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Fix race condition in CheckTargetForConflictsIn. 

Dan Ports
This commit is contained in:
Robert Haas 2011-05-19 12:11:05 -04:00
parent 6b449d9051
commit 74aaa2136d
1 changed files with 79 additions and 128 deletions
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207
src/backend/storage/lmgr/predicate.c
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@ -3638,6 +3638,8 @@ CheckTargetForConflictsIn(PREDICATELOCKTARGETTAG *targettag)
LWLockId partitionLock;
PREDICATELOCKTARGET *target;
PREDICATELOCK *predlock;
PREDICATELOCK *mypredlock = NULL;
PREDICATELOCKTAG mypredlocktag;
Assert(MySerializableXact != InvalidSerializableXact);
@ -3683,139 +3685,21 @@ CheckTargetForConflictsIn(PREDICATELOCKTARGETTAG *targettag)
if (sxact == MySerializableXact)
{
/*
* If we're getting a write lock on the tuple and we're not in a
* subtransaction, we don't need a predicate (SIREAD) lock. We
* can't use this optimization within a subtransaction because the
* subtransaction could be rolled back, and we would be left
* without any lock at the top level.
* If we're getting a write lock on a tuple, we don't need
* a predicate (SIREAD) lock on the same tuple. We can
* safely remove our SIREAD lock, but we'll defer doing so
* until after the loop because that requires upgrading to
* an exclusive partition lock.
*
* At this point our transaction already has an ExclusiveRowLock
* on the relation, so we are OK to drop the predicate lock on the
* tuple, if found, without fearing that another write against the
* tuple will occur before the MVCC information makes it to the
* buffer.
* We can't use this optimization within a subtransaction
* because the subtransaction could roll back, and we
* would be left without any lock at the top level.
*/
if (!IsSubTransaction()
&& GET_PREDICATELOCKTARGETTAG_OFFSET(*targettag))
{
uint32 predlockhashcode;
PREDICATELOCKTARGET *rmtarget = NULL;
PREDICATELOCK *rmpredlock;
LOCALPREDICATELOCK *locallock,
*rmlocallock;
/*
* This is a tuple on which we have a tuple predicate lock. We
* only have shared LW locks now; release those, and get
* exclusive locks only while we modify things.
*/
LWLockRelease(SerializableXactHashLock);
LWLockRelease(partitionLock);
LWLockAcquire(SerializablePredicateLockListLock, LW_SHARED);
LWLockAcquire(partitionLock, LW_EXCLUSIVE);
LWLockAcquire(SerializableXactHashLock, LW_EXCLUSIVE);
/*
* Remove the predicate lock from shared memory, if it wasn't
* removed while the locks were released. One way that could
* happen is from autovacuum cleaning up an index.
*/
predlockhashcode = PredicateLockHashCodeFromTargetHashCode
(&(predlock->tag), targettaghash);
rmpredlock = (PREDICATELOCK *)
hash_search_with_hash_value(PredicateLockHash,
&(predlock->tag),
predlockhashcode,
HASH_FIND, NULL);
if (rmpredlock)
{
Assert(rmpredlock == predlock);
SHMQueueDelete(predlocktargetlink);
SHMQueueDelete(&(predlock->xactLink));
rmpredlock = (PREDICATELOCK *)
hash_search_with_hash_value(PredicateLockHash,
&(predlock->tag),
predlockhashcode,
HASH_REMOVE, NULL);
Assert(rmpredlock == predlock);
RemoveTargetIfNoLongerUsed(target, targettaghash);
LWLockRelease(SerializableXactHashLock);
LWLockRelease(partitionLock);
LWLockRelease(SerializablePredicateLockListLock);
locallock = (LOCALPREDICATELOCK *)
hash_search_with_hash_value(LocalPredicateLockHash,
targettag, targettaghash,
HASH_FIND, NULL);
/*
* Remove entry in local lock table if it exists and has
* no children. It's OK if it doesn't exist; that means
* the lock was transferred to a new target by a different
* backend.
*/
if (locallock != NULL)
{
locallock->held = false;
if (locallock->childLocks == 0)
{
rmlocallock = (LOCALPREDICATELOCK *)
hash_search_with_hash_value(LocalPredicateLockHash,
targettag, targettaghash,
HASH_REMOVE, NULL);
Assert(rmlocallock == locallock);
}
}
DecrementParentLocks(targettag);
/*
* If we've cleaned up the last of the predicate locks for
* the target, bail out before re-acquiring the locks.
*/
if (rmtarget)
return;
/*
* The list has been altered. Start over at the front.
*/
LWLockAcquire(partitionLock, LW_SHARED);
nextpredlock = (PREDICATELOCK *)
SHMQueueNext(&(target->predicateLocks),
&(target->predicateLocks),
offsetof(PREDICATELOCK, targetLink));
LWLockAcquire(SerializableXactHashLock, LW_SHARED);
}
else
{
/*
* The predicate lock was cleared while we were attempting
* to upgrade our lightweight locks. Revert to the shared
* locks.
*/
LWLockRelease(SerializableXactHashLock);
LWLockRelease(partitionLock);
LWLockRelease(SerializablePredicateLockListLock);
LWLockAcquire(partitionLock, LW_SHARED);
/*
* The list may have been altered by another process while
* we weren't holding the partition lock. Start over at
* the front.
*/
nextpredlock = (PREDICATELOCK *)
SHMQueueNext(&(target->predicateLocks),
&(target->predicateLocks),
offsetof(PREDICATELOCK, targetLink));
LWLockAcquire(SerializableXactHashLock, LW_SHARED);
}
mypredlock = predlock;
mypredlocktag = predlock->tag;
}
}
else if (!SxactIsRolledBack(sxact)
@ -3849,6 +3733,73 @@ CheckTargetForConflictsIn(PREDICATELOCKTARGETTAG *targettag)
}
LWLockRelease(SerializableXactHashLock);
LWLockRelease(partitionLock);
/*
* If we found one of our own SIREAD locks to remove, remove it
* now.
*
* At this point our transaction already has an ExclusiveRowLock
* on the relation, so we are OK to drop the predicate lock on the
* tuple, if found, without fearing that another write against the
* tuple will occur before the MVCC information makes it to the
* buffer.
*/
if (mypredlock != NULL)
{
uint32 predlockhashcode;
PREDICATELOCK *rmpredlock;
LWLockAcquire(SerializablePredicateLockListLock, LW_SHARED);
LWLockAcquire(partitionLock, LW_EXCLUSIVE);
LWLockAcquire(SerializableXactHashLock, LW_EXCLUSIVE);
/*
* Remove the predicate lock from shared memory, if it wasn't
* removed while the locks were released. One way that could
* happen is from autovacuum cleaning up an index.
*/
predlockhashcode = PredicateLockHashCodeFromTargetHashCode
(&mypredlocktag, targettaghash);
rmpredlock = (PREDICATELOCK *)
hash_search_with_hash_value(PredicateLockHash,
&mypredlocktag,
predlockhashcode,
HASH_FIND, NULL);
if (rmpredlock != NULL)
{
Assert(rmpredlock == mypredlock);
SHMQueueDelete(&(mypredlock->targetLink));
SHMQueueDelete(&(mypredlock->xactLink));
rmpredlock = (PREDICATELOCK *)
hash_search_with_hash_value(PredicateLockHash,
&mypredlocktag,
predlockhashcode,
HASH_REMOVE, NULL);
Assert(rmpredlock == mypredlock);
RemoveTargetIfNoLongerUsed(target, targettaghash);
}
LWLockRelease(SerializableXactHashLock);
LWLockRelease(partitionLock);
LWLockRelease(SerializablePredicateLockListLock);
if (rmpredlock != NULL)
{
/*
* Remove entry in local lock table if it exists. It's OK
* if it doesn't exist; that means the lock was
* transferred to a new target by a different backend.
*/
hash_search_with_hash_value(LocalPredicateLockHash,
targettag, targettaghash,
HASH_REMOVE, NULL);
DecrementParentLocks(targettag);
}
}
}
/*