Kestrel currently implements most of the WebTransport draft-02 specification, except for datagrams. Datagrams will be implemented at a later date. This document outlines how to use the already implemented functionality.
To help applications get started on implementing WebTransport, there are two sample apps.
To use it, simply run from VS. This will launch the server and a terminal which will show logs from Kestrel as it interacts with the client. Now you should be able to connect to the sample from any client that implements the standard WebTransport draft02 specification.
Note: Once you run the WebTransportSampleApp
, it will print the certificate hash that it is using for the SSL connection. You will need to copy it into your client to make sure that both the server and the client use the same one.
To use it, simply run from VS. This will launch the server and terminal. Now you can open any browser that supports WebTransport and navigate to https://localhost:5001
. You will see an interactive WebTransport test page where you can interact with the API and most of its main functionalities.
Note: this sample automatically injects the certificate into the client-side code. Therefore, you do not need to handle it manually.
The Chromium project has implemented a WebTransport client and can be accessed via their JS API from the Chrome or Edge DevTools console. A good sample app demonstrating how to use that API can be found here.
WebTransport is a preview feature. Therefore, you must manually enable it via the EnablePreviewFeatures
property and toggle the Microsoft.AspNetCore.Server.Kestrel.Experimental.WebTransportAndH3Datagrams
RuntimeHostConfigurationOption
. This can be done by adding the following ItemGroup
to your csproj file:
<ItemGroup>
<RuntimeHostConfigurationOption Include="Microsoft.AspNetCore.Server.Kestrel.Experimental.WebTransportAndH3Datagrams" Value="true" />
</ItemGroup>
The current Kestrel default testing certificate cannot be used for WebTransport connections as it does not meet the requirements needed for WebTransport over HTTP/3. You can generate a new certificate for testing via the following C# (this function will also automatically handle cert rotation every time one expires):
static X509Certificate2 GenerateManualCertificate()
{
X509Certificate2 cert = null;
var store = new X509Store("KestrelWebTransportCertificates", StoreLocation.CurrentUser);
store.Open(OpenFlags.ReadWrite);
if (store.Certificates.Count > 0)
{
cert = store.Certificates[^1];
// rotate key after it expires
if (DateTime.Parse(cert.GetExpirationDateString(), null) < DateTimeOffset.UtcNow)
{
cert = null;
}
}
if (cert == null)
{
// generate a new cert
var now = DateTimeOffset.UtcNow;
SubjectAlternativeNameBuilder sanBuilder = new();
sanBuilder.AddDnsName("localhost");
using var ec = ECDsa.Create(ECCurve.NamedCurves.nistP256);
CertificateRequest req = new("CN=localhost", ec, HashAlgorithmName.SHA256);
// Adds purpose
req.CertificateExtensions.Add(new X509EnhancedKeyUsageExtension(new OidCollection
{
new("1.3.6.1.5.5.7.3.1") // serverAuth
}, false));
// Adds usage
req.CertificateExtensions.Add(new X509KeyUsageExtension(X509KeyUsageFlags.DigitalSignature, false));
// Adds subject alternate names
req.CertificateExtensions.Add(sanBuilder.Build());
// Sign
using var crt = req.CreateSelfSigned(now, now.AddDays(14)); // 14 days is the max duration of a certificate for this
cert = new(crt.Export(X509ContentType.Pfx));
// Save
store.Add(cert);
}
store.Close();
var hash = SHA256.HashData(cert.RawData);
var certStr = Convert.ToBase64String(hash);
Console.WriteLine($"\n\n\n\n\nCertificate: {certStr}\n\n\n\n"); // <-- you will need to put this output into the JS API call to allow the connection
return cert;
}
// Adapted from: https://github.com/wegylexy/webtransport
To setup a WebTransport connection, you will first need to configure a host upon which you open a port. A very minimal example is shown below:
var builder = WebApplication.CreateBuilder(args);
builder.WebHost.ConfigureKestrel((context, options) =>
{
// Port configured for WebTransport
options.Listen([SOME IP ADDRESS], [SOME PORT], listenOptions =>
{
listenOptions.UseHttps(GenerateManualCertificate());
listenOptions.UseConnectionLogging();
listenOptions.Protocols = HttpProtocols.Http1AndHttp2AndHttp3;
});
});
var host = builder.Build();
Note: As WebTransport uses HTTP/3, you must make sure to select the listenOptions.UseHttps
setting as well as set the listenOptions.Protocols
to include HTTP/3.
Note: The default Kestrel certificate cannot be used for WebTransport connections. For local testing you can use the workaround described in the Obtaining a test certificate section.
Next, we defined the code that will run when Kestrel receives a connection.
host.Run(async (context) =>
{
var feature = context.Features.GetRequiredFeature<IHttpWebTransportFeature>();
if (!feature.IsWebTransportRequest)
{
return;
}
var session = await feature.AcceptAsync(CancellationToken.None);
// Use WebTransport via the newly established session.
});
await host.RunAsync();
The Run
method is the main entry-point of your application logic. It is triggered every time there is a connection request. Once the request is a WebTransport request (which is defined by getting the IHttpWebTransportFeature
feature and then checking the IsWebTransportRequest
property), you will be able to accept WebTransport sessions and interact with the client. The last line (await host.RunAsync();
) will start the server and start accepting connections.
This section highlights some of the most significant features of WebTransport that Kestrel implements. However, this is not an exhaustive list.
- Accept a WebTransport Session
var session = await feature.AcceptAsync(CancellationToken token);
This will wait for the next incoming WebTransport session and return an instance of IWebTransportSession
when a connection is completed. A session must be created prior to any streams being created or any data is sent. Note that only clients can initiate a session, thus the server passively waits until one is received and cannot initiate its own session. The cancellation token can be used to stop the operation.
- Accepting a WebTransport stream
var connectionContext = await session.AcceptStreamAsync(CancellationToken token);
This will wait for the next incoming WebTransport stream and return an instance of ConnectionContext
. Note that streams are buffered in order. So, this call will return the next least recently received stream by popping from the front of the queue of pending streams. If no streams are pending, it will block until it receives one. You can use the cancellation token to stop the operation.
Note: This method will return both bidirectional and unidirectional streams. They can be distinguished based on the IStreamDirectionFeature.CanRead
and IStreamDirectionFeature.CanWrite
properties.
- Opening a new WebTransport stream from the server
var connectionContext = await session.OpenUnidirectionalStreamAsync(CancellationToken token);
This will attempt to open a new unidirectional stream from the server to the client and return an instance of ConnectionContext
. You can use the cancellation token to stop the operation.
- Sending data over a WebTransport stream
var stream = connectionContext.Transport.Output;
await stream.WriteAsync(ReadOnlyMemory<byte> bytes);
stream.WriteAsync
will write data to the stream and then automatically flush (i.e. send it to the client).
Note: You can only send data on streams that have IStreamDirectionFeature.CanWrite
set as true
. Sending data on non-writable streams will throw an NotSupportedException
exception.
- Reading data from a WebTransport stream
var stream = connectionContext.Transport.Input.AsStream();
var length = await stream.ReadAsync(Memory<byte> memory);
stream.ReadAsync
will read data from the stream and copy it into the provided memory
parameter. It will then return the number of bytes read.
Note: You can only read data from streams that have IStreamDirectionFeature.CanRead
set as true
. Reading data on non-readable streams will throw an NotSupportedException
exception.
- Aborting a WebTransport session
session.Abort(int errorCode);
Aborting a WebTransport session will result in severing the connection with the client and aborting all the streams. You can optionally specify an error code that will be passed down into the logs. The default value (256) represents no error.
Note: valid error codes are defined here.
- Aborting a WebTransport stream
stream.Abort(ConnectionAbortedException exception);
Aborting a WebTransport stream will result in abruptly ending all data transmission over the stream. You can optionally specify an aborted exception that will be passed down into the logs. A default message is used if no message is provided.
- Soft closing a WebTransport stream
stream.DisposeAsync();
Disposing a WebTransport stream will result in ending data transmission and closing the stream gracefully.
This example waits for a bidirectional stream. Once it receives one, it will read the data from it, reverse it and then write it back to the stream.
var builder = WebApplication.CreateBuilder(args);
builder.WebHost.ConfigureKestrel((context, options) =>
{
// Port configured for WebTransport
options.Listen(IPAddress.Any, 5007, listenOptions =>
{
listenOptions.UseHttps(GenerateManualCertificate());
listenOptions.UseConnectionLogging();
listenOptions.Protocols = HttpProtocols.Http1AndHttp2AndHttp3;
});
});
var host = builder.Build();
host.Run(async (context) =>
{
var feature = context.Features.GetRequiredFeature<IHttpWebTransportFeature>();
if (!feature.IsWebTransportRequest)
{
return;
}
var session = await feature.AcceptAsync(CancellationToken.None);
ConnectionContext? stream = null;
IStreamDirectionFeature? direction = null;
while (true)
{
// wait until we get a stream
stream = await session.AcceptStreamAsync(CancellationToken.None);
if (stream is not null)
{
// check that the stream is bidirectional. If yes, keep going, otherwise
// dispose its resources and keep waiting.
direction = stream.Features.GetRequiredFeature<IStreamDirectionFeature>();
if (direction.CanRead && direction.CanWrite)
{
break;
}
else
{
await stream.DisposeAsync();
}
}
else
{
// if a stream is null, this means that the session failed to get the next one.
// Thus, the session has ended or some other issue has occurred. We end the
// connection in this case.
return;
}
}
var inputPipe = stream!.Transport.Input;
var outputPipe = stream!.Transport.Output;
// read some data from the stream into the memory
var length = await inputPipe.AsStream().ReadAsync(memory);
// slice to only keep the relevant parts of the memory
var outputMemory = memory[..length];
// do some operations on the contents of the data
outputMemory.Span.Reverse();
// write back the data to the stream
await outputPipe.WriteAsync(outputMemory);
});
await host.RunAsync();
This example opens a new stream from the server side and then sends data.
var builder = WebApplication.CreateBuilder(args);
builder.WebHost.ConfigureKestrel((context, options) =>
{
// Port configured for WebTransport
options.Listen(IPAddress.Any, 5007, listenOptions =>
{
listenOptions.UseHttps(GenerateManualCertificate());
listenOptions.UseConnectionLogging();
listenOptions.Protocols = HttpProtocols.Http1AndHttp2AndHttp3;
});
});
var host = builder.Build();
host.Run(async (context) =>
{
var feature = context.Features.GetRequiredFeature<IHttpWebTransportFeature>();
if (!feature.IsWebTransportRequest)
{
return;
}
var session = await feature.AcceptAsync(CancellationToken.None);
// open a new stream from the server to the client
var stream = await session.OpenUnidirectionalStreamAsync(CancellationToken.None);
// write data to the stream
var outputPipe = stream.Transport.Output;
await outputPipe.WriteAsync(new Memory<byte>(new byte[] { 65, 66, 67, 68, 69 }), CancellationToken.None);
await outputPipe.FlushAsync(CancellationToken.None);
});
await host.RunAsync();