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@ -9,7 +9,7 @@ |
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* |
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* |
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* IDENTIFICATION |
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* $Header: /cvsroot/pgsql/src/backend/access/nbtree/nbtpage.c,v 1.60 2003/02/22 00:45:04 tgl Exp $ |
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* $Header: /cvsroot/pgsql/src/backend/access/nbtree/nbtpage.c,v 1.61 2003/02/23 06:17:13 tgl Exp $ |
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* |
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* NOTES |
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* Postgres btree pages look like ordinary relation pages. The opaque |
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@ -24,6 +24,7 @@ |
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#include "access/nbtree.h" |
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#include "miscadmin.h" |
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#include "storage/freespace.h" |
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#include "storage/lmgr.h" |
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@ -391,7 +392,38 @@ _bt_getbuf(Relation rel, BlockNumber blkno, int access) |
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bool needLock; |
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Page page; |
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/* XXX soon: ask FSM about free space */ |
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Assert(access == BT_WRITE); |
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/*
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* First see if the FSM knows of any free pages. |
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* |
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* We can't trust the FSM's report unreservedly; we have to check |
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* that the page is still free. (For example, an already-free page |
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* could have been re-used between the time the last VACUUM scanned |
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* it and the time the VACUUM made its FSM updates.) |
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* |
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* The request size should be more than half of what btvacuumcleanup |
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* logs as the per-page free space. We use BLCKSZ/2 and BLCKSZ-1 |
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* to try to get some use out of FSM's space management algorithm. |
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* XXX this needs some more thought... |
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*/ |
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for (;;) |
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{ |
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blkno = GetPageWithFreeSpace(&rel->rd_node, BLCKSZ/2); |
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if (blkno == InvalidBlockNumber) |
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break; |
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buf = ReadBuffer(rel, blkno); |
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LockBuffer(buf, access); |
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page = BufferGetPage(buf); |
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if (_bt_page_recyclable(page)) |
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{ |
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/* Okay to use page. Re-initialize and return it */ |
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_bt_pageinit(page, BufferGetPageSize(buf)); |
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return buf; |
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} |
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elog(DEBUG1, "_bt_getbuf: FSM returned nonrecyclable page"); |
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_bt_relbuf(rel, buf); |
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} |
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/*
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* Extend the relation by one page. |
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@ -487,6 +519,36 @@ _bt_pageinit(Page page, Size size) |
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PageInit(page, size, sizeof(BTPageOpaqueData)); |
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} |
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/*
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* _bt_page_recyclable() -- Is an existing page recyclable? |
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* |
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* This exists to make sure _bt_getbuf and btvacuumcleanup have the same |
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* policy about whether a page is safe to re-use. |
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*/ |
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bool |
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_bt_page_recyclable(Page page) |
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{ |
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BTPageOpaque opaque; |
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/*
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* It's possible to find an all-zeroes page in an index --- for example, |
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* a backend might successfully extend the relation one page and then |
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* crash before it is able to make a WAL entry for adding the page. |
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* If we find a zeroed page then reclaim it. |
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*/ |
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if (PageIsNew(page)) |
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return true; |
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/*
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* Otherwise, recycle if deleted and too old to have any processes |
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* interested in it. |
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*/ |
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opaque = (BTPageOpaque) PageGetSpecialPointer(page); |
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if (P_ISDELETED(opaque) && |
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TransactionIdPrecedesOrEquals(opaque->btpo.xact, RecentGlobalXmin)) |
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return true; |
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return false; |
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} |
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/*
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* _bt_metaproot() -- Change the root page of the btree. |
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* |
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@ -605,3 +667,426 @@ _bt_itemdel(Relation rel, Buffer buf, ItemPointer tid) |
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END_CRIT_SECTION(); |
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} |
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/*
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* _bt_pagedel() -- Delete a page from the b-tree. |
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* |
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* This action unlinks the page from the b-tree structure, removing all |
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* pointers leading to it --- but not touching its own left and right links. |
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* The page cannot be physically reclaimed right away, since other processes |
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* may currently be trying to follow links leading to the page; they have to |
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* be allowed to use its right-link to recover. See nbtree/README. |
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* |
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* On entry, the target buffer must be pinned and read-locked. This lock and |
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* pin will be dropped before exiting. |
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* |
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* Returns the number of pages successfully deleted (zero on failure; could |
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* be more than one if parent blocks were deleted). |
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* |
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* NOTE: this leaks memory. Rather than trying to clean up everything |
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* carefully, it's better to run it in a temp context that can be reset |
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* frequently. |
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*/ |
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int |
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_bt_pagedel(Relation rel, Buffer buf, bool vacuum_full) |
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{ |
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BlockNumber target, |
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leftsib, |
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rightsib, |
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parent; |
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OffsetNumber poffset, |
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maxoff; |
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uint32 targetlevel, |
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ilevel; |
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ItemId itemid; |
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BTItem targetkey, |
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btitem; |
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ScanKey itup_scankey; |
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BTStack stack; |
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Buffer lbuf, |
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rbuf, |
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pbuf; |
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bool parent_half_dead; |
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bool parent_one_child; |
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bool rightsib_empty; |
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Buffer metabuf = InvalidBuffer; |
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Page metapg = NULL; |
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BTMetaPageData *metad = NULL; |
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Page page; |
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BTPageOpaque opaque; |
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/*
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* We can never delete rightmost pages nor root pages. While at it, |
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* check that page is not already deleted and is empty. |
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*/ |
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page = BufferGetPage(buf); |
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opaque = (BTPageOpaque) PageGetSpecialPointer(page); |
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if (P_RIGHTMOST(opaque) || P_ISROOT(opaque) || P_ISDELETED(opaque) || |
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P_FIRSTDATAKEY(opaque) <= PageGetMaxOffsetNumber(page)) |
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{ |
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_bt_relbuf(rel, buf); |
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return 0; |
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} |
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/*
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* Save info about page, including a copy of its high key (it must |
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* have one, being non-rightmost). |
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*/ |
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target = BufferGetBlockNumber(buf); |
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targetlevel = opaque->btpo.level; |
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leftsib = opaque->btpo_prev; |
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itemid = PageGetItemId(page, P_HIKEY); |
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targetkey = CopyBTItem((BTItem) PageGetItem(page, itemid)); |
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/*
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* We need to get an approximate pointer to the page's parent page. |
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* Use the standard search mechanism to search for the page's high key; |
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* this will give us a link to either the current parent or someplace |
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* to its left (if there are multiple equal high keys). To avoid |
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* deadlocks, we'd better drop the target page lock first. |
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*/ |
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_bt_relbuf(rel, buf); |
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/* we need a scan key to do our search, so build one */ |
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itup_scankey = _bt_mkscankey(rel, &(targetkey->bti_itup)); |
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/* find the leftmost leaf page containing this key */ |
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stack = _bt_search(rel, rel->rd_rel->relnatts, itup_scankey, |
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&lbuf, BT_READ); |
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/* don't need a pin on that either */ |
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_bt_relbuf(rel, lbuf); |
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/*
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* If we are trying to delete an interior page, _bt_search did more |
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* than we needed. Locate the stack item pointing to our parent level. |
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*/ |
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ilevel = 0; |
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for (;;) |
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{ |
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if (stack == NULL) |
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elog(ERROR, "_bt_pagedel: not enough stack items"); |
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if (ilevel == targetlevel) |
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break; |
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stack = stack->bts_parent; |
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ilevel++; |
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} |
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/*
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* We have to lock the pages we need to modify in the standard order: |
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* moving right, then up. Else we will deadlock against other writers. |
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*
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* So, we need to find and write-lock the current left sibling of the |
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* target page. The sibling that was current a moment ago could have |
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* split, so we may have to move right. This search could fail if |
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* either the sibling or the target page was deleted by someone else |
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* meanwhile; if so, give up. (Right now, that should never happen, |
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* since page deletion is only done in VACUUM and there shouldn't be |
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* multiple VACUUMs concurrently on the same table.) |
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*/ |
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if (leftsib != P_NONE) |
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{ |
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lbuf = _bt_getbuf(rel, leftsib, BT_WRITE); |
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page = BufferGetPage(lbuf); |
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opaque = (BTPageOpaque) PageGetSpecialPointer(page); |
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while (P_ISDELETED(opaque) || opaque->btpo_next != target) |
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{ |
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/* step right one page */ |
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leftsib = opaque->btpo_next; |
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_bt_relbuf(rel, lbuf); |
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if (leftsib == P_NONE) |
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{ |
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elog(LOG, "_bt_pagedel: no left sibling (concurrent deletion?)"); |
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return 0; |
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} |
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lbuf = _bt_getbuf(rel, leftsib, BT_WRITE); |
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page = BufferGetPage(lbuf); |
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opaque = (BTPageOpaque) PageGetSpecialPointer(page); |
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} |
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} |
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else |
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lbuf = InvalidBuffer; |
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/*
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* Next write-lock the target page itself. It should be okay to take just |
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* a write lock not a superexclusive lock, since no scans would stop on an |
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* empty page. |
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*/ |
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buf = _bt_getbuf(rel, target, BT_WRITE); |
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page = BufferGetPage(buf); |
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opaque = (BTPageOpaque) PageGetSpecialPointer(page); |
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/*
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* Check page is still empty etc, else abandon deletion. The empty check |
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* is necessary since someone else might have inserted into it while |
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* we didn't have it locked; the others are just for paranoia's sake. |
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*/ |
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if (P_RIGHTMOST(opaque) || P_ISROOT(opaque) || P_ISDELETED(opaque) || |
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P_FIRSTDATAKEY(opaque) <= PageGetMaxOffsetNumber(page)) |
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{ |
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_bt_relbuf(rel, buf); |
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if (BufferIsValid(lbuf)) |
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_bt_relbuf(rel, lbuf); |
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return 0; |
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} |
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if (opaque->btpo_prev != leftsib) |
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elog(ERROR, "_bt_pagedel: left link changed unexpectedly"); |
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/*
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* And next write-lock the (current) right sibling. |
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*/ |
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rightsib = opaque->btpo_next; |
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rbuf = _bt_getbuf(rel, rightsib, BT_WRITE); |
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/*
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* Next find and write-lock the current parent of the target page. |
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* This is essentially the same as the corresponding step of splitting. |
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*/ |
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ItemPointerSet(&(stack->bts_btitem.bti_itup.t_tid), |
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target, P_HIKEY); |
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pbuf = _bt_getstackbuf(rel, stack, BT_WRITE); |
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if (pbuf == InvalidBuffer) |
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elog(ERROR, "_bt_getstackbuf: my bits moved right off the end of the world!" |
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"\n\tRecreate index %s.", RelationGetRelationName(rel)); |
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parent = stack->bts_blkno; |
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poffset = stack->bts_offset; |
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/*
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* If the target is the rightmost child of its parent, then we can't |
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* delete, unless it's also the only child --- in which case the parent |
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* changes to half-dead status. |
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*/ |
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page = BufferGetPage(pbuf); |
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opaque = (BTPageOpaque) PageGetSpecialPointer(page); |
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maxoff = PageGetMaxOffsetNumber(page); |
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parent_half_dead = false; |
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parent_one_child = false; |
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if (poffset >= maxoff) |
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{ |
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if (poffset == P_FIRSTDATAKEY(opaque)) |
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parent_half_dead = true; |
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else |
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{ |
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_bt_relbuf(rel, pbuf); |
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_bt_relbuf(rel, rbuf); |
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_bt_relbuf(rel, buf); |
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if (BufferIsValid(lbuf)) |
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_bt_relbuf(rel, lbuf); |
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return 0; |
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} |
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} |
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else |
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{ |
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/* Will there be exactly one child left in this parent? */ |
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if (OffsetNumberNext(P_FIRSTDATAKEY(opaque)) == maxoff) |
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parent_one_child = true; |
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} |
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/*
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* If we are deleting the next-to-last page on the target's level, |
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* then the rightsib is a candidate to become the new fast root. |
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* (In theory, it might be possible to push the fast root even further |
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* down, but the odds of doing so are slim, and the locking considerations |
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* daunting.) |
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* |
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* We can safely acquire a lock on the metapage here --- see comments for |
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* _bt_newroot(). |
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*/ |
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if (leftsib == P_NONE) |
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{ |
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page = BufferGetPage(rbuf); |
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opaque = (BTPageOpaque) PageGetSpecialPointer(page); |
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Assert(opaque->btpo.level == targetlevel); |
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if (P_RIGHTMOST(opaque)) |
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{ |
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/* rightsib will be the only one left on the level */ |
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metabuf = _bt_getbuf(rel, BTREE_METAPAGE, BT_WRITE); |
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metapg = BufferGetPage(metabuf); |
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metad = BTPageGetMeta(metapg); |
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/*
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* The expected case here is btm_fastlevel == targetlevel+1; |
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* if the fastlevel is <= targetlevel, something is wrong, and we |
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* choose to overwrite it to fix it. |
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*/ |
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if (metad->btm_fastlevel > targetlevel+1) |
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{ |
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/* no update wanted */ |
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_bt_relbuf(rel, metabuf); |
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metabuf = InvalidBuffer; |
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} |
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} |
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} |
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/*
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* Here we begin doing the deletion. |
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*/ |
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/* No elog(ERROR) until changes are logged */ |
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START_CRIT_SECTION(); |
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/*
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* Update parent. The normal case is a tad tricky because we want to |
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* delete the target's downlink and the *following* key. Easiest way is |
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* to copy the right sibling's downlink over the target downlink, and then |
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* delete the following item. |
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*/ |
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page = BufferGetPage(pbuf); |
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opaque = (BTPageOpaque) PageGetSpecialPointer(page); |
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if (parent_half_dead) |
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{ |
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PageIndexTupleDelete(page, poffset); |
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opaque->btpo_flags |= BTP_HALF_DEAD; |
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} |
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else |
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{ |
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OffsetNumber nextoffset; |
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itemid = PageGetItemId(page, poffset); |
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btitem = (BTItem) PageGetItem(page, itemid); |
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Assert(ItemPointerGetBlockNumber(&(btitem->bti_itup.t_tid)) == target); |
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ItemPointerSet(&(btitem->bti_itup.t_tid), rightsib, P_HIKEY); |
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nextoffset = OffsetNumberNext(poffset); |
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/* This part is just for double-checking */ |
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itemid = PageGetItemId(page, nextoffset); |
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btitem = (BTItem) PageGetItem(page, itemid); |
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if (ItemPointerGetBlockNumber(&(btitem->bti_itup.t_tid)) != rightsib) |
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elog(PANIC, "_bt_pagedel: right sibling is not next child"); |
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PageIndexTupleDelete(page, nextoffset); |
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} |
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/*
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* Update siblings' side-links. Note the target page's side-links will |
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* continue to point to the siblings. |
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*/ |
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if (BufferIsValid(lbuf)) |
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{ |
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page = BufferGetPage(lbuf); |
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opaque = (BTPageOpaque) PageGetSpecialPointer(page); |
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Assert(opaque->btpo_next == target); |
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opaque->btpo_next = rightsib; |
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} |
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page = BufferGetPage(rbuf); |
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opaque = (BTPageOpaque) PageGetSpecialPointer(page); |
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Assert(opaque->btpo_prev == target); |
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opaque->btpo_prev = leftsib; |
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rightsib_empty = (P_FIRSTDATAKEY(opaque) > PageGetMaxOffsetNumber(page)); |
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/*
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* Mark the page itself deleted. It can be recycled when all current |
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* transactions are gone; or immediately if we're doing VACUUM FULL. |
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*/ |
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page = BufferGetPage(buf); |
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opaque = (BTPageOpaque) PageGetSpecialPointer(page); |
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opaque->btpo_flags |= BTP_DELETED; |
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opaque->btpo.xact = |
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vacuum_full ? FrozenTransactionId : ReadNewTransactionId(); |
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/* And update the metapage, if needed */ |
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if (BufferIsValid(metabuf)) |
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{ |
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metad->btm_fastroot = rightsib; |
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metad->btm_fastlevel = targetlevel; |
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} |
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/* XLOG stuff */ |
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if (!rel->rd_istemp) |
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{ |
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xl_btree_delete_page xlrec; |
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xl_btree_metadata xlmeta; |
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uint8 xlinfo; |
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XLogRecPtr recptr; |
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XLogRecData rdata[5]; |
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XLogRecData *nextrdata; |
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xlrec.target.node = rel->rd_node; |
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ItemPointerSet(&(xlrec.target.tid), parent, poffset); |
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xlrec.deadblk = target; |
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xlrec.leftblk = leftsib; |
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xlrec.rightblk = rightsib; |
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rdata[0].buffer = InvalidBuffer; |
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rdata[0].data = (char *) &xlrec; |
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rdata[0].len = SizeOfBtreeDeletePage; |
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rdata[0].next = nextrdata = &(rdata[1]); |
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if (BufferIsValid(metabuf)) |
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{ |
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xlmeta.root = metad->btm_root; |
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xlmeta.level = metad->btm_level; |
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xlmeta.fastroot = metad->btm_fastroot; |
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xlmeta.fastlevel = metad->btm_fastlevel; |
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nextrdata->buffer = InvalidBuffer; |
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nextrdata->data = (char *) &xlmeta; |
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nextrdata->len = sizeof(xl_btree_metadata); |
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nextrdata->next = nextrdata + 1; |
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nextrdata++; |
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xlinfo = XLOG_BTREE_DELETE_PAGE_META; |
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} |
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else |
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xlinfo = XLOG_BTREE_DELETE_PAGE; |
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nextrdata->buffer = pbuf; |
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nextrdata->data = NULL; |
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nextrdata->len = 0; |
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nextrdata->next = nextrdata + 1; |
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nextrdata++; |
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nextrdata->buffer = rbuf; |
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nextrdata->data = NULL; |
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nextrdata->len = 0; |
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|
nextrdata->next = NULL; |
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if (BufferIsValid(lbuf)) |
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{ |
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|
nextrdata->next = nextrdata + 1; |
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nextrdata++; |
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|
nextrdata->buffer = lbuf; |
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|
nextrdata->data = NULL; |
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|
|
nextrdata->len = 0; |
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|
nextrdata->next = NULL; |
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|
} |
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|
recptr = XLogInsert(RM_BTREE_ID, xlinfo, rdata); |
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if (BufferIsValid(metabuf)) |
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{ |
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|
PageSetLSN(metapg, recptr); |
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|
PageSetSUI(metapg, ThisStartUpID); |
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} |
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|
page = BufferGetPage(pbuf); |
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|
|
PageSetLSN(page, recptr); |
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|
|
PageSetSUI(page, ThisStartUpID); |
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|
|
page = BufferGetPage(rbuf); |
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|
|
PageSetLSN(page, recptr); |
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|
|
PageSetSUI(page, ThisStartUpID); |
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|
|
page = BufferGetPage(buf); |
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|
|
PageSetLSN(page, recptr); |
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|
|
PageSetSUI(page, ThisStartUpID); |
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|
|
if (BufferIsValid(lbuf)) |
|
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|
|
{ |
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|
|
page = BufferGetPage(lbuf); |
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|
|
PageSetLSN(page, recptr); |
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|
|
PageSetSUI(page, ThisStartUpID); |
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|
|
} |
|
|
|
|
} |
|
|
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|
|
END_CRIT_SECTION(); |
|
|
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|
|
|
|
/* Write and release buffers */ |
|
|
|
|
if (BufferIsValid(metabuf)) |
|
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|
|
_bt_wrtbuf(rel, metabuf); |
|
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|
|
_bt_wrtbuf(rel, pbuf); |
|
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|
|
_bt_wrtbuf(rel, rbuf); |
|
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|
|
_bt_wrtbuf(rel, buf); |
|
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|
|
if (BufferIsValid(lbuf)) |
|
|
|
|
_bt_wrtbuf(rel, lbuf); |
|
|
|
|
|
|
|
|
|
/*
|
|
|
|
|
* If parent became half dead, recurse to try to delete it. Otherwise, |
|
|
|
|
* if right sibling is empty and is now the last child of the parent, |
|
|
|
|
* recurse to try to delete it. (These cases cannot apply at the same |
|
|
|
|
* time, though the second case might itself recurse to the first.) |
|
|
|
|
*/ |
|
|
|
|
if (parent_half_dead) |
|
|
|
|
{ |
|
|
|
|
buf = _bt_getbuf(rel, parent, BT_READ); |
|
|
|
|
return _bt_pagedel(rel, buf, vacuum_full) + 1; |
|
|
|
|
} |
|
|
|
|
if (parent_one_child && rightsib_empty) |
|
|
|
|
{ |
|
|
|
|
buf = _bt_getbuf(rel, rightsib, BT_READ); |
|
|
|
|
return _bt_pagedel(rel, buf, vacuum_full) + 1; |
|
|
|
|
} |
|
|
|
|
|
|
|
|
|
return 1; |
|
|
|
|
} |
|
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|
|
Tom Lane
23 years ago