whack: key space that appears to belong to the half-dead page's parent on the
parent level may really belong to its right sibling. We can tolerate this,
however, because insertions and deletions on upper tree levels are always
-done by reference to child page numbers, not keys. The only cost is that
-searches may sometimes descend to the half-dead page and then have to move
-right, rather than going directly to the sibling page.
+done by reference to child page numbers, not keys. Searches may sometimes
+descend to the half-dead page and then have to move right, rather than going
+directly to the sibling page, but this is no different from the behavior
+during a split.
+
+A special case that arises from using half-dead pages for rightmost children
+is that it's possible for the grandparent level's sequence of keys to become
+out-of-order. This occurs when there are a large number of insertions into
+the key space that's been implicitly transferred to the right sibling of the
+half-dead page's parent. If the right sibling itself splits, the split
+bounding key (which could be less than the high key of the parent page) is
+inserted into the grandparent level to the right of the parent page. This
+is pretty ugly, but it causes no serious damage. Searches, again, may descend
+a bit to the left of the optimal path but will be able to recover. The only
+problem is that when it comes time to delete the half-dead page, _bt_pagedel's
+normal strategy for finding the target page's parent can fail: the search for
+the page's high key may well descend to the right of the parent. In this case
+we recover by searching from the left end of the parent level.
A deleted page cannot be reclaimed immediately, since there may be other
processes waiting to reference it (ie, search processes that just left the
/* Check for error only after writing children */
if (pbuf == InvalidBuffer)
- elog(ERROR, "failed to re-find parent key in \"%s\"",
- RelationGetRelationName(rel));
+ elog(ERROR, "failed to re-find parent key in \"%s\" for split pages %u/%u",
+ RelationGetRelationName(rel), bknum, rbknum);
/* Recursively update the parent */
newres = _bt_insertonpg(rel, pbuf, stack->bts_parent,
rbuf = _bt_getbuf(rel, rightsib, BT_WRITE);
/*
- * Next find and write-lock the current parent of the target page.
- * This is essentially the same as the corresponding step of
- * splitting.
+ * Next find and write-lock the current parent of the target page. This is
+ * essentially the same as the corresponding step of splitting. However,
+ * it's possible for the search to fail (for reasons explained in README).
+ * If that happens, we recover by searching the whole parent level, which
+ * is a tad inefficient but doesn't happen often enough to be a problem.
*/
ItemPointerSet(&(stack->bts_btitem.bti_itup.t_tid),
target, P_HIKEY);
pbuf = _bt_getstackbuf(rel, stack, BT_WRITE);
if (pbuf == InvalidBuffer)
- elog(ERROR, "failed to re-find parent key in \"%s\"",
- RelationGetRelationName(rel));
+ {
+ /* Find the leftmost page in the parent level */
+ pbuf = _bt_get_endpoint(rel, opaque->btpo.level + 1, false);
+ stack->bts_blkno = BufferGetBlockNumber(pbuf);
+ stack->bts_offset = InvalidOffsetNumber;
+ _bt_relbuf(rel, pbuf);
+ /* and repeat search from there */
+ pbuf = _bt_getstackbuf(rel, stack, BT_WRITE);
+ if (pbuf == InvalidBuffer)
+ elog(ERROR, "failed to re-find parent key in \"%s\" for deletion target page %u",
+ RelationGetRelationName(rel), target);
+ }
parent = stack->bts_blkno;
poffset = stack->bts_offset;
projects / users / bernd / postgres.git / commitdiff