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|
/*-------------------------------------------------------------------------
*
* gistutil.c
* utilities routines for the postgres GiST index access method.
*
*
* Portions Copyright (c) 1996-2021, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
* src/backend/access/gist/gistutil.c
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include <math.h>
#include "access/gist_private.h"
#include "access/htup_details.h"
#include "access/reloptions.h"
#include "catalog/pg_opclass.h"
#include "storage/indexfsm.h"
#include "storage/lmgr.h"
#include "utils/float.h"
#include "utils/lsyscache.h"
#include "utils/snapmgr.h"
#include "utils/syscache.h"
/*
* Write itup vector to page, has no control of free space.
*/
void
gistfillbuffer(Page page, IndexTuple *itup, int len, OffsetNumber off)
{
int i;
if (off == InvalidOffsetNumber)
off = (PageIsEmpty(page)) ? FirstOffsetNumber :
OffsetNumberNext(PageGetMaxOffsetNumber(page));
for (i = 0; i < len; i++)
{
Size sz = IndexTupleSize(itup[i]);
OffsetNumber l;
l = PageAddItem(page, (Item) itup[i], sz, off, false, false);
if (l == InvalidOffsetNumber)
elog(ERROR, "failed to add item to GiST index page, item %d out of %d, size %d bytes",
i, len, (int) sz);
off++;
}
}
/*
* Check space for itup vector on page
*/
bool
gistnospace(Page page, IndexTuple *itvec, int len, OffsetNumber todelete, Size freespace)
{
unsigned int size = freespace,
deleted = 0;
int i;
for (i = 0; i < len; i++)
size += IndexTupleSize(itvec[i]) + sizeof(ItemIdData);
if (todelete != InvalidOffsetNumber)
{
IndexTuple itup = (IndexTuple) PageGetItem(page, PageGetItemId(page, todelete));
deleted = IndexTupleSize(itup) + sizeof(ItemIdData);
}
return (PageGetFreeSpace(page) + deleted < size);
}
bool
gistfitpage(IndexTuple *itvec, int len)
{
int i;
Size size = 0;
for (i = 0; i < len; i++)
size += IndexTupleSize(itvec[i]) + sizeof(ItemIdData);
/* TODO: Consider fillfactor */
return (size <= GiSTPageSize);
}
/*
* Read buffer into itup vector
*/
IndexTuple *
gistextractpage(Page page, int *len /* out */ )
{
OffsetNumber i,
maxoff;
IndexTuple *itvec;
maxoff = PageGetMaxOffsetNumber(page);
*len = maxoff;
itvec = palloc(sizeof(IndexTuple) * maxoff);
for (i = FirstOffsetNumber; i <= maxoff; i = OffsetNumberNext(i))
itvec[i - FirstOffsetNumber] = (IndexTuple) PageGetItem(page, PageGetItemId(page, i));
return itvec;
}
/*
* join two vectors into one
*/
IndexTuple *
gistjoinvector(IndexTuple *itvec, int *len, IndexTuple *additvec, int addlen)
{
itvec = (IndexTuple *) repalloc((void *) itvec, sizeof(IndexTuple) * ((*len) + addlen));
memmove(&itvec[*len], additvec, sizeof(IndexTuple) * addlen);
*len += addlen;
return itvec;
}
/*
* make plain IndexTuple vector
*/
IndexTupleData *
gistfillitupvec(IndexTuple *vec, int veclen, int *memlen)
{
char *ptr,
*ret;
int i;
*memlen = 0;
for (i = 0; i < veclen; i++)
*memlen += IndexTupleSize(vec[i]);
ptr = ret = palloc(*memlen);
for (i = 0; i < veclen; i++)
{
memcpy(ptr, vec[i], IndexTupleSize(vec[i]));
ptr += IndexTupleSize(vec[i]);
}
return (IndexTupleData *) ret;
}
/*
* Make unions of keys in IndexTuple vector (one union datum per index column).
* Union Datums are returned into the attr/isnull arrays.
* Resulting Datums aren't compressed.
*/
void
gistMakeUnionItVec(GISTSTATE *giststate, IndexTuple *itvec, int len,
Datum *attr, bool *isnull)
{
int i;
GistEntryVector *evec;
int attrsize;
evec = (GistEntryVector *) palloc((len + 2) * sizeof(GISTENTRY) + GEVHDRSZ);
for (i = 0; i < giststate->nonLeafTupdesc->natts; i++)
{
int j;
/* Collect non-null datums for this column */
evec->n = 0;
for (j = 0; j < len; j++)
{
Datum datum;
bool IsNull;
datum = index_getattr(itvec[j], i + 1, giststate->leafTupdesc,
&IsNull);
if (IsNull)
continue;
gistdentryinit(giststate, i,
evec->vector + evec->n,
datum,
NULL, NULL, (OffsetNumber) 0,
false, IsNull);
evec->n++;
}
/* If this column was all NULLs, the union is NULL */
if (evec->n == 0)
{
attr[i] = (Datum) 0;
isnull[i] = true;
}
else
{
if (evec->n == 1)
{
/* unionFn may expect at least two inputs */
evec->n = 2;
evec->vector[1] = evec->vector[0];
}
/* Make union and store in attr array */
attr[i] = FunctionCall2Coll(&giststate->unionFn[i],
giststate->supportCollation[i],
PointerGetDatum(evec),
PointerGetDatum(&attrsize));
isnull[i] = false;
}
}
}
/*
* Return an IndexTuple containing the result of applying the "union"
* method to the specified IndexTuple vector.
*/
IndexTuple
gistunion(Relation r, IndexTuple *itvec, int len, GISTSTATE *giststate)
{
Datum attr[INDEX_MAX_KEYS];
bool isnull[INDEX_MAX_KEYS];
gistMakeUnionItVec(giststate, itvec, len, attr, isnull);
return gistFormTuple(giststate, r, attr, isnull, false);
}
/*
* makes union of two key
*/
void
gistMakeUnionKey(GISTSTATE *giststate, int attno,
GISTENTRY *entry1, bool isnull1,
GISTENTRY *entry2, bool isnull2,
Datum *dst, bool *dstisnull)
{
/* we need a GistEntryVector with room for exactly 2 elements */
union
{
GistEntryVector gev;
char padding[2 * sizeof(GISTENTRY) + GEVHDRSZ];
} storage;
GistEntryVector *evec = &storage.gev;
int dstsize;
evec->n = 2;
if (isnull1 && isnull2)
{
*dstisnull = true;
*dst = (Datum) 0;
}
else
{
if (isnull1 == false && isnull2 == false)
{
evec->vector[0] = *entry1;
evec->vector[1] = *entry2;
}
else if (isnull1 == false)
{
evec->vector[0] = *entry1;
evec->vector[1] = *entry1;
}
else
{
evec->vector[0] = *entry2;
evec->vector[1] = *entry2;
}
*dstisnull = false;
*dst = FunctionCall2Coll(&giststate->unionFn[attno],
giststate->supportCollation[attno],
PointerGetDatum(evec),
PointerGetDatum(&dstsize));
}
}
bool
gistKeyIsEQ(GISTSTATE *giststate, int attno, Datum a, Datum b)
{
bool result;
FunctionCall3Coll(&giststate->equalFn[attno],
giststate->supportCollation[attno],
a, b,
PointerGetDatum(&result));
return result;
}
/*
* Decompress all keys in tuple
*/
void
gistDeCompressAtt(GISTSTATE *giststate, Relation r, IndexTuple tuple, Page p,
OffsetNumber o, GISTENTRY *attdata, bool *isnull)
{
int i;
for (i = 0; i < IndexRelationGetNumberOfKeyAttributes(r); i++)
{
Datum datum;
datum = index_getattr(tuple, i + 1, giststate->leafTupdesc, &isnull[i]);
gistdentryinit(giststate, i, &attdata[i],
datum, r, p, o,
false, isnull[i]);
}
}
/*
* Forms union of oldtup and addtup, if union == oldtup then return NULL
*/
IndexTuple
gistgetadjusted(Relation r, IndexTuple oldtup, IndexTuple addtup, GISTSTATE *giststate)
{
bool neednew = false;
GISTENTRY oldentries[INDEX_MAX_KEYS],
addentries[INDEX_MAX_KEYS];
bool oldisnull[INDEX_MAX_KEYS],
addisnull[INDEX_MAX_KEYS];
Datum attr[INDEX_MAX_KEYS];
bool isnull[INDEX_MAX_KEYS];
IndexTuple newtup = NULL;
int i;
gistDeCompressAtt(giststate, r, oldtup, NULL,
(OffsetNumber) 0, oldentries, oldisnull);
gistDeCompressAtt(giststate, r, addtup, NULL,
(OffsetNumber) 0, addentries, addisnull);
for (i = 0; i < IndexRelationGetNumberOfKeyAttributes(r); i++)
{
gistMakeUnionKey(giststate, i,
oldentries + i, oldisnull[i],
addentries + i, addisnull[i],
attr + i, isnull + i);
if (neednew)
/* we already need new key, so we can skip check */
continue;
if (isnull[i])
/* union of key may be NULL if and only if both keys are NULL */
continue;
if (!addisnull[i])
{
if (oldisnull[i] ||
!gistKeyIsEQ(giststate, i, oldentries[i].key, attr[i]))
neednew = true;
}
}
if (neednew)
{
/* need to update key */
newtup = gistFormTuple(giststate, r, attr, isnull, false);
newtup->t_tid = oldtup->t_tid;
}
return newtup;
}
/*
* Search an upper index page for the entry with lowest penalty for insertion
* of the new index key contained in "it".
*
* Returns the index of the page entry to insert into.
*/
OffsetNumber
gistchoose(Relation r, Page p, IndexTuple it, /* it has compressed entry */
GISTSTATE *giststate)
{
OffsetNumber result;
OffsetNumber maxoff;
OffsetNumber i;
float best_penalty[INDEX_MAX_KEYS];
GISTENTRY entry,
identry[INDEX_MAX_KEYS];
bool isnull[INDEX_MAX_KEYS];
int keep_current_best;
Assert(!GistPageIsLeaf(p));
gistDeCompressAtt(giststate, r,
it, NULL, (OffsetNumber) 0,
identry, isnull);
/* we'll return FirstOffsetNumber if page is empty (shouldn't happen) */
result = FirstOffsetNumber;
/*
* The index may have multiple columns, and there's a penalty value for
* each column. The penalty associated with a column that appears earlier
* in the index definition is strictly more important than the penalty of
* a column that appears later in the index definition.
*
* best_penalty[j] is the best penalty we have seen so far for column j,
* or -1 when we haven't yet examined column j. Array entries to the
* right of the first -1 are undefined.
*/
best_penalty[0] = -1;
/*
* If we find a tuple that's exactly as good as the currently best one, we
* could use either one. When inserting a lot of tuples with the same or
* similar keys, it's preferable to descend down the same path when
* possible, as that's more cache-friendly. On the other hand, if all
* inserts land on the same leaf page after a split, we're never going to
* insert anything to the other half of the split, and will end up using
* only 50% of the available space. Distributing the inserts evenly would
* lead to better space usage, but that hurts cache-locality during
* insertion. To get the best of both worlds, when we find a tuple that's
* exactly as good as the previous best, choose randomly whether to stick
* to the old best, or use the new one. Once we decide to stick to the
* old best, we keep sticking to it for any subsequent equally good tuples
* we might find. This favors tuples with low offsets, but still allows
* some inserts to go to other equally-good subtrees.
*
* keep_current_best is -1 if we haven't yet had to make a random choice
* whether to keep the current best tuple. If we have done so, and
* decided to keep it, keep_current_best is 1; if we've decided to
* replace, keep_current_best is 0. (This state will be reset to -1 as
* soon as we've made the replacement, but sometimes we make the choice in
* advance of actually finding a replacement best tuple.)
*/
keep_current_best = -1;
/*
* Loop over tuples on page.
*/
maxoff = PageGetMaxOffsetNumber(p);
Assert(maxoff >= FirstOffsetNumber);
for (i = FirstOffsetNumber; i <= maxoff; i = OffsetNumberNext(i))
{
IndexTuple itup = (IndexTuple) PageGetItem(p, PageGetItemId(p, i));
bool zero_penalty;
int j;
zero_penalty = true;
/* Loop over index attributes. */
for (j = 0; j < IndexRelationGetNumberOfKeyAttributes(r); j++)
{
Datum datum;
float usize;
bool IsNull;
/* Compute penalty for this column. */
datum = index_getattr(itup, j + 1, giststate->leafTupdesc,
&IsNull);
gistdentryinit(giststate, j, &entry, datum, r, p, i,
false, IsNull);
usize = gistpenalty(giststate, j, &entry, IsNull,
&identry[j], isnull[j]);
if (usize > 0)
zero_penalty = false;
if (best_penalty[j] < 0 || usize < best_penalty[j])
{
/*
* New best penalty for column. Tentatively select this tuple
* as the target, and record the best penalty. Then reset the
* next column's penalty to "unknown" (and indirectly, the
* same for all the ones to its right). This will force us to
* adopt this tuple's penalty values as the best for all the
* remaining columns during subsequent loop iterations.
*/
result = i;
best_penalty[j] = usize;
if (j < IndexRelationGetNumberOfKeyAttributes(r) - 1)
best_penalty[j + 1] = -1;
/* we have new best, so reset keep-it decision */
keep_current_best = -1;
}
else if (best_penalty[j] == usize)
{
/*
* The current tuple is exactly as good for this column as the
* best tuple seen so far. The next iteration of this loop
* will compare the next column.
*/
}
else
{
/*
* The current tuple is worse for this column than the best
* tuple seen so far. Skip the remaining columns and move on
* to the next tuple, if any.
*/
zero_penalty = false; /* so outer loop won't exit */
break;
}
}
/*
* If we looped past the last column, and did not update "result",
* then this tuple is exactly as good as the prior best tuple.
*/
if (j == IndexRelationGetNumberOfKeyAttributes(r) && result != i)
{
if (keep_current_best == -1)
{
/* we didn't make the random choice yet for this old best */
keep_current_best = (random() <= (MAX_RANDOM_VALUE / 2)) ? 1 : 0;
}
if (keep_current_best == 0)
{
/* we choose to use the new tuple */
result = i;
/* choose again if there are even more exactly-as-good ones */
keep_current_best = -1;
}
}
/*
* If we find a tuple with zero penalty for all columns, and we've
* decided we don't want to search for another tuple with equal
* penalty, there's no need to examine remaining tuples; just break
* out of the loop and return it.
*/
if (zero_penalty)
{
if (keep_current_best == -1)
{
/* we didn't make the random choice yet for this old best */
keep_current_best = (random() <= (MAX_RANDOM_VALUE / 2)) ? 1 : 0;
}
if (keep_current_best == 1)
break;
}
}
return result;
}
/*
* initialize a GiST entry with a decompressed version of key
*/
void
gistdentryinit(GISTSTATE *giststate, int nkey, GISTENTRY *e,
Datum k, Relation r, Page pg, OffsetNumber o,
bool l, bool isNull)
{
if (!isNull)
{
GISTENTRY *dep;
gistentryinit(*e, k, r, pg, o, l);
/* there may not be a decompress function in opclass */
if (!OidIsValid(giststate->decompressFn[nkey].fn_oid))
return;
dep = (GISTENTRY *)
DatumGetPointer(FunctionCall1Coll(&giststate->decompressFn[nkey],
giststate->supportCollation[nkey],
PointerGetDatum(e)));
/* decompressFn may just return the given pointer */
if (dep != e)
gistentryinit(*e, dep->key, dep->rel, dep->page, dep->offset,
dep->leafkey);
}
else
gistentryinit(*e, (Datum) 0, r, pg, o, l);
}
IndexTuple
gistFormTuple(GISTSTATE *giststate, Relation r,
Datum *attdata, bool *isnull, bool isleaf)
{
Datum compatt[INDEX_MAX_KEYS];
IndexTuple res;
gistCompressValues(giststate, r, attdata, isnull, isleaf, compatt);
res = index_form_tuple(isleaf ? giststate->leafTupdesc :
giststate->nonLeafTupdesc,
compatt, isnull);
/*
* The offset number on tuples on internal pages is unused. For historical
* reasons, it is set to 0xffff.
*/
ItemPointerSetOffsetNumber(&(res->t_tid), 0xffff);
return res;
}
void
gistCompressValues(GISTSTATE *giststate, Relation r,
Datum *attdata, bool *isnull, bool isleaf, Datum *compatt)
{
int i;
/*
* Call the compress method on each attribute.
*/
for (i = 0; i < IndexRelationGetNumberOfKeyAttributes(r); i++)
{
if (isnull[i])
compatt[i] = (Datum) 0;
else
{
GISTENTRY centry;
GISTENTRY *cep;
gistentryinit(centry, attdata[i], r, NULL, (OffsetNumber) 0,
isleaf);
/* there may not be a compress function in opclass */
if (OidIsValid(giststate->compressFn[i].fn_oid))
cep = (GISTENTRY *)
DatumGetPointer(FunctionCall1Coll(&giststate->compressFn[i],
giststate->supportCollation[i],
PointerGetDatum(¢ry)));
else
cep = ¢ry;
compatt[i] = cep->key;
}
}
if (isleaf)
{
/*
* Emplace each included attribute if any.
*/
for (; i < r->rd_att->natts; i++)
{
if (isnull[i])
compatt[i] = (Datum) 0;
else
compatt[i] = attdata[i];
}
}
}
/*
* initialize a GiST entry with fetched value in key field
*/
static Datum
gistFetchAtt(GISTSTATE *giststate, int nkey, Datum k, Relation r)
{
GISTENTRY fentry;
GISTENTRY *fep;
gistentryinit(fentry, k, r, NULL, (OffsetNumber) 0, false);
fep = (GISTENTRY *)
DatumGetPointer(FunctionCall1Coll(&giststate->fetchFn[nkey],
giststate->supportCollation[nkey],
PointerGetDatum(&fentry)));
/* fetchFn set 'key', return it to the caller */
return fep->key;
}
/*
* Fetch all keys in tuple.
* Returns a new HeapTuple containing the originally-indexed data.
*/
HeapTuple
gistFetchTuple(GISTSTATE *giststate, Relation r, IndexTuple tuple)
{
MemoryContext oldcxt = MemoryContextSwitchTo(giststate->tempCxt);
Datum fetchatt[INDEX_MAX_KEYS];
bool isnull[INDEX_MAX_KEYS];
int i;
for (i = 0; i < IndexRelationGetNumberOfKeyAttributes(r); i++)
{
Datum datum;
datum = index_getattr(tuple, i + 1, giststate->leafTupdesc, &isnull[i]);
if (giststate->fetchFn[i].fn_oid != InvalidOid)
{
if (!isnull[i])
fetchatt[i] = gistFetchAtt(giststate, i, datum, r);
else
fetchatt[i] = (Datum) 0;
}
else if (giststate->compressFn[i].fn_oid == InvalidOid)
{
/*
* If opclass does not provide compress method that could change
* original value, att is necessarily stored in original form.
*/
if (!isnull[i])
fetchatt[i] = datum;
else
fetchatt[i] = (Datum) 0;
}
else
{
/*
* Index-only scans not supported for this column. Since the
* planner chose an index-only scan anyway, it is not interested
* in this column, and we can replace it with a NULL.
*/
isnull[i] = true;
fetchatt[i] = (Datum) 0;
}
}
/*
* Get each included attribute.
*/
for (; i < r->rd_att->natts; i++)
{
fetchatt[i] = index_getattr(tuple, i + 1, giststate->leafTupdesc,
&isnull[i]);
}
MemoryContextSwitchTo(oldcxt);
return heap_form_tuple(giststate->fetchTupdesc, fetchatt, isnull);
}
float
gistpenalty(GISTSTATE *giststate, int attno,
GISTENTRY *orig, bool isNullOrig,
GISTENTRY *add, bool isNullAdd)
{
float penalty = 0.0;
if (giststate->penaltyFn[attno].fn_strict == false ||
(isNullOrig == false && isNullAdd == false))
{
FunctionCall3Coll(&giststate->penaltyFn[attno],
giststate->supportCollation[attno],
PointerGetDatum(orig),
PointerGetDatum(add),
PointerGetDatum(&penalty));
/* disallow negative or NaN penalty */
if (isnan(penalty) || penalty < 0.0)
penalty = 0.0;
}
else if (isNullOrig && isNullAdd)
penalty = 0.0;
else
{
/* try to prevent mixing null and non-null values */
penalty = get_float4_infinity();
}
return penalty;
}
/*
* Initialize a new index page
*/
void
gistinitpage(Page page, uint32 f)
{
GISTPageOpaque opaque;
PageInit(page, BLCKSZ, sizeof(GISTPageOpaqueData));
opaque = GistPageGetOpaque(page);
opaque->rightlink = InvalidBlockNumber;
opaque->flags = f;
opaque->gist_page_id = GIST_PAGE_ID;
}
/*
* Initialize a new index buffer
*/
void
GISTInitBuffer(Buffer b, uint32 f)
{
Page page;
page = BufferGetPage(b);
gistinitpage(page, f);
}
/*
* Verify that a freshly-read page looks sane.
*/
void
gistcheckpage(Relation rel, Buffer buf)
{
Page page = BufferGetPage(buf);
/*
* ReadBuffer verifies that every newly-read page passes
* PageHeaderIsValid, which means it either contains a reasonably sane
* page header or is all-zero. We have to defend against the all-zero
* case, however.
*/
if (PageIsNew(page))
ereport(ERROR,
(errcode(ERRCODE_INDEX_CORRUPTED),
errmsg("index \"%s\" contains unexpected zero page at block %u",
RelationGetRelationName(rel),
BufferGetBlockNumber(buf)),
errhint("Please REINDEX it.")));
/*
* Additionally check that the special area looks sane.
*/
if (PageGetSpecialSize(page) != MAXALIGN(sizeof(GISTPageOpaqueData)))
ereport(ERROR,
(errcode(ERRCODE_INDEX_CORRUPTED),
errmsg("index \"%s\" contains corrupted page at block %u",
RelationGetRelationName(rel),
BufferGetBlockNumber(buf)),
errhint("Please REINDEX it.")));
}
/*
* Allocate a new page (either by recycling, or by extending the index file)
*
* The returned buffer is already pinned and exclusive-locked
*
* Caller is responsible for initializing the page by calling GISTInitBuffer
*/
Buffer
gistNewBuffer(Relation r)
{
Buffer buffer;
bool needLock;
/* First, try to get a page from FSM */
for (;;)
{
BlockNumber blkno = GetFreeIndexPage(r);
if (blkno == InvalidBlockNumber)
break; /* nothing left in FSM */
buffer = ReadBuffer(r, blkno);
/*
* We have to guard against the possibility that someone else already
* recycled this page; the buffer may be locked if so.
*/
if (ConditionalLockBuffer(buffer))
{
Page page = BufferGetPage(buffer);
/*
* If the page was never initialized, it's OK to use.
*/
if (PageIsNew(page))
return buffer;
gistcheckpage(r, buffer);
/*
* Otherwise, recycle it if deleted, and too old to have any
* processes interested in it.
*/
if (gistPageRecyclable(page))
{
/*
* If we are generating WAL for Hot Standby then create a WAL
* record that will allow us to conflict with queries running
* on standby, in case they have snapshots older than the
* page's deleteXid.
*/
if (XLogStandbyInfoActive() && RelationNeedsWAL(r))
gistXLogPageReuse(r, blkno, GistPageGetDeleteXid(page));
return buffer;
}
LockBuffer(buffer, GIST_UNLOCK);
}
/* Can't use it, so release buffer and try again */
ReleaseBuffer(buffer);
}
/* Must extend the file */
needLock = !RELATION_IS_LOCAL(r);
if (needLock)
LockRelationForExtension(r, ExclusiveLock);
buffer = ReadBuffer(r, P_NEW);
LockBuffer(buffer, GIST_EXCLUSIVE);
if (needLock)
UnlockRelationForExtension(r, ExclusiveLock);
return buffer;
}
/* Can this page be recycled yet? */
bool
gistPageRecyclable(Page page)
{
if (PageIsNew(page))
return true;
if (GistPageIsDeleted(page))
{
/*
* The page was deleted, but when? If it was just deleted, a scan
* might have seen the downlink to it, and will read the page later.
* As long as that can happen, we must keep the deleted page around as
* a tombstone.
*
* For that check if the deletion XID could still be visible to
* anyone. If not, then no scan that's still in progress could have
* seen its downlink, and we can recycle it.
*/
FullTransactionId deletexid_full = GistPageGetDeleteXid(page);
return GlobalVisCheckRemovableFullXid(NULL, deletexid_full);
}
return false;
}
bytea *
gistoptions(Datum reloptions, bool validate)
{
static const relopt_parse_elt tab[] = {
{"fillfactor", RELOPT_TYPE_INT, offsetof(GiSTOptions, fillfactor)},
{"buffering", RELOPT_TYPE_ENUM, offsetof(GiSTOptions, buffering_mode)}
};
return (bytea *) build_reloptions(reloptions, validate,
RELOPT_KIND_GIST,
sizeof(GiSTOptions),
tab, lengthof(tab));
}
/*
* gistproperty() -- Check boolean properties of indexes.
*
* This is optional for most AMs, but is required for GiST because the core
* property code doesn't support AMPROP_DISTANCE_ORDERABLE. We also handle
* AMPROP_RETURNABLE here to save opening the rel to call gistcanreturn.
*/
bool
gistproperty(Oid index_oid, int attno,
IndexAMProperty prop, const char *propname,
bool *res, bool *isnull)
{
Oid opclass,
opfamily,
opcintype;
int16 procno;
/* Only answer column-level inquiries */
if (attno == 0)
return false;
/*
* Currently, GiST distance-ordered scans require that there be a distance
* function in the opclass with the default types (i.e. the one loaded
* into the relcache entry, see initGISTstate). So we assume that if such
* a function exists, then there's a reason for it (rather than grubbing
* through all the opfamily's operators to find an ordered one).
*
* Essentially the same code can test whether we support returning the
* column data, since that's true if the opclass provides a fetch proc.
*/
switch (prop)
{
case AMPROP_DISTANCE_ORDERABLE:
procno = GIST_DISTANCE_PROC;
break;
case AMPROP_RETURNABLE:
procno = GIST_FETCH_PROC;
break;
default:
return false;
}
/* First we need to know the column's opclass. */
opclass = get_index_column_opclass(index_oid, attno);
if (!OidIsValid(opclass))
{
*isnull = true;
return true;
}
/* Now look up the opclass family and input datatype. */
if (!get_opclass_opfamily_and_input_type(opclass, &opfamily, &opcintype))
{
*isnull = true;
return true;
}
/* And now we can check whether the function is provided. */
*res = SearchSysCacheExists4(AMPROCNUM,
ObjectIdGetDatum(opfamily),
ObjectIdGetDatum(opcintype),
ObjectIdGetDatum(opcintype),
Int16GetDatum(procno));
/*
* Special case: even without a fetch function, AMPROP_RETURNABLE is true
* if the opclass has no compress function.
*/
if (prop == AMPROP_RETURNABLE && !*res)
{
*res = !SearchSysCacheExists4(AMPROCNUM,
ObjectIdGetDatum(opfamily),
ObjectIdGetDatum(opcintype),
ObjectIdGetDatum(opcintype),
Int16GetDatum(GIST_COMPRESS_PROC));
}
*isnull = false;
return true;
}
/*
* Some indexes are not WAL-logged, but we need LSNs to detect concurrent page
* splits anyway. This function provides a fake sequence of LSNs for that
* purpose.
*/
XLogRecPtr
gistGetFakeLSN(Relation rel)
{
if (rel->rd_rel->relpersistence == RELPERSISTENCE_TEMP)
{
/*
* Temporary relations are only accessible in our session, so a simple
* backend-local counter will do.
*/
static XLogRecPtr counter = FirstNormalUnloggedLSN;
return counter++;
}
else if (RelationIsPermanent(rel))
{
/*
* WAL-logging on this relation will start after commit, so its LSNs
* must be distinct numbers smaller than the LSN at the next commit.
* Emit a dummy WAL record if insert-LSN hasn't advanced after the
* last call.
*/
static XLogRecPtr lastlsn = InvalidXLogRecPtr;
XLogRecPtr currlsn = GetXLogInsertRecPtr();
/* Shouldn't be called for WAL-logging relations */
Assert(!RelationNeedsWAL(rel));
/* No need for an actual record if we already have a distinct LSN */
if (!XLogRecPtrIsInvalid(lastlsn) && lastlsn == currlsn)
currlsn = gistXLogAssignLSN();
lastlsn = currlsn;
return currlsn;
}
else
{
/*
* Unlogged relations are accessible from other backends, and survive
* (clean) restarts. GetFakeLSNForUnloggedRel() handles that for us.
*/
Assert(rel->rd_rel->relpersistence == RELPERSISTENCE_UNLOGGED);
return GetFakeLSNForUnloggedRel();
}
}
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