key_cache.test

#
# Test of multiple key caches
#
--disable_warnings
drop table if exists t1, t2, t3;
--enable_warnings

SET @save_key_buffer=@@key_buffer_size;

SELECT @@key_buffer_size, @@small.key_buffer_size;

# Change default key cache size
SET @@global.key_buffer_size=16*1024*1024;
SET @@global.default.key_buffer_size=16*1024*1024;
SET @@global.default.key_buffer_size=16*1024*1024;

SET @@global.small.key_buffer_size=1*1024*1024;
SET @@global.medium.key_buffer_size=4*1024*1024;
# Drop buffer
SET @@global.medium.key_buffer_size=0;
# Test double drop
SET @@global.medium.key_buffer_size=0;

# Print key buffer with different syntaxes
SHOW VARIABLES like "key_buffer_size";
SELECT @@key_buffer_size;
SELECT @@global.key_buffer_size;
SELECT @@global.default.key_buffer_size;
SELECT @@global.default.`key_buffer_size`;
SELECT @@global.`default`.`key_buffer_size`;
SELECT @@`default`.key_buffer_size;

SELECT @@small.key_buffer_size;
SELECT @@medium.key_buffer_size;

SET @@global.key_buffer_size=@save_key_buffer;

#
# Errors
#

--error 1064
SELECT @@default.key_buffer_size;
--error 1272
SELECT @@skr.storage_engine="test";

select @@keycache1.key_cache_block_size;
select @@keycache1.key_buffer_size;
set global keycache1.key_cache_block_size=2048;
select @@keycache1.key_buffer_size;
select @@keycache1.key_cache_block_size;
set global keycache1.key_buffer_size=1*1024*1024;
select @@keycache1.key_buffer_size;
select @@keycache1.key_cache_block_size;
set global keycache2.key_buffer_size=4*1024*1024;
select @@keycache2.key_buffer_size;
select @@keycache2.key_cache_block_size;
set global keycache1.key_buffer_size=0;
select @@keycache1.key_buffer_size;
select @@keycache1.key_cache_block_size;
select @@key_buffer_size;
select @@key_cache_block_size;

set global keycache1.key_buffer_size=1024*1024;

create table t1 (p int primary key, a char(10)) delay_key_write=1;
create table t2 (p int primary key, i int, a char(10), key k1(i), key k2(a));

# PBXT: this is irrelevant for PBXT and gives different results on different systems
#show status like 'key_blocks_used';

# Following results differs on 64 and 32 bit systems because of different
# pointer sizes, which takes up different amount of space in key cache

# PBXT: this is irrelevant for PBXT and gives different results on different systems
#--replace_result 1812 KEY_BLOCKS_UNUSED 1793 KEY_BLOCKS_UNUSED 1674 KEY_BLOCKS_UNUSED 1818 KEY_BLOCKS_UNUSED 1824 KEY_BLOCKS_UNUSED
#show status like 'key_blocks_unused';

insert into t1 values (1, 'qqqq'), (11, 'yyyy');
insert into t2 values (1, 1, 'qqqq'), (2, 1, 'pppp'),
                      (3, 1, 'yyyy'), (4, 3, 'zzzz');
select * from t1;
select * from t2;

update t1 set p=2 where p=1;
update t2 set i=2 where i=1;

# PBXT: this is irrelevant for PBXT and gives different results on different systems
#show status like 'key_blocks_used';
#--replace_result 1808 KEY_BLOCKS_UNUSED 1789 KEY_BLOCKS_UNUSED 1670 KEY_BLOCKS_UNUSED 1814 KEY_BLOCKS_UNUSED 1820 KEY_BLOCKS_UNUSED
#show status like 'key_blocks_unused';

cache index t1 key (`primary`) in keycache1;

explain select p from t1;
select p from t1;
explain select i from t2;
select i from t2;
explain select count(*) from t1, t2 where t1.p = t2.i;
select count(*) from t1, t2 where t1.p = t2.i;

cache index t2 in keycache1;
update t2 set p=p+1000, i=2 where a='qqqq';
cache index t2 in keycache2;
insert into t2 values (2000, 3, 'yyyy');
cache index t2 in keycache1;
update t2 set p=3000 where a='zzzz';
select * from t2 order by p; # PBXT required ORDER for consistant result
explain select p from t2;
select p from t2;
explain select i from t2;
select i from t2;
explain select a from t2;
select a from t2;

# Test some error conditions
--error 1284
cache index t1 in unknown_key_cache;
cache index t1 key (unknown_key) in keycache1;

select @@keycache2.key_buffer_size;
select @@keycache2.key_cache_block_size;
set global keycache2.key_buffer_size=0;
select @@keycache2.key_buffer_size;
select @@keycache2.key_cache_block_size;
set global keycache2.key_buffer_size=1024*1024;
select @@keycache2.key_buffer_size;

update t2 set p=4000 where a='zzzz';
update t1 set p=p+1;

set global keycache1.key_buffer_size=0;
select * from t2 order by p; # PBXT required ORDER for consistant result
select p from t2 order by p; # PBXT required ORDER for consistant result
explain select i from t2;
select i from t2;
explain select a from t2;
select a from t2;

select * from t1;
select p from t1;

# Use the 'small' key cache
create table t3 (like t1);
cache index t3 in small;
insert into t3 select * from t1;
cache index t3 in keycache2;
cache index t1,t2 in default;
drop table t1,t2,t3;

# PBXT: this is irrelevant for PBXT and gives different results on different systems
#show status like 'key_blocks_used';
#--replace_result 1812 KEY_BLOCKS_UNUSED 1793 KEY_BLOCKS_UNUSED 1674 KEY_BLOCKS_UNUSED 1818 KEY_BLOCKS_UNUSED 1824 KEY_BLOCKS_UNUSED
#show status like 'key_blocks_unused';


# Cleanup
# We don't reset keycache2 as we want to ensure that mysqld will reset it
set global keycache2.key_buffer_size=0;

# Test to set up a too small size for a key cache (bug #2064)
set global keycache3.key_buffer_size=100;
set global keycache3.key_buffer_size=0;

# Test case for bug 6447

create table t1 (mytext text, FULLTEXT (mytext)) engine=myisam; # PBXT: Only MyISAM can do FULLTEXT
insert t1 values ('aaabbb');

check table t1;
set @my_key_cache_block_size= @@global.key_cache_block_size;
set GLOBAL key_cache_block_size=2048;
check table t1;
drop table t1;
# Restore the changed variable value
set global key_cache_block_size= @my_key_cache_block_size;

#
# Bug #19079: corrupted index when key_cache_block_size is not multiple of
#             myisam_block_size

CREATE TABLE t1(a int NOT NULL AUTO_INCREMENT PRIMARY KEY);
SET @my_key_cache_block_size= @@global.key_cache_block_size;
SET GLOBAL key_cache_block_size=1536;
INSERT INTO t1 VALUES (1);
SELECT @@key_cache_block_size;
CHECK TABLE t1;
DROP TABLE t1;

CREATE TABLE t1(a int NOT NULL AUTO_INCREMENT PRIMARY KEY, b int);
CREATE TABLE t2(a int NOT NULL AUTO_INCREMENT PRIMARY KEY, b int);
SET GLOBAL key_cache_block_size=1536;
INSERT INTO t1 VALUES (1,0);
INSERT INTO t2(b) SELECT b FROM t1;
INSERT INTO t1(b) SELECT b FROM t2;
INSERT INTO t2(b) SELECT b FROM t1;
INSERT INTO t1(b) SELECT b FROM t2;
INSERT INTO t2(b) SELECT b FROM t1;
INSERT INTO t1(b) SELECT b FROM t2;
INSERT INTO t2(b) SELECT b FROM t1;
INSERT INTO t1(b) SELECT b FROM t2;
INSERT INTO t2(b) SELECT b FROM t1;
INSERT INTO t1(b) SELECT b FROM t2;
INSERT INTO t2(b) SELECT b FROM t1;
INSERT INTO t1(b) SELECT b FROM t2;
INSERT INTO t2(b) SELECT b FROM t1;
INSERT INTO t1(b) SELECT b FROM t2;
INSERT INTO t2(b) SELECT b FROM t1;
INSERT INTO t1(b) SELECT b FROM t2;
INSERT INTO t2(b) SELECT b FROM t1;
INSERT INTO t1(b) SELECT b FROM t2;
SELECT COUNT(*) FROM t1;
SELECT @@key_cache_block_size;
CHECK TABLE t1;
DROP TABLE t1,t2;
# Restore changed variables
set global key_cache_block_size= @my_key_cache_block_size;

#
# Bug#10473 - Can't set 'key_buffer_size' system variable to ZERO
# (One cannot drop the default key cache.)
#
set @@global.key_buffer_size=0;
select @@global.key_buffer_size;

--disable_query_log
drop database pbxt;
--enable_query_log
# End of 4.1 tests