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It's not entirely clear to me what transactions in database systems do. I know they can be used to rollback a list of updates completely (e.g. deduct money on one account and add it to another), but is that all they do? Specifically, can they be used to prevent race conditions? For example:

// Java/JPA example
em.getTransaction().begin();
User u = em.find(User.class, 123);
u.credits += 10;
em.persist(u);
em.getTransaction().commit();

(I know this could probably be written as a single update query, but that's not alway the case)

Is this code protected against race conditions?

I'm mostly interested in MySQL5 + InnoDB, but general answers are welcome too.

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3 Answers 3

up vote 10 down vote accepted

The database tier supports atomicity of transactions to varying degrees, called isolation levels. Check the documentation of your database management system for the isolation levels supported, and their trade-offs. The strongest isolation level, Serialized, requires transactions to execute as if they were executed one by one. This is implemented by using exclusive locks in the database. This can be cause deadlocks, which the database management system detects and fixes by rolling back some involved transactions. This approach is often referred to as pessimistic locking.

Many object-relational mappers (including JPA providers) also support optimistic locking, where update conflicts are not prevented in the database, but detected in the application tier, which then rolls back the transaction. If you have optimistic locking enabled, a typical execution of your example code would emit the following sql queries:

select id, version, credits from user where id = 123;  

Let's say this returns (123, 13, 100).

update user set version = 14, credit = 110 where id = 123 and version = 13;

The database tells us how many rows where updated. If it was one, there was no conflicting update. If it was zero, a conflicting update occured, and the JPA provider will do

rollback;

and throw an exception so application code can handle the failed transaction, for instance by retrying.

Summary: With either approach, your statement can be made safe from race conditions.

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It depends on the specific rdbms. Generally, transactions acquire locks as decided during the query evaluation plan. Some can request table level locks, other column level, other record level, the second is preferred for performance. The short answer to your question is yes.

In other words, a transaction is meant to group a set of queries and represent them as an atomic operation. If the operation fails the changes are rolledback. I don't exactly know what the adapter you're using does, but if it conforms to the definition of transactions you should be fine.

While this guarantees prevention of race conditions, it doesn't explicitly prevent starvation or deadlocks. The transaction lock manager is in charge of that. Table locks are sometime used, but they come with a hefty price of reducing the number of concurrent operations.

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It depends on isolation level (in serializable it will prevent race condition, since generally in serializable isolation level transactions are processed in sequence, not in paralell (or at least exclusive locking is used, so transactions, that modify the same rows, are performed in sequence). In order to prevent the race condition, better manually lock the record (mysql for example supports 'select ... for update' statement, which aquires write-lock on the selected records)

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