Ergonomic and modular web framework built with Tokio, Tower, and Hyper https://crates.io/crates/axum
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tower-web

This is not https://github.com/carllerche/tower-web even though the name is the same. Its just a prototype of a minimal HTTP framework I've been toying with. Will probably change the name to something else.

What is this?

Goals

  • As easy to use as tide. I don't really consider warp easy to use due to type tricks it uses. fn route() -> impl Filter<...> also isn't very ergonomic. Just async fn(Request) -> Response would be nicer.
  • Deep integration with Tower meaning you can
    • Apply middleware to the entire application.
    • Apply middleware to a single route.
    • Apply middleware to subset of routes.
  • Just focus on routing and generating responses. Tower can do the rest. Want timeouts? Use tower::timeout::Timeout. Want logging? Use tower_http::trace::Trace.
  • Work with Tokio. tide is cool but requires async-std.
  • Not macro based. Heavy macro based APIs can be very ergonomic but comes at a complexity cost. Would like to see if I can design an API that is ergonomic and doesn't require macros.

Non-goals

  • Runtime independent. If becoming runtime independent isn't too much then fine but explicitly designing for runtime independence isn't a goal.
  • Speed. As long as things are reasonably fast that is fine. For example using async-trait for ergonomics is fine even though it comes at a cost.

Example usage

NOTE: Error handling has changed quite a bit and these examples are slightly out of date. See the examples for working examples.

Defining a single route looks like this:

let app = tower_web::app().at("/").get(root);

async fn root(req: Request<Body>) -> &'static str {
    "Hello, World!"
}

Adding more routes follows the same pattern:

let app = tower_web::app()
    .at("/")
    .get(root)
    .at("/users")
    .get(users_index)
    .post(users_create);

Handler functions are just async functions like:

async fn handler(req: Request<Body>) -> &'static str {
    "Hello, World!"
}

They must take the request as the first argument but all arguments following are called "extractors" and are used to extract data from the request (similar to rocket but without macros):

#[derive(Deserialize)]
struct UserPayload {
    username: String,
}

#[derive(Deserialize)]
struct Pagination {
    page: usize,
    per_page: usize,
}

async fn handler(
    req: Request<Body>,
    // deserialize response body with `serde_json` into a `UserPayload`
    user: extract::Json<UserPayload>,
    // deserialize query string into a `Pagination`
    pagination: extract::Query<Pagination>,
) -> &'static str {
    let user: UserPayload = user.into_inner();
    let pagination: Pagination = pagination.into_inner();

    // ...
}

The inputs can also be optional:

async fn handler(
    req: Request<Body>,
    user: Option<extract::Json<UserPayload>>,
) -> &'static str {
    // ...
}

You can also get the raw response body:

async fn handler(
    req: Request<Body>,
    // buffer the whole request body
    body: Bytes,
) -> &'static str {
    // ...
}

Or limit the body size:

async fn handler(
    req: Request<Body>,
    // max body size in bytes
    body: extract::BytesMaxLength<1024>,
) -> &'static str {
    // ...
}

Params from dynamic routes like GET /users/:id can be extracted like so

async fn handle(
    req: Request<Body>,
    // get a map of key value pairs
    map: extract::UrlParamsMap,
) -> &'static str {
    let raw_id: Option<&str> = map.get("id");
    let parsed_id: Option<i32> = map.get_typed::<i32>("id");

    // ...
}

async fn handle(
    req: Request<Body>,
    // or get a tuple with each param
    params: extract::UrlParams<(i32, String)>,
) -> &'static str {
    let (id, name) = params.into_inner();

    // ...
}

Anything that implements FromRequest can work as an extractor where FromRequest is an async trait:

#[async_trait]
pub trait FromRequest: Sized {
    type Rejection: IntoResponse<B>;

    async fn from_request(req: &mut Request<Body>) -> Result<Self, Self::Rejection>;
}

This "extractor" pattern is inspired by Bevy's ECS. The idea is that it should be easy to pick apart the request without having to repeat yourself a lot or use macros.

The return type must implement IntoResponse:

async fn empty_response(req: Request<Body>) {
    // ...
}

// gets `content-type: text/plain`
async fn string_response(req: Request<Body>) -> String {
    // ...
}

// gets `content-type: appliation/json`. `Json` can contain any `T: Serialize`
async fn json_response(req: Request<Body>) -> response::Json<User> {
    // ...
}

// gets `content-type: text/html`. `Html` can contain any `T: Into<Bytes>`
async fn html_response(req: Request<Body>) -> response::Html<String> {
    // ...
}

// or for full control
async fn response(req: Request<Body>) -> Response<Body> {
    // ...
}

// Result is supported if each type implements `IntoResponse`
async fn response(req: Request<Body>) -> Result<Html<String>, StatusCode> {
    // ...
}

This makes error handling quite simple. Basically handlers are not allowed to fail and must always produce a response. This also means users are in charge of how their errors are mapped to responses rather than a framework providing some opaque catch all error type.

You can also apply Tower middleware to single routes:

let app = tower_web::app()
    .at("/")
    .get(send_some_large_file.layer(CompressionLayer::new()))

Or to the whole app:

let service = tower_web::app()
    .at("/")
    .get(root)
    .into_service()

let app = ServiceBuilder::new()
    .timeout(Duration::from_secs(30))
    .layer(TraceLayer::new_for_http())
    .layer(CompressionLayer::new())
    .service(app);

And of course run it with Hyper:

#[tokio::main]
async fn main() {
    tracing_subscriber::fmt::init();

    // build our application with some routes
    let app = tower_web::app()
        .at("/")
        .get(handler)
        // convert it into a `Service`
        .into_service();

    // add some middleware
    let app = ServiceBuilder::new()
        .layer(TraceLayer::new_for_http())
        .service(app);

    // run it
    let addr = SocketAddr::from(([127, 0, 0, 1], 3000));
    tracing::debug!("listening on {}", addr);
    let server = Server::bind(&addr).serve(Shared::new(app));
    server.await.unwrap();
}

See the examples directory for more examples.

TODO

  • RouteBuilder should have an async fn serve(self) -> Result<(), hyper::Error> for users who just wanna create a hyper server and not care about the lower level details. Should be gated by a hyper feature.
  • Each new route makes a new allocation for the response body, since Or needs to unify the response body types. Would be nice to find a way to avoid that.
  • It should be possible to package some routes together and apply a tower middleware to that collection and then merge those routes into the app.