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standby.h File Reference
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Data Structures

struct  RunningTransactionsData
 

Macros

#define MinSizeOfXactRunningXacts   offsetof(xl_running_xacts, xids)
 

Typedefs

typedef struct RunningTransactionsData RunningTransactionsData
 
typedef RunningTransactionsDataRunningTransactions
 

Enumerations

enum  subxids_array_status { SUBXIDS_IN_ARRAY , SUBXIDS_MISSING , SUBXIDS_IN_SUBTRANS }
 

Functions

void InitRecoveryTransactionEnvironment (void)
 
void ShutdownRecoveryTransactionEnvironment (void)
 
void ResolveRecoveryConflictWithSnapshot (TransactionId snapshotConflictHorizon, bool isCatalogRel, RelFileLocator locator)
 
void ResolveRecoveryConflictWithSnapshotFullXid (FullTransactionId snapshotConflictHorizon, bool isCatalogRel, RelFileLocator locator)
 
void ResolveRecoveryConflictWithTablespace (Oid tsid)
 
void ResolveRecoveryConflictWithDatabase (Oid dbid)
 
void ResolveRecoveryConflictWithLock (LOCKTAG locktag, bool logging_conflict)
 
void ResolveRecoveryConflictWithBufferPin (void)
 
void CheckRecoveryConflictDeadlock (void)
 
void StandbyDeadLockHandler (void)
 
void StandbyTimeoutHandler (void)
 
void StandbyLockTimeoutHandler (void)
 
void LogRecoveryConflict (ProcSignalReason reason, TimestampTz wait_start, TimestampTz now, VirtualTransactionId *wait_list, bool still_waiting)
 
void StandbyAcquireAccessExclusiveLock (TransactionId xid, Oid dbOid, Oid relOid)
 
void StandbyReleaseLockTree (TransactionId xid, int nsubxids, TransactionId *subxids)
 
void StandbyReleaseAllLocks (void)
 
void StandbyReleaseOldLocks (TransactionId oldxid)
 
void LogAccessExclusiveLock (Oid dbOid, Oid relOid)
 
void LogAccessExclusiveLockPrepare (void)
 
XLogRecPtr LogStandbySnapshot (void)
 
void LogStandbyInvalidations (int nmsgs, SharedInvalidationMessage *msgs, bool relcacheInitFileInval)
 

Variables

PGDLLIMPORT int max_standby_archive_delay
 
PGDLLIMPORT int max_standby_streaming_delay
 
PGDLLIMPORT bool log_recovery_conflict_waits
 

Macro Definition Documentation

◆ MinSizeOfXactRunningXacts

#define MinSizeOfXactRunningXacts   offsetof(xl_running_xacts, xids)

Definition at line 63 of file standby.h.

Typedef Documentation

◆ RunningTransactions

Definition at line 100 of file standby.h.

◆ RunningTransactionsData

Enumeration Type Documentation

◆ subxids_array_status

Enumerator
SUBXIDS_IN_ARRAY 
SUBXIDS_MISSING 
SUBXIDS_IN_SUBTRANS 

Definition at line 78 of file standby.h.

79{
80 SUBXIDS_IN_ARRAY, /* xids array includes all running subxids */
81 SUBXIDS_MISSING, /* snapshot overflowed, subxids are missing */
82 SUBXIDS_IN_SUBTRANS, /* subxids are not included in 'xids', but
83 * pg_subtrans is fully up-to-date */
subxids_array_status
Definition: standby.h:79
@ SUBXIDS_IN_SUBTRANS
Definition: standby.h:82
@ SUBXIDS_MISSING
Definition: standby.h:81
@ SUBXIDS_IN_ARRAY
Definition: standby.h:80

Function Documentation

◆ CheckRecoveryConflictDeadlock()

void CheckRecoveryConflictDeadlock ( void  )

Definition at line 904 of file standby.c.

905{
906 Assert(!InRecovery); /* do not call in Startup process */
907
909 return;
910
911 /*
912 * Error message should match ProcessInterrupts() but we avoid calling
913 * that because we aren't handling an interrupt at this point. Note that
914 * we only cancel the current transaction here, so if we are in a
915 * subtransaction and the pin is held by a parent, then the Startup
916 * process will continue to wait even though we have avoided deadlock.
917 */
920 errmsg("canceling statement due to conflict with recovery"),
921 errdetail("User transaction caused buffer deadlock with recovery.")));
922}
bool HoldingBufferPinThatDelaysRecovery(void)
Definition: bufmgr.c:5373
#define Assert(condition)
Definition: c.h:815
int errdetail(const char *fmt,...)
Definition: elog.c:1203
int errcode(int sqlerrcode)
Definition: elog.c:853
int errmsg(const char *fmt,...)
Definition: elog.c:1070
#define ERROR
Definition: elog.h:39
#define ereport(elevel,...)
Definition: elog.h:149
#define ERRCODE_T_R_DEADLOCK_DETECTED
Definition: pgbench.c:77
bool InRecovery
Definition: xlogutils.c:50

References Assert, ereport, errcode(), ERRCODE_T_R_DEADLOCK_DETECTED, errdetail(), errmsg(), ERROR, HoldingBufferPinThatDelaysRecovery(), and InRecovery.

Referenced by ProcSleep().

◆ InitRecoveryTransactionEnvironment()

void InitRecoveryTransactionEnvironment ( void  )

Definition at line 94 of file standby.c.

95{
97 HASHCTL hash_ctl;
98
99 Assert(RecoveryLockHash == NULL); /* don't run this twice */
100
101 /*
102 * Initialize the hash tables for tracking the locks held by each
103 * transaction.
104 */
105 hash_ctl.keysize = sizeof(xl_standby_lock);
106 hash_ctl.entrysize = sizeof(RecoveryLockEntry);
107 RecoveryLockHash = hash_create("RecoveryLockHash",
108 64,
109 &hash_ctl,
111 hash_ctl.keysize = sizeof(TransactionId);
112 hash_ctl.entrysize = sizeof(RecoveryLockXidEntry);
113 RecoveryLockXidHash = hash_create("RecoveryLockXidHash",
114 64,
115 &hash_ctl,
117
118 /*
119 * Initialize shared invalidation management for Startup process, being
120 * careful to register ourselves as a sendOnly process so we don't need to
121 * read messages, nor will we get signaled when the queue starts filling
122 * up.
123 */
125
126 /*
127 * Lock a virtual transaction id for Startup process.
128 *
129 * We need to do GetNextLocalTransactionId() because
130 * SharedInvalBackendInit() leaves localTransactionId invalid and the lock
131 * manager doesn't like that at all.
132 *
133 * Note that we don't need to run XactLockTableInsert() because nobody
134 * needs to wait on xids. That sounds a little strange, but table locks
135 * are held by vxids and row level locks are held by xids. All queries
136 * hold AccessShareLocks so never block while we write or lock new rows.
137 */
142
144}
uint32 TransactionId
Definition: c.h:609
HTAB * hash_create(const char *tabname, long nelem, const HASHCTL *info, int flags)
Definition: dynahash.c:352
ProcNumber MyProcNumber
Definition: globals.c:89
#define HASH_ELEM
Definition: hsearch.h:95
#define HASH_BLOBS
Definition: hsearch.h:97
void VirtualXactLockTableInsert(VirtualTransactionId vxid)
Definition: lock.c:4527
struct xl_standby_lock xl_standby_lock
void SharedInvalBackendInit(bool sendOnly)
Definition: sinvaladt.c:271
LocalTransactionId GetNextLocalTransactionId(void)
Definition: sinvaladt.c:700
PGPROC * MyProc
Definition: proc.c:66
static HTAB * RecoveryLockXidHash
Definition: standby.c:65
struct RecoveryLockEntry RecoveryLockEntry
struct RecoveryLockXidEntry RecoveryLockXidEntry
static HTAB * RecoveryLockHash
Definition: standby.c:64
Size keysize
Definition: hsearch.h:75
Size entrysize
Definition: hsearch.h:76
struct PGPROC::@124 vxid
ProcNumber procNumber
Definition: proc.h:195
LocalTransactionId localTransactionId
Definition: lock.h:62
ProcNumber procNumber
Definition: lock.h:61
HotStandbyState standbyState
Definition: xlogutils.c:53
@ STANDBY_INITIALIZED
Definition: xlogutils.h:53

References Assert, HASHCTL::entrysize, GetNextLocalTransactionId(), HASH_BLOBS, hash_create(), HASH_ELEM, HASHCTL::keysize, VirtualTransactionId::localTransactionId, MyProc, MyProcNumber, VirtualTransactionId::procNumber, PGPROC::procNumber, RecoveryLockHash, RecoveryLockXidHash, SharedInvalBackendInit(), STANDBY_INITIALIZED, standbyState, VirtualXactLockTableInsert(), and PGPROC::vxid.

Referenced by StartupXLOG().

◆ LogAccessExclusiveLock()

void LogAccessExclusiveLock ( Oid  dbOid,
Oid  relOid 
)

Definition at line 1419 of file standby.c.

1420{
1421 xl_standby_lock xlrec;
1422
1423 xlrec.xid = GetCurrentTransactionId();
1424
1425 xlrec.dbOid = dbOid;
1426 xlrec.relOid = relOid;
1427
1428 LogAccessExclusiveLocks(1, &xlrec);
1430}
static void LogAccessExclusiveLocks(int nlocks, xl_standby_lock *locks)
Definition: standby.c:1401
TransactionId xid
Definition: lockdefs.h:53
TransactionId GetCurrentTransactionId(void)
Definition: xact.c:453
int MyXactFlags
Definition: xact.c:135
#define XACT_FLAGS_ACQUIREDACCESSEXCLUSIVELOCK
Definition: xact.h:108

References xl_standby_lock::dbOid, GetCurrentTransactionId(), LogAccessExclusiveLocks(), MyXactFlags, xl_standby_lock::relOid, XACT_FLAGS_ACQUIREDACCESSEXCLUSIVELOCK, and xl_standby_lock::xid.

Referenced by LockAcquireExtended().

◆ LogAccessExclusiveLockPrepare()

void LogAccessExclusiveLockPrepare ( void  )

Definition at line 1436 of file standby.c.

1437{
1438 /*
1439 * Ensure that a TransactionId has been assigned to this transaction, for
1440 * two reasons, both related to lock release on the standby. First, we
1441 * must assign an xid so that RecordTransactionCommit() and
1442 * RecordTransactionAbort() do not optimise away the transaction
1443 * completion record which recovery relies upon to release locks. It's a
1444 * hack, but for a corner case not worth adding code for into the main
1445 * commit path. Second, we must assign an xid before the lock is recorded
1446 * in shared memory, otherwise a concurrently executing
1447 * GetRunningTransactionLocks() might see a lock associated with an
1448 * InvalidTransactionId which we later assert cannot happen.
1449 */
1450 (void) GetCurrentTransactionId();
1451}

References GetCurrentTransactionId().

Referenced by LockAcquireExtended().

◆ LogRecoveryConflict()

void LogRecoveryConflict ( ProcSignalReason  reason,
TimestampTz  wait_start,
TimestampTz  now,
VirtualTransactionId wait_list,
bool  still_waiting 
)

Definition at line 273 of file standby.c.

276{
277 long secs;
278 int usecs;
279 long msecs;
281 int nprocs = 0;
282
283 /*
284 * There must be no conflicting processes when the recovery conflict has
285 * already been resolved.
286 */
287 Assert(still_waiting || wait_list == NULL);
288
289 TimestampDifference(wait_start, now, &secs, &usecs);
290 msecs = secs * 1000 + usecs / 1000;
291 usecs = usecs % 1000;
292
293 if (wait_list)
294 {
296
297 /* Construct a string of list of the conflicting processes */
298 vxids = wait_list;
299 while (VirtualTransactionIdIsValid(*vxids))
300 {
301 PGPROC *proc = ProcNumberGetProc(vxids->procNumber);
302
303 /* proc can be NULL if the target backend is not active */
304 if (proc)
305 {
306 if (nprocs == 0)
307 {
309 appendStringInfo(&buf, "%d", proc->pid);
310 }
311 else
312 appendStringInfo(&buf, ", %d", proc->pid);
313
314 nprocs++;
315 }
316
317 vxids++;
318 }
319 }
320
321 /*
322 * If wait_list is specified, report the list of PIDs of active
323 * conflicting backends in a detail message. Note that if all the backends
324 * in the list are not active, no detail message is logged.
325 */
326 if (still_waiting)
327 {
328 ereport(LOG,
329 errmsg("recovery still waiting after %ld.%03d ms: %s",
330 msecs, usecs, get_recovery_conflict_desc(reason)),
331 nprocs > 0 ? errdetail_log_plural("Conflicting process: %s.",
332 "Conflicting processes: %s.",
333 nprocs, buf.data) : 0);
334 }
335 else
336 {
337 ereport(LOG,
338 errmsg("recovery finished waiting after %ld.%03d ms: %s",
339 msecs, usecs, get_recovery_conflict_desc(reason)));
340 }
341
342 if (nprocs > 0)
343 pfree(buf.data);
344}
void TimestampDifference(TimestampTz start_time, TimestampTz stop_time, long *secs, int *microsecs)
Definition: timestamp.c:1720
Datum now(PG_FUNCTION_ARGS)
Definition: timestamp.c:1608
int errdetail_log_plural(const char *fmt_singular, const char *fmt_plural, unsigned long n,...)
Definition: elog.c:1272
#define LOG
Definition: elog.h:31
#define VirtualTransactionIdIsValid(vxid)
Definition: lock.h:67
void pfree(void *pointer)
Definition: mcxt.c:1521
static char * buf
Definition: pg_test_fsync.c:72
PGPROC * ProcNumberGetProc(ProcNumber procNumber)
Definition: procarray.c:3138
static const char * get_recovery_conflict_desc(ProcSignalReason reason)
Definition: standby.c:1480
void appendStringInfo(StringInfo str, const char *fmt,...)
Definition: stringinfo.c:145
void initStringInfo(StringInfo str)
Definition: stringinfo.c:97
Definition: proc.h:162
int pid
Definition: proc.h:182

References appendStringInfo(), Assert, buf, ereport, errdetail_log_plural(), errmsg(), get_recovery_conflict_desc(), initStringInfo(), LOG, now(), pfree(), PGPROC::pid, VirtualTransactionId::procNumber, ProcNumberGetProc(), TimestampDifference(), and VirtualTransactionIdIsValid.

Referenced by LockBufferForCleanup(), ProcSleep(), and ResolveRecoveryConflictWithVirtualXIDs().

◆ LogStandbyInvalidations()

void LogStandbyInvalidations ( int  nmsgs,
SharedInvalidationMessage msgs,
bool  relcacheInitFileInval 
)

Definition at line 1458 of file standby.c.

1460{
1461 xl_invalidations xlrec;
1462
1463 /* prepare record */
1464 memset(&xlrec, 0, sizeof(xlrec));
1465 xlrec.dbId = MyDatabaseId;
1466 xlrec.tsId = MyDatabaseTableSpace;
1467 xlrec.relcacheInitFileInval = relcacheInitFileInval;
1468 xlrec.nmsgs = nmsgs;
1469
1470 /* perform insertion */
1472 XLogRegisterData((char *) (&xlrec), MinSizeOfInvalidations);
1473 XLogRegisterData((char *) msgs,
1474 nmsgs * sizeof(SharedInvalidationMessage));
1475 XLogInsert(RM_STANDBY_ID, XLOG_INVALIDATIONS);
1476}
Oid MyDatabaseTableSpace
Definition: globals.c:95
Oid MyDatabaseId
Definition: globals.c:93
#define XLOG_INVALIDATIONS
Definition: standbydefs.h:36
#define MinSizeOfInvalidations
Definition: standbydefs.h:72
bool relcacheInitFileInval
Definition: standbydefs.h:67
XLogRecPtr XLogInsert(RmgrId rmid, uint8 info)
Definition: xloginsert.c:474
void XLogRegisterData(const char *data, uint32 len)
Definition: xloginsert.c:364
void XLogBeginInsert(void)
Definition: xloginsert.c:149

References xl_invalidations::dbId, MinSizeOfInvalidations, MyDatabaseId, MyDatabaseTableSpace, xl_invalidations::nmsgs, xl_invalidations::relcacheInitFileInval, xl_invalidations::tsId, XLOG_INVALIDATIONS, XLogBeginInsert(), XLogInsert(), and XLogRegisterData().

Referenced by RecordTransactionCommit().

◆ LogStandbySnapshot()

XLogRecPtr LogStandbySnapshot ( void  )

Definition at line 1281 of file standby.c.

1282{
1283 XLogRecPtr recptr;
1284 RunningTransactions running;
1285 xl_standby_lock *locks;
1286 int nlocks;
1287
1289
1290 /*
1291 * Get details of any AccessExclusiveLocks being held at the moment.
1292 */
1293 locks = GetRunningTransactionLocks(&nlocks);
1294 if (nlocks > 0)
1295 LogAccessExclusiveLocks(nlocks, locks);
1296 pfree(locks);
1297
1298 /*
1299 * Log details of all in-progress transactions. This should be the last
1300 * record we write, because standby will open up when it sees this.
1301 */
1302 running = GetRunningTransactionData();
1303
1304 /*
1305 * GetRunningTransactionData() acquired ProcArrayLock, we must release it.
1306 * For Hot Standby this can be done before inserting the WAL record
1307 * because ProcArrayApplyRecoveryInfo() rechecks the commit status using
1308 * the clog. For logical decoding, though, the lock can't be released
1309 * early because the clog might be "in the future" from the POV of the
1310 * historic snapshot. This would allow for situations where we're waiting
1311 * for the end of a transaction listed in the xl_running_xacts record
1312 * which, according to the WAL, has committed before the xl_running_xacts
1313 * record. Fortunately this routine isn't executed frequently, and it's
1314 * only a shared lock.
1315 */
1317 LWLockRelease(ProcArrayLock);
1318
1319 recptr = LogCurrentRunningXacts(running);
1320
1321 /* Release lock if we kept it longer ... */
1323 LWLockRelease(ProcArrayLock);
1324
1325 /* GetRunningTransactionData() acquired XidGenLock, we must release it */
1326 LWLockRelease(XidGenLock);
1327
1328 return recptr;
1329}
xl_standby_lock * GetRunningTransactionLocks(int *nlocks)
Definition: lock.c:4078
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1781
RunningTransactions GetRunningTransactionData(void)
Definition: procarray.c:2689
static XLogRecPtr LogCurrentRunningXacts(RunningTransactions CurrRunningXacts)
Definition: standby.c:1341
int wal_level
Definition: xlog.c:131
@ WAL_LEVEL_LOGICAL
Definition: xlog.h:76
#define XLogStandbyInfoActive()
Definition: xlog.h:123
uint64 XLogRecPtr
Definition: xlogdefs.h:21

References Assert, GetRunningTransactionData(), GetRunningTransactionLocks(), LogAccessExclusiveLocks(), LogCurrentRunningXacts(), LWLockRelease(), pfree(), wal_level, WAL_LEVEL_LOGICAL, and XLogStandbyInfoActive.

Referenced by BackgroundWriterMain(), CreateCheckPoint(), pg_log_standby_snapshot(), ReplicationSlotReserveWal(), and SnapBuildWaitSnapshot().

◆ ResolveRecoveryConflictWithBufferPin()

void ResolveRecoveryConflictWithBufferPin ( void  )

Definition at line 792 of file standby.c.

793{
794 TimestampTz ltime;
795
797
798 ltime = GetStandbyLimitTime();
799
800 if (GetCurrentTimestamp() >= ltime && ltime != 0)
801 {
802 /*
803 * We're already behind, so clear a path as quickly as possible.
804 */
806 }
807 else
808 {
809 /*
810 * Wake up at ltime, and check for deadlocks as well if we will be
811 * waiting longer than deadlock_timeout
812 */
813 EnableTimeoutParams timeouts[2];
814 int cnt = 0;
815
816 if (ltime != 0)
817 {
818 timeouts[cnt].id = STANDBY_TIMEOUT;
819 timeouts[cnt].type = TMPARAM_AT;
820 timeouts[cnt].fin_time = ltime;
821 cnt++;
822 }
823
825 timeouts[cnt].id = STANDBY_DEADLOCK_TIMEOUT;
826 timeouts[cnt].type = TMPARAM_AFTER;
827 timeouts[cnt].delay_ms = DeadlockTimeout;
828 cnt++;
829
830 enable_timeouts(timeouts, cnt);
831 }
832
833 /*
834 * Wait to be signaled by UnpinBuffer() or for the wait to be interrupted
835 * by one of the timeouts established above.
836 *
837 * We assume that only UnpinBuffer() and the timeout requests established
838 * above can wake us up here. WakeupRecovery() called by walreceiver or
839 * SIGHUP signal handler, etc cannot do that because it uses the different
840 * latch from that ProcWaitForSignal() waits on.
841 */
842 ProcWaitForSignal(WAIT_EVENT_BUFFER_PIN);
843
847 {
848 /*
849 * Send out a request for hot-standby backends to check themselves for
850 * deadlocks.
851 *
852 * XXX The subsequent ResolveRecoveryConflictWithBufferPin() will wait
853 * to be signaled by UnpinBuffer() again and send a request for
854 * deadlocks check if deadlock_timeout happens. This causes the
855 * request to continue to be sent every deadlock_timeout until the
856 * buffer is unpinned or ltime is reached. This would increase the
857 * workload in the startup process and backends. In practice it may
858 * not be so harmful because the period that the buffer is kept pinned
859 * is basically no so long. But we should fix this?
860 */
862 }
863
864 /*
865 * Clear any timeout requests established above. We assume here that the
866 * Startup process doesn't have any other timeouts than what this function
867 * uses. If that stops being true, we could cancel the timeouts
868 * individually, but that'd be slower.
869 */
873}
TimestampTz GetCurrentTimestamp(void)
Definition: timestamp.c:1644
int64 TimestampTz
Definition: timestamp.h:39
@ PROCSIG_RECOVERY_CONFLICT_BUFFERPIN
Definition: procsignal.h:47
@ PROCSIG_RECOVERY_CONFLICT_STARTUP_DEADLOCK
Definition: procsignal.h:48
int DeadlockTimeout
Definition: proc.c:57
void ProcWaitForSignal(uint32 wait_event_info)
Definition: proc.c:1896
static volatile sig_atomic_t got_standby_deadlock_timeout
Definition: standby.c:68
static TimestampTz GetStandbyLimitTime(void)
Definition: standby.c:200
static volatile sig_atomic_t got_standby_delay_timeout
Definition: standby.c:69
static void SendRecoveryConflictWithBufferPin(ProcSignalReason reason)
Definition: standby.c:876
TimeoutType type
Definition: timeout.h:61
TimestampTz fin_time
Definition: timeout.h:63
TimeoutId id
Definition: timeout.h:60
void disable_all_timeouts(bool keep_indicators)
Definition: timeout.c:751
void enable_timeouts(const EnableTimeoutParams *timeouts, int count)
Definition: timeout.c:630
@ STANDBY_DEADLOCK_TIMEOUT
Definition: timeout.h:30
@ STANDBY_TIMEOUT
Definition: timeout.h:31
@ TMPARAM_AT
Definition: timeout.h:54
@ TMPARAM_AFTER
Definition: timeout.h:53
#define InHotStandby
Definition: xlogutils.h:60

References Assert, DeadlockTimeout, EnableTimeoutParams::delay_ms, disable_all_timeouts(), enable_timeouts(), EnableTimeoutParams::fin_time, GetCurrentTimestamp(), GetStandbyLimitTime(), got_standby_deadlock_timeout, got_standby_delay_timeout, EnableTimeoutParams::id, InHotStandby, PROCSIG_RECOVERY_CONFLICT_BUFFERPIN, PROCSIG_RECOVERY_CONFLICT_STARTUP_DEADLOCK, ProcWaitForSignal(), SendRecoveryConflictWithBufferPin(), STANDBY_DEADLOCK_TIMEOUT, STANDBY_TIMEOUT, TMPARAM_AFTER, TMPARAM_AT, and EnableTimeoutParams::type.

Referenced by LockBufferForCleanup().

◆ ResolveRecoveryConflictWithDatabase()

void ResolveRecoveryConflictWithDatabase ( Oid  dbid)

Definition at line 568 of file standby.c.

569{
570 /*
571 * We don't do ResolveRecoveryConflictWithVirtualXIDs() here since that
572 * only waits for transactions and completely idle sessions would block
573 * us. This is rare enough that we do this as simply as possible: no wait,
574 * just force them off immediately.
575 *
576 * No locking is required here because we already acquired
577 * AccessExclusiveLock. Anybody trying to connect while we do this will
578 * block during InitPostgres() and then disconnect when they see the
579 * database has been removed.
580 */
581 while (CountDBBackends(dbid) > 0)
582 {
584
585 /*
586 * Wait awhile for them to die so that we avoid flooding an
587 * unresponsive backend when system is heavily loaded.
588 */
589 pg_usleep(10000);
590 }
591}
void CancelDBBackends(Oid databaseid, ProcSignalReason sigmode, bool conflictPending)
Definition: procarray.c:3659
int CountDBBackends(Oid databaseid)
Definition: procarray.c:3599
@ PROCSIG_RECOVERY_CONFLICT_DATABASE
Definition: procsignal.h:42
void pg_usleep(long microsec)
Definition: signal.c:53

References CancelDBBackends(), CountDBBackends(), pg_usleep(), and PROCSIG_RECOVERY_CONFLICT_DATABASE.

Referenced by dbase_redo().

◆ ResolveRecoveryConflictWithLock()

void ResolveRecoveryConflictWithLock ( LOCKTAG  locktag,
bool  logging_conflict 
)

Definition at line 622 of file standby.c.

623{
624 TimestampTz ltime;
626
628
629 ltime = GetStandbyLimitTime();
631
632 /*
633 * Update waitStart if first time through after the startup process
634 * started waiting for the lock. It should not be updated every time
635 * ResolveRecoveryConflictWithLock() is called during the wait.
636 *
637 * Use the current time obtained for comparison with ltime as waitStart
638 * (i.e., the time when this process started waiting for the lock). Since
639 * getting the current time newly can cause overhead, we reuse the
640 * already-obtained time to avoid that overhead.
641 *
642 * Note that waitStart is updated without holding the lock table's
643 * partition lock, to avoid the overhead by additional lock acquisition.
644 * This can cause "waitstart" in pg_locks to become NULL for a very short
645 * period of time after the wait started even though "granted" is false.
646 * This is OK in practice because we can assume that users are likely to
647 * look at "waitstart" when waiting for the lock for a long time.
648 */
651
652 if (now >= ltime && ltime != 0)
653 {
654 /*
655 * We're already behind, so clear a path as quickly as possible.
656 */
657 VirtualTransactionId *backends;
658
659 backends = GetLockConflicts(&locktag, AccessExclusiveLock, NULL);
660
661 /*
662 * Prevent ResolveRecoveryConflictWithVirtualXIDs() from reporting
663 * "waiting" in PS display by disabling its argument report_waiting
664 * because the caller, WaitOnLock(), has already reported that.
665 */
668 PG_WAIT_LOCK | locktag.locktag_type,
669 false);
670 }
671 else
672 {
673 /*
674 * Wait (or wait again) until ltime, and check for deadlocks as well
675 * if we will be waiting longer than deadlock_timeout
676 */
677 EnableTimeoutParams timeouts[2];
678 int cnt = 0;
679
680 if (ltime != 0)
681 {
683 timeouts[cnt].id = STANDBY_LOCK_TIMEOUT;
684 timeouts[cnt].type = TMPARAM_AT;
685 timeouts[cnt].fin_time = ltime;
686 cnt++;
687 }
688
690 timeouts[cnt].id = STANDBY_DEADLOCK_TIMEOUT;
691 timeouts[cnt].type = TMPARAM_AFTER;
692 timeouts[cnt].delay_ms = DeadlockTimeout;
693 cnt++;
694
695 enable_timeouts(timeouts, cnt);
696 }
697
698 /* Wait to be signaled by the release of the Relation Lock */
700
701 /*
702 * Exit if ltime is reached. Then all the backends holding conflicting
703 * locks will be canceled in the next ResolveRecoveryConflictWithLock()
704 * call.
705 */
707 goto cleanup;
708
710 {
711 VirtualTransactionId *backends;
712
713 backends = GetLockConflicts(&locktag, AccessExclusiveLock, NULL);
714
715 /* Quick exit if there's no work to be done */
716 if (!VirtualTransactionIdIsValid(*backends))
717 goto cleanup;
718
719 /*
720 * Send signals to all the backends holding the conflicting locks, to
721 * ask them to check themselves for deadlocks.
722 */
723 while (VirtualTransactionIdIsValid(*backends))
724 {
725 SignalVirtualTransaction(*backends,
727 false);
728 backends++;
729 }
730
731 /*
732 * Exit if the recovery conflict has not been logged yet even though
733 * logging is enabled, so that the caller can log that. Then
734 * RecoveryConflictWithLock() is called again and we will wait again
735 * for the lock to be released.
736 */
737 if (logging_conflict)
738 goto cleanup;
739
740 /*
741 * Wait again here to be signaled by the release of the Relation Lock,
742 * to prevent the subsequent RecoveryConflictWithLock() from causing
743 * deadlock_timeout and sending a request for deadlocks check again.
744 * Otherwise the request continues to be sent every deadlock_timeout
745 * until the relation locks are released or ltime is reached.
746 */
749 }
750
751cleanup:
752
753 /*
754 * Clear any timeout requests established above. We assume here that the
755 * Startup process doesn't have any other outstanding timeouts than those
756 * used by this function. If that stops being true, we could cancel the
757 * timeouts individually, but that'd be slower.
758 */
762}
static void pg_atomic_write_u64(volatile pg_atomic_uint64 *ptr, uint64 val)
Definition: atomics.h:485
static uint64 pg_atomic_read_u64(volatile pg_atomic_uint64 *ptr)
Definition: atomics.h:467
static void cleanup(void)
Definition: bootstrap.c:713
VirtualTransactionId * GetLockConflicts(const LOCKTAG *locktag, LOCKMODE lockmode, int *countp)
Definition: lock.c:2976
#define AccessExclusiveLock
Definition: lockdefs.h:43
pid_t SignalVirtualTransaction(VirtualTransactionId vxid, ProcSignalReason sigmode, bool conflictPending)
Definition: procarray.c:3497
@ PROCSIG_RECOVERY_CONFLICT_LOCK
Definition: procsignal.h:44
static void ResolveRecoveryConflictWithVirtualXIDs(VirtualTransactionId *waitlist, ProcSignalReason reason, uint32 wait_event_info, bool report_waiting)
Definition: standby.c:359
static volatile sig_atomic_t got_standby_lock_timeout
Definition: standby.c:70
uint8 locktag_type
Definition: lock.h:170
pg_atomic_uint64 waitStart
Definition: proc.h:237
@ STANDBY_LOCK_TIMEOUT
Definition: timeout.h:32
#define PG_WAIT_LOCK
Definition: wait_event.h:19

References AccessExclusiveLock, Assert, cleanup(), DeadlockTimeout, EnableTimeoutParams::delay_ms, disable_all_timeouts(), enable_timeouts(), EnableTimeoutParams::fin_time, GetCurrentTimestamp(), GetLockConflicts(), GetStandbyLimitTime(), got_standby_deadlock_timeout, got_standby_lock_timeout, EnableTimeoutParams::id, InHotStandby, LOCKTAG::locktag_type, MyProc, now(), pg_atomic_read_u64(), pg_atomic_write_u64(), PG_WAIT_LOCK, PROCSIG_RECOVERY_CONFLICT_LOCK, PROCSIG_RECOVERY_CONFLICT_STARTUP_DEADLOCK, ProcWaitForSignal(), ResolveRecoveryConflictWithVirtualXIDs(), SignalVirtualTransaction(), STANDBY_DEADLOCK_TIMEOUT, STANDBY_LOCK_TIMEOUT, TMPARAM_AFTER, TMPARAM_AT, EnableTimeoutParams::type, VirtualTransactionIdIsValid, and PGPROC::waitStart.

Referenced by ProcSleep().

◆ ResolveRecoveryConflictWithSnapshot()

void ResolveRecoveryConflictWithSnapshot ( TransactionId  snapshotConflictHorizon,
bool  isCatalogRel,
RelFileLocator  locator 
)

Definition at line 467 of file standby.c.

470{
471 VirtualTransactionId *backends;
472
473 /*
474 * If we get passed InvalidTransactionId then we do nothing (no conflict).
475 *
476 * This can happen when replaying already-applied WAL records after a
477 * standby crash or restart, or when replaying an XLOG_HEAP2_VISIBLE
478 * record that marks as frozen a page which was already all-visible. It's
479 * also quite common with records generated during index deletion
480 * (original execution of the deletion can reason that a recovery conflict
481 * which is sufficient for the deletion operation must take place before
482 * replay of the deletion record itself).
483 */
484 if (!TransactionIdIsValid(snapshotConflictHorizon))
485 return;
486
487 Assert(TransactionIdIsNormal(snapshotConflictHorizon));
488 backends = GetConflictingVirtualXIDs(snapshotConflictHorizon,
489 locator.dbOid);
492 WAIT_EVENT_RECOVERY_CONFLICT_SNAPSHOT,
493 true);
494
495 /*
496 * Note that WaitExceedsMaxStandbyDelay() is not taken into account here
497 * (as opposed to ResolveRecoveryConflictWithVirtualXIDs() above). That
498 * seems OK, given that this kind of conflict should not normally be
499 * reached, e.g. due to using a physical replication slot.
500 */
501 if (wal_level >= WAL_LEVEL_LOGICAL && isCatalogRel)
503 snapshotConflictHorizon);
504}
VirtualTransactionId * GetConflictingVirtualXIDs(TransactionId limitXmin, Oid dbOid)
Definition: procarray.c:3417
@ PROCSIG_RECOVERY_CONFLICT_SNAPSHOT
Definition: procsignal.h:45
bool InvalidateObsoleteReplicationSlots(ReplicationSlotInvalidationCause cause, XLogSegNo oldestSegno, Oid dboid, TransactionId snapshotConflictHorizon)
Definition: slot.c:1811
@ RS_INVAL_HORIZON
Definition: slot.h:56
#define TransactionIdIsValid(xid)
Definition: transam.h:41
#define TransactionIdIsNormal(xid)
Definition: transam.h:42

References Assert, RelFileLocator::dbOid, GetConflictingVirtualXIDs(), InvalidateObsoleteReplicationSlots(), PROCSIG_RECOVERY_CONFLICT_SNAPSHOT, ResolveRecoveryConflictWithVirtualXIDs(), RS_INVAL_HORIZON, TransactionIdIsNormal, TransactionIdIsValid, wal_level, and WAL_LEVEL_LOGICAL.

Referenced by btree_xlog_delete(), gistRedoDeleteRecord(), hash_xlog_vacuum_one_page(), heap_xlog_prune_freeze(), heap_xlog_visible(), ResolveRecoveryConflictWithSnapshotFullXid(), and spgRedoVacuumRedirect().

◆ ResolveRecoveryConflictWithSnapshotFullXid()

void ResolveRecoveryConflictWithSnapshotFullXid ( FullTransactionId  snapshotConflictHorizon,
bool  isCatalogRel,
RelFileLocator  locator 
)

Definition at line 511 of file standby.c.

514{
515 /*
516 * ResolveRecoveryConflictWithSnapshot operates on 32-bit TransactionIds,
517 * so truncate the logged FullTransactionId. If the logged value is very
518 * old, so that XID wrap-around already happened on it, there can't be any
519 * snapshots that still see it.
520 */
522 uint64 diff;
523
524 diff = U64FromFullTransactionId(nextXid) -
525 U64FromFullTransactionId(snapshotConflictHorizon);
526 if (diff < MaxTransactionId / 2)
527 {
528 TransactionId truncated;
529
530 truncated = XidFromFullTransactionId(snapshotConflictHorizon);
532 isCatalogRel,
533 locator);
534 }
535}
uint64_t uint64
Definition: c.h:489
void ResolveRecoveryConflictWithSnapshot(TransactionId snapshotConflictHorizon, bool isCatalogRel, RelFileLocator locator)
Definition: standby.c:467
#define U64FromFullTransactionId(x)
Definition: transam.h:49
#define XidFromFullTransactionId(x)
Definition: transam.h:48
#define MaxTransactionId
Definition: transam.h:35
FullTransactionId ReadNextFullTransactionId(void)
Definition: varsup.c:288

References MaxTransactionId, ReadNextFullTransactionId(), ResolveRecoveryConflictWithSnapshot(), U64FromFullTransactionId, and XidFromFullTransactionId.

Referenced by btree_xlog_reuse_page(), and gistRedoPageReuse().

◆ ResolveRecoveryConflictWithTablespace()

void ResolveRecoveryConflictWithTablespace ( Oid  tsid)

Definition at line 538 of file standby.c.

539{
540 VirtualTransactionId *temp_file_users;
541
542 /*
543 * Standby users may be currently using this tablespace for their
544 * temporary files. We only care about current users because
545 * temp_tablespace parameter will just ignore tablespaces that no longer
546 * exist.
547 *
548 * Ask everybody to cancel their queries immediately so we can ensure no
549 * temp files remain and we can remove the tablespace. Nuke the entire
550 * site from orbit, it's the only way to be sure.
551 *
552 * XXX: We could work out the pids of active backends using this
553 * tablespace by examining the temp filenames in the directory. We would
554 * then convert the pids into VirtualXIDs before attempting to cancel
555 * them.
556 *
557 * We don't wait for commit because drop tablespace is non-transactional.
558 */
560 InvalidOid);
563 WAIT_EVENT_RECOVERY_CONFLICT_TABLESPACE,
564 true);
565}
#define InvalidOid
Definition: postgres_ext.h:37
@ PROCSIG_RECOVERY_CONFLICT_TABLESPACE
Definition: procsignal.h:43
#define InvalidTransactionId
Definition: transam.h:31

References GetConflictingVirtualXIDs(), InvalidOid, InvalidTransactionId, PROCSIG_RECOVERY_CONFLICT_TABLESPACE, and ResolveRecoveryConflictWithVirtualXIDs().

Referenced by tblspc_redo().

◆ ShutdownRecoveryTransactionEnvironment()

void ShutdownRecoveryTransactionEnvironment ( void  )

Definition at line 160 of file standby.c.

161{
162 /*
163 * Do nothing if RecoveryLockHash is NULL because that means that
164 * transaction tracking has not yet been initialized or has already been
165 * shut down. This makes it safe to have possibly-redundant calls of this
166 * function during process exit.
167 */
168 if (RecoveryLockHash == NULL)
169 return;
170
171 /* Mark all tracked in-progress transactions as finished. */
173
174 /* Release all locks the tracked transactions were holding */
176
177 /* Destroy the lock hash tables. */
180 RecoveryLockHash = NULL;
181 RecoveryLockXidHash = NULL;
182
183 /* Cleanup our VirtualTransaction */
185}
void hash_destroy(HTAB *hashp)
Definition: dynahash.c:865
void VirtualXactLockTableCleanup(void)
Definition: lock.c:4550
void ExpireAllKnownAssignedTransactionIds(void)
Definition: procarray.c:4498
void StandbyReleaseAllLocks(void)
Definition: standby.c:1105

References ExpireAllKnownAssignedTransactionIds(), hash_destroy(), RecoveryLockHash, RecoveryLockXidHash, StandbyReleaseAllLocks(), and VirtualXactLockTableCleanup().

Referenced by StartupProcExit(), and StartupXLOG().

◆ StandbyAcquireAccessExclusiveLock()

void StandbyAcquireAccessExclusiveLock ( TransactionId  xid,
Oid  dbOid,
Oid  relOid 
)

Definition at line 985 of file standby.c.

986{
987 RecoveryLockXidEntry *xidentry;
988 RecoveryLockEntry *lockentry;
990 LOCKTAG locktag;
991 bool found;
992
993 /* Already processed? */
994 if (!TransactionIdIsValid(xid) ||
997 return;
998
999 elog(DEBUG4, "adding recovery lock: db %u rel %u", dbOid, relOid);
1000
1001 /* dbOid is InvalidOid when we are locking a shared relation. */
1002 Assert(OidIsValid(relOid));
1003
1004 /* Create a hash entry for this xid, if we don't have one already. */
1005 xidentry = hash_search(RecoveryLockXidHash, &xid, HASH_ENTER, &found);
1006 if (!found)
1007 {
1008 Assert(xidentry->xid == xid); /* dynahash should have set this */
1009 xidentry->head = NULL;
1010 }
1011
1012 /* Create a hash entry for this lock, unless we have one already. */
1013 key.xid = xid;
1014 key.dbOid = dbOid;
1015 key.relOid = relOid;
1016 lockentry = hash_search(RecoveryLockHash, &key, HASH_ENTER, &found);
1017 if (!found)
1018 {
1019 /* It's new, so link it into the XID's list ... */
1020 lockentry->next = xidentry->head;
1021 xidentry->head = lockentry;
1022
1023 /* ... and acquire the lock locally. */
1024 SET_LOCKTAG_RELATION(locktag, dbOid, relOid);
1025
1026 (void) LockAcquire(&locktag, AccessExclusiveLock, true, false);
1027 }
1028}
#define OidIsValid(objectId)
Definition: c.h:732
void * hash_search(HTAB *hashp, const void *keyPtr, HASHACTION action, bool *foundPtr)
Definition: dynahash.c:955
#define elog(elevel,...)
Definition: elog.h:225
#define DEBUG4
Definition: elog.h:27
@ HASH_ENTER
Definition: hsearch.h:114
LockAcquireResult LockAcquire(const LOCKTAG *locktag, LOCKMODE lockmode, bool sessionLock, bool dontWait)
Definition: lock.c:803
#define SET_LOCKTAG_RELATION(locktag, dboid, reloid)
Definition: lock.h:181
Definition: lock.h:165
struct RecoveryLockEntry * next
Definition: standby.c:55
TransactionId xid
Definition: standby.c:60
struct RecoveryLockEntry * head
Definition: standby.c:61
bool TransactionIdDidCommit(TransactionId transactionId)
Definition: transam.c:126
bool TransactionIdDidAbort(TransactionId transactionId)
Definition: transam.c:188

References AccessExclusiveLock, Assert, DEBUG4, elog, HASH_ENTER, hash_search(), RecoveryLockXidEntry::head, sort-test::key, LockAcquire(), RecoveryLockEntry::next, OidIsValid, RecoveryLockHash, RecoveryLockXidHash, SET_LOCKTAG_RELATION, TransactionIdDidAbort(), TransactionIdDidCommit(), TransactionIdIsValid, and RecoveryLockXidEntry::xid.

Referenced by lock_twophase_standby_recover(), and standby_redo().

◆ StandbyDeadLockHandler()

void StandbyDeadLockHandler ( void  )

Definition at line 935 of file standby.c.

936{
938}

References got_standby_deadlock_timeout.

Referenced by StartupProcessMain().

◆ StandbyLockTimeoutHandler()

void StandbyLockTimeoutHandler ( void  )

Definition at line 953 of file standby.c.

954{
956}

References got_standby_lock_timeout.

Referenced by StartupProcessMain().

◆ StandbyReleaseAllLocks()

void StandbyReleaseAllLocks ( void  )

Definition at line 1105 of file standby.c.

1106{
1107 HASH_SEQ_STATUS status;
1108 RecoveryLockXidEntry *entry;
1109
1110 elog(DEBUG2, "release all standby locks");
1111
1113 while ((entry = hash_seq_search(&status)))
1114 {
1117 }
1118}
void * hash_seq_search(HASH_SEQ_STATUS *status)
Definition: dynahash.c:1420
void hash_seq_init(HASH_SEQ_STATUS *status, HTAB *hashp)
Definition: dynahash.c:1385
#define DEBUG2
Definition: elog.h:29
@ HASH_REMOVE
Definition: hsearch.h:115
static void StandbyReleaseXidEntryLocks(RecoveryLockXidEntry *xidentry)
Definition: standby.c:1034

References DEBUG2, elog, HASH_REMOVE, hash_search(), hash_seq_init(), hash_seq_search(), RecoveryLockXidHash, and StandbyReleaseXidEntryLocks().

Referenced by ShutdownRecoveryTransactionEnvironment(), and StandbyReleaseLocks().

◆ StandbyReleaseLockTree()

void StandbyReleaseLockTree ( TransactionId  xid,
int  nsubxids,
TransactionId subxids 
)

Definition at line 1091 of file standby.c.

1092{
1093 int i;
1094
1096
1097 for (i = 0; i < nsubxids; i++)
1098 StandbyReleaseLocks(subxids[i]);
1099}
int i
Definition: isn.c:72
static void StandbyReleaseLocks(TransactionId xid)
Definition: standby.c:1067

References i, and StandbyReleaseLocks().

Referenced by RecoverPreparedTransactions(), xact_redo_abort(), and xact_redo_commit().

◆ StandbyReleaseOldLocks()

void StandbyReleaseOldLocks ( TransactionId  oldxid)

Definition at line 1129 of file standby.c.

1130{
1131 HASH_SEQ_STATUS status;
1132 RecoveryLockXidEntry *entry;
1133
1135 while ((entry = hash_seq_search(&status)))
1136 {
1138
1139 /* Skip if prepared transaction. */
1141 continue;
1142
1143 /* Skip if >= oldxid. */
1144 if (!TransactionIdPrecedes(entry->xid, oldxid))
1145 continue;
1146
1147 /* Remove all locks and hash table entry. */
1150 }
1151}
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:280
bool StandbyTransactionIdIsPrepared(TransactionId xid)
Definition: twophase.c:1475

References Assert, HASH_REMOVE, hash_search(), hash_seq_init(), hash_seq_search(), RecoveryLockXidHash, StandbyReleaseXidEntryLocks(), StandbyTransactionIdIsPrepared(), TransactionIdIsValid, TransactionIdPrecedes(), and RecoveryLockXidEntry::xid.

Referenced by ProcArrayApplyRecoveryInfo().

◆ StandbyTimeoutHandler()

void StandbyTimeoutHandler ( void  )

Definition at line 944 of file standby.c.

945{
947}

References got_standby_delay_timeout.

Referenced by StartupProcessMain().

Variable Documentation

◆ log_recovery_conflict_waits

PGDLLIMPORT bool log_recovery_conflict_waits
extern

◆ max_standby_archive_delay

PGDLLIMPORT int max_standby_archive_delay
extern

Definition at line 39 of file standby.c.

Referenced by GetStandbyLimitTime().

◆ max_standby_streaming_delay

PGDLLIMPORT int max_standby_streaming_delay
extern

Definition at line 40 of file standby.c.

Referenced by GetStandbyLimitTime().