Commit 1bfe0bdf authored by guilhem@gbichot3.local's avatar guilhem@gbichot3.local

Merge gbichot3.local:/home/mysql_src/mysql-5.1-new-19630

into  gbichot3.local:/home/mysql_src/mysql-5.1
parents b3977379 fdb0f85a
......@@ -18,18 +18,18 @@ select @@global.binlog_format, @@session.binlog_format;
ROW ROW
CREATE TABLE t1 (a varchar(100));
prepare stmt1 from 'insert into t1 select concat(UUID(),?)';
set @string="emergency";
insert into t1 values("work");
set @string="emergency_1_";
insert into t1 values("work_2_");
execute stmt1 using @string;
deallocate prepare stmt1;
prepare stmt1 from 'insert into t1 select ?';
insert into t1 values(concat(UUID(),"work"));
insert into t1 values(concat(UUID(),"work_3_"));
execute stmt1 using @string;
deallocate prepare stmt1;
insert into t1 values(concat("for",UUID()));
insert into t1 select "yesterday";
create temporary table tmp(a char(3));
insert into tmp values("see");
insert into t1 values(concat("for_4_",UUID()));
insert into t1 select "yesterday_5_";
create temporary table tmp(a char(100));
insert into tmp values("see_6_");
set binlog_format=statement;
ERROR HY000: Cannot switch out of the row-based binary log format when the session has open temporary tables
insert into t1 select * from tmp;
......@@ -55,16 +55,16 @@ select @@global.binlog_format, @@session.binlog_format;
@@global.binlog_format @@session.binlog_format
STATEMENT STATEMENT
prepare stmt1 from 'insert into t1 select ?';
set @string="emergency";
insert into t1 values("work");
set @string="emergency_7_";
insert into t1 values("work_8_");
execute stmt1 using @string;
deallocate prepare stmt1;
prepare stmt1 from 'insert into t1 select ?';
insert into t1 values("work");
insert into t1 values("work_9_");
execute stmt1 using @string;
deallocate prepare stmt1;
insert into t1 values("for");
insert into t1 select "yesterday";
insert into t1 values("for_10_");
insert into t1 select "yesterday_11_";
set binlog_format=default;
select @@global.binlog_format, @@session.binlog_format;
@@global.binlog_format @@session.binlog_format
......@@ -75,16 +75,16 @@ select @@global.binlog_format, @@session.binlog_format;
@@global.binlog_format @@session.binlog_format
STATEMENT STATEMENT
prepare stmt1 from 'insert into t1 select ?';
set @string="emergency";
insert into t1 values("work");
set @string="emergency_12_";
insert into t1 values("work_13_");
execute stmt1 using @string;
deallocate prepare stmt1;
prepare stmt1 from 'insert into t1 select ?';
insert into t1 values("work");
insert into t1 values("work_14_");
execute stmt1 using @string;
deallocate prepare stmt1;
insert into t1 values("for");
insert into t1 select "yesterday";
insert into t1 values("for_15_");
insert into t1 select "yesterday_16_";
set binlog_format=mixed;
select @@global.binlog_format, @@session.binlog_format;
@@global.binlog_format @@session.binlog_format
......@@ -94,40 +94,40 @@ select @@global.binlog_format, @@session.binlog_format;
@@global.binlog_format @@session.binlog_format
MIXED MIXED
prepare stmt1 from 'insert into t1 select concat(UUID(),?)';
set @string="emergency";
insert into t1 values("work");
set @string="emergency_17_";
insert into t1 values("work_18_");
execute stmt1 using @string;
deallocate prepare stmt1;
prepare stmt1 from 'insert into t1 select ?';
insert into t1 values(concat(UUID(),"work"));
insert into t1 values(concat(UUID(),"work_19_"));
execute stmt1 using @string;
deallocate prepare stmt1;
insert into t1 values(concat("for",UUID()));
insert into t1 select "yesterday";
insert into t1 values(concat("for_20_",UUID()));
insert into t1 select "yesterday_21_";
prepare stmt1 from 'insert into t1 select ?';
insert into t1 values(concat(UUID(),"work"));
insert into t1 values(concat(UUID(),"work_22_"));
execute stmt1 using @string;
deallocate prepare stmt1;
insert into t1 values(concat("for",UUID()));
insert into t1 select "yesterday";
create table t2 select UUID();
insert into t1 values(concat("for_23_",UUID()));
insert into t1 select "yesterday_24_";
create table t2 select rpad(UUID(),100,' ');
create table t3 select 1 union select UUID();
create table t4 select * from t1 where 3 in (select 1 union select 2 union select UUID() union select 3);
create table t5 select * from t1 where 3 in (select 1 union select 2 union select curdate() union select 3);
insert into t5 select UUID() from t1 where 3 in (select 1 union select 2 union select 3 union select * from t4);
create procedure foo()
begin
insert into t1 values("work");
insert into t1 values(concat("for",UUID()));
insert into t1 select "yesterday";
insert into t1 values("work_25_");
insert into t1 values(concat("for_26_",UUID()));
insert into t1 select "yesterday_27_";
end|
create procedure foo2()
begin
insert into t1 values(concat("emergency",UUID()));
insert into t1 values("work");
insert into t1 values(concat("for",UUID()));
insert into t1 values(concat("emergency_28_",UUID()));
insert into t1 values("work_29_");
insert into t1 values(concat("for_30_",UUID()));
set session binlog_format=row; # accepted for stored procs
insert into t1 values("more work");
insert into t1 values("more work_31_");
set session binlog_format=mixed;
end|
create function foo3() returns bigint unsigned
......@@ -136,12 +136,182 @@ set session binlog_format=row; # rejected for stored funcs
insert into t1 values("alarm");
return 100;
end|
create procedure foo4(x varchar(100))
begin
insert into t1 values(concat("work_250_",x));
insert into t1 select "yesterday_270_";
end|
call foo();
call foo2();
call foo4("hello");
call foo4(UUID());
call foo4("world");
select foo3();
ERROR HY000: Cannot change the binary logging format inside a stored function or trigger
select * from t1 where a="alarm";
a
drop function foo3;
create function foo3() returns bigint unsigned
begin
insert into t1 values("foo3_32_");
call foo();
return 100;
end|
insert into t2 select foo3();
prepare stmt1 from 'insert into t2 select foo3()';
execute stmt1;
execute stmt1;
deallocate prepare stmt1;
create function foo4() returns bigint unsigned
begin
insert into t2 select foo3();
return 100;
end|
select foo4();
foo4()
100
prepare stmt1 from 'select foo4()';
execute stmt1;
foo4()
100
execute stmt1;
foo4()
100
deallocate prepare stmt1;
create function foo5() returns bigint unsigned
begin
insert into t2 select UUID();
return 100;
end|
select foo5();
foo5()
100
prepare stmt1 from 'select foo5()';
execute stmt1;
foo5()
100
execute stmt1;
foo5()
100
deallocate prepare stmt1;
create function foo6(x varchar(100)) returns bigint unsigned
begin
insert into t2 select x;
return 100;
end|
select foo6("foo6_1_");
foo6("foo6_1_")
100
select foo6(concat("foo6_2_",UUID()));
foo6(concat("foo6_2_",UUID()))
100
prepare stmt1 from 'select foo6(concat("foo6_3_",UUID()))';
execute stmt1;
foo6(concat("foo6_3_",UUID()))
100
execute stmt1;
foo6(concat("foo6_3_",UUID()))
100
deallocate prepare stmt1;
create view v1 as select uuid();
create table t11 (data varchar(255));
insert into t11 select * from v1;
insert into t11 select TABLE_NAME from INFORMATION_SCHEMA.TABLES where TABLE_SCHEMA='mysqltest1' and TABLE_NAME IN ('v1','t11');
prepare stmt1 from "insert into t11 select TABLE_NAME from INFORMATION_SCHEMA.TABLES where TABLE_SCHEMA='mysqltest1' and TABLE_NAME IN ('v1','t11')";
execute stmt1;
execute stmt1;
deallocate prepare stmt1;
create trigger t11_bi before insert on t11 for each row
begin
set NEW.data = concat(NEW.data,UUID());
end|
insert into t11 values("try_560_");
create table t20 select * from t1;
create table t21 select * from t2;
create table t22 select * from t3;
drop table t1,t2,t3;
create table t1 (a int primary key auto_increment, b varchar(100));
create table t2 (a int primary key auto_increment, b varchar(100));
create table t3 (b varchar(100));
create function f (x varchar(100)) returns int deterministic
begin
insert into t1 values(null,x);
insert into t2 values(null,x);
return 1;
end|
select f("try_41_");
f("try_41_")
1
use mysqltest1;
insert into t2 values(2,null),(3,null),(4,null);
delete from t2 where a>=2;
select f("try_42_");
f("try_42_")
1
insert into t2 values(3,null),(4,null);
delete from t2 where a>=3;
prepare stmt1 from 'select f(?)';
set @string="try_43_";
insert into t1 values(null,"try_44_");
execute stmt1 using @string;
f(?)
1
deallocate prepare stmt1;
create table t12 select * from t1;
drop table t1;
create table t1 (a int, b varchar(100), key(a));
select f("try_45_");
f("try_45_")
1
create table t13 select * from t1;
drop table t1;
create table t1 (a int primary key auto_increment, b varchar(100));
drop function f;
truncate table t2;
create function f1 (x varchar(100)) returns int deterministic
begin
insert into t1 values(null,x);
return 1;
end|
create function f2 (x varchar(100)) returns int deterministic
begin
insert into t2 values(null,x);
return 1;
end|
select f1("try_46_"),f2("try_47_");
f1("try_46_") f2("try_47_")
1 1
insert into t2 values(2,null),(3,null),(4,null);
delete from t2 where a>=2;
select f1("try_48_"),f2("try_49_");
f1("try_48_") f2("try_49_")
1 1
insert into t3 values(concat("try_50_",f1("try_51_"),f2("try_52_")));
drop function f2;
create function f2 (x varchar(100)) returns int deterministic
begin
declare y int;
insert into t1 values(null,x);
set y = (select count(*) from t2);
return y;
end|
select f1("try_53_"),f2("try_54_");
f1("try_53_") f2("try_54_")
1 3
drop function f2;
create trigger t1_bi before insert on t1 for each row
begin
insert into t2 values(null,"try_55_");
end|
insert into t1 values(null,"try_56_");
alter table t1 modify a int, drop primary key;
insert into t1 values(null,"try_57_");
CREATE TEMPORARY TABLE t15 SELECT UUID();
create table t16 like t15;
INSERT INTO t16 SELECT * FROM t15;
insert into t16 values("try_65_");
drop table t15;
insert into t16 values("try_66_");
insert delayed into t2 values("delay_1_");
insert delayed into t2 values(concat("delay_2_",UUID()));
Warnings:
......@@ -156,19 +326,40 @@ set @a=2.345;
insert delayed into t12 values(2,@a);
select count(*) from t1;
count(*)
36
7
select count(*) from t2;
count(*)
7
select count(*) from t3;
count(*)
2
1
select count(*) from t4;
count(*)
29
select count(*) from t5;
count(*)
58
select count(*) from t11;
count(*)
8
select count(*) from t20;
count(*)
66
select count(*) from t21;
count(*)
14
select count(*) from t22;
count(*)
2
select count(*) from t12;
count(*)
4
select count(*) from t13;
count(*)
1
select count(*) from t16;
count(*)
3
select count(*) from t12;
count(*)
2
......@@ -191,41 +382,41 @@ master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("work")
master-bin.000001 # User var 1 # @`string`=_latin1 0x656D657267656E6379 COLLATE latin1_swedish_ci
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("work_8_")
master-bin.000001 # User var 1 # @`string`=_latin1 0x656D657267656E63795F375F COLLATE latin1_swedish_ci
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select @'string'
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("work")
master-bin.000001 # User var 1 # @`string`=_latin1 0x656D657267656E6379 COLLATE latin1_swedish_ci
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("work_9_")
master-bin.000001 # User var 1 # @`string`=_latin1 0x656D657267656E63795F375F COLLATE latin1_swedish_ci
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select @'string'
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("for")
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select "yesterday"
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("work")
master-bin.000001 # User var 1 # @`string`=_latin1 0x656D657267656E6379 COLLATE latin1_swedish_ci
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("for_10_")
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select "yesterday_11_"
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("work_13_")
master-bin.000001 # User var 1 # @`string`=_latin1 0x656D657267656E63795F31325F COLLATE latin1_swedish_ci
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select @'string'
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("work")
master-bin.000001 # User var 1 # @`string`=_latin1 0x656D657267656E6379 COLLATE latin1_swedish_ci
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("work_14_")
master-bin.000001 # User var 1 # @`string`=_latin1 0x656D657267656E63795F31325F COLLATE latin1_swedish_ci
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select @'string'
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("for")
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select "yesterday"
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("work")
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("for_15_")
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select "yesterday_16_"
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("work_18_")
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # User var 1 # @`string`=_latin1 0x656D657267656E6379 COLLATE latin1_swedish_ci
master-bin.000001 # User var 1 # @`string`=_latin1 0x656D657267656E63795F31375F COLLATE latin1_swedish_ci
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select @'string'
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select "yesterday"
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select "yesterday_21_"
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # User var 1 # @`string`=_latin1 0x656D657267656E6379 COLLATE latin1_swedish_ci
master-bin.000001 # User var 1 # @`string`=_latin1 0x656D657267656E63795F31375F COLLATE latin1_swedish_ci
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select @'string'
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select "yesterday"
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select "yesterday_24_"
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE TABLE `t2` (
`UUID()` varchar(36) CHARACTER SET utf8 NOT NULL DEFAULT ''
`rpad(UUID(),100,' ')` varchar(100) CHARACTER SET utf8 NOT NULL DEFAULT ''
)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
......@@ -248,17 +439,17 @@ master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE DEFINER=`root`@`localhost` procedure foo()
begin
insert into t1 values("work");
insert into t1 values(concat("for",UUID()));
insert into t1 select "yesterday";
insert into t1 values("work_25_");
insert into t1 values(concat("for_26_",UUID()));
insert into t1 select "yesterday_27_";
end
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE DEFINER=`root`@`localhost` procedure foo2()
begin
insert into t1 values(concat("emergency",UUID()));
insert into t1 values("work");
insert into t1 values(concat("for",UUID()));
insert into t1 values(concat("emergency_28_",UUID()));
insert into t1 values("work_29_");
insert into t1 values(concat("for_30_",UUID()));
set session binlog_format=row; # accepted for stored procs
insert into t1 values("more work");
insert into t1 values("more work_31_");
set session binlog_format=mixed;
end
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE DEFINER=`root`@`localhost` function foo3() returns bigint unsigned
......@@ -267,13 +458,18 @@ set session binlog_format=row; # rejected for stored funcs
insert into t1 values("alarm");
return 100;
end
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("work")
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE DEFINER=`root`@`localhost` procedure foo4(x varchar(100))
begin
insert into t1 values(concat("work_250_",x));
insert into t1 select "yesterday_270_";
end
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("work_25_")
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select "yesterday"
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select "yesterday_27_"
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("work")
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values("work_29_")
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
......@@ -293,4 +489,184 @@ master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t12)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t12)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values(concat("work_250_", NAME_CONST('x',...
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select "yesterday_270_"
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values(concat("work_250_", NAME_CONST('x',...
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select "yesterday_270_"
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values(concat("work_250_", NAME_CONST('x',...
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 select "yesterday_270_"
master-bin.000001 # Query 1 # use `mysqltest1`; drop function foo3
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE DEFINER=`root`@`localhost` function foo3() returns bigint unsigned
begin
insert into t1 values("foo3_32_");
call foo();
return 100;
end
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE DEFINER=`root`@`localhost` function foo4() returns bigint unsigned
begin
insert into t2 select foo3();
return 100;
end
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE DEFINER=`root`@`localhost` function foo5() returns bigint unsigned
begin
insert into t2 select UUID();
return 100;
end
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE DEFINER=`root`@`localhost` function foo6(x varchar(100)) returns bigint unsigned
begin
insert into t2 select x;
return 100;
end
master-bin.000001 # Query 1 # use `mysqltest1`; SELECT `foo6`(_latin1'foo6_1_')
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE ALGORITHM=UNDEFINED DEFINER=`root`@`localhost` SQL SECURITY DEFINER VIEW `v1` AS select uuid()
master-bin.000001 # Query 1 # use `mysqltest1`; create table t11 (data varchar(255))
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t11)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t11 select TABLE_NAME from INFORMATION_SCHEMA.TABLES where TABLE_SCHEMA='mysqltest1' and TABLE_NAME IN ('v1','t11')
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t11 select TABLE_NAME from INFORMATION_SCHEMA.TABLES where TABLE_SCHEMA='mysqltest1' and TABLE_NAME IN ('v1','t11')
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t11 select TABLE_NAME from INFORMATION_SCHEMA.TABLES where TABLE_SCHEMA='mysqltest1' and TABLE_NAME IN ('v1','t11')
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE DEFINER=`root`@`localhost` trigger t11_bi before insert on t11 for each row
begin
set NEW.data = concat(NEW.data,UUID());
end
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t11)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; create table t20 select * from t1
master-bin.000001 # Query 1 # use `mysqltest1`; create table t21 select * from t2
master-bin.000001 # Query 1 # use `mysqltest1`; create table t22 select * from t3
master-bin.000001 # Query 1 # use `mysqltest1`; drop table t1,t2,t3
master-bin.000001 # Query 1 # use `mysqltest1`; create table t1 (a int primary key auto_increment, b varchar(100))
master-bin.000001 # Query 1 # use `mysqltest1`; create table t2 (a int primary key auto_increment, b varchar(100))
master-bin.000001 # Query 1 # use `mysqltest1`; create table t3 (b varchar(100))
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE DEFINER=`root`@`localhost` function f (x varchar(100)) returns int deterministic
begin
insert into t1 values(null,x);
insert into t2 values(null,x);
return 1;
end
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Intvar 1 # INSERT_ID=3
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values(null,"try_44_")
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; create table t12 select * from t1
master-bin.000001 # Query 1 # use `mysqltest1`; drop table t1
master-bin.000001 # Query 1 # use `mysqltest1`; create table t1 (a int, b varchar(100), key(a))
master-bin.000001 # Intvar 1 # INSERT_ID=4
master-bin.000001 # Query 1 # use `mysqltest1`; SELECT `f`(_latin1'try_45_')
master-bin.000001 # Query 1 # use `mysqltest1`; create table t13 select * from t1
master-bin.000001 # Query 1 # use `mysqltest1`; drop table t1
master-bin.000001 # Query 1 # use `mysqltest1`; create table t1 (a int primary key auto_increment, b varchar(100))
master-bin.000001 # Query 1 # use `mysqltest1`; drop function f
master-bin.000001 # Query 1 # use `mysqltest1`; truncate table t2
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE DEFINER=`root`@`localhost` function f1 (x varchar(100)) returns int deterministic
begin
insert into t1 values(null,x);
return 1;
end
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE DEFINER=`root`@`localhost` function f2 (x varchar(100)) returns int deterministic
begin
insert into t2 values(null,x);
return 1;
end
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t3)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; drop function f2
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE DEFINER=`root`@`localhost` function f2 (x varchar(100)) returns int deterministic
begin
declare y int;
insert into t1 values(null,x);
set y = (select count(*) from t2);
return y;
end
master-bin.000001 # Intvar 1 # INSERT_ID=4
master-bin.000001 # Query 1 # use `mysqltest1`; SELECT `f1`(_latin1'try_53_')
master-bin.000001 # Intvar 1 # INSERT_ID=5
master-bin.000001 # Query 1 # use `mysqltest1`; SELECT `f2`(_latin1'try_54_')
master-bin.000001 # Query 1 # use `mysqltest1`; drop function f2
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE DEFINER=`root`@`localhost` trigger t1_bi before insert on t1 for each row
begin
insert into t2 values(null,"try_55_");
end
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t1)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t2)
master-bin.000001 # Write_rows 1 # table_id: #
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; alter table t1 modify a int, drop primary key
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t1 values(null,"try_57_")
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE TEMPORARY TABLE `t15` (
`UUID()` varchar(36) CHARACTER SET utf8 NOT NULL DEFAULT ''
)
master-bin.000001 # Query 1 # use `mysqltest1`; COMMIT
master-bin.000001 # Query 1 # use `mysqltest1`; CREATE TABLE `t16` (
`UUID()` varchar(36) CHARACTER SET utf8 NOT NULL DEFAULT ''
)
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t16)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Table_map 1 # table_id: # (mysqltest1.t16)
master-bin.000001 # Write_rows 1 # table_id: # flags: STMT_END_F
master-bin.000001 # Query 1 # use `mysqltest1`; insert into t16 values("try_66_")
drop database mysqltest1;
......@@ -15,22 +15,22 @@ select @@global.binlog_format, @@session.binlog_format;
CREATE TABLE t1 (a varchar(100));
prepare stmt1 from 'insert into t1 select concat(UUID(),?)';
set @string="emergency";
insert into t1 values("work");
set @string="emergency_1_";
insert into t1 values("work_2_");
execute stmt1 using @string;
deallocate prepare stmt1;
prepare stmt1 from 'insert into t1 select ?';
insert into t1 values(concat(UUID(),"work"));
insert into t1 values(concat(UUID(),"work_3_"));
execute stmt1 using @string;
deallocate prepare stmt1;
insert into t1 values(concat("for",UUID()));
insert into t1 select "yesterday";
insert into t1 values(concat("for_4_",UUID()));
insert into t1 select "yesterday_5_";
# verify that temp tables prevent a switch to SBR
create temporary table tmp(a char(3));
insert into tmp values("see");
create temporary table tmp(a char(100));
insert into tmp values("see_6_");
--error ER_TEMP_TABLE_PREVENTS_SWITCH_OUT_OF_RBR
set binlog_format=statement;
insert into t1 select * from tmp;
......@@ -47,18 +47,18 @@ show session variables like "binlog_format%";
select @@global.binlog_format, @@session.binlog_format;
prepare stmt1 from 'insert into t1 select ?';
set @string="emergency";
insert into t1 values("work");
set @string="emergency_7_";
insert into t1 values("work_8_");
execute stmt1 using @string;
deallocate prepare stmt1;
prepare stmt1 from 'insert into t1 select ?';
insert into t1 values("work");
insert into t1 values("work_9_");
execute stmt1 using @string;
deallocate prepare stmt1;
insert into t1 values("for");
insert into t1 select "yesterday";
insert into t1 values("for_10_");
insert into t1 select "yesterday_11_";
# test SET DEFAULT (=statement at this point of test)
set binlog_format=default;
......@@ -69,18 +69,18 @@ set global binlog_format=default;
select @@global.binlog_format, @@session.binlog_format;
prepare stmt1 from 'insert into t1 select ?';
set @string="emergency";
insert into t1 values("work");
set @string="emergency_12_";
insert into t1 values("work_13_");
execute stmt1 using @string;
deallocate prepare stmt1;
prepare stmt1 from 'insert into t1 select ?';
insert into t1 values("work");
insert into t1 values("work_14_");
execute stmt1 using @string;
deallocate prepare stmt1;
insert into t1 values("for");
insert into t1 select "yesterday";
insert into t1 values("for_15_");
insert into t1 select "yesterday_16_";
# and now the mixed mode
......@@ -90,53 +90,52 @@ set global binlog_format=mixed;
select @@global.binlog_format, @@session.binlog_format;
prepare stmt1 from 'insert into t1 select concat(UUID(),?)';
set @string="emergency";
insert into t1 values("work");
set @string="emergency_17_";
insert into t1 values("work_18_");
execute stmt1 using @string;
deallocate prepare stmt1;
prepare stmt1 from 'insert into t1 select ?';
insert into t1 values(concat(UUID(),"work"));
insert into t1 values(concat(UUID(),"work_19_"));
execute stmt1 using @string;
deallocate prepare stmt1;
insert into t1 values(concat("for",UUID()));
insert into t1 select "yesterday";
insert into t1 values(concat("for_20_",UUID()));
insert into t1 select "yesterday_21_";
prepare stmt1 from 'insert into t1 select ?';
insert into t1 values(concat(UUID(),"work"));
insert into t1 values(concat(UUID(),"work_22_"));
execute stmt1 using @string;
deallocate prepare stmt1;
insert into t1 values(concat("for",UUID()));
insert into t1 select "yesterday";
insert into t1 values(concat("for_23_",UUID()));
insert into t1 select "yesterday_24_";
# Test of CREATE TABLE SELECT
create table t2 select UUID();
create table t2 select rpad(UUID(),100,' ');
create table t3 select 1 union select UUID();
create table t4 select * from t1 where 3 in (select 1 union select 2 union select UUID() union select 3);
create table t5 select * from t1 where 3 in (select 1 union select 2 union select curdate() union select 3);
# what if UUID() is first:
insert into t5 select UUID() from t1 where 3 in (select 1 union select 2 union select 3 union select * from t4);
# inside a stored procedure (inside a function or trigger won't
# work)
# inside a stored procedure
delimiter |;
create procedure foo()
begin
insert into t1 values("work");
insert into t1 values(concat("for",UUID()));
insert into t1 select "yesterday";
insert into t1 values("work_25_");
insert into t1 values(concat("for_26_",UUID()));
insert into t1 select "yesterday_27_";
end|
create procedure foo2()
begin
insert into t1 values(concat("emergency",UUID()));
insert into t1 values("work");
insert into t1 values(concat("for",UUID()));
insert into t1 values(concat("emergency_28_",UUID()));
insert into t1 values("work_29_");
insert into t1 values(concat("for_30_",UUID()));
set session binlog_format=row; # accepted for stored procs
insert into t1 values("more work");
insert into t1 values("more work_31_");
set session binlog_format=mixed;
end|
create function foo3() returns bigint unsigned
......@@ -145,15 +144,115 @@ begin
insert into t1 values("alarm");
return 100;
end|
create procedure foo4(x varchar(100))
begin
insert into t1 values(concat("work_250_",x));
insert into t1 select "yesterday_270_";
end|
delimiter ;|
call foo();
call foo2();
call foo4("hello");
call foo4(UUID());
call foo4("world");
# test that can't SET in a stored function
--error ER_STORED_FUNCTION_PREVENTS_SWITCH_BINLOG_FORMAT
select foo3();
select * from t1 where a="alarm";
# Tests of stored functions/triggers/views for BUG#20930 "Mixed
# binlogging mode does not work with stored functions, triggers,
# views"
# Function which calls procedure
drop function foo3;
delimiter |;
create function foo3() returns bigint unsigned
begin
insert into t1 values("foo3_32_");
call foo();
return 100;
end|
delimiter ;|
insert into t2 select foo3();
prepare stmt1 from 'insert into t2 select foo3()';
execute stmt1;
execute stmt1;
deallocate prepare stmt1;
# Test if stored function calls stored function which calls procedure
# which requires row-based.
delimiter |;
create function foo4() returns bigint unsigned
begin
insert into t2 select foo3();
return 100;
end|
delimiter ;|
select foo4();
prepare stmt1 from 'select foo4()';
execute stmt1;
execute stmt1;
deallocate prepare stmt1;
# A simple stored function
delimiter |;
create function foo5() returns bigint unsigned
begin
insert into t2 select UUID();
return 100;
end|
delimiter ;|
select foo5();
prepare stmt1 from 'select foo5()';
execute stmt1;
execute stmt1;
deallocate prepare stmt1;
# A simple stored function where UUID() is in the argument
delimiter |;
create function foo6(x varchar(100)) returns bigint unsigned
begin
insert into t2 select x;
return 100;
end|
delimiter ;|
select foo6("foo6_1_");
select foo6(concat("foo6_2_",UUID()));
prepare stmt1 from 'select foo6(concat("foo6_3_",UUID()))';
execute stmt1;
execute stmt1;
deallocate prepare stmt1;
# Test of views using UUID()
create view v1 as select uuid();
create table t11 (data varchar(255));
insert into t11 select * from v1;
# Test of querying INFORMATION_SCHEMA which parses the view's body,
# to verify that it binlogs statement-based (is not polluted by
# the parsing of the view's body).
insert into t11 select TABLE_NAME from INFORMATION_SCHEMA.TABLES where TABLE_SCHEMA='mysqltest1' and TABLE_NAME IN ('v1','t11');
prepare stmt1 from "insert into t11 select TABLE_NAME from INFORMATION_SCHEMA.TABLES where TABLE_SCHEMA='mysqltest1' and TABLE_NAME IN ('v1','t11')";
execute stmt1;
execute stmt1;
deallocate prepare stmt1;
# Test of triggers with UUID()
delimiter |;
create trigger t11_bi before insert on t11 for each row
begin
set NEW.data = concat(NEW.data,UUID());
end|
delimiter ;|
insert into t11 values("try_560_");
# Test that INSERT DELAYED works in mixed mode (BUG#20649)
insert delayed into t2 values("delay_1_");
insert delayed into t2 values(concat("delay_2_",UUID()));
......@@ -180,30 +279,182 @@ if ($you_want_to_test_UDF)
{
CREATE FUNCTION metaphon RETURNS STRING SONAME 'udf_example.so';
prepare stmt1 from 'insert into t1 select metaphon(?)';
set @string="emergency";
insert into t1 values("work");
set @string="emergency_133_";
insert into t1 values("work_134_");
execute stmt1 using @string;
deallocate prepare stmt1;
prepare stmt1 from 'insert into t1 select ?';
insert into t1 values(metaphon("work"));
insert into t1 values(metaphon("work_135_"));
execute stmt1 using @string;
deallocate prepare stmt1;
insert into t1 values(metaphon("for"));
insert into t1 select "yesterday";
create table t6 select metaphon("for");
create table t7 select 1 union select metaphon("for");
create table t8 select * from t1 where 3 in (select 1 union select 2 union select metaphon("for") union select 3);
insert into t1 values(metaphon("for_136_"));
insert into t1 select "yesterday_137_";
create table t6 select metaphon("for_138_");
create table t7 select 1 union select metaphon("for_139_");
create table t8 select * from t1 where 3 in (select 1 union select 2 union select metaphon("for_140_") union select 3);
create table t9 select * from t1 where 3 in (select 1 union select 2 union select curdate() union select 3);
}
create table t20 select * from t1; # save for comparing later
create table t21 select * from t2;
create table t22 select * from t3;
drop table t1,t2,t3;
# This tests the fix to
# BUG#19630 stored function inserting into two auto_increment breaks statement-based binlog
# We verify that under the mixed binlog mode, a stored function
# modifying at least two tables having an auto_increment column,
# is binlogged row-based. Indeed in statement-based binlogging,
# only the auto_increment value generated for the first table
# is recorded in the binlog, the value generated for the 2nd table
# lacking.
create table t1 (a int primary key auto_increment, b varchar(100));
create table t2 (a int primary key auto_increment, b varchar(100));
create table t3 (b varchar(100));
delimiter |;
create function f (x varchar(100)) returns int deterministic
begin
insert into t1 values(null,x);
insert into t2 values(null,x);
return 1;
end|
delimiter ;|
select f("try_41_");
# Two operations which compensate each other except that their net
# effect is that they advance the auto_increment counter of t2 on slave:
sync_slave_with_master;
use mysqltest1;
insert into t2 values(2,null),(3,null),(4,null);
delete from t2 where a>=2;
connection master;
# this is the call which didn't replicate well
select f("try_42_");
sync_slave_with_master;
# now use prepared statement and test again, just to see that the RBB
# mode isn't set at PREPARE but at EXECUTE.
insert into t2 values(3,null),(4,null);
delete from t2 where a>=3;
connection master;
prepare stmt1 from 'select f(?)';
set @string="try_43_";
insert into t1 values(null,"try_44_"); # should be SBB
execute stmt1 using @string; # should be RBB
deallocate prepare stmt1;
sync_slave_with_master;
# verify that if only one table has auto_inc, it does not trigger RBB
# (we'll check in binlog further below)
connection master;
create table t12 select * from t1; # save for comparing later
drop table t1;
create table t1 (a int, b varchar(100), key(a));
select f("try_45_");
# restore table's key
create table t13 select * from t1;
drop table t1;
create table t1 (a int primary key auto_increment, b varchar(100));
# now test if it's two functions, each of them inserts in one table
drop function f;
# Manifestation of BUG#20341! re-enable this line after merging fix
# for that bug
#create table t14 select * from t2;
truncate table t2;
delimiter |;
create function f1 (x varchar(100)) returns int deterministic
begin
insert into t1 values(null,x);
return 1;
end|
create function f2 (x varchar(100)) returns int deterministic
begin
insert into t2 values(null,x);
return 1;
end|
delimiter ;|
select f1("try_46_"),f2("try_47_");
sync_slave_with_master;
insert into t2 values(2,null),(3,null),(4,null);
delete from t2 where a>=2;
connection master;
# Test with SELECT and INSERT
select f1("try_48_"),f2("try_49_");
insert into t3 values(concat("try_50_",f1("try_51_"),f2("try_52_")));
sync_slave_with_master;
# verify that if f2 does only read on an auto_inc table, this does not
# switch to RBB
connection master;
drop function f2;
delimiter |;
create function f2 (x varchar(100)) returns int deterministic
begin
declare y int;
insert into t1 values(null,x);
set y = (select count(*) from t2);
return y;
end|
delimiter ;|
select f1("try_53_"),f2("try_54_");
sync_slave_with_master;
# And now, a normal statement with a trigger (no stored functions)
connection master;
drop function f2;
delimiter |;
create trigger t1_bi before insert on t1 for each row
begin
insert into t2 values(null,"try_55_");
end|
delimiter ;|
insert into t1 values(null,"try_56_");
# and now remove one auto_increment and verify SBB
alter table t1 modify a int, drop primary key;
insert into t1 values(null,"try_57_");
sync_slave_with_master;
# Test for BUG#20499 "mixed mode with temporary table breaks binlog"
# Slave used to have only 2 rows instead of 3.
connection master;
CREATE TEMPORARY TABLE t15 SELECT UUID();
create table t16 like t15;
INSERT INTO t16 SELECT * FROM t15;
# we'll verify that this one is done RBB
insert into t16 values("try_65_");
drop table t15;
# we'll verify that this one is done SBB
insert into t16 values("try_66_");
sync_slave_with_master;
# and now compare:
connection master;
# first check that data on master is sensible
select count(*) from t1;
select count(*) from t2;
select count(*) from t3;
select count(*) from t4;
select count(*) from t5;
select count(*) from t11;
select count(*) from t20;
select count(*) from t21;
select count(*) from t22;
select count(*) from t12;
select count(*) from t13;
#select count(*) from t14;
select count(*) from t16;
select count(*) from t12;
if ($you_want_to_test_UDF)
{
......@@ -213,21 +464,48 @@ if ($you_want_to_test_UDF)
select count(*) from t9;
}
--replace_column 2 # 5 #
--replace_regex /table_id: [0-9]+/table_id: #/
show binlog events from 102;
sync_slave_with_master;
# as we're using UUID we don't SELECT but use "diff" like in rpl_row_UUID
--exec $MYSQL_DUMP --compact --order-by-primary --skip-extended-insert --no-create-info mysqltest1 > $MYSQLTEST_VARDIR/tmp/rpl_switch_stm_row_mixed_master.sql
--exec $MYSQL_DUMP_SLAVE --compact --order-by-primary --skip-extended-insert --no-create-info mysqltest1 > $MYSQLTEST_VARDIR/tmp/rpl_switch_stm_row_mixed_slave.sql
connection master;
drop database mysqltest1;
sync_slave_with_master;
# Let's compare. Note: If they match test will pass, if they do not match
# the test will show that the diff statement failed and not reject file
# will be created. You will need to go to the mysql-test dir and diff
# the files your self to see what is not matching
--exec diff $MYSQLTEST_VARDIR/tmp/rpl_switch_stm_row_mixed_master.sql $MYSQLTEST_VARDIR/tmp/rpl_switch_stm_row_mixed_slave.sql;
connection master;
# As one stored function's parameter is UUID(), its value ends up in a
# NAME_CONST in the binlog, we must hide it for repeatability
--replace_column 2 # 5 #
--replace_regex /table_id: [0-9]+/table_id: #/ /NAME_CONST\('x',.*/NAME_CONST('x',.../
show binlog events from 102;
# Now test that mysqlbinlog works fine on a binlog generated by the
# mixed mode
# BUG#11312 "DELIMITER is not written to the binary log that causes
# syntax error" makes that mysqlbinlog will fail if we pass it the
# text of queries; this forces us to use --base64-output here.
# BUG#20929 "BINLOG command causes invalid free plus assertion
# failure" makes mysqld segfault when receiving --base64-output
# So I can't enable this piece of test
# SIGH
if ($enable_when_11312_or_20929_fixed)
{
--exec $MYSQL_BINLOG --base64-output $MYSQLTEST_VARDIR/log/master-bin.000001 > $MYSQLTEST_VARDIR/tmp/mysqlbinlog_mixed.sql
drop database mysqltest1;
--exec $MYSQL < $MYSQLTEST_VARDIR/tmp/mysqlbinlog_mixed.sql
--exec $MYSQL_DUMP --compact --order-by-primary --skip-extended-insert --no-create-info mysqltest1 > $MYSQLTEST_VARDIR/tmp/rpl_switch_stm_row_mixed_master.sql
# the old mysqldump output on slave is the same as what it was on
# master before restoring on master.
--exec diff $MYSQLTEST_VARDIR/tmp/rpl_switch_stm_row_mixed_master.sql $MYSQLTEST_VARDIR/tmp/rpl_switch_stm_row_mixed_slave.sql;
}
drop database mysqltest1;
sync_slave_with_master;
......@@ -426,7 +426,9 @@ Item *create_func_unhex(Item* a)
Item *create_func_uuid(void)
{
THD *thd= current_thd;
thd->lex->binlog_row_based_if_mixed= 1;
#ifdef HAVE_ROW_BASED_REPLICATION
thd->lex->binlog_row_based_if_mixed= TRUE;
#endif
return new(thd->mem_root) Item_func_uuid();
}
......
......@@ -1343,9 +1343,9 @@ bool sys_var_thd_binlog_format::is_readonly() const
return 1;
}
/*
if in a stored function, it's too late to change mode
if in a stored function/trigger, it's too late to change mode
*/
if (thd->spcont && thd->prelocked_mode)
if (thd->in_sub_stmt)
{
my_error(ER_STORED_FUNCTION_PREVENTS_SWITCH_BINLOG_FORMAT, MYF(0));
return 1;
......
......@@ -1632,6 +1632,7 @@ sp_cache_routines_and_add_tables_aux(THD *thd, LEX *lex,
sp->add_used_tables_to_table_list(thd, &lex->query_tables_last,
rt->belong_to_view);
}
sp->propagate_attributes(lex);
}
first= FALSE;
}
......@@ -1729,14 +1730,16 @@ sp_cache_routines_and_add_tables_for_triggers(THD *thd, LEX *lex,
{
for (int j= 0; j < (int)TRG_ACTION_MAX; j++)
{
if (triggers->bodies[i][j])
sp_head *trigger_body= triggers->bodies[i][j];
if (trigger_body)
{
(void)triggers->bodies[i][j]->
(void)trigger_body->
add_used_tables_to_table_list(thd, &lex->query_tables_last,
table->belong_to_view);
sp_update_stmt_used_routines(thd, lex,
&triggers->bodies[i][j]->m_sroutines,
&trigger_body->m_sroutines,
table->belong_to_view);
trigger_body->propagate_attributes(lex);
}
}
}
......
......@@ -1675,6 +1675,16 @@ sp_head::restore_lex(THD *thd)
oldlex->next_state= sublex->next_state;
oldlex->trg_table_fields.push_back(&sublex->trg_table_fields);
#ifdef HAVE_ROW_BASED_REPLICATION
/*
If this substatement needs row-based, the entire routine does too (we
cannot switch from statement-based to row-based only for this
substatement).
*/
if (sublex->binlog_row_based_if_mixed)
m_flags|= BINLOG_ROW_BASED_IF_MIXED;
#endif
/*
Add routines which are used by statement to respective set for
this routine.
......
......@@ -126,7 +126,8 @@ public:
/* Is set if a procedure with COMMIT (implicit or explicit) | ROLLBACK */
HAS_COMMIT_OR_ROLLBACK= 128,
LOG_SLOW_STATEMENTS= 256, // Used by events
LOG_GENERAL_LOG= 512 // Used by events
LOG_GENERAL_LOG= 512, // Used by events
BINLOG_ROW_BASED_IF_MIXED= 1024
};
/* TYPE_ENUM_FUNCTION, TYPE_ENUM_PROCEDURE or TYPE_ENUM_TRIGGER */
......@@ -351,6 +352,25 @@ public:
int show_routine_code(THD *thd);
#endif
/*
This method is intended for attributes of a routine which need
to propagate upwards to the LEX of the caller (when a property of a
sp_head needs to "taint" the caller).
*/
void propagate_attributes(LEX *lex)
{
#ifdef HAVE_ROW_BASED_REPLICATION
/*
If this routine needs row-based binary logging, the entire top statement
too (we cannot switch from statement-based to row-based only for this
routine, as in statement-based the top-statement may be binlogged and
the substatements not).
*/
if (m_flags & BINLOG_ROW_BASED_IF_MIXED)
lex->binlog_row_based_if_mixed= TRUE;
#endif
}
private:
......
......@@ -49,6 +49,8 @@ static bool open_new_frm(THD *thd, TABLE_SHARE *share, const char *alias,
static void close_old_data_files(THD *thd, TABLE *table, bool abort_locks,
bool send_refresh);
static bool reopen_table(TABLE *table);
static bool
has_two_write_locked_tables_with_auto_increment(TABLE_LIST *tables);
extern "C" byte *table_cache_key(const byte *record,uint *length,
......@@ -3315,6 +3317,18 @@ int lock_tables(THD *thd, TABLE_LIST *tables, uint count, bool *need_reopen)
*need_reopen= FALSE;
#ifdef HAVE_ROW_BASED_REPLICATION
/*
CREATE ... SELECT UUID() locks no tables, we have to test here.
Note that we will not do the resetting if inside a stored
function/trigger, because the binlogging of those is decided earlier (by
the caller) and can't be changed afterwards.
*/
thd->reset_current_stmt_binlog_row_based();
if (thd->lex->binlog_row_based_if_mixed)
thd->set_current_stmt_binlog_row_based_if_mixed();
#endif /*HAVE_ROW_BASED_REPLICATION*/
if (!tables)
DBUG_RETURN(0);
......@@ -3345,6 +3359,19 @@ int lock_tables(THD *thd, TABLE_LIST *tables, uint count, bool *need_reopen)
{
thd->in_lock_tables=1;
thd->options|= OPTION_TABLE_LOCK;
#ifdef HAVE_ROW_BASED_REPLICATION
/*
If we have >= 2 different tables to update with auto_inc columns,
statement-based binlogging won't work. We can solve this problem in
mixed mode by switching to row-based binlogging:
*/
if (thd->variables.binlog_format == BINLOG_FORMAT_MIXED &&
has_two_write_locked_tables_with_auto_increment(tables))
{
thd->lex->binlog_row_based_if_mixed= TRUE;
thd->set_current_stmt_binlog_row_based_if_mixed();
}
#endif
}
if (! (thd->lock= mysql_lock_tables(thd, start, (uint) (ptr - start),
......@@ -6477,3 +6504,46 @@ void mysql_wait_completed_table(ALTER_PARTITION_PARAM_TYPE *lpt, TABLE *my_table
DBUG_VOID_RETURN;
}
/*
Tells if two (or more) tables have auto_increment columns and we want to
lock those tables with a write lock.
SYNOPSIS
has_two_write_locked_tables_with_auto_increment
tables Table list
NOTES:
Call this function only when you have established the list of all tables
which you'll want to update (including stored functions, triggers, views
inside your statement).
RETURN
0 No
1 Yes
*/
static bool
has_two_write_locked_tables_with_auto_increment(TABLE_LIST *tables)
{
char *first_table_name= NULL, *first_db;
for (TABLE_LIST *table= tables; table; table= table->next_global)
{
/* we must do preliminary checks as table->table may be NULL */
if (!table->placeholder() && !table->schema_table &&
table->table->found_next_number_field &&
(table->lock_type >= TL_WRITE_ALLOW_WRITE))
{
if (first_table_name == NULL)
{
first_table_name= table->table_name;
first_db= table->db;
DBUG_ASSERT(first_db);
}
else if (strcmp(first_db, table->db) ||
strcmp(first_table_name, table->table_name))
return 1;
}
}
return 0;
}
......@@ -1418,7 +1418,17 @@ public:
inline void set_current_stmt_binlog_row_based_if_mixed()
{
#ifdef HAVE_ROW_BASED_REPLICATION
if (variables.binlog_format == BINLOG_FORMAT_MIXED)
/*
If in a stored/function trigger, the caller should already have done the
change. We test in_sub_stmt to prevent introducing bugs where people
wouldn't ensure that, and would switch to row-based mode in the middle
of executing a stored function/trigger (which is too late, see also
reset_current_stmt_binlog_row_based()); this condition will make their
tests fail and so force them to propagate the
lex->binlog_row_based_if_mixed upwards to the caller.
*/
if ((variables.binlog_format == BINLOG_FORMAT_MIXED) &&
(in_sub_stmt == 0))
current_stmt_binlog_row_based= TRUE;
#endif
}
......@@ -1437,8 +1447,26 @@ public:
inline void reset_current_stmt_binlog_row_based()
{
#ifdef HAVE_ROW_BASED_REPLICATION
/*
If there are temporary tables, don't reset back to
statement-based. Indeed it could be that:
CREATE TEMPORARY TABLE t SELECT UUID(); # row-based
# and row-based does not store updates to temp tables
# in the binlog.
INSERT INTO u SELECT * FROM t; # stmt-based
and then the INSERT will fail as data inserted into t was not logged.
So we continue with row-based until the temp table is dropped.
If we are in a stored function or trigger, we mustn't reset in the
middle of its execution (as the binary logging way of a stored function
or trigger is decided when it starts executing, depending for example on
the caller (for a stored function: if caller is SELECT or
INSERT/UPDATE/DELETE...).
*/
if ((temporary_tables == NULL) && (in_sub_stmt == 0))
{
current_stmt_binlog_row_based=
test(variables.binlog_format == BINLOG_FORMAT_ROW);
}
#else
current_stmt_binlog_row_based= FALSE;
#endif
......
......@@ -183,7 +183,6 @@ void lex_start(THD *thd, const uchar *buf, uint length)
lex->nest_level=0 ;
lex->allow_sum_func= 0;
lex->in_sum_func= NULL;
lex->binlog_row_based_if_mixed= 0;
DBUG_VOID_RETURN;
}
......@@ -1625,6 +1624,9 @@ void Query_tables_list::reset_query_tables_list(bool init)
sroutines_list.empty();
sroutines_list_own_last= sroutines_list.next;
sroutines_list_own_elements= 0;
#ifdef HAVE_ROW_BASED_REPLICATION
binlog_row_based_if_mixed= FALSE;
#endif
}
......
......@@ -793,6 +793,16 @@ public:
byte **sroutines_list_own_last;
uint sroutines_list_own_elements;
#ifdef HAVE_ROW_BASED_REPLICATION
/*
Tells if the parsing stage detected that some items require row-based
binlogging to give a reliable binlog/replication, or if we will use
stored functions or triggers which themselves need require row-based
binlogging.
*/
bool binlog_row_based_if_mixed;
#endif
/*
These constructor and destructor serve for creation/destruction
of Query_tables_list instances which are used as backup storage.
......@@ -970,11 +980,7 @@ typedef struct st_lex : public Query_tables_list
uint8 create_view_check;
bool drop_if_exists, drop_temporary, local_file, one_shot_set;
bool in_comment, ignore_space, verbose, no_write_to_binlog;
/*
binlog_row_based_if_mixed tells if the parsing stage detected that some
items require row-based binlogging to give a reliable binlog/replication.
*/
bool tx_chain, tx_release, binlog_row_based_if_mixed;
bool tx_chain, tx_release;
/*
Special JOIN::prepare mode: changing of query is prohibited.
When creating a view, we need to just check its syntax omitting
......
......@@ -2503,11 +2503,6 @@ mysql_execute_command(THD *thd)
statistic_increment(thd->status_var.com_stat[lex->sql_command],
&LOCK_status);
#ifdef HAVE_ROW_BASED_REPLICATION
if (lex->binlog_row_based_if_mixed)
thd->set_current_stmt_binlog_row_based_if_mixed();
#endif /*HAVE_ROW_BASED_REPLICATION*/
switch (lex->sql_command) {
case SQLCOM_SHOW_EVENTS:
if ((res= check_access(thd, EVENT_ACL, thd->lex->select_lex.db, 0, 0, 0,
......@@ -5166,9 +5161,6 @@ end:
*/
if (thd->one_shot_set && lex->sql_command != SQLCOM_SET_OPTION)
reset_one_shot_variables(thd);
#ifdef HAVE_ROW_BASED_REPLICATION
thd->reset_current_stmt_binlog_row_based();
#endif /*HAVE_ROW_BASED_REPLICATION*/
/*
The return value for ROW_COUNT() is "implementation dependent" if the
......@@ -5846,6 +5838,11 @@ void mysql_reset_thd_for_next_command(THD *thd)
thd->rand_used= 0;
thd->sent_row_count= thd->examined_row_count= 0;
}
#ifdef HAVE_ROW_BASED_REPLICATION
/* If in a routine, we reset only at end of top statement. */
thd->reset_current_stmt_binlog_row_based();
#endif /*HAVE_ROW_BASED_REPLICATION*/
DBUG_VOID_RETURN;
}
......
......@@ -997,6 +997,15 @@ bool mysql_make_view(THD *thd, File_parser *parser, TABLE_LIST *table)
table->next_global= view_tables;
}
#ifdef HAVE_ROW_BASED_REPLICATION
/*
If the view's body needs row-based binlogging (e.g. the VIEW is created
from SELECT UUID()), the top statement also needs it.
*/
if (lex->binlog_row_based_if_mixed)
old_lex->binlog_row_based_if_mixed= TRUE;
#endif
/*
If we are opening this view as part of implicit LOCK TABLES, then
this view serves as simple placeholder and we should not continue
......
......@@ -6374,7 +6374,7 @@ simple_expr:
if (udf->type == UDFTYPE_AGGREGATE)
Select->in_sum_expr--;
Lex->binlog_row_based_if_mixed= 1;
Lex->binlog_row_based_if_mixed= TRUE;
switch (udf->returns) {
case STRING_RESULT:
......
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