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|
/*-------------------------------------------------------------------------
*
* btinsert.c--
* Item insertion in Lehman and Yao btrees for Postgres.
*
* Copyright (c) 1994, Regents of the University of California
*
*
* IDENTIFICATION
* $Header: /cvsroot/pgsql/src/backend/access/nbtree/nbtinsert.c,v 1.34 1999/02/03 21:15:32 momjian Exp $
*
*-------------------------------------------------------------------------
*/
#include <postgres.h>
#include <utils/memutils.h>
#include <storage/bufpage.h>
#include <access/nbtree.h>
#include <access/heapam.h>
#include <access/xact.h>
#include <storage/bufmgr.h>
#include <fmgr.h>
#ifndef HAVE_MEMMOVE
#include <regex/utils.h>
#else
#include <string.h>
#endif
static InsertIndexResult _bt_insertonpg(Relation rel, Buffer buf, BTStack stack, int keysz, ScanKey scankey, BTItem btitem, BTItem afteritem);
static Buffer _bt_split(Relation rel, Buffer buf, OffsetNumber firstright);
static OffsetNumber _bt_findsplitloc(Relation rel, Page page, OffsetNumber start, OffsetNumber maxoff, Size llimit);
static void _bt_newroot(Relation rel, Buffer lbuf, Buffer rbuf);
static OffsetNumber _bt_pgaddtup(Relation rel, Buffer buf, int keysz, ScanKey itup_scankey, Size itemsize, BTItem btitem, BTItem afteritem);
static bool _bt_goesonpg(Relation rel, Buffer buf, Size keysz, ScanKey scankey, BTItem afteritem);
static void _bt_updateitem(Relation rel, Size keysz, Buffer buf, BTItem oldItem, BTItem newItem);
static bool _bt_isequal(TupleDesc itupdesc, Page page, OffsetNumber offnum, int keysz, ScanKey scankey);
/*
* _bt_doinsert() -- Handle insertion of a single btitem in the tree.
*
* This routine is called by the public interface routines, btbuild
* and btinsert. By here, btitem is filled in, and has a unique
* (xid, seqno) pair.
*/
InsertIndexResult
_bt_doinsert(Relation rel, BTItem btitem, bool index_is_unique, Relation heapRel)
{
ScanKey itup_scankey;
IndexTuple itup;
BTStack stack;
Buffer buf;
BlockNumber blkno;
int natts = rel->rd_rel->relnatts;
InsertIndexResult res;
Buffer buffer;
itup = &(btitem->bti_itup);
/* we need a scan key to do our search, so build one */
itup_scankey = _bt_mkscankey(rel, itup);
/* find the page containing this key */
stack = _bt_search(rel, natts, itup_scankey, &buf);
blkno = BufferGetBlockNumber(buf);
/* trade in our read lock for a write lock */
_bt_relbuf(rel, buf, BT_READ);
l1:
buf = _bt_getbuf(rel, blkno, BT_WRITE);
/*
* If the page was split between the time that we surrendered our read
* lock and acquired our write lock, then this page may no longer be
* the right place for the key we want to insert. In this case, we
* need to move right in the tree. See Lehman and Yao for an
* excruciatingly precise description.
*/
buf = _bt_moveright(rel, buf, natts, itup_scankey, BT_WRITE);
/* if we're not allowing duplicates, make sure the key isn't */
/* already in the node */
if (index_is_unique)
{
OffsetNumber offset,
maxoff;
Page page;
page = BufferGetPage(buf);
maxoff = PageGetMaxOffsetNumber(page);
offset = _bt_binsrch(rel, buf, natts, itup_scankey, BT_DESCENT);
/* make sure the offset we're given points to an actual */
/* key on the page before trying to compare it */
if (!PageIsEmpty(page) && offset <= maxoff)
{
TupleDesc itupdesc;
BTItem btitem;
HeapTupleData htup;
BTPageOpaque opaque;
Buffer nbuf;
BlockNumber blkno;
itupdesc = RelationGetDescr(rel);
nbuf = InvalidBuffer;
opaque = (BTPageOpaque) PageGetSpecialPointer(page);
/*
* _bt_compare returns 0 for (1,NULL) and (1,NULL) - this's
* how we handling NULLs - and so we must not use _bt_compare
* in real comparison, but only for ordering/finding items on
* pages. - vadim 03/24/97
*
* while ( !_bt_compare (rel, itupdesc, page, natts,
* itup_scankey, offset) )
*/
while (_bt_isequal(itupdesc, page, offset, natts, itup_scankey))
{ /* they're equal */
btitem = (BTItem) PageGetItem(page, PageGetItemId(page, offset));
htup.t_self = btitem->bti_itup.t_tid;
heap_fetch(heapRel, SnapshotDirty, &htup, &buffer);
if (htup.t_data != NULL) /* it is a duplicate */
{
TransactionId xwait =
(TransactionIdIsValid(SnapshotDirty->xmin)) ?
SnapshotDirty->xmin : SnapshotDirty->xmax;
/*
* If this tuple is being updated by other transaction
* then we have to wait for its commit/abort.
*/
ReleaseBuffer(buffer);
if (TransactionIdIsValid(xwait))
{
if (nbuf != InvalidBuffer)
_bt_relbuf(rel, nbuf, BT_READ);
_bt_relbuf(rel, buf, BT_WRITE);
XactLockTableWait(xwait);
goto l1; /* continue from the begin */
}
elog(ERROR, "Cannot insert a duplicate key into a unique index");
}
/* htup null so no buffer to release */
/* get next offnum */
if (offset < maxoff)
offset = OffsetNumberNext(offset);
else
{ /* move right ? */
if (P_RIGHTMOST(opaque))
break;
if (!_bt_isequal(itupdesc, page, P_HIKEY,
natts, itup_scankey))
break;
/*
* min key of the right page is the same, ooh - so
* many dead duplicates...
*/
blkno = opaque->btpo_next;
if (nbuf != InvalidBuffer)
_bt_relbuf(rel, nbuf, BT_READ);
for (nbuf = InvalidBuffer;;)
{
nbuf = _bt_getbuf(rel, blkno, BT_READ);
page = BufferGetPage(nbuf);
maxoff = PageGetMaxOffsetNumber(page);
opaque = (BTPageOpaque) PageGetSpecialPointer(page);
offset = P_RIGHTMOST(opaque) ? P_HIKEY : P_FIRSTKEY;
if (!PageIsEmpty(page) && offset <= maxoff)
{ /* Found some key */
break;
}
else
{ /* Empty or "pseudo"-empty page - get next */
blkno = opaque->btpo_next;
_bt_relbuf(rel, nbuf, BT_READ);
nbuf = InvalidBuffer;
if (blkno == P_NONE)
break;
}
}
if (nbuf == InvalidBuffer)
break;
}
}
if (nbuf != InvalidBuffer)
_bt_relbuf(rel, nbuf, BT_READ);
}
}
/* do the insertion */
res = _bt_insertonpg(rel, buf, stack, natts, itup_scankey,
btitem, (BTItem) NULL);
/* be tidy */
_bt_freestack(stack);
_bt_freeskey(itup_scankey);
return res;
}
/*
* _bt_insertonpg() -- Insert a tuple on a particular page in the index.
*
* This recursive procedure does the following things:
*
* + if necessary, splits the target page.
* + finds the right place to insert the tuple (taking into
* account any changes induced by a split).
* + inserts the tuple.
* + if the page was split, pops the parent stack, and finds the
* right place to insert the new child pointer (by walking
* right using information stored in the parent stack).
* + invoking itself with the appropriate tuple for the right
* child page on the parent.
*
* On entry, we must have the right buffer on which to do the
* insertion, and the buffer must be pinned and locked. On return,
* we will have dropped both the pin and the write lock on the buffer.
*
* The locking interactions in this code are critical. You should
* grok Lehman and Yao's paper before making any changes. In addition,
* you need to understand how we disambiguate duplicate keys in this
* implementation, in order to be able to find our location using
* L&Y "move right" operations. Since we may insert duplicate user
* keys, and since these dups may propogate up the tree, we use the
* 'afteritem' parameter to position ourselves correctly for the
* insertion on internal pages.
*/
static InsertIndexResult
_bt_insertonpg(Relation rel,
Buffer buf,
BTStack stack,
int keysz,
ScanKey scankey,
BTItem btitem,
BTItem afteritem)
{
InsertIndexResult res;
Page page;
BTPageOpaque lpageop;
BlockNumber itup_blkno;
OffsetNumber itup_off;
OffsetNumber firstright = InvalidOffsetNumber;
int itemsz;
bool do_split = false;
bool keys_equal = false;
page = BufferGetPage(buf);
lpageop = (BTPageOpaque) PageGetSpecialPointer(page);
itemsz = IndexTupleDSize(btitem->bti_itup)
+ (sizeof(BTItemData) - sizeof(IndexTupleData));
itemsz = DOUBLEALIGN(itemsz); /* be safe, PageAddItem will do
* this but we need to be
* consistent */
/*
* If we have to insert item on the leftmost page which is the first
* page in the chain of duplicates then: 1. if scankey == hikey (i.e.
* - new duplicate item) then insert it here; 2. if scankey < hikey
* then: 2.a if there is duplicate key(s) here - we force splitting;
* 2.b else - we may "eat" this page from duplicates chain.
*/
if (lpageop->btpo_flags & BTP_CHAIN)
{
OffsetNumber maxoff = PageGetMaxOffsetNumber(page);
ItemId hitemid;
BTItem hitem;
Assert(!P_RIGHTMOST(lpageop));
hitemid = PageGetItemId(page, P_HIKEY);
hitem = (BTItem) PageGetItem(page, hitemid);
if (maxoff > P_HIKEY &&
!_bt_itemcmp(rel, keysz, hitem,
(BTItem) PageGetItem(page, PageGetItemId(page, P_FIRSTKEY)),
BTEqualStrategyNumber))
elog(FATAL, "btree: bad key on the page in the chain of duplicates");
if (!_bt_skeycmp(rel, keysz, scankey, page, hitemid,
BTEqualStrategyNumber))
{
if (!P_LEFTMOST(lpageop))
elog(FATAL, "btree: attempt to insert bad key on the non-leftmost page in the chain of duplicates");
if (!_bt_skeycmp(rel, keysz, scankey, page, hitemid,
BTLessStrategyNumber))
elog(FATAL, "btree: attempt to insert higher key on the leftmost page in the chain of duplicates");
if (maxoff > P_HIKEY) /* have duplicate(s) */
{
firstright = P_FIRSTKEY;
do_split = true;
}
else
/* "eat" page */
{
Buffer pbuf;
Page ppage;
itup_blkno = BufferGetBlockNumber(buf);
itup_off = PageAddItem(page, (Item) btitem, itemsz,
P_FIRSTKEY, LP_USED);
if (itup_off == InvalidOffsetNumber)
elog(FATAL, "btree: failed to add item");
lpageop->btpo_flags &= ~BTP_CHAIN;
pbuf = _bt_getstackbuf(rel, stack, BT_WRITE);
ppage = BufferGetPage(pbuf);
PageIndexTupleDelete(ppage, stack->bts_offset);
pfree(stack->bts_btitem);
stack->bts_btitem = _bt_formitem(&(btitem->bti_itup));
ItemPointerSet(&(stack->bts_btitem->bti_itup.t_tid),
itup_blkno, P_HIKEY);
_bt_wrtbuf(rel, buf);
res = _bt_insertonpg(rel, pbuf, stack->bts_parent,
keysz, scankey, stack->bts_btitem,
NULL);
ItemPointerSet(&(res->pointerData), itup_blkno, itup_off);
return res;
}
}
else
{
keys_equal = true;
if (PageGetFreeSpace(page) < itemsz)
do_split = true;
}
}
else if (PageGetFreeSpace(page) < itemsz)
do_split = true;
else if (PageGetFreeSpace(page) < 3 * itemsz + 2 * sizeof(ItemIdData))
{
OffsetNumber offnum = (P_RIGHTMOST(lpageop)) ? P_HIKEY : P_FIRSTKEY;
OffsetNumber maxoff = PageGetMaxOffsetNumber(page);
ItemId itid;
BTItem previtem,
chkitem;
Size maxsize;
Size currsize;
itid = PageGetItemId(page, offnum);
previtem = (BTItem) PageGetItem(page, itid);
maxsize = currsize = (ItemIdGetLength(itid) + sizeof(ItemIdData));
for (offnum = OffsetNumberNext(offnum);
offnum <= maxoff; offnum = OffsetNumberNext(offnum))
{
itid = PageGetItemId(page, offnum);
chkitem = (BTItem) PageGetItem(page, itid);
if (!_bt_itemcmp(rel, keysz, previtem, chkitem,
BTEqualStrategyNumber))
{
if (currsize > maxsize)
maxsize = currsize;
currsize = 0;
previtem = chkitem;
}
currsize += (ItemIdGetLength(itid) + sizeof(ItemIdData));
}
if (currsize > maxsize)
maxsize = currsize;
maxsize += sizeof(PageHeaderData) +
DOUBLEALIGN(sizeof(BTPageOpaqueData));
if (maxsize >= PageGetPageSize(page) / 2)
do_split = true;
}
if (do_split)
{
Buffer rbuf;
Page rpage;
BTItem ritem;
BlockNumber rbknum;
BTPageOpaque rpageop;
Buffer pbuf;
Page ppage;
BTPageOpaque ppageop;
BlockNumber bknum = BufferGetBlockNumber(buf);
BTItem lowLeftItem;
OffsetNumber maxoff;
bool shifted = false;
bool left_chained = (lpageop->btpo_flags & BTP_CHAIN) ? true : false;
/*
* If we have to split leaf page in the chain of duplicates by new
* duplicate then we try to look at our right sibling first.
*/
if ((lpageop->btpo_flags & BTP_CHAIN) &&
(lpageop->btpo_flags & BTP_LEAF) && keys_equal)
{
bool use_left = true;
rbuf = _bt_getbuf(rel, lpageop->btpo_next, BT_WRITE);
rpage = BufferGetPage(rbuf);
rpageop = (BTPageOpaque) PageGetSpecialPointer(rpage);
if (!P_RIGHTMOST(rpageop)) /* non-rightmost page */
{ /* If we have the same hikey here then
* it's yet another page in chain. */
if (_bt_skeycmp(rel, keysz, scankey, rpage,
PageGetItemId(rpage, P_HIKEY),
BTEqualStrategyNumber))
{
if (!(rpageop->btpo_flags & BTP_CHAIN))
elog(FATAL, "btree: lost page in the chain of duplicates");
}
else if (_bt_skeycmp(rel, keysz, scankey, rpage,
PageGetItemId(rpage, P_HIKEY),
BTGreaterStrategyNumber))
elog(FATAL, "btree: hikey is out of order");
else if (rpageop->btpo_flags & BTP_CHAIN)
/*
* If hikey > scankey then it's last page in chain and
* BTP_CHAIN must be OFF
*/
elog(FATAL, "btree: lost last page in the chain of duplicates");
/* if there is room here then we use this page. */
if (PageGetFreeSpace(rpage) > itemsz)
use_left = false;
}
else
/* rightmost page */
{
Assert(!(rpageop->btpo_flags & BTP_CHAIN));
/* if there is room here then we use this page. */
if (PageGetFreeSpace(rpage) > itemsz)
use_left = false;
}
if (!use_left) /* insert on the right page */
{
_bt_relbuf(rel, buf, BT_WRITE);
return (_bt_insertonpg(rel, rbuf, stack, keysz,
scankey, btitem, afteritem));
}
_bt_relbuf(rel, rbuf, BT_WRITE);
}
/*
* If after splitting un-chained page we'll got chain of pages
* with duplicates then we want to know 1. on which of two pages
* new btitem will go (current _bt_findsplitloc is quite bad); 2.
* what parent (if there's one) thinking about it (remember about
* deletions)
*/
else if (!(lpageop->btpo_flags & BTP_CHAIN))
{
OffsetNumber start = (P_RIGHTMOST(lpageop)) ? P_HIKEY : P_FIRSTKEY;
Size llimit;
maxoff = PageGetMaxOffsetNumber(page);
llimit = PageGetPageSize(page) - sizeof(PageHeaderData) -
DOUBLEALIGN(sizeof(BTPageOpaqueData))
+sizeof(ItemIdData);
llimit /= 2;
firstright = _bt_findsplitloc(rel, page, start, maxoff, llimit);
if (_bt_itemcmp(rel, keysz,
(BTItem) PageGetItem(page, PageGetItemId(page, start)),
(BTItem) PageGetItem(page, PageGetItemId(page, firstright)),
BTEqualStrategyNumber))
{
if (_bt_skeycmp(rel, keysz, scankey, page,
PageGetItemId(page, firstright),
BTLessStrategyNumber))
/*
* force moving current items to the new page: new
* item will go on the current page.
*/
firstright = start;
else
/*
* new btitem >= firstright, start item == firstright
* - new chain of duplicates: if this non-leftmost
* leaf page and parent item < start item then force
* moving all items to the new page - current page
* will be "empty" after it.
*/
{
if (!P_LEFTMOST(lpageop) &&
(lpageop->btpo_flags & BTP_LEAF))
{
ItemPointerSet(&(stack->bts_btitem->bti_itup.t_tid),
bknum, P_HIKEY);
pbuf = _bt_getstackbuf(rel, stack, BT_WRITE);
if (_bt_itemcmp(rel, keysz, stack->bts_btitem,
(BTItem) PageGetItem(page,
PageGetItemId(page, start)),
BTLessStrategyNumber))
{
firstright = start;
shifted = true;
}
_bt_relbuf(rel, pbuf, BT_WRITE);
}
}
} /* else - no new chain if start item <
* firstright one */
}
/* split the buffer into left and right halves */
rbuf = _bt_split(rel, buf, firstright);
/* which new page (left half or right half) gets the tuple? */
if (_bt_goesonpg(rel, buf, keysz, scankey, afteritem))
{
/* left page */
itup_off = _bt_pgaddtup(rel, buf, keysz, scankey,
itemsz, btitem, afteritem);
itup_blkno = BufferGetBlockNumber(buf);
}
else
{
/* right page */
itup_off = _bt_pgaddtup(rel, rbuf, keysz, scankey,
itemsz, btitem, afteritem);
itup_blkno = BufferGetBlockNumber(rbuf);
}
maxoff = PageGetMaxOffsetNumber(page);
if (shifted)
{
if (maxoff > P_FIRSTKEY)
elog(FATAL, "btree: shifted page is not empty");
lowLeftItem = (BTItem) NULL;
}
else
{
if (maxoff < P_FIRSTKEY)
elog(FATAL, "btree: un-shifted page is empty");
lowLeftItem = (BTItem) PageGetItem(page,
PageGetItemId(page, P_FIRSTKEY));
if (_bt_itemcmp(rel, keysz, lowLeftItem,
(BTItem) PageGetItem(page, PageGetItemId(page, P_HIKEY)),
BTEqualStrategyNumber))
lpageop->btpo_flags |= BTP_CHAIN;
}
/*
* By here,
*
* + our target page has been split; + the original tuple has been
* inserted; + we have write locks on both the old (left half)
* and new (right half) buffers, after the split; and + we have
* the key we want to insert into the parent.
*
* Do the parent insertion. We need to hold onto the locks for the
* child pages until we locate the parent, but we can release them
* before doing the actual insertion (see Lehman and Yao for the
* reasoning).
*/
if (stack == (BTStack) NULL)
{
/* create a new root node and release the split buffers */
_bt_newroot(rel, buf, rbuf);
_bt_relbuf(rel, buf, BT_WRITE);
_bt_relbuf(rel, rbuf, BT_WRITE);
}
else
{
ScanKey newskey;
InsertIndexResult newres;
BTItem new_item;
OffsetNumber upditem_offset = P_HIKEY;
bool do_update = false;
bool update_in_place = true;
bool parent_chained;
/* form a index tuple that points at the new right page */
rbknum = BufferGetBlockNumber(rbuf);
rpage = BufferGetPage(rbuf);
rpageop = (BTPageOpaque) PageGetSpecialPointer(rpage);
/*
* By convention, the first entry (1) on every non-rightmost
* page is the high key for that page. In order to get the
* lowest key on the new right page, we actually look at its
* second (2) entry.
*/
if (!P_RIGHTMOST(rpageop))
{
ritem = (BTItem) PageGetItem(rpage,
PageGetItemId(rpage, P_FIRSTKEY));
if (_bt_itemcmp(rel, keysz, ritem,
(BTItem) PageGetItem(rpage,
PageGetItemId(rpage, P_HIKEY)),
BTEqualStrategyNumber))
rpageop->btpo_flags |= BTP_CHAIN;
}
else
ritem = (BTItem) PageGetItem(rpage,
PageGetItemId(rpage, P_HIKEY));
/* get a unique btitem for this key */
new_item = _bt_formitem(&(ritem->bti_itup));
ItemPointerSet(&(new_item->bti_itup.t_tid), rbknum, P_HIKEY);
/*
* Find the parent buffer and get the parent page.
*
* Oops - if we were moved right then we need to change stack
* item! We want to find parent pointing to where we are,
* right ? - vadim 05/27/97
*/
ItemPointerSet(&(stack->bts_btitem->bti_itup.t_tid),
bknum, P_HIKEY);
pbuf = _bt_getstackbuf(rel, stack, BT_WRITE);
ppage = BufferGetPage(pbuf);
ppageop = (BTPageOpaque) PageGetSpecialPointer(ppage);
parent_chained = ((ppageop->btpo_flags & BTP_CHAIN)) ? true : false;
if (parent_chained && !left_chained)
elog(FATAL, "nbtree: unexpected chained parent of unchained page");
/*
* If the key of new_item is < than the key of the item in the
* parent page pointing to the left page (stack->bts_btitem),
* we have to update the latter key; otherwise the keys on the
* parent page wouldn't be monotonically increasing after we
* inserted the new pointer to the right page (new_item). This
* only happens if our left page is the leftmost page and a
* new minimum key had been inserted before, which is not
* reflected in the parent page but didn't matter so far. If
* there are duplicate keys and this new minimum key spills
* over to our new right page, we get an inconsistency if we
* don't update the left key in the parent page.
*
* Also, new duplicates handling code require us to update parent
* item if some smaller items left on the left page (which is
* possible in splitting leftmost page) and current parent
* item == new_item. - vadim 05/27/97
*/
if (_bt_itemcmp(rel, keysz, stack->bts_btitem, new_item,
BTGreaterStrategyNumber) ||
(!shifted &&
_bt_itemcmp(rel, keysz, stack->bts_btitem,
new_item, BTEqualStrategyNumber) &&
_bt_itemcmp(rel, keysz, lowLeftItem,
new_item, BTLessStrategyNumber)))
{
do_update = true;
/*
* figure out which key is leftmost (if the parent page is
* rightmost, too, it must be the root)
*/
if (P_RIGHTMOST(ppageop))
upditem_offset = P_HIKEY;
else
upditem_offset = P_FIRSTKEY;
if (!P_LEFTMOST(lpageop) ||
stack->bts_offset != upditem_offset)
elog(FATAL, "btree: items are out of order (leftmost %d, stack %u, update %u)",
P_LEFTMOST(lpageop), stack->bts_offset, upditem_offset);
}
if (do_update)
{
if (shifted)
elog(FATAL, "btree: attempt to update parent for shifted page");
/*
* Try to update in place. If out parent page is chained
* then we must forse insertion.
*/
if (!parent_chained &&
DOUBLEALIGN(IndexTupleDSize(lowLeftItem->bti_itup)) ==
DOUBLEALIGN(IndexTupleDSize(stack->bts_btitem->bti_itup)))
{
_bt_updateitem(rel, keysz, pbuf,
stack->bts_btitem, lowLeftItem);
_bt_relbuf(rel, buf, BT_WRITE);
_bt_relbuf(rel, rbuf, BT_WRITE);
}
else
{
update_in_place = false;
PageIndexTupleDelete(ppage, upditem_offset);
/*
* don't write anything out yet--we still have the
* write lock, and now we call another _bt_insertonpg
* to insert the correct key. First, make a new item,
* using the tuple data from lowLeftItem. Point it to
* the left child. Update it on the stack at the same
* time.
*/
pfree(stack->bts_btitem);
stack->bts_btitem = _bt_formitem(&(lowLeftItem->bti_itup));
ItemPointerSet(&(stack->bts_btitem->bti_itup.t_tid),
bknum, P_HIKEY);
/*
* Unlock the children before doing this
*
* Mmm ... I foresee problems here. - vadim 06/10/97
*/
_bt_relbuf(rel, buf, BT_WRITE);
_bt_relbuf(rel, rbuf, BT_WRITE);
/*
* A regular _bt_binsrch should find the right place
* to put the new entry, since it should be lower than
* any other key on the page. Therefore set afteritem
* to NULL.
*/
newskey = _bt_mkscankey(rel, &(stack->bts_btitem->bti_itup));
newres = _bt_insertonpg(rel, pbuf, stack->bts_parent,
keysz, newskey, stack->bts_btitem,
NULL);
pfree(newres);
pfree(newskey);
/*
* we have now lost our lock on the parent buffer, and
* need to get it back.
*/
pbuf = _bt_getstackbuf(rel, stack, BT_WRITE);
}
}
else
{
_bt_relbuf(rel, buf, BT_WRITE);
_bt_relbuf(rel, rbuf, BT_WRITE);
}
newskey = _bt_mkscankey(rel, &(new_item->bti_itup));
afteritem = stack->bts_btitem;
if (parent_chained && !update_in_place)
{
ppage = BufferGetPage(pbuf);
ppageop = (BTPageOpaque) PageGetSpecialPointer(ppage);
if (ppageop->btpo_flags & BTP_CHAIN)
elog(FATAL, "btree: unexpected BTP_CHAIN flag in parent after update");
if (P_RIGHTMOST(ppageop))
elog(FATAL, "btree: chained parent is RIGHTMOST after update");
maxoff = PageGetMaxOffsetNumber(ppage);
if (maxoff != P_FIRSTKEY)
elog(FATAL, "btree: FIRSTKEY was unexpected in parent after update");
if (_bt_skeycmp(rel, keysz, newskey, ppage,
PageGetItemId(ppage, P_FIRSTKEY),
BTLessEqualStrategyNumber))
elog(FATAL, "btree: parent FIRSTKEY is >= duplicate key after update");
if (!_bt_skeycmp(rel, keysz, newskey, ppage,
PageGetItemId(ppage, P_HIKEY),
BTEqualStrategyNumber))
elog(FATAL, "btree: parent HIGHKEY is not equal duplicate key after update");
afteritem = (BTItem) NULL;
}
else if (left_chained && !update_in_place)
{
ppage = BufferGetPage(pbuf);
ppageop = (BTPageOpaque) PageGetSpecialPointer(ppage);
if (!P_RIGHTMOST(ppageop) &&
_bt_skeycmp(rel, keysz, newskey, ppage,
PageGetItemId(ppage, P_HIKEY),
BTGreaterStrategyNumber))
afteritem = (BTItem) NULL;
}
if (afteritem == (BTItem) NULL)
{
rbuf = _bt_getbuf(rel, ppageop->btpo_next, BT_WRITE);
_bt_relbuf(rel, pbuf, BT_WRITE);
pbuf = rbuf;
}
newres = _bt_insertonpg(rel, pbuf, stack->bts_parent,
keysz, newskey, new_item,
afteritem);
/* be tidy */
pfree(newres);
pfree(newskey);
pfree(new_item);
}
}
else
{
itup_off = _bt_pgaddtup(rel, buf, keysz, scankey,
itemsz, btitem, afteritem);
itup_blkno = BufferGetBlockNumber(buf);
_bt_relbuf(rel, buf, BT_WRITE);
}
/* by here, the new tuple is inserted */
res = (InsertIndexResult) palloc(sizeof(InsertIndexResultData));
ItemPointerSet(&(res->pointerData), itup_blkno, itup_off);
return res;
}
/*
* _bt_split() -- split a page in the btree.
*
* On entry, buf is the page to split, and is write-locked and pinned.
* Returns the new right sibling of buf, pinned and write-locked. The
* pin and lock on buf are maintained.
*/
static Buffer
_bt_split(Relation rel, Buffer buf, OffsetNumber firstright)
{
Buffer rbuf;
Page origpage;
Page leftpage,
rightpage;
BTPageOpaque ropaque,
lopaque,
oopaque;
Buffer sbuf;
Page spage;
BTPageOpaque sopaque;
Size itemsz;
ItemId itemid;
BTItem item;
OffsetNumber leftoff,
rightoff;
OffsetNumber start;
OffsetNumber maxoff;
OffsetNumber i;
rbuf = _bt_getbuf(rel, P_NEW, BT_WRITE);
origpage = BufferGetPage(buf);
leftpage = PageGetTempPage(origpage, sizeof(BTPageOpaqueData));
rightpage = BufferGetPage(rbuf);
_bt_pageinit(rightpage, BufferGetPageSize(rbuf));
_bt_pageinit(leftpage, BufferGetPageSize(buf));
/* init btree private data */
oopaque = (BTPageOpaque) PageGetSpecialPointer(origpage);
lopaque = (BTPageOpaque) PageGetSpecialPointer(leftpage);
ropaque = (BTPageOpaque) PageGetSpecialPointer(rightpage);
/* if we're splitting this page, it won't be the root when we're done */
oopaque->btpo_flags &= ~BTP_ROOT;
oopaque->btpo_flags &= ~BTP_CHAIN;
lopaque->btpo_flags = ropaque->btpo_flags = oopaque->btpo_flags;
lopaque->btpo_prev = oopaque->btpo_prev;
ropaque->btpo_prev = BufferGetBlockNumber(buf);
lopaque->btpo_next = BufferGetBlockNumber(rbuf);
ropaque->btpo_next = oopaque->btpo_next;
/*
* If the page we're splitting is not the rightmost page at its level
* in the tree, then the first (0) entry on the page is the high key
* for the page. We need to copy that to the right half. Otherwise
* (meaning the rightmost page case), we should treat the line
* pointers beginning at zero as user data.
*
* We leave a blank space at the start of the line table for the left
* page. We'll come back later and fill it in with the high key item
* we get from the right key.
*/
leftoff = P_FIRSTKEY;
ropaque->btpo_next = oopaque->btpo_next;
if (!P_RIGHTMOST(oopaque))
{
/* splitting a non-rightmost page, start at the first data item */
start = P_FIRSTKEY;
itemid = PageGetItemId(origpage, P_HIKEY);
itemsz = ItemIdGetLength(itemid);
item = (BTItem) PageGetItem(origpage, itemid);
if (PageAddItem(rightpage, (Item) item, itemsz, P_HIKEY, LP_USED) == InvalidOffsetNumber)
elog(FATAL, "btree: failed to add hikey to the right sibling");
rightoff = P_FIRSTKEY;
}
else
{
/* splitting a rightmost page, "high key" is the first data item */
start = P_HIKEY;
/* the new rightmost page will not have a high key */
rightoff = P_HIKEY;
}
maxoff = PageGetMaxOffsetNumber(origpage);
if (firstright == InvalidOffsetNumber)
{
Size llimit = PageGetFreeSpace(leftpage) / 2;
firstright = _bt_findsplitloc(rel, origpage, start, maxoff, llimit);
}
for (i = start; i <= maxoff; i = OffsetNumberNext(i))
{
itemid = PageGetItemId(origpage, i);
itemsz = ItemIdGetLength(itemid);
item = (BTItem) PageGetItem(origpage, itemid);
/* decide which page to put it on */
if (i < firstright)
{
if (PageAddItem(leftpage, (Item) item, itemsz, leftoff,
LP_USED) == InvalidOffsetNumber)
elog(FATAL, "btree: failed to add item to the left sibling");
leftoff = OffsetNumberNext(leftoff);
}
else
{
if (PageAddItem(rightpage, (Item) item, itemsz, rightoff,
LP_USED) == InvalidOffsetNumber)
elog(FATAL, "btree: failed to add item to the right sibling");
rightoff = OffsetNumberNext(rightoff);
}
}
/*
* Okay, page has been split, high key on right page is correct. Now
* set the high key on the left page to be the min key on the right
* page.
*/
if (P_RIGHTMOST(ropaque))
itemid = PageGetItemId(rightpage, P_HIKEY);
else
itemid = PageGetItemId(rightpage, P_FIRSTKEY);
itemsz = ItemIdGetLength(itemid);
item = (BTItem) PageGetItem(rightpage, itemid);
/*
* We left a hole for the high key on the left page; fill it. The
* modal crap is to tell the page manager to put the new item on the
* page and not screw around with anything else. Whoever designed
* this interface has presumably crawled back into the dung heap they
* came from. No one here will admit to it.
*/
PageManagerModeSet(OverwritePageManagerMode);
if (PageAddItem(leftpage, (Item) item, itemsz, P_HIKEY, LP_USED) == InvalidOffsetNumber)
elog(FATAL, "btree: failed to add hikey to the left sibling");
PageManagerModeSet(ShufflePageManagerMode);
/*
* By here, the original data page has been split into two new halves,
* and these are correct. The algorithm requires that the left page
* never move during a split, so we copy the new left page back on top
* of the original. Note that this is not a waste of time, since we
* also require (in the page management code) that the center of a
* page always be clean, and the most efficient way to guarantee this
* is just to compact the data by reinserting it into a new left page.
*/
PageRestoreTempPage(leftpage, origpage);
/* write these guys out */
_bt_wrtnorelbuf(rel, rbuf);
_bt_wrtnorelbuf(rel, buf);
/*
* Finally, we need to grab the right sibling (if any) and fix the
* prev pointer there. We are guaranteed that this is deadlock-free
* since no other writer will be moving holding a lock on that page
* and trying to move left, and all readers release locks on a page
* before trying to fetch its neighbors.
*/
if (!P_RIGHTMOST(ropaque))
{
sbuf = _bt_getbuf(rel, ropaque->btpo_next, BT_WRITE);
spage = BufferGetPage(sbuf);
sopaque = (BTPageOpaque) PageGetSpecialPointer(spage);
sopaque->btpo_prev = BufferGetBlockNumber(rbuf);
/* write and release the old right sibling */
_bt_wrtbuf(rel, sbuf);
}
/* split's done */
return rbuf;
}
/*
* _bt_findsplitloc() -- find a safe place to split a page.
*
* In order to guarantee the proper handling of searches for duplicate
* keys, the first duplicate in the chain must either be the first
* item on the page after the split, or the entire chain must be on
* one of the two pages. That is,
* [1 2 2 2 3 4 5]
* must become
* [1] [2 2 2 3 4 5]
* or
* [1 2 2 2] [3 4 5]
* but not
* [1 2 2] [2 3 4 5].
* However,
* [2 2 2 2 2 3 4]
* may be split as
* [2 2 2 2] [2 3 4].
*/
static OffsetNumber
_bt_findsplitloc(Relation rel,
Page page,
OffsetNumber start,
OffsetNumber maxoff,
Size llimit)
{
OffsetNumber i;
OffsetNumber saferight;
ItemId nxtitemid,
safeitemid;
BTItem safeitem,
nxtitem;
Size nbytes;
int natts;
if (start >= maxoff)
elog(FATAL, "btree: cannot split if start (%d) >= maxoff (%d)",
start, maxoff);
natts = rel->rd_rel->relnatts;
saferight = start;
safeitemid = PageGetItemId(page, saferight);
nbytes = ItemIdGetLength(safeitemid) + sizeof(ItemIdData);
safeitem = (BTItem) PageGetItem(page, safeitemid);
i = OffsetNumberNext(start);
while (nbytes < llimit)
{
/* check the next item on the page */
nxtitemid = PageGetItemId(page, i);
nbytes += (ItemIdGetLength(nxtitemid) + sizeof(ItemIdData));
nxtitem = (BTItem) PageGetItem(page, nxtitemid);
/*
* Test against last known safe item: if the tuple we're looking
* at isn't equal to the last safe one we saw, then it's our new
* safe tuple.
*/
if (!_bt_itemcmp(rel, natts,
safeitem, nxtitem, BTEqualStrategyNumber))
{
safeitem = nxtitem;
saferight = i;
}
if (i < maxoff)
i = OffsetNumberNext(i);
else
break;
}
/*
* If the chain of dups starts at the beginning of the page and
* extends past the halfway mark, we can split it in the middle.
*/
if (saferight == start)
saferight = i;
if (saferight == maxoff && (maxoff - start) > 1)
saferight = start + (maxoff - start) / 2;
return saferight;
}
/*
* _bt_newroot() -- Create a new root page for the index.
*
* We've just split the old root page and need to create a new one.
* In order to do this, we add a new root page to the file, then lock
* the metadata page and update it. This is guaranteed to be deadlock-
* free, because all readers release their locks on the metadata page
* before trying to lock the root, and all writers lock the root before
* trying to lock the metadata page. We have a write lock on the old
* root page, so we have not introduced any cycles into the waits-for
* graph.
*
* On entry, lbuf (the old root) and rbuf (its new peer) are write-
* locked. We don't drop the locks in this routine; that's done by
* the caller. On exit, a new root page exists with entries for the
* two new children. The new root page is neither pinned nor locked.
*/
static void
_bt_newroot(Relation rel, Buffer lbuf, Buffer rbuf)
{
Buffer rootbuf;
Page lpage,
rpage,
rootpage;
BlockNumber lbkno,
rbkno;
BlockNumber rootbknum;
BTPageOpaque rootopaque;
ItemId itemid;
BTItem item;
Size itemsz;
BTItem new_item;
/* get a new root page */
rootbuf = _bt_getbuf(rel, P_NEW, BT_WRITE);
rootpage = BufferGetPage(rootbuf);
_bt_pageinit(rootpage, BufferGetPageSize(rootbuf));
/* set btree special data */
rootopaque = (BTPageOpaque) PageGetSpecialPointer(rootpage);
rootopaque->btpo_prev = rootopaque->btpo_next = P_NONE;
rootopaque->btpo_flags |= BTP_ROOT;
/*
* Insert the internal tuple pointers.
*/
lbkno = BufferGetBlockNumber(lbuf);
rbkno = BufferGetBlockNumber(rbuf);
lpage = BufferGetPage(lbuf);
rpage = BufferGetPage(rbuf);
/*
* step over the high key on the left page while building the left
* page pointer.
*/
itemid = PageGetItemId(lpage, P_FIRSTKEY);
itemsz = ItemIdGetLength(itemid);
item = (BTItem) PageGetItem(lpage, itemid);
new_item = _bt_formitem(&(item->bti_itup));
ItemPointerSet(&(new_item->bti_itup.t_tid), lbkno, P_HIKEY);
/*
* insert the left page pointer into the new root page. the root page
* is the rightmost page on its level so the "high key" item is the
* first data item.
*/
if (PageAddItem(rootpage, (Item) new_item, itemsz, P_HIKEY, LP_USED) == InvalidOffsetNumber)
elog(FATAL, "btree: failed to add leftkey to new root page");
pfree(new_item);
/*
* the right page is the rightmost page on the second level, so the
* "high key" item is the first data item on that page as well.
*/
itemid = PageGetItemId(rpage, P_HIKEY);
itemsz = ItemIdGetLength(itemid);
item = (BTItem) PageGetItem(rpage, itemid);
new_item = _bt_formitem(&(item->bti_itup));
ItemPointerSet(&(new_item->bti_itup.t_tid), rbkno, P_HIKEY);
/*
* insert the right page pointer into the new root page.
*/
if (PageAddItem(rootpage, (Item) new_item, itemsz, P_FIRSTKEY, LP_USED) == InvalidOffsetNumber)
elog(FATAL, "btree: failed to add rightkey to new root page");
pfree(new_item);
/* write and let go of the root buffer */
rootbknum = BufferGetBlockNumber(rootbuf);
_bt_wrtbuf(rel, rootbuf);
/* update metadata page with new root block number */
_bt_metaproot(rel, rootbknum, 0);
}
/*
* _bt_pgaddtup() -- add a tuple to a particular page in the index.
*
* This routine adds the tuple to the page as requested, and keeps the
* write lock and reference associated with the page's buffer. It is
* an error to call pgaddtup() without a write lock and reference. If
* afteritem is non-null, it's the item that we expect our new item
* to follow. Otherwise, we do a binary search for the correct place
* and insert the new item there.
*/
static OffsetNumber
_bt_pgaddtup(Relation rel,
Buffer buf,
int keysz,
ScanKey itup_scankey,
Size itemsize,
BTItem btitem,
BTItem afteritem)
{
OffsetNumber itup_off;
OffsetNumber first;
Page page;
BTPageOpaque opaque;
BTItem chkitem;
page = BufferGetPage(buf);
opaque = (BTPageOpaque) PageGetSpecialPointer(page);
first = P_RIGHTMOST(opaque) ? P_HIKEY : P_FIRSTKEY;
if (afteritem == (BTItem) NULL)
itup_off = _bt_binsrch(rel, buf, keysz, itup_scankey, BT_INSERTION);
else
{
itup_off = first;
do
{
chkitem = (BTItem) PageGetItem(page, PageGetItemId(page, itup_off));
itup_off = OffsetNumberNext(itup_off);
} while (!BTItemSame(chkitem, afteritem));
}
if (PageAddItem(page, (Item) btitem, itemsize, itup_off, LP_USED) == InvalidOffsetNumber)
elog(FATAL, "btree: failed to add item to the page");
/* write the buffer, but hold our lock */
_bt_wrtnorelbuf(rel, buf);
return itup_off;
}
/*
* _bt_goesonpg() -- Does a new tuple belong on this page?
*
* This is part of the complexity introduced by allowing duplicate
* keys into the index. The tuple belongs on this page if:
*
* + there is no page to the right of this one; or
* + it is less than the high key on the page; or
* + the item it is to follow ("afteritem") appears on this
* page.
*/
static bool
_bt_goesonpg(Relation rel,
Buffer buf,
Size keysz,
ScanKey scankey,
BTItem afteritem)
{
Page page;
ItemId hikey;
BTPageOpaque opaque;
BTItem chkitem;
OffsetNumber offnum,
maxoff;
bool found;
page = BufferGetPage(buf);
/* no right neighbor? */
opaque = (BTPageOpaque) PageGetSpecialPointer(page);
if (P_RIGHTMOST(opaque))
return true;
/*
* this is a non-rightmost page, so it must have a high key item.
*
* If the scan key is < the high key (the min key on the next page), then
* it for sure belongs here.
*/
hikey = PageGetItemId(page, P_HIKEY);
if (_bt_skeycmp(rel, keysz, scankey, page, hikey, BTLessStrategyNumber))
return true;
/*
* If the scan key is > the high key, then it for sure doesn't belong
* here.
*/
if (_bt_skeycmp(rel, keysz, scankey, page, hikey, BTGreaterStrategyNumber))
return false;
/*
* If we have no adjacency information, and the item is equal to the
* high key on the page (by here it is), then the item does not belong
* on this page.
*
* Now it's not true in all cases. - vadim 06/10/97
*/
if (afteritem == (BTItem) NULL)
{
if (opaque->btpo_flags & BTP_LEAF)
return false;
if (opaque->btpo_flags & BTP_CHAIN)
return true;
if (_bt_skeycmp(rel, keysz, scankey, page,
PageGetItemId(page, P_FIRSTKEY),
BTEqualStrategyNumber))
return true;
return false;
}
/* damn, have to work for it. i hate that. */
maxoff = PageGetMaxOffsetNumber(page);
/*
* Search the entire page for the afteroid. We need to do this,
* rather than doing a binary search and starting from there, because
* if the key we're searching for is the leftmost key in the tree at
* this level, then a binary search will do the wrong thing. Splits
* are pretty infrequent, so the cost isn't as bad as it could be.
*/
found = false;
for (offnum = P_FIRSTKEY;
offnum <= maxoff;
offnum = OffsetNumberNext(offnum))
{
chkitem = (BTItem) PageGetItem(page, PageGetItemId(page, offnum));
if (BTItemSame(chkitem, afteritem))
{
found = true;
break;
}
}
return found;
}
/*
* _bt_itemcmp() -- compare item1 to item2 using a requested
* strategy (<, <=, =, >=, >)
*
*/
bool
_bt_itemcmp(Relation rel,
Size keysz,
BTItem item1,
BTItem item2,
StrategyNumber strat)
{
TupleDesc tupDes;
IndexTuple indexTuple1,
indexTuple2;
Datum attrDatum1,
attrDatum2;
int i;
bool isFirstNull,
isSecondNull;
bool compare;
bool useEqual = false;
if (strat == BTLessEqualStrategyNumber)
{
useEqual = true;
strat = BTLessStrategyNumber;
}
else if (strat == BTGreaterEqualStrategyNumber)
{
useEqual = true;
strat = BTGreaterStrategyNumber;
}
tupDes = RelationGetDescr(rel);
indexTuple1 = &(item1->bti_itup);
indexTuple2 = &(item2->bti_itup);
for (i = 1; i <= keysz; i++)
{
attrDatum1 = index_getattr(indexTuple1, i, tupDes, &isFirstNull);
attrDatum2 = index_getattr(indexTuple2, i, tupDes, &isSecondNull);
/* see comments about NULLs handling in btbuild */
if (isFirstNull) /* attr in item1 is NULL */
{
if (isSecondNull) /* attr in item2 is NULL too */
compare = (strat == BTEqualStrategyNumber) ? true : false;
else
compare = (strat == BTGreaterStrategyNumber) ? true : false;
}
else if (isSecondNull) /* attr in item1 is NOT_NULL and */
{ /* and attr in item2 is NULL */
compare = (strat == BTLessStrategyNumber) ? true : false;
}
else
compare = _bt_invokestrat(rel, i, strat, attrDatum1, attrDatum2);
if (compare) /* true for one of ">, <, =" */
{
if (strat != BTEqualStrategyNumber)
return true;
}
else
/* false for one of ">, <, =" */
{
if (strat == BTEqualStrategyNumber)
return false;
/*
* if original strat was "<=, >=" OR "<, >" but some
* attribute(s) left - need to test for Equality
*/
if (useEqual || i < keysz)
{
if (isFirstNull || isSecondNull)
compare = (isFirstNull && isSecondNull) ? true : false;
else
compare = _bt_invokestrat(rel, i, BTEqualStrategyNumber,
attrDatum1, attrDatum2);
if (compare) /* item1' and item2' attributes are equal */
continue; /* - try to compare next attributes */
}
return false;
}
}
return true;
}
/*
* _bt_updateitem() -- updates the key of the item identified by the
* oid with the key of newItem (done in place if
* possible)
*
*/
static void
_bt_updateitem(Relation rel,
Size keysz,
Buffer buf,
BTItem oldItem,
BTItem newItem)
{
Page page;
OffsetNumber maxoff;
OffsetNumber i;
ItemPointerData itemPtrData;
BTItem item;
IndexTuple oldIndexTuple,
newIndexTuple;
int first;
page = BufferGetPage(buf);
maxoff = PageGetMaxOffsetNumber(page);
/* locate item on the page */
first = P_RIGHTMOST((BTPageOpaque) PageGetSpecialPointer(page))
? P_HIKEY : P_FIRSTKEY;
i = first;
do
{
item = (BTItem) PageGetItem(page, PageGetItemId(page, i));
i = OffsetNumberNext(i);
} while (i <= maxoff && !BTItemSame(item, oldItem));
/* this should never happen (in theory) */
if (!BTItemSame(item, oldItem))
elog(FATAL, "_bt_getstackbuf was lying!!");
/*
* It's defined by caller (_bt_insertonpg)
*/
/*
* if(IndexTupleDSize(newItem->bti_itup) >
* IndexTupleDSize(item->bti_itup)) { elog(NOTICE, "trying to
* overwrite a smaller value with a bigger one in _bt_updateitem");
* elog(ERROR, "this is not good."); }
*/
oldIndexTuple = &(item->bti_itup);
newIndexTuple = &(newItem->bti_itup);
/* keep the original item pointer */
ItemPointerCopy(&(oldIndexTuple->t_tid), &itemPtrData);
CopyIndexTuple(newIndexTuple, &oldIndexTuple);
ItemPointerCopy(&itemPtrData, &(oldIndexTuple->t_tid));
}
/*
* _bt_isequal - used in _bt_doinsert in check for duplicates.
*
* Rule is simple: NOT_NULL not equal NULL, NULL not_equal NULL too.
*/
static bool
_bt_isequal(TupleDesc itupdesc, Page page, OffsetNumber offnum,
int keysz, ScanKey scankey)
{
Datum datum;
BTItem btitem;
IndexTuple itup;
ScanKey entry;
AttrNumber attno;
long result;
int i;
bool null;
btitem = (BTItem) PageGetItem(page, PageGetItemId(page, offnum));
itup = &(btitem->bti_itup);
for (i = 1; i <= keysz; i++)
{
entry = &scankey[i - 1];
attno = entry->sk_attno;
Assert(attno == i);
datum = index_getattr(itup, attno, itupdesc, &null);
/* NULLs are not equal */
if (entry->sk_flags & SK_ISNULL || null)
return false;
result = (long) FMGR_PTR2(&entry->sk_func, entry->sk_argument, datum);
if (result != 0)
return false;
}
/* by here, the keys are equal */
return true;
}
#ifdef NOT_USED
/*
* _bt_shift - insert btitem on the passed page after shifting page
* to the right in the tree.
*
* NOTE: tested for shifting leftmost page only, having btitem < hikey.
*/
static InsertIndexResult
_bt_shift(Relation rel, Buffer buf, BTStack stack, int keysz,
ScanKey scankey, BTItem btitem, BTItem hikey)
{
InsertIndexResult res;
int itemsz;
Page page;
BlockNumber bknum;
BTPageOpaque pageop;
Buffer rbuf;
Page rpage;
BTPageOpaque rpageop;
Buffer pbuf;
Page ppage;
BTPageOpaque ppageop;
Buffer nbuf;
Page npage;
BTPageOpaque npageop;
BlockNumber nbknum;
BTItem nitem;
OffsetNumber afteroff;
btitem = _bt_formitem(&(btitem->bti_itup));
hikey = _bt_formitem(&(hikey->bti_itup));
page = BufferGetPage(buf);
/* grab new page */
nbuf = _bt_getbuf(rel, P_NEW, BT_WRITE);
nbknum = BufferGetBlockNumber(nbuf);
npage = BufferGetPage(nbuf);
_bt_pageinit(npage, BufferGetPageSize(nbuf));
npageop = (BTPageOpaque) PageGetSpecialPointer(npage);
/* copy content of the passed page */
memmove((char *) npage, (char *) page, BufferGetPageSize(buf));
/* re-init old (passed) page */
_bt_pageinit(page, BufferGetPageSize(buf));
pageop = (BTPageOpaque) PageGetSpecialPointer(page);
/* init old page opaque */
pageop->btpo_flags = npageop->btpo_flags; /* restore flags */
pageop->btpo_flags &= ~BTP_CHAIN;
if (_bt_itemcmp(rel, keysz, hikey, btitem, BTEqualStrategyNumber))
pageop->btpo_flags |= BTP_CHAIN;
pageop->btpo_prev = npageop->btpo_prev; /* restore prev */
pageop->btpo_next = nbknum; /* next points to the new page */
/* init shifted page opaque */
npageop->btpo_prev = bknum = BufferGetBlockNumber(buf);
/* shifted page is ok, populate old page */
/* add passed hikey */
itemsz = IndexTupleDSize(hikey->bti_itup)
+ (sizeof(BTItemData) - sizeof(IndexTupleData));
itemsz = DOUBLEALIGN(itemsz);
if (PageAddItem(page, (Item) hikey, itemsz, P_HIKEY, LP_USED) == InvalidOffsetNumber)
elog(FATAL, "btree: failed to add hikey in _bt_shift");
pfree(hikey);
/* add btitem */
itemsz = IndexTupleDSize(btitem->bti_itup)
+ (sizeof(BTItemData) - sizeof(IndexTupleData));
itemsz = DOUBLEALIGN(itemsz);
if (PageAddItem(page, (Item) btitem, itemsz, P_FIRSTKEY, LP_USED) == InvalidOffsetNumber)
elog(FATAL, "btree: failed to add firstkey in _bt_shift");
pfree(btitem);
nitem = (BTItem) PageGetItem(page, PageGetItemId(page, P_FIRSTKEY));
btitem = _bt_formitem(&(nitem->bti_itup));
ItemPointerSet(&(btitem->bti_itup.t_tid), bknum, P_HIKEY);
/* ok, write them out */
_bt_wrtnorelbuf(rel, nbuf);
_bt_wrtnorelbuf(rel, buf);
/* fix btpo_prev on right sibling of old page */
if (!P_RIGHTMOST(npageop))
{
rbuf = _bt_getbuf(rel, npageop->btpo_next, BT_WRITE);
rpage = BufferGetPage(rbuf);
rpageop = (BTPageOpaque) PageGetSpecialPointer(rpage);
rpageop->btpo_prev = nbknum;
_bt_wrtbuf(rel, rbuf);
}
/* get parent pointing to the old page */
ItemPointerSet(&(stack->bts_btitem->bti_itup.t_tid),
bknum, P_HIKEY);
pbuf = _bt_getstackbuf(rel, stack, BT_WRITE);
ppage = BufferGetPage(pbuf);
ppageop = (BTPageOpaque) PageGetSpecialPointer(ppage);
_bt_relbuf(rel, nbuf, BT_WRITE);
_bt_relbuf(rel, buf, BT_WRITE);
/* re-set parent' pointer - we shifted our page to the right ! */
nitem = (BTItem) PageGetItem(ppage,
PageGetItemId(ppage, stack->bts_offset));
ItemPointerSet(&(nitem->bti_itup.t_tid), nbknum, P_HIKEY);
ItemPointerSet(&(stack->bts_btitem->bti_itup.t_tid), nbknum, P_HIKEY);
_bt_wrtnorelbuf(rel, pbuf);
/*
* Now we want insert into the parent pointer to our old page. It has
* to be inserted before the pointer to new page. You may get problems
* here (in the _bt_goesonpg and/or _bt_pgaddtup), but may be not - I
* don't know. It works if old page is leftmost (nitem is NULL) and
* btitem < hikey and it's all what we need currently. - vadim
* 05/30/97
*/
nitem = NULL;
afteroff = P_FIRSTKEY;
if (!P_RIGHTMOST(ppageop))
afteroff = OffsetNumberNext(afteroff);
if (stack->bts_offset >= afteroff)
{
afteroff = OffsetNumberPrev(stack->bts_offset);
nitem = (BTItem) PageGetItem(ppage, PageGetItemId(ppage, afteroff));
nitem = _bt_formitem(&(nitem->bti_itup));
}
res = _bt_insertonpg(rel, pbuf, stack->bts_parent,
keysz, scankey, btitem, nitem);
pfree(btitem);
ItemPointerSet(&(res->pointerData), nbknum, P_HIKEY);
return res;
}
#endif
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