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Check for conflicting queries during replay of gistvacuumpage() 

013ebc0a7b implements so-called GiST microvacuum.  That is gistgettuple() marks
index tuples as dead when kill_prior_tuple is set.  Later, when new tuple
insertion claims page space, those dead index tuples are physically deleted
from page.  When this deletion is replayed on standby, it might conflict with
read-only queries.  But 013ebc0a7b doesn't handle this.  That may lead to
disappearance of some tuples from read-only snapshots on standby.

This commit implements resolving of conflicts between replay of GiST microvacuum
and standby queries.  On the master we implement new WAL record type
XLOG_GIST_DELETE, which comprises necessary information.  On stable releases
we've to be tricky to keep WAL compatibility.  Information required for conflict
processing is just appended to data of XLOG_GIST_PAGE_UPDATE record.  So,
PostgreSQL version, which doesn't know about conflict processing, will just
ignore that.

Reported-by: Andres Freund
Diagnosed-by: Andres Freund
Discussion: https://postgr.es/m/20181212224524.scafnlyjindmrbe6%40alap3.anarazel.de
Author: Alexander Korotkov
Backpatch-through: 9.6
This commit is contained in:
Alexander Korotkov 2018-12-21 02:37:31 +03:00
parent 053ad56d27
commit 8193d64072
5 changed files with 220 additions and 16 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

24
src/backend/access/gist/gist.c
View File

@ -38,7 +38,8 @@ static bool gistinserttuples(GISTInsertState *state, GISTInsertStack *stack,
bool unlockbuf, bool unlockleftchild);
static void gistfinishsplit(GISTInsertState *state, GISTInsertStack *stack,
GISTSTATE *giststate, List *splitinfo, bool releasebuf);
static void gistvacuumpage(Relation rel, Page page, Buffer buffer);
static void gistvacuumpage(Relation rel, Page page, Buffer buffer,
Relation heapRel);
#define ROTATEDIST(d) do { \
@ -172,7 +173,7 @@ gistinsert(Relation r, Datum *values, bool *isnull,
values, isnull, true /* size is currently bogus */ );
itup->t_tid = *ht_ctid;
gistdoinsert(r, itup, 0, giststate);
gistdoinsert(r, itup, 0, giststate, heapRel);
/* cleanup */
MemoryContextSwitchTo(oldCxt);
@ -218,7 +219,8 @@ gistplacetopage(Relation rel, Size freespace, GISTSTATE *giststate,
BlockNumber *newblkno,
Buffer leftchildbuf,
List **splitinfo,
bool markfollowright)
bool markfollowright,
Relation heapRel)
{
BlockNumber blkno = BufferGetBlockNumber(buffer);
Page page = BufferGetPage(buffer);
@ -259,7 +261,7 @@ gistplacetopage(Relation rel, Size freespace, GISTSTATE *giststate,
*/
if (is_split && GistPageIsLeaf(page) && GistPageHasGarbage(page))
{
gistvacuumpage(rel, page, buffer);
gistvacuumpage(rel, page, buffer, heapRel);
is_split = gistnospace(page, itup, ntup, oldoffnum, freespace);
}
@ -556,7 +558,7 @@ gistplacetopage(Relation rel, Size freespace, GISTSTATE *giststate,
recptr = gistXLogUpdate(buffer,
deloffs, ndeloffs, itup, ntup,
leftchildbuf);
leftchildbuf, NULL);
PageSetLSN(page, recptr);
}
@ -604,7 +606,8 @@ gistplacetopage(Relation rel, Size freespace, GISTSTATE *giststate,
* so it does not bother releasing palloc'd allocations.
*/
void
gistdoinsert(Relation r, IndexTuple itup, Size freespace, GISTSTATE *giststate)
gistdoinsert(Relation r, IndexTuple itup, Size freespace,
GISTSTATE *giststate, Relation heapRel)
{
ItemId iid;
IndexTuple idxtuple;
@ -616,6 +619,7 @@ gistdoinsert(Relation r, IndexTuple itup, Size freespace, GISTSTATE *giststate)
memset(&state, 0, sizeof(GISTInsertState));
state.freespace = freespace;
state.r = r;
state.heapRel = heapRel;
/* Start from the root */
firststack.blkno = GIST_ROOT_BLKNO;
@ -1232,7 +1236,8 @@ gistinserttuples(GISTInsertState *state, GISTInsertStack *stack,
oldoffnum, NULL,
leftchild,
&splitinfo,
true);
true,
state->heapRel);
/*
* Before recursing up in case the page was split, release locks on the
@ -1543,7 +1548,7 @@ freeGISTstate(GISTSTATE *giststate)
* Function assumes that buffer is exclusively locked.
*/
static void
gistvacuumpage(Relation rel, Page page, Buffer buffer)
gistvacuumpage(Relation rel, Page page, Buffer buffer, Relation heapRel)
{
OffsetNumber deletable[MaxIndexTuplesPerPage];
int ndeletable = 0;
@ -1591,7 +1596,8 @@ gistvacuumpage(Relation rel, Page page, Buffer buffer)
recptr = gistXLogUpdate(buffer,
deletable, ndeletable,
NULL, 0, InvalidBuffer);
NULL, 0, InvalidBuffer,
&heapRel->rd_node);
PageSetLSN(page, recptr);
}

7
src/backend/access/gist/gistbuild.c
View File

@ -56,6 +56,7 @@ typedef enum
typedef struct
{
Relation indexrel;
Relation heaprel;
GISTSTATE *giststate;
int64 indtuples; /* number of tuples indexed */
@ -122,6 +123,7 @@ gistbuild(Relation heap, Relation index, IndexInfo *indexInfo)
int fillfactor;
buildstate.indexrel = index;
buildstate.heaprel = heap;
if (index->rd_options)
{
/* Get buffering mode from the options string */
@ -484,7 +486,7 @@ gistBuildCallback(Relation index,
* locked, we call gistdoinsert directly.
*/
gistdoinsert(index, itup, buildstate->freespace,
buildstate->giststate);
buildstate->giststate, buildstate->heaprel);
}
/* Update tuple count and total size. */
@ -690,7 +692,8 @@ gistbufferinginserttuples(GISTBuildState *buildstate, Buffer buffer, int level,
itup, ntup, oldoffnum, &placed_to_blk,
InvalidBuffer,
&splitinfo,
false);
false,
buildstate->heaprel);
/*
* If this is a root split, update the root path item kept in memory. This

3
src/backend/access/gist/gistvacuum.c
View File

@ -224,7 +224,8 @@ gistbulkdelete(IndexVacuumInfo *info, IndexBulkDeleteResult *stats,
recptr = gistXLogUpdate(buffer,
todelete, ntodelete,
NULL, 0, InvalidBuffer);
NULL, 0, InvalidBuffer,
NULL);
PageSetLSN(page, recptr);
}
else

193
src/backend/access/gist/gistxlog.c
View File

@ -16,8 +16,12 @@
#include "access/bufmask.h"
#include "access/gist_private.h"
#include "access/gistxlog.h"
#include "access/heapam_xlog.h"
#include "access/transam.h"
#include "access/xloginsert.h"
#include "access/xlogutils.h"
#include "miscadmin.h"
#include "storage/procarray.h"
#include "utils/memutils.h"
static MemoryContext opCtx; /* working memory for operations */
@ -60,6 +64,155 @@ gistRedoClearFollowRight(XLogReaderState *record, uint8 block_id)
UnlockReleaseBuffer(buffer);
}
/*
* Get the latestRemovedXid from the heap pages pointed at by the index
* tuples being deleted. See also btree_xlog_delete_get_latestRemovedXid,
* on which this function is based.
*/
static TransactionId
gistRedoPageUpdateRecordGetLatestRemovedXid(XLogReaderState *record)
{
gistxlogPageUpdate *xlrec = (gistxlogPageUpdate *) XLogRecGetData(record);
OffsetNumber *todelete;
Buffer ibuffer,
hbuffer;
Page ipage,
hpage;
RelFileNode rnode,
*hnode;
BlockNumber blkno;
ItemId iitemid,
hitemid;
IndexTuple itup;
HeapTupleHeader htuphdr;
BlockNumber hblkno;
OffsetNumber hoffnum;
TransactionId latestRemovedXid = InvalidTransactionId;
int i;
/*
* If there's nothing running on the standby we don't need to derive a
* full latestRemovedXid value, so use a fast path out of here. This
* returns InvalidTransactionId, and so will conflict with all HS
* transactions; but since we just worked out that that's zero people,
* it's OK.
*
* XXX There is a race condition here, which is that a new backend might
* start just after we look. If so, it cannot need to conflict, but this
* coding will result in throwing a conflict anyway.
*/
if (CountDBBackends(InvalidOid) == 0)
return latestRemovedXid;
/*
* In what follows, we have to examine the previous state of the index
* page, as well as the heap page(s) it points to. This is only valid if
* WAL replay has reached a consistent database state; which means that
* the preceding check is not just an optimization, but is *necessary*. We
* won't have let in any user sessions before we reach consistency.
*/
if (!reachedConsistency)
elog(PANIC, "gistRedoDeleteRecordGetLatestRemovedXid: cannot operate with inconsistent data");
/*
* Get index page. If the DB is consistent, this should not fail, nor
* should any of the heap page fetches below. If one does, we return
* InvalidTransactionId to cancel all HS transactions. That's probably
* overkill, but it's safe, and certainly better than panicking here.
*/
XLogRecGetBlockTag(record, 0, &rnode, NULL, &blkno);
ibuffer = XLogReadBufferExtended(rnode, MAIN_FORKNUM, blkno, RBM_NORMAL);
if (!BufferIsValid(ibuffer))
return InvalidTransactionId;
LockBuffer(ibuffer, BUFFER_LOCK_EXCLUSIVE);
ipage = (Page) BufferGetPage(ibuffer);
/*
* Loop through the deleted index items to obtain the TransactionId from
* the heap items they point to.
*/
hnode = (RelFileNode *) ((char *) xlrec + sizeof(gistxlogPageUpdate));
todelete = (OffsetNumber *) ((char *) hnode + sizeof(RelFileNode));
for (i = 0; i < xlrec->ntodelete; i++)
{
/*
* Identify the index tuple about to be deleted
*/
iitemid = PageGetItemId(ipage, todelete[i]);
itup = (IndexTuple) PageGetItem(ipage, iitemid);
/*
* Locate the heap page that the index tuple points at
*/
hblkno = ItemPointerGetBlockNumber(&(itup->t_tid));
hbuffer = XLogReadBufferExtended(*hnode, MAIN_FORKNUM, hblkno, RBM_NORMAL);
if (!BufferIsValid(hbuffer))
{
UnlockReleaseBuffer(ibuffer);
return InvalidTransactionId;
}
LockBuffer(hbuffer, BUFFER_LOCK_SHARE);
hpage = (Page) BufferGetPage(hbuffer);
/*
* Look up the heap tuple header that the index tuple points at by
* using the heap node supplied with the xlrec. We can't use
* heap_fetch, since it uses ReadBuffer rather than XLogReadBuffer.
* Note that we are not looking at tuple data here, just headers.
*/
hoffnum = ItemPointerGetOffsetNumber(&(itup->t_tid));
hitemid = PageGetItemId(hpage, hoffnum);
/*
* Follow any redirections until we find something useful.
*/
while (ItemIdIsRedirected(hitemid))
{
hoffnum = ItemIdGetRedirect(hitemid);
hitemid = PageGetItemId(hpage, hoffnum);
CHECK_FOR_INTERRUPTS();
}
/*
* If the heap item has storage, then read the header and use that to
* set latestRemovedXid.
*
* Some LP_DEAD items may not be accessible, so we ignore them.
*/
if (ItemIdHasStorage(hitemid))
{
htuphdr = (HeapTupleHeader) PageGetItem(hpage, hitemid);
HeapTupleHeaderAdvanceLatestRemovedXid(htuphdr, &latestRemovedXid);
}
else if (ItemIdIsDead(hitemid))
{
/*
* Conjecture: if hitemid is dead then it had xids before the xids
* marked on LP_NORMAL items. So we just ignore this item and move
* onto the next, for the purposes of calculating
* latestRemovedxids.
*/
}
else
Assert(!ItemIdIsUsed(hitemid));
UnlockReleaseBuffer(hbuffer);
}
UnlockReleaseBuffer(ibuffer);
/*
* If all heap tuples were LP_DEAD then we will be returning
* InvalidTransactionId here, which avoids conflicts. This matches
* existing logic which assumes that LP_DEAD tuples must already be older
* than the latestRemovedXid on the cleanup record that set them as
* LP_DEAD, hence must already have generated a conflict.
*/
return latestRemovedXid;
}
/*
* redo any page update (except page split)
*/
@ -71,6 +224,34 @@ gistRedoPageUpdateRecord(XLogReaderState *record)
Buffer buffer;
Page page;
/*
* If we have any conflict processing to do, it must happen before we
* update the page.
*
* Support for conflict processing in GiST has been backpatched. This is
* why we have to use tricky way of saving WAL-compatibility between minor
* versions. Information required for conflict processing is just
* appended to data of XLOG_GIST_PAGE_UPDATE record. So, PostgreSQL
* version, which doesn't know about conflict processing, will just ignore
* that.
*
* GiST delete records can conflict with standby queries. You might think
* that vacuum records would conflict as well, but we've handled that
* already. XLOG_HEAP2_CLEANUP_INFO records provide the highest xid
* cleaned by the vacuum of the heap and so we can resolve any conflicts
* just once when that arrives. After that we know that no conflicts
* exist from individual gist vacuum records on that index.
*/
if (InHotStandby && XLogRecGetDataLen(record) > sizeof(gistxlogPageUpdate))
{
TransactionId latestRemovedXid = gistRedoPageUpdateRecordGetLatestRemovedXid(record);
RelFileNode rnode;
XLogRecGetBlockTag(record, 0, &rnode, NULL, NULL);
ResolveRecoveryConflictWithSnapshot(latestRemovedXid, rnode);
}
if (XLogReadBufferForRedo(record, 0, &buffer) == BLK_NEEDS_REDO)
{
char *begin;
@ -457,7 +638,7 @@ XLogRecPtr
gistXLogUpdate(Buffer buffer,
OffsetNumber *todelete, int ntodelete,
IndexTuple *itup, int ituplen,
Buffer leftchildbuf)
Buffer leftchildbuf, RelFileNode *hnode)
{
gistxlogPageUpdate xlrec;
int i;
@ -469,6 +650,16 @@ gistXLogUpdate(Buffer buffer,
XLogBeginInsert();
XLogRegisterData((char *) &xlrec, sizeof(gistxlogPageUpdate));
/*
* Append the information required for standby conflict processing if it
* is provided by caller.
*/
if (hnode)
{
XLogRegisterData((char *) hnode, sizeof(RelFileNode));
XLogRegisterData((char *) todelete, sizeof(OffsetNumber) * ntodelete);
}
XLogRegisterBuffer(0, buffer, REGBUF_STANDARD);
XLogRegisterBufData(0, (char *) todelete, sizeof(OffsetNumber) * ntodelete);

9
src/include/access/gist_private.h
View File

@ -240,6 +240,7 @@ typedef struct GistSplitVector
typedef struct
{
Relation r;
Relation heapRel;
Size freespace; /* free space to be left */
GISTInsertStack *stack;
@ -389,7 +390,8 @@ extern void freeGISTstate(GISTSTATE *giststate);
extern void gistdoinsert(Relation r,
IndexTuple itup,
Size freespace,
GISTSTATE *GISTstate);
GISTSTATE *GISTstate,
Relation heapRel);
/* A List of these is returned from gistplacetopage() in *splitinfo */
typedef struct
@ -404,7 +406,8 @@ extern bool gistplacetopage(Relation rel, Size freespace, GISTSTATE *giststate,
OffsetNumber oldoffnum, BlockNumber *newblkno,
Buffer leftchildbuf,
List **splitinfo,
bool markleftchild);
bool markleftchild,
Relation heapRel);
extern SplitedPageLayout *gistSplit(Relation r, Page page, IndexTuple *itup,
int len, GISTSTATE *giststate);
@ -412,7 +415,7 @@ extern SplitedPageLayout *gistSplit(Relation r, Page page, IndexTuple *itup,
extern XLogRecPtr gistXLogUpdate(Buffer buffer,
OffsetNumber *todelete, int ntodelete,
IndexTuple *itup, int ntup,
Buffer leftchild);
Buffer leftchild, RelFileNode *hnode);
extern XLogRecPtr gistXLogSplit(bool page_is_leaf,
SplitedPageLayout *dist,