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mariadb/mysql-test/suite/rpl/t/rpl_parallel2.test

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MDEV-7818: Deadlock occurring with parallel replication and FTWRL Problem is that FLUSH TABLES WITH READ LOCK first blocks threads from starting new commits, then waits for running commits to complete. But in-order parallel replication needs commits to happen in a particular order, so this can easily deadlock. To fix this problem, this patch introduces a way to temporarily pause the parallel replication worker threads. Before starting FTWRL, we let all worker threads complete in-progress transactions, and then wait. Then we proceed to take the global read lock. Once the lock is obtained, we unpause the worker threads. Now commits are blocked from starting by the global read lock, so the deadlock will no longer occur.
2015-10-22 11:18:34 +02:00
--source include/have_debug.inc
--source include/have_innodb.inc
MDEV-5509: Seconds_behind_master incorrect in parallel replication The problem was a race between the SQL driver thread and the worker threads. The SQL driver thread would set rli->last_master_timestamp to zero to mark that it has caught up with the master, while the worker threads would set it to the timestamp of the executed event. This can happen out-of-order in parallel replication, causing the "caught up" status to be overwritten and Seconds_Behind_Master to wrongly grow when the slave is idle. To fix, introduce a separate flag rli->sql_thread_caught_up to mark that the SQL driver thread is caught up. This avoids issues with worker threads overwriting the SQL driver thread status. In parallel replication, we then make SHOW SLAVE STATUS check in addition that all worker threads are idle before showing Seconds_Behind_Master as 0 due to slave idle.
2014-01-08 11:00:44 +01:00
--source include/have_binlog_format_statement.inc
--let $rpl_topology=1->2
--source include/rpl_init.inc
--echo *** MDEV-5509: Incorrect value for Seconds_Behind_Master if parallel replication ***
--connection server_2
SET @old_parallel_threads=@@GLOBAL.slave_parallel_threads;
MDEV-23089 rpl_parallel2 fails in 10.5 Problem:- rpl_parallel2 was failing non-deterministically Analysis:- When FLUSH TABLES WITH READ LOCK is executed, it will allow all worker threads to complete their ongoing transactions and then it will pause them. At this state FTWRL will proceed to acquire global read lock. FTWRL first blocks threads from starting new commits, then upgrades the lock to block commit of existing transactions. Step1: FLUSH TABLES WITH READ LOCK - Blocks new commits Step2: * STOP SLAVE command enables 'force_abort=1' which unblocks workers, they continue to execute events. * T1: Waits in 'record_gtid' call to update 'gtid_slave_pos' table with its current GTID, but it is blocked becuase of Step1. * T2: Holds COMMIT lock and waits for T1 to commit. Step3: FLUSH TABLES WITH READ LOCK - Waiting to get BLOCK_COMMIT. This results in deadlock. When STOP SLAVE command allows paused workers to proceed, workers should skip the execution of all further events, similar to 'conservative' parallel mode. Solution:- We will assign 1 to skip_event_group when we are aborted in do_ftwrl_wait. rpl_parallel_entry->pause_sub_id is only reset when force_abort is off in rpl_pause_after_ftwrl.
2020-07-16 10:54:30 +02:00
set @old_parallel_mode= @@GLOBAL.slave_parallel_mode;
MDEV-5509: Seconds_behind_master incorrect in parallel replication The problem was a race between the SQL driver thread and the worker threads. The SQL driver thread would set rli->last_master_timestamp to zero to mark that it has caught up with the master, while the worker threads would set it to the timestamp of the executed event. This can happen out-of-order in parallel replication, causing the "caught up" status to be overwritten and Seconds_Behind_Master to wrongly grow when the slave is idle. To fix, introduce a separate flag rli->sql_thread_caught_up to mark that the SQL driver thread is caught up. This avoids issues with worker threads overwriting the SQL driver thread status. In parallel replication, we then make SHOW SLAVE STATUS check in addition that all worker threads are idle before showing Seconds_Behind_Master as 0 due to slave idle.
2014-01-08 11:00:44 +01:00
--source include/stop_slave.inc
SET GLOBAL slave_parallel_threads=5;
MDEV-23089 rpl_parallel2 fails in 10.5 Problem:- rpl_parallel2 was failing non-deterministically Analysis:- When FLUSH TABLES WITH READ LOCK is executed, it will allow all worker threads to complete their ongoing transactions and then it will pause them. At this state FTWRL will proceed to acquire global read lock. FTWRL first blocks threads from starting new commits, then upgrades the lock to block commit of existing transactions. Step1: FLUSH TABLES WITH READ LOCK - Blocks new commits Step2: * STOP SLAVE command enables 'force_abort=1' which unblocks workers, they continue to execute events. * T1: Waits in 'record_gtid' call to update 'gtid_slave_pos' table with its current GTID, but it is blocked becuase of Step1. * T2: Holds COMMIT lock and waits for T1 to commit. Step3: FLUSH TABLES WITH READ LOCK - Waiting to get BLOCK_COMMIT. This results in deadlock. When STOP SLAVE command allows paused workers to proceed, workers should skip the execution of all further events, similar to 'conservative' parallel mode. Solution:- We will assign 1 to skip_event_group when we are aborted in do_ftwrl_wait. rpl_parallel_entry->pause_sub_id is only reset when force_abort is off in rpl_pause_after_ftwrl.
2020-07-16 10:54:30 +02:00
set global slave_parallel_mode= optimistic;
MDEV-5509: Seconds_behind_master incorrect in parallel replication The problem was a race between the SQL driver thread and the worker threads. The SQL driver thread would set rli->last_master_timestamp to zero to mark that it has caught up with the master, while the worker threads would set it to the timestamp of the executed event. This can happen out-of-order in parallel replication, causing the "caught up" status to be overwritten and Seconds_Behind_Master to wrongly grow when the slave is idle. To fix, introduce a separate flag rli->sql_thread_caught_up to mark that the SQL driver thread is caught up. This avoids issues with worker threads overwriting the SQL driver thread status. In parallel replication, we then make SHOW SLAVE STATUS check in addition that all worker threads are idle before showing Seconds_Behind_Master as 0 due to slave idle.
2014-01-08 11:00:44 +01:00
--source include/start_slave.inc
--connection server_1
CREATE TABLE t1 (a INT PRIMARY KEY, b INT);
CALL mtr.add_suppression("Unsafe statement written to the binary log using statement format since BINLOG_FORMAT = STATEMENT. Statement is unsafe because it uses a system function that may return a different value on the slave");
--save_master_pos
--connection server_2
--sync_with_master
--connection server_1
INSERT INTO t1 VALUES (1,sleep(2));
--save_master_pos
--connection server_2
--sync_with_master
MDEV-7241: rpl.rpl_parallel2 fails sporadically in buildbot There was a race, a small window between updating slave position and updating Seconds_Behind_Master, during which the test case could see the wrong value. Fix by waiting for the expected status to appear.
2014-12-02 09:27:22 +01:00
# The slave position (which --sync_with_master waits for) is updated just
# before the Seconds_Behind_Master. So we have to wait for the zero status
# to appear, otherwise there is a small window between --sync_with_master
# and SHOW SLAVE STATUS where we can see a non-zero value.
--let $slave_param= Seconds_Behind_Master
--let $slave_param_value= 0
--source include/wait_for_slave_param.inc
MDEV-5509: Seconds_behind_master incorrect in parallel replication The problem was a race between the SQL driver thread and the worker threads. The SQL driver thread would set rli->last_master_timestamp to zero to mark that it has caught up with the master, while the worker threads would set it to the timestamp of the executed event. This can happen out-of-order in parallel replication, causing the "caught up" status to be overwritten and Seconds_Behind_Master to wrongly grow when the slave is idle. To fix, introduce a separate flag rli->sql_thread_caught_up to mark that the SQL driver thread is caught up. This avoids issues with worker threads overwriting the SQL driver thread status. In parallel replication, we then make SHOW SLAVE STATUS check in addition that all worker threads are idle before showing Seconds_Behind_Master as 0 due to slave idle.
2014-01-08 11:00:44 +01:00
--echo Seconds_Behind_Master should be zero here because the slave is fully caught up and idle.
--let $status_items= Seconds_Behind_Master
--source include/show_slave_status.inc
MDEV-8294: Inconsistent behavior of slave parallel threads at runtime There were some cases where the slave SQL thread could stop without the pool of parallel replication worker threads being correctly de-activated.
2015-06-10 11:57:42 +02:00
--echo *** MDEV-8294: Inconsistent behavior of slave parallel threads at runtime ***
--connection server_1
INSERT INTO t1 VALUES (10,0);
# Force a duplicate key error on the slave.
SET sql_log_bin= 0;
DELETE FROM t1 WHERE a=10;
SET sql_log_bin= 1;
INSERT INTO t1 VALUES (10,0);
--save_master_pos
SELECT * FROM t1 WHERE a >= 10 ORDER BY a;
--connection server_2
--let $slave_sql_errno= 1062
--source include/wait_for_slave_sql_error.inc
# At this point, the worker threads should have stopped also.
--let $wait_condition= SELECT COUNT(*)=0 FROM information_schema.processlist WHERE User = "system user" AND State = "Waiting for work from SQL thread";
--source include/wait_condition.inc
# Check that the pool can still be resized, but remains inactive as no slave
# SQL thread is running.
SET GLOBAL slave_parallel_threads=8;
--let $wait_condition= SELECT COUNT(*)=0 FROM information_schema.processlist WHERE User = "system user" AND State = "Waiting for work from SQL thread";
--source include/wait_condition.inc
STOP SLAVE;
# At this point, the worker threads should have stopped.
--let $wait_condition= SELECT COUNT(*)=0 FROM information_schema.processlist WHERE User = "system user" AND State = "Waiting for work from SQL thread";
--source include/wait_condition.inc
SET GLOBAL sql_slave_skip_counter= 1;
--source include/start_slave.inc
# At this point, the worker threads should have been spawned.
--let $wait_condition= SELECT COUNT(*)=8 FROM information_schema.processlist WHERE User = "system user" AND State = "Waiting for work from SQL thread";
--source include/wait_condition.inc
--sync_with_master
SELECT * FROM t1 WHERE a >= 10 ORDER BY a;
MDEV-7818: Deadlock occurring with parallel replication and FTWRL Problem is that FLUSH TABLES WITH READ LOCK first blocks threads from starting new commits, then waits for running commits to complete. But in-order parallel replication needs commits to happen in a particular order, so this can easily deadlock. To fix this problem, this patch introduces a way to temporarily pause the parallel replication worker threads. Before starting FTWRL, we let all worker threads complete in-progress transactions, and then wait. Then we proceed to take the global read lock. Once the lock is obtained, we unpause the worker threads. Now commits are blocked from starting by the global read lock, so the deadlock will no longer occur.
2015-10-22 11:18:34 +02:00
--echo *** MDEV-7818: Deadlock occurring with parallel replication and FTWRL ***
--connection server_1
CREATE TABLE t2 (a INT PRIMARY KEY, b INT) ENGINE=InnoDB;
INSERT INTO t2 VALUES (1,0), (2,0), (3,0);
--save_master_pos
--connection server_2
--sync_with_master
--source include/stop_slave.inc
--connection server_1
# Create a group commit with two transactions, will be used to provoke the
# problematic thread interaction with FTWRL on the slave.
SET @old_dbug= @@SESSION.debug_dbug;
SET @commit_id= 4242;
SET SESSION debug_dbug="+d,binlog_force_commit_id";
BEGIN;
UPDATE t2 SET b=b+1 WHERE a=2;
COMMIT;
BEGIN;
INSERT INTO t2 VALUES (4,10);
COMMIT;
SET SESSION debug_dbug= @old_dbug;
INSERT INTO t2 VALUES (5,0);
INSERT INTO t2 VALUES (6,0);
INSERT INTO t2 VALUES (7,0);
INSERT INTO t2 VALUES (8,0);
INSERT INTO t2 VALUES (9,0);
INSERT INTO t2 VALUES (10,0);
INSERT INTO t2 VALUES (11,0);
INSERT INTO t2 VALUES (12,0);
INSERT INTO t2 VALUES (13,0);
INSERT INTO t2 VALUES (14,0);
INSERT INTO t2 VALUES (15,0);
INSERT INTO t2 VALUES (16,0);
INSERT INTO t2 VALUES (17,0);
INSERT INTO t2 VALUES (18,0);
INSERT INTO t2 VALUES (19,0);
--save_master_pos
--connection server_2
--connect (s1, 127.0.0.1, root,, test, $SLAVE_MYPORT,)
# Block one transaction on a row lock.
BEGIN;
SELECT * FROM t2 WHERE a=2 FOR UPDATE;
--connection server_2
# Wait for slave thread of the other transaction to have the commit lock.
--source include/start_slave.inc
--let $wait_condition= SELECT COUNT(*) > 0 FROM information_schema.processlist WHERE state = "Waiting for prior transaction to commit"
--source include/wait_condition.inc
--connect (s2, 127.0.0.1, root,, test, $SLAVE_MYPORT,)
send FLUSH TABLES WITH READ LOCK;
# The bug was that at this point we were deadlocked.
# The FTWRL command would wait forever for T2 to commit.
# T2 would wait for T1 to commit first, but T1 is waiting for
# the global read lock to be released.
--connection s1
# Release the lock that blocs T1 from replicating.
COMMIT;
--connection s1
send STOP SLAVE;
--connection s2
reap;
--connection server_1
SELECT * FROM t2 ORDER BY a;
--connection s2
UNLOCK TABLES;
Added some selects to rpl_parallel2.test to find out where it fails in buildbot
2015-11-18 13:46:30 +01:00
SELECT "after UNLOCK TABLES" as state;
MDEV-7818: Deadlock occurring with parallel replication and FTWRL Problem is that FLUSH TABLES WITH READ LOCK first blocks threads from starting new commits, then waits for running commits to complete. But in-order parallel replication needs commits to happen in a particular order, so this can easily deadlock. To fix this problem, this patch introduces a way to temporarily pause the parallel replication worker threads. Before starting FTWRL, we let all worker threads complete in-progress transactions, and then wait. Then we proceed to take the global read lock. Once the lock is obtained, we unpause the worker threads. Now commits are blocked from starting by the global read lock, so the deadlock will no longer occur.
2015-10-22 11:18:34 +02:00
--connection s1
reap;
Added some selects to rpl_parallel2.test to find out where it fails in buildbot
2015-11-18 13:46:30 +01:00
SELECT "after reap of STOP SLAVE" as state;
MDEV-7818: Deadlock occurring with parallel replication and FTWRL Problem is that FLUSH TABLES WITH READ LOCK first blocks threads from starting new commits, then waits for running commits to complete. But in-order parallel replication needs commits to happen in a particular order, so this can easily deadlock. To fix this problem, this patch introduces a way to temporarily pause the parallel replication worker threads. Before starting FTWRL, we let all worker threads complete in-progress transactions, and then wait. Then we proceed to take the global read lock. Once the lock is obtained, we unpause the worker threads. Now commits are blocked from starting by the global read lock, so the deadlock will no longer occur.
2015-10-22 11:18:34 +02:00
--connection server_2
--source include/wait_for_slave_to_stop.inc
--source include/start_slave.inc
--sync_with_master
SELECT * FROM t2 ORDER BY a;
--echo *** MDEV-8318: Assertion `!pool->busy' failed in pool_mark_busy(rpl_parallel_thread_pool*) on concurrent FTWRL ***
--connection server_1
LOCK TABLE t2 WRITE;
--connect (m1,localhost,root,,test)
--connection m1
--let $cid=`SELECT CONNECTION_ID()`
send FLUSH TABLES WITH READ LOCK;
--connect (m2,localhost,root,,test)
# We cannot force the race with DEBUG_SYNC, because the race does not
# exist after fixing the bug. At best we could force a debug sync to
# time out, which is effectively just a sleep.
# So just put a small sleep here; it is enough to trigger the bug in
# most run before the bug fix, and the code should work correctly
# however the thread scheduling happens.
--sleep 0.1
send FLUSH TABLES WITH READ LOCK;
--connection server_1
--replace_result $cid CID
eval KILL QUERY $cid;
--connection m1
--error ER_QUERY_INTERRUPTED
reap;
--connection server_1
UNLOCK TABLES;
--connection m2
reap;
UNLOCK TABLES;
# Clean up.
MDEV-5509: Seconds_behind_master incorrect in parallel replication The problem was a race between the SQL driver thread and the worker threads. The SQL driver thread would set rli->last_master_timestamp to zero to mark that it has caught up with the master, while the worker threads would set it to the timestamp of the executed event. This can happen out-of-order in parallel replication, causing the "caught up" status to be overwritten and Seconds_Behind_Master to wrongly grow when the slave is idle. To fix, introduce a separate flag rli->sql_thread_caught_up to mark that the SQL driver thread is caught up. This avoids issues with worker threads overwriting the SQL driver thread status. In parallel replication, we then make SHOW SLAVE STATUS check in addition that all worker threads are idle before showing Seconds_Behind_Master as 0 due to slave idle.
2014-01-08 11:00:44 +01:00
--connection server_2
--source include/stop_slave.inc
SET GLOBAL slave_parallel_threads=@old_parallel_threads;
MDEV-23089 rpl_parallel2 fails in 10.5 Problem:- rpl_parallel2 was failing non-deterministically Analysis:- When FLUSH TABLES WITH READ LOCK is executed, it will allow all worker threads to complete their ongoing transactions and then it will pause them. At this state FTWRL will proceed to acquire global read lock. FTWRL first blocks threads from starting new commits, then upgrades the lock to block commit of existing transactions. Step1: FLUSH TABLES WITH READ LOCK - Blocks new commits Step2: * STOP SLAVE command enables 'force_abort=1' which unblocks workers, they continue to execute events. * T1: Waits in 'record_gtid' call to update 'gtid_slave_pos' table with its current GTID, but it is blocked becuase of Step1. * T2: Holds COMMIT lock and waits for T1 to commit. Step3: FLUSH TABLES WITH READ LOCK - Waiting to get BLOCK_COMMIT. This results in deadlock. When STOP SLAVE command allows paused workers to proceed, workers should skip the execution of all further events, similar to 'conservative' parallel mode. Solution:- We will assign 1 to skip_event_group when we are aborted in do_ftwrl_wait. rpl_parallel_entry->pause_sub_id is only reset when force_abort is off in rpl_pause_after_ftwrl.
2020-07-16 10:54:30 +02:00
set global slave_parallel_mode= @old_parallel_mode;
MDEV-5509: Seconds_behind_master incorrect in parallel replication The problem was a race between the SQL driver thread and the worker threads. The SQL driver thread would set rli->last_master_timestamp to zero to mark that it has caught up with the master, while the worker threads would set it to the timestamp of the executed event. This can happen out-of-order in parallel replication, causing the "caught up" status to be overwritten and Seconds_Behind_Master to wrongly grow when the slave is idle. To fix, introduce a separate flag rli->sql_thread_caught_up to mark that the SQL driver thread is caught up. This avoids issues with worker threads overwriting the SQL driver thread status. In parallel replication, we then make SHOW SLAVE STATUS check in addition that all worker threads are idle before showing Seconds_Behind_Master as 0 due to slave idle.
2014-01-08 11:00:44 +01:00
--source include/start_slave.inc
--connection server_1
MDEV-7818: Deadlock occurring with parallel replication and FTWRL Problem is that FLUSH TABLES WITH READ LOCK first blocks threads from starting new commits, then waits for running commits to complete. But in-order parallel replication needs commits to happen in a particular order, so this can easily deadlock. To fix this problem, this patch introduces a way to temporarily pause the parallel replication worker threads. Before starting FTWRL, we let all worker threads complete in-progress transactions, and then wait. Then we proceed to take the global read lock. Once the lock is obtained, we unpause the worker threads. Now commits are blocked from starting by the global read lock, so the deadlock will no longer occur.
2015-10-22 11:18:34 +02:00
DROP TABLE t1, t2;
MDEV-5509: Seconds_behind_master incorrect in parallel replication The problem was a race between the SQL driver thread and the worker threads. The SQL driver thread would set rli->last_master_timestamp to zero to mark that it has caught up with the master, while the worker threads would set it to the timestamp of the executed event. This can happen out-of-order in parallel replication, causing the "caught up" status to be overwritten and Seconds_Behind_Master to wrongly grow when the slave is idle. To fix, introduce a separate flag rli->sql_thread_caught_up to mark that the SQL driver thread is caught up. This avoids issues with worker threads overwriting the SQL driver thread status. In parallel replication, we then make SHOW SLAVE STATUS check in addition that all worker threads are idle before showing Seconds_Behind_Master as 0 due to slave idle.
2014-01-08 11:00:44 +01:00
--source include/rpl_end.inc
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