Database migration operations

    You can create a PostgreSQL extension in your database using a migration file. This example creates an hstore extension, but the same principles apply for other extensions.

    Set up the hstore extension in PostgreSQL before the first CreateModel or AddField operation that involves HStoreField by adding a migration with the operation. For example:

    The operation skips adding the extension if it already exists.

    For most extensions, this requires a database user with superuser privileges. If the Django database user doesn’t have the appropriate privileges, you’ll have to create the extension outside of Django migrations with a user that has them. In that case, connect to your Django database and run the query CREATE EXTENSION IF NOT EXISTS hstore;.

    CreateExtension

    class CreateExtension(name)

    An Operation subclass which installs a PostgreSQL extension. For common extensions, use one of the more specific subclasses below.

    • name

      This is a required argument. The name of the extension to be installed.

    BloomExtension

    class BloomExtension

    Installs the bloom extension.

    BtreeGinExtension

    class BtreeGinExtension

    Installs the btree_gin extension.

    class BtreeGistExtension

    Installs the btree_gist extension.

    CITextExtension

    class

    Installs the citext extension.

    CryptoExtension

    Installs the pgcrypto extension.

    HStoreExtension

    class HStoreExtension

    Installs the hstore extension and also sets up the connection to interpret hstore data for possible use in subsequent migrations.

    class TrigramExtension

    Installs the pg_trgm extension.

    UnaccentExtension

    class UnaccentExtension

    Installs the unaccent extension.

    Managing collations using migrations

    If you need to filter or order a column using a particular collation that your operating system provides but PostgreSQL does not, you can manage collations in your database using a migration file. These collations can then be used with the db_collation parameter on CharField, , and their subclasses.

    For example, to create a collation for German phone book ordering:

    1. from django.contrib.postgres.operations import CreateCollation
    3. class Migration(migrations.Migration):
    5.     operations = [
    6.         CreateCollation(
    7.             'german_phonebook',
    8.             provider='icu',
    9.             locale='und-u-ks-level2',
    10.         ),
    11.         ...

    class CreateCollation(name, locale, **, provider=’libc’, deterministic=True*)

    Creates a collation with the given name, locale and provider.

    Set the deterministic parameter to False to create a non-deterministic collation, such as for case-insensitive filtering.

    class RemoveCollation(name, locale, **, provider=’libc’, deterministic=True*)

    Removes the collations named name.

    When reversed this is creating a collation with the provided locale, provider, and deterministic arguments. Therefore, locale is required to make this operation reversible.

    Restrictions

    Concurrent index operations

    PostgreSQL supports the CONCURRENTLY option to CREATE INDEX and DROP INDEX statements to add and remove indexes without locking out writes. This option is useful for adding or removing an index in a live production database.

    class AddIndexConcurrently(model_name, index)

    Like , but creates an index with the CONCURRENTLY option. This has a few caveats to be aware of when using this option, see the PostgreSQL documentation of building indexes concurrently.

    class RemoveIndexConcurrently(model_name, name)

    Like , but removes the index with the CONCURRENTLY option. This has a few caveats to be aware of when using this option, see the PostgreSQL documentation.

    Note

    The CONCURRENTLY option is not supported inside a transaction (see ).

    New in Django 4.0.

    PostgreSQL supports the NOT VALID option with the ADD CONSTRAINT statement to add check constraints without enforcing validation on existing rows. This option is useful if you want to skip the potentially lengthy scan of the table to verify that all existing rows satisfy the constraint.

    To validate check constraints created with the NOT VALID option at a later point of time, use the ValidateConstraint operation.

    See for more details.

    class AddConstraintNotValid(model_name, constraint)

    Like AddConstraint, but avoids validating the constraint on existing rows.

    class ValidateConstraint(model_name, name)

    Scans through the table and validates the given check constraint on existing rows.

    Note