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I am currently working on a project where I use the MQTT protocol for communication.

There is a Session class in a dedicated file which basically just sets up the publish handler, i.e. the callback that is invoked, when this client receives a message (the handler checks if the topic matches "ZEUXX/var", then deserialized the binary content of the frame and subsequently unsubscribes the topic):

session.hpp:

class Session
{
public:
  Session()
  {
    comobj = MQTT_NS::make_sync_client(ioc, "localhost", "1883", MQTT_NS::protocol_version::v5);
    using packet_id_t = typename std::remove_reference_t<decltype(*comobj)>::packet_id_t;

    // Setup client
    comobj->set_client_id(clientId);
    comobj->set_clean_session(true);

    /* If someone sends commands to this client */
    comobj->set_v5_publish_handler( // use v5 handler
        [&](MQTT_NS::optional<packet_id_t> /*packet_id*/,
            MQTT_NS::publish_options pubopts,
            MQTT_NS::buffer topic_name,
            MQTT_NS::buffer contents,
            MQTT_NS::v5::properties /*props*/) {
          std::cout << "[client] publish received. "
                    << " dup: " << pubopts.get_dup()
                    << " qos: " << pubopts.get_qos()
                    << " retain: " << pubopts.get_retain() << std::endl;
          std::string_view topic = std::string_view(topic_name.data(), topic_name.size());
          std::cout << "         -> topic: " << topic << std::endl;
          
          else if (topic.substr(0, 9) == "ZEUXX/var")
          {
            std::cout << "[client] reading variable name: " << topic.substr(10, topic.size() - 9) << std::endl;
            auto result = 99; // dummy variable, normally an std::variant of float, int32_t uint8_t 
                              // obtained by deserialzing the binary content of the frame                             
            std::cout << comobj->unsubscribe(std::string{topic});
          }
          return true;
        });
  }

  void readvar(const std::string &varname)
  {
    comobj->publish(serialnumber + "/read", varname, MQTT_NS::qos::at_most_once);
    comobj->subscribe(serialnumber + "/var/" + varname, MQTT_NS::qos::at_most_once);
  }

  void couple()
  {
    comobj->connect();
    ioc.run();
  }

  void decouple()
  {
    comobj->disconnect();
    std::cout << "[client] disconnected..." << std::endl;
  }

private:
  std::shared_ptr<
      MQTT_NS::callable_overlay<
          MQTT_NS::sync_client<MQTT_NS::tcp_endpoint<as::ip::tcp::socket, as::io_context::strand>>>>
      comobj;
  boost::asio::io_context ioc;
};

The client is based on a boost::asio::io_context object which happens to be the origin of my confusion. In my main file I have the following code.

main.cpp:

#include "session.hpp"

int main() 
{
    Session session; 
    session.couple();
    session.readvar("speedcpu");
}

Essentially, this creates an instance of the class Session and the couple member invokes the boost::asio::io_context::run member. This runs the io_context object's event processing loop and blocks the main thread, i.e. the third line in the main function will never be reached.

I would like to initiate a connection (session.couple) and subsequently do my publish and subscribe commands (session.readvar). My question is: How do I do that correctly?

Conceptionally what I aim for is best expressed by the following python-code:

    client.connect("localhost", 1883)

    # client.loop_forever() that's what happens at the moment, the program 
    # doesn't continue from here

    # The process loop get's started, however it does not block the program and 
    # one can send publish command subsequently.
    client.loop_start()

    while True:
         client.publish("ZEUXX/read", "testread")
         time.sleep(20)

Running the io_context object in a separate thread seems not to be working the way I tried it, any suggestions on how to tackle this problem? What I tried is the following:

Adaption in session.hpp

// Adapt the couple function to run io_context in a separate thread
void couple()
{
   comobj->connect();
   std::thread t(boost::bind(&boost::asio::io_context::run, &ioc));  
   t.detach();
}

Adpations in main.cpp

int main(int argc, char** argv) 
{
    Session session; 
    session.couple();
    std::cout << "successfully started io context in separate thread" << std::endl;
    session.readvar("speedcpu");
}

The std::cout line is now reached, i.e. the program does not get stuck in the couple member of the class by io_context.run(). However directly after this line I get an error: "The network connection was aborted by the local system".

The interesting thing about this is that when I use t.join() instead of t.detach() then there is no error, however I have the same behavior with t.join() as when I call io_context.run() directly, namely blocking the program.

  • What do you mean it doesn't work? If you're running into errors with threads running the io_context::run this is often solved by defining BOOST_ASIO_NO_DEPRECATED before the asio includes. – gst Jul 6 at 6:39
  • To clarify, there is no error involved with boost::asio::io_context, however as soon as the run method is invoked, the program ends up in a forever loop which means I cannot make any calls of readvar after the process loop has started. – pzeugin Jul 6 at 7:36
  • What problems do you have with running it in a separate thread? – gst Jul 6 at 7:39
1

Given your comment to the existing answer:

io_context.run() never return because it never runs out of work (it is being kept alive from the MQTT server). As a result, the thread gets blocked as soon as I enter the run() method and I cannot send any publish and subscribe frames anymore. That was when I thought it would be clever to run the io_context in a separate thread to not block the main thread. However, when I detach this separate thread, the connection runs into an error, if I use join however, it works fine but the main thread gets blocked again.

I'll assume you know how to get this running successfully in a separate thread. The "problem" you're facing is that since io_context doesn't run out of work, calling thread::join will block as well, since it will wait for the thread to stop executing. The simplest solution is to call io_context::stop before the thread::join. From the official docs:

This function does not block, but instead simply signals the io_context to stop. All invocations of its run() or run_one() member functions should return as soon as possible. Subsequent calls to run(), run_one(), poll() or poll_one() will return immediately until restart() is called.

That is, calling io_context::stop will cause the io_context::run call to return ("as soon as possible") and thus make the related thread joinable.

You will also want to save the reference to the thread somewhere (possibly as an attribute of the Session class) and only call thread::join after you've done the rest of the work (e.g. called the Session::readvar) and not from within the Session::couple.

| improve this answer | |
1

When io_context runs out of work, it returns from run().

If you don't post any work, run() will always immediately return. Any subsequent run() also immediately returns, even if new work was posted.

To re-use io_context after it completed, use io_context.reset(). In your case, better to

  1. use a work guard (https://www.boost.org/doc/libs/1_73_0/doc/html/boost_asio/reference/executor_work_guard.html), see many of the library examples
  2. don't even "run" the ioc in couple() if you already run it on a background thread

If you need synchronous behaviour, don't run it on a background thread.

Also keep in mind that you need to afford graceful shutdown which is strictly harder with a detached thread - after all, now you can't join() it to know when it exited.

| improve this answer | |
  • Quite the contrary seems to be true: io_context.run() never return because it never runs out of work (it is being kept alive from the MQTT server). As a result, the thread gets blocked as soon as I enter the run() method and I cannot send any publish and subscribe frames anymore. That was when I thought it would be clever to run the io_context in a separate thread to not block the main thread. However, when I detach this separate thread, the connection runs into an error, if I use join however, it works fine but the main thread gets blocked again. – pzeugin Jul 6 at 13:30
  • 1
    Just join only at program exit? (And remove the run from couple(), but guessing by your comment, that could have been oversight) – sehe Jul 6 at 17:54

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