I have the complete answer for this one.
Once innodb_file_per_table is put in place, and new InnoDB tables can be shrunk using ALTER TABLE <innodb-table-name> ENGINE=InnoDB';
This will shrink new .ibd
files GUARANTEED.
If you run ALTER TABLE <innodb-table-name> ENGINE=InnoDB';
on an InnoDB table created before you used innodb_file_per_table, it will yank the data and indexes for that table out of the ibdata1 file and store it in a .ibd
file, This will leave a permanent pigeon whole in the ibdata1 that can never be reused.
The ibdata1
file normally houses four types of information
Here is the guaranteed way to shrink the ibdata1 file pretty much forever...
STEP 01) MySQLDump all databases into a SQL text file (call it SQLData.sql)
STEP 02) Drop all databases (except mysql, information_schema and performance_schema schemas)
STEP 03) Shutdown mysql
STEP 04) Add the following lines to /etc/my.cnf
[mysqld]
innodb_file_per_table
innodb_flush_method=O_DIRECT
innodb_log_file_size=1G
innodb_buffer_pool_size=4G
innodb_data_file_path=ibdata1:10M:autoextend
Sidenote: Whatever your set for innodb_buffer_pool_size, make sure innodb_log_file_size is 25% of innodb_buffer_pool_size.
- STEP 05) Delete ibdata1, ib_logfile0 and ib_logfile1 (see update below before deleting!)
At this point, there should only be the mysql schema in /var/lib/mysql
This will recreate ibdata1 at 10MB (do not configure the option) , ib_logfile0 and ib_logfile1 at 1G each
- STEP 07) Reload SQLData.sql into mysql
ibdata1
will grow but only contain table metadata and intermittent MVCC data.
Each InnoDB table will exist outside of ibdata1
Suppose you have an InnoDB table named mydb.mytable. If you go into /var/lib/mysql/mydb
, you will see two files representing the table
mytable.frm
(Storage Engine Header)
mytable.ibd
(Home of Table Data and Table Indexes for mydb.mytable
)
ibdata1
will never contain InnoDB data and Indexes anymore.
With the innodb_file_per_table option in /etc/my.cnf
, you can run OPTIMIZE TABLE mydb.mytable
OR ALTER TABLE mydb.mytable ENGINE=InnoDB;
and the file /var/lib/mysql/mydb/mytable.ibd
will actually shrink.
I have done this numerous times in my career as a MySQL DBA without so much as a single problem thereafter. In fact, the first time I did this, I collapsed a 50GB ibdata1 file into 50MB.
Give it a try. If you have further questions on this, email me. Trust me. This will work in the short term and over the long haul.
UPDATE 2013-07-02 15:08 EDT
There is a caveat I have in this regard that I updated in other posts of mine but I missed this: I am updating my answer a little more with innodb_fast_shutdown because I used to restart mysql and stop mysql to do this. Now, this one-step is vital because every transaction uncommitted may have other moving parts within and outside of the InnoDB Transaction Logs (See InnoDB Infrastructure).
Please note that setting innodb_fast_shutdown to 2 would clean the logs out as well but more moving parts still exist and gets picked on Crash Recovery during mysqld's startup. Setting of 0 is best.
Are your InnoDB Log Files (ib_logfile0 and ib_logfile1) sized correctly ?
They should be 25% of the InnoDB Buffer Pool
In your case, that would be 224M
You can it them as follows:
- Add this setting to /etc/my.cnf : innodb_log_file_size=224M
- service mysql stop
- rm -f /var/lib/mysql/ib_logfile[01]
- service mysql start (ib_logfile0 and ib_logfile1 are recreated)
You should keep the default for innodb_flush_method to insure ACID compliance. Otherwise, you could lose up to one second's worth of transactions.
CAVEAT: If your DB server is dedicated to only to the database, you should reserve 75-80% or RAM for the innodb_buffer_pool.
UPDATE
You will definitely want to change your InnoDB layout !!!!
You need to raise innodb_open_files to 6000
You need to turn on innodb_file_per_table
You need to restructure all InnoDB Data to reside in separate tablespaces
Best Answer
You can minimize almost all downtime by preventing the table from being locked.
Use a
SELECT INSERT
to migrate the data you want to a temporary table.Rename the tables.
You'll need to consider any
INSERTS
during the time theSELECT INSERT
was running.Finally, drop the table that contains the data you don't want.
Be aware that if you do not have
innodb_file_per_table
enabled in your configuration that the disk space allocated will not be freed.Additionally, special considerations will be necessary for your application and specific situation.
Here's a procedure that I wrote using this method..