Re: AIO v2.3

Jakub Wartak <jakub.wartak@enterprisedb.com>

From: Jakub Wartak <jakub.wartak@enterprisedb.com>
To: Andres Freund <andres@anarazel.de>
Cc: pgsql-hackers@postgresql.org, Heikki Linnakangas <hlinnaka@iki.fi>, Robert Haas <robertmhaas@gmail.com>, Noah Misch <noah@leadboat.com>
Date: 2025-02-06T10:50:04Z
Lists: pgsql-hackers

Commits

Same data as JSON: GET /api/v1/messages/:b64id/commits the thread's linked commits as JSON, with link sources. API reference →
  1. aio: Fix assertion, clarify README

  2. aio: Fix reference to outdated name

  3. aio: Fix possible state confusions due to interrupt processing

  4. aio: Improve debug logging around waiting for IOs

  5. aio: Fix crash potential for pg_aios views due to late state update

  6. Increase BAS_BULKREAD based on effective_io_concurrency

  7. localbuf: Add Valgrind buffer access instrumentation

  8. aio: Make AIO more compatible with valgrind

  9. aio: Avoid spurious coverity warning

  10. tests: Fix incompatibility of test_aio with *_FORCE_RELEASE

  11. tests: Cope with WARNINGs during failed CREATE DB on windows

  12. aio: Add errcontext for processing I/Os for another backend

  13. aio: Add README.md explaining higher level design

  14. aio: Minor comment improvements

  15. aio: Add test_aio module

  16. aio: Add pg_aios view

  17. docs: Add acronym and glossary entries for I/O and AIO

  18. Enable IO concurrency on all systems

  19. read_stream: Introduce and use optional batchmode support

  20. docs: Reframe track_io_timing related docs as wait time

  21. bufmgr: Use AIO in StartReadBuffers()

  22. bufmgr: Implement AIO read support

  23. aio: Add WARNING result status

  24. Let caller of PageIsVerified() control ignore_checksum_failure

  25. pgstat: Allow checksum errors to be reported in critical sections

  26. Add errhint_internal()

  27. localbuf: Track pincount in BufferDesc as well

  28. aio, bufmgr: Comment fixes/improvements

  29. Fix mis-attribution of checksum failure stats to the wrong database

  30. aio: Implement support for reads in smgr/md/fd

  31. aio: Add io_method=io_uring

  32. aio: Add liburing dependency

  33. aio: Rename pgaio_io_prep_* to pgaio_io_start_*

  34. aio: Pass result of local callbacks to ->report_return

  35. aio: Be more paranoid about interrupts

  36. Redefine max_files_per_process to control additionally opened files

  37. aio: Change prefix of PgAioResultStatus values to PGAIO_RS_

  38. bufmgr: Improve stats when a buffer is read in concurrently

  39. aio: Add io_method=worker

  40. aio: Infrastructure for io_method=worker

  41. aio: Add core asynchronous I/O infrastructure

  42. aio: Basic subsystem initialization

  43. tests: Expand temp table tests to some pin related matters

  44. localbuf: Introduce FlushLocalBuffer()

  45. localbuf: Introduce TerminateLocalBufferIO()

  46. localbuf: Fix dangerous coding pattern in GetLocalVictimBuffer()

  47. localbuf: Introduce StartLocalBufferIO()

  48. localbuf: Introduce InvalidateLocalBuffer()

  49. Allow lwlocks to be disowned

  50. Make jsonb casts to scalar types translate JSON null to SQL NULL.

  51. bufmgr/smgr: Don't cross segment boundaries in StartReadBuffers()

  52. Use aux process resource owner in walsender

  53. bufmgr: Return early in ScheduleBufferTagForWriteback() if fsync=off

Attachments

On Thu, Jan 23, 2025 at 5:29 AM Andres Freund <andres@anarazel.de> wrote:
> Hi,
>
> Attached is v2.3.
>
> There are a lot of changes - primarily renaming things based on on-list and
> off-list feedback. But also some other things

[..snip]

Hi Andres, OK, so I've hastily launched AIO v2.3 (full, 29 patches)
patchset probe run before going for short vacations and here results
are attached*. TLDR; in terms of SELECTs the master vs aioworkers
looks very solid! I was kind of afraid that additional IPC to separate
processes would put workers at a disadvantage a little bit , but
that's amazingly not true. The intention of this effort just to see if
committing AIO with defaults as it stands is good enough to not cause
basic regressions for users and to me it looks like it is nearly
finished :)). So here to save time I have *not* tested aio23 with
io_uring, it's just about aioworkers (the future default).

Random notes and thoughts:

1. not a single crash was observed , but those were pretty short runs

2. my very limited in terms of time data analysis thoughts
- most of the time perf  with aioworkers is identical (+/- 3%) as of
the master, in most cases it is much BETTER
- up to like 2.01x boosts can be spotted even on low-end like this but
with fast I/O even without IO_URING (just workers)
- on seqscans "sata" with datasets bigger than VFS-cache ("big") and
without parallel workers, it looks like it's always better
- on parallel seqscans "sata" with datasets bigger than VFS-cache
("big") and high e_io_c with high client counts(sigh!), it looks like
it would user noticeable big regression but to me it's not regression
itself, probably we are issuing way too many posix_fadvise()
readaheads with diminishing returns. Just letting you know. Not sure
it is worth introducing some global (shared aioworkers e_io_c
limiter), I think not. I think it could also be some maintenance noise
on that I/O device, but I have no isolated SATA RAID10 with like 8x
HDDs in home to launch such a test to be absolutely sure.

3. with aioworkers in documentation it would worth pointing out that
`iotop` won't be good enough to show which PID is doing I/O anymore .
I've often get question like this: who is taking the most of I/O right
now because storage is fully saturated on multi-use system. Not sure
it would require new view or not (pg_aios output seems to be not more
like in-memory debug view that would be have to be sampled
aggressively, and pg_statio_all_tables shows well table, but not PID
-- same for pg_stat_io). IMHO if docs would be simple like
"In order to understand which processes (PIDs) are issuing lots of
IOs, please check pg_stat_activty for *IO/AioCompletion* waits events"
it should be good enough for a start.

Bench machine: it was intentionally much smaller hardware. Azure's
Lsv2 L8s_v2 (1st gen EPYC/1s4c8t, with kernel 6.10.11+bpo-cloud-amd64
and booted with mem=12GB that limited real usable RAM memory to just
like ~8GB to stress I/O). liburing 2.9. Normal standard compile
options were used without asserts (such as normal users would use).
Bench had those two I/O storage (with XFS) attached:
- "sata" stands for Azure's "Premium SSD LRS" mounted on /sata
(Size=255GB, Max IOPS=1100 (@ 4kB?), Max throughput=125MB/s)
- "nvme" stands for bulit-in NVME on that VM mounted on /nvme
(Size=1788GB, Max IOPS=8000 (@ 4kB?))

I'll try to see in the coming weeks if dedicating more time is
possible (long run tests, more write tests, maybe some basic I/O
failure injections tests).

-J.

* = 8640 test runs, always with restart and flushing VFS cache, took
probably 2-3 days? I've had to reduce tries to 1 and limit myself to
just reads just to get it running solid, before I left and not to miss
the plane :^)