Wednesday, August 1, 2018
Home Automation Project WiFi & Voice Control Relay
Download Link
/*
////////////////////////////////////////////////////////////////////////
// Riya Diya Electronics //
// Rasel Rana //
// Mobile 01911225606 ,01742244883 //
// 01/08/2018 //
// riyadiyaelectronics.blogspot.com //
// raselrana01911225606.blogspot.com //
// I'ts Works NodeMCU ESP8266 , IFTTT , Adafruit & Google Assistant //
///////////////////////////////////////////////////////////////////////
*/
#include <ESP8266WiFi.h>
#include "Adafruit_MQTT.h"
#include "Adafruit_MQTT_Client.h"
#define Relay1 D0
#define Relay2 D1
#define Relay3 D2
#define Relay4 D3
#define Relay5 D4
#define Relay6 D5
#define Relay7 D6
#define Relay8 D7
#define Relay9 D8
#define WLAN_SSID "Al-amin" // Your SSID
#define WLAN_PASS "Rana1982**" // Your password
/************************* Adafruit.io Setup *********************************/
#define AIO_SERVER "io.adafruit.com"
#define AIO_SERVERPORT 1883 // use 8883 for SSL
#define AIO_USERNAME "riyadiyaelectronics" // Replace it with your username
#define AIO_KEY "2b469c1e31624a85af84c#########" // Replace with your Project Auth Key
/************ Global State (you don't need to change this!) ******************/
// Create an ESP8266 WiFiClient class to connect to the MQTT server.
WiFiClient client;
// or... use WiFiFlientSecure for SSL
//WiFiClientSecure client;
// Setup the MQTT client class by passing in the WiFi client and MQTT server and login details.
Adafruit_MQTT_Client mqtt(&client, AIO_SERVER, AIO_SERVERPORT, AIO_USERNAME, AIO_KEY);
/****************************** Feeds ***************************************/
// Setup a feed called 'onoff' for subscribing to changes.
Adafruit_MQTT_Subscribe Light1 = Adafruit_MQTT_Subscribe(&mqtt, AIO_USERNAME "/feeds/relay1"); // FeedName
Adafruit_MQTT_Subscribe Light2 = Adafruit_MQTT_Subscribe(&mqtt, AIO_USERNAME "/feeds/relay2");
Adafruit_MQTT_Subscribe Light3 = Adafruit_MQTT_Subscribe(&mqtt, AIO_USERNAME "/feeds/relay3");
Adafruit_MQTT_Subscribe Light4 = Adafruit_MQTT_Subscribe(&mqtt, AIO_USERNAME "/feeds/relay4");
Adafruit_MQTT_Subscribe Light5 = Adafruit_MQTT_Subscribe(&mqtt, AIO_USERNAME "/feeds/relay5"); // FeedName
Adafruit_MQTT_Subscribe Light6 = Adafruit_MQTT_Subscribe(&mqtt, AIO_USERNAME "/feeds/relay6");
Adafruit_MQTT_Subscribe Light7 = Adafruit_MQTT_Subscribe(&mqtt, AIO_USERNAME "/feeds/relay7");
Adafruit_MQTT_Subscribe Light8 = Adafruit_MQTT_Subscribe(&mqtt, AIO_USERNAME "/feeds/relay8");
Adafruit_MQTT_Subscribe Light9 = Adafruit_MQTT_Subscribe(&mqtt, AIO_USERNAME "/feeds/relay9");
void MQTT_connect();
void setup() {
Serial.begin(115200);
pinMode(Relay1, OUTPUT);
pinMode(Relay2, OUTPUT);
pinMode(Relay3, OUTPUT);
pinMode(Relay4, OUTPUT);
pinMode(Relay5, OUTPUT);
pinMode(Relay6, OUTPUT);
pinMode(Relay7, OUTPUT);
pinMode(Relay8, OUTPUT);
pinMode(Relay9, OUTPUT);
// Connect to WiFi access point.
Serial.println(); Serial.println();
Serial.print("Connecting to ");
Serial.println(WLAN_SSID);
WiFi.begin(WLAN_SSID, WLAN_PASS);
while (WiFi.status() != WL_CONNECTED) {
delay(500);
Serial.print(".");
}
Serial.println();
Serial.println("WiFi connected");
Serial.println("IP address: ");
Serial.println(WiFi.localIP());
// Setup MQTT subscription for onoff feed.
mqtt.subscribe(&Light1);
mqtt.subscribe(&Light3);
mqtt.subscribe(&Light2);
mqtt.subscribe(&Light4);
mqtt.subscribe(&Light5);
mqtt.subscribe(&Light6);
mqtt.subscribe(&Light7);
mqtt.subscribe(&Light8);
mqtt.subscribe(&Light9);
}
void loop() {
MQTT_connect();
Adafruit_MQTT_Subscribe *subscription;
while ((subscription = mqtt.readSubscription(20000))) {
if (subscription == &Light1) {
Serial.print(F("Got: "));
Serial.println((char *)Light1.lastread);
int Light1_State = atoi((char *)Light1.lastread);
digitalWrite(Relay1, Light1_State);
}
if (subscription == &Light2) {
Serial.print(F("Got: "));
Serial.println((char *)Light2.lastread);
int Light2_State = atoi((char *)Light2.lastread);
digitalWrite(Relay2, Light2_State);
}
if (subscription == &Light3) {
Serial.print(F("Got: "));
Serial.println((char *)Light3.lastread);
int Light3_State = atoi((char *)Light3.lastread);
digitalWrite(Relay3, Light3_State);
}
if (subscription == &Light4) {
Serial.print(F("Got: "));
Serial.println((char *)Light4.lastread);
int Light4_State = atoi((char *)Light4.lastread);
digitalWrite(Relay4, Light4_State);
}
if (subscription == &Light5) {
Serial.print(F("Got: "));
Serial.println((char *)Light5.lastread);
int Light5_State = atoi((char *)Light5.lastread);
digitalWrite(Relay5, Light5_State);
}
if (subscription == &Light6) {
Serial.print(F("Got: "));
Serial.println((char *)Light6.lastread);
int Light6_State = atoi((char *)Light6.lastread);
digitalWrite(Relay6, Light6_State);
}
if (subscription == &Light7) {
Serial.print(F("Got: "));
Serial.println((char *)Light7.lastread);
int Light7_State = atoi((char *)Light7.lastread);
digitalWrite(Relay7, Light7_State);
}
if (subscription == &Light8) {
Serial.print(F("Got: "));
Serial.println((char *)Light8.lastread);
int Light8_State = atoi((char *)Light8.lastread);
digitalWrite(Relay8, Light8_State);
}
if (subscription == &Light9) {
Serial.print(F("Got: "));
Serial.println((char *)Light9.lastread);
int Light9_State = atoi((char *)Light9.lastread);
digitalWrite(Relay9, Light9_State);
}
}
}
void MQTT_connect() {
int8_t ret;
// Stop if already connected.
if (mqtt.connected()) {
return;
}
Serial.print("Connecting to MQTT... ");
uint8_t retries = 3;
while ((ret = mqtt.connect()) != 0) { // connect will return 0 for connected
Serial.println(mqtt.connectErrorString(ret));
Serial.println("Retrying MQTT connection in 5 seconds...");
mqtt.disconnect();
delay(5000); // wait 5 seconds
retries--;
if (retries == 0) {
// basically die and wait for WDT to reset me
while (1);
}
}
Serial.println("MQTT Connected!");
}
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment