The Blackhole engine did not support row-based replication
since the delete_row(), update_row(), and the index and range
searching functions were not implemented.
This patch adds row-based replication support for the
Blackhole engine by implementing the two functions mentioned
above, and making the engine pretend that it has found the
correct row to delete or update when executed from the slave
SQL thread by implementing index and range searching functions.
It is necessary to only pretend this for the SQL thread, since
a SELECT executed on the Blackhole engine will otherwise never
return EOF, causing a livelock.
The problem is that when statement-based replication was enabled,
statements such as INSERT INTO .. SELECT FROM .. and CREATE TABLE
.. SELECT FROM need to grab a read lock on the source table that
does not permit concurrent inserts, which would in turn be denied
if the source table is a log table because log tables can't be
locked exclusively.
The solution is to not take such a lock when the source table is
a log table as it is unsafe to replicate log tables under statement
based replication. Furthermore, the read lock that does not permits
concurrent inserts is now only taken if statement-based replication
is enabled and if the source table is not a log table.
It is a very big test and as such it takes a lot of time.
Solution is to divide the test in two parts, one for testing increasing
column size and one for decreasing size.
The innodb branch does extended tests (that myisam is not) due to the
$do_pk_tests variabel, that is the reason why the innodb branch takes
longer.
No increase of memory usage in innodb was found when analyzing, (tested
with looping some millions time of create/drop and alter commands)
The memory exhaust discovered in the test is due to mysqltest which
stores the result in memory (result-file) and this was the biggest
result file in the test framework, so by dividing the test into two
parts also cuts the memory usage of mysqltest.
SUPER is not required to change binlog format for session
A user without SUPER privileges can change the value of the
session variable BINLOG_FORMAT, causing problems for a DBA.
This changeset requires a user to have SUPER privileges to
change the value of the session variable BINLOG_FORMAT, and
not only the global variable BINLOG_FORMAT.
The size of the Innodb_buffer_pool_pages differs by one byte on row versus statement
log, so neuter the last position of the stringified decimal representation. Innobase
says the size isn't very important in any case.
Also, split out the "mixed" format to its own file, as mtr seems to dislike having only
stm and row but not mix.
Problem was a mutex added in bug n 27405 for solving a problem
with auto_increment in partitioned innodb tables.
(in ha_partition::write_row over partitions file->ha_write_row)
Solution is to use the patch for bug#33479, which refines the
usage of mutexes for auto_increment.
Backport of bug-33479 from 6.0:
Bug-33479: auto_increment failures in partitioning
Several problems with auto_increment in partitioning
(with MyISAM, InnoDB. Locking issues, not handling
multi-row INSERTs properly etc.)
Changed the auto_increment handling for partitioning:
Added a ha_data variable in table_share for storage engine specific data
such as auto_increment value handling in partitioning, also see WL 4305
and using the ha_data->mutex to lock around read + update.
The idea is this:
Store the table's reserved auto_increment value in
the TABLE_SHARE and use a mutex to, lock it for reading and updating it
and unlocking it, in one block. Only accessing all partitions
when it is not initialized.
Also allow reservations of ranges, and if no one has done a reservation
afterwards, lower the reservation to what was actually used after
the statement is done (via release_auto_increment from WL 3146).
The lock is kept from the first reservation if it is statement based
replication and a multi-row INSERT statement where the number of
candidate rows to insert is not known in advance (like INSERT SELECT,
LOAD DATA, unlike INSERT VALUES (row1), (row2),,(rowN)).
This should also lead to better concurrancy (no need to have a mutex
protection around write_row in all cases)
and work with any local storage engine.
The assertion indicates that some data was left in the transaction
cache when the server was shut down, which means that a previous
statement did not commit or rollback correctly.
What happened was that a bug in the rollback of a transactional
table caused the transaction cache to be emptied, but not reset.
The error can be triggered by having a failing UPDATE or INSERT,
on a transactional table, causing an implicit rollback.
Fixed by always flushing the pending event to reset the state
properly.
The replication filtering rules were inappropiately applied when
executing BINLOG pseudo-query. The rules are supposed to be active
only at times when the slave's sql thread executes an event.
Fixed with correcting a condition to call replication rules only if
the slave sql thread executes the event.
tables open
When executing a DROP DATABASE statement in ROW mode and having temporary
tables open at the same time, the existance of temporary tables prevent
the server from switching back to row mode after temporarily switching to
statement mode to handle the logging of the statement.
Fixed the problem by removing the code to switch to statement mode and added
code to temporarily disable the binary log while dropping the objects in the
database.
Details of the fix:
- wrong command and state in processlist -> insert poll routine
- unexpected additional session -> abort if unexpected session found
INSTALL PLUGIN and UNINSTALL PLUGIN worked with statement-based and
mixed-mode replication only, but not with row-based replication.
There is no statement-based replication of these statements.
But there was row-based replication of the inserts and deletes
to and from the mysql.plugin table.
The fix is to suppress binlogging during insert and delete to
and from the mysql.plugin table.
