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diff --git a/contrib/libev/ev_linuxaio.c b/contrib/libev/ev_linuxaio.c
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+/*
+ * libev linux aio fd activity backend
+ *
+ * Copyright (c) 2019 Marc Alexander Lehmann <libev@schmorp.de>
+ * All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without modifica-
+ * tion, are permitted provided that the following conditions are met:
+ *
+ * 1. Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the following disclaimer.
+ *
+ * 2. Redistributions in binary form must reproduce the above copyright
+ * notice, this list of conditions and the following disclaimer in the
+ * documentation and/or other materials provided with the distribution.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MER-
+ * CHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
+ * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPE-
+ * CIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
+ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
+ * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTH-
+ * ERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
+ * OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ * Alternatively, the contents of this file may be used under the terms of
+ * the GNU General Public License ("GPL") version 2 or any later version,
+ * in which case the provisions of the GPL are applicable instead of
+ * the above. If you wish to allow the use of your version of this file
+ * only under the terms of the GPL and not to allow others to use your
+ * version of this file under the BSD license, indicate your decision
+ * by deleting the provisions above and replace them with the notice
+ * and other provisions required by the GPL. If you do not delete the
+ * provisions above, a recipient may use your version of this file under
+ * either the BSD or the GPL.
+ */
+
+/*
+ * general notes about linux aio:
+ *
+ * a) at first, the linux aio IOCB_CMD_POLL functionality introduced in
+ * 4.18 looks too good to be true: both watchers and events can be
+ * batched, and events can even be handled in userspace using
+ * a ring buffer shared with the kernel. watchers can be canceled
+ * regardless of whether the fd has been closed. no problems with fork.
+ * ok, the ring buffer is 200% undocumented (there isn't even a
+ * header file), but otherwise, it's pure bliss!
+ * b) ok, watchers are one-shot, so you have to re-arm active ones
+ * on every iteration. so much for syscall-less event handling,
+ * but at least these re-arms can be batched, no big deal, right?
+ * c) well, linux as usual: the documentation lies to you: io_submit
+ * sometimes returns EINVAL because the kernel doesn't feel like
+ * handling your poll mask - ttys can be polled for POLLOUT,
+ * POLLOUT|POLLIN, but polling for POLLIN fails. just great,
+ * so we have to fall back to something else (hello, epoll),
+ * but at least the fallback can be slow, because these are
+ * exceptional cases, right?
+ * d) hmm, you have to tell the kernel the maximum number of watchers
+ * you want to queue when initialising the aio context. but of
+ * course the real limit is magically calculated in the kernel, and
+ * is often higher then we asked for. so we just have to destroy
+ * the aio context and re-create it a bit larger if we hit the limit.
+ * (starts to remind you of epoll? well, it's a bit more deterministic
+ * and less gambling, but still ugly as hell).
+ * e) that's when you find out you can also hit an arbitrary system-wide
+ * limit. or the kernel simply doesn't want to handle your watchers.
+ * what the fuck do we do then? you guessed it, in the middle
+ * of event handling we have to switch to 100% epoll polling. and
+ * that better is as fast as normal epoll polling, so you practically
+ * have to use the normal epoll backend with all its quirks.
+ * f) end result of this train wreck: it inherits all the disadvantages
+ * from epoll, while adding a number on its own. why even bother to use
+ * it? because if conditions are right and your fds are supported and you
+ * don't hit a limit, this backend is actually faster, doesn't gamble with
+ * your fds, batches watchers and events and doesn't require costly state
+ * recreates. well, until it does.
+ * g) all of this makes this backend use almost twice as much code as epoll.
+ * which in turn uses twice as much code as poll. and that#s not counting
+ * the fact that this backend also depends on the epoll backend, making
+ * it three times as much code as poll, or kqueue.
+ * h) bleah. why can't linux just do kqueue. sure kqueue is ugly, but by now
+ * it's clear that whatever linux comes up with is far, far, far worse.
+ */
+
+#include <sys/time.h> /* actually linux/time.h, but we must assume they are compatible */
+#include <poll.h>
+#include <linux/aio_abi.h>
+
+/*****************************************************************************/
+/* syscall wrapdadoop - this section has the raw api/abi definitions */
+
+#include <sys/syscall.h> /* no glibc wrappers */
+
+/* aio_abi.h is not versioned in any way, so we cannot test for its existance */
+#define IOCB_CMD_POLL 5
+
+/* taken from linux/fs/aio.c. yup, that's a .c file.
+ * not only is this totally undocumented, not even the source code
+ * can tell you what the future semantics of compat_features and
+ * incompat_features are, or what header_length actually is for.
+ */
+#define AIO_RING_MAGIC 0xa10a10a1
+#define EV_AIO_RING_INCOMPAT_FEATURES 0
+struct aio_ring
+{
+ unsigned id; /* kernel internal index number */
+ unsigned nr; /* number of io_events */
+ unsigned head; /* Written to by userland or by kernel. */
+ unsigned tail;
+
+ unsigned magic;
+ unsigned compat_features;
+ unsigned incompat_features;
+ unsigned header_length; /* size of aio_ring */
+
+ struct io_event io_events[0];
+};
+
+inline_size
+int
+evsys_io_setup (unsigned nr_events, aio_context_t *ctx_idp)
+{
+ return ev_syscall2 (SYS_io_setup, nr_events, ctx_idp);
+}
+
+inline_size
+int
+evsys_io_destroy (aio_context_t ctx_id)
+{
+ return ev_syscall1 (SYS_io_destroy, ctx_id);
+}
+
+inline_size
+int
+evsys_io_submit (aio_context_t ctx_id, long nr, struct iocb *cbp[])
+{
+ return ev_syscall3 (SYS_io_submit, ctx_id, nr, cbp);
+}
+
+inline_size
+int
+evsys_io_cancel (aio_context_t ctx_id, struct iocb *cbp, struct io_event *result)
+{
+ return ev_syscall3 (SYS_io_cancel, ctx_id, cbp, result);
+}
+
+inline_size
+int
+evsys_io_getevents (aio_context_t ctx_id, long min_nr, long nr, struct io_event *events, struct timespec *timeout)
+{
+ return ev_syscall5 (SYS_io_getevents, ctx_id, min_nr, nr, events, timeout);
+}
+
+/*****************************************************************************/
+/* actual backed implementation */
+
+ecb_cold
+static int
+linuxaio_nr_events (EV_P)
+{
+ /* we start with 16 iocbs and incraese from there
+ * that's tiny, but the kernel has a rather low system-wide
+ * limit that can be reached quickly, so let's be parsimonious
+ * with this resource.
+ * Rest assured, the kernel generously rounds up small and big numbers
+ * in different ways (but doesn't seem to charge you for it).
+ * The 15 here is because the kernel usually has a power of two as aio-max-nr,
+ * and this helps to take advantage of that limit.
+ */
+
+ /* we try to fill 4kB pages exactly.
+ * the ring buffer header is 32 bytes, every io event is 32 bytes.
+ * the kernel takes the io requests number, doubles it, adds 2
+ * and adds the ring buffer.
+ * the way we use this is by starting low, and then roughly doubling the
+ * size each time we hit a limit.
+ */
+
+ int requests = 15 << linuxaio_iteration;
+ int one_page = (4096
+ / sizeof (struct io_event) ) / 2; /* how many fit into one page */
+ int first_page = ((4096 - sizeof (struct aio_ring))
+ / sizeof (struct io_event) - 2) / 2; /* how many fit into the first page */
+
+ /* if everything fits into one page, use count exactly */
+ if (requests > first_page)
+ /* otherwise, round down to full pages and add the first page */
+ requests = requests / one_page * one_page + first_page;
+
+ return requests;
+}
+
+/* we use out own wrapper structure in case we ever want to do something "clever" */
+typedef struct aniocb
+{
+ struct iocb io;
+ /*int inuse;*/
+} *ANIOCBP;
+
+inline_size
+void
+linuxaio_array_needsize_iocbp (ANIOCBP *base, int offset, int count)
+{
+ while (count--)
+ {
+ /* TODO: quite the overhead to allocate every iocb separately, maybe use our own allocator? */
+ ANIOCBP iocb = (ANIOCBP)ev_malloc (sizeof (*iocb));
+
+ /* full zero initialise is probably not required at the moment, but
+ * this is not well documented, so we better do it.
+ */
+ memset (iocb, 0, sizeof (*iocb));
+
+ iocb->io.aio_lio_opcode = IOCB_CMD_POLL;
+ iocb->io.aio_fildes = offset;
+
+ base [offset++] = iocb;
+ }
+}
+
+ecb_cold
+static void
+linuxaio_free_iocbp (EV_P)
+{
+ while (linuxaio_iocbpmax--)
+ ev_free (linuxaio_iocbps [linuxaio_iocbpmax]);
+
+ linuxaio_iocbpmax = 0; /* next resize will completely reallocate the array, at some overhead */
+}
+
+static void
+linuxaio_modify (EV_P_ int fd, int oev, int nev)
+{
+ array_needsize (ANIOCBP, linuxaio_iocbps, linuxaio_iocbpmax, fd + 1, linuxaio_array_needsize_iocbp);
+ ANIOCBP iocb = linuxaio_iocbps [fd];
+ ANFD *anfd = &anfds [fd];
+
+ if (ecb_expect_false (iocb->io.aio_reqprio < 0))
+ {
+ /* we handed this fd over to epoll, so undo this first */
+ /* we do it manually because the optimisations on epoll_modify won't do us any good */
+ epoll_ctl (backend_fd, EPOLL_CTL_DEL, fd, 0);
+ anfd->emask = 0;
+ iocb->io.aio_reqprio = 0;
+ }
+ else if (ecb_expect_false (iocb->io.aio_buf))
+ {
+ /* iocb active, so cancel it first before resubmit */
+ /* this assumes we only ever get one call per fd per loop iteration */
+ for (;;)
+ {
+ /* on all relevant kernels, io_cancel fails with EINPROGRESS on "success" */
+ if (ecb_expect_false (evsys_io_cancel (linuxaio_ctx, &iocb->io, (struct io_event *)0) == 0))
+ break;
+
+ if (ecb_expect_true (errno == EINPROGRESS))
+ break;
+
+ /* the EINPROGRESS test is for nicer error message. clumsy. */
+ if (errno != EINTR)
+ {
+ assert (("libev: linuxaio unexpected io_cancel failed", errno != EINTR && errno != EINPROGRESS));
+ break;
+ }
+ }
+
+ /* increment generation counter to avoid handling old events */
+ ++anfd->egen;
+ }
+
+ iocb->io.aio_buf = (nev & EV_READ ? POLLIN : 0)
+ | (nev & EV_WRITE ? POLLOUT : 0);
+
+ if (nev)
+ {
+ iocb->io.aio_data = (uint32_t)fd | ((__u64)(uint32_t)anfd->egen << 32);
+
+ /* queue iocb up for io_submit */
+ /* this assumes we only ever get one call per fd per loop iteration */
+ ++linuxaio_submitcnt;
+ array_needsize (struct iocb *, linuxaio_submits, linuxaio_submitmax, linuxaio_submitcnt, array_needsize_noinit);
+ linuxaio_submits [linuxaio_submitcnt - 1] = &iocb->io;
+ }
+}
+
+static void
+linuxaio_epoll_cb (EV_P_ struct ev_io *w, int revents)
+{
+ epoll_poll (EV_A_ 0);
+}
+
+inline_speed
+void
+linuxaio_fd_rearm (EV_P_ int fd)
+{
+ anfds [fd].events = 0;
+ linuxaio_iocbps [fd]->io.aio_buf = 0;
+ fd_change (EV_A_ fd, EV_ANFD_REIFY);
+}
+
+static void
+linuxaio_parse_events (EV_P_ struct io_event *ev, int nr)
+{
+ while (nr)
+ {
+ int fd = ev->data & 0xffffffff;
+ uint32_t gen = ev->data >> 32;
+ int res = ev->res;
+
+ assert (("libev: iocb fd must be in-bounds", fd >= 0 && fd < anfdmax));
+
+ /* only accept events if generation counter matches */
+ if (ecb_expect_true (gen == (uint32_t)anfds [fd].egen))
+ {
+ /* feed events, we do not expect or handle POLLNVAL */
+ fd_event (
+ EV_A_
+ fd,
+ (res & (POLLOUT | POLLERR | POLLHUP) ? EV_WRITE : 0)
+ | (res & (POLLIN | POLLERR | POLLHUP) ? EV_READ : 0)
+ );
+
+ /* linux aio is oneshot: rearm fd. TODO: this does more work than strictly needed */
+ linuxaio_fd_rearm (EV_A_ fd);
+ }
+
+ --nr;
+ ++ev;
+ }
+}
+
+/* get any events from ring buffer, return true if any were handled */
+static int
+linuxaio_get_events_from_ring (EV_P)
+{
+ struct aio_ring *ring = (struct aio_ring *)linuxaio_ctx;
+ unsigned head, tail;
+
+ /* the kernel reads and writes both of these variables, */
+ /* as a C extension, we assume that volatile use here */
+ /* both makes reads atomic and once-only */
+ head = *(volatile unsigned *)&ring->head;
+ ECB_MEMORY_FENCE_ACQUIRE;
+ tail = *(volatile unsigned *)&ring->tail;
+
+ if (head == tail)
+ return 0;
+
+ /* parse all available events, but only once, to avoid starvation */
+ if (ecb_expect_true (tail > head)) /* normal case around */
+ linuxaio_parse_events (EV_A_ ring->io_events + head, tail - head);
+ else /* wrapped around */
+ {
+ linuxaio_parse_events (EV_A_ ring->io_events + head, ring->nr - head);
+ linuxaio_parse_events (EV_A_ ring->io_events, tail);
+ }
+
+ ECB_MEMORY_FENCE_RELEASE;
+ /* as an extension to C, we hope that the volatile will make this atomic and once-only */
+ *(volatile unsigned *)&ring->head = tail;
+
+ return 1;
+}
+
+inline_size
+int
+linuxaio_ringbuf_valid (EV_P)
+{
+ struct aio_ring *ring = (struct aio_ring *)linuxaio_ctx;
+
+ return ecb_expect_true (ring->magic == AIO_RING_MAGIC)
+ && ring->incompat_features == EV_AIO_RING_INCOMPAT_FEATURES
+ && ring->header_length == sizeof (struct aio_ring); /* TODO: or use it to find io_event[0]? */
+}
+
+/* read at least one event from kernel, or timeout */
+inline_size
+void
+linuxaio_get_events (EV_P_ ev_tstamp timeout)
+{
+ struct timespec ts;
+ struct io_event ioev[8]; /* 256 octet stack space */
+ int want = 1; /* how many events to request */
+ int ringbuf_valid = linuxaio_ringbuf_valid (EV_A);
+
+ if (ecb_expect_true (ringbuf_valid))
+ {
+ /* if the ring buffer has any events, we don't wait or call the kernel at all */
+ if (linuxaio_get_events_from_ring (EV_A))
+ return;
+
+ /* if the ring buffer is empty, and we don't have a timeout, then don't call the kernel */
+ if (!timeout)
+ return;
+ }
+ else
+ /* no ringbuffer, request slightly larger batch */
+ want = sizeof (ioev) / sizeof (ioev [0]);
+
+ /* no events, so wait for some
+ * for fairness reasons, we do this in a loop, to fetch all events
+ */
+ for (;;)
+ {
+ int res;
+
+ EV_RELEASE_CB;
+
+ EV_TS_SET (ts, timeout);
+ res = evsys_io_getevents (linuxaio_ctx, 1, want, ioev, &ts);
+
+ EV_ACQUIRE_CB;
+
+ if (res < 0)
+ if (errno == EINTR)
+ /* ignored, retry */;
+ else
+ ev_syserr ("(libev) linuxaio io_getevents");
+ else if (res)
+ {
+ /* at least one event available, handle them */
+ linuxaio_parse_events (EV_A_ ioev, res);
+
+ if (ecb_expect_true (ringbuf_valid))
+ {
+ /* if we have a ring buffer, handle any remaining events in it */
+ linuxaio_get_events_from_ring (EV_A);
+
+ /* at this point, we should have handled all outstanding events */
+ break;
+ }
+ else if (res < want)
+ /* otherwise, if there were fewere events than we wanted, we assume there are no more */
+ break;
+ }
+ else
+ break; /* no events from the kernel, we are done */
+
+ timeout = EV_TS_CONST (0.); /* only wait in the first iteration */
+ }
+}
+
+inline_size
+int
+linuxaio_io_setup (EV_P)
+{
+ linuxaio_ctx = 0;
+ return evsys_io_setup (linuxaio_nr_events (EV_A), &linuxaio_ctx);
+}
+
+static void
+linuxaio_poll (EV_P_ ev_tstamp timeout)
+{
+ int submitted;
+
+ /* first phase: submit new iocbs */
+
+ /* io_submit might return less than the requested number of iocbs */
+ /* this is, afaics, only because of errors, but we go by the book and use a loop, */
+ /* which allows us to pinpoint the erroneous iocb */
+ for (submitted = 0; submitted < linuxaio_submitcnt; )
+ {
+ int res = evsys_io_submit (linuxaio_ctx, linuxaio_submitcnt - submitted, linuxaio_submits + submitted);
+
+ if (ecb_expect_false (res < 0))
+ if (errno == EINVAL)
+ {
+ /* This happens for unsupported fds, officially, but in my testing,
+ * also randomly happens for supported fds. We fall back to good old
+ * poll() here, under the assumption that this is a very rare case.
+ * See https://lore.kernel.org/patchwork/patch/1047453/ to see
+ * discussion about such a case (ttys) where polling for POLLIN
+ * fails but POLLIN|POLLOUT works.
+ */
+ struct iocb *iocb = linuxaio_submits [submitted];
+ epoll_modify (EV_A_ iocb->aio_fildes, 0, anfds [iocb->aio_fildes].events);
+ iocb->aio_reqprio = -1; /* mark iocb as epoll */
+
+ res = 1; /* skip this iocb - another iocb, another chance */
+ }
+ else if (errno == EAGAIN)
+ {
+ /* This happens when the ring buffer is full, or some other shit we
+ * don't know and isn't documented. Most likely because we have too
+ * many requests and linux aio can't be assed to handle them.
+ * In this case, we try to allocate a larger ring buffer, freeing
+ * ours first. This might fail, in which case we have to fall back to 100%
+ * epoll.
+ * God, how I hate linux not getting its act together. Ever.
+ */
+ evsys_io_destroy (linuxaio_ctx);
+ linuxaio_submitcnt = 0;
+
+ /* rearm all fds with active iocbs */
+ {
+ int fd;
+ for (fd = 0; fd < linuxaio_iocbpmax; ++fd)
+ if (linuxaio_iocbps [fd]->io.aio_buf)
+ linuxaio_fd_rearm (EV_A_ fd);
+ }
+
+ ++linuxaio_iteration;
+ if (linuxaio_io_setup (EV_A) < 0)
+ {
+ /* TODO: rearm all and recreate epoll backend from scratch */
+ /* TODO: might be more prudent? */
+
+ /* to bad, we can't get a new aio context, go 100% epoll */
+ linuxaio_free_iocbp (EV_A);
+ ev_io_stop (EV_A_ &linuxaio_epoll_w);
+ ev_ref (EV_A);
+ linuxaio_ctx = 0;
+
+ backend = EVBACKEND_EPOLL;
+ backend_modify = epoll_modify;
+ backend_poll = epoll_poll;
+ }
+
+ timeout = EV_TS_CONST (0.);
+ /* it's easiest to handle this mess in another iteration */
+ return;
+ }
+ else if (errno == EBADF)
+ {
+ assert (("libev: event loop rejected bad fd", errno != EBADF));
+ fd_kill (EV_A_ linuxaio_submits [submitted]->aio_fildes);
+
+ res = 1; /* skip this iocb */
+ }
+ else if (errno == EINTR) /* not seen in reality, not documented */
+ res = 0; /* silently ignore and retry */
+ else
+ {
+ ev_syserr ("(libev) linuxaio io_submit");
+ res = 0;
+ }
+
+ submitted += res;
+ }
+
+ linuxaio_submitcnt = 0;
+
+ /* second phase: fetch and parse events */
+
+ linuxaio_get_events (EV_A_ timeout);
+}
+
+inline_size
+int
+linuxaio_init (EV_P_ int flags)
+{
+ /* would be great to have a nice test for IOCB_CMD_POLL instead */
+ /* also: test some semi-common fd types, such as files and ttys in recommended_backends */
+ /* 4.18 introduced IOCB_CMD_POLL, 4.19 made epoll work, and we need that */
+ if (ev_linux_version () < 0x041300)
+ return 0;
+
+ if (!epoll_init (EV_A_ 0))
+ return 0;
+
+ linuxaio_iteration = 0;
+
+ if (linuxaio_io_setup (EV_A) < 0)
+ {
+ epoll_destroy (EV_A);
+ return 0;
+ }
+
+ ev_io_init (&linuxaio_epoll_w, linuxaio_epoll_cb, backend_fd, EV_READ);
+ ev_set_priority (&linuxaio_epoll_w, EV_MAXPRI);
+ ev_io_start (EV_A_ &linuxaio_epoll_w);
+ ev_unref (EV_A); /* watcher should not keep loop alive */
+
+ backend_modify = linuxaio_modify;
+ backend_poll = linuxaio_poll;
+
+ linuxaio_iocbpmax = 0;
+ linuxaio_iocbps = 0;
+
+ linuxaio_submits = 0;
+ linuxaio_submitmax = 0;
+ linuxaio_submitcnt = 0;
+
+ return EVBACKEND_LINUXAIO;
+}
+
+inline_size
+void
+linuxaio_destroy (EV_P)
+{
+ epoll_destroy (EV_A);
+ linuxaio_free_iocbp (EV_A);
+ evsys_io_destroy (linuxaio_ctx); /* fails in child, aio context is destroyed */
+}
+
+ecb_cold
+static void
+linuxaio_fork (EV_P)
+{
+ linuxaio_submitcnt = 0; /* all pointers were invalidated */
+ linuxaio_free_iocbp (EV_A); /* this frees all iocbs, which is very heavy-handed */
+ evsys_io_destroy (linuxaio_ctx); /* fails in child, aio context is destroyed */
+
+ linuxaio_iteration = 0; /* we start over in the child */
+
+ while (linuxaio_io_setup (EV_A) < 0)
+ ev_syserr ("(libev) linuxaio io_setup");
+
+ /* forking epoll should also effectively unregister all fds from the backend */
+ epoll_fork (EV_A);
+ /* epoll_fork already did this. hopefully */
+ /*fd_rearm_all (EV_A);*/
+
+ ev_io_stop (EV_A_ &linuxaio_epoll_w);
+ ev_io_set (EV_A_ &linuxaio_epoll_w, backend_fd, EV_READ);
+ ev_io_start (EV_A_ &linuxaio_epoll_w);
+}
+