TinyMqtt/examples/client-with-wifi/client-with-wifi.ino

#include <TinyMqtt.h>   // https://github.com/hsaturn/TinyMqtt

/** 
  * Local broker that accept connections and two local clients
  *
  * 
  *  +-----------------------------+
  *  | ESP                         |
  *  |                 +--------+  | 1883 <--- External client/s
  *  |       +-------->| broker |  | 1883 <--- External client/s
  *  |       |         +--------+  |
  *  |       |             ^       |
  *  |       |             |       |
  *  |       |             |       |     -----
  *  |       v             v       |      ---  
  *  | +----------+  +----------+  |       -  
  *  | | internal |  | internal |  +-------*  Wifi
  *  | | client   |  | client   |  |          
  *  | +----------+  +----------+  |          
  *  |                             |
  *  +-----------------------------+
  * 
  * pros - Reduces internal latency (when publish is received by the same ESP)
  *      - Reduces wifi traffic
  *      - No need to have an external broker
  *      - can still report to a 'main' broker (TODO see documentation that have to be written)
  *      - accepts external clients
  *
  * cons - Takes more memory
  *      - a bit hard to understand
  *
  */

const char *ssid     = "";
const char *password = "";

std::string topic="sensor/temperature";

MqttBroker broker(1883);

MqttClient mqtt_a(&broker);
MqttClient mqtt_b(&broker);

void onPublishA(const MqttClient* /* source */, const Topic& topic, const char* payload, size_t /* length */)
{ Serial << "--> client A received " << topic.c_str() << ", " << payload << endl; }

void onPublishB(const MqttClient* /* source */, const Topic& topic, const char* payload, size_t /* length */)
{ Serial << "--> client B Received " << topic.c_str() << ", " << payload << endl; }

void setup()
{
  Serial.begin(115200);
  delay(500);
  Serial << "Clients with wifi " << endl;

	if (strlen(ssid)==0)
		Serial << "****** PLEASE EDIT THE EXAMPLE AND MODIFY ssid/password *************" << endl;

  WiFi.mode(WIFI_STA);
  WiFi.begin(ssid, password);

  while (WiFi.status() != WL_CONNECTED) {   Serial << '-'; delay(500); }

  Serial << "Connected to " << ssid << "IP address: " << WiFi.localIP() << endl;

  broker.begin();

  mqtt_a.setCallback(onPublishA);
  mqtt_a.subscribe(topic);

  mqtt_b.setCallback(onPublishB);
  mqtt_b.subscribe(topic);
}

void loop()
{
  broker.loop();  // Don't forget to add loop for every broker and clients

  mqtt_a.loop();
  mqtt_b.loop();

  // ============= client A publish ================
  static const int intervalA = 5000;  // publishes every 5s (please avoid usage of delay())
  static uint32_t timerA = millis() + intervalA;

  if (millis() > timerA)
  {
    Serial << "A is publishing " << topic.c_str() << endl;
    timerA += intervalA;
    mqtt_a.publish(topic, " sent by A");
  }

  // ============= client B publish ================
  static const int intervalB = 7000;	// will send topic each 7s
  static uint32_t timerB = millis() + intervalB;

  if (millis() > timerB)
  {
		static int temperature;
    Serial << "B is publishing " << topic.c_str() << endl;
    timerB += intervalB;
    mqtt_b.publish(topic, " sent by B: "+std::string(String(16+temperature++%6).c_str()));
  }
}