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Fix possible recovery trouble if TRUNCATE overlaps a checkpoint. 

If TRUNCATE causes some buffers to be invalidated and thus the
checkpoint does not flush them, TRUNCATE must also ensure that the
corresponding files are truncated on disk. Otherwise, a replay
from the checkpoint might find that the buffers exist but have
the wrong contents, which may cause replay to fail.

Report by Teja Mupparti. Patch by Kyotaro Horiguchi, per a design
suggestion from Heikki Linnakangas, with some changes to the
comments by me. Review of this and a prior patch that approached
the issue differently by Heikki Linnakangas, Andres Freund, Álvaro
Herrera, Masahiko Sawada, and Tom Lane.

Discussion: http://postgr.es/m/BYAPR06MB6373BF50B469CA393C614257ABF00@BYAPR06MB6373.namprd06.prod.outlook.com
This commit is contained in:
Robert Haas 2022-03-24 14:32:06 -04:00
parent 86459b3296
commit 412ad7a556
11 changed files with 120 additions and 28 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

6
src/backend/access/transam/multixact.c
View File

@ -3088,8 +3088,8 @@ TruncateMultiXact(MultiXactId newOldestMulti, Oid newOldestMultiDB)
* crash/basebackup, even though the state of the data directory would
* require it.
*/
Assert(!MyProc->delayChkpt);
MyProc->delayChkpt = true;
Assert((MyProc->delayChkpt & DELAY_CHKPT_START) == 0);
MyProc->delayChkpt |= DELAY_CHKPT_START;
/* WAL log truncation */
WriteMTruncateXlogRec(newOldestMultiDB,
@ -3115,7 +3115,7 @@ TruncateMultiXact(MultiXactId newOldestMulti, Oid newOldestMultiDB)
/* Then offsets */
PerformOffsetsTruncation(oldestMulti, newOldestMulti);
MyProc->delayChkpt = false;
MyProc->delayChkpt &= ~DELAY_CHKPT_START;
END_CRIT_SECTION();
LWLockRelease(MultiXactTruncationLock);

12
src/backend/access/transam/twophase.c
View File

@ -475,7 +475,7 @@ MarkAsPreparingGuts(GlobalTransaction gxact, TransactionId xid, const char *gid,
}
proc->xid = xid;
Assert(proc->xmin == InvalidTransactionId);
proc->delayChkpt = false;
proc->delayChkpt = 0;
proc->statusFlags = 0;
proc->pid = 0;
proc->databaseId = databaseid;
@ -1164,7 +1164,8 @@ EndPrepare(GlobalTransaction gxact)
START_CRIT_SECTION();
MyProc->delayChkpt = true;
Assert((MyProc->delayChkpt & DELAY_CHKPT_START) == 0);
MyProc->delayChkpt |= DELAY_CHKPT_START;
XLogBeginInsert();
for (record = records.head; record != NULL; record = record->next)
@ -1207,7 +1208,7 @@ EndPrepare(GlobalTransaction gxact)
* checkpoint starting after this will certainly see the gxact as a
* candidate for fsyncing.
*/
MyProc->delayChkpt = false;
MyProc->delayChkpt &= ~DELAY_CHKPT_START;
/*
* Remember that we have this GlobalTransaction entry locked for us. If
@ -2266,7 +2267,8 @@ RecordTransactionCommitPrepared(TransactionId xid,
START_CRIT_SECTION();
/* See notes in RecordTransactionCommit */
MyProc->delayChkpt = true;
Assert((MyProc->delayChkpt & DELAY_CHKPT_START) == 0);
MyProc->delayChkpt |= DELAY_CHKPT_START;
/*
* Emit the XLOG commit record. Note that we mark 2PC commits as
@ -2314,7 +2316,7 @@ RecordTransactionCommitPrepared(TransactionId xid,
TransactionIdCommitTree(xid, nchildren, children);
/* Checkpoint can proceed now */
MyProc->delayChkpt = false;
MyProc->delayChkpt &= ~DELAY_CHKPT_START;
END_CRIT_SECTION();

5
src/backend/access/transam/xact.c
View File

@ -1387,8 +1387,9 @@ RecordTransactionCommit(void)
* This makes checkpoint's determination of which xacts are delayChkpt
* a bit fuzzy, but it doesn't matter.
*/
Assert((MyProc->delayChkpt & DELAY_CHKPT_START) == 0);
START_CRIT_SECTION();
MyProc->delayChkpt = true;
MyProc->delayChkpt |= DELAY_CHKPT_START;
SetCurrentTransactionStopTimestamp();
@ -1489,7 +1490,7 @@ RecordTransactionCommit(void)
*/
if (markXidCommitted)
{
MyProc->delayChkpt = false;
MyProc->delayChkpt &= ~DELAY_CHKPT_START;
END_CRIT_SECTION();
}

16
src/backend/access/transam/xlog.c
View File

@ -6517,18 +6517,30 @@ CreateCheckPoint(int flags)
* and we will correctly flush the update below. So we cannot miss any
* xacts we need to wait for.
*/
vxids = GetVirtualXIDsDelayingChkpt(&nvxids);
vxids = GetVirtualXIDsDelayingChkpt(&nvxids, DELAY_CHKPT_START);
if (nvxids > 0)
{
do
{
pg_usleep(10000L); /* wait for 10 msec */
} while (HaveVirtualXIDsDelayingChkpt(vxids, nvxids));
} while (HaveVirtualXIDsDelayingChkpt(vxids, nvxids,
DELAY_CHKPT_START));
}
pfree(vxids);
CheckPointGuts(checkPoint.redo, flags);
vxids = GetVirtualXIDsDelayingChkpt(&nvxids, DELAY_CHKPT_COMPLETE);
if (nvxids > 0)
{
do
{
pg_usleep(10000L); /* wait for 10 msec */
} while (HaveVirtualXIDsDelayingChkpt(vxids, nvxids,
DELAY_CHKPT_COMPLETE));
}
pfree(vxids);
/*
* Take a snapshot of running transactions and write this to WAL. This
* allows us to reconstruct the state of running transactions during

2
src/backend/access/transam/xloginsert.c
View File

@ -1011,7 +1011,7 @@ XLogSaveBufferForHint(Buffer buffer, bool buffer_std)
/*
* Ensure no checkpoint can change our view of RedoRecPtr.
*/
Assert(MyProc->delayChkpt);
Assert((MyProc->delayChkpt & DELAY_CHKPT_START) != 0);
/*
* Update RedoRecPtr so that we can make the right decision

29
src/backend/catalog/storage.c
View File

@ -325,6 +325,22 @@ RelationTruncate(Relation rel, BlockNumber nblocks)
RelationPreTruncate(rel);
/*
* Make sure that a concurrent checkpoint can't complete while truncation
* is in progress.
*
* The truncation operation might drop buffers that the checkpoint
* otherwise would have flushed. If it does, then it's essential that
* the files actually get truncated on disk before the checkpoint record
* is written. Otherwise, if reply begins from that checkpoint, the
* to-be-truncated blocks might still exist on disk but have older
* contents than expected, which can cause replay to fail. It's OK for
* the blocks to not exist on disk at all, but not for them to have the
* wrong contents.
*/
Assert((MyProc->delayChkpt & DELAY_CHKPT_COMPLETE) == 0);
MyProc->delayChkpt |= DELAY_CHKPT_COMPLETE;
/*
* We WAL-log the truncation before actually truncating, which means
* trouble if the truncation fails. If we then crash, the WAL replay
@ -363,13 +379,24 @@ RelationTruncate(Relation rel, BlockNumber nblocks)
XLogFlush(lsn);
}
/* Do the real work to truncate relation forks */
/*
* This will first remove any buffers from the buffer pool that should no
* longer exist after truncation is complete, and then truncate the
* corresponding files on disk.
*/
smgrtruncate(RelationGetSmgr(rel), forks, nforks, blocks);
/* We've done all the critical work, so checkpoints are OK now. */
MyProc->delayChkpt &= ~DELAY_CHKPT_COMPLETE;
/*
* Update upper-level FSM pages to account for the truncation. This is
* important because the just-truncated pages were likely marked as
* all-free, and would be preferentially selected.
*
* NB: There's no point in delaying checkpoints until this is done.
* Because the FSM is not WAL-logged, we have to be prepared for the
* possibility of corruption after a crash anyway.
*/
if (need_fsm_vacuum)
FreeSpaceMapVacuumRange(rel, nblocks, InvalidBlockNumber);

6
src/backend/storage/buffer/bufmgr.c
View File

@ -3911,7 +3911,9 @@ MarkBufferDirtyHint(Buffer buffer, bool buffer_std)
* essential that CreateCheckPoint waits for virtual transactions
* rather than full transactionids.
*/
MyProc->delayChkpt = delayChkpt = true;
Assert((MyProc->delayChkpt & DELAY_CHKPT_START) == 0);
MyProc->delayChkpt |= DELAY_CHKPT_START;
delayChkpt = true;
lsn = XLogSaveBufferForHint(buffer, buffer_std);
}
@ -3944,7 +3946,7 @@ MarkBufferDirtyHint(Buffer buffer, bool buffer_std)
UnlockBufHdr(bufHdr, buf_state);
if (delayChkpt)
MyProc->delayChkpt = false;
MyProc->delayChkpt &= ~DELAY_CHKPT_START;
if (dirtied)
{

26
src/backend/storage/ipc/procarray.c
View File

@ -698,7 +698,10 @@ ProcArrayEndTransaction(PGPROC *proc, TransactionId latestXid)
proc->lxid = InvalidLocalTransactionId;
proc->xmin = InvalidTransactionId;
proc->delayChkpt = false; /* be sure this is cleared in abort */
/* be sure this is cleared in abort */
proc->delayChkpt = 0;
proc->recoveryConflictPending = false;
/* must be cleared with xid/xmin: */
@ -737,7 +740,10 @@ ProcArrayEndTransactionInternal(PGPROC *proc, TransactionId latestXid)
proc->xid = InvalidTransactionId;
proc->lxid = InvalidLocalTransactionId;
proc->xmin = InvalidTransactionId;
proc->delayChkpt = false; /* be sure this is cleared in abort */
/* be sure this is cleared in abort */
proc->delayChkpt = 0;
proc->recoveryConflictPending = false;
/* must be cleared with xid/xmin: */
@ -3053,7 +3059,8 @@ GetOldestSafeDecodingTransactionId(bool catalogOnly)
* delaying checkpoint because they have critical actions in progress.
*
* Constructs an array of VXIDs of transactions that are currently in commit
* critical sections, as shown by having delayChkpt set in their PGPROC.
* critical sections, as shown by having specified delayChkpt bits set in their
* PGPROC.
*
* Returns a palloc'd array that should be freed by the caller.
* *nvxids is the number of valid entries.
@ -3067,13 +3074,15 @@ GetOldestSafeDecodingTransactionId(bool catalogOnly)
* for clearing of delayChkpt to propagate is unimportant for correctness.
*/
VirtualTransactionId *
GetVirtualXIDsDelayingChkpt(int *nvxids)
GetVirtualXIDsDelayingChkpt(int *nvxids, int type)
{
VirtualTransactionId *vxids;
ProcArrayStruct *arrayP = procArray;
int count = 0;
int index;
Assert(type != 0);
/* allocate what's certainly enough result space */
vxids = (VirtualTransactionId *)
palloc(sizeof(VirtualTransactionId) * arrayP->maxProcs);
@ -3085,7 +3094,7 @@ GetVirtualXIDsDelayingChkpt(int *nvxids)
int pgprocno = arrayP->pgprocnos[index];
PGPROC *proc = &allProcs[pgprocno];
if (proc->delayChkpt)
if ((proc->delayChkpt & type) != 0)
{
VirtualTransactionId vxid;
@ -3111,12 +3120,14 @@ GetVirtualXIDsDelayingChkpt(int *nvxids)
* those numbers should be small enough for it not to be a problem.
*/
bool
HaveVirtualXIDsDelayingChkpt(VirtualTransactionId *vxids, int nvxids)
HaveVirtualXIDsDelayingChkpt(VirtualTransactionId *vxids, int nvxids, int type)
{
bool result = false;
ProcArrayStruct *arrayP = procArray;
int index;
Assert(type != 0);
LWLockAcquire(ProcArrayLock, LW_SHARED);
for (index = 0; index < arrayP->numProcs; index++)
@ -3127,7 +3138,8 @@ HaveVirtualXIDsDelayingChkpt(VirtualTransactionId *vxids, int nvxids)
GET_VXID_FROM_PGPROC(vxid, *proc);
if (proc->delayChkpt && VirtualTransactionIdIsValid(vxid))
if ((proc->delayChkpt & type) != 0 &&
VirtualTransactionIdIsValid(vxid))
{
int i;

4
src/backend/storage/lmgr/proc.c
View File

@ -393,7 +393,7 @@ InitProcess(void)
MyProc->roleId = InvalidOid;
MyProc->tempNamespaceId = InvalidOid;
MyProc->isBackgroundWorker = IsBackgroundWorker;
MyProc->delayChkpt = false;
MyProc->delayChkpt = 0;
MyProc->statusFlags = 0;
/* NB -- autovac launcher intentionally does not set IS_AUTOVACUUM */
if (IsAutoVacuumWorkerProcess())
@ -578,7 +578,7 @@ InitAuxiliaryProcess(void)
MyProc->roleId = InvalidOid;
MyProc->tempNamespaceId = InvalidOid;
MyProc->isBackgroundWorker = IsBackgroundWorker;
MyProc->delayChkpt = false;
MyProc->delayChkpt = 0;
MyProc->statusFlags = 0;
MyProc->lwWaiting = false;
MyProc->lwWaitMode = 0;

37
src/include/storage/proc.h
View File

@ -86,6 +86,41 @@ struct XidCache
*/
#define INVALID_PGPROCNO PG_INT32_MAX
/*
* Flags for PGPROC.delayChkpt
*
* These flags can be used to delay the start or completion of a checkpoint
* for short periods. A flag is in effect if the corresponding bit is set in
* the PGPROC of any backend.
*
* For our purposes here, a checkpoint has three phases: (1) determine the
* location to which the redo pointer will be moved, (2) write all the
* data durably to disk, and (3) WAL-log the checkpoint.
*
* Setting DELAY_CHKPT_START prevents the system from moving from phase 1
* to phase 2. This is useful when we are performing a WAL-logged modification
* of data that will be flushed to disk in phase 2. By setting this flag
* before writing WAL and clearing it after we've both written WAL and
* performed the corresponding modification, we ensure that if the WAL record
* is inserted prior to the new redo point, the corresponding data changes will
* also be flushed to disk before the checkpoint can complete. (In the
* extremely common case where the data being modified is in shared buffers
* and we acquire an exclusive content lock on the relevant buffers before
* writing WAL, this mechanism is not needed, because phase 2 will block
* until we release the content lock and then flush the modified data to
* disk.)
*
* Setting DELAY_CHKPT_COMPLETE prevents the system from moving from phase 2
* to phase 3. This is useful if we are performing a WAL-logged operation that
* might invalidate buffers, such as relation truncation. In this case, we need
* to ensure that any buffers which were invalidated and thus not flushed by
* the checkpoint are actaully destroyed on disk. Replay can cope with a file
* or block that doesn't exist, but not with a block that has the wrong
* contents.
*/
#define DELAY_CHKPT_START (1<<0)
#define DELAY_CHKPT_COMPLETE (1<<1)
typedef enum
{
PROC_WAIT_STATUS_OK,
@ -191,7 +226,7 @@ struct PGPROC
pg_atomic_uint64 waitStart; /* time at which wait for lock acquisition
* started */
bool delayChkpt; /* true if this proc delays checkpoint start */
int delayChkpt; /* for DELAY_CHKPT_* flags */
uint8 statusFlags; /* this backend's status flags, see PROC_*
* above. mirrored in

5
src/include/storage/procarray.h
View File

@ -59,8 +59,9 @@ extern TransactionId GetOldestActiveTransactionId(void);
extern TransactionId GetOldestSafeDecodingTransactionId(bool catalogOnly);
extern void GetReplicationHorizons(TransactionId *slot_xmin, TransactionId *catalog_xmin);
extern VirtualTransactionId *GetVirtualXIDsDelayingChkpt(int *nvxids);
extern bool HaveVirtualXIDsDelayingChkpt(VirtualTransactionId *vxids, int nvxids);
extern VirtualTransactionId *GetVirtualXIDsDelayingChkpt(int *nvxids, int type);
extern bool HaveVirtualXIDsDelayingChkpt(VirtualTransactionId *vxids,
int nvxids, int type);
extern PGPROC *BackendPidGetProc(int pid);
extern PGPROC *BackendPidGetProcWithLock(int pid);