I found myself thinking through solving a concurrency problem too much, which to me indicates there is probably an abstraction to accomplish what I want that I should use instead.
Here is the basic premise:
- I have a queue of data that I can do work on
- Threads can come in and add work to the queue
- There is a high overhead associated with starting and finishing a set of items to work on
- Only one thread can work on the data at a time
I figured the following API would be nice:
- Threads can add work to the queue
- If the data in the queue isn't currently being worked on, invoke a background task to start working
- The background task continues working on the queue until it is empty, even if other threads drop off additional items to work on in the queue
The hard part was guaranteeing that data doesn't sit in the queue not being worked on in the event that a thread drops off a piece of work around the same time as the work thread is finishing up.
I would assume there exists an abstraction to solve this problem. Does anybody know of any?
To be more specific, I am speaking about an incremental search indexer, and the data being added to the queue is additional documents to be processed. When I'm talking about starting and stopping a group of work, I'm referring to building up a caching context and committing an updated index. We can't just run a work thread at all times, because if we never commit, the new index never gets committed, and if we don't close the caching context periodically, it can grow too large.
The goal is that most of the time, only a few pieces of work are processed at a time, but during periods of heavy load, we don't waste too much time doing too many commits.