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I have a program that involves receiving a packet from a network on one thread, then notifying other threads that the packet was received. My current approach uses Thread.Interrupt, which seems to be a bit slow when transferring huge amounts of data. Would it be faster to use "lock" to avoid using to many interrupts, or is a lock really just calling Interrupt() in its implementation?

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There are so many places where you can find advice against using Exceptions for "normal" control flow in an application. Which to my mind, would rule Thread.Interrupt out in the first place. – Damien_The_Unbeliever Jun 9 '11 at 14:25
The question though; is an exception being thrown internally within a "lock", thus making the two equivalent? – IDWMaster Jun 9 '11 at 14:26
Neither a lock nor Thread.Interrupt seem like a sensible way to achieve communication or synchronization between threads. I'm not even sure how you'd be thinking of using a lock in this scenario. But I'm fairly certain I can answer the last question raised - I don't believe that lock uses Thread.Interrupt internally at all. – Damien_The_Unbeliever Jun 9 '11 at 14:30
up vote 2 down vote accepted

I don't understand why you would use Thread.Interrupt rather than some more traditional signalling method to notify waiting threads that data is received. Thread.Interrupt requires the target thread to be in a wait state anyway, so why not just add an object that you can signal to the target thread's wait logic, and use that to kick it for new data?

lock is used to protect critical code or data from execution by other threads and is ill-suited as a mechanism for inter-thread active signalling.

Use WaitOne or WaitAll on suitable object(s) instead of either. System.Collections.Concurrent in .Net 4 also provides excellent means for queueing new data to a pol of target threads, and other possible approaches to your problem.

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I must be missing something in your design. If target threads are ready to process new data, they could wait on some object and get the notification immediately (this is not a state variable poll, as you seem to think?). If your target threads are not in the correct state to process new data, what is the value of a 'drop everything, here is new data' signaling approach anyway? – Steve Townsend Jun 9 '11 at 14:37
Looked up the documentation for WaitHandle and it looks like it should work pretty well. – IDWMaster Jun 9 '11 at 14:44
Steve and Brian are not suggesting that you poll anything. The wait functions are blocking and will return 'immediately' if signaled appropriately. Also, if a packet needs to be signaled to a thread, it's 'traditional' to receive the packet into an allocated struct/class instance and transfer the pointer/refernce only. The 'transferring' then takes the same time no matter how much data is involved. – Martin James Jun 9 '11 at 14:44
@IDWMaster - WaitHandle is often a superclass of the synchronization objects that @Brian Gideon listed - pick your poison from that list, and good luck. – Steve Townsend Jun 9 '11 at 14:46

Both Thread.Interrupt and lock are not well suited for signaling other threads.

  • Thread.Interrupt is used to poke or unstick one of the blocking calls in the BCL.
  • lock is used to prevent simultaneous access to a resource or a block of code.

Signaling other threads is better accomplished with one the following mechanisms.

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I usually use a standard queue and the lock keyword when reading or writing it. Alternatively, the Synchronized method on the queue removes the need to use lock. A System.Threading.Semaphore is the best tool for notifying worker threads when there is a new job to process.

Example of how to add to queue

lock ( myQueue) { myQueue.Enqueue(workItem); }

Example of how to process a work item:

lock (myQueue) { object workItem = myQueue.Dequeue(); }
// process work item

Semaphore setup:

mySemaphore = new Semaphore(0, int.MaxValue);

If this is too slow and synchronization overhead still dominates your application, you might want to look at dispatching more than one work item at a time.

Depending on what you're doing, the new parallelization features in .NET 4.0 may also be very helpful for your application (if that's an option).

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As others have mentioned, Thread.Interrupt is odd and non-standard. I've actually never heard of it until now and I've done multi-threading in .NET for years. If you're going for easy-to-maintain code that is easily understood, the above examples don't get much simpler. – James Johnston Jun 9 '11 at 14:39
Yup. That's exactly how I've been doing inter-thread comms for decades. Some form of 'lock()', 'semaphore.signal' and 'semaphore.wait' are available in every OS I've ever used. As soon as you go any lower, looking at lock-free queues, interlocked exchanges, condvars etc. things start to get platform/CPU/OS dependent :( – Martin James Jun 9 '11 at 14:54

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