.. _topics-db-multi-db: ================== Multiple Databases ================== .. versionadded:: 1.2 This topic guide describes Django's support for interacting with multiple databases. Most of the rest of Django's documentation assumes you are interacting with a single database. If you want to interact with multiple databases, some additional steps must be taken. Defining your databases ======================= The first step to using more than one database with Django is to tell Django about the database servers you'll be using. This is done using the :setting:`DATABASES` setting. This setting maps database aliases, which are a way to refer to a specific database throughout Django, to a dictionary of settings for that specific connection. The settings in the inner dictionaries are described fully in the :setting:`DATABASES` documentation. Regardless of how many databases you have, you *must* have a database named ``'default'``. Any additional databases you have can have whatever alias you choose. The following is an example ``settings.py`` snippet defining two databases - a default Postgres database, and a MySQL database called ``users``: .. code-block:: python DATABASES = { 'default': { 'NAME': 'app_data', 'BACKEND': 'django.db.backends.postgres_psycopg2', 'USER': 'postgres_user', 'PASSWORD': 's3krit' }, 'users': { 'NAME': 'user_data' 'BACKEND': 'django.db.backends.mysql', 'USER': 'mysql_user', 'PASSWORD': 'priv4te' } } If you attempt to access a database that you haven't defined in your :setting:`DATABASES` setting then Django will raise a ``django.db.utils.ConnectionDoesNotExist`` exception. Selecting a database for a ``QuerySet`` ======================================= It is possible to select the database for a ``QuerySet`` at any point during it's construction. To choose the database that a query will be preformed against simply call the ``using()`` method on the ``QuerySet``. ``using()`` takes a single argument: the alias of the database on which you want to run the query. For example: .. code-block:: python # This will run on the 'default' database... >>> Author.objects.all() # So will this... >>> Author.objects.using('default').all() # This will run on the 'other' database >>> Author.objects.using('other').all() Select a database to save to ============================ To choose what database to save a model to, provide a ``using`` keyword argument to ``Model.save()``. For example if you had a user model that you wanted to save to the ``'legacy_users'`` database you would save the user by calling:: >>> user_obj.save(using='legacy_users') Moving an object from one database to another --------------------------------------------- If you have saved an instance to one database, it might be tempting to use ``save(using=...)`` as a way to migrate the instance to a new database. However, if you don't take appropriate steps, this could have some unexpected consequences. Consider the following example:: >>> p = Person(name='Fred') >>> p.save(using='first') # (1) # some other processing ... >>> p.save(using='second') # (2) In statement 1, a new Person object is saved to the ``first`` database. At this time, ``p`` doesn't have a primary key, so Django issues a SQL ``INSERT`` statement. This creates a primary key, and Django assigns that primary key to ``p``. When the save occurs in statement 2, ``p`` already has a primary key value, and Django will attempt to use that primary key on the new database. If the primary key value isn't in use in the ``second`` database, then you won't have any problems -- the object will be copied to the new databse. However, if the primary key of ``p`` is already in use on the ``second`` database, the existing object on the ``second`` database will be lost when ``p`` is saved. There are two ways to avoid this outcome. Firstly, you can clear the primary key of the instance. If an object has no primary key, Django will treat it as a new object, avoiding any loss of data on the ``second`` database:: >>> p = Person(name='Fred') >>> p.save(using='first') # some other processing ... >>> p.pk = None # Clear the PK >>> p.save(using='second') # Write a completely new object Secondly, you can use the ``force_insert`` option to ``save()`` to ensure that Django does a SQL ``INSERT``:: >>> p = Person(name='Fred') >>> p.save(using='first') # some other processing ... >>> p.save(using='second', force_insert=True) This will ensure that the person named ``Fred`` will have the same primary key on both databases. If that primary key is already in use when you try to save onto the ``second`` database, an error will be raised. Select a database to delete from ================================ By default, a call to delete an existing object will be executed on the same database that was used to retrieve the object in the first place:: >>> user_obj = User.objects.using('legacy_users').get(username='fred') >>> user_obj.delete() # will delete from the `legacy_users` database If you want to specify the database from which a model will be deleted, you can use a ``using`` keyword argument to the ``Model.delete()`` method. This argument is analogous to the ``using`` keyword argument to ``save()``. For example if you were migrating a user from the ``'legacy_users'`` database to the ``'new_users'`` database you might use the commands:: >>> user_obj.save(using='new_users') >>> user_obj.delete(using='legacy_users') Using ``Managers`` with multiple databases ========================================== When you call ``using()`` Django returns a ``QuerySet`` that will be evaluated against that database. However, sometimes you want to direct a manager to use a specific database chain ``using()``. If you call ``using()``, you won't have access to any of the methods on the manager. To overcome this limitation, managers provide a ``db_manager()`` method. This method returns a copy of the *manager* bound to that specific database. So, if you want to load an object using it's natural key (using the ``get_by_natural_key()`` method on the manager, you can call:: >>> Book.objects.db_mamanger("other").get_by_natural_key(...) If you are overriding ``get_query_set()`` on your manager you must be sure to either, call the method on the parent (using ``super()``), or do the appropriate handling of the ``_db`` attribute on the manager. For example if you wanted to return a custom ``QuerySet`` class from the ``get_query_set`` method you could do this:: class MyManager(models.Manager): ... def get_query_set(self): qs = CustomQuerySet(self.model) if self._db is not None: qs = qs.using(self._db) return qs Exposing multiple databases in Django's admin interface ======================================================= Django's admin doesn't have any explicit support for multiple databases. If you want to provide an admin interface for a model on a database other than ``default``, you need to write custom :class:`~django.contrib.admin.ModelAdmin` classes that will direct the admin to use a specific database for content. There are four methods that require customization on a ModelAdmin object:: class MultiDBModelAdmin(admin.ModelAdmin): # A handy constant for the name of the alternate database using = 'other' def save_model(self, request, obj, form, change): # Tell Django to save objects to the 'other' database obj.save(using=self.using) def queryset(self, request): # Tell Django to look for objects on the 'other' database return super(MultiDBModelAdmin, self).queryset(request).using(self.using) def formfield_for_foreignkey(self, db_field, request=None, **kwargs): # Tell Django to populate ForeignKey widgets using a query # on the 'other' database return super(MultiDBModelAdmin, self).formfield_for_foreignkey(db_field, request=request, using=self.using, **kwargs) def formfield_for_manytomany(self, db_field, request=None, **kwargs): # Tell Django to populate ManyToMany widgets using a query # on the 'other' database return super(MultiDBModelAdmin, self).formfield_for_manytomany(db_field, request=request, using=self.using, **kwargs) The implementation provided here implements a multi-db strategy where all objects of a given type are stored on a specific database (e.g., all ``User`` objects are on the ``other`` database). If your usage of multi-db is more complex, your ModelAdmin will need to reflect that strategy. Inlines can be handled in a similar fashion -- they require just three customized methods:: class MultiDBTabularInline(admin.TabularInline): using = 'other' def queryset(self, request): # Tell Django to look for inline objects on the 'other' database return super(MultiDBTabularInline, self).queryset(request).using(self.using) def formfield_for_foreignkey(self, db_field, request=None, **kwargs): # Tell Django to populate ForeignKey widgets using a query # on the 'other' database return super(MultiDBTabularInline, self).formfield_for_foreignkey(db_field, request=request, using=self.using, **kwargs) def formfield_for_manytomany(self, db_field, request=None, **kwargs): # Tell Django to populate ManyToMany widgets using a query # on the 'other' database return super(MultiDBTabularInline, self).formfield_for_manytomany(db_field, request=request, using=self.using, **kwargs) Once you have written your model admin definitions, they can be registered with any Admin instance:: from django.contrib import admin # Specialize the multi-db admin objects for use with specific models class BookInline(MultiDBTabularInline): model = Book class PublisherAdmin(MultiDBModelAdmin): inlines = [BookInline] admin.site.register admin.site.register(Author, MultiDBModelAdmin) admin.site.register(Publisher, PublisherAdmin) othersite = admin.Site('othersite') othersite.register(Publisher, MultiDBModelAdmin) This example sets up two admin sites. On the first site, the ``Author`` and ``Publisher`` objects are exposed; ``Publisher`` objects have an tabular inline showing books published by that publisher. The second site exposes just publishers, without the inlines.