WLED/wled00/wled07_notify.ino

/*
 * UDP notifier
 */

void notify(uint8_t callMode)
{
  if (!udpConnected) return;
  switch (callMode)
  {
    case 1: if (!notifyDirect) return; break;
    case 2: if (!notifyButton) return; break;
    case 3: return;
    case 4: if (!notifyDirect) return; break;
    case 6: if (!notifyDirect) return; break; //fx change
    default: return;
  }
  byte udpOut[16];
  udpOut[0] = 0; //0: wled notifier protocol 1: WARLS protocol
  udpOut[1] = callMode;
  udpOut[2] = bri;
  udpOut[3] = col[0];
  udpOut[4] = col[1];
  udpOut[5] = col[2];
  udpOut[6] = nightlightActive;
  udpOut[7] = nightlightDelayMins;
  udpOut[8] = effectCurrent;
  udpOut[9] = effectSpeed;
  udpOut[10] = white;
  udpOut[11] = 1; //boolean byte, lowest bit to confirm white value compatibility
  udpOut[12] = col_sec[0];
  udpOut[13] = col_sec[1];
  udpOut[14] = col_sec[2];
  udpOut[15] = white_sec;
  
  IPAddress broadcastIp;
  broadcastIp = ~WiFi.subnetMask() | WiFi.gatewayIP();

  notifierUdp.beginPacket(broadcastIp, udpPort);
  notifierUdp.write(udpOut, 16);
  notifierUdp.endPacket();
}

void handleNotifications()
{
  if(udpConnected && receiveNotifications){
    int packetSize = notifierUdp.parsePacket();
    if(packetSize && notifierUdp.remoteIP() != WiFi.localIP())
    {
      notifierUdp.read(udpIn, packetSize);
      if (udpIn[0] == 0) //wled notifier
      {
        col[0] = udpIn[3];
        col[1] = udpIn[4];
        col[2] = udpIn[5];
        col_sec[0] = udpIn[12];
        col_sec[1] = udpIn[13];
        col_sec[2] = udpIn[14];
        if (udpIn[11] %2 == 1) //check if sending modules white val is inteded
        {
          white = udpIn[10];
          white_sec = udpIn[15];
        }
        if (udpIn[8] != effectCurrent)
        {
          effectCurrent = udpIn[8];
          strip.setMode(effectCurrent);
        }
        if (udpIn[9] != effectSpeed)
        {
          effectSpeed = udpIn[9];
          strip.setSpeed(effectSpeed);
        }
        nightlightActive = udpIn[6];
        if (!nightlightActive)
        {
          bri = udpIn[2];
          colorUpdated(3);
        }
      }  else if (udpIn[0] == 1 && realtimeEnabled) //warls
      {
        if (packetSize > 1) {
          if (udpIn[1] == 0)
          {
            arlsTimeout = false;
          } else {
            if (!arlsTimeout){
              strip.setRange(0, ledcount-1, 0);
              strip.setMode(0);
            }
            arlsTimeout = true;
            arlsTimeoutTime = millis() + 1000*udpIn[1];
          }
          for (int i = 2; i < packetSize -3; i += 4)
          {
            if (udpIn[i] + arlsOffset < ledcount && udpIn[i] + arlsOffset >= 0)
            if (useGammaCorrectionRGB)
            {
              strip.setIndividual(udpIn[i] + arlsOffset, ((uint32_t)gamma8[udpIn[i+1]] << 16) | ((uint32_t)gamma8[udpIn[i+2]] << 8) | gamma8[udpIn[i+3]]);
            } else {
              strip.setIndividual(udpIn[i], ((uint32_t)udpIn[i+1] << 16) | ((uint32_t)udpIn[i+2] << 8) | udpIn[i+3]);
            }
          }
        }
      }
    }
    if (arlsTimeout && millis() > arlsTimeoutTime)
    {
      strip.unlockAll();
      arlsTimeout = false;
      strip.setMode(effectCurrent);
    }
  }
}