.NET nanoFramework SX127X LoRa library Regression Testing

After the big refactor the SparkFun LoRa Gateway-1-Channel (ESP32) configuration wouldn’t compile because, the constant for the interrupt pin number didn’t exist (interruptPinNumber vs. dio0PinNumber). A “using” for the Nuget Package nanoFramework.Hardware.Esp32 was also missing.

While “smoke testing” the application I noticed that if I erased the flash, power cycled the device, then ran the application the first execution would fail because the Semtech SX127X could not be detected.

SX127XLoRaDeviceClient first execution startup failure
SX127XLoRaDeviceClient second execution startup success

As part of debugging I built the SparkFun LoRa Gateway-1-Channel (ESP32) version of ShieldSPI and it worked…

After printing the code out and reviewing it I noticed that the Configuration.SetPinFunction for the Serial Peripheral Interface(SPI) Master Out Slave In(MOSI), MOSI(Master In Slave Out) and Clock pins was after the opening of the SPI port.

static void Main(string[] args)
{
	byte SendCount = 0;
#if ESP32_WROOM_32_LORA_1_CHANNEL // No reset line for this device as it isn't connected on SX127X
	int chipSelectLine = Gpio.IO16;
	int dio0PinNumber = Gpio.IO26;
#endif
#if NETDUINO3_WIFI
	// Arduino D10->PB10
	int chipSelectLine = PinNumber('B', 10);
	// Arduino D9->PE5
	int resetPinNumber = PinNumber('E', 5);
	// Arduino D2 -PA3
	int dio0PinNumber = PinNumber('A', 3);
#endif
#if ST_STM32F769I_DISCOVERY
	// Arduino D10->PA11
	int chipSelectLine = PinNumber('A', 11);
	// Arduino D9->PH6
	int resetPinNumber = PinNumber('H', 6);
	// Arduino D2->PA4
	int dio0PinNumber = PinNumber('J', 1);
#endif
	Console.WriteLine("devMobile.IoT.SX127xLoRaDevice Range Tester starting");

	try
	{
#f ESP32_WROOM_32_LORA_1_CHANNEL
		Configuration.SetPinFunction(Gpio.IO12, DeviceFunction.SPI1_MISO);
		Configuration.SetPinFunction(Gpio.IO13, DeviceFunction.SPI1_MOSI);
		Configuration.SetPinFunction(Gpio.IO14, DeviceFunction.SPI1_CLOCK);
#endif

		var settings = new SpiConnectionSettings(SpiBusId, chipSelectLine)
		{
			ClockFrequency = 1000000,
			Mode = SpiMode.Mode0,// From SemTech docs pg 80 CPOL=0, CPHA=0
			SharingMode = SpiSharingMode.Shared
		};

		using (_gpioController = new GpioController())
		using (SpiDevice spiDevice = new SpiDevice(settings))
		{

#if ESP32_WROOM_32_LORA_1_CHANNEL
			_sx127XDevice = new SX127XDevice(spiDevice, _gpioController, dio0Pin: dio0PinNumber);
#endif

#if NETDUINO3_WIFI || ST_STM32F769I_DISCOVERY
			_sx127XDevice = new SX127XDevice(spiDevice, _gpioController, dio0Pin: dio0PinNumber, resetPin:resetPinNumber);
#endif
...

		}
		catch (Exception ex)
		{
				Console.WriteLine(ex.Message);
		}
	}

I assume that the first execution after erasing the flash and power cycling the device, the SPI port pin assignments were not configured when the port was opened, then on the next execution the port was pre-configured.

The RangeTester application flashes on onboard Light Emitting Diode(LED) every time a valid message is received. But, on the ESP32 it turned on when the first message arrived and didn’t turn off. After discussion on the nanoFramework Discord this has been identified as an issue(May 2022).

The library is designed to be a approximate .NET nanoFramework equivalent of Arduino-LoRa so it doesn’t support/implement all of the functionality of the Semtech SX127X.

.NET nanoFramework SX127X LoRa library “it’s all about timing”

Every so often my nanoFramework SX127X library RangeTester application wouldn’t start. When I poked around with the Visual Studio 2022 debugger the issue went away(a “Heisenbug” in the wild) which made figuring out what was going on impossible.

One afternoon the issue occurred several times in a row, the application wouldn’t startup because the SX127X device detection failed and message transmission was also not being confirmed.(TX Done).

Visual Studio output windows with SX127X detection failure
Visual Studio output windows with no Transmit confirmations
public SX127XDevice(SpiDevice spiDevice, GpioController gpioController, int interruptPin, int resetPin)
{
	_gpioController = gpioController;

	// Factory reset pin configuration
	_resetPin = resetPin;
	_gpioController.OpenPin(resetPin, PinMode.Output);

	_gpioController.Write(resetPin, PinValue.Low);
	Thread.Sleep(20);
	_gpioController.Write(resetPin, PinValue.High);
	Thread.Sleep(100);

	_registerManager = new RegisterManager(spiDevice, RegisterAddressReadMask, RegisterAddressWriteMask);

	// Once the pins setup check that SX127X chip is present
	Byte regVersionValue = _registerManager.ReadByte((byte)Configuration.Registers.RegVersion);
	if (regVersionValue != Configuration.RegVersionValueExpected)
	{
		throw new ApplicationException("Semtech SX127X not found");
	}

	// Interrupt pin for RX message & TX done notification 
	_gpioController.OpenPin(interruptPin, PinMode.InputPullDown);

	_gpioController.RegisterCallbackForPinValueChangedEvent(interruptPin, PinEventTypes.Rising, InterruptGpioPin_ValueChanged);
}

I could single step through the code and inspect variables with the debugger and it looks like a timing issue with order of the strobing of the reset pin and the initialisation of the RegisterManager. I’ll spend and hour starting and stopping the application, then smoke test the code for 24 hours with a couple of other devices generating traffic just to check.

.NET nanoFramework SX127X LoRa library playing nice with others

So nanoFramework applications using my SX127X library.NetNF can access other General Purpose Input Output(GPIO) ports and Serial Peripheral Interface(SPI) devices I have added SpiDevice and GpioController parameters to the two constructors.

// Hardware configuration support
private readonly int ResetPin;
private readonly GpioController _gpioController = null;
private readonly SpiDevice _sx127xTransceiver = null;
private readonly Object SX127XRegFifoLock = new object();
private double Frequency = FrequencyDefault;
private bool RxDoneIgnoreIfCrcMissing = true;
private bool RxDoneIgnoreIfCrcInvalid = true;

public SX127XDevice(SpiDevice spiDevice, GpioController gpioController, int interruptPin, int resetPin)
{
	_sx127xTransceiver = spiDevice;

	_gpioController = gpioController;

	// As soon as ChipSelectLine/ChipSelectLogicalPinNumber check that SX127X chip is present
	Byte regVersionValue = this.ReadByte((byte)Registers.RegVersion);
	if (regVersionValue != RegVersionValueExpected)
	{
		throw new ApplicationException("Semtech SX127X not found");
	}

	// Factory reset pin configuration
	ResetPin = resetPin;
	_gpioController.OpenPin(resetPin, PinMode.Output);

	_gpioController.Write(resetPin, PinValue.Low);
	Thread.Sleep(20);
	_gpioController.Write(resetPin, PinValue.High);
	Thread.Sleep(20);

	// Interrupt pin for RX message & TX done notification 
	_gpioController.OpenPin(interruptPin, PinMode.InputPullDown);

	_gpioController.RegisterCallbackForPinValueChangedEvent(interruptPin, PinEventTypes.Rising, InterruptGpioPin_ValueChanged);
}

public SX127XDevice(SpiDevice spiDevice, GpioController gpioController, int interruptPin)
{
	_sx127xTransceiver = spiDevice;

	_gpioController = gpioController;

	// As soon as ChipSelectLine/ChipSelectLogicalPinNumber check that SX127X chip is present
	Byte regVersionValue = this.ReadByte((byte)Registers.RegVersion);
	if (regVersionValue != RegVersionValueExpected)
	{
		throw new ApplicationException("Semtech SX127X not found");
	}

	// Interrupt pin for RX message & TX done notification 
	_gpioController.OpenPin(interruptPin, PinMode.InputPullDown);

	_gpioController.RegisterCallbackForPinValueChangedEvent(interruptPin, PinEventTypes.Rising, InterruptGpioPin_ValueChanged);
}

I then “over refactored”(broke) the constructor without the resetPin by removing the GpioController parameter which is necessary for the RegisterCallbackForPinValueChangedEvent.

nanoFramework Seeed LoRa-E5 LoRaWAN library Part1

Basic connectivity

Over the weekend I have been working on a nanoFramework C# library for my LoRa-E5 Development Kit from Seeedstudio. My initial test rig is based on an STM32F691DISCOVERY board which has an Arduino Uno R3 format socket for a Grove Base Shield V2.0, which I then connected to my LoRa-E5 Development Kit with a Grove – Universal 4 Pin 20cm Unbuckled Cable(TX/RX reversed)

STM32F769I test rig with Seeedstudio Grove Base shield V2 and LoRa-E5 Development Kit

The code has compile time options for synchronous and asynchronous operation.

public class Program
{
   private const string SerialPortId = "COM6";

   public static void Main()
   {
      SerialDevice serialDevice;

      Debug.WriteLine("devMobile.IoT.SeeedLoRaE5.ShieldSerial starting");

      Debug.WriteLine(Windows.Devices.SerialCommunication.SerialDevice.GetDeviceSelector());

      try
      {
         serialDevice = SerialDevice.FromId(SerialPortId);

         // set parameters
         serialDevice.BaudRate = 9600;
         serialDevice.Parity = SerialParity.None;
         serialDevice.StopBits = SerialStopBitCount.One;
         serialDevice.Handshake = SerialHandshake.None;
         serialDevice.DataBits = 8;

         serialDevice.ReadTimeout = new TimeSpan(0, 0, 30);
         serialDevice.WriteTimeout = new TimeSpan(0, 0, 4);

         DataWriter outputDataWriter = new DataWriter(serialDevice.OutputStream);

#if SERIAL_SYNC_READ
         DataReader inputDataReader = new DataReader(serialDevice.InputStream);
#else
         serialDevice.DataReceived += SerialDevice_DataReceived;
#endif

         // set a watch char to be notified when it's available in the input stream
         // This doesn't appear to work with synchronous calls
         serialDevice.WatchChar = '\n';

         while (true)
         {
            uint bytesWritten = outputDataWriter.WriteString("AT+VER\r\n");
            Debug.WriteLine($"TX: {outputDataWriter.UnstoredBufferLength} bytes to output stream.");

            // calling the 'Store' method on the data writer actually sends the data
            uint txByteCount = outputDataWriter.Store();
            Debug.WriteLine($"TX: {txByteCount} bytes via {serialDevice.PortName}");

#if SERIAL_SYNC_READ
            uint bytesRead = inputDataReader.Load(50);

            Debug.WriteLine($"RXs :{bytesRead} bytes read from {serialDevice.PortName}");

            if (bytesRead > 0)
            {
               String response = inputDataReader.ReadString(bytesRead);
               Debug.WriteLine($"RX sync:{response}");
            }
#endif

            Thread.Sleep(20000);
         }
      }
      catch (Exception ex)
      {
         Debug.WriteLine(ex.Message);
      }
   }

   private static void SerialDevice_DataReceived(object sender, SerialDataReceivedEventArgs e)
   {
      switch (e.EventType)
      {
         case SerialData.Chars:
            //Debug.WriteLine("RX SerialData.Chars");
            break;

         case SerialData.WatchChar:
             Debug.WriteLine("RX: SerialData.WatchChar");
             SerialDevice serialDevice = (SerialDevice)sender;

            using (DataReader inputDataReader = new DataReader(serialDevice.InputStream))
            {
               inputDataReader.InputStreamOptions = InputStreamOptions.Partial;

               // read all available bytes from the Serial Device input stream
               uint bytesRead = inputDataReader.Load(serialDevice.BytesToRead);

               Debug.WriteLine($"RXa: {bytesRead} bytes read from {serialDevice.PortName}");

               if (bytesRead > 0)
               {
                  String response = inputDataReader.ReadString(bytesRead);
                  Debug.WriteLine($"RX:{response}");
               }
            }
            break;
         default:
            Debug.Assert(false, $"e.EventType {e.EventType} unknown");
            break;
      }
   }
}

I have reused a significant amount of code built for my nanoFramework RAK811 LoRaWAN library Part1 post.

The thread '<No Name>' (0x2) has exited with code 0 (0x0).
devMobile.IoT.SeeedLoRaE5.ShieldSerial starting
Ports available: COM5,COM6
TX: 8 bytes to output stream.
TX: 8 bytes via COM6
TX: 8 bytes to output stream.
TX: 8 bytes via COM6
RX: SerialData.WatchChar
RXa: 28 bytes read from COM6
RX:+VER: 4.0.11
+VER: 4.0.11

TX: 8 bytes to output stream.
TX: 8 bytes via COM6
RX: SerialData.WatchChar
RXa: 14 bytes read from COM6
RX:+VER: 4.0.11

TX: 8 bytes to output stream.
TX: 8 bytes via COM6
RX: SerialData.WatchChar
RXa: 14 bytes read from COM6
RX:+VER: 4.0.11

TX: 8 bytes to output stream.
TX: 8 bytes via COM6
RX: SerialData.WatchChar
RXa: 14 bytes read from COM6
RX:+VER: 4.0.11

The test rig confirmed that I had the right configuration for the hardware (TX-RX twist) and LoRa-E5 connection (serial port, baud rate, parity etc.)

TinyCLR OS V2 RC1 RAK811 LoRaWAN library Part2

Nasty OTAA connect

After getting basic connectivity for my RAK811 LPWAN Evaluation Board(EVB) and Fezduino test rig working. I wanted to see if I could get the device connected to The Things Network(TTN) via the RAK7246G LPWAN Developer Gateway on my desk. I had got the EVB configuration sorted with a nanoFramework device so I was confident it should work.

EVB plugged into Fezduino

My Over the Air Activation (OTAA) implementation is very “nasty” I assumed that there would be no timeouts or failures and I only send one BCD message “48656c6c6f204c6f526157414e” which is “hello LoRaWAN”

I configured the RAK811 module for LoRaWAN

// Set the Working mode to LoRaWAN
txByteCount = serialDevice.Write(UTF8Encoding.UTF8.GetBytes("at+set_config=lora:work_mode:0\r\n"));
Debug.WriteLine($"TX: work mode {txByteCount} bytes");
Thread.Sleep(500);

// Read the response
rxByteCount = serialDevice.BytesToRead;
if (rxByteCount > 0)
{
   byte[] rxBuffer = new byte[rxByteCount];
   serialDevice.Read(rxBuffer);
   Debug.WriteLine($"RX :{UTF8Encoding.UTF8.GetString(rxBuffer)}");
}
...

Then just sequentially step through the necessary configuration to join the TTN network with a suitable delay after each command is sent.

// Set the Region to AS923
txByteCount = serialDevice.Write(UTF8Encoding.UTF8.GetBytes("at+set_config=lora:region:AS923\r\n"));
Debug.WriteLine($"TX: region {txByteCount} bytes");
Thread.Sleep(500);

// Read the response
rxByteCount = serialDevice.BytesToRead;
if (rxByteCount > 0)
{
   byte[] rxBuffer = new byte[rxByteCount];
   serialDevice.Read(rxBuffer);
   Debug.WriteLine($"RX :{UTF8Encoding.UTF8.GetString(rxBuffer)}");
}

// Set the JoinMode
txByteCount = serialDevice.Write(UTF8Encoding.UTF8.GetBytes("at+set_config=lora:join_mode:0\r\n"));
Debug.WriteLine($"TX: join_mode {txByteCount} bytes");
Thread.Sleep(500);

// Read the response
rxByteCount = serialDevice.BytesToRead;
if (rxByteCount > 0)
{
   byte[] rxBuffer = new byte[rxByteCount];
   serialDevice.Read(rxBuffer);
   Debug.WriteLine($"RX :{UTF8Encoding.UTF8.GetString(rxBuffer)}");
}

// OTAA set the devEUI
txByteCount = serialDevice.Write(UTF8Encoding.UTF8.GetBytes($"at+set_config=lora:dev_eui:{DevEui}\r\n"));
Debug.WriteLine($"TX: dev_eui: {txByteCount} bytes");
Thread.Sleep(500);

// Read the response
rxByteCount = serialDevice.BytesToRead;
if (rxByteCount > 0)
{
   byte[] rxBuffer = new byte[rxByteCount];
   serialDevice.Read(rxBuffer);
   Debug.WriteLine($"RX :{UTF8Encoding.UTF8.GetString(rxBuffer)}");
}
...

The code is not suitable for production but it confirmed my software and hardware configuration worked.

The thread '<No Name>' (0x2) has exited with code 0 (0x0).
devMobile.IoT.Rak811.NetworkJoinOTAA starting
TX: work mode 32 bytes
RX :UART1 work mode: RUI_UART_NORAMAL
Current work_mode:LoRaWAN, join_mode:OTAA, Class: A
Initialization OK 

TX: region 33 bytes
RX :OK 

TX: join_mode 32 bytes
RX :OK 

TX: dev_eui: 45 bytes
RX :OK 

TX: app_eui 45 bytes
RX :OK 

TX: app_key 61 bytes
RX :OK 

TX: confirm 30 bytes
RX :OK 

TX: join 9 bytes
RX :OK Join Success

TX: send 43 bytes
RX :OK 

TX: send 43 bytes
RX :OK 

In the Visual Studio 2019 debug output I could see messages getting sent and then after a short delay they were visible in the TTN console.

Successful OTAA Connect TTN logging

I had some issues with TimeSpan.ToString(…) throwing a CLR_E_UNSUPPORTED_INSTRUCTION exception which has been mentioned on the GHI Forums.

I had to modify my code to fix this issue

Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Join start Timeout:{JoinTimeOut:hh:mm:ss}");

// Became

Debug.WriteLine($" {DateTime.UtcNow:hh:mm:ss} Join Start Timeout {timeout.TotalSeconds} seconds");

I won’t bother with confirming any other functionality as I’m reasonably confident the nanoFramework library (which this code is based on) is working as expected.

RAK811LoRaWAN.NetNF on Github

The source code of my nanoFramework RAK811 Module library is now available on GitHub. My test harness (I plan to add more nanoFramework supported devices) uses an STM32F769 Discovery and a modified RAK811 LPWAN Evaluation Board(EVB).

STM32F691Discovery with EVB plugged into Arduino headers

A sample application which shows how to connect using Over the Air Activation(OTAA) or Activation By Personalisation(ABP) then send and receive byte array/Binary Coded Decimal(BCD) messages .

//---------------------------------------------------------------------------------
// Copyright (c) June 2020, devMobile Software
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
//---------------------------------------------------------------------------------
#define ST_STM32F769I_DISCOVERY      // nanoff --target ST_STM32F769I_DISCOVERY --update 
#define PAYLOAD_BCD
//#define PAYLOAD_BYTES
#define OTAA
//#define ABP
#define CONFIRMED
namespace devMobile.IoT.Rak811LoRaWanDeviceClient
{
   using System;
   using System.Threading;
   using System.Diagnostics;
   using Windows.Devices.SerialCommunication;

   using devMobile.IoT.LoRaWan;

   public class Program
   {
#if ST_STM32F769I_DISCOVERY
      private const string SerialPortId = "COM6";
#endif
#if OTAA
      private const string DevEui = "...";
      private const string AppEui = "...";
      private const string AppKey = "...";
#endif
#if ABP
      private const string DevAddress = "...";
      private const string NwksKey = "...";
      private const string AppsKey = "...";
#endif
      private const string Region = "AS923";
      private static readonly TimeSpan JoinTimeOut = new TimeSpan(0, 0, 10);
      private static readonly TimeSpan SendTimeout = new TimeSpan(0, 0, 10);
      private const byte MessagePort = 1;
#if PAYLOAD_BCD
      private const string PayloadBcd = "48656c6c6f204c6f526157414e"; // Hello LoRaWAN in BCD
#endif
#if PAYLOAD_BYTES
      private static readonly byte[] PayloadBytes = { 0x48, 0x65, 0x6c, 0x6c, 0x6f, 0x20, 0x4c, 0x6f, 0x52, 0x61, 0x57, 0x41, 0x4e}; // Hello LoRaWAN in bytes
#endif

      public static void Main()
      {
         Result result;

         Debug.WriteLine("devMobile.IoT.Rak811LoRaWanDeviceClient starting");

         Debug.WriteLine($"Ports :{Windows.Devices.SerialCommunication.SerialDevice.GetDeviceSelector()}");

         try
         {
            using ( Rak811LoRaWanDevice device = new Rak811LoRaWanDevice())
            {
               result = device.Initialise(SerialPortId, 9600, SerialParity.None, 8, SerialStopBitCount.One);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"Initialise failed {result}");
                  return;
               }

#if CONFIRMED
               device.OnMessageConfirmation += OnMessageConfirmationHandler;
#endif
               device.OnReceiveMessage += OnReceiveMessageHandler;

               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Region {Region}");
               result = device.Region(Region);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"Region failed {result}");
                  return;
               }

               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} ADR On");
               result = device.AdrOn();
               if (result != Result.Success)
               {
                  Debug.WriteLine($"ADR on failed {result}");
                  return;
               }

#if CONFIRMED
               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Confirmed");
               result = device.Confirm(LoRaConfirmType.Confirmed);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"Confirm on failed {result}");
                  return;
               }
#else
               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Unconfirmed");
               result = device.Confirm(LoRaConfirmType.Unconfirmed);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"Confirm off failed {result}");
                  return;
               }
#endif

#if OTAA
               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} OTAA");
               result = device.OtaaInitialise(DevEui, AppEui, AppKey);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"OTAA Initialise failed {result}");
                  return;
               }
#endif

#if ABP
               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} ABP");
               result = device.AbpInitialise(DevAddress, NwksKey, AppsKey);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"ABP Initialise failed {result}");
                  return;
               }
#endif

               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Join start Timeout:{JoinTimeOut:hh:mm:ss}");
               result = device.Join(JoinTimeOut);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"Join failed {result}");
                  return;
               }
               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Join finish");

               while (true)
               {
#if PAYLOAD_BCD
                  Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Send Timeout:{SendTimeout:hh:mm:ss} port:{MessagePort} payload BCD:{PayloadBcd}");
                  result = device.Send(MessagePort, PayloadBcd, SendTimeout);
#endif
#if PAYLOAD_BYTES
                  Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Send Timeout:{SendTimeout:hh:mm:ss} port:{MessagePort} payload Bytes:{BitConverter.ToString(PayloadBytes)}");
                  result = device.Send(MessagePort, PayloadBytes, SendTimeout);
#endif
                  if (result != Result.Success)
                  {
                     Debug.WriteLine($"Send failed {result}");
                  }

                  // if we sleep module too soon response is missed
                  Thread.Sleep(new TimeSpan( 0,0,5));

                  Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Sleep");
                  result = device.Sleep();
                  if (result != Result.Success)
                  {
                     Debug.WriteLine($"Sleep failed {result}");
                     return;
                  }

                  Thread.Sleep(new TimeSpan(0, 5, 0));

                  Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Wakeup");
                  result = device.Wakeup();
                  if (result != Result.Success)
                  {
                     Debug.WriteLine($"Wakeup failed {result}");
                     return;
                  }
               }
            }
         }
         catch (Exception ex)
         {
            Debug.WriteLine(ex.Message);
         }
      }

      static void OnMessageConfirmationHandler(int rssi, int snr)
      {
         Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Send Confirm RSSI:{rssi} SNR:{snr}");
      }

      static void OnReceiveMessageHandler(int port, int rssi, int snr, string payloadBcd)
      {
         byte[] payloadBytes = Rak811LoRaWanDevice.BcdToByes(payloadBcd);

         Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Receive Message RSSI:{rssi} SNR:{snr} Port:{port} Payload:{payloadBcd} PayLoadBytes:{BitConverter.ToString(payloadBytes)}");
      }
   }
}

I have LoRaWAN shields from GobalSat and EmOne on order.

The library works but should be treated as late beta.

nanoFramework RAK811 LoRaWAN library Part7

Now with added callbacks

After building a nanoFramework library “inspired” by the RakWireless Arduino library(which has some issues) I figured it would be good to refactor the library to be more asynchronous with event handlers for send confirmation (if configured) and received messages.

If the RAK811 module is initialised, and connects to the network successfully, the application sends “48656c6c6f204c6f526157414e” (“hello LoRaWAN”) every 5 minutes.

STM32F691Discovery with EVB plugged into Arduino headers

The code application code now has a lot more compile time options for network configuration and payload format.

//---------------------------------------------------------------------------------
// Copyright (c) June 2020, devMobile Software
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
//---------------------------------------------------------------------------------
#define ST_STM32F769I_DISCOVERY      // nanoff --target ST_STM32F769I_DISCOVERY --update 
#define PAYLOAD_BCD
//#define PAYLOAD_BYTES
#define OTAA
//#define ABP
#define CONFIRMED
namespace devMobile.IoT.Rak811LoRaWanDeviceClient
{
   using System;
   using System.Threading;
   using System.Diagnostics;
   using Windows.Devices.SerialCommunication;

   using devMobile.IoT.LoRaWan;

   public class Program
   {
#if ST_STM32F769I_DISCOVERY
      private const string SerialPortId = "COM6";
#endif
#if OTAA
      private const string DevEui = "...";
      private const string AppEui = "...";
      private const string AppKey = "...";
#endif
#if ABP
      private const string DevAddress = "...";
      private const string NwksKey = "...";
      private const string AppsKey = "...";
#endif
      private const string Region = "AS923";
      private static readonly TimeSpan JoinTimeOut = new TimeSpan(0, 0, 10);
      private static readonly TimeSpan SendTimeout = new TimeSpan(0, 0, 10);
      private const byte MessagePort = 1;
#if PAYLOAD_BCD
      private const string PayloadBcd = "48656c6c6f204c6f526157414e"; // Hello LoRaWAN in BCD
#endif
#if PAYLOAD_BYTES
      private static readonly byte[] PayloadBytes = { 0x48, 0x65, 0x6c, 0x6c, 0x6f, 0x20, 0x4c, 0x6f, 0x52, 0x61, 0x57, 0x41, 0x4e}; // Hello LoRaWAN in bytes
#endif

      public static void Main()
      {
         Result result;

         Debug.WriteLine("devMobile.IoT.Rak811LoRaWanDeviceClient starting");

         Debug.WriteLine($"Ports :{Windows.Devices.SerialCommunication.SerialDevice.GetDeviceSelector()}");

         try
         {
            using ( Rak811LoRaWanDevice device = new Rak811LoRaWanDevice())
            {
               result = device.Initialise(SerialPortId, 9600, SerialParity.None, 8, SerialStopBitCount.One);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"Initialise failed {result}");
                  return;
               }

#if CONFIRMED
               device.OnMessageConfirmation += OnMessageConfirmationHandler;
#endif
               device.OnReceiveMessage += OnReceiveMessageHandler;

               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Region {Region}");
               result = device.Region(Region);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"Region failed {result}");
                  return;
               }

               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} ADR On");
               result = device.AdrOn();
               if (result != Result.Success)
               {
                  Debug.WriteLine($"ADR on failed {result}");
                  return;
               }

#if CONFIRMED
               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Confirmed");
               result = device.Confirm(LoRaConfirmType.Confirmed);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"Confirm on failed {result}");
                  return;
               }
#else
               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Unconfirmed");
               result = device.Confirm(LoRaConfirmType.Unconfirmed);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"Confirm off failed {result}");
                  return;
               }
#endif

#if OTAA
               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} OTAA");
               result = device.OtaaInitialise(DevEui, AppEui, AppKey);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"OTAA Initialise failed {result}");
                  return;
               }
#endif

#if ABP
               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} ABP");
               result = device.AbpInitialise(DevAddress, NwksKey, AppsKey);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"ABP Initialise failed {result}");
                  return;
               }
#endif

               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Join start Timeout:{JoinTimeOut:hh:mm:ss}");
               result = device.Join(JoinTimeOut);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"Join failed {result}");
                  return;
               }
               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Join finish");

               while (true)
               {
#if PAYLOAD_BCD
                  Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Send Timeout:{SendTimeout:hh:mm:ss} port:{MessagePort} payload BCD:{PayloadBcd}");
                  result = device.Send(MessagePort, PayloadBcd, SendTimeout);
#endif
#if PAYLOAD_BYTES
                  Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Send Timeout:{SendTimeout:hh:mm:ss} port:{MessagePort} payload Bytes:{BitConverter.ToString(PayloadBytes)}");
                  result = device.Send(MessagePort, PayloadBytes, SendTimeout);
#endif
                  if (result != Result.Success)
                  {
                     Debug.WriteLine($"Send failed {result}");
                  }

                  // if we sleep module too soon response is missed
                  Thread.Sleep(new TimeSpan( 0,0,5));

                  Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Sleep");
                  result = device.Sleep();
                  if (result != Result.Success)
                  {
                     Debug.WriteLine($"Sleep failed {result}");
                     return;
                  }

                  Thread.Sleep(new TimeSpan(0, 5, 0));

                  Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Wakeup");
                  result = device.Wakeup();
                  if (result != Result.Success)
                  {
                     Debug.WriteLine($"Wakeup failed {result}");
                     return;
                  }
               }
            }
         }
         catch (Exception ex)
         {
            Debug.WriteLine(ex.Message);
         }
      }

      static void OnMessageConfirmationHandler(int rssi, int snr)
      {
         Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Send Confirm RSSI:{rssi} SNR:{snr}");
      }

      static void OnReceiveMessageHandler(int port, int rssi, int snr, string payloadBcd)
      {
         byte[] payloadBytes = Rak811LoRaWanDevice.BcdToByes(payloadBcd);

         Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Receive Message RSSI:{rssi} SNR:{snr} Port:{port} Payload:{payloadBcd} PayLoadBytes:{BitConverter.ToString(payloadBytes)}");
      }
   }
}

The debugging output with the Rak811LoRaWanDevice class diagnostics off

The thread '<No Name>' (0x2) has exited with code 0 (0x0).
devMobile.IoT.Rak811LoRaWanDeviceClient starting
Ports :COM5,COM6
12:00:51 Region AS923
12:00:51 ADR On
12:00:51 Confirmed
12:00:52 OTAA
12:00:52 Join start Timeout:00:00:10
12:00:59 Join finish
12:00:59 Send Timeout:00:00:10 port:1 payload BCD:48656c6c6f204c6f526157414e
12:01:02 Send Confirm RSSI:-79 SNR:9
12:01:07 Sleep
12:06:07 Wakeup
12:06:07 Send Timeout:00:00:10 port:1 payload BCD:48656c6c6f204c6f526157414e
12:06:08 Send Confirm RSSI:-65 SNR:8
12:06:13 Sleep
12:11:13 Wakeup
12:11:13 Send Timeout:00:00:10 port:1 payload BCD:48656c6c6f204c6f526157414e
12:11:15 Send Confirm RSSI:-60 SNR:7
12:11:15 Receive Message RSSI:-60 SNR:7 Port:5 Payload:48656c6c6f PayLoadBytes:48-65-6C-6C-6F
12:11:20 Sleep
TTN OTAA Connection + RX&TX

Some commands are quite quick to respond e.g. setting the Region, Sleep, and Wakeup. Others, take quite a while e.g. Join, Send, WorkMode so they have separate timeout configurations.

The code is approaching beta and I’ll be testing and fixing bugs for the next couple of days.

nanoFramework RAK811 LoRaWAN library Part6

Inspired by the Arduino Library

After successful proof of concept projects I have build a nanoFramwork library “inspired” by the RakWireless Arduino library.

The initial version only supports my RAK811 LPWAN Evaluation Board(EVB) and STM32F691DISCOVERY based test rig It handles failures, displays error codes/messages, but doesn’t handle all timeouts.

If the RAK811 module is initialised, then connects to the network successfully, the application sends “48656c6c6f204c6f526157414e” (“hello LoRaWAN”) every 20 seconds.

STM32F691Discovery with EVB plugged into Arduino headers

The code application code is now a lot smaller & simpler

   public class Program
   {
#if ST_STM32F769I_DISCOVERY
      private const string SerialPortId = "COM6";
#endif
#if OTAA
      private const string DevEui = "...";
      private const string AppEui = "...";
      private const string AppKey = "...";
#endif
#if ABP
      private const string devAddress = "...";
      private const string nwksKey = "...";
      private const string appsKey = "...";
#endif
      private const byte MessagePort = 1;
      private const string Payload = "48656c6c6f204c6f526157414e"; // Hello LoRaWAN

      public static void Main()
      {
         Result result;

         Debug.WriteLine(" devMobile.IoT.Rak811LoRaWanDeviceClient starting");

         Debug.WriteLine(Windows.Devices.SerialCommunication.SerialDevice.GetDeviceSelector());

         try
         {
            using ( Rak811LoRaWanDevice device = new Rak811LoRaWanDevice())
            {
               result = device.Initialise(SerialPortId, SerialParity.None, 8, SerialStopBitCount.One);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"Initialise failed {result}");
                  return;
               }

               result = device.Region("AS923");
               if (result != Result.Success)
               {
                  Debug.WriteLine($"Region failed {result}");
                  return;
               }

#if OTAA
               result = device.OtaaInitialise(DevEui, AppEui, AppKey);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"OTAA Initialise failed {result}");
                  return;
               }
#endif

#if ABP
               result = device.AbpInitialise(devAddress, nwksKey, appsKey);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"ABP Initialise failed {result}");
                  return;
               }
#endif

               result = device.Join(new TimeSpan(0,0,10));
               if (result != Result.Success)
               {
                  Debug.WriteLine($"Join failed {result}");
                  return;
               }

               while (true)
               {
                  result = device.Send(MessagePort, Payload);
                  if (result != Result.Success)
                  {
                     Debug.WriteLine($"Send failed {result}");
                  }

                  result = device.Sleep();
                  if (result != Result.Success)
                  {
                     Debug.WriteLine($"Sleep failed {result}");
                     return;
                  }

                  Thread.Sleep(20000);

                  result = device.Wakeup();
                  if (result != Result.Success)
                  {
                     Debug.WriteLine($"Wakeup failed {result}");
                     return;
                  }
               }
            }
         }
         catch (Exception ex)
         {
            Debug.WriteLine(ex.Message);
         }
      }
   }

I compared the debugging output with confirmations off

The thread '<No Name>' (0x2) has exited with code 0 (0x0).
 devMobile.IoT.Rak811LoRaWanDeviceClient starting
COM5,COM6
01:11:13 lora:work_mode
TX: send 32 bytes 32 via COM6
RX 01:11:14:UART1 work mode: RUI_UART_NORAMAL
Current work_mode:LoRaWAN, join_mode:OTAA, Class: A
Initialization OK 

01:11:15 lora:region
TX: send 33 bytes 33 via COM6
RX 01:11:16:OK 

01:11:16 lora:join_mode
TX: send 32 bytes 32 via COM6
RX 01:11:17:OK 

01:11:18 lora:dev_eui
TX: send 45 bytes 45 via COM6
RX 01:11:19:OK 

01:11:19 lora:app_eui
TX: send 45 bytes 45 via COM6
RX 01:11:20:OK 

01:11:21 lora:app_key
TX: send 61 bytes 61 via COM6
RX 01:11:22:OK 

01:11:22 join
TX: send 9 bytes 9 via COM6
RX 01:11:29:OK Join Success

TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
RX :OK 

TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
RX :OK 
at+recv=1,-54,9,5:48656c6c6f

TX: send 43 bytes to output stream.
TX: 43 bytes via COM6

TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
RX :OK 
at+recv=2,-51,7,5:48656c6c6f

TX: send 43 bytes to output stream.
TX: 43 bytes via COM6

Then with confirmations on (note the at+recv=0,-59,7,0) and received messages (at+recv=23,-53,8,5:48656c6c6f)

devMobile.IoT.Rak811LoRaWanDeviceClient starting
COM5,COM6
01:20:54 lora:work_mode
TX: send 32 bytes 32 via COM6
RX 01:20:56:UART1 work mode: RUI_UART_NORAMAL
Current work_mode:LoRaWAN, join_mode:OTAA, Class: A
Initialization OK 

01:20:56 lora:region
TX: send 33 bytes 33 via COM6
RX 01:20:57:OK 

01:20:58 lora:join_mode
TX: send 32 bytes 32 via COM6
RX 01:20:59:OK 

01:20:59 lora:dev_eui
TX: send 45 bytes 45 via COM6
RX 01:21:00:OK 

01:21:01 lora:app_eui
TX: send 45 bytes 45 via COM6
RX 01:21:02:OK 

01:21:02 lora:app_key
TX: send 61 bytes 61 via COM6
RX 01:21:03:OK 

01:21:04 join
TX: send 9 bytes 9 via COM6
RX 01:21:11:OK Join Success

01:21:11 lora:confirm
TX: send 30 bytes 30 via COM6
RX 01:21:12:OK 

TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
RX :OK 
at+recv=23,-53,8,5:48656c6c6f

TX: send 43 bytes to output stream.
TX: 43 bytes via COM6

TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
RX :OK 
at+recv=0,-59,7,0

In the Visual Studio 2019 debug output I could see the responses to the AT Commands and especially the lack of handling of downlink messages and confirmations from the network.

The next step is to implement timeouts for when operations fail or the module doesn’t respond. Then extend the code to support the receiving of messages as a class A device (missing for the RAK arduino library). I wonder how this will work for when the module is configured as a class C device which can receive messages at any time.

Some commands are quite quick to respond e.g. setting the Region, Sleep, and Wakeup so are most probably ok running synchronously. Other commands can take quite a while e.g. Join, Send, WorkMode so maybe these need to be asynchronous (along with the receiving of confirmations and messages ).

The code is not suitable for production but it confirmed my new approach worked.

nanoFramework RAK811 LoRaWAN library Part5

Nasty ABP connect

After a successful Over The Air Activation(OTAA) with my RAK811 LPWAN Evaluation Board(EVB) and STM32F691DISCOVERY based test rig. I figured for completeness an Activation by Personalization (ABP) would be a good.

My ABP implementation is based on my OTAA one so is pretty “nasty”. Again, I assumed that there would be no timeouts or failures and I only send one message BCD “48656c6c6f204c6f526157414e” (“hello LoRaWAN”) every 20 seconds.

STM32F691Discovery with EVB plugged into Arduino headers

I created a new ABP device

Things Network ABP configuration

Then I configured the RAK811 module for LoRaWAN

// Set the Working mode to LoRaWAN
bytesWritten = outputDataWriter.WriteString("at+set_config=lora:work_mode:0rn");
Debug.WriteLine($"TX: work_mode {outputDataWriter.UnstoredBufferLength} bytes to output stream.");
txByteCount = outputDataWriter.Store();
Debug.WriteLine($"TX: {txByteCount} bytes via {serialDevice.PortName}");

// Read the response
bytesRead = inputDataReader.Load(128);
if (bytesRead > 0)
{
   string response = inputDataReader.ReadString(bytesRead);
   Debug.WriteLine($"RX sync:{response}");
}

Then sequentially stepped through the necessary configuration to join the The Things Network(TTN) network

// Set the JoinMode to ABP
bytesWritten = outputDataWriter.WriteString($"at+set_config=lora:join_mode:1\r\n");
Debug.WriteLine($"TX: join_mode {outputDataWriter.UnstoredBufferLength} bytes to output stream.");
txByteCount = outputDataWriter.Store();
Debug.WriteLine($"TX: {txByteCount} bytes via {serialDevice.PortName}");

// Read the response
bytesRead = inputDataReader.Load(128);
if (bytesRead > 0)
{
   String response = inputDataReader.ReadString(bytesRead);
   Debug.WriteLine($"RX :{response}");
}

// Set the device address
bytesWritten = outputDataWriter.WriteString($"at+set_config=lora:dev_addr:{devAddress}\r\n");
Debug.WriteLine($"TX: dev_addr {outputDataWriter.UnstoredBufferLength} bytes to output stream.");
txByteCount = outputDataWriter.Store();
Debug.WriteLine($"TX: {txByteCount} bytes via {serialDevice.PortName}");

// Read the response
bytesRead = inputDataReader.Load(128);
if (bytesRead > 0)
   {
   String response = inputDataReader.ReadString(bytesRead);
   Debug.WriteLine($"RX :{response}");
   }
...

After making a few fixes to my code and tweaking some settings I could see data in the TTN Console.

ABP Device data uplink

The code is not suitable for production but it confirmed my software and hardware configuration worked.

In the Visual Studio 2019 debug output I could see the AT Command responses from were getting truncated in odd ways so I need to be careful how they are processed.

The thread '<No Name>' (0x2) has exited with code 0 (0x0).
devMobile.IoT.Rak811.NetworkJoinABP starting
COM5,COM6
TX: work_mode 32 bytes to output stream.
TX: 32 bytes via COM6
RX :UART1 work mode: RUI_UART_NORAMAL
Current work_mode:LoRaWAN, join_mode:ABP, Class: A
Initialization OK 

TX: region 33 bytes to output stream.
TX: 33 bytes via COM6
RX :OK 

TX: join_mode 32 bytes to output stream.
TX: 32 bytes via COM6
RX :OK 

TX: dev_addr 38 bytes to output stream.
TX: 38 bytes via COM6
RX :OK 

TX: nwks_key 62 bytes to output stream.
TX: 62 bytes via COM6
RX :OK 

TX: apps_key 62 bytes to output stream.
TX: 62 bytes via COM6
RX :OK 

TX: confirm 30 bytes to output stream.
TX: 30 bytes via COM6
RX :OK 

TX: join 9 bytes to output stream.
TX: 9 bytes via COM6
TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
RX :OK Jo
TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
RX :in Su
TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
RX :ccess
TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
RX :
OK 
TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
RX :
OK 

The next step is to get rework the code to process responses to the AT commands in a smarter way and extract error codes when an operation fails.

nanoFramework RAK811 LoRaWAN library Part4

Nasty OTAA connect

After getting basic connectivity for my RAK811 LPWAN Evaluation Board(EVB) and STM32F691DISCOVERY test rig sorted. I wanted to see if I could get the device connected to The Things Network(TTN) via the RAK7246G LPWAN Developer Gateway which was on my desk. I had got the EVB configuration sorted with an Arduino Uno R3 device so I was confident it should work.

STM32F691Discovery with EVB plugged into Arduino headers

My Over the Air Activation(OTAA) implementation is pretty “nasty” I assumed that there would be no timeouts or failures and I only send one BCD message “48656c6c6f204c6f526157414e” which is “hello LoRaWAN”

I configured the RAK811 module for LoRaWAN

// Set the Working mode to LoRaWAN
bytesWritten = outputDataWriter.WriteString("at+set_config=lora:work_mode:0\r\n");
Debug.WriteLine($"TX: work_mode {outputDataWriter.UnstoredBufferLength} bytes to output stream.");
txByteCount = outputDataWriter.Store();
Debug.WriteLine($"TX: {txByteCount} bytes via {serialDevice.PortName}");

// Read the response
bytesRead = inputDataReader.Load(128);
if (bytesRead > 0)
{
   string response = inputDataReader.ReadString(bytesRead);
   Debug.WriteLine($"RX sync:{response}");
}

Then just sequentially stepped through the necessary configuration to join the TTN network

// Set the Region to AS923
bytesWritten = outputDataWriter.WriteString("at+set_config=lora:region:AS923\r\n");
Debug.WriteLine($"TX: region {outputDataWriter.UnstoredBufferLength} bytes to output stream.");
txByteCount = outputDataWriter.Store();
Debug.WriteLine($"TX: {txByteCount} bytes via {serialDevice.PortName}");

// Read the response
bytesRead = inputDataReader.Load(128);
if (bytesRead > 0)
{
   String response = inputDataReader.ReadString(bytesRead);
   Debug.WriteLine($"RX sync:{response}");
}

// Set the JoinMode
bytesWritten = outputDataWriter.WriteString($"at+set_config=lora:join_mode:0\r\n");
Debug.WriteLine($"TX: join_mode {outputDataWriter.UnstoredBufferLength} bytes to output stream.");
txByteCount = outputDataWriter.Store();
Debug.WriteLine($"TX: {txByteCount} bytes via {serialDevice.PortName}");

// Read the response
bytesRead = inputDataReader.Load(128);
if (bytesRead > 0)
{
   String response = inputDataReader.ReadString(bytesRead);
   Debug.WriteLine($"RX sync:{response}");
}

// OTAA set the devEUI
bytesWritten = outputDataWriter.WriteString($"at+set_config=lora:dev_eui:{devEui}\r\n");
Debug.WriteLine($"TX: dev_eui {outputDataWriter.UnstoredBufferLength} bytes to output stream.");
txByteCount = outputDataWriter.Store();
Debug.WriteLine($"TX: {txByteCount} bytes via {serialDevice.PortName}");

// Read the response
bytesRead = inputDataReader.Load(128);
if (bytesRead > 0)
{
   String response = inputDataReader.ReadString(bytesRead);
   Debug.WriteLine($"RX sync:{response}");
}
...

The code is not suitable for production but it confirmed my software and hardware configuration worked.

The thread '<No Name>' (0x2) has exited with code 0 (0x0).
devMobile.IoT.Rak811.NetworkJoinOTAA starting
COM5,COM6
TX: work_mode 32 bytes to output stream.
TX: 32 bytes via COM6
RX sync:UART1 work mode: RUI_UART_NORAMAL
Current work_mode:LoRaWAN, join_mode:OTAA, Class: A
Initialization OK 

TX: region 33 bytes to output stream.
TX: 33 bytes via COM6
RX sync:OK 

TX: join_mode 32 bytes to output stream.
TX: 32 bytes via COM6
RX sync:OK 

TX: dev_eui 45 bytes to output stream.
TX: 45 bytes via COM6
RX sync:OK 

TX: app_eui 45 bytes to output stream.
TX: 45 bytes via COM6
RX sync:OK 

TX: app_key 61 bytes to output stream.
TX: 61 bytes via COM6
RX sync:OK 

TX: confirm 30 bytes to output stream.
TX: 30 bytes via COM6
RX sync:OK 

TX: join 9 bytes to output stream.
TX: 9 bytes via COM6
RX sync:
RX sync:
RX sync:
RX sync:
RX sync:OK Join Success

TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
TX: send 43 bytes to output stream.
TX: 43 bytes via COM6
RX sync:OK 
at+recv=0,-59,9,0

In the Visual Studio 2019 debug out put I could see messages getting sent and then after a short delay they were visible in the TTN console.

I then modified the confirmed flag and in the TTN console I could see how they were processed differently.

Confirmed messages
Unconfirmed messages

I could receive messages but as the RAK 811 module can be configured to be a Class C device there didn’t appear to be a way to receive a message without sending one which seemed a bit odd.

The next step is to get Authentication By Personalisation(ABP) working.