First thing first: verify that your hypothesis is indeed correct. You need to check:
- How much data is sent
- How much data is received
- How long does it take to send the data
- How long does it take to operate on the data
HTTP works over TCP, which generally guarantees delivery, so even if it will take a long time, your server should be getting all the incoming information.
That said, if you still want to make the process multi-threaded, I would recommend the following design:
- One thread like you have right now (LISTENER THREAD), that accepts incoming data.
- Another set of threads that will process the incoming data (WORKER THREADS).
- The listener thread will only receive the data and place it in a queue.
- The worker threads will dequeue the queue and operate on the data.
Several notes and things to think about, though:
- Take care of thread synchronization - specifically, you need to protect the queue.
- Think if it matters which worker thread will get the data. If there are several chunks that need to be taken care of a specific worker thread, you'll need to address this problem.
- In some cases, if there is a very high load on the listener thread, the queue may become a bottleneck, or more precisely - the locking on the queue may become a bottleneck. In this case I would recommend moving into a model of N queues for N worker threads, and have the listener just pick one in a round-robin fashion. This will minimize the locks and actually since you'll have one reader and one writer you can even get away without a lock (but this is out of scope for that answer).
Yet another option would be to use a thread pool. A thread pool is a pool of threads that are hibernating until they are needed. When the listener gets an incoming input it will allocate it to a free thread, or will enlarge the pool if needed; this way you don't have a queue, and your threads are optimally used.