I'm running a Windows Azure web role which, on most days, receives very low traffic, but there are some (foreseeable) events which can lead to a high amount of background work which has to be done. The background work consists of many database calls (Azure SQL) and HTTP calls to external web services, so it is not really CPU-intensive, but it requires a lot of threads which are waiting for the database or the web service to answer. The background work is triggered by a normal HTTP request to the web role.
I see two options to orchestrate this, and I'm not sure which one is better.
- Option 1, Threads: When the request for the background work comes in, the web role starts as many threads as necessary (or queues the individual work items to the thread pool). In this option, I would configure a larger instance during the heavy workload, because these threads could require a lot of memory.
- Option 2, Self-Invoking: When the request for the background work comes in, the web role which receives it generates a HTTP request to itself for every item of background work. In this option, I could configure several web role instances, because the load balancer of Windows Azure balances the HTTP requests across the instances.
Option 1 is somewhat more straightforward, but it has the disadvantage that only one instance can process the background work. If I want more than one Azure instance to participate in the background work, I don't see any other option than sending HTTP requests from the role to itself, so that the load balancer can delegate some of the work to the other instances.
Maybe there are other options?
EDIT: Some more thoughts about option 2: When the request for the background work comes in, the instance that receives it would save the work to be done in some kind of queue (either Windows Azure Queues or some SQL table which works as a task queue). Then, it would generate a lot of HTTP requests to itself, so that the load balancer 'activates' all of the role instances. Each instance then dequeues a task from the queue and performs the task, then fetches the next task etc. until all tasks are done. It's like occasionally using the web role as a worker role.
I'm aware this approach has a smelly air (abusing web roles as worker roles, HTTP requests to the same web role), but I don't see the real disadvantages.
EDIT 2: I see that I should have elaborated a little bit more about the exact circumstances of the app:
The app needs to do some small tasks all the time. These tasks usually don't take more than 1-10 seconds, and they don't require a lot of CPU work. On normal days, we have only 50-100 tasks to be done, but on 'special days' (New Year is one of them), they could go into several 10'000 tasks which have to be done inside of a 1-2 hour window. The tasks are done in a web role, and we have a Cron Job which initiates the tasks every minute. So, every minute the web role receives a request to process new tasks, so it checks which tasks have to be processed, adds them to some sort of queue (currently it's an SQL table with an UPDATE with OUTPUT INSERTED, but we intend to switch to Azure Queues sometime). Currently, the same instance processes the tasks immediately after queueing them, but this won't scale, since the serial processing of several 10'000 tasks takes too long. That's the reason why we're looking for a mechanism to broadcast the event "tasks are available" from the initial instance to the others.