16

I want to create the following flow using celery configuration\api:

  • Send TaskA(argB) Only if celery queue has no TaskA(argB) already pending

Is it possible? how?

5 Answers 5

9

You can make your job aware of other tasks by some sort of memoization. If you use a cache control key (redis, memcached, /tmp, whatever is handy), you can make execution depend on that key. I'm using redis as an example.

from redis import Redis

@app.task
def run_only_one_instance(params):
    try:
        sentinel =  Redis().incr("run_only_one_instance_sentinel")
        if sentinel == 1:
            #I am the legitimate running task
            perform_task()
        else:
            #Do you want to do something else on task duplicate?
            pass
        Redis().decr("run_only_one_instance_sentinel")
    except Exception as e:
        Redis().decr("run_only_one_instance_sentinel")
        # potentially log error with Sentry?
        # decrement the counter to insure tasks can run
        # or: raise e
4
  • This will prevent task from running if the same task is still running. If same task present 3 times in the queue it will be executed three times as long as they are not being executed simultaneously
    – Ramast
    Jul 15, 2015 at 11:00
  • 1
    Doesn't change the fact that my suggestion is not in line with the question (at least anymore). I think the question has gone through changes since I answered. The accepted answer is heavy runtimewise, but will do what is asked. Jul 15, 2015 at 11:07
  • 1
    I think Ramast might be right, but the main idea is there. It'd be better to reset counter to 0 in the if branch after perform_task and remove all decr calls. This way all duplicate calls won't run again until the reset call. Currently it could happen that task1 calls incr and runs task, task2 calls incr but doesn't run since sentinel !=1 ; task1 calls decr. So basically any tasks can run now since there are no more duplicate tasks running perform_task, but that's not going to happen when a new task3 comes now, because task2 hasn't yet called decr and counter is 1 now, not 0. Oct 11, 2016 at 13:10
  • I'm not entirely sure that's a feasible approach. incr and decr are atomic operations. Setting the counter to 0 might mess up some other client accessing the same sentinel. Mar 11 at 15:41
1

I cannot think of a way but to

  1. Retrieve all executing and scheduled tasks via celery inspect

  2. Iterate through them to see if your task is there.

check this SO question to see how the first point is done.

good luck

1
  • 2
    this doesn't answer the question, and the solution it does give is not practical. Aug 18, 2021 at 8:33
1

My answer is on assuming

  1. Same job is running multiple times
  2. Reason may be due to unable to ack the message
  3. Consumers somehow get disconnected and unacked messages become ready

Solution

  1. First pass bind=True to the task so that we can get task uuid as self.request.id
from redis import Redis

@app.task(bind=True)
def your_task(self, *args, **kwargs):
  task_id = self.request.id
  # check if already executed 
  redis_conn = Redis.from_url(redis_url, charset="utf-8", decode_responses=True)
  if redis_conn.get(task_id):
    logger.info(f"{task_id} is a duplicate job")
    raise Exception('Duplicate job') # Handle this accordingly

  # expire in 1 day
  ex_1_day = 24*60*60
  redis_conn.set(task_id, 1, ex=ex_1_day)
  # From here run your job now
  # ...

Thus this way, it will ensure that your job never runs parallely neither run sequencially duplicately

1

I don't know it's gonna help you more than the other answers, but there goes my approach, following the same idea given by srj. I needed a way to block my server to launch tasks with same id to queue. So I made a general function to help me.

    def is_task_active_or_registered(app, task_id):

        i = app.control.inspect()

        active_dict = i.active()
        scheduled_dict = i.scheduled()
        keys_set = set(active_dict.keys() + scheduled_dict.keys())
        tasks_ids_set = set()

        for _dict in [active_dict, scheduled_dict]:
            for k in keys_set:
                for task in _dict[k]:
                    tasks_ids_set.add(task['id'])

        if task_id in tasks_ids_set:
            return True
        else:
            return False

So, I use it like this:

In the context where my celery-app object is available, I define:

    def check_task_can_not_run(task_id):
        return is_task_active_or_registered(app=celery, task_id=task_id)

And so, from my client request, I call this check_task_can_not_run(...) and block task from being launched in case of True.

0

I was facing similar problem. The Beat was making duplicates in my queue. I wanted to use expires but this feature isn't working properly https://github.com/celery/celery/issues/4300.

So here is scheduler which checks if task has been already enqueued (based on task name).

    # -*- coding: UTF-8 -*-
    from __future__ import unicode_literals
    
    import json
    from heapq import heappop, heappush
    
    from celery.beat import event_t
    from celery.schedules import schedstate
    from django_celery_beat.schedulers import DatabaseScheduler
    from typing import List, Optional
    from typing import TYPE_CHECKING
    
    from your_project import celery_app
    
    if TYPE_CHECKING:
        from celery.beat import ScheduleEntry
    
    
    def is_task_in_queue(task, queue_name=None):
        # type: (str, Optional[str]) -> bool
        queues = [queue_name] if queue_name else celery_app.amqp.queues.keys()
    
        for queue in queues:
            if task in get_celery_queue_tasks(queue):
                return True
        return False
    
    
    def get_celery_queue_tasks(queue_name):
        # type: (str) -> List[str]
        with celery_app.pool.acquire(block=True) as conn:
            tasks = conn.default_channel.client.lrange(queue_name, 0, -1)
            decoded_tasks = []
    
        for task in tasks:
            j = json.loads(task)
            task = j['headers']['task']
            if task not in decoded_tasks:
                decoded_tasks.append(task)
    
        return decoded_tasks
    
    
    class SmartScheduler(DatabaseScheduler):
        """
        Smart means that prevents duplicating of tasks in queues.
        """
        def is_due(self, entry):
            # type: (ScheduleEntry) -> schedstate
            is_due, next_time_to_run = entry.is_due()
    
            if (
                not is_due or  # duplicate wouldn't be created
                not is_task_in_queue(entry.task)  # not in queue so let it run
            ):
                return schedstate(is_due, next_time_to_run)
    
            # Task should be run (is_due) and it is present in queue (is_task_in_queue)
    
            H = self._heap
            if not H:
                return schedstate(False, self.max_interval)
    
            event = H[0]
            verify = heappop(H)
            if verify is event:
                next_entry = self.reserve(entry)
                heappush(H, event_t(self._when(next_entry, next_time_to_run), event[1], next_entry))
            else:
                heappush(H, verify)
                next_time_to_run = min(verify[0], next_time_to_run)
    
            return schedstate(False, min(next_time_to_run, self.max_interval))

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