mariadb/mysql-test/extra/rpl_tests/rpl_row_basic.test
Michael Widenius eb75edfb2b Instead of writing "Errcode" to the log for Slave errors, use "Internal MariaDB error code"
This makes it clear that the error code has nothing to do with errno.


mysql-test/include/mtr_warnings.sql:
  Fixed suppression for new slave error messages
mysql-test/lib/My/Test.pm:
  Use 'send' instead of 'print' to avoid errors about "wrong class ... back attempt"
mysql-test/lib/v1/mtr_report.pl:
  Fixed suppression for new slave error messages
mysql-test/mysql-test-run.pl:
  Fixed suppression for new slave error messages
  Removed warning from perl 5.16.2 about arrays
mysql-test/r/flush_read_lock.result:
  Fixed suppression for new slave error messages
sql/rpl_reporting.cc:
  Instead of writing "Errcode" to the log for Slave errors, use "Internal MariaDB error code"
2013-05-03 01:54:47 +03:00

683 lines
23 KiB
Text

#
# Basic tests of row-level logging
#
#
# First we test tables with only an index.
#
#BUG#12662190 - COM_COMMIT IS NOT INCREMENTED FROM THE BINARY LOGS ON SLAVE, COM_BEGIN IS
#Testing command counters -BEFORE
#Storing the before counts of Slave
connection slave;
let $slave_com_commit_before= query_get_value(SHOW GLOBAL STATUS LIKE 'com_commit', Value, 1);
let $slave_com_insert_before= query_get_value(SHOW GLOBAL STATUS LIKE 'com_insert', Value, 1);
let $slave_com_delete_before= query_get_value(SHOW GLOBAL STATUS LIKE 'com_delete', Value, 1);
let $slave_com_update_before= query_get_value(SHOW GLOBAL STATUS LIKE 'com_update', Value, 1);
connection master;
eval CREATE TABLE t1 (C1 CHAR(1), C2 CHAR(1), INDEX (C1)$extra_index_t1) ENGINE = $type ;
SELECT * FROM t1;
sync_slave_with_master;
SELECT * FROM t1;
# Testing insert
connection master;
INSERT INTO t1 VALUES ('A','B'), ('X','Y'), ('X','X');
INSERT INTO t1 VALUES ('A','C'), ('X','Z'), ('A','A');
SELECT * FROM t1 ORDER BY C1,C2;
sync_slave_with_master;
SELECT * FROM t1 ORDER BY C1,C2;
# Testing delete
# Observe that are several rows having the value for the index but only one
# should be deleted.
connection master;
DELETE FROM t1 WHERE C1 = C2;
SELECT * FROM t1 ORDER BY C1,C2;
sync_slave_with_master;
SELECT * FROM t1 ORDER BY C1,C2;
#
# Testing update.
# Note that we have a condition on a column that is not part of the index for
# the table. The right row should be updated nevertheless.
#
connection master;
UPDATE t1 SET C2 = 'I' WHERE C1 = 'A' AND C2 = 'C';
SELECT * FROM t1 ORDER BY C1,C2;
sync_slave_with_master;
SELECT * FROM t1 ORDER BY C1,C2;
#BUG#12662190 - COM_COMMIT IS NOT INCREMENTED FROM THE BINARY LOGS ON SLAVE, COM_BEGIN IS
#Testing command counters -AFTER
#Storing the after counts of Slave
connection slave;
let $slave_com_commit_after= query_get_value(SHOW GLOBAL STATUS LIKE 'com_commit', Value, 1);
let $slave_com_insert_after= query_get_value(SHOW GLOBAL STATUS LIKE 'com_insert', Value, 1);
let $slave_com_delete_after= query_get_value(SHOW GLOBAL STATUS LIKE 'com_delete', Value, 1);
let $slave_com_update_after= query_get_value(SHOW GLOBAL STATUS LIKE 'com_update', Value, 1);
#Commit count check
--let $assert_text= Counter for COM_COMMIT is consistent with the number of actual commits
--let $assert_cond= $slave_com_commit_after - $slave_com_commit_before = 4
--source include/assert.inc
#Insert count check
--let $assert_text= Counter for COM_INSERT is consistent with the number of actual inserts
--let $assert_cond= $slave_com_insert_after - $slave_com_insert_before = 2
--source include/assert.inc
#Delete count check
--let $assert_text= Counter for COM_DELETE is consistent with the number of actual deletes
--let $assert_cond= $slave_com_delete_after - $slave_com_delete_before = 1
--source include/assert.inc
#Update count check
--let $assert_text= Counter for COM_UPDATE is consistent with the number of actual updates
--let $assert_cond= $slave_com_update_after - $slave_com_update_before = 1
--source include/assert.inc
# Testing update with a condition that does not match any rows, but
# which has a match for the index.
connection master;
UPDATE t1 SET c2 = 'Q' WHERE c1 = 'A' AND c2 = 'N';
SELECT * FROM t1 ORDER BY c1,c2;
sync_slave_with_master;
SELECT * FROM t1 ORDER BY c1,c2;
#
# Testing table with primary key
#
connection master;
eval CREATE TABLE t2 (c1 INT, c12 char(1), c2 INT, PRIMARY KEY (c1)) ENGINE = $type ;
INSERT INTO t2
VALUES (1,'A',2), (2,'A',4), (3,'A',9), (4,'A',15), (5,'A',25),
(6,'A',35), (7,'A',50), (8,'A',64), (9,'A',81);
SELECT * FROM t2 ORDER BY c1,c2;
SELECT * FROM t2 WHERE c2 = c1 * c1 ORDER BY c1,c2;
sync_slave_with_master;
SELECT * FROM t2 ORDER BY c1,c2;
SELECT * FROM t2 WHERE c2 = c1 * c1 ORDER BY c1,c2;
connection master;
UPDATE t2 SET c2 = c1*c1 WHERE c2 != c1*c1;
SELECT * FROM t2 WHERE c2 = c1 * c1 ORDER BY c1,c2;
sync_slave_with_master;
SELECT * FROM t2 WHERE c2 = c1 * c1 ORDER BY c1,c2;
# Testing update with a condition that does not match any rows, but
# which has a match for the primary key.
connection master;
UPDATE t2 SET c12 = 'Q' WHERE c1 = 1 AND c2 = 999;
SELECT * FROM t2 ORDER BY c1,c2;
sync_slave_with_master;
SELECT * FROM t2 ORDER BY c1,c2;
connection master;
DELETE FROM t2 WHERE c1 % 4 = 0;
SELECT * FROM t2 ORDER BY c1,c2;
sync_slave_with_master;
SELECT * FROM t2 ORDER BY c1,c2;
connection master;
UPDATE t2 SET c12='X';
#
# Testing table with a multi-column primary key.
#
connection master;
eval CREATE TABLE t3 (C1 CHAR(1), C2 CHAR(1), pk1 INT, C3 CHAR(1), pk2 INT, PRIMARY KEY (pk1,pk2)) ENGINE = $type ;
INSERT INTO t3 VALUES ('A','B',1,'B',1), ('X','Y',2,'B',1), ('X','X',3,'B',1);
INSERT INTO t3 VALUES ('A','C',1,'B',2), ('X','Z',2,'B',2), ('A','A',3,'B',2);
SELECT * FROM t3 ORDER BY C1,C2;
sync_slave_with_master;
SELECT * FROM t3 ORDER BY C1,C2;
connection master;
DELETE FROM t3 WHERE C1 = C2;
SELECT * FROM t3 ORDER BY C1,C2;
sync_slave_with_master;
SELECT * FROM t3 ORDER BY C1,C2;
connection master;
UPDATE t3 SET C2 = 'I' WHERE C1 = 'A' AND C2 = 'C';
SELECT * FROM t3 ORDER BY C1,C2;
sync_slave_with_master;
SELECT * FROM t3 ORDER BY C1,C2;
#
# Testing table without index or primary key
#
connection master;
eval CREATE TABLE t6 (C1 CHAR(1), C2 CHAR(1), C3 INT$extra_index_t6) ENGINE = $type;
# Testing insert
INSERT INTO t6 VALUES ('A','B',1), ('X','Y',2), ('X','X',3);
INSERT INTO t6 VALUES ('A','C',4), ('X','Z',5), ('A','A',6);
SELECT * FROM t6 ORDER BY C3;
sync_slave_with_master;
SELECT * FROM t6 ORDER BY C3;
# Testing delete
# Observe that are several rows having the value for the index but only one
# should be deleted.
connection master;
DELETE FROM t6 WHERE C1 = C2;
SELECT * FROM t6 ORDER BY C3;
sync_slave_with_master;
SELECT * FROM t6 ORDER BY C3;
#
# Testing update.
# Note that we have a condition on a column that is not part of the index for
# the table. The right row should be updated nevertheless.
#
connection master;
UPDATE t6 SET C2 = 'I' WHERE C1 = 'A' AND C2 = 'C';
SELECT * FROM t6 ORDER BY C3;
sync_slave_with_master;
SELECT * FROM t6 ORDER BY C3;
# now mixing the 3 tables without begin/commit
connection master;
eval CREATE TABLE t5 (C1 CHAR(1), C2 CHAR(1), C3 INT PRIMARY KEY) ENGINE = $type ;
INSERT INTO t5 VALUES ('A','B',1), ('X','Y',2), ('X','X',3);
INSERT INTO t5 VALUES ('A','C',4), ('X','Z',5), ('A','A',6);
UPDATE t5,t2,t3 SET t5.C2='Q', t2.c12='R', t3.C3 ='S' WHERE t5.C1 = t2.c12 AND t5.C1 = t3.C1;
SELECT * FROM t5,t2,t3 WHERE t5.C2='Q' AND t2.c12='R' AND t3.C3 ='S' ORDER BY t5.C3,t2.c1,t3.pk1,t3.pk2;
sync_slave_with_master;
SELECT * FROM t5,t2,t3 WHERE t5.C2='Q' AND t2.c12='R' AND t3.C3 ='S' ORDER BY t5.C3,t2.c1,t3.pk1,t3.pk2;
#
# Testing special column types
#
if (`select char_length('$bit_field_special') > 0`) {
connection slave;
SET @saved_slave_type_conversions = @@SLAVE_TYPE_CONVERSIONS;
eval SET GLOBAL SLAVE_TYPE_CONVERSIONS = '$bit_field_special';
}
connection master;
eval CREATE TABLE t4 (C1 CHAR(1) PRIMARY KEY, B1 BIT(1), B2 BIT(1) NOT NULL DEFAULT 0, C2 CHAR(1) NOT NULL DEFAULT 'A') ENGINE = $type ;
INSERT INTO t4 SET C1 = 1;
SELECT C1,HEX(B1),HEX(B2) FROM t4 ORDER BY C1;
sync_slave_with_master;
SELECT C1,HEX(B1),HEX(B2) FROM t4 ORDER BY C1;
if (`select char_length('$bit_field_special') > 0`) {
SET GLOBAL SLAVE_TYPE_CONVERSIONS = @saved_slave_type_conversions;
}
#
# Testing conflicting operations
#
connection master;
eval CREATE TABLE t7 (C1 INT PRIMARY KEY, C2 INT) ENGINE = $type ;
sync_slave_with_master;
--echo --- on slave: original values ---
INSERT INTO t7 VALUES (1,3), (2,6), (3,9);
SELECT * FROM t7 ORDER BY C1;
# since bug#31552/31609 idempotency is not default any longer. In order
# the preceeding test INSERT INTO t7 to pass the mode is switched
# temprorarily
set @@global.slave_exec_mode= 'IDEMPOTENT';
connection master;
--echo --- on master: new values inserted ---
INSERT INTO t7 VALUES (1,2), (2,4), (3,6);
SELECT * FROM t7 ORDER BY C1;
sync_slave_with_master;
set @@global.slave_exec_mode= default;
--echo --- on slave: old values should be overwritten by replicated values ---
SELECT * FROM t7 ORDER BY C1;
#
# A more complicated test where the table has several keys and we are
# causing a conflict for a key that is not "last".
#
connection master;
--echo --- on master ---
eval CREATE TABLE t8 (a INT PRIMARY KEY, b INT UNIQUE, c INT UNIQUE) ENGINE = $type ;
# First we make sure that the constraints are correctly set.
INSERT INTO t8 VALUES (99,99,99);
--error ER_DUP_ENTRY
INSERT INTO t8 VALUES (99,22,33);
--error ER_DUP_ENTRY
INSERT INTO t8 VALUES (11,99,33);
--error ER_DUP_ENTRY
INSERT INTO t8 VALUES (11,22,99);
SELECT * FROM t8 ORDER BY a;
sync_slave_with_master;
--echo --- on slave ---
SELECT * FROM t8 ORDER BY a;
INSERT INTO t8 VALUES (1,2,3), (2,4,6), (3,6,9);
SELECT * FROM t8 ORDER BY a;
# since bug#31552/31609 idempotency is not default any longer. In order
# the preceeding test INSERT INTO t8 to pass the mode is switched
# temprorarily
set @@global.slave_exec_mode= 'IDEMPOTENT';
connection master;
--echo --- on master ---
# We insert a row that will cause conflict on the primary key but not
# on the other keys.
INSERT INTO t8 VALUES (2,4,8);
sync_slave_with_master;
set @@global.slave_exec_mode= default;
--echo --- on slave ---
SELECT * FROM t8 ORDER BY a;
# BUG#31552: Replication breaks when deleting rows from out-of-sync
# table without PK
--echo **** Test for BUG#31552 ****
--echo **** On Master ****
# Clean up t1 so that we can use it.
connection master;
DELETE FROM t1;
sync_slave_with_master;
# Just to get a clean binary log
--source include/rpl_reset.inc
--echo **** On Master ****
connection master;
INSERT INTO t1 VALUES ('K','K'), ('L','L'), ('M','M');
--echo **** On Master ****
sync_slave_with_master;
# since bug#31552/31609 idempotency is not default any longer. In order
# the following test DELETE FROM t1 to pass the mode is switched
# temprorarily
set @@global.slave_exec_mode= 'IDEMPOTENT';
DELETE FROM t1 WHERE C1 = 'L';
connection master;
DELETE FROM t1;
query_vertical SELECT COUNT(*) FROM t1 ORDER BY c1,c2;
sync_slave_with_master;
set @@global.slave_exec_mode= default;
source include/check_slave_is_running.inc;
query_vertical SELECT COUNT(*) FROM t1 ORDER BY c1,c2;
# BUG#37076: TIMESTAMP/DATETIME values are not replicated correctly
# between machines with mixed endiannes
# (regression test)
--echo **** Test for BUG#37076 ****
--echo **** On Master ****
connection master;
DROP TABLE IF EXISTS t1;
CREATE TABLE t1 (a TIMESTAMP, b DATETIME, c DATE);
INSERT INTO t1 VALUES(
'2005-11-14 01:01:01', '2005-11-14 01:01:02', '2005-11-14');
--echo **** On Slave ****
sync_slave_with_master slave;
SELECT * FROM t1;
#
# cleanup
#
connection master;
DROP TABLE IF EXISTS t1,t2,t3,t4,t5,t6,t7,t8;
sync_slave_with_master;
#
# BUG#37426: RBR breaks for CHAR() UTF8 fields > 85 chars
#
# We have 4 combinations to test with respect to the field length
# (i.e., the number of bytes) of the CHAR fields:
#
# 1. Replicating from CHAR<256 to CHAR<256
# 2. Replicating from CHAR<256 to CHAR>255
# 3. Replicating from CHAR>255 to CHAR<256
# 4. Replicating from CHAR>255 to CHAR>255
# We also make a special case of using the max size of a field on the
# master, i.e. CHAR(255) in UTF-8, giving another three cases.
#
# 5. Replicating UTF-8 CHAR(255) to CHAR(<256)
# 6. Replicating UTF-8 CHAR(255) to CHAR(>255)
# 7. Replicating UTF-8 CHAR(255) to CHAR(255) UTF-8
connection master;
eval CREATE TABLE t1 (i INT NOT NULL,
c CHAR(16) CHARACTER SET utf8 NOT NULL,
j INT NOT NULL) ENGINE = $type ;
eval CREATE TABLE t2 (i INT NOT NULL,
c CHAR(16) CHARACTER SET utf8 NOT NULL,
j INT NOT NULL) ENGINE = $type ;
sync_slave_with_master;
ALTER TABLE t2 MODIFY c CHAR(128) CHARACTER SET utf8 NOT NULL;
connection master;
eval CREATE TABLE t3 (i INT NOT NULL,
c CHAR(128) CHARACTER SET utf8 NOT NULL,
j INT NOT NULL) ENGINE = $type ;
sync_slave_with_master;
ALTER TABLE t3 MODIFY c CHAR(16) CHARACTER SET utf8 NOT NULL;
connection master;
eval CREATE TABLE t4 (i INT NOT NULL,
c CHAR(128) CHARACTER SET utf8 NOT NULL,
j INT NOT NULL) ENGINE = $type ;
eval CREATE TABLE t5 (i INT NOT NULL,
c CHAR(255) CHARACTER SET utf8 NOT NULL,
j INT NOT NULL) ENGINE = $type ;
sync_slave_with_master;
ALTER TABLE t5 MODIFY c CHAR(16) CHARACTER SET utf8 NOT NULL;
connection master;
eval CREATE TABLE t6 (i INT NOT NULL,
c CHAR(255) CHARACTER SET utf8 NOT NULL,
j INT NOT NULL) ENGINE = $type ;
sync_slave_with_master;
ALTER TABLE t6 MODIFY c CHAR(128) CHARACTER SET utf8 NOT NULL;
connection master;
eval CREATE TABLE t7 (i INT NOT NULL,
c CHAR(255) CHARACTER SET utf8 NOT NULL,
j INT NOT NULL) ENGINE = $type ;
connection slave;
SET @saved_slave_type_conversions = @@slave_type_conversions;
SET GLOBAL SLAVE_TYPE_CONVERSIONS = 'ALL_NON_LOSSY';
--echo [expecting slave to replicate correctly]
connection master;
INSERT INTO t1 VALUES (1, "", 1);
INSERT INTO t1 VALUES (2, repeat(_utf8'a', 16), 2);
sync_slave_with_master;
let $diff_tables= master:t1, slave:t1;
source include/diff_tables.inc;
--echo [expecting slave to replicate correctly]
connection master;
INSERT INTO t2 VALUES (1, "", 1);
INSERT INTO t2 VALUES (2, repeat(_utf8'a', 16), 2);
sync_slave_with_master;
let $diff_tables= master:t2, slave:t2;
source include/diff_tables.inc;
connection slave;
SET GLOBAL SLAVE_TYPE_CONVERSIONS = @saved_slave_type_conversions;
call mtr.add_suppression("Slave SQL.*Table definition on master and slave does not match: Column 1 size mismatch.* error.* 1535");
call mtr.add_suppression("Slave SQL.*Could not execute Delete_rows event on table test.t1.* error.* 1032");
call mtr.add_suppression("Slave SQL.*Column 1 of table .test.t.. cannot be converted from type.*, error.* 1677");
--let $rpl_only_running_threads= 1
--source include/rpl_reset.inc
--echo [expecting slave to replicate correctly]
connection master;
INSERT INTO t4 VALUES (1, "", 1);
INSERT INTO t4 VALUES (2, repeat(_utf8'a', 128), 2);
sync_slave_with_master;
let $diff_tables= master:t4, slave:t4;
source include/diff_tables.inc;
--echo [expecting slave to stop]
connection master;
INSERT INTO t5 VALUES (1, "", 1);
INSERT INTO t5 VALUES (2, repeat(_utf8'a', 255), 2);
connection slave;
# 1677 = ER_SLAVE_CONVERSION_FAILED
--let $slave_sql_errno= 1677
--let $show_slave_sql_error= 1
--source include/wait_for_slave_sql_error.inc
--source include/rpl_reset.inc
--echo [expecting slave to stop]
connection master;
INSERT INTO t6 VALUES (1, "", 1);
INSERT INTO t6 VALUES (2, repeat(_utf8'a', 255), 2);
connection slave;
# 1677 = ER_SLAVE_CONVERSION_FAILED
--let $slave_sql_errno= 1677
--let $show_slave_sql_error= 1
--source include/wait_for_slave_sql_error.inc
--source include/rpl_reset.inc
--echo [expecting slave to replicate correctly]
connection master;
INSERT INTO t7 VALUES (1, "", 1);
INSERT INTO t7 VALUES (2, repeat(_utf8'a', 255), 2);
sync_slave_with_master;
let $diff_tables= master:t7, slave:t7;
source include/diff_tables.inc;
connection master;
drop table t1, t2, t3, t4, t5, t6, t7;
sync_slave_with_master;
#
# BUG#32709: Assertion failed: trx_data->empty(), file .\log.cc, line 1293
#
connection master;
eval CREATE TABLE t1 (a INT PRIMARY KEY) ENGINE=$type;
INSERT INTO t1 VALUES (1), (2), (3);
--error ER_DUP_ENTRY
UPDATE t1 SET a = 10;
INSERT INTO t1 VALUES (4);
sync_slave_with_master;
let $diff_tables= master:t1, slave:t1;
source include/diff_tables.inc;
connection master;
drop table t1;
sync_slave_with_master;
#
# Bug #38230 Differences between master and slave after
# UPDATE or DELETE with LIMIT with pk
#
# the regression test verifies consistency via selecting
--disable_abort_on_error
--connection master
--disable_warnings
DROP TABLE IF EXISTS t1, t2;
--enable_warnings
eval CREATE TABLE t1 (
`pk` int(11) NOT NULL AUTO_INCREMENT,
`int_nokey` int(11) NOT NULL,
`int_key` int(11) NOT NULL,
`date_key` date NOT NULL,
`date_nokey` date NOT NULL,
`time_key` time NOT NULL,
`time_nokey` time NOT NULL,
`datetime_key` datetime NOT NULL,
`datetime_nokey` datetime NOT NULL,
`varchar_key` varchar(1) NOT NULL,
`varchar_nokey` varchar(1) NOT NULL,
PRIMARY KEY (`pk`),
KEY `int_key` (`int_key`),
KEY `date_key` (`date_key`),
KEY `time_key` (`time_key`),
KEY `datetime_key` (`datetime_key`),
KEY `varchar_key` (`varchar_key`)
) ENGINE=$type;
INSERT INTO t1 VALUES (1,8,5,'0000-00-00','0000-00-00','10:37:38','10:37:38','0000-00-00 00:00:00','0000-00-00 00:00:00','p','p'),(2,0,9,'0000-00-00','0000-00-00','00:00:00','00:00:00','2007-10-14 00:00:00','2007-10-14 00:00:00','d','d');
eval CREATE TABLE t2 (
`pk` int(11) NOT NULL AUTO_INCREMENT,
`int_nokey` int(11) NOT NULL,
`int_key` int(11) NOT NULL,
`date_key` date NOT NULL,
`date_nokey` date NOT NULL,
`time_key` time NOT NULL,
`time_nokey` time NOT NULL,
`datetime_key` datetime NOT NULL,
`datetime_nokey` datetime NOT NULL,
`varchar_key` varchar(1) NOT NULL,
`varchar_nokey` varchar(1) NOT NULL,
PRIMARY KEY (`pk`),
KEY `int_key` (`int_key`),
KEY `date_key` (`date_key`),
KEY `time_key` (`time_key`),
KEY `datetime_key` (`datetime_key`),
KEY `varchar_key` (`varchar_key`)
) ENGINE=$type;
INSERT INTO t2 VALUES (1,1,6,'2005-12-23','2005-12-23','02:24:28','02:24:28','0000-00-00 00:00:00','0000-00-00 00:00:00','g','g'),(2,0,3,'2009-09-14','2009-09-14','00:00:00','00:00:00','2000-01-30 16:39:40','2000-01-30 16:39:40','q','q'),(3,0,3,'0000-00-00','0000-00-00','00:00:00','00:00:00','0000-00-00 00:00:00','0000-00-00 00:00:00','c','c'),(4,1,6,'2007-03-29','2007-03-29','15:49:00','15:49:00','0000-00-00 00:00:00','0000-00-00 00:00:00','m','m'),(5,4,0,'2002-12-04','2002-12-04','00:00:00','00:00:00','0000-00-00 00:00:00','0000-00-00 00:00:00','o','o'),(6,9,0,'2005-01-28','2005-01-28','00:00:00','00:00:00','2001-05-18 00:00:00','2001-05-18 00:00:00','w','w'),(7,6,0,'0000-00-00','0000-00-00','06:57:25','06:57:25','0000-00-00 00:00:00','0000-00-00 00:00:00','m','m'),(8,0,0,'0000-00-00','0000-00-00','00:00:00','00:00:00','0000-00-00 00:00:00','0000-00-00 00:00:00','z','z'),(9,4,6,'2006-08-15','2006-08-15','00:00:00','00:00:00','2002-04-12 14:44:25','2002-04-12 14:44:25','j','j'),(10,0,5,'2006-12-20','2006-12-20','10:13:53','10:13:53','2008-07-22 00:00:00','2008-07-22 00:00:00','y','y'),(11,9,7,'0000-00-00','0000-00-00','00:00:00','00:00:00','2004-07-05 00:00:00','2004-07-05 00:00:00','{','{'),(12,4,3,'2007-01-26','2007-01-26','23:00:51','23:00:51','2001-05-16 00:00:00','2001-05-16 00:00:00','f','f'),(13,7,0,'2004-03-27','2004-03-27','00:00:00','00:00:00','2005-01-24 03:30:37','2005-01-24 03:30:37','',''),(14,6,0,'2006-07-26','2006-07-26','18:43:57','18:43:57','0000-00-00 00:00:00','0000-00-00 00:00:00','{','{'),(15,0,6,'2000-01-14','2000-01-14','00:00:00','00:00:00','2000-09-21 00:00:00','2000-09-21 00:00:00','o','o'),(16,9,8,'0000-00-00','0000-00-00','21:15:08','21:15:08','0000-00-00 00:00:00','0000-00-00 00:00:00','a','a'),(17,2,0,'2004-10-27','2004-10-27','00:00:00','00:00:00','2004-03-24 22:13:43','2004-03-24 22:13:43','',''),(18,7,4,'0000-00-00','0000-00-00','08:38:27','08:38:27','2002-03-18 19:51:44','2002-03-18 19:51:44','t','t'),(19,5,3,'2008-03-07','2008-03-07','03:29:07','03:29:07','2007-12-01 18:44:44','2007-12-01 18:44:44','t','t'),(20,0,0,'2002-04-09','2002-04-09','16:06:03','16:06:03','2009-04-22 00:00:00','2009-04-22 00:00:00','n','n');
DELETE FROM t2 WHERE `int_key` < 3 LIMIT 1;
UPDATE t1 SET `int_key` = 3 ORDER BY `pk` LIMIT 4;
DELETE FROM t2 WHERE `int_key` < 3 LIMIT 1;
DELETE FROM t2 WHERE `pk` < 6 LIMIT 1;
UPDATE t1 SET `int_key` = 6 ORDER BY `pk` LIMIT 3;
DELETE FROM t2 WHERE `pk` < 6 LIMIT 1;
UPDATE t1 SET `pk` = 6 ORDER BY `int_key` LIMIT 6;
DELETE FROM t2 WHERE `pk` < 7 LIMIT 1;
UPDATE t1 SET `int_key` = 4 ORDER BY `pk` LIMIT 6;
--sync_slave_with_master
--echo *** results: t2 must be consistent ****
let $diff_tables= master:t2, slave:t2;
source include/diff_tables.inc;
--connection master
DROP TABLE t1, t2;
--enable_abort_on_error
--echo EOF OF TESTS
#
# BUG#40004: Replication failure with no PK + no indexes
#
# The test cases are taken from the bug report. It is difficult to
# produce a test case that generates a HA_ERR_RECORD_DELETED, so we go
# with the test cases we have.
connection master;
eval CREATE TABLE t1 (a int) ENGINE=$type;
INSERT IGNORE INTO t1 VALUES (NULL);
INSERT INTO t1 ( a ) VALUES ( 0 );
INSERT INTO t1 ( a ) VALUES ( 9 );
INSERT INTO t1 ( a ) VALUES ( 2 );
INSERT INTO t1 ( a ) VALUES ( 9 );
INSERT INTO t1 ( a ) VALUES ( 5 );
UPDATE t1 SET a = 5 WHERE a = 9;
DELETE FROM t1 WHERE a < 6;
UPDATE t1 SET a = 9 WHERE a < 3;
INSERT INTO t1 ( a ) VALUES ( 3 );
UPDATE t1 SET a = 0 WHERE a < 4;
UPDATE t1 SET a = 8 WHERE a < 5;
sync_slave_with_master;
let $diff_tables= master:t1, slave:t1;
source include/diff_tables.inc;
connection master;
drop table t1;
sync_slave_with_master;
#
# Bug #39752: Replication failure on RBR + MyISAM + no PK
#
# The test cases are taken from the bug report. It is difficult to
# produce a test case that generates a HA_ERR_RECORD_DELETED, so we go
# with the test cases we have.
connection master;
# Since t1 contain a bit field, we have to do this trick to handle InnoDB
if (`select char_length('$bit_field_special') > 0`) {
connection slave;
SET @saved_slave_type_conversions = @@SLAVE_TYPE_CONVERSIONS;
eval SET GLOBAL SLAVE_TYPE_CONVERSIONS = '$bit_field_special';
}
--disable_warnings
connection master;
eval CREATE TABLE t1 (a bit) ENGINE=$type;
INSERT IGNORE INTO t1 VALUES (NULL);
INSERT INTO t1 ( a ) VALUES ( 0 );
UPDATE t1 SET a = 0 WHERE a = 1 LIMIT 3;
INSERT INTO t1 ( a ) VALUES ( 5 );
DELETE FROM t1 WHERE a < 2 LIMIT 4;
DELETE FROM t1 WHERE a < 9 LIMIT 4;
INSERT INTO t1 ( a ) VALUES ( 9 );
UPDATE t1 SET a = 8 WHERE a = 0 LIMIT 6;
INSERT INTO t1 ( a ) VALUES ( 8 );
UPDATE t1 SET a = 0 WHERE a < 6 LIMIT 0;
INSERT INTO t1 ( a ) VALUES ( 4 );
INSERT INTO t1 ( a ) VALUES ( 3 );
UPDATE t1 SET a = 0 WHERE a = 7 LIMIT 6;
DELETE FROM t1 WHERE a = 4 LIMIT 7;
UPDATE t1 SET a = 9 WHERE a < 2 LIMIT 9;
UPDATE t1 SET a = 0 WHERE a < 9 LIMIT 2;
DELETE FROM t1 WHERE a < 0 LIMIT 5;
INSERT INTO t1 ( a ) VALUES ( 5 );
UPDATE t1 SET a = 4 WHERE a < 6 LIMIT 4;
INSERT INTO t1 ( a ) VALUES ( 5 );
UPDATE t1 SET a = 9 WHERE a < 5 LIMIT 8;
DELETE FROM t1 WHERE a < 8 LIMIT 8;
INSERT INTO t1 ( a ) VALUES ( 6 );
DELETE FROM t1 WHERE a < 6 LIMIT 7;
UPDATE t1 SET a = 7 WHERE a = 3 LIMIT 7;
UPDATE t1 SET a = 8 WHERE a = 0 LIMIT 6;
INSERT INTO t1 ( a ) VALUES ( 7 );
DELETE FROM t1 WHERE a < 9 LIMIT 4;
INSERT INTO t1 ( a ) VALUES ( 7 );
INSERT INTO t1 ( a ) VALUES ( 6 );
UPDATE t1 SET a = 8 WHERE a = 3 LIMIT 4;
DELETE FROM t1 WHERE a = 2 LIMIT 9;
DELETE FROM t1 WHERE a = 1 LIMIT 4;
UPDATE t1 SET a = 4 WHERE a = 2 LIMIT 7;
INSERT INTO t1 ( a ) VALUES ( 0 );
DELETE FROM t1 WHERE a < 3 LIMIT 0;
UPDATE t1 SET a = 8 WHERE a = 5 LIMIT 2;
INSERT INTO t1 ( a ) VALUES ( 1 );
UPDATE t1 SET a = 9 WHERE a < 5 LIMIT 3;
--enable_warnings
sync_slave_with_master;
if (`select char_length('$bit_field_special') > 0`) {
SET GLOBAL SLAVE_TYPE_CONVERSIONS = @saved_slave_type_conversions;
}
let $diff_tables= master:t1, slave:t1;
source include/diff_tables.inc;
connection master;
drop table t1;
sync_slave_with_master;