// rpc_math_cli.cpp // // This is a Paho MQTT v5 C++ sample application. // // It's an example of how to create a client for performing remote procedure // calls using MQTT with the 'response topic' and 'correlation data' // properties. // // The sample demonstrates: // - Connecting to an MQTT server/broker // - Using MQTT v5 properties // - Publishing RPC request messages // - Using asynchronous tokens // - Subscribing to reply topic // /******************************************************************************* * Copyright (c) 2019 Frank Pagliughi * * All rights reserved. This program and the accompanying materials * are made available under the terms of the Eclipse Public License v1.0 * and Eclipse Distribution License v1.0 which accompany this distribution. * * The Eclipse Public License is available at * http://www.eclipse.org/legal/epl-v10.html * and the Eclipse Distribution License is available at * http://www.eclipse.org/org/documents/edl-v10.php. * * Contributors: * Frank Pagliughi - initial implementation and documentation *******************************************************************************/ #include #include #include #include #include // For sleep #include #include #include #include "mqtt/async_client.h" #include "mqtt/properties.h" using namespace std; using namespace std::chrono; const string SERVER_ADDRESS { "tcp://localhost:1883" }; const auto TIMEOUT = std::chrono::seconds(10); ///////////////////////////////////////////////////////////////////////////// int main(int argc, char* argv[]) { if (argc < 4) { cout << "USAGE: rpc_math_cli [... numN]" << endl; return 1; } constexpr int QOS = 1; const string REQ_TOPIC_HDR { "requests/math/" }; mqtt::async_client cli(SERVER_ADDRESS, ""); mqtt::connect_options connopts; connopts.set_mqtt_version(MQTTVERSION_5); connopts.set_clean_start(true); cli.start_consuming(); try { cout << "Connecting..." << flush; mqtt::token_ptr tok = cli.connect(connopts); auto connRsp = tok->get_connect_response(); cout << "OK (" << connRsp.get_server_uri() << ")" << endl; // Since we gave an empty client ID, the server should create a // unique one for us and send it back as ASSIGNED_CLIENT_IDENTIFER // in the connect properties. string clientId = get(connRsp.get_properties(), mqtt::property::ASSIGNED_CLIENT_IDENTIFER); // So now we can create a unique RPC response topic using // the assigned (unique) client ID. string repTopic = "replies/" + clientId + "/math"; cout << " Reply topic: " << repTopic << endl; // Subscribe to the reply topic and verify the QoS tok = cli.subscribe(repTopic, QOS); tok->wait(); if (int(tok->get_reason_code()) != QOS) { cerr << "Error: Server doesn't support reply QoS: [" << tok->get_reason_code() << "]" << endl; return 2; } // Create and send the request message string req { argv[1] }, reqTopic { REQ_TOPIC_HDR + req }; mqtt::properties props { { mqtt::property::RESPONSE_TOPIC, repTopic }, { mqtt::property::CORRELATION_DATA, "1" } }; ostringstream os; os << "[ "; for (int i=2; iset_qos(QOS); pubmsg->set_properties(props); cli.publish(pubmsg)->wait_for(TIMEOUT); cout << "OK" << endl; // Wait for reply. auto msg = cli.try_consume_message_for(seconds(5)); if (!msg) { cerr << "Didn't receive a reply from the service." << endl; return 1; } cout << " Result: " << msg->to_string() << endl; // Unsubscribe cli.unsubscribe(repTopic)->wait(); // Disconnect cout << "\nDisconnecting..." << flush; cli.disconnect()->wait(); cout << "OK" << endl; } catch (const mqtt::exception& exc) { cerr << exc.what() << endl; return 1; } return 0; }