If you’re familiar with Python, chances are you’ve heard of Celery. It’s often the go-to choice for handling tasks asynchronously, like image processing or sending emails.
Talking with some folks, I started noticing that many developers find Celery impressive at first, but as their projects scale and complexity increases, their excitement start to fade. While some move away from Celery for legitimate reasons, others may simply not explore its core deeply enough to tailor it to their needs.
In this blog, I want to discuss one of the reasons why some developers start looking for alternatives or even build custom background worker frameworks: fair processing. In environments where users/tenants submit tasks of varying sizes, the risk of one tenant’s heavy workload affecting others can create bottlenecks and lead to frustration.
I’ll walk you through strategies to implement fair processing in Celery, ensuring balanced task distribution so that no single tenant can dominate your resources.
Let’s dive into a common challenge faced by multi-tenant applications, particularly those that handle batch processing. Imagine you have a system where users can queue their image processing tasks, allowing them to receive their processed images after a brief wait. This setup not only keeps your API responsive but also lets you scale your workers as needed to handle the load efficiently.
Everything runs smoothly—until one tenant decides to submit an enormous batch of images for processing. You’ve got multiple workers in place, and they can even auto-scale to accommodate increased demand, so you’re feeling confident about your infrastructure. However, the trouble begins when other tenants attempt to queue smaller batches—perhaps just a couple of images—and suddenly find themselves facing long wait times without any updates. Before you know it, support tickets start flooding in, with users complaining that your service is slow or even unresponsive.
This scenario is all too common because Celery, by default, processes tasks in the order they are received. When one tenant overwhelms your workers with a massive influx of tasks, even the best auto-scaling strategies may not be enough to prevent delays for other tenants. As a result, those users may experience service levels that fall short of what was promised or expected.
One effective strategy for ensuring fair processing is to implement rate limits. It allows you to control the number of tasks each tenant can submit within a specific time frame. This prevents any single tenant from monopolizing your workers and ensures that all tenants have a fair chance to process their tasks.
Celery has built-in functionality for rate limiting at the task level:
# app.py from celery import Celery app = Celery("app", broker="redis://localhost:6379/0") @app.task(rate_limit="10/m") # Limit to 10 tasks per minute def process_data(data): print(f"Processing data: {data}") # Call the task if __name__ == "__main__": for i in range(20): process_data.delay(f"data_{i}")
You can run the worker by executing:
celery -A app worker --loglevel=warning --concurrency 1 --prefetch-multiplier 1
Now, run the app.py script to trigger 20 tasks:
python app.py
If you manage to run it locally, you will notice that there is a delay between each task to ensure that the rate limit is enforced. Now you are probably thinking that this doesn't really help us with our problem, and you are totally right. This built-in rate limit by Celery is useful for scenarios in which our task may involve calls to external services that have strict rate limits.
This example highlights how the built-in feature may be too simple for complex scenarios. However, we can overcome this limitation by exploring Celery's framework in more depth. Let's see how we can set up a proper rate-limit with auto-retry per tenant.
We will be using Redis to track the rate-limit per tenant. Redis is a popular database and broker for Celery, so let's leverage this component that may probably be already in your stack.
Let's import a couple libraries:
import time import redis from celery import Celery, Task
Now we are going to implement a custom base task class for our rate limited task:
# Initialize a Redis client redis_client = redis.StrictRedis(host="localhost", port=6379, db=0) class RateLimitedTask(Task): def __init__(self, *args, **kwargs): # Set default rate limit if not hasattr(self, "custom_rate_limit"): self.custom_rate_limit = 10 super().__init__(*args, **kwargs) def __call__(self, tenant_id, *args, **kwargs): # Rate limiting logic key = f"rate_limit:{tenant_id}:{self.name}" # Increment the count for this minute current_count = redis_client.incr(key) if current_count == 1: # Set expiration for the key if it's the first request redis_client.expire(key, 10) if current_count > self.custom_rate_limit: print(f"Rate limit exceeded for tenant {tenant_id}. Retrying...") raise self.retry(countdown=10) return super().__call__(tenant_id, *args, **kwargs)
This custom class will track the amount of tasks triggered by a specific tenant using Redis and set a TTL of 10 seconds. If the rate limit is exceeded, the task will be retried again in 10 seconds. So basically our default rate limit is 10 tasks within 10 seconds.
Let's define a sample task that emulate the processing:
@app.task(base=RateLimitedTask, custom_rate_limit=5) def process(tenant_id: int, data): """ Mock processing task that takes 0.3 seconds to complete. """ print(f"Processing data: {data} for tenant: {tenant_id}") time.sleep(0.3)
Here we have defined a process task and you can see that I can change the custom_rate_limit at the task level. If we don't specify a custom_rate_limit, the default value of 10 would be assigned. Now our rate limit has changed to 5 tasks within 10 seconds.
Let's now trigger some tasks for different tenants:
if __name__ == "__main__": for i in range(20): process.apply_async(args=(1, f"data_{i}")) for i in range(10): process.apply_async(args=(2, f"data_{i}"))
We are defining 20 tasks for the tenant ID 1 and 10 tasks for the tenant ID 2.
So our complete code would look like this:
# app.py import time import redis from celery import Celery, Task app = Celery( "app", broker="redis://localhost:6379/0", broker_connection_retry_on_startup=False, ) # Initialize a Redis client redis_client = redis.StrictRedis(host="localhost", port=6379, db=0) class RateLimitedTask(Task): def __init__(self, *args, **kwargs): if not hasattr(self, "custom_rate_limit"): self.custom_rate_limit = 10 super().__init__(*args, **kwargs) def __call__(self, tenant_id, *args, **kwargs): # Rate limiting logic key = f"rate_limit:{tenant_id}:{self.name}" # Increment the count for this minute current_count = redis_client.incr(key) if current_count == 1: # Set expiration for the key if it's the first request redis_client.expire(key, 10) if current_count > self.custom_rate_limit: print(f"Rate limit exceeded for tenant {tenant_id}. Retrying...") raise self.retry(countdown=10) return super().__call__(tenant_id, *args, **kwargs) @app.task(base=RateLimitedTask, custom_rate_limit=5) def process(tenant_id: int, data): """ Mock processing task that takes 0.3 seconds to complete. """ print(f"Processing data: {data} for tenant: {tenant_id}") time.sleep(0.3) if __name__ == "__main__": for i in range(20): process.apply_async(args=(1, f"data_{i}")) for i in range(10): process.apply_async(args=(2, f"data_{i}"))
Let's run our worker:
celery -A app worker --loglevel=warning --concurrency 1 --prefetch-multiplier 1
Now, run the app.py script to trigger the tasks:
python app.py
As you can see, the worker processes 5 tasks of the first tenant, and set up a retry for all the other tasks. It then take 5 tasks of the second tenant and set up a retry for the other tasks, and it keeps going.
This approach allows you to define a rate limit per tenant but as you can see in our example, for a task that runs very fast, being too strict with the rate limit ends up leaving the worker doing nothing for a while. Fine-tuning the rate limit parameters is crucial and depends on the specific task and volume. Don't hesitate to experiment until you find an optimal balance.
We’ve explored how Celery’s default task processing can lead to unfairness in multi-tenant environments and how rate limiting can help address this issue. By implementing tenant-specific rate limits, we can prevent any single tenant from monopolizing resources and ensure a more equitable distribution of processing power.
This approach provides a solid foundation for achieving fair processing in Celery. However, there are other techniques worth exploring to further optimize task handling in multi-tenant applications. While I’d initially planned to cover everything in one post, this topic is proving to be quite extensive! To ensure clarity and keep this article focused, I’ve decided to split it into two parts.
In the next part of this series, we’ll delve into task priorities as another mechanism to enhance fairness and efficiency. This approach allows you to assign different priority levels to tasks based on different criteria, ensuring that critical tasks are processed promptly even during high-demand periods.
Stay tuned for the next installment!
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