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I have a big application that implements some services, the interface it uses is

IResult Execute(IRequest)

Its all wrapped inside an IHttpHandler. Some of these services use a common infrastructure component I want to replace. The problem is, my component takes long time to run, and since all this is hosted inside an IIS server it will very quickly exhaust its worker threads.

I can wrap the services inside an IHttpAsyncHandler, but I still need a way to use my component asynchronously, other wise I'll just be holding a different worker thread.

I of course can just execute my service inside it's own thread, but it's very expensive. using System.Threading.Tasks.Task or Delegate.BeginInvoke, would just hold up another thread or worker thread, depending on implementation.

Ideally, I would like if I could, when my long running operation is called, take the thread's stack, and execution context, save them aside, start doing my work (which is mostly IO and asynchronous by itself), release the thread im using to the thread pool\ OS, and when done take the context I saved aside and continue execution with my result.

This is very possible in some functional languages or when using continuation, how can it be achieved in C#?


After doing some research, I think what I need to do, is a sort of continuation. I need to freeze my current execution thread stack, release the thread back to the pool, and restart the frozen stack, on the callback from the async operation I'll be using.


To Justin Pihony's request I'm adding some code to better describe my problem.

This is my Http Handler (a simplification of course):

class Handler: IHttpAsyncHandler 
{
        private readonly Action<HttpContext> _processDelegate = ProcessRequest;

        public void ProcessRequest(HttpContext context)
        {
           IBuissnessService blThing = IOC.Get(context.Something);

           // usually doesnt take too long...
           thing.DoWork(context);
        }


        public bool IsReusable
        {
            get
            {
                return true;
            }
        }

        public IAsyncResult BeginProcessRequest(HttpContext context, AsyncCallback cb, object extraData)
        {
            return _processDelegate.BeginInvoke(context, cb, extraData);
        }

        public void EndProcessRequest(IAsyncResult result)
        {
            _processDelegate.EndInvoke(result);
        }
}

//this is the buissness object

    class BLThing :IBuissnessService 
    {
        public void DoWork(HttpContext)
        { 
        //.... a Lot of Stuff

        // in some point one of the objects this is using does:
        IDoWork someObject = IOC.GetSomthing();
        var result = someObject.DoWork();

        // uses the result some more
        // and eventually returns.
        }
    }

    class SomeObject : IDoWork 
    {
        public Result DoWork()
        {
         // does some very long http call to another server
        }
    }

I can't change "BLThing" but I fully control "SomeObject " also eventually i need to support the same interface "BLThing" expects.

I want to add to "SomeObject" two async methods (BeginDoWork, EndDoWork) and write:

class SomeObjectWrapper : IDoWork 
{
    SomeObject _worker ;
    public Result DoWork()
    {
         worker = new SomeObject();
         ThreadState state = CurrentThread.CaptureState();
         worker.BeginDoWork(Callback,state)
         CurrentThread.PurgeStateAndReturnToPool();
    }

    void Callback(IAsyncResult result)
    {
       var processingResult = worker.EndDoWork(result);
       ThreadState state  =(ThreadState) result.AsyncState;
       state.ReturnTopCall(processingResult);
       CurrentThread.RestoreThreadState(state);
    }
}

Well in .Net doing this is not possible. Actually it is, but would require a lot of work, and probably won't give any performance benefit over create a full blown thread. an approach like this will be beneficial only in a language (or platform) that is much more functional in nature, and has a memory and threading model rather different then the one Win-API is using.

Although if one initially writes his code in an asynchronous manner, or relies on the TPL, he could probably achieve this quite easily...

I'm awarding the bounty to Justin, if not for the answer then for the discussion.

share|improve this question
1  
OK, how about fibers? –  Martin James Jan 19 '12 at 17:41
    
Interesting, but i dont think there's a proper .NET API for that... –  AK_ Jan 19 '12 at 17:48
    
If there is a thread context, there is a thread. –  user7116 Jan 19 '12 at 19:08
    
Fiber support was removed from .NET 2.0 and user-mode scheduling can be achieved in .NET 4.0 using various PFX api. –  Chris O Jan 19 '12 at 22:34
    
@sixlettervariables didn't get your point. –  AK_ Jan 19 '12 at 23:17

1 Answer 1

up vote 7 down vote accepted
+100

Why are you not using the Task library? You dont need to micromanage the threadpool in this case. If the Task is truly async and waiting, then the thread will be used by something else until the async method gets the value it is waiting for?

Try using Tasks and their ContinueWith functionality

Task t = Task.Factory.StartNew(code);
Task taskForSynchronous = t.ContinueWith(
    (previousTask)=>{synchronous code after t is done},
    TaskScheduler.FromCurrentSynchronizationContext()
);
newTask.ContinueWith(
    (previousTask)=>{more asynchronous code}
);

If you actually watch the usage, you will notice the threadpool manages this quite efficiently.

share|improve this answer
1  
Please read my question again... The TPL won't help me, I have a lot of synchrounus code between my Http-Handler and my component and I want to avoid using up a thread if I dont need it... –  AK_ Jan 19 '12 at 23:20
1  
@Hellfrost ansync ~= thread doesn't it? –  kenny Jan 20 '12 at 1:45
2  
I just edited my code to address that. You will notice the TaskScheduler.FromCurrentSynchronizationContext(), which should deal with any code that needs to be synchronous when the async returns. This way, it will spin up an appropriate thread, but then jump back onto the calling thread when the asynchronous action is complete. That is if I am understanding you properly. If the sync code that relies on the async data must wait for the async data, then this is still relatively the best solution I see...or else this really is a synchronous method from the start. –  Justin Pihony Jan 20 '12 at 1:46
3  
@kenny, That is a great clarification that async does not mean that a thread is actually being wasted. The threadpool is smart and will not waste time waiting on async. So, async != thread and there is a difference between async and parallel. Please keep that in mind when thinking of your threads. That might be where our misconception came from –  Justin Pihony Jan 20 '12 at 1:48
1  
@Hellfrost There shouldn't be a lot of resources to a thread, the whole point was to have fewer than a process. These threads will on an IO wait by the sound of it, so are unlikely to cause thrashing. Why worry about the kernel though? You're basically looking at implementing your own context switch and it'll be slower than the kernel's. –  user159335 Jan 23 '12 at 11:16

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