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Data Structures | Macros | Typedefs | Functions | Variables
procarray.c File Reference
#include "postgres.h"
#include <signal.h>
#include "access/clog.h"
#include "access/subtrans.h"
#include "access/transam.h"
#include "access/twophase.h"
#include "access/xact.h"
#include "access/xlog.h"
#include "catalog/catalog.h"
#include "miscadmin.h"
#include "pgstat.h"
#include "storage/proc.h"
#include "storage/procarray.h"
#include "storage/spin.h"
#include "utils/builtins.h"
#include "utils/rel.h"
#include "utils/snapmgr.h"
Include dependency graph for procarray.c:

Go to the source code of this file.

Data Structures

struct  ProcArrayStruct
 

Macros

#define xc_by_recent_xmin_inc()   ((void) 0)
 
#define xc_by_known_xact_inc()   ((void) 0)
 
#define xc_by_my_xact_inc()   ((void) 0)
 
#define xc_by_latest_xid_inc()   ((void) 0)
 
#define xc_by_main_xid_inc()   ((void) 0)
 
#define xc_by_child_xid_inc()   ((void) 0)
 
#define xc_by_known_assigned_inc()   ((void) 0)
 
#define xc_no_overflow_inc()   ((void) 0)
 
#define xc_slow_answer_inc()   ((void) 0)
 
#define PROCARRAY_MAXPROCS   (MaxBackends + max_prepared_xacts)
 
#define TOTAL_MAX_CACHED_SUBXIDS   ((PGPROC_MAX_CACHED_SUBXIDS + 1) * PROCARRAY_MAXPROCS)
 
#define MAXAUTOVACPIDS   10 /* max autovacs to SIGTERM per iteration */
 
#define XidCacheRemove(i)
 

Typedefs

typedef struct ProcArrayStruct ProcArrayStruct
 

Functions

static void KnownAssignedXidsCompress (bool force)
 
static void KnownAssignedXidsAdd (TransactionId from_xid, TransactionId to_xid, bool exclusive_lock)
 
static bool KnownAssignedXidsSearch (TransactionId xid, bool remove)
 
static bool KnownAssignedXidExists (TransactionId xid)
 
static void KnownAssignedXidsRemove (TransactionId xid)
 
static void KnownAssignedXidsRemoveTree (TransactionId xid, int nsubxids, TransactionId *subxids)
 
static void KnownAssignedXidsRemovePreceding (TransactionId xid)
 
static int KnownAssignedXidsGet (TransactionId *xarray, TransactionId xmax)
 
static int KnownAssignedXidsGetAndSetXmin (TransactionId *xarray, TransactionId *xmin, TransactionId xmax)
 
static TransactionId KnownAssignedXidsGetOldestXmin (void)
 
static void KnownAssignedXidsDisplay (int trace_level)
 
static void KnownAssignedXidsReset (void)
 
static void ProcArrayEndTransactionInternal (PGPROC *proc, PGXACT *pgxact, TransactionId latestXid)
 
static void ProcArrayGroupClearXid (PGPROC *proc, TransactionId latestXid)
 
Size ProcArrayShmemSize (void)
 
void CreateSharedProcArray (void)
 
void ProcArrayAdd (PGPROC *proc)
 
void ProcArrayRemove (PGPROC *proc, TransactionId latestXid)
 
void ProcArrayEndTransaction (PGPROC *proc, TransactionId latestXid)
 
void ProcArrayClearTransaction (PGPROC *proc)
 
void ProcArrayInitRecovery (TransactionId initializedUptoXID)
 
void ProcArrayApplyRecoveryInfo (RunningTransactions running)
 
void ProcArrayApplyXidAssignment (TransactionId topxid, int nsubxids, TransactionId *subxids)
 
bool TransactionIdIsInProgress (TransactionId xid)
 
bool TransactionIdIsActive (TransactionId xid)
 
TransactionId GetOldestXmin (Relation rel, int flags)
 
int GetMaxSnapshotXidCount (void)
 
int GetMaxSnapshotSubxidCount (void)
 
Snapshot GetSnapshotData (Snapshot snapshot)
 
bool ProcArrayInstallImportedXmin (TransactionId xmin, VirtualTransactionId *sourcevxid)
 
bool ProcArrayInstallRestoredXmin (TransactionId xmin, PGPROC *proc)
 
RunningTransactions GetRunningTransactionData (void)
 
TransactionId GetOldestActiveTransactionId (void)
 
TransactionId GetOldestSafeDecodingTransactionId (bool catalogOnly)
 
VirtualTransactionIdGetVirtualXIDsDelayingChkpt (int *nvxids)
 
bool HaveVirtualXIDsDelayingChkpt (VirtualTransactionId *vxids, int nvxids)
 
PGPROCBackendPidGetProc (int pid)
 
PGPROCBackendPidGetProcWithLock (int pid)
 
int BackendXidGetPid (TransactionId xid)
 
bool IsBackendPid (int pid)
 
VirtualTransactionIdGetCurrentVirtualXIDs (TransactionId limitXmin, bool excludeXmin0, bool allDbs, int excludeVacuum, int *nvxids)
 
VirtualTransactionIdGetConflictingVirtualXIDs (TransactionId limitXmin, Oid dbOid)
 
pid_t CancelVirtualTransaction (VirtualTransactionId vxid, ProcSignalReason sigmode)
 
bool MinimumActiveBackends (int min)
 
int CountDBBackends (Oid databaseid)
 
int CountDBConnections (Oid databaseid)
 
void CancelDBBackends (Oid databaseid, ProcSignalReason sigmode, bool conflictPending)
 
int CountUserBackends (Oid roleid)
 
bool CountOtherDBBackends (Oid databaseId, int *nbackends, int *nprepared)
 
void ProcArraySetReplicationSlotXmin (TransactionId xmin, TransactionId catalog_xmin, bool already_locked)
 
void ProcArrayGetReplicationSlotXmin (TransactionId *xmin, TransactionId *catalog_xmin)
 
void XidCacheRemoveRunningXids (TransactionId xid, int nxids, const TransactionId *xids, TransactionId latestXid)
 
void RecordKnownAssignedTransactionIds (TransactionId xid)
 
void ExpireTreeKnownAssignedTransactionIds (TransactionId xid, int nsubxids, TransactionId *subxids, TransactionId max_xid)
 
void ExpireAllKnownAssignedTransactionIds (void)
 
void ExpireOldKnownAssignedTransactionIds (TransactionId xid)
 

Variables

static ProcArrayStructprocArray
 
static PGPROCallProcs
 
static PGXACTallPgXact
 
static TransactionIdKnownAssignedXids
 
static boolKnownAssignedXidsValid
 
static TransactionId latestObservedXid = InvalidTransactionId
 
static TransactionId standbySnapshotPendingXmin
 

Macro Definition Documentation

◆ MAXAUTOVACPIDS

#define MAXAUTOVACPIDS   10 /* max autovacs to SIGTERM per iteration */

Referenced by CountOtherDBBackends().

◆ PROCARRAY_MAXPROCS

#define PROCARRAY_MAXPROCS   (MaxBackends + max_prepared_xacts)

Referenced by CreateSharedProcArray(), KnownAssignedXidsCompress(), and ProcArrayShmemSize().

◆ TOTAL_MAX_CACHED_SUBXIDS

#define TOTAL_MAX_CACHED_SUBXIDS   ((PGPROC_MAX_CACHED_SUBXIDS + 1) * PROCARRAY_MAXPROCS)

Referenced by CreateSharedProcArray(), GetMaxSnapshotSubxidCount(), GetRunningTransactionData(), ProcArrayShmemSize(), and TransactionIdIsInProgress().

◆ xc_by_child_xid_inc

#define xc_by_child_xid_inc ( )    ((void) 0)

Definition at line 148 of file procarray.c.

Referenced by TransactionIdIsInProgress().

◆ xc_by_known_assigned_inc

#define xc_by_known_assigned_inc ( )    ((void) 0)

Definition at line 149 of file procarray.c.

Referenced by TransactionIdIsInProgress().

◆ xc_by_known_xact_inc

#define xc_by_known_xact_inc ( )    ((void) 0)

Definition at line 144 of file procarray.c.

Referenced by TransactionIdIsInProgress().

◆ xc_by_latest_xid_inc

#define xc_by_latest_xid_inc ( )    ((void) 0)

Definition at line 146 of file procarray.c.

Referenced by TransactionIdIsInProgress().

◆ xc_by_main_xid_inc

#define xc_by_main_xid_inc ( )    ((void) 0)

Definition at line 147 of file procarray.c.

Referenced by TransactionIdIsInProgress().

◆ xc_by_my_xact_inc

#define xc_by_my_xact_inc ( )    ((void) 0)

Definition at line 145 of file procarray.c.

Referenced by TransactionIdIsInProgress().

◆ xc_by_recent_xmin_inc

#define xc_by_recent_xmin_inc ( )    ((void) 0)

Definition at line 143 of file procarray.c.

Referenced by TransactionIdIsInProgress().

◆ xc_no_overflow_inc

#define xc_no_overflow_inc ( )    ((void) 0)

Definition at line 150 of file procarray.c.

Referenced by TransactionIdIsInProgress().

◆ xc_slow_answer_inc

#define xc_slow_answer_inc ( )    ((void) 0)

Definition at line 151 of file procarray.c.

Referenced by TransactionIdIsInProgress().

◆ XidCacheRemove

#define XidCacheRemove (   i)
Value:
do { \
MyProc->subxids.xids[i] = MyProc->subxids.xids[MyPgXact->nxids - 1]; \
MyPgXact->nxids--; \
} while (0)
MyProc
PGPROC * MyProc
Definition: proc.c:67
MyPgXact
PGXACT * MyPgXact
Definition: proc.c:68
PGXACT::nxids
uint8 nxids
Definition: proc.h:238
PGPROC::subxids
struct XidCache subxids
Definition: proc.h:162
XidCache::xids
TransactionId xids[PGPROC_MAX_CACHED_SUBXIDS]
Definition: proc.h:40
i
int i
Definition: preproc-comment.c:23

Definition at line 3020 of file procarray.c.

Referenced by XidCacheRemoveRunningXids().

Typedef Documentation

◆ ProcArrayStruct

typedef struct ProcArrayStruct ProcArrayStruct

Function Documentation

◆ BackendPidGetProc()

PGPROC* BackendPidGetProc ( int  pid)

Definition at line 2365 of file procarray.c.

References BackendPidGetProcWithLock(), LW_SHARED, LWLockAcquire(), and LWLockRelease().

Referenced by IsBackendPid(), pg_signal_backend(), pg_stat_get_activity(), pg_stat_get_backend_wait_event(), pg_stat_get_backend_wait_event_type(), ProcSendSignal(), and test_shm_mq_main().

2366 {
2367  PGPROC *result;
2368 
2369  if (pid == 0) /* never match dummy PGPROCs */
2370  return NULL;
2371 
2372  LWLockAcquire(ProcArrayLock, LW_SHARED);
2373 
2374  result = BackendPidGetProcWithLock(pid);
2375 
2376  LWLockRelease(ProcArrayLock);
2377 
2378  return result;
2379 }
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
BackendPidGetProcWithLock
PGPROC * BackendPidGetProcWithLock(int pid)
Definition: procarray.c:2388
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
PGPROC
Definition: proc.h:95

◆ BackendPidGetProcWithLock()

PGPROC* BackendPidGetProcWithLock ( int  pid)

Definition at line 2388 of file procarray.c.

References ProcArrayStruct::numProcs, ProcArrayStruct::pgprocnos, PGPROC::pid, and procArray.

Referenced by BackendPidGetProc(), and GetBlockerStatusData().

2389 {
2390  PGPROC *result = NULL;
2391  ProcArrayStruct *arrayP = procArray;
2392  int index;
2393 
2394  if (pid == 0) /* never match dummy PGPROCs */
2395  return NULL;
2396 
2397  for (index = 0; index < arrayP->numProcs; index++)
2398  {
2399  PGPROC *proc = &allProcs[arrayP->pgprocnos[index]];
2400 
2401  if (proc->pid == pid)
2402  {
2403  result = proc;
2404  break;
2405  }
2406  }
2407 
2408  return result;
2409 }
index
Definition: type.h:89
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
PGPROC
Definition: proc.h:95
PGPROC::pid
int pid
Definition: proc.h:109

◆ BackendXidGetPid()

int BackendXidGetPid ( TransactionId  xid)

Definition at line 2425 of file procarray.c.

References InvalidTransactionId, LW_SHARED, LWLockAcquire(), LWLockRelease(), ProcArrayStruct::numProcs, ProcArrayStruct::pgprocnos, PGPROC::pid, procArray, and PGXACT::xid.

Referenced by pgrowlocks().

2426 {
2427  int result = 0;
2428  ProcArrayStruct *arrayP = procArray;
2429  int index;
2430 
2431  if (xid == InvalidTransactionId) /* never match invalid xid */
2432  return 0;
2433 
2434  LWLockAcquire(ProcArrayLock, LW_SHARED);
2435 
2436  for (index = 0; index < arrayP->numProcs; index++)
2437  {
2438  int pgprocno = arrayP->pgprocnos[index];
2439  volatile PGPROC *proc = &allProcs[pgprocno];
2440  volatile PGXACT *pgxact = &allPgXact[pgprocno];
2441 
2442  if (pgxact->xid == xid)
2443  {
2444  result = proc->pid;
2445  break;
2446  }
2447  }
2448 
2449  LWLockRelease(ProcArrayLock);
2450 
2451  return result;
2452 }
PGXACT
Definition: proc.h:222
PGXACT::xid
TransactionId xid
Definition: proc.h:224
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
InvalidTransactionId
#define InvalidTransactionId
Definition: transam.h:31
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
PGPROC
Definition: proc.h:95
PGPROC::pid
int pid
Definition: proc.h:109

◆ CancelDBBackends()

void CancelDBBackends ( Oid  databaseid,
ProcSignalReason  sigmode,
bool  conflictPending 
)

Definition at line 2819 of file procarray.c.

References VirtualTransactionId::backendId, PGPROC::databaseId, GET_VXID_FROM_PGPROC, InvalidOid, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), ProcArrayStruct::numProcs, ProcArrayStruct::pgprocnos, PGPROC::pid, procArray, PGPROC::recoveryConflictPending, and SendProcSignal().

Referenced by ResolveRecoveryConflictWithDatabase(), and SendRecoveryConflictWithBufferPin().

2820 {
2821  ProcArrayStruct *arrayP = procArray;
2822  int index;
2823  pid_t pid = 0;
2824 
2825  /* tell all backends to die */
2826  LWLockAcquire(ProcArrayLock, LW_EXCLUSIVE);
2827 
2828  for (index = 0; index < arrayP->numProcs; index++)
2829  {
2830  int pgprocno = arrayP->pgprocnos[index];
2831  volatile PGPROC *proc = &allProcs[pgprocno];
2832 
2833  if (databaseid == InvalidOid || proc->databaseId == databaseid)
2834  {
2835  VirtualTransactionId procvxid;
2836 
2837  GET_VXID_FROM_PGPROC(procvxid, *proc);
2838 
2839  proc->recoveryConflictPending = conflictPending;
2840  pid = proc->pid;
2841  if (pid != 0)
2842  {
2843  /*
2844  * Kill the pid if it's still here. If not, that's what we
2845  * wanted so ignore any errors.
2846  */
2847  (void) SendProcSignal(pid, sigmode, procvxid.backendId);
2848  }
2849  }
2850  }
2851 
2852  LWLockRelease(ProcArrayLock);
2853 }
GET_VXID_FROM_PGPROC
#define GET_VXID_FROM_PGPROC(vxid, proc)
Definition: lock.h:80
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
SendProcSignal
int SendProcSignal(pid_t pid, ProcSignalReason reason, BackendId backendId)
Definition: procsignal.c:180
PGPROC::recoveryConflictPending
bool recoveryConflictPending
Definition: proc.h:127
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
PGPROC::databaseId
Oid databaseId
Definition: proc.h:114
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
InvalidOid
#define InvalidOid
Definition: postgres_ext.h:36
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
VirtualTransactionId::backendId
BackendId backendId
Definition: lock.h:65
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
PGPROC
Definition: proc.h:95
PGPROC::pid
int pid
Definition: proc.h:109

◆ CancelVirtualTransaction()

pid_t CancelVirtualTransaction ( VirtualTransactionId  vxid,
ProcSignalReason  sigmode 
)

Definition at line 2656 of file procarray.c.

References VirtualTransactionId::backendId, GET_VXID_FROM_PGPROC, VirtualTransactionId::localTransactionId, LW_SHARED, LWLockAcquire(), LWLockRelease(), ProcArrayStruct::numProcs, ProcArrayStruct::pgprocnos, PGPROC::pid, procArray, PGPROC::recoveryConflictPending, and SendProcSignal().

Referenced by ResolveRecoveryConflictWithVirtualXIDs().

2657 {
2658  ProcArrayStruct *arrayP = procArray;
2659  int index;
2660  pid_t pid = 0;
2661 
2662  LWLockAcquire(ProcArrayLock, LW_SHARED);
2663 
2664  for (index = 0; index < arrayP->numProcs; index++)
2665  {
2666  int pgprocno = arrayP->pgprocnos[index];
2667  volatile PGPROC *proc = &allProcs[pgprocno];
2668  VirtualTransactionId procvxid;
2669 
2670  GET_VXID_FROM_PGPROC(procvxid, *proc);
2671 
2672  if (procvxid.backendId == vxid.backendId &&
2673  procvxid.localTransactionId == vxid.localTransactionId)
2674  {
2675  proc->recoveryConflictPending = true;
2676  pid = proc->pid;
2677  if (pid != 0)
2678  {
2679  /*
2680  * Kill the pid if it's still here. If not, that's what we
2681  * wanted so ignore any errors.
2682  */
2683  (void) SendProcSignal(pid, sigmode, vxid.backendId);
2684  }
2685  break;
2686  }
2687  }
2688 
2689  LWLockRelease(ProcArrayLock);
2690 
2691  return pid;
2692 }
GET_VXID_FROM_PGPROC
#define GET_VXID_FROM_PGPROC(vxid, proc)
Definition: lock.h:80
VirtualTransactionId::localTransactionId
LocalTransactionId localTransactionId
Definition: lock.h:66
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
SendProcSignal
int SendProcSignal(pid_t pid, ProcSignalReason reason, BackendId backendId)
Definition: procsignal.c:180
PGPROC::recoveryConflictPending
bool recoveryConflictPending
Definition: proc.h:127
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
VirtualTransactionId::backendId
BackendId backendId
Definition: lock.h:65
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
PGPROC
Definition: proc.h:95
PGPROC::pid
int pid
Definition: proc.h:109

◆ CountDBBackends()

int CountDBBackends ( Oid  databaseid)

Definition at line 2758 of file procarray.c.

References PGPROC::databaseId, LW_SHARED, LWLockAcquire(), LWLockRelease(), ProcArrayStruct::numProcs, OidIsValid, ProcArrayStruct::pgprocnos, PGPROC::pid, and procArray.

Referenced by btree_xlog_delete_get_latestRemovedXid(), hash_xlog_vacuum_get_latestRemovedXid(), and ResolveRecoveryConflictWithDatabase().

2759 {
2760  ProcArrayStruct *arrayP = procArray;
2761  int count = 0;
2762  int index;
2763 
2764  LWLockAcquire(ProcArrayLock, LW_SHARED);
2765 
2766  for (index = 0; index < arrayP->numProcs; index++)
2767  {
2768  int pgprocno = arrayP->pgprocnos[index];
2769  volatile PGPROC *proc = &allProcs[pgprocno];
2770 
2771  if (proc->pid == 0)
2772  continue; /* do not count prepared xacts */
2773  if (!OidIsValid(databaseid) ||
2774  proc->databaseId == databaseid)
2775  count++;
2776  }
2777 
2778  LWLockRelease(ProcArrayLock);
2779 
2780  return count;
2781 }
OidIsValid
#define OidIsValid(objectId)
Definition: c.h:638
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
PGPROC::databaseId
Oid databaseId
Definition: proc.h:114
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
PGPROC
Definition: proc.h:95
PGPROC::pid
int pid
Definition: proc.h:109

◆ CountDBConnections()

int CountDBConnections ( Oid  databaseid)

Definition at line 2788 of file procarray.c.

References PGPROC::databaseId, PGPROC::isBackgroundWorker, LW_SHARED, LWLockAcquire(), LWLockRelease(), ProcArrayStruct::numProcs, OidIsValid, ProcArrayStruct::pgprocnos, PGPROC::pid, and procArray.

Referenced by CheckMyDatabase().

2789 {
2790  ProcArrayStruct *arrayP = procArray;
2791  int count = 0;
2792  int index;
2793 
2794  LWLockAcquire(ProcArrayLock, LW_SHARED);
2795 
2796  for (index = 0; index < arrayP->numProcs; index++)
2797  {
2798  int pgprocno = arrayP->pgprocnos[index];
2799  volatile PGPROC *proc = &allProcs[pgprocno];
2800 
2801  if (proc->pid == 0)
2802  continue; /* do not count prepared xacts */
2803  if (proc->isBackgroundWorker)
2804  continue; /* do not count background workers */
2805  if (!OidIsValid(databaseid) ||
2806  proc->databaseId == databaseid)
2807  count++;
2808  }
2809 
2810  LWLockRelease(ProcArrayLock);
2811 
2812  return count;
2813 }
OidIsValid
#define OidIsValid(objectId)
Definition: c.h:638
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
PGPROC::isBackgroundWorker
bool isBackgroundWorker
Definition: proc.h:120
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
PGPROC::databaseId
Oid databaseId
Definition: proc.h:114
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
PGPROC
Definition: proc.h:95
PGPROC::pid
int pid
Definition: proc.h:109

◆ CountOtherDBBackends()

bool CountOtherDBBackends ( Oid  databaseId,
int *  nbackends,
int *  nprepared 
)

Definition at line 2909 of file procarray.c.

References CHECK_FOR_INTERRUPTS, PGPROC::databaseId, kill, LW_SHARED, LWLockAcquire(), LWLockRelease(), MAXAUTOVACPIDS, MyProc, ProcArrayStruct::numProcs, pg_usleep(), ProcArrayStruct::pgprocnos, PGPROC::pid, PROC_IS_AUTOVACUUM, procArray, and PGXACT::vacuumFlags.

Referenced by createdb(), dropdb(), movedb(), and RenameDatabase().

2910 {
2911  ProcArrayStruct *arrayP = procArray;
2912 
2913 #define MAXAUTOVACPIDS 10 /* max autovacs to SIGTERM per iteration */
2914  int autovac_pids[MAXAUTOVACPIDS];
2915  int tries;
2916 
2917  /* 50 tries with 100ms sleep between tries makes 5 sec total wait */
2918  for (tries = 0; tries < 50; tries++)
2919  {
2920  int nautovacs = 0;
2921  bool found = false;
2922  int index;
2923 
2924  CHECK_FOR_INTERRUPTS();
2925 
2926  *nbackends = *nprepared = 0;
2927 
2928  LWLockAcquire(ProcArrayLock, LW_SHARED);
2929 
2930  for (index = 0; index < arrayP->numProcs; index++)
2931  {
2932  int pgprocno = arrayP->pgprocnos[index];
2933  volatile PGPROC *proc = &allProcs[pgprocno];
2934  volatile PGXACT *pgxact = &allPgXact[pgprocno];
2935 
2936  if (proc->databaseId != databaseId)
2937  continue;
2938  if (proc == MyProc)
2939  continue;
2940 
2941  found = true;
2942 
2943  if (proc->pid == 0)
2944  (*nprepared)++;
2945  else
2946  {
2947  (*nbackends)++;
2948  if ((pgxact->vacuumFlags & PROC_IS_AUTOVACUUM) &&
2949  nautovacs < MAXAUTOVACPIDS)
2950  autovac_pids[nautovacs++] = proc->pid;
2951  }
2952  }
2953 
2954  LWLockRelease(ProcArrayLock);
2955 
2956  if (!found)
2957  return false; /* no conflicting backends, so done */
2958 
2959  /*
2960  * Send SIGTERM to any conflicting autovacuums before sleeping. We
2961  * postpone this step until after the loop because we don't want to
2962  * hold ProcArrayLock while issuing kill(). We have no idea what might
2963  * block kill() inside the kernel...
2964  */
2965  for (index = 0; index < nautovacs; index++)
2966  (void) kill(autovac_pids[index], SIGTERM); /* ignore any error */
2967 
2968  /* sleep, then try again */
2969  pg_usleep(100 * 1000L); /* 100ms */
2970  }
2971 
2972  return true; /* timed out, still conflicts */
2973 }
PGXACT
Definition: proc.h:222
MyProc
PGPROC * MyProc
Definition: proc.c:67
kill
#define kill(pid, sig)
Definition: win32_port.h:437
MAXAUTOVACPIDS
#define MAXAUTOVACPIDS
PGXACT::vacuumFlags
uint8 vacuumFlags
Definition: proc.h:233
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
pg_usleep
void pg_usleep(long microsec)
Definition: signal.c:53
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
PGPROC::databaseId
Oid databaseId
Definition: proc.h:114
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
CHECK_FOR_INTERRUPTS
#define CHECK_FOR_INTERRUPTS()
Definition: miscadmin.h:98
PGPROC
Definition: proc.h:95
PGPROC::pid
int pid
Definition: proc.h:109
PROC_IS_AUTOVACUUM
#define PROC_IS_AUTOVACUUM
Definition: proc.h:53

◆ CountUserBackends()

int CountUserBackends ( Oid  roleid)

Definition at line 2859 of file procarray.c.

References PGPROC::isBackgroundWorker, LW_SHARED, LWLockAcquire(), LWLockRelease(), ProcArrayStruct::numProcs, ProcArrayStruct::pgprocnos, PGPROC::pid, procArray, and PGPROC::roleId.

Referenced by InitializeSessionUserId().

2860 {
2861  ProcArrayStruct *arrayP = procArray;
2862  int count = 0;
2863  int index;
2864 
2865  LWLockAcquire(ProcArrayLock, LW_SHARED);
2866 
2867  for (index = 0; index < arrayP->numProcs; index++)
2868  {
2869  int pgprocno = arrayP->pgprocnos[index];
2870  volatile PGPROC *proc = &allProcs[pgprocno];
2871 
2872  if (proc->pid == 0)
2873  continue; /* do not count prepared xacts */
2874  if (proc->isBackgroundWorker)
2875  continue; /* do not count background workers */
2876  if (proc->roleId == roleid)
2877  count++;
2878  }
2879 
2880  LWLockRelease(ProcArrayLock);
2881 
2882  return count;
2883 }
PGPROC::roleId
Oid roleId
Definition: proc.h:115
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
PGPROC::isBackgroundWorker
bool isBackgroundWorker
Definition: proc.h:120
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
PGPROC
Definition: proc.h:95
PGPROC::pid
int pid
Definition: proc.h:109

◆ CreateSharedProcArray()

void CreateSharedProcArray ( void  )

Definition at line 221 of file procarray.c.

References add_size(), PROC_HDR::allPgXact, PROC_HDR::allProcs, EnableHotStandby, ProcArrayStruct::headKnownAssignedXids, InvalidTransactionId, ProcArrayStruct::known_assigned_xids_lck, KnownAssignedXids, KnownAssignedXidsValid, ProcArrayStruct::lastOverflowedXid, LWLockRegisterTranche(), LWTRANCHE_PROC, ProcArrayStruct::maxKnownAssignedXids, ProcArrayStruct::maxProcs, mul_size(), ProcArrayStruct::numKnownAssignedXids, ProcArrayStruct::numProcs, offsetof, ProcArrayStruct::pgprocnos, PROCARRAY_MAXPROCS, ProcGlobal, ProcArrayStruct::replication_slot_catalog_xmin, ProcArrayStruct::replication_slot_xmin, ShmemInitStruct(), SpinLockInit, ProcArrayStruct::tailKnownAssignedXids, and TOTAL_MAX_CACHED_SUBXIDS.

Referenced by CreateSharedMemoryAndSemaphores().

222 {
223  bool found;
224 
225  /* Create or attach to the ProcArray shared structure */
226  procArray = (ProcArrayStruct *)
227  ShmemInitStruct("Proc Array",
228  add_size(offsetof(ProcArrayStruct, pgprocnos),
229  mul_size(sizeof(int),
230  PROCARRAY_MAXPROCS)),
231  &found);
232 
233  if (!found)
234  {
235  /*
236  * We're the first - initialize.
237  */
238  procArray->numProcs = 0;
239  procArray->maxProcs = PROCARRAY_MAXPROCS;
240  procArray->maxKnownAssignedXids = TOTAL_MAX_CACHED_SUBXIDS;
241  procArray->numKnownAssignedXids = 0;
242  procArray->tailKnownAssignedXids = 0;
243  procArray->headKnownAssignedXids = 0;
244  SpinLockInit(&procArray->known_assigned_xids_lck);
245  procArray->lastOverflowedXid = InvalidTransactionId;
246  procArray->replication_slot_xmin = InvalidTransactionId;
247  procArray->replication_slot_catalog_xmin = InvalidTransactionId;
248  }
249 
250  allProcs = ProcGlobal->allProcs;
251  allPgXact = ProcGlobal->allPgXact;
252 
253  /* Create or attach to the KnownAssignedXids arrays too, if needed */
254  if (EnableHotStandby)
255  {
256  KnownAssignedXids = (TransactionId *)
257  ShmemInitStruct("KnownAssignedXids",
258  mul_size(sizeof(TransactionId),
259  TOTAL_MAX_CACHED_SUBXIDS),
260  &found);
261  KnownAssignedXidsValid = (bool *)
262  ShmemInitStruct("KnownAssignedXidsValid",
263  mul_size(sizeof(bool), TOTAL_MAX_CACHED_SUBXIDS),
264  &found);
265  }
266 
267  /* Register and initialize fields of ProcLWLockTranche */
268  LWLockRegisterTranche(LWTRANCHE_PROC, "proc");
269 }
PROCARRAY_MAXPROCS
#define PROCARRAY_MAXPROCS
TransactionId
uint32 TransactionId
Definition: c.h:507
PROC_HDR::allPgXact
PGXACT * allPgXact
Definition: proc.h:249
SpinLockInit
#define SpinLockInit(lock)
Definition: spin.h:60
ProcArrayStruct::replication_slot_catalog_xmin
TransactionId replication_slot_catalog_xmin
Definition: procarray.c:92
ProcArrayStruct::known_assigned_xids_lck
slock_t known_assigned_xids_lck
Definition: procarray.c:78
ProcGlobal
PROC_HDR * ProcGlobal
Definition: proc.c:80
LWLockRegisterTranche
void LWLockRegisterTranche(int tranche_id, const char *tranche_name)
Definition: lwlock.c:602
ShmemInitStruct
void * ShmemInitStruct(const char *name, Size size, bool *foundPtr)
Definition: shmem.c:372
ProcArrayStruct::maxKnownAssignedXids
int maxKnownAssignedXids
Definition: procarray.c:74
InvalidTransactionId
#define InvalidTransactionId
Definition: transam.h:31
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
ProcArrayStruct::numKnownAssignedXids
int numKnownAssignedXids
Definition: procarray.c:75
KnownAssignedXidsValid
static bool * KnownAssignedXidsValid
Definition: procarray.c:107
ProcArrayStruct::lastOverflowedXid
TransactionId lastOverflowedXid
Definition: procarray.c:87
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
ProcArrayStruct::replication_slot_xmin
TransactionId replication_slot_xmin
Definition: procarray.c:90
mul_size
Size mul_size(Size s1, Size s2)
Definition: shmem.c:492
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
add_size
Size add_size(Size s1, Size s2)
Definition: shmem.c:475
TOTAL_MAX_CACHED_SUBXIDS
#define TOTAL_MAX_CACHED_SUBXIDS
KnownAssignedXids
static TransactionId * KnownAssignedXids
Definition: procarray.c:106
EnableHotStandby
bool EnableHotStandby
Definition: xlog.c:96
PROC_HDR::allProcs
PGPROC * allProcs
Definition: proc.h:247
ProcArrayStruct::tailKnownAssignedXids
int tailKnownAssignedXids
Definition: procarray.c:76
offsetof
#define offsetof(type, field)
Definition: c.h:655
ProcArrayStruct::headKnownAssignedXids
int headKnownAssignedXids
Definition: procarray.c:77

◆ ExpireAllKnownAssignedTransactionIds()

void ExpireAllKnownAssignedTransactionIds ( void  )

Definition at line 3290 of file procarray.c.

References InvalidTransactionId, KnownAssignedXidsRemovePreceding(), LW_EXCLUSIVE, LWLockAcquire(), and LWLockRelease().

Referenced by ShutdownRecoveryTransactionEnvironment().

3291 {
3292  LWLockAcquire(ProcArrayLock, LW_EXCLUSIVE);
3293  KnownAssignedXidsRemovePreceding(InvalidTransactionId);
3294  LWLockRelease(ProcArrayLock);
3295 }
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
KnownAssignedXidsRemovePreceding
static void KnownAssignedXidsRemovePreceding(TransactionId xid)
Definition: procarray.c:3742
InvalidTransactionId
#define InvalidTransactionId
Definition: transam.h:31
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121

◆ ExpireOldKnownAssignedTransactionIds()

void ExpireOldKnownAssignedTransactionIds ( TransactionId  xid)

Definition at line 3302 of file procarray.c.

References KnownAssignedXidsRemovePreceding(), LW_EXCLUSIVE, LWLockAcquire(), and LWLockRelease().

Referenced by ProcArrayApplyRecoveryInfo().

3303 {
3304  LWLockAcquire(ProcArrayLock, LW_EXCLUSIVE);
3305  KnownAssignedXidsRemovePreceding(xid);
3306  LWLockRelease(ProcArrayLock);
3307 }
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
KnownAssignedXidsRemovePreceding
static void KnownAssignedXidsRemovePreceding(TransactionId xid)
Definition: procarray.c:3742
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121

◆ ExpireTreeKnownAssignedTransactionIds()

void ExpireTreeKnownAssignedTransactionIds ( TransactionId  xid,
int  nsubxids,
TransactionId subxids,
TransactionId  max_xid 
)

Definition at line 3265 of file procarray.c.

References Assert, KnownAssignedXidsRemoveTree(), VariableCacheData::latestCompletedXid, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), ShmemVariableCache, STANDBY_INITIALIZED, standbyState, and TransactionIdPrecedes().

Referenced by xact_redo_abort(), and xact_redo_commit().

3267 {
3268  Assert(standbyState >= STANDBY_INITIALIZED);
3269 
3270  /*
3271  * Uses same locking as transaction commit
3272  */
3273  LWLockAcquire(ProcArrayLock, LW_EXCLUSIVE);
3274 
3275  KnownAssignedXidsRemoveTree(xid, nsubxids, subxids);
3276 
3277  /* As in ProcArrayEndTransaction, advance latestCompletedXid */
3278  if (TransactionIdPrecedes(ShmemVariableCache->latestCompletedXid,
3279  max_xid))
3280  ShmemVariableCache->latestCompletedXid = max_xid;
3281 
3282  LWLockRelease(ProcArrayLock);
3283 }
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
ShmemVariableCache
VariableCache ShmemVariableCache
Definition: varsup.c:34
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
KnownAssignedXidsRemoveTree
static void KnownAssignedXidsRemoveTree(TransactionId xid, int nsubxids, TransactionId *subxids)
Definition: procarray.c:3720
Assert
#define Assert(condition)
Definition: c.h:732
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
standbyState
HotStandbyState standbyState
Definition: xlog.c:197
VariableCacheData::latestCompletedXid
TransactionId latestCompletedXid
Definition: transam.h:135

◆ GetConflictingVirtualXIDs()

VirtualTransactionId* GetConflictingVirtualXIDs ( TransactionId  limitXmin,
Oid  dbOid 
)

Definition at line 2581 of file procarray.c.

References VirtualTransactionId::backendId, PGPROC::databaseId, ereport, errcode(), errmsg(), ERROR, GET_VXID_FROM_PGPROC, InvalidBackendId, InvalidLocalTransactionId, VirtualTransactionId::localTransactionId, LW_SHARED, LWLockAcquire(), LWLockRelease(), malloc, ProcArrayStruct::maxProcs, ProcArrayStruct::numProcs, OidIsValid, ProcArrayStruct::pgprocnos, PGPROC::pid, procArray, TransactionIdFollows(), TransactionIdIsValid, VirtualTransactionIdIsValid, and PGXACT::xmin.

Referenced by ResolveRecoveryConflictWithSnapshot(), and ResolveRecoveryConflictWithTablespace().

2582 {
2583  static VirtualTransactionId *vxids;
2584  ProcArrayStruct *arrayP = procArray;
2585  int count = 0;
2586  int index;
2587 
2588  /*
2589  * If first time through, get workspace to remember main XIDs in. We
2590  * malloc it permanently to avoid repeated palloc/pfree overhead. Allow
2591  * result space, remembering room for a terminator.
2592  */
2593  if (vxids == NULL)
2594  {
2595  vxids = (VirtualTransactionId *)
2596  malloc(sizeof(VirtualTransactionId) * (arrayP->maxProcs + 1));
2597  if (vxids == NULL)
2598  ereport(ERROR,
2599  (errcode(ERRCODE_OUT_OF_MEMORY),
2600  errmsg("out of memory")));
2601  }
2602 
2603  LWLockAcquire(ProcArrayLock, LW_SHARED);
2604 
2605  for (index = 0; index < arrayP->numProcs; index++)
2606  {
2607  int pgprocno = arrayP->pgprocnos[index];
2608  volatile PGPROC *proc = &allProcs[pgprocno];
2609  volatile PGXACT *pgxact = &allPgXact[pgprocno];
2610 
2611  /* Exclude prepared transactions */
2612  if (proc->pid == 0)
2613  continue;
2614 
2615  if (!OidIsValid(dbOid) ||
2616  proc->databaseId == dbOid)
2617  {
2618  /* Fetch xmin just once - can't change on us, but good coding */
2619  TransactionId pxmin = pgxact->xmin;
2620 
2621  /*
2622  * We ignore an invalid pxmin because this means that backend has
2623  * no snapshot currently. We hold a Share lock to avoid contention
2624  * with users taking snapshots. That is not a problem because the
2625  * current xmin is always at least one higher than the latest
2626  * removed xid, so any new snapshot would never conflict with the
2627  * test here.
2628  */
2629  if (!TransactionIdIsValid(limitXmin) ||
2630  (TransactionIdIsValid(pxmin) && !TransactionIdFollows(pxmin, limitXmin)))
2631  {
2632  VirtualTransactionId vxid;
2633 
2634  GET_VXID_FROM_PGPROC(vxid, *proc);
2635  if (VirtualTransactionIdIsValid(vxid))
2636  vxids[count++] = vxid;
2637  }
2638  }
2639  }
2640 
2641  LWLockRelease(ProcArrayLock);
2642 
2643  /* add the terminator */
2644  vxids[count].backendId = InvalidBackendId;
2645  vxids[count].localTransactionId = InvalidLocalTransactionId;
2646 
2647  return vxids;
2648 }
GET_VXID_FROM_PGPROC
#define GET_VXID_FROM_PGPROC(vxid, proc)
Definition: lock.h:80
TransactionIdFollows
bool TransactionIdFollows(TransactionId id1, TransactionId id2)
Definition: transam.c:334
TransactionId
uint32 TransactionId
Definition: c.h:507
PGXACT
Definition: proc.h:222
PGXACT::xmin
TransactionId xmin
Definition: proc.h:228
errcode
int errcode(int sqlerrcode)
Definition: elog.c:572
VirtualTransactionId::localTransactionId
LocalTransactionId localTransactionId
Definition: lock.h:66
OidIsValid
#define OidIsValid(objectId)
Definition: c.h:638
index
Definition: type.h:89
malloc
#define malloc(a)
Definition: header.h:50
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
ERROR
#define ERROR
Definition: elog.h:43
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
PGPROC::databaseId
Oid databaseId
Definition: proc.h:114
ereport
#define ereport(elevel, rest)
Definition: elog.h:141
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
VirtualTransactionIdIsValid
#define VirtualTransactionIdIsValid(vxid)
Definition: lock.h:71
InvalidBackendId
#define InvalidBackendId
Definition: backendid.h:23
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
VirtualTransactionId::backendId
BackendId backendId
Definition: lock.h:65
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
errmsg
int errmsg(const char *fmt,...)
Definition: elog.c:786
InvalidLocalTransactionId
#define InvalidLocalTransactionId
Definition: lock.h:69
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
PGPROC
Definition: proc.h:95
PGPROC::pid
int pid
Definition: proc.h:109

◆ GetCurrentVirtualXIDs()

VirtualTransactionId* GetCurrentVirtualXIDs ( TransactionId  limitXmin,
bool  excludeXmin0,
bool  allDbs,
int  excludeVacuum,
int *  nvxids 
)

Definition at line 2493 of file procarray.c.

References PGPROC::databaseId, GET_VXID_FROM_PGPROC, LW_SHARED, LWLockAcquire(), LWLockRelease(), ProcArrayStruct::maxProcs, MyDatabaseId, MyProc, ProcArrayStruct::numProcs, palloc(), ProcArrayStruct::pgprocnos, procArray, TransactionIdIsValid, TransactionIdPrecedesOrEquals(), PGXACT::vacuumFlags, VirtualTransactionIdIsValid, and PGXACT::xmin.

Referenced by DefineIndex().

2496 {
2497  VirtualTransactionId *vxids;
2498  ProcArrayStruct *arrayP = procArray;
2499  int count = 0;
2500  int index;
2501 
2502  /* allocate what's certainly enough result space */
2503  vxids = (VirtualTransactionId *)
2504  palloc(sizeof(VirtualTransactionId) * arrayP->maxProcs);
2505 
2506  LWLockAcquire(ProcArrayLock, LW_SHARED);
2507 
2508  for (index = 0; index < arrayP->numProcs; index++)
2509  {
2510  int pgprocno = arrayP->pgprocnos[index];
2511  volatile PGPROC *proc = &allProcs[pgprocno];
2512  volatile PGXACT *pgxact = &allPgXact[pgprocno];
2513 
2514  if (proc == MyProc)
2515  continue;
2516 
2517  if (excludeVacuum & pgxact->vacuumFlags)
2518  continue;
2519 
2520  if (allDbs || proc->databaseId == MyDatabaseId)
2521  {
2522  /* Fetch xmin just once - might change on us */
2523  TransactionId pxmin = pgxact->xmin;
2524 
2525  if (excludeXmin0 && !TransactionIdIsValid(pxmin))
2526  continue;
2527 
2528  /*
2529  * InvalidTransactionId precedes all other XIDs, so a proc that
2530  * hasn't set xmin yet will not be rejected by this test.
2531  */
2532  if (!TransactionIdIsValid(limitXmin) ||
2533  TransactionIdPrecedesOrEquals(pxmin, limitXmin))
2534  {
2535  VirtualTransactionId vxid;
2536 
2537  GET_VXID_FROM_PGPROC(vxid, *proc);
2538  if (VirtualTransactionIdIsValid(vxid))
2539  vxids[count++] = vxid;
2540  }
2541  }
2542  }
2543 
2544  LWLockRelease(ProcArrayLock);
2545 
2546  *nvxids = count;
2547  return vxids;
2548 }
GET_VXID_FROM_PGPROC
#define GET_VXID_FROM_PGPROC(vxid, proc)
Definition: lock.h:80
TransactionId
uint32 TransactionId
Definition: c.h:507
PGXACT
Definition: proc.h:222
PGXACT::xmin
TransactionId xmin
Definition: proc.h:228
MyProc
PGPROC * MyProc
Definition: proc.c:67
PGXACT::vacuumFlags
uint8 vacuumFlags
Definition: proc.h:233
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
TransactionIdPrecedesOrEquals
bool TransactionIdPrecedesOrEquals(TransactionId id1, TransactionId id2)
Definition: transam.c:319
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
PGPROC::databaseId
Oid databaseId
Definition: proc.h:114
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
VirtualTransactionIdIsValid
#define VirtualTransactionIdIsValid(vxid)
Definition: lock.h:71
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
MyDatabaseId
Oid MyDatabaseId
Definition: globals.c:84
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
palloc
void * palloc(Size size)
Definition: mcxt.c:924
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
PGPROC
Definition: proc.h:95

◆ GetMaxSnapshotSubxidCount()

int GetMaxSnapshotSubxidCount ( void  )

Definition at line 1469 of file procarray.c.

References TOTAL_MAX_CACHED_SUBXIDS.

Referenced by ExportSnapshot(), GetSnapshotData(), ImportSnapshot(), and SetTransactionSnapshot().

1470 {
1471  return TOTAL_MAX_CACHED_SUBXIDS;
1472 }
TOTAL_MAX_CACHED_SUBXIDS
#define TOTAL_MAX_CACHED_SUBXIDS

◆ GetMaxSnapshotXidCount()

int GetMaxSnapshotXidCount ( void  )

Definition at line 1458 of file procarray.c.

References ProcArrayStruct::maxProcs.

Referenced by GetSnapshotData(), ImportSnapshot(), SetTransactionSnapshot(), and SnapBuildInitialSnapshot().

1459 {
1460  return procArray->maxProcs;
1461 }
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98

◆ GetOldestActiveTransactionId()

TransactionId GetOldestActiveTransactionId ( void  )

Definition at line 2111 of file procarray.c.

References Assert, LW_SHARED, LWLockAcquire(), LWLockRelease(), VariableCacheData::nextXid, ProcArrayStruct::numProcs, ProcArrayStruct::pgprocnos, procArray, RecoveryInProgress(), ShmemVariableCache, TransactionIdIsNormal, TransactionIdPrecedes(), and PGXACT::xid.

Referenced by CreateCheckPoint().

2112 {
2113  ProcArrayStruct *arrayP = procArray;
2114  TransactionId oldestRunningXid;
2115  int index;
2116 
2117  Assert(!RecoveryInProgress());
2118 
2119  /*
2120  * Read nextXid, as the upper bound of what's still active.
2121  *
2122  * Reading a TransactionId is atomic, but we must grab the lock to make
2123  * sure that all XIDs < nextXid are already present in the proc array (or
2124  * have already completed), when we spin over it.
2125  */
2126  LWLockAcquire(XidGenLock, LW_SHARED);
2127  oldestRunningXid = ShmemVariableCache->nextXid;
2128  LWLockRelease(XidGenLock);
2129 
2130  /*
2131  * Spin over procArray collecting all xids and subxids.
2132  */
2133  LWLockAcquire(ProcArrayLock, LW_SHARED);
2134  for (index = 0; index < arrayP->numProcs; index++)
2135  {
2136  int pgprocno = arrayP->pgprocnos[index];
2137  volatile PGXACT *pgxact = &allPgXact[pgprocno];
2138  TransactionId xid;
2139 
2140  /* Fetch xid just once - see GetNewTransactionId */
2141  xid = pgxact->xid;
2142 
2143  if (!TransactionIdIsNormal(xid))
2144  continue;
2145 
2146  if (TransactionIdPrecedes(xid, oldestRunningXid))
2147  oldestRunningXid = xid;
2148 
2149  /*
2150  * Top-level XID of a transaction is always less than any of its
2151  * subxids, so we don't need to check if any of the subxids are
2152  * smaller than oldestRunningXid
2153  */
2154  }
2155  LWLockRelease(ProcArrayLock);
2156 
2157  return oldestRunningXid;
2158 }
TransactionId
uint32 TransactionId
Definition: c.h:507
PGXACT
Definition: proc.h:222
PGXACT::xid
TransactionId xid
Definition: proc.h:224
RecoveryInProgress
bool RecoveryInProgress(void)
Definition: xlog.c:8082
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
VariableCacheData::nextXid
TransactionId nextXid
Definition: transam.h:117
ShmemVariableCache
VariableCache ShmemVariableCache
Definition: varsup.c:34
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
Assert
#define Assert(condition)
Definition: c.h:732
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
TransactionIdIsNormal
#define TransactionIdIsNormal(xid)
Definition: transam.h:42

◆ GetOldestSafeDecodingTransactionId()

TransactionId GetOldestSafeDecodingTransactionId ( bool  catalogOnly)

Definition at line 2177 of file procarray.c.

References Assert, LW_SHARED, LWLockAcquire(), LWLockHeldByMe(), LWLockRelease(), VariableCacheData::nextXid, ProcArrayStruct::numProcs, ProcArrayStruct::pgprocnos, procArray, RecoveryInProgress(), ProcArrayStruct::replication_slot_catalog_xmin, ProcArrayStruct::replication_slot_xmin, ShmemVariableCache, TransactionIdIsNormal, TransactionIdIsValid, TransactionIdPrecedes(), and PGXACT::xid.

Referenced by CreateInitDecodingContext(), and SnapBuildInitialSnapshot().

2178 {
2179  ProcArrayStruct *arrayP = procArray;
2180  TransactionId oldestSafeXid;
2181  int index;
2182  bool recovery_in_progress = RecoveryInProgress();
2183 
2184  Assert(LWLockHeldByMe(ProcArrayLock));
2185 
2186  /*
2187  * Acquire XidGenLock, so no transactions can acquire an xid while we're
2188  * running. If no transaction with xid were running concurrently a new xid
2189  * could influence the RecentXmin et al.
2190  *
2191  * We initialize the computation to nextXid since that's guaranteed to be
2192  * a safe, albeit pessimal, value.
2193  */
2194  LWLockAcquire(XidGenLock, LW_SHARED);
2195  oldestSafeXid = ShmemVariableCache->nextXid;
2196 
2197  /*
2198  * If there's already a slot pegging the xmin horizon, we can start with
2199  * that value, it's guaranteed to be safe since it's computed by this
2200  * routine initially and has been enforced since. We can always use the
2201  * slot's general xmin horizon, but the catalog horizon is only usable
2202  * when only catalog data is going to be looked at.
2203  */
2204  if (TransactionIdIsValid(procArray->replication_slot_xmin) &&
2205  TransactionIdPrecedes(procArray->replication_slot_xmin,
2206  oldestSafeXid))
2207  oldestSafeXid = procArray->replication_slot_xmin;
2208 
2209  if (catalogOnly &&
2210  TransactionIdIsValid(procArray->replication_slot_catalog_xmin) &&
2211  TransactionIdPrecedes(procArray->replication_slot_catalog_xmin,
2212  oldestSafeXid))
2213  oldestSafeXid = procArray->replication_slot_catalog_xmin;
2214 
2215  /*
2216  * If we're not in recovery, we walk over the procarray and collect the
2217  * lowest xid. Since we're called with ProcArrayLock held and have
2218  * acquired XidGenLock, no entries can vanish concurrently, since
2219  * PGXACT->xid is only set with XidGenLock held and only cleared with
2220  * ProcArrayLock held.
2221  *
2222  * In recovery we can't lower the safe value besides what we've computed
2223  * above, so we'll have to wait a bit longer there. We unfortunately can
2224  * *not* use KnownAssignedXidsGetOldestXmin() since the KnownAssignedXids
2225  * machinery can miss values and return an older value than is safe.
2226  */
2227  if (!recovery_in_progress)
2228  {
2229  /*
2230  * Spin over procArray collecting all min(PGXACT->xid)
2231  */
2232  for (index = 0; index < arrayP->numProcs; index++)
2233  {
2234  int pgprocno = arrayP->pgprocnos[index];
2235  volatile PGXACT *pgxact = &allPgXact[pgprocno];
2236  TransactionId xid;
2237 
2238  /* Fetch xid just once - see GetNewTransactionId */
2239  xid = pgxact->xid;
2240 
2241  if (!TransactionIdIsNormal(xid))
2242  continue;
2243 
2244  if (TransactionIdPrecedes(xid, oldestSafeXid))
2245  oldestSafeXid = xid;
2246  }
2247  }
2248 
2249  LWLockRelease(XidGenLock);
2250 
2251  return oldestSafeXid;
2252 }
TransactionId
uint32 TransactionId
Definition: c.h:507
PGXACT
Definition: proc.h:222
LWLockHeldByMe
bool LWLockHeldByMe(LWLock *l)
Definition: lwlock.c:1841
PGXACT::xid
TransactionId xid
Definition: proc.h:224
ProcArrayStruct::replication_slot_catalog_xmin
TransactionId replication_slot_catalog_xmin
Definition: procarray.c:92
RecoveryInProgress
bool RecoveryInProgress(void)
Definition: xlog.c:8082
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
VariableCacheData::nextXid
TransactionId nextXid
Definition: transam.h:117
ShmemVariableCache
VariableCache ShmemVariableCache
Definition: varsup.c:34
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
ProcArrayStruct::replication_slot_xmin
TransactionId replication_slot_xmin
Definition: procarray.c:90
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
Assert
#define Assert(condition)
Definition: c.h:732
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
TransactionIdIsNormal
#define TransactionIdIsNormal(xid)
Definition: transam.h:42

◆ GetOldestXmin()

TransactionId GetOldestXmin ( Relation  rel,
int  flags 
)

Definition at line 1317 of file procarray.c.

References Assert, PGPROC::databaseId, FirstNormalTransactionId, InvalidTransactionId, KnownAssignedXidsGetOldestXmin(), VariableCacheData::latestCompletedXid, LW_SHARED, LWLockAcquire(), LWLockRelease(), MyDatabaseId, NormalTransactionIdPrecedes, ProcArrayStruct::numProcs, ProcArrayStruct::pgprocnos, procArray, PROCARRAY_PROC_FLAGS_MASK, PROCARRAY_SLOTS_XMIN, RelationData::rd_rel, RecoveryInProgress(), RelationIsAccessibleInLogicalDecoding, ProcArrayStruct::replication_slot_catalog_xmin, ProcArrayStruct::replication_slot_xmin, ShmemVariableCache, TransactionIdAdvance, TransactionIdIsNormal, TransactionIdIsValid, TransactionIdPrecedes(), vacuum_defer_cleanup_age, PGXACT::vacuumFlags, PGXACT::xid, and PGXACT::xmin.

Referenced by acquire_sample_rows(), collect_corrupt_items(), CreateCheckPoint(), CreateRestartPoint(), IndexBuildHeapRangeScan(), statapprox_heap(), vac_update_datfrozenxid(), vacuum_set_xid_limits(), and XLogWalRcvSendHSFeedback().

1318 {
1319  ProcArrayStruct *arrayP = procArray;
1320  TransactionId result;
1321  int index;
1322  bool allDbs;
1323 
1324  volatile TransactionId replication_slot_xmin = InvalidTransactionId;
1325  volatile TransactionId replication_slot_catalog_xmin = InvalidTransactionId;
1326 
1327  /*
1328  * If we're not computing a relation specific limit, or if a shared
1329  * relation has been passed in, backends in all databases have to be
1330  * considered.
1331  */
1332  allDbs = rel == NULL || rel->rd_rel->relisshared;
1333 
1334  /* Cannot look for individual databases during recovery */
1335  Assert(allDbs || !RecoveryInProgress());
1336 
1337  LWLockAcquire(ProcArrayLock, LW_SHARED);
1338 
1339  /*
1340  * We initialize the MIN() calculation with latestCompletedXid + 1. This
1341  * is a lower bound for the XIDs that might appear in the ProcArray later,
1342  * and so protects us against overestimating the result due to future
1343  * additions.
1344  */
1345  result = ShmemVariableCache->latestCompletedXid;
1346  Assert(TransactionIdIsNormal(result));
1347  TransactionIdAdvance(result);
1348 
1349  for (index = 0; index < arrayP->numProcs; index++)
1350  {
1351  int pgprocno = arrayP->pgprocnos[index];
1352  volatile PGPROC *proc = &allProcs[pgprocno];
1353  volatile PGXACT *pgxact = &allPgXact[pgprocno];
1354 
1355  if (pgxact->vacuumFlags & (flags & PROCARRAY_PROC_FLAGS_MASK))
1356  continue;
1357 
1358  if (allDbs ||
1359  proc->databaseId == MyDatabaseId ||
1360  proc->databaseId == 0) /* always include WalSender */
1361  {
1362  /* Fetch xid just once - see GetNewTransactionId */
1363  TransactionId xid = pgxact->xid;
1364 
1365  /* First consider the transaction's own Xid, if any */
1366  if (TransactionIdIsNormal(xid) &&
1367  TransactionIdPrecedes(xid, result))
1368  result = xid;
1369 
1370  /*
1371  * Also consider the transaction's Xmin, if set.
1372  *
1373  * We must check both Xid and Xmin because a transaction might
1374  * have an Xmin but not (yet) an Xid; conversely, if it has an
1375  * Xid, that could determine some not-yet-set Xmin.
1376  */
1377  xid = pgxact->xmin; /* Fetch just once */
1378  if (TransactionIdIsNormal(xid) &&
1379  TransactionIdPrecedes(xid, result))
1380  result = xid;
1381  }
1382  }
1383 
1384  /* fetch into volatile var while ProcArrayLock is held */
1385  replication_slot_xmin = procArray->replication_slot_xmin;
1386  replication_slot_catalog_xmin = procArray->replication_slot_catalog_xmin;
1387 
1388  if (RecoveryInProgress())
1389  {
1390  /*
1391  * Check to see whether KnownAssignedXids contains an xid value older
1392  * than the main procarray.
1393  */
1394  TransactionId kaxmin = KnownAssignedXidsGetOldestXmin();
1395 
1396  LWLockRelease(ProcArrayLock);
1397 
1398  if (TransactionIdIsNormal(kaxmin) &&
1399  TransactionIdPrecedes(kaxmin, result))
1400  result = kaxmin;
1401  }
1402  else
1403  {
1404  /*
1405  * No other information needed, so release the lock immediately.
1406  */
1407  LWLockRelease(ProcArrayLock);
1408 
1409  /*
1410  * Compute the cutoff XID by subtracting vacuum_defer_cleanup_age,
1411  * being careful not to generate a "permanent" XID.
1412  *
1413  * vacuum_defer_cleanup_age provides some additional "slop" for the
1414  * benefit of hot standby queries on standby servers. This is quick
1415  * and dirty, and perhaps not all that useful unless the master has a
1416  * predictable transaction rate, but it offers some protection when
1417  * there's no walsender connection. Note that we are assuming
1418  * vacuum_defer_cleanup_age isn't large enough to cause wraparound ---
1419  * so guc.c should limit it to no more than the xidStopLimit threshold
1420  * in varsup.c. Also note that we intentionally don't apply
1421  * vacuum_defer_cleanup_age on standby servers.
1422  */
1423  result -= vacuum_defer_cleanup_age;
1424  if (!TransactionIdIsNormal(result))
1425  result = FirstNormalTransactionId;
1426  }
1427 
1428  /*
1429  * Check whether there are replication slots requiring an older xmin.
1430  */
1431  if (!(flags & PROCARRAY_SLOTS_XMIN) &&
1432  TransactionIdIsValid(replication_slot_xmin) &&
1433  NormalTransactionIdPrecedes(replication_slot_xmin, result))
1434  result = replication_slot_xmin;
1435 
1436  /*
1437  * After locks have been released and defer_cleanup_age has been applied,
1438  * check whether we need to back up further to make logical decoding
1439  * possible. We need to do so if we're computing the global limit (rel =
1440  * NULL) or if the passed relation is a catalog relation of some kind.
1441  */
1442  if (!(flags & PROCARRAY_SLOTS_XMIN) &&
1443  (rel == NULL ||
1444  RelationIsAccessibleInLogicalDecoding(rel)) &&
1445  TransactionIdIsValid(replication_slot_catalog_xmin) &&
1446  NormalTransactionIdPrecedes(replication_slot_catalog_xmin, result))
1447  result = replication_slot_catalog_xmin;
1448 
1449  return result;
1450 }
TransactionIdAdvance
#define TransactionIdAdvance(dest)
Definition: transam.h:48
TransactionId
uint32 TransactionId
Definition: c.h:507
PGXACT
Definition: proc.h:222
PGXACT::xmin
TransactionId xmin
Definition: proc.h:228
PGXACT::xid
TransactionId xid
Definition: proc.h:224
vacuum_defer_cleanup_age
int vacuum_defer_cleanup_age
Definition: standby.c:39
ProcArrayStruct::replication_slot_catalog_xmin
TransactionId replication_slot_catalog_xmin
Definition: procarray.c:92
RelationData::rd_rel
Form_pg_class rd_rel
Definition: rel.h:84
RecoveryInProgress
bool RecoveryInProgress(void)
Definition: xlog.c:8082
PGXACT::vacuumFlags
uint8 vacuumFlags
Definition: proc.h:233
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
FirstNormalTransactionId
#define FirstNormalTransactionId
Definition: transam.h:34
PROCARRAY_SLOTS_XMIN
#define PROCARRAY_SLOTS_XMIN
Definition: procarray.h:37
PROCARRAY_PROC_FLAGS_MASK
#define PROCARRAY_PROC_FLAGS_MASK
Definition: procarray.h:44
ShmemVariableCache
VariableCache ShmemVariableCache
Definition: varsup.c:34
InvalidTransactionId
#define InvalidTransactionId
Definition: transam.h:31
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
PGPROC::databaseId
Oid databaseId
Definition: proc.h:114
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
ProcArrayStruct::replication_slot_xmin
TransactionId replication_slot_xmin
Definition: procarray.c:90
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
RelationIsAccessibleInLogicalDecoding
#define RelationIsAccessibleInLogicalDecoding(relation)
Definition: rel.h:565
MyDatabaseId
Oid MyDatabaseId
Definition: globals.c:84
KnownAssignedXidsGetOldestXmin
static TransactionId KnownAssignedXidsGetOldestXmin(void)
Definition: procarray.c:3893
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
Assert
#define Assert(condition)
Definition: c.h:732
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
NormalTransactionIdPrecedes
#define NormalTransactionIdPrecedes(id1, id2)
Definition: transam.h:62
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
TransactionIdIsNormal
#define TransactionIdIsNormal(xid)
Definition: transam.h:42
PGPROC
Definition: proc.h:95
VariableCacheData::latestCompletedXid
TransactionId latestCompletedXid
Definition: transam.h:135

◆ GetRunningTransactionData()

RunningTransactions GetRunningTransactionData ( void  )

Definition at line 1940 of file procarray.c.

References Assert, ereport, errcode(), errmsg(), ERROR, RunningTransactionsData::latestCompletedXid, VariableCacheData::latestCompletedXid, LW_SHARED, LWLockAcquire(), malloc, RunningTransactionsData::nextXid, VariableCacheData::nextXid, ProcArrayStruct::numProcs, PGXACT::nxids, RunningTransactionsData::oldestRunningXid, PGXACT::overflowed, ProcArrayStruct::pgprocnos, procArray, RecoveryInProgress(), ShmemVariableCache, RunningTransactionsData::subxcnt, RunningTransactionsData::subxid_overflow, PGPROC::subxids, TOTAL_MAX_CACHED_SUBXIDS, TransactionIdIsNormal, TransactionIdIsValid, TransactionIdPrecedes(), RunningTransactionsData::xcnt, PGXACT::xid, XidCache::xids, and RunningTransactionsData::xids.

Referenced by LogStandbySnapshot().

1941 {
1942  /* result workspace */
1943  static RunningTransactionsData CurrentRunningXactsData;
1944 
1945  ProcArrayStruct *arrayP = procArray;
1946  RunningTransactions CurrentRunningXacts = &CurrentRunningXactsData;
1947  TransactionId latestCompletedXid;
1948  TransactionId oldestRunningXid;
1949  TransactionId *xids;
1950  int index;
1951  int count;
1952  int subcount;
1953  bool suboverflowed;
1954 
1955  Assert(!RecoveryInProgress());
1956 
1957  /*
1958  * Allocating space for maxProcs xids is usually overkill; numProcs would
1959  * be sufficient. But it seems better to do the malloc while not holding
1960  * the lock, so we can't look at numProcs. Likewise, we allocate much
1961  * more subxip storage than is probably needed.
1962  *
1963  * Should only be allocated in bgwriter, since only ever executed during
1964  * checkpoints.
1965  */
1966  if (CurrentRunningXacts->xids == NULL)
1967  {
1968  /*
1969  * First call
1970  */
1971  CurrentRunningXacts->xids = (TransactionId *)
1972  malloc(TOTAL_MAX_CACHED_SUBXIDS * sizeof(TransactionId));
1973  if (CurrentRunningXacts->xids == NULL)
1974  ereport(ERROR,
1975  (errcode(ERRCODE_OUT_OF_MEMORY),
1976  errmsg("out of memory")));
1977  }
1978 
1979  xids = CurrentRunningXacts->xids;
1980 
1981  count = subcount = 0;
1982  suboverflowed = false;
1983 
1984  /*
1985  * Ensure that no xids enter or leave the procarray while we obtain
1986  * snapshot.
1987  */
1988  LWLockAcquire(ProcArrayLock, LW_SHARED);
1989  LWLockAcquire(XidGenLock, LW_SHARED);
1990 
1991  latestCompletedXid = ShmemVariableCache->latestCompletedXid;
1992 
1993  oldestRunningXid = ShmemVariableCache->nextXid;
1994 
1995  /*
1996  * Spin over procArray collecting all xids
1997  */
1998  for (index = 0; index < arrayP->numProcs; index++)
1999  {
2000  int pgprocno = arrayP->pgprocnos[index];
2001  volatile PGXACT *pgxact = &allPgXact[pgprocno];
2002  TransactionId xid;
2003 
2004  /* Fetch xid just once - see GetNewTransactionId */
2005  xid = pgxact->xid;
2006 
2007  /*
2008  * We don't need to store transactions that don't have a TransactionId
2009  * yet because they will not show as running on a standby server.
2010  */
2011  if (!TransactionIdIsValid(xid))
2012  continue;
2013 
2014  /*
2015  * Be careful not to exclude any xids before calculating the values of
2016  * oldestRunningXid and suboverflowed, since these are used to clean
2017  * up transaction information held on standbys.
2018  */
2019  if (TransactionIdPrecedes(xid, oldestRunningXid))
2020  oldestRunningXid = xid;
2021 
2022  if (pgxact->overflowed)
2023  suboverflowed = true;
2024 
2025  /*
2026  * If we wished to exclude xids this would be the right place for it.
2027  * Procs with the PROC_IN_VACUUM flag set don't usually assign xids,
2028  * but they do during truncation at the end when they get the lock and
2029  * truncate, so it is not much of a problem to include them if they
2030  * are seen and it is cleaner to include them.
2031  */
2032 
2033  xids[count++] = xid;
2034  }
2035 
2036  /*
2037  * Spin over procArray collecting all subxids, but only if there hasn't
2038  * been a suboverflow.
2039  */
2040  if (!suboverflowed)
2041  {
2042  for (index = 0; index < arrayP->numProcs; index++)
2043  {
2044  int pgprocno = arrayP->pgprocnos[index];
2045  volatile PGPROC *proc = &allProcs[pgprocno];
2046  volatile PGXACT *pgxact = &allPgXact[pgprocno];
2047  int nxids;
2048 
2049  /*
2050  * Save subtransaction XIDs. Other backends can't add or remove
2051  * entries while we're holding XidGenLock.
2052  */
2053  nxids = pgxact->nxids;
2054  if (nxids > 0)
2055  {
2056  memcpy(&xids[count], (void *) proc->subxids.xids,
2057  nxids * sizeof(TransactionId));
2058  count += nxids;
2059  subcount += nxids;
2060 
2061  /*
2062  * Top-level XID of a transaction is always less than any of
2063  * its subxids, so we don't need to check if any of the
2064  * subxids are smaller than oldestRunningXid
2065  */
2066  }
2067  }
2068  }
2069 
2070  /*
2071  * It's important *not* to include the limits set by slots here because
2072  * snapbuild.c uses oldestRunningXid to manage its xmin horizon. If those
2073  * were to be included here the initial value could never increase because
2074  * of a circular dependency where slots only increase their limits when
2075  * running xacts increases oldestRunningXid and running xacts only
2076  * increases if slots do.
2077  */
2078 
2079  CurrentRunningXacts->xcnt = count - subcount;
2080  CurrentRunningXacts->subxcnt = subcount;
2081  CurrentRunningXacts->subxid_overflow = suboverflowed;
2082  CurrentRunningXacts->nextXid = ShmemVariableCache->nextXid;
2083  CurrentRunningXacts->oldestRunningXid = oldestRunningXid;
2084  CurrentRunningXacts->latestCompletedXid = latestCompletedXid;
2085 
2086  Assert(TransactionIdIsValid(CurrentRunningXacts->nextXid));
2087  Assert(TransactionIdIsValid(CurrentRunningXacts->oldestRunningXid));
2088  Assert(TransactionIdIsNormal(CurrentRunningXacts->latestCompletedXid));
2089 
2090  /* We don't release the locks here, the caller is responsible for that */
2091 
2092  return CurrentRunningXacts;
2093 }
RunningTransactionsData::oldestRunningXid
TransactionId oldestRunningXid
Definition: standby.h:76
TransactionId
uint32 TransactionId
Definition: c.h:507
PGXACT
Definition: proc.h:222
PGXACT::xid
TransactionId xid
Definition: proc.h:224
errcode
int errcode(int sqlerrcode)
Definition: elog.c:572
RunningTransactionsData::xids
TransactionId * xids
Definition: standby.h:79
RecoveryInProgress
bool RecoveryInProgress(void)
Definition: xlog.c:8082
RunningTransactionsData::latestCompletedXid
TransactionId latestCompletedXid
Definition: standby.h:77
index
Definition: type.h:89
malloc
#define malloc(a)
Definition: header.h:50
ERROR
#define ERROR
Definition: elog.h:43
VariableCacheData::nextXid
TransactionId nextXid
Definition: transam.h:117
PGXACT::nxids
uint8 nxids
Definition: proc.h:238
ShmemVariableCache
VariableCache ShmemVariableCache
Definition: varsup.c:34
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
PGPROC::subxids
struct XidCache subxids
Definition: proc.h:162
ereport
#define ereport(elevel, rest)
Definition: elog.h:141
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
PGXACT::overflowed
bool overflowed
Definition: proc.h:234
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
XidCache::xids
TransactionId xids[PGPROC_MAX_CACHED_SUBXIDS]
Definition: proc.h:40
TOTAL_MAX_CACHED_SUBXIDS
#define TOTAL_MAX_CACHED_SUBXIDS
Assert
#define Assert(condition)
Definition: c.h:732
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
RunningTransactionsData::nextXid
TransactionId nextXid
Definition: standby.h:75
errmsg
int errmsg(const char *fmt,...)
Definition: elog.c:786
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
TransactionIdIsNormal
#define TransactionIdIsNormal(xid)
Definition: transam.h:42
PGPROC
Definition: proc.h:95
VariableCacheData::latestCompletedXid
TransactionId latestCompletedXid
Definition: transam.h:135

◆ GetSnapshotData()

Snapshot GetSnapshotData ( Snapshot  snapshot)

Definition at line 1511 of file procarray.c.

References SnapshotData::active_count, Assert, SnapshotData::copied, SnapshotData::curcid, ereport, errcode(), errmsg(), ERROR, FirstNormalTransactionId, GetCurrentCommandId(), GetMaxSnapshotSubxidCount(), GetMaxSnapshotXidCount(), GetSnapshotCurrentTimestamp(), GetXLogInsertRecPtr(), InvalidTransactionId, InvalidXLogRecPtr, KnownAssignedXidsGetAndSetXmin(), ProcArrayStruct::lastOverflowedXid, VariableCacheData::latestCompletedXid, SnapshotData::lsn, LW_SHARED, LWLockAcquire(), LWLockRelease(), MaintainOldSnapshotTimeMapping(), malloc, MyPgXact, NormalTransactionIdPrecedes, ProcArrayStruct::numProcs, PGXACT::nxids, old_snapshot_threshold, PGXACT::overflowed, ProcArrayStruct::pgprocnos, PROC_IN_LOGICAL_DECODING, PROC_IN_VACUUM, procArray, RecentGlobalDataXmin, RecentGlobalXmin, RecentXmin, RecoveryInProgress(), SnapshotData::regd_count, ProcArrayStruct::replication_slot_catalog_xmin, ProcArrayStruct::replication_slot_xmin, ShmemVariableCache, SnapshotData::suboverflowed, SnapshotData::subxcnt, PGPROC::subxids, SnapshotData::subxip, SnapshotData::takenDuringRecovery, TransactionIdAdvance, TransactionIdIsNormal, TransactionIdIsValid, TransactionIdPrecedes(), TransactionIdPrecedesOrEquals(), TransactionXmin, vacuum_defer_cleanup_age, PGXACT::vacuumFlags, SnapshotData::whenTaken, SnapshotData::xcnt, PGXACT::xid, XidCache::xids, SnapshotData::xip, SnapshotData::xmax, SnapshotData::xmin, and PGXACT::xmin.

Referenced by GetLatestSnapshot(), GetNonHistoricCatalogSnapshot(), GetSerializableTransactionSnapshotInt(), GetTransactionSnapshot(), and SetTransactionSnapshot().

1512 {
1513  ProcArrayStruct *arrayP = procArray;
1514  TransactionId xmin;
1515  TransactionId xmax;
1516  TransactionId globalxmin;
1517  int index;
1518  int count = 0;
1519  int subcount = 0;
1520  bool suboverflowed = false;
1521  volatile TransactionId replication_slot_xmin = InvalidTransactionId;
1522  volatile TransactionId replication_slot_catalog_xmin = InvalidTransactionId;
1523 
1524  Assert(snapshot != NULL);
1525 
1526  /*
1527  * Allocating space for maxProcs xids is usually overkill; numProcs would
1528  * be sufficient. But it seems better to do the malloc while not holding
1529  * the lock, so we can't look at numProcs. Likewise, we allocate much
1530  * more subxip storage than is probably needed.
1531  *
1532  * This does open a possibility for avoiding repeated malloc/free: since
1533  * maxProcs does not change at runtime, we can simply reuse the previous
1534  * xip arrays if any. (This relies on the fact that all callers pass
1535  * static SnapshotData structs.)
1536  */
1537  if (snapshot->xip == NULL)
1538  {
1539  /*
1540  * First call for this snapshot. Snapshot is same size whether or not
1541  * we are in recovery, see later comments.
1542  */
1543  snapshot->xip = (TransactionId *)
1544  malloc(GetMaxSnapshotXidCount() * sizeof(TransactionId));
1545  if (snapshot->xip == NULL)
1546  ereport(ERROR,
1547  (errcode(ERRCODE_OUT_OF_MEMORY),
1548  errmsg("out of memory")));
1549  Assert(snapshot->subxip == NULL);
1550  snapshot->subxip = (TransactionId *)
1551  malloc(GetMaxSnapshotSubxidCount() * sizeof(TransactionId));
1552  if (snapshot->subxip == NULL)
1553  ereport(ERROR,
1554  (errcode(ERRCODE_OUT_OF_MEMORY),
1555  errmsg("out of memory")));
1556  }
1557 
1558  /*
1559  * It is sufficient to get shared lock on ProcArrayLock, even if we are
1560  * going to set MyPgXact->xmin.
1561  */
1562  LWLockAcquire(ProcArrayLock, LW_SHARED);
1563 
1564  /* xmax is always latestCompletedXid + 1 */
1565  xmax = ShmemVariableCache->latestCompletedXid;
1566  Assert(TransactionIdIsNormal(xmax));
1567  TransactionIdAdvance(xmax);
1568 
1569  /* initialize xmin calculation with xmax */
1570  globalxmin = xmin = xmax;
1571 
1572  snapshot->takenDuringRecovery = RecoveryInProgress();
1573 
1574  if (!snapshot->takenDuringRecovery)
1575  {
1576  int *pgprocnos = arrayP->pgprocnos;
1577  int numProcs;
1578 
1579  /*
1580  * Spin over procArray checking xid, xmin, and subxids. The goal is
1581  * to gather all active xids, find the lowest xmin, and try to record
1582  * subxids.
1583  */
1584  numProcs = arrayP->numProcs;
1585  for (index = 0; index < numProcs; index++)
1586  {
1587  int pgprocno = pgprocnos[index];
1588  volatile PGXACT *pgxact = &allPgXact[pgprocno];
1589  TransactionId xid;
1590 
1591  /*
1592  * Backend is doing logical decoding which manages xmin
1593  * separately, check below.
1594  */
1595  if (pgxact->vacuumFlags & PROC_IN_LOGICAL_DECODING)
1596  continue;
1597 
1598  /* Ignore procs running LAZY VACUUM */
1599  if (pgxact->vacuumFlags & PROC_IN_VACUUM)
1600  continue;
1601 
1602  /* Update globalxmin to be the smallest valid xmin */
1603  xid = pgxact->xmin; /* fetch just once */
1604  if (TransactionIdIsNormal(xid) &&
1605  NormalTransactionIdPrecedes(xid, globalxmin))
1606  globalxmin = xid;
1607 
1608  /* Fetch xid just once - see GetNewTransactionId */
1609  xid = pgxact->xid;
1610 
1611  /*
1612  * If the transaction has no XID assigned, we can skip it; it
1613  * won't have sub-XIDs either. If the XID is >= xmax, we can also
1614  * skip it; such transactions will be treated as running anyway
1615  * (and any sub-XIDs will also be >= xmax).
1616  */
1617  if (!TransactionIdIsNormal(xid)
1618  || !NormalTransactionIdPrecedes(xid, xmax))
1619  continue;
1620 
1621  /*
1622  * We don't include our own XIDs (if any) in the snapshot, but we
1623  * must include them in xmin.
1624  */
1625  if (NormalTransactionIdPrecedes(xid, xmin))
1626  xmin = xid;
1627  if (pgxact == MyPgXact)
1628  continue;
1629 
1630  /* Add XID to snapshot. */
1631  snapshot->xip[count++] = xid;
1632 
1633  /*
1634  * Save subtransaction XIDs if possible (if we've already
1635  * overflowed, there's no point). Note that the subxact XIDs must
1636  * be later than their parent, so no need to check them against
1637  * xmin. We could filter against xmax, but it seems better not to
1638  * do that much work while holding the ProcArrayLock.
1639  *
1640  * The other backend can add more subxids concurrently, but cannot
1641  * remove any. Hence it's important to fetch nxids just once.
1642  * Should be safe to use memcpy, though. (We needn't worry about
1643  * missing any xids added concurrently, because they must postdate
1644  * xmax.)
1645  *
1646  * Again, our own XIDs are not included in the snapshot.
1647  */
1648  if (!suboverflowed)
1649  {
1650  if (pgxact->overflowed)
1651  suboverflowed = true;
1652  else
1653  {
1654  int nxids = pgxact->nxids;
1655 
1656  if (nxids > 0)
1657  {
1658  volatile PGPROC *proc = &allProcs[pgprocno];
1659 
1660  memcpy(snapshot->subxip + subcount,
1661  (void *) proc->subxids.xids,
1662  nxids * sizeof(TransactionId));
1663  subcount += nxids;
1664  }
1665  }
1666  }
1667  }
1668  }
1669  else
1670  {
1671  /*
1672  * We're in hot standby, so get XIDs from KnownAssignedXids.
1673  *
1674  * We store all xids directly into subxip[]. Here's why:
1675  *
1676  * In recovery we don't know which xids are top-level and which are
1677  * subxacts, a design choice that greatly simplifies xid processing.
1678  *
1679  * It seems like we would want to try to put xids into xip[] only, but
1680  * that is fairly small. We would either need to make that bigger or
1681  * to increase the rate at which we WAL-log xid assignment; neither is
1682  * an appealing choice.
1683  *
1684  * We could try to store xids into xip[] first and then into subxip[]
1685  * if there are too many xids. That only works if the snapshot doesn't
1686  * overflow because we do not search subxip[] in that case. A simpler
1687  * way is to just store all xids in the subxact array because this is
1688  * by far the bigger array. We just leave the xip array empty.
1689  *
1690  * Either way we need to change the way XidInMVCCSnapshot() works
1691  * depending upon when the snapshot was taken, or change normal
1692  * snapshot processing so it matches.
1693  *
1694  * Note: It is possible for recovery to end before we finish taking
1695  * the snapshot, and for newly assigned transaction ids to be added to
1696  * the ProcArray. xmax cannot change while we hold ProcArrayLock, so
1697  * those newly added transaction ids would be filtered away, so we
1698  * need not be concerned about them.
1699  */
1700  subcount = KnownAssignedXidsGetAndSetXmin(snapshot->subxip, &xmin,
1701  xmax);
1702 
1703  if (TransactionIdPrecedesOrEquals(xmin, procArray->lastOverflowedXid))
1704  suboverflowed = true;
1705  }
1706 
1707 
1708  /* fetch into volatile var while ProcArrayLock is held */
1709  replication_slot_xmin = procArray->replication_slot_xmin;
1710  replication_slot_catalog_xmin = procArray->replication_slot_catalog_xmin;
1711 
1712  if (!TransactionIdIsValid(MyPgXact->xmin))
1713  MyPgXact->xmin = TransactionXmin = xmin;
1714 
1715  LWLockRelease(ProcArrayLock);
1716 
1717  /*
1718  * Update globalxmin to include actual process xids. This is a slightly
1719  * different way of computing it than GetOldestXmin uses, but should give
1720  * the same result.
1721  */
1722  if (TransactionIdPrecedes(xmin, globalxmin))
1723  globalxmin = xmin;
1724 
1725  /* Update global variables too */
1726  RecentGlobalXmin = globalxmin - vacuum_defer_cleanup_age;
1727  if (!TransactionIdIsNormal(RecentGlobalXmin))
1728  RecentGlobalXmin = FirstNormalTransactionId;
1729 
1730  /* Check whether there's a replication slot requiring an older xmin. */
1731  if (TransactionIdIsValid(replication_slot_xmin) &&
1732  NormalTransactionIdPrecedes(replication_slot_xmin, RecentGlobalXmin))
1733  RecentGlobalXmin = replication_slot_xmin;
1734 
1735  /* Non-catalog tables can be vacuumed if older than this xid */
1736  RecentGlobalDataXmin = RecentGlobalXmin;
1737 
1738  /*
1739  * Check whether there's a replication slot requiring an older catalog
1740  * xmin.
1741  */
1742  if (TransactionIdIsNormal(replication_slot_catalog_xmin) &&
1743  NormalTransactionIdPrecedes(replication_slot_catalog_xmin, RecentGlobalXmin))
1744  RecentGlobalXmin = replication_slot_catalog_xmin;
1745 
1746  RecentXmin = xmin;
1747 
1748  snapshot->xmin = xmin;
1749  snapshot->xmax = xmax;
1750  snapshot->xcnt = count;
1751  snapshot->subxcnt = subcount;
1752  snapshot->suboverflowed = suboverflowed;
1753 
1754  snapshot->curcid = GetCurrentCommandId(false);
1755 
1756  /*
1757  * This is a new snapshot, so set both refcounts are zero, and mark it as
1758  * not copied in persistent memory.
1759  */
1760  snapshot->active_count = 0;
1761  snapshot->regd_count = 0;
1762  snapshot->copied = false;
1763 
1764  if (old_snapshot_threshold < 0)
1765  {
1766  /*
1767  * If not using "snapshot too old" feature, fill related fields with
1768  * dummy values that don't require any locking.
1769  */
1770  snapshot->lsn = InvalidXLogRecPtr;
1771  snapshot->whenTaken = 0;
1772  }
1773  else
1774  {
1775  /*
1776  * Capture the current time and WAL stream location in case this
1777  * snapshot becomes old enough to need to fall back on the special
1778  * "old snapshot" logic.
1779  */
1780  snapshot->lsn = GetXLogInsertRecPtr();
1781  snapshot->whenTaken = GetSnapshotCurrentTimestamp();
1782  MaintainOldSnapshotTimeMapping(snapshot->whenTaken, xmin);
1783  }
1784 
1785  return snapshot;
1786 }
TransactionIdAdvance
#define TransactionIdAdvance(dest)
Definition: transam.h:48
InvalidXLogRecPtr
#define InvalidXLogRecPtr
Definition: xlogdefs.h:28
PROC_IN_LOGICAL_DECODING
#define PROC_IN_LOGICAL_DECODING
Definition: proc.h:57
TransactionId
uint32 TransactionId
Definition: c.h:507
SnapshotData::copied
bool copied
Definition: snapshot.h:96
PGXACT
Definition: proc.h:222
PGXACT::xmin
TransactionId xmin
Definition: proc.h:228
PGXACT::xid
TransactionId xid
Definition: proc.h:224
vacuum_defer_cleanup_age
int vacuum_defer_cleanup_age
Definition: standby.c:39
ProcArrayStruct::replication_slot_catalog_xmin
TransactionId replication_slot_catalog_xmin
Definition: procarray.c:92
SnapshotData::lsn
XLogRecPtr lsn
Definition: snapshot.h:114
errcode
int errcode(int sqlerrcode)
Definition: elog.c:572
RecentXmin
TransactionId RecentXmin
Definition: snapmgr.c:165
SnapshotData::suboverflowed
bool suboverflowed
Definition: snapshot.h:93
RecoveryInProgress
bool RecoveryInProgress(void)
Definition: xlog.c:8082
SnapshotData::regd_count
uint32 regd_count
Definition: snapshot.h:110
MyPgXact
PGXACT * MyPgXact
Definition: proc.c:68
PGXACT::vacuumFlags
uint8 vacuumFlags
Definition: proc.h:233
TransactionXmin
TransactionId TransactionXmin
Definition: snapmgr.c:164
index
Definition: type.h:89
malloc
#define malloc(a)
Definition: header.h:50
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
PROC_IN_VACUUM
#define PROC_IN_VACUUM
Definition: proc.h:54
TransactionIdPrecedesOrEquals
bool TransactionIdPrecedesOrEquals(TransactionId id1, TransactionId id2)
Definition: transam.c:319
FirstNormalTransactionId
#define FirstNormalTransactionId
Definition: transam.h:34
ERROR
#define ERROR
Definition: elog.h:43
GetSnapshotCurrentTimestamp
TimestampTz GetSnapshotCurrentTimestamp(void)
Definition: snapmgr.c:1686
GetXLogInsertRecPtr
XLogRecPtr GetXLogInsertRecPtr(void)
Definition: xlog.c:11367
RecentGlobalXmin
TransactionId RecentGlobalXmin
Definition: snapmgr.c:166
PGXACT::nxids
uint8 nxids
Definition: proc.h:238
ShmemVariableCache
VariableCache ShmemVariableCache
Definition: varsup.c:34
InvalidTransactionId
#define InvalidTransactionId
Definition: transam.h:31
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
SnapshotData::xmax
TransactionId xmax
Definition: snapshot.h:69
SnapshotData::xmin
TransactionId xmin
Definition: snapshot.h:68
RecentGlobalDataXmin
TransactionId RecentGlobalDataXmin
Definition: snapmgr.c:167
PGPROC::subxids
struct XidCache subxids
Definition: proc.h:162
ProcArrayStruct::lastOverflowedXid
TransactionId lastOverflowedXid
Definition: procarray.c:87
ereport
#define ereport(elevel, rest)
Definition: elog.h:141
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
SnapshotData::xip
TransactionId * xip
Definition: snapshot.h:79
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
ProcArrayStruct::replication_slot_xmin
TransactionId replication_slot_xmin
Definition: procarray.c:90
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
PGXACT::overflowed
bool overflowed
Definition: proc.h:234
SnapshotData::curcid
CommandId curcid
Definition: snapshot.h:98
GetMaxSnapshotXidCount
int GetMaxSnapshotXidCount(void)
Definition: procarray.c:1458
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
XidCache::xids
TransactionId xids[PGPROC_MAX_CACHED_SUBXIDS]
Definition: proc.h:40
Assert
#define Assert(condition)
Definition: c.h:732
SnapshotData::takenDuringRecovery
bool takenDuringRecovery
Definition: snapshot.h:95
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
KnownAssignedXidsGetAndSetXmin
static int KnownAssignedXidsGetAndSetXmin(TransactionId *xarray, TransactionId *xmin, TransactionId xmax)
Definition: procarray.c:3835
NormalTransactionIdPrecedes
#define NormalTransactionIdPrecedes(id1, id2)
Definition: transam.h:62
SnapshotData::xcnt
uint32 xcnt
Definition: snapshot.h:80
errmsg
int errmsg(const char *fmt,...)
Definition: elog.c:786
old_snapshot_threshold
int old_snapshot_threshold
Definition: snapmgr.c:75
GetMaxSnapshotSubxidCount
int GetMaxSnapshotSubxidCount(void)
Definition: procarray.c:1469
SnapshotData::whenTaken
TimestampTz whenTaken
Definition: snapshot.h:113
GetCurrentCommandId
CommandId GetCurrentCommandId(bool used)
Definition: xact.c:661
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
MaintainOldSnapshotTimeMapping
void MaintainOldSnapshotTimeMapping(TimestampTz whenTaken, TransactionId xmin)
Definition: snapmgr.c:1848
TransactionIdIsNormal
#define TransactionIdIsNormal(xid)
Definition: transam.h:42
PGPROC
Definition: proc.h:95
SnapshotData::subxip
TransactionId * subxip
Definition: snapshot.h:91
SnapshotData::active_count
uint32 active_count
Definition: snapshot.h:109
SnapshotData::subxcnt
int32 subxcnt
Definition: snapshot.h:92
VariableCacheData::latestCompletedXid
TransactionId latestCompletedXid
Definition: transam.h:135

◆ GetVirtualXIDsDelayingChkpt()

VirtualTransactionId* GetVirtualXIDsDelayingChkpt ( int *  nvxids)

Definition at line 2273 of file procarray.c.

References PGXACT::delayChkpt, GET_VXID_FROM_PGPROC, LW_SHARED, LWLockAcquire(), LWLockRelease(), ProcArrayStruct::maxProcs, ProcArrayStruct::numProcs, palloc(), ProcArrayStruct::pgprocnos, procArray, and VirtualTransactionIdIsValid.

Referenced by CreateCheckPoint().

2274 {
2275  VirtualTransactionId *vxids;
2276  ProcArrayStruct *arrayP = procArray;
2277  int count = 0;
2278  int index;
2279 
2280  /* allocate what's certainly enough result space */
2281  vxids = (VirtualTransactionId *)
2282  palloc(sizeof(VirtualTransactionId) * arrayP->maxProcs);
2283 
2284  LWLockAcquire(ProcArrayLock, LW_SHARED);
2285 
2286  for (index = 0; index < arrayP->numProcs; index++)
2287  {
2288  int pgprocno = arrayP->pgprocnos[index];
2289  volatile PGPROC *proc = &allProcs[pgprocno];
2290  volatile PGXACT *pgxact = &allPgXact[pgprocno];
2291 
2292  if (pgxact->delayChkpt)
2293  {
2294  VirtualTransactionId vxid;
2295 
2296  GET_VXID_FROM_PGPROC(vxid, *proc);
2297  if (VirtualTransactionIdIsValid(vxid))
2298  vxids[count++] = vxid;
2299  }
2300  }
2301 
2302  LWLockRelease(ProcArrayLock);
2303 
2304  *nvxids = count;
2305  return vxids;
2306 }
GET_VXID_FROM_PGPROC
#define GET_VXID_FROM_PGPROC(vxid, proc)
Definition: lock.h:80
PGXACT
Definition: proc.h:222
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
PGXACT::delayChkpt
bool delayChkpt
Definition: proc.h:235
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
VirtualTransactionIdIsValid
#define VirtualTransactionIdIsValid(vxid)
Definition: lock.h:71
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
palloc
void * palloc(Size size)
Definition: mcxt.c:924
PGPROC
Definition: proc.h:95

◆ HaveVirtualXIDsDelayingChkpt()

bool HaveVirtualXIDsDelayingChkpt ( VirtualTransactionId vxids,
int  nvxids 
)

Definition at line 2318 of file procarray.c.

References PGXACT::delayChkpt, GET_VXID_FROM_PGPROC, i, LW_SHARED, LWLockAcquire(), LWLockRelease(), ProcArrayStruct::numProcs, ProcArrayStruct::pgprocnos, procArray, VirtualTransactionIdEquals, and VirtualTransactionIdIsValid.

Referenced by CreateCheckPoint().

2319 {
2320  bool result = false;
2321  ProcArrayStruct *arrayP = procArray;
2322  int index;
2323 
2324  LWLockAcquire(ProcArrayLock, LW_SHARED);
2325 
2326  for (index = 0; index < arrayP->numProcs; index++)
2327  {
2328  int pgprocno = arrayP->pgprocnos[index];
2329  volatile PGPROC *proc = &allProcs[pgprocno];
2330  volatile PGXACT *pgxact = &allPgXact[pgprocno];
2331  VirtualTransactionId vxid;
2332 
2333  GET_VXID_FROM_PGPROC(vxid, *proc);
2334 
2335  if (pgxact->delayChkpt && VirtualTransactionIdIsValid(vxid))
2336  {
2337  int i;
2338 
2339  for (i = 0; i < nvxids; i++)
2340  {
2341  if (VirtualTransactionIdEquals(vxid, vxids[i]))
2342  {
2343  result = true;
2344  break;
2345  }
2346  }
2347  if (result)
2348  break;
2349  }
2350  }
2351 
2352  LWLockRelease(ProcArrayLock);
2353 
2354  return result;
2355 }
GET_VXID_FROM_PGPROC
#define GET_VXID_FROM_PGPROC(vxid, proc)
Definition: lock.h:80
PGXACT
Definition: proc.h:222
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
VirtualTransactionIdEquals
#define VirtualTransactionIdEquals(vxid1, vxid2)
Definition: lock.h:74
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
PGXACT::delayChkpt
bool delayChkpt
Definition: proc.h:235
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
VirtualTransactionIdIsValid
#define VirtualTransactionIdIsValid(vxid)
Definition: lock.h:71
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
i
int i
Definition: preproc-comment.c:23
PGPROC
Definition: proc.h:95

◆ IsBackendPid()

bool IsBackendPid ( int  pid)

Definition at line 2460 of file procarray.c.

References BackendPidGetProc().

Referenced by pg_stat_get_subscription().

2461 {
2462  return (BackendPidGetProc(pid) != NULL);
2463 }
BackendPidGetProc
PGPROC * BackendPidGetProc(int pid)
Definition: procarray.c:2365

◆ KnownAssignedXidExists()

static bool KnownAssignedXidExists ( TransactionId  xid)
static

Definition at line 3681 of file procarray.c.

References Assert, KnownAssignedXidsSearch(), and TransactionIdIsValid.

Referenced by TransactionIdIsInProgress().

3682 {
3683  Assert(TransactionIdIsValid(xid));
3684 
3685  return KnownAssignedXidsSearch(xid, false);
3686 }
Assert
#define Assert(condition)
Definition: c.h:732
KnownAssignedXidsSearch
static bool KnownAssignedXidsSearch(TransactionId xid, bool remove)
Definition: procarray.c:3587
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41

◆ KnownAssignedXidsAdd()

static void KnownAssignedXidsAdd ( TransactionId  from_xid,
TransactionId  to_xid,
bool  exclusive_lock 
)
static

Definition at line 3468 of file procarray.c.

References Assert, elog, ERROR, ProcArrayStruct::headKnownAssignedXids, i, ProcArrayStruct::known_assigned_xids_lck, KnownAssignedXids, KnownAssignedXidsCompress(), KnownAssignedXidsDisplay(), KnownAssignedXidsValid, LOG, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), ProcArrayStruct::maxKnownAssignedXids, ProcArrayStruct::numKnownAssignedXids, procArray, SpinLockAcquire, SpinLockRelease, ProcArrayStruct::tailKnownAssignedXids, TransactionIdAdvance, TransactionIdFollowsOrEquals(), TransactionIdPrecedes(), and TransactionIdPrecedesOrEquals().

Referenced by ProcArrayApplyRecoveryInfo(), and RecordKnownAssignedTransactionIds().

3470 {
3471  /* use volatile pointer to prevent code rearrangement */
3472  volatile ProcArrayStruct *pArray = procArray;
3473  TransactionId next_xid;
3474  int head,
3475  tail;
3476  int nxids;
3477  int i;
3478 
3479  Assert(TransactionIdPrecedesOrEquals(from_xid, to_xid));
3480 
3481  /*
3482  * Calculate how many array slots we'll need. Normally this is cheap; in
3483  * the unusual case where the XIDs cross the wrap point, we do it the hard
3484  * way.
3485  */
3486  if (to_xid >= from_xid)
3487  nxids = to_xid - from_xid + 1;
3488  else
3489  {
3490  nxids = 1;
3491  next_xid = from_xid;
3492  while (TransactionIdPrecedes(next_xid, to_xid))
3493  {
3494  nxids++;
3495  TransactionIdAdvance(next_xid);
3496  }
3497  }
3498 
3499  /*
3500  * Since only the startup process modifies the head/tail pointers, we
3501  * don't need a lock to read them here.
3502  */
3503  head = pArray->headKnownAssignedXids;
3504  tail = pArray->tailKnownAssignedXids;
3505 
3506  Assert(head >= 0 && head <= pArray->maxKnownAssignedXids);
3507  Assert(tail >= 0 && tail < pArray->maxKnownAssignedXids);
3508 
3509  /*
3510  * Verify that insertions occur in TransactionId sequence. Note that even
3511  * if the last existing element is marked invalid, it must still have a
3512  * correctly sequenced XID value.
3513  */
3514  if (head > tail &&
3515  TransactionIdFollowsOrEquals(KnownAssignedXids[head - 1], from_xid))
3516  {
3517  KnownAssignedXidsDisplay(LOG);
3518  elog(ERROR, "out-of-order XID insertion in KnownAssignedXids");
3519  }
3520 
3521  /*
3522  * If our xids won't fit in the remaining space, compress out free space
3523  */
3524  if (head + nxids > pArray->maxKnownAssignedXids)
3525  {
3526  /* must hold lock to compress */
3527  if (!exclusive_lock)
3528  LWLockAcquire(ProcArrayLock, LW_EXCLUSIVE);
3529 
3530  KnownAssignedXidsCompress(true);
3531 
3532  head = pArray->headKnownAssignedXids;
3533  /* note: we no longer care about the tail pointer */
3534 
3535  if (!exclusive_lock)
3536  LWLockRelease(ProcArrayLock);
3537 
3538  /*
3539  * If it still won't fit then we're out of memory
3540  */
3541  if (head + nxids > pArray->maxKnownAssignedXids)
3542  elog(ERROR, "too many KnownAssignedXids");
3543  }
3544 
3545  /* Now we can insert the xids into the space starting at head */
3546  next_xid = from_xid;
3547  for (i = 0; i < nxids; i++)
3548  {
3549  KnownAssignedXids[head] = next_xid;
3550  KnownAssignedXidsValid[head] = true;
3551  TransactionIdAdvance(next_xid);
3552  head++;
3553  }
3554 
3555  /* Adjust count of number of valid entries */
3556  pArray->numKnownAssignedXids += nxids;
3557 
3558  /*
3559  * Now update the head pointer. We use a spinlock to protect this
3560  * pointer, not because the update is likely to be non-atomic, but to
3561  * ensure that other processors see the above array updates before they
3562  * see the head pointer change.
3563  *
3564  * If we're holding ProcArrayLock exclusively, there's no need to take the
3565  * spinlock.
3566  */
3567  if (exclusive_lock)
3568  pArray->headKnownAssignedXids = head;
3569  else
3570  {
3571  SpinLockAcquire(&pArray->known_assigned_xids_lck);
3572  pArray->headKnownAssignedXids = head;
3573  SpinLockRelease(&pArray->known_assigned_xids_lck);
3574  }
3575 }
TransactionIdAdvance
#define TransactionIdAdvance(dest)
Definition: transam.h:48
KnownAssignedXidsDisplay
static void KnownAssignedXidsDisplay(int trace_level)
Definition: procarray.c:3928
TransactionId
uint32 TransactionId
Definition: c.h:507
TransactionIdFollowsOrEquals
bool TransactionIdFollowsOrEquals(TransactionId id1, TransactionId id2)
Definition: transam.c:349
ProcArrayStruct::known_assigned_xids_lck
slock_t known_assigned_xids_lck
Definition: procarray.c:78
LOG
#define LOG
Definition: elog.h:26
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
SpinLockAcquire
#define SpinLockAcquire(lock)
Definition: spin.h:62
TransactionIdPrecedesOrEquals
bool TransactionIdPrecedesOrEquals(TransactionId id1, TransactionId id2)
Definition: transam.c:319
ERROR
#define ERROR
Definition: elog.h:43
ProcArrayStruct::maxKnownAssignedXids
int maxKnownAssignedXids
Definition: procarray.c:74
ProcArrayStruct::numKnownAssignedXids
int numKnownAssignedXids
Definition: procarray.c:75
KnownAssignedXidsValid
static bool * KnownAssignedXidsValid
Definition: procarray.c:107
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
SpinLockRelease
#define SpinLockRelease(lock)
Definition: spin.h:64
Assert
#define Assert(condition)
Definition: c.h:732
KnownAssignedXids
static TransactionId * KnownAssignedXids
Definition: procarray.c:106
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
KnownAssignedXidsCompress
static void KnownAssignedXidsCompress(bool force)
Definition: procarray.c:3405
elog
#define elog(elevel,...)
Definition: elog.h:226
i
int i
Definition: preproc-comment.c:23
ProcArrayStruct::tailKnownAssignedXids
int tailKnownAssignedXids
Definition: procarray.c:76
ProcArrayStruct::headKnownAssignedXids
int headKnownAssignedXids
Definition: procarray.c:77

◆ KnownAssignedXidsCompress()

static void KnownAssignedXidsCompress ( bool  force)
static

Definition at line 3405 of file procarray.c.

References ProcArrayStruct::headKnownAssignedXids, i, KnownAssignedXids, KnownAssignedXidsValid, ProcArrayStruct::numKnownAssignedXids, procArray, PROCARRAY_MAXPROCS, and ProcArrayStruct::tailKnownAssignedXids.

Referenced by KnownAssignedXidsAdd(), KnownAssignedXidsRemovePreceding(), and KnownAssignedXidsRemoveTree().

3406 {
3407  /* use volatile pointer to prevent code rearrangement */
3408  volatile ProcArrayStruct *pArray = procArray;
3409  int head,
3410  tail;
3411  int compress_index;
3412  int i;
3413 
3414  /* no spinlock required since we hold ProcArrayLock exclusively */
3415  head = pArray->headKnownAssignedXids;
3416  tail = pArray->tailKnownAssignedXids;
3417 
3418  if (!force)
3419  {
3420  /*
3421  * If we can choose how much to compress, use a heuristic to avoid
3422  * compressing too often or not often enough.
3423  *
3424  * Heuristic is if we have a large enough current spread and less than
3425  * 50% of the elements are currently in use, then compress. This
3426  * should ensure we compress fairly infrequently. We could compress
3427  * less often though the virtual array would spread out more and
3428  * snapshots would become more expensive.
3429  */
3430  int nelements = head - tail;
3431 
3432  if (nelements < 4 * PROCARRAY_MAXPROCS ||
3433  nelements < 2 * pArray->numKnownAssignedXids)
3434  return;
3435  }
3436 
3437  /*
3438  * We compress the array by reading the valid values from tail to head,
3439  * re-aligning data to 0th element.
3440  */
3441  compress_index = 0;
3442  for (i = tail; i < head; i++)
3443  {
3444  if (KnownAssignedXidsValid[i])
3445  {
3446  KnownAssignedXids[compress_index] = KnownAssignedXids[i];
3447  KnownAssignedXidsValid[compress_index] = true;
3448  compress_index++;
3449  }
3450  }
3451 
3452  pArray->tailKnownAssignedXids = 0;
3453  pArray->headKnownAssignedXids = compress_index;
3454 }
PROCARRAY_MAXPROCS
#define PROCARRAY_MAXPROCS
KnownAssignedXidsValid
static bool * KnownAssignedXidsValid
Definition: procarray.c:107
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
KnownAssignedXids
static TransactionId * KnownAssignedXids
Definition: procarray.c:106
i
int i
Definition: preproc-comment.c:23
ProcArrayStruct::tailKnownAssignedXids
int tailKnownAssignedXids
Definition: procarray.c:76
ProcArrayStruct::headKnownAssignedXids
int headKnownAssignedXids
Definition: procarray.c:77

◆ KnownAssignedXidsDisplay()

static void KnownAssignedXidsDisplay ( int  trace_level)
static

Definition at line 3928 of file procarray.c.

References appendStringInfo(), buf, StringInfoData::data, elog, ProcArrayStruct::headKnownAssignedXids, i, initStringInfo(), KnownAssignedXids, KnownAssignedXidsValid, ProcArrayStruct::numKnownAssignedXids, pfree(), procArray, and ProcArrayStruct::tailKnownAssignedXids.

Referenced by KnownAssignedXidsAdd(), and ProcArrayApplyRecoveryInfo().

3929 {
3930  /* use volatile pointer to prevent code rearrangement */
3931  volatile ProcArrayStruct *pArray = procArray;
3932  StringInfoData buf;
3933  int head,
3934  tail,
3935  i;
3936  int nxids = 0;
3937 
3938  tail = pArray->tailKnownAssignedXids;
3939  head = pArray->headKnownAssignedXids;
3940 
3941  initStringInfo(&buf);
3942 
3943  for (i = tail; i < head; i++)
3944  {
3945  if (KnownAssignedXidsValid[i])
3946  {
3947  nxids++;
3948  appendStringInfo(&buf, "[%d]=%u ", i, KnownAssignedXids[i]);
3949  }
3950  }
3951 
3952  elog(trace_level, "%d KnownAssignedXids (num=%d tail=%d head=%d) %s",
3953  nxids,
3954  pArray->numKnownAssignedXids,
3955  pArray->tailKnownAssignedXids,
3956  pArray->headKnownAssignedXids,
3957  buf.data);
3958 
3959  pfree(buf.data);
3960 }
pfree
void pfree(void *pointer)
Definition: mcxt.c:1031
appendStringInfo
void appendStringInfo(StringInfo str, const char *fmt,...)
Definition: stringinfo.c:78
buf
static char * buf
Definition: pg_test_fsync.c:67
ProcArrayStruct::numKnownAssignedXids
int numKnownAssignedXids
Definition: procarray.c:75
KnownAssignedXidsValid
static bool * KnownAssignedXidsValid
Definition: procarray.c:107
initStringInfo
void initStringInfo(StringInfo str)
Definition: stringinfo.c:46
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
KnownAssignedXids
static TransactionId * KnownAssignedXids
Definition: procarray.c:106
elog
#define elog(elevel,...)
Definition: elog.h:226
i
int i
Definition: preproc-comment.c:23
ProcArrayStruct::tailKnownAssignedXids
int tailKnownAssignedXids
Definition: procarray.c:76
ProcArrayStruct::headKnownAssignedXids
int headKnownAssignedXids
Definition: procarray.c:77

◆ KnownAssignedXidsGet()

static int KnownAssignedXidsGet ( TransactionId xarray,
TransactionId  xmax 
)
static

Definition at line 3821 of file procarray.c.

References InvalidTransactionId, and KnownAssignedXidsGetAndSetXmin().

Referenced by TransactionIdIsInProgress().

3822 {
3823  TransactionId xtmp = InvalidTransactionId;
3824 
3825  return KnownAssignedXidsGetAndSetXmin(xarray, &xtmp, xmax);
3826 }
TransactionId
uint32 TransactionId
Definition: c.h:507
InvalidTransactionId
#define InvalidTransactionId
Definition: transam.h:31
KnownAssignedXidsGetAndSetXmin
static int KnownAssignedXidsGetAndSetXmin(TransactionId *xarray, TransactionId *xmin, TransactionId xmax)
Definition: procarray.c:3835

◆ KnownAssignedXidsGetAndSetXmin()

static int KnownAssignedXidsGetAndSetXmin ( TransactionId xarray,
TransactionId xmin,
TransactionId  xmax 
)
static

Definition at line 3835 of file procarray.c.

References ProcArrayStruct::headKnownAssignedXids, i, ProcArrayStruct::known_assigned_xids_lck, KnownAssignedXids, KnownAssignedXidsValid, SpinLockAcquire, SpinLockRelease, ProcArrayStruct::tailKnownAssignedXids, TransactionIdFollowsOrEquals(), TransactionIdIsValid, and TransactionIdPrecedes().

Referenced by GetSnapshotData(), and KnownAssignedXidsGet().

3837 {
3838  int count = 0;
3839  int head,
3840  tail;
3841  int i;
3842 
3843  /*
3844  * Fetch head just once, since it may change while we loop. We can stop
3845  * once we reach the initially seen head, since we are certain that an xid
3846  * cannot enter and then leave the array while we hold ProcArrayLock. We
3847  * might miss newly-added xids, but they should be >= xmax so irrelevant
3848  * anyway.
3849  *
3850  * Must take spinlock to ensure we see up-to-date array contents.
3851  */
3852  SpinLockAcquire(&procArray->known_assigned_xids_lck);
3853  tail = procArray->tailKnownAssignedXids;
3854  head = procArray->headKnownAssignedXids;
3855  SpinLockRelease(&procArray->known_assigned_xids_lck);
3856 
3857  for (i = tail; i < head; i++)
3858  {
3859  /* Skip any gaps in the array */
3860  if (KnownAssignedXidsValid[i])
3861  {
3862  TransactionId knownXid = KnownAssignedXids[i];
3863 
3864  /*
3865  * Update xmin if required. Only the first XID need be checked,
3866  * since the array is sorted.
3867  */
3868  if (count == 0 &&
3869  TransactionIdPrecedes(knownXid, *xmin))
3870  *xmin = knownXid;
3871 
3872  /*
3873  * Filter out anything >= xmax, again relying on sorted property
3874  * of array.
3875  */
3876  if (TransactionIdIsValid(xmax) &&
3877  TransactionIdFollowsOrEquals(knownXid, xmax))
3878  break;
3879 
3880  /* Add knownXid into output array */
3881  xarray[count++] = knownXid;
3882  }
3883  }
3884 
3885  return count;
3886 }
TransactionId
uint32 TransactionId
Definition: c.h:507
TransactionIdFollowsOrEquals
bool TransactionIdFollowsOrEquals(TransactionId id1, TransactionId id2)
Definition: transam.c:349
ProcArrayStruct::known_assigned_xids_lck
slock_t known_assigned_xids_lck
Definition: procarray.c:78
SpinLockAcquire
#define SpinLockAcquire(lock)
Definition: spin.h:62
KnownAssignedXidsValid
static bool * KnownAssignedXidsValid
Definition: procarray.c:107
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
SpinLockRelease
#define SpinLockRelease(lock)
Definition: spin.h:64
KnownAssignedXids
static TransactionId * KnownAssignedXids
Definition: procarray.c:106
i
int i
Definition: preproc-comment.c:23
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
ProcArrayStruct::tailKnownAssignedXids
int tailKnownAssignedXids
Definition: procarray.c:76
ProcArrayStruct::headKnownAssignedXids
int headKnownAssignedXids
Definition: procarray.c:77

◆ KnownAssignedXidsGetOldestXmin()

static TransactionId KnownAssignedXidsGetOldestXmin ( void  )
static

Definition at line 3893 of file procarray.c.

References ProcArrayStruct::headKnownAssignedXids, i, InvalidTransactionId, ProcArrayStruct::known_assigned_xids_lck, KnownAssignedXids, KnownAssignedXidsValid, SpinLockAcquire, SpinLockRelease, and ProcArrayStruct::tailKnownAssignedXids.

Referenced by GetOldestXmin().

3894 {
3895  int head,
3896  tail;
3897  int i;
3898 
3899  /*
3900  * Fetch head just once, since it may change while we loop.
3901  */
3902  SpinLockAcquire(&procArray->known_assigned_xids_lck);
3903  tail = procArray->tailKnownAssignedXids;
3904  head = procArray->headKnownAssignedXids;
3905  SpinLockRelease(&procArray->known_assigned_xids_lck);
3906 
3907  for (i = tail; i < head; i++)
3908  {
3909  /* Skip any gaps in the array */
3910  if (KnownAssignedXidsValid[i])
3911  return KnownAssignedXids[i];
3912  }
3913 
3914  return InvalidTransactionId;
3915 }
ProcArrayStruct::known_assigned_xids_lck
slock_t known_assigned_xids_lck
Definition: procarray.c:78
SpinLockAcquire
#define SpinLockAcquire(lock)
Definition: spin.h:62
InvalidTransactionId
#define InvalidTransactionId
Definition: transam.h:31
KnownAssignedXidsValid
static bool * KnownAssignedXidsValid
Definition: procarray.c:107
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
SpinLockRelease
#define SpinLockRelease(lock)
Definition: spin.h:64
KnownAssignedXids
static TransactionId * KnownAssignedXids
Definition: procarray.c:106
i
int i
Definition: preproc-comment.c:23
ProcArrayStruct::tailKnownAssignedXids
int tailKnownAssignedXids
Definition: procarray.c:76
ProcArrayStruct::headKnownAssignedXids
int headKnownAssignedXids
Definition: procarray.c:77

◆ KnownAssignedXidsRemove()

static void KnownAssignedXidsRemove ( TransactionId  xid)
static

Definition at line 3694 of file procarray.c.

References Assert, DEBUG4, elog, KnownAssignedXidsSearch(), trace_recovery(), and TransactionIdIsValid.

Referenced by KnownAssignedXidsRemoveTree().

3695 {
3696  Assert(TransactionIdIsValid(xid));
3697 
3698  elog(trace_recovery(DEBUG4), "remove KnownAssignedXid %u", xid);
3699 
3700  /*
3701  * Note: we cannot consider it an error to remove an XID that's not
3702  * present. We intentionally remove subxact IDs while processing
3703  * XLOG_XACT_ASSIGNMENT, to avoid array overflow. Then those XIDs will be
3704  * removed again when the top-level xact commits or aborts.
3705  *
3706  * It might be possible to track such XIDs to distinguish this case from
3707  * actual errors, but it would be complicated and probably not worth it.
3708  * So, just ignore the search result.
3709  */
3710  (void) KnownAssignedXidsSearch(xid, true);
3711 }
DEBUG4
#define DEBUG4
Definition: elog.h:22
trace_recovery
int trace_recovery(int trace_level)
Definition: elog.c:3481
Assert
#define Assert(condition)
Definition: c.h:732
KnownAssignedXidsSearch
static bool KnownAssignedXidsSearch(TransactionId xid, bool remove)
Definition: procarray.c:3587
elog
#define elog(elevel,...)
Definition: elog.h:226
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41

◆ KnownAssignedXidsRemovePreceding()

static void KnownAssignedXidsRemovePreceding ( TransactionId  xid)
static

Definition at line 3742 of file procarray.c.

References Assert, DEBUG4, elog, ProcArrayStruct::headKnownAssignedXids, i, KnownAssignedXids, KnownAssignedXidsCompress(), KnownAssignedXidsValid, ProcArrayStruct::numKnownAssignedXids, procArray, StandbyTransactionIdIsPrepared(), ProcArrayStruct::tailKnownAssignedXids, trace_recovery(), TransactionIdFollowsOrEquals(), and TransactionIdIsValid.

Referenced by ExpireAllKnownAssignedTransactionIds(), and ExpireOldKnownAssignedTransactionIds().

3743 {
3744  /* use volatile pointer to prevent code rearrangement */
3745  volatile ProcArrayStruct *pArray = procArray;
3746  int count = 0;
3747  int head,
3748  tail,
3749  i;
3750 
3751  if (!TransactionIdIsValid(removeXid))
3752  {
3753  elog(trace_recovery(DEBUG4), "removing all KnownAssignedXids");
3754  pArray->numKnownAssignedXids = 0;
3755  pArray->headKnownAssignedXids = pArray->tailKnownAssignedXids = 0;
3756  return;
3757  }
3758 
3759  elog(trace_recovery(DEBUG4), "prune KnownAssignedXids to %u", removeXid);
3760 
3761  /*
3762  * Mark entries invalid starting at the tail. Since array is sorted, we
3763  * can stop as soon as we reach an entry >= removeXid.
3764  */
3765  tail = pArray->tailKnownAssignedXids;
3766  head = pArray->headKnownAssignedXids;
3767 
3768  for (i = tail; i < head; i++)
3769  {
3770  if (KnownAssignedXidsValid[i])
3771  {
3772  TransactionId knownXid = KnownAssignedXids[i];
3773 
3774  if (TransactionIdFollowsOrEquals(knownXid, removeXid))
3775  break;
3776 
3777  if (!StandbyTransactionIdIsPrepared(knownXid))
3778  {
3779  KnownAssignedXidsValid[i] = false;
3780  count++;
3781  }
3782  }
3783  }
3784 
3785  pArray->numKnownAssignedXids -= count;
3786  Assert(pArray->numKnownAssignedXids >= 0);
3787 
3788  /*
3789  * Advance the tail pointer if we've marked the tail item invalid.
3790  */
3791  for (i = tail; i < head; i++)
3792  {
3793  if (KnownAssignedXidsValid[i])
3794  break;
3795  }
3796  if (i >= head)
3797  {
3798  /* Array is empty, so we can reset both pointers */
3799  pArray->headKnownAssignedXids = 0;
3800  pArray->tailKnownAssignedXids = 0;
3801  }
3802  else
3803  {
3804  pArray->tailKnownAssignedXids = i;
3805  }
3806 
3807  /* Opportunistically compress the array */
3808  KnownAssignedXidsCompress(false);
3809 }
TransactionId
uint32 TransactionId
Definition: c.h:507
TransactionIdFollowsOrEquals
bool TransactionIdFollowsOrEquals(TransactionId id1, TransactionId id2)
Definition: transam.c:349
DEBUG4
#define DEBUG4
Definition: elog.h:22
trace_recovery
int trace_recovery(int trace_level)
Definition: elog.c:3481
StandbyTransactionIdIsPrepared
bool StandbyTransactionIdIsPrepared(TransactionId xid)
Definition: twophase.c:1411
ProcArrayStruct::numKnownAssignedXids
int numKnownAssignedXids
Definition: procarray.c:75
KnownAssignedXidsValid
static bool * KnownAssignedXidsValid
Definition: procarray.c:107
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
Assert
#define Assert(condition)
Definition: c.h:732
KnownAssignedXids
static TransactionId * KnownAssignedXids
Definition: procarray.c:106
KnownAssignedXidsCompress
static void KnownAssignedXidsCompress(bool force)
Definition: procarray.c:3405
elog
#define elog(elevel,...)
Definition: elog.h:226
i
int i
Definition: preproc-comment.c:23
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
ProcArrayStruct::tailKnownAssignedXids
int tailKnownAssignedXids
Definition: procarray.c:76
ProcArrayStruct::headKnownAssignedXids
int headKnownAssignedXids
Definition: procarray.c:77

◆ KnownAssignedXidsRemoveTree()

static void KnownAssignedXidsRemoveTree ( TransactionId  xid,
int  nsubxids,
TransactionId subxids 
)
static

Definition at line 3720 of file procarray.c.

References i, KnownAssignedXidsCompress(), KnownAssignedXidsRemove(), and TransactionIdIsValid.

Referenced by ExpireTreeKnownAssignedTransactionIds(), and ProcArrayApplyXidAssignment().

3722 {
3723  int i;
3724 
3725  if (TransactionIdIsValid(xid))
3726  KnownAssignedXidsRemove(xid);
3727 
3728  for (i = 0; i < nsubxids; i++)
3729  KnownAssignedXidsRemove(subxids[i]);
3730 
3731  /* Opportunistically compress the array */
3732  KnownAssignedXidsCompress(false);
3733 }
KnownAssignedXidsCompress
static void KnownAssignedXidsCompress(bool force)
Definition: procarray.c:3405
KnownAssignedXidsRemove
static void KnownAssignedXidsRemove(TransactionId xid)
Definition: procarray.c:3694
i
int i
Definition: preproc-comment.c:23
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41

◆ KnownAssignedXidsReset()

static void KnownAssignedXidsReset ( void  )
static

Definition at line 3967 of file procarray.c.

References ProcArrayStruct::headKnownAssignedXids, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), ProcArrayStruct::numKnownAssignedXids, procArray, and ProcArrayStruct::tailKnownAssignedXids.

Referenced by ProcArrayApplyRecoveryInfo().

3968 {
3969  /* use volatile pointer to prevent code rearrangement */
3970  volatile ProcArrayStruct *pArray = procArray;
3971 
3972  LWLockAcquire(ProcArrayLock, LW_EXCLUSIVE);
3973 
3974  pArray->numKnownAssignedXids = 0;
3975  pArray->tailKnownAssignedXids = 0;
3976  pArray->headKnownAssignedXids = 0;
3977 
3978  LWLockRelease(ProcArrayLock);
3979 }
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
ProcArrayStruct::numKnownAssignedXids
int numKnownAssignedXids
Definition: procarray.c:75
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
ProcArrayStruct::tailKnownAssignedXids
int tailKnownAssignedXids
Definition: procarray.c:76
ProcArrayStruct::headKnownAssignedXids
int headKnownAssignedXids
Definition: procarray.c:77

◆ KnownAssignedXidsSearch()

static bool KnownAssignedXidsSearch ( TransactionId  xid,
bool  remove 
)
static

Definition at line 3587 of file procarray.c.

References Assert, ProcArrayStruct::headKnownAssignedXids, ProcArrayStruct::known_assigned_xids_lck, KnownAssignedXids, KnownAssignedXidsValid, ProcArrayStruct::numKnownAssignedXids, procArray, SpinLockAcquire, SpinLockRelease, ProcArrayStruct::tailKnownAssignedXids, and TransactionIdPrecedes().

Referenced by KnownAssignedXidExists(), and KnownAssignedXidsRemove().

3588 {
3589  /* use volatile pointer to prevent code rearrangement */
3590  volatile ProcArrayStruct *pArray = procArray;
3591  int first,
3592  last;
3593  int head;
3594  int tail;
3595  int result_index = -1;
3596 
3597  if (remove)
3598  {
3599  /* we hold ProcArrayLock exclusively, so no need for spinlock */
3600  tail = pArray->tailKnownAssignedXids;
3601  head = pArray->headKnownAssignedXids;
3602  }
3603  else
3604  {
3605  /* take spinlock to ensure we see up-to-date array contents */
3606  SpinLockAcquire(&pArray->known_assigned_xids_lck);
3607  tail = pArray->tailKnownAssignedXids;
3608  head = pArray->headKnownAssignedXids;
3609  SpinLockRelease(&pArray->known_assigned_xids_lck);
3610  }
3611 
3612  /*
3613  * Standard binary search. Note we can ignore the KnownAssignedXidsValid
3614  * array here, since even invalid entries will contain sorted XIDs.
3615  */
3616  first = tail;
3617  last = head - 1;
3618  while (first <= last)
3619  {
3620  int mid_index;
3621  TransactionId mid_xid;
3622 
3623  mid_index = (first + last) / 2;
3624  mid_xid = KnownAssignedXids[mid_index];
3625 
3626  if (xid == mid_xid)
3627  {
3628  result_index = mid_index;
3629  break;
3630  }
3631  else if (TransactionIdPrecedes(xid, mid_xid))
3632  last = mid_index - 1;
3633  else
3634  first = mid_index + 1;
3635  }
3636 
3637  if (result_index < 0)
3638  return false; /* not in array */
3639 
3640  if (!KnownAssignedXidsValid[result_index])
3641  return false; /* in array, but invalid */
3642 
3643  if (remove)
3644  {
3645  KnownAssignedXidsValid[result_index] = false;
3646 
3647  pArray->numKnownAssignedXids--;
3648  Assert(pArray->numKnownAssignedXids >= 0);
3649 
3650  /*
3651  * If we're removing the tail element then advance tail pointer over
3652  * any invalid elements. This will speed future searches.
3653  */
3654  if (result_index == tail)
3655  {
3656  tail++;
3657  while (tail < head && !KnownAssignedXidsValid[tail])
3658  tail++;
3659  if (tail >= head)
3660  {
3661  /* Array is empty, so we can reset both pointers */
3662  pArray->headKnownAssignedXids = 0;
3663  pArray->tailKnownAssignedXids = 0;
3664  }
3665  else
3666  {
3667  pArray->tailKnownAssignedXids = tail;
3668  }
3669  }
3670  }
3671 
3672  return true;
3673 }
TransactionId
uint32 TransactionId
Definition: c.h:507
ProcArrayStruct::known_assigned_xids_lck
slock_t known_assigned_xids_lck
Definition: procarray.c:78
SpinLockAcquire
#define SpinLockAcquire(lock)
Definition: spin.h:62
ProcArrayStruct::numKnownAssignedXids
int numKnownAssignedXids
Definition: procarray.c:75
KnownAssignedXidsValid
static bool * KnownAssignedXidsValid
Definition: procarray.c:107
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
SpinLockRelease
#define SpinLockRelease(lock)
Definition: spin.h:64
Assert
#define Assert(condition)
Definition: c.h:732
KnownAssignedXids
static TransactionId * KnownAssignedXids
Definition: procarray.c:106
ProcArrayStruct::tailKnownAssignedXids
int tailKnownAssignedXids
Definition: procarray.c:76
ProcArrayStruct::headKnownAssignedXids
int headKnownAssignedXids
Definition: procarray.c:77

◆ MinimumActiveBackends()

bool MinimumActiveBackends ( int  min)

Definition at line 2704 of file procarray.c.

References InvalidTransactionId, MyProc, ProcArrayStruct::numProcs, ProcArrayStruct::pgprocnos, PGPROC::pid, procArray, PGPROC::waitLock, and PGXACT::xid.

Referenced by XLogFlush().

2705 {
2706  ProcArrayStruct *arrayP = procArray;
2707  int count = 0;
2708  int index;
2709 
2710  /* Quick short-circuit if no minimum is specified */
2711  if (min == 0)
2712  return true;
2713 
2714  /*
2715  * Note: for speed, we don't acquire ProcArrayLock. This is a little bit
2716  * bogus, but since we are only testing fields for zero or nonzero, it
2717  * should be OK. The result is only used for heuristic purposes anyway...
2718  */
2719  for (index = 0; index < arrayP->numProcs; index++)
2720  {
2721  int pgprocno = arrayP->pgprocnos[index];
2722  volatile PGPROC *proc = &allProcs[pgprocno];
2723  volatile PGXACT *pgxact = &allPgXact[pgprocno];
2724 
2725  /*
2726  * Since we're not holding a lock, need to be prepared to deal with
2727  * garbage, as someone could have incremented numProcs but not yet
2728  * filled the structure.
2729  *
2730  * If someone just decremented numProcs, 'proc' could also point to a
2731  * PGPROC entry that's no longer in the array. It still points to a
2732  * PGPROC struct, though, because freed PGPROC entries just go to the
2733  * free list and are recycled. Its contents are nonsense in that case,
2734  * but that's acceptable for this function.
2735  */
2736  if (pgprocno == -1)
2737  continue; /* do not count deleted entries */
2738  if (proc == MyProc)
2739  continue; /* do not count myself */
2740  if (pgxact->xid == InvalidTransactionId)
2741  continue; /* do not count if no XID assigned */
2742  if (proc->pid == 0)
2743  continue; /* do not count prepared xacts */
2744  if (proc->waitLock != NULL)
2745  continue; /* do not count if blocked on a lock */
2746  count++;
2747  if (count >= min)
2748  break;
2749  }
2750 
2751  return count >= min;
2752 }
PGXACT
Definition: proc.h:222
MyProc
PGPROC * MyProc
Definition: proc.c:67
PGXACT::xid
TransactionId xid
Definition: proc.h:224
index
Definition: type.h:89
InvalidTransactionId
#define InvalidTransactionId
Definition: transam.h:31
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
PGPROC::waitLock
LOCK * waitLock
Definition: proc.h:139
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
PGPROC
Definition: proc.h:95
PGPROC::pid
int pid
Definition: proc.h:109

◆ ProcArrayAdd()

void ProcArrayAdd ( PGPROC proc)

Definition at line 275 of file procarray.c.

References ereport, errcode(), errmsg(), FATAL, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), ProcArrayStruct::maxProcs, memmove, ProcArrayStruct::numProcs, PGPROC::pgprocno, ProcArrayStruct::pgprocnos, and procArray.

Referenced by InitProcessPhase2(), and MarkAsPrepared().

276 {
277  ProcArrayStruct *arrayP = procArray;
278  int index;
279 
280  LWLockAcquire(ProcArrayLock, LW_EXCLUSIVE);
281 
282  if (arrayP->numProcs >= arrayP->maxProcs)
283  {
284  /*
285  * Oops, no room. (This really shouldn't happen, since there is a
286  * fixed supply of PGPROC structs too, and so we should have failed
287  * earlier.)
288  */
289  LWLockRelease(ProcArrayLock);
290  ereport(FATAL,
291  (errcode(ERRCODE_TOO_MANY_CONNECTIONS),
292  errmsg("sorry, too many clients already")));
293  }
294 
295  /*
296  * Keep the procs array sorted by (PGPROC *) so that we can utilize
297  * locality of references much better. This is useful while traversing the
298  * ProcArray because there is an increased likelihood of finding the next
299  * PGPROC structure in the cache.
300  *
301  * Since the occurrence of adding/removing a proc is much lower than the
302  * access to the ProcArray itself, the overhead should be marginal
303  */
304  for (index = 0; index < arrayP->numProcs; index++)
305  {
306  /*
307  * If we are the first PGPROC or if we have found our right position
308  * in the array, break
309  */
310  if ((arrayP->pgprocnos[index] == -1) || (arrayP->pgprocnos[index] > proc->pgprocno))
311  break;
312  }
313 
314  memmove(&arrayP->pgprocnos[index + 1], &arrayP->pgprocnos[index],
315  (arrayP->numProcs - index) * sizeof(int));
316  arrayP->pgprocnos[index] = proc->pgprocno;
317  arrayP->numProcs++;
318 
319  LWLockRelease(ProcArrayLock);
320 }
errcode
int errcode(int sqlerrcode)
Definition: elog.c:572
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
FATAL
#define FATAL
Definition: elog.h:52
memmove
#define memmove(d, s, c)
Definition: c.h:1194
ereport
#define ereport(elevel, rest)
Definition: elog.h:141
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
PGPROC::pgprocno
int pgprocno
Definition: proc.h:110
errmsg
int errmsg(const char *fmt,...)
Definition: elog.c:786

◆ ProcArrayApplyRecoveryInfo()

void ProcArrayApplyRecoveryInfo ( RunningTransactions  running)

Definition at line 662 of file procarray.c.

References Assert, DEBUG1, DEBUG3, elog, ERROR, ExpireOldKnownAssignedTransactionIds(), ExtendSUBTRANS(), i, InvalidTransactionId, KnownAssignedXidsAdd(), KnownAssignedXidsDisplay(), KnownAssignedXidsReset(), ProcArrayStruct::lastOverflowedXid, RunningTransactionsData::latestCompletedXid, VariableCacheData::latestCompletedXid, latestObservedXid, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), RunningTransactionsData::nextXid, VariableCacheData::nextXid, ProcArrayStruct::numKnownAssignedXids, RunningTransactionsData::oldestRunningXid, palloc(), pfree(), qsort, ShmemVariableCache, STANDBY_INITIALIZED, STANDBY_SNAPSHOT_PENDING, STANDBY_SNAPSHOT_READY, StandbyReleaseOldLocks(), standbySnapshotPendingXmin, standbyState, RunningTransactionsData::subxcnt, RunningTransactionsData::subxid_overflow, trace_recovery(), TransactionIdAdvance, TransactionIdDidAbort(), TransactionIdDidCommit(), TransactionIdEquals, TransactionIdFollows(), TransactionIdIsNormal, TransactionIdIsValid, TransactionIdPrecedes(), TransactionIdRetreat, RunningTransactionsData::xcnt, xidComparator(), and RunningTransactionsData::xids.

Referenced by standby_redo(), StartupXLOG(), and xlog_redo().

663 {
664  TransactionId *xids;
665  int nxids;
666  TransactionId nextXid;
667  int i;
668 
669  Assert(standbyState >= STANDBY_INITIALIZED);
670  Assert(TransactionIdIsValid(running->nextXid));
671  Assert(TransactionIdIsValid(running->oldestRunningXid));
672  Assert(TransactionIdIsNormal(running->latestCompletedXid));
673 
674  /*
675  * Remove stale transactions, if any.
676  */
677  ExpireOldKnownAssignedTransactionIds(running->oldestRunningXid);
678 
679  /*
680  * Remove stale locks, if any.
681  */
682  StandbyReleaseOldLocks(running->oldestRunningXid);
683 
684  /*
685  * If our snapshot is already valid, nothing else to do...
686  */
687  if (standbyState == STANDBY_SNAPSHOT_READY)
688  return;
689 
690  /*
691  * If our initial RunningTransactionsData had an overflowed snapshot then
692  * we knew we were missing some subxids from our snapshot. If we continue
693  * to see overflowed snapshots then we might never be able to start up, so
694  * we make another test to see if our snapshot is now valid. We know that
695  * the missing subxids are equal to or earlier than nextXid. After we
696  * initialise we continue to apply changes during recovery, so once the
697  * oldestRunningXid is later than the nextXid from the initial snapshot we
698  * know that we no longer have missing information and can mark the
699  * snapshot as valid.
700  */
701  if (standbyState == STANDBY_SNAPSHOT_PENDING)
702  {
703  /*
704  * If the snapshot isn't overflowed or if its empty we can reset our
705  * pending state and use this snapshot instead.
706  */
707  if (!running->subxid_overflow || running->xcnt == 0)
708  {
709  /*
710  * If we have already collected known assigned xids, we need to
711  * throw them away before we apply the recovery snapshot.
712  */
713  KnownAssignedXidsReset();
714  standbyState = STANDBY_INITIALIZED;
715  }
716  else
717  {
718  if (TransactionIdPrecedes(standbySnapshotPendingXmin,
719  running->oldestRunningXid))
720  {
721  standbyState = STANDBY_SNAPSHOT_READY;
722  elog(trace_recovery(DEBUG1),
723  "recovery snapshots are now enabled");
724  }
725  else
726  elog(trace_recovery(DEBUG1),
727  "recovery snapshot waiting for non-overflowed snapshot or "
728  "until oldest active xid on standby is at least %u (now %u)",
729  standbySnapshotPendingXmin,
730  running->oldestRunningXid);
731  return;
732  }
733  }
734 
735  Assert(standbyState == STANDBY_INITIALIZED);
736 
737  /*
738  * OK, we need to initialise from the RunningTransactionsData record.
739  *
740  * NB: this can be reached at least twice, so make sure new code can deal
741  * with that.
742  */
743 
744  /*
745  * Nobody else is running yet, but take locks anyhow
746  */
747  LWLockAcquire(ProcArrayLock, LW_EXCLUSIVE);
748 
749  /*
750  * KnownAssignedXids is sorted so we cannot just add the xids, we have to
751  * sort them first.
752  *
753  * Some of the new xids are top-level xids and some are subtransactions.
754  * We don't call SubtransSetParent because it doesn't matter yet. If we
755  * aren't overflowed then all xids will fit in snapshot and so we don't
756  * need subtrans. If we later overflow, an xid assignment record will add
757  * xids to subtrans. If RunningXacts is overflowed then we don't have
758  * enough information to correctly update subtrans anyway.
759  */
760 
761  /*
762  * Allocate a temporary array to avoid modifying the array passed as
763  * argument.
764  */
765  xids = palloc(sizeof(TransactionId) * (running->xcnt + running->subxcnt));
766 
767  /*
768  * Add to the temp array any xids which have not already completed.
769  */
770  nxids = 0;
771  for (i = 0; i < running->xcnt + running->subxcnt; i++)
772  {
773  TransactionId xid = running->xids[i];
774 
775  /*
776  * The running-xacts snapshot can contain xids that were still visible
777  * in the procarray when the snapshot was taken, but were already
778  * WAL-logged as completed. They're not running anymore, so ignore
779  * them.
780  */
781  if (TransactionIdDidCommit(xid) || TransactionIdDidAbort(xid))
782  continue;
783 
784  xids[nxids++] = xid;
785  }
786 
787  if (nxids > 0)
788  {
789  if (procArray->numKnownAssignedXids != 0)
790  {
791  LWLockRelease(ProcArrayLock);
792  elog(ERROR, "KnownAssignedXids is not empty");
793  }
794 
795  /*
796  * Sort the array so that we can add them safely into
797  * KnownAssignedXids.
798  */
799  qsort(xids, nxids, sizeof(TransactionId), xidComparator);
800 
801  /*
802  * Add the sorted snapshot into KnownAssignedXids. The running-xacts
803  * snapshot may include duplicated xids because of prepared
804  * transactions, so ignore them.
805  */
806  for (i = 0; i < nxids; i++)
807  {
808  if (i > 0 && TransactionIdEquals(xids[i - 1], xids[i]))
809  {
810  elog(DEBUG1,
811  "found duplicated transaction %u for KnownAssignedXids insertion",
812  xids[i]);
813  continue;
814  }
815  KnownAssignedXidsAdd(xids[i], xids[i], true);
816  }
817 
818  KnownAssignedXidsDisplay(trace_recovery(DEBUG3));
819  }
820 
821  pfree(xids);
822 
823  /*
824  * latestObservedXid is at least set to the point where SUBTRANS was
825  * started up to (cf. ProcArrayInitRecovery()) or to the biggest xid
826  * RecordKnownAssignedTransactionIds() was called for. Initialize
827  * subtrans from thereon, up to nextXid - 1.
828  *
829  * We need to duplicate parts of RecordKnownAssignedTransactionId() here,
830  * because we've just added xids to the known assigned xids machinery that
831  * haven't gone through RecordKnownAssignedTransactionId().
832  */
833  Assert(TransactionIdIsNormal(latestObservedXid));
834  TransactionIdAdvance(latestObservedXid);
835  while (TransactionIdPrecedes(latestObservedXid, running->nextXid))
836  {
837  ExtendSUBTRANS(latestObservedXid);
838  TransactionIdAdvance(latestObservedXid);
839  }
840  TransactionIdRetreat(latestObservedXid); /* = running->nextXid - 1 */
841 
842  /* ----------
843  * Now we've got the running xids we need to set the global values that
844  * are used to track snapshots as they evolve further.
845  *
846  * - latestCompletedXid which will be the xmax for snapshots
847  * - lastOverflowedXid which shows whether snapshots overflow
848  * - nextXid
849  *
850  * If the snapshot overflowed, then we still initialise with what we know,
851  * but the recovery snapshot isn't fully valid yet because we know there
852  * are some subxids missing. We don't know the specific subxids that are
853  * missing, so conservatively assume the last one is latestObservedXid.
854  * ----------
855  */
856  if (running->subxid_overflow)
857  {
858  standbyState = STANDBY_SNAPSHOT_PENDING;
859 
860  standbySnapshotPendingXmin = latestObservedXid;
861  procArray->lastOverflowedXid = latestObservedXid;
862  }
863  else
864  {
865  standbyState = STANDBY_SNAPSHOT_READY;
866 
867  standbySnapshotPendingXmin = InvalidTransactionId;
868  }
869 
870  /*
871  * If a transaction wrote a commit record in the gap between taking and
872  * logging the snapshot then latestCompletedXid may already be higher than
873  * the value from the snapshot, so check before we use the incoming value.
874  */
875  if (TransactionIdPrecedes(ShmemVariableCache->latestCompletedXid,
876  running->latestCompletedXid))
877  ShmemVariableCache->latestCompletedXid = running->latestCompletedXid;
878 
879  Assert(TransactionIdIsNormal(ShmemVariableCache->latestCompletedXid));
880 
881  LWLockRelease(ProcArrayLock);
882 
883  /*
884  * ShmemVariableCache->nextXid must be beyond any observed xid.
885  *
886  * We don't expect anyone else to modify nextXid, hence we don't need to
887  * hold a lock while examining it. We still acquire the lock to modify
888  * it, though.
889  */
890  nextXid = latestObservedXid;
891  TransactionIdAdvance(nextXid);
892  if (TransactionIdFollows(nextXid, ShmemVariableCache->nextXid))
893  {
894  LWLockAcquire(XidGenLock, LW_EXCLUSIVE);
895  ShmemVariableCache->nextXid = nextXid;
896  LWLockRelease(XidGenLock);
897  }
898 
899  Assert(TransactionIdIsValid(ShmemVariableCache->nextXid));
900 
901  KnownAssignedXidsDisplay(trace_recovery(DEBUG3));
902  if (standbyState == STANDBY_SNAPSHOT_READY)
903  elog(trace_recovery(DEBUG1), "recovery snapshots are now enabled");
904  else
905  elog(trace_recovery(DEBUG1),
906  "recovery snapshot waiting for non-overflowed snapshot or "
907  "until oldest active xid on standby is at least %u (now %u)",
908  standbySnapshotPendingXmin,
909  running->oldestRunningXid);
910 }
TransactionIdAdvance
#define TransactionIdAdvance(dest)
Definition: transam.h:48
latestObservedXid
static TransactionId latestObservedXid
Definition: procarray.c:108
RunningTransactionsData::oldestRunningXid
TransactionId oldestRunningXid
Definition: standby.h:76
DEBUG1
#define DEBUG1
Definition: elog.h:25
KnownAssignedXidsDisplay
static void KnownAssignedXidsDisplay(int trace_level)
Definition: procarray.c:3928
TransactionIdEquals
#define TransactionIdEquals(id1, id2)
Definition: transam.h:43
TransactionIdFollows
bool TransactionIdFollows(TransactionId id1, TransactionId id2)
Definition: transam.c:334
TransactionId
uint32 TransactionId
Definition: c.h:507
DEBUG3
#define DEBUG3
Definition: elog.h:23
RunningTransactionsData::xids
TransactionId * xids
Definition: standby.h:79
TransactionIdDidCommit
bool TransactionIdDidCommit(TransactionId transactionId)
Definition: transam.c:125
TransactionIdRetreat
#define TransactionIdRetreat(dest)
Definition: transam.h:56
trace_recovery
int trace_recovery(int trace_level)
Definition: elog.c:3481
RunningTransactionsData::latestCompletedXid
TransactionId latestCompletedXid
Definition: standby.h:77
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
pfree
void pfree(void *pointer)
Definition: mcxt.c:1031
ERROR
#define ERROR
Definition: elog.h:43
ExtendSUBTRANS
void ExtendSUBTRANS(TransactionId newestXact)
Definition: subtrans.c:324
VariableCacheData::nextXid
TransactionId nextXid
Definition: transam.h:117
ShmemVariableCache
VariableCache ShmemVariableCache
Definition: varsup.c:34
InvalidTransactionId
#define InvalidTransactionId
Definition: transam.h:31
KnownAssignedXidsReset
static void KnownAssignedXidsReset(void)
Definition: procarray.c:3967
ProcArrayStruct::numKnownAssignedXids
int numKnownAssignedXids
Definition: procarray.c:75
ProcArrayStruct::lastOverflowedXid
TransactionId lastOverflowedXid
Definition: procarray.c:87
TransactionIdDidAbort
bool TransactionIdDidAbort(TransactionId transactionId)
Definition: transam.c:181
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
Assert
#define Assert(condition)
Definition: c.h:732
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
KnownAssignedXidsAdd
static void KnownAssignedXidsAdd(TransactionId from_xid, TransactionId to_xid, bool exclusive_lock)
Definition: procarray.c:3468
RunningTransactionsData::nextXid
TransactionId nextXid
Definition: standby.h:75
palloc
void * palloc(Size size)
Definition: mcxt.c:924
elog
#define elog(elevel,...)
Definition: elog.h:226
i
int i
Definition: preproc-comment.c:23
ExpireOldKnownAssignedTransactionIds
void ExpireOldKnownAssignedTransactionIds(TransactionId xid)
Definition: procarray.c:3302
qsort
#define qsort(a, b, c, d)
Definition: port.h:462
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
TransactionIdIsNormal
#define TransactionIdIsNormal(xid)
Definition: transam.h:42
standbySnapshotPendingXmin
static TransactionId standbySnapshotPendingXmin
Definition: procarray.c:115
standbyState
HotStandbyState standbyState
Definition: xlog.c:197
StandbyReleaseOldLocks
void StandbyReleaseOldLocks(TransactionId oldxid)
Definition: standby.c:751
xidComparator
int xidComparator(const void *arg1, const void *arg2)
Definition: xid.c:138
VariableCacheData::latestCompletedXid
TransactionId latestCompletedXid
Definition: transam.h:135

◆ ProcArrayApplyXidAssignment()

void ProcArrayApplyXidAssignment ( TransactionId  topxid,
int  nsubxids,
TransactionId subxids 
)

Definition at line 917 of file procarray.c.

References Assert, i, InvalidTransactionId, KnownAssignedXidsRemoveTree(), ProcArrayStruct::lastOverflowedXid, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), RecordKnownAssignedTransactionIds(), STANDBY_INITIALIZED, standbyState, SubTransSetParent(), TransactionIdLatest(), and TransactionIdPrecedes().

Referenced by xact_redo().

919 {
920  TransactionId max_xid;
921  int i;
922 
923  Assert(standbyState >= STANDBY_INITIALIZED);
924 
925  max_xid = TransactionIdLatest(topxid, nsubxids, subxids);
926 
927  /*
928  * Mark all the subtransactions as observed.
929  *
930  * NOTE: This will fail if the subxid contains too many previously
931  * unobserved xids to fit into known-assigned-xids. That shouldn't happen
932  * as the code stands, because xid-assignment records should never contain
933  * more than PGPROC_MAX_CACHED_SUBXIDS entries.
934  */
935  RecordKnownAssignedTransactionIds(max_xid);
936 
937  /*
938  * Notice that we update pg_subtrans with the top-level xid, rather than
939  * the parent xid. This is a difference between normal processing and
940  * recovery, yet is still correct in all cases. The reason is that
941  * subtransaction commit is not marked in clog until commit processing, so
942  * all aborted subtransactions have already been clearly marked in clog.
943  * As a result we are able to refer directly to the top-level
944  * transaction's state rather than skipping through all the intermediate
945  * states in the subtransaction tree. This should be the first time we
946  * have attempted to SubTransSetParent().
947  */
948  for (i = 0; i < nsubxids; i++)
949  SubTransSetParent(subxids[i], topxid);
950 
951  /* KnownAssignedXids isn't maintained yet, so we're done for now */
952  if (standbyState == STANDBY_INITIALIZED)
953  return;
954 
955  /*
956  * Uses same locking as transaction commit
957  */
958  LWLockAcquire(ProcArrayLock, LW_EXCLUSIVE);
959 
960  /*
961  * Remove subxids from known-assigned-xacts.
962  */
963  KnownAssignedXidsRemoveTree(InvalidTransactionId, nsubxids, subxids);
964 
965  /*
966  * Advance lastOverflowedXid to be at least the last of these subxids.
967  */
968  if (TransactionIdPrecedes(procArray->lastOverflowedXid, max_xid))
969  procArray->lastOverflowedXid = max_xid;
970 
971  LWLockRelease(ProcArrayLock);
972 }
TransactionId
uint32 TransactionId
Definition: c.h:507
TransactionIdLatest
TransactionId TransactionIdLatest(TransactionId mainxid, int nxids, const TransactionId *xids)
Definition: transam.c:365
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
InvalidTransactionId
#define InvalidTransactionId
Definition: transam.h:31
ProcArrayStruct::lastOverflowedXid
TransactionId lastOverflowedXid
Definition: procarray.c:87
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
KnownAssignedXidsRemoveTree
static void KnownAssignedXidsRemoveTree(TransactionId xid, int nsubxids, TransactionId *subxids)
Definition: procarray.c:3720
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
Assert
#define Assert(condition)
Definition: c.h:732
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
i
int i
Definition: preproc-comment.c:23
RecordKnownAssignedTransactionIds
void RecordKnownAssignedTransactionIds(TransactionId xid)
Definition: procarray.c:3192
SubTransSetParent
void SubTransSetParent(TransactionId xid, TransactionId parent)
Definition: subtrans.c:74
standbyState
HotStandbyState standbyState
Definition: xlog.c:197

◆ ProcArrayClearTransaction()

void ProcArrayClearTransaction ( PGPROC proc)

Definition at line 599 of file procarray.c.

References PGXACT::delayChkpt, InvalidLocalTransactionId, InvalidTransactionId, PGPROC::lxid, PGXACT::nxids, PGXACT::overflowed, PGPROC::pgprocno, PROC_VACUUM_STATE_MASK, PGPROC::recoveryConflictPending, PGXACT::vacuumFlags, PGXACT::xid, and PGXACT::xmin.

Referenced by PrepareTransaction().

600 {
601  PGXACT *pgxact = &allPgXact[proc->pgprocno];
602 
603  /*
604  * We can skip locking ProcArrayLock here, because this action does not
605  * actually change anyone's view of the set of running XIDs: our entry is
606  * duplicate with the gxact that has already been inserted into the
607  * ProcArray.
608  */
609  pgxact->xid = InvalidTransactionId;
610  proc->lxid = InvalidLocalTransactionId;
611  pgxact->xmin = InvalidTransactionId;
612  proc->recoveryConflictPending = false;
613 
614  /* redundant, but just in case */
615  pgxact->vacuumFlags &= ~PROC_VACUUM_STATE_MASK;
616  pgxact->delayChkpt = false;
617 
618  /* Clear the subtransaction-XID cache too */
619  pgxact->nxids = 0;
620  pgxact->overflowed = false;
621 }
PGXACT
Definition: proc.h:222
PGXACT::xmin
TransactionId xmin
Definition: proc.h:228
PGXACT::xid
TransactionId xid
Definition: proc.h:224
PGXACT::vacuumFlags
uint8 vacuumFlags
Definition: proc.h:233
PROC_VACUUM_STATE_MASK
#define PROC_VACUUM_STATE_MASK
Definition: proc.h:62
PGPROC::recoveryConflictPending
bool recoveryConflictPending
Definition: proc.h:127
PGXACT::nxids
uint8 nxids
Definition: proc.h:238
InvalidTransactionId
#define InvalidTransactionId
Definition: transam.h:31
PGXACT::delayChkpt
bool delayChkpt
Definition: proc.h:235
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
PGXACT::overflowed
bool overflowed
Definition: proc.h:234
PGPROC::pgprocno
int pgprocno
Definition: proc.h:110
InvalidLocalTransactionId
#define InvalidLocalTransactionId
Definition: lock.h:69
PGPROC::lxid
LocalTransactionId lxid
Definition: proc.h:106

◆ ProcArrayEndTransaction()

void ProcArrayEndTransaction ( PGPROC proc,
TransactionId  latestXid 
)

Definition at line 396 of file procarray.c.

References Assert, PGXACT::delayChkpt, InvalidLocalTransactionId, InvalidTransactionId, LW_EXCLUSIVE, LWLockConditionalAcquire(), LWLockRelease(), PGPROC::lxid, PGXACT::nxids, PGXACT::overflowed, PGPROC::pgprocno, PROC_VACUUM_STATE_MASK, ProcArrayEndTransactionInternal(), ProcArrayGroupClearXid(), PGPROC::recoveryConflictPending, TransactionIdIsValid, PGXACT::vacuumFlags, PGXACT::xid, and PGXACT::xmin.

Referenced by AbortTransaction(), and CommitTransaction().

397 {
398  PGXACT *pgxact = &allPgXact[proc->pgprocno];
399 
400  if (TransactionIdIsValid(latestXid))
401  {
402  /*
403  * We must lock ProcArrayLock while clearing our advertised XID, so
404  * that we do not exit the set of "running" transactions while someone
405  * else is taking a snapshot. See discussion in
406  * src/backend/access/transam/README.
407  */
408  Assert(TransactionIdIsValid(allPgXact[proc->pgprocno].xid));
409 
410  /*
411  * If we can immediately acquire ProcArrayLock, we clear our own XID
412  * and release the lock. If not, use group XID clearing to improve
413  * efficiency.
414  */
415  if (LWLockConditionalAcquire(ProcArrayLock, LW_EXCLUSIVE))
416  {
417  ProcArrayEndTransactionInternal(proc, pgxact, latestXid);
418  LWLockRelease(ProcArrayLock);
419  }
420  else
421  ProcArrayGroupClearXid(proc, latestXid);
422  }
423  else
424  {
425  /*
426  * If we have no XID, we don't need to lock, since we won't affect
427  * anyone else's calculation of a snapshot. We might change their
428  * estimate of global xmin, but that's OK.
429  */
430  Assert(!TransactionIdIsValid(allPgXact[proc->pgprocno].xid));
431 
432  proc->lxid = InvalidLocalTransactionId;
433  pgxact->xmin = InvalidTransactionId;
434  /* must be cleared with xid/xmin: */
435  pgxact->vacuumFlags &= ~PROC_VACUUM_STATE_MASK;
436  pgxact->delayChkpt = false; /* be sure this is cleared in abort */
437  proc->recoveryConflictPending = false;
438 
439  Assert(pgxact->nxids == 0);
440  Assert(pgxact->overflowed == false);
441  }
442 }
PGXACT
Definition: proc.h:222
PGXACT::xmin
TransactionId xmin
Definition: proc.h:228
PGXACT::xid
TransactionId xid
Definition: proc.h:224
ProcArrayGroupClearXid
static void ProcArrayGroupClearXid(PGPROC *proc, TransactionId latestXid)
Definition: procarray.c:484
PGXACT::vacuumFlags
uint8 vacuumFlags
Definition: proc.h:233
PROC_VACUUM_STATE_MASK
#define PROC_VACUUM_STATE_MASK
Definition: proc.h:62
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
LWLockConditionalAcquire
bool LWLockConditionalAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1293
PGPROC::recoveryConflictPending
bool recoveryConflictPending
Definition: proc.h:127
PGXACT::nxids
uint8 nxids
Definition: proc.h:238
InvalidTransactionId
#define InvalidTransactionId
Definition: transam.h:31
PGXACT::delayChkpt
bool delayChkpt
Definition: proc.h:235
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
PGXACT::overflowed
bool overflowed
Definition: proc.h:234
ProcArrayEndTransactionInternal
static void ProcArrayEndTransactionInternal(PGPROC *proc, PGXACT *pgxact, TransactionId latestXid)
Definition: procarray.c:450
Assert
#define Assert(condition)
Definition: c.h:732
PGPROC::pgprocno
int pgprocno
Definition: proc.h:110
InvalidLocalTransactionId
#define InvalidLocalTransactionId
Definition: lock.h:69
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
PGPROC::lxid
LocalTransactionId lxid
Definition: proc.h:106

◆ ProcArrayEndTransactionInternal()

static void ProcArrayEndTransactionInternal ( PGPROC proc,
PGXACT pgxact,
TransactionId  latestXid 
)
inlinestatic

Definition at line 450 of file procarray.c.

References PGXACT::delayChkpt, InvalidLocalTransactionId, InvalidTransactionId, VariableCacheData::latestCompletedXid, PGPROC::lxid, PGXACT::nxids, PGXACT::overflowed, PROC_VACUUM_STATE_MASK, PGPROC::recoveryConflictPending, ShmemVariableCache, TransactionIdPrecedes(), PGXACT::vacuumFlags, PGXACT::xid, and PGXACT::xmin.

Referenced by ProcArrayEndTransaction(), and ProcArrayGroupClearXid().

452 {
453  pgxact->xid = InvalidTransactionId;
454  proc->lxid = InvalidLocalTransactionId;
455  pgxact->xmin = InvalidTransactionId;
456  /* must be cleared with xid/xmin: */
457  pgxact->vacuumFlags &= ~PROC_VACUUM_STATE_MASK;
458  pgxact->delayChkpt = false; /* be sure this is cleared in abort */
459  proc->recoveryConflictPending = false;
460 
461  /* Clear the subtransaction-XID cache too while holding the lock */
462  pgxact->nxids = 0;
463  pgxact->overflowed = false;
464 
465  /* Also advance global latestCompletedXid while holding the lock */
466  if (TransactionIdPrecedes(ShmemVariableCache->latestCompletedXid,
467  latestXid))
468  ShmemVariableCache->latestCompletedXid = latestXid;
469 }
PGXACT::xmin
TransactionId xmin
Definition: proc.h:228
PGXACT::xid
TransactionId xid
Definition: proc.h:224
PGXACT::vacuumFlags
uint8 vacuumFlags
Definition: proc.h:233
PROC_VACUUM_STATE_MASK
#define PROC_VACUUM_STATE_MASK
Definition: proc.h:62
PGPROC::recoveryConflictPending
bool recoveryConflictPending
Definition: proc.h:127
PGXACT::nxids
uint8 nxids
Definition: proc.h:238
ShmemVariableCache
VariableCache ShmemVariableCache
Definition: varsup.c:34
InvalidTransactionId
#define InvalidTransactionId
Definition: transam.h:31
PGXACT::delayChkpt
bool delayChkpt
Definition: proc.h:235
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
PGXACT::overflowed
bool overflowed
Definition: proc.h:234
InvalidLocalTransactionId
#define InvalidLocalTransactionId
Definition: lock.h:69
PGPROC::lxid
LocalTransactionId lxid
Definition: proc.h:106
VariableCacheData::latestCompletedXid
TransactionId latestCompletedXid
Definition: transam.h:135

◆ ProcArrayGetReplicationSlotXmin()

void ProcArrayGetReplicationSlotXmin ( TransactionId xmin,
TransactionId catalog_xmin 
)

Definition at line 3005 of file procarray.c.

References LW_SHARED, LWLockAcquire(), LWLockRelease(), ProcArrayStruct::replication_slot_catalog_xmin, and ProcArrayStruct::replication_slot_xmin.

Referenced by logical_begin_heap_rewrite(), and XLogWalRcvSendHSFeedback().

3007 {
3008  LWLockAcquire(ProcArrayLock, LW_SHARED);
3009 
3010  if (xmin != NULL)
3011  *xmin = procArray->replication_slot_xmin;
3012 
3013  if (catalog_xmin != NULL)
3014  *catalog_xmin = procArray->replication_slot_catalog_xmin;
3015 
3016  LWLockRelease(ProcArrayLock);
3017 }
ProcArrayStruct::replication_slot_catalog_xmin
TransactionId replication_slot_catalog_xmin
Definition: procarray.c:92
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
ProcArrayStruct::replication_slot_xmin
TransactionId replication_slot_xmin
Definition: procarray.c:90
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121

◆ ProcArrayGroupClearXid()

static void ProcArrayGroupClearXid ( PGPROC proc,
TransactionId  latestXid 
)
static

Definition at line 484 of file procarray.c.

References Assert, INVALID_PGPROCNO, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), MyProc, pg_atomic_compare_exchange_u32(), pg_atomic_exchange_u32(), pg_atomic_read_u32(), pg_atomic_write_u32(), pg_write_barrier, PGPROC::pgprocno, PGSemaphoreLock(), PGSemaphoreUnlock(), pgstat_report_wait_end(), pgstat_report_wait_start(), ProcArrayEndTransactionInternal(), PROC_HDR::procArrayGroupFirst, PGPROC::procArrayGroupMember, PGPROC::procArrayGroupMemberXid, PGPROC::procArrayGroupNext, ProcGlobal, PGPROC::sem, TransactionIdIsValid, WAIT_EVENT_PROCARRAY_GROUP_UPDATE, and PGXACT::xid.

Referenced by ProcArrayEndTransaction().

485 {
486  volatile PROC_HDR *procglobal = ProcGlobal;
487  uint32 nextidx;
488  uint32 wakeidx;
489 
490  /* We should definitely have an XID to clear. */
491  Assert(TransactionIdIsValid(allPgXact[proc->pgprocno].xid));
492 
493  /* Add ourselves to the list of processes needing a group XID clear. */
494  proc->procArrayGroupMember = true;
495  proc->procArrayGroupMemberXid = latestXid;
496  while (true)
497  {
498  nextidx = pg_atomic_read_u32(&procglobal->procArrayGroupFirst);
499  pg_atomic_write_u32(&proc->procArrayGroupNext, nextidx);
500 
501  if (pg_atomic_compare_exchange_u32(&procglobal->procArrayGroupFirst,
502  &nextidx,
503  (uint32) proc->pgprocno))
504  break;
505  }
506 
507  /*
508  * If the list was not empty, the leader will clear our XID. It is
509  * impossible to have followers without a leader because the first process
510  * that has added itself to the list will always have nextidx as
511  * INVALID_PGPROCNO.
512  */
513  if (nextidx != INVALID_PGPROCNO)
514  {
515  int extraWaits = 0;
516 
517  /* Sleep until the leader clears our XID. */
518  pgstat_report_wait_start(WAIT_EVENT_PROCARRAY_GROUP_UPDATE);
519  for (;;)
520  {
521  /* acts as a read barrier */
522  PGSemaphoreLock(proc->sem);
523  if (!proc->procArrayGroupMember)
524  break;
525  extraWaits++;
526  }
527  pgstat_report_wait_end();
528 
529  Assert(pg_atomic_read_u32(&proc->procArrayGroupNext) == INVALID_PGPROCNO);
530 
531  /* Fix semaphore count for any absorbed wakeups */
532  while (extraWaits-- > 0)
533  PGSemaphoreUnlock(proc->sem);
534  return;
535  }
536 
537  /* We are the leader. Acquire the lock on behalf of everyone. */
538  LWLockAcquire(ProcArrayLock, LW_EXCLUSIVE);
539 
540  /*
541  * Now that we've got the lock, clear the list of processes waiting for
542  * group XID clearing, saving a pointer to the head of the list. Trying
543  * to pop elements one at a time could lead to an ABA problem.
544  */
545  nextidx = pg_atomic_exchange_u32(&procglobal->procArrayGroupFirst,
546  INVALID_PGPROCNO);
547 
548  /* Remember head of list so we can perform wakeups after dropping lock. */
549  wakeidx = nextidx;
550 
551  /* Walk the list and clear all XIDs. */
552  while (nextidx != INVALID_PGPROCNO)
553  {
554  PGPROC *proc = &allProcs[nextidx];
555  PGXACT *pgxact = &allPgXact[nextidx];
556 
557  ProcArrayEndTransactionInternal(proc, pgxact, proc->procArrayGroupMemberXid);
558 
559  /* Move to next proc in list. */
560  nextidx = pg_atomic_read_u32(&proc->procArrayGroupNext);
561  }
562 
563  /* We're done with the lock now. */
564  LWLockRelease(ProcArrayLock);
565 
566  /*
567  * Now that we've released the lock, go back and wake everybody up. We
568  * don't do this under the lock so as to keep lock hold times to a
569  * minimum. The system calls we need to perform to wake other processes
570  * up are probably much slower than the simple memory writes we did while
571  * holding the lock.
572  */
573  while (wakeidx != INVALID_PGPROCNO)
574  {
575  PGPROC *proc = &allProcs[wakeidx];
576 
577  wakeidx = pg_atomic_read_u32(&proc->procArrayGroupNext);
578  pg_atomic_write_u32(&proc->procArrayGroupNext, INVALID_PGPROCNO);
579 
580  /* ensure all previous writes are visible before follower continues. */
581  pg_write_barrier();
582 
583  proc->procArrayGroupMember = false;
584 
585  if (proc != MyProc)
586  PGSemaphoreUnlock(proc->sem);
587  }
588 }
PGPROC::procArrayGroupMember
bool procArrayGroupMember
Definition: proc.h:166
PGSemaphoreUnlock
void PGSemaphoreUnlock(PGSemaphore sema)
Definition: posix_sema.c:329
PGXACT
Definition: proc.h:222
pg_atomic_compare_exchange_u32
static bool pg_atomic_compare_exchange_u32(volatile pg_atomic_uint32 *ptr, uint32 *expected, uint32 newval)
Definition: atomics.h:314
MyProc
PGPROC * MyProc
Definition: proc.c:67
PGXACT::xid
TransactionId xid
Definition: proc.h:224
ProcGlobal
PROC_HDR * ProcGlobal
Definition: proc.c:80
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
pg_atomic_exchange_u32
static uint32 pg_atomic_exchange_u32(volatile pg_atomic_uint32 *ptr, uint32 newval)
Definition: atomics.h:295
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
uint32
unsigned int uint32
Definition: c.h:358
pgstat_report_wait_end
static void pgstat_report_wait_end(void)
Definition: pgstat.h:1261
INVALID_PGPROCNO
#define INVALID_PGPROCNO
Definition: proc.h:77
PGPROC::procArrayGroupNext
pg_atomic_uint32 procArrayGroupNext
Definition: proc.h:168
PROC_HDR
Definition: proc.h:244
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
ProcArrayEndTransactionInternal
static void ProcArrayEndTransactionInternal(PGPROC *proc, PGXACT *pgxact, TransactionId latestXid)
Definition: procarray.c:450
Assert
#define Assert(condition)
Definition: c.h:732
pgstat_report_wait_start
static void pgstat_report_wait_start(uint32 wait_event_info)
Definition: pgstat.h:1237
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
PGSemaphoreLock
void PGSemaphoreLock(PGSemaphore sema)
Definition: posix_sema.c:309
PGPROC::pgprocno
int pgprocno
Definition: proc.h:110
PROC_HDR::procArrayGroupFirst
pg_atomic_uint32 procArrayGroupFirst
Definition: proc.h:259
pg_write_barrier
#define pg_write_barrier()
Definition: atomics.h:162
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
pg_atomic_write_u32
static void pg_atomic_write_u32(volatile pg_atomic_uint32 *ptr, uint32 val)
Definition: atomics.h:261
PGPROC::sem
PGSemaphore sem
Definition: proc.h:101
PGPROC
Definition: proc.h:95
PGPROC::procArrayGroupMemberXid
TransactionId procArrayGroupMemberXid
Definition: proc.h:174
pg_atomic_read_u32
static uint32 pg_atomic_read_u32(volatile pg_atomic_uint32 *ptr)
Definition: atomics.h:244

◆ ProcArrayInitRecovery()

void ProcArrayInitRecovery ( TransactionId  initializedUptoXID)

Definition at line 631 of file procarray.c.

References Assert, latestObservedXid, STANDBY_INITIALIZED, standbyState, TransactionIdIsNormal, and TransactionIdRetreat.

Referenced by StartupXLOG().

632 {
633  Assert(standbyState == STANDBY_INITIALIZED);
634  Assert(TransactionIdIsNormal(initializedUptoXID));
635 
636  /*
637  * we set latestObservedXid to the xid SUBTRANS has been initialized up
638  * to, so we can extend it from that point onwards in
639  * RecordKnownAssignedTransactionIds, and when we get consistent in
640  * ProcArrayApplyRecoveryInfo().
641  */
642  latestObservedXid = initializedUptoXID;
643  TransactionIdRetreat(latestObservedXid);
644 }
latestObservedXid
static TransactionId latestObservedXid
Definition: procarray.c:108
TransactionIdRetreat
#define TransactionIdRetreat(dest)
Definition: transam.h:56
Assert
#define Assert(condition)
Definition: c.h:732
TransactionIdIsNormal
#define TransactionIdIsNormal(xid)
Definition: transam.h:42
standbyState
HotStandbyState standbyState
Definition: xlog.c:197

◆ ProcArrayInstallImportedXmin()

bool ProcArrayInstallImportedXmin ( TransactionId  xmin,
VirtualTransactionId sourcevxid 
)

Definition at line 1799 of file procarray.c.

References Assert, VirtualTransactionId::backendId, PGPROC::backendId, PGPROC::databaseId, VirtualTransactionId::localTransactionId, LW_SHARED, LWLockAcquire(), LWLockRelease(), PGPROC::lxid, MyDatabaseId, MyPgXact, ProcArrayStruct::numProcs, ProcArrayStruct::pgprocnos, PROC_IN_VACUUM, procArray, TransactionIdIsNormal, TransactionIdPrecedesOrEquals(), TransactionXmin, PGXACT::vacuumFlags, and PGXACT::xmin.

Referenced by GetSerializableTransactionSnapshotInt(), and SetTransactionSnapshot().

1801 {
1802  bool result = false;
1803  ProcArrayStruct *arrayP = procArray;
1804  int index;
1805 
1806  Assert(TransactionIdIsNormal(xmin));
1807  if (!sourcevxid)
1808  return false;
1809 
1810  /* Get lock so source xact can't end while we're doing this */
1811  LWLockAcquire(ProcArrayLock, LW_SHARED);
1812 
1813  for (index = 0; index < arrayP->numProcs; index++)
1814  {
1815  int pgprocno = arrayP->pgprocnos[index];
1816  volatile PGPROC *proc = &allProcs[pgprocno];
1817  volatile PGXACT *pgxact = &allPgXact[pgprocno];
1818  TransactionId xid;
1819 
1820  /* Ignore procs running LAZY VACUUM */
1821  if (pgxact->vacuumFlags & PROC_IN_VACUUM)
1822  continue;
1823 
1824  /* We are only interested in the specific virtual transaction. */
1825  if (proc->backendId != sourcevxid->backendId)
1826  continue;
1827  if (proc->lxid != sourcevxid->localTransactionId)
1828  continue;
1829 
1830  /*
1831  * We check the transaction's database ID for paranoia's sake: if it's
1832  * in another DB then its xmin does not cover us. Caller should have
1833  * detected this already, so we just treat any funny cases as
1834  * "transaction not found".
1835  */
1836  if (proc->databaseId != MyDatabaseId)
1837  continue;
1838 
1839  /*
1840  * Likewise, let's just make real sure its xmin does cover us.
1841  */
1842  xid = pgxact->xmin; /* fetch just once */
1843  if (!TransactionIdIsNormal(xid) ||
1844  !TransactionIdPrecedesOrEquals(xid, xmin))
1845  continue;
1846 
1847  /*
1848  * We're good. Install the new xmin. As in GetSnapshotData, set
1849  * TransactionXmin too. (Note that because snapmgr.c called
1850  * GetSnapshotData first, we'll be overwriting a valid xmin here, so
1851  * we don't check that.)
1852  */
1853  MyPgXact->xmin = TransactionXmin = xmin;
1854 
1855  result = true;
1856  break;
1857  }
1858 
1859  LWLockRelease(ProcArrayLock);
1860 
1861  return result;
1862 }
PGPROC::backendId
BackendId backendId
Definition: proc.h:113
TransactionId
uint32 TransactionId
Definition: c.h:507
PGXACT
Definition: proc.h:222
PGXACT::xmin
TransactionId xmin
Definition: proc.h:228
VirtualTransactionId::localTransactionId
LocalTransactionId localTransactionId
Definition: lock.h:66
MyPgXact
PGXACT * MyPgXact
Definition: proc.c:68
PGXACT::vacuumFlags
uint8 vacuumFlags
Definition: proc.h:233
TransactionXmin
TransactionId TransactionXmin
Definition: snapmgr.c:164
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
PROC_IN_VACUUM
#define PROC_IN_VACUUM
Definition: proc.h:54
TransactionIdPrecedesOrEquals
bool TransactionIdPrecedesOrEquals(TransactionId id1, TransactionId id2)
Definition: transam.c:319
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
PGPROC::databaseId
Oid databaseId
Definition: proc.h:114
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
MyDatabaseId
Oid MyDatabaseId
Definition: globals.c:84
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
Assert
#define Assert(condition)
Definition: c.h:732
VirtualTransactionId::backendId
BackendId backendId
Definition: lock.h:65
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
TransactionIdIsNormal
#define TransactionIdIsNormal(xid)
Definition: transam.h:42
PGPROC
Definition: proc.h:95
PGPROC::lxid
LocalTransactionId lxid
Definition: proc.h:106

◆ ProcArrayInstallRestoredXmin()

bool ProcArrayInstallRestoredXmin ( TransactionId  xmin,
PGPROC proc 
)

Definition at line 1874 of file procarray.c.

References Assert, PGPROC::databaseId, LW_SHARED, LWLockAcquire(), LWLockRelease(), MyDatabaseId, MyPgXact, PGPROC::pgprocno, TransactionIdIsNormal, TransactionIdPrecedesOrEquals(), TransactionXmin, and PGXACT::xmin.

Referenced by SetTransactionSnapshot().

1875 {
1876  bool result = false;
1877  TransactionId xid;
1878  volatile PGXACT *pgxact;
1879 
1880  Assert(TransactionIdIsNormal(xmin));
1881  Assert(proc != NULL);
1882 
1883  /* Get lock so source xact can't end while we're doing this */
1884  LWLockAcquire(ProcArrayLock, LW_SHARED);
1885 
1886  pgxact = &allPgXact[proc->pgprocno];
1887 
1888  /*
1889  * Be certain that the referenced PGPROC has an advertised xmin which is
1890  * no later than the one we're installing, so that the system-wide xmin
1891  * can't go backwards. Also, make sure it's running in the same database,
1892  * so that the per-database xmin cannot go backwards.
1893  */
1894  xid = pgxact->xmin; /* fetch just once */
1895  if (proc->databaseId == MyDatabaseId &&
1896  TransactionIdIsNormal(xid) &&
1897  TransactionIdPrecedesOrEquals(xid, xmin))
1898  {
1899  MyPgXact->xmin = TransactionXmin = xmin;
1900  result = true;
1901  }
1902 
1903  LWLockRelease(ProcArrayLock);
1904 
1905  return result;
1906 }
TransactionId
uint32 TransactionId
Definition: c.h:507
PGXACT
Definition: proc.h:222
PGXACT::xmin
TransactionId xmin
Definition: proc.h:228
MyPgXact
PGXACT * MyPgXact
Definition: proc.c:68
TransactionXmin
TransactionId TransactionXmin
Definition: snapmgr.c:164
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
TransactionIdPrecedesOrEquals
bool TransactionIdPrecedesOrEquals(TransactionId id1, TransactionId id2)
Definition: transam.c:319
PGPROC::databaseId
Oid databaseId
Definition: proc.h:114
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
MyDatabaseId
Oid MyDatabaseId
Definition: globals.c:84
Assert
#define Assert(condition)
Definition: c.h:732
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
PGPROC::pgprocno
int pgprocno
Definition: proc.h:110
TransactionIdIsNormal
#define TransactionIdIsNormal(xid)
Definition: transam.h:42

◆ ProcArrayRemove()

void ProcArrayRemove ( PGPROC proc,
TransactionId  latestXid 
)

Definition at line 333 of file procarray.c.

References Assert, elog, VariableCacheData::latestCompletedXid, LOG, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), memmove, ProcArrayStruct::numProcs, PGPROC::pgprocno, ProcArrayStruct::pgprocnos, PGPROC::pid, procArray, ShmemVariableCache, TransactionIdIsValid, TransactionIdPrecedes(), and PGXACT::xid.

Referenced by FinishPreparedTransaction(), and RemoveProcFromArray().

334 {
335  ProcArrayStruct *arrayP = procArray;
336  int index;
337 
338 #ifdef XIDCACHE_DEBUG
339  /* dump stats at backend shutdown, but not prepared-xact end */
340  if (proc->pid != 0)
341  DisplayXidCache();
342 #endif
343 
344  LWLockAcquire(ProcArrayLock, LW_EXCLUSIVE);
345 
346  if (TransactionIdIsValid(latestXid))
347  {
348  Assert(TransactionIdIsValid(allPgXact[proc->pgprocno].xid));
349 
350  /* Advance global latestCompletedXid while holding the lock */
351  if (TransactionIdPrecedes(ShmemVariableCache->latestCompletedXid,
352  latestXid))
353  ShmemVariableCache->latestCompletedXid = latestXid;
354  }
355  else
356  {
357  /* Shouldn't be trying to remove a live transaction here */
358  Assert(!TransactionIdIsValid(allPgXact[proc->pgprocno].xid));
359  }
360 
361  for (index = 0; index < arrayP->numProcs; index++)
362  {
363  if (arrayP->pgprocnos[index] == proc->pgprocno)
364  {
365  /* Keep the PGPROC array sorted. See notes above */
366  memmove(&arrayP->pgprocnos[index], &arrayP->pgprocnos[index + 1],
367  (arrayP->numProcs - index - 1) * sizeof(int));
368  arrayP->pgprocnos[arrayP->numProcs - 1] = -1; /* for debugging */
369  arrayP->numProcs--;
370  LWLockRelease(ProcArrayLock);
371  return;
372  }
373  }
374 
375  /* Oops */
376  LWLockRelease(ProcArrayLock);
377 
378  elog(LOG, "failed to find proc %p in ProcArray", proc);
379 }
PGXACT::xid
TransactionId xid
Definition: proc.h:224
LOG
#define LOG
Definition: elog.h:26
index
Definition: type.h:89
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
memmove
#define memmove(d, s, c)
Definition: c.h:1194
ShmemVariableCache
VariableCache ShmemVariableCache
Definition: varsup.c:34
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
Assert
#define Assert(condition)
Definition: c.h:732
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
PGPROC::pgprocno
int pgprocno
Definition: proc.h:110
elog
#define elog(elevel,...)
Definition: elog.h:226
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
PGPROC::pid
int pid
Definition: proc.h:109
VariableCacheData::latestCompletedXid
TransactionId latestCompletedXid
Definition: transam.h:135

◆ ProcArraySetReplicationSlotXmin()

void ProcArraySetReplicationSlotXmin ( TransactionId  xmin,
TransactionId  catalog_xmin,
bool  already_locked 
)

Definition at line 2983 of file procarray.c.

References Assert, LW_EXCLUSIVE, LWLockAcquire(), LWLockHeldByMe(), LWLockRelease(), ProcArrayStruct::replication_slot_catalog_xmin, and ProcArrayStruct::replication_slot_xmin.

Referenced by ReplicationSlotsComputeRequiredXmin().

2985 {
2986  Assert(!already_locked || LWLockHeldByMe(ProcArrayLock));
2987 
2988  if (!already_locked)
2989  LWLockAcquire(ProcArrayLock, LW_EXCLUSIVE);
2990 
2991  procArray->replication_slot_xmin = xmin;
2992  procArray->replication_slot_catalog_xmin = catalog_xmin;
2993 
2994  if (!already_locked)
2995  LWLockRelease(ProcArrayLock);
2996 }
LWLockHeldByMe
bool LWLockHeldByMe(LWLock *l)
Definition: lwlock.c:1841
ProcArrayStruct::replication_slot_catalog_xmin
TransactionId replication_slot_catalog_xmin
Definition: procarray.c:92
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
ProcArrayStruct::replication_slot_xmin
TransactionId replication_slot_xmin
Definition: procarray.c:90
Assert
#define Assert(condition)
Definition: c.h:732
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121

◆ ProcArrayShmemSize()

Size ProcArrayShmemSize ( void  )

Definition at line 179 of file procarray.c.

References add_size(), EnableHotStandby, mul_size(), offsetof, ProcArrayStruct::pgprocnos, PROCARRAY_MAXPROCS, and TOTAL_MAX_CACHED_SUBXIDS.

Referenced by CreateSharedMemoryAndSemaphores().

180 {
181  Size size;
182 
183  /* Size of the ProcArray structure itself */
184 #define PROCARRAY_MAXPROCS (MaxBackends + max_prepared_xacts)
185 
186  size = offsetof(ProcArrayStruct, pgprocnos);
187  size = add_size(size, mul_size(sizeof(int), PROCARRAY_MAXPROCS));
188 
189  /*
190  * During Hot Standby processing we have a data structure called
191  * KnownAssignedXids, created in shared memory. Local data structures are
192  * also created in various backends during GetSnapshotData(),
193  * TransactionIdIsInProgress() and GetRunningTransactionData(). All of the
194  * main structures created in those functions must be identically sized,
195  * since we may at times copy the whole of the data structures around. We
196  * refer to this size as TOTAL_MAX_CACHED_SUBXIDS.
197  *
198  * Ideally we'd only create this structure if we were actually doing hot
199  * standby in the current run, but we don't know that yet at the time
200  * shared memory is being set up.
201  */
202 #define TOTAL_MAX_CACHED_SUBXIDS \
203  ((PGPROC_MAX_CACHED_SUBXIDS + 1) * PROCARRAY_MAXPROCS)
204 
205  if (EnableHotStandby)
206  {
207  size = add_size(size,
208  mul_size(sizeof(TransactionId),
209  TOTAL_MAX_CACHED_SUBXIDS));
210  size = add_size(size,
211  mul_size(sizeof(bool), TOTAL_MAX_CACHED_SUBXIDS));
212  }
213 
214  return size;
215 }
PROCARRAY_MAXPROCS
#define PROCARRAY_MAXPROCS
TransactionId
uint32 TransactionId
Definition: c.h:507
mul_size
Size mul_size(Size s1, Size s2)
Definition: shmem.c:492
add_size
Size add_size(Size s1, Size s2)
Definition: shmem.c:475
TOTAL_MAX_CACHED_SUBXIDS
#define TOTAL_MAX_CACHED_SUBXIDS
Size
size_t Size
Definition: c.h:466
EnableHotStandby
bool EnableHotStandby
Definition: xlog.c:96
offsetof
#define offsetof(type, field)
Definition: c.h:655

◆ RecordKnownAssignedTransactionIds()

void RecordKnownAssignedTransactionIds ( TransactionId  xid)

Definition at line 3192 of file procarray.c.

References Assert, DEBUG4, elog, ExtendSUBTRANS(), KnownAssignedXidsAdd(), latestObservedXid, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), VariableCacheData::nextXid, ShmemVariableCache, STANDBY_INITIALIZED, standbyState, trace_recovery(), TransactionIdAdvance, TransactionIdFollows(), TransactionIdIsValid, and TransactionIdPrecedes().

Referenced by ProcArrayApplyXidAssignment(), StartupXLOG(), xact_redo_abort(), and xact_redo_commit().

3193 {
3194  Assert(standbyState >= STANDBY_INITIALIZED);
3195  Assert(TransactionIdIsValid(xid));
3196  Assert(TransactionIdIsValid(latestObservedXid));
3197 
3198  elog(trace_recovery(DEBUG4), "record known xact %u latestObservedXid %u",
3199  xid, latestObservedXid);
3200 
3201  /*
3202  * When a newly observed xid arrives, it is frequently the case that it is
3203  * *not* the next xid in sequence. When this occurs, we must treat the
3204  * intervening xids as running also.
3205  */
3206  if (TransactionIdFollows(xid, latestObservedXid))
3207  {
3208  TransactionId next_expected_xid;
3209 
3210  /*
3211  * Extend subtrans like we do in GetNewTransactionId() during normal
3212  * operation using individual extend steps. Note that we do not need
3213  * to extend clog since its extensions are WAL logged.
3214  *
3215  * This part has to be done regardless of standbyState since we
3216  * immediately start assigning subtransactions to their toplevel
3217  * transactions.
3218  */
3219  next_expected_xid = latestObservedXid;
3220  while (TransactionIdPrecedes(next_expected_xid, xid))
3221  {
3222  TransactionIdAdvance(next_expected_xid);
3223  ExtendSUBTRANS(next_expected_xid);
3224  }
3225  Assert(next_expected_xid == xid);
3226 
3227  /*
3228  * If the KnownAssignedXids machinery isn't up yet, there's nothing
3229  * more to do since we don't track assigned xids yet.
3230  */
3231  if (standbyState <= STANDBY_INITIALIZED)
3232  {
3233  latestObservedXid = xid;
3234  return;
3235  }
3236 
3237  /*
3238  * Add (latestObservedXid, xid] onto the KnownAssignedXids array.
3239  */
3240  next_expected_xid = latestObservedXid;
3241  TransactionIdAdvance(next_expected_xid);
3242  KnownAssignedXidsAdd(next_expected_xid, xid, false);
3243 
3244  /*
3245  * Now we can advance latestObservedXid
3246  */
3247  latestObservedXid = xid;
3248 
3249  /* ShmemVariableCache->nextXid must be beyond any observed xid */
3250  next_expected_xid = latestObservedXid;
3251  TransactionIdAdvance(next_expected_xid);
3252  LWLockAcquire(XidGenLock, LW_EXCLUSIVE);
3253  ShmemVariableCache->nextXid = next_expected_xid;
3254  LWLockRelease(XidGenLock);
3255  }
3256 }
TransactionIdAdvance
#define TransactionIdAdvance(dest)
Definition: transam.h:48
latestObservedXid
static TransactionId latestObservedXid
Definition: procarray.c:108
TransactionIdFollows
bool TransactionIdFollows(TransactionId id1, TransactionId id2)
Definition: transam.c:334
TransactionId
uint32 TransactionId
Definition: c.h:507
DEBUG4
#define DEBUG4
Definition: elog.h:22
trace_recovery
int trace_recovery(int trace_level)
Definition: elog.c:3481
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
ExtendSUBTRANS
void ExtendSUBTRANS(TransactionId newestXact)
Definition: subtrans.c:324
VariableCacheData::nextXid
TransactionId nextXid
Definition: transam.h:117
ShmemVariableCache
VariableCache ShmemVariableCache
Definition: varsup.c:34
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
Assert
#define Assert(condition)
Definition: c.h:732
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
KnownAssignedXidsAdd
static void KnownAssignedXidsAdd(TransactionId from_xid, TransactionId to_xid, bool exclusive_lock)
Definition: procarray.c:3468
elog
#define elog(elevel,...)
Definition: elog.h:226
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
standbyState
HotStandbyState standbyState
Definition: xlog.c:197

◆ TransactionIdIsActive()

bool TransactionIdIsActive ( TransactionId  xid)

Definition at line 1218 of file procarray.c.

References i, LW_SHARED, LWLockAcquire(), LWLockRelease(), ProcArrayStruct::numProcs, ProcArrayStruct::pgprocnos, PGPROC::pid, procArray, RecentXmin, TransactionIdEquals, TransactionIdIsValid, TransactionIdPrecedes(), and PGXACT::xid.

1219 {
1220  bool result = false;
1221  ProcArrayStruct *arrayP = procArray;
1222  int i;
1223 
1224  /*
1225  * Don't bother checking a transaction older than RecentXmin; it could not
1226  * possibly still be running.
1227  */
1228  if (TransactionIdPrecedes(xid, RecentXmin))
1229  return false;
1230 
1231  LWLockAcquire(ProcArrayLock, LW_SHARED);
1232 
1233  for (i = 0; i < arrayP->numProcs; i++)
1234  {
1235  int pgprocno = arrayP->pgprocnos[i];
1236  volatile PGPROC *proc = &allProcs[pgprocno];
1237  volatile PGXACT *pgxact = &allPgXact[pgprocno];
1238  TransactionId pxid;
1239 
1240  /* Fetch xid just once - see GetNewTransactionId */
1241  pxid = pgxact->xid;
1242 
1243  if (!TransactionIdIsValid(pxid))
1244  continue;
1245 
1246  if (proc->pid == 0)
1247  continue; /* ignore prepared transactions */
1248 
1249  if (TransactionIdEquals(pxid, xid))
1250  {
1251  result = true;
1252  break;
1253  }
1254  }
1255 
1256  LWLockRelease(ProcArrayLock);
1257 
1258  return result;
1259 }
TransactionIdEquals
#define TransactionIdEquals(id1, id2)
Definition: transam.h:43
TransactionId
uint32 TransactionId
Definition: c.h:507
PGXACT
Definition: proc.h:222
PGXACT::xid
TransactionId xid
Definition: proc.h:224
RecentXmin
TransactionId RecentXmin
Definition: snapmgr.c:165
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
i
int i
Definition: preproc-comment.c:23
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
PGPROC
Definition: proc.h:95
PGPROC::pid
int pid
Definition: proc.h:109

◆ TransactionIdIsInProgress()

bool TransactionIdIsInProgress ( TransactionId  xid)

Definition at line 1001 of file procarray.c.

References Assert, ereport, errcode(), errmsg(), ERROR, i, KnownAssignedXidExists(), KnownAssignedXidsGet(), ProcArrayStruct::lastOverflowedXid, VariableCacheData::latestCompletedXid, LW_SHARED, LWLockAcquire(), LWLockRelease(), malloc, ProcArrayStruct::maxProcs, MyProc, ProcArrayStruct::numProcs, PGXACT::nxids, PGXACT::overflowed, ProcArrayStruct::pgprocnos, procArray, RecentXmin, RecoveryInProgress(), ShmemVariableCache, SubTransGetTopmostTransaction(), PGPROC::subxids, TOTAL_MAX_CACHED_SUBXIDS, TransactionIdDidAbort(), TransactionIdEquals, TransactionIdIsCurrentTransactionId(), TransactionIdIsKnownCompleted(), TransactionIdIsValid, TransactionIdPrecedes(), TransactionIdPrecedesOrEquals(), xc_by_child_xid_inc, xc_by_known_assigned_inc, xc_by_known_xact_inc, xc_by_latest_xid_inc, xc_by_main_xid_inc, xc_by_my_xact_inc, xc_by_recent_xmin_inc, xc_no_overflow_inc, xc_slow_answer_inc, PGXACT::xid, and XidCache::xids.

Referenced by check_safe_enum_use(), compute_new_xmax_infomask(), ConditionalXactLockTableWait(), Do_MultiXactIdWait(), DoesMultiXactIdConflict(), FreezeMultiXactId(), HeapTupleHeaderIsOnlyLocked(), HeapTupleSatisfiesDirty(), HeapTupleSatisfiesSelf(), HeapTupleSatisfiesToast(), HeapTupleSatisfiesUpdate(), HeapTupleSatisfiesVacuum(), MultiXactIdExpand(), MultiXactIdIsRunning(), test_lockmode_for_conflict(), and XactLockTableWait().

1002 {
1003  static TransactionId *xids = NULL;
1004  int nxids = 0;
1005  ProcArrayStruct *arrayP = procArray;
1006  TransactionId topxid;
1007  int i,
1008  j;
1009 
1010  /*
1011  * Don't bother checking a transaction older than RecentXmin; it could not
1012  * possibly still be running. (Note: in particular, this guarantees that
1013  * we reject InvalidTransactionId, FrozenTransactionId, etc as not
1014  * running.)
1015  */
1016  if (TransactionIdPrecedes(xid, RecentXmin))
1017  {
1018  xc_by_recent_xmin_inc();
1019  return false;
1020  }
1021 
1022  /*
1023  * We may have just checked the status of this transaction, so if it is
1024  * already known to be completed, we can fall out without any access to
1025  * shared memory.
1026  */
1027  if (TransactionIdIsKnownCompleted(xid))
1028  {
1029  xc_by_known_xact_inc();
1030  return false;
1031  }
1032 
1033  /*
1034  * Also, we can handle our own transaction (and subtransactions) without
1035  * any access to shared memory.
1036  */
1037  if (TransactionIdIsCurrentTransactionId(xid))
1038  {
1039  xc_by_my_xact_inc();
1040  return true;
1041  }
1042 
1043  /*
1044  * If first time through, get workspace to remember main XIDs in. We
1045  * malloc it permanently to avoid repeated palloc/pfree overhead.
1046  */
1047  if (xids == NULL)
1048  {
1049  /*
1050  * In hot standby mode, reserve enough space to hold all xids in the
1051  * known-assigned list. If we later finish recovery, we no longer need
1052  * the bigger array, but we don't bother to shrink it.
1053  */
1054  int maxxids = RecoveryInProgress() ? TOTAL_MAX_CACHED_SUBXIDS : arrayP->maxProcs;
1055 
1056  xids = (TransactionId *) malloc(maxxids * sizeof(TransactionId));
1057  if (xids == NULL)
1058  ereport(ERROR,
1059  (errcode(ERRCODE_OUT_OF_MEMORY),
1060  errmsg("out of memory")));
1061  }
1062 
1063  LWLockAcquire(ProcArrayLock, LW_SHARED);
1064 
1065  /*
1066  * Now that we have the lock, we can check latestCompletedXid; if the
1067  * target Xid is after that, it's surely still running.
1068  */
1069  if (TransactionIdPrecedes(ShmemVariableCache->latestCompletedXid, xid))
1070  {
1071  LWLockRelease(ProcArrayLock);
1072  xc_by_latest_xid_inc();
1073  return true;
1074  }
1075 
1076  /* No shortcuts, gotta grovel through the array */
1077  for (i = 0; i < arrayP->numProcs; i++)
1078  {
1079  int pgprocno = arrayP->pgprocnos[i];
1080  volatile PGPROC *proc = &allProcs[pgprocno];
1081  volatile PGXACT *pgxact = &allPgXact[pgprocno];
1082  TransactionId pxid;
1083 
1084  /* Ignore my own proc --- dealt with it above */
1085  if (proc == MyProc)
1086  continue;
1087 
1088  /* Fetch xid just once - see GetNewTransactionId */
1089  pxid = pgxact->xid;
1090 
1091  if (!TransactionIdIsValid(pxid))
1092  continue;
1093 
1094  /*
1095  * Step 1: check the main Xid
1096  */
1097  if (TransactionIdEquals(pxid, xid))
1098  {
1099  LWLockRelease(ProcArrayLock);
1100  xc_by_main_xid_inc();
1101  return true;
1102  }
1103 
1104  /*
1105  * We can ignore main Xids that are younger than the target Xid, since
1106  * the target could not possibly be their child.
1107  */
1108  if (TransactionIdPrecedes(xid, pxid))
1109  continue;
1110 
1111  /*
1112  * Step 2: check the cached child-Xids arrays
1113  */
1114  for (j = pgxact->nxids - 1; j >= 0; j--)
1115  {
1116  /* Fetch xid just once - see GetNewTransactionId */
1117  TransactionId cxid = proc->subxids.xids[j];
1118 
1119  if (TransactionIdEquals(cxid, xid))
1120  {
1121  LWLockRelease(ProcArrayLock);
1122  xc_by_child_xid_inc();
1123  return true;
1124  }
1125  }
1126 
1127  /*
1128  * Save the main Xid for step 4. We only need to remember main Xids
1129  * that have uncached children. (Note: there is no race condition
1130  * here because the overflowed flag cannot be cleared, only set, while
1131  * we hold ProcArrayLock. So we can't miss an Xid that we need to
1132  * worry about.)
1133  */
1134  if (pgxact->overflowed)
1135  xids[nxids++] = pxid;
1136  }
1137 
1138  /*
1139  * Step 3: in hot standby mode, check the known-assigned-xids list. XIDs
1140  * in the list must be treated as running.
1141  */
1142  if (RecoveryInProgress())
1143  {
1144  /* none of the PGXACT entries should have XIDs in hot standby mode */
1145  Assert(nxids == 0);
1146 
1147  if (KnownAssignedXidExists(xid))
1148  {
1149  LWLockRelease(ProcArrayLock);
1150  xc_by_known_assigned_inc();
1151  return true;
1152  }
1153 
1154  /*
1155  * If the KnownAssignedXids overflowed, we have to check pg_subtrans
1156  * too. Fetch all xids from KnownAssignedXids that are lower than
1157  * xid, since if xid is a subtransaction its parent will always have a
1158  * lower value. Note we will collect both main and subXIDs here, but
1159  * there's no help for it.
1160  */
1161  if (TransactionIdPrecedesOrEquals(xid, procArray->lastOverflowedXid))
1162  nxids = KnownAssignedXidsGet(xids, xid);
1163  }
1164 
1165  LWLockRelease(ProcArrayLock);
1166 
1167  /*
1168  * If none of the relevant caches overflowed, we know the Xid is not
1169  * running without even looking at pg_subtrans.
1170  */
1171  if (nxids == 0)
1172  {
1173  xc_no_overflow_inc();
1174  return false;
1175  }
1176 
1177  /*
1178  * Step 4: have to check pg_subtrans.
1179  *
1180  * At this point, we know it's either a subtransaction of one of the Xids
1181  * in xids[], or it's not running. If it's an already-failed
1182  * subtransaction, we want to say "not running" even though its parent may
1183  * still be running. So first, check pg_xact to see if it's been aborted.
1184  */
1185  xc_slow_answer_inc();
1186 
1187  if (TransactionIdDidAbort(xid))
1188  return false;
1189 
1190  /*
1191  * It isn't aborted, so check whether the transaction tree it belongs to
1192  * is still running (or, more precisely, whether it was running when we
1193  * held ProcArrayLock).
1194  */
1195  topxid = SubTransGetTopmostTransaction(xid);
1196  Assert(TransactionIdIsValid(topxid));
1197  if (!TransactionIdEquals(topxid, xid))
1198  {
1199  for (i = 0; i < nxids; i++)
1200  {
1201  if (TransactionIdEquals(xids[i], topxid))
1202  return true;
1203  }
1204  }
1205 
1206  return false;
1207 }
TransactionIdEquals
#define TransactionIdEquals(id1, id2)
Definition: transam.h:43
TransactionId
uint32 TransactionId
Definition: c.h:507
PGXACT
Definition: proc.h:222
TransactionIdIsCurrentTransactionId
bool TransactionIdIsCurrentTransactionId(TransactionId xid)
Definition: xact.c:769
SubTransGetTopmostTransaction
TransactionId SubTransGetTopmostTransaction(TransactionId xid)
Definition: subtrans.c:150
MyProc
PGPROC * MyProc
Definition: proc.c:67
PGXACT::xid
TransactionId xid
Definition: proc.h:224
xc_by_my_xact_inc
#define xc_by_my_xact_inc()
Definition: procarray.c:145
errcode
int errcode(int sqlerrcode)
Definition: elog.c:572
RecentXmin
TransactionId RecentXmin
Definition: snapmgr.c:165
RecoveryInProgress
bool RecoveryInProgress(void)
Definition: xlog.c:8082
xc_by_child_xid_inc
#define xc_by_child_xid_inc()
Definition: procarray.c:148
TransactionIdIsKnownCompleted
bool TransactionIdIsKnownCompleted(TransactionId transactionId)
Definition: transam.c:238
malloc
#define malloc(a)
Definition: header.h:50
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
xc_by_recent_xmin_inc
#define xc_by_recent_xmin_inc()
Definition: procarray.c:143
xc_by_known_xact_inc
#define xc_by_known_xact_inc()
Definition: procarray.c:144
TransactionIdPrecedesOrEquals
bool TransactionIdPrecedesOrEquals(TransactionId id1, TransactionId id2)
Definition: transam.c:319
ERROR
#define ERROR
Definition: elog.h:43
xc_by_main_xid_inc
#define xc_by_main_xid_inc()
Definition: procarray.c:147
xc_by_known_assigned_inc
#define xc_by_known_assigned_inc()
Definition: procarray.c:149
PGXACT::nxids
uint8 nxids
Definition: proc.h:238
ShmemVariableCache
VariableCache ShmemVariableCache
Definition: varsup.c:34
allProcs
static PGPROC * allProcs
Definition: procarray.c:100
PGPROC::subxids
struct XidCache subxids
Definition: proc.h:162
ProcArrayStruct::lastOverflowedXid
TransactionId lastOverflowedXid
Definition: procarray.c:87
ereport
#define ereport(elevel, rest)
Definition: elog.h:141
TransactionIdDidAbort
bool TransactionIdDidAbort(TransactionId transactionId)
Definition: transam.c:181
xc_by_latest_xid_inc
#define xc_by_latest_xid_inc()
Definition: procarray.c:146
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
procArray
static ProcArrayStruct * procArray
Definition: procarray.c:98
allPgXact
static PGXACT * allPgXact
Definition: procarray.c:101
KnownAssignedXidsGet
static int KnownAssignedXidsGet(TransactionId *xarray, TransactionId xmax)
Definition: procarray.c:3821
PGXACT::overflowed
bool overflowed
Definition: proc.h:234
ProcArrayStruct::pgprocnos
int pgprocnos[FLEXIBLE_ARRAY_MEMBER]
Definition: procarray.c:95
XidCache::xids
TransactionId xids[PGPROC_MAX_CACHED_SUBXIDS]
Definition: proc.h:40
TOTAL_MAX_CACHED_SUBXIDS
#define TOTAL_MAX_CACHED_SUBXIDS
Assert
#define Assert(condition)
Definition: c.h:732
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
xc_no_overflow_inc
#define xc_no_overflow_inc()
Definition: procarray.c:150
KnownAssignedXidExists
static bool KnownAssignedXidExists(TransactionId xid)
Definition: procarray.c:3681
xc_slow_answer_inc
#define xc_slow_answer_inc()
Definition: procarray.c:151
errmsg
int errmsg(const char *fmt,...)
Definition: elog.c:786
i
int i
Definition: preproc-comment.c:23
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
PGPROC
Definition: proc.h:95
VariableCacheData::latestCompletedXid
TransactionId latestCompletedXid
Definition: transam.h:135

◆ XidCacheRemoveRunningXids()

void XidCacheRemoveRunningXids ( TransactionId  xid,
int  nxids,
const TransactionId xids,
TransactionId  latestXid 
)

Definition at line 3035 of file procarray.c.

References Assert, elog, fprintf, i, VariableCacheData::latestCompletedXid, LW_EXCLUSIVE, LWLockAcquire(), LWLockRelease(), MyPgXact, MyProc, PGXACT::nxids, ShmemVariableCache, PGPROC::subxids, TransactionIdEquals, TransactionIdIsValid, TransactionIdPrecedes(), WARNING, XidCacheRemove, and XidCache::xids.

Referenced by RecordTransactionAbort().

3038 {
3039  int i,
3040  j;
3041 
3042  Assert(TransactionIdIsValid(xid));
3043 
3044  /*
3045  * We must hold ProcArrayLock exclusively in order to remove transactions
3046  * from the PGPROC array. (See src/backend/access/transam/README.) It's
3047  * possible this could be relaxed since we know this routine is only used
3048  * to abort subtransactions, but pending closer analysis we'd best be
3049  * conservative.
3050  */
3051  LWLockAcquire(ProcArrayLock, LW_EXCLUSIVE);
3052 
3053  /*
3054  * Under normal circumstances xid and xids[] will be in increasing order,
3055  * as will be the entries in subxids. Scan backwards to avoid O(N^2)
3056  * behavior when removing a lot of xids.
3057  */
3058  for (i = nxids - 1; i >= 0; i--)
3059  {
3060  TransactionId anxid = xids[i];
3061 
3062  for (j = MyPgXact->nxids - 1; j >= 0; j--)
3063  {
3064  if (TransactionIdEquals(MyProc->subxids.xids[j], anxid))
3065  {
3066  XidCacheRemove(j);
3067  break;
3068  }
3069  }
3070 
3071  /*
3072  * Ordinarily we should have found it, unless the cache has
3073  * overflowed. However it's also possible for this routine to be
3074  * invoked multiple times for the same subtransaction, in case of an
3075  * error during AbortSubTransaction. So instead of Assert, emit a
3076  * debug warning.
3077  */
3078  if (j < 0 && !MyPgXact->overflowed)
3079  elog(WARNING, "did not find subXID %u in MyProc", anxid);
3080  }
3081 
3082  for (j = MyPgXact->nxids - 1; j >= 0; j--)
3083  {
3084  if (TransactionIdEquals(MyProc->subxids.xids[j], xid))
3085  {
3086  XidCacheRemove(j);
3087  break;
3088  }
3089  }
3090  /* Ordinarily we should have found it, unless the cache has overflowed */
3091  if (j < 0 && !MyPgXact->overflowed)
3092  elog(WARNING, "did not find subXID %u in MyProc", xid);
3093 
3094  /* Also advance global latestCompletedXid while holding the lock */
3095  if (TransactionIdPrecedes(ShmemVariableCache->latestCompletedXid,
3096  latestXid))
3097  ShmemVariableCache->latestCompletedXid = latestXid;
3098 
3099  LWLockRelease(ProcArrayLock);
3100 }
XidCacheRemove
#define XidCacheRemove(i)
Definition: procarray.c:3020
TransactionIdEquals
#define TransactionIdEquals(id1, id2)
Definition: transam.h:43
TransactionId
uint32 TransactionId
Definition: c.h:507
MyProc
PGPROC * MyProc
Definition: proc.c:67
MyPgXact
PGXACT * MyPgXact
Definition: proc.c:68
LWLockRelease
void LWLockRelease(LWLock *lock)
Definition: lwlock.c:1725
PGXACT::nxids
uint8 nxids
Definition: proc.h:238
ShmemVariableCache
VariableCache ShmemVariableCache
Definition: varsup.c:34
PGPROC::subxids
struct XidCache subxids
Definition: proc.h:162
TransactionIdPrecedes
bool TransactionIdPrecedes(TransactionId id1, TransactionId id2)
Definition: transam.c:300
WARNING
#define WARNING
Definition: elog.h:40
XidCache::xids
TransactionId xids[PGPROC_MAX_CACHED_SUBXIDS]
Definition: proc.h:40
Assert
#define Assert(condition)
Definition: c.h:732
LWLockAcquire
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition: lwlock.c:1121
elog
#define elog(elevel,...)
Definition: elog.h:226
i
int i
Definition: preproc-comment.c:23
TransactionIdIsValid
#define TransactionIdIsValid(xid)
Definition: transam.h:41
VariableCacheData::latestCompletedXid
TransactionId latestCompletedXid
Definition: transam.h:135

Variable Documentation

◆ allPgXact

PGXACT* allPgXact
static

Definition at line 101 of file procarray.c.

◆ allProcs

PGPROC* allProcs
static

Definition at line 100 of file procarray.c.

◆ KnownAssignedXids

TransactionId* KnownAssignedXids
static

Definition at line 106 of file procarray.c.

Referenced by CreateSharedProcArray(), KnownAssignedXidsAdd(), KnownAssignedXidsCompress(), KnownAssignedXidsDisplay(), KnownAssignedXidsGetAndSetXmin(), KnownAssignedXidsGetOldestXmin(), KnownAssignedXidsRemovePreceding(), and KnownAssignedXidsSearch().

◆ KnownAssignedXidsValid

bool* KnownAssignedXidsValid
static

Definition at line 107 of file procarray.c.

Referenced by CreateSharedProcArray(), KnownAssignedXidsAdd(), KnownAssignedXidsCompress(), KnownAssignedXidsDisplay(), KnownAssignedXidsGetAndSetXmin(), KnownAssignedXidsGetOldestXmin(), KnownAssignedXidsRemovePreceding(), and KnownAssignedXidsSearch().

◆ latestObservedXid

TransactionId latestObservedXid = InvalidTransactionId
static

Definition at line 108 of file procarray.c.

Referenced by ProcArrayApplyRecoveryInfo(), ProcArrayInitRecovery(), and RecordKnownAssignedTransactionIds().

◆ procArray

ProcArrayStruct* procArray
static

Definition at line 98 of file procarray.c.

Referenced by BackendPidGetProcWithLock(), BackendXidGetPid(), CancelDBBackends(), CancelVirtualTransaction(), CountDBBackends(), CountDBConnections(), CountOtherDBBackends(), CountUserBackends(), GetConflictingVirtualXIDs(), GetCurrentVirtualXIDs(), GetOldestActiveTransactionId(), GetOldestSafeDecodingTransactionId(), GetOldestXmin(), GetRunningTransactionData(), GetSnapshotData(), GetVirtualXIDsDelayingChkpt(), HaveVirtualXIDsDelayingChkpt(), KnownAssignedXidsAdd(), KnownAssignedXidsCompress(), KnownAssignedXidsDisplay(), KnownAssignedXidsRemovePreceding(), KnownAssignedXidsReset(), KnownAssignedXidsSearch(), MinimumActiveBackends(), ProcArrayAdd(), ProcArrayInstallImportedXmin(), ProcArrayRemove(), TransactionIdIsActive(), and TransactionIdIsInProgress().

◆ standbySnapshotPendingXmin

TransactionId standbySnapshotPendingXmin
static

Definition at line 115 of file procarray.c.

Referenced by ProcArrayApplyRecoveryInfo().