lichtorgel/lichtorgel_udp/lichtorgel_udp.ino

//echo -n "110010" >/dev/udp/192.168.178.25/4210

//Node MCU 1.0  ESP-12E
//1M SPIFFS
//80MHz


#include <ESP8266WiFi.h>
#include <WiFiUdp.h>

#include "wificredentials.h"
/* content:
 * const char* ssid = "SSIDHERE";
 * const char* password = "password";
 */

WiFiUDP Udp;
unsigned int localUdpPort = 4210;  // local port to listen on
char incomingPacket[255];  // buffer for incoming packets
bool wlan=true;

#define PIN_SR_DATA      D5
#define PIN_SR_LTCH      D6
#define PIN_SR_CLOCK     D7

#define OUTPUTS 6

long lastTickMillis;

uint8_t out[OUTPUTS];

long lastChange=0;
#define STANDBYTIME 5000 //time in ms after lamps switch off if nothing happened
boolean standby=false;

void setup()
{
  pinMode(PIN_SR_DATA, OUTPUT);
  pinMode(PIN_SR_LTCH, OUTPUT);
  pinMode(PIN_SR_CLOCK, OUTPUT);

  shiftRelais(0);
  
  Serial.begin(115200);
  Serial.println();


  Serial.printf("Connecting to %s ", ssid);
  WiFi.begin(ssid, password);
  uint8_t wlantries=20;
  while ((WiFi.status() != WL_CONNECTED) && wlan)
  {
    delay(500);
    Serial.print(".");
    if (wlantries<=0){
      wlan=false; //deactivate wlan
    }
    wlantries--;
  }
  

  if(wlan){
    Serial.println(" connected");
    Udp.begin(localUdpPort);
    Serial.printf("Now listening at IP %s, UDP port %d\n", WiFi.localIP().toString().c_str(), localUdpPort);
  }else{
    Serial.println("wlan not connected");
  }
}


void loop()
{
  int packetSize = Udp.parsePacket();
  if (packetSize)
  {
    // receive incoming UDP packets
    Serial.printf("Received %d bytes from %s, port %d\n", packetSize, Udp.remoteIP().toString().c_str(), Udp.remotePort());
    int len = Udp.read(incomingPacket, 255);
    if (len > 0)
    {
      incomingPacket[len] = 0;
    }
    uint16_t data=incomingPacket[0]<<8 | incomingPacket[1];
    
    Serial.printf("UDP packet contents: %s\n", incomingPacket);
    
    printBinary(data);
    printBinary(mapData(data));
    shiftRelais(mapData(data));

    lastChange=millis();
    standby=false;
  }

  if (millis()-lastChange >=STANDBYTIME && !standby){
    Serial.println("Standby");
    shiftRelais(mapData(0));
    standby=true;
  }
  
}

void printBinary(uint16_t value){
  for(int i = 15; i >=0; i--) {
    Serial.print((value & (1 << ((byte)i) )) ? 1 : 0);
    //Serial.print(!!(value & (1 << i))); //this should also work
  }
  Serial.println();
}

uint16_t mapData(uint16_t x){
  uint16_t d=0;
  d|=moveByte(x,0,1);
  d|=moveByte(x,1,2);
  d|=moveByte(x,2,3);
  d|=moveByte(x,3,4);
  d|=moveByte(x,4,5);
  d|=moveByte(x,5,6);
  d|=moveByte(x,6,7);
  d|=moveByte(x,7,0);
  return d;
}

uint16_t moveByte(uint16_t x,uint8_t from,uint8_t to){
  //example: x=00110101 from=2 to=0  -> 00000001
  return ((x&_BV(from))>0) ? _BV(to):0;
}

void shiftRelais(uint16_t data) {
  digitalWrite(PIN_SR_LTCH, LOW);
  shiftOut(PIN_SR_DATA, PIN_SR_CLOCK, MSBFIRST, (data >> 8));
  shiftOut(PIN_SR_DATA, PIN_SR_CLOCK, MSBFIRST, data & 0xff);
  digitalWrite(PIN_SR_LTCH, HIGH);
}