Awesome
Immediate.Handlers
Immediate.Handlers is an implementation of the mediator pattern in .NET using source-generation. All pipeline behaviors are determined and the call-tree built at compile-time; meaning that all dependencies are enforced via compile-time safety checks. Behaviors and dependencies are obtained via DI at runtime based on compile-time determined dependencies.
Examples
- Minimal Api: Normal
Installing Immediate.Handlers
You can install Immediate.Handlers with NuGet:
Install-Package Immediate.Handlers
Or via the .NET Core command line interface:
dotnet add package Immediate.Handlers
Either commands, from Package Manager Console or .NET Core CLI, will download and install Immediate.Handlers.
Using Immediate.Handlers
Creating Handlers
Create a Handler by adding the following code:
[Handler]
public static partial class GetUsersQuery
{
public record Query;
private static ValueTask<IEnumerable<User>> HandleAsync(
Query _,
UsersService usersService,
CancellationToken token
)
{
return usersService.GetUsers();
}
}
This will automatically create a new class, GetUsersQuery.Handler
, which encapsulates the following:
- attaching any behaviors defined for all queries in the assembly
- using a class to receive any DI services, such as
UsersService
Any consumer can now do the following:
public class Consumer(GetUsersQuery.Handler handler)
{
public async Task Consumer(CancellationToken token)
{
var response = await handler.HandleAsync(new(), token);
// do something with response
}
}
For Command handlers, use a ValueTask
, and Immediate.Handlers will insert a return type
of ValueTuple
to your handler automatically.
[Handler]
public static partial class CreateUserCommand
{
public record Command(string Email);
private static async ValueTask HandleAsync(
Command command,
UsersService usersService,
CancellationToken token
)
{
await usersService.CreateUser(command.Email);
}
}
In case your project layout does not allow direct for references between consumer and handler, the handler will also be
registered as an IHandler<TRequest, Response>
.
public class Consumer(IHandler<Query, IEnumerable<User>> handler)
{
public async Task Consumer(CancellationToken token)
{
var response = await handler.HandleAsync(new(), token);
// do something with response
}
}
Creating Behaviors
Create a behavior by implementing the Immediate.Handlers.Shared.Behaviors<,>
class, as so:
public sealed class LoggingBehavior<TRequest, TResponse>(ILogger<LoggingBehavior<TRequest, TResponse>> logger)
: Behavior<TRequest, TResponse>
{
public override async ValueTask<TResponse> HandleAsync(TRequest request, CancellationToken cancellationToken)
{
logger.LogInformation("LoggingBehavior.Enter");
var response = await Next(request, cancellationToken);
logger.LogInformation("LoggingBehavior.Exit");
return response;
}
}
This can be registered assembly-wide using:
[assembly: Behaviors(
typeof(LoggingBehavior<,>)
)]
or on an individual handler using:
[Handler]
[Behavior(
typeof(LoggingBehavior<,>)
)]
public static class GetUsersQuery
{
// ..
}
Once added to the pipeline, the behavior will be called as part of the pipeline to handle a request.
Note: adding a [Behavior]
attribute to a handler will disregard all assembly-wide behaviors for that handler, so any
global behaviors necessary must be independently added to the handler override behaviors list.
Behavior Constraints
A constraint can be added to a behavior by using:
public sealed class LoggingBehavior<TRequest, TResponse>
: Behavior<TRequest, TResponse>
where TRequest : IRequestConstraint
where TResponse : IResponseConstraint
When a pipeline is generated, all potential behaviors are evaluated against the request and response types, and if either type does not match a given constraint, the behavior is not added to the generated pipeline.
Registering with IServiceCollection
Immediate.Handlers supports Microsoft.Extensions.DependencyInjection.Abstractions
directly.
Registering Handlers
In your Program.cs
, add a call to services.AddXxxHandlers()
, where Xxx
is the shortened form of the project name.
- For a project named
Web
, it will beservices.AddWebHandlers()
- For a project named
Application.Web
, it will beservices.AddApplicationWebHandlers()
This registers all classes in the assembly marked with [Handler]
.
Registering Behaviors
In your Program.cs
, add a call to services.AddXxxBehaviors()
, where Xxx
is the shortened form of the project name.
- For a project named
Web
, it will beservices.AddWebBehaviors()
- For a project named
Application.Web
, it will beservices.AddApplicationWebBehaviors()
This registers all behaviors referenced in any [Behaviors]
attribute.
Using with Swashbuckle
For Swagger to work the JSON schema generated is required to have unique schemaId's. To achieve this, Swashbuckle uses class names as simple schemaId's. When using Immediate Handlers classes with a controller action inside, you might end up with Swashbuckle stating an error similar to this:
Swashbuckle.AspNetCore.SwaggerGen.SwaggerGeneratorException: Failed to generate schema for type - MyApp.Api.DeleteUser+Command. See inner exception
System.InvalidOperationException: Can't use schemaId "$Command" for type "$MyApp.Api.DeleteUser+Command". The same schemaId is already used for type "$MyApp.Api.CreateUserCommand+Command"
This error indicates Swashbuckle is trying to use two classes named Command
from two (or more) different Handlers in different namespaces.
To fix this, you have to define the following options in your SwaggerGen configuration:
builder.Services.AddSwaggerGen( options =>
{
options.CustomSchemaIds(x => x.FullName?.Replace("+", ".", StringComparison.Ordinal));
});
Performance Comparisons
All performance benchmarks reported use the following environment:
// * Summary *
BenchmarkDotNet v0.14.0, Windows 11 (10.0.22631.4317/23H2/2023Update/SunValley3)
12th Gen Intel Core i7-12700H, 1 CPU, 20 logical and 14 physical cores
.NET SDK 9.0.100
[Host] : .NET 9.0.0 (9.0.24.52809), X64 RyuJIT AVX2
DefaultJob : .NET 9.0.0 (9.0.24.52809), X64 RyuJIT AVX2
Benchmarks.Simple
This benchmark tests the various mediator implementations with a single request/response handler.
Method | Mean | Error | Ratio | Rank | Allocated |
---|---|---|---|---|---|
SendRequest_Baseline | 0.6618 ns | 0.0127 ns | 1.00 | 1 | - |
SendRequest_IHandler | 14.0497 ns | 0.0753 ns | 21.23 | 2 | - |
SendRequest_ImmediateHandler | 14.9493 ns | 0.0818 ns | 22.59 | 3 | - |
SendRequest_Mediator | 22.0218 ns | 0.0684 ns | 33.28 | 4 | - |
SendRequest_IMediator | 26.8625 ns | 0.1428 ns | 40.60 | 5 | - |
SendRequest_MediatR | 47.5135 ns | 0.4161 ns | 71.81 | 6 | 192 B |
Benchmarks.Large
This benchmark tests the various mediator implementations in the face of 999 request/response handlers.
Method | Mean | Error | Ratio | Rank | Allocated |
---|---|---|---|---|---|
SendRequest_Baseline | 0.6257 ns | 0.0202 ns | 1.00 | 1 | - |
SendRequest_ImmediateHandler | 11.2358 ns | 0.0395 ns | 17.97 | 2 | - |
SendRequest_IHandler | 14.0575 ns | 0.0652 ns | 22.49 | 3 | - |
SendRequest_Mediator | 22.0874 ns | 0.0534 ns | 35.33 | 4 | - |
SendRequest_MediatR | 48.3577 ns | 0.2402 ns | 77.35 | 5 | 192 B |
SendRequest_IMediator | 420.2067 ns | 4.5092 ns | 672.17 | 6 | - |
Benchmarks.Behaviors
This benchmark tests a more realistic scenario of using 1 behavior and 1 service.
Method | Mean | Error | Ratio | Rank | Allocated |
---|---|---|---|---|---|
SendRequest_Baseline | 47.83 ns | 0.160 ns | 1.00 | 1 | 40 B |
SendRequest_ImmediateHandler | 62.67 ns | 0.350 ns | 1.31 | 2 | 40 B |
SendRequest_IHandler | 63.59 ns | 0.218 ns | 1.33 | 2 | 40 B |
SendRequest_Mediator | 91.53 ns | 0.292 ns | 1.91 | 3 | 40 B |
SendRequest_IMediator | 100.73 ns | 0.396 ns | 2.11 | 4 | 40 B |
SendRequest_MediatR | 188.54 ns | 0.785 ns | 3.94 | 5 | 560 B |