Commit ea8aa329 authored by unknown's avatar unknown

Fix for bug lp:834492

Analysis:
In the test query semi-join merges the inner-most subquery
into the outer subquery, and the optimization of the merged
subquery finds some new index access methods. Later the
IN-EXISTS transformation is applied to the unmerged subquery.
Since the optimizer is instructed to not consider
materialization, it reoptimizes the plan in-place to take into
account the new IN-EXISTS conditions. Just before reoptimization
JOIN::choose_subquery_plan resets the query plan, which also
resets the access methods found during the semi-join merge.
Then reoptimization discovers there are no new access methods,
but it leaves the query plan in its reset state. Later semi-join
crashes because it assumes these access methods are present.

Solution:
When reoptimizing in-place, reset the query plan only after new
access methods were discovered. If no new access methods were
discovered, leave the current plan as it was.
parent 11ebbabb
......@@ -318,4 +318,39 @@ SELECT * FROM t1
WHERE (f1) IN (SELECT f1 FROM t2)
LIMIT 0;
f1
set @@optimizer_switch='default';
drop table t1, t2;
#
# LP BUG#834492: Crash in fix_semijoin_strategies_for_picked_join_order
# with nested subqueries and LooseScan=ON
#
CREATE TABLE t3 (b int) ;
INSERT INTO t3 VALUES (0),(0);
CREATE TABLE t4 (a int, b int, c int, d int, PRIMARY KEY (a)) ;
INSERT INTO t4 VALUES (28,0,0,0),(29,3,0,0);
CREATE TABLE t5 (a int, b int, c int, d int, KEY (c,b)) ;
INSERT INTO t5 VALUES (28,0,0,0),(29,3,0,0);
SET @@optimizer_switch='semijoin=ON,loosescan=ON,firstmatch=OFF,materialization=OFF';
EXPLAIN SELECT *
FROM t3
WHERE t3.b > ALL (
SELECT c
FROM t4
WHERE t4.a >= t3.b
AND a = SOME (SELECT b FROM t5));
id select_type table type possible_keys key key_len ref rows Extra
1 PRIMARY t3 ALL NULL NULL NULL NULL 2 Using where
2 DEPENDENT SUBQUERY t5 index c c 10 NULL 2 Using where; Using index; LooseScan
2 DEPENDENT SUBQUERY t4 eq_ref PRIMARY PRIMARY 4 test.t5.b 1 Using where
SELECT *
FROM t3
WHERE t3.b > ALL (
SELECT c
FROM t4
WHERE t4.a >= t3.b
AND a = SOME (SELECT b FROM t5));
b
0
0
set @@optimizer_switch='default';
drop table t3, t4, t5;
......@@ -348,4 +348,40 @@ SELECT * FROM t1
WHERE (f1) IN (SELECT f1 FROM t2)
LIMIT 0;
set @@optimizer_switch='default';
drop table t1, t2;
--echo #
--echo # LP BUG#834492: Crash in fix_semijoin_strategies_for_picked_join_order
--echo # with nested subqueries and LooseScan=ON
--echo #
CREATE TABLE t3 (b int) ;
INSERT INTO t3 VALUES (0),(0);
CREATE TABLE t4 (a int, b int, c int, d int, PRIMARY KEY (a)) ;
INSERT INTO t4 VALUES (28,0,0,0),(29,3,0,0);
CREATE TABLE t5 (a int, b int, c int, d int, KEY (c,b)) ;
INSERT INTO t5 VALUES (28,0,0,0),(29,3,0,0);
SET @@optimizer_switch='semijoin=ON,loosescan=ON,firstmatch=OFF,materialization=OFF';
EXPLAIN SELECT *
FROM t3
WHERE t3.b > ALL (
SELECT c
FROM t4
WHERE t4.a >= t3.b
AND a = SOME (SELECT b FROM t5));
SELECT *
FROM t3
WHERE t3.b > ALL (
SELECT c
FROM t4
WHERE t4.a >= t3.b
AND a = SOME (SELECT b FROM t5));
set @@optimizer_switch='default';
drop table t3, t4, t5;
......@@ -4641,17 +4641,12 @@ bool JOIN::choose_subquery_plan(table_map join_tables)
const_tables != table_count)
{
/*
The subquery was not reoptimized either because the user allowed only
the IN-EXISTS strategy, or because materialization was not possible
based on semantic analysis. Cleanup the original plan and reoptimize.
The subquery was not reoptimized with the newly injected IN-EXISTS
conditions either because the user allowed only the IN-EXISTS strategy,
or because materialization was not possible based on semantic analysis.
*/
for (uint i= 0; i < table_count; i++)
{
join_tab[i].keyuse= NULL;
join_tab[i].checked_keys.clear_all();
}
if ((reopt_result= reoptimize(in_to_exists_where, join_tables, NULL)) ==
REOPT_ERROR)
reopt_result= reoptimize(in_to_exists_where, join_tables, NULL);
if (reopt_result == REOPT_ERROR)
return TRUE;
}
......
......@@ -21546,6 +21546,19 @@ void JOIN::save_query_plan(Join_plan_state *save_to)
}
/**
Reset a query execution plan so that it can be reoptimized in-place.
*/
void JOIN::reset_query_plan()
{
for (uint i= 0; i < table_count; i++)
{
join_tab[i].keyuse= NULL;
join_tab[i].checked_keys.clear_all();
}
}
/**
Restore a query execution plan previously saved by the caller.
......@@ -21579,7 +21592,8 @@ void JOIN::restore_query_plan(Join_plan_state *restore_from)
@param added_where An extra conjunct to the WHERE clause to reoptimize with
@param join_tables The set of tables to reoptimize
@param save_to If != NULL, save here the state of the current query plan
@param save_to If != NULL, save here the state of the current query plan,
otherwise reuse the existing query plan structures.
@notes
Given a query plan that was already optimized taking into account some WHERE
......@@ -21623,6 +21637,8 @@ JOIN::reoptimize(Item *added_where, table_map join_tables,
if (save_to)
save_query_plan(save_to);
else
reset_query_plan();
if (!keyuse.buffer &&
my_init_dynamic_array(&keyuse, sizeof(KEYUSE), 20, 64))
......
......@@ -698,6 +698,7 @@ class JOIN :public Sql_alloc
enum_reopt_result reoptimize(Item *added_where, table_map join_tables,
Join_plan_state *save_to);
void save_query_plan(Join_plan_state *save_to);
void reset_query_plan();
void restore_query_plan(Join_plan_state *restore_from);
/* Choose a subquery plan for a table-less subquery. */
bool choose_tableless_subquery_plan();
......
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