public void Run(IBackgroundTaskInstance taskInstance) { rfm9XDevice.Initialise(Frequency, paBoost: true, rxPayloadCrcOn: true); #if DEBUG rfm9XDevice.RegisterDump(); #endif rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive; #if ADDRESSED_MESSAGES_PAYLOAD rfm9XDevice.Receive(UTF8Encoding.UTF8.GetBytes(Environment.MachineName)); #else rfm9XDevice.Receive(); #endif rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit; Task.Delay(10000).Wait(); while (true) { string messageText = string.Format("Hello from {0} ! {1}", Environment.MachineName, MessageCount); MessageCount -= 1; byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText); Debug.WriteLine("{0:HH:mm:ss}-TX {1} byte message {2}", DateTime.Now, messageBytes.Length, messageText); #if ADDRESSED_MESSAGES_PAYLOAD this.rfm9XDevice.Send(UTF8Encoding.UTF8.GetBytes("AddressHere"), messageBytes); #else this.rfm9XDevice.Send(messageBytes); #endif Task.Delay(10000).Wait(); } }
public static void Main() { Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SPI_Devices.SPI1, Pins.GPIO_PIN_D10, Pins.GPIO_PIN_D9, Pins.GPIO_PIN_D2); byte MessageCount = Byte.MinValue; rfm9XDevice.Initialise(frequency: 915000000, paBoost: true, rxPayloadCrcOn: true); #if ADDRESSED_MESSAGES_PAYLOAD rfm9XDevice.Receive(Encoding.UTF8.GetBytes("Netduino")); #else rfm9XDevice.Receive(); #endif rfm9XDevice.OnDataReceived += rfm9XDevice_OnDataReceived; rfm9XDevice.OnTransmit += rfm9XDevice_OnTransmit; while (true) { string messageText = "Hello NetMF LoRa! " + MessageCount.ToString(); MessageCount += 1; byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText); Debug.Print("Sending " + messageBytes.Length + " bytes message " + messageText); #if ADDRESSED_MESSAGES_PAYLOAD rfm9XDevice.Send(UTF8Encoding.UTF8.GetBytes("LoRaIoT1"), messageBytes); #else rfm9XDevice.Send(messageBytes); #endif Thread.Sleep(10000); } }
static void Main() { #if TINYCLR_V2_SC20100DEV_MIKROBUS_1 || TINYCLR_V2_SC20100DEV_MIKROBUS_2 const string DeviceName = "SC20100DEVLoRa"; #endif #if TINYCLR_V2_FEZDUINO const string DeviceName = "FezduinoLoRa"; #endif #if TINYCLR_V2_FEZPORTAL const string DeviceName = "FezportalLoRa"; #endif #if ADDRESSED_MESSAGES_PAYLOAD const string HostName = "LoRaIoT1"; #endif const double Frequency = 915000000.0; byte MessageCount = System.Byte.MaxValue; #if TINYCLR_V2_SC20100DEV_MIKROBUS_1 Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SC20100.SpiBus.Spi3, SC20100.GpioPin.PD3, SC20100.GpioPin.PD4, SC20100.GpioPin.PC5); #endif #if TINYCLR_V2_SC20100DEV_MIKROBUS_2 Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SC20100.SpiBus.Spi3, SC20100.GpioPin.PD14, SC20100.GpioPin.PD15, SC20100.GpioPin.PA8); #endif #if TINYCLR_V2_FEZDUINO Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SC20100.SpiBus.Spi6, SC20100.GpioPin.PB1, SC20100.GpioPin.PA15, SC20100.GpioPin.PA1); #endif #if TINYCLR_V2_FEZPORTAL Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SC20100.SpiBus.Spi3, SC20100.GpioPin.PC13, SC20100.GpioPin.PD4, SC20100.GpioPin.PC2); #endif rfm9XDevice.Initialise(Frequency, paBoost: true, rxPayloadCrcOn: true); #if DEBUG rfm9XDevice.RegisterDump(); #endif rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive; #if ADDRESSED_MESSAGES_PAYLOAD rfm9XDevice.Receive(UTF8Encoding.UTF8.GetBytes(DeviceName)); #else rfm9XDevice.Receive(); #endif rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit; Thread.Sleep(10000); while (true) { string messageText = string.Format("Hello from {0} ! {1}", DeviceName, MessageCount); MessageCount -= 1; byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText); Debug.WriteLine($"{DateTime.Now:HH:mm:ss}-TX {messageBytes.Length} byte message {messageText}"); #if ADDRESSED_MESSAGES_PAYLOAD rfm9XDevice.Send(UTF8Encoding.UTF8.GetBytes(HostName), messageBytes); #else rfm9XDevice.Send(messageBytes); #endif Thread.Sleep(10000); } }
static void Main() { byte MessageCount = System.Byte.MaxValue; int chipSelectPinNumber = Gpio.IO16; int interruptPinNumber = Gpio.IO26; Configuration.SetPinFunction(Gpio.IO12, DeviceFunction.SPI1_MISO); Configuration.SetPinFunction(Gpio.IO13, DeviceFunction.SPI1_MOSI); Configuration.SetPinFunction(Gpio.IO14, DeviceFunction.SPI1_CLOCK); Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SpiBusId, chipSelectPinNumber, interruptPinNumber); Debug.WriteLine("devMobile.IoT.Rfm9x.LoRaDeviceClient starting"); rfm9XDevice.Initialise(Frequency, paBoost: true); rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive; rfm9XDevice.Receive(); rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit; Thread.Sleep(10000); while (true) { string messageText = $"Hello from {DeviceName} ! {MessageCount}"; MessageCount -= 1; byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText); Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss}-TX {messageBytes.Length} byte message {messageText}"); rfm9XDevice.Send(messageBytes); Thread.Sleep(10000); } }
static void Main() { //const string DeviceName = "FEZLoRa"; //const string HostName = "LoRaIoT1"; const string DeviceName = "LoRaIoT1"; #if ADDRESSED_MESSAGES_PAYLOAD const string HostName = "LoRaIoT2"; #endif const double Frequency = 915000000.0; byte MessageCount = System.Byte.MaxValue; Rfm9XDevice rfm9XDevice = new Rfm9XDevice(FEZ.GpioPin.D10, FEZ.GpioPin.D9, FEZ.GpioPin.D2); rfm9XDevice.Initialise(Frequency, paBoost: true, rxPayloadCrcOn: true); #if DEBUG rfm9XDevice.RegisterDump(); #endif rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive; #if ADDRESSED_MESSAGES_PAYLOAD rfm9XDevice.Receive(UTF8Encoding.UTF8.GetBytes(DeviceName)); #else rfm9XDevice.Receive(); #endif rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit; Thread.Sleep(10000); while (true) { string messageText = string.Format("Hello from {0} ! {1}", DeviceName, MessageCount); MessageCount -= 1; byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText); Debug.WriteLine($"{DateTime.Now:HH:mm:ss}-TX {messageBytes.Length} byte message {messageText}"); #if ADDRESSED_MESSAGES_PAYLOAD rfm9XDevice.Send(UTF8Encoding.UTF8.GetBytes(HostName), messageBytes); #else rfm9XDevice.Send(messageBytes); #endif Thread.Sleep(10000); } }
public void Run() { rfm9XDevice.Initialise(frequency: Frequency, paBoost: true, rxPayloadCrcOn: true); rfm9XDevice.Receive(deviceAddress); rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive; rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit; Timer humidityAndtemperatureUpdates = new Timer(HumidityAndTemperatureTimerProc, null, dueTime, periodTime); Thread.Sleep(Timeout.Infinite); }
static void initRadio(SSD1306Driver oledScreen) { //Set LoRa Pins byte MessageCount = System.Byte.MaxValue; int chipSelectPinNumber = Gpio.IO18; int interruptPinNumber = Gpio.IO26; int resetPinNumber = Gpio.IO14; Configuration.SetPinFunction(Gpio.IO19, DeviceFunction.SPI1_MISO); Configuration.SetPinFunction(Gpio.IO27, DeviceFunction.SPI1_MOSI); Configuration.SetPinFunction(Gpio.IO05, DeviceFunction.SPI1_CLOCK); //Initialize Modem - BEEEEEEEEEEEEEEEEEEEEEEP.......BUUUUUUUUUUUUUUUUUUUUUR....................WEEEEDOOOOWEEEEEDOOO.................SKRRRRRRRRRRRRRRRRRR Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SpiBusId, chipSelectPinNumber, resetPinNumber, interruptPinNumber); oledScreen.DrawString(0, 20, "Success......."); oledScreen.RefreshDisplay(); rfm9XDevice.Initialise(Frequency, paBoost: true); oledScreen.DrawString(0, 30, "Powering Radio On......."); oledScreen.RefreshDisplay(); rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive; rfm9XDevice.Receive(); rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit; //LED INIT - Not required, just gave me something to see in my peripheral so I did not have to read the OLED all the time GpioController gpioc = new GpioController(); GpioPin led = gpioc.OpenPin(OnBoardDevicePortNumber.Led, PinMode.Output); led.Write(PinValue.High); Thread.Sleep(5000); //Too fast and we reset int count = 0; while (true) //Send a message and update the OLED { string messageText = $"Hello from {DeviceName} ! {MessageCount}"; MessageCount -= 1; count++; oledScreen.Clear(); oledScreen.DrawString(0, 0, "Transmitting...."); oledScreen.DrawString(0, 10, "Messages Sent: " + count.ToString()); oledScreen.RefreshDisplay(); byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText); Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss}-TX {messageBytes.Length} byte message {messageText}"); rfm9XDevice.Send(messageBytes); Thread.Sleep(1000); led.Toggle(); } }
public MeadowClient() { Led = new Led(Device, Device.Pins.OnboardLedGreen); try { sensor = new Sht31D(Device.CreateI2cBus()); ISpiBus spiBus = Device.CreateSpiBus(500); rfm9XDevice = new Rfm9XDevice(Device, spiBus, Device.Pins.D09, Device.Pins.D10, Device.Pins.D12); rfm9XDevice.Initialise(Frequency, paBoost: true, rxPayloadCrcOn: true); #if DEBUG rfm9XDevice.RegisterDump(); #endif rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive; rfm9XDevice.Receive(deviceAddress); rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit; } catch (Exception ex) { Console.WriteLine(ex.Message); } while (true) { sensor.Update(); Console.WriteLine($"{DateTime.UtcNow:HH:mm:ss}-TX T:{sensor.Temperature:0.0}C H:{sensor.Humidity:0}%"); string payload = $"t {sensor.Temperature:0.0},h {sensor.Humidity:0}"; Led.IsOn = true; rfm9XDevice.Send(fieldGatewayAddress, Encoding.UTF8.GetBytes(payload)); Thread.Sleep(periodTime); } }
static void Main() { byte MessageCount = System.Byte.MaxValue; #if ST_STM32F429I_DISCOVERY int chipSelectPinNumber = PinNumber('C', 2); int resetPinNumber = PinNumber('C', 3); int interruptPinNumber = PinNumber('A', 4); #endif #if ESP32_WROOM_32_LORA_1_CHANNEL int chipSelectPinNumber = Gpio.IO16; int interruptPinNumber = Gpio.IO26; Configuration.SetPinFunction(Gpio.IO12, DeviceFunction.SPI1_MISO); Configuration.SetPinFunction(Gpio.IO13, DeviceFunction.SPI1_MOSI); Configuration.SetPinFunction(Gpio.IO14, DeviceFunction.SPI1_CLOCK); Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SpiBusId, chipSelectPinNumber, interruptPinNumber); #endif #if NETDUINO3_WIFI // Arduino D10->PB10 int chipSelectPinNumber = PinNumber('B', 10); // Arduino D9->PE5 int resetPinNumber = PinNumber('E', 5); // Arduino D2->PA3 int interruptPinNumber = PinNumber('A', 3); #endif Debug.WriteLine("devMobile.IoT.Rfm9x.LoRaDeviceClient starting"); #if ST_STM32F429I_DISCOVERY || NETDUINO3_WIFI Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SpiBusId, chipSelectPinNumber, resetPinNumber, interruptPinNumber); #endif rfm9XDevice.Initialise(Frequency, paBoost: true); #if DEBUG rfm9XDevice.RegisterDump(); #endif rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive; #if ADDRESSED_MESSAGES_PAYLOAD rfm9XDevice.Receive(UTF8Encoding.UTF8.GetBytes(DeviceName)); #else rfm9XDevice.Receive(); #endif rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit; Thread.Sleep(10000); while (true) { string messageText = $"Hello from {DeviceName} ! {MessageCount}"; MessageCount -= 1; byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText); Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss}-TX {messageBytes.Length} byte message {messageText}"); #if ADDRESSED_MESSAGES_PAYLOAD rfm9XDevice.Send(UTF8Encoding.UTF8.GetBytes(HostName), messageBytes); #else rfm9XDevice.Send(messageBytes); #endif Thread.Sleep(10000); } }
static void Main() { byte MessageCount = System.Byte.MaxValue; #if ST_STM32F429I_DISCOVERY int ledPinNumber = PinNumber('G', 14); int chipSelectPinNumber = PinNumber('C', 2); int resetPinNumber = PinNumber('C', 3); int interruptPinNumber = PinNumber('A', 4); #endif #if ESP32_WROOM_32_LORA_1_CHANNEL int ledPinNumber = Gpio.IO17; int chipSelectPinNumber = Gpio.IO16; int interruptPinNumber = Gpio.IO26; Configuration.SetPinFunction(Gpio.IO12, DeviceFunction.SPI1_MISO); Configuration.SetPinFunction(Gpio.IO13, DeviceFunction.SPI1_MOSI); Configuration.SetPinFunction(Gpio.IO14, DeviceFunction.SPI1_CLOCK); Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SpiBusId, chipSelectPinNumber, interruptPinNumber); #endif #if NETDUINO3_WIFI int ledPinNumber = PinNumber('A', 10); // Arduino D10->PB10 int chipSelectPinNumber = PinNumber('B', 10); // Arduino D9->PE5 int resetPinNumber = PinNumber('E', 5); // Arduino D2->PA3 int interruptPinNumber = PinNumber('A', 3); #endif Debug.WriteLine("devMobile.IoT.Rfm9x.LoRaDeviceClient starting"); GpioController gpioController = GpioController.GetDefault(); led = gpioController.OpenPin(ledPinNumber); led.SetDriveMode(GpioPinDriveMode.Output); led.Write(GpioPinValue.Low); #if ST_STM32F429I_DISCOVERY || NETDUINO3_WIFI Rfm9XDevice rfm9XDevice = new Rfm9XDevice(SpiBusId, chipSelectPinNumber, resetPinNumber, interruptPinNumber); #endif rfm9XDevice.Initialise(Frequency , rxPayloadCrcOn: true ); #if DEBUG rfm9XDevice.RegisterDump(); #endif rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive; #if ADDRESSED_MESSAGES_PAYLOAD rfm9XDevice.Receive(UTF8Encoding.UTF8.GetBytes(DeviceName)); #else rfm9XDevice.Receive(); #endif rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit; Thread.Sleep(10000); while (true) { string messageText = string.Format("Hello from {0} ! {1}", DeviceName, MessageCount); MessageCount -= 1; byte[] messageBytes = UTF8Encoding.UTF8.GetBytes(messageText); Debug.WriteLine(string.Format("{0}-TX {1} byte message {2}", DateTime.UtcNow.ToString("HH:mm:ss"), messageBytes.Length, messageText)); #if ADDRESSED_MESSAGES_PAYLOAD rfm9XDevice.Send(UTF8Encoding.UTF8.GetBytes(HostName), messageBytes); #else rfm9XDevice.Send(messageBytes); #endif Thread.Sleep(10000); } }
public void Run(IBackgroundTaskInstance taskInstance) { StorageFolder localFolder = ApplicationData.Current.LocalFolder; try { // see if the configuration file is present if not copy minimal sample one from application directory if (localFolder.TryGetItemAsync(ConfigurationFilename).AsTask().Result == null) { StorageFile templateConfigurationfile = Package.Current.InstalledLocation.GetFileAsync(ConfigurationFilename).AsTask().Result; templateConfigurationfile.CopyAsync(localFolder, ConfigurationFilename).AsTask(); } // Load the settings from configuration file exit application if missing or invalid StorageFile file = localFolder.GetFileAsync(ConfigurationFilename).AsTask().Result; applicationSettings = (JsonConvert.DeserializeObject <ApplicationSettings>(FileIO.ReadTextAsync(file).AsTask().Result)); } catch (Exception ex) { this.logging.LogMessage("JSON configuration file load failed " + ex.Message, LoggingLevel.Error); return; } // Log the Application build, shield information etc. LoggingFields applicationBuildInformation = new LoggingFields(); #if DRAGINO applicationBuildInformation.AddString("Shield", "DraginoLoRaGPSHat"); #endif #if ELECROW applicationBuildInformation.AddString("Shield", "ElecrowRFM95IoTBoard"); #endif #if M2M applicationBuildInformation.AddString("Shield", "M2M1ChannelLoRaWanGatewayShield"); #endif #if ELECTRONIC_TRICKS applicationBuildInformation.AddString("Shield", "ElectronicTricksLoRaLoRaWANShield"); #endif #if UPUTRONICS_RPIZERO_CS0 applicationBuildInformation.AddString("Shield", "UputronicsPiZeroLoRaExpansionBoardCS0"); #endif #if UPUTRONICS_RPIZERO_CS1 applicationBuildInformation.AddString("Shield", "UputronicsPiZeroLoRaExpansionBoardCS1"); #endif #if UPUTRONICS_RPIPLUS_CS0 applicationBuildInformation.AddString("Shield", "UputronicsPiPlusLoRaExpansionBoardCS0"); #endif #if UPUTRONICS_RPIPLUS_CS1 applicationBuildInformation.AddString("Shield", "UputronicsPiPlusLoRaExpansionBoardCS1"); #endif #if ADAFRUIT_RADIO_BONNET applicationBuildInformation.AddString("Shield", "AdafruitRadioBonnet"); #endif #if CLOUD_DEVICE_BOND applicationBuildInformation.AddString("Bond", "Supported"); #else applicationBuildInformation.AddString("Bond", "NotSupported"); #endif #if CLOUD_DEVICE_PUSH applicationBuildInformation.AddString("Push", "Supported"); #else applicationBuildInformation.AddString("Push", "NotSupported"); #endif #if CLOUD_DEVICE_SEND applicationBuildInformation.AddString("Send", "Supported"); #else applicationBuildInformation.AddString("Send", "NotSupported"); #endif #if PAYLOAD_TEXT applicationBuildInformation.AddString("PayloadProcessor", "Text"); #endif #if PAYLOAD_TEXT_COMA_SEPARATED_VALUES applicationBuildInformation.AddString("PayloadProcessor", "ComaSeperatedValues"); #endif #if PAYLOAD_BINARY_BINARY_CODED_DECIMAL applicationBuildInformation.AddString("PayloadProcessor", "BinaryCodedDecimal"); #endif #if PAYLOAD_BINARY_CAYENNE_LOW_POWER_PAYLOAD applicationBuildInformation.AddString("PayloadProcessor", "CayenneLowPowerPayload"); #endif applicationBuildInformation.AddString("Timezone", TimeZoneSettings.CurrentTimeZoneDisplayName); applicationBuildInformation.AddString("OSVersion", Environment.OSVersion.VersionString); applicationBuildInformation.AddString("MachineName", Environment.MachineName); // This is from the application manifest Package package = Package.Current; PackageId packageId = package.Id; PackageVersion version = packageId.Version; applicationBuildInformation.AddString("ApplicationVersion", string.Format($"{version.Major}.{version.Minor}.{version.Build}.{version.Revision}")); this.logging.LogEvent("Application starting", applicationBuildInformation, LoggingLevel.Information); try { #if DRAGINO rfm9XDevice = new Rfm9XDevice(ChipSelectPin.CS0, ChipSelectLine, ResetLine, InterruptLine); #endif #if M2M rfm9XDevice = new Rfm9XDevice(ChipSelectPin.CS0, ChipSelectLine, ResetLine, InterruptLine); #endif #if ELECROW rfm9XDevice = new Rfm9XDevice(ChipSelectPin.CS1, ResetLine, InterruptLine); #endif #if ELECTRONIC_TRICKS rfm9XDevice = new Rfm9XDevice(ChipSelectPin.CS0, ResetLine, InterruptLine); #endif #if UPUTRONICS_RPIZERO_CS0 rfm9XDevice = new Rfm9XDevice(ChipSelectPin.CS0, InterruptLine); #endif #if UPUTRONICS_RPIZERO_CS1 rfm9XDevice = new Rfm9XDevice(ChipSelectPin.CS1, InterruptLine); #endif #if UPUTRONICS_RPIPLUS_CS0 rfm9XDevice = new Rfm9XDevice(ChipSelectPin.CS0, InterruptLine); #endif #if UPUTRONICS_RPIPLUS_CS1 rfm9XDevice = new Rfm9XDevice(ChipSelectPin.CS1, InterruptLine); #endif #if ADAFRUIT_RADIO_BONNET rfm9XDevice = new Rfm9XDevice(ChipSelectPin.CS1, ResetLine, InterruptLine); #endif } catch (Exception ex) { this.logging.LogMessage("Hardware initialisation failed " + ex.Message, LoggingLevel.Error); return; } // Log the Azure connection string and associated settings LoggingFields azureIoTHubSettings = new LoggingFields(); azureIoTHubSettings.AddString("DeviceConnectionString", this.applicationSettings.AzureIoTHubDeviceConnectionString); azureIoTHubSettings.AddString("TransportType", this.applicationSettings.AzureIoTHubTransportType.ToString()); azureIoTHubSettings.AddString("SensorIDIsDeviceIDSensorID", this.applicationSettings.SensorIDIsDeviceIDSensorID.ToString()); this.logging.LogEvent("AzureIoTHub configuration", azureIoTHubSettings, LoggingLevel.Information); // Connect the IoT hub first so we are ready for any messages try { this.azureIoTHubClient = DeviceClient.CreateFromConnectionString(this.applicationSettings.AzureIoTHubDeviceConnectionString, this.applicationSettings.AzureIoTHubTransportType); } catch (Exception ex) { this.logging.LogMessage("IoT Hub connection failed " + ex.Message, LoggingLevel.Error); return; } try { TwinCollection reportedProperties; reportedProperties = new TwinCollection(); // This is from the OS reportedProperties["Timezone"] = TimeZoneSettings.CurrentTimeZoneDisplayName; reportedProperties["OSVersion"] = Environment.OSVersion.VersionString; reportedProperties["MachineName"] = Environment.MachineName; reportedProperties["ApplicationDisplayName"] = package.DisplayName; reportedProperties["ApplicationName"] = packageId.Name; reportedProperties["ApplicationVersion"] = string.Format($"{version.Major}.{version.Minor}.{version.Build}.{version.Revision}"); // Unique identifier from the hardware SystemIdentificationInfo systemIdentificationInfo = SystemIdentification.GetSystemIdForPublisher(); using (DataReader reader = DataReader.FromBuffer(systemIdentificationInfo.Id)) { byte[] bytes = new byte[systemIdentificationInfo.Id.Length]; reader.ReadBytes(bytes); reportedProperties["SystemId"] = BitConverter.ToString(bytes); } azureIoTHubClient.UpdateReportedPropertiesAsync(reportedProperties).Wait(); } catch (Exception ex) { this.logging.LogMessage("IoT Hub updating reported properties failed " + ex.Message, LoggingLevel.Error); } // Wire up the field gateway restart method handler try { azureIoTHubClient.SetMethodHandlerAsync("Restart", RestartAsync, null); } catch (Exception ex) { this.logging.LogMessage("Azure IoT Hub Restart method handler setup failed " + ex.Message, LoggingLevel.Error); return; } #if CLOUD_DEVICE_BOND // Wire up the bond device method handler try { azureIoTHubClient.SetMethodHandlerAsync("DeviceBond", this.DeviceBondAsync, null); } catch (Exception ex) { this.logging.LogMessage("Azure IoT Hub Device Bond method handler setup failed " + ex.Message, LoggingLevel.Error); return; } #endif #if CLOUD_DEVICE_PUSH // Wire up the push message to device method handler try { this.azureIoTHubClient.SetMethodHandlerAsync("DevicePush", this.DevicePushAsync, null); } catch (Exception ex) { this.logging.LogMessage("Azure IoT Hub DevicePush method handler setup failed " + ex.Message, LoggingLevel.Error); return; } #endif #if CLOUD_DEVICE_SEND // Wire up the send message to device method handler try { this.azureIoTHubClient.SetMethodHandlerAsync("DeviceSend", this.DeviceSendAsync, null); } catch (Exception ex) { this.logging.LogMessage("Azure IoT Hub client DeviceSend method handler setup failed " + ex.Message, LoggingLevel.Error); return; } #endif // Configure the LoRa module rfm9XDevice.OnReceive += Rfm9XDevice_OnReceive; rfm9XDevice.OnTransmit += Rfm9XDevice_OnTransmit; rfm9XDevice.Initialise(this.applicationSettings.Frequency, rxDoneignoreIfCrcMissing: true, rxDoneignoreIfCrcInvalid: true, paBoost: this.applicationSettings.PABoost, maxPower: this.applicationSettings.MaxPower, outputPower: this.applicationSettings.OutputPower, ocpOn: this.applicationSettings.OCPOn, ocpTrim: this.applicationSettings.OCPTrim, lnaGain: this.applicationSettings.LnaGain, lnaBoost: this.applicationSettings.LNABoost, bandwidth: this.applicationSettings.Bandwidth, codingRate: this.applicationSettings.CodingRate, implicitHeaderModeOn: this.applicationSettings.ImplicitHeaderModeOn, spreadingFactor: this.applicationSettings.SpreadingFactor, rxPayloadCrcOn: true, symbolTimeout: this.applicationSettings.SymbolTimeout, preambleLength: this.applicationSettings.PreambleLength, payloadLength: this.applicationSettings.PayloadLength, payloadMaxLength: this.applicationSettings.PayloadMaxLength, freqHoppingPeriod: this.applicationSettings.FreqHoppingPeriod, lowDataRateOptimize: this.applicationSettings.LowDataRateOptimize, ppmCorrection: this.applicationSettings.PpmCorrection, detectionOptimize: this.applicationSettings.DetectionOptimize, invertIQ: this.applicationSettings.InvertIQ, detectionThreshold: this.applicationSettings.DetectionThreshold, syncWord: this.applicationSettings.SyncWord ); #if DEBUG rfm9XDevice.RegisterDump(); #endif rfm9XDevice.Receive(Encoding.UTF8.GetBytes(this.applicationSettings.Address)); LoggingFields loRaSettings = new LoggingFields(); loRaSettings.AddString("Address", this.applicationSettings.Address); loRaSettings.AddDouble("Frequency", this.applicationSettings.Frequency); loRaSettings.AddBoolean("PABoost", this.applicationSettings.PABoost); loRaSettings.AddUInt8("MaxPower", this.applicationSettings.MaxPower); loRaSettings.AddUInt8("OutputPower", this.applicationSettings.OutputPower); loRaSettings.AddBoolean("OCPOn", this.applicationSettings.OCPOn); loRaSettings.AddUInt8("OCPTrim", this.applicationSettings.OCPTrim); loRaSettings.AddString("LnaGain", this.applicationSettings.LnaGain.ToString()); loRaSettings.AddBoolean("lnaBoost", this.applicationSettings.LNABoost); loRaSettings.AddString("codingRate", this.applicationSettings.CodingRate.ToString()); loRaSettings.AddString("implicitHeaderModeOn", applicationSettings.ImplicitHeaderModeOn.ToString()); loRaSettings.AddString("spreadingFactor", this.applicationSettings.SpreadingFactor.ToString()); loRaSettings.AddBoolean("rxPayloadCrcOn", true); loRaSettings.AddUInt8("symbolTimeout", this.applicationSettings.SymbolTimeout); loRaSettings.AddUInt8("preambleLength", this.applicationSettings.PreambleLength); loRaSettings.AddUInt8("payloadLength", this.applicationSettings.PayloadLength); loRaSettings.AddUInt8("payloadMaxLength", this.applicationSettings.PayloadMaxLength); loRaSettings.AddUInt8("freqHoppingPeriod", this.applicationSettings.FreqHoppingPeriod); loRaSettings.AddBoolean("lowDataRateOptimize", this.applicationSettings.LowDataRateOptimize); loRaSettings.AddUInt8("ppmCorrection", this.applicationSettings.PpmCorrection); loRaSettings.AddString("detectionOptimize", this.applicationSettings.DetectionOptimize.ToString()); loRaSettings.AddBoolean("invertIQ", this.applicationSettings.InvertIQ); loRaSettings.AddString("detectionThreshold", this.applicationSettings.DetectionThreshold.ToString()); loRaSettings.AddUInt8("SyncWord", this.applicationSettings.SyncWord); this.logging.LogEvent("LoRa configuration", loRaSettings, LoggingLevel.Information); this.deferral = taskInstance.GetDeferral(); }