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I am designing a client-server app and I need to use three different channels between them. Below on the schema, the client opens a connection to the server (1), and then the server opens two connections to the client on other ports (2).

|-----------|                  |-----------|
|           |  (1) port: 8000  |           |
|           |<-----------------|           |
|           |                  |           |
|           |                  |           |
|  Server   |  (2) port: 8001  |  Client   |
|           |----------------->|           |
|           |                  |           |
|           |  (2) port: 8002  |           |
|           |----------------->|           |
|-----------|                  |-----------|

A simple channel server example :http://www.boost.org/doc/libs/1_55_0/doc/html/boost_asio/example/cpp11/echo/async_tcp_echo_server.cpp

My questions is how to implement this, based on boost.asio framework ? Or, how to open the new connections (2) from the server ?

P.S. Maybe a better protocol could be to open the two other connections from client when the first is established ? But what could be the structure used in asio in this case ?

Thanks a lot in advance !

share|improve this question
Things will get tricky if client and server are across a NAT, because you might not be able to open connection from server to client on a new port. –  berkus Apr 2 '14 at 18:43
Really good comment ! So I can forget my first idea. Maybe you have an other idea for me ? :) A token based system returned by the server to the client which can use it to open the new streams ? –  mecanix Apr 2 '14 at 18:55
Shame I didn't watch the comments. I was gonna say the same, but have also taken the finger-exercise to come up with a demo implementation of the picture shown. Posting anyways –  sehe Apr 3 '14 at 0:11
You could in theory also multiplex the data streams on top of a single connection. It all depends on what you want to achieve. –  berkus Apr 3 '14 at 14:08

1 Answer 1

As has been pointed out, any system that's required to be robust should not assume that routing/firewalling is such that connections can be made back to the client from the server.

How would we go around this?

  • client connects to server:8000
  • server responds with a session UID
  • client is responsible for connecting two more "channels", using the session UID as a correlation ID
  • server decides that a session is completely ready if all 3 "channels" (i.e. sockets) participating in with a given session UID have been connected. If there's a timeout for this to happen, the server jots the whole session and closes any sockets that had been opened.

This is fairly easy, but requires a wire protocol to coordinate the sessions and channel "roles" for connections. I did initially elect not to implement this as a demo. Instead I thought it would be a nice exercise to learn Boost Asio, and implemented the back-channels (initiated from the server side) as in your original drawing.

The full code is on github: https://gist.github.com/sehe/9946161


  • there is a 'general' listener implementation that is used for both the server (port 8000) and "back-channels" (ports 8001,8002). See listener.hpp
  • I opted for the stackless coroutine approach. This requires Boost Asio 1.54
  • This approach has led to relative abuse of shared_ptr<>, at least in my view. The reason is that it's very beneficial if the coroutine (which is also the completion functor) is copyable without any issues. I could probably clean this up by making the class itself enable_shared_from_this and bind to shared_from_this instead. The benefit now is that there are (almost) no bind-expressions.
  • Creating the 'back channels' is done in the server class which overrides on_accept:

    virtual bool on_accept(tcp::socket& socket) override
        auto host = socket.remote_endpoint().address().to_string();
        // for now setting up the back-connections is all synchronous -
        // that might not work well in practice (scaling, latency) but...
            tcp::resolver resolver(socket.get_io_service());
            auto ep1 = resolver.resolve(tcp::resolver::query(host, "8001"));
            auto ep2 = resolver.resolve(tcp::resolver::query(host, "8002"));
            backsock1 = make_shared<tcp::socket>(socket.get_io_service());
            backsock2 = make_shared<tcp::socket>(socket.get_io_service());
            std::cerr << "on_accept: back channels connected for " << host << "\n";
        } catch(std::exception const& e)
            std::cerr << "on_accept: '" << e.what() << "' for " << host << "\n";
            return false;
        return base_type::on_accept(socket);
  • If on_accept fails (e.g. for our server cannot connect the back-channels) an error is returned on the "main" socket (initial connection) and the session is aborted

There are three programs:

  • run_server (which listens on port 8000)
  • run_client (which connects to port 8000 and listens on 8001,8002), and sends 1 message. You can observe how the the server responds by connecting on the back-channels and sending different messages on all three sockets.

  • test (which combines the two):

    #include <boost/asio.hpp>
    #include <boost/thread.hpp>
    #include "server.hpp"
    #include "client.hpp"
    int main()
        boost::asio::io_service svc;
        // start service on a separate thread
        boost::thread th([&svc] { 
        boost::this_thread::sleep_for(boost::chrono::milliseconds(500)); // allow server to start accepting
        // post client traffic to the service
        std::cerr << "Starting a test client that sends a message...\n";
        demo::client client(svc, "localhost", "8000");
        // await interrupt (or new connections)

The output of the last program looks like:

Starting a test client that sends a message...
on_accept: back channels connected for
listener accepting connection from
listener 'hello world from demo client' received from
listener accepting connection from
listener accepting connection from
listener 'We've received a request of length 29' received from
listener 'We're handling it in void demo::server::do_back_chatter(const string&)' received from
listener 'ECHO hello world from demo client' received from
share|improve this answer
Thanks a lot for your answer !! But as said above, this won't work behind a router with NAT :/ I will try to implement the application-layer protocol you describe first. –  mecanix Apr 3 '14 at 9:49

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