Re: Small patch for GiST: move childoffnum to child - Mailing list pgsql-hackers
From | Heikki Linnakangas |
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Subject | Re: Small patch for GiST: move childoffnum to child |
Date | |
Msg-id | 4E1DE580.1090905@enterprisedb.com Whole thread Raw |
In response to | Re: Small patch for GiST: move childoffnum to child (Jeff Janes <jeff.janes@gmail.com>) |
Responses |
Re: Small patch for GiST: move childoffnum to child
|
List | pgsql-hackers |
On 30.06.2011 07:50, Jeff Janes wrote: > My concern is that I am unable to prove to myself simply by reading > the code that the 24 line chunk deleted from gistFindPath (near *** > 919,947 ****) are no longer needed. My familiarity with the gist code > is low enough that it is not surprising that I cannot prove this to > myself from first principles. I have no reason to believe it is not > correct, it is just that I can't convince myself that it is correct. This is the piece of code we're talking about: > *************** > *** 919,947 **** gistFindPath(Relation r, BlockNumber child) > blkno = ItemPointerGetBlockNumber(&(idxtuple->t_tid)); > if (blkno == child) > { > - OffsetNumber poff = InvalidOffsetNumber; > - > - /* make childs links */ > - ptr = top; > - while (ptr->parent) > - { > - /* move childoffnum.. */ > - if (ptr == top) > - { > - /* first iteration */ > - poff = ptr->parent->childoffnum; > - ptr->parent->childoffnum = ptr->childoffnum; > - } > - else > - { > - OffsetNumber tmp = ptr->parent->childoffnum; > - > - ptr->parent->childoffnum = poff; > - poff = tmp; > - } > - ptr = ptr->parent; > - } > - top->childoffnum = i; > UnlockReleaseBuffer(buffer); > return top; > } Now that I look closer at the patch, I think it's in fact incorrect. The removed code used to store the offset of the downlink in the direct parent of the child that was searched for, in top->childoffnum. That's the last removed line: top->childoffnum = i. With the patch, that is stored nowhere. gistFindPath() needs to return it somehow, so that it gets updated in the stack returned by gistFindCorrectParent. Attached is a modified patch that fixes that. I couldn't resist some cosmetic changes along the way, sorry about that. I made gistFindPath use a regular List instead of carrying the extra 'next' field in GISTInsertStack. That seems much cleaner as that field is only needed for local storage in the highly unlikely case that gistFindPath() is called. I also made the error cases use elog() instead of assertions. > So I tried provoking situations where this surrounding code section > would get executed, both patched and unpatched. I have been unable to > do so--apparently this code is for an incredibly obscure situation > which I can't induce at will. You'll need a concurrent split of the root page, while you're splitting a page at some lower level. For example: R L1 L2 R is the root page, and L1 and L2 are leaf pages. Now, imagine that you insert a tuple into L2, causing it to split into pages L2* and L3. Your insertion stack looks like R->L2. Before you have a chance to insert the downlink for L3 into R, someone else splits the root page: R I1 I2 L1 L3 L2* L3 The new parent of L2 is the new internal page I2, but gistFindCorrectParent() will never visit that page. The insertion stack is R->L2, so gistFindCorrectParent() will only search R, and won't find the downlink for L2 there anymore. The only practical way to test that is to use a debugger or add some debugging statements to the code. Here's what I did: 1. Create a test table and gist index: CREATE TABLE gisttest (p point); CREATE INDEX i_gisttest ON gisttest USING gist (p) 2. Insert some test data. Use two different values so that you can conveniently later insert into distinct branches of the gist tree. INSERT INTO gisttest SELECT point(1,1) FROM generate_series(1,1000); INSERT INTO gisttest SELECT point(10,10) FROM generate_series(1,1000); 3. Attach a debugger to the backend process, and create a couple of breakpoints: (gdb) break gistSplit Breakpoint 1 at 0x46ace1: file gist.c, line 1295. (gdb) break gistFindPath Breakpoint 2 at 0x469740: file gist.c, line 884. (gdb) cont Continuing. 4. Insert some more tuples to the table using the debugged backend: INSERT INTO gisttest SELECT point(1,1) FROM generate_series(1,1000); This hits the breakpoint at gistSplit: Breakpoint 1, gistSplit (r=0x7f84f4bad328, page=0x7f84f1b8b180 "", itup=0x2032118, len=186, giststate=0x7fff8615e9e0) at gist.c:1295 1295 SplitedPageLayout *res = NULL; 5. The backend is now in the middle of splitting a leaf page. Now we need to make its GISTInsertStack obsolete by concurrently splitting the root page. Open another psql session, and insert more data elsewhere in the gist index, to cause the root to split: postgres=# INSERT INTO gisttest SELECT point(10,10) FROM generate_series(1,100000); INSERT 0 100000 6. You can now let the first backend continue. It will hit the breakpoint in gistFindPath(): (gdb) cont Continuing. Breakpoint 2, gistFindPath (r=0x7f84f4bad328, child=6, newchildoffnum=0x20320d8) at gist.c:884 884 top = (GISTInsertStack *) palloc0(sizeof(GISTInsertStack)); BTW, the b-tree code deals with this scenario slightly differently. Splitting the root in b-tree splits the root page like any other page, and creates a new root page on a different block, while in GiST the root page is always at block number 0, and root split moves all the existing tuples on the root page to different blocks. Correspondingly, the code in b-tree to re-find the parent of a page also works slightly differently. The b-tree re-find algorithm just moves right until it finds the new parent. It will always find the parent, because it can only have moved right at the same level it used to be. However, in b-tree it's possible that the page that used to be the root page is not the root anymore. In that case the b-tree code does something similar to gistFindPath(), and starts scanning from the leftmost page at the right level. Search for "concurrent ROOT page split" in nbtinsert.c to find that code. -- Heikki Linnakangas EnterpriseDB http://www.enterprisedb.com
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