camera_t(zmq::context_t& context, const std::string& endpoint, const std::string& uuid, const std::string& www_dir):
   socket(context, ZMQ_REQ), uuid(uuid), photo_count(0), settings(), next(), wait_until(0), www_dir(www_dir) {
   photo_count = record_count(www_dir + "/cameras/" + uuid + ".db");
   while(this->uuid.size() && this->uuid.back() == '\0')
     this->uuid.pop_back();
   socket.connect(endpoint.c_str());
 }
Example #2
0
bool connect(const std::string &name, zmq::socket_t &socket,
             const std::string &endpoint) {
  const int max_tries = 8;
  log(name, boost::format("Connecting to the proxy: %1%...") % endpoint);
  for (int i = 0; i < max_tries; ++i) {
    try {
      socket.connect(endpoint.c_str());
    } catch (zmq::error_t e) {
      boost::format fmt("Failed to connect to the proxy: %1%");
      log(name, fmt % zmq_strerror(zmq_errno()));
      continue;
    }
    boost::format fmt("Connected to the proxy: %1%");
    log(name, fmt % endpoint);
    return true;
  }
  return false;
}
Example #3
0
bool ServerInterface::ConnectToCommandServer(zmq::socket_t& commandSocket) const {
    commandSocket.connect(m_commandServer.c_str());
    std::cout << "Connecting to command server... ";
    std::string const* requestS = m_factory.CreateInitMessage(m_matchToken);
    zmq::message_t request (requestS->size());
    memcpy(static_cast<void*>(request.data()), requestS->data(), requestS->size());
    delete requestS;
    commandSocket.send(request);

    zmq::message_t reply;
    commandSocket.recv(&reply);
    std::string replyS (static_cast<char const*>(reply.data()), reply.size());
    bool success = m_factory.ParseInitReply(replyS);
    if (success)
        std::cout << "Success!" << std::endl;
    else
        std::cout << "Failure." << std::endl;
    return success;
}
Example #4
0
void
worker::run () {
    try {
        assert(_context != NULL);
        assert(_connectAddr.c_str() != NULL);
        fprintf(stdout, "worker: connect address: %s\n",  _connectAddr.c_str());
        fprintf(stdout, "worker: stop requested: %d\n", _stopRequested);
        zmq::socket_t subscriber(*_context, ZMQ_SUB);
        subscriber.connect(_connectAddr.c_str());
        const char* filter = "";
        subscriber.setsockopt(ZMQ_SUBSCRIBE, filter, strlen(filter));
        //capkproto::instrument_bbo bbo;
        
        _inproc = new zmq::socket_t(*_context, ZMQ_PUB);
        assert(_inproc);
        _inproc->connect(_inprocAddr.c_str());
        
        zmq::message_t msg;
        while (1 && _stopRequested == false) {
            subscriber.recv(&msg);
#ifdef DEBUG
            boost::posix_time::ptime time_start(boost::posix_time::microsec_clock::local_time());
#endif

			int64_t more;
			size_t more_size;
			more_size = sizeof(more);
			subscriber.getsockopt(ZMQ_RCVMORE, &more, &more_size);
            // send to orderbook on inproc socket - no locks needed according to zmq
            _inproc->send(msg, more ? ZMQ_SNDMORE : 0);

#ifdef DEBUG
            boost::posix_time::ptime time_end(boost::posix_time::microsec_clock::local_time());
            boost::posix_time::time_duration duration(time_end - time_start);
            fprintf(stderr, "Inbound from md interface time to receive and parse: %s\n", to_simple_string(duration).c_str()); 
#endif
        }
    } 
    catch (std::exception& e) {
        std::cerr << "EXCEPTION: " << __FILE__ << __LINE__ << e.what();
    }
}
Example #5
0
void operator()() {
	if (iod_cmd_socket_name) {
		cmd_interface = new zmq::socket_t(*MessagingInterface::getContext(), ZMQ_REQ);
		cmd_interface->connect(iod_cmd_socket_name);
	}

	int error_count = 0;
	while (!finished) {
		if (!connected) {
			boost::mutex::scoped_lock(update_mutex);
			if (!ctx) ctx = modbus_new_tcp(host.c_str(), port);
		    if (modbus_connect(ctx) == -1) {
				++error_count;
		        fprintf(stderr, "Connection to %s:%d failed: %s (%d)\n",
				host.c_str(), port, 
                modbus_strerror(errno), errno);
		        modbus_free(ctx);
				ctx = 0;
				if (error_count > 5) exit(1);
				usleep(200000);
				continue;
		    }
			else if (ctx) {
				connected = true;
				update_status = true;
			}
			error_count = 0;
		}
		else {
			performUpdates();
			if (update_status) {
				sendStatus("initialising");
			}
#if 0
			if (!collect_updates(bits_monitor, 0, tab_rp_bits, active_addresses, "modbus_read_bits", modbus_read_bits)) 
				goto modbus_loop_end;
			if (!collect_updates(robits_monitor, 1, tab_ro_bits, ro_bits, "modbus_read_input_bits", modbus_read_input_bits)) 
				goto modbus_loop_end;
			if (!collect_updates(regs_monitor, 3, tab_rq_registers, inputs, "modbus_read_input registers", modbus_read_input_registers)) { 
				goto modbus_loop_end;
			}
			/*if (!collect_updates(holdings_monitor, 4, tab_rw_rq_registers, inputs, "modbus_read_registers", modbus_read_registers)) {
				goto modbus_loop_end;
			}*/
#else
			if (!collect_selected_updates<uint8_t>(robits_monitor, 1, tab_ro_bits, mc.monitors, "modbus_read_input_bits", modbus_read_input_bits))  {
				std::cout << "modbus_read_input_bits failed\n";
				//goto modbus_loop_end;
			}
			if (!collect_selected_updates<uint8_t>(bits_monitor, 0, tab_rp_bits, mc.monitors, "modbus_read_bits", modbus_read_bits))  {
				std::cout << "modbus_read_bits failed\n";
				//goto modbus_loop_end;
			}
			if (!collect_selected_updates<uint16_t>(regs_monitor, 3, tab_rq_registers, mc.monitors, "modbus_read_input registers", modbus_read_input_registers)) { 
				std::cout << "modbus_read_input_registers failed\n";
				//goto modbus_loop_end;
			}
			/*if (!collect_selected_updates(holdings_monitor, 4, tab_rw_rq_registers, mc.monitors, "modbus_read_registers", modbus_read_registers)) {
				goto modbus_loop_end;
			}*/
#endif
			if ( update_status)  {
				sendStatus("active");
				update_status = false;
			}
		}
		
//modbus_loop_end:
		usleep(100000);
	}
}
Example #6
0
void ServerInterface::ConnectToStateServer(zmq::socket_t& stateSocket) const {
    std::cout << "Connecting to state server " << m_stateServer << std::endl;
    stateSocket.connect(m_stateServer.c_str());
    stateSocket.setsockopt(ZMQ_SUBSCRIBE, m_matchToken.c_str(), m_matchToken.size());
}
Example #7
0
 Transport()
   : context_(1), requestSocket_(context_, ZMQ_REQ), replySocket_(context_, ZMQ_REP)
 {
   replySocket_.bind("tcp://*:5555");
   requestSocket_.connect("tcp://localhost:5555");
 }
Example #8
0
 void connect(::zmq::socket_t& socket, const AddressList& address_list)
 {
   typedef typename AddressList::const_iterator iter_t;
   for (iter_t it = address_list.begin(); it != address_list.end(); ++it)
     socket.connect(it->c_str());
 }