rdelaage
/
postgresql
mirror of https://git.postgresql.org/git/postgresql.git
1
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity

Fix race in parallel hash join batch cleanup, take II. 

With unlucky timing and parallel_leader_participation=off (not the
default), PHJ could attempt to access per-batch shared state just as it
was being freed.  There was code intended to prevent that by checking
for a cleared pointer, but it was racy.  Fix, by introducing an extra
barrier phase.  The new phase PHJ_BUILD_RUNNING means that it's safe to
access the per-batch state to find a batch to help with, and
PHJ_BUILD_DONE means that it is too late.  The last to detach will free
the array of per-batch state as before, but now it will also atomically
advance the phase, so that late attachers can avoid the hazard.  This
mirrors the way per-batch hash tables are freed (see phases
PHJ_BATCH_PROBING and PHJ_BATCH_DONE).

An earlier attempt to fix this (commit 3b8981b6, later reverted) missed
one special case.  When the inner side is empty (the "empty inner
optimization), the build barrier would only make it to
PHJ_BUILD_HASHING_INNER phase before workers attempted to detach from
the hashtable.  In that case, fast-forward the build barrier to
PHJ_BUILD_RUNNING before proceeding, so that our later assertions hold
and we can still negotiate who is cleaning up.

Revealed by build farm failures, where BarrierAttach() failed a sanity
check assertion, because the memory had been clobbered by dsa_free().
In non-assert builds, the result could be a segmentation fault.

Back-patch to all supported releases.

Author: Thomas Munro <thomas.munro@gmail.com>
Author: Melanie Plageman <melanieplageman@gmail.com>
Reported-by: Michael Paquier <michael@paquier.xyz>
Reported-by: David Geier <geidav.pg@gmail.com>
Tested-by: David Geier <geidav.pg@gmail.com>
Discussion: https://postgr.es/m/20200929061142.GA29096%40paquier.xyz
This commit is contained in:
Thomas Munro 2023-03-21 14:29:34 +13:00
parent ef719e7b32
commit 8d578b9b2e
3 changed files with 74 additions and 33 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

50
src/backend/executor/nodeHash.c
View File

@ -333,14 +333,21 @@ MultiExecParallelHash(HashState *node)
hashtable->nbuckets = pstate->nbuckets;
hashtable->log2_nbuckets = my_log2(hashtable->nbuckets);
hashtable->totalTuples = pstate->total_tuples;
ExecParallelHashEnsureBatchAccessors(hashtable);
/*
* Unless we're completely done and the batch state has been freed, make
* sure we have accessors.
*/
if (BarrierPhase(build_barrier) < PHJ_BUILD_DONE)
ExecParallelHashEnsureBatchAccessors(hashtable);
/*
* The next synchronization point is in ExecHashJoin's HJ_BUILD_HASHTABLE
* case, which will bring the build phase to PHJ_BUILD_DONE (if it isn't
* there already).
* case, which will bring the build phase to PHJ_BUILD_RUNNING (if it
* isn't there already).
*/
Assert(BarrierPhase(build_barrier) == PHJ_BUILD_HASHING_OUTER ||
BarrierPhase(build_barrier) == PHJ_BUILD_RUNNING ||
BarrierPhase(build_barrier) == PHJ_BUILD_DONE);
}
@ -620,7 +627,7 @@ ExecHashTableCreate(HashState *state, List *hashOperators, List *hashCollations,
/*
* The next Parallel Hash synchronization point is in
* MultiExecParallelHash(), which will progress it all the way to
* PHJ_BUILD_DONE. The caller must not return control from this
* PHJ_BUILD_RUNNING. The caller must not return control from this
* executor node between now and then.
*/
}
@ -3054,14 +3061,11 @@ ExecParallelHashEnsureBatchAccessors(HashJoinTable hashtable)
}
/*
* It's possible for a backend to start up very late so that the whole
* join is finished and the shm state for tracking batches has already
* been freed by ExecHashTableDetach(). In that case we'll just leave
* hashtable->batches as NULL so that ExecParallelHashJoinNewBatch() gives
* up early.
* We should never see a state where the batch-tracking array is freed,
* because we should have given up sooner if we join when the build
* barrier has reached the PHJ_BUILD_DONE phase.
*/
if (!DsaPointerIsValid(pstate->batches))
return;
Assert(DsaPointerIsValid(pstate->batches));
/* Use hash join memory context. */
oldcxt = MemoryContextSwitchTo(hashtable->hashCxt);
@ -3181,9 +3185,18 @@ ExecHashTableDetachBatch(HashJoinTable hashtable)
void
ExecHashTableDetach(HashJoinTable hashtable)
{
if (hashtable->parallel_state)
ParallelHashJoinState *pstate = hashtable->parallel_state;
/*
* If we're involved in a parallel query, we must either have gotten all
* the way to PHJ_BUILD_RUNNING, or joined too late and be in
* PHJ_BUILD_DONE.
*/
Assert(!pstate ||
BarrierPhase(&pstate->build_barrier) >= PHJ_BUILD_RUNNING);
if (pstate && BarrierPhase(&pstate->build_barrier) == PHJ_BUILD_RUNNING)
{
ParallelHashJoinState *pstate = hashtable->parallel_state;
int i;
/* Make sure any temporary files are closed. */
@ -3199,17 +3212,22 @@ ExecHashTableDetach(HashJoinTable hashtable)
}
/* If we're last to detach, clean up shared memory. */
if (BarrierDetach(&pstate->build_barrier))
if (BarrierArriveAndDetach(&pstate->build_barrier))
{
/*
* Late joining processes will see this state and give up
* immediately.
*/
Assert(BarrierPhase(&pstate->build_barrier) == PHJ_BUILD_DONE);
if (DsaPointerIsValid(pstate->batches))
{
dsa_free(hashtable->area, pstate->batches);
pstate->batches = InvalidDsaPointer;
}
}
hashtable->parallel_state = NULL;
}
hashtable->parallel_state = NULL;
}
/*

54
src/backend/executor/nodeHashjoin.c
View File

@ -45,7 +45,8 @@
* PHJ_BUILD_ALLOCATING -- one sets up the batches and table 0
* PHJ_BUILD_HASHING_INNER -- all hash the inner rel
* PHJ_BUILD_HASHING_OUTER -- (multi-batch only) all hash the outer
* PHJ_BUILD_DONE -- building done, probing can begin
* PHJ_BUILD_RUNNING -- building done, probing can begin
* PHJ_BUILD_DONE -- all work complete, one frees batches
*
* While in the phase PHJ_BUILD_HASHING_INNER a separate pair of barriers may
* be used repeatedly as required to coordinate expansions in the number of
@ -73,7 +74,7 @@
* batches whenever it encounters them while scanning and probing, which it
* can do because it processes batches in serial order.
*
* Once PHJ_BUILD_DONE is reached, backends then split up and process
* Once PHJ_BUILD_RUNNING is reached, backends then split up and process
* different batches, or gang up and work together on probing batches if there
* aren't enough to go around. For each batch there is a separate barrier
* with the following phases:
@ -95,11 +96,16 @@
*
* To avoid deadlocks, we never wait for any barrier unless it is known that
* all other backends attached to it are actively executing the node or have
* already arrived. Practically, that means that we never return a tuple
* while attached to a barrier, unless the barrier has reached its final
* state. In the slightly special case of the per-batch barrier, we return
* tuples while in PHJ_BATCH_PROBING phase, but that's OK because we use
* BarrierArriveAndDetach() to advance it to PHJ_BATCH_DONE without waiting.
* finished. Practically, that means that we never emit a tuple while attached
* to a barrier, unless the barrier has reached a phase that means that no
* process will wait on it again. We emit tuples while attached to the build
* barrier in phase PHJ_BUILD_RUNNING, and to a per-batch barrier in phase
* PHJ_BATCH_PROBING. These are advanced to PHJ_BUILD_DONE and PHJ_BATCH_DONE
* respectively without waiting, using BarrierArriveAndDetach(). The last to
* detach receives a different return value so that it knows that it's safe to
* clean up. Any straggler process that attaches after that phase is reached
* will see that it's too late to participate or access the relevant shared
* memory objects.
*
*-------------------------------------------------------------------------
*/
@ -296,7 +302,21 @@ ExecHashJoinImpl(PlanState *pstate, bool parallel)
* outer relation.
*/
if (hashtable->totalTuples == 0 && !HJ_FILL_OUTER(node))
{
if (parallel)
{
/*
* Advance the build barrier to PHJ_BUILD_RUNNING
* before proceeding so we can negotiate resource
* cleanup.
*/
Barrier *build_barrier = &parallel_state->build_barrier;
while (BarrierPhase(build_barrier) < PHJ_BUILD_RUNNING)
BarrierArriveAndWait(build_barrier, 0);
}
return NULL;
}
/*
* need to remember whether nbatch has increased since we
@ -317,6 +337,7 @@ ExecHashJoinImpl(PlanState *pstate, bool parallel)
build_barrier = &parallel_state->build_barrier;
Assert(BarrierPhase(build_barrier) == PHJ_BUILD_HASHING_OUTER ||
BarrierPhase(build_barrier) == PHJ_BUILD_RUNNING ||
BarrierPhase(build_barrier) == PHJ_BUILD_DONE);
if (BarrierPhase(build_barrier) == PHJ_BUILD_HASHING_OUTER)
{
@ -329,9 +350,18 @@ ExecHashJoinImpl(PlanState *pstate, bool parallel)
BarrierArriveAndWait(build_barrier,
WAIT_EVENT_HASH_BUILD_HASH_OUTER);
}
Assert(BarrierPhase(build_barrier) == PHJ_BUILD_DONE);
else if (BarrierPhase(build_barrier) == PHJ_BUILD_DONE)
{
/*
* If we attached so late that the job is finished and
* the batch state has been freed, we can return
* immediately.
*/
return NULL;
}
/* Each backend should now select a batch to work on. */
Assert(BarrierPhase(build_barrier) == PHJ_BUILD_RUNNING);
hashtable->curbatch = -1;
node->hj_JoinState = HJ_NEED_NEW_BATCH;
@ -1090,14 +1120,6 @@ ExecParallelHashJoinNewBatch(HashJoinState *hjstate)
int start_batchno;
int batchno;
/*
* If we started up so late that the batch tracking array has been freed
* already by ExecHashTableDetach(), then we are finished. See also
* ExecParallelHashEnsureBatchAccessors().
*/
if (hashtable->batches == NULL)
return false;
/*
* If we were already attached to a batch, remember not to bother checking
* it again, and detach from it (possibly freeing the hash table if we are

3
src/include/executor/hashjoin.h
View File

@ -258,7 +258,8 @@ typedef struct ParallelHashJoinState
#define PHJ_BUILD_ALLOCATING 1
#define PHJ_BUILD_HASHING_INNER 2
#define PHJ_BUILD_HASHING_OUTER 3
#define PHJ_BUILD_DONE 4
#define PHJ_BUILD_RUNNING 4
#define PHJ_BUILD_DONE 5
/* The phases for probing each batch, used by for batch_barrier. */
#define PHJ_BATCH_ELECTING 0