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aio: Add io_method=io_uring

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Performing AIO using io_uring can be considerably faster than
io_method=worker, particularly when lots of small IOs are issued, as
a) the context-switch overhead for worker based AIO becomes more significant
b) the number of IO workers can become limiting

io_uring, however, is linux specific and requires an additional compile-time
dependency (liburing).

This implementation is fairly simple and there are substantial optimization
opportunities.

The description of the existing AIO_IO_COMPLETION wait event is updated to
make the difference between it and the new AIO_IO_URING_EXECUTION clearer.

Reviewed-by: Noah Misch <noah@leadboat.com>
Reviewed-by: Jakub Wartak <jakub.wartak@enterprisedb.com>
Discussion: https://postgr.es/m/uvrtrknj4kdytuboidbhwclo4gxhswwcpgadptsjvjqcluzmah%40brqs62irg4dt
Discussion: https://postgr.es/m/20210223100344.llw5an2aklengrmn@alap3.anarazel.de
Discussion: https://postgr.es/m/stj36ea6yyhoxtqkhpieia2z4krnam7qyetc57rfezgk4zgapf@gcnactj4z56m
This commit is contained in:
Andres Freund 2025-03-18 14:40:05 -04:00
parent 8eadd5c73c
commit c325a7633f
14 changed files with 589 additions and 2 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

3
.cirrus.tasks.yml
View File

@ -493,11 +493,14 @@ task:
# - Uses undefined behaviour and alignment sanitizers, sanitizer failures
# are typically printed in the server log
# - Test both 64bit and 32 bit builds
# - uses io_method=io_uring
- name: Linux - Debian Bookworm - Meson
env:
CCACHE_MAXSIZE: "400M" # tests two different builds
SANITIZER_FLAGS: -fsanitize=alignment,undefined
PG_TEST_INITDB_EXTRA_OPTS: >-
-c io_method=io_uring
configure_script: |
su postgres <<-EOF

8
doc/src/sgml/config.sgml
View File

@ -2710,6 +2710,14 @@ include_dir 'conf.d'
<literal>worker</literal> (execute asynchronous I/O using worker processes)
</para>
</listitem>
<listitem>
<para>
<literal>io_uring</literal> (execute asynchronous I/O using
io_uring, requires a build with
<link linkend="configure-option-with-liburing"><option>--with-liburing</option></link> /
<link linkend="configure-with-liburing-meson"><option>-Dliburing</option></link>)
</para>
</listitem>
<listitem>
<para>
<literal>sync</literal> (execute asynchronous-eligible I/O synchronously)

1
src/backend/storage/aio/Makefile
View File

@ -14,6 +14,7 @@ OBJS = \
aio_init.o \
aio_io.o \
aio_target.o \
method_io_uring.o \
method_sync.o \
method_worker.o \
read_stream.o

41
src/backend/storage/aio/aio.c
View File

@ -65,6 +65,9 @@ static void pgaio_io_wait(PgAioHandle *ioh, uint64 ref_generation);
const struct config_enum_entry io_method_options[] = {
{"sync", IOMETHOD_SYNC, false},
{"worker", IOMETHOD_WORKER, false},
#ifdef IOMETHOD_IO_URING_ENABLED
{"io_uring", IOMETHOD_IO_URING, false},
#endif
{NULL, 0, false}
};
@ -82,6 +85,9 @@ PgAioBackend *pgaio_my_backend;
static const IoMethodOps *const pgaio_method_ops_table[] = {
[IOMETHOD_SYNC] = &pgaio_sync_ops,
[IOMETHOD_WORKER] = &pgaio_worker_ops,
#ifdef IOMETHOD_IO_URING_ENABLED
[IOMETHOD_IO_URING] = &pgaio_uring_ops,
#endif
};
/* callbacks for the configured io_method, set by assign_io_method */
@ -1118,6 +1124,41 @@ pgaio_closing_fd(int fd)
* it's probably not worth it.
*/
pgaio_submit_staged();
/*
* If requested by the IO method, wait for all IOs that use the
* to-be-closed FD.
*/
if (pgaio_method_ops->wait_on_fd_before_close)
{
/*
* As waiting for one IO to complete may complete multiple IOs, we
* can't just use a mutable list iterator. The maximum number of
* in-flight IOs is fairly small, so just restart the loop after
* waiting for an IO.
*/
while (!dclist_is_empty(&pgaio_my_backend->in_flight_ios))
{
dlist_iter iter;
PgAioHandle *ioh = NULL;
dclist_foreach(iter, &pgaio_my_backend->in_flight_ios)
{
ioh = dclist_container(PgAioHandle, node, iter.cur);
if (pgaio_io_uses_fd(ioh, fd))
break;
else
ioh = NULL;
}
if (!ioh)
break;
/* see comment in pgaio_io_wait_for_free() about raciness */
pgaio_io_wait(ioh, ioh->generation);
}
}
}
/*

22
src/backend/storage/aio/aio_io.c
View File

@ -188,3 +188,25 @@ pgaio_io_get_op_name(PgAioHandle *ioh)
return NULL; /* silence compiler */
}
/*
* Used to determine if an IO needs to be waited upon before the file
* descriptor can be closed.
*/
bool
pgaio_io_uses_fd(PgAioHandle *ioh, int fd)
{
Assert(ioh->state >= PGAIO_HS_DEFINED);
switch (ioh->op)
{
case PGAIO_OP_READV:
return ioh->op_data.read.fd == fd;
case PGAIO_OP_WRITEV:
return ioh->op_data.write.fd == fd;
case PGAIO_OP_INVALID:
return false;
}
return false; /* silence compiler */
}

1
src/backend/storage/aio/meson.build
View File

@ -6,6 +6,7 @@ backend_sources += files(
'aio_init.c',
'aio_io.c',
'aio_target.c',
'method_io_uring.c',
'method_sync.c',
'method_worker.c',
'read_stream.c',

484
src/backend/storage/aio/method_io_uring.c Normal file
View File

@ -0,0 +1,484 @@
/*-------------------------------------------------------------------------
*
* method_io_uring.c
* AIO - perform AIO using Linux' io_uring
*
* For now we create one io_uring instance for each backend. These io_uring
* instances have to be created in postmaster, during startup, to allow other
* backends to process IO completions, if the issuing backend is currently
* busy doing other things. Other backends may not use another backend's
* io_uring instance to submit IO, that'd require additional locking that
* would likely be harmful for performance.
*
* We likely will want to introduce a backend-local io_uring instance in the
* future, e.g. for FE/BE network IO.
*
* Portions Copyright (c) 1996-2025, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
* src/backend/storage/aio/method_io_uring.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
/* included early, for IOMETHOD_IO_URING_ENABLED */
#include "storage/aio.h"
#ifdef IOMETHOD_IO_URING_ENABLED
#include <liburing.h>
#include "miscadmin.h"
#include "storage/aio_internal.h"
#include "storage/fd.h"
#include "storage/proc.h"
#include "storage/shmem.h"
#include "storage/lwlock.h"
#include "storage/procnumber.h"
#include "utils/wait_event.h"
/* number of completions processed at once */
#define PGAIO_MAX_LOCAL_COMPLETED_IO 32
/* Entry points for IoMethodOps. */
static size_t pgaio_uring_shmem_size(void);
static void pgaio_uring_shmem_init(bool first_time);
static void pgaio_uring_init_backend(void);
static int pgaio_uring_submit(uint16 num_staged_ios, PgAioHandle **staged_ios);
static void pgaio_uring_wait_one(PgAioHandle *ioh, uint64 ref_generation);
/* helper functions */
static void pgaio_uring_sq_from_io(PgAioHandle *ioh, struct io_uring_sqe *sqe);
const IoMethodOps pgaio_uring_ops = {
/*
* While io_uring mostly is OK with FDs getting closed while the IO is in
* flight, that is not true for IOs submitted with IOSQE_ASYNC.
*
* See
* https://postgr.es/m/5ons2rtmwarqqhhexb3dnqulw5rjgwgoct57vpdau4rujlrffj%403fls6d2mkiwc
*/
.wait_on_fd_before_close = true,
.shmem_size = pgaio_uring_shmem_size,
.shmem_init = pgaio_uring_shmem_init,
.init_backend = pgaio_uring_init_backend,
.submit = pgaio_uring_submit,
.wait_one = pgaio_uring_wait_one,
};
/*
* Per-backend state when using io_method=io_uring
*
* Align the whole struct to a cacheline boundary, to prevent false sharing
* between completion_lock and prior backend's io_uring_ring.
*/
typedef struct pg_attribute_aligned (PG_CACHE_LINE_SIZE)
PgAioUringContext
{
/*
* Multiple backends can process completions for this backend's io_uring
* instance (e.g. when the backend issuing IO is busy doing something
* else). To make that safe we have to ensure that only a single backend
* gets io completions from the io_uring instance at a time.
*/
LWLock completion_lock;
struct io_uring io_uring_ring;
} PgAioUringContext;
/* PgAioUringContexts for all backends */
static PgAioUringContext *pgaio_uring_contexts;
/* the current backend's context */
static PgAioUringContext *pgaio_my_uring_context;
static uint32
pgaio_uring_procs(void)
{
/*
* We can subtract MAX_IO_WORKERS here as io workers are never used at the
* same time as io_method=io_uring.
*/
return MaxBackends + NUM_AUXILIARY_PROCS - MAX_IO_WORKERS;
}
static Size
pgaio_uring_context_shmem_size(void)
{
return mul_size(pgaio_uring_procs(), sizeof(PgAioUringContext));
}
static size_t
pgaio_uring_shmem_size(void)
{
return pgaio_uring_context_shmem_size();
}
static void
pgaio_uring_shmem_init(bool first_time)
{
int TotalProcs = MaxBackends + NUM_AUXILIARY_PROCS - MAX_IO_WORKERS;
bool found;
pgaio_uring_contexts = (PgAioUringContext *)
ShmemInitStruct("AioUring", pgaio_uring_shmem_size(), &found);
if (found)
return;
for (int contextno = 0; contextno < TotalProcs; contextno++)
{
PgAioUringContext *context = &pgaio_uring_contexts[contextno];
int ret;
/*
* Right now a high TotalProcs will cause problems in two ways:
*
* - RLIMIT_NOFILE needs to be big enough to allow all
* io_uring_queue_init() calls to succeed.
*
* - RLIMIT_NOFILE needs to be big enough to still have enough file
* descriptors to satisfy set_max_safe_fds() left over. Or, even
* better, have max_files_per_process left over FDs.
*
* We probably should adjust the soft RLIMIT_NOFILE to ensure that.
*
*
* XXX: Newer versions of io_uring support sharing the workers that
* execute some asynchronous IOs between io_uring instances. It might
* be worth using that - also need to evaluate if that causes
* noticeable additional contention?
*/
ret = io_uring_queue_init(io_max_concurrency, &context->io_uring_ring, 0);
if (ret < 0)
{
char *hint = NULL;
int err = ERRCODE_INTERNAL_ERROR;
/* add hints for some failures that errno explains sufficiently */
if (-ret == EPERM)
{
err = ERRCODE_INSUFFICIENT_PRIVILEGE;
hint = _("Check if io_uring is disabled via /proc/sys/kernel/io_uring_disabled.");
}
else if (-ret == EMFILE)
{
err = ERRCODE_INSUFFICIENT_RESOURCES;
hint = psprintf(_("Consider increasing \"ulimit -n\" to at least %d."),
TotalProcs + max_files_per_process);
}
else if (-ret == ENOSYS)
{
err = ERRCODE_FEATURE_NOT_SUPPORTED;
hint = _("Kernel does not support io_uring.");
}
/* update errno to allow %m to work */
errno = -ret;
ereport(ERROR,
errcode(err),
errmsg("could not setup io_uring queue: %m"),
hint != NULL ? errhint("%s", hint) : 0);
}
LWLockInitialize(&context->completion_lock, LWTRANCHE_AIO_URING_COMPLETION);
}
}
static void
pgaio_uring_init_backend(void)
{
Assert(MyProcNumber < pgaio_uring_procs());
pgaio_my_uring_context = &pgaio_uring_contexts[MyProcNumber];
}
static int
pgaio_uring_submit(uint16 num_staged_ios, PgAioHandle **staged_ios)
{
struct io_uring *uring_instance = &pgaio_my_uring_context->io_uring_ring;
int in_flight_before = dclist_count(&pgaio_my_backend->in_flight_ios);
Assert(num_staged_ios <= PGAIO_SUBMIT_BATCH_SIZE);
for (int i = 0; i < num_staged_ios; i++)
{
PgAioHandle *ioh = staged_ios[i];
struct io_uring_sqe *sqe;
sqe = io_uring_get_sqe(uring_instance);
if (!sqe)
elog(ERROR, "io_uring submission queue is unexpectedly full");
pgaio_io_prepare_submit(ioh);
pgaio_uring_sq_from_io(ioh, sqe);
/*
* io_uring executes IO in process context if possible. That's
* generally good, as it reduces context switching. When performing a
* lot of buffered IO that means that copying between page cache and
* userspace memory happens in the foreground, as it can't be
* offloaded to DMA hardware as is possible when using direct IO. When
* executing a lot of buffered IO this causes io_uring to be slower
* than worker mode, as worker mode parallelizes the copying. io_uring
* can be told to offload work to worker threads instead.
*
* If an IO is buffered IO and we already have IOs in flight or
* multiple IOs are being submitted, we thus tell io_uring to execute
* the IO in the background. We don't do so for the first few IOs
* being submitted as executing in this process' context has lower
* latency.
*/
if (in_flight_before > 4 && (ioh->flags & PGAIO_HF_BUFFERED))
io_uring_sqe_set_flags(sqe, IOSQE_ASYNC);
in_flight_before++;
}
while (true)
{
int ret;
pgstat_report_wait_start(WAIT_EVENT_AIO_IO_URING_SUBMIT);
ret = io_uring_submit(uring_instance);
pgstat_report_wait_end();
if (ret == -EINTR)
{
pgaio_debug(DEBUG3,
"aio method uring: submit EINTR, nios: %d",
num_staged_ios);
}
else if (ret < 0)
{
/*
* The io_uring_enter() manpage suggests that the appropriate
* reaction to EAGAIN is:
*
* "The application should wait for some completions and try
* again"
*
* However, it seems unlikely that that would help in our case, as
* we apply a low limit to the number of outstanding IOs and thus
* also outstanding completions, making it unlikely that we'd get
* EAGAIN while the OS is in good working order.
*
* Additionally, it would be problematic to just wait here, our
* caller might hold critical locks. It'd possibly lead to
* delaying the crash-restart that seems likely to occur when the
* kernel is under such heavy memory pressure.
*
* Update errno to allow %m to work.
*/
errno = -ret;
elog(PANIC, "io_uring submit failed: %m");
}
else if (ret != num_staged_ios)
{
/* likely unreachable, but if it is, we would need to re-submit */
elog(PANIC, "io_uring submit submitted only %d of %d",
ret, num_staged_ios);
}
else
{
pgaio_debug(DEBUG4,
"aio method uring: submitted %d IOs",
num_staged_ios);
break;
}
}
return num_staged_ios;
}
static void
pgaio_uring_drain_locked(PgAioUringContext *context)
{
int ready;
int orig_ready;
Assert(LWLockHeldByMeInMode(&context->completion_lock, LW_EXCLUSIVE));
/*
* Don't drain more events than available right now. Otherwise it's
* plausible that one backend could get stuck, for a while, receiving CQEs
* without actually processing them.
*/
orig_ready = ready = io_uring_cq_ready(&context->io_uring_ring);
while (ready > 0)
{
struct io_uring_cqe *cqes[PGAIO_MAX_LOCAL_COMPLETED_IO];
uint32 ncqes;
START_CRIT_SECTION();
ncqes =
io_uring_peek_batch_cqe(&context->io_uring_ring,
cqes,
Min(PGAIO_MAX_LOCAL_COMPLETED_IO, ready));
Assert(ncqes <= ready);
ready -= ncqes;
for (int i = 0; i < ncqes; i++)
{
struct io_uring_cqe *cqe = cqes[i];
PgAioHandle *ioh;
ioh = io_uring_cqe_get_data(cqe);
io_uring_cqe_seen(&context->io_uring_ring, cqe);
pgaio_io_process_completion(ioh, cqe->res);
}
END_CRIT_SECTION();
pgaio_debug(DEBUG3,
"drained %d/%d, now expecting %d",
ncqes, orig_ready, io_uring_cq_ready(&context->io_uring_ring));
}
}
static void
pgaio_uring_wait_one(PgAioHandle *ioh, uint64 ref_generation)
{
PgAioHandleState state;
ProcNumber owner_procno = ioh->owner_procno;
PgAioUringContext *owner_context = &pgaio_uring_contexts[owner_procno];
bool expect_cqe;
int waited = 0;
/*
* XXX: It would be nice to have a smarter locking scheme, nearly all the
* time the backend owning the ring will consume the completions, making
* the locking unnecessarily expensive.
*/
LWLockAcquire(&owner_context->completion_lock, LW_EXCLUSIVE);
while (true)
{
pgaio_debug_io(DEBUG3, ioh,
"wait_one io_gen: %llu, ref_gen: %llu, cycle %d",
(long long unsigned) ioh->generation,
(long long unsigned) ref_generation,
waited);
if (pgaio_io_was_recycled(ioh, ref_generation, &state) ||
state != PGAIO_HS_SUBMITTED)
{
/* the IO was completed by another backend */
break;
}
else if (io_uring_cq_ready(&owner_context->io_uring_ring))
{
/* no need to wait in the kernel, io_uring has a completion */
expect_cqe = true;
}
else
{
int ret;
struct io_uring_cqe *cqes;
/* need to wait in the kernel */
pgstat_report_wait_start(WAIT_EVENT_AIO_IO_URING_EXECUTION);
ret = io_uring_wait_cqes(&owner_context->io_uring_ring, &cqes, 1, NULL, NULL);
pgstat_report_wait_end();
if (ret == -EINTR)
{
continue;
}
else if (ret != 0)
{
/* see comment after io_uring_submit() */
errno = -ret;
elog(PANIC, "io_uring wait failed: %m");
}
else
{
Assert(cqes != NULL);
expect_cqe = true;
waited++;
}
}
if (expect_cqe)
{
pgaio_uring_drain_locked(owner_context);
}
}
LWLockRelease(&owner_context->completion_lock);
pgaio_debug(DEBUG3,
"wait_one with %d sleeps",
waited);
}
static void
pgaio_uring_sq_from_io(PgAioHandle *ioh, struct io_uring_sqe *sqe)
{
struct iovec *iov;
switch (ioh->op)
{
case PGAIO_OP_READV:
iov = &pgaio_ctl->iovecs[ioh->iovec_off];
if (ioh->op_data.read.iov_length == 1)
{
io_uring_prep_read(sqe,
ioh->op_data.read.fd,
iov->iov_base,
iov->iov_len,
ioh->op_data.read.offset);
}
else
{
io_uring_prep_readv(sqe,
ioh->op_data.read.fd,
iov,
ioh->op_data.read.iov_length,
ioh->op_data.read.offset);
}
break;
case PGAIO_OP_WRITEV:
iov = &pgaio_ctl->iovecs[ioh->iovec_off];
if (ioh->op_data.write.iov_length == 1)
{
io_uring_prep_write(sqe,
ioh->op_data.write.fd,
iov->iov_base,
iov->iov_len,
ioh->op_data.write.offset);
}
else
{
io_uring_prep_writev(sqe,
ioh->op_data.write.fd,
iov,
ioh->op_data.write.iov_length,
ioh->op_data.write.offset);
}
break;
case PGAIO_OP_INVALID:
elog(ERROR, "trying to prepare invalid IO operation for execution");
}
io_uring_sqe_set_data(sqe, ioh);
}
#endif /* IOMETHOD_IO_URING_ENABLED */

1
src/backend/storage/lmgr/lwlock.c
View File

@ -177,6 +177,7 @@ static const char *const BuiltinTrancheNames[] = {
[LWTRANCHE_SUBTRANS_SLRU] = "SubtransSLRU",
[LWTRANCHE_XACT_SLRU] = "XactSLRU",
[LWTRANCHE_PARALLEL_VACUUM_DSA] = "ParallelVacuumDSA",
[LWTRANCHE_AIO_URING_COMPLETION] = "AioUringCompletion",
};
StaticAssertDecl(lengthof(BuiltinTrancheNames) ==

4
src/backend/utils/activity/wait_event_names.txt
View File

@ -192,7 +192,9 @@ ABI_compatibility:
Section: ClassName - WaitEventIO
AIO_IO_COMPLETION "Waiting for IO completion."
AIO_IO_COMPLETION "Waiting for another process to complete IO."
AIO_IO_URING_SUBMIT "Waiting for IO submission via io_uring."
AIO_IO_URING_EXECUTION "Waiting for IO execution via io_uring."
BASEBACKUP_READ "Waiting for base backup to read from a file."
BASEBACKUP_SYNC "Waiting for data written by a base backup to reach durable storage."
BASEBACKUP_WRITE "Waiting for base backup to write to a file."

3
src/backend/utils/misc/postgresql.conf.sample
View File

@ -204,7 +204,8 @@
# (change requires restart)
#io_combine_limit = 128kB # usually 1-128 blocks (depends on OS)
#io_method = worker # worker, sync (change requires restart)
#io_method = worker # worker, io_uring, sync
# (change requires restart)
#io_max_concurrency = -1 # Max number of IOs that one process
# can execute simultaneously
# -1 sets based on shared_buffers

8
src/include/storage/aio.h
View File

@ -22,12 +22,20 @@
#include "storage/procnumber.h"
/* io_uring is incompatible with EXEC_BACKEND */
#if defined(USE_LIBURING) && !defined(EXEC_BACKEND)
#define IOMETHOD_IO_URING_ENABLED
#endif
/* Enum for io_method GUC. */
typedef enum IoMethod
{
IOMETHOD_SYNC = 0,
IOMETHOD_WORKER,
#ifdef IOMETHOD_IO_URING_ENABLED
IOMETHOD_IO_URING,
#endif
} IoMethod;
/* We'll default to worker based execution. */

13
src/include/storage/aio_internal.h
View File

@ -248,6 +248,15 @@ typedef struct PgAioCtl
*/
typedef struct IoMethodOps
{
/* properties */
/*
* If an FD is about to be closed, do we need to wait for all in-flight
* IOs referencing that FD?
*/
bool wait_on_fd_before_close;
/* global initialization */
/*
@ -314,6 +323,7 @@ extern PgAioResult pgaio_io_call_complete_local(PgAioHandle *ioh);
/* aio_io.c */
extern void pgaio_io_perform_synchronously(PgAioHandle *ioh);
extern const char *pgaio_io_get_op_name(PgAioHandle *ioh);
extern bool pgaio_io_uses_fd(PgAioHandle *ioh, int fd);
/* aio_target.c */
extern bool pgaio_io_can_reopen(PgAioHandle *ioh);
@ -386,6 +396,9 @@ extern PgAioHandle *pgaio_inj_io_get(void);
/* Declarations for the tables of function pointers exposed by each IO method. */
extern PGDLLIMPORT const IoMethodOps pgaio_sync_ops;
extern PGDLLIMPORT const IoMethodOps pgaio_worker_ops;
#ifdef IOMETHOD_IO_URING_ENABLED
extern PGDLLIMPORT const IoMethodOps pgaio_uring_ops;
#endif
extern PGDLLIMPORT const IoMethodOps *pgaio_method_ops;
extern PGDLLIMPORT PgAioCtl *pgaio_ctl;

1
src/include/storage/lwlock.h
View File

@ -218,6 +218,7 @@ typedef enum BuiltinTrancheIds
LWTRANCHE_SUBTRANS_SLRU,
LWTRANCHE_XACT_SLRU,
LWTRANCHE_PARALLEL_VACUUM_DSA,
LWTRANCHE_AIO_URING_COMPLETION,
LWTRANCHE_FIRST_USER_DEFINED,
} BuiltinTrancheIds;

1
src/tools/pgindent/typedefs.list
View File

@ -2151,6 +2151,7 @@ PgAioReturn
PgAioTargetData
PgAioTargetID
PgAioTargetInfo
PgAioUringContext
PgAioWaitRef
PgArchData
PgBackendGSSStatus