HomeSpan/examples/Other Examples/RemoteSensors/MainDevice/MainDevice.ino

/*********************************************************************************
 *  MIT License
 *  
 *  Copyright (c) 2020-2022 Gregg E. Berman
 *  
 *  https://github.com/HomeSpan/HomeSpan
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////////////////////////////////////////////////////////////
//                                                        //
//    HomeSpan: A HomeKit implementation for the ESP32    //
//    ------------------------------------------------    //
//                                                        //
//     Demonstrates how to use SpanPoint() to implement   //
//     two remote temperature sensors on separate ESP32   //
//     devices.                                           //
//                                                        //
//     This sketch is for the MAIN DEVICE that contains   //
//     all the usual HomeSpan logic, plus two instances   //
//     of SpanPoint to read temperatures from two other   //
//     remote devices.                                    //
//                                                        //
////////////////////////////////////////////////////////////

#include "HomeSpan.h"

struct RemoteTempSensor : Service::TemperatureSensor {

  SpanCharacteristic *temp;
  SpanCharacteristic *fault;
  SpanPoint *remoteTemp;
  const char *name;
  float temperature;
  
  RemoteTempSensor(const char *name, const char*macAddress) : Service::TemperatureSensor(){

    this->name=name;
    
    temp=new Characteristic::CurrentTemperature(-10.0);      // set initial temperature
    temp->setRange(-50,100);                                 // expand temperature range to allow negative values

    fault=new Characteristic::StatusFault(1);                // set initial state = fault

    remoteTemp=new SpanPoint(macAddress,0,sizeof(float));    // create a SpanPoint with send size=0 and receive size=sizeof(float)

  } // end constructor

  void loop(){
       
    if(remoteTemp->get(&temperature)){      // if there is data from the remote sensor
      temp->setVal(temperature);            // update temperature
      fault->setVal(0);                     // clear fault
       
      LOG1("Sensor %s update: Temperature=%0.2f\n",name,temperature*9/5+32);
      
    } else if(remoteTemp->time()>60000 && !fault->getVal()){    // else if it has been a while since last update (60 seconds), and there is no current fault
      fault->setVal(1);                                         // set fault state
      LOG1("Sensor %s update: FAULT\n",name);
    }
    
  } // loop
  
};

//////////////////////////////////////

void setup() {
  
  Serial.begin(115200);

  homeSpan.setLogLevel(1);

  homeSpan.begin(Category::Bridges,"Sensor Hub");

  new SpanAccessory();  
    new Service::AccessoryInformation();
      new Characteristic::Identify(); 
      
  new SpanAccessory();
    new Service::AccessoryInformation();
      new Characteristic::Identify();
      new Characteristic::Name("Indoor Temp");
    new RemoteTempSensor("Device 1","AC:67:B2:77:42:20");        // pass MAC Address of Remote Device

  new SpanAccessory();
    new Service::AccessoryInformation();
      new Characteristic::Identify(); 
      new Characteristic::Name("Outdoor Temp");
    new RemoteTempSensor("Device 2","84:CC:A8:11:B4:84");        // pass MAC Address of Remote Device

  
} // end of setup()

//////////////////////////////////////

void loop(){
  
  homeSpan.poll();
  
} // end of loop()

//////////////////////////////////////