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724 lines
28 KiB
Plaintext
=====================
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Database transactions
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=====================
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.. module:: django.db.transaction
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Django gives you a few ways to control how database transactions are managed.
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Managing database transactions
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==============================
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Django's default transaction behavior
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-------------------------------------
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Django's default behavior is to run in autocommit mode. Each query is
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immediately committed to the database, unless a transaction is active.
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:ref:`See below for details <autocommit-details>`.
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Django uses transactions or savepoints automatically to guarantee the
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integrity of ORM operations that require multiple queries, especially
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:ref:`delete() <topics-db-queries-delete>` and :ref:`update()
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<topics-db-queries-update>` queries.
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Django's :class:`~django.test.TestCase` class also wraps each test in a
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transaction for performance reasons.
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.. _tying-transactions-to-http-requests:
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Tying transactions to HTTP requests
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-----------------------------------
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A common way to handle transactions on the web is to wrap each request in a
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transaction. Set :setting:`ATOMIC_REQUESTS <DATABASE-ATOMIC_REQUESTS>` to
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``True`` in the configuration of each database for which you want to enable
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this behavior.
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It works like this. Before calling a view function, Django starts a
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transaction. If the response is produced without problems, Django commits the
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transaction. If the view produces an exception, Django rolls back the
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transaction.
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You may perform partial commits and rollbacks in your view code, typically with
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the :func:`atomic` context manager. However, at the end of the view, either
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all the changes will be committed, or none of them.
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.. warning::
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While the simplicity of this transaction model is appealing, it also makes it
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inefficient when traffic increases. Opening a transaction for every view has
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some overhead. The impact on performance depends on the query patterns of your
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application and on how well your database handles locking.
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.. admonition:: Per-request transactions and streaming responses
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When a view returns a :class:`~django.http.StreamingHttpResponse`, reading
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the contents of the response will often execute code to generate the
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content. Since the view has already returned, such code runs outside of
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the transaction.
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Generally speaking, it isn't advisable to write to the database while
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generating a streaming response, since there's no sensible way to handle
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errors after starting to send the response.
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In practice, this feature simply wraps every view function in the :func:`atomic`
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decorator described below.
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Note that only the execution of your view is enclosed in the transactions.
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Middleware runs outside of the transaction, and so does the rendering of
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template responses.
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When :setting:`ATOMIC_REQUESTS <DATABASE-ATOMIC_REQUESTS>` is enabled, it's
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still possible to prevent views from running in a transaction.
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.. function:: non_atomic_requests(using=None)
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This decorator will negate the effect of :setting:`ATOMIC_REQUESTS
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<DATABASE-ATOMIC_REQUESTS>` for a given view::
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from django.db import transaction
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@transaction.non_atomic_requests
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def my_view(request):
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do_stuff()
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@transaction.non_atomic_requests(using='other')
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def my_other_view(request):
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do_stuff_on_the_other_database()
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It only works if it's applied to the view itself.
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Controlling transactions explicitly
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-----------------------------------
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Django provides a single API to control database transactions.
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.. function:: atomic(using=None, savepoint=True)
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Atomicity is the defining property of database transactions. ``atomic``
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allows us to create a block of code within which the atomicity on the
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database is guaranteed. If the block of code is successfully completed, the
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changes are committed to the database. If there is an exception, the
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changes are rolled back.
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``atomic`` blocks can be nested. In this case, when an inner block
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completes successfully, its effects can still be rolled back if an
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exception is raised in the outer block at a later point.
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``atomic`` is usable both as a `decorator`_::
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from django.db import transaction
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@transaction.atomic
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def viewfunc(request):
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# This code executes inside a transaction.
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do_stuff()
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and as a `context manager`_::
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from django.db import transaction
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def viewfunc(request):
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# This code executes in autocommit mode (Django's default).
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do_stuff()
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with transaction.atomic():
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# This code executes inside a transaction.
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do_more_stuff()
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.. _decorator: http://docs.python.org/glossary.html#term-decorator
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.. _context manager: http://docs.python.org/glossary.html#term-context-manager
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Wrapping ``atomic`` in a try/except block allows for natural handling of
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integrity errors::
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from django.db import IntegrityError, transaction
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@transaction.atomic
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def viewfunc(request):
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create_parent()
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try:
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with transaction.atomic():
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generate_relationships()
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except IntegrityError:
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handle_exception()
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add_children()
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In this example, even if ``generate_relationships()`` causes a database
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error by breaking an integrity constraint, you can execute queries in
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``add_children()``, and the changes from ``create_parent()`` are still
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there. Note that any operations attempted in ``generate_relationships()``
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will already have been rolled back safely when ``handle_exception()`` is
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called, so the exception handler can also operate on the database if
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necessary.
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.. admonition:: Avoid catching exceptions inside ``atomic``!
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When exiting an ``atomic`` block, Django looks at whether it's exited
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normally or with an exception to determine whether to commit or roll
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back. If you catch and handle exceptions inside an ``atomic`` block,
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you may hide from Django the fact that a problem has happened. This
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can result in unexpected behavior.
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This is mostly a concern for :exc:`~django.db.DatabaseError` and its
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subclasses such as :exc:`~django.db.IntegrityError`. After such an
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error, the transaction is broken and Django will perform a rollback at
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the end of the ``atomic`` block. If you attempt to run database
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queries before the rollback happens, Django will raise a
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:class:`~django.db.transaction.TransactionManagementError`. You may
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also encounter this behavior when an ORM-related signal handler raises
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an exception.
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The correct way to catch database errors is around an ``atomic`` block
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as shown above. If necessary, add an extra ``atomic`` block for this
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purpose. This pattern has another advantage: it delimits explicitly
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which operations will be rolled back if an exception occurs.
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If you catch exceptions raised by raw SQL queries, Django's behavior
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is unspecified and database-dependent.
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In order to guarantee atomicity, ``atomic`` disables some APIs. Attempting
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to commit, roll back, or change the autocommit state of the database
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connection within an ``atomic`` block will raise an exception.
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``atomic`` takes a ``using`` argument which should be the name of a
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database. If this argument isn't provided, Django uses the ``"default"``
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database.
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Under the hood, Django's transaction management code:
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- opens a transaction when entering the outermost ``atomic`` block;
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- creates a savepoint when entering an inner ``atomic`` block;
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- releases or rolls back to the savepoint when exiting an inner block;
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- commits or rolls back the transaction when exiting the outermost block.
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You can disable the creation of savepoints for inner blocks by setting the
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``savepoint`` argument to ``False``. If an exception occurs, Django will
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perform the rollback when exiting the first parent block with a savepoint
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if there is one, and the outermost block otherwise. Atomicity is still
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guaranteed by the outer transaction. This option should only be used if
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the overhead of savepoints is noticeable. It has the drawback of breaking
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the error handling described above.
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You may use ``atomic`` when autocommit is turned off. It will only use
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savepoints, even for the outermost block, and it will raise an exception
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if the outermost block is declared with ``savepoint=False``.
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.. admonition:: Performance considerations
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Open transactions have a performance cost for your database server. To
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minimize this overhead, keep your transactions as short as possible. This
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is especially important of you're using :func:`atomic` in long-running
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processes, outside of Django's request / response cycle.
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Autocommit
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==========
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.. _autocommit-details:
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Why Django uses autocommit
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--------------------------
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In the SQL standards, each SQL query starts a transaction, unless one is
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already active. Such transactions must then be explicitly committed or rolled
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back.
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This isn't always convenient for application developers. To alleviate this
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problem, most databases provide an autocommit mode. When autocommit is turned
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on and no transaction is active, each SQL query gets wrapped in its own
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transaction. In other words, not only does each such query start a
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transaction, but the transaction also gets automatically committed or rolled
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back, depending on whether the query succeeded.
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:pep:`249`, the Python Database API Specification v2.0, requires autocommit to
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be initially turned off. Django overrides this default and turns autocommit
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on.
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To avoid this, you can :ref:`deactivate the transaction management
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<deactivate-transaction-management>`, but it isn't recommended.
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.. _deactivate-transaction-management:
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Deactivating transaction management
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-----------------------------------
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You can totally disable Django's transaction management for a given database
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by setting :setting:`AUTOCOMMIT <DATABASE-AUTOCOMMIT>` to ``False`` in its
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configuration. If you do this, Django won't enable autocommit, and won't
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perform any commits. You'll get the regular behavior of the underlying
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database library.
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This requires you to commit explicitly every transaction, even those started
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by Django or by third-party libraries. Thus, this is best used in situations
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where you want to run your own transaction-controlling middleware or do
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something really strange.
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Low-level APIs
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==============
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.. warning::
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Always prefer :func:`atomic` if possible at all. It accounts for the
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idiosyncrasies of each database and prevents invalid operations.
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The low level APIs are only useful if you're implementing your own
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transaction management.
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.. _managing-autocommit:
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Autocommit
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----------
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Django provides a straightforward API in the :mod:`django.db.transaction`
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module to manage the autocommit state of each database connection.
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.. function:: get_autocommit(using=None)
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.. function:: set_autocommit(autocommit, using=None)
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These functions take a ``using`` argument which should be the name of a
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database. If it isn't provided, Django uses the ``"default"`` database.
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Autocommit is initially turned on. If you turn it off, it's your
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responsibility to restore it.
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Once you turn autocommit off, you get the default behavior of your database
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adapter, and Django won't help you. Although that behavior is specified in
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:pep:`249`, implementations of adapters aren't always consistent with one
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another. Review the documentation of the adapter you're using carefully.
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You must ensure that no transaction is active, usually by issuing a
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:func:`commit` or a :func:`rollback`, before turning autocommit back on.
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Django will refuse to turn autocommit off when an :func:`atomic` block is
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active, because that would break atomicity.
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Transactions
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------------
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A transaction is an atomic set of database queries. Even if your program
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crashes, the database guarantees that either all the changes will be applied,
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or none of them.
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Django doesn't provide an API to start a transaction. The expected way to
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start a transaction is to disable autocommit with :func:`set_autocommit`.
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Once you're in a transaction, you can choose either to apply the changes
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you've performed until this point with :func:`commit`, or to cancel them with
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:func:`rollback`. These functions are defined in :mod:`django.db.transaction`.
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.. function:: commit(using=None)
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.. function:: rollback(using=None)
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These functions take a ``using`` argument which should be the name of a
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database. If it isn't provided, Django uses the ``"default"`` database.
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Django will refuse to commit or to rollback when an :func:`atomic` block is
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active, because that would break atomicity.
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.. _topics-db-transactions-savepoints:
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Savepoints
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----------
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A savepoint is a marker within a transaction that enables you to roll back
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part of a transaction, rather than the full transaction. Savepoints are
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available with the SQLite (≥ 3.6.8), PostgreSQL, Oracle and MySQL (when using
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the InnoDB storage engine) backends. Other backends provide the savepoint
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functions, but they're empty operations -- they don't actually do anything.
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Savepoints aren't especially useful if you are using autocommit, the default
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behavior of Django. However, once you open a transaction with :func:`atomic`,
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you build up a series of database operations awaiting a commit or rollback. If
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you issue a rollback, the entire transaction is rolled back. Savepoints
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provide the ability to perform a fine-grained rollback, rather than the full
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rollback that would be performed by ``transaction.rollback()``.
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When the :func:`atomic` decorator is nested, it creates a savepoint to allow
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partial commit or rollback. You're strongly encouraged to use :func:`atomic`
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rather than the functions described below, but they're still part of the
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public API, and there's no plan to deprecate them.
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Each of these functions takes a ``using`` argument which should be the name of
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a database for which the behavior applies. If no ``using`` argument is
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provided then the ``"default"`` database is used.
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Savepoints are controlled by three functions in :mod:`django.db.transaction`:
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.. function:: savepoint(using=None)
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Creates a new savepoint. This marks a point in the transaction that is
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known to be in a "good" state. Returns the savepoint ID (``sid``).
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.. function:: savepoint_commit(sid, using=None)
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Releases savepoint ``sid``. The changes performed since the savepoint was
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created become part of the transaction.
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.. function:: savepoint_rollback(sid, using=None)
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Rolls back the transaction to savepoint ``sid``.
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These functions do nothing if savepoints aren't supported or if the database
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is in autocommit mode.
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In addition, there's a utility function:
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.. function:: clean_savepoints(using=None)
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Resets the counter used to generate unique savepoint IDs.
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The following example demonstrates the use of savepoints::
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from django.db import transaction
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# open a transaction
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@transaction.atomic
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def viewfunc(request):
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a.save()
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# transaction now contains a.save()
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sid = transaction.savepoint()
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b.save()
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# transaction now contains a.save() and b.save()
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if want_to_keep_b:
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transaction.savepoint_commit(sid)
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# open transaction still contains a.save() and b.save()
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else:
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transaction.savepoint_rollback(sid)
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# open transaction now contains only a.save()
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Savepoints may be used to recover from a database error by performing a partial
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rollback. If you're doing this inside an :func:`atomic` block, the entire block
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will still be rolled back, because it doesn't know you've handled the situation
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at a lower level! To prevent this, you can control the rollback behavior with
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the following functions.
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.. function:: get_rollback(using=None)
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.. function:: set_rollback(rollback, using=None)
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Setting the rollback flag to ``True`` forces a rollback when exiting the
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innermost atomic block. This may be useful to trigger a rollback without
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raising an exception.
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Setting it to ``False`` prevents such a rollback. Before doing that, make sure
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you've rolled back the transaction to a known-good savepoint within the current
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atomic block! Otherwise you're breaking atomicity and data corruption may
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occur.
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Database-specific notes
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=======================
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.. _savepoints-in-sqlite:
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Savepoints in SQLite
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--------------------
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While SQLite ≥ 3.6.8 supports savepoints, a flaw in the design of the
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:mod:`sqlite3` module makes them hardly usable.
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When autocommit is enabled, savepoints don't make sense. When it's disabled,
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:mod:`sqlite3` commits implicitly before savepoint statements. (In fact, it
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commits before any statement other than ``SELECT``, ``INSERT``, ``UPDATE``,
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``DELETE`` and ``REPLACE``.) This bug has two consequences:
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- The low level APIs for savepoints are only usable inside a transaction ie.
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inside an :func:`atomic` block.
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- It's impossible to use :func:`atomic` when autocommit is turned off.
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Transactions in MySQL
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---------------------
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If you're using MySQL, your tables may or may not support transactions; it
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depends on your MySQL version and the table types you're using. (By
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"table types," we mean something like "InnoDB" or "MyISAM".) MySQL transaction
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peculiarities are outside the scope of this article, but the MySQL site has
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`information on MySQL transactions`_.
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If your MySQL setup does *not* support transactions, then Django will always
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function in autocommit mode: statements will be executed and committed as soon
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as they're called. If your MySQL setup *does* support transactions, Django
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will handle transactions as explained in this document.
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.. _information on MySQL transactions: http://dev.mysql.com/doc/refman/5.0/en/sql-syntax-transactions.html
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Handling exceptions within PostgreSQL transactions
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--------------------------------------------------
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.. note::
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This section is relevant only if you're implementing your own transaction
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management. This problem cannot occur in Django's default mode and
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:func:`atomic` handles it automatically.
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Inside a transaction, when a call to a PostgreSQL cursor raises an exception
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(typically ``IntegrityError``), all subsequent SQL in the same transaction
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will fail with the error "current transaction is aborted, queries ignored
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until end of transaction block". Whilst simple use of ``save()`` is unlikely
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to raise an exception in PostgreSQL, there are more advanced usage patterns
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which might, such as saving objects with unique fields, saving using the
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force_insert/force_update flag, or invoking custom SQL.
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There are several ways to recover from this sort of error.
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Transaction rollback
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~~~~~~~~~~~~~~~~~~~~
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The first option is to roll back the entire transaction. For example::
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a.save() # Succeeds, but may be undone by transaction rollback
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try:
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b.save() # Could throw exception
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except IntegrityError:
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transaction.rollback()
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c.save() # Succeeds, but a.save() may have been undone
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Calling ``transaction.rollback()`` rolls back the entire transaction. Any
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uncommitted database operations will be lost. In this example, the changes
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made by ``a.save()`` would be lost, even though that operation raised no error
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itself.
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Savepoint rollback
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~~~~~~~~~~~~~~~~~~
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You can use :ref:`savepoints <topics-db-transactions-savepoints>` to control
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the extent of a rollback. Before performing a database operation that could
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fail, you can set or update the savepoint; that way, if the operation fails,
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you can roll back the single offending operation, rather than the entire
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transaction. For example::
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a.save() # Succeeds, and never undone by savepoint rollback
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try:
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sid = transaction.savepoint()
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b.save() # Could throw exception
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transaction.savepoint_commit(sid)
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except IntegrityError:
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transaction.savepoint_rollback(sid)
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c.save() # Succeeds, and a.save() is never undone
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In this example, ``a.save()`` will not be undone in the case where
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``b.save()`` raises an exception.
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.. _transactions-upgrading-from-1.5:
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Changes from Django 1.5 and earlier
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===================================
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The features described below were deprecated in Django 1.6 and will be removed
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in Django 1.8. They're documented in order to ease the migration to the new
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transaction management APIs.
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Legacy APIs
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-----------
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The following functions, defined in ``django.db.transaction``, provided a way
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to control transactions on a per-function or per-code-block basis. They could
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be used as decorators or as context managers, and they accepted a ``using``
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argument, exactly like :func:`atomic`.
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.. function:: autocommit
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Enable Django's default autocommit behavior.
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Transactions will be committed as soon as you call ``model.save()``,
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``model.delete()``, or any other function that writes to the database.
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.. function:: commit_on_success
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Use a single transaction for all the work done in a function.
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If the function returns successfully, then Django will commit all work done
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within the function at that point. If the function raises an exception,
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though, Django will roll back the transaction.
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.. function:: commit_manually
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Tells Django you'll be managing the transaction on your own.
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Whether you are writing or simply reading from the database, you must
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``commit()`` or ``rollback()`` explicitly or Django will raise a
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:exc:`TransactionManagementError` exception. This is required when reading
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from the database because ``SELECT`` statements may call functions which
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modify tables, and thus it is impossible to know if any data has been
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modified.
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.. _transaction-states:
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Transaction states
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------------------
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The three functions described above relied on a concept called "transaction
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states". This mechanism was deprecated in Django 1.6, but it's still available
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until Django 1.8.
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At any time, each database connection is in one of these two states:
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- **auto mode**: autocommit is enabled;
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- **managed mode**: autocommit is disabled.
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Django starts in auto mode. ``TransactionMiddleware``,
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:func:`commit_on_success` and :func:`commit_manually` activate managed mode;
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:func:`autocommit` activates auto mode.
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Internally, Django keeps a stack of states. Activations and deactivations must
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be balanced.
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For example, :func:`commit_on_success` switches to managed mode when entering
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the block of code it controls; when exiting the block, it commits or
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rollbacks, and switches back to auto mode.
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So :func:`commit_on_success` really has two effects: it changes the
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transaction state and it defines an transaction block. Nesting will give the
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expected results in terms of transaction state, but not in terms of
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transaction semantics. Most often, the inner block will commit, breaking the
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atomicity of the outer block.
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:func:`autocommit` and :func:`commit_manually` have similar limitations.
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API changes
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-----------
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Transaction middleware
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~~~~~~~~~~~~~~~~~~~~~~
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In Django 1.6, ``TransactionMiddleware`` is deprecated and replaced by
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:setting:`ATOMIC_REQUESTS <DATABASE-ATOMIC_REQUESTS>`. While the general
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behavior is the same, there are two differences.
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With the previous API, it was possible to switch to autocommit or to commit
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explicitly anywhere inside a view. Since :setting:`ATOMIC_REQUESTS
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<DATABASE-ATOMIC_REQUESTS>` relies on :func:`atomic` which enforces atomicity,
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this isn't allowed any longer. However, at the top level, it's still possible
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to avoid wrapping an entire view in a transaction. To achieve this, decorate
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the view with :func:`non_atomic_requests` instead of :func:`autocommit`.
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The transaction middleware applied not only to view functions, but also to
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middleware modules that came after it. For instance, if you used the session
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middleware after the transaction middleware, session creation was part of the
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transaction. :setting:`ATOMIC_REQUESTS <DATABASE-ATOMIC_REQUESTS>` only
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applies to the view itself.
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Managing transactions
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~~~~~~~~~~~~~~~~~~~~~
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Starting with Django 1.6, :func:`atomic` is the only supported API for
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defining a transaction. Unlike the deprecated APIs, it's nestable and always
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guarantees atomicity.
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In most cases, it will be a drop-in replacement for :func:`commit_on_success`.
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During the deprecation period, it's possible to use :func:`atomic` within
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:func:`autocommit`, :func:`commit_on_success` or :func:`commit_manually`.
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However, the reverse is forbidden, because nesting the old decorators /
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context managers breaks atomicity.
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Managing autocommit
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~~~~~~~~~~~~~~~~~~~
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Django 1.6 introduces an explicit :ref:`API for managing autocommit
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<managing-autocommit>`.
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To disable autocommit temporarily, instead of::
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with transaction.commit_manually():
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# do stuff
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you should now use::
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transaction.set_autocommit(False)
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try:
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# do stuff
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finally:
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transaction.set_autocommit(True)
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To enable autocommit temporarily, instead of::
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with transaction.autocommit():
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# do stuff
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you should now use::
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transaction.set_autocommit(True)
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try:
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# do stuff
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finally:
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transaction.set_autocommit(False)
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Unless you're implementing a transaction management framework, you shouldn't
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ever need to do this.
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Disabling transaction management
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Instead of setting ``TRANSACTIONS_MANAGED = True``, set the ``AUTOCOMMIT`` key
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to ``False`` in the configuration of each database, as explained in
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:ref:`deactivate-transaction-management`.
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Backwards incompatibilities
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---------------------------
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Since version 1.6, Django uses database-level autocommit in auto mode.
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Previously, it implemented application-level autocommit by triggering a commit
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after each ORM write.
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As a consequence, each database query (for instance, an ORM read) started a
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transaction that lasted until the next ORM write. Such "automatic
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transactions" no longer exist in Django 1.6.
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There are four known scenarios where this is backwards-incompatible.
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Note that managed mode isn't affected at all. This section assumes auto mode.
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See the :ref:`description of modes <transaction-states>` above.
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Sequences of custom SQL queries
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|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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If you're executing several :ref:`custom SQL queries <executing-custom-sql>`
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|
in a row, each one now runs in its own transaction, instead of sharing the
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same "automatic transaction". If you need to enforce atomicity, you must wrap
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the sequence of queries in :func:`atomic`.
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To check for this problem, look for calls to ``cursor.execute()``. They're
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usually followed by a call to ``transaction.commit_unless_managed()``, which
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isn't useful any more and should be removed.
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Select for update
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~~~~~~~~~~~~~~~~~
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If you were relying on "automatic transactions" to provide locking between
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:meth:`~django.db.models.query.QuerySet.select_for_update` and a subsequent
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write operation — an extremely fragile design, but nonetheless possible — you
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must wrap the relevant code in :func:`atomic`.
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Using a high isolation level
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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If you were using the "repeatable read" isolation level or higher, and if you
|
|
relied on "automatic transactions" to guarantee consistency between successive
|
|
reads, the new behavior might be backwards-incompatible. To enforce
|
|
consistency, you must wrap such sequences in :func:`atomic`.
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MySQL defaults to "repeatable read" and SQLite to "serializable"; they may be
|
|
affected by this problem.
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At the "read committed" isolation level or lower, "automatic transactions"
|
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have no effect on the semantics of any sequence of ORM operations.
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|
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PostgreSQL and Oracle default to "read committed" and aren't affected, unless
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you changed the isolation level.
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|
Using unsupported database features
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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With triggers, views, or functions, it's possible to make ORM reads result in
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|
database modifications. Django 1.5 and earlier doesn't deal with this case and
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it's theoretically possible to observe a different behavior after upgrading to
|
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Django 1.6 or later. In doubt, use :func:`atomic` to enforce integrity.
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