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761 lines
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761 lines
30 KiB
Plaintext
=========
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Databases
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=========
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Django attempts to support as many features as possible on all database
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backends. However, not all database backends are alike, and we've had to make
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design decisions on which features to support and which assumptions we can make
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safely.
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This file describes some of the features that might be relevant to Django
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usage. Of course, it is not intended as a replacement for server-specific
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documentation or reference manuals.
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.. _postgresql-notes:
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PostgreSQL notes
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================
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.. versionchanged:: 1.4
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Django supports PostgreSQL 8.2 and higher.
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PostgreSQL 8.2 to 8.2.4
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-----------------------
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The implementation of the population statistics aggregates ``STDDEV_POP`` and
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``VAR_POP`` that shipped with PostgreSQL 8.2 to 8.2.4 are `known to be
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faulty`_. Users of these releases of PostgreSQL are advised to upgrade to
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`Release 8.2.5`_ or later. Django will raise a ``NotImplementedError`` if you
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attempt to use the ``StdDev(sample=False)`` or ``Variance(sample=False)``
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aggregate with a database backend that falls within the affected release range.
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.. _known to be faulty: http://archives.postgresql.org/pgsql-bugs/2007-07/msg00046.php
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.. _Release 8.2.5: http://developer.postgresql.org/pgdocs/postgres/release-8-2-5.html
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Transaction handling
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---------------------
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:doc:`By default </topics/db/transactions>`, Django starts a transaction when a
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database connection is first used and commits the result at the end of the
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request/response handling. The PostgreSQL backends normally operate the same
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as any other Django backend in this respect.
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.. _postgresql-autocommit-mode:
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Autocommit mode
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~~~~~~~~~~~~~~~
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If your application is particularly read-heavy and doesn't make many
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database writes, the overhead of a constantly open transaction can
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sometimes be noticeable. For those situations, if you're using the
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``postgresql_psycopg2`` backend, you can configure Django to use
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*"autocommit"* behavior for the connection, meaning that each database
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operation will normally be in its own transaction, rather than having
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the transaction extend over multiple operations. In this case, you can
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still manually start a transaction if you're doing something that
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requires consistency across multiple database operations. The
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autocommit behavior is enabled by setting the ``autocommit`` key in
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the :setting:`OPTIONS` part of your database configuration in
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:setting:`DATABASES`::
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'OPTIONS': {
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'autocommit': True,
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}
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In this configuration, Django still ensures that :ref:`delete()
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<topics-db-queries-delete>` and :ref:`update() <topics-db-queries-update>`
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queries run inside a single transaction, so that either all the affected
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objects are changed or none of them are.
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.. admonition:: This is database-level autocommit
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This functionality is not the same as the :ref:`autocommit
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<topics-db-transactions-autocommit>` decorator. That decorator is
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a Django-level implementation that commits automatically after
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data changing operations. The feature enabled using the
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:setting:`OPTIONS` option provides autocommit behavior at the
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database adapter level. It commits after *every* operation.
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If you are using this feature and performing an operation akin to delete or
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updating that requires multiple operations, you are strongly recommended to
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wrap you operations in manual transaction handling to ensure data consistency.
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You should also audit your existing code for any instances of this behavior
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before enabling this feature. It's faster, but it provides less automatic
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protection for multi-call operations.
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Indexes for ``varchar`` and ``text`` columns
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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When specifying ``db_index=True`` on your model fields, Django typically
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outputs a single ``CREATE INDEX`` statement. However, if the database type
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for the field is either ``varchar`` or ``text`` (e.g., used by ``CharField``,
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``FileField``, and ``TextField``), then Django will create
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an additional index that uses an appropriate `PostgreSQL operator class`_
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for the column. The extra index is necessary to correctly perfrom
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lookups that use the ``LIKE`` operator in their SQL, as is done with the
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``contains`` and ``startswith`` lookup types.
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.. _PostgreSQL operator class: http://www.postgresql.org/docs/8.4/static/indexes-opclass.html
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.. _mysql-notes:
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MySQL notes
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===========
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Django expects the database to support transactions, referential integrity, and
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Unicode (UTF-8 encoding). Fortunately, MySQL_ has all these features as
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available as far back as 3.23. While it may be possible to use 3.23 or 4.0,
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you'll probably have less trouble if you use 4.1 or 5.0.
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MySQL 4.1
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---------
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`MySQL 4.1`_ has greatly improved support for character sets. It is possible to
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set different default character sets on the database, table, and column.
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Previous versions have only a server-wide character set setting. It's also the
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first version where the character set can be changed on the fly. 4.1 also has
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support for views, but Django currently doesn't use views.
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MySQL 5.0
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---------
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`MySQL 5.0`_ adds the ``information_schema`` database, which contains detailed
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data on all database schema. Django's ``inspectdb`` feature uses this
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``information_schema`` if it's available. 5.0 also has support for stored
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procedures, but Django currently doesn't use stored procedures.
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.. _MySQL: http://www.mysql.com/
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.. _MySQL 4.1: http://dev.mysql.com/doc/refman/4.1/en/index.html
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.. _MySQL 5.0: http://dev.mysql.com/doc/refman/5.0/en/index.html
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Storage engines
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---------------
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MySQL has several `storage engines`_ (previously called table types). You can
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change the default storage engine in the server configuration.
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The default engine is MyISAM_ [#]_. The main drawback of MyISAM is that it
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doesn't currently support transactions or foreign keys. On the plus side, it's
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currently the only engine that supports full-text indexing and searching.
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The InnoDB_ engine is fully transactional and supports foreign key references
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and is probably the best choice at this point in time.
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.. versionchanged:: 1.4
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In previous versions of Django, fixtures with forward references (i.e.
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relations to rows that have not yet been inserted into the database) would fail
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to load when using the InnoDB storage engine. This was due to the fact that InnoDB
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deviates from the SQL standard by checking foreign key constraints immediately
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instead of deferring the check until the transaction is committed. This
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problem has been resolved in Django 1.4. Fixture data is now loaded with foreign key
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checks turned off; foreign key checks are then re-enabled when the data has
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finished loading, at which point the entire table is checked for invalid foreign
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key references and an `IntegrityError` is raised if any are found.
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.. _storage engines: http://dev.mysql.com/doc/refman/5.5/en/storage-engines.html
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.. _MyISAM: http://dev.mysql.com/doc/refman/5.5/en/myisam-storage-engine.html
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.. _InnoDB: http://dev.mysql.com/doc/refman/5.5/en/innodb.html
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.. [#] Unless this was changed by the packager of your MySQL package. We've
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had reports that the Windows Community Server installer sets up InnoDB as
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the default storage engine, for example.
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MySQLdb
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-------
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`MySQLdb`_ is the Python interface to MySQL. Version 1.2.1p2 or later is
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required for full MySQL support in Django.
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.. note::
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If you see ``ImportError: cannot import name ImmutableSet`` when trying to
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use Django, your MySQLdb installation may contain an outdated ``sets.py``
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file that conflicts with the built-in module of the same name from Python
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2.4 and later. To fix this, verify that you have installed MySQLdb version
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1.2.1p2 or newer, then delete the ``sets.py`` file in the MySQLdb
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directory that was left by an earlier version.
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.. _MySQLdb: http://sourceforge.net/projects/mysql-python
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Creating your database
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----------------------
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You can `create your database`_ using the command-line tools and this SQL::
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CREATE DATABASE <dbname> CHARACTER SET utf8;
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This ensures all tables and columns will use UTF-8 by default.
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.. _create your database: http://dev.mysql.com/doc/refman/5.0/en/create-database.html
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.. _mysql-collation:
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Collation settings
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~~~~~~~~~~~~~~~~~~
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The collation setting for a column controls the order in which data is sorted
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as well as what strings compare as equal. It can be set on a database-wide
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level and also per-table and per-column. This is `documented thoroughly`_ in
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the MySQL documentation. In all cases, you set the collation by directly
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manipulating the database tables; Django doesn't provide a way to set this on
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the model definition.
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.. _documented thoroughly: http://dev.mysql.com/doc/refman/5.0/en/charset.html
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By default, with a UTF-8 database, MySQL will use the
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``utf8_general_ci_swedish`` collation. This results in all string equality
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comparisons being done in a *case-insensitive* manner. That is, ``"Fred"`` and
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``"freD"`` are considered equal at the database level. If you have a unique
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constraint on a field, it would be illegal to try to insert both ``"aa"`` and
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``"AA"`` into the same column, since they compare as equal (and, hence,
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non-unique) with the default collation.
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In many cases, this default will not be a problem. However, if you really want
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case-sensitive comparisons on a particular column or table, you would change
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the column or table to use the ``utf8_bin`` collation. The main thing to be
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aware of in this case is that if you are using MySQLdb 1.2.2, the database
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backend in Django will then return bytestrings (instead of unicode strings) for
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any character fields it receive from the database. This is a strong variation
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from Django's normal practice of *always* returning unicode strings. It is up
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to you, the developer, to handle the fact that you will receive bytestrings if
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you configure your table(s) to use ``utf8_bin`` collation. Django itself should
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mostly work smoothly with such columns (except for the ``contrib.sessions``
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``Session`` and ``contrib.admin`` ``LogEntry`` tables described below), but
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your code must be prepared to call ``django.utils.encoding.smart_unicode()`` at
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times if it really wants to work with consistent data -- Django will not do
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this for you (the database backend layer and the model population layer are
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separated internally so the database layer doesn't know it needs to make this
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conversion in this one particular case).
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If you're using MySQLdb 1.2.1p2, Django's standard
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:class:`~django.db.models.CharField` class will return unicode strings even
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with ``utf8_bin`` collation. However, :class:`~django.db.models.TextField`
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fields will be returned as an ``array.array`` instance (from Python's standard
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``array`` module). There isn't a lot Django can do about that, since, again,
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the information needed to make the necessary conversions isn't available when
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the data is read in from the database. This problem was `fixed in MySQLdb
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1.2.2`_, so if you want to use :class:`~django.db.models.TextField` with
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``utf8_bin`` collation, upgrading to version 1.2.2 and then dealing with the
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bytestrings (which shouldn't be too difficult) as described above is the
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recommended solution.
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Should you decide to use ``utf8_bin`` collation for some of your tables with
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MySQLdb 1.2.1p2 or 1.2.2, you should still use ``utf8_collation_ci_swedish``
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(the default) collation for the :class:`django.contrib.sessions.models.Session`
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table (usually called ``django_session``) and the
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:class:`django.contrib.admin.models.LogEntry` table (usually called
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``django_admin_log``). Those are the two standard tables that use
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:class:`~django.db.models.TextField` internally.
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.. _fixed in MySQLdb 1.2.2: http://sourceforge.net/tracker/index.php?func=detail&aid=1495765&group_id=22307&atid=374932
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Connecting to the database
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--------------------------
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Refer to the :doc:`settings documentation </ref/settings>`.
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Connection settings are used in this order:
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1. :setting:`OPTIONS`.
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2. :setting:`NAME`, :setting:`USER`, :setting:`PASSWORD`,
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:setting:`HOST`, :setting:`PORT`
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3. MySQL option files.
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In other words, if you set the name of the database in :setting:`OPTIONS`,
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this will take precedence over :setting:`NAME`, which would override
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anything in a `MySQL option file`_.
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Here's a sample configuration which uses a MySQL option file::
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# settings.py
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DATABASES = {
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'default': {
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'ENGINE': 'django.db.backends.mysql',
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'OPTIONS': {
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'read_default_file': '/path/to/my.cnf',
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},
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}
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}
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# my.cnf
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[client]
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database = NAME
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user = USER
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password = PASSWORD
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default-character-set = utf8
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Several other MySQLdb connection options may be useful, such as ``ssl``,
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``use_unicode``, ``init_command``, and ``sql_mode``. Consult the
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`MySQLdb documentation`_ for more details.
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.. _MySQL option file: http://dev.mysql.com/doc/refman/5.0/en/option-files.html
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.. _MySQLdb documentation: http://mysql-python.sourceforge.net/
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Creating your tables
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--------------------
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When Django generates the schema, it doesn't specify a storage engine, so
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tables will be created with whatever default storage engine your database
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server is configured for. The easiest solution is to set your database server's
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default storage engine to the desired engine.
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If you're using a hosting service and can't change your server's default
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storage engine, you have a couple of options.
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* After the tables are created, execute an ``ALTER TABLE`` statement to
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convert a table to a new storage engine (such as InnoDB)::
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ALTER TABLE <tablename> ENGINE=INNODB;
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This can be tedious if you have a lot of tables.
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* Another option is to use the ``init_command`` option for MySQLdb prior to
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creating your tables::
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'OPTIONS': {
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'init_command': 'SET storage_engine=INNODB',
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}
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This sets the default storage engine upon connecting to the database.
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After your tables have been created, you should remove this option.
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* Another method for changing the storage engine is described in
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AlterModelOnSyncDB_.
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.. _AlterModelOnSyncDB: http://code.djangoproject.com/wiki/AlterModelOnSyncDB
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Table names
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-----------
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There are `known issues`_ in even the latest versions of MySQL that can cause the
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case of a table name to be altered when certain SQL statements are executed
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under certain conditions. It is recommended that you use lowercase table
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names, if possible, to avoid any problems that might arise from this behavior.
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Django uses lowercase table names when it auto-generates table names from
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models, so this is mainly a consideration if you are overriding the table name
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via the :class:`~django.db.models.Options.db_table` parameter.
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.. _known issues: http://bugs.mysql.com/bug.php?id=48875
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Notes on specific fields
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------------------------
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Boolean fields
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~~~~~~~~~~~~~~
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.. versionchanged:: 1.2
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In previous versions of Django when running under MySQL ``BooleanFields`` would
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return their data as ``ints``, instead of true ``bools``. See the release
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notes for a complete description of the change.
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Character fields
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~~~~~~~~~~~~~~~~
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Any fields that are stored with ``VARCHAR`` column types have their
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``max_length`` restricted to 255 characters if you are using ``unique=True``
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for the field. This affects :class:`~django.db.models.CharField`,
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:class:`~django.db.models.SlugField` and
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:class:`~django.db.models.CommaSeparatedIntegerField`.
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Furthermore, if you are using a version of MySQL prior to 5.0.3, all of those
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column types have a maximum length restriction of 255 characters, regardless
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of whether ``unique=True`` is specified or not.
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DateTime fields
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~~~~~~~~~~~~~~~
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MySQL does not have a timezone-aware column type. If an attempt is made to
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store a timezone-aware ``time`` or ``datetime`` to a
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:class:`~django.db.models.TimeField` or :class:`~django.db.models.DateTimeField`
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respectively, a ``ValueError`` is raised rather than truncating data.
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Row locking with ``QuerySet.select_for_update()``
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-------------------------------------------------
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MySQL does not support the ``NOWAIT`` option to the ``SELECT ... FOR UPDATE``
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statement. If ``select_for_update()`` is used with ``nowait=True`` then a
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``DatabaseError`` will be raised.
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.. _sqlite-notes:
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SQLite notes
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============
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SQLite_ provides an excellent development alternative for applications that
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are predominantly read-only or require a smaller installation footprint. As
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with all database servers, though, there are some differences that are
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specific to SQLite that you should be aware of.
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.. _SQLite: http://www.sqlite.org/
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.. _sqlite-string-matching:
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Substring matching and case sensitivity
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-----------------------------------------
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For all SQLite versions, there is some slightly counter-intuitive behavior when
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attempting to match some types of strings. These are triggered when using the
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:lookup:`iexact` or :lookup:`contains` filters in Querysets. The behavior
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splits into two cases:
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1. For substring matching, all matches are done case-insensitively. That is a
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filter such as ``filter(name__contains="aa")`` will match a name of ``"Aabb"``.
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2. For strings containing characters outside the ASCII range, all exact string
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matches are performed case-sensitively, even when the case-insensitive options
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are passed into the query. So the :lookup:`iexact` filter will behave exactly
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the same as the :lookup:`exact` filter in these cases.
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Some possible workarounds for this are `documented at sqlite.org`_, but they
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aren't utilised by the default SQLite backend in Django, as incorporating them
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would be fairly difficult to do robustly. Thus, Django exposes the default
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SQLite behavior and you should be aware of this when doing case-insensitive or
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substring filtering.
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.. _documented at sqlite.org: http://www.sqlite.org/faq.html#q18
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SQLite 3.3.6 or newer strongly recommended
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------------------------------------------
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Versions of SQLite 3.3.5 and older contains the following bugs:
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* A bug when `handling`_ ``ORDER BY`` parameters. This can cause problems when
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you use the ``select`` parameter for the ``extra()`` QuerySet method. The bug
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can be identified by the error message ``OperationalError: ORDER BY terms
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must not be non-integer constants``.
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* A bug when handling `aggregation`_ together with DateFields and
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DecimalFields.
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.. _handling: http://www.sqlite.org/cvstrac/tktview?tn=1768
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.. _aggregation: http://code.djangoproject.com/ticket/10031
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SQLite 3.3.6 was released in April 2006, so most current binary distributions
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for different platforms include newer version of SQLite usable from Python
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through either the ``pysqlite2`` or the ``sqlite3`` modules.
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However, some platform/Python version combinations include older versions of
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SQLite (e.g. the official binary distribution of Python 2.5 for Windows, 2.5.4
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as of this writing, includes SQLite 3.3.4). There are (as of Django 1.1) even
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some tests in the Django test suite that will fail when run under this setup.
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As described :ref:`below<using-newer-versions-of-pysqlite>`, this can be solved
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by downloading and installing a newer version of ``pysqlite2``
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(``pysqlite-2.x.x.win32-py2.5.exe`` in the described case) that includes and
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uses a newer version of SQLite. Python 2.6 for Windows ships with a version of
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SQLite that is not affected by these issues.
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Version 3.5.9
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-------------
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The Ubuntu "Intrepid Ibex" (8.10) SQLite 3.5.9-3 package contains a bug that
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causes problems with the evaluation of query expressions. If you are using
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Ubuntu "Intrepid Ibex", you will need to update the package to version
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3.5.9-3ubuntu1 or newer (recommended) or find an alternate source for SQLite
|
|
packages, or install SQLite from source.
|
|
|
|
At one time, Debian Lenny shipped with the same malfunctioning SQLite 3.5.9-3
|
|
package. However the Debian project has subsequently issued updated versions
|
|
of the SQLite package that correct these bugs. If you find you are getting
|
|
unexpected results under Debian, ensure you have updated your SQLite package
|
|
to 3.5.9-5 or later.
|
|
|
|
The problem does not appear to exist with other versions of SQLite packaged
|
|
with other operating systems.
|
|
|
|
Version 3.6.2
|
|
--------------
|
|
|
|
SQLite version 3.6.2 (released August 30, 2008) introduced a bug into ``SELECT
|
|
DISTINCT`` handling that is triggered by, amongst other things, Django's
|
|
``DateQuerySet`` (returned by the ``dates()`` method on a queryset).
|
|
|
|
You should avoid using this version of SQLite with Django. Either upgrade to
|
|
3.6.3 (released September 22, 2008) or later, or downgrade to an earlier
|
|
version of SQLite.
|
|
|
|
.. _using-newer-versions-of-pysqlite:
|
|
|
|
Using newer versions of the SQLite DB-API 2.0 driver
|
|
----------------------------------------------------
|
|
|
|
For versions of Python 2.5 or newer that include ``sqlite3`` in the standard
|
|
library Django will now use a ``pysqlite2`` interface in preference to
|
|
``sqlite3`` if it finds one is available.
|
|
|
|
This provides the ability to upgrade both the DB-API 2.0 interface or SQLite 3
|
|
itself to versions newer than the ones included with your particular Python
|
|
binary distribution, if needed.
|
|
|
|
"Database is locked" errors
|
|
---------------------------
|
|
|
|
SQLite is meant to be a lightweight database, and thus can't support a high
|
|
level of concurrency. ``OperationalError: database is locked`` errors indicate
|
|
that your application is experiencing more concurrency than ``sqlite`` can
|
|
handle in default configuration. This error means that one thread or process has
|
|
an exclusive lock on the database connection and another thread timed out
|
|
waiting for the lock the be released.
|
|
|
|
Python's SQLite wrapper has
|
|
a default timeout value that determines how long the second thread is allowed to
|
|
wait on the lock before it times out and raises the ``OperationalError: database
|
|
is locked`` error.
|
|
|
|
If you're getting this error, you can solve it by:
|
|
|
|
* Switching to another database backend. At a certain point SQLite becomes
|
|
too "lite" for real-world applications, and these sorts of concurrency
|
|
errors indicate you've reached that point.
|
|
|
|
* Rewriting your code to reduce concurrency and ensure that database
|
|
transactions are short-lived.
|
|
|
|
* Increase the default timeout value by setting the ``timeout`` database
|
|
option option::
|
|
|
|
'OPTIONS': {
|
|
# ...
|
|
'timeout': 20,
|
|
# ...
|
|
}
|
|
|
|
This will simply make SQLite wait a bit longer before throwing "database
|
|
is locked" errors; it won't really do anything to solve them.
|
|
|
|
``QuerySet.select_for_update()`` not supported
|
|
----------------------------------------------
|
|
|
|
SQLite does not support the ``SELECT ... FOR UPDATE`` syntax. Calling it will
|
|
have no effect.
|
|
|
|
.. _sqlite-connection-queries:
|
|
|
|
Parameters not quoted in ``connection.queries``
|
|
-----------------------------------------------
|
|
|
|
``sqlite3`` does not provide a way to retrieve the SQL after quoting and
|
|
substituting the parameters. Instead, the SQL in ``connection.queries`` is
|
|
rebuilt with a simple string interpolation. It may be incorrect. Make sure
|
|
you add quotes where necessary before copying a query into a SQLite shell.
|
|
|
|
.. _oracle-notes:
|
|
|
|
Oracle notes
|
|
============
|
|
|
|
Django supports `Oracle Database Server`_ versions 9i and
|
|
higher. Oracle version 10g or later is required to use Django's
|
|
``regex`` and ``iregex`` query operators. You will also need at least
|
|
version 4.3.1 of the `cx_Oracle`_ Python driver.
|
|
|
|
Note that due to a Unicode-corruption bug in ``cx_Oracle`` 5.0, that
|
|
version of the driver should **not** be used with Django;
|
|
``cx_Oracle`` 5.0.1 resolved this issue, so if you'd like to use a
|
|
more recent ``cx_Oracle``, use version 5.0.1.
|
|
|
|
``cx_Oracle`` 5.0.1 or greater can optionally be compiled with the
|
|
``WITH_UNICODE`` environment variable. This is recommended but not
|
|
required.
|
|
|
|
.. _`Oracle Database Server`: http://www.oracle.com/
|
|
.. _`cx_Oracle`: http://cx-oracle.sourceforge.net/
|
|
|
|
In order for the ``python manage.py syncdb`` command to work, your Oracle
|
|
database user must have privileges to run the following commands:
|
|
|
|
* CREATE TABLE
|
|
* CREATE SEQUENCE
|
|
* CREATE PROCEDURE
|
|
* CREATE TRIGGER
|
|
|
|
To run Django's test suite, the user needs these *additional* privileges:
|
|
|
|
* CREATE USER
|
|
* DROP USER
|
|
* CREATE TABLESPACE
|
|
* DROP TABLESPACE
|
|
* CONNECT WITH ADMIN OPTION
|
|
* RESOURCE WITH ADMIN OPTION
|
|
|
|
Connecting to the database
|
|
--------------------------
|
|
|
|
Your Django settings.py file should look something like this for Oracle::
|
|
|
|
DATABASES = {
|
|
'default': {
|
|
'ENGINE': 'django.db.backends.oracle',
|
|
'NAME': 'xe',
|
|
'USER': 'a_user',
|
|
'PASSWORD': 'a_password',
|
|
'HOST': '',
|
|
'PORT': '',
|
|
}
|
|
}
|
|
|
|
|
|
If you don't use a ``tnsnames.ora`` file or a similar naming method that
|
|
recognizes the SID ("xe" in this example), then fill in both
|
|
:setting:`HOST` and :setting:`PORT` like so::
|
|
|
|
DATABASES = {
|
|
'default': {
|
|
'ENGINE': 'django.db.backends.oracle',
|
|
'NAME': 'xe',
|
|
'USER': 'a_user',
|
|
'PASSWORD': 'a_password',
|
|
'HOST': 'dbprod01ned.mycompany.com',
|
|
'PORT': '1540',
|
|
}
|
|
}
|
|
|
|
You should supply both :setting:`HOST` and :setting:`PORT`, or leave both
|
|
as empty strings.
|
|
|
|
Threaded option
|
|
----------------
|
|
|
|
If you plan to run Django in a multithreaded environment (e.g. Apache in Windows
|
|
using the default MPM module), then you **must** set the ``threaded`` option of
|
|
your Oracle database configuration to True::
|
|
|
|
'OPTIONS': {
|
|
'threaded': True,
|
|
},
|
|
|
|
Failure to do this may result in crashes and other odd behavior.
|
|
|
|
INSERT ... RETURNING INTO
|
|
-------------------------
|
|
|
|
By default, the Oracle backend uses a ``RETURNING INTO`` clause to efficiently
|
|
retrieve the value of an ``AutoField`` when inserting new rows. This behavior
|
|
may result in a ``DatabaseError`` in certain unusual setups, such as when
|
|
inserting into a remote table, or into a view with an ``INSTEAD OF`` trigger.
|
|
The ``RETURNING INTO`` clause can be disabled by setting the
|
|
``use_returning_into`` option of the database configuration to False::
|
|
|
|
'OPTIONS': {
|
|
'use_returning_into': False,
|
|
},
|
|
|
|
In this case, the Oracle backend will use a separate ``SELECT`` query to
|
|
retrieve AutoField values.
|
|
|
|
Tablespace options
|
|
------------------
|
|
|
|
A common paradigm for optimizing performance in Oracle-based systems is the
|
|
use of `tablespaces`_ to organize disk layout. The Oracle backend supports
|
|
this use case by adding ``db_tablespace`` options to the ``Meta`` and
|
|
``Field`` classes. (When you use a backend that lacks support for tablespaces,
|
|
Django ignores these options.)
|
|
|
|
.. _`tablespaces`: http://en.wikipedia.org/wiki/Tablespace
|
|
|
|
A tablespace can be specified for the table(s) generated by a model by
|
|
supplying the ``db_tablespace`` option inside the model's ``class Meta``.
|
|
Additionally, you can pass the ``db_tablespace`` option to a ``Field``
|
|
constructor to specify an alternate tablespace for the ``Field``'s column
|
|
index. If no index would be created for the column, the ``db_tablespace``
|
|
option is ignored::
|
|
|
|
class TablespaceExample(models.Model):
|
|
name = models.CharField(max_length=30, db_index=True, db_tablespace="indexes")
|
|
data = models.CharField(max_length=255, db_index=True)
|
|
edges = models.ManyToManyField(to="self", db_tablespace="indexes")
|
|
|
|
class Meta:
|
|
db_tablespace = "tables"
|
|
|
|
In this example, the tables generated by the ``TablespaceExample`` model
|
|
(i.e., the model table and the many-to-many table) would be stored in the
|
|
``tables`` tablespace. The index for the name field and the indexes on the
|
|
many-to-many table would be stored in the ``indexes`` tablespace. The ``data``
|
|
field would also generate an index, but no tablespace for it is specified, so
|
|
it would be stored in the model tablespace ``tables`` by default.
|
|
|
|
Use the :setting:`DEFAULT_TABLESPACE` and :setting:`DEFAULT_INDEX_TABLESPACE`
|
|
settings to specify default values for the db_tablespace options.
|
|
These are useful for setting a tablespace for the built-in Django apps and
|
|
other applications whose code you cannot control.
|
|
|
|
Django does not create the tablespaces for you. Please refer to `Oracle's
|
|
documentation`_ for details on creating and managing tablespaces.
|
|
|
|
.. _`Oracle's documentation`: http://download.oracle.com/docs/cd/B19306_01/server.102/b14200/statements_7003.htm#SQLRF01403
|
|
|
|
Naming issues
|
|
-------------
|
|
|
|
Oracle imposes a name length limit of 30 characters. To accommodate this, the
|
|
backend truncates database identifiers to fit, replacing the final four
|
|
characters of the truncated name with a repeatable MD5 hash value.
|
|
|
|
When running syncdb, an ``ORA-06552`` error may be encountered if
|
|
certain Oracle keywords are used as the name of a model field or the
|
|
value of a ``db_column`` option. Django quotes all identifiers used
|
|
in queries to prevent most such problems, but this error can still
|
|
occur when an Oracle datatype is used as a column name. In
|
|
particular, take care to avoid using the names ``date``,
|
|
``timestamp``, ``number`` or ``float`` as a field name.
|
|
|
|
NULL and empty strings
|
|
----------------------
|
|
|
|
Django generally prefers to use the empty string ('') rather than
|
|
NULL, but Oracle treats both identically. To get around this, the
|
|
Oracle backend coerces the ``null=True`` option on fields that have
|
|
the empty string as a possible value. When fetching from the database,
|
|
it is assumed that a NULL value in one of these fields really means
|
|
the empty string, and the data is silently converted to reflect this
|
|
assumption.
|
|
|
|
``TextField`` limitations
|
|
-------------------------
|
|
|
|
The Oracle backend stores ``TextFields`` as ``NCLOB`` columns. Oracle imposes
|
|
some limitations on the usage of such LOB columns in general:
|
|
|
|
* LOB columns may not be used as primary keys.
|
|
|
|
* LOB columns may not be used in indexes.
|
|
|
|
* LOB columns may not be used in a ``SELECT DISTINCT`` list. This means that
|
|
attempting to use the ``QuerySet.distinct`` method on a model that
|
|
includes ``TextField`` columns will result in an error when run against
|
|
Oracle. As a workaround, use the ``QuerySet.defer`` method in conjunction
|
|
with ``distinct()`` to prevent ``TextField`` columns from being included in
|
|
the ``SELECT DISTINCT`` list.
|
|
|
|
.. _third-party-notes:
|
|
|
|
Using a 3rd-party database backend
|
|
==================================
|
|
|
|
In addition to the officially supported databases, there are backends provided
|
|
by 3rd parties that allow you to use other databases with Django:
|
|
|
|
* `Sybase SQL Anywhere`_
|
|
* `IBM DB2`_
|
|
* `Microsoft SQL Server 2005`_
|
|
* Firebird_
|
|
* ODBC_
|
|
* ADSDB_
|
|
|
|
The Django versions and ORM features supported by these unofficial backends
|
|
vary considerably. Queries regarding the specific capabilities of these
|
|
unofficial backends, along with any support queries, should be directed to
|
|
the support channels provided by each 3rd party project.
|
|
|
|
.. _Sybase SQL Anywhere: http://code.google.com/p/sqlany-django/
|
|
.. _IBM DB2: http://code.google.com/p/ibm-db/
|
|
.. _Microsoft SQL Server 2005: http://code.google.com/p/django-mssql/
|
|
.. _Firebird: http://code.google.com/p/django-firebird/
|
|
.. _ODBC: http://code.google.com/p/django-pyodbc/
|
|
.. _ADSDB: http://code.google.com/p/adsdb-django/
|