Rocket/core/lib/src/fairing/mod.rs

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//! Fairings: callbacks at attach, launch, request, and response time.
//!
//! Fairings allow for structured interposition at various points in the
//! application lifetime. Fairings can be seen as a restricted form of
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//! "middleware". A fairing is an arbitrary structure with methods representing
//! callbacks that Rocket will run at requested points in a program. You can use
//! fairings to rewrite or record information about requests and responses, or
//! to perform an action once a Rocket application has launched.
//!
//! To learn more about writing a fairing, see the [`Fairing`] trait
//! documentation. You can also use [`AdHoc`](fairing::AdHoc) to create a
//! fairing on-the-fly from a closure or function.
//!
//! ## Attaching
//!
//! You must inform Rocket about fairings that you wish to be active by calling
//! [`Rocket::attach()`] method on the application's [`Rocket`] instance and
//! passing in the appropriate [`Fairing`]. For instance, to attach fairings
//! named `req_fairing` and `res_fairing` to a new Rocket instance, you might
//! write:
//!
//! ```rust
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//! # use rocket::fairing::AdHoc;
//! # let req_fairing = AdHoc::on_request("Request", |_, _| ());
//! # let res_fairing = AdHoc::on_response("Response", |_, _| ());
//! let rocket = rocket::ignite()
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//! .attach(req_fairing)
//! .attach(res_fairing);
//! ```
//!
//! Once a fairing is attached, Rocket will execute it at the appropriate time,
//! which varies depending on the fairing implementation. See the [`Fairing`]
//! trait documentation for more information on the dispatching of fairing
//! methods.
//!
//! [`Fairing`]: ::fairing::Fairing
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//!
//! ## Ordering
//!
//! `Fairing`s are executed in the order in which they are attached: the first
//! attached fairing has its callbacks executed before all others. Because
//! fairing callbacks may not be commutative, the order in which fairings are
//! attached may be significant. Because of this, it is important to communicate
//! to the user every consequence of a fairing.
//!
//! Furthermore, a `Fairing` should take care to act locally so that the actions
//! of other `Fairings` are not jeopardized. For instance, unless it is made
//! abundantly clear, a fairing should not rewrite every request.
use {Rocket, Request, Response, Data};
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mod fairings;
mod ad_hoc;
mod info_kind;
Overhaul URI types. This is fairly large commit with several entangled logical changes. The primary change in this commit is to completely overhaul how URI handling in Rocket works. Prior to this commit, the `Uri` type acted as an origin API. Its parser was minimal and lenient, allowing URIs that were invalid according to RFC 7230. By contrast, the new `Uri` type brings with it a strict RFC 7230 compliant parser. The `Uri` type now represents any kind of valid URI, not simply `Origin` types. Three new URI types were introduced: * `Origin` - represents valid origin URIs * `Absolute` - represents valid absolute URIs * `Authority` - represents valid authority URIs The `Origin` type replaces `Uri` in many cases: * As fields and method inputs of `Route` * The `&Uri` request guard is now `&Origin` * The `uri!` macro produces an `Origin` instead of a `Uri` The strict nature of URI parsing cascaded into the following changes: * Several `Route` methods now `panic!` on invalid URIs * The `Rocket::mount()` method is (correctly) stricter with URIs * The `Redirect` constructors take a `TryInto<Uri>` type * Dispatching of a `LocalRequest` correctly validates URIs Overall, URIs are now properly and uniformly handled throughout Rocket's codebase, resulting in a more reliable and correct system. In addition to these URI changes, the following changes are also part of this commit: * The `LocalRequest::cloned_dispatch()` method was removed in favor of chaining `.clone().dispatch()`. * The entire Rocket codebase uses `crate` instead of `pub(crate)` as a visibility modifier. * Rocket uses the `crate_visibility_modifier` and `try_from` features. A note on unsafety: this commit introduces many uses of `unsafe` in the URI parser. All of these uses are a result of unsafely transforming byte slices (`&[u8]` or similar) into strings (`&str`). The parser ensures that these casts are safe, but of course, we must label their use `unsafe`. The parser was written to be as generic and efficient as possible and thus can parse directly from byte sources. Rocket, however, does not make use of this fact and so would be able to remove all uses of `unsafe` by parsing from an existing `&str`. This should be considered in the future. Fixes #443. Resolves #263.
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crate use self::fairings::Fairings;
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pub use self::ad_hoc::AdHoc;
pub use self::info_kind::{Info, Kind};
// We might imagine that a request fairing returns an `Outcome`. If it returns
// `Success`, we don't do any routing and use that response directly. Same if it
// returns `Failure`. We only route if it returns `Forward`. I've chosen not to
// go this direction because I feel like request guards are the correct
// mechanism to use here. In other words, enabling this at the fairing level
// encourages implicit handling, a bad practice. Fairings can still, however,
// return a default `Response` if routing fails via a response fairing. For
// instance, to automatically handle preflight in CORS, a response fairing can
// check that the user didn't handle the `OPTIONS` request (404) and return an
// appropriate response. This allows the users to handle `OPTIONS` requests
// when they'd like but default to the fairing when they don't want to.
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/// Trait implemented by fairings: Rocket's structured middleware.
///
/// # Considerations
///
/// Fairings are a large hammer that can easily be abused and misused. If you
/// are considering writing a `Fairing` implementation, first consider if it is
/// appropriate to do so. While middleware is often the best solution to some
/// problems in other frameworks, it is often a suboptimal solution in Rocket.
/// This is because Rocket provides richer mechanisms such as [request guards]
/// and [data guards] that can be used to accomplish the same objective in a
/// cleaner, more composable, and more robust manner.
///
/// As a general rule of thumb, only _globally applicable actions_ should be
/// implemented via fairings. For instance, you should _not_ use a fairing to
/// implement authentication or authorization (preferring to use a [request
/// guard] instead) _unless_ the authentication or authorization applies to the
/// entire application. On the other hand, you _should_ use a fairing to record
/// timing and/or usage statistics or to implement global security policies.
///
/// [request guard]: ::request::FromRequest
/// [request guards]: ::request::FromRequest
/// [data guards]: ::data::FromData
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///
/// ## Fairing Callbacks
///
/// There are four kinds of fairing callbacks: attach, launch, request, and
/// response. A fairing can request any combination of these callbacks through
/// the `kind` field of the `Info` structure returned from the `info` method.
/// Rocket will only invoke the callbacks set in the `kind` field.
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///
/// The four callback kinds are as follows:
///
/// * **Attach (`on_attach`)**
///
/// An attach callback, represented by the [`Fairing::on_attach()`] method,
/// is called when a fairing is first attached via [`Rocket::attach()`]
/// method. The state of the `Rocket` instance is, at this point, not
/// finalized, as the user may still add additional information to the
/// `Rocket` instance. As a result, it is unwise to depend on the state of
/// the `Rocket` instance.
///
/// An attach callback can arbitrarily modify the `Rocket` instance being
/// constructed. It returns `Ok` if it would like launching to proceed
/// nominally and `Err` otherwise. If an attach callback returns `Err`,
/// launch will be aborted. All attach callbacks are executed on `launch`,
/// even if one or more signal a failure.
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///
/// * **Launch (`on_launch`)**
///
/// A launch callback, represented by the [`Fairing::on_launch()`] method,
/// is called immediately before the Rocket application has launched. At
/// this point, Rocket has opened a socket for listening but has not yet
/// begun accepting connections. A launch callback can inspect the `Rocket`
/// instance being launched.
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///
/// * **Request (`on_request`)**
///
/// A request callback, represented by the [`Fairing::on_request()`] method,
/// is called just after a request is received, immediately after
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/// pre-processing the request with method changes due to `_method` form
/// fields. At this point, Rocket has parsed the incoming HTTP request into
/// [`Request`] and [`Data`] structures but has not routed the request. A
/// request callback can modify the request at will and [`Data::peek()`]
/// into the incoming data. It may not, however, abort or respond directly
/// to the request; these issues are better handled via [request guards] or
/// via response callbacks. Any modifications to a request are persisted and
/// can potentially alter how a request is routed.
///=
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/// * **Response (`on_response`)**
///
/// A response callback, represented by the [`Fairing::on_response()`]
/// method, is called when a response is ready to be sent to the client. At
/// this point, Rocket has completed all routing, including to error
/// catchers, and has generated the would-be final response. A response
/// callback can modify the response at will. For example, a response
/// callback can provide a default response when the user fails to handle
/// the request by checking for 404 responses. Note that a given `Request`
/// may have changed between `on_request` and `on_response` invocations.
/// Apart from any change made by other fairings, Rocket sets the method for
/// `HEAD` requests to `GET` if there is no matching `HEAD` handler for that
/// request. Additionally, Rocket will automatically strip the body for
/// `HEAD` requests _after_ response fairings have run.
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///
/// # Implementing
///
/// A `Fairing` implementation has one required method: [`info`]. A `Fairing`
/// can also implement any of the available callbacks: `on_attach`, `on_launch`,
/// `on_request`, and `on_response`. A `Fairing` _must_ set the appropriate
/// callback kind in the `kind` field of the returned `Info` structure from
/// [`info`] for a callback to actually be called by Rocket.
///
/// ## Fairing `Info`
///
/// Every `Fairing` must implement the [`info`] method, which returns an
/// [`Info`] structure. This structure is used by Rocket to:
///
/// 1. Assign a name to the `Fairing`.
///
/// This is the `name` field, which can be any arbitrary string. Name your
/// fairing something illustrative. The name will be logged during the
/// application's launch procedures.
///
/// 2. Determine which callbacks to actually issue on the `Fairing`.
///
/// This is the `kind` field of type [`Kind`]. This field is a bitset that
/// represents the kinds of callbacks the fairing wishes to receive. Rocket
/// will only invoke the callbacks that are flagged in this set. `Kind`
/// structures can be `or`d together to represent any combination of kinds
/// of callbacks. For instance, to request launch and response callbacks,
/// return a `kind` field with the value `Kind::Launch | Kind::Response`.
///
/// [`info`]: Fairing::info()
///
/// ## Restrictions
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///
/// A `Fairing` must be [`Send`] + [`Sync`] + `'static`. This means that the
/// fairing must be sendable across thread boundaries (`Send`), thread-safe
/// (`Sync`), and have only `'static` references, if any (`'static`). Note that
/// these bounds _do not_ prohibit a `Fairing` from holding state: the state
/// need simply be thread-safe and statically available or heap allocated.
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///
/// ## Example
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///
/// Imagine that we want to record the number of `GET` and `POST` requests that
/// our application has received. While we could do this with [request guards]
/// and [managed state](::request::State), it would require us to annotate every
/// `GET` and `POST` request with custom types, polluting handler signatures.
/// Instead, we can create a simple fairing that acts globally.
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///
/// The `Counter` fairing below records the number of all `GET` and `POST`
/// requests received. It makes these counts available at a special `'/counts'`
/// path.
///
/// ```rust
/// use std::io::Cursor;
/// use std::sync::atomic::{AtomicUsize, Ordering};
///
/// use rocket::{Request, Data, Response};
/// use rocket::fairing::{Fairing, Info, Kind};
/// use rocket::http::{Method, ContentType, Status};
///
/// #[derive(Default)]
/// struct Counter {
/// get: AtomicUsize,
/// post: AtomicUsize,
/// }
///
/// impl Fairing for Counter {
/// fn info(&self) -> Info {
/// Info {
/// name: "GET/POST Counter",
/// kind: Kind::Request | Kind::Response
/// }
/// }
///
/// fn on_request(&self, request: &mut Request, _: &Data) {
/// if request.method() == Method::Get {
/// self.get.fetch_add(1, Ordering::Relaxed);
/// } else if request.method() == Method::Post {
/// self.post.fetch_add(1, Ordering::Relaxed);
/// }
/// }
///
/// fn on_response(&self, request: &Request, response: &mut Response) {
/// // Don't change a successful user's response, ever.
/// if response.status() != Status::NotFound {
/// return
/// }
///
/// if request.method() == Method::Get && request.uri().path() == "/counts" {
/// let get_count = self.get.load(Ordering::Relaxed);
/// let post_count = self.post.load(Ordering::Relaxed);
///
/// let body = format!("Get: {}\nPost: {}", get_count, post_count);
/// response.set_status(Status::Ok);
/// response.set_header(ContentType::Plain);
/// response.set_sized_body(Cursor::new(body));
/// }
/// }
/// }
/// ```
///
/// ## Request-Local State
///
/// Fairings can use [request-local state] to persist or carry data between
/// requests and responses, or to pass data to a request guard.
///
/// As an example, the following fairing uses request-local state to time
/// requests, setting an `X-Response-Time` header on all responses with the
/// elapsed time. It also exposes the start time of a request via a `StartTime`
/// request guard.
///
/// ```rust
/// # use std::time::{Duration, SystemTime};
/// # use rocket::Outcome;
/// # use rocket::{Request, Data, Response};
/// # use rocket::fairing::{Fairing, Info, Kind};
/// # use rocket::http::Status;
/// # use rocket::request::{self, FromRequest};
/// #
/// /// Fairing for timing requests.
/// pub struct RequestTimer;
///
/// /// Value stored in request-local state.
/// #[derive(Copy, Clone)]
/// struct TimerStart(Option<SystemTime>);
///
/// impl Fairing for RequestTimer {
/// fn info(&self) -> Info {
/// Info {
/// name: "Request Timer",
/// kind: Kind::Request | Kind::Response
/// }
/// }
///
/// /// Stores the start time of the request in request-local state.
/// fn on_request(&self, request: &mut Request, _: &Data) {
/// // Store a `TimerStart` instead of directly storing a `SystemTime`
/// // to ensure that this usage doesn't conflict with anything else
/// // that might store a `SystemTime` in request-local cache.
/// request.local_cache(|| TimerStart(Some(SystemTime::now())));
/// }
///
/// /// Adds a header to the response indicating how long the server took to
/// /// process the request.
/// fn on_response(&self, request: &Request, response: &mut Response) {
/// let start_time = request.local_cache(|| TimerStart(None));
/// if let Some(Ok(duration)) = start_time.0.map(|st| st.elapsed()) {
/// let ms = duration.as_secs() * 1000 + duration.subsec_millis() as u64;
/// response.set_raw_header("X-Response-Time", format!("{} ms", ms));
/// }
/// }
/// }
///
/// /// Request guard used to retrieve the start time of a request.
/// #[derive(Copy, Clone)]
/// pub struct StartTime(pub SystemTime);
///
/// // Allows a route to access the time a request was initiated.
/// impl<'a, 'r> FromRequest<'a, 'r> for StartTime {
/// type Error = ();
///
/// fn from_request(request: &'a Request<'r>) -> request::Outcome<StartTime, ()> {
/// match *request.local_cache(|| TimerStart(None)) {
/// TimerStart(Some(time)) => Outcome::Success(StartTime(time)),
/// TimerStart(None) => Outcome::Failure((Status::InternalServerError, ())),
/// }
/// }
/// }
/// ```
///
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/// [request-local state]: https://rocket.rs/v0.5/guide/state/#request-local-state
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pub trait Fairing: Send + Sync + 'static {
/// Returns an [`Info`] structure containing the `name` and [`Kind`] of this
/// fairing. The `name` can be any arbitrary string. `Kind` must be an `or`d
/// set of `Kind` variants.
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///
/// This is the only required method of a `Fairing`. All other methods have
/// no-op default implementations.
///
/// Rocket will only dispatch callbacks to this fairing for the kinds in the
/// `kind` field of the returned `Info` structure. For instance, if
/// `Kind::Launch | Kind::Request` is used, then Rocket will only call the
/// `on_launch` and `on_request` methods of the fairing. Similarly, if
/// `Kind::Response` is used, Rocket will only call the `on_response` method
/// of this fairing.
///
/// # Example
///
/// An `info` implementation for `MyFairing`: a fairing named "My Custom
/// Fairing" that is both a launch and response fairing.
///
/// ```rust
/// use rocket::fairing::{Fairing, Info, Kind};
///
/// struct MyFairing;
///
/// impl Fairing for MyFairing {
/// fn info(&self) -> Info {
/// Info {
/// name: "My Custom Fairing",
/// kind: Kind::Launch | Kind::Response
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/// }
/// }
/// }
/// ```
fn info(&self) -> Info;
/// The attach callback. Returns `Ok` if launch should proceed and `Err` if
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/// launch should be aborted.
///
/// This method is called when a fairing is attached if `Kind::Attach` is in
/// the `kind` field of the `Info` structure for this fairing. The `rocket`
/// parameter is the `Rocket` instance that is currently being built for
/// this application.
///
/// ## Default Implementation
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///
/// The default implementation of this method simply returns `Ok(rocket)`.
fn on_attach(&self, rocket: Rocket) -> Result<Rocket, Rocket> { Ok(rocket) }
/// The launch callback.
///
/// This method is called just prior to launching the application if
/// `Kind::Launch` is in the `kind` field of the `Info` structure for this
/// fairing. The `&Rocket` parameter corresponds to the application that
/// will be launched.
///
/// ## Default Implementation
///
/// The default implementation of this method does nothing.
#[allow(unused_variables)]
fn on_launch(&self, rocket: &Rocket) {}
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/// The request callback.
///
/// This method is called when a new request is received if `Kind::Request`
/// is in the `kind` field of the `Info` structure for this fairing. The
/// `&mut Request` parameter is the incoming request, and the `&Data`
/// parameter is the incoming data in the request.
///
/// ## Default Implementation
///
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/// The default implementation of this method does nothing.
#[allow(unused_variables)]
fn on_request(&self, request: &mut Request, data: &Data) {}
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/// The response callback.
///
/// This method is called when a response is ready to be issued to a client
/// if `Kind::Response` is in the `kind` field of the `Info` structure for
/// this fairing. The `&Request` parameter is the request that was routed,
/// and the `&mut Response` parameter is the resulting response.
///
/// ## Default Implementation
///
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/// The default implementation of this method does nothing.
#[allow(unused_variables)]
fn on_response(&self, request: &Request, response: &mut Response) {}
}
impl<T: Fairing> Fairing for ::std::sync::Arc<T> {
#[inline]
fn info(&self) -> Info {
(self as &T).info()
}
#[inline]
fn on_attach(&self, rocket: Rocket) -> Result<Rocket, Rocket> {
(self as &T).on_attach(rocket)
}
#[inline]
fn on_launch(&self, rocket: &Rocket) {
(self as &T).on_launch(rocket)
}
#[inline]
fn on_request(&self, request: &mut Request, data: &Data) {
(self as &T).on_request(request, data)
}
#[inline]
fn on_response(&self, request: &Request, response: &mut Response) {
(self as &T).on_response(request, response)
}
}