1 Sep 2008 jamesh   » (Master)

Transaction Management in Django

In my previous post about Django, I mentioned that I found the transaction handling strategy in Django to be a bit surprising.

Like most object relational mappers, it caches information retrieved from the database, since you don’t want to be constantly issuing SELECT queries for every attribute access. However, it defaults to commiting after saving changes to each object. So a single web request might end up issuing many transactions:

Change object 1 Transaction 1
Change object 2 Transaction 2
Change object 3 Transaction 3
Change object 4 Transaction 4
Change object 5 Transaction 5

Unless no one else is accessing the database, there is a chance that other users could modify objects that the ORM has cached over the transaction boundaries. This also makes it difficult to test your application in any meaningful way, since it is hard to predict what changes will occur at those points. Django does provide a few ways to provide better transactional behaviour.

The @commit_on_success Decorator

The first is a decorator that turns on manual transaction management for the duration of the function and does a commit or rollback when it completes depending on whether an exception was raised. In the above example, if the middle three operations were made inside a @commit_on_success function, it would look something like this:

Change object 1 Transaction 1
Change object 2 Transaction 2
Change object 3
Change object 4
Change object 5 Transaction 3

Note that the decorator is usually used on view functions, so it will usually cover most of the request. That said, there are a number of cases where extra work might be done outside of the function. Some examples include work done in middleware classes and views that call other view functions.

The TransactionMiddleware class

Another alternative is to install the TransactionMiddleware middleware class for the site. This turns on transaction management for the duration of each request, similar to what you’d see with other frameworks giving results something like this:

Change object 1 Transaction 1
Change object 2
Change object 3
Change object 4
Change object 5

Combining @commit_on_success and TransactionMiddleware

At first, it would appear that these two approaches cover pretty much everything you’d want. But there are problems when you combine the two. If we use the @commit_on_success decorator as before and TransactionMiddleware, we get the following set of transactions:

Change object 1 Transaction 1
Change object 2
Change object 3
Change object 4
Change object 5 Transaction 2

The transaction for the @commit_on_success function has extended to cover the operations made before hand. This also means that operations #1 and #5 are now in separate transactions despite the use of TransactionMiddleware. The problem also occurs with nested use of @commit_on_success, as reported in Django bug 2227.

A better behaviour for nested transaction management would be something like this:

  1. On success, do nothing. The changes will be committed by the outside caller.
  2. On failure, do not abort the transaction, but instead mark it as uncommittable. This would have similar semantics to the Zope transaction.doom() function.

It is important that the nested call does not abort the transaction because that would cause a new transaction to be started by subsequent code: that should be left to the code that began the transaction.

The @autocommit decorator

While the above interaction looks like a simple bug, the @autocommit decorator is another matter. It turns autocommit on for the duration of a function call, no matter what the transaction mode for the caller was. If we took the original example and wrapped the middle three operations with @autocommit and used TransactionMiddleware, we’d get 4 transactions: one for the first two operations, then one for each of the remaining operations.

I can’t think of a situation where it would make sense to use, and wonder if it was just added for completeness.


While the nesting bugs remain, my recommendation would be to go for the TransactionMiddleware and avoid use of the decorators (both in your own code and third party components). If you are writing reusable code that requires transactions, it is probably better to assert that django.db.transaction.is_managed() is true so that you get a failure for improperly configured systems while not introducing unwanted transaction boundaries.

For the Storm integration work I’m doing, I’ve set it to use managed transaction mode to avoid most of the unwanted commits, but it still falls prey to the extra commits when using the decorators. So I guess inspecting the code is still necessary. If anyone has other tips, I’d be glad to hear them.

Syndicated 2008-09-01 07:42:39 from James Henstridge

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