My problem is as follows:

I have a car dealer A, and a db table named sold_cars. When a car is being sold I create entry in this table.

Table has an integer column named order_no. It should be unique within cars sold by dealer.

So if dealer A sold cars a, b and c, then this column should be 1, 2, 3. I have to use this column, and not a primary key because I don't want to have any holes in my numeration - dealer A and B (which might be added later) should have order numbers 1, 2, 3, and not A: 1, 3, 5, and B: 2, 4, 6. So... I select last greatest order_no for given dealer, increment it by 1 and save.

Problem is that two people bought car from dealer A in the same millisecond and both orders got the same order_no. Any advice? I was thinking of closing this process in a transaction block, and locking this table until the transaction is complete, but can't find any info on how to to that.

5 Answers 5


I know this question is a bit older, but I just had the same issue and wanted to share my learnings.

I wasn't quite satisfied with st0nes answer, since (at least for postgres) a LOCK TABLE statement can only be issued within a transaction. And although in Django usually almost everything happens within a transaction, this LockingManager does not make sure, that you actually are within a transaction, at least to my understanding. Also I didn't want to completely change the Models Manager just to be able to lock it at one spot and therefore I was more looking for something that works kinda like the with transaction.atomic():, but also locks a given Model.

So I came up with this:

from django.conf import settings
from django.db import DEFAULT_DB_ALIAS
from django.db.transaction import Atomic, get_connection

class LockedAtomicTransaction(Atomic):
    Does a atomic transaction, but also locks the entire table for any transactions, for the duration of this
    transaction. Although this is the only way to avoid concurrency issues in certain situations, it should be used with
    caution, since it has impacts on performance, for obvious reasons...
    def __init__(self, model, using=None, savepoint=None):
        if using is None:
            using = DEFAULT_DB_ALIAS
        super().__init__(using, savepoint)
        self.model = model

    def __enter__(self):
        super(LockedAtomicTransaction, self).__enter__()

        # Make sure not to lock, when sqlite is used, or you'll run into problems while running tests!!!
        if settings.DATABASES[self.using]['ENGINE'] != 'django.db.backends.sqlite3':
            cursor = None
                cursor = get_connection(self.using).cursor()
                    'LOCK TABLE {db_table_name}'.format(db_table_name=self.model._meta.db_table)
                if cursor and not cursor.closed:

So if I now want to lock the model ModelToLock, this can be used like this:

with LockedAtomicTransaction(ModelToLock):
    # do whatever you want to do

EDIT: Note that I have only tested this using postgres. But to my understanding, it should also work on mysql just like that.

  • Mysq and Django 2.2: AttributeError, 'Cursor' has no attribute 'closed'
    – gabn88
    May 1, 2020 at 14:09
  • Note this doesnt work since Django added durable field. Refer to devsnd answer. Jan 14 at 14:00
from contextlib import contextmanager
from django.db import transaction
from django.db.transaction import get_connection

def lock_table(model):
    with transaction.atomic():
        cursor = get_connection().cursor()
        cursor.execute(f'LOCK TABLE {model._meta.db_table}')

This is very similar to @jdepoix solution, but a bit more concise.

You can use it like this:

with lock_table(MyModel):

Note that this only works with PostgreSQL and uses python 3.6's f-strings a.k.a. literal string interpolation.


I think this code snippet meets your need, assuming you are using MySQL. If not, you may need to tweak the syntax a little, but the idea should still work.

Source: Locking tables

class LockingManager(models.Manager):
    """ Add lock/unlock functionality to manager.


        class Job(models.Model):

            manager = LockingManager()

            counter = models.IntegerField(null=True, default=0)

            def do_atomic_update(job_id)
                ''' Updates job integer, keeping it below 5 '''
                    # Ensure only one HTTP request can do this update at once.

                    job = Job.object.get(id=job_id)
                    # If we don't lock the tables two simultanous
                    # requests might both increase the counter
                    # going over 5
                    if job.counter < 5:
                        job.counter += 1                                        



    def lock(self):
        """ Lock table. 

        Locks the object model table so that atomic update is possible.
        Simulatenous database access request pend until the lock is unlock()'ed.

        Note: If you need to lock multiple tables, you need to do lock them
        all in one SQL clause and this function is not enough. To avoid
        dead lock, all tables must be locked in the same order.

        See http://dev.mysql.com/doc/refman/5.0/en/lock-tables.html
        cursor = connection.cursor()
        table = self.model._meta.db_table
        logger.debug("Locking table %s" % table)
        cursor.execute("LOCK TABLES %s WRITE" % table)
        row = cursor.fetchone()
        return row

    def unlock(self):
        """ Unlock the table. """
        cursor = connection.cursor()
        table = self.model._meta.db_table
        cursor.execute("UNLOCK TABLES")
        row = cursor.fetchone()
        return row  
  • What is cursor.fetchone() doing here?
    – xjcl
    Feb 27 at 6:14

I would recommend using the F() expression instead of locking the entire table. If your app is being heavily used, locking the table will have significant performance impact.

The exact scenario you described is mentioned in Django documentation here. Based on your scenario, here's the code you can use:

from django.db.models import F

# Populate sold_cars as you normally do..
# Before saving, use the "F" expression
sold_cars.order_num =F('order_num') + 1

# You must do this before referring to order_num:
# Now you have the database-assigned order number in sold_cars.order_num

Note that if you set order_num during an update operation, use the following instead:


Since database is in charge of updating the field, there won't be any race conditions or duplicated order_num values. Plus, this approach is much faster than one with locked tables.

  • 2
    Was it the case 7 years ago, when I originally asked this question?
    – Marek M.
    Mar 12, 2020 at 6:55
  • 1
    Django docs don't show when F() was first introduced, and it's there in Django 1.8 as well. But 7 years is a long time, you are a true Django pioneer! Do you recall what Django version you were using?
    – LNI
    Mar 12, 2020 at 14:37
  • I'm pretty sure it was something close to the 1.0 release, but I can't remember the specific version. Knowing how thoughtful Django authors are, quite possibly this behaviour was there from the starters, but back then I couldn't find s*it on that topic anywhere. It's probably related to the fact, I was marely a junior dev :P . Anyway, I think I should accept your answer, as this question is still quite popular and the other answers may lead people to do something very wrong.
    – Marek M.
    Mar 12, 2020 at 15:09
  • Thanks! Yes, I reached your question because I was looking for locking tables, so the popularity of question is quite high.
    – LNI
    Mar 13, 2020 at 13:53
  • I get this error: Failed to insert expression ... F() expressions can only be used to update, not to insert. . I have an invoices table and every invoice has its own number (incremented by one). The latest invoice number is nowhere stored. I expected that the function you suggested would find the biggest invoice number, and add to the new invoice the the biggest invoice number + 1. I guess I didn't understand the concept well?
    – elano7
    Mar 18, 2020 at 22:33

I had the same problem. The F() solution solves a different problem. It doesn't get the max(order_no) for all sold_cars rows for a specific car dealer, but rather provides a way to update the value of order_no based on the value that already set in the field for a particular row.

Locking entire table is an overkill here, it's sufficient to lock only specific dealer's rows.

Below is the solution I ended up with. The code assumes sold_cars table references dealers table using sold_cars.dealer field. Imports, logging and error handling omitted for clarity:


def save_sold_car(sold_car, dealer):
    # update sold_car instance as you please
    with transaction.atomic():
        # to successfully use locks the processes must query for row ranges that
        # intersect. If no common rows are present, no locks will be set.
        # We save the sold_car entry without an order_no to create at least one row
        # that can be locked. If order_no assignment fails later at some point,
        # the transaction will be rolled back and the 'incomplete' sold_car entry
        # will be removed
        # each process adds its own sold_car entry. Concurrently getting sold_cars
        # by their dealer may result in row ranges which don't intersect.
        # For example process A saves sold_car 'a1' the same moment process B saves
        # its 'b1' sold_car. Then both these processes get sold_cars for the same
        # dealer. Process A gets single 'a1' row, while process B gets
        # single 'b1' row.
        # Since all the sold_cars here belong to the same dealer, adding the
        # related dealer's row to each range with 'select_related' will ensure
        # having at least one common row to acquire the lock on.
        dealer_sold_cars = (SoldCar.objects.select_related('dealer')
        # django queries are lazy, make sure to explicitly evaluate them
        # to acquire the locks
        max_order_no = (dealer_sold_cars.aggregate(Max('order_no'))
                                        .get('order_no__max') or DEFAULT_ORDER_NO)
        sold_car.order_no = max_order_no + 1

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