st_size
2799	|| w->prev.st_atime != w->attr.st_atime	3345	|| prev.st_atime != w->attr.st_atime
2800	|| w->prev.st_mtime != w->attr.st_mtime	3346	|| prev.st_mtime != w->attr.st_mtime
2801	|| w->prev.st_ctime != w->attr.st_ctime	3347	|| prev.st_ctime != w->attr.st_ctime
2802	) {	3348	) {
		3349	/* we only update w->prev on actual differences */
		3350	/* in case we test more often than invoke the callback, */
		3351	/* to ensure that prev is always different to attr */
		3352	w->prev = prev;
		3353
2803	#if EV_USE_INOTIFY	3354	#if EV_USE_INOTIFY
2804	if (fs_fd >= 0)	3355	if (fs_fd >= 0)
2805	{	3356	{
2806	infy_del (EV_A_ w);	3357	infy_del (EV_A_ w);
2807	infy_add (EV_A_ w);	3358	infy_add (EV_A_ w);
…		…
2832		3383
2833	if (fs_fd >= 0)	3384	if (fs_fd >= 0)
2834	infy_add (EV_A_ w);	3385	infy_add (EV_A_ w);
2835	else	3386	else
2836	#endif	3387	#endif
		3388	{
2837	ev_timer_again (EV_A_ &w->timer);	3389	ev_timer_again (EV_A_ &w->timer);
		3390	ev_unref (EV_A);
		3391	}
2838		3392
2839	ev_start (EV_A_ (W)w, 1);	3393	ev_start (EV_A_ (W)w, 1);
2840		3394
2841	EV_FREQUENT_CHECK;	3395	EV_FREQUENT_CHECK;
2842	}	3396	}
…		…
2851	EV_FREQUENT_CHECK;	3405	EV_FREQUENT_CHECK;
2852		3406
2853	#if EV_USE_INOTIFY	3407	#if EV_USE_INOTIFY
2854	infy_del (EV_A_ w);	3408	infy_del (EV_A_ w);
2855	#endif	3409	#endif
		3410
		3411	if (ev_is_active (&w->timer))
		3412	{
		3413	ev_ref (EV_A);
2856	ev_timer_stop (EV_A_ &w->timer);	3414	ev_timer_stop (EV_A_ &w->timer);
		3415	}
2857		3416
2858	ev_stop (EV_A_ (W)w);	3417	ev_stop (EV_A_ (W)w);
2859		3418
2860	EV_FREQUENT_CHECK;	3419	EV_FREQUENT_CHECK;
2861	}	3420	}
…		…
2906		3465
2907	EV_FREQUENT_CHECK;	3466	EV_FREQUENT_CHECK;
2908	}	3467	}
2909	#endif	3468	#endif
2910		3469
		3470	#if EV_PREPARE_ENABLE
2911	void	3471	void
2912	ev_prepare_start (EV_P_ ev_prepare *w)	3472	ev_prepare_start (EV_P_ ev_prepare *w)
2913	{	3473	{
2914	if (expect_false (ev_is_active (w)))	3474	if (expect_false (ev_is_active (w)))
2915	return;	3475	return;
…		…
2941		3501
2942	ev_stop (EV_A_ (W)w);	3502	ev_stop (EV_A_ (W)w);
2943		3503
2944	EV_FREQUENT_CHECK;	3504	EV_FREQUENT_CHECK;
2945	}	3505	}
		3506	#endif
2946		3507
		3508	#if EV_CHECK_ENABLE
2947	void	3509	void
2948	ev_check_start (EV_P_ ev_check *w)	3510	ev_check_start (EV_P_ ev_check *w)
2949	{	3511	{
2950	if (expect_false (ev_is_active (w)))	3512	if (expect_false (ev_is_active (w)))
2951	return;	3513	return;
…		…
2977		3539
2978	ev_stop (EV_A_ (W)w);	3540	ev_stop (EV_A_ (W)w);
2979		3541
2980	EV_FREQUENT_CHECK;	3542	EV_FREQUENT_CHECK;
2981	}	3543	}
		3544	#endif
2982		3545
2983	#if EV_EMBED_ENABLE	3546	#if EV_EMBED_ENABLE
2984	void noinline	3547	void noinline
2985	ev_embed_sweep (EV_P_ ev_embed *w)	3548	ev_embed_sweep (EV_P_ ev_embed *w)
2986	{	3549	{
2987	ev_loop (w->other, EVLOOP_NONBLOCK);	3550	ev_run (w->other, EVRUN_NOWAIT);
2988	}	3551	}
2989		3552
2990	static void	3553	static void
2991	embed_io_cb (EV_P_ ev_io *io, int revents)	3554	embed_io_cb (EV_P_ ev_io *io, int revents)
2992	{	3555	{
2993	ev_embed *w = (ev_embed *)(((char *)io) - offsetof (ev_embed, io));	3556	ev_embed *w = (ev_embed *)(((char *)io) - offsetof (ev_embed, io));
2994		3557
2995	if (ev_cb (w))	3558	if (ev_cb (w))
2996	ev_feed_event (EV_A_ (W)w, EV_EMBED);	3559	ev_feed_event (EV_A_ (W)w, EV_EMBED);
2997	else	3560	else
2998	ev_loop (w->other, EVLOOP_NONBLOCK);	3561	ev_run (w->other, EVRUN_NOWAIT);
2999	}	3562	}
3000		3563
3001	static void	3564	static void
3002	embed_prepare_cb (EV_P_ ev_prepare *prepare, int revents)	3565	embed_prepare_cb (EV_P_ ev_prepare *prepare, int revents)
3003	{	3566	{
3004	ev_embed *w = (ev_embed *)(((char *)prepare) - offsetof (ev_embed, prepare));	3567	ev_embed *w = (ev_embed *)(((char *)prepare) - offsetof (ev_embed, prepare));
3005		3568
3006	{	3569	{
3007	struct ev_loop *loop = w->other;	3570	EV_P = w->other;
3008		3571
3009	while (fdchangecnt)	3572	while (fdchangecnt)
3010	{	3573	{
3011	fd_reify (EV_A);	3574	fd_reify (EV_A);
3012	ev_loop (EV_A_ EVLOOP_NONBLOCK);	3575	ev_run (EV_A_ EVRUN_NOWAIT);
3013	}	3576	}
3014	}	3577	}
3015	}	3578	}
3016		3579
3017	static void	3580	static void
…		…
3020	ev_embed *w = (ev_embed *)(((char *)fork_w) - offsetof (ev_embed, fork));	3583	ev_embed *w = (ev_embed *)(((char *)fork_w) - offsetof (ev_embed, fork));
3021		3584
3022	ev_embed_stop (EV_A_ w);	3585	ev_embed_stop (EV_A_ w);
3023		3586
3024	{	3587	{
3025	struct ev_loop *loop = w->other;	3588	EV_P = w->other;
3026		3589
3027	ev_loop_fork (EV_A);	3590	ev_loop_fork (EV_A);
3028	ev_loop (EV_A_ EVLOOP_NONBLOCK);	3591	ev_run (EV_A_ EVRUN_NOWAIT);
3029	}	3592	}
3030		3593
3031	ev_embed_start (EV_A_ w);	3594	ev_embed_start (EV_A_ w);
3032	}	3595	}
3033		3596
…		…
3044	{	3607	{
3045	if (expect_false (ev_is_active (w)))	3608	if (expect_false (ev_is_active (w)))
3046	return;	3609	return;
3047		3610
3048	{	3611	{
3049	struct ev_loop *loop = w->other;	3612	EV_P = w->other;
3050	assert (("libev: loop to be embedded is not embeddable", backend & ev_embeddable_backends ()));	3613	assert (("libev: loop to be embedded is not embeddable", backend & ev_embeddable_backends ()));
3051	ev_io_init (&w->io, embed_io_cb, backend_fd, EV_READ);	3614	ev_io_init (&w->io, embed_io_cb, backend_fd, EV_READ);
3052	}	3615	}
3053		3616
3054	EV_FREQUENT_CHECK;	3617	EV_FREQUENT_CHECK;
…		…
3081		3644
3082	ev_io_stop (EV_A_ &w->io);	3645	ev_io_stop (EV_A_ &w->io);
3083	ev_prepare_stop (EV_A_ &w->prepare);	3646	ev_prepare_stop (EV_A_ &w->prepare);
3084	ev_fork_stop (EV_A_ &w->fork);	3647	ev_fork_stop (EV_A_ &w->fork);
3085		3648
		3649	ev_stop (EV_A_ (W)w);
		3650
3086	EV_FREQUENT_CHECK;	3651	EV_FREQUENT_CHECK;
3087	}	3652	}
3088	#endif	3653	#endif
3089		3654
3090	#if EV_FORK_ENABLE	3655	#if EV_FORK_ENABLE
…		…
3123		3688
3124	EV_FREQUENT_CHECK;	3689	EV_FREQUENT_CHECK;
3125	}	3690	}
3126	#endif	3691	#endif
3127		3692
3128	#if EV_ASYNC_ENABLE	3693	#if EV_CLEANUP_ENABLE
3129	void	3694	void
3130	ev_async_start (EV_P_ ev_async *w)	3695	ev_cleanup_start (EV_P_ ev_cleanup *w)
3131	{	3696	{
3132	if (expect_false (ev_is_active (w)))	3697	if (expect_false (ev_is_active (w)))
3133	return;	3698	return;
		3699
		3700	EV_FREQUENT_CHECK;
		3701
		3702	ev_start (EV_A_ (W)w, ++cleanupcnt);
		3703	array_needsize (ev_cleanup *, cleanups, cleanupmax, cleanupcnt, EMPTY2);
		3704	cleanups [cleanupcnt - 1] = w;
		3705
		3706	/* cleanup watchers should never keep a refcount on the loop */
		3707	ev_unref (EV_A);
		3708	EV_FREQUENT_CHECK;
		3709	}
		3710
		3711	void
		3712	ev_cleanup_stop (EV_P_ ev_cleanup *w)
		3713	{
		3714	clear_pending (EV_A_ (W)w);
		3715	if (expect_false (!ev_is_active (w)))
		3716	return;
		3717
		3718	EV_FREQUENT_CHECK;
		3719	ev_ref (EV_A);
		3720
		3721	{
		3722	int active = ev_active (w);
		3723
		3724	cleanups [active - 1] = cleanups [--cleanupcnt];
		3725	ev_active (cleanups [active - 1]) = active;
		3726	}
		3727
		3728	ev_stop (EV_A_ (W)w);
		3729
		3730	EV_FREQUENT_CHECK;
		3731	}
		3732	#endif
		3733
		3734	#if EV_ASYNC_ENABLE
		3735	void
		3736	ev_async_start (EV_P_ ev_async *w)
		3737	{
		3738	if (expect_false (ev_is_active (w)))
		3739	return;
		3740
		3741	w->sent = 0;
3134		3742
3135	evpipe_init (EV_A);	3743	evpipe_init (EV_A);
3136		3744
3137	EV_FREQUENT_CHECK;	3745	EV_FREQUENT_CHECK;
3138		3746
…		…
3166		3774
3167	void	3775	void
3168	ev_async_send (EV_P_ ev_async *w)	3776	ev_async_send (EV_P_ ev_async *w)
3169	{	3777	{
3170	w->sent = 1;	3778	w->sent = 1;
3171	evpipe_write (EV_A_ &gotasync);	3779	evpipe_write (EV_A_ &async_pending);
3172	}	3780	}
3173	#endif	3781	#endif
3174		3782
3175	/*****************************************************************************/	3783	/*****************************************************************************/
3176		3784
…		…
3216	{	3824	{
3217	struct ev_once *once = (struct ev_once *)ev_malloc (sizeof (struct ev_once));	3825	struct ev_once *once = (struct ev_once *)ev_malloc (sizeof (struct ev_once));
3218		3826
3219	if (expect_false (!once))	3827	if (expect_false (!once))
3220	{	3828	{
3221	cb (EV_ERROR | EV_READ | EV_WRITE | EV_TIMEOUT, arg);	3829	cb (EV_ERROR | EV_READ | EV_WRITE | EV_TIMER, arg);
3222	return;	3830	return;
3223	}	3831	}
3224		3832
3225	once->cb = cb;	3833	once->cb = cb;
3226	once->arg = arg;	3834	once->arg = arg;
…		…
3313	if (types & EV_ASYNC)	3921	if (types & EV_ASYNC)
3314	for (i = asynccnt; i--; )	3922	for (i = asynccnt; i--; )
3315	cb (EV_A_ EV_ASYNC, asyncs [i]);	3923	cb (EV_A_ EV_ASYNC, asyncs [i]);
3316	#endif	3924	#endif
3317		3925
		3926	#if EV_PREPARE_ENABLE
3318	if (types & EV_PREPARE)	3927	if (types & EV_PREPARE)
3319	for (i = preparecnt; i--; )	3928	for (i = preparecnt; i--; )
3320	#if EV_EMBED_ENABLE	3929	# if EV_EMBED_ENABLE
3321	if (ev_cb (prepares [i]) != embed_prepare_cb)	3930	if (ev_cb (prepares [i]) != embed_prepare_cb)
3322	#endif	3931	# endif
3323	cb (EV_A_ EV_PREPARE, prepares [i]);	3932	cb (EV_A_ EV_PREPARE, prepares [i]);
		3933	#endif
3324		3934
		3935	#if EV_CHECK_ENABLE
3325	if (types & EV_CHECK)	3936	if (types & EV_CHECK)
3326	for (i = checkcnt; i--; )	3937	for (i = checkcnt; i--; )
3327	cb (EV_A_ EV_CHECK, checks [i]);	3938	cb (EV_A_ EV_CHECK, checks [i]);
		3939	#endif
3328		3940
		3941	#if EV_SIGNAL_ENABLE
3329	if (types & EV_SIGNAL)	3942	if (types & EV_SIGNAL)
3330	for (i = 0; i < signalmax; ++i)	3943	for (i = 0; i < EV_NSIG - 1; ++i)
3331	for (wl = signals [i].head; wl; )	3944	for (wl = signals [i].head; wl; )
3332	{	3945	{
3333	wn = wl->next;	3946	wn = wl->next;
3334	cb (EV_A_ EV_SIGNAL, wl);	3947	cb (EV_A_ EV_SIGNAL, wl);
3335	wl = wn;	3948	wl = wn;
3336	}	3949	}
		3950	#endif
3337		3951
		3952	#if EV_CHILD_ENABLE
3338	if (types & EV_CHILD)	3953	if (types & EV_CHILD)
3339	for (i = EV_PID_HASHSIZE; i--; )	3954	for (i = (EV_PID_HASHSIZE); i--; )
3340	for (wl = childs [i]; wl; )	3955	for (wl = childs [i]; wl; )
3341	{	3956	{
3342	wn = wl->next;	3957	wn = wl->next;
3343	cb (EV_A_ EV_CHILD, wl);	3958	cb (EV_A_ EV_CHILD, wl);
3344	wl = wn;	3959	wl = wn;
3345	}	3960	}
		3961	#endif
3346	/* EV_STAT 0x00001000 /* stat data changed */	3962	/* EV_STAT 0x00001000 /* stat data changed */
3347	/* EV_EMBED 0x00010000 /* embedded event loop needs sweep */	3963	/* EV_EMBED 0x00010000 /* embedded event loop needs sweep */
3348	}	3964	}
3349	#endif	3965	#endif
3350		3966
3351	#if EV_MULTIPLICITY	3967	#if EV_MULTIPLICITY
3352	#include "ev_wrap.h"	3968	#include "ev_wrap.h"
3353	#endif	3969	#endif
3354		3970
3355	#ifdef __cplusplus	3971	EV_CPP(})
3356	}
3357	#endif
3358		3972

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