void on_connection_open(proton::event &e) {
     std::cout << "Inbound server connection connected via SSL.  Protocol: " <<
         e.connection().transport().ssl().protocol() << std::endl;
     if (e.connection().transport().sasl().outcome() == sasl::OK) {
         std::string subject = e.connection().transport().ssl().remote_subject();
         std::cout << "Inbound client certificate identity " << find_CN(subject) << std::endl;
     }
     else {
         std::cout << "Inbound client authentication failed" <<std::endl;
         e.connection().close();
     }
     inbound_listener.close();
 }
 void on_delivery_accept(proton::event &e) {
     confirmed++;
     if (confirmed == total) {
         std::cout << "all messages confirmed" << std::endl;
         e.connection().close();
         acceptor.close();
     }
 }
Example #3
0
 void on_accepted(proton::event &e) {
     confirmed_++;
     e.delivery().settle();
     if (confirmed_ == total_) {
         std::cout << "all messages confirmed" << std::endl;
         if (!replying_)
             e.connection().close();
     }
 }
Example #4
0
 void on_message(proton::event &e) {
     std::cout << "Received " << e.message().body() << std::endl;
     std::string reply_to = e.message().reply_to();
     proton::message reply;
     reply.address(reply_to);
     reply.body(to_upper(e.message().body().get<std::string>()));
     reply.correlation_id(e.message().correlation_id());
     if (!senders[reply_to])
         senders[reply_to] = e.connection().open_sender(reply_to);
     senders[reply_to].send(reply);
 }
Example #5
0
 void on_message(proton::event &e) {
     if (requests.empty()) return; // Spurious extra message!
     proton::message& response = e.message();
     std::cout << requests.front() << " => " << response.body() << std::endl;
     requests.erase(requests.begin());
     if (!requests.empty()) {
         send_request();
     } else {
         e.connection().close();
     }
 }
Example #6
0
 void on_message(proton::event &e) {
     proton::message &msg = e.message();
     msg.body().decode() >> received_content_;
     received_bytes_ += received_content_.size();
     if (received_ < total_) {
         received_++;
     }
     e.delivery().settle();
     if (received_ == total_) {
         e.receiver().close();
         e.connection().close();
     }
 }
 void on_message(proton::event &e) {
     proton::message& msg = e.message();
     if (msg.id().get<uint64_t>() < received)
         return; // ignore duplicate
     if (expected == 0 || received < expected) {
         std::cout << msg.body() << std::endl;
         received++;
     }
     if (received == expected) {
         e.receiver().close();
         e.connection().close();
         if (!!acceptor) acceptor.close();
     }
 }
Example #8
0
    void 
    on_message ( proton::event &e ) 
    {
      log ( "on_message" );

      double receive_timestamp = get_timestamp();

      proton::message& msg = e.message();

      double send_timestamp = msg.body().get<double>();
      double latency = receive_timestamp - send_timestamp;

      fprintf ( output_fp, "latency %.6lf\n", latency );

      if ( ! received )
      {
        rr_init ( & resource_reporter );
      }

      if ( (expected == 0)
           || 
           (expected == -1)
           || 
           (received < expected)
         ) 
      {
        received++;
        if ( ! ( received % report_frequency ) )
        {
          report ( output_fp );
        }

        if (received == expected) 
        {
          log ( "closing receiver and connection." );
          e.receiver().close();
          e.connection().close();
          char filename[1000];
          sprintf ( filename, "/tmp/simple_recv_%d_is_done", getpid() );
          FILE * fp = fopen ( filename, "w" );
          fprintf ( fp, ":-)\n" );
          fclose ( fp );
        }
      }
    }
Example #9
0
 void on_start(proton::event &e) {
     e.connection().open();
     sender = e.connection().open_sender(url.path());
     receiver = e.connection().open_receiver("", proton::link_options().dynamic_address(true));
 }
 void on_delivery_accept(proton::event &e) {
     // All done.
     e.connection().close();
 }
 void on_connection_open(proton::event &e) {
     std::cout << "connection events going to handler_2" << std::endl;
     std::cout << "connection max_frame_size: " << e.connection().transport().max_frame_size() <<
         ", idle timeout: " << e.connection().transport().idle_timeout() << std::endl;
     e.connection().close();
 }
Example #12
0
 void on_transport_close(proton::event &e) {
     remove_stale_consumers(e.connection());
 }
 void on_connection_open(proton::event &e) {
     std::cout << "unexpected connection event on main handler" << std::endl;
     e.connection().close();
 }
Example #14
0
 void on_message(proton::event &e) {
     std::cout << e.message().body() << std::endl;
     e.connection().close();
 }
Example #15
0
 void on_accepted(proton::event &e) {
     e.connection().close();
 }
Example #16
0
 void on_start(proton::event &e) {
     e.connection().open();
     e.connection().open_receiver(address_);
     e.connection().open_sender(address_);
 }
 void on_connection_open(proton::event &e) {
     std::string subject = e.connection().transport().ssl().remote_subject();
     std::cout << "Outgoing client connection connected via SSL.  Server certificate identity " <<
         find_CN(subject) << std::endl;
 }
Example #18
0
 void on_disconnected(proton::event &e) {
     remove_stale_consumers(e.connection());
 }
Example #19
0
 void on_connection_closing(proton::event &e) {
     remove_stale_consumers(e.connection());
 }
Example #20
0
 void on_start(proton::event &e) {
     e.connection().open();
     e.connection().open_receiver(url.path());
     std::cout << "server connected to " << url << std::endl;
 }