[ViewVC] Diff of: cvs/libev/ev

Comparing libev/ev_linuxaio.c (file contents):
Revision 1.13 by root, Sun Jun 23 23:38:38 2019 UTC vs.
Revision 1.28 by root, Tue Jun 25 06:36:59 2019 UTC

…		…
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	#define EPOLL_FALLBACK 1	40	/*
		41	* general notes about linux aio:
		42	*
		43	* a) at first, the linux aio IOCB_CMD_POLL functionality introduced in
		44	* 4.18 looks too good to be true: both watchers and events can be
		45	* batched, and events can even be handled in userspace using
		46	* a ring buffer shared with the kernel. watchers can be canceled
		47	* regardless of whether the fd has been closed. no problems with fork.
		48	* ok, the ring buffer is 200% undocumented (there isn't even a
		49	* header file), but otherwise, it's pure bliss!
		50	* b) ok, watchers are one-shot, so you have to re-arm active ones
		51	* on every iteration. so much for syscall-less event handling,
		52	* but at least these re-arms can be batched, no big deal, right?
		53	* c) well, linux as usual: the documentation lies to you: io_submit
		54	* sometimes returns EINVAL because the kernel doesn't feel like
		55	* handling your poll mask - ttys can be polled for POLLOUT,
		56	* POLLOUT\|POLLIN, but polling for POLLIN fails. just great,
		57	* so we have to fall back to something else (hello, epoll),
		58	* but at least the fallback can be slow, because these are
		59	* exceptional cases, right?
		60	* d) hmm, you have to tell the kernel the maximum number of watchers
		61	* you want to queue when initialising the aio context. but of
		62	* course the real limit is magically calculated in the kernel, and
		63	* is often higher then we asked for. so we just have to destroy
		64	* the aio context and re-create it a bit larger if we hit the limit.
		65	* (starts to remind you of epoll? well, it's a bit more deterministic
		66	* and less gambling, but still ugly as hell).
		67	* e) that's when you find out you can also hit an arbitrary system-wide
		68	* limit. or the kernel simply doesn't want to handle your watchers.
		69	* what the fuck do we do then? you guessed it, in the middle
		70	* of event handling we have to switch to 100% epoll polling. and
		71	* that better is as fast as normal epoll polling, so you practically
		72	* have to use the normal epoll backend with all its quirks.
		73	* f) end result of this train wreck: it inherits all the disadvantages
		74	* from epoll, while adding a number on its own. why even bother to use
		75	* it? because if conditions are right and your fds are supported and you
		76	* don't hit a limit, this backend is actually faster, doesn't gamble with
		77	* your fds, batches watchers and events and doesn't require costly state
		78	* recreates. well, until it does.
		79	* g) all of this makes this backend use almost twice as much code as epoll.
		80	* which in turn uses twice as much code as poll. and that#s not counting
		81	* the fact that this backend also depends on the epoll backend, making
		82	* it three times as much code as poll, or kqueue.
		83	* h) bleah. why can't linux just do kqueue. sure kqueue is ugly, but by now
		84	* it's clear that whatever linux comes up with is far, far, far worse.
		85	*/
41		86
42	#include <sys/time.h> /* actually linux/time.h, but we must assume they are compatible */	87	#include <sys/time.h> /* actually linux/time.h, but we must assume they are compatible */
43	#include <poll.h>	88	#include <poll.h>
44	#include <linux/aio_abi.h>	89	#include <linux/aio_abi.h>
45		90
46	#if EPOLL_FALLBACK
47	# include <sys/epoll.h>
48	#endif
49
50	/* we try to fill 4kB pages exactly.
51	* the ring buffer header is 32 bytes, every io event is 32 bytes.
52	* the kernel takes the io event number, doubles it, adds 2, adds the ring buffer.
53	* therefore the calculation below will use "exactly" 4kB for the ring buffer
54	*/
55	#define EV_LINUXAIO_DEPTH (128 / 2 - 2 - 1) /* max. number of io events per batch */
56
57	/*****************************************************************************/	91	/*****************************************************************************/
58	/* syscall wrapdadoop */	92	/* syscall wrapdadoop - this section has the raw api/abi definitions */
59		93
60	#include <sys/syscall.h> /* no glibc wrappers */	94	#include <sys/syscall.h> /* no glibc wrappers */
61		95
62	/* aio_abi.h is not versioned in any way, so we cannot test for its existance */	96	/* aio_abi.h is not versioned in any way, so we cannot test for its existance */
63	#define IOCB_CMD_POLL 5	97	#define IOCB_CMD_POLL 5
64		98
65	/* taken from linux/fs/aio.c */	99	/* taken from linux/fs/aio.c. yup, that's a .c file.
		100	* not only is this totally undocumented, not even the source code
		101	* can tell you what the future semantics of compat_features and
		102	* incompat_features are, or what header_length actually is for.
		103	*/
66	#define AIO_RING_MAGIC 0xa10a10a1	104	#define AIO_RING_MAGIC 0xa10a10a1
67	#define AIO_RING_INCOMPAT_FEATURES 0	105	#define AIO_RING_INCOMPAT_FEATURES 0
68	struct aio_ring	106	struct aio_ring
69	{	107	{
70	unsigned id; /* kernel internal index number */	108	unsigned id; /* kernel internal index number */
…		…
80	struct io_event io_events[0];	118	struct io_event io_events[0];
81	};	119	};
82		120
83	inline_size	121	inline_size
84	int	122	int
85	ev_io_setup (unsigned nr_events, aio_context_t *ctx_idp)	123	evsys_io_setup (unsigned nr_events, aio_context_t *ctx_idp)
86	{	124	{
87	return syscall (SYS_io_setup, nr_events, ctx_idp);	125	return syscall (SYS_io_setup, nr_events, ctx_idp);
88	}	126	}
89		127
90	inline_size	128	inline_size
91	int	129	int
92	ev_io_destroy (aio_context_t ctx_id)	130	evsys_io_destroy (aio_context_t ctx_id)
93	{	131	{
94	return syscall (SYS_io_destroy, ctx_id);	132	return syscall (SYS_io_destroy, ctx_id);
95	}	133	}
96		134
97	inline_size	135	inline_size
98	int	136	int
99	ev_io_submit (aio_context_t ctx_id, long nr, struct iocb *cbp[])	137	evsys_io_submit (aio_context_t ctx_id, long nr, struct iocb *cbp[])
100	{	138	{
101	return syscall (SYS_io_submit, ctx_id, nr, cbp);	139	return syscall (SYS_io_submit, ctx_id, nr, cbp);
102	}	140	}
103		141
104	inline_size	142	inline_size
105	int	143	int
106	ev_io_cancel (aio_context_t ctx_id, struct iocb cbp, struct io_event result)	144	evsys_io_cancel (aio_context_t ctx_id, struct iocb cbp, struct io_event result)
107	{	145	{
108	return syscall (SYS_io_cancel, ctx_id, cbp, result);	146	return syscall (SYS_io_cancel, ctx_id, cbp, result);
109	}	147	}
110		148
111	inline_size	149	inline_size
112	int	150	int
113	ev_io_getevents (aio_context_t ctx_id, long min_nr, long nr, struct io_event events, struct timespec timeout)	151	evsys_io_getevents (aio_context_t ctx_id, long min_nr, long nr, struct io_event events, struct timespec timeout)
114	{	152	{
115	return syscall (SYS_io_getevents, ctx_id, min_nr, nr, events, timeout);	153	return syscall (SYS_io_getevents, ctx_id, min_nr, nr, events, timeout);
116	}	154	}
117		155
118	/*****************************************************************************/	156	/*****************************************************************************/
119	/* actual backed implementation */	157	/* actual backed implementation */
120		158
		159	ecb_cold
		160	static int
		161	linuxaio_nr_events (EV_P)
		162	{
		163	/* we start with 16 iocbs and incraese from there
		164	* that's tiny, but the kernel has a rather low system-wide
		165	* limit that can be reached quickly, so let's be parsimonious
		166	* with this resource.
		167	* Rest assured, the kernel generously rounds up small and big numbers
		168	* in different ways (but doesn't seem to charge you for it).
		169	* The 15 here is because the kernel usually has a power of two as aio-max-nr,
		170	* and this helps to take advantage of that limit.
		171	*/
		172
		173	/* we try to fill 4kB pages exactly.
		174	* the ring buffer header is 32 bytes, every io event is 32 bytes.
		175	* the kernel takes the io requests number, doubles it, adds 2
		176	* and adds the ring buffer.
		177	* the way we use this is by starting low, and then roughly doubling the
		178	* size each time we hit a limit.
		179	*/
		180
		181	int requests = 15 << linuxaio_iteration;
		182	int one_page = (4096
		183	/ sizeof (struct io_event) ) / 2; /* how many fit into one page */
		184	int first_page = ((4096 - sizeof (struct aio_ring))
		185	/ sizeof (struct io_event) - 2) / 2; /* how many fit into the first page */
		186
		187	/* if everything fits into one page, use count exactly */
		188	if (requests > first_page)
		189	/* otherwise, round down to full pages and add the first page */
		190	requests = requests / one_page * one_page + first_page;
		191
		192	return requests;
		193	}
		194
121	/* we use out own wrapper structure in acse we ever want to do something "clever" */	195	/* we use out own wrapper structure in case we ever want to do something "clever" */
122	typedef struct aniocb	196	typedef struct aniocb
123	{	197	{
124	struct iocb io;	198	struct iocb io;
125	/int inuse;/	199	/int inuse;/
126	} *ANIOCBP;	200	} *ANIOCBP;
127		201
128	inline_size	202	inline_size
129	void	203	void
130	linuxaio_array_needsize_iocbp (ANIOCBP *base, int count)	204	linuxaio_array_needsize_iocbp (ANIOCBP *base, int offset, int count)
131	{	205	{
132	/* TODO: quite the overhead to allocate every iocb separately, maybe use our own alocator? */
133	while (count--)	206	while (count--)
134	{	207	{
		208	/* TODO: quite the overhead to allocate every iocb separately, maybe use our own allocator? */
135	base = (ANIOCBP)ev_malloc (sizeof (*base));	209	ANIOCBP iocb = (ANIOCBP)ev_malloc (sizeof (*iocb));
136	/* TODO: full zero initialize required? */	210
		211	/* full zero initialise is probably not required at the moment, but
		212	* this is not well documented, so we better do it.
		213	*/
137	memset (base, 0, sizeof (*base));	214	memset (iocb, 0, sizeof (*iocb));
138	/* would be nice to initialize fd/data as well, but array_needsize API doesn't support that */	215
139	(*base)->io.aio_lio_opcode = IOCB_CMD_POLL;	216	iocb->io.aio_lio_opcode = IOCB_CMD_POLL;
140	++base;	217	iocb->io.aio_data = offset;
		218	iocb->io.aio_fildes = offset;
		219
		220	base [offset++] = iocb;
141	}	221	}
142	}	222	}
143		223
144	ecb_cold	224	ecb_cold
145	static void	225	static void
…		…
153		233
154	static void	234	static void
155	linuxaio_modify (EV_P_ int fd, int oev, int nev)	235	linuxaio_modify (EV_P_ int fd, int oev, int nev)
156	{	236	{
157	array_needsize (ANIOCBP, linuxaio_iocbps, linuxaio_iocbpmax, fd + 1, linuxaio_array_needsize_iocbp);	237	array_needsize (ANIOCBP, linuxaio_iocbps, linuxaio_iocbpmax, fd + 1, linuxaio_array_needsize_iocbp);
158	struct aniocb *iocb = linuxaio_iocbps [fd];	238	ANIOCBP iocb = linuxaio_iocbps [fd];
159		239
160	#if EPOLL_FALLBACK
161	if (iocb->io.aio_reqprio < 0)	240	if (iocb->io.aio_reqprio < 0)
162	{	241	{
		242	/* we handed this fd over to epoll, so undo this first */
		243	/* we do it manually because the optimisations on epoll_modfy won't do us any good */
163	epoll_ctl (backend_fd, EPOLL_CTL_DEL, fd, 0);	244	epoll_ctl (backend_fd, EPOLL_CTL_DEL, fd, 0);
164	iocb->io.aio_reqprio = 0;	245	iocb->io.aio_reqprio = 0;
165	}	246	}
166	#endif
167		247
168	if (iocb->io.aio_buf)	248	if (iocb->io.aio_buf)
169	ev_io_cancel (linuxaio_ctx, &iocb->io, (struct io_event )0); / always returns an error relevant kernels */	249	/* io_cancel always returns some error on relevant kernels, but works */
		250	evsys_io_cancel (linuxaio_ctx, &iocb->io, (struct io_event *)0);
170		251
171	if (nev)	252	if (nev)
172	{	253	{
173	iocb->io.aio_data = fd;
174	iocb->io.aio_fildes = fd;
175	iocb->io.aio_buf =	254	iocb->io.aio_buf =
176	(nev & EV_READ ? POLLIN : 0)	255	(nev & EV_READ ? POLLIN : 0)
177	\| (nev & EV_WRITE ? POLLOUT : 0);	256	\| (nev & EV_WRITE ? POLLOUT : 0);
178		257
179	/* queue iocb up for io_submit */	258	/* queue iocb up for io_submit */
180	/* this assumes we only ever get one call per fd per loop iteration */	259	/* this assumes we only ever get one call per fd per loop iteration */
…		…
183	linuxaio_submits [linuxaio_submitcnt - 1] = &iocb->io;	262	linuxaio_submits [linuxaio_submitcnt - 1] = &iocb->io;
184	}	263	}
185	}	264	}
186		265
187	static void	266	static void
		267	linuxaio_epoll_cb (EV_P_ struct ev_io *w, int revents)
		268	{
		269	epoll_poll (EV_A_ 0);
		270	}
		271
		272	static void
		273	linuxaio_fd_rearm (EV_P_ int fd)
		274	{
		275	anfds [fd].events = 0;
		276	linuxaio_iocbps [fd]->io.aio_buf = 0;
		277	fd_change (EV_A_ fd, EV_ANFD_REIFY);
		278	}
		279
		280	static void
188	linuxaio_parse_events (EV_P_ struct io_event *ev, int nr)	281	linuxaio_parse_events (EV_P_ struct io_event *ev, int nr)
189	{	282	{
190	while (nr)	283	while (nr)
191	{	284	{
192	int fd = ev->data;	285	int fd = ev->data;
193	int res = ev->res;	286	int res = ev->res;
194		287
195	assert (("libev: iocb fd must be in-bounds", fd >= 0 && fd < anfdmax));	288	assert (("libev: iocb fd must be in-bounds", fd >= 0 && fd < anfdmax));
196		289
197	/* linux aio is oneshot: rearm fd */
198	linuxaio_iocbps [fd]->io.aio_buf = 0;
199	anfds [fd].events = 0;
200	fd_change (EV_A_ fd, 0);
201
202	/* feed events, we do not expect or handle POLLNVAL */	290	/* feed events, we do not expect or handle POLLNVAL */
203	if (ecb_expect_false (res & POLLNVAL))
204	fd_kill (EV_A_ fd);
205	else
206	fd_event (	291	fd_event (
207	EV_A_	292	EV_A_
208	fd,	293	fd,
209	(res & (POLLOUT \| POLLERR \| POLLHUP) ? EV_WRITE : 0)	294	(res & (POLLOUT \| POLLERR \| POLLHUP) ? EV_WRITE : 0)
210	\| (res & (POLLIN \| POLLERR \| POLLHUP) ? EV_READ : 0)	295	\| (res & (POLLIN \| POLLERR \| POLLHUP) ? EV_READ : 0)
211	);	296	);
		297
		298	/* linux aio is oneshot: rearm fd. TODO: this does more work than needed */
		299	linuxaio_fd_rearm (EV_A_ fd);
212		300
213	--nr;	301	--nr;
214	++ev;	302	++ev;
215	}	303	}
216	}	304	}
217		305
218	/* get any events from ringbuffer, return true if any were handled */	306	/* get any events from ring buffer, return true if any were handled */
219	static int	307	static int
220	linuxaio_get_events_from_ring (EV_P)	308	linuxaio_get_events_from_ring (EV_P)
221	{	309	{
222	struct aio_ring ring = (struct aio_ring )linuxaio_ctx;	310	struct aio_ring ring = (struct aio_ring )linuxaio_ctx;
223		311
…		…
229		317
230	if (head == tail)	318	if (head == tail)
231	return 0;	319	return 0;
232		320
233	/* bail out if the ring buffer doesn't match the expected layout */	321	/* bail out if the ring buffer doesn't match the expected layout */
234	if (ecb_expect_false (ring->magic != AIO_RING_MAGIC)	322	if (expect_false (ring->magic != AIO_RING_MAGIC)
235	\|\| ring->incompat_features != AIO_RING_INCOMPAT_FEATURES	323	\|\| ring->incompat_features != AIO_RING_INCOMPAT_FEATURES
236	\|\| ring->header_length != sizeof (struct aio_ring)) /* TODO: or use it to find io_event[0]? */	324	\|\| ring->header_length != sizeof (struct aio_ring)) /* TODO: or use it to find io_event[0]? */
237	return 0;	325	return 0;
238		326
239	/* make sure the events up to tail are visible */	327	/* make sure the events up to tail are visible */
240	ECB_MEMORY_FENCE_ACQUIRE;	328	ECB_MEMORY_FENCE_ACQUIRE;
241		329
…		…
246	{	334	{
247	linuxaio_parse_events (EV_A_ ring->io_events + head, ring->nr - head);	335	linuxaio_parse_events (EV_A_ ring->io_events + head, ring->nr - head);
248	linuxaio_parse_events (EV_A_ ring->io_events, tail);	336	linuxaio_parse_events (EV_A_ ring->io_events, tail);
249	}	337	}
250		338
		339	ECB_MEMORY_FENCE_RELEASE;
251	/* as an extension to C, we hope that the volatile will makethis atomic and once-only */	340	/* as an extension to C, we hope that the volatile will make this atomic and once-only */
252	(volatile unsigned )&ring->head = tail;	341	(volatile unsigned )&ring->head = tail;
253	/* make sure kernel can see our new head value - probably not required */	342	/* make sure kernel can see our new head value - probably not required */
254	ECB_MEMORY_FENCE_RELEASE;
255		343
256	return 1;	344	return 1;
257	}	345	}
258		346
259	/* read at least one event from kernel, or timeout */	347	/* read at least one event from kernel, or timeout */
260	inline_size	348	inline_size
261	void	349	void
262	linuxaio_get_events (EV_P_ ev_tstamp timeout)	350	linuxaio_get_events (EV_P_ ev_tstamp timeout)
263	{	351	{
264	struct timespec ts;	352	struct timespec ts;
265	struct io_event ioev;	353	struct io_event ioev[1];
266	int res;	354	int res;
267		355
268	if (linuxaio_get_events_from_ring (EV_A))	356	if (linuxaio_get_events_from_ring (EV_A))
269	return;	357	return;
270		358
271	/* no events, so wait for at least one, then poll ring buffer again */	359	/* no events, so wait for at least one, then poll ring buffer again */
272	/* this degrades to one event per loop iteration */	360	/* this degrades to one event per loop iteration */
273	/* if the ring buffer changes layout, but so be it */	361	/* if the ring buffer changes layout, but so be it */
274		362
		363	EV_RELEASE_CB;
		364
275	ts.tv_sec = (long)timeout;	365	ts.tv_sec = (long)timeout;
276	ts.tv_nsec = (long)((timeout - ts.tv_sec) * 1e9);	366	ts.tv_nsec = (long)((timeout - ts.tv_sec) * 1e9);
277		367
278	res = ev_io_getevents (linuxaio_ctx, 1, 1, &ioev, &ts);	368	res = evsys_io_getevents (linuxaio_ctx, 1, sizeof (ioev) / sizeof (ioev [0]), ioev, &ts);
		369
		370	EV_ACQUIRE_CB;
279		371
280	if (res < 0)	372	if (res < 0)
281	if (errno == EINTR)	373	if (errno == EINTR)
282	/* ignored */;	374	/* ignored */;
283	else	375	else
284	ev_syserr ("(libev) linuxaio io_getevents");	376	ev_syserr ("(libev) linuxaio io_getevents");
285	else if (res)	377	else if (res)
286	{	378	{
287	/* at least one event received, handle it and any remaining ones in the ring buffer */	379	/* at least one event received, handle it and any remaining ones in the ring buffer */
288	linuxaio_parse_events (EV_A_ &ioev, 1);	380	linuxaio_parse_events (EV_A_ ioev, res);
289	linuxaio_get_events_from_ring (EV_A);	381	linuxaio_get_events_from_ring (EV_A);
290	}	382	}
291	}	383	}
292		384
293	#if EPOLL_FALLBACK
294	static void	385	static int
295	linuxaio_rearm_epoll (EV_P_ struct iocb *iocb, int op)	386	linuxaio_io_setup (EV_P)
296	{	387	{
297	struct epoll_event eev;	388	linuxaio_ctx = 0;
298		389	return evsys_io_setup (linuxaio_nr_events (EV_A), &linuxaio_ctx);
299	eev.events = EPOLLONESHOT;
300	if (iocb->aio_buf & POLLIN ) eev.events \|= EPOLLIN ;
301	if (iocb->aio_buf & POLLOUT) eev.events \|= EPOLLOUT;
302	eev.data.fd = iocb->aio_fildes;
303
304	if (epoll_ctl (backend_fd, op, iocb->aio_fildes, &eev) < 0)
305	ev_syserr ("(libeio) linuxaio epoll_ctl");
306	}	390	}
307	#endif
308		391
309	static void	392	static void
310	linuxaio_poll (EV_P_ ev_tstamp timeout)	393	linuxaio_poll (EV_P_ ev_tstamp timeout)
311	{	394	{
312	int submitted;	395	int submitted;
313		396
314	/* first phase: submit new iocbs */	397	/* first phase: submit new iocbs */
315		398
316	/* io_submit might return less than the requested number of iocbs */	399	/* io_submit might return less than the requested number of iocbs */
317	/* this is, afaics, only because of errors, but we go by the book and use a loop, */	400	/* this is, afaics, only because of errors, but we go by the book and use a loop, */
318	/* which allows us to pinpoint the errornous iocb */	401	/* which allows us to pinpoint the erroneous iocb */
319	for (submitted = 0; submitted < linuxaio_submitcnt; )	402	for (submitted = 0; submitted < linuxaio_submitcnt; )
320	{	403	{
321	int res = ev_io_submit (linuxaio_ctx, linuxaio_submitcnt - submitted, linuxaio_submits + submitted);	404	int res = evsys_io_submit (linuxaio_ctx, linuxaio_submitcnt - submitted, linuxaio_submits + submitted);
322		405
323	if (ecb_expect_false (res < 0))	406	if (expect_false (res < 0))
324	if (errno == EAGAIN)	407	if (errno == EINVAL)
325	{	408	{
326	/* This happens when the ring buffer is full, at least. I assume this means
327	* that the event was queued synchronously during io_submit, and thus
328	* the buffer overflowed.
329	* In this case, we just try in next loop iteration.
330	* This should not result in a few fds taking priority, as the interface
331	* is one-shot, and we submit iocb's in a round-robin fashion.
332	*/
333	memmove (linuxaio_submits, linuxaio_submits + submitted, (linuxaio_submitcnt - submitted) * sizeof (*linuxaio_submits));
334	linuxaio_submitcnt -= submitted;
335	timeout = 0;
336	break;
337	}
338	#if EPOLL_FALLBACK
339	else if (errno == EINVAL)
340	{
341	/* This hapüpens for unsupported fds, officially, but in my testing,	409	/* This happens for unsupported fds, officially, but in my testing,
342	* also randomly happens for supported fds. We fall back to good old	410	* also randomly happens for supported fds. We fall back to good old
343	* poll() here, under the assumption that this is a very rare case.	411	* poll() here, under the assumption that this is a very rare case.
		412	* See https://lore.kernel.org/patchwork/patch/1047453/ to see
		413	* discussion about such a case (ttys) where polling for POLLIN
		414	* fails but POLLIN\|POLLOUT works.
344	*/	415	*/
345	struct iocb *iocb = linuxaio_submits [submitted];	416	struct iocb *iocb = linuxaio_submits [submitted];
		417	epoll_modify (EV_A_ iocb->aio_fildes, 0, anfds [iocb->aio_fildes].events);
		418	iocb->aio_reqprio = -1; /* mark iocb as epoll */
		419
		420	res = 1; /* skip this iocb - another iocb, another chance */
		421	}
		422	else if (errno == EAGAIN)
		423	{
		424	/* This happens when the ring buffer is full, or some other shit we
		425	* don't know and isn't documented. Most likely because we have too
		426	* many requests and linux aio can't be assed to handle them.
		427	* In this case, we try to allocate a larger ring buffer, freeing
		428	* ours first. This might fail, in which case we have to fall back to 100%
		429	* epoll.
		430	* God, how I hate linux not getting its act together. Ever.
		431	*/
		432	evsys_io_destroy (linuxaio_ctx);
		433	linuxaio_submitcnt = 0;
		434
		435	/* rearm all fds with active iocbs */
		436	{
		437	int fd;
		438	for (fd = 0; fd < linuxaio_iocbpmax; ++fd)
		439	if (linuxaio_iocbps [fd]->io.aio_buf)
		440	linuxaio_fd_rearm (EV_A_ fd);
		441	}
		442
		443	++linuxaio_iteration;
		444	if (linuxaio_io_setup (EV_A) < 0)
		445	{
		446	/* to bad, we can't get a new aio context, go 100% epoll */
		447	linuxaio_free_iocbp (EV_A);
		448	ev_io_stop (EV_A_ &linuxaio_epoll_w);
		449	ev_ref (EV_A);
		450	linuxaio_ctx = 0;
		451	backend_modify = epoll_modify;
		452	backend_poll = epoll_poll;
		453	}
		454
		455	timeout = 0;
		456	/* it's easiest to handle this mess in another iteration */
		457	return;
		458	}
		459	else if (errno == EBADF)
		460	{
		461	fd_kill (EV_A_ linuxaio_submits [submitted]->aio_fildes);
		462
346	res = 1; /* skip this iocb */	463	res = 1; /* skip this iocb */
347
348	linuxaio_rearm_epoll (EV_A_ iocb, EPOLL_CTL_ADD);
349	iocb->aio_reqprio = -1; /* mark iocb as epoll */
350	}	464	}
351	#endif
352	else	465	else
353	ev_syserr ("(libev) linuxaio io_submit");	466	ev_syserr ("(libev) linuxaio io_submit");
354		467
355	submitted += res;	468	submitted += res;
356	}	469	}
…		…
360	/* second phase: fetch and parse events */	473	/* second phase: fetch and parse events */
361		474
362	linuxaio_get_events (EV_A_ timeout);	475	linuxaio_get_events (EV_A_ timeout);
363	}	476	}
364		477
365	#if EPOLL_FALLBACK
366
367	static void
368	linuxaio_epoll_cb (EV_P_ struct ev_io *w, int revents)
369	{
370	struct epoll_event events[16];
371
372	for (;;)
373	{
374	int idx;
375	int res = epoll_wait (backend_fd, events, sizeof (events) / sizeof (events [0]), 0);
376
377	if (ecb_expect_false (res < 0))
378	ev_syserr ("(libev) linuxaio epoll_wait");
379	else if (!res)
380	break;
381
382	for (idx = res; idx--; )
383	{
384	int fd = events [idx].data.fd;
385	uint32_t ev = events [idx].events;
386
387	assert (("libev: iocb fd must be in-bounds", fd >= 0 && fd < anfdmax));
388
389	linuxaio_rearm_epoll (EV_A_ &linuxaio_iocbps [fd]->io, EPOLL_CTL_MOD);
390
391	fd_event (EV_A_ fd,
392	(ev & (EPOLLOUT \| EPOLLERR \| EPOLLHUP) ? EV_WRITE : 0)
393	\| (ev & (EPOLLIN \| EPOLLERR \| EPOLLHUP) ? EV_READ : 0));
394	}
395
396	if (res < sizeof (events) / sizeof (events [0]))
397	break;
398	}
399	}
400
401	#endif
402
403	inline_size	478	inline_size
404	int	479	int
405	linuxaio_init (EV_P_ int flags)	480	linuxaio_init (EV_P_ int flags)
406	{	481	{
407	/* would be great to have a nice test for IOCB_CMD_POLL instead */	482	/* would be great to have a nice test for IOCB_CMD_POLL instead */
408	/* also: test some semi-common fd types, such as files and ttys in recommended_backends */	483	/* also: test some semi-common fd types, such as files and ttys in recommended_backends */
409	if (ev_linux_version () < 0x041200) /* 4.18 introduced IOCB_CMD_POLL */	484	/* 4.18 introduced IOCB_CMD_POLL, 4.19 made epoll work, and we need that */
		485	if (ev_linux_version () < 0x041300)
410	return 0;	486	return 0;
411		487
412	linuxaio_ctx = 0;	488	if (!epoll_init (EV_A_ 0))
413	if (ev_io_setup (EV_LINUXAIO_DEPTH, &linuxaio_ctx) < 0)
414	return 0;	489	return 0;
415		490
416	#if EPOLL_FALLBACK	491	linuxaio_iteration = 0;
417	backend_fd = ev_epoll_create ();	492
418	if (backend_fd < 0)	493	if (linuxaio_io_setup (EV_A) < 0)
419	{	494	{
420	ev_io_destroy (linuxaio_ctx);	495	epoll_destroy (EV_A);
421	return 0;	496	return 0;
422	}	497	}
423		498
424	ev_io_init (EV_A_ &linuxaio_epoll_w, linuxaio_epoll_cb, backend_fd, EV_READ);	499	ev_io_init (EV_A_ &linuxaio_epoll_w, linuxaio_epoll_cb, backend_fd, EV_READ);
		500	ev_set_priority (&linuxaio_epoll_w, EV_MAXPRI);
425	ev_io_start (EV_A_ &linuxaio_epoll_w);	501	ev_io_start (EV_A_ &linuxaio_epoll_w);
426	#endif	502	ev_unref (EV_A); /* watcher should not keep loop alive */
427		503
428	backend_modify = linuxaio_modify;	504	backend_modify = linuxaio_modify;
429	backend_poll = linuxaio_poll;	505	backend_poll = linuxaio_poll;
430		506
431	linuxaio_iocbpmax = 0;	507	linuxaio_iocbpmax = 0;
…		…
440		516
441	inline_size	517	inline_size
442	void	518	void
443	linuxaio_destroy (EV_P)	519	linuxaio_destroy (EV_P)
444	{	520	{
445	#if EPOLL_FALLBACK	521	epoll_destroy (EV_A);
446	close (backend_fd);
447	#endif
448	linuxaio_free_iocbp (EV_A);	522	linuxaio_free_iocbp (EV_A);
449	ev_io_destroy (linuxaio_ctx);	523	evsys_io_destroy (linuxaio_ctx);
450	}	524	}
451		525
452	inline_size	526	inline_size
453	void	527	void
454	linuxaio_fork (EV_P)	528	linuxaio_fork (EV_P)
455	{	529	{
456	/* this frees all iocbs, which is very heavy-handed */	530	/* this frees all iocbs, which is very heavy-handed */
457	linuxaio_destroy (EV_A);	531	linuxaio_destroy (EV_A);
458	linuxaio_submitcnt = 0; /* all pointers were invalidated */	532	linuxaio_submitcnt = 0; /* all pointers were invalidated */
459		533
460	linuxaio_ctx = 0;	534	linuxaio_iteration = 0; /* we start over in the child */
461	while (ev_io_setup (EV_LINUXAIO_DEPTH, &linuxaio_ctx) < 0)	535
		536	while (linuxaio_io_setup (EV_A) < 0)
462	ev_syserr ("(libev) linuxaio io_setup");	537	ev_syserr ("(libev) linuxaio io_setup");
463		538
464	#if EPOLL_FALLBACK	539	epoll_fork (EV_A);
465	while ((backend_fd = ev_epoll_create ()) < 0)
466	ev_syserr ("(libev) linuxaio epoll_create");
467		540
468	ev_io_stop (EV_A_ &linuxaio_epoll_w);	541	ev_io_stop (EV_A_ &linuxaio_epoll_w);
469	ev_io_init (EV_A_ &linuxaio_epoll_w, linuxaio_epoll_cb, backend_fd, EV_READ);	542	ev_io_set (EV_A_ &linuxaio_epoll_w, backend_fd, EV_READ);
470	ev_io_start (EV_A_ &linuxaio_epoll_w);	543	ev_io_start (EV_A_ &linuxaio_epoll_w);
471	ev_unref (EV_A); /* watcher should not keep loop alive */
472	#endif
473		544
		545	/* epoll_fork already did this. hopefully */
474	fd_rearm_all (EV_A);	546	/fd_rearm_all (EV_A);/
475	}	547	}
476		548

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Comparing libev/ev_linuxaio.c (file contents): Revision 1.13 by root, Sun Jun 23 23:38:38 2019 UTC vs. Revision 1.28 by root, Tue Jun 25 06:36:59 2019 UTC

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Comparing libev/ev_linuxaio.c (file contents):
Revision 1.13 by root, Sun Jun 23 23:38:38 2019 UTC vs.
Revision 1.28 by root, Tue Jun 25 06:36:59 2019 UTC