Re: Uninterruptible long planning of a query with too many WHERE clauses - Mailing list pgsql-hackers
From | Tom Lane |
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Subject | Re: Uninterruptible long planning of a query with too many WHERE clauses |
Date | |
Msg-id | 21010.1541911093@sss.pgh.pa.us Whole thread Raw |
In response to | Uninterruptible long planning of a query with too many WHERE clauses (Alexander Kuzmenkov <a.kuzmenkov@postgrespro.ru>) |
Responses |
Re: Uninterruptible long planning of a query with too many WHEREclauses
|
List | pgsql-hackers |
Alexander Kuzmenkov <a.kuzmenkov@postgrespro.ru> writes: > Recently one of our customers encountered a situation when the planning > of a particular query takes too long (several minutes) and can't be > interrupted by pg_terminate_backend(). The query and schema are attached > (this is generated by Zabbix). Ugh. I hope they aren't expecting actually *good* performance on this sort of query. Still, O(N^2) behavior isn't nice. When I first saw your post, I thought maybe the problem was an unreasonable number of paths, but actually there are only two indexpaths being considered in choose_bitmap_and(). The problem is that one of them has 80000 quals attached to it, and the code that's sorting through the quals is O(N^2). > Our first attempt to fix this was putting these clauses into an rbtree > or dynahash. This improves the performance, but is not entirely correct. ... depends on how you do it ... > I settled on a simpler solution: limiting the number of clauses we try > to uniquely identify. If there are too many, skip the smarter logic that > requires comparing paths by clauses, and just return the cheapest input > path from choose_bitmap_and(). The patch is attached. I think you have the right basic idea, but we don't have to completely lobotomize the bitmap-and search logic in order to cope with this. This code is only trying to figure out which paths are potentially redundant, so for a path with too many quals, we can just deem it not-redundant, as attached. A different line of thought is that using equal() to compare quals here is likely overkill: plain old pointer equality ought to be enough, since what we are looking for is different indexpaths derived from the same members of the relation's baserestrictinfo list. In itself, such a change would not fix the O(N^2) problem, it'd just cut a constant factor off the big-O multiplier. (A big constant factor, perhaps, but still just a constant factor.) However, once we go to pointer equality as the definition, we could treat the pointer values as scalars and then use hashing or whatever on them. But this would take a good deal of work, and I think it might be a net loss for typical not-very-large numbers of quals. Also, I tried just quickly changing the equal() call to a pointer comparison, and it didn't seem to make much difference given that I'd already done the attached. So my feeling is that possibly that'd be worth doing sometime in the future, but this particular example isn't offering a compelling reason to do it. Another thought is that maybe we need a CHECK_FOR_INTERRUPTS call somewhere in here; but I'm not sure where would be a good place. I'm not excited about sticking one into classify_index_clause_usage, but adding one up at the per-path loops would not help for this case. regards, tom lane diff --git a/src/backend/optimizer/path/indxpath.c b/src/backend/optimizer/path/indxpath.c index f295558..7bf29a6 100644 *** a/src/backend/optimizer/path/indxpath.c --- b/src/backend/optimizer/path/indxpath.c *************** typedef struct *** 67,72 **** --- 67,73 ---- List *quals; /* the WHERE clauses it uses */ List *preds; /* predicates of its partial index(es) */ Bitmapset *clauseids; /* quals+preds represented as a bitmapset */ + bool unclassifiable; /* has too many quals+preds to process? */ } PathClauseUsage; /* Callback argument for ec_member_matches_indexcol */ *************** choose_bitmap_and(PlannerInfo *root, Rel *** 1447,1455 **** Path *ipath = (Path *) lfirst(l); pathinfo = classify_index_clause_usage(ipath, &clauselist); for (i = 0; i < npaths; i++) { ! if (bms_equal(pathinfo->clauseids, pathinfoarray[i]->clauseids)) break; } if (i < npaths) --- 1448,1465 ---- Path *ipath = (Path *) lfirst(l); pathinfo = classify_index_clause_usage(ipath, &clauselist); + + /* If it's unclassifiable, treat it as distinct from all others */ + if (pathinfo->unclassifiable) + { + pathinfoarray[npaths++] = pathinfo; + continue; + } + for (i = 0; i < npaths; i++) { ! if (!pathinfoarray[i]->unclassifiable && ! bms_equal(pathinfo->clauseids, pathinfoarray[i]->clauseids)) break; } if (i < npaths) *************** choose_bitmap_and(PlannerInfo *root, Rel *** 1484,1489 **** --- 1494,1503 ---- * For each surviving index, consider it as an "AND group leader", and see * whether adding on any of the later indexes results in an AND path with * cheaper total cost than before. Then take the cheapest AND group. + * + * Note: paths that are either clauseless or unclassifiable will have + * empty clauseids, so that they will not be rejected by the clauseids + * filter here, nor will they cause later paths to be rejected by it. */ for (i = 0; i < npaths; i++) { *************** classify_index_clause_usage(Path *path, *** 1711,1716 **** --- 1725,1745 ---- result->preds = NIL; find_indexpath_quals(path, &result->quals, &result->preds); + /* + * Some machine-generated queries have outlandish numbers of qual clauses. + * To avoid getting into O(N^2) behavior even in this preliminary + * classification step, we want to limit the number of entries we can + * accumulate in *clauselist. Treat any path with more than 100 quals + + * preds as unclassifiable, which will cause calling code to consider it + * distinct from all other paths. + */ + if (list_length(result->quals) + list_length(result->preds) > 100) + { + result->clauseids = NULL; + result->unclassifiable = true; + return result; + } + /* Build up a bitmapset representing the quals and preds */ clauseids = NULL; foreach(lc, result->quals) *************** classify_index_clause_usage(Path *path, *** 1728,1733 **** --- 1757,1763 ---- find_list_position(node, clauselist)); } result->clauseids = clauseids; + result->unclassifiable = false; return result; }
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