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|
/*-------------------------------------------------------------------------
*
* heapam_visibility.c
* Tuple visibility rules for tuples stored in heap.
*
* NOTE: all the HeapTupleSatisfies routines will update the tuple's
* "hint" status bits if we see that the inserting or deleting transaction
* has now committed or aborted (and it is safe to set the hint bits).
* If the hint bits are changed, MarkBufferDirtyHint is called on
* the passed-in buffer. The caller must hold not only a pin, but at least
* shared buffer content lock on the buffer containing the tuple.
*
* NOTE: When using a non-MVCC snapshot, we must check
* TransactionIdIsInProgress (which looks in the PGXACT array)
* before TransactionIdDidCommit/TransactionIdDidAbort (which look in
* pg_xact). Otherwise we have a race condition: we might decide that a
* just-committed transaction crashed, because none of the tests succeed.
* xact.c is careful to record commit/abort in pg_xact before it unsets
* MyPgXact->xid in the PGXACT array. That fixes that problem, but it
* also means there is a window where TransactionIdIsInProgress and
* TransactionIdDidCommit will both return true. If we check only
* TransactionIdDidCommit, we could consider a tuple committed when a
* later GetSnapshotData call will still think the originating transaction
* is in progress, which leads to application-level inconsistency. The
* upshot is that we gotta check TransactionIdIsInProgress first in all
* code paths, except for a few cases where we are looking at
* subtransactions of our own main transaction and so there can't be any
* race condition.
*
* When using an MVCC snapshot, we rely on XidInMVCCSnapshot rather than
* TransactionIdIsInProgress, but the logic is otherwise the same: do not
* check pg_xact until after deciding that the xact is no longer in progress.
*
*
* Summary of visibility functions:
*
* HeapTupleSatisfiesMVCC()
* visible to supplied snapshot, excludes current command
* HeapTupleSatisfiesUpdate()
* visible to instant snapshot, with user-supplied command
* counter and more complex result
* HeapTupleSatisfiesSelf()
* visible to instant snapshot and current command
* HeapTupleSatisfiesDirty()
* like HeapTupleSatisfiesSelf(), but includes open transactions
* HeapTupleSatisfiesVacuum()
* visible to any running transaction, used by VACUUM
* HeapTupleSatisfiesNonVacuumable()
* Snapshot-style API for HeapTupleSatisfiesVacuum
* HeapTupleSatisfiesToast()
* visible unless part of interrupted vacuum, used for TOAST
* HeapTupleSatisfiesAny()
* all tuples are visible
*
* Portions Copyright (c) 1996-2020, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
* src/backend/access/heap/heapam_visibility.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "access/heapam.h"
#include "access/htup_details.h"
#include "access/multixact.h"
#include "access/subtrans.h"
#include "access/tableam.h"
#include "access/transam.h"
#include "access/xact.h"
#include "access/xlog.h"
#include "storage/bufmgr.h"
#include "storage/procarray.h"
#include "utils/builtins.h"
#include "utils/combocid.h"
#include "utils/snapmgr.h"
/*
* SetHintBits()
*
* Set commit/abort hint bits on a tuple, if appropriate at this time.
*
* It is only safe to set a transaction-committed hint bit if we know the
* transaction's commit record is guaranteed to be flushed to disk before the
* buffer, or if the table is temporary or unlogged and will be obliterated by
* a crash anyway. We cannot change the LSN of the page here, because we may
* hold only a share lock on the buffer, so we can only use the LSN to
* interlock this if the buffer's LSN already is newer than the commit LSN;
* otherwise we have to just refrain from setting the hint bit until some
* future re-examination of the tuple.
*
* We can always set hint bits when marking a transaction aborted. (Some
* code in heapam.c relies on that!)
*
* Also, if we are cleaning up HEAP_MOVED_IN or HEAP_MOVED_OFF entries, then
* we can always set the hint bits, since pre-9.0 VACUUM FULL always used
* synchronous commits and didn't move tuples that weren't previously
* hinted. (This is not known by this subroutine, but is applied by its
* callers.) Note: old-style VACUUM FULL is gone, but we have to keep this
* module's support for MOVED_OFF/MOVED_IN flag bits for as long as we
* support in-place update from pre-9.0 databases.
*
* Normal commits may be asynchronous, so for those we need to get the LSN
* of the transaction and then check whether this is flushed.
*
* The caller should pass xid as the XID of the transaction to check, or
* InvalidTransactionId if no check is needed.
*/
static inline void
SetHintBits(HeapTupleHeader tuple, Buffer buffer,
uint16 infomask, TransactionId xid)
{
if (TransactionIdIsValid(xid))
{
/* NB: xid must be known committed here! */
XLogRecPtr commitLSN = TransactionIdGetCommitLSN(xid);
if (BufferIsPermanent(buffer) && XLogNeedsFlush(commitLSN) &&
BufferGetLSNAtomic(buffer) < commitLSN)
{
/* not flushed and no LSN interlock, so don't set hint */
return;
}
}
tuple->t_infomask |= infomask;
MarkBufferDirtyHint(buffer, true);
}
/*
* HeapTupleSetHintBits --- exported version of SetHintBits()
*
* This must be separate because of C99's brain-dead notions about how to
* implement inline functions.
*/
void
HeapTupleSetHintBits(HeapTupleHeader tuple, Buffer buffer,
uint16 infomask, TransactionId xid)
{
SetHintBits(tuple, buffer, infomask, xid);
}
/*
* HeapTupleSatisfiesSelf
* True iff heap tuple is valid "for itself".
*
* See SNAPSHOT_MVCC's definition for the intended behaviour.
*
* Note:
* Assumes heap tuple is valid.
*
* The satisfaction of "itself" requires the following:
*
* ((Xmin == my-transaction && the row was updated by the current transaction, and
* (Xmax is null it was not deleted
* [|| Xmax != my-transaction)]) [or it was deleted by another transaction]
* ||
*
* (Xmin is committed && the row was modified by a committed transaction, and
* (Xmax is null || the row has not been deleted, or
* (Xmax != my-transaction && the row was deleted by another transaction
* Xmax is not committed))) that has not been committed
*/
static bool
HeapTupleSatisfiesSelf(HeapTuple htup, Snapshot snapshot, Buffer buffer)
{
HeapTupleHeader tuple = htup->t_data;
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
if (!HeapTupleHeaderXminCommitted(tuple))
{
if (HeapTupleHeaderXminInvalid(tuple))
return false;
/* Used by pre-9.0 binary upgrades */
if (tuple->t_infomask & HEAP_MOVED_OFF)
{
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
if (TransactionIdIsCurrentTransactionId(xvac))
return false;
if (!TransactionIdIsInProgress(xvac))
{
if (TransactionIdDidCommit(xvac))
{
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return false;
}
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
}
}
/* Used by pre-9.0 binary upgrades */
else if (tuple->t_infomask & HEAP_MOVED_IN)
{
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
if (!TransactionIdIsCurrentTransactionId(xvac))
{
if (TransactionIdIsInProgress(xvac))
return false;
if (TransactionIdDidCommit(xvac))
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
else
{
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return false;
}
}
}
else if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmin(tuple)))
{
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid */
return true;
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask)) /* not deleter */
return true;
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
TransactionId xmax;
xmax = HeapTupleGetUpdateXid(tuple);
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
/* updating subtransaction must have aborted */
if (!TransactionIdIsCurrentTransactionId(xmax))
return true;
else
return false;
}
if (!TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
{
/* deleting subtransaction must have aborted */
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
return true;
}
return false;
}
else if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmin(tuple)))
return false;
else if (TransactionIdDidCommit(HeapTupleHeaderGetRawXmin(tuple)))
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
HeapTupleHeaderGetRawXmin(tuple));
else
{
/* it must have aborted or crashed */
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return false;
}
}
/* by here, the inserting transaction has committed */
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid or aborted */
return true;
if (tuple->t_infomask & HEAP_XMAX_COMMITTED)
{
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return true;
return false; /* updated by other */
}
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
TransactionId xmax;
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return true;
xmax = HeapTupleGetUpdateXid(tuple);
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
if (TransactionIdIsCurrentTransactionId(xmax))
return false;
if (TransactionIdIsInProgress(xmax))
return true;
if (TransactionIdDidCommit(xmax))
return false;
/* it must have aborted or crashed */
return true;
}
if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
{
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return true;
return false;
}
if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmax(tuple)))
return true;
if (!TransactionIdDidCommit(HeapTupleHeaderGetRawXmax(tuple)))
{
/* it must have aborted or crashed */
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
return true;
}
/* xmax transaction committed */
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
{
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
return true;
}
SetHintBits(tuple, buffer, HEAP_XMAX_COMMITTED,
HeapTupleHeaderGetRawXmax(tuple));
return false;
}
/*
* HeapTupleSatisfiesAny
* Dummy "satisfies" routine: any tuple satisfies SnapshotAny.
*/
static bool
HeapTupleSatisfiesAny(HeapTuple htup, Snapshot snapshot, Buffer buffer)
{
return true;
}
/*
* HeapTupleSatisfiesToast
* True iff heap tuple is valid as a TOAST row.
*
* See SNAPSHOT_TOAST's definition for the intended behaviour.
*
* This is a simplified version that only checks for VACUUM moving conditions.
* It's appropriate for TOAST usage because TOAST really doesn't want to do
* its own time qual checks; if you can see the main table row that contains
* a TOAST reference, you should be able to see the TOASTed value. However,
* vacuuming a TOAST table is independent of the main table, and in case such
* a vacuum fails partway through, we'd better do this much checking.
*
* Among other things, this means you can't do UPDATEs of rows in a TOAST
* table.
*/
static bool
HeapTupleSatisfiesToast(HeapTuple htup, Snapshot snapshot,
Buffer buffer)
{
HeapTupleHeader tuple = htup->t_data;
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
if (!HeapTupleHeaderXminCommitted(tuple))
{
if (HeapTupleHeaderXminInvalid(tuple))
return false;
/* Used by pre-9.0 binary upgrades */
if (tuple->t_infomask & HEAP_MOVED_OFF)
{
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
if (TransactionIdIsCurrentTransactionId(xvac))
return false;
if (!TransactionIdIsInProgress(xvac))
{
if (TransactionIdDidCommit(xvac))
{
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return false;
}
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
}
}
/* Used by pre-9.0 binary upgrades */
else if (tuple->t_infomask & HEAP_MOVED_IN)
{
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
if (!TransactionIdIsCurrentTransactionId(xvac))
{
if (TransactionIdIsInProgress(xvac))
return false;
if (TransactionIdDidCommit(xvac))
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
else
{
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return false;
}
}
}
/*
* An invalid Xmin can be left behind by a speculative insertion that
* is canceled by super-deleting the tuple. This also applies to
* TOAST tuples created during speculative insertion.
*/
else if (!TransactionIdIsValid(HeapTupleHeaderGetXmin(tuple)))
return false;
}
/* otherwise assume the tuple is valid for TOAST. */
return true;
}
/*
* HeapTupleSatisfiesUpdate
*
* This function returns a more detailed result code than most of the
* functions in this file, since UPDATE needs to know more than "is it
* visible?". It also allows for user-supplied CommandId rather than
* relying on CurrentCommandId.
*
* The possible return codes are:
*
* TM_Invisible: the tuple didn't exist at all when the scan started, e.g. it
* was created by a later CommandId.
*
* TM_Ok: The tuple is valid and visible, so it may be updated.
*
* TM_SelfModified: The tuple was updated by the current transaction, after
* the current scan started.
*
* TM_Updated: The tuple was updated by a committed transaction (including
* the case where the tuple was moved into a different partition).
*
* TM_Deleted: The tuple was deleted by a committed transaction.
*
* TM_BeingModified: The tuple is being updated by an in-progress transaction
* other than the current transaction. (Note: this includes the case where
* the tuple is share-locked by a MultiXact, even if the MultiXact includes
* the current transaction. Callers that want to distinguish that case must
* test for it themselves.)
*/
TM_Result
HeapTupleSatisfiesUpdate(HeapTuple htup, CommandId curcid,
Buffer buffer)
{
HeapTupleHeader tuple = htup->t_data;
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
if (!HeapTupleHeaderXminCommitted(tuple))
{
if (HeapTupleHeaderXminInvalid(tuple))
return TM_Invisible;
/* Used by pre-9.0 binary upgrades */
if (tuple->t_infomask & HEAP_MOVED_OFF)
{
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
if (TransactionIdIsCurrentTransactionId(xvac))
return TM_Invisible;
if (!TransactionIdIsInProgress(xvac))
{
if (TransactionIdDidCommit(xvac))
{
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return TM_Invisible;
}
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
}
}
/* Used by pre-9.0 binary upgrades */
else if (tuple->t_infomask & HEAP_MOVED_IN)
{
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
if (!TransactionIdIsCurrentTransactionId(xvac))
{
if (TransactionIdIsInProgress(xvac))
return TM_Invisible;
if (TransactionIdDidCommit(xvac))
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
else
{
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return TM_Invisible;
}
}
}
else if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmin(tuple)))
{
if (HeapTupleHeaderGetCmin(tuple) >= curcid)
return TM_Invisible; /* inserted after scan started */
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid */
return TM_Ok;
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
{
TransactionId xmax;
xmax = HeapTupleHeaderGetRawXmax(tuple);
/*
* Careful here: even though this tuple was created by our own
* transaction, it might be locked by other transactions, if
* the original version was key-share locked when we updated
* it.
*/
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
if (MultiXactIdIsRunning(xmax, true))
return TM_BeingModified;
else
return TM_Ok;
}
/*
* If the locker is gone, then there is nothing of interest
* left in this Xmax; otherwise, report the tuple as
* locked/updated.
*/
if (!TransactionIdIsInProgress(xmax))
return TM_Ok;
return TM_BeingModified;
}
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
TransactionId xmax;
xmax = HeapTupleGetUpdateXid(tuple);
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
/* deleting subtransaction must have aborted */
if (!TransactionIdIsCurrentTransactionId(xmax))
{
if (MultiXactIdIsRunning(HeapTupleHeaderGetRawXmax(tuple),
false))
return TM_BeingModified;
return TM_Ok;
}
else
{
if (HeapTupleHeaderGetCmax(tuple) >= curcid)
return TM_SelfModified; /* updated after scan started */
else
return TM_Invisible; /* updated before scan started */
}
}
if (!TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
{
/* deleting subtransaction must have aborted */
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
return TM_Ok;
}
if (HeapTupleHeaderGetCmax(tuple) >= curcid)
return TM_SelfModified; /* updated after scan started */
else
return TM_Invisible; /* updated before scan started */
}
else if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmin(tuple)))
return TM_Invisible;
else if (TransactionIdDidCommit(HeapTupleHeaderGetRawXmin(tuple)))
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
HeapTupleHeaderGetRawXmin(tuple));
else
{
/* it must have aborted or crashed */
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return TM_Invisible;
}
}
/* by here, the inserting transaction has committed */
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid or aborted */
return TM_Ok;
if (tuple->t_infomask & HEAP_XMAX_COMMITTED)
{
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return TM_Ok;
if (!ItemPointerEquals(&htup->t_self, &tuple->t_ctid) ||
HeapTupleHeaderIndicatesMovedPartitions(tuple))
return TM_Updated; /* updated by other */
else
return TM_Deleted; /* deleted by other */
}
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
TransactionId xmax;
if (HEAP_LOCKED_UPGRADED(tuple->t_infomask))
return TM_Ok;
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
{
if (MultiXactIdIsRunning(HeapTupleHeaderGetRawXmax(tuple), true))
return TM_BeingModified;
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID, InvalidTransactionId);
return TM_Ok;
}
xmax = HeapTupleGetUpdateXid(tuple);
if (!TransactionIdIsValid(xmax))
{
if (MultiXactIdIsRunning(HeapTupleHeaderGetRawXmax(tuple), false))
return TM_BeingModified;
}
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
if (TransactionIdIsCurrentTransactionId(xmax))
{
if (HeapTupleHeaderGetCmax(tuple) >= curcid)
return TM_SelfModified; /* updated after scan started */
else
return TM_Invisible; /* updated before scan started */
}
if (MultiXactIdIsRunning(HeapTupleHeaderGetRawXmax(tuple), false))
return TM_BeingModified;
if (TransactionIdDidCommit(xmax))
{
if (!ItemPointerEquals(&htup->t_self, &tuple->t_ctid) ||
HeapTupleHeaderIndicatesMovedPartitions(tuple))
return TM_Updated;
else
return TM_Deleted;
}
/*
* By here, the update in the Xmax is either aborted or crashed, but
* what about the other members?
*/
if (!MultiXactIdIsRunning(HeapTupleHeaderGetRawXmax(tuple), false))
{
/*
* There's no member, even just a locker, alive anymore, so we can
* mark the Xmax as invalid.
*/
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
return TM_Ok;
}
else
{
/* There are lockers running */
return TM_BeingModified;
}
}
if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
{
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return TM_BeingModified;
if (HeapTupleHeaderGetCmax(tuple) >= curcid)
return TM_SelfModified; /* updated after scan started */
else
return TM_Invisible; /* updated before scan started */
}
if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmax(tuple)))
return TM_BeingModified;
if (!TransactionIdDidCommit(HeapTupleHeaderGetRawXmax(tuple)))
{
/* it must have aborted or crashed */
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
return TM_Ok;
}
/* xmax transaction committed */
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
{
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
return TM_Ok;
}
SetHintBits(tuple, buffer, HEAP_XMAX_COMMITTED,
HeapTupleHeaderGetRawXmax(tuple));
if (!ItemPointerEquals(&htup->t_self, &tuple->t_ctid) ||
HeapTupleHeaderIndicatesMovedPartitions(tuple))
return TM_Updated; /* updated by other */
else
return TM_Deleted; /* deleted by other */
}
/*
* HeapTupleSatisfiesDirty
* True iff heap tuple is valid including effects of open transactions.
*
* See SNAPSHOT_DIRTY's definition for the intended behaviour.
*
* This is essentially like HeapTupleSatisfiesSelf as far as effects of
* the current transaction and committed/aborted xacts are concerned.
* However, we also include the effects of other xacts still in progress.
*
* A special hack is that the passed-in snapshot struct is used as an
* output argument to return the xids of concurrent xacts that affected the
* tuple. snapshot->xmin is set to the tuple's xmin if that is another
* transaction that's still in progress; or to InvalidTransactionId if the
* tuple's xmin is committed good, committed dead, or my own xact.
* Similarly for snapshot->xmax and the tuple's xmax. If the tuple was
* inserted speculatively, meaning that the inserter might still back down
* on the insertion without aborting the whole transaction, the associated
* token is also returned in snapshot->speculativeToken.
*/
static bool
HeapTupleSatisfiesDirty(HeapTuple htup, Snapshot snapshot,
Buffer buffer)
{
HeapTupleHeader tuple = htup->t_data;
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
snapshot->xmin = snapshot->xmax = InvalidTransactionId;
snapshot->speculativeToken = 0;
if (!HeapTupleHeaderXminCommitted(tuple))
{
if (HeapTupleHeaderXminInvalid(tuple))
return false;
/* Used by pre-9.0 binary upgrades */
if (tuple->t_infomask & HEAP_MOVED_OFF)
{
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
if (TransactionIdIsCurrentTransactionId(xvac))
return false;
if (!TransactionIdIsInProgress(xvac))
{
if (TransactionIdDidCommit(xvac))
{
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return false;
}
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
}
}
/* Used by pre-9.0 binary upgrades */
else if (tuple->t_infomask & HEAP_MOVED_IN)
{
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
if (!TransactionIdIsCurrentTransactionId(xvac))
{
if (TransactionIdIsInProgress(xvac))
return false;
if (TransactionIdDidCommit(xvac))
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
else
{
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return false;
}
}
}
else if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmin(tuple)))
{
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid */
return true;
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask)) /* not deleter */
return true;
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
TransactionId xmax;
xmax = HeapTupleGetUpdateXid(tuple);
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
/* updating subtransaction must have aborted */
if (!TransactionIdIsCurrentTransactionId(xmax))
return true;
else
return false;
}
if (!TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
{
/* deleting subtransaction must have aborted */
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
return true;
}
return false;
}
else if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmin(tuple)))
{
/*
* Return the speculative token to caller. Caller can worry about
* xmax, since it requires a conclusively locked row version, and
* a concurrent update to this tuple is a conflict of its
* purposes.
*/
if (HeapTupleHeaderIsSpeculative(tuple))
{
snapshot->speculativeToken =
HeapTupleHeaderGetSpeculativeToken(tuple);
Assert(snapshot->speculativeToken != 0);
}
snapshot->xmin = HeapTupleHeaderGetRawXmin(tuple);
/* XXX shouldn't we fall through to look at xmax? */
return true; /* in insertion by other */
}
else if (TransactionIdDidCommit(HeapTupleHeaderGetRawXmin(tuple)))
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
HeapTupleHeaderGetRawXmin(tuple));
else
{
/* it must have aborted or crashed */
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return false;
}
}
/* by here, the inserting transaction has committed */
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid or aborted */
return true;
if (tuple->t_infomask & HEAP_XMAX_COMMITTED)
{
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return true;
return false; /* updated by other */
}
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
TransactionId xmax;
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return true;
xmax = HeapTupleGetUpdateXid(tuple);
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
if (TransactionIdIsCurrentTransactionId(xmax))
return false;
if (TransactionIdIsInProgress(xmax))
{
snapshot->xmax = xmax;
return true;
}
if (TransactionIdDidCommit(xmax))
return false;
/* it must have aborted or crashed */
return true;
}
if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
{
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return true;
return false;
}
if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmax(tuple)))
{
if (!HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
snapshot->xmax = HeapTupleHeaderGetRawXmax(tuple);
return true;
}
if (!TransactionIdDidCommit(HeapTupleHeaderGetRawXmax(tuple)))
{
/* it must have aborted or crashed */
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
return true;
}
/* xmax transaction committed */
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
{
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
return true;
}
SetHintBits(tuple, buffer, HEAP_XMAX_COMMITTED,
HeapTupleHeaderGetRawXmax(tuple));
return false; /* updated by other */
}
/*
* HeapTupleSatisfiesMVCC
* True iff heap tuple is valid for the given MVCC snapshot.
*
* See SNAPSHOT_MVCC's definition for the intended behaviour.
*
* Notice that here, we will not update the tuple status hint bits if the
* inserting/deleting transaction is still running according to our snapshot,
* even if in reality it's committed or aborted by now. This is intentional.
* Checking the true transaction state would require access to high-traffic
* shared data structures, creating contention we'd rather do without, and it
* would not change the result of our visibility check anyway. The hint bits
* will be updated by the first visitor that has a snapshot new enough to see
* the inserting/deleting transaction as done. In the meantime, the cost of
* leaving the hint bits unset is basically that each HeapTupleSatisfiesMVCC
* call will need to run TransactionIdIsCurrentTransactionId in addition to
* XidInMVCCSnapshot (but it would have to do the latter anyway). In the old
* coding where we tried to set the hint bits as soon as possible, we instead
* did TransactionIdIsInProgress in each call --- to no avail, as long as the
* inserting/deleting transaction was still running --- which was more cycles
* and more contention on the PGXACT array.
*/
static bool
HeapTupleSatisfiesMVCC(HeapTuple htup, Snapshot snapshot,
Buffer buffer)
{
HeapTupleHeader tuple = htup->t_data;
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
if (!HeapTupleHeaderXminCommitted(tuple))
{
if (HeapTupleHeaderXminInvalid(tuple))
return false;
/* Used by pre-9.0 binary upgrades */
if (tuple->t_infomask & HEAP_MOVED_OFF)
{
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
if (TransactionIdIsCurrentTransactionId(xvac))
return false;
if (!XidInMVCCSnapshot(xvac, snapshot))
{
if (TransactionIdDidCommit(xvac))
{
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return false;
}
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
}
}
/* Used by pre-9.0 binary upgrades */
else if (tuple->t_infomask & HEAP_MOVED_IN)
{
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
if (!TransactionIdIsCurrentTransactionId(xvac))
{
if (XidInMVCCSnapshot(xvac, snapshot))
return false;
if (TransactionIdDidCommit(xvac))
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
else
{
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return false;
}
}
}
else if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmin(tuple)))
{
if (HeapTupleHeaderGetCmin(tuple) >= snapshot->curcid)
return false; /* inserted after scan started */
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid */
return true;
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask)) /* not deleter */
return true;
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
TransactionId xmax;
xmax = HeapTupleGetUpdateXid(tuple);
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
/* updating subtransaction must have aborted */
if (!TransactionIdIsCurrentTransactionId(xmax))
return true;
else if (HeapTupleHeaderGetCmax(tuple) >= snapshot->curcid)
return true; /* updated after scan started */
else
return false; /* updated before scan started */
}
if (!TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
{
/* deleting subtransaction must have aborted */
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
return true;
}
if (HeapTupleHeaderGetCmax(tuple) >= snapshot->curcid)
return true; /* deleted after scan started */
else
return false; /* deleted before scan started */
}
else if (XidInMVCCSnapshot(HeapTupleHeaderGetRawXmin(tuple), snapshot))
return false;
else if (TransactionIdDidCommit(HeapTupleHeaderGetRawXmin(tuple)))
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
HeapTupleHeaderGetRawXmin(tuple));
else
{
/* it must have aborted or crashed */
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return false;
}
}
else
{
/* xmin is committed, but maybe not according to our snapshot */
if (!HeapTupleHeaderXminFrozen(tuple) &&
XidInMVCCSnapshot(HeapTupleHeaderGetRawXmin(tuple), snapshot))
return false; /* treat as still in progress */
}
/* by here, the inserting transaction has committed */
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid or aborted */
return true;
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return true;
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
TransactionId xmax;
/* already checked above */
Assert(!HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask));
xmax = HeapTupleGetUpdateXid(tuple);
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
if (TransactionIdIsCurrentTransactionId(xmax))
{
if (HeapTupleHeaderGetCmax(tuple) >= snapshot->curcid)
return true; /* deleted after scan started */
else
return false; /* deleted before scan started */
}
if (XidInMVCCSnapshot(xmax, snapshot))
return true;
if (TransactionIdDidCommit(xmax))
return false; /* updating transaction committed */
/* it must have aborted or crashed */
return true;
}
if (!(tuple->t_infomask & HEAP_XMAX_COMMITTED))
{
if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
{
if (HeapTupleHeaderGetCmax(tuple) >= snapshot->curcid)
return true; /* deleted after scan started */
else
return false; /* deleted before scan started */
}
if (XidInMVCCSnapshot(HeapTupleHeaderGetRawXmax(tuple), snapshot))
return true;
if (!TransactionIdDidCommit(HeapTupleHeaderGetRawXmax(tuple)))
{
/* it must have aborted or crashed */
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
return true;
}
/* xmax transaction committed */
SetHintBits(tuple, buffer, HEAP_XMAX_COMMITTED,
HeapTupleHeaderGetRawXmax(tuple));
}
else
{
/* xmax is committed, but maybe not according to our snapshot */
if (XidInMVCCSnapshot(HeapTupleHeaderGetRawXmax(tuple), snapshot))
return true; /* treat as still in progress */
}
/* xmax transaction committed */
return false;
}
/*
* HeapTupleSatisfiesVacuum
*
* Determine the status of tuples for VACUUM purposes. Here, what
* we mainly want to know is if a tuple is potentially visible to *any*
* running transaction. If so, it can't be removed yet by VACUUM.
*
* OldestXmin is a cutoff XID (obtained from GetOldestXmin()). Tuples
* deleted by XIDs >= OldestXmin are deemed "recently dead"; they might
* still be visible to some open transaction, so we can't remove them,
* even if we see that the deleting transaction has committed.
*/
HTSV_Result
HeapTupleSatisfiesVacuum(HeapTuple htup, TransactionId OldestXmin,
Buffer buffer)
{
HeapTupleHeader tuple = htup->t_data;
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
/*
* Has inserting transaction committed?
*
* If the inserting transaction aborted, then the tuple was never visible
* to any other transaction, so we can delete it immediately.
*/
if (!HeapTupleHeaderXminCommitted(tuple))
{
if (HeapTupleHeaderXminInvalid(tuple))
return HEAPTUPLE_DEAD;
/* Used by pre-9.0 binary upgrades */
else if (tuple->t_infomask & HEAP_MOVED_OFF)
{
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
if (TransactionIdIsCurrentTransactionId(xvac))
return HEAPTUPLE_DELETE_IN_PROGRESS;
if (TransactionIdIsInProgress(xvac))
return HEAPTUPLE_DELETE_IN_PROGRESS;
if (TransactionIdDidCommit(xvac))
{
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return HEAPTUPLE_DEAD;
}
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
}
/* Used by pre-9.0 binary upgrades */
else if (tuple->t_infomask & HEAP_MOVED_IN)
{
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
if (TransactionIdIsCurrentTransactionId(xvac))
return HEAPTUPLE_INSERT_IN_PROGRESS;
if (TransactionIdIsInProgress(xvac))
return HEAPTUPLE_INSERT_IN_PROGRESS;
if (TransactionIdDidCommit(xvac))
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
else
{
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return HEAPTUPLE_DEAD;
}
}
else if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmin(tuple)))
{
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid */
return HEAPTUPLE_INSERT_IN_PROGRESS;
/* only locked? run infomask-only check first, for performance */
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask) ||
HeapTupleHeaderIsOnlyLocked(tuple))
return HEAPTUPLE_INSERT_IN_PROGRESS;
/* inserted and then deleted by same xact */
if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetUpdateXid(tuple)))
return HEAPTUPLE_DELETE_IN_PROGRESS;
/* deleting subtransaction must have aborted */
return HEAPTUPLE_INSERT_IN_PROGRESS;
}
else if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmin(tuple)))
{
/*
* It'd be possible to discern between INSERT/DELETE in progress
* here by looking at xmax - but that doesn't seem beneficial for
* the majority of callers and even detrimental for some. We'd
* rather have callers look at/wait for xmin than xmax. It's
* always correct to return INSERT_IN_PROGRESS because that's
* what's happening from the view of other backends.
*/
return HEAPTUPLE_INSERT_IN_PROGRESS;
}
else if (TransactionIdDidCommit(HeapTupleHeaderGetRawXmin(tuple)))
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
HeapTupleHeaderGetRawXmin(tuple));
else
{
/*
* Not in Progress, Not Committed, so either Aborted or crashed
*/
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
return HEAPTUPLE_DEAD;
}
/*
* At this point the xmin is known committed, but we might not have
* been able to set the hint bit yet; so we can no longer Assert that
* it's set.
*/
}
/*
* Okay, the inserter committed, so it was good at some point. Now what
* about the deleting transaction?
*/
if (tuple->t_infomask & HEAP_XMAX_INVALID)
return HEAPTUPLE_LIVE;
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
{
/*
* "Deleting" xact really only locked it, so the tuple is live in any
* case. However, we should make sure that either XMAX_COMMITTED or
* XMAX_INVALID gets set once the xact is gone, to reduce the costs of
* examining the tuple for future xacts.
*/
if (!(tuple->t_infomask & HEAP_XMAX_COMMITTED))
{
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
/*
* If it's a pre-pg_upgrade tuple, the multixact cannot
* possibly be running; otherwise have to check.
*/
if (!HEAP_LOCKED_UPGRADED(tuple->t_infomask) &&
MultiXactIdIsRunning(HeapTupleHeaderGetRawXmax(tuple),
true))
return HEAPTUPLE_LIVE;
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID, InvalidTransactionId);
}
else
{
if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmax(tuple)))
return HEAPTUPLE_LIVE;
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
}
}
/*
* We don't really care whether xmax did commit, abort or crash. We
* know that xmax did lock the tuple, but it did not and will never
* actually update it.
*/
return HEAPTUPLE_LIVE;
}
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
TransactionId xmax = HeapTupleGetUpdateXid(tuple);
/* already checked above */
Assert(!HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask));
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
if (TransactionIdIsInProgress(xmax))
return HEAPTUPLE_DELETE_IN_PROGRESS;
else if (TransactionIdDidCommit(xmax))
{
/*
* The multixact might still be running due to lockers. If the
* updater is below the xid horizon, we have to return DEAD
* regardless -- otherwise we could end up with a tuple where the
* updater has to be removed due to the horizon, but is not pruned
* away. It's not a problem to prune that tuple, because any
* remaining lockers will also be present in newer tuple versions.
*/
if (!TransactionIdPrecedes(xmax, OldestXmin))
return HEAPTUPLE_RECENTLY_DEAD;
return HEAPTUPLE_DEAD;
}
else if (!MultiXactIdIsRunning(HeapTupleHeaderGetRawXmax(tuple), false))
{
/*
* Not in Progress, Not Committed, so either Aborted or crashed.
* Mark the Xmax as invalid.
*/
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID, InvalidTransactionId);
}
return HEAPTUPLE_LIVE;
}
if (!(tuple->t_infomask & HEAP_XMAX_COMMITTED))
{
if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmax(tuple)))
return HEAPTUPLE_DELETE_IN_PROGRESS;
else if (TransactionIdDidCommit(HeapTupleHeaderGetRawXmax(tuple)))
SetHintBits(tuple, buffer, HEAP_XMAX_COMMITTED,
HeapTupleHeaderGetRawXmax(tuple));
else
{
/*
* Not in Progress, Not Committed, so either Aborted or crashed
*/
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
return HEAPTUPLE_LIVE;
}
/*
* At this point the xmax is known committed, but we might not have
* been able to set the hint bit yet; so we can no longer Assert that
* it's set.
*/
}
/*
* Deleter committed, but perhaps it was recent enough that some open
* transactions could still see the tuple.
*/
if (!TransactionIdPrecedes(HeapTupleHeaderGetRawXmax(tuple), OldestXmin))
return HEAPTUPLE_RECENTLY_DEAD;
/* Otherwise, it's dead and removable */
return HEAPTUPLE_DEAD;
}
/*
* HeapTupleSatisfiesNonVacuumable
*
* True if tuple might be visible to some transaction; false if it's
* surely dead to everyone, ie, vacuumable.
*
* See SNAPSHOT_NON_VACUUMABLE's definition for the intended behaviour.
*
* This is an interface to HeapTupleSatisfiesVacuum that's callable via
* HeapTupleSatisfiesSnapshot, so it can be used through a Snapshot.
* snapshot->xmin must have been set up with the xmin horizon to use.
*/
static bool
HeapTupleSatisfiesNonVacuumable(HeapTuple htup, Snapshot snapshot,
Buffer buffer)
{
return HeapTupleSatisfiesVacuum(htup, snapshot->xmin, buffer)
!= HEAPTUPLE_DEAD;
}
/*
* HeapTupleIsSurelyDead
*
* Cheaply determine whether a tuple is surely dead to all onlookers.
* We sometimes use this in lieu of HeapTupleSatisfiesVacuum when the
* tuple has just been tested by another visibility routine (usually
* HeapTupleSatisfiesMVCC) and, therefore, any hint bits that can be set
* should already be set. We assume that if no hint bits are set, the xmin
* or xmax transaction is still running. This is therefore faster than
* HeapTupleSatisfiesVacuum, because we don't consult PGXACT nor CLOG.
* It's okay to return false when in doubt, but we must return true only
* if the tuple is removable.
*/
bool
HeapTupleIsSurelyDead(HeapTuple htup, TransactionId OldestXmin)
{
HeapTupleHeader tuple = htup->t_data;
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
/*
* If the inserting transaction is marked invalid, then it aborted, and
* the tuple is definitely dead. If it's marked neither committed nor
* invalid, then we assume it's still alive (since the presumption is that
* all relevant hint bits were just set moments ago).
*/
if (!HeapTupleHeaderXminCommitted(tuple))
return HeapTupleHeaderXminInvalid(tuple) ? true : false;
/*
* If the inserting transaction committed, but any deleting transaction
* aborted, the tuple is still alive.
*/
if (tuple->t_infomask & HEAP_XMAX_INVALID)
return false;
/*
* If the XMAX is just a lock, the tuple is still alive.
*/
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return false;
/*
* If the Xmax is a MultiXact, it might be dead or alive, but we cannot
* know without checking pg_multixact.
*/
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
return false;
/* If deleter isn't known to have committed, assume it's still running. */
if (!(tuple->t_infomask & HEAP_XMAX_COMMITTED))
return false;
/* Deleter committed, so tuple is dead if the XID is old enough. */
return TransactionIdPrecedes(HeapTupleHeaderGetRawXmax(tuple), OldestXmin);
}
/*
* Is the tuple really only locked? That is, is it not updated?
*
* It's easy to check just infomask bits if the locker is not a multi; but
* otherwise we need to verify that the updating transaction has not aborted.
*
* This function is here because it follows the same visibility rules laid out
* at the top of this file.
*/
bool
HeapTupleHeaderIsOnlyLocked(HeapTupleHeader tuple)
{
TransactionId xmax;
/* if there's no valid Xmax, then there's obviously no update either */
if (tuple->t_infomask & HEAP_XMAX_INVALID)
return true;
if (tuple->t_infomask & HEAP_XMAX_LOCK_ONLY)
return true;
/* invalid xmax means no update */
if (!TransactionIdIsValid(HeapTupleHeaderGetRawXmax(tuple)))
return true;
/*
* if HEAP_XMAX_LOCK_ONLY is not set and not a multi, then this must
* necessarily have been updated
*/
if (!(tuple->t_infomask & HEAP_XMAX_IS_MULTI))
return false;
/* ... but if it's a multi, then perhaps the updating Xid aborted. */
xmax = HeapTupleGetUpdateXid(tuple);
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
if (TransactionIdIsCurrentTransactionId(xmax))
return false;
if (TransactionIdIsInProgress(xmax))
return false;
if (TransactionIdDidCommit(xmax))
return false;
/*
* not current, not in progress, not committed -- must have aborted or
* crashed
*/
return true;
}
/*
* check whether the transaction id 'xid' is in the pre-sorted array 'xip'.
*/
static bool
TransactionIdInArray(TransactionId xid, TransactionId *xip, Size num)
{
return bsearch(&xid, xip, num,
sizeof(TransactionId), xidComparator) != NULL;
}
/*
* See the comments for HeapTupleSatisfiesMVCC for the semantics this function
* obeys.
*
* Only usable on tuples from catalog tables!
*
* We don't need to support HEAP_MOVED_(IN|OFF) for now because we only support
* reading catalog pages which couldn't have been created in an older version.
*
* We don't set any hint bits in here as it seems unlikely to be beneficial as
* those should already be set by normal access and it seems to be too
* dangerous to do so as the semantics of doing so during timetravel are more
* complicated than when dealing "only" with the present.
*/
static bool
HeapTupleSatisfiesHistoricMVCC(HeapTuple htup, Snapshot snapshot,
Buffer buffer)
{
HeapTupleHeader tuple = htup->t_data;
TransactionId xmin = HeapTupleHeaderGetXmin(tuple);
TransactionId xmax = HeapTupleHeaderGetRawXmax(tuple);
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
/* inserting transaction aborted */
if (HeapTupleHeaderXminInvalid(tuple))
{
Assert(!TransactionIdDidCommit(xmin));
return false;
}
/* check if it's one of our txids, toplevel is also in there */
else if (TransactionIdInArray(xmin, snapshot->subxip, snapshot->subxcnt))
{
bool resolved;
CommandId cmin = HeapTupleHeaderGetRawCommandId(tuple);
CommandId cmax = InvalidCommandId;
/*
* another transaction might have (tried to) delete this tuple or
* cmin/cmax was stored in a combocid. So we need to lookup the actual
* values externally.
*/
resolved = ResolveCminCmaxDuringDecoding(HistoricSnapshotGetTupleCids(), snapshot,
htup, buffer,
&cmin, &cmax);
if (!resolved)
elog(ERROR, "could not resolve cmin/cmax of catalog tuple");
Assert(cmin != InvalidCommandId);
if (cmin >= snapshot->curcid)
return false; /* inserted after scan started */
/* fall through */
}
/* committed before our xmin horizon. Do a normal visibility check. */
else if (TransactionIdPrecedes(xmin, snapshot->xmin))
{
Assert(!(HeapTupleHeaderXminCommitted(tuple) &&
!TransactionIdDidCommit(xmin)));
/* check for hint bit first, consult clog afterwards */
if (!HeapTupleHeaderXminCommitted(tuple) &&
!TransactionIdDidCommit(xmin))
return false;
/* fall through */
}
/* beyond our xmax horizon, i.e. invisible */
else if (TransactionIdFollowsOrEquals(xmin, snapshot->xmax))
{
return false;
}
/* check if it's a committed transaction in [xmin, xmax) */
else if (TransactionIdInArray(xmin, snapshot->xip, snapshot->xcnt))
{
/* fall through */
}
/*
* none of the above, i.e. between [xmin, xmax) but hasn't committed. I.e.
* invisible.
*/
else
{
return false;
}
/* at this point we know xmin is visible, go on to check xmax */
/* xid invalid or aborted */
if (tuple->t_infomask & HEAP_XMAX_INVALID)
return true;
/* locked tuples are always visible */
else if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return true;
/*
* We can see multis here if we're looking at user tables or if somebody
* SELECT ... FOR SHARE/UPDATE a system table.
*/
else if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
xmax = HeapTupleGetUpdateXid(tuple);
}
/* check if it's one of our txids, toplevel is also in there */
if (TransactionIdInArray(xmax, snapshot->subxip, snapshot->subxcnt))
{
bool resolved;
CommandId cmin;
CommandId cmax = HeapTupleHeaderGetRawCommandId(tuple);
/* Lookup actual cmin/cmax values */
resolved = ResolveCminCmaxDuringDecoding(HistoricSnapshotGetTupleCids(), snapshot,
htup, buffer,
&cmin, &cmax);
if (!resolved)
elog(ERROR, "could not resolve combocid to cmax");
Assert(cmax != InvalidCommandId);
if (cmax >= snapshot->curcid)
return true; /* deleted after scan started */
else
return false; /* deleted before scan started */
}
/* below xmin horizon, normal transaction state is valid */
else if (TransactionIdPrecedes(xmax, snapshot->xmin))
{
Assert(!(tuple->t_infomask & HEAP_XMAX_COMMITTED &&
!TransactionIdDidCommit(xmax)));
/* check hint bit first */
if (tuple->t_infomask & HEAP_XMAX_COMMITTED)
return false;
/* check clog */
return !TransactionIdDidCommit(xmax);
}
/* above xmax horizon, we cannot possibly see the deleting transaction */
else if (TransactionIdFollowsOrEquals(xmax, snapshot->xmax))
return true;
/* xmax is between [xmin, xmax), check known committed array */
else if (TransactionIdInArray(xmax, snapshot->xip, snapshot->xcnt))
return false;
/* xmax is between [xmin, xmax), but known not to have committed yet */
else
return true;
}
/*
* HeapTupleSatisfiesVisibility
* True iff heap tuple satisfies a time qual.
*
* Notes:
* Assumes heap tuple is valid, and buffer at least share locked.
*
* Hint bits in the HeapTuple's t_infomask may be updated as a side effect;
* if so, the indicated buffer is marked dirty.
*/
bool
HeapTupleSatisfiesVisibility(HeapTuple tup, Snapshot snapshot, Buffer buffer)
{
switch (snapshot->snapshot_type)
{
case SNAPSHOT_MVCC:
return HeapTupleSatisfiesMVCC(tup, snapshot, buffer);
break;
case SNAPSHOT_SELF:
return HeapTupleSatisfiesSelf(tup, snapshot, buffer);
break;
case SNAPSHOT_ANY:
return HeapTupleSatisfiesAny(tup, snapshot, buffer);
break;
case SNAPSHOT_TOAST:
return HeapTupleSatisfiesToast(tup, snapshot, buffer);
break;
case SNAPSHOT_DIRTY:
return HeapTupleSatisfiesDirty(tup, snapshot, buffer);
break;
case SNAPSHOT_HISTORIC_MVCC:
return HeapTupleSatisfiesHistoricMVCC(tup, snapshot, buffer);
break;
case SNAPSHOT_NON_VACUUMABLE:
return HeapTupleSatisfiesNonVacuumable(tup, snapshot, buffer);
break;
}
return false; /* keep compiler quiet */
}
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