Commit 992178ca authored by Matthias Leich's avatar Matthias Leich

Merge into GCA tree

parents d0da0a69 f256f9ac
......@@ -1116,12 +1116,13 @@ create procedure `p1`()
begin
select a, f1() from t1;
end//
SET @log_bin_trust_function_creators = @@global.log_bin_trust_function_creators;
SET GLOBAL log_bin_trust_function_creators = 1;
call p1()//
a f1()
1 2
2 2
SET GLOBAL log_bin_trust_function_creators = 0;
SET GLOBAL log_bin_trust_function_creators = @log_bin_trust_function_creators;
drop procedure p1//
drop function f1//
drop table t1//
......@@ -1615,41 +1616,6 @@ id
DROP PROCEDURE proc29856;
DROP TABLE t1;
SET GLOBAL query_cache_size= default;
Bug#28249 Query Cache returns wrong result with concurrent insert/ certain lock
set GLOBAL query_cache_type=1;
set GLOBAL query_cache_limit=10000;
set GLOBAL query_cache_min_res_unit=0;
set GLOBAL query_cache_size= 100000;
flush tables;
drop table if exists t1, t2;
create table t1 (a int);
create table t2 (a int);
insert into t1 values (1),(2),(3);
Locking table T2 with a write lock.
lock table t2 write;
Select blocked by write lock.
select *, (select count(*) from t2) from t1;;
Sleeing is ok, because selecting should be done very fast.
Inserting into table T1.
insert into t1 values (4);
Unlocking the tables.
unlock tables;
Collecting result from previously blocked select.
Next select should contain 4 rows, as the insert is long finished.
select *, (select count(*) from t2) from t1;
a (select count(*) from t2)
1 0
2 0
3 0
4 0
reset query cache;
select *, (select count(*) from t2) from t1;
a (select count(*) from t2)
1 0
2 0
3 0
4 0
drop table t1,t2;
#
# Bug#25132 disabled query cache: Qcache_free_blocks = 1
#
......
SET @query_cache_type= @@global.query_cache_type;
SET @query_cache_limit= @@global.query_cache_limit;
SET @query_cache_min_res_unit= @@global.query_cache_min_res_unit;
SET @query_cache_size= @@global.query_cache_size;
# Bug#28249 Query Cache returns wrong result with concurrent insert/ certain lock
# Establish connections user1,user2,user3 (user=root)
# Switch to connection user1
SET GLOBAL query_cache_type=1;
SET GLOBAL query_cache_limit=10000;
SET GLOBAL query_cache_min_res_unit=0;
SET GLOBAL query_cache_size= 100000;
FLUSH TABLES;
DROP TABLE IF EXISTS t1, t2;
CREATE TABLE t1 (a INT);
CREATE TABLE t2 (a INT);
INSERT INTO t1 VALUES (1),(2),(3);
# Switch to connection user2
LOCK TABLE t2 WRITE;
# Switch to connection user1
# "send" the next select, "reap" the result later.
# The select will be blocked by the write lock on the t1.
SELECT *, (SELECT COUNT(*) FROM t2) FROM t1;
# Switch to connection user3
# Poll till the select of connection user1 is blocked by the write lock on t1.
SELECT user,command,state,info FROM information_schema.processlist
WHERE state = 'Locked'
AND info = 'SELECT *, (SELECT COUNT(*) FROM t2) FROM t1';
user command state info
root Query Locked SELECT *, (SELECT COUNT(*) FROM t2) FROM t1
INSERT INTO t1 VALUES (4);
# Switch to connection user2
UNLOCK TABLES;
# Switch to connection user1
# Collecting ("reap") the result from the previously blocked select.
# The printing of the result (varies between 3 and 4 rows) set has to be suppressed.
# Switch to connection user3
# The next select enforces that effects of "concurrent_inserts" like the
# record with a = 4 is missing in result sets can no more happen.
SELECT 1 FROM t1 WHERE a = 4;
1
1
# Switch to connection user1
# The next result set must contain 4 rows.
SELECT *, (SELECT COUNT(*) FROM t2) FROM t1;
a (SELECT COUNT(*) FROM t2)
1 0
2 0
3 0
4 0
RESET QUERY CACHE;
SELECT *, (SELECT COUNT(*) FROM t2) FROM t1;
a (SELECT COUNT(*) FROM t2)
1 0
2 0
3 0
4 0
DROP TABLE t1,t2;
# Switch to connection default + close connections user1,user2,user3
SET GLOBAL query_cache_type= @query_cache_type;
SET GLOBAL query_cache_limit= @query_cache_limit;
SET GLOBAL query_cache_min_res_unit= @query_cache_min_res_unit;
SET GLOBAL query_cache_size= @query_cache_size;
......@@ -12,4 +12,5 @@
federated_transactions : Bug#29523 Transactions do not work
slow_query_log_func : Bug #37962: *_func tests containing sleeps/race conditions
wait_timeout_func : Bug #41225 joro wait_timeout_func fails
kill : Bug#37780 2008-12-03 HHunger need some changes to be robust enoiugh for pushbuild.
kill : Bug#37780 2008-12-03 HHunger need some changes to be robust enough for pushbuild.
query_cache_28249 : Bug#41098 Query Cache returns wrong result with concurrent insert
......@@ -300,7 +300,7 @@ select * from t1;
select * from t1;
show status like "Qcache_queries_in_cache";
insert delayed into t1 values (4);
--sleep 5 # Wait for insert delayed to be executed.
--sleep 5 # Wait for insert delayed to be executed.
select a from t1;
show status like "Qcache_queries_in_cache";
drop table t1;
......@@ -410,10 +410,10 @@ create table t1(id int auto_increment primary key);
insert into t1 values (NULL), (NULL), (NULL);
select * from t1 where id=2;
alter table t1 rename to t2;
-- error 1146
--error ER_NO_SUCH_TABLE
select * from t1 where id=2;
drop table t2;
-- error 1146
--error ER_NO_SUCH_TABLE
select * from t1 where id=2;
#
......@@ -435,11 +435,14 @@ create table t1 (a int);
insert into t1 values (1),(2),(3);
show status like "Qcache_queries_in_cache";
select * from t1 into outfile "query_cache.out.file";
--error 1086
--error ER_FILE_EXISTS_ERROR
select * from t1 into outfile "query_cache.out.file";
select * from t1 limit 1 into dumpfile "query_cache.dump.file";
show status like "Qcache_queries_in_cache";
drop table t1;
let $datadir=`select @@datadir`;
--remove_file $datadir/test/query_cache.dump.file
--remove_file $datadir/test/query_cache.out.file
#
# test of SQL_SELECT_LIMIT
......@@ -537,7 +540,7 @@ drop table t1;
# If at least one of the above variables has changed,
# the cached query can't be reused. In the below test
# absolutely the same query is used several times,
# SELECT should fetch different results for every instance.
# SELECT should fetch different results for every instance.
# No hits should be produced.
# New cache entry should appear for every SELECT.
#
......@@ -554,21 +557,21 @@ show status like "Qcache_queries_in_cache";
# Change collation_connection and run the same query again
#
set collation_connection=koi8r_bin;
SELECT a,'',''='' FROM t1;
SELECT a,'',''='' FROM t1;
show status like "Qcache_hits";
show status like "Qcache_queries_in_cache";
#
# Now change character_set_client and run the same query again
#
set character_set_client=cp1251;
SELECT a,'',''='' FROM t1;
SELECT a,'',''='' FROM t1;
show status like "Qcache_hits";
show status like "Qcache_queries_in_cache";
#
# And finally change character_set_results and run the same query again
#
set character_set_results=cp1251;
SELECT a,'',''='' FROM t1;
SELECT a,'',''='' FROM t1;
show status like "Qcache_hits";
show status like "Qcache_queries_in_cache";
SET NAMES default;
......@@ -602,12 +605,12 @@ insert into t1 set c = repeat('x',24);
insert into t1 set c = concat(repeat('x',24),'x');
insert into t1 set c = concat(repeat('x',24),'w');
insert into t1 set c = concat(repeat('x',24),'y');
set max_sort_length=200;
set max_sort_length=200;
select c from t1 order by c, id;
reset query cache;
set max_sort_length=20;
select c from t1 order by c, id;
set max_sort_length=200;
set max_sort_length=200;
select c from t1 order by c, id;
set max_sort_length=default;
# sql_mode
......@@ -801,9 +804,10 @@ create procedure `p1`()
begin
select a, f1() from t1;
end//
SET @log_bin_trust_function_creators = @@global.log_bin_trust_function_creators;
SET GLOBAL log_bin_trust_function_creators = 1;
call p1()//
SET GLOBAL log_bin_trust_function_creators = 0;
SET GLOBAL log_bin_trust_function_creators = @log_bin_trust_function_creators;
drop procedure p1//
drop function f1//
......@@ -1016,7 +1020,7 @@ set GLOBAL query_cache_size= default;
#
# Bug #28897 UUID() returns non-unique values when query cache is enabled
# Bug#28897 UUID() returns non-unique values when query cache is enabled
#
set GLOBAL query_cache_size=1000000;
......@@ -1025,7 +1029,7 @@ create table t1 (a char);
insert into t1 values ('c');
let $q1= `select UUID(), a from t1`;
let $q2= `select UUID(), a from t1`;
let $q2= `select UUID(), a from t1`;
# disabling the logging of the query because the UUIDs are different each run.
--disable_query_log
......@@ -1046,7 +1050,7 @@ create table t1 (a char);
insert into t1 values ('c');
let $q1= `select RAND() from t1 union select sql_cache 1 from t1;`;
let $q2= `select RAND() from t1 union select sql_cache 1 from t1;`;
let $q2= `select RAND() from t1 union select sql_cache 1 from t1;`;
# disabling the logging of the query because the times are different each run.
--disable_query_log
......@@ -1181,75 +1185,6 @@ DROP PROCEDURE proc29856;
DROP TABLE t1;
SET GLOBAL query_cache_size= default;
#
# Bug #28249 Query Cache returns wrong result with concurrent insert / certain lock
#
--echo Bug#28249 Query Cache returns wrong result with concurrent insert/ certain lock
connect (user1,localhost,root,,test,,);
connect (user2,localhost,root,,test,,);
connect (user3,localhost,root,,test,,);
connection user1;
set GLOBAL query_cache_type=1;
set GLOBAL query_cache_limit=10000;
set GLOBAL query_cache_min_res_unit=0;
set GLOBAL query_cache_size= 100000;
flush tables;
--disable_warnings
drop table if exists t1, t2;
--enable_warnings
create table t1 (a int);
create table t2 (a int);
insert into t1 values (1),(2),(3);
connection user2;
--echo Locking table T2 with a write lock.
lock table t2 write;
connection user1;
--echo Select blocked by write lock.
--send select *, (select count(*) from t2) from t1;
--echo Sleeing is ok, because selecting should be done very fast.
sleep 5;
connection user3;
--echo Inserting into table T1.
insert into t1 values (4);
connection user2;
--echo Unlocking the tables.
unlock tables;
connection user1;
--echo Collecting result from previously blocked select.
#
# Since the lock ordering rule in thr_multi_lock depends on
# pointer values, from execution to execution we might have
# different lock order, and therefore, sometimes lock t1 and block
# on t2, and sometimes block on t2 right away. In the second case,
# the following insert succeeds, and only then this select can
# proceed, and we actually test nothing, as the very first select
# returns 4 rows right away.
# It's fine to have a test case that covers the problematic area
# at least once in a while.
# We, however, need to disable the result log here to make the
# test repeatable.
--disable_result_log
--reap
--enable_result_log
--echo Next select should contain 4 rows, as the insert is long finished.
select *, (select count(*) from t2) from t1;
reset query cache;
select *, (select count(*) from t2) from t1;
drop table t1,t2;
connection default;
disconnect user1;
disconnect user2;
disconnect user3;
#
--echo #
--echo # Bug#25132 disabled query cache: Qcache_free_blocks = 1
......@@ -1260,7 +1195,7 @@ set global query_cache_type=0;
show status like 'Qcache_free_blocks';
--echo Restore default values.
# Bug #28211 RENAME DATABASE and query cache don't play nicely together
# Bug#28211 RENAME DATABASE and query cache don't play nicely together
#
# TODO: enable these tests when RENAME DATABASE is implemented.
# --disable_warnings
......@@ -1278,7 +1213,7 @@ show status like 'Qcache_free_blocks';
# show status like 'Qcache_queries_in_cache';
# drop database db2;
# set global query_cache_size=default;
#
#
# --disable_warnings
# drop database if exists db1;
# drop database if exists db3;
......
### t/query_cache_28249.test ###
#
# Test for
# Bug#28249 Query Cache returns wrong result with concurrent insert / certain lock
#
# Last modification:
# 2008-11-27 mleich - Move this test out of query_cache.test
# - Fix Bug#40179 Test main.query_cache failing randomly on Pushbuild,
# test weakness
# - Minor improvements (comments,formatting etc.)
#
--source include/have_query_cache.inc
SET @query_cache_type= @@global.query_cache_type;
SET @query_cache_limit= @@global.query_cache_limit;
SET @query_cache_min_res_unit= @@global.query_cache_min_res_unit;
SET @query_cache_size= @@global.query_cache_size;
--echo # Bug#28249 Query Cache returns wrong result with concurrent insert/ certain lock
--echo # Establish connections user1,user2,user3 (user=root)
connect (user1,localhost,root,,test,,);
connect (user2,localhost,root,,test,,);
connect (user3,localhost,root,,test,,);
--echo # Switch to connection user1
connection user1;
SET GLOBAL query_cache_type=1;
SET GLOBAL query_cache_limit=10000;
SET GLOBAL query_cache_min_res_unit=0;
SET GLOBAL query_cache_size= 100000;
FLUSH TABLES;
--disable_warnings
DROP TABLE IF EXISTS t1, t2;
--enable_warnings
CREATE TABLE t1 (a INT);
CREATE TABLE t2 (a INT);
INSERT INTO t1 VALUES (1),(2),(3);
--echo # Switch to connection user2
connection user2;
LOCK TABLE t2 WRITE;
--echo # Switch to connection user1
connection user1;
--echo # "send" the next select, "reap" the result later.
--echo # The select will be blocked by the write lock on the t1.
let $select_for_qc =
SELECT *, (SELECT COUNT(*) FROM t2) FROM t1;
send;
eval $select_for_qc;
--echo # Switch to connection user3
connection user3;
# Typical information_schema.processlist content after sufficient sleep time
# ID USER COMMAND TIME STATE INFO
# ....
# 2 root Query 5 Locked SELECT *, (SELECT COUNT(*) FROM t2) FROM t1
# ....
# XXXXXX XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
# The values marked with 'X' must be reached.
--echo # Poll till the select of connection user1 is blocked by the write lock on t1.
let $wait_condition= SELECT COUNT(*) = 1 FROM information_schema.processlist
WHERE state = 'Locked'
AND info = '$select_for_qc';
--source include/wait_condition.inc
eval
SELECT user,command,state,info FROM information_schema.processlist
WHERE state = 'Locked'
AND info = '$select_for_qc';
INSERT INTO t1 VALUES (4);
--echo # Switch to connection user2
connection user2;
UNLOCK TABLES;
--echo # Switch to connection user1
connection user1;
#
# Since the lock ordering rule in thr_multi_lock depends on
# pointer values, from execution to execution we might have
# different lock order, and therefore, sometimes lock t1 and block
# on t2, and sometimes block on t2 right away. In the second case,
# the following insert succeeds, and only then this select can
# proceed, and we actually test nothing, as the very first select
# returns 4 rows right away.
# It's fine to have a test case that covers the problematic area
# at least once in a while.
--echo # Collecting ("reap") the result from the previously blocked select.
--echo # The printing of the result (varies between 3 and 4 rows) set has to be suppressed.
--disable_result_log
--reap
--enable_result_log
--echo # Switch to connection user3
connection user3;
--echo # The next select enforces that effects of "concurrent_inserts" like the
--echo # record with a = 4 is missing in result sets can no more happen.
SELECT 1 FROM t1 WHERE a = 4;
--echo # Switch to connection user1
connection user1;
--echo # The next result set must contain 4 rows.
# If not, we have a regression of Bug#28249
eval $select_for_qc;
RESET QUERY CACHE;
eval $select_for_qc;
DROP TABLE t1,t2;
--echo # Switch to connection default + close connections user1,user2,user3
connection default;
disconnect user1;
disconnect user2;
disconnect user3;
SET GLOBAL query_cache_type= @query_cache_type;
SET GLOBAL query_cache_limit= @query_cache_limit;
SET GLOBAL query_cache_min_res_unit= @query_cache_min_res_unit;
SET GLOBAL query_cache_size= @query_cache_size;
Markdown is supported
0%
or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment