django-pglock performs advisory locks, table locks, and helps manage blocking locks.
Here's some of the functionality at a glance:
pglock.advisoryfor application-level locking, for example, ensuring that tasks don't overlap.pglock.modelfor locking an entire model.pglock.timeoutfor dynamically setting the timeout to acquire a lock.pglock.prioritizeto kill blocking locks for critical code, such as migrations.- The
PGLockandBlockedPGLockmodels for querying active and blocked locks. - The
pglockmanagement command that wraps the models and provides other utilities.
Use pglock.advisory to acquire a Postgres advisory lock:
import pglock
with pglock.advisory("my_lock_id"):
# This code blocks until the "my_lock_id" lock is availableAbove our code will block until the lock is available, meaning no instances of the function will run simultaneously. Use the timeout argument to configure how long to wait for the lock. A timeout of zero will return immediately:
with pglock.advisory("my_lock_id", timeout=0) as acquired:
if acquired:
# The lock is acquiredUse side_effect=pglock.Raise to raise a django.db.utils.OperationalError if the lock can't be acquired. When using the decorator, you can also use side_effect=pglock.Skip to skip the function if the lock can't be acquired:
@pglock.advisory(timeout=0, side_effect=pglock.Skip)
def non_overlapping_func():
# This function will not run if there's another one already running.
# The decorator lock ID defaults to <module_name>.<function_name>pglock.model can take a lock on an entire model during a transaction. For example:
from django.db import transaction
import pglock
with transaction.atomic():
pglock.model("auth.User")
# Any operations on auth.User will be exclusive here. Even read access
# for other transactions is blockedpglock.model uses Postgres's LOCK statement, and it accepts the lock mode as a argument. See the Postgres docs for more information.
Note pglock.model is similar to pglock.advisory. Use the timeout argument to avoid waiting for locks, and supply the appropriate side_effect to adjust runtime behavior.
pglock.prioritize will terminate any locks blocking the wrapped code:
import pglock
@pglock.prioritize()
def my_func():
# Any other statements that have conflicting locks will be killed on a
# periodic interval.
MyModel.objects.update(val="value")pglock.prioritize is useful for prioritizing code, such as migrations, to avoid situations where locks are held for too long.
Use pglock.timeout to dynamically set Postgres's lock_timeout runtime setting:
import pglock
@pglock.timeout(1)
def do_stuff():
# This function will throw an exception if any code takes longer than
# one second to acquire a lockUse pglock.models.PGLock to query active locks. It wraps Postgres's pg_locks view. Use pglock.models.BlockedPGLock to query locks and join the activity that's blocking them.
Use python manage.py pglock to view and kill locks from the command line. It has several options for dynamic filters and re-usable configuration.
django-pglock is compatible with Python 3.9 - 3.13, Django 4.2 - 5.1, Psycopg 2 - 3, and Postgres 13 - 17.
View the django-pglock docs here to learn more about:
- Using advisory locks.
- Locking models.
- Setting dynamic lock timeouts.
- Killing blocking locks.
- The proxy models and custom queryset methods.
- Using and configuring the management command.
Install django-pglock with:
pip3 install django-pglock
After this, add both pgactivity and pglock to the INSTALLED_APPS setting of your Django project.
For information on setting up django-pglock for development and contributing changes, view CONTRIBUTING.md.