When you need to write an API in ASP.NET Core, you’ve traditionally been forced to use ASP.NET Core MVC. While it’s very mature and full-featured, it also runs against the core principles of ASP.NET Core—it’s not lightweight or as efficient as other ASP.NET Core offerings. As a result you’re saddled with using all of a framework, even if you aren’t using a lot of its features. In most cases, you’re doing your logic somewhere else and the execution context (the CRUD actions over HTTP) deserves better.
This doesn’t even include the pitfalls of using controllers and action methods. The MVC pattern invites you to abuse controllers with dependencies and bloat, as much as we preach to other developers about the importance of thin controllers. Microsoft is very aware. This week, in the ASP.NET Standup, architect David Fowler mentioned Project Houdini—an effort to help make APIs over MVC more lightweight and performant (more on this at the end of this post).
We now have an alternative called “route-to-code.” You can now write ASP.NET Core APIs by connecting routing with your middleware. As a result, your code reads the request, writes the response, and you aren’t reliant on a heavy framework and its advanced configuration. It’s a wonderful pipe-to-pipe experience for simple JSON APIs.
To be clear—and Microsoft will be the first to tell you this—it is for basic JSON APIs that don’t need things like model binding, content negotiation, and advanced validation. For those scenarios, ASP.NET Core MVC will always be available to you.
Luckily for me, I just wrote a sample API in MVC to look at the HttpRepl tool. This is a great project to use to convert to route-to-code and show my experiences.
This post contains the following content.
- How does route-to-code work?
- A quick tour of the route-to-code MVC project
- Migrate our APIs from MVC to route-to-code
- The path forward
- Wrap up
How does route-to-code work?
In route-to-code, you specify the APIs in your project’s Startup.cs
file. In this file (or even in another one), you define the routing and API logic in an application request’s pipeline in UseEndpoints.
To use this, ASP.NET Core gives you three helper methods to use:
- ReadFromJsonAsync - reads JSON from the request and deserializes it to a given type
-
WriteAsJsonAsync - writes a value as JSON to the response body (and also sets the response type to
application/json
). -
HasJsonContentType - a boolean method that checks the
Content-Type
header for JSON
Because route-to-code is for basic APIs only, it does not currently support:
- Model binding or validation
- OpenAPI (Swagger UI)
- Constructor dependency injection
- Content negotiation
There are ways to work around this, as we’ll see, but if you find yourself writing a lot of repetitive code, it’s a good sign that you might be better off leveraging ASP.NET Core MVC.
A quick tour of the route-to-code MVC project
I’ve got the route-to-code project out on GitHub. I won’t go through all the setup code but will just link to the key parts if you care to explore further.
In the sample app, I’ve wired up an in-memory Entity Framework database. I’m using a SampleContext
class that uses Entity Framework Core’s DbContext
. I’ve got a SeedData
class that populates the database with a model using C# 9 records.
In the ConfigureServices
middleware in Startup.cs
, I add the in-memory database to the container, then flip on the switch in Program.cs
.
Migrate our APIs from MVC to route-to-code
In this post, I’ll look at the GET, GET (by id), POST, and DELETE methods in my MVC controller and see what it takes to migrate them to route-to-code.
Before we do that, a quick note. In MVC, I’m using constructor injection to access my data from my SampleContext
. Because context
is a common term in route-to-code, I’ll be naming it repository
in route-to-code.
Anyway, here’s how the constructor injection looks in the ASP.NET Core MVC project:
using HttpReplApi.Data;
using Microsoft.AspNetCore.Mvc;
using System.Collections.Generic;
using System.Linq;
using System.Threading.Tasks;
using HttpReplApi.ApiModels;
namespace HttpReplApi.Controllers
{
[Produces("application/json")]
[Route("[controller]")]
public class BandsController : ControllerBase
{
private readonly SampleContext _context;
public BandsController(SampleContext context)
{
_context = context;
}
// action methods
}
}
In the following sections, I’ll go through all the endpoints and see what it takes to move to route-to-code.
The “get all items” endpoint
For a “get all” endpoint, the MVC action method is pretty self-explanatory. Since I’ve injected the context and the data is ready for me to query, I just need to get it.
[HttpGet]
public ActionResult<IEnumerable<Band>> Get() =>
_context.Bands.ToList();
As mentioned earlier, all the endpoint routing and logic in route-to-code will be inside of app.UseEndpoints
:
app.UseEndpoints(endpoints =>
{
// endpoints here
};
Now, we can write a MapGet
call to define and configure our endpoint. Take a look at this code and we’ll discuss after.
endpoints.MapGet("/bands", async context =>
{
var repository = context.RequestServices.GetService<SampleContext>();
var bands = repository.Bands.ToListAsync();
await context.Response.WriteAsJsonAsync(bands);
});
I’m requesting an HTTP GET endpoint with the /bands
route template. In this case, the context
is HttpContext
, where I can request services, get query strings, and read and write JSON.
I can’t use constructor-based dependency injection (DI) using route-to-code. Because there’s no framework to inject services into, we need to manually resolve these services. So, from HttpContext.RequestServices
, I can call GetService
to resolve my SampleContext
. For any services with a transient or scoped lifetime, you need to use the RequestServices
. For services with singleton scopes, like loggers, you can declare it from the service provider. In those cases, you can use those across different requests. But in our case, we’ll need to repeat the repository
service discovery for every endpoint, which is a drag.
Finally, I’ll send back the Bands
collection as JSON using the Response.WriteAsJsonAsync
method.
The “get by id” endpoint
What about the most common use case—getting an item by id
? Here’s how we do it in an MVC controller:
[HttpGet("{id}")]
public async Task<ActionResult<Band>> GetById(int id)
{
var band = await _context.Bands.FindAsync(id);
if (band is null)
{
return NotFound();
}
return band;
}
In route-to-code, here’s how it looks:
endpoints.MapGet("/bands/{id}", async context =>
{
var repository = context.RequestServices.GetService<SampleContext>();
var id = context.Request.RouteValues["id"];
var band = await repository.Bands.FindAsync(Convert.ToInt32(id));
if (band is null)
{
context.Response.StatusCode = StatusCodes.Status404NotFound;
return;
}
await context.Response.WriteAsJsonAsync(band);
});
The route matches a passed in id
from the route. I need to fetch it by accessing it in Request.RouteValues
. One note that isn’t in the documentation: because there’s no model binding, I need to manually convert the id
string to an integer. After I figured that out, I was able to call FindAsync
from my context, validate it, then write it in the WriteAsJsonAsync
method.
The post endpoint
Here’s where things can get interesting—how can we post without model binding or validation?
Here’s how the existing controller works in ASP.NET Core MVC.
[HttpPost]
public async Task<ActionResult<Band>> Create(Band band)
{
_context.Bands.Add(band);
await _context.SaveChangesAsync();
return CreatedAtAction(nameof(GetById), new { id = band.Id }, band);
}
In route-to-code, here’s what I wrote:
endpoints.MapPost("/bands", async context =>
{
var repository = context.RequestServices.GetService<SampleContext>();
if (!context.Request.HasJsonContentType())
{
context.Response.StatusCode = StatusCodes.Status415UnsupportedMediaType;
return;
}
var band = await context.Request.ReadFromJsonAsync<Band>();
await repository.SaveChangesAsync();
await context.Response.WriteAsJsonAsync(band);
});
As we saw earlier, we have a HasJsonContentType
method at our disposal to see if I’m getting JSON. If not, I can set the appropriate status code and return.
Since I have JSON (no validation or binding, just verification that it is JSON), I can read it in and save it to the database. Once I’m done, I can either WriteAsJsonAsync
to give the caller back the new record, or do something like this:
context.Response.StatusCode = StatusCodes.Status201Created;
return;
The WriteAsJsonAsync
will return a 200, and only a 200. Remember, this needs to be done by hand because we don’t have a framework.
The delete endpoint
For our DELETE API, we’ll see it’s quite similar to POST (we’re just doing the opposite action).
Here’s what we do in the traditional MVC controller:
[HttpDelete("{id}")]
public async Task<IActionResult> Delete(int id)
{
var band = await _context.Bands.FindAsync(id);
if (band is null)
{
return NotFound();
}
_context.Bands.Remove(band);
await _context.SaveChangesAsync();
return NoContent();
}
Here’s what I wrote in the route-to-code endpoint.
endpoints.MapDelete("/bands/{id}", async context =>
{
var repository = context.RequestServices.GetService<SampleContext>();
var id = context.Request.RouteValues["id"];
var band = await repository.Bands.FindAsync(Convert.ToInt32(id));
if (band is null)
{
context.Response.StatusCode = StatusCodes.Status404NotFound;
return;
}
repository.Bands.Remove(band);
await repository.SaveChangesAsync();
context.Response.StatusCode = StatusCodes.Status204NoContent;
return;
});
As you can see, there’s a lot of considerations to make even for ridiculously simple APIs like this one. It’s tough to work around dependency injection if you rely on it in your application.
That’s the price you pay for using a no-framework solution like this one. In return you get simplicity and performance. It’s up to you to decide if you need all the bells and whistles or if you only need route-to-code.
The path forward
The use case for this is admittedly small, so here’s a thought: what if I could enjoy these benefits in MVC? That’s the impetus behind “Project Houdini”, which David Fowler discussed in this week’s ASP.NET Standup.
This effort focuses on pushing MVC productivity features to the core of the stack with an eye on performance. Fowler showed off a way to generate these route-to-code APIs for you at compile time using source generation—allowing you to keep writing the traditional MVC code. Of course, when AOT comes with .NET 6, it’ll benefit from performance and treeshaking capabilities.
Wrap up
In this post, we discussed the route-to-code API style, and how it can help you write simpler APIs. We looked at how to migrate controller code to route-to-code, and also looked at the path forward.
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