The framework has no way of knowing if you started a transaction. You can even use
$db->query('START TRANSACTION') which the framework would not know about because it doesn't parse SQL statements you execute.
The point is that it's an application responsibility to track whether you've started a transaction or not. It's not something the framework can do.
I know some frameworks try to do it, and do cockamamie things like count how many times you've begun a transaction, only resolving it when you've done commit or rollback a matching number of times. But this is totally bogus because none of your functions can know if commit or rollback will actually do it, or if they're in another layer of nesting.
(Can you tell I've had this discussion a few times? :-)
edit: Propel is a PHP database access library that supports the concept of the "inner transaction" that doesn't commit when you tell it to. Beginning a transaction only increments a counter, and commit/rollback decrements the counter. Below is an excerpt from a mailing list thread where I describe a few scenarios where it fails.
Like it or not, transactions are "global" and they do not obey object-oriented encapsulation.
Problem scenario #1
commit(), are my changes committed? If I'm running inside an "inner transaction" they are not. The code that manages the outer transaction could choose to roll back, and my changes would be discarded without my knowledge or control.
- Model A: begin transaction
- Model A: execute some changes
- Model B: begin transaction (silent no-op)
- Model B: execute some changes
- Model B: commit (silent no-op)
- Model A: rollback (discards both model A changes and model B changes)
- Model B: WTF!? What happened to my changes?
Problem scenario #2
An inner transaction rolls back, it could discard legitimate changes made by an outer transaction. When control is returned to the outer code, it believes its transaction is still active and available to be committed. With your patch, they could call
commit(), and since the transDepth is now 0, it would silently set
$transDepth to -1 and return true, after not committing anything.
Problem scenario #3
If I call
rollback() when there is no transaction active, it sets the
$transDepth to -1. The next
beginTransaction() increments the level to 0, which means the transaction can neither be rolled back nor committed. Subsequent calls to
commit() will just decrement the transaction to -1 or further, and you'll never be able to commit until you do another superfluous
beginTransaction() to increment the level again.
Basically, trying to manage transactions in application logic without allowing the database to do the bookkeeping is a doomed idea. If you have a requirement for two models to use explicit transaction control in one application request, then you must open two DB connections, one for each model. Then each model can have its own active transaction, which can be committed or rolled back independently from one another.