Re: Speed up Clog Access by increasing CLOG buffers

From: Amit Kapila <amit(dot)kapila16(at)gmail(dot)com>
To: Andres Freund <andres(at)anarazel(dot)de>
Cc: David Steele <david(at)pgmasters(dot)net>, Robert Haas <robertmhaas(at)gmail(dot)com>, Thom Brown <thom(at)linux(dot)com>, Simon Riggs <simon(at)2ndquadrant(dot)com>, Jesper Pedersen <jesper(dot)pedersen(at)redhat(dot)com>, pgsql-hackers <pgsql-hackers(at)postgresql(dot)org>
Subject: Re: Speed up Clog Access by increasing CLOG buffers
Date: 2016-03-23 06:56:35
Message-ID: CAA4eK1+8gQTyGSZLe1Rb7jeM1Beh4FqA4VNjtpZcmvwizDQ0hw@mail.gmail.com
Views: Raw Message | Whole Thread | Download mbox | Resend email
Thread:
Lists: pgsql-hackers

On Tue, Mar 22, 2016 at 4:22 PM, Andres Freund <andres(at)anarazel(dot)de> wrote:
>
> Hi,
>
> On 2016-03-15 10:47:12 +0530, Amit Kapila wrote:
> > @@ -248,12 +256,67 @@ set_status_by_pages(int nsubxids, TransactionId
*subxids,
> > * Record the final state of transaction entries in the commit log for
> > * all entries on a single page. Atomic only on this page.
> > *
> > + * Group the status update for transactions. This improves the
efficiency
> > + * of the transaction status update by reducing the number of lock
> > + * acquisitions required for it. To achieve the group transaction
status
> > + * update, we need to populate the transaction status related
information
> > + * in shared memory and doing it for overflowed sub-transactions would
need
> > + * a big chunk of shared memory, so we are not doing this optimization
for
> > + * such cases. This optimization is only applicable if the transaction
and
> > + * all child sub-transactions belong to same page which we presume to
be the
> > + * most common case, we might be able to apply this when they are not
on same
> > + * page, but that needs us to map sub-transactions in proc's XidCache
based
> > + * on pageno for which each time a group leader needs to set the
transaction
> > + * status and that can lead to some performance penalty as well
because it
> > + * needs to be done after acquiring CLogControlLock, so let's leave
that
> > + * case for now. We don't do this optimization for prepared
transactions
> > + * as the dummy proc associated with such transactions doesn't have a
> > + * semaphore associated with it and the same is required for group
status
> > + * update. We choose not to create a semaphore for dummy procs for
this
> > + * purpose as the advantage of using this optimization for prepared
transactions
> > + * is not clear.
> > + *
>
> I think you should try to break up some of the sentences, one of them
> spans 7 lines.
>

Okay, I have simplified the sentences in the comment.

>
>
> > * Otherwise API is same as TransactionIdSetTreeStatus()
> > */
> > static void
> > TransactionIdSetPageStatus(TransactionId xid, int nsubxids,
> > TransactionId
*subxids, XidStatus status,
> > - XLogRecPtr lsn, int
pageno)
> > + XLogRecPtr lsn, int
pageno,
> > + bool
all_xact_same_page)
> > +{
> > + /*
> > + * If we can immediately acquire CLogControlLock, we update the
status
> > + * of our own XID and release the lock. If not, use group XID
status
> > + * update to improve efficiency and if still not able to update,
then
> > + * acquire CLogControlLock and update it.
> > + */
> > + if (LWLockConditionalAcquire(CLogControlLock, LW_EXCLUSIVE))
> > + {
> > + TransactionIdSetPageStatusInternal(xid, nsubxids,
subxids, status, lsn, pageno);
> > + LWLockRelease(CLogControlLock);
> > + }
> > + else if (!all_xact_same_page ||
> > + nsubxids > PGPROC_MAX_CACHED_SUBXIDS ||
> > + IsGXactActive() ||
> > + !TransactionGroupUpdateXidStatus(xid, status,
lsn, pageno))
> > + {
> > + LWLockAcquire(CLogControlLock, LW_EXCLUSIVE);
> > +
> > + TransactionIdSetPageStatusInternal(xid, nsubxids,
subxids, status, lsn, pageno);
> > +
> > + LWLockRelease(CLogControlLock);
> > + }
> > +}
> >
>
> This code is a bit arcane. I think it should be restructured to
> a) Directly go for LWLockAcquire if !all_xact_same_page || nsubxids >
> PGPROC_MAX_CACHED_SUBXIDS || IsGXactActive(). Going for a conditional
> lock acquire first can be rather expensive.
> b) I'd rather see an explicit fallback for the
> !TransactionGroupUpdateXidStatus case, this way it's too hard to
> understand. It's also harder to add probes to detect whether that
>

Changed.

>
>
> > The first process to add itself to the list will acquire
> > + * CLogControlLock in exclusive mode and perform
TransactionIdSetPageStatusInternal
> > + * on behalf of all group members. This avoids a great deal of
contention
> > + * around CLogControlLock when many processes are trying to commit at
once,
> > + * since the lock need not be repeatedly handed off from one committing
> > + * process to the next.
> > + *
> > + * Returns true, if transaction status is updated in clog page, else
return
> > + * false.
> > + */
> > +static bool
> > +TransactionGroupUpdateXidStatus(TransactionId xid, XidStatus status,
> > +
XLogRecPtr lsn, int pageno)
> > +{
> > + volatile PROC_HDR *procglobal = ProcGlobal;
> > + PGPROC *proc = MyProc;
> > + uint32 nextidx;
> > + uint32 wakeidx;
> > + int extraWaits = -1;
> > +
> > + /* We should definitely have an XID whose status needs to be
updated. */
> > + Assert(TransactionIdIsValid(xid));
> > +
> > + /*
> > + * Add ourselves to the list of processes needing a group XID
status
> > + * update.
> > + */
> > + proc->clogGroupMember = true;
> > + proc->clogGroupMemberXid = xid;
> > + proc->clogGroupMemberXidStatus = status;
> > + proc->clogGroupMemberPage = pageno;
> > + proc->clogGroupMemberLsn = lsn;
> > + while (true)
> > + {
> > + nextidx = pg_atomic_read_u32(&procglobal->clogGroupFirst);
> > +
> > + /*
> > + * Add the proc to list, if the clog page where we need
to update the
> > + * current transaction status is same as group leader's
clog page.
> > + * There is a race condition here such that after doing
the below
> > + * check and before adding this proc's clog update to a
group, if the
> > + * group leader already finishes the group update for
this page and
> > + * becomes group leader of another group which updates
different clog
> > + * page, then it will lead to a situation where a single
group can
> > + * have different clog page updates. Now the chances of
such a race
> > + * condition are less and even if it happens, the only
downside is
> > + * that it could lead to serial access of clog pages from
disk if
> > + * those pages are not in memory. Tests doesn't indicate
any
> > + * performance hit due to different clog page updates in
same group,
> > + * however in future, if we want to improve the
situation, then we can
> > + * detect the non-group leader transactions that tries to
update the
> > + * different CLOG page after acquiring CLogControlLock
and then mark
> > + * these transactions such that after waking they need to
perform CLOG
> > + * update via normal path.
> > + */
>
> Needs a good portion of polishing.
>

Okay, I have tried to simplify the comment as well.

>
> > + if (nextidx != INVALID_PGPROCNO &&
> > + ProcGlobal->allProcs[nextidx].clogGroupMemberPage
!= proc->clogGroupMemberPage)
> > + return false;
>
> I think we're returning with clogGroupMember = true - that doesn't look
> right.
>

Changed as per suggestion.

>
> > + pg_atomic_write_u32(&proc->clogGroupNext, nextidx);
> > +
> > + if
(pg_atomic_compare_exchange_u32(&procglobal->clogGroupFirst,
> > +
&nextidx,
> > +
(uint32) proc->pgprocno))
> > + break;
> > + }
>
> So this indeed has ABA type problems. And you appear to be arguing above
> that that's ok. Need to ponder that for a bit.
>
> So, we enqueue ourselves as the *head* of the wait list, if there's
> other waiters. Seems like it could lead to the first element after the
> leader to be delayed longer than the others.
>
>
> FWIW, You can move the nextidx = part of out the loop,
> pgatomic_compare_exchange will update the nextidx value from memory; no
> need for another load afterwards.
>

Changed as per suggestion.

>
> > + /*
> > + * If the list was not empty, the leader will update the status
of our
> > + * XID. It is impossible to have followers without a leader
because the
> > + * first process that has added itself to the list will always
have
> > + * nextidx as INVALID_PGPROCNO.
> > + */
> > + if (nextidx != INVALID_PGPROCNO)
> > + {
> > + /* Sleep until the leader updates our XID status. */
> > + for (;;)
> > + {
> > + /* acts as a read barrier */
> > + PGSemaphoreLock(&proc->sem);
> > + if (!proc->clogGroupMember)
> > + break;
> > + extraWaits++;
> > + }
> > +
> > + Assert(pg_atomic_read_u32(&proc->clogGroupNext) ==
INVALID_PGPROCNO);
> > +
> > + /* Fix semaphore count for any absorbed wakeups */
> > + while (extraWaits-- > 0)
> > + PGSemaphoreUnlock(&proc->sem);
> > + return true;
> > + }
> > +
> > + /* We are the leader. Acquire the lock on behalf of everyone. */
> > + LWLockAcquire(CLogControlLock, LW_EXCLUSIVE);
> > +
> > + /*
> > + * Now that we've got the lock, clear the list of processes
waiting for
> > + * group XID status update, saving a pointer to the head of the
list.
> > + * Trying to pop elements one at a time could lead to an ABA
problem.
> > + */
> > + while (true)
> > + {
> > + nextidx = pg_atomic_read_u32(&procglobal->clogGroupFirst);
> > + if
(pg_atomic_compare_exchange_u32(&procglobal->clogGroupFirst,
> > +
&nextidx,
> > +
INVALID_PGPROCNO))
> > + break;
> > + }
>
> Hm. It seems like you should should simply use pg_atomic_exchange_u32(),
> rather than compare_exchange?
>

Changed as per suggestion.

>
> I think it's worthwhile to create a benchmark that does something like
> BEGIN;SELECT ... FOR UPDATE; SELECT pg_sleep(random_time);
> INSERT;COMMIT; you'd find that if random is a bit larger (say 20-200ms,
> completely realistic values for network RTT + application computation),
> the success rate of group updates shrinks noticeably.
>

Will do some tests based on above test and share results.

Attached patch contains all the changes suggested by you. Let me know if I
have missed anything or you want it differently.

With Regards,
Amit Kapila.
EnterpriseDB: http://www.enterprisedb.com

Attachment Content-Type Size
group_update_clog_v8.patch application/octet-stream 15.6 KB

In response to

Responses

Browse pgsql-hackers by date

  From Date Subject
Next Message Amit Kapila 2016-03-23 07:03:22 Re: Speed up Clog Access by increasing CLOG buffers
Previous Message Pavan Deolasee 2016-03-23 06:43:19 pg_xlogdump fails to handle WAL file with multi-page XLP_FIRST_IS_CONTRECORD data