Re: AIO v2.5

Noah Misch <noah@leadboat.com>

From: Noah Misch <noah@leadboat.com>
To: Andres Freund <andres@anarazel.de>
Cc: pgsql-hackers@postgresql.org, Thomas Munro <thomas.munro@gmail.com>, Heikki Linnakangas <hlinnaka@iki.fi>, Robert Haas <robertmhaas@gmail.com>, Jakub Wartak <jakub.wartak@enterprisedb.com>, Jelte Fennema-Nio <postgres@jeltef.nl>, Antonin Houska <ah@cybertec.at>
Date: 2025-03-28T03:22:23Z
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 aio: Fix reference to outdated name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

On Thu, Mar 27, 2025 at 04:58:11PM -0400, Andres Freund wrote:
> I now wrote some tests. And I both regret doing so (because it found problems,
> which would have been apparent long ago, if the feature had come with *any*
> tests, if I had gone the same way I could have just pushed stuff) and am glad
> I did (because I dislike pushing broken stuff).
> 
> I have to admit, I was tempted to just ignore this issue and just not say
> anything about tests for checksum failures anymore.

I don't blame you.

> 3) We can't pgstat_report_checksum_failure() during the completion callback,
>    as it *sometimes* allocates memory
> 
>    Aside from the allocation-in-critical-section asserts, I think this is
>    *extremely* unlikely to actually cause a problem in practice. But we don't
>    want to rely on that, obviously.

> Addressing 3) is not at all trivial.  Here's what I've thought of so far:
> 
> 
> Approach I)

> Unfortunately that fails because to access the shared memory with the stats
> data we need to do dsa_get_address()


> Approach II)
> 
> Don't report the error in the completion callback.  The obvious place would be
> to do it where we we'll raise the warning/error in the issuing process.  The
> big disadvantage is that that that could lead to under-counting checksum
> errors:
> 
> a) A read stream does 2+ concurrent reads for the same relation, and more than
> one encounters checksum errors. When processing the results for the first
> failed read, we raise an error and thus won't process the results of the
> second+ reads with errors.
> 
> b) A read is started asynchronously, but before the backend gets around to
> processing the result of the IO, it errors out during that other work
> (possibly due to a cancellation). Because the backend never looked at the
> results of the IOs, the checksum errors don't get accounted for.
> 
> b) doesn't overly bother me, but a) seems problematic.

While neither are great, I could live with both.  I guess I'm optimistic that
clusters experiencing checksum failures won't lose enough reports to these
loss sources to make the difference in whether monitoring catches them.  In
other words, a cluster will report N failures without these losses and N-K
after these losses.  If N is large enough for relevant monitoring to flag the
cluster appropriately, N-K will also be large enough.


> Approach III)
> 
> Accumulate checksum errors in two backend local variables (one for database
> specific errors, one for errors on shared relations), which will be flushed by
> the backend that issued IO during the next pgstat_report_start().
> 
> Two disadvantages:
> 
> - Accumulation of errors will be delayed until the next
>   pgstat_report_start(). That seems acceptable, after all we do so far a lot
>   of other stats.

Yep, acceptable.

> - We need to register a local callback for shared buffer reads, which don't
>   need them today . That's a small bit of added overhead. It's a shame to do
>   so for counters that approximately never get incremented.

Fair concern.  An idea is to let the complete_shared callback change the
callback list associated with the IO, so it could change
PGAIO_HCB_SHARED_BUFFER_READV to PGAIO_HCB_SHARED_BUFFER_READV_SLOW.  The
latter would differ from the former only in having the extra local callback.
Could that help?  I think the only overhead is using more PGAIO_HCB numbers.
We currently reserve 256 (uint8), but one could imagine trying to pack into
fewer bits.  That said, this wouldn't paint us into a corner.  We could change
the approach later.

pgaio_io_call_complete_local() starts a critical section.  Is that a problem
for this approach?


> Approach IV):
> 
> Embracy piercing abstractions / generic infrastructure and put two atomic
> variables (one for shared one for the backend's database) in some
> backend-specific shared memory (e.g. the backend's PgAioBackend or PGPROC) and
> update that in the completion callback. Flush that variable to the shared
> stats in pgstat_report_start() or such.

I could live with that.  I feel better about Approach III currently, though.
Overall, I'm feeling best about III long-term, but II may be the right
tactical choice.


> Does anybody have better ideas?

I think no, but here are some ideas I tossed around:

- Like your Approach III, but have the completing process store the count
  locally and flush it, instead of the staging process doing so.  Would need
  more than 2 slots, but we could have a fixed number of slots and just
  discard any reports that arrive with all slots full.  Reporting checksum
  failures in, say, 8 databases in quick succession probably tells the DBA
  there's "enough corruption to start worrying".  Missing the 9th database
  would be okay.

- Pre-warm the memory allocations and DSAs we could possibly need, so we can
  report those stats in critical sections, from the completing process.  Bad
  since there's an entry per database, hence no reasonable limit on how much
  memory a process might need to pre-warm.  We could even end up completing an
  IO for a database that didn't exist on entry to our critical section.

- Skip the checksum pgstats if we're completing in a critical section.
  Doesn't work since we _always_ make a critical section to complete I/O.

This email isn't as well-baked as I like, but the alternative was delaying it
24-48h depending on how other duties go over those hours.  My v2.13 review is
still in-progress, too.