Arduino/ESP8266_MULTIPLEXER_MASTER/ESP8266_MULTIPLEXER_MASTER.ino

#include <Wire.h>
#include <stdlib.h>	// for itoa() call
#include <stdio.h>	// for printf() call
#include <ESP8266WiFiMulti.h>
ESP8266WiFiMulti WiFiMulti;
const uint16_t port = 81;
const char * host = "192.168.1.3"; // ip or dns

int buttonState = 0;         // variable for reading the pushbutton status


int aiValue = 0;       // input value
const int buttonPin = 14;     // the number of the pushbutton pin

#include <DallasTemperature.h>
#define ONE_WIRE_BUS  D4 // 2 for esp01   4 for esp12  // DS18B20 pin
#define PIN_ALIM_DS   D3 // 1 for esp01   5 for esp12
OneWire oneWire(ONE_WIRE_BUS);
DallasTemperature DS18B20(&oneWire);


// DEMUX 
#define MUX_A D5
#define MUX_B D6
#define MUX_C D7
#define ANALOG_INPUT A0

// EmonLibrary examples openenergymonitor.org, Licence GNU GPL V3
#include "EmonLib.h"                   // Include Emon Library
EnergyMonitor emon_conso;                   // Create an instance
//EnergyMonitor emon_solar; 
double last_conso_value = 0;
double last_solar_value = 0;

void setup() {

  Serial.begin(9600);
    while (!Serial) 
  {
    delay(10);
  }
  pinMode(buttonPin, INPUT);
  //pinMode(6, OUTPUT);
  //Deifne output pins for Mux
  pinMode(MUX_A, OUTPUT);
  pinMode(MUX_B, OUTPUT);     
  pinMode(MUX_C, OUTPUT); 
  
  pinMode(PIN_ALIM_DS, OUTPUT);
  digitalWrite(PIN_ALIM_DS, HIGH);

  //Wire.begin();
  delay(200);
  Serial.print("Demarrage");
    // We start by connecting to a WiFi network
  WiFi.mode(WIFI_STA);
  WiFiMulti.addAP("Livebox-37cc", "8A6060920A8A86896F770F2C47");

  Serial.println();
  Serial.println();
  Serial.print("Wait for WiFi... ");

  while(WiFiMulti.run() != WL_CONNECTED) {
      Serial.print(".");
      delay(500);
  }

  Serial.println("");
  Serial.println("WiFi connected");
  Serial.println("IP address: ");
  Serial.println(WiFi.localIP());
  //digitalWrite(6, HIGH);

  emon_conso.current(0, 30);             // Current: input pin, calibration.
  // emon_solar.current(1, 60);
}

void loop() {
  String result = "";


  double temp = readTemperature();

  changeMux(LOW, LOW, LOW);
  double last_conso_value = emon_conso.calcIrms(1480);
  last_conso_value = emon_conso.calcIrms(1480);
  last_conso_value = emon_conso.calcIrms(1480);
  last_conso_value = emon_conso.calcIrms(1480);
  last_conso_value = emon_conso.calcIrms(1480); // Calculate Irms_conso only
  envoieDomoticz("1053", String(last_conso_value)); // intensite
  delay(200);
  
  //changeMux(LOW, LOW, HIGH);
  changeMux(HIGH, HIGH, HIGH);

  double last_solar_value = emon_conso.calcIrms(1480);
  last_solar_value = emon_conso.calcIrms(1480);
  last_solar_value = emon_conso.calcIrms(1480);
  last_solar_value = emon_conso.calcIrms(1480);
  last_solar_value = emon_conso.calcIrms(1480);
  last_solar_value = emon_conso.calcIrms(1480); // Calculate Irms_conso only
  envoieDomoticz("1086", String(last_solar_value)); // intensite
  delay(200);
  
  Serial.println("Conso  :" + String(last_conso_value));
  Serial.println("Solaire:" + String(last_solar_value)); 

  int sleep_delay = 10;
  if (isDark()) {
    sleep_delay = 60;
  } 
  if (temp > -10) {
    envoieDomoticz("723", String(temp));
  }


  
  Serial.println("Master Mode jour");
  Serial.print("Waiting  ");
  
  ESP.deepSleep(sleep_delay * 1000000L);
  
  //delay(2000);
  
}

void envoieDomoticz(String IDX, String Svalue) {

     
    Serial.print("Master connecting to ");
    Serial.println(host);

    // Use WiFiClient class to create TCP connections
    WiFiClient client;

    if (!client.connect(host, port)) {
        Serial.println("Master connection failed");
        Serial.println("Master wait 5 sec...");
        delay(5000);
        return;
    }

    // This will send the request to the server
    client.print("GET /json.htm?type=command&param=udevice&idx="+IDX+"&nvalue=0&svalue=" + Svalue);
    client.println(" HTTP/1.1");
    client.println("Host: 192.168.1.3:81");
    client.println("User-Agent: Arduino-ethernet");
    client.println("Connection: close");
    client.println();
    //read back one line from server
    String line = client.readStringUntil('\r');
    Serial.println("Master ----------------------------------------------");
    Serial.println(line);
    Serial.println("Master ----------------------------------------------");

    //Serial.println("Master closing connection");
    client.stop();
    
    delay(500);
}
boolean isDark()
{
  String separator  = ",";
  int nb            = 0;

  WiFiClient client;

  if (client.connect(host, port)) {
    Serial.println("Master Connected to domoticz");

    client.print("GET /json.htm?type=command&param=getuservariable&idx=6");
    client.println(" HTTP/1.1");
    client.println("Host: 192.168.1.3:81");
    client.println("User-Agent: Arduino-ethernet");
    client.println("Connection: close");
    client.println();
    
    // Read the first line of the request
    boolean ret = false;
    while (1) {
      String req = client.readStringUntil('\n');
      if (req.indexOf("Value") != -1) {
        if (req.indexOf("True") != -1) {
          ret = true;
        }
        break;
      }
      if (req == "" || nb > 500) {
        break;
      }
      nb++;
    }
    client.stop();
    delay(100);
    return ret;
  }
  return false;
}

String getVariableValue(String idx)
{
  

  String separator  = ",";
  int nb            = 0;

  WiFiClient client;

  if (client.connect(host, port)) {
    Serial.println("Master Connected to domoticz");

    client.print("GET /json.htm?type=command&param=getuservariable&idx=" + idx);
    client.println(" HTTP/1.1");
    client.println("Host: 192.168.1.3:81");
    client.println("User-Agent: Arduino-ethernet");
    client.println("Connection: close");
    client.println();
    
    // Read the first line of the request
    String ret = "";
    while (1) {
      String req = client.readStringUntil('\n');
      if (req.indexOf("Value") != -1) {
        ret = req.substring(req.indexOf("Value"));
        Serial.println("Master Idx=" + idx + " Value " + ret);

        break;
      }
      if (req == "" || nb > 500) {
        break;
      }
      nb++;
    }
    client.stop();
    delay(100);
    return ret;
  }
}


double readTemperature()
{
  int bcl = 0;
  double temp    = -127;
  DS18B20.requestTemperatures();
  while (bcl < 10 && (temp < 0 || temp > 50)) {
    temp = DS18B20.getTempCByIndex(0);
    Serial.print("Temperature: ");
    Serial.println(temp);
    bcl++;
    if (temp < 0 || temp > 50) {
      Serial.print("Temp non lue");
      Serial.println(temp);
      delay(100);
    }
  }
  return temp;
}

double readAnalogic(int y)
{
  float value;

  if (y == 0) {
    changeMux(LOW, LOW, LOW);
    value = analogRead(ANALOG_INPUT); //Value of the sensor connected Option 0 pin of Mux
    delay(200); Serial.println("value 1=" + String(value));
  }
  if (y == 1) {
    changeMux(LOW, LOW, HIGH);
    value = analogRead(ANALOG_INPUT); //Value of the sensor connected Option 1 pin of Mux
    delay(200); Serial.println("value 2=" + String(value));
  }
//  S2 = 0, S1 = 1, S0 = 0, - Z = Y2
//  S2 = 0, S1 = 1, S0 = 1, - Z = Y3  
//  S2 = 1, S1 = 0, S0 = 0, - Z = Y4
//  S2 = 1, S1 = 0, S0 = 1, - Z = Y5
//  S2 = 1, S1 = 1, S0 = 0, - Z = Y6
//  S2 = 1, S1 = 1, S0 = 1, - Z = Y7

  return value;
}

void changeMux(int c, int b, int a) {
  digitalWrite(MUX_A, a);
  digitalWrite(MUX_B, b);
  digitalWrite(MUX_C, c);
  delay(200);
}

int readValue()
{
 int vmin = 1024;
 int vmax = 0;
 int max_bcl = 1000;
 int RawValue = 0;
 for (int i = 0; i < max_bcl; i++) {
   int value = analogRead(ANALOG_INPUT);
   if (value >= 0) {
     RawValue += value;
     vmax = max(value,vmax);
     vmin = min(value,vmin);
   } else {
     i--;
   }
   delay(1); 
   
 }
   RawValue = RawValue / max_bcl; 
 
 Serial.print("rawValue = " ); 
 Serial.print(RawValue);
 Serial.print(" min = " ); 
 Serial.print(vmin);
 Serial.print(" max = " ); 
 Serial.println(vmax);
 return RawValue;
}