# Sputnik A lightweight layer on top of [Hyper](https://hyper.rs/) to facilitate building web applications. Sputnik provides: * convenience wrappers around hyper's `Request` & `Response` * parse, set and delete cookies (powered by the [cookie](https://crates.io/crates/cookie) crate) * parse query strings and HTML form data (powered by the [serde_urlencoded](https://crates.io/crates/serde_urlencoded) crate) * cookie-based [CSRF](https://en.wikipedia.org/wiki/Cross-site_request_forgery) tokens * `Key`: a convenience wrapper around HMAC (stolen from the cookie crate, so that you don't have to use `CookieJar`s if you don't need them) * `decode_expiring_claim` & `encode_expiring_claim`, which can be combined with `Key` to implement [signed & expiring cookies](#signed--expiring-cookies) (with the expiry date encoded into the signed cookie value) Sputnik does **not**: * handle routing: for most web apps `match`ing on (method, path) suffices * handle configuration: we recommend [toml](https://crates.io/crates/toml) * handle persistence: we recommend [diesel](https://diesel.rs/) * handle templating: we recommend [maud](https://maud.lambda.xyz/) ## CsrfToken example ```rust use std::convert::Infallible; use hyper::service::{service_fn, make_service_fn}; use hyper::{Method, Server}; use serde::Deserialize; use sputnik::security::CsrfToken; use sputnik::{Error, request::{Parts, Body}, response::Response}; async fn route(req: &mut Parts, body: Body) -> Result { match (req.method(), req.uri().path()) { (&Method::GET, "/form") => get_form(req).await, (&Method::POST, "/form") => post_form(req, body).await, _ => return Err(Error::not_found("page not found".to_owned())) } } async fn get_form(req: &mut Parts) -> Result { let mut response = Response::new(); let csrf_token = CsrfToken::from_parts(req, &mut response); *response.body() = format!("
{}
", csrf_token.html_input()).into(); Ok(response) } #[derive(Deserialize)] struct FormData {text: String} async fn post_form(req: &mut Parts, body: Body) -> Result { let mut response = Response::new(); let csrf_token = CsrfToken::from_parts(req, &mut response); let msg: FormData = body.into_form_csrf(&csrf_token).await?; *response.body() = format!("hello {}", msg.text).into(); Ok(response) } /// adapt between Hyper's types and Sputnik's convenience types async fn service(req: hyper::Request) -> Result, Infallible> { let (mut parts, body) = sputnik::request::adapt(req); match route(&mut parts, body).await { Ok(res) => Ok(res.into()), Err(err) => Ok(err.response_builder().body(err.message.into()).unwrap()) // you can easily wrap or log errors here } } #[tokio::main] async fn main() { let service = make_service_fn(move |_| { async move { Ok::<_, hyper::Error>(service_fn(move |req| { service(req) })) } }); let addr = ([127, 0, 0, 1], 8000).into(); let server = Server::bind(&addr).serve(service); println!("Listening on http://{}", addr); server.await; } ``` ## Signed & expiring cookies After a successful authentication you can build a session id cookie for example as follows: ```rust let expiry_date = OffsetDateTime::now_utc() + Duration::hours(24); let mut cookie = Cookie::new("userid", key.sign( &encode_expiring_claim(&userid, expiry_date) )); cookie.set_secure(Some(true)); cookie.set_expires(expiry_date); cookie.set_same_site(SameSite::Lax); resp.set_cookie(cookie); ``` This session id cookie can then be retrieved and verified as follows: ```rust let userid = req.cookies().get("userid") .ok_or_else(|| Error::unauthorized("expected userid cookie".to_owned())) .and_then(|cookie| key.verify(cookie.value()).map_err(Error::unauthorized)) .and_then(|value| decode_expiring_claim(value).map_err(|e| Error::unauthorized(format!("failed to decode userid cookie: {}", e))))?; ``` Tip: If you want to store multiple claims in the cookie, you can (de)serialize a struct with [serde_json](https://docs.serde.rs/serde_json/). This approach can pose a lightweight alternative to JWT, if you don't care about the standardization aspect.