#
# Bug#6148 ()
#
# Let the master do lots of insertions

connection master;
call mtr.add_suppression("Unsafe statement written to the binary log using statement format since BINLOG_FORMAT = STATEMENT");

connection slave;
call mtr.add_suppression("Unsafe statement written to the binary log using statement format since BINLOG_FORMAT = STATEMENT");

connection master;
create table t1(n int);
sync_slave_with_master;
stop slave;
--source include/wait_for_slave_to_stop.inc
connection master;
let $1=5000;
disable_query_log;
while ($1)
{
 eval insert into t1 values($1);
 dec $1;
}
enable_query_log;
save_master_pos;

connection slave;
start slave;
let $wait_condition= SELECT COUNT(*) > 0 FROM t1;
source include/wait_condition.inc;
stop slave io_thread;
start slave io_thread;
source include/wait_for_slave_to_start.inc;
sync_with_master;

connection master;
drop table t1;
sync_slave_with_master;


#
# Bug#38205 Row-based Replication (RBR) causes inconsistencies...
# Bug#319   if while a non-transactional slave is replicating a transaction...
#
# Verifying that STOP SLAVE does not interrupt excution of a group
# execution of events if the group can not roll back.
# Killing the sql thread continues to provide a "hard" stop (the
# part II, moved to the bugs suite as it's hard to make it
# deterministic with KILL).
#

#
# Part I. The being stopped sql thread finishes first the current group of 
#         events if the group contains an event on a non-transaction table.

connection master;
create table t1i(n int primary key) engine=innodb;
create table t2m(n int primary key) engine=myisam;
begin;
insert into t1i values (1);
insert into t1i values (2);
insert into t1i values (3);
commit;

sync_slave_with_master;
connection slave;
begin;
insert into t1i values (5);

connection master;
let $pos0_master= query_get_value(SHOW MASTER STATUS, Position, 1);
begin;
insert into t1i values (4);
insert into t2m values (1); # non-ta update to process
insert into t1i values (5); # to block at. to be played with stopped
commit;

connection slave;
# slave sql thread must be locked out by the conn `slave' explicit lock
let $pos0_slave= query_get_value(SHOW SLAVE STATUS, Exec_Master_Log_Pos, 1);
--disable_query_log
eval select $pos0_master - $pos0_slave as zero;
--enable_query_log

connection slave1;
let $count= 1;
let $table= t2m;
source include/wait_until_rows_count.inc;
send stop slave;

connection slave;
rollback; # release the sql thread

connection slave1;
reap;
source include/wait_for_slave_to_stop.inc;
let $sql_status= query_get_value(SHOW SLAVE STATUS, Slave_SQL_Running, 1);
--echo *** sql thread is *not* running: $sql_status ***


connection master;
let $pos1_master= query_get_value(SHOW MASTER STATUS, Position, 1);

connection slave;

let $pos1_slave= query_get_value(SHOW SLAVE STATUS, Exec_Master_Log_Pos, 1);

--echo *** the prove: the stopped slave has finished the current transaction ***

--disable_query_log
select count(*) as five from t1i;
eval select $pos1_master - $pos1_slave as zero;
eval select $pos1_slave > $pos0_slave as one;
--enable_query_log

source include/start_slave.inc;

# clean-up
connection master;
drop table t1i, t2m;

sync_slave_with_master;

# End of tests