main esp2866

//Include the needed library, we will use softer serial communication with the ESP8266
#include
#include


//LCD config
#include
#include LiquidCrystal_I2C lcd(0x27,20,4);  //sometimes the LCD adress is not 0x3f. Change to 0x27 if it dosn’t work.

//Define the used
#define ESP8266_RX 10  //Connect the TX pin from the ESP to this RX pin of the Arduino
#define ESP8266_TX 11  //Connect the TX pin from the Arduino to the RX pin of ESP

int LED1 = 2;
int LED2 = 3;
int LED3 = 4;
int LED4 = 5;
int LED5 = 6;
int Potentiometer_1 = A0;
int Potentiometer_2 = A1;
int Potentiometer_3 = A2;
int Potentiometer_4 = A3;
int switch1 = 7;
int switch2 = 8;
int switch3 = 9;

//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////Variables you must change according to your values/////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
//Add your data: SSID + KEY + host + location + id + password
//////////////////////////////////////////////
const char SSID_ESP[] = “UPCblabla”;         //Give EXACT name of your WIFI
const char SSID_KEY[] = “secret”;             //Add the password of that WIFI connection
const char* host = “http://domeniu.com”;  //Add the host without “www” Example: electronoobs.com
String NOOBIX_id = “1900”;                     //This is the ID you have on your database, I’ve used 99999 becuase there is a maximum of 5 characters
String NOOBIX_password = “secret”;               //Add the password from the database, also maximum 5 characters and only numerical values
String location_url = “/TX.php?id=”;            //location of your PHP file on the server. In this case the TX.php is directly on the first folder of the server
                                                //If you have the files in a different folder, add thas as well, Example: “/ESP/TX.php?id=”     Where the folder is ESP
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

//Used variables in the code
String url = “”;
String URL_withPacket = “”;   
unsigned long multiplier[] = {1,10,100,1000,10000,100000,1000000,10000000,100000000,1000000000};
//MODES for the ESP
const char CWMODE = ‘1’;//CWMODE 1=STATION, 2=APMODE, 3=BOTH
const char CIPMUX = ‘1’;//CWMODE 0=Single Connection, 1=Multiple Connections

//Define the used functions later in the code, thanks to Kevin Darrah, YT channel:  https://www.youtube.com/user/kdarrah1234
boolean setup_ESP();
boolean read_until_ESP(const char keyword1[], int key_size, int timeout_val, byte mode);
void timeout_start();
boolean timeout_check(int timeout_ms);
void serial_dump_ESP();
boolean connect_ESP();
void connect_webhost();
unsigned long timeout_start_val;
char scratch_data_from_ESP[20];//first byte is the length of bytes
char payload[200];
byte payload_size=0, counter=0;
char ip_address[16];

/////////////////////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////////////////////
//Variable to SEND to the DATABASE
bool sent_bool_1 = 0;
bool sent_bool_2 = 0;
bool sent_bool_3 = 0;
int  sent_nr_1 = 0;
int  sent_nr_2 = 0;
int  sent_nr_3 = 0;
int  sent_nr_4 = 0;
int  sent_nr_5 = 0;

//Variable RECEIVED from the DATABASE
bool received_bool_1 = 0;
bool received_bool_2 = 0;
bool received_bool_3 = 0;
bool received_bool_4 = 0;
bool received_bool_5 = 0;
int  received_nr_1 = 0;
int  received_nr_2 = 0;
int  received_nr_3 = 0;
int  received_nr_4 = 0;
int  received_nr_5 = 0;
String received_text = “”;

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

//Store received chars in this variables
char t1_from_ESP[5];  //For time from web
char d1_from_ESP[2];  //For received_bool_2
char d2_from_ESP[2];  //For received_bool_2
char d3_from_ESP[2];  //For received_bool_3
char d4_from_ESP[2];  //For received_bool_4
char d5_from_ESP[2];  //For received_bool_5
char d9_from_ESP[6];  //For received_nr_1
char d10_from_ESP[6]; //For received_nr_2
char d11_from_ESP[6]; //For received_nr_3
char d12_from_ESP[6]; //For received_nr_4
char d13_from_ESP[6]; //For received_nr_5
char d14_from_ESP[300]; //For received_text

//DEFINE KEYWORDS HERE
const char keyword_OK[] = “OK”;
const char keyword_Ready[] = “Ready”;
const char keyword_no_change[] = “no change”;
const char keyword_blank[] = “#&”;
const char keyword_ip[] = “192.”;
const char keyword_rn[] = “rn”;
const char keyword_quote[] = “””;
const char keyword_carrot[] = “>”;
const char keyword_sendok[] = “SEND OK”;
const char keyword_linkdisc[] = “Unlink”;

const char keyword_t1[] = “t1”;
const char keyword_b1[] = “b1”;
const char keyword_b2[] = “b2”;
const char keyword_b3[] = “b3”;
const char keyword_b4[] = “b4”;
const char keyword_b5[] = “b5”;
const char keyword_n1[] = “n1”;
const char keyword_n2[] = “n2”;
const char keyword_n3[] = “n3”;
const char keyword_n4[] = “n4”;
const char keyword_n5[] = “n5”;
const char keyword_n6[] = “n6”;
const char keyword_doublehash[] = “##”;

SoftwareSerial ESP8266(ESP8266_RX, ESP8266_TX);// rx tx

void setup(){//        SETUP     START

  lcd.init();                 //Init the LCD
  lcd.backlight();            //Activate backlight  
 
  //Pin Modes for ESP TX/RX
  pinMode(ESP8266_RX, INPUT);
  pinMode(ESP8266_TX, OUTPUT);
 
  pinMode(LED1, OUTPUT);
  pinMode(LED2, OUTPUT);
  pinMode(LED3, OUTPUT);
  pinMode(LED4, OUTPUT);
  pinMode(LED5, OUTPUT);

  pinMode(Potentiometer_1, INPUT);
  pinMode(Potentiometer_2, INPUT);
  pinMode(Potentiometer_3, INPUT);
  pinMode(Potentiometer_4, INPUT);

  pinMode(switch1, INPUT);
  pinMode(switch2, INPUT);
  pinMode(switch3, INPUT);
   
 
  digitalWrite(LED1,LOW);
  digitalWrite(LED2,LOW);
  digitalWrite(LED3,LOW);
  digitalWrite(LED4,LOW);
  digitalWrite(LED5,LOW);
 

 
  ESP8266.begin(9600);//default baudrate for ESP
  ESP8266.listen();//not needed unless using other software serial instances
  Serial.begin(9600); //for status and debug
 
  delay(2000);//delay before kicking things off
  setup_ESP();//go setup the ESP

}

void loop(){

  sent_nr_1 = analogRead(Potentiometer_1);
  sent_nr_1 = analogRead(Potentiometer_2);
  sent_nr_1 = analogRead(Potentiometer_3);
  sent_nr_1 = analogRead(Potentiometer_4);
 
  sent_bool_1 = digitalRead(switch1);
  sent_bool_2 = digitalRead(switch2);
  sent_bool_3 = digitalRead(switch3);
 
  send_to_server_1();
  digitalWrite(LED1,received_bool_1);
  digitalWrite(LED2,received_bool_2);
  digitalWrite(LED3,received_bool_3);
  digitalWrite(LED4,received_bool_4);
  digitalWrite(LED5,received_bool_5); 

  lcd.clear();
  lcd.setCursor(0,0);
  lcd.print(“N1: “); lcd.print(received_nr_1); lcd.print(”  N2: “); lcd.print(received_nr_2);
  lcd.setCursor(0,1);
  lcd.print(“N3: “); lcd.print(received_nr_3); lcd.print(”  N4: “); lcd.print(received_nr_4);   
  delay(1000);//5 seconds between tries 

  /*
  send_to_server_2();
  digitalWrite(LED1,received_bool_1);
  digitalWrite(LED2,received_bool_2);
  digitalWrite(LED3,received_bool_3);
  digitalWrite(LED4,received_bool_4);
  digitalWrite(LED5,received_bool_5);

  lcd.clear();
  lcd.setCursor(0,0);
  lcd.print(“N1: “); lcd.print(received_nr_1); lcd.print(”  N2: “); lcd.print(received_nr_2);
  lcd.setCursor(0,1);
  lcd.print(“N3: “); lcd.print(received_nr_3); lcd.print(”  N4: “); lcd.print(received_nr_4); 
  delay(1000);
  send_to_server_3();
  digitalWrite(LED1,received_bool_1);
  digitalWrite(LED2,received_bool_2);
  digitalWrite(LED3,received_bool_3);
  digitalWrite(LED4,received_bool_4);
  digitalWrite(LED5,received_bool_5);

  lcd.clear();
  lcd.setCursor(0,0);
  lcd.print(“N1: “); lcd.print(received_nr_1); lcd.print(”  N2: “); lcd.print(received_nr_2);
  lcd.setCursor(0,1);
  lcd.print(“N3: “); lcd.print(received_nr_3); lcd.print(”  N4: “); lcd.print(received_nr_4); 
  delay(1000);
  send_to_server_4();
  digitalWrite(LED1,received_bool_1);
  digitalWrite(LED2,received_bool_2);
  digitalWrite(LED3,received_bool_3);
  digitalWrite(LED4,received_bool_4);
  digitalWrite(LED5,received_bool_5);

  lcd.clear();
  lcd.setCursor(0,0);
  lcd.print(“N1: “); lcd.print(received_nr_1); lcd.print(”  N2: “); lcd.print(received_nr_2);
  lcd.setCursor(0,1);
  lcd.print(“N3: “); lcd.print(received_nr_3); lcd.print(”  N4: “); lcd.print(received_nr_4);  
  delay(1000);
  */

 
  send_to_server_5();
  digitalWrite(LED1,received_bool_1);
  digitalWrite(LED2,received_bool_2);
  digitalWrite(LED3,received_bool_3);
  digitalWrite(LED4,received_bool_4);
  digitalWrite(LED5,received_bool_5);
 

 
  lcd.clear();
  lcd.setCursor(0,0);
  lcd.print(received_text);
 
  delay(1000);

}//End of the main loop

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