hyper-middleware

Crates.iohyper-middleware
lib.rshyper-middleware
version0.0.9
sourcesrc
created_at2022-11-19 22:43:26.517098
updated_at2024-02-05 23:02:12.580897
descriptionA compact HTTP middleware and handler system for Hyper 0.14
homepage
repositoryhttps://github.com/static-web-server/hyper-middleware
max_upload_size
id718741
size69,621
Jose Quintana (joseluisq)

documentation

https://docs.rs/hyper-middleware

README

Hyper Middleware

hyper-middleware crate Released API docs hyper-middleware crate license

A compact HTTP middleware and handler system for Hyper 0.14.x.
NOTE: This crate is still under active development.

Features

  • Compact Middleware and Handler System inspired by The Iron Framework.
  • Simple Hyper Service with convenient Remote Address access.
  • Convenient Error and Result types powered by anyhow.
  • Async support via async-trait.
  • Macros to facilitate HTTP response errors or error casting.

Example

examples/server.rs

use hyper::{header, Server, StatusCode};
use hyper_middleware::{
    async_trait, AfterMiddleware, BeforeMiddleware, Body, Error, Handler, Middlewares, Request,
    Response, Result, Service,
};
use std::{net::SocketAddr, path::PathBuf};

struct Config {
    pub root: PathBuf,
}

struct Application {
    opts: Config,
}

#[async_trait]
impl Handler for Application {
    async fn handle(&self, req: &mut Request) -> Result<Response> {
        // Access the Hyper incoming Request
        println!("Application::handle() - URI Path: {}", req.uri().path());

        // Access the custom app options
        println!(
            "Application::handle() - Config Root: {}",
            self.opts.root.display()
        );

        // Access the Remote Address
        let remote_addr = req.extensions().get::<SocketAddr>().unwrap();
        println!("Application::handle() - Remote Addr: {}", remote_addr);

        // Create a Hyper Response and send it back to the middlewares chain
        Ok(Response::new(Body::from("¡Hola!")))
    }
}

struct FirstMiddleware {}

#[async_trait]
impl BeforeMiddleware for FirstMiddleware {
    async fn before(&self, req: &mut Request) -> Result {
        println!("FirstMiddleware::before()");

        // Access the Hyper incoming Request
        println!("FirstMiddleware::before() - URI Path: {}", req.uri().path());

        Ok(())
    }

    async fn catch(&self, _: &mut Request, err: Error) -> Result {
        Err(err)
    }
}

struct SecondMiddleware {}

#[async_trait]
impl AfterMiddleware for SecondMiddleware {
    async fn after(&self, _: &mut Request, mut res: Response) -> Result<Response> {
        println!("SecondMiddleware::after()");

        // Mutate the Hyper Response at convenience
        // and send it back to other middlewares on the chain
        res.headers_mut().insert(
            header::CONTENT_TYPE,
            "text/html; charset=utf-8".parse().unwrap(),
        );

        Ok(res)
    }

    async fn catch(&self, _: &mut Request, err: Error) -> Result<Response> {
        Ok(Response::builder()
            .status(StatusCode::NOT_FOUND)
            .body(Body::from(err.to_string()))
            .unwrap())
    }
}

#[tokio::main(flavor = "multi_thread")]
async fn main() -> Result {
    // 0. Define some app options (example only)
    let opts = Config {
        root: std::env::current_dir().unwrap(),
    };

    // 1. Create a custom middleware chain and plug in some custom middlewares
    let mut middlewares = Middlewares::new(Application { opts });
    middlewares.link_before(FirstMiddleware {});
    middlewares.link_after(SecondMiddleware {});

    // 2. Create a Hyper service and set the current handler with its middlewares
    let service = Service::new(middlewares);

    // 3. Finally just run server using the service already created
    let addr = ([127, 0, 0, 1], 8787).into();
    let server = Server::bind(&addr).serve(service);

    println!("Listening on http://{}", addr);

    server.await?;

    Ok(())
}

To run the example just type:

cargo run --example server

Contributions

Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in current work by you, as defined in the Apache-2.0 license, shall be dual licensed as described below, without any additional terms or conditions.

Feel free to send some Pull request or file an issue.

License

This work is primarily distributed under the terms of both the MIT license and the Apache License (Version 2.0).

© 2022-present Jose Quintana

Commit count: 22

cargo fmt