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tip

To connect to Unleash, you'll need your Unleash API url (e.g. https://<your-unleash>/api) and a server-side API token (how do I create an API token?).

Unleash FeatureToggle Client for .Net

Contributor Covenant NuGet

Migrating to v5

If you use bootstrapping, custom strategies, or a custom JSON serializer, read the complete migration guide before upgrading to v5.

Introduction

Unleash Client SDK for .Net. It is compatible with the Unleash-hosted.com SaaS offering and Unleash Open-Source.

The main motivation for doing feature toggling is to decouple the process for deploying code to production and releasing new features. This helps reducing risk, and allow us to easily manage which features to enable.

Feature toggles decouple deployment of code from release of new features.

Take a look at the demonstration site at unleash.herokuapp.com

Read more of the main project at github.com/unleash/unleash

Features

Supported Frameworks

  • .Net 6
  • NET Standard 2.0
  • .Net 4.8
  • .Net 4.7.2
  • .Net 4.7
  • .Net 4.6.1
  • .Net 4.6
  • .Net 4.5.1
  • .Net 4.5

Extendable architecture

  • Inject your own implementations of key components (background task scheduler, http client factory)

Getting started

Install the package

Install the latest version of Unleash.Client from nuget.org or use the dotnet cli:

dotnet add package unleash.client

Create a new a Unleash instance


⚠️ Important: In almost every case, you only want a single, shared instance of the Unleash client (a singleton) in your application . You would typically use a dependency injection framework to inject it where you need it. Having multiple instances of the client in your application could lead to inconsistencies and performance degradation.

If you create more than 10 instances, Unleash will attempt to log warnings about your usage.


To create a new instance of Unleash you need to create and pass in an UnleashSettings object.

When creating an instance of the Unleash client, you can choose to do it either synchronously or asynchronously. The SDK will synchronize with the Unleash API on initialization, so it can take a moment for the it to reach the correct state. With an asynchronous startup, this would happen in the background while the rest of your code keeps executing. In most cases, this isn't an issue. But if you want to wait until the SDK is fully synchronized, then you should use the configuration explained in the synchronous startup section. This is usually not an issue and Unleash will do this in the background as soon as you initialize it. However, if it's important that you do not continue execution until the SDK has synchronized, then you should use the configuration explained in the synchronous startup section.

using Unleash;
var settings = new UnleashSettings()
{
AppName = "dotnet-test",
UnleashApi = new Uri("<your-api-url>"),
CustomHttpHeaders = new Dictionary<string, string>()
{
{"Authorization","<your-api-token>" }
}
};

var unleash = new DefaultUnleash(settings);

// Add to Container as Singleton
// .NET Core 3/.NET 5/...
services.AddSingleton<IUnleash>(c => unleash);

When your application shuts down, remember to dispose the unleash instance.

unleash?.Dispose()

Synchronous startup

This unleash client does not throw any exceptions if the unleash server is unreachable. Also, fetching features will return the default value if the feature toggle cache has not yet been populated. In many situations it is perferable to throw an error than allow an application to startup with incorrect feature toggle values. For these cases, we provide a client factory with the option for synchronous initialization.

using Unleash;
using Unleash.ClientFactory;

var settings = new UnleashSettings()
{
AppName = "dotnet-test",
UnleashApi = new Uri("<your-api-url>"),
CustomHttpHeaders = new Dictionary<string, string>()
{
{"Authorization","<your-api-token>" }
}
};
var unleashFactory = new UnleashClientFactory();

IUnleash unleash = await unleashFactory.CreateClientAsync(settings, synchronousInitialization: true);

// this `unleash` has successfully fetched feature toggles and written them to its cache.
// if network errors or disk permissions prevented this from happening, the above await would have thrown an exception

var awesome = unleash.IsEnabled("SuperAwesomeFeature");

The CreateClientAsync method was introduced in version 1.5.0, making the previous Generate method obsolete. There's also a CreateClient method available if you don't prefer the async version.

Configuring projects in unleash client

If you're organizing your feature toggles in Projects in Unleash Enterprise, you can specify the ProjectId on the UnleashSettings to select which project to fetch feature toggles for.


var settings = new UnleashSettings()
{
AppName = "dotnet-test",
UnleashApi = new Uri("http://unleash.herokuapp.com/api/"),
ProjectId = "projectId"
};

Check feature toggles

The IsEnabled method allows you to check whether a feature is enabled:

if(unleash.IsEnabled("SuperAwesomeFeature"))
{
//do some magic
}
else
{
//do old boring stuff
}

If the Unleash client can't find the feature you're trying to check, it will default to returning false. You can change this behavior on a per-invocation basis by providing a fallback value as a second argument.

For instance, unleash.IsEnabled("SuperAwesomeFeature") would return false if SuperAwesomeFeature doesn't exist. But if you'd rather it returned true, then you could pass that as the second argument:

unleash.IsEnabled("SuperAwesomeFeature", true)

Providing context

You can also provide an Unleash context to the IsEnabled method:

var context = new UnleashContext
{
UserId = "61"
};

unleash.IsEnabled("someToggle", context);

Refer to the Unleash context section for more information about using the Unleash context in the .NET SDK.

Handling events

Currently supported events:


var settings = new UnleashSettings()
{
// ...
};

var unleash = new DefaultUnleash(settings);

// Set up handling of impression and error events
unleash.ConfigureEvents(cfg =>
{
cfg.ImpressionEvent = evt => { Console.WriteLine($"{evt.FeatureName}: {evt.Enabled}"); };
cfg.ErrorEvent = evt => { /* Handling code here */ Console.WriteLine($"{evt.ErrorType} occured."); };
cfg.TogglesUpdatedEvent = evt => { /* Handling code here */ Console.WriteLine($"Toggles updated on: {evt.UpdatedOn}"); };
});

Activation strategies

The .Net client comes with implementations for the built-in activation strategies provided by unleash.

  • DefaultStrategy
  • UserWithIdStrategy
  • GradualRolloutRandomStrategy
  • GradualRolloutUserWithIdStrategy
  • GradualRolloutSessionIdStrategy
  • RemoteAddressStrategy
  • ApplicationHostnameStrategy
  • FlexibleRolloutStrategy

Read more about the strategies in the activation strategy reference docs.

Custom strategies

You can also specify and implement your own custom strategies. The specification must be registered in the Unleash UI and you must register the strategy implementation when you wire up unleash.

IStrategy s1 = new MyAwesomeStrategy();
IStrategy s2 = new MySuperAwesomeStrategy();

IUnleash unleash = new DefaultUnleash(config, s1, s2);

Unleash context

In order to use some of the common activation strategies you must provide an Unleash context.

If you have configured custom stickiness and want to use that with the FlexibleRolloutStrategy or Variants, add the custom stickiness parameters to the Properties dictionary on the Unleash Context:

HttpContext.Current.Items["UnleashContext"] = new UnleashContext
{
UserId = HttpContext.Current.User?.Identity?.Name,
SessionId = HttpContext.Current.Session?.SessionID,
RemoteAddress = HttpContext.Current.Request.UserHostAddress,
Properties = new Dictionary<string, string>
{
// Obtain "customField" and add it to the context properties
{ "customField", HttpContext.Current.Items["customField"].ToString() }
}
};

UnleashContextProvider

The provider typically binds the context to the same thread as the request. If you are using Asp.Net the UnleashContextProvider will typically be a 'request scoped' instance.

public class AspNetContextProvider : IUnleashContextProvider
{
public UnleashContext Context
{
get { return HttpContext.Current?.Items["UnleashContext"] as UnleashContext; }
}
}

protected void Application_BeginRequest(object sender, EventArgs e)
{
HttpContext.Current.Items["UnleashContext"] = new UnleashContext
{
UserId = HttpContext.Current.User?.Identity?.Name,
SessionId = HttpContext.Current.Session?.SessionID,
RemoteAddress = HttpContext.Current.Request.UserHostAddress,
Properties = new Dictionary<string, string>()
{
{"UserRoles", "A,B,C"}
}
};
}

var settings = new UnleashSettings()
{
AppName = "dotnet-test",
UnleashApi = new Uri("http://unleash.herokuapp.com/api/"),
UnleashContextProvider = new AspNetContextProvider(),
CustomHttpHeaders = new Dictionary<string, string>()
{
{"Authorization", "API token" }
}
};

Custom HTTP headers

If you want the client to send custom HTTP Headers with all requests to the Unleash api you can define that by setting them via the UnleashSettings.

var settings = new UnleashSettings()
{
AppName = "dotnet-test",
UnleashApi = new Uri("http://unleash.herokuapp.com/api/"),
UnleashContextProvider = new AspNetContextProvider(),
CustomHttpHeaders = new Dictionary<string, string>()
{
{"Authorization", "API token" }
}
};

HttpMessageHandlers/Custom HttpClient initialization

If you need to specify HttpMessageHandlers or to control the instantiation of the HttpClient, you can create a custom HttpClientFactory that inherits from DefaultHttpClientFactory, and override the method CreateHttpClientInstance. Then configure UnleashSettings to use your custom HttpClientFactory.

internal class CustomHttpClientFactory : DefaultHttpClientFactory
{
protected override HttpClient CreateHttpClientInstance(Uri unleashApiUri)
{
var messageHandler = new CustomHttpMessageHandler();
var httpClient = new HttpClient(messageHandler)
{
BaseAddress = apiUri,
Timeout = TimeSpan.FromSeconds(5)
};
}
}

var settings = new UnleashSettings
{
AppName = "dotnet-test",
//...
HttpClientFactory = new CustomHttpClientFactory()
};

Dynamic custom HTTP headers

If you need custom http headers that change during the lifetime of the client, a provider can be defined via the UnleashSettings.

Public Class CustomHttpHeaderProvider
Implements IUnleashCustomHttpHeaderProvider

Public Function GetCustomHeaders() As Dictionary(Of String, String) Implements IUnleashCustomHttpHeaderProvider.GetCustomHeaders
Dim token = ' Acquire or refresh a token
Return New Dictionary(Of String, String) From
{{"Authorization", "Bearer " & token}}
End Function
End Class

' ...

Dim unleashSettings As New UnleashSettings()
unleashSettings.AppName = "dotnet-test"
unleashSettings.InstanceTag = "instance z"
' add the custom http header provider to the settings
unleashSettings.UnleashCustomHttpHeaderProvider = New CustomHttpHeaderProvider()
unleashSettings.UnleashApi = new Uri("http://unleash.herokuapp.com/api/")
unleashSettings.UnleashContextProvider = New AspNetContextProvider()
Dim unleash = New DefaultUnleash(unleashSettings)

Logging

By default Unleash-client uses LibLog to integrate with the currently configured logger for your application. The supported loggers are:

  • Serilog
  • NLog
  • Log4Net
  • EntLib
  • Loupe

Custom logger integration

To plug in your own logger you can implement the ILogProvider interface, and register it with Unleash:

Unleash.Logging.LogProvider.SetCurrentLogProvider(new CustomLogProvider());
var settings = new UnleashSettings()
//...

The GetLogger method is responsible for returning a delegate to be used for logging, and your logging integration should be placed inside that delegate:

using System;
using Unleash.Logging;

namespace Unleash.Demo.CustomLogging
{
public class CustomLogProvider : ILogProvider
{
public Logger GetLogger(string name)
{
return (logLevel, messageFunc, exception, formatParameters) =>
{
// Plug in your logging code here

return true;
};
}

public IDisposable OpenMappedContext(string key, object value, bool destructure = false)
{
return new EmptyIDisposable();
}

public IDisposable OpenNestedContext(string message)
{
return new EmptyIDisposable();
}
}

public class EmptyIDisposable : IDisposable
{
public void Dispose()
{
}
}
}

Local backup

By default unleash-client fetches the feature toggles from unleash-server every 20s, and stores the result in temporary .json file which is located in System.IO.Path.GetTempPath() directory. This means that if the unleash-server becomes unavailable, the unleash-client will still be able to toggle the features based on the values stored in .json file. As a result of this, the second argument of IsEnabled will be returned in two cases:

  • When .json file does not exists
  • When the named feature toggle does not exist in .json file

The backup file name will follow this pattern: {fileNameWithoutExtension}-{AppName}-{InstanceTag}-{SdkVersion}.{extension}, where InstanceTag is either what you configure on UnleashSettings during startup, or a formatted string with a random component following this pattern: {Dns.GetHostName()}-generated-{Guid.NewGuid()}.

You can configure InstanceTag like this:

var settings = new UnleashSettings()
{
AppName = "dotnet-test",
UnleashApi = new Uri("http://unleash.herokuapp.com/api/"),
// Set an instance tag for consistent backup file naming
InstanceTag = "CustomInstanceTag",
UnleashContextProvider = new AspNetContextProvider(),
CustomHttpHeaders = new Dictionary<string, string>()
{
{"Authorization", "API token" }
}
};

Bootstrapping

  • Unleash supports bootstrapping from a JSON string.
  • Configure your own custom provider implementing the IToggleBootstrapProvider interface's single method ToggleCollection Read(). This should return a String that represents the API response from {unleash_url}/api/client/features
  • Example bootstrap files can be found in the json files located in tests/Unleash.Tests/App_Data
  • Our assumption is this can be use for applications deployed to ephemeral containers or more locked down file systems where Unleash's need to write the backup file is not desirable or possible.
  • Loading with bootstrapping defaults to override feature toggles loaded from Local Backup, this override can be switched off by setting the UnleashSettings.ToggleOverride property to false

Configuring with the UnleashSettings:

var settings = new UnleashSettings()
{
AppName = "dotnet-test",
UnleashApi = new Uri("http://unleash.herokuapp.com/api/"),
CustomHttpHeaders = new Dictionary<string, string>()
{
{"Authorization","API token" }
},
ToggleOverride = false, // Defaults to true
ToggleBootstrapProvider = new MyToggleBootstrapProvider() // A toggle bootstrap provider implementing IToggleBootstrapProvider here
};

Provided Bootstrappers

  • Two ToggleBootstrapProviders are provided
  • These are found in the Unleash.Utilities:

ToggleBootstrapFileProvider

  • Unleash comes with a ToggleBootstrapFileProvider which implements the IToggleBootstrapProvider interface.
  • Configure with UnleashSettings helper method:
settings.UseBootstrapFileProvider("./path/to/file.json");

ToggleBootstrapUrlProvider

  • Unleash also comes with a ToggleBootstrapUrlProvider which implements the IToggleBootstrapProvider interface.

  • Fetches JSON from a webaddress using HttpMethod.Get

  • Configure with UnleashSettings helper method:

var shouldThrowOnError = true; // Throws for 500, 404, etc
var customHeaders = new Dictionary<string, string>()
{
{ "Authorization", "Bearer ABCdefg123" } // Or whichever set of headers would be required to GET this file
}; // Defaults to null
settings.UseBootstrapUrlProvider("://domain.top/path/to/file.json", shouldThrowOnError, customHeaders);

Run unleash server with Docker locally

The Unleash team have made a separate project which runs unleash server inside docker. Please see unleash-docker for more details.

Development

Setup/Tool suggestions/Requirements

Visual Studio Community / VS Code / JetBrains Rider Microsoft C# Dev Kit extension for VS Code .NET 6

Build/Test

Code lives in ./src/Unleash Tests live in ./tests/Unleash.Tests

  • Build: dotnet build
  • Test: dotnet test - This also executes spec tests

Formatting

We enforce formatting with dotnet format. This can be installed using the following command:

dotnet tool install -g dotnet-format.

Release process

  • Draft a new release in releases, target main
  • Choose a new version (ie 4.1.9 without v)
  • Input new version number as tag, choose create new tag <x.x.x> on publish
  • Set the same version number as Release title
  • The button Generate release notes should give a summary of new commits and contributors
  • Choose to set as the latest release
  • Click Publish release. This starts the release workflow which builds the new release and pushes the artifacts to NuGet

Other information

  • Check out our guide for more information on how to build and scale feature flag systems

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