Proposed Pull Request Change

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--- author: clemensv ms.service: azure-relay ms.topic: include ms.date: 01/24/2026 ms.author: samurp --- ### Create a console application In Visual Studio, create a new **Console App (.NET Framework)** project. ### Add the Relay NuGet package 1. Right-click the newly created project, and then select **Manage NuGet Packages**. 2. Select **Browse**, and then search for **Microsoft.Azure.Relay**. In the search results, select **Microsoft Azure Relay**. 3. Select **Install** to complete the installation. Close the dialog box. ### Write code to receive messages 1. At the top of the Program.cs file, replace the existing `using` statements with the following `using` statements: ```csharp using System; using System.IO; using System.Threading; using System.Threading.Tasks; using System.Net; using Microsoft.Azure.Relay; ``` 2. Add constants to the `Program` class for the hybrid connection details. Replace the placeholders with the values that you obtained when you created the hybrid connection. Be sure to use the fully qualified namespace name. ```csharp // replace {RelayNamespace} with the name of your namespace private const string RelayNamespace = "YOUR-RELAY-NAMESPACE-NAME.servicebus.windows.net"; // replace {HybridConnectionName} with the name of your hybrid connection private const string ConnectionName = "HYBRID-CONNECTION-NAME"; // replace {SAKKeyName} with the name of your Shared Access Policies key, which is RootManageSharedAccessKey by default private const string KeyName = "SAS-KEY-NAME"; // replace {SASKey} with the primary key of the namespace you saved earlier private const string Key = "SAS-KEY-VALUE"; ``` 3. Add the `ProcessMessagesOnConnection` method to the `Program` class: ```csharp // The method initiates the connection. private static async void ProcessMessagesOnConnection(HybridConnectionStream relayConnection, CancellationTokenSource cts) { Console.WriteLine("New session"); // The connection is a fully bidrectional stream. // Put a stream reader and a stream writer over it. // This allows you to read UTF-8 text that comes from // the sender, and to write text replies back. var reader = new StreamReader(relayConnection); var writer = new StreamWriter(relayConnection) { AutoFlush = true }; while (!cts.IsCancellationRequested) { try { // Read a line of input until a newline is encountered. var line = await reader.ReadLineAsync(); if (string.IsNullOrEmpty(line)) { // If there's no input data, signal that // you will no longer send data on this connection, // and then break out of the processing loop. await relayConnection.ShutdownAsync(cts.Token); break; } // Write the line on the console. Console.WriteLine(line); // Write the line back to the client, prepended with "Echo:" await writer.WriteLineAsync($"Echo: {line}"); } catch (IOException) { // Catch an I/O exception. This likely occurred when // the client disconnected. Console.WriteLine("Client closed connection"); break; } } Console.WriteLine("End session"); // Close the connection. await relayConnection.CloseAsync(cts.Token); } ``` 4. Add the `RunAsync` method to the `Program` class: ```csharp private static async Task RunAsync() { var cts = new CancellationTokenSource(); var tokenProvider = TokenProvider.CreateSharedAccessSignatureTokenProvider(KeyName, Key); var listener = new HybridConnectionListener(new Uri(string.Format("sb://{0}/{1}", RelayNamespace, ConnectionName)), tokenProvider); // Subscribe to the status events. listener.Connecting += (o, e) => { Console.WriteLine("Connecting"); }; listener.Offline += (o, e) => { Console.WriteLine("Offline"); }; listener.Online += (o, e) => { Console.WriteLine("Online"); }; // Opening the listener establishes the control channel to // the Azure Relay service. The control channel is continuously // maintained, and is reestablished when connectivity is disrupted. await listener.OpenAsync(cts.Token); Console.WriteLine("Server listening"); // Provide callback for the cancellation token that will close the listener. cts.Token.Register(() => listener.CloseAsync(CancellationToken.None)); // Start a new thread that will continuously read the console. new Task(() => Console.In.ReadLineAsync().ContinueWith((s) => { cts.Cancel(); })).Start(); // Accept the next available, pending connection request. // Shutting down the listener allows a clean exit. // This method returns null. while (true) { var relayConnection = await listener.AcceptConnectionAsync(); if (relayConnection == null) { break; } ProcessMessagesOnConnection(relayConnection, cts); } // Close the listener after you exit the processing loop. await listener.CloseAsync(cts.Token); } ``` 5. Add the following line of code to the `Main` method in the `Program` class: ```csharp RunAsync().GetAwaiter().GetResult(); ``` The completed Program.cs file should look like this: ```csharp namespace Server { using System; using System.IO; using System.Threading; using System.Threading.Tasks; using Microsoft.Azure.Relay; public class Program { private const string RelayNamespace = "{RelayNamespace}.servicebus.windows.net"; private const string ConnectionName = "{HybridConnectionName}"; private const string KeyName = "{SASKeyName}"; private const string Key = "{SASKey}"; public static void Main(string[] args) { RunAsync().GetAwaiter().GetResult(); } private static async Task RunAsync() { var cts = new CancellationTokenSource(); var tokenProvider = TokenProvider.CreateSharedAccessSignatureTokenProvider(KeyName, Key); var listener = new HybridConnectionListener(new Uri(string.Format("sb://{0}/{1}", RelayNamespace, ConnectionName)), tokenProvider); // Subscribe to the status events. listener.Connecting += (o, e) => { Console.WriteLine("Connecting"); }; listener.Offline += (o, e) => { Console.WriteLine("Offline"); }; listener.Online += (o, e) => { Console.WriteLine("Online"); }; // Opening the listener establishes the control channel to // the Azure Relay service. The control channel is continuously // maintained, and is reestablished when connectivity is disrupted. await listener.OpenAsync(cts.Token); Console.WriteLine("Server listening"); // Provide callback for a cancellation token that will close the listener. cts.Token.Register(() => listener.CloseAsync(CancellationToken.None)); // Start a new thread that will continuously read the console. new Task(() => Console.In.ReadLineAsync().ContinueWith((s) => { cts.Cancel(); })).Start(); // Accept the next available, pending connection request. // Shutting down the listener allows a clean exit. // This method returns null. while (true) { var relayConnection = await listener.AcceptConnectionAsync(); if (relayConnection == null) { break; } ProcessMessagesOnConnection(relayConnection, cts); } // Close the listener after you exit the processing loop. await listener.CloseAsync(cts.Token); } private static async void ProcessMessagesOnConnection(HybridConnectionStream relayConnection, CancellationTokenSource cts) { Console.WriteLine("New session"); // The connection is a fully bidrectional stream. // Put a stream reader and a stream writer over it. // This allows you to read UTF-8 text that comes from // the sender, and to write text replies back. var reader = new StreamReader(relayConnection); var writer = new StreamWriter(relayConnection) { AutoFlush = true }; while (!cts.IsCancellationRequested) { try { // Read a line of input until a newline is encountered. var line = await reader.ReadLineAsync(); if (string.IsNullOrEmpty(line)) { // If there's no input data, signal that // you will no longer send data on this connection. // Then, break out of the processing loop. await relayConnection.ShutdownAsync(cts.Token); break; } // Write the line on the console. Console.WriteLine(line); // Write the line back to the client, prepended with "Echo:" await writer.WriteLineAsync($"Echo: {line}"); } catch (IOException) { // Catch an I/O exception. This likely occurred when // the client disconnected. Console.WriteLine("Client closed connection"); break; } } Console.WriteLine("End session"); // Close the connection. await relayConnection.CloseAsync(cts.Token); } } } ```