On 06.06.2011 07:12, Robert Haas wrote:
> I did some further investigation of this. It appears that more than
> 99% of the lock manager lwlock traffic that remains with this patch
> applied has locktag_type == LOCKTAG_VIRTUALTRANSACTION. Every SELECT
> statement runs in a separate transaction, and for each new transaction
> we run VirtualXactLockTableInsert(), which takes a lock on the vxid of
> that transaction, so that other processes can wait for it. That
> requires acquiring and releasing a lock manager partition lock, and we
> have to do the same thing a moment later at transaction end to dump
> the lock.
>
> A quick grep seems to indicate that the only places where we actually
> make use of those VXID locks are in DefineIndex(), when CREATE INDEX
> CONCURRENTLY is in use, and during Hot Standby, when max_standby_delay
> expires. Considering that these are not commonplace events, it seems
> tremendously wasteful to incur the overhead for every transaction. It
> might be possible to make the lock entry spring into existence "on
> demand" - i.e. if a backend wants to wait on a vxid entry, it creates
> the LOCK and PROCLOCK objects for that vxid. That presents a few
> synchronization challenges, and plus we have to make sure that the
> backend that's just been "given" a lock knows that it needs to release
> it, but those seem like they might be manageable problems, especially
> given the new infrastructure introduced by the current patch, which
> already has to deal with some of those issues. I'll look into this
> further.
At the moment, the transaction with given vxid acquires an ExclusiveLock
on the vxid, and anyone who wants to wait for it to finish acquires a
ShareLock. If we simply reverse that, so that the transaction itself
takes ShareLock, and anyone wanting to wait on it take an ExclusiveLock,
will this fastlock patch bust this bottleneck too?
-- Heikki Linnakangas EnterpriseDB http://www.enterprisedb.com