I am looking for a way to restrict when a function is called, but only when the input parameters are different, that is:

def api_call(user):

for i in range(0,100):

So I would like api_call("antoine") to be called 60 times per second and api_call("oscar") 60 times per second as well.

Any help on how can I do that?

--EDIT 27/04/2015 I have tried calling a subtask with rate_limit within a task, but it does not work either: The rate_limit is always applied for all the instantiated subtasks or tasks (which is logical).

def sub_api_call(user):

def api_call(user):

for i in range(0,100):


  • 1
    Can't just use @app.task(rate_limit=60) decorator on the method? – reptilicus Apr 24 '15 at 18:18
  • Well I don't think so since it will restrict both api_call("antoine") and api_call("Oscar") @30/s, and I want the restriction to be applied per parameter and not per function. – Antoine Brunel Apr 24 '15 at 18:34
  • Correction, I want the restriction to be applied not only per function but also per parameter. – Antoine Brunel Apr 24 '15 at 18:40
  • Based on what the value of the parameter is somehow? Could possibly wrap celery task in another decorator and add the rate_limit into the actual task call somehow? – reptilicus Apr 24 '15 at 20:39
  • Sorry, I don't get it, could you be more specific? – Antoine Brunel Apr 24 '15 at 22:56

I spent some time on this today and came up with a nice solution. All the other solutions to this have one of the following problems:

  • They require tasks to have infinite retries thereby making celery's retry mechanism useless.
  • They don't throttle based on parameters
  • It fails with multiple workers or queues
  • They're clunky, etc.

Basically, you wrap your task like this:

@app.task(bind=True, max_retries=10)
@throttle_task("2/s", key="domain", jitter=(2, 15))
def scrape_domain(self, domain):

And the result is that you'll throttle the task to 2 runs per second per domain parameter, with a random retry jitter between 2-15s. The key parameter is optional, but corresponds to a parameter in your task. If the key parameter is not given, it'll just throttle the task to the rate given. If it is provided, then the throttle will apply to the (task, key) dyad.

The other way to look at this is without the decorator. This gives a little more flexibility, but counts on you to do the retrying yourself. Instead of the above, you could do:

@app.task(bind=True, max_retries=10)
def scrape_domain(self, domain):
    proceed = is_rate_okay(self, "2/s", key=domain)
    if proceed:
        self.request.retries = task.request.retries - 1  # Don't count this as against max_retries.
        return task.retry(countdown=random.uniform(2, 15))

I think that's identical to the first example. A bit longer, and more branchy, but shows how it works a bit more clearly. I'm hoping to always use the decorator, myself.

This all works by keeping a tally in redis. The implementation is very simple. You create a key in redis for the task (and the key parameter, if given), and you expire the redis key according to the schedule provided. If the user sets a rate of 10/m, you make a redis key for 60s, and you increment it every time a task with the correct name is attempted. If your incrementor gets too high, retry the task. Otherwise, run it.

def parse_rate(rate: str) -> Tuple[int, int]:

    Given the request rate string, return a two tuple of:
    <allowed number of requests>, <period of time in seconds>

    (Stolen from Django Rest Framework.)
    num, period = rate.split("/")
    num_requests = int(num)
    if len(period) > 1:
        # It takes the form of a 5d, or 10s, or whatever
        duration_multiplier = int(period[0:-1])
        duration_unit = period[-1]
        duration_multiplier = 1
        duration_unit = period[-1]
    duration_base = {"s": 1, "m": 60, "h": 3600, "d": 86400}[duration_unit]
    duration = duration_base * duration_multiplier
    return num_requests, duration

def throttle_task(
    rate: str,
    jitter: Tuple[float, float] = (1, 10),
    key: Any = None,
) -> Callable:
    """A decorator for throttling tasks to a given rate.

    :param rate: The maximum rate that you want your task to run. Takes the
    form of '1/m', or '10/2h' or similar.
    :param jitter: A tuple of the range of backoff times you want for throttled
    tasks. If the task is throttled, it will wait a random amount of time
    between these values before being tried again.
    :param key: An argument name whose value should be used as part of the
    throttle key in redis. This allows you to create per-argument throttles by
    simply passing the name of the argument you wish to key on.
    :return: The decorated function

    def decorator_func(func: Callable) -> Callable:
        def wrapper(*args, **kwargs) -> Any:
            # Inspect the decorated function's parameters to get the task
            # itself and the value of the parameter referenced by key.
            sig = inspect.signature(func)
            bound_args = sig.bind(*args, **kwargs)
            task = bound_args.arguments["self"]
            key_value = None
            if key:
                    key_value = bound_args.arguments[key]
                except KeyError:
                    raise KeyError(
                        f"Unknown parameter '{key}' in throttle_task "
                        f"decorator of function {task.name}. "
                        f"`key` parameter must match a parameter "
                        f"name from function signature: '{sig}'"
            proceed = is_rate_okay(task, rate, key=key_value)
            if not proceed:
                    "Throttling task %s (%s) via decorator.",
                # Decrement the number of times the task has retried. If you
                # fail to do this, it gets auto-incremented, and you'll expend
                # retries during the backoff.
                task.request.retries = task.request.retries - 1
                return task.retry(countdown=random.uniform(*jitter))
                # All set. Run the task.
                return func(*args, **kwargs)

        return wrapper

    return decorator_func

def is_rate_okay(task: Task, rate: str = "1/s", key=None) -> bool:
    """Keep a global throttle for tasks

    Can be used via the `throttle_task` decorator above.

    This implements the timestamp-based algorithm detailed here:


    Basically, you keep track of the number of requests and use the key
    expiration as a reset of the counter.

    So you have a rate of 5/m, and your first task comes in. You create a key:

        celery_throttle:task_name = 1
        celery_throttle:task_name.expires = 60

    Another task comes in a few seconds later:

        celery_throttle:task_name = 2
        Do not update the ttl, it now has 58s remaining

    And so forth, until:

        celery_throttle:task_name = 6
        (10s remaining)

    We're over the threshold. Re-queue the task for later. 10s later:

        Key expires b/c no more ttl.

    Another task comes in:

        celery_throttle:task_name = 1
        celery_throttle:task_name.expires = 60

    And so forth.

    :param task: The task that is being checked
    :param rate: How many times the task can be run during the time period.
    Something like, 1/s, 2/h or similar.
    :param key: If given, add this to the key placed in Redis for the item.
    Typically, this will correspond to the value of an argument passed to the
    throttled task.
    :return: Whether the task should be throttled or not.
    key = f"celery_throttle:{task.name}{':' + str(key) if key else ''}"

    r = make_redis_interface("CACHE")

    num_tasks, duration = parse_rate(rate)

    # Check the count in redis
    count = r.get(key)
    if count is None:
        # No key. Set the value to 1 and set the ttl of the key.
        r.set(key, 1)
        r.expire(key, duration)
        return True
        # Key found. Check it.
        if int(count) <= num_tasks:
            # We're OK, run it.
            r.incr(key, 1)
            return True
            return False
  • Great solution, couple of questions. 1. The throttle is constant window and not sliding window (at any given point of time there should have been at max N tasks in the last K period). That is not very accurate throttling. 2. This solution uses a decorator, if you have more than 1 task running on different server and a distributed queue, how will they be synchronized across workers and queue servers ? – Vikash Singh Feb 13 at 16:18
  • Yes, the sliding window is an accuracy/efficiency tradeoff. See the blog mentioned in the comments for details. It'll average out correctly, but can be off by 2x during each window. (2) Yes, the decorator creates a central location in your redis DB where the throttle is checked, so you can put the tasks on any queue, and so long as they have the same name and use the same Redis DB, you'll be good to go. – mlissner Feb 14 at 7:24
  • cool, will try this out when I get time. – Vikash Singh Feb 15 at 6:49
  • After using this in production for the last couple months, I discovered that it had a ping-pong problem. Tasks would get throttled, but would then retry really soon. If there were 1,000 throttled tasks, they'd all be retrying constantly. To fix this, I wrote an updated version that includes a scheduler for tasks that need to be retried. It keeps track of the backlog and sets tasks to retry when it should be clear. Lots of comments and notes in the code here: github.com/freelawproject/courtlistener/blob/… – mlissner Jun 26 at 0:28

I don't think this is possible to achieve with Celery's built-in task limiter.

Assuming you're using some kind of cache for your API, the best solution might be to create a hash of the task name and args and use that key for a cache-based throttler.

If you're using Redis, you could either set a lock with a 60 second timeout, or use an incremental counter to count the calls per minute.

This post might give you some pointers on distributed throttling of Celery tasks with Redis:


  • Thank you for your answer and suggestion. So far, I've been using RabbitMQ with Celery, but I'll probably keep using my good old code then! – Antoine Brunel Apr 27 '15 at 9:54
  • link is dead, sadly – jorf.brunning Jul 22 at 1:23

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