bool CRFLinkBase::ParseLine(const std::string &sLine) { m_LastReceivedTime = mytime(NULL); std::vector<std::string> results; StringSplit(sLine, ";", results); if (results.size() < 2) return false; //not needed bool bHideDebugLog = ( (sLine.find("PONG") != std::string::npos)|| (sLine.find("PING") != std::string::npos) ); int RFLink_ID = atoi(results[0].c_str()); if (RFLink_ID != 20) { return false; //only accept RFLink->Master messages } #ifdef ENABLE_LOGGING if (!bHideDebugLog) _log.Log(LOG_NORM, "RFLink: %s", sLine.c_str()); #endif //std::string Sensor_ID = results[1]; if (results.size() >2) { //Status reply std::string Name_ID = results[2]; if ((Name_ID.find("Nodo RadioFrequencyLink") != std::string::npos) || (Name_ID.find("RFLink Gateway") != std::string::npos)) { _log.Log(LOG_STATUS, "RFLink: Controller Initialized!..."); WriteInt("10;VERSION;\n"); // 20;3C;VER=1.1;REV=37;BUILD=01; //Enable DEBUG //write("10;RFDEBUG=ON;\n"); //Enable Undecoded DEBUG //write("10;RFUDEBUG=ON;\n"); return true; } if (Name_ID.find("VER") != std::string::npos) { //_log.Log(LOG_STATUS, "RFLink: %s", sLine.c_str()); int versionlo = 0; int versionhi = 0; int revision = 0; int build = 0; if (results[2].find("VER") != std::string::npos) { versionhi = RFLinkGetIntStringValue(results[2]); versionlo = RFLinkGetIntDecStringValue(results[2]); } if (results[3].find("REV") != std::string::npos){ revision = RFLinkGetIntStringValue(results[3]); } if (results[4].find("BUILD") != std::string::npos) { build = RFLinkGetIntStringValue(results[4]); } _log.Log(LOG_STATUS, "RFLink Detected, Version: %d.%d Revision: %d Build: %d", versionhi, versionlo, revision, build); std::stringstream sstr; sstr << revision << "." << build; m_Version = sstr.str(); mytime(&m_LastHeartbeatReceive); // keep heartbeat happy mytime(&m_LastHeartbeat); // keep heartbeat happy m_LastReceivedTime = m_LastHeartbeat; m_bTXokay = true; // variable to indicate an OK was received return true; } if (Name_ID.find("PONG") != std::string::npos) { //_log.Log(LOG_STATUS, "RFLink: PONG received!..."); mytime(&m_LastHeartbeatReceive); // keep heartbeat happy mytime(&m_LastHeartbeat); // keep heartbeat happy m_LastReceivedTime = m_LastHeartbeat; m_bTXokay = true; // variable to indicate an OK was received return true; } if (Name_ID.find("OK") != std::string::npos) { //_log.Log(LOG_STATUS, "RFLink: OK received!..."); mytime(&m_LastHeartbeatReceive); // keep heartbeat happy mytime(&m_LastHeartbeat); // keep heartbeat happy m_LastReceivedTime = m_LastHeartbeat; m_bTXokay = true; // variable to indicate an OK was received return true; } else if (Name_ID.find("CMD UNKNOWN") != std::string::npos) { _log.Log(LOG_ERROR, "RFLink: Error/Unknown command received!..."); m_bTXokay = true; // variable to indicate an ERROR was received return true; } } if (results.size() < 4) return true; if (results[3].find("ID=") == std::string::npos) return false; //?? mytime(&m_LastHeartbeatReceive); // keep heartbeat happy mytime(&m_LastHeartbeat); // keep heartbeat happy //_log.Log(LOG_STATUS, "RFLink: t1=%d t2=%d", m_LastHeartbeat, m_LastHeartbeatReceive); m_LastReceivedTime = m_LastHeartbeat; std::stringstream ss; unsigned int ID; ss << std::hex << results[3].substr(3); ss >> ID; int Node_ID = (ID & 0xFF00) >> 8; int Child_ID = ID & 0xFF; bool bHaveTemp = false; float temp = 0; bool bHaveHum = false; int humidity = 0; bool bHaveHumStatus = false; int humstatus = 0; bool bHaveBaro = false; float baro = 0; int baroforecast = 0; bool bHaveRain = false; float raincounter = 0; bool bHaveLux = false; float lux = 0; bool bHaveUV = false; float uv = 0; bool bHaveWindDir = false; int windir = 0; bool bHaveWindSpeed = false; float windspeed = 0; bool bHaveWindGust = false; float windgust = 0; bool bHaveWindTemp = false; float windtemp = 0; bool bHaveWindChill = false; float windchill = 0; bool bHaveRGB = false; int rgb = 0; bool bHaveRGBW = false; int rgbw = 0; bool bHaveSound = false; int sound = 0; bool bHaveCO2 = false; int co2 = 0; bool bHaveBlind = false; int blind = 0; bool bHaveKWatt = false; float kwatt = 0; bool bHaveWatt = false; float watt = 0; bool bHaveDistance = false; float distance = 0; bool bHaveMeter = false; float meter = 0; bool bHaveVoltage = false; float voltage = 0; bool bHaveCurrent = false; float current = 0; bool bHaveCurrent2 = false; float current2 = 0; bool bHaveCurrent3 = false; float current3 = 0; bool bHaveImpedance = false; float impedance = 0; bool bHaveSwitch = false; int switchunit = 0; bool bHaveSwitchCmd = false; std::string switchcmd = ""; int switchlevel = 0; int BatteryLevel = 255; std::string tmpstr; int iTemp; for (size_t ii = 4; ii < results.size(); ii++) { if (results[ii].find("TEMP") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveTemp = true; if ((iTemp & 0x8000) == 0x8000) { //negative temp iTemp = -(iTemp & 0xFFF); } temp = float(iTemp) / 10.0f; } else if (results[ii].find("HUM") != std::string::npos) { bHaveHum = true; humidity = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("HSTATUS") != std::string::npos) { bHaveHumStatus = true; humstatus = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("BARO") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveBaro = true; baro = float(iTemp); } else if (results[ii].find("BFORECAST") != std::string::npos) { baroforecast = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("RAIN") != std::string::npos) { bHaveRain = true; iTemp = RFLinkGetHexStringValue(results[ii]); raincounter = float(iTemp) / 10.0f; } else if (results[ii].find("LUX") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveLux = true; lux = float(iTemp); } else if (results[ii].find("UV") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveUV = true; uv = float(iTemp) /10.0f; } else if (results[ii].find("BAT") != std::string::npos) { tmpstr = RFLinkGetStringValue(results[ii]); BatteryLevel = (tmpstr == "OK") ? 100 : 0; } else if (results[ii].find("WINDIR") != std::string::npos) { bHaveWindDir = true; windir = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("WINSP") != std::string::npos) { bHaveWindSpeed = true; iTemp = RFLinkGetHexStringValue(results[ii]); // received value is km/u windspeed = (float(iTemp) * 0.0277778f); //convert to m/s } else if (results[ii].find("WINGS") != std::string::npos) { bHaveWindGust = true; iTemp = RFLinkGetHexStringValue(results[ii]); // received value is km/u windgust = (float(iTemp) * 0.0277778f); //convert to m/s } else if (results[ii].find("WINTMP") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveWindTemp = true; if ((iTemp & 0x8000) == 0x8000) { //negative temp iTemp = -(iTemp & 0xFFF); } windtemp = float(iTemp) / 10.0f; } else if (results[ii].find("WINCHL") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveWindChill = true; if ((iTemp & 0x8000) == 0x8000) { //negative temp iTemp = -(iTemp & 0xFFF); } windchill = float(iTemp) / 10.0f; } else if (results[ii].find("SOUND") != std::string::npos) { bHaveSound = true; sound = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("CO2") != std::string::npos) { bHaveCO2 = true; co2 = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("RGBW") != std::string::npos) { bHaveRGBW = true; rgbw = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("RGB") != std::string::npos) { bHaveRGB = true; rgb = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("BLIND") != std::string::npos) { bHaveBlind = true; blind = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("KWATT") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveKWatt = true; kwatt = float(iTemp) / 1000.0f; } else if (results[ii].find("WATT") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveWatt = true; watt = float(iTemp) / 10.0f; } else if (results[ii].find("DIST") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveDistance = true; distance = float(iTemp) / 10.0f; } else if (results[ii].find("METER") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveMeter = true; meter = float(iTemp) / 10.0f; } else if (results[ii].find("VOLT") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveVoltage = true; voltage = float(iTemp) / 10.0f; } else if (results[ii].find("CURRENT") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveCurrent = true; current = float(iTemp) / 10.0f; } else if (results[ii].find("CURRENT2") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveCurrent2 = true; current2 = float(iTemp) / 10.0f; } else if (results[ii].find("CURRENT3") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveCurrent3 = true; current3 = float(iTemp) / 10.0f; } else if (results[ii].find("IMPEDANCE") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveCurrent = true; current = float(iTemp) / 10.0f; } else if (results[ii].find("SWITCH") != std::string::npos) { bHaveSwitch = true; switchunit = RFLinkGetHexStringValue(results[ii]); } else if (results[ii].find("CMD") != std::string::npos) { bHaveSwitchCmd = true; switchcmd = RFLinkGetStringValue(results[ii]); } else if (results[ii].find("SMOKEALERT") != std::string::npos) { bHaveSwitch = true; switchunit = 1; bHaveSwitchCmd = true; switchcmd = RFLinkGetStringValue(results[ii]); } else if (results[ii].find("CHIME") != std::string::npos) { bHaveSwitch = true; switchunit = 2; bHaveSwitchCmd = true; switchcmd = "ON"; } } std::string tmp_Name = results[2]; if (bHaveTemp&&bHaveHum&&bHaveBaro) { SendTempHumBaroSensor(ID, BatteryLevel, temp, humidity, baro, baroforecast, tmp_Name); } else if (bHaveTemp&&bHaveHum) { SendTempHumSensor(ID, BatteryLevel, temp, humidity, tmp_Name); } else if (bHaveTemp) { SendTempSensor(ID, BatteryLevel, temp, tmp_Name); } else if (bHaveHum) { SendHumiditySensor(ID, BatteryLevel, humidity, tmp_Name); } else if (bHaveBaro) { SendBaroSensor(Node_ID, Child_ID, BatteryLevel, baro, baroforecast, tmp_Name); } if (bHaveLux) { SendLuxSensor(Node_ID, Child_ID, BatteryLevel, lux, tmp_Name); } if (bHaveUV) { SendUVSensor(Node_ID, Child_ID, BatteryLevel, uv, tmp_Name); } if (bHaveRain) { SendRainSensor(ID, BatteryLevel, float(raincounter), tmp_Name); } if (bHaveWindDir && bHaveWindSpeed && bHaveWindGust && bHaveWindChill) { SendWind(ID, BatteryLevel, float(windir), windspeed, windgust, windtemp, windchill, bHaveWindTemp, tmp_Name); } else if (bHaveWindDir && bHaveWindGust) { SendWind(ID, BatteryLevel, float(windir), windspeed, windgust, windtemp, windchill, bHaveWindTemp, tmp_Name); } else if (bHaveWindSpeed) { SendWind(ID, BatteryLevel, float(windir), windspeed, windgust, windtemp, windchill, bHaveWindTemp, tmp_Name); } if (bHaveCO2) { SendAirQualitySensor((ID & 0xFF00) >> 8, ID & 0xFF, BatteryLevel, co2, tmp_Name); } if (bHaveSound) { SendSoundSensor(ID, BatteryLevel, sound, tmp_Name); } if (bHaveRGB) { //RRGGBB SendRGBWSwitch(Node_ID, Child_ID, BatteryLevel, rgb, false, tmp_Name); } if (bHaveRGBW) { //RRGGBBWW SendRGBWSwitch(Node_ID, Child_ID, BatteryLevel, rgbw, true, tmp_Name); } if (bHaveBlind) { SendBlindSensor(Node_ID, Child_ID, BatteryLevel, blind, tmp_Name); } if (bHaveKWatt&bHaveWatt) { SendKwhMeterOldWay(Node_ID, Child_ID, BatteryLevel, watt / 100.0f, kwatt, tmp_Name); } else if (bHaveKWatt) { SendKwhMeterOldWay(Node_ID, Child_ID, BatteryLevel, watt / 100.0f, kwatt, tmp_Name); } else if (bHaveWatt) { SendKwhMeterOldWay(Node_ID, Child_ID, BatteryLevel, watt / 100.0f, kwatt, tmp_Name); } if (bHaveDistance) { SendDistanceSensor(Node_ID, Child_ID, BatteryLevel, distance, tmp_Name); } if (bHaveMeter) { SendMeterSensor(Node_ID, Child_ID, BatteryLevel, meter, tmp_Name); } if (bHaveVoltage) { SendVoltageSensor(Node_ID, Child_ID, BatteryLevel, voltage, tmp_Name); } if (bHaveCurrent && bHaveCurrent2 && bHaveCurrent3) { SendCurrentSensor(ID, BatteryLevel, current, current2, current3, tmp_Name); } else if (bHaveCurrent) { SendCurrentSensor(ID, BatteryLevel, current, 0, 0, tmp_Name); } if (bHaveImpedance) { SendPercentageSensor(Node_ID, Child_ID, BatteryLevel, impedance, tmp_Name); } if (bHaveSwitch && bHaveSwitchCmd) { std::string switchType = results[2]; SendSwitchInt(ID, switchunit, BatteryLevel, switchType, switchcmd, switchlevel); } return true; }
bool CRFLink::ParseLine(const std::string &sLine) { m_LastReceivedTime = mytime(NULL); std::vector<std::string> results; StringSplit(sLine, ";", results); if (results.size() < 2) return false; //not needed bool bHideDebugLog = ( (sLine.find("PONG") != std::string::npos)|| (sLine.find("PING") != std::string::npos) ); int RFLink_ID = atoi(results[0].c_str()); if (RFLink_ID != 20) { return false; //only accept RFLink->Master messages } #ifdef ENABLE_LOGGING if (!bHideDebugLog) _log.Log(LOG_NORM, "RFLink: %s", sLine.c_str()); #endif //std::string Sensor_ID = results[1]; if (results.size() >2) { //Status reply std::string Name_ID = results[2]; if (Name_ID.find("Nodo RadioFrequencyLink") != std::string::npos) { _log.Log(LOG_STATUS, "RFLink: Controller Initialized!..."); //Enable DEBUG //write("10;RFDEBUG=ON;\n"); //Enable Undecoded DEBUG //write("10;RFUDEBUG=ON;\n"); return true; } if (Name_ID.find("OK") != std::string::npos) { //_log.Log(LOG_STATUS, "RFLink: OK received!..."); m_bTXokay = true; // variable to indicate an OK was received return true; } } if (results.size() < 4) return true; if (results[3].find("ID=") == std::string::npos) return false; //?? std::stringstream ss; unsigned int ID; ss << std::hex << results[3].substr(3); ss >> ID; int Node_ID = (ID & 0xFF00) >> 8; int Child_ID = ID & 0xFF; bool bHaveTemp = false; float temp = 0; bool bHaveHum = false; int humidity = 0; bool bHaveHumStatus = false; int humstatus = 0; bool bHaveBaro = false; float baro = 0; int baroforecast = 0; bool bHaveRain = false; int raincounter = 0; bool bHaveLux = false; float lux = 0; bool bHaveUV = false; float uv = 0; bool bHaveWindDir = false; int windir = 0; bool bHaveWindSpeed = false; float windspeed = 0; bool bHaveWindGust = false; float windgust = 0; bool bHaveWindTemp = false; float windtemp = 0; bool bHaveWindChill = false; float windchill = 0; bool bHaveRGB = false; int rgb = 0; bool bHaveRGBW = false; int rgbw = 0; bool bHaveSound = false; int sound = 0; bool bHaveCO2 = false; int co2 = 0; bool bHaveBlind = false; int blind = 0; bool bHaveKWatt = false; float kwatt = 0; bool bHaveWatt = false; float watt = 0; bool bHaveDistance = false; float distance = 0; bool bHaveMeter = false; float meter = 0; bool bHaveVoltage = false; float voltage = 0; bool bHaveCurrent = false; float current = 0; bool bHaveSwitch = false; int switchunit = 0; bool bHaveSwitchCmd = false; std::string switchcmd = ""; int switchlevel = 0; int BatteryLevel = 255; std::string tmpstr; int iTemp; for (size_t ii = 4; ii < results.size(); ii++) { if (results[ii].find("TEMP") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveTemp = true; if ((iTemp & 0x8000) == 0x8000) { //negative temp iTemp = -(iTemp & 0xFFF); } temp = float(iTemp) / 10.0f; } else if (results[ii].find("HUM") != std::string::npos) { bHaveHum = true; humidity = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("HSTATUS") != std::string::npos) { bHaveHumStatus = true; humstatus = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("BARO") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveBaro = true; baro = float(iTemp); } else if (results[ii].find("BFORECAST") != std::string::npos) { baroforecast = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("RAIN") != std::string::npos) { bHaveRain = true; raincounter = RFLinkGetHexStringValue(results[ii]); } else if (results[ii].find("LUX") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveLux = true; lux = float(iTemp); } else if (results[ii].find("UV") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveUV = true; uv = float(iTemp); } else if (results[ii].find("BAT") != std::string::npos) { tmpstr = RFLinkGetStringValue(results[ii]); BatteryLevel = (tmpstr == "OK") ? 100 : 0; } else if (results[ii].find("WINDIR") != std::string::npos) { bHaveWindDir = true; windir = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("WINSP") != std::string::npos) { bHaveWindSpeed = true; iTemp = RFLinkGetHexStringValue(results[ii]); windspeed = float(iTemp) * 0.0277778f; //convert to m/s } else if (results[ii].find("WINGS") != std::string::npos) { bHaveWindGust = true; iTemp = RFLinkGetHexStringValue(results[ii]); windgust = float(iTemp) * 0.0277778f; //convert to m/s } else if (results[ii].find("WINTMP") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveWindTemp = true; if ((iTemp & 0x8000) == 0x8000) { //negative temp iTemp = -(iTemp & 0xFFF); } windtemp = float(iTemp) / 10.0f; } else if (results[ii].find("WINCHL") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveWindChill = true; if ((iTemp & 0x8000) == 0x8000) { //negative temp iTemp = -(iTemp & 0xFFF); } windchill = float(iTemp) / 10.0f; } else if (results[ii].find("SOUND") != std::string::npos) { bHaveSound = true; sound = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("CO2") != std::string::npos) { bHaveCO2 = true; co2 = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("RGBW") != std::string::npos) { bHaveRGBW = true; rgbw = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("RGB") != std::string::npos) { bHaveRGB = true; rgb = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("BLIND") != std::string::npos) { bHaveBlind = true; blind = RFLinkGetIntStringValue(results[ii]); } else if (results[ii].find("KWATT") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveKWatt = true; kwatt = float(iTemp) / 10.0f; } else if (results[ii].find("WATT") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveWatt = true; watt = float(iTemp) / 10.0f; } else if (results[ii].find("DIST") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveDistance = true; distance = float(iTemp) / 10.0f; } else if (results[ii].find("METER") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveMeter = true; meter = float(iTemp) / 10.0f; } else if (results[ii].find("VOLT") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveVoltage = true; voltage = float(iTemp) / 10.0f; } else if (results[ii].find("CURRENT") != std::string::npos) { iTemp = RFLinkGetHexStringValue(results[ii]); bHaveCurrent = true; current = float(iTemp) / 10.0f; } else if (results[ii].find("SWITCH") != std::string::npos) { bHaveSwitch = true; switchunit = RFLinkGetHexStringValue(results[ii]); } else if (results[ii].find("CMD") != std::string::npos) { bHaveSwitchCmd = true; switchcmd = RFLinkGetStringValue(results[ii]); } else if (results[ii].find("SMOKEALERT") != std::string::npos) { bHaveSwitch = true; switchunit = 1; bHaveSwitchCmd = true; switchcmd = RFLinkGetStringValue(results[ii]); } } if (bHaveTemp&&bHaveHum&&bHaveBaro) { SendTempHumBaroSensor(ID, BatteryLevel, temp, humidity, baro, baroforecast); } else if (bHaveTemp&&bHaveHum) { SendTempHumSensor(ID, BatteryLevel, temp, humidity, "TempHum"); } else if (bHaveTemp) { SendTempSensor(ID, BatteryLevel, temp,"Temp"); } else if (bHaveHum) { SendHumiditySensor(ID, BatteryLevel, humidity); } else if (bHaveBaro) { SendBaroSensor(Node_ID, Child_ID, BatteryLevel, baro, baroforecast); } if (bHaveLux) { SendLuxSensor(Node_ID, Child_ID, BatteryLevel, lux, "Lux"); } if (bHaveUV) { SendUVSensor(Node_ID, Child_ID, BatteryLevel, uv); } if (bHaveRain) { SendRainSensor(ID, BatteryLevel, float(raincounter), "Rain"); } if (bHaveWindDir && bHaveWindSpeed && bHaveWindGust && bHaveWindChill) { SendWind(ID, BatteryLevel, float(windir), windspeed, windgust, windtemp, windchill, bHaveWindTemp, "Wind"); } else if (bHaveWindDir && bHaveWindGust) { SendWind(ID, BatteryLevel, float(windir), windspeed, windgust, windtemp, windchill, bHaveWindTemp, "Wind"); } else if (bHaveWindSpeed) { SendWind(ID, BatteryLevel, float(windir), windspeed, windgust, windtemp, windchill, bHaveWindTemp, "Wind"); } if (bHaveCO2) { SendAirQualitySensor((ID & 0xFF00) >> 8, ID & 0xFF, BatteryLevel, co2, "CO2"); } if (bHaveSound) { SendSoundSensor(ID, BatteryLevel, sound, "Sound"); } if (bHaveRGB) { //RRGGBB SendRGBWSwitch(Node_ID, Child_ID, BatteryLevel, rgb, false, "RGB Light"); } if (bHaveRGBW) { //RRGGBBWW SendRGBWSwitch(Node_ID, Child_ID, BatteryLevel, rgbw, true, "RGBW Light"); } if (bHaveBlind) { SendBlindSensor(Node_ID, Child_ID, BatteryLevel, blind, "Blinds/Window"); } if (bHaveKWatt) { SendKwhMeter(Node_ID, Child_ID, BatteryLevel, kwatt / 1000.0f, kwatt, "Meter"); } if (bHaveWatt) { SendKwhMeter(Node_ID, Child_ID, BatteryLevel, 0, watt, "Meter"); } if (bHaveDistance) { SendDistanceSensor(Node_ID, Child_ID, BatteryLevel, distance); } if (bHaveMeter) { SendMeterSensor(Node_ID, Child_ID, BatteryLevel, meter); } if (bHaveVoltage) { SendVoltageSensor(Node_ID, Child_ID, BatteryLevel, voltage, "Voltage"); } if (bHaveCurrent) { SendCurrentSensor(ID, BatteryLevel, current, 0, 0, "Current"); } if (bHaveSwitch && bHaveSwitchCmd) { std::string switchType = results[2]; SendSwitchInt(ID, switchunit, BatteryLevel, switchType, switchcmd, switchlevel); } return true; }