I don't think you actually need to get down and dirty with direct TPL
Tasks for this. For starters I would set up a
BlockingCollection around a
ConcurrentQueue (the default) with no
BoundedCapacity set on the
BlockingCollection to store the IDs that need to be processed.
// Setup the blocking collection somewhere when your process starts up (OnStart for a Windows service)
BlockingCollection<string> idsToProcess = new BlockingCollection<string>();
From there I would just use
Parallel::ForEach on the enumeration returned from the
BlockingCollection::GetConsumingEnumerable. In the
ForEach call you will setup your
ParallelOptions::MaxDegreeOfParallelism Inside the body of the
ForEach you will execute your stored procedure.
Now, once the stored procedure execution completes, you're saying you don't want to re-schedule the execution for at least two seconds. No problem, schedule a
System.Threading.Timer with a callback which will simply add the ID back to the
BlockingCollection in the supplied callback.
MaxDegreeOfParallelism = 4 // read this from config
// ... execute sproc ...
// Need to declare/assign this before the delegate so that we can dispose of it inside
Timer timer = null;
timer = new Timer(
// Add the id back to the collection so it will be processed again
// Cleanup the timer
null, // no state, id wee need is "captured" in the anonymous delegate
2000, // probably should read this from config
Finally, when the process is shutting down you would call
BlockingCollection::CompleteAdding so that the enumerable being processed with stop blocking and complete and the Parallel::ForEach will exit. If this were a Windows service for example you would do this in
// When ready to shutdown you just signal you're done adding
You raised a valid concern in your comment that you might be processing a large amount of IDs at any given point and fear that there would be too much overhead in a timer per ID. I would absolutely agree with that. So in the case that you are dealing with a large list of IDs concurrently, I would change from using a timer-per-ID to using another queue to hold the "sleeping" IDs which is monitored by a single short interval timer instead. First you'll need a
ConcurrentQueue onto which to place the IDs that are asleep:
ConcurrentQueue<Tuple<string, DateTime>> sleepingIds = new ConcurrentQueue<Tuple<string, DateTime>>();
Now, I'm using a two-part
Tuple here for illustration purposes, but you may want to create a more strongly typed struct for it (or at least alias it with a
using statement) for better readability. The tuple has the id and a DateTime which represents when it was put on the queue.
Now you'll also want to setup the timer that will monitor this queue:
Timer wakeSleepingIdsTimer = new Timer(
DateTime utcNow = DateTime.UtcNow;
// Pull all items from the sleeping queue that have been there for at least 2 seconds
foreach(string id in sleepingIds.TakeWhile(entry => (utcNow - entry.Item2).TotalSeconds >= 2))
// Add this id back to the processing queue
null, // no state
Timeout.Infinite, // no due time
100 // wake up every 100ms, probably should read this from config
Then you would simply change the
Parallel::ForEach to do the following instead of setting up a timer for each one:
// ... execute sproc ...