.NET Core RAK811 LoRaWAN library Part3

The massive refactor

After refactoring my RAK3172 device library I have applied a similar approach to code on my RAK811 device library. My test-rig is a RaspberryPI 3B with a PI Supply RAK811 pHat and external antenna.

PI Supply RAK811 LoRaWAN pHat

In the new code a Thread reads lines of text from the SerialPort and processes them, checking for command responses, failures and downlink messages.

Unlike most of the devices I have worked with the RAK811 Join and Send commands are synchronous so return once the process has completed. The RAK811 responses also have quite a few empty, null prefixed or null suffixed lines which is a bit odd.

public void SerialPortProcessor()
{
	string line;

	while (CommandProcessResponses)
	{
		try
		{
#if DIAGNOSTICS
			Debug.WriteLine($" {DateTime.UtcNow:hh:mm:ss} ReadLine before");
#endif
			line = SerialDevice.ReadLine().Trim('\0').Trim();
#if DIAGNOSTICS
			Debug.WriteLine($" {DateTime.UtcNow:hh:mm:ss} ReadLine after:{line}");
#endif
			// consume empty lines
			if (String.IsNullOrWhiteSpace(line))
			{
				continue;
			}

			// Consume the response from set work mode
			if (line.StartsWith("?LoRa (R)") || line.StartsWith("RAK811 ") || line.StartsWith("UART1 ") || line.StartsWith("UART3 ") || line.StartsWith("LoRa work mode"))
			{
				continue;
			}

			// See if device successfully joined network
			if (line.StartsWith("OK Join Success"))
			{
				OnJoinCompletion?.Invoke(true);

				CommandResponseExpectedEvent.Set();

				continue;
			}

			if (line.StartsWith("at+recv="))
			{
				string[] payloadFields = line.Split("=,:".ToCharArray());

				byte port = byte.Parse(payloadFields[1]);
				int rssi = int.Parse(payloadFields[2]);
				int snr = int.Parse(payloadFields[3]);
				int length = int.Parse(payloadFields[4]);

				if (this.OnMessageConfirmation != null)
				{
					OnMessageConfirmation?.Invoke(rssi, snr);
				}
				if (length > 0)
				{
					string payload = payloadFields[5];

					if (this.OnReceiveMessage != null)
					{
						OnReceiveMessage.Invoke(port, rssi, snr, payload);
					}
				}
				continue;
			}

			switch (line)
			{
				case "OK":
				case "Initialization OK":
				case "OK Wake Up":
				case "OK Sleep":
					CommandResult = Result.Success;
					break;

				case "ERROR: 1":
					CommandResult = Result.ATCommandUnsuported;
					break;
				case "ERROR: 2":
					CommandResult = Result.ATCommandInvalidParameter;
					break;
				case "ERROR: 3": //There is an error when reading or writing flash.
				case "ERROR: 4": //There is an error when reading or writing through IIC.
					CommandResult = Result.ErrorReadingOrWritingFlash;
					break;
				case "ERROR: 5": //There is an error when sending through UART
					CommandResult = Result.ATCommandInvalidParameter;
					break;
				case "ERROR: 41": //The BLE works in an invalid state, so that it can’t be operated.
					CommandResult = Result.ResponseInvalid;
					break;
				case "ERROR: 80":
					CommandResult = Result.LoRaBusy;
					break;
				case "ERROR: 81":
					CommandResult = Result.LoRaServiceIsUnknown;
					break;
				case "ERROR: 82":
					CommandResult = Result.LoRaParameterInvalid;
					break;
				case "ERROR: 83":
					CommandResult = Result.LoRaFrequencyInvalid;
					break;
				case "ERROR: 84":
					CommandResult = Result.LoRaDataRateInvalid;
					break;
				case "ERROR: 85":
					CommandResult = Result.LoRaFrequencyAndDataRateInvalid;
					break;
				case "ERROR: 86":
					CommandResult = Result.LoRaDeviceNotJoinedNetwork;
					break;
				case "ERROR: 87":
					CommandResult = Result.LoRaPacketToLong;
					break;
				case "ERROR: 88":
					CommandResult = Result.LoRaServiceIsClosedByServer;
					break;
				case "ERROR: 89":
					CommandResult = Result.LoRaRegionUnsupported;
					break;
				case "ERROR: 90":
					CommandResult = Result.LoRaDutyCycleRestricted;
					break;
				case "ERROR: 91":
					CommandResult = Result.LoRaNoValidChannelFound;
					break;
				case "ERROR: 92":
					CommandResult = Result.LoRaNoFreeChannelFound;
					break;
				case "ERROR: 93":
					CommandResult = Result.StatusIsError;
					break;
				case "ERROR: 94":
					CommandResult = Result.LoRaTransmitTimeout;
					break;
				case "ERROR: 95":
					CommandResult = Result.LoRaRX1Timeout;
					break;
				case "ERROR: 96":
					CommandResult = Result.LoRaRX2Timeout;
					break;
				case "ERROR: 97":
					CommandResult = Result.LoRaRX1ReceiveError;
					break;
				case "ERROR: 98":
					CommandResult = Result.LoRaRX2ReceiveError;
					break;
				case "ERROR: 99":
					CommandResult = Result.LoRaJoinFailed;
					break;
				case "ERROR: 100":
					CommandResult = Result.LoRaDownlinkRepeated;
					break;
				case "ERROR: 101":
					CommandResult = Result.LoRaPayloadSizeNotValidForDataRate;
					break;
				case "ERROR: 102":
					CommandResult = Result.LoRaTooManyDownlinkFramesLost;
					break;
				case "ERROR: 103":
					CommandResult = Result.LoRaAddressFail;
					break;
				case "ERROR: 104":
					CommandResult = Result.LoRaMicVerifyError;
					break;
				default:
					CommandResult = Result.ResponseInvalid;
					break;
			}
		}
		catch (TimeoutException)
		{
			// Intentionally ignored, not certain this is a good idea
		}

		CommandResponseExpectedEvent.Set();
	}
}

After a lot of testing I think my thread based approach works reliably. Initially, I was having some signal strength issues because I had forgotten to configure the external antenna. I need to add some validation to the metrics and payload field unpacking (though I’m not certain what todo if they are the wrong format).

.NET Core Seeed LoRaE5 LoRaWAN library Part2

Nasty OTAA connect

After getting basic connectivity for my Seeed LoRa-E5 test rig sorted I used RAK7246G LPWAN Developer Gateway on my bookcase to connect to The Things Network(TTN)

Seeed LoRa-E5 Development kit connected to Gove bas shield on a Raspberry PI3

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

The code just sequentially steps through the necessary configuration to join the TTN network with a suitable delay after each command is sent. There also appeared to be quite a variation in response times, especially for joining the network(most probably network related) and the progress of sending a message.

//---------------------------------------------------------------------------------
// Copyright (c) September 2021, 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.
//
//---------------------------------------------------------------------------------
namespace devMobile.IoT.NetCore.SeeedLoRaE5.NetworkJoinOTAA
{
	using System;
	using System.Diagnostics;
	using System.IO.Ports;
	using System.Threading;

	class Program
	{
		private const string SerialPortId = "/dev/ttyS0";

		private const string AppKey = "................................";
		private const string AppEui = "................";

		private const byte MessagePort = 15;

		//private const string Payload = "48656c6c6f204c6f526157414e"; // Hello LoRaWAN
		private const string Payload = "01020304"; // AQIDBA==
		//private const string Payload = "04030201"; // BAMCAQ==

		public static void Main()
		{
			string response;

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

			Debug.WriteLine(String.Join(",", SerialPort.GetPortNames()));

			try
			{
				using (SerialPort serialDevice = new SerialPort(SerialPortId))
				{
					// set parameters
					serialDevice.BaudRate = 9600;
					serialDevice.Parity = Parity.None;
					serialDevice.StopBits = StopBits.One;
					serialDevice.Handshake = Handshake.None;
					serialDevice.DataBits = 8;

					serialDevice.ReadTimeout = 10000;

					serialDevice.NewLine = "\r\n";

					serialDevice.Open();

					// clear out the RX buffer
					serialDevice.ReadExisting();
					response = serialDevice.ReadExisting();
					Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");
					Thread.Sleep(500);

					// Set the Region to AS923
					serialDevice.WriteLine("AT+DR=AS923\r\n");
					response = serialDevice.ReadLine();
					Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");

					// Set the Join mode
					serialDevice.WriteLine("AT +MODE=LWOTAA\r\n");
					response = serialDevice.ReadLine();
					Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");

					// Set the appEUI
					serialDevice.WriteLine($"AT+ID=AppEui,\"{AppEui}\"\r\n");
					response = serialDevice.ReadLine();
					Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");

					// Set the appKey
					serialDevice.WriteLine($"AT+KEY=APPKEY,{AppKey}\r\n");
					response = serialDevice.ReadLine();
					Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");

					// Set the port number
					serialDevice.WriteLine($"AT+PORT={MessagePort}\r\n");
					response = serialDevice.ReadLine();
					Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");

					// Join the network
					serialDevice.WriteLine("AT+JOIN\r\n");

					// Join start
					response = serialDevice.ReadLine();
					Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");

					// JOIN normal
					response = serialDevice.ReadLine();
					Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");

					Thread.Sleep(5000);

					// network joined
					response = serialDevice.ReadLine();
					Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");

					// Net ID
					response = serialDevice.ReadLine();
					Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");

					// Join done
					response = serialDevice.ReadLine();
					Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");

					while (true)
					{
						Debug.WriteLine("Sending");

						serialDevice.WriteLine($"AT+MSGHEX=\"{Payload}\"\r\n");

						// Start
						response = serialDevice.ReadLine();
						Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");

						// Fpending
						response = serialDevice.ReadLine();
						Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");

						//Read metrics
						response = serialDevice.ReadLine();
						Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");

						//Done
						response = serialDevice.ReadLine();
						Debug.WriteLine($"Response :{response.Trim()} bytes:{response.Length}");

						Thread.Sleep(30000);
					}
				}
			}
			catch (Exception ex)
			{
				Debug.WriteLine(ex.Message);
			}
		}
	}
}

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

Visual Studio debugger output window showing network join and sensing a message

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.

The Things Industries Live Data view showing network join and sensing a message

Most of the LoRaWAN modems I have worked with reply “OK” when a command is successful. The SeeedLoRa-E5 often returns the payload of the request in the response which makes the code a little bit more complex.

AppEui command structure in AT Command documentation

For example the AppEui can be passed in as “00:00:00:00:00:00:00:00” or “0000000000000000” but in the response the format is always “00:00:00:00:00:00:00:00”

RAK811LoRaWAN-NetCore on Github

The source code of my .Net Core C# library for RAKWireless RAK811 modules used in products like the PiSupply IoT LoRa Node pHat for Raspberry PI is now available on GitHub.

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) Setpember 2021, 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.
//
//  PAYLOAD_BCD vs. PAYLOAD_BCD
//  OTAA vs. ABP
//  CONFIRMED
//---------------------------------------------------------------------------------
namespace devMobile.IoT.NetCore.Rak811.LoRaWanDeviceClient
{
   using System;
   using System.IO.Ports;
   using System.Threading;
   using System.Diagnostics;

	using devMobile.IoT.NetCore.Rak811.LoRaWan;

	public class Program
   {
      private const string SerialPortId = "/dev/ttyS0";
      private const string Region = "AS923";
      private static readonly TimeSpan JoinTimeOut = new TimeSpan(0, 0, 10);
      private static readonly TimeSpan SendTimeout = new TimeSpan(0, 0, 20);
      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.NetCore.Rak811.Rak811LoRaWanDeviceClient starting");

         Debug.WriteLine($"Ports :{String.Join(",", SerialPort.GetPortNames())}");

         try
         {
            using (Rak811LoRaWanDevice device = new Rak811LoRaWanDevice())
            {
               result = device.Initialise(SerialPortId, 9600, Parity.None, 8, StopBits.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($"{DateTime.UtcNow:hh:mm:ss} OTAA");
               result = device.OtaaInitialise(Config.AppEui, Config.AppKey);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"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($"{DateTime.UtcNow:hh:mm:ss} Join start Timeout:{JoinTimeOut.TotalMilliseconds}mSec");
               result = device.Join(JoinTimeOut);
               if (result != Result.Success)
               {
                  Debug.WriteLine($"Join failed {result}");
                  return;
               }
               Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Join finish");

               while (true)
               {
#if PAYLOAD_BCD
                  Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Send Timeout:{JoinTimeOut.Seconds}s port:{MessagePort} payload BCD:{PayloadBcd}");
                  result = device.Send(MessagePort, PayloadBcd, SendTimeout);
#endif
#if PAYLOAD_BYTES
                  Debug.WriteLine($"{DateTime.UtcNow:hh:mm:ss} Send Timeout:{JoinTimeOut.Seconds}s 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;
                  }

                  // if we send too soon after wakeup failure
                  Thread.Sleep(new TimeSpan(0, 0, 5));
               }
            }
         }
         catch (Exception ex)
         {
            Debug.WriteLine(ex.Message);
         }
      }

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

      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)}");
      }
   }
}

If you are using this library in an AS923 Region you will need to use AS923_HACK

.NET Core RAK811 LoRaWAN library Part2

Nasty OTAA connect

After getting basic connectivity for my IoT LoRa Node pHAT for Raspberry Pi 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 on my bookcase.

IoT LoRa Node pHAT for Raspberry Pi mounted on a Raspberry PI3

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

The code just sequentially steps through the necessary configuration to join the TTN network with a suitable delay after each command is sent. I had some problems with re-opening the serial port if my application had previously failed with an uncaught exception. After some experimentation I added some code to ensure the port was closed when an exception occurred.

//---------------------------------------------------------------------------------
// Copyright (c) September 2021, 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.
//
//---------------------------------------------------------------------------------
namespace devMobile.IoT.NetCore.Rak811.NetworkJoinOTAA
{
	using System;
	using System.Diagnostics;
	using System.IO.Ports;
	using System.Threading;

	public class Program
	{
		private const string SerialPortId = "/dev/ttyS0";
		private const string AppEui = "...";
		private const string AppKey = "...";
		private const byte MessagePort = 1;
		private const string Payload = "A0EEE456D02AFF4AB8BAFD58101D2A2A"; // Hello LoRaWAN

		public static void Main()
		{
			string response;

			Debug.WriteLine("devMobile.IoT.NetCore.Rak811.NetworkJoinOTAA starting");

			Debug.WriteLine(String.Join(",", SerialPort.GetPortNames()));

			try
			{
				using (SerialPort serialPort = new SerialPort(SerialPortId))
				{
					// set parameters
					serialPort.BaudRate = 9600;
					serialPort.DataBits = 8;
					serialPort.Parity = Parity.None;
					serialPort.StopBits = StopBits.One;
					serialPort.Handshake = Handshake.None;

					serialPort.ReadTimeout = 5000;

					serialPort.NewLine = "\r\n";

					serialPort.Open();

					// clear out the RX buffer
					response = serialPort.ReadExisting();
					Debug.WriteLine($"RX :{response.Trim()} bytes:{response.Length}");
					Thread.Sleep(500);

					// Set the Working mode to LoRaWAN
					Console.WriteLine("Set Work mode");
					serialPort.WriteLine("at+set_config=lora:work_mode:0");
					Thread.Sleep(5000);
					response = serialPort.ReadExisting();
					response = response.Trim('\0');
					Debug.WriteLine($"RX :{response.Trim()} bytes:{response.Length}");

					// Set the Region to AS923
					Console.WriteLine("Set Region");
					serialPort.WriteLine("at+set_config=lora:region:AS923");
					response = serialPort.ReadLine();
					Debug.WriteLine($"RX :{response.Trim()} bytes:{response.Length}");

					// Set the JoinMode
					Console.WriteLine("Set Join mode");
					serialPort.WriteLine("at+set_config=lora:join_mode:0");
					response = serialPort.ReadLine();
					Debug.WriteLine($"RX :{response.Trim()} bytes:{response.Length}");

					// Set the appEUI
					Console.WriteLine("Set App Eui");
					serialPort.WriteLine($"at+set_config=lora:app_eui:{AppEui}");
					response = serialPort.ReadLine();
					Debug.WriteLine($"RX :{response.Trim()} bytes:{response.Length}");

					// Set the appKey
					Console.WriteLine("Set App Key");
					serialPort.WriteLine($"at+set_config=lora:app_key:{AppKey}");
					response = serialPort.ReadLine();
					Debug.WriteLine($"RX :{response.Trim()} bytes:{response.Length}");

					// Set the Confirm flag
					Console.WriteLine("Set Confirm off");
					serialPort.WriteLine("at+set_config=lora:confirm:0");
					response = serialPort.ReadLine();
					Debug.WriteLine($"RX :{response.Trim()} bytes:{response.Length}");
					
					// Join the network
					Console.WriteLine("Start Join");
					serialPort.WriteLine("at+join");
					Thread.Sleep(10000);
					response = serialPort.ReadLine();
					Debug.WriteLine($"RX :{response.Trim()} bytes:{response.Length}");

					while (true)
					{
						Console.WriteLine("Sending");
						serialPort.WriteLine($"at+send=lora:{MessagePort}:{Payload}");
						Thread.Sleep(1000);

						// The OK
						Console.WriteLine("Send result");
						response = serialPort.ReadLine();
						Debug.WriteLine($"RX :{response.Trim()} bytes:{response.Length}");

						// The Signal strength information etc.
						Console.WriteLine("Network confirmation");
						response = serialPort.ReadLine();
						Debug.WriteLine($"RX :{response.Trim()} bytes:{response.Length}");

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

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 messages getting sent and then after a short delay they were visible in the TTN console.

The Things Industries Live Data Tab showing my device connecting and sending messages

The RAK811 doesn’t fully implement the AS923 specification but I have a work around detailed in another post.

.NET Core RAK811 LoRaWAN library Part1

Basic connectivity

In my spare time over the last couple of days I have been working on a .Net Core C# library for a RAKWireless RAK811 based PiSupply IoT LoRa Node pHat for Raspberry PI.

Raspberry Pi3 with PI Supply RAK811 based IoT node LoRaWAN pHat

The RaspberryPI OS is a bit more strict than the other devices I use about port access. To allow my .Net Core application to access a serial port I connected to the device with ExtraPutty, then ran the RaspberyPI configuration tool, from the command prompt with “sudo raspi-config”

RaspberyPI OS Software Configuration tool mains screen
RaspberryPI OS IO Serial Port configuration
Raspberry PI OS disabling remote serial login shell
RaspberryPI OS enabling serial port access

Once serial port access was enabled I could enumerate them with SerialPort.GetPortNames() which is in the System.IO.Ports NuGet package. The code has compile time options for synchronous and asynchronous operation.

//---------------------------------------------------------------------------------
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namespace devMobile.IoT.NetCore.Rak811.pHatSerial
{
	using System;
	using System.Diagnostics;

	using System.IO.Ports;
	using System.Threading;

	public class Program
	{
		private const string SerialPortId = "/dev/ttyS0";

		public static void Main()
		{
			SerialPort serialPort;

			Debug.WriteLine("devMobile.IoT.NetCore.Rak811.pHatSerial starting");

			Debug.WriteLine(String.Join(",", SerialPort.GetPortNames()));

			try
			{
				serialPort = new SerialPort(SerialPortId);

				// set parameters
#if DEFAULT_BAUDRATE
				serialDevice.BaudRate = 115200;
#else
            serialPort.BaudRate = 9600;
#endif
				serialPort.Parity = Parity.None;
				serialPort.DataBits = 8;
				serialPort.StopBits = StopBits.One;
				serialPort.Handshake = Handshake.None;

				serialPort.ReadTimeout = 1000;

				serialPort.NewLine = "\r\n";

				serialPort.Open();

#if DEFAULT_BAUDRATE
				Debug.WriteLine("RAK811 baud rate set to 9600");
				serialDevice.Write("at+set_config=device:uart:1:9600");
#endif

#if SERIAL_ASYNC_READ
				serialPort.DataReceived += SerialDevice_DataReceived;
#endif

				while (true)
				{
					serialPort.WriteLine("at+version");

#if SERIAL_SYNC_READ
					string response = serialPort.ReadLine();

					Debug.WriteLine($"RX:{response.Trim()} bytes:{response.Length}");
#endif

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

#if SERIAL_ASYNC_READ
		private static void SerialDevice_DataReceived(object sender, SerialDataReceivedEventArgs e)
		{
			SerialPort serialPort = (SerialPort)sender;

			switch (e.EventType)
			{
				case SerialData.Chars:
					string response = serialPort.ReadExisting();

					Debug.WriteLine($"RX:{response.Trim()} bytes:{response.Length}");
					break;

				case SerialData.Eof:
					Debug.WriteLine("RX :EoF");
					break;
				default:
					Debug.Assert(false, $"e.EventType {e.EventType} unknown");
					break;
			}
		}
#endif
	}
}

The first step was to change the RAK811 serial port speed from 115200 to 9600 baud.

Changing RAK811 serial port from 115200 to 9600 baud

Then I requested the RAK811 version information with the at+version command.

Synchronously reading characters from the RAK811 partial response

I had to add a short delay between sending the command and reading the response.

Synchronously reading characters from the RAK811 complete command responses

The asynchronous version of the application displays character(s) as they arrive so a response could be split across multiple SerialDataReceived events

Asynchronous versions displaying partial responses

I use the excellent RaspberryDebugger to download the application and debug it on my Raspberry PI 3.