Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

What would be an appropriate way to do this, since mySQL obviously doesnt enjoy this. To leave either partitioning or the foreign keys out from the database design would not seem like a good idea to me. I'll guess that there is a workaround for this?

Update 03/24:


share|improve this question
Bounty is ON! Let's see if we can get this question alive again! – Industrial May 28 '10 at 18:56

2 Answers 2

up vote 2 down vote accepted

It depends on the extent to which the size of rows in the partitioned table is the reason for partitions being necessary.

If the row size is small and the reason for partitioning is the sheer number of rows, then I'm not sure what you should do.

If the row size is quite big, then have you considered the following:

Let P be the partitioned table and F be the table referenced in the would-be foreign key. Create a new table X:

        -- I'm assuming an INT is adequate, but perhaps
        -- you will actually require a BIGINT
    PRIMARY KEY (`P_id`, `F_id`),
    CONSTRAINT `Constr_X_P_fk`
        FOREIGN KEY `P_fk` (`P_id`) REFERENCES `P`.`id`
    CONSTRAINT `Constr_X_F_fk`
        FOREIGN KEY `F_fk` (`F_id`) REFERENCES `F`.`id`

and crucially, create a stored procedure for adding rows to table P. Your stored procedure should make certain (use transactions) that whenever a row is added to table P, a corresponding row is added to table X. You must not allow rows to be added to P in the "normal" way! You can only guarantee that referential integrity will be maintained if you keep to using your stored procedure for adding rows. You can freely delete from P in the normal way, though.

The idea here is that your table X has sufficiently small rows that you should hopefully not need to partition it, even though it has many many rows. The index on the table will nevertheless take up quite a large chunk of memory, I guess.

Should you need to query P on the foreign key, you will of course query X instead, as that is where the foreign key actually is.

share|improve this answer
I just reviewed the MySQL manual page on partition restrictions, and found out that not only can you not have a foreign key on a partitioned table, you also cannot have a foreign key pointing to a partitioned table. That means that the above isn't quite good enough. You can fix it by removing (obviously) the constraint Constr_X_P_fk and adding a second stored procedure whose purpose is to allow deletion of rows in P and X. Obviously, you should then make sure that any deletes are carried out using the stored procedure, rather than by using a normal DELETE statement. – Hammerite Jun 5 '10 at 2:59

I would strongly suggest sharding using Date as the key for archiving data to archive tables. If you need to report off multiple archive tables, you can use Views, or build the logic into your application.

However, with a properly structured DB, you should be able to handle tens of millions of rows in a table before partitioning, or sharding is really needed.

share|improve this answer
Hi Gary. Sharding is definitely an interesting approach. I'm a bit scared about it resulting in a large number of JOINS being needed in the application logic? – Industrial Jun 3 '10 at 19:18
I would leave Foreign Keys in your design. Why do you feel you need to partition? We have tables with over one hundred million rows that perform excellent. Shading in my opinion is a better option that partitions. The current partition implementation in MySQL is just too limiting. – Gary Jun 3 '10 at 20:17
In another Question, I saw that you mentioned that your table has 400K records. You will see no performance benefit partitioning a table of such small size, assuming that it is properly indexed. – Gary Jun 3 '10 at 20:24
Hi, this table will certainly have more than 400 000 rows. I can't recall asking a question about a 400K table though :) – Industrial Jun 4 '10 at 15:29… You mentioned 400K in that message. Maybe I misunderstood. – Gary Jun 4 '10 at 17:29

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.