Today there are several tools which allow you to do online alter table for MySQL. These are:
Let's consider the "normal" `ALTER TABLE`:
A large table will take long time to
innodb_buffer_pool_size is important, and so are other variables, but on very large table they are all negligible. It just takes time.
What MySQL does to
ALTER a table is to create a new table with new format, copy all rows, then switch over. During this time the table is completely locked.
Consider your own suggestion:
It will most probably perform worst of all options. Why is that? Because you're using an InnoDB table, the
INSERT INTO tablename_tmp SELECT * FROM tablename makes for a transaction. a huge transaction. It will create even more load than the normal
Moreover, you will have to shut down your application at that time so that it does not write (
UPDATE) to your table. If it does - your whole transaction is pointless.
What the online tools provide
The tools do not all work alike. However, the basics are shared:
- They create a "shadow" table with altered schema
- They create and use triggers to propagate changes from original table to ghost table
- They slowly copy all the rows from your table to shadow table. They do so in chunks: say, 1,000 rows at a time.
- They do all the above while you are still able to access and manipulate the original table.
- When satisfied, they swap the two, using a
The openark-kit tool has been in use for 3.5 years now. The Percona tool is a few months old, but possibly more tested then the former. Facebook's tool is said to work well for Facebook, but does not provide with a general solution to the average user. I haven't used it myself.
Each tool has its own limitations, look closely at documentation.
The conservative way
The conservative way is to use an Active-Passive Master-Master replication, do the
ALTER on the standby (passive) server, then switch roles and do the
ALTER again on what used to be the active server, now turned passive. This is also a good option, but requires an additional server, and deeper knowledge of replication.