I want to create an http client using boost asio. To have a structured and optimized I have looked into the examples of boost asio to have some idea of what a good implementation should look like.
Mostly, I have followed the structure of HTTP Server, so I have a connection manager that holds a set of pointers to each individual connection. Now, the big difference here is that already in the constructor of server.cpp an asynchronous function is called, namely
acceptor_.async_accept(new_connection_->socket(), boost::bind(&server::handle_accept, this, boost::asio::placeholders::error));
and in the winmain.cpp the io_service is started through a function call to server::run():
In my implementation, since it's a client and not a server, I want to wait for the user to call a send() function before I start connecting to the server. I have therefore moved all connecting-to-server-related function calls into the connection class. When a user requests to send a msg to the server the following is called:
resolver.async_resolve(query, boost::bind(&connection::handle_resolve, boost::ref(*this), boost::asio::placeholders::error, boost::asio::placeholders::iterator)); io_service_.run();
I want to start every connection-object in one separate thread and this is really the background of my question. How do I do that in order to have a structured and optimized code?
I have tried, as HTTP Server 2 example, to set up a thread pool of io_services and assigning work to them so that they will not return until stopped. This seems like a good idea since I would the have the io services running in the background all the time. Consequently, I start the thread pool from my equivalent to server.cpp, in a thread:
boost::thread t(boost::bind(&geocast::enabler::io_service_pool::run, &io_service_pool_));
BUT, from my own trial and error analysis, it seems as you cannot start io_service BEFORE you have issued an asynchronous function, is that true? Because my program gets stuck. In my case I want to call async_resolve only when a user means to sends a POST request or a GET request. To support my theory; The Chat Client starts off by calling an async_connect and having an async_read as callback, this way they can safely call io_service.run() just after the client has been created. I don't want to read from the server all the time just to be able to start the io_service, because that is not how a normal client works, right? A browser does not read from every possible server on the planet without the user having navigated to a website...
If I don't use the thread pool from example 2 but start every connection-class in a separate class, each of which own its own io_service, everything works fine. But, a thread pool with a simple round-robin routine to select an appropriate io_service seems really attractive. What is the best approach for me to go multi-threaded? Am I just picky and should stick to one-connection-one-io_service-thing?