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/*-------------------------------------------------------------------------
*
* snapmgr.c
* PostgreSQL snapshot manager
*
* We keep track of snapshots in two ways: those "registered" by resowner.c,
* and the "active snapshot" stack. All snapshots in either of them live in
* persistent memory. When a snapshot is no longer in any of these lists
* (tracked by separate refcounts on each snapshot), its memory can be freed.
*
* The FirstXactSnapshot, if any, is treated a bit specially: we increment its
* regd_count and list it in RegisteredSnapshots, but this reference is not
* tracked by a resource owner. We used to use the TopTransactionResourceOwner
* to track this snapshot reference, but that introduces logical circularity
* and thus makes it impossible to clean up in a sane fashion. It's better to
* handle this reference as an internally-tracked registration, so that this
* module is entirely lower-level than ResourceOwners.
*
* Likewise, any snapshots that have been exported by pg_export_snapshot
* have regd_count = 1 and are listed in RegisteredSnapshots, but are not
* tracked by any resource owner.
*
* Likewise, the CatalogSnapshot is listed in RegisteredSnapshots when it
* is valid, but is not tracked by any resource owner.
*
* The same is true for historic snapshots used during logical decoding,
* their lifetime is managed separately (as they live longer than one xact.c
* transaction).
*
* These arrangements let us reset MyPgXact->xmin when there are no snapshots
* referenced by this transaction, and advance it when the one with oldest
* Xmin is no longer referenced. For simplicity however, only registered
* snapshots not active snapshots participate in tracking which one is oldest;
* we don't try to change MyPgXact->xmin except when the active-snapshot
* stack is empty.
*
*
* Portions Copyright (c) 1996-2020, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
* src/backend/utils/time/snapmgr.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include <sys/stat.h>
#include <unistd.h>
#include "access/subtrans.h"
#include "access/transam.h"
#include "access/xact.h"
#include "access/xlog.h"
#include "catalog/catalog.h"
#include "lib/pairingheap.h"
#include "miscadmin.h"
#include "storage/predicate.h"
#include "storage/proc.h"
#include "storage/procarray.h"
#include "storage/sinval.h"
#include "storage/sinvaladt.h"
#include "storage/spin.h"
#include "utils/builtins.h"
#include "utils/memutils.h"
#include "utils/rel.h"
#include "utils/resowner_private.h"
#include "utils/snapmgr.h"
#include "utils/syscache.h"
/*
* GUC parameters
*/
int old_snapshot_threshold; /* number of minutes, -1 disables */
/*
* Structure for dealing with old_snapshot_threshold implementation.
*/
typedef struct OldSnapshotControlData
{
/*
* Variables for old snapshot handling are shared among processes and are
* only allowed to move forward.
*/
slock_t mutex_current; /* protect current_timestamp */
TimestampTz current_timestamp; /* latest snapshot timestamp */
slock_t mutex_latest_xmin; /* protect latest_xmin and next_map_update */
TransactionId latest_xmin; /* latest snapshot xmin */
TimestampTz next_map_update; /* latest snapshot valid up to */
slock_t mutex_threshold; /* protect threshold fields */
TimestampTz threshold_timestamp; /* earlier snapshot is old */
TransactionId threshold_xid; /* earlier xid may be gone */
/*
* Keep one xid per minute for old snapshot error handling.
*
* Use a circular buffer with a head offset, a count of entries currently
* used, and a timestamp corresponding to the xid at the head offset. A
* count_used value of zero means that there are no times stored; a
* count_used value of OLD_SNAPSHOT_TIME_MAP_ENTRIES means that the buffer
* is full and the head must be advanced to add new entries. Use
* timestamps aligned to minute boundaries, since that seems less
* surprising than aligning based on the first usage timestamp. The
* latest bucket is effectively stored within latest_xmin. The circular
* buffer is updated when we get a new xmin value that doesn't fall into
* the same interval.
*
* It is OK if the xid for a given time slot is from earlier than
* calculated by adding the number of minutes corresponding to the
* (possibly wrapped) distance from the head offset to the time of the
* head entry, since that just results in the vacuuming of old tuples
* being slightly less aggressive. It would not be OK for it to be off in
* the other direction, since it might result in vacuuming tuples that are
* still expected to be there.
*
* Use of an SLRU was considered but not chosen because it is more
* heavyweight than is needed for this, and would probably not be any less
* code to implement.
*
* Persistence is not needed.
*/
int head_offset; /* subscript of oldest tracked time */
TimestampTz head_timestamp; /* time corresponding to head xid */
int count_used; /* how many slots are in use */
TransactionId xid_by_minute[FLEXIBLE_ARRAY_MEMBER];
} OldSnapshotControlData;
static volatile OldSnapshotControlData *oldSnapshotControl;
/*
* CurrentSnapshot points to the only snapshot taken in transaction-snapshot
* mode, and to the latest one taken in a read-committed transaction.
* SecondarySnapshot is a snapshot that's always up-to-date as of the current
* instant, even in transaction-snapshot mode. It should only be used for
* special-purpose code (say, RI checking.) CatalogSnapshot points to an
* MVCC snapshot intended to be used for catalog scans; we must invalidate it
* whenever a system catalog change occurs.
*
* These SnapshotData structs are static to simplify memory allocation
* (see the hack in GetSnapshotData to avoid repeated malloc/free).
*/
static SnapshotData CurrentSnapshotData = {SNAPSHOT_MVCC};
static SnapshotData SecondarySnapshotData = {SNAPSHOT_MVCC};
SnapshotData CatalogSnapshotData = {SNAPSHOT_MVCC};
SnapshotData SnapshotSelfData = {SNAPSHOT_SELF};
SnapshotData SnapshotAnyData = {SNAPSHOT_ANY};
/* Pointers to valid snapshots */
static Snapshot CurrentSnapshot = NULL;
static Snapshot SecondarySnapshot = NULL;
static Snapshot CatalogSnapshot = NULL;
static Snapshot HistoricSnapshot = NULL;
/*
* These are updated by GetSnapshotData. We initialize them this way
* for the convenience of TransactionIdIsInProgress: even in bootstrap
* mode, we don't want it to say that BootstrapTransactionId is in progress.
*
* RecentGlobalXmin and RecentGlobalDataXmin are initialized to
* InvalidTransactionId, to ensure that no one tries to use a stale
* value. Readers should ensure that it has been set to something else
* before using it.
*/
TransactionId TransactionXmin = FirstNormalTransactionId;
TransactionId RecentXmin = FirstNormalTransactionId;
TransactionId RecentGlobalXmin = InvalidTransactionId;
TransactionId RecentGlobalDataXmin = InvalidTransactionId;
/* (table, ctid) => (cmin, cmax) mapping during timetravel */
static HTAB *tuplecid_data = NULL;
/*
* Elements of the active snapshot stack.
*
* Each element here accounts for exactly one active_count on SnapshotData.
*
* NB: the code assumes that elements in this list are in non-increasing
* order of as_level; also, the list must be NULL-terminated.
*/
typedef struct ActiveSnapshotElt
{
Snapshot as_snap;
int as_level;
struct ActiveSnapshotElt *as_next;
} ActiveSnapshotElt;
/* Top of the stack of active snapshots */
static ActiveSnapshotElt *ActiveSnapshot = NULL;
/* Bottom of the stack of active snapshots */
static ActiveSnapshotElt *OldestActiveSnapshot = NULL;
/*
* Currently registered Snapshots. Ordered in a heap by xmin, so that we can
* quickly find the one with lowest xmin, to advance our MyPgXact->xmin.
*/
static int xmin_cmp(const pairingheap_node *a, const pairingheap_node *b,
void *arg);
static pairingheap RegisteredSnapshots = {&xmin_cmp, NULL, NULL};
/* first GetTransactionSnapshot call in a transaction? */
bool FirstSnapshotSet = false;
/*
* Remember the serializable transaction snapshot, if any. We cannot trust
* FirstSnapshotSet in combination with IsolationUsesXactSnapshot(), because
* GUC may be reset before us, changing the value of IsolationUsesXactSnapshot.
*/
static Snapshot FirstXactSnapshot = NULL;
/* Define pathname of exported-snapshot files */
#define SNAPSHOT_EXPORT_DIR "pg_snapshots"
/* Structure holding info about exported snapshot. */
typedef struct ExportedSnapshot
{
char *snapfile;
Snapshot snapshot;
} ExportedSnapshot;
/* Current xact's exported snapshots (a list of ExportedSnapshot structs) */
static List *exportedSnapshots = NIL;
/* Prototypes for local functions */
static TimestampTz AlignTimestampToMinuteBoundary(TimestampTz ts);
static Snapshot CopySnapshot(Snapshot snapshot);
static void FreeSnapshot(Snapshot snapshot);
static void SnapshotResetXmin(void);
/*
* Snapshot fields to be serialized.
*
* Only these fields need to be sent to the cooperating backend; the
* remaining ones can (and must) be set by the receiver upon restore.
*/
typedef struct SerializedSnapshotData
{
TransactionId xmin;
TransactionId xmax;
uint32 xcnt;
int32 subxcnt;
bool suboverflowed;
bool takenDuringRecovery;
CommandId curcid;
TimestampTz whenTaken;
XLogRecPtr lsn;
} SerializedSnapshotData;
Size
SnapMgrShmemSize(void)
{
Size size;
size = offsetof(OldSnapshotControlData, xid_by_minute);
if (old_snapshot_threshold > 0)
size = add_size(size, mul_size(sizeof(TransactionId),
OLD_SNAPSHOT_TIME_MAP_ENTRIES));
return size;
}
/*
* Initialize for managing old snapshot detection.
*/
void
SnapMgrInit(void)
{
bool found;
/*
* Create or attach to the OldSnapshotControlData structure.
*/
oldSnapshotControl = (volatile OldSnapshotControlData *)
ShmemInitStruct("OldSnapshotControlData",
SnapMgrShmemSize(), &found);
if (!found)
{
SpinLockInit(&oldSnapshotControl->mutex_current);
oldSnapshotControl->current_timestamp = 0;
SpinLockInit(&oldSnapshotControl->mutex_latest_xmin);
oldSnapshotControl->latest_xmin = InvalidTransactionId;
oldSnapshotControl->next_map_update = 0;
SpinLockInit(&oldSnapshotControl->mutex_threshold);
oldSnapshotControl->threshold_timestamp = 0;
oldSnapshotControl->threshold_xid = InvalidTransactionId;
oldSnapshotControl->head_offset = 0;
oldSnapshotControl->head_timestamp = 0;
oldSnapshotControl->count_used = 0;
}
}
/*
* GetTransactionSnapshot
* Get the appropriate snapshot for a new query in a transaction.
*
* Note that the return value may point at static storage that will be modified
* by future calls and by CommandCounterIncrement(). Callers should call
* RegisterSnapshot or PushActiveSnapshot on the returned snap if it is to be
* used very long.
*/
Snapshot
GetTransactionSnapshot(void)
{
/*
* Return historic snapshot if doing logical decoding. We'll never need a
* non-historic transaction snapshot in this (sub-)transaction, so there's
* no need to be careful to set one up for later calls to
* GetTransactionSnapshot().
*/
if (HistoricSnapshotActive())
{
Assert(!FirstSnapshotSet);
return HistoricSnapshot;
}
/* First call in transaction? */
if (!FirstSnapshotSet)
{
/*
* Don't allow catalog snapshot to be older than xact snapshot. Must
* do this first to allow the empty-heap Assert to succeed.
*/
InvalidateCatalogSnapshot();
Assert(pairingheap_is_empty(&RegisteredSnapshots));
Assert(FirstXactSnapshot == NULL);
if (IsInParallelMode())
elog(ERROR,
"cannot take query snapshot during a parallel operation");
/*
* In transaction-snapshot mode, the first snapshot must live until
* end of xact regardless of what the caller does with it, so we must
* make a copy of it rather than returning CurrentSnapshotData
* directly. Furthermore, if we're running in serializable mode,
* predicate.c needs to wrap the snapshot fetch in its own processing.
*/
if (IsolationUsesXactSnapshot())
{
/* First, create the snapshot in CurrentSnapshotData */
if (IsolationIsSerializable())
CurrentSnapshot = GetSerializableTransactionSnapshot(&CurrentSnapshotData);
else
CurrentSnapshot = GetSnapshotData(&CurrentSnapshotData);
/* Make a saved copy */
CurrentSnapshot = CopySnapshot(CurrentSnapshot);
FirstXactSnapshot = CurrentSnapshot;
/* Mark it as "registered" in FirstXactSnapshot */
FirstXactSnapshot->regd_count++;
pairingheap_add(&RegisteredSnapshots, &FirstXactSnapshot->ph_node);
}
else
CurrentSnapshot = GetSnapshotData(&CurrentSnapshotData);
FirstSnapshotSet = true;
return CurrentSnapshot;
}
if (IsolationUsesXactSnapshot())
return CurrentSnapshot;
/* Don't allow catalog snapshot to be older than xact snapshot. */
InvalidateCatalogSnapshot();
CurrentSnapshot = GetSnapshotData(&CurrentSnapshotData);
return CurrentSnapshot;
}
/*
* GetLatestSnapshot
* Get a snapshot that is up-to-date as of the current instant,
* even if we are executing in transaction-snapshot mode.
*/
Snapshot
GetLatestSnapshot(void)
{
/*
* We might be able to relax this, but nothing that could otherwise work
* needs it.
*/
if (IsInParallelMode())
elog(ERROR,
"cannot update SecondarySnapshot during a parallel operation");
/*
* So far there are no cases requiring support for GetLatestSnapshot()
* during logical decoding, but it wouldn't be hard to add if required.
*/
Assert(!HistoricSnapshotActive());
/* If first call in transaction, go ahead and set the xact snapshot */
if (!FirstSnapshotSet)
return GetTransactionSnapshot();
SecondarySnapshot = GetSnapshotData(&SecondarySnapshotData);
return SecondarySnapshot;
}
/*
* GetOldestSnapshot
*
* Get the transaction's oldest known snapshot, as judged by the LSN.
* Will return NULL if there are no active or registered snapshots.
*/
Snapshot
GetOldestSnapshot(void)
{
Snapshot OldestRegisteredSnapshot = NULL;
XLogRecPtr RegisteredLSN = InvalidXLogRecPtr;
if (!pairingheap_is_empty(&RegisteredSnapshots))
{
OldestRegisteredSnapshot = pairingheap_container(SnapshotData, ph_node,
pairingheap_first(&RegisteredSnapshots));
RegisteredLSN = OldestRegisteredSnapshot->lsn;
}
if (OldestActiveSnapshot != NULL)
{
XLogRecPtr ActiveLSN = OldestActiveSnapshot->as_snap->lsn;
if (XLogRecPtrIsInvalid(RegisteredLSN) || RegisteredLSN > ActiveLSN)
return OldestActiveSnapshot->as_snap;
}
return OldestRegisteredSnapshot;
}
/*
* GetCatalogSnapshot
* Get a snapshot that is sufficiently up-to-date for scan of the
* system catalog with the specified OID.
*/
Snapshot
GetCatalogSnapshot(Oid relid)
{
/*
* Return historic snapshot while we're doing logical decoding, so we can
* see the appropriate state of the catalog.
*
* This is the primary reason for needing to reset the system caches after
* finishing decoding.
*/
if (HistoricSnapshotActive())
return HistoricSnapshot;
return GetNonHistoricCatalogSnapshot(relid);
}
/*
* GetNonHistoricCatalogSnapshot
* Get a snapshot that is sufficiently up-to-date for scan of the system
* catalog with the specified OID, even while historic snapshots are set
* up.
*/
Snapshot
GetNonHistoricCatalogSnapshot(Oid relid)
{
/*
* If the caller is trying to scan a relation that has no syscache, no
* catcache invalidations will be sent when it is updated. For a few key
* relations, snapshot invalidations are sent instead. If we're trying to
* scan a relation for which neither catcache nor snapshot invalidations
* are sent, we must refresh the snapshot every time.
*/
if (CatalogSnapshot &&
!RelationInvalidatesSnapshotsOnly(relid) &&
!RelationHasSysCache(relid))
InvalidateCatalogSnapshot();
if (CatalogSnapshot == NULL)
{
/* Get new snapshot. */
CatalogSnapshot = GetSnapshotData(&CatalogSnapshotData);
/*
* Make sure the catalog snapshot will be accounted for in decisions
* about advancing PGXACT->xmin. We could apply RegisterSnapshot, but
* that would result in making a physical copy, which is overkill; and
* it would also create a dependency on some resource owner, which we
* do not want for reasons explained at the head of this file. Instead
* just shove the CatalogSnapshot into the pairing heap manually. This
* has to be reversed in InvalidateCatalogSnapshot, of course.
*
* NB: it had better be impossible for this to throw error, since the
* CatalogSnapshot pointer is already valid.
*/
pairingheap_add(&RegisteredSnapshots, &CatalogSnapshot->ph_node);
}
return CatalogSnapshot;
}
/*
* InvalidateCatalogSnapshot
* Mark the current catalog snapshot, if any, as invalid
*
* We could change this API to allow the caller to provide more fine-grained
* invalidation details, so that a change to relation A wouldn't prevent us
* from using our cached snapshot to scan relation B, but so far there's no
* evidence that the CPU cycles we spent tracking such fine details would be
* well-spent.
*/
void
InvalidateCatalogSnapshot(void)
{
if (CatalogSnapshot)
{
pairingheap_remove(&RegisteredSnapshots, &CatalogSnapshot->ph_node);
CatalogSnapshot = NULL;
SnapshotResetXmin();
}
}
/*
* InvalidateCatalogSnapshotConditionally
* Drop catalog snapshot if it's the only one we have
*
* This is called when we are about to wait for client input, so we don't
* want to continue holding the catalog snapshot if it might mean that the
* global xmin horizon can't advance. However, if there are other snapshots
* still active or registered, the catalog snapshot isn't likely to be the
* oldest one, so we might as well keep it.
*/
void
InvalidateCatalogSnapshotConditionally(void)
{
if (CatalogSnapshot &&
ActiveSnapshot == NULL &&
pairingheap_is_singular(&RegisteredSnapshots))
InvalidateCatalogSnapshot();
}
/*
* SnapshotSetCommandId
* Propagate CommandCounterIncrement into the static snapshots, if set
*/
void
SnapshotSetCommandId(CommandId curcid)
{
if (!FirstSnapshotSet)
return;
if (CurrentSnapshot)
CurrentSnapshot->curcid = curcid;
if (SecondarySnapshot)
SecondarySnapshot->curcid = curcid;
/* Should we do the same with CatalogSnapshot? */
}
/*
* SetTransactionSnapshot
* Set the transaction's snapshot from an imported MVCC snapshot.
*
* Note that this is very closely tied to GetTransactionSnapshot --- it
* must take care of all the same considerations as the first-snapshot case
* in GetTransactionSnapshot.
*/
static void
SetTransactionSnapshot(Snapshot sourcesnap, VirtualTransactionId *sourcevxid,
int sourcepid, PGPROC *sourceproc)
{
/* Caller should have checked this already */
Assert(!FirstSnapshotSet);
/* Better do this to ensure following Assert succeeds. */
InvalidateCatalogSnapshot();
Assert(pairingheap_is_empty(&RegisteredSnapshots));
Assert(FirstXactSnapshot == NULL);
Assert(!HistoricSnapshotActive());
/*
* Even though we are not going to use the snapshot it computes, we must
* call GetSnapshotData, for two reasons: (1) to be sure that
* CurrentSnapshotData's XID arrays have been allocated, and (2) to update
* RecentXmin and RecentGlobalXmin. (We could alternatively include those
* two variables in exported snapshot files, but it seems better to have
* snapshot importers compute reasonably up-to-date values for them.)
*/
CurrentSnapshot = GetSnapshotData(&CurrentSnapshotData);
/*
* Now copy appropriate fields from the source snapshot.
*/
CurrentSnapshot->xmin = sourcesnap->xmin;
CurrentSnapshot->xmax = sourcesnap->xmax;
CurrentSnapshot->xcnt = sourcesnap->xcnt;
Assert(sourcesnap->xcnt <= GetMaxSnapshotXidCount());
memcpy(CurrentSnapshot->xip, sourcesnap->xip,
sourcesnap->xcnt * sizeof(TransactionId));
CurrentSnapshot->subxcnt = sourcesnap->subxcnt;
Assert(sourcesnap->subxcnt <= GetMaxSnapshotSubxidCount());
memcpy(CurrentSnapshot->subxip, sourcesnap->subxip,
sourcesnap->subxcnt * sizeof(TransactionId));
CurrentSnapshot->suboverflowed = sourcesnap->suboverflowed;
CurrentSnapshot->takenDuringRecovery = sourcesnap->takenDuringRecovery;
/* NB: curcid should NOT be copied, it's a local matter */
/*
* Now we have to fix what GetSnapshotData did with MyPgXact->xmin and
* TransactionXmin. There is a race condition: to make sure we are not
* causing the global xmin to go backwards, we have to test that the
* source transaction is still running, and that has to be done
* atomically. So let procarray.c do it.
*
* Note: in serializable mode, predicate.c will do this a second time. It
* doesn't seem worth contorting the logic here to avoid two calls,
* especially since it's not clear that predicate.c *must* do this.
*/
if (sourceproc != NULL)
{
if (!ProcArrayInstallRestoredXmin(CurrentSnapshot->xmin, sourceproc))
ereport(ERROR,
(errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
errmsg("could not import the requested snapshot"),
errdetail("The source transaction is not running anymore.")));
}
else if (!ProcArrayInstallImportedXmin(CurrentSnapshot->xmin, sourcevxid))
ereport(ERROR,
(errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
errmsg("could not import the requested snapshot"),
errdetail("The source process with PID %d is not running anymore.",
sourcepid)));
/*
* In transaction-snapshot mode, the first snapshot must live until end of
* xact, so we must make a copy of it. Furthermore, if we're running in
* serializable mode, predicate.c needs to do its own processing.
*/
if (IsolationUsesXactSnapshot())
{
if (IsolationIsSerializable())
SetSerializableTransactionSnapshot(CurrentSnapshot, sourcevxid,
sourcepid);
/* Make a saved copy */
CurrentSnapshot = CopySnapshot(CurrentSnapshot);
FirstXactSnapshot = CurrentSnapshot;
/* Mark it as "registered" in FirstXactSnapshot */
FirstXactSnapshot->regd_count++;
pairingheap_add(&RegisteredSnapshots, &FirstXactSnapshot->ph_node);
}
FirstSnapshotSet = true;
}
/*
* CopySnapshot
* Copy the given snapshot.
*
* The copy is palloc'd in TopTransactionContext and has initial refcounts set
* to 0. The returned snapshot has the copied flag set.
*/
static Snapshot
CopySnapshot(Snapshot snapshot)
{
Snapshot newsnap;
Size subxipoff;
Size size;
Assert(snapshot != InvalidSnapshot);
/* We allocate any XID arrays needed in the same palloc block. */
size = subxipoff = sizeof(SnapshotData) +
snapshot->xcnt * sizeof(TransactionId);
if (snapshot->subxcnt > 0)
size += snapshot->subxcnt * sizeof(TransactionId);
newsnap = (Snapshot) MemoryContextAlloc(TopTransactionContext, size);
memcpy(newsnap, snapshot, sizeof(SnapshotData));
newsnap->regd_count = 0;
newsnap->active_count = 0;
newsnap->copied = true;
/* setup XID array */
if (snapshot->xcnt > 0)
{
newsnap->xip = (TransactionId *) (newsnap + 1);
memcpy(newsnap->xip, snapshot->xip,
snapshot->xcnt * sizeof(TransactionId));
}
else
newsnap->xip = NULL;
/*
* Setup subXID array. Don't bother to copy it if it had overflowed,
* though, because it's not used anywhere in that case. Except if it's a
* snapshot taken during recovery; all the top-level XIDs are in subxip as
* well in that case, so we mustn't lose them.
*/
if (snapshot->subxcnt > 0 &&
(!snapshot->suboverflowed || snapshot->takenDuringRecovery))
{
newsnap->subxip = (TransactionId *) ((char *) newsnap + subxipoff);
memcpy(newsnap->subxip, snapshot->subxip,
snapshot->subxcnt * sizeof(TransactionId));
}
else
newsnap->subxip = NULL;
return newsnap;
}
/*
* FreeSnapshot
* Free the memory associated with a snapshot.
*/
static void
FreeSnapshot(Snapshot snapshot)
{
Assert(snapshot->regd_count == 0);
Assert(snapshot->active_count == 0);
Assert(snapshot->copied);
pfree(snapshot);
}
/*
* PushActiveSnapshot
* Set the given snapshot as the current active snapshot
*
* If the passed snapshot is a statically-allocated one, or it is possibly
* subject to a future command counter update, create a new long-lived copy
* with active refcount=1. Otherwise, only increment the refcount.
*/
void
PushActiveSnapshot(Snapshot snap)
{
ActiveSnapshotElt *newactive;
Assert(snap != InvalidSnapshot);
newactive = MemoryContextAlloc(TopTransactionContext, sizeof(ActiveSnapshotElt));
/*
* Checking SecondarySnapshot is probably useless here, but it seems
* better to be sure.
*/
if (snap == CurrentSnapshot || snap == SecondarySnapshot || !snap->copied)
newactive->as_snap = CopySnapshot(snap);
else
newactive->as_snap = snap;
newactive->as_next = ActiveSnapshot;
newactive->as_level = GetCurrentTransactionNestLevel();
newactive->as_snap->active_count++;
ActiveSnapshot = newactive;
if (OldestActiveSnapshot == NULL)
OldestActiveSnapshot = ActiveSnapshot;
}
/*
* PushCopiedSnapshot
* As above, except forcibly copy the presented snapshot.
*
* This should be used when the ActiveSnapshot has to be modifiable, for
* example if the caller intends to call UpdateActiveSnapshotCommandId.
* The new snapshot will be released when popped from the stack.
*/
void
PushCopiedSnapshot(Snapshot snapshot)
{
PushActiveSnapshot(CopySnapshot(snapshot));
}
/*
* UpdateActiveSnapshotCommandId
*
* Update the current CID of the active snapshot. This can only be applied
* to a snapshot that is not referenced elsewhere.
*/
void
UpdateActiveSnapshotCommandId(void)
{
CommandId save_curcid,
curcid;
Assert(ActiveSnapshot != NULL);
Assert(ActiveSnapshot->as_snap->active_count == 1);
Assert(ActiveSnapshot->as_snap->regd_count == 0);
/*
* Don't allow modification of the active snapshot during parallel
* operation. We share the snapshot to worker backends at the beginning
* of parallel operation, so any change to the snapshot can lead to
* inconsistencies. We have other defenses against
* CommandCounterIncrement, but there are a few places that call this
* directly, so we put an additional guard here.
*/
save_curcid = ActiveSnapshot->as_snap->curcid;
curcid = GetCurrentCommandId(false);
if (IsInParallelMode() && save_curcid != curcid)
elog(ERROR, "cannot modify commandid in active snapshot during a parallel operation");
ActiveSnapshot->as_snap->curcid = curcid;
}
/*
* PopActiveSnapshot
*
* Remove the topmost snapshot from the active snapshot stack, decrementing the
* reference count, and free it if this was the last reference.
*/
void
PopActiveSnapshot(void)
{
ActiveSnapshotElt *newstack;
newstack = ActiveSnapshot->as_next;
Assert(ActiveSnapshot->as_snap->active_count > 0);
ActiveSnapshot->as_snap->active_count--;
if (ActiveSnapshot->as_snap->active_count == 0 &&
ActiveSnapshot->as_snap->regd_count == 0)
FreeSnapshot(ActiveSnapshot->as_snap);
pfree(ActiveSnapshot);
ActiveSnapshot = newstack;
if (ActiveSnapshot == NULL)
OldestActiveSnapshot = NULL;
SnapshotResetXmin();
}
/*
* GetActiveSnapshot
* Return the topmost snapshot in the Active stack.
*/
Snapshot
GetActiveSnapshot(void)
{
Assert(ActiveSnapshot != NULL);
return ActiveSnapshot->as_snap;
}
/*
* ActiveSnapshotSet
* Return whether there is at least one snapshot in the Active stack
*/
bool
ActiveSnapshotSet(void)
{
return ActiveSnapshot != NULL;
}
/*
* RegisterSnapshot
* Register a snapshot as being in use by the current resource owner
*
* If InvalidSnapshot is passed, it is not registered.
*/
Snapshot
RegisterSnapshot(Snapshot snapshot)
{
if (snapshot == InvalidSnapshot)
return InvalidSnapshot;
return RegisterSnapshotOnOwner(snapshot, CurrentResourceOwner);
}
/*
* RegisterSnapshotOnOwner
* As above, but use the specified resource owner
*/
Snapshot
RegisterSnapshotOnOwner(Snapshot snapshot, ResourceOwner owner)
{
Snapshot snap;
if (snapshot == InvalidSnapshot)
return InvalidSnapshot;
/* Static snapshot? Create a persistent copy */
snap = snapshot->copied ? snapshot : CopySnapshot(snapshot);
/* and tell resowner.c about it */
ResourceOwnerEnlargeSnapshots(owner);
snap->regd_count++;
ResourceOwnerRememberSnapshot(owner, snap);
if (snap->regd_count == 1)
pairingheap_add(&RegisteredSnapshots, &snap->ph_node);
return snap;
}
/*
* UnregisterSnapshot
*
* Decrement the reference count of a snapshot, remove the corresponding
* reference from CurrentResourceOwner, and free the snapshot if no more
* references remain.
*/
void
UnregisterSnapshot(Snapshot snapshot)
{
if (snapshot == NULL)
return;
UnregisterSnapshotFromOwner(snapshot, CurrentResourceOwner);
}
/*
* UnregisterSnapshotFromOwner
* As above, but use the specified resource owner
*/
void
UnregisterSnapshotFromOwner(Snapshot snapshot, ResourceOwner owner)
{
if (snapshot == NULL)
return;
Assert(snapshot->regd_count > 0);
Assert(!pairingheap_is_empty(&RegisteredSnapshots));
ResourceOwnerForgetSnapshot(owner, snapshot);
snapshot->regd_count--;
if (snapshot->regd_count == 0)
pairingheap_remove(&RegisteredSnapshots, &snapshot->ph_node);
if (snapshot->regd_count == 0 && snapshot->active_count == 0)
{
FreeSnapshot(snapshot);
SnapshotResetXmin();
}
}
/*
* Comparison function for RegisteredSnapshots heap. Snapshots are ordered
* by xmin, so that the snapshot with smallest xmin is at the top.
*/
static int
xmin_cmp(const pairingheap_node *a, const pairingheap_node *b, void *arg)
{
const SnapshotData *asnap = pairingheap_const_container(SnapshotData, ph_node, a);
const SnapshotData *bsnap = pairingheap_const_container(SnapshotData, ph_node, b);
if (TransactionIdPrecedes(asnap->xmin, bsnap->xmin))
return 1;
else if (TransactionIdFollows(asnap->xmin, bsnap->xmin))
return -1;
else
return 0;
}
/*
* Get current RecentGlobalXmin value, as a FullTransactionId.
*/
FullTransactionId
GetFullRecentGlobalXmin(void)
{
FullTransactionId nextxid_full;
uint32 nextxid_epoch;
TransactionId nextxid_xid;
uint32 epoch;
Assert(TransactionIdIsNormal(RecentGlobalXmin));
/*
* Compute the epoch from the next XID's epoch. This relies on the fact
* that RecentGlobalXmin must be within the 2 billion XID horizon from the
* next XID.
*/
nextxid_full = ReadNextFullTransactionId();
nextxid_epoch = EpochFromFullTransactionId(nextxid_full);
nextxid_xid = XidFromFullTransactionId(nextxid_full);
if (RecentGlobalXmin > nextxid_xid)
epoch = nextxid_epoch - 1;
else
epoch = nextxid_epoch;
return FullTransactionIdFromEpochAndXid(epoch, RecentGlobalXmin);
}
/*
* SnapshotResetXmin
*
* If there are no more snapshots, we can reset our PGXACT->xmin to InvalidXid.
* Note we can do this without locking because we assume that storing an Xid
* is atomic.
*
* Even if there are some remaining snapshots, we may be able to advance our
* PGXACT->xmin to some degree. This typically happens when a portal is
* dropped. For efficiency, we only consider recomputing PGXACT->xmin when
* the active snapshot stack is empty; this allows us not to need to track
* which active snapshot is oldest.
*
* Note: it's tempting to use GetOldestSnapshot() here so that we can include
* active snapshots in the calculation. However, that compares by LSN not
* xmin so it's not entirely clear that it's the same thing. Also, we'd be
* critically dependent on the assumption that the bottommost active snapshot
* stack entry has the oldest xmin. (Current uses of GetOldestSnapshot() are
* not actually critical, but this would be.)
*/
static void
SnapshotResetXmin(void)
{
Snapshot minSnapshot;
if (ActiveSnapshot != NULL)
return;
if (pairingheap_is_empty(&RegisteredSnapshots))
{
MyPgXact->xmin = InvalidTransactionId;
return;
}
minSnapshot = pairingheap_container(SnapshotData, ph_node,
pairingheap_first(&RegisteredSnapshots));
if (TransactionIdPrecedes(MyPgXact->xmin, minSnapshot->xmin))
MyPgXact->xmin = minSnapshot->xmin;
}
/*
* AtSubCommit_Snapshot
*/
void
AtSubCommit_Snapshot(int level)
{
ActiveSnapshotElt *active;
/*
* Relabel the active snapshots set in this subtransaction as though they
* are owned by the parent subxact.
*/
for (active = ActiveSnapshot; active != NULL; active = active->as_next)
{
if (active->as_level < level)
break;
active->as_level = level - 1;
}
}
/*
* AtSubAbort_Snapshot
* Clean up snapshots after a subtransaction abort
*/
void
AtSubAbort_Snapshot(int level)
{
/* Forget the active snapshots set by this subtransaction */
while (ActiveSnapshot && ActiveSnapshot->as_level >= level)
{
ActiveSnapshotElt *next;
next = ActiveSnapshot->as_next;
/*
* Decrement the snapshot's active count. If it's still registered or
* marked as active by an outer subtransaction, we can't free it yet.
*/
Assert(ActiveSnapshot->as_snap->active_count >= 1);
ActiveSnapshot->as_snap->active_count -= 1;
if (ActiveSnapshot->as_snap->active_count == 0 &&
ActiveSnapshot->as_snap->regd_count == 0)
FreeSnapshot(ActiveSnapshot->as_snap);
/* and free the stack element */
pfree(ActiveSnapshot);
ActiveSnapshot = next;
if (ActiveSnapshot == NULL)
OldestActiveSnapshot = NULL;
}
SnapshotResetXmin();
}
/*
* AtEOXact_Snapshot
* Snapshot manager's cleanup function for end of transaction
*/
void
AtEOXact_Snapshot(bool isCommit, bool resetXmin)
{
/*
* In transaction-snapshot mode we must release our privately-managed
* reference to the transaction snapshot. We must remove it from
* RegisteredSnapshots to keep the check below happy. But we don't bother
* to do FreeSnapshot, for two reasons: the memory will go away with
* TopTransactionContext anyway, and if someone has left the snapshot
* stacked as active, we don't want the code below to be chasing through a
* dangling pointer.
*/
if (FirstXactSnapshot != NULL)
{
Assert(FirstXactSnapshot->regd_count > 0);
Assert(!pairingheap_is_empty(&RegisteredSnapshots));
pairingheap_remove(&RegisteredSnapshots, &FirstXactSnapshot->ph_node);
}
FirstXactSnapshot = NULL;
/*
* If we exported any snapshots, clean them up.
*/
if (exportedSnapshots != NIL)
{
ListCell *lc;
/*
* Get rid of the files. Unlink failure is only a WARNING because (1)
* it's too late to abort the transaction, and (2) leaving a leaked
* file around has little real consequence anyway.
*
* We also need to remove the snapshots from RegisteredSnapshots to
* prevent a warning below.
*
* As with the FirstXactSnapshot, we don't need to free resources of
* the snapshot itself as it will go away with the memory context.
*/
foreach(lc, exportedSnapshots)
{
ExportedSnapshot *esnap = (ExportedSnapshot *) lfirst(lc);
if (unlink(esnap->snapfile))
elog(WARNING, "could not unlink file \"%s\": %m",
esnap->snapfile);
pairingheap_remove(&RegisteredSnapshots,
&esnap->snapshot->ph_node);
}
exportedSnapshots = NIL;
}
/* Drop catalog snapshot if any */
InvalidateCatalogSnapshot();
/* On commit, complain about leftover snapshots */
if (isCommit)
{
ActiveSnapshotElt *active;
if (!pairingheap_is_empty(&RegisteredSnapshots))
elog(WARNING, "registered snapshots seem to remain after cleanup");
/* complain about unpopped active snapshots */
for (active = ActiveSnapshot; active != NULL; active = active->as_next)
elog(WARNING, "snapshot %p still active", active);
}
/*
* And reset our state. We don't need to free the memory explicitly --
* it'll go away with TopTransactionContext.
*/
ActiveSnapshot = NULL;
OldestActiveSnapshot = NULL;
pairingheap_reset(&RegisteredSnapshots);
CurrentSnapshot = NULL;
SecondarySnapshot = NULL;
FirstSnapshotSet = false;
/*
* During normal commit processing, we call ProcArrayEndTransaction() to
* reset the MyPgXact->xmin. That call happens prior to the call to
* AtEOXact_Snapshot(), so we need not touch xmin here at all.
*/
if (resetXmin)
SnapshotResetXmin();
Assert(resetXmin || MyPgXact->xmin == 0);
}
/*
* ExportSnapshot
* Export the snapshot to a file so that other backends can import it.
* Returns the token (the file name) that can be used to import this
* snapshot.
*/
char *
ExportSnapshot(Snapshot snapshot)
{
TransactionId topXid;
TransactionId *children;
ExportedSnapshot *esnap;
int nchildren;
int addTopXid;
StringInfoData buf;
FILE *f;
int i;
MemoryContext oldcxt;
char path[MAXPGPATH];
char pathtmp[MAXPGPATH];
/*
* It's tempting to call RequireTransactionBlock here, since it's not very
* useful to export a snapshot that will disappear immediately afterwards.
* However, we haven't got enough information to do that, since we don't
* know if we're at top level or not. For example, we could be inside a
* plpgsql function that is going to fire off other transactions via
* dblink. Rather than disallow perfectly legitimate usages, don't make a
* check.
*
* Also note that we don't make any restriction on the transaction's
* isolation level; however, importers must check the level if they are
* serializable.
*/
/*
* Get our transaction ID if there is one, to include in the snapshot.
*/
topXid = GetTopTransactionIdIfAny();
/*
* We cannot export a snapshot from a subtransaction because there's no
* easy way for importers to verify that the same subtransaction is still
* running.
*/
if (IsSubTransaction())
ereport(ERROR,
(errcode(ERRCODE_ACTIVE_SQL_TRANSACTION),
errmsg("cannot export a snapshot from a subtransaction")));
/*
* We do however allow previous committed subtransactions to exist.
* Importers of the snapshot must see them as still running, so get their
* XIDs to add them to the snapshot.
*/
nchildren = xactGetCommittedChildren(&children);
/*
* Generate file path for the snapshot. We start numbering of snapshots
* inside the transaction from 1.
*/
snprintf(path, sizeof(path), SNAPSHOT_EXPORT_DIR "/%08X-%08X-%d",
MyProc->backendId, MyProc->lxid, list_length(exportedSnapshots) + 1);
/*
* Copy the snapshot into TopTransactionContext, add it to the
* exportedSnapshots list, and mark it pseudo-registered. We do this to
* ensure that the snapshot's xmin is honored for the rest of the
* transaction.
*/
snapshot = CopySnapshot(snapshot);
oldcxt = MemoryContextSwitchTo(TopTransactionContext);
esnap = (ExportedSnapshot *) palloc(sizeof(ExportedSnapshot));
esnap->snapfile = pstrdup(path);
esnap->snapshot = snapshot;
exportedSnapshots = lappend(exportedSnapshots, esnap);
MemoryContextSwitchTo(oldcxt);
snapshot->regd_count++;
pairingheap_add(&RegisteredSnapshots, &snapshot->ph_node);
/*
* Fill buf with a text serialization of the snapshot, plus identification
* data about this transaction. The format expected by ImportSnapshot is
* pretty rigid: each line must be fieldname:value.
*/
initStringInfo(&buf);
appendStringInfo(&buf, "vxid:%d/%u\n", MyProc->backendId, MyProc->lxid);
appendStringInfo(&buf, "pid:%d\n", MyProcPid);
appendStringInfo(&buf, "dbid:%u\n", MyDatabaseId);
appendStringInfo(&buf, "iso:%d\n", XactIsoLevel);
appendStringInfo(&buf, "ro:%d\n", XactReadOnly);
appendStringInfo(&buf, "xmin:%u\n", snapshot->xmin);
appendStringInfo(&buf, "xmax:%u\n", snapshot->xmax);
/*
* We must include our own top transaction ID in the top-xid data, since
* by definition we will still be running when the importing transaction
* adopts the snapshot, but GetSnapshotData never includes our own XID in
* the snapshot. (There must, therefore, be enough room to add it.)
*
* However, it could be that our topXid is after the xmax, in which case
* we shouldn't include it because xip[] members are expected to be before
* xmax. (We need not make the same check for subxip[] members, see
* snapshot.h.)
*/
addTopXid = (TransactionIdIsValid(topXid) &&
TransactionIdPrecedes(topXid, snapshot->xmax)) ? 1 : 0;
appendStringInfo(&buf, "xcnt:%d\n", snapshot->xcnt + addTopXid);
for (i = 0; i < snapshot->xcnt; i++)
appendStringInfo(&buf, "xip:%u\n", snapshot->xip[i]);
if (addTopXid)
appendStringInfo(&buf, "xip:%u\n", topXid);
/*
* Similarly, we add our subcommitted child XIDs to the subxid data. Here,
* we have to cope with possible overflow.
*/
if (snapshot->suboverflowed ||
snapshot->subxcnt + nchildren > GetMaxSnapshotSubxidCount())
appendStringInfoString(&buf, "sof:1\n");
else
{
appendStringInfoString(&buf, "sof:0\n");
appendStringInfo(&buf, "sxcnt:%d\n", snapshot->subxcnt + nchildren);
for (i = 0; i < snapshot->subxcnt; i++)
appendStringInfo(&buf, "sxp:%u\n", snapshot->subxip[i]);
for (i = 0; i < nchildren; i++)
appendStringInfo(&buf, "sxp:%u\n", children[i]);
}
appendStringInfo(&buf, "rec:%u\n", snapshot->takenDuringRecovery);
/*
* Now write the text representation into a file. We first write to a
* ".tmp" filename, and rename to final filename if no error. This
* ensures that no other backend can read an incomplete file
* (ImportSnapshot won't allow it because of its valid-characters check).
*/
snprintf(pathtmp, sizeof(pathtmp), "%s.tmp", path);
if (!(f = AllocateFile(pathtmp, PG_BINARY_W)))
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not create file \"%s\": %m", pathtmp)));
if (fwrite(buf.data, buf.len, 1, f) != 1)
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not write to file \"%s\": %m", pathtmp)));
/* no fsync() since file need not survive a system crash */
if (FreeFile(f))
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not write to file \"%s\": %m", pathtmp)));
/*
* Now that we have written everything into a .tmp file, rename the file
* to remove the .tmp suffix.
*/
if (rename(pathtmp, path) < 0)
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not rename file \"%s\" to \"%s\": %m",
pathtmp, path)));
/*
* The basename of the file is what we return from pg_export_snapshot().
* It's already in path in a textual format and we know that the path
* starts with SNAPSHOT_EXPORT_DIR. Skip over the prefix and the slash
* and pstrdup it so as not to return the address of a local variable.
*/
return pstrdup(path + strlen(SNAPSHOT_EXPORT_DIR) + 1);
}
/*
* pg_export_snapshot
* SQL-callable wrapper for ExportSnapshot.
*/
Datum
pg_export_snapshot(PG_FUNCTION_ARGS)
{
char *snapshotName;
snapshotName = ExportSnapshot(GetActiveSnapshot());
PG_RETURN_TEXT_P(cstring_to_text(snapshotName));
}
/*
* Parsing subroutines for ImportSnapshot: parse a line with the given
* prefix followed by a value, and advance *s to the next line. The
* filename is provided for use in error messages.
*/
static int
parseIntFromText(const char *prefix, char **s, const char *filename)
{
char *ptr = *s;
int prefixlen = strlen(prefix);
int val;
if (strncmp(ptr, prefix, prefixlen) != 0)
ereport(ERROR,
(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
errmsg("invalid snapshot data in file \"%s\"", filename)));
ptr += prefixlen;
if (sscanf(ptr, "%d", &val) != 1)
ereport(ERROR,
(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
errmsg("invalid snapshot data in file \"%s\"", filename)));
ptr = strchr(ptr, '\n');
if (!ptr)
ereport(ERROR,
(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
errmsg("invalid snapshot data in file \"%s\"", filename)));
*s = ptr + 1;
return val;
}
static TransactionId
parseXidFromText(const char *prefix, char **s, const char *filename)
{
char *ptr = *s;
int prefixlen = strlen(prefix);
TransactionId val;
if (strncmp(ptr, prefix, prefixlen) != 0)
ereport(ERROR,
(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
errmsg("invalid snapshot data in file \"%s\"", filename)));
ptr += prefixlen;
if (sscanf(ptr, "%u", &val) != 1)
ereport(ERROR,
(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
errmsg("invalid snapshot data in file \"%s\"", filename)));
ptr = strchr(ptr, '\n');
if (!ptr)
ereport(ERROR,
(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
errmsg("invalid snapshot data in file \"%s\"", filename)));
*s = ptr + 1;
return val;
}
static void
parseVxidFromText(const char *prefix, char **s, const char *filename,
VirtualTransactionId *vxid)
{
char *ptr = *s;
int prefixlen = strlen(prefix);
if (strncmp(ptr, prefix, prefixlen) != 0)
ereport(ERROR,
(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
errmsg("invalid snapshot data in file \"%s\"", filename)));
ptr += prefixlen;
if (sscanf(ptr, "%d/%u", &vxid->backendId, &vxid->localTransactionId) != 2)
ereport(ERROR,
(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
errmsg("invalid snapshot data in file \"%s\"", filename)));
ptr = strchr(ptr, '\n');
if (!ptr)
ereport(ERROR,
(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
errmsg("invalid snapshot data in file \"%s\"", filename)));
*s = ptr + 1;
}
/*
* ImportSnapshot
* Import a previously exported snapshot. The argument should be a
* filename in SNAPSHOT_EXPORT_DIR. Load the snapshot from that file.
* This is called by "SET TRANSACTION SNAPSHOT 'foo'".
*/
void
ImportSnapshot(const char *idstr)
{
char path[MAXPGPATH];
FILE *f;
struct stat stat_buf;
char *filebuf;
int xcnt;
int i;
VirtualTransactionId src_vxid;
int src_pid;
Oid src_dbid;
int src_isolevel;
bool src_readonly;
SnapshotData snapshot;
/*
* Must be at top level of a fresh transaction. Note in particular that
* we check we haven't acquired an XID --- if we have, it's conceivable
* that the snapshot would show it as not running, making for very screwy
* behavior.
*/
if (FirstSnapshotSet ||
GetTopTransactionIdIfAny() != InvalidTransactionId ||
IsSubTransaction())
ereport(ERROR,
(errcode(ERRCODE_ACTIVE_SQL_TRANSACTION),
errmsg("SET TRANSACTION SNAPSHOT must be called before any query")));
/*
* If we are in read committed mode then the next query would execute with
* a new snapshot thus making this function call quite useless.
*/
if (!IsolationUsesXactSnapshot())
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("a snapshot-importing transaction must have isolation level SERIALIZABLE or REPEATABLE READ")));
/*
* Verify the identifier: only 0-9, A-F and hyphens are allowed. We do
* this mainly to prevent reading arbitrary files.
*/
if (strspn(idstr, "0123456789ABCDEF-") != strlen(idstr))
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("invalid snapshot identifier: \"%s\"", idstr)));
/* OK, read the file */
snprintf(path, MAXPGPATH, SNAPSHOT_EXPORT_DIR "/%s", idstr);
f = AllocateFile(path, PG_BINARY_R);
if (!f)
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("invalid snapshot identifier: \"%s\"", idstr)));
/* get the size of the file so that we know how much memory we need */
if (fstat(fileno(f), &stat_buf))
elog(ERROR, "could not stat file \"%s\": %m", path);
/* and read the file into a palloc'd string */
filebuf = (char *) palloc(stat_buf.st_size + 1);
if (fread(filebuf, stat_buf.st_size, 1, f) != 1)
elog(ERROR, "could not read file \"%s\": %m", path);
filebuf[stat_buf.st_size] = '\0';
FreeFile(f);
/*
* Construct a snapshot struct by parsing the file content.
*/
memset(&snapshot, 0, sizeof(snapshot));
parseVxidFromText("vxid:", &filebuf, path, &src_vxid);
src_pid = parseIntFromText("pid:", &filebuf, path);
/* we abuse parseXidFromText a bit here ... */
src_dbid = parseXidFromText("dbid:", &filebuf, path);
src_isolevel = parseIntFromText("iso:", &filebuf, path);
src_readonly = parseIntFromText("ro:", &filebuf, path);
snapshot.snapshot_type = SNAPSHOT_MVCC;
snapshot.xmin = parseXidFromText("xmin:", &filebuf, path);
snapshot.xmax = parseXidFromText("xmax:", &filebuf, path);
snapshot.xcnt = xcnt = parseIntFromText("xcnt:", &filebuf, path);
/* sanity-check the xid count before palloc */
if (xcnt < 0 || xcnt > GetMaxSnapshotXidCount())
ereport(ERROR,
(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
errmsg("invalid snapshot data in file \"%s\"", path)));
snapshot.xip = (TransactionId *) palloc(xcnt * sizeof(TransactionId));
for (i = 0; i < xcnt; i++)
snapshot.xip[i] = parseXidFromText("xip:", &filebuf, path);
snapshot.suboverflowed = parseIntFromText("sof:", &filebuf, path);
if (!snapshot.suboverflowed)
{
snapshot.subxcnt = xcnt = parseIntFromText("sxcnt:", &filebuf, path);
/* sanity-check the xid count before palloc */
if (xcnt < 0 || xcnt > GetMaxSnapshotSubxidCount())
ereport(ERROR,
(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
errmsg("invalid snapshot data in file \"%s\"", path)));
snapshot.subxip = (TransactionId *) palloc(xcnt * sizeof(TransactionId));
for (i = 0; i < xcnt; i++)
snapshot.subxip[i] = parseXidFromText("sxp:", &filebuf, path);
}
else
{
snapshot.subxcnt = 0;
snapshot.subxip = NULL;
}
snapshot.takenDuringRecovery = parseIntFromText("rec:", &filebuf, path);
/*
* Do some additional sanity checking, just to protect ourselves. We
* don't trouble to check the array elements, just the most critical
* fields.
*/
if (!VirtualTransactionIdIsValid(src_vxid) ||
!OidIsValid(src_dbid) ||
!TransactionIdIsNormal(snapshot.xmin) ||
!TransactionIdIsNormal(snapshot.xmax))
ereport(ERROR,
(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
errmsg("invalid snapshot data in file \"%s\"", path)));
/*
* If we're serializable, the source transaction must be too, otherwise
* predicate.c has problems (SxactGlobalXmin could go backwards). Also, a
* non-read-only transaction can't adopt a snapshot from a read-only
* transaction, as predicate.c handles the cases very differently.
*/
if (IsolationIsSerializable())
{
if (src_isolevel != XACT_SERIALIZABLE)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("a serializable transaction cannot import a snapshot from a non-serializable transaction")));
if (src_readonly && !XactReadOnly)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("a non-read-only serializable transaction cannot import a snapshot from a read-only transaction")));
}
/*
* We cannot import a snapshot that was taken in a different database,
* because vacuum calculates OldestXmin on a per-database basis; so the
* source transaction's xmin doesn't protect us from data loss. This
* restriction could be removed if the source transaction were to mark its
* xmin as being globally applicable. But that would require some
* additional syntax, since that has to be known when the snapshot is
* initially taken. (See pgsql-hackers discussion of 2011-10-21.)
*/
if (src_dbid != MyDatabaseId)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("cannot import a snapshot from a different database")));
/* OK, install the snapshot */
SetTransactionSnapshot(&snapshot, &src_vxid, src_pid, NULL);
}
/*
* XactHasExportedSnapshots
* Test whether current transaction has exported any snapshots.
*/
bool
XactHasExportedSnapshots(void)
{
return (exportedSnapshots != NIL);
}
/*
* DeleteAllExportedSnapshotFiles
* Clean up any files that have been left behind by a crashed backend
* that had exported snapshots before it died.
*
* This should be called during database startup or crash recovery.
*/
void
DeleteAllExportedSnapshotFiles(void)
{
char buf[MAXPGPATH + sizeof(SNAPSHOT_EXPORT_DIR)];
DIR *s_dir;
struct dirent *s_de;
/*
* Problems in reading the directory, or unlinking files, are reported at
* LOG level. Since we're running in the startup process, ERROR level
* would prevent database start, and it's not important enough for that.
*/
s_dir = AllocateDir(SNAPSHOT_EXPORT_DIR);
while ((s_de = ReadDirExtended(s_dir, SNAPSHOT_EXPORT_DIR, LOG)) != NULL)
{
if (strcmp(s_de->d_name, ".") == 0 ||
strcmp(s_de->d_name, "..") == 0)
continue;
snprintf(buf, sizeof(buf), SNAPSHOT_EXPORT_DIR "/%s", s_de->d_name);
if (unlink(buf) != 0)
ereport(LOG,
(errcode_for_file_access(),
errmsg("could not remove file \"%s\": %m", buf)));
}
FreeDir(s_dir);
}
/*
* ThereAreNoPriorRegisteredSnapshots
* Is the registered snapshot count less than or equal to one?
*
* Don't use this to settle important decisions. While zero registrations and
* no ActiveSnapshot would confirm a certain idleness, the system makes no
* guarantees about the significance of one registered snapshot.
*/
bool
ThereAreNoPriorRegisteredSnapshots(void)
{
if (pairingheap_is_empty(&RegisteredSnapshots) ||
pairingheap_is_singular(&RegisteredSnapshots))
return true;
return false;
}
/*
* Return a timestamp that is exactly on a minute boundary.
*
* If the argument is already aligned, return that value, otherwise move to
* the next minute boundary following the given time.
*/
static TimestampTz
AlignTimestampToMinuteBoundary(TimestampTz ts)
{
TimestampTz retval = ts + (USECS_PER_MINUTE - 1);
return retval - (retval % USECS_PER_MINUTE);
}
/*
* Get current timestamp for snapshots
*
* This is basically GetCurrentTimestamp(), but with a guarantee that
* the result never moves backward.
*/
TimestampTz
GetSnapshotCurrentTimestamp(void)
{
TimestampTz now = GetCurrentTimestamp();
/*
* Don't let time move backward; if it hasn't advanced, use the old value.
*/
SpinLockAcquire(&oldSnapshotControl->mutex_current);
if (now <= oldSnapshotControl->current_timestamp)
now = oldSnapshotControl->current_timestamp;
else
oldSnapshotControl->current_timestamp = now;
SpinLockRelease(&oldSnapshotControl->mutex_current);
return now;
}
/*
* Get timestamp through which vacuum may have processed based on last stored
* value for threshold_timestamp.
*
* XXX: So far, we never trust that a 64-bit value can be read atomically; if
* that ever changes, we could get rid of the spinlock here.
*/
TimestampTz
GetOldSnapshotThresholdTimestamp(void)
{
TimestampTz threshold_timestamp;
SpinLockAcquire(&oldSnapshotControl->mutex_threshold);
threshold_timestamp = oldSnapshotControl->threshold_timestamp;
SpinLockRelease(&oldSnapshotControl->mutex_threshold);
return threshold_timestamp;
}
static void
SetOldSnapshotThresholdTimestamp(TimestampTz ts, TransactionId xlimit)
{
SpinLockAcquire(&oldSnapshotControl->mutex_threshold);
oldSnapshotControl->threshold_timestamp = ts;
oldSnapshotControl->threshold_xid = xlimit;
SpinLockRelease(&oldSnapshotControl->mutex_threshold);
}
/*
* TransactionIdLimitedForOldSnapshots
*
* Apply old snapshot limit, if any. This is intended to be called for page
* pruning and table vacuuming, to allow old_snapshot_threshold to override
* the normal global xmin value. Actual testing for snapshot too old will be
* based on whether a snapshot timestamp is prior to the threshold timestamp
* set in this function.
*/
TransactionId
TransactionIdLimitedForOldSnapshots(TransactionId recentXmin,
Relation relation)
{
if (TransactionIdIsNormal(recentXmin)
&& old_snapshot_threshold >= 0
&& RelationAllowsEarlyPruning(relation)
&& RelationNeedsWAL(relation))
{
TimestampTz ts = GetSnapshotCurrentTimestamp();
TransactionId xlimit = recentXmin;
TransactionId latest_xmin;
TimestampTz update_ts;
bool same_ts_as_threshold = false;
SpinLockAcquire(&oldSnapshotControl->mutex_latest_xmin);
latest_xmin = oldSnapshotControl->latest_xmin;
update_ts = oldSnapshotControl->next_map_update;
SpinLockRelease(&oldSnapshotControl->mutex_latest_xmin);
/*
* Zero threshold always overrides to latest xmin, if valid. Without
* some heuristic it will find its own snapshot too old on, for
* example, a simple UPDATE -- which would make it useless for most
* testing, but there is no principled way to ensure that it doesn't
* fail in this way. Use a five-second delay to try to get useful
* testing behavior, but this may need adjustment.
*/
if (old_snapshot_threshold == 0)
{
if (TransactionIdPrecedes(latest_xmin, MyPgXact->xmin)
&& TransactionIdFollows(latest_xmin, xlimit))
xlimit = latest_xmin;
ts -= 5 * USECS_PER_SEC;
SetOldSnapshotThresholdTimestamp(ts, xlimit);
return xlimit;
}
ts = AlignTimestampToMinuteBoundary(ts)
- (old_snapshot_threshold * USECS_PER_MINUTE);
/* Check for fast exit without LW locking. */
SpinLockAcquire(&oldSnapshotControl->mutex_threshold);
if (ts == oldSnapshotControl->threshold_timestamp)
{
xlimit = oldSnapshotControl->threshold_xid;
same_ts_as_threshold = true;
}
SpinLockRelease(&oldSnapshotControl->mutex_threshold);
if (!same_ts_as_threshold)
{
if (ts == update_ts)
{
xlimit = latest_xmin;
if (NormalTransactionIdFollows(xlimit, recentXmin))
SetOldSnapshotThresholdTimestamp(ts, xlimit);
}
else
{
LWLockAcquire(OldSnapshotTimeMapLock, LW_SHARED);
if (oldSnapshotControl->count_used > 0
&& ts >= oldSnapshotControl->head_timestamp)
{
int offset;
offset = ((ts - oldSnapshotControl->head_timestamp)
/ USECS_PER_MINUTE);
if (offset > oldSnapshotControl->count_used - 1)
offset = oldSnapshotControl->count_used - 1;
offset = (oldSnapshotControl->head_offset + offset)
% OLD_SNAPSHOT_TIME_MAP_ENTRIES;
xlimit = oldSnapshotControl->xid_by_minute[offset];
if (NormalTransactionIdFollows(xlimit, recentXmin))
SetOldSnapshotThresholdTimestamp(ts, xlimit);
}
LWLockRelease(OldSnapshotTimeMapLock);
}
}
/*
* Failsafe protection against vacuuming work of active transaction.
*
* This is not an assertion because we avoid the spinlock for
* performance, leaving open the possibility that xlimit could advance
* and be more current; but it seems prudent to apply this limit. It
* might make pruning a tiny bit less aggressive than it could be, but
* protects against data loss bugs.
*/
if (TransactionIdIsNormal(latest_xmin)
&& TransactionIdPrecedes(latest_xmin, xlimit))
xlimit = latest_xmin;
if (NormalTransactionIdFollows(xlimit, recentXmin))
return xlimit;
}
return recentXmin;
}
/*
* Take care of the circular buffer that maps time to xid.
*/
void
MaintainOldSnapshotTimeMapping(TimestampTz whenTaken, TransactionId xmin)
{
TimestampTz ts;
TransactionId latest_xmin;
TimestampTz update_ts;
bool map_update_required = false;
/* Never call this function when old snapshot checking is disabled. */
Assert(old_snapshot_threshold >= 0);
ts = AlignTimestampToMinuteBoundary(whenTaken);
/*
* Keep track of the latest xmin seen by any process. Update mapping with
* a new value when we have crossed a bucket boundary.
*/
SpinLockAcquire(&oldSnapshotControl->mutex_latest_xmin);
latest_xmin = oldSnapshotControl->latest_xmin;
update_ts = oldSnapshotControl->next_map_update;
if (ts > update_ts)
{
oldSnapshotControl->next_map_update = ts;
map_update_required = true;
}
if (TransactionIdFollows(xmin, latest_xmin))
oldSnapshotControl->latest_xmin = xmin;
SpinLockRelease(&oldSnapshotControl->mutex_latest_xmin);
/* We only needed to update the most recent xmin value. */
if (!map_update_required)
return;
/* No further tracking needed for 0 (used for testing). */
if (old_snapshot_threshold == 0)
return;
/*
* We don't want to do something stupid with unusual values, but we don't
* want to litter the log with warnings or break otherwise normal
* processing for this feature; so if something seems unreasonable, just
* log at DEBUG level and return without doing anything.
*/
if (whenTaken < 0)
{
elog(DEBUG1,
"MaintainOldSnapshotTimeMapping called with negative whenTaken = %ld",
(long) whenTaken);
return;
}
if (!TransactionIdIsNormal(xmin))
{
elog(DEBUG1,
"MaintainOldSnapshotTimeMapping called with xmin = %lu",
(unsigned long) xmin);
return;
}
LWLockAcquire(OldSnapshotTimeMapLock, LW_EXCLUSIVE);
Assert(oldSnapshotControl->head_offset >= 0);
Assert(oldSnapshotControl->head_offset < OLD_SNAPSHOT_TIME_MAP_ENTRIES);
Assert((oldSnapshotControl->head_timestamp % USECS_PER_MINUTE) == 0);
Assert(oldSnapshotControl->count_used >= 0);
Assert(oldSnapshotControl->count_used <= OLD_SNAPSHOT_TIME_MAP_ENTRIES);
if (oldSnapshotControl->count_used == 0)
{
/* set up first entry for empty mapping */
oldSnapshotControl->head_offset = 0;
oldSnapshotControl->head_timestamp = ts;
oldSnapshotControl->count_used = 1;
oldSnapshotControl->xid_by_minute[0] = xmin;
}
else if (ts < oldSnapshotControl->head_timestamp)
{
/* old ts; log it at DEBUG */
LWLockRelease(OldSnapshotTimeMapLock);
elog(DEBUG1,
"MaintainOldSnapshotTimeMapping called with old whenTaken = %ld",
(long) whenTaken);
return;
}
else if (ts <= (oldSnapshotControl->head_timestamp +
((oldSnapshotControl->count_used - 1)
* USECS_PER_MINUTE)))
{
/* existing mapping; advance xid if possible */
int bucket = (oldSnapshotControl->head_offset
+ ((ts - oldSnapshotControl->head_timestamp)
/ USECS_PER_MINUTE))
% OLD_SNAPSHOT_TIME_MAP_ENTRIES;
if (TransactionIdPrecedes(oldSnapshotControl->xid_by_minute[bucket], xmin))
oldSnapshotControl->xid_by_minute[bucket] = xmin;
}
else
{
/* We need a new bucket, but it might not be the very next one. */
int advance = ((ts - oldSnapshotControl->head_timestamp)
/ USECS_PER_MINUTE);
oldSnapshotControl->head_timestamp = ts;
if (advance >= OLD_SNAPSHOT_TIME_MAP_ENTRIES)
{
/* Advance is so far that all old data is junk; start over. */
oldSnapshotControl->head_offset = 0;
oldSnapshotControl->count_used = 1;
oldSnapshotControl->xid_by_minute[0] = xmin;
}
else
{
/* Store the new value in one or more buckets. */
int i;
for (i = 0; i < advance; i++)
{
if (oldSnapshotControl->count_used == OLD_SNAPSHOT_TIME_MAP_ENTRIES)
{
/* Map full and new value replaces old head. */
int old_head = oldSnapshotControl->head_offset;
if (old_head == (OLD_SNAPSHOT_TIME_MAP_ENTRIES - 1))
oldSnapshotControl->head_offset = 0;
else
oldSnapshotControl->head_offset = old_head + 1;
oldSnapshotControl->xid_by_minute[old_head] = xmin;
}
else
{
/* Extend map to unused entry. */
int new_tail = (oldSnapshotControl->head_offset
+ oldSnapshotControl->count_used)
% OLD_SNAPSHOT_TIME_MAP_ENTRIES;
oldSnapshotControl->count_used++;
oldSnapshotControl->xid_by_minute[new_tail] = xmin;
}
}
}
}
LWLockRelease(OldSnapshotTimeMapLock);
}
/*
* Setup a snapshot that replaces normal catalog snapshots that allows catalog
* access to behave just like it did at a certain point in the past.
*
* Needed for logical decoding.
*/
void
SetupHistoricSnapshot(Snapshot historic_snapshot, HTAB *tuplecids)
{
Assert(historic_snapshot != NULL);
/* setup the timetravel snapshot */
HistoricSnapshot = historic_snapshot;
/* setup (cmin, cmax) lookup hash */
tuplecid_data = tuplecids;
}
/*
* Make catalog snapshots behave normally again.
*/
void
TeardownHistoricSnapshot(bool is_error)
{
HistoricSnapshot = NULL;
tuplecid_data = NULL;
}
bool
HistoricSnapshotActive(void)
{
return HistoricSnapshot != NULL;
}
HTAB *
HistoricSnapshotGetTupleCids(void)
{
Assert(HistoricSnapshotActive());
return tuplecid_data;
}
/*
* EstimateSnapshotSpace
* Returns the size needed to store the given snapshot.
*
* We are exporting only required fields from the Snapshot, stored in
* SerializedSnapshotData.
*/
Size
EstimateSnapshotSpace(Snapshot snap)
{
Size size;
Assert(snap != InvalidSnapshot);
Assert(snap->snapshot_type == SNAPSHOT_MVCC);
/* We allocate any XID arrays needed in the same palloc block. */
size = add_size(sizeof(SerializedSnapshotData),
mul_size(snap->xcnt, sizeof(TransactionId)));
if (snap->subxcnt > 0 &&
(!snap->suboverflowed || snap->takenDuringRecovery))
size = add_size(size,
mul_size(snap->subxcnt, sizeof(TransactionId)));
return size;
}
/*
* SerializeSnapshot
* Dumps the serialized snapshot (extracted from given snapshot) onto the
* memory location at start_address.
*/
void
SerializeSnapshot(Snapshot snapshot, char *start_address)
{
SerializedSnapshotData serialized_snapshot;
Assert(snapshot->subxcnt >= 0);
/* Copy all required fields */
serialized_snapshot.xmin = snapshot->xmin;
serialized_snapshot.xmax = snapshot->xmax;
serialized_snapshot.xcnt = snapshot->xcnt;
serialized_snapshot.subxcnt = snapshot->subxcnt;
serialized_snapshot.suboverflowed = snapshot->suboverflowed;
serialized_snapshot.takenDuringRecovery = snapshot->takenDuringRecovery;
serialized_snapshot.curcid = snapshot->curcid;
serialized_snapshot.whenTaken = snapshot->whenTaken;
serialized_snapshot.lsn = snapshot->lsn;
/*
* Ignore the SubXID array if it has overflowed, unless the snapshot was
* taken during recovery - in that case, top-level XIDs are in subxip as
* well, and we mustn't lose them.
*/
if (serialized_snapshot.suboverflowed && !snapshot->takenDuringRecovery)
serialized_snapshot.subxcnt = 0;
/* Copy struct to possibly-unaligned buffer */
memcpy(start_address,
&serialized_snapshot, sizeof(SerializedSnapshotData));
/* Copy XID array */
if (snapshot->xcnt > 0)
memcpy((TransactionId *) (start_address +
sizeof(SerializedSnapshotData)),
snapshot->xip, snapshot->xcnt * sizeof(TransactionId));
/*
* Copy SubXID array. Don't bother to copy it if it had overflowed,
* though, because it's not used anywhere in that case. Except if it's a
* snapshot taken during recovery; all the top-level XIDs are in subxip as
* well in that case, so we mustn't lose them.
*/
if (serialized_snapshot.subxcnt > 0)
{
Size subxipoff = sizeof(SerializedSnapshotData) +
snapshot->xcnt * sizeof(TransactionId);
memcpy((TransactionId *) (start_address + subxipoff),
snapshot->subxip, snapshot->subxcnt * sizeof(TransactionId));
}
}
/*
* RestoreSnapshot
* Restore a serialized snapshot from the specified address.
*
* The copy is palloc'd in TopTransactionContext and has initial refcounts set
* to 0. The returned snapshot has the copied flag set.
*/
Snapshot
RestoreSnapshot(char *start_address)
{
SerializedSnapshotData serialized_snapshot;
Size size;
Snapshot snapshot;
TransactionId *serialized_xids;
memcpy(&serialized_snapshot, start_address,
sizeof(SerializedSnapshotData));
serialized_xids = (TransactionId *)
(start_address + sizeof(SerializedSnapshotData));
/* We allocate any XID arrays needed in the same palloc block. */
size = sizeof(SnapshotData)
+ serialized_snapshot.xcnt * sizeof(TransactionId)
+ serialized_snapshot.subxcnt * sizeof(TransactionId);
/* Copy all required fields */
snapshot = (Snapshot) MemoryContextAlloc(TopTransactionContext, size);
snapshot->snapshot_type = SNAPSHOT_MVCC;
snapshot->xmin = serialized_snapshot.xmin;
snapshot->xmax = serialized_snapshot.xmax;
snapshot->xip = NULL;
snapshot->xcnt = serialized_snapshot.xcnt;
snapshot->subxip = NULL;
snapshot->subxcnt = serialized_snapshot.subxcnt;
snapshot->suboverflowed = serialized_snapshot.suboverflowed;
snapshot->takenDuringRecovery = serialized_snapshot.takenDuringRecovery;
snapshot->curcid = serialized_snapshot.curcid;
snapshot->whenTaken = serialized_snapshot.whenTaken;
snapshot->lsn = serialized_snapshot.lsn;
/* Copy XIDs, if present. */
if (serialized_snapshot.xcnt > 0)
{
snapshot->xip = (TransactionId *) (snapshot + 1);
memcpy(snapshot->xip, serialized_xids,
serialized_snapshot.xcnt * sizeof(TransactionId));
}
/* Copy SubXIDs, if present. */
if (serialized_snapshot.subxcnt > 0)
{
snapshot->subxip = ((TransactionId *) (snapshot + 1)) +
serialized_snapshot.xcnt;
memcpy(snapshot->subxip, serialized_xids + serialized_snapshot.xcnt,
serialized_snapshot.subxcnt * sizeof(TransactionId));
}
/* Set the copied flag so that the caller will set refcounts correctly. */
snapshot->regd_count = 0;
snapshot->active_count = 0;
snapshot->copied = true;
return snapshot;
}
/*
* Install a restored snapshot as the transaction snapshot.
*
* The second argument is of type void * so that snapmgr.h need not include
* the declaration for PGPROC.
*/
void
RestoreTransactionSnapshot(Snapshot snapshot, void *master_pgproc)
{
SetTransactionSnapshot(snapshot, NULL, InvalidPid, master_pgproc);
}
/*
* XidInMVCCSnapshot
* Is the given XID still-in-progress according to the snapshot?
*
* Note: GetSnapshotData never stores either top xid or subxids of our own
* backend into a snapshot, so these xids will not be reported as "running"
* by this function. This is OK for current uses, because we always check
* TransactionIdIsCurrentTransactionId first, except when it's known the
* XID could not be ours anyway.
*/
bool
XidInMVCCSnapshot(TransactionId xid, Snapshot snapshot)
{
uint32 i;
/*
* Make a quick range check to eliminate most XIDs without looking at the
* xip arrays. Note that this is OK even if we convert a subxact XID to
* its parent below, because a subxact with XID < xmin has surely also got
* a parent with XID < xmin, while one with XID >= xmax must belong to a
* parent that was not yet committed at the time of this snapshot.
*/
/* Any xid < xmin is not in-progress */
if (TransactionIdPrecedes(xid, snapshot->xmin))
return false;
/* Any xid >= xmax is in-progress */
if (TransactionIdFollowsOrEquals(xid, snapshot->xmax))
return true;
/*
* Snapshot information is stored slightly differently in snapshots taken
* during recovery.
*/
if (!snapshot->takenDuringRecovery)
{
/*
* If the snapshot contains full subxact data, the fastest way to
* check things is just to compare the given XID against both subxact
* XIDs and top-level XIDs. If the snapshot overflowed, we have to
* use pg_subtrans to convert a subxact XID to its parent XID, but
* then we need only look at top-level XIDs not subxacts.
*/
if (!snapshot->suboverflowed)
{
/* we have full data, so search subxip */
int32 j;
for (j = 0; j < snapshot->subxcnt; j++)
{
if (TransactionIdEquals(xid, snapshot->subxip[j]))
return true;
}
/* not there, fall through to search xip[] */
}
else
{
/*
* Snapshot overflowed, so convert xid to top-level. This is safe
* because we eliminated too-old XIDs above.
*/
xid = SubTransGetTopmostTransaction(xid);
/*
* If xid was indeed a subxact, we might now have an xid < xmin,
* so recheck to avoid an array scan. No point in rechecking
* xmax.
*/
if (TransactionIdPrecedes(xid, snapshot->xmin))
return false;
}
for (i = 0; i < snapshot->xcnt; i++)
{
if (TransactionIdEquals(xid, snapshot->xip[i]))
return true;
}
}
else
{
int32 j;
/*
* In recovery we store all xids in the subxact array because it is by
* far the bigger array, and we mostly don't know which xids are
* top-level and which are subxacts. The xip array is empty.
*
* We start by searching subtrans, if we overflowed.
*/
if (snapshot->suboverflowed)
{
/*
* Snapshot overflowed, so convert xid to top-level. This is safe
* because we eliminated too-old XIDs above.
*/
xid = SubTransGetTopmostTransaction(xid);
/*
* If xid was indeed a subxact, we might now have an xid < xmin,
* so recheck to avoid an array scan. No point in rechecking
* xmax.
*/
if (TransactionIdPrecedes(xid, snapshot->xmin))
return false;
}
/*
* We now have either a top-level xid higher than xmin or an
* indeterminate xid. We don't know whether it's top level or subxact
* but it doesn't matter. If it's present, the xid is visible.
*/
for (j = 0; j < snapshot->subxcnt; j++)
{
if (TransactionIdEquals(xid, snapshot->subxip[j]))
return true;
}
}
return false;
}
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