qemu/block/io_uring.c

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/*
* Linux io_uring support.
*
* Copyright (C) 2009 IBM, Corp.
* Copyright (C) 2009 Red Hat, Inc.
* Copyright (C) 2019 Aarushi Mehta
*
* This work is licensed under the terms of the GNU GPL, version 2 or later.
* See the COPYING file in the top-level directory.
*/
#include "qemu/osdep.h"
#include <liburing.h>
#include "block/aio.h"
#include "qemu/queue.h"
#include "block/block.h"
#include "block/raw-aio.h"
#include "qemu/coroutine.h"
#include "qemu/defer-call.h"
#include "qapi/error.h"
#include "sysemu/block-backend.h"
#include "trace.h"
/* Only used for assertions. */
#include "qemu/coroutine_int.h"
/* io_uring ring size */
#define MAX_ENTRIES 128
typedef struct LuringAIOCB {
Coroutine *co;
struct io_uring_sqe sqeq;
ssize_t ret;
QEMUIOVector *qiov;
bool is_read;
QSIMPLEQ_ENTRY(LuringAIOCB) next;
/*
* Buffered reads may require resubmission, see
* luring_resubmit_short_read().
*/
int total_read;
QEMUIOVector resubmit_qiov;
} LuringAIOCB;
typedef struct LuringQueue {
unsigned int in_queue;
unsigned int in_flight;
bool blocked;
QSIMPLEQ_HEAD(, LuringAIOCB) submit_queue;
} LuringQueue;
struct LuringState {
AioContext *aio_context;
struct io_uring ring;
/* No locking required, only accessed from AioContext home thread */
LuringQueue io_q;
QEMUBH *completion_bh;
};
/**
* luring_resubmit:
*
* Resubmit a request by appending it to submit_queue. The caller must ensure
* that ioq_submit() is called later so that submit_queue requests are started.
*/
static void luring_resubmit(LuringState *s, LuringAIOCB *luringcb)
{
QSIMPLEQ_INSERT_TAIL(&s->io_q.submit_queue, luringcb, next);
s->io_q.in_queue++;
}
/**
* luring_resubmit_short_read:
*
* Short reads are rare but may occur. The remaining read request needs to be
* resubmitted.
*/
static void luring_resubmit_short_read(LuringState *s, LuringAIOCB *luringcb,
int nread)
{
QEMUIOVector *resubmit_qiov;
size_t remaining;
trace_luring_resubmit_short_read(s, luringcb, nread);
/* Update read position */
luringcb->total_read += nread;
remaining = luringcb->qiov->size - luringcb->total_read;
/* Shorten qiov */
resubmit_qiov = &luringcb->resubmit_qiov;
if (resubmit_qiov->iov == NULL) {
qemu_iovec_init(resubmit_qiov, luringcb->qiov->niov);
} else {
qemu_iovec_reset(resubmit_qiov);
}
qemu_iovec_concat(resubmit_qiov, luringcb->qiov, luringcb->total_read,
remaining);
/* Update sqe */
luringcb->sqeq.off += nread;
luringcb->sqeq.addr = (uintptr_t)luringcb->resubmit_qiov.iov;
luringcb->sqeq.len = luringcb->resubmit_qiov.niov;
luring_resubmit(s, luringcb);
}
/**
* luring_process_completions:
* @s: AIO state
*
* Fetches completed I/O requests, consumes cqes and invokes their callbacks
* The function is somewhat tricky because it supports nested event loops, for
* example when a request callback invokes aio_poll().
*
* Function schedules BH completion so it can be called again in a nested
* event loop. When there are no events left to complete the BH is being
* canceled.
*
*/
static void luring_process_completions(LuringState *s)
{
struct io_uring_cqe *cqes;
int total_bytes;
defer_call_begin();
/*
* Request completion callbacks can run the nested event loop.
* Schedule ourselves so the nested event loop will "see" remaining
* completed requests and process them. Without this, completion
* callbacks that wait for other requests using a nested event loop
* would hang forever.
*
* This workaround is needed because io_uring uses poll_wait, which
* is woken up when new events are added to the uring, thus polling on
* the same uring fd will block unless more events are received.
*
* Other leaf block drivers (drivers that access the data themselves)
* are networking based, so they poll sockets for data and run the
* correct coroutine.
*/
qemu_bh_schedule(s->completion_bh);
while (io_uring_peek_cqe(&s->ring, &cqes) == 0) {
LuringAIOCB *luringcb;
int ret;
if (!cqes) {
break;
}
luringcb = io_uring_cqe_get_data(cqes);
ret = cqes->res;
io_uring_cqe_seen(&s->ring, cqes);
cqes = NULL;
/* Change counters one-by-one because we can be nested. */
s->io_q.in_flight--;
trace_luring_process_completion(s, luringcb, ret);
/* total_read is non-zero only for resubmitted read requests */
total_bytes = ret + luringcb->total_read;
if (ret < 0) {
/*
* Only writev/readv/fsync requests on regular files or host block
* devices are submitted. Therefore -EAGAIN is not expected but it's
* known to happen sometimes with Linux SCSI. Submit again and hope
* the request completes successfully.
*
* For more information, see:
* https://lore.kernel.org/io-uring/20210727165811.284510-3-axboe@kernel.dk/T/#u
*
* If the code is changed to submit other types of requests in the
* future, then this workaround may need to be extended to deal with
* genuine -EAGAIN results that should not be resubmitted
* immediately.
*/
if (ret == -EINTR || ret == -EAGAIN) {
luring_resubmit(s, luringcb);
continue;
}
} else if (!luringcb->qiov) {
goto end;
} else if (total_bytes == luringcb->qiov->size) {
ret = 0;
/* Only read/write */
} else {
/* Short Read/Write */
if (luringcb->is_read) {
if (ret > 0) {
luring_resubmit_short_read(s, luringcb, ret);
continue;
} else {
/* Pad with zeroes */
qemu_iovec_memset(luringcb->qiov, total_bytes, 0,
luringcb->qiov->size - total_bytes);
ret = 0;
}
} else {
ret = -ENOSPC;
}
}
end:
luringcb->ret = ret;
qemu_iovec_destroy(&luringcb->resubmit_qiov);
/*
* If the coroutine is already entered it must be in ioq_submit()
* and will notice luringcb->ret has been filled in when it
* eventually runs later. Coroutines cannot be entered recursively
* so avoid doing that!
*/
assert(luringcb->co->ctx == s->aio_context);
if (!qemu_coroutine_entered(luringcb->co)) {
aio_co_wake(luringcb->co);
}
}
qemu_bh_cancel(s->completion_bh);
defer_call_end();
}
static int ioq_submit(LuringState *s)
{
int ret = 0;
LuringAIOCB *luringcb, *luringcb_next;
while (s->io_q.in_queue > 0) {
/*
* Try to fetch sqes from the ring for requests waiting in
* the overflow queue
*/
QSIMPLEQ_FOREACH_SAFE(luringcb, &s->io_q.submit_queue, next,
luringcb_next) {
struct io_uring_sqe *sqes = io_uring_get_sqe(&s->ring);
if (!sqes) {
break;
}
/* Prep sqe for submission */
*sqes = luringcb->sqeq;
QSIMPLEQ_REMOVE_HEAD(&s->io_q.submit_queue, next);
}
ret = io_uring_submit(&s->ring);
trace_luring_io_uring_submit(s, ret);
/* Prevent infinite loop if submission is refused */
if (ret <= 0) {
if (ret == -EAGAIN || ret == -EINTR) {
continue;
}
break;
}
s->io_q.in_flight += ret;
s->io_q.in_queue -= ret;
}
s->io_q.blocked = (s->io_q.in_queue > 0);
if (s->io_q.in_flight) {
/*
* We can try to complete something just right away if there are
* still requests in-flight.
*/
luring_process_completions(s);
}
return ret;
}
static void luring_process_completions_and_submit(LuringState *s)
{
luring_process_completions(s);
if (s->io_q.in_queue > 0) {
ioq_submit(s);
}
}
static void qemu_luring_completion_bh(void *opaque)
{
LuringState *s = opaque;
luring_process_completions_and_submit(s);
}
static void qemu_luring_completion_cb(void *opaque)
{
LuringState *s = opaque;
luring_process_completions_and_submit(s);
}
static bool qemu_luring_poll_cb(void *opaque)
{
LuringState *s = opaque;
aio-posix: split poll check from ready handler Adaptive polling measures the execution time of the polling check plus handlers called when a polled event becomes ready. Handlers can take a significant amount of time, making it look like polling was running for a long time when in fact the event handler was running for a long time. For example, on Linux the io_submit(2) syscall invoked when a virtio-blk device's virtqueue becomes ready can take 10s of microseconds. This can exceed the default polling interval (32 microseconds) and cause adaptive polling to stop polling. By excluding the handler's execution time from the polling check we make the adaptive polling calculation more accurate. As a result, the event loop now stays in polling mode where previously it would have fallen back to file descriptor monitoring. The following data was collected with virtio-blk num-queues=2 event_idx=off using an IOThread. Before: 168k IOPS, IOThread syscalls: 9837.115 ( 0.020 ms): IO iothread1/620155 io_submit(ctx_id: 140512552468480, nr: 16, iocbpp: 0x7fcb9f937db0) = 16 9837.158 ( 0.002 ms): IO iothread1/620155 write(fd: 103, buf: 0x556a2ef71b88, count: 8) = 8 9837.161 ( 0.001 ms): IO iothread1/620155 write(fd: 104, buf: 0x556a2ef71b88, count: 8) = 8 9837.163 ( 0.001 ms): IO iothread1/620155 ppoll(ufds: 0x7fcb90002800, nfds: 4, tsp: 0x7fcb9f1342d0, sigsetsize: 8) = 3 9837.164 ( 0.001 ms): IO iothread1/620155 read(fd: 107, buf: 0x7fcb9f939cc0, count: 512) = 8 9837.174 ( 0.001 ms): IO iothread1/620155 read(fd: 105, buf: 0x7fcb9f939cc0, count: 512) = 8 9837.176 ( 0.001 ms): IO iothread1/620155 read(fd: 106, buf: 0x7fcb9f939cc0, count: 512) = 8 9837.209 ( 0.035 ms): IO iothread1/620155 io_submit(ctx_id: 140512552468480, nr: 32, iocbpp: 0x7fca7d0cebe0) = 32 174k IOPS (+3.6%), IOThread syscalls: 9809.566 ( 0.036 ms): IO iothread1/623061 io_submit(ctx_id: 140539805028352, nr: 32, iocbpp: 0x7fd0cdd62be0) = 32 9809.625 ( 0.001 ms): IO iothread1/623061 write(fd: 103, buf: 0x5647cfba5f58, count: 8) = 8 9809.627 ( 0.002 ms): IO iothread1/623061 write(fd: 104, buf: 0x5647cfba5f58, count: 8) = 8 9809.663 ( 0.036 ms): IO iothread1/623061 io_submit(ctx_id: 140539805028352, nr: 32, iocbpp: 0x7fd0d0388b50) = 32 Notice that ppoll(2) and eventfd read(2) syscalls are eliminated because the IOThread stays in polling mode instead of falling back to file descriptor monitoring. As usual, polling is not implemented on Windows so this patch ignores the new io_poll_read() callback in aio-win32.c. Signed-off-by: Stefan Hajnoczi <stefanha@redhat.com> Reviewed-by: Stefano Garzarella <sgarzare@redhat.com> Message-id: 20211207132336.36627-2-stefanha@redhat.com [Fixed up aio_set_event_notifier() calls in tests/unit/test-fdmon-epoll.c added after this series was queued. --Stefan] Signed-off-by: Stefan Hajnoczi <stefanha@redhat.com>
2021-12-07 16:23:31 +03:00
return io_uring_cq_ready(&s->ring);
}
static void qemu_luring_poll_ready(void *opaque)
{
LuringState *s = opaque;
aio-posix: split poll check from ready handler Adaptive polling measures the execution time of the polling check plus handlers called when a polled event becomes ready. Handlers can take a significant amount of time, making it look like polling was running for a long time when in fact the event handler was running for a long time. For example, on Linux the io_submit(2) syscall invoked when a virtio-blk device's virtqueue becomes ready can take 10s of microseconds. This can exceed the default polling interval (32 microseconds) and cause adaptive polling to stop polling. By excluding the handler's execution time from the polling check we make the adaptive polling calculation more accurate. As a result, the event loop now stays in polling mode where previously it would have fallen back to file descriptor monitoring. The following data was collected with virtio-blk num-queues=2 event_idx=off using an IOThread. Before: 168k IOPS, IOThread syscalls: 9837.115 ( 0.020 ms): IO iothread1/620155 io_submit(ctx_id: 140512552468480, nr: 16, iocbpp: 0x7fcb9f937db0) = 16 9837.158 ( 0.002 ms): IO iothread1/620155 write(fd: 103, buf: 0x556a2ef71b88, count: 8) = 8 9837.161 ( 0.001 ms): IO iothread1/620155 write(fd: 104, buf: 0x556a2ef71b88, count: 8) = 8 9837.163 ( 0.001 ms): IO iothread1/620155 ppoll(ufds: 0x7fcb90002800, nfds: 4, tsp: 0x7fcb9f1342d0, sigsetsize: 8) = 3 9837.164 ( 0.001 ms): IO iothread1/620155 read(fd: 107, buf: 0x7fcb9f939cc0, count: 512) = 8 9837.174 ( 0.001 ms): IO iothread1/620155 read(fd: 105, buf: 0x7fcb9f939cc0, count: 512) = 8 9837.176 ( 0.001 ms): IO iothread1/620155 read(fd: 106, buf: 0x7fcb9f939cc0, count: 512) = 8 9837.209 ( 0.035 ms): IO iothread1/620155 io_submit(ctx_id: 140512552468480, nr: 32, iocbpp: 0x7fca7d0cebe0) = 32 174k IOPS (+3.6%), IOThread syscalls: 9809.566 ( 0.036 ms): IO iothread1/623061 io_submit(ctx_id: 140539805028352, nr: 32, iocbpp: 0x7fd0cdd62be0) = 32 9809.625 ( 0.001 ms): IO iothread1/623061 write(fd: 103, buf: 0x5647cfba5f58, count: 8) = 8 9809.627 ( 0.002 ms): IO iothread1/623061 write(fd: 104, buf: 0x5647cfba5f58, count: 8) = 8 9809.663 ( 0.036 ms): IO iothread1/623061 io_submit(ctx_id: 140539805028352, nr: 32, iocbpp: 0x7fd0d0388b50) = 32 Notice that ppoll(2) and eventfd read(2) syscalls are eliminated because the IOThread stays in polling mode instead of falling back to file descriptor monitoring. As usual, polling is not implemented on Windows so this patch ignores the new io_poll_read() callback in aio-win32.c. Signed-off-by: Stefan Hajnoczi <stefanha@redhat.com> Reviewed-by: Stefano Garzarella <sgarzare@redhat.com> Message-id: 20211207132336.36627-2-stefanha@redhat.com [Fixed up aio_set_event_notifier() calls in tests/unit/test-fdmon-epoll.c added after this series was queued. --Stefan] Signed-off-by: Stefan Hajnoczi <stefanha@redhat.com>
2021-12-07 16:23:31 +03:00
luring_process_completions_and_submit(s);
}
static void ioq_init(LuringQueue *io_q)
{
QSIMPLEQ_INIT(&io_q->submit_queue);
io_q->in_queue = 0;
io_q->in_flight = 0;
io_q->blocked = false;
}
static void luring_deferred_fn(void *opaque)
{
LuringState *s = opaque;
trace_luring_unplug_fn(s, s->io_q.blocked, s->io_q.in_queue,
s->io_q.in_flight);
if (!s->io_q.blocked && s->io_q.in_queue > 0) {
ioq_submit(s);
}
}
/**
* luring_do_submit:
* @fd: file descriptor for I/O
* @luringcb: AIO control block
* @s: AIO state
* @offset: offset for request
* @type: type of request
*
* Fetches sqes from ring, adds to pending queue and preps them
*
*/
static int luring_do_submit(int fd, LuringAIOCB *luringcb, LuringState *s,
uint64_t offset, int type)
{
int ret;
struct io_uring_sqe *sqes = &luringcb->sqeq;
switch (type) {
case QEMU_AIO_WRITE:
io_uring_prep_writev(sqes, fd, luringcb->qiov->iov,
luringcb->qiov->niov, offset);
break;
case QEMU_AIO_ZONE_APPEND:
io_uring_prep_writev(sqes, fd, luringcb->qiov->iov,
luringcb->qiov->niov, offset);
break;
case QEMU_AIO_READ:
io_uring_prep_readv(sqes, fd, luringcb->qiov->iov,
luringcb->qiov->niov, offset);
break;
case QEMU_AIO_FLUSH:
io_uring_prep_fsync(sqes, fd, IORING_FSYNC_DATASYNC);
break;
default:
fprintf(stderr, "%s: invalid AIO request type, aborting 0x%x.\n",
__func__, type);
abort();
}
io_uring_sqe_set_data(sqes, luringcb);
QSIMPLEQ_INSERT_TAIL(&s->io_q.submit_queue, luringcb, next);
s->io_q.in_queue++;
trace_luring_do_submit(s, s->io_q.blocked, s->io_q.in_queue,
s->io_q.in_flight);
if (!s->io_q.blocked) {
if (s->io_q.in_flight + s->io_q.in_queue >= MAX_ENTRIES) {
ret = ioq_submit(s);
trace_luring_do_submit_done(s, ret);
return ret;
}
defer_call(luring_deferred_fn, s);
}
return 0;
}
int coroutine_fn luring_co_submit(BlockDriverState *bs, int fd, uint64_t offset,
QEMUIOVector *qiov, int type)
{
int ret;
AioContext *ctx = qemu_get_current_aio_context();
LuringState *s = aio_get_linux_io_uring(ctx);
LuringAIOCB luringcb = {
.co = qemu_coroutine_self(),
.ret = -EINPROGRESS,
.qiov = qiov,
.is_read = (type == QEMU_AIO_READ),
};
trace_luring_co_submit(bs, s, &luringcb, fd, offset, qiov ? qiov->size : 0,
type);
ret = luring_do_submit(fd, &luringcb, s, offset, type);
if (ret < 0) {
return ret;
}
if (luringcb.ret == -EINPROGRESS) {
qemu_coroutine_yield();
}
return luringcb.ret;
}
void luring_detach_aio_context(LuringState *s, AioContext *old_context)
{
aio_set_fd_handler(old_context, s->ring.ring_fd,
aio-posix: split poll check from ready handler Adaptive polling measures the execution time of the polling check plus handlers called when a polled event becomes ready. Handlers can take a significant amount of time, making it look like polling was running for a long time when in fact the event handler was running for a long time. For example, on Linux the io_submit(2) syscall invoked when a virtio-blk device's virtqueue becomes ready can take 10s of microseconds. This can exceed the default polling interval (32 microseconds) and cause adaptive polling to stop polling. By excluding the handler's execution time from the polling check we make the adaptive polling calculation more accurate. As a result, the event loop now stays in polling mode where previously it would have fallen back to file descriptor monitoring. The following data was collected with virtio-blk num-queues=2 event_idx=off using an IOThread. Before: 168k IOPS, IOThread syscalls: 9837.115 ( 0.020 ms): IO iothread1/620155 io_submit(ctx_id: 140512552468480, nr: 16, iocbpp: 0x7fcb9f937db0) = 16 9837.158 ( 0.002 ms): IO iothread1/620155 write(fd: 103, buf: 0x556a2ef71b88, count: 8) = 8 9837.161 ( 0.001 ms): IO iothread1/620155 write(fd: 104, buf: 0x556a2ef71b88, count: 8) = 8 9837.163 ( 0.001 ms): IO iothread1/620155 ppoll(ufds: 0x7fcb90002800, nfds: 4, tsp: 0x7fcb9f1342d0, sigsetsize: 8) = 3 9837.164 ( 0.001 ms): IO iothread1/620155 read(fd: 107, buf: 0x7fcb9f939cc0, count: 512) = 8 9837.174 ( 0.001 ms): IO iothread1/620155 read(fd: 105, buf: 0x7fcb9f939cc0, count: 512) = 8 9837.176 ( 0.001 ms): IO iothread1/620155 read(fd: 106, buf: 0x7fcb9f939cc0, count: 512) = 8 9837.209 ( 0.035 ms): IO iothread1/620155 io_submit(ctx_id: 140512552468480, nr: 32, iocbpp: 0x7fca7d0cebe0) = 32 174k IOPS (+3.6%), IOThread syscalls: 9809.566 ( 0.036 ms): IO iothread1/623061 io_submit(ctx_id: 140539805028352, nr: 32, iocbpp: 0x7fd0cdd62be0) = 32 9809.625 ( 0.001 ms): IO iothread1/623061 write(fd: 103, buf: 0x5647cfba5f58, count: 8) = 8 9809.627 ( 0.002 ms): IO iothread1/623061 write(fd: 104, buf: 0x5647cfba5f58, count: 8) = 8 9809.663 ( 0.036 ms): IO iothread1/623061 io_submit(ctx_id: 140539805028352, nr: 32, iocbpp: 0x7fd0d0388b50) = 32 Notice that ppoll(2) and eventfd read(2) syscalls are eliminated because the IOThread stays in polling mode instead of falling back to file descriptor monitoring. As usual, polling is not implemented on Windows so this patch ignores the new io_poll_read() callback in aio-win32.c. Signed-off-by: Stefan Hajnoczi <stefanha@redhat.com> Reviewed-by: Stefano Garzarella <sgarzare@redhat.com> Message-id: 20211207132336.36627-2-stefanha@redhat.com [Fixed up aio_set_event_notifier() calls in tests/unit/test-fdmon-epoll.c added after this series was queued. --Stefan] Signed-off-by: Stefan Hajnoczi <stefanha@redhat.com>
2021-12-07 16:23:31 +03:00
NULL, NULL, NULL, NULL, s);
qemu_bh_delete(s->completion_bh);
s->aio_context = NULL;
}
void luring_attach_aio_context(LuringState *s, AioContext *new_context)
{
s->aio_context = new_context;
s->completion_bh = aio_bh_new(new_context, qemu_luring_completion_bh, s);
aio_set_fd_handler(s->aio_context, s->ring.ring_fd,
aio-posix: split poll check from ready handler Adaptive polling measures the execution time of the polling check plus handlers called when a polled event becomes ready. Handlers can take a significant amount of time, making it look like polling was running for a long time when in fact the event handler was running for a long time. For example, on Linux the io_submit(2) syscall invoked when a virtio-blk device's virtqueue becomes ready can take 10s of microseconds. This can exceed the default polling interval (32 microseconds) and cause adaptive polling to stop polling. By excluding the handler's execution time from the polling check we make the adaptive polling calculation more accurate. As a result, the event loop now stays in polling mode where previously it would have fallen back to file descriptor monitoring. The following data was collected with virtio-blk num-queues=2 event_idx=off using an IOThread. Before: 168k IOPS, IOThread syscalls: 9837.115 ( 0.020 ms): IO iothread1/620155 io_submit(ctx_id: 140512552468480, nr: 16, iocbpp: 0x7fcb9f937db0) = 16 9837.158 ( 0.002 ms): IO iothread1/620155 write(fd: 103, buf: 0x556a2ef71b88, count: 8) = 8 9837.161 ( 0.001 ms): IO iothread1/620155 write(fd: 104, buf: 0x556a2ef71b88, count: 8) = 8 9837.163 ( 0.001 ms): IO iothread1/620155 ppoll(ufds: 0x7fcb90002800, nfds: 4, tsp: 0x7fcb9f1342d0, sigsetsize: 8) = 3 9837.164 ( 0.001 ms): IO iothread1/620155 read(fd: 107, buf: 0x7fcb9f939cc0, count: 512) = 8 9837.174 ( 0.001 ms): IO iothread1/620155 read(fd: 105, buf: 0x7fcb9f939cc0, count: 512) = 8 9837.176 ( 0.001 ms): IO iothread1/620155 read(fd: 106, buf: 0x7fcb9f939cc0, count: 512) = 8 9837.209 ( 0.035 ms): IO iothread1/620155 io_submit(ctx_id: 140512552468480, nr: 32, iocbpp: 0x7fca7d0cebe0) = 32 174k IOPS (+3.6%), IOThread syscalls: 9809.566 ( 0.036 ms): IO iothread1/623061 io_submit(ctx_id: 140539805028352, nr: 32, iocbpp: 0x7fd0cdd62be0) = 32 9809.625 ( 0.001 ms): IO iothread1/623061 write(fd: 103, buf: 0x5647cfba5f58, count: 8) = 8 9809.627 ( 0.002 ms): IO iothread1/623061 write(fd: 104, buf: 0x5647cfba5f58, count: 8) = 8 9809.663 ( 0.036 ms): IO iothread1/623061 io_submit(ctx_id: 140539805028352, nr: 32, iocbpp: 0x7fd0d0388b50) = 32 Notice that ppoll(2) and eventfd read(2) syscalls are eliminated because the IOThread stays in polling mode instead of falling back to file descriptor monitoring. As usual, polling is not implemented on Windows so this patch ignores the new io_poll_read() callback in aio-win32.c. Signed-off-by: Stefan Hajnoczi <stefanha@redhat.com> Reviewed-by: Stefano Garzarella <sgarzare@redhat.com> Message-id: 20211207132336.36627-2-stefanha@redhat.com [Fixed up aio_set_event_notifier() calls in tests/unit/test-fdmon-epoll.c added after this series was queued. --Stefan] Signed-off-by: Stefan Hajnoczi <stefanha@redhat.com>
2021-12-07 16:23:31 +03:00
qemu_luring_completion_cb, NULL,
qemu_luring_poll_cb, qemu_luring_poll_ready, s);
}
LuringState *luring_init(Error **errp)
{
int rc;
LuringState *s = g_new0(LuringState, 1);
struct io_uring *ring = &s->ring;
trace_luring_init_state(s, sizeof(*s));
rc = io_uring_queue_init(MAX_ENTRIES, ring, 0);
if (rc < 0) {
error_setg_errno(errp, errno, "failed to init linux io_uring ring");
g_free(s);
return NULL;
}
ioq_init(&s->io_q);
return s;
}
void luring_cleanup(LuringState *s)
{
io_uring_queue_exit(&s->ring);
trace_luring_cleanup_state(s);
g_free(s);
}