Create a .NET Core application with plugins
This tutorial shows you how to create a custom AssemblyLoadContext to load plugins. An AssemblyDependencyResolver is used to resolve the dependencies of the plugin. The tutorial provides a separate assembly context for the plugin's dependencies, allowing different assembly dependencies between the plugins and the hosting application. You'll learn how to:
- Structure a project to support plugins.
- Create a custom AssemblyLoadContext to load each plugin.
- Use the System.Runtime.Loader.AssemblyDependencyResolver type to allow plugins to have dependencies.
- Author plugins that can be easily deployed by just copying the build artifacts.
Note
Untrusted code cannot be safely loaded into a trusted .NET process. To provide a security or reliability boundary, consider a technology provided by your OS or virtualization platform.
Prerequisites
- Install the .NET SDK.
Create the application
The first step is to create the application:
Create a new folder, and in that folder run the following command:
dotnet new console -o AppWithPlugin
To make building the project easier, create a Visual Studio solution file in the same folder. Run the following command:
dotnet new sln
Run the following command to add the app project to the solution:
dotnet sln add AppWithPlugin/AppWithPlugin.csproj
Now we can fill in the skeleton of our application. Replace the code in the AppWithPlugin/Program.cs file with the following code:
using PluginBase;
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Reflection;
namespace AppWithPlugin
{
class Program
{
static void Main(string[] args)
{
try
{
if (args.Length == 1 && args[0] == "/d")
{
Console.WriteLine("Waiting for any key...");
Console.ReadLine();
}
// Load commands from plugins.
if (args.Length == 0)
{
Console.WriteLine("Commands: ");
// Output the loaded commands.
}
else
{
foreach (string commandName in args)
{
Console.WriteLine($"-- {commandName} --");
// Execute the command with the name passed as an argument.
Console.WriteLine();
}
}
}
catch (Exception ex)
{
Console.WriteLine(ex);
}
}
}
}
Create the plugin interfaces
The next step in building an app with plugins is defining the interface the plugins need to implement. We suggest that you make a class library that contains any types that you plan to use for communicating between your app and plugins. This division allows you to publish your plugin interface as a package without having to ship your full application.
In the root folder of the project, run dotnet new classlib -o PluginBase
. Also, run dotnet sln add PluginBase/PluginBase.csproj
to add the project to the solution file. Delete the PluginBase/Class1.cs
file, and create a new file in the PluginBase
folder named ICommand.cs
with the following interface definition:
namespace PluginBase
{
public interface ICommand
{
string Name { get; }
string Description { get; }
int Execute();
}
}
This ICommand
interface is the interface that all of the plugins will implement.
Now that the ICommand
interface is defined, the application project can be filled in a little more. Add a reference from the AppWithPlugin
project to the PluginBase
project with the dotnet add AppWithPlugin/AppWithPlugin.csproj reference PluginBase/PluginBase.csproj
command from the root folder.
Replace the // Load commands from plugins
comment with the following code snippet to enable it to load plugins from given file paths:
string[] pluginPaths = new string[]
{
// Paths to plugins to load.
};
IEnumerable<ICommand> commands = pluginPaths.SelectMany(pluginPath =>
{
Assembly pluginAssembly = LoadPlugin(pluginPath);
return CreateCommands(pluginAssembly);
}).ToList();
Then replace the // Output the loaded commands
comment with the following code snippet:
foreach (ICommand command in commands)
{
Console.WriteLine($"{command.Name}\t - {command.Description}");
}
Replace the // Execute the command with the name passed as an argument
comment with the following snippet:
ICommand command = commands.FirstOrDefault(c => c.Name == commandName);
if (command == null)
{
Console.WriteLine("No such command is known.");
return;
}
command.Execute();
And finally, add static methods to the Program
class named LoadPlugin
and CreateCommands
, as shown here:
static Assembly LoadPlugin(string relativePath)
{
throw new NotImplementedException();
}
static IEnumerable<ICommand> CreateCommands(Assembly assembly)
{
int count = 0;
foreach (Type type in assembly.GetTypes())
{
if (typeof(ICommand).IsAssignableFrom(type))
{
ICommand result = Activator.CreateInstance(type) as ICommand;
if (result != null)
{
count++;
yield return result;
}
}
}
if (count == 0)
{
string availableTypes = string.Join(",", assembly.GetTypes().Select(t => t.FullName));
throw new ApplicationException(
$"Can't find any type which implements ICommand in {assembly} from {assembly.Location}.\n" +
$"Available types: {availableTypes}");
}
}
Load plugins
Now the application can correctly load and instantiate commands from loaded plugin assemblies, but it's still unable to load the plugin assemblies. Create a file named PluginLoadContext.cs in the AppWithPlugin folder with the following contents:
using System;
using System.Reflection;
using System.Runtime.Loader;
namespace AppWithPlugin
{
class PluginLoadContext : AssemblyLoadContext
{
private AssemblyDependencyResolver _resolver;
public PluginLoadContext(string pluginPath)
{
_resolver = new AssemblyDependencyResolver(pluginPath);
}
protected override Assembly Load(AssemblyName assemblyName)
{
string assemblyPath = _resolver.ResolveAssemblyToPath(assemblyName);
if (assemblyPath != null)
{
return LoadFromAssemblyPath(assemblyPath);
}
return null;
}
protected override IntPtr LoadUnmanagedDll(string unmanagedDllName)
{
string libraryPath = _resolver.ResolveUnmanagedDllToPath(unmanagedDllName);
if (libraryPath != null)
{
return LoadUnmanagedDllFromPath(libraryPath);
}
return IntPtr.Zero;
}
}
}
The PluginLoadContext
type derives from AssemblyLoadContext. The AssemblyLoadContext
type is a special type in the runtime that allows developers to isolate loaded assemblies into different groups to ensure that assembly versions don't conflict. Additionally, a custom AssemblyLoadContext
can choose different paths to load assemblies from and override the default behavior. The PluginLoadContext
uses an instance of the AssemblyDependencyResolver
type introduced in .NET Core 3.0 to resolve assembly names to paths. The AssemblyDependencyResolver
object is constructed with the path to a .NET class library. It resolves assemblies and native libraries to their relative paths based on the .deps.json file for the class library whose path was passed to the AssemblyDependencyResolver
constructor. The custom AssemblyLoadContext
enables plugins to have their own dependencies, and the AssemblyDependencyResolver
makes it easy to correctly load the dependencies.
Now that the AppWithPlugin
project has the PluginLoadContext
type, update the Program.LoadPlugin
method with the following body:
static Assembly LoadPlugin(string relativePath)
{
// Navigate up to the solution root
string root = Path.GetFullPath(Path.Combine(
Path.GetDirectoryName(
Path.GetDirectoryName(
Path.GetDirectoryName(
Path.GetDirectoryName(
Path.GetDirectoryName(typeof(Program).Assembly.Location)))))));
string pluginLocation = Path.GetFullPath(Path.Combine(root, relativePath.Replace('\\', Path.DirectorySeparatorChar)));
Console.WriteLine($"Loading commands from: {pluginLocation}");
PluginLoadContext loadContext = new PluginLoadContext(pluginLocation);
return loadContext.LoadFromAssemblyName(new AssemblyName(Path.GetFileNameWithoutExtension(pluginLocation)));
}
By using a different PluginLoadContext
instance for each plugin, the plugins can have different or even conflicting dependencies without issue.
Simple plugin with no dependencies
Back in the root folder, do the following:
Run the following command to create a new class library project named
HelloPlugin
:dotnet new classlib -o HelloPlugin
Run the following command to add the project to the
AppWithPlugin
solution:dotnet sln add HelloPlugin/HelloPlugin.csproj
Replace the HelloPlugin/Class1.cs file with a file named HelloCommand.cs with the following contents:
using PluginBase;
using System;
namespace HelloPlugin
{
public class HelloCommand : ICommand
{
public string Name { get => "hello"; }
public string Description { get => "Displays hello message."; }
public int Execute()
{
Console.WriteLine("Hello !!!");
return 0;
}
}
}
Now, open the HelloPlugin.csproj file. It should look similar to the following:
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<TargetFramework>net5.0</TargetFramework>
</PropertyGroup>
</Project>
In between the <PropertyGroup>
tags, add the following element:
<EnableDynamicLoading>true</EnableDynamicLoading>
The <EnableDynamicLoading>true</EnableDynamicLoading>
prepares the project so that it can be used as a plugin. Among other things, this will copy all of its dependencies to the output of the project. For more details see EnableDynamicLoading
.
In between the <Project>
tags, add the following elements:
<ItemGroup>
<ProjectReference Include="..\PluginBase\PluginBase.csproj">
<Private>false</Private>
<ExcludeAssets>runtime</ExcludeAssets>
</ProjectReference>
</ItemGroup>
The <Private>false</Private>
element is important. This tells MSBuild to not copy PluginBase.dll to the output directory for HelloPlugin. If the PluginBase.dll assembly is present in the output directory, PluginLoadContext
will find the assembly there and load it when it loads the HelloPlugin.dll assembly. At this point, the HelloPlugin.HelloCommand
type will implement the ICommand
interface from the PluginBase.dll in the output directory of the HelloPlugin
project, not the ICommand
interface that is loaded into the default load context. Since the runtime sees these two types as different types from different assemblies, the AppWithPlugin.Program.CreateCommands
method won't find the commands. As a result, the <Private>false</Private>
metadata is required for the reference to the assembly containing the plugin interfaces.
Similarly, the <ExcludeAssets>runtime</ExcludeAssets>
element is also important if the PluginBase
references other packages. This setting has the same effect as <Private>false</Private>
but works on package references that the PluginBase
project or one of its dependencies may include.
Now that the HelloPlugin
project is complete, you should update the AppWithPlugin
project to know where the HelloPlugin
plugin can be found. After the // Paths to plugins to load
comment, add @"HelloPlugin\bin\Debug\net5.0\HelloPlugin.dll"
(this path could be different based on the .NET Core version you use) as an element of the pluginPaths
array.
Plugin with library dependencies
Almost all plugins are more complex than a simple "Hello World", and many plugins have dependencies on other libraries. The JsonPlugin
and OldJsonPlugin
projects in the sample show two examples of plugins with NuGet package dependencies on Newtonsoft.Json
. Because of this, all plugin projects should add <EnableDynamicLoading>true</EnableDynamicLoading>
to the project properties so that they copy all of their dependencies to the output of dotnet build
. Publishing the class library with dotnet publish
will also copy all of its dependencies to the publish output.
Other examples in the sample
The complete source code for this tutorial can be found in the dotnet/samples repository. The completed sample includes a few other examples of AssemblyDependencyResolver
behavior. For example, the AssemblyDependencyResolver
object can also resolve native libraries as well as localized satellite assemblies included in NuGet packages. The UVPlugin
and FrenchPlugin
in the samples repository demonstrate these scenarios.
Reference a plugin interface from a NuGet package
Let's say that there is an app A that has a plugin interface defined in the NuGet package named A.PluginBase
. How do you reference the package correctly in your plugin project? For project references, using the <Private>false</Private>
metadata on the ProjectReference
element in the project file prevented the dll from being copied to the output.
To correctly reference the A.PluginBase
package, you want to change the <PackageReference>
element in the project file to the following:
<PackageReference Include="A.PluginBase" Version="1.0.0">
<ExcludeAssets>runtime</ExcludeAssets>
</PackageReference>
This prevents the A.PluginBase
assemblies from being copied to the output directory of your plugin and ensures that your plugin will use A's version of A.PluginBase
.
Plugin target framework recommendations
Because plugin dependency loading uses the .deps.json file, there is a gotcha related to the plugin's target framework. Specifically, your plugins should target a runtime, such as .NET 5, instead of a version of .NET Standard. The .deps.json file is generated based on which framework the project targets, and since many .NET Standard-compatible packages ship reference assemblies for building against .NET Standard and implementation assemblies for specific runtimes, the .deps.json may not correctly see implementation assemblies, or it may grab the .NET Standard version of an assembly instead of the .NET Core version you expect.
Plugin framework references
Currently, plugins can't introduce new frameworks into the process. For example, you can't load a plugin that uses the Microsoft.AspNetCore.App
framework into an application that only uses the root Microsoft.NETCore.App
framework. The host application must declare references to all frameworks needed by plugins.