Basically, what I'm trying to achieve is to implement a generic multithreaded TCP server that can handle arbitrary requests for usage by 2 different servers with slightly different needs.
My requirements are:
- A request cannot begin to be processed until an entire initial request has been received. (Essentially, I have a request header of a fixed size that among other things, includes the size of the entire request).
- Handling a request may result in multiple response messages to the requesting client. I.E., normally, requests can be handled in a single response, but at times, in response to long running database transactions, I need to ping back to the client, letting them know that I'm still working and to not time out the connection.
To achieve this, I've been following fairly closely the HTTP server example #2 from boost v1.44. In general, the example has worked for simple cases. What I've noticed is that when I scale up to handling multiple requests concurrently, the changes I've made have somehow resulted in all request being handled serially, by a single thread. Obviously, I'm doing something wrong.
I cannot post the entirety of the actual code I'm using, due to employer restrictions, but suffice it to say, I've kept the async calls to accept new connections, but have replaced the async read/writes with synchronous calls. If there are specific pieces that you think you need to see, I can see what I can do.
Essentially, what I'm looking for are pointers in how to use boost::asio for a multithreaded TCP server where individual connections are handled by a single thread with synchronous I/O. Again, keep in mind, my abstraction is based upon the http server example #2 (one io_service per CPU), but I am flexible to altern