mirror of https://github.com/rwf2/Rocket.git
597 lines
24 KiB
Rust
597 lines
24 KiB
Rust
use std::io;
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use std::sync::Arc;
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use std::time::Duration;
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use yansi::Paint;
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use tokio::sync::oneshot;
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use tokio::time::sleep;
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use futures::stream::StreamExt;
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use futures::future::{FutureExt, Future, BoxFuture};
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use crate::{route, Rocket, Orbit, Request, Response, Data, Config};
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use crate::form::Form;
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use crate::outcome::Outcome;
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use crate::error::{Error, ErrorKind};
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use crate::ext::{AsyncReadExt, CancellableListener, CancellableIo};
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use crate::request::ConnectionMeta;
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use crate::data::IoHandler;
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use crate::http::{hyper, uncased, Method, Status, Header};
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use crate::http::private::{TcpListener, Listener, Connection, Incoming};
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// A token returned to force the execution of one method before another.
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pub(crate) struct RequestToken;
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async fn handle<Fut, T, F>(name: Option<&str>, run: F) -> Option<T>
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where F: FnOnce() -> Fut, Fut: Future<Output = T>,
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{
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use std::panic::AssertUnwindSafe;
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macro_rules! panic_info {
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($name:expr, $e:expr) => {{
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match $name {
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Some(name) => error_!("Handler {} panicked.", Paint::white(name)),
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None => error_!("A handler panicked.")
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};
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info_!("This is an application bug.");
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info_!("A panic in Rust must be treated as an exceptional event.");
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info_!("Panicking is not a suitable error handling mechanism.");
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info_!("Unwinding, the result of a panic, is an expensive operation.");
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info_!("Panics will degrade application performance.");
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info_!("Instead of panicking, return `Option` and/or `Result`.");
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info_!("Values of either type can be returned directly from handlers.");
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warn_!("A panic is treated as an internal server error.");
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$e
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}}
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}
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let run = AssertUnwindSafe(run);
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let fut = std::panic::catch_unwind(move || run())
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.map_err(|e| panic_info!(name, e))
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.ok()?;
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AssertUnwindSafe(fut)
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.catch_unwind()
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.await
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.map_err(|e| panic_info!(name, e))
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.ok()
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}
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// This function tries to hide all of the Hyper-ness from Rocket. It essentially
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// converts Hyper types into Rocket types, then calls the `dispatch` function,
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// which knows nothing about Hyper. Because responding depends on the
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// `HyperResponse` type, this function does the actual response processing.
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async fn hyper_service_fn(
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rocket: Arc<Rocket<Orbit>>,
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conn: ConnectionMeta,
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mut hyp_req: hyper::Request<hyper::Body>,
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) -> Result<hyper::Response<hyper::Body>, io::Error> {
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// This future must return a hyper::Response, but the response body might
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// borrow from the request. Instead, write the body in another future that
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// sends the response metadata (and a body channel) prior.
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let (tx, rx) = oneshot::channel();
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debug!("Received request: {:#?}", hyp_req);
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tokio::spawn(async move {
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// We move the request next, so get the upgrade future now.
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let pending_upgrade = hyper::upgrade::on(&mut hyp_req);
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// Convert a Hyper request into a Rocket request.
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let (h_parts, mut h_body) = hyp_req.into_parts();
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match Request::from_hyp(&rocket, &h_parts, Some(conn)) {
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Ok(mut req) => {
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// Convert into Rocket `Data`, dispatch request, write response.
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let mut data = Data::from(&mut h_body);
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let token = rocket.preprocess_request(&mut req, &mut data).await;
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let mut response = rocket.dispatch(token, &req, data).await;
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let upgrade = response.take_upgrade(req.headers().get("upgrade"));
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if let Some((proto, handler)) = upgrade {
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rocket.handle_upgrade(response, proto, handler, pending_upgrade, tx).await;
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} else {
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rocket.send_response(response, tx).await;
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}
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},
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Err(e) => {
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warn!("Bad incoming HTTP request.");
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e.errors.iter().for_each(|e| warn_!("Error: {}.", e));
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warn_!("Dispatching salvaged request to catcher: {}.", e.request);
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let response = rocket.handle_error(Status::BadRequest, &e.request).await;
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rocket.send_response(response, tx).await;
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}
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}
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});
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// Receive the response written to `tx` by the task above.
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rx.await.map_err(|e| io::Error::new(io::ErrorKind::BrokenPipe, e))
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}
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impl Rocket<Orbit> {
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/// Wrapper around `_send_response` to log a success or failure.
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#[inline]
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async fn send_response(
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&self,
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response: Response<'_>,
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tx: oneshot::Sender<hyper::Response<hyper::Body>>,
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) {
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let remote_hungup = |e: &io::Error| match e.kind() {
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| io::ErrorKind::BrokenPipe
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| io::ErrorKind::ConnectionReset
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| io::ErrorKind::ConnectionAborted => true,
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_ => false,
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};
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match self._send_response(response, tx).await {
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Ok(()) => info_!("{}", Paint::green("Response succeeded.")),
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Err(e) if remote_hungup(&e) => warn_!("Remote left: {}.", e),
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Err(e) => warn_!("Failed to write response: {}.", e),
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}
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}
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/// Attempts to create a hyper response from `response` and send it to `tx`.
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#[inline]
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async fn _send_response(
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&self,
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mut response: Response<'_>,
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tx: oneshot::Sender<hyper::Response<hyper::Body>>,
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) -> io::Result<()> {
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let mut hyp_res = hyper::Response::builder();
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hyp_res = hyp_res.status(response.status().code);
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for header in response.headers().iter() {
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let name = header.name.as_str();
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let value = header.value.as_bytes();
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hyp_res = hyp_res.header(name, value);
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}
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let body = response.body_mut();
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if let Some(n) = body.size().await {
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hyp_res = hyp_res.header(hyper::header::CONTENT_LENGTH, n);
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}
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let (mut sender, hyp_body) = hyper::Body::channel();
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let hyp_response = hyp_res.body(hyp_body)
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.map_err(|e| io::Error::new(io::ErrorKind::InvalidData, e))?;
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debug!("sending response: {:#?}", hyp_response);
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tx.send(hyp_response).map_err(|_| {
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let msg = "client disconnect before response started";
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io::Error::new(io::ErrorKind::BrokenPipe, msg)
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})?;
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let max_chunk_size = body.max_chunk_size();
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let mut stream = body.into_bytes_stream(max_chunk_size);
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while let Some(next) = stream.next().await {
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sender.send_data(next?).await
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.map_err(|e| io::Error::new(io::ErrorKind::BrokenPipe, e))?;
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}
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Ok(())
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}
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async fn handle_upgrade<'r>(
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&self,
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mut response: Response<'r>,
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protocol: uncased::Uncased<'r>,
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mut io_handler: Box<dyn IoHandler + 'r>,
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pending_upgrade: hyper::upgrade::OnUpgrade,
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tx: oneshot::Sender<hyper::Response<hyper::Body>>,
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) {
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info_!("Upgrading connection to {}.", Paint::white(&protocol));
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response.set_status(Status::SwitchingProtocols);
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response.set_raw_header("Connection", "Upgrade");
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response.set_raw_header("Upgrade", protocol.into_cow());
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self.send_response(response, tx).await;
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match pending_upgrade.await {
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Ok(io_stream) => {
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info_!("Upgrade successful.");
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if let Err(e) = io_handler.io(io_stream.into()).await {
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error!("Upgraded I/O handler failed: {}", e);
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}
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},
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Err(e) => {
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warn!("Response indicated upgrade, but upgrade failed.");
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warn_!("Upgrade error: {}", e);
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}
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}
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}
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/// Preprocess the request for Rocket things. Currently, this means:
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///
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/// * Rewriting the method in the request if _method form field exists.
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/// * Run the request fairings.
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///
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/// Keep this in-sync with derive_form when preprocessing form fields.
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pub(crate) async fn preprocess_request(
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&self,
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req: &mut Request<'_>,
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data: &mut Data<'_>
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) -> RequestToken {
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// Check if this is a form and if the form contains the special _method
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// field which we use to reinterpret the request's method.
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let (min_len, max_len) = ("_method=get".len(), "_method=delete".len());
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let peek_buffer = data.peek(max_len).await;
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let is_form = req.content_type().map_or(false, |ct| ct.is_form());
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if is_form && req.method() == Method::Post && peek_buffer.len() >= min_len {
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let method = std::str::from_utf8(peek_buffer).ok()
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.and_then(|raw_form| Form::values(raw_form).next())
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.filter(|field| field.name == "_method")
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.and_then(|field| field.value.parse().ok());
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if let Some(method) = method {
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req._set_method(method);
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}
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}
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// Run request fairings.
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self.fairings.handle_request(req, data).await;
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RequestToken
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}
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#[inline]
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pub(crate) async fn dispatch<'s, 'r: 's>(
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&'s self,
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_token: RequestToken,
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request: &'r Request<'s>,
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data: Data<'r>
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) -> Response<'r> {
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info!("{}:", request);
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// Remember if the request is `HEAD` for later body stripping.
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let was_head_request = request.method() == Method::Head;
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// Route the request and run the user's handlers.
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let mut response = self.route_and_process(request, data).await;
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// Add a default 'Server' header if it isn't already there.
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// TODO: If removing Hyper, write out `Date` header too.
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if let Some(ident) = request.rocket().config.ident.as_str() {
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if !response.headers().contains("Server") {
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response.set_header(Header::new("Server", ident));
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}
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}
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// Run the response fairings.
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self.fairings.handle_response(request, &mut response).await;
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// Strip the body if this is a `HEAD` request.
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if was_head_request {
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response.strip_body();
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}
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response
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}
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async fn route_and_process<'s, 'r: 's>(
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&'s self,
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request: &'r Request<'s>,
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data: Data<'r>
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) -> Response<'r> {
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let mut response = match self.route(request, data).await {
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Outcome::Success(response) => response,
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Outcome::Forward(data) if request.method() == Method::Head => {
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info_!("Autohandling {} request.", Paint::default("HEAD").bold());
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// Dispatch the request again with Method `GET`.
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request._set_method(Method::Get);
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match self.route(request, data).await {
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Outcome::Success(response) => response,
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Outcome::Failure(status) => self.handle_error(status, request).await,
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Outcome::Forward(_) => self.handle_error(Status::NotFound, request).await,
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}
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}
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Outcome::Forward(_) => self.handle_error(Status::NotFound, request).await,
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Outcome::Failure(status) => self.handle_error(status, request).await,
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};
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// Set the cookies. Note that error responses will only include cookies
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// set by the error handler. See `handle_error` for more.
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let delta_jar = request.cookies().take_delta_jar();
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for cookie in delta_jar.delta() {
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response.adjoin_header(cookie);
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}
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response
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}
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/// Tries to find a `Responder` for a given `request`. It does this by
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/// routing the request and calling the handler for each matching route
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/// until one of the handlers returns success or failure, or there are no
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/// additional routes to try (forward). The corresponding outcome for each
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/// condition is returned.
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#[inline]
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async fn route<'s, 'r: 's>(
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&'s self,
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request: &'r Request<'s>,
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mut data: Data<'r>,
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) -> route::Outcome<'r> {
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// Go through the list of matching routes until we fail or succeed.
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for route in self.router.route(request) {
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// Retrieve and set the requests parameters.
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info_!("Matched: {}", route);
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request.set_route(route);
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let name = route.name.as_deref();
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let outcome = handle(name, || route.handler.handle(request, data)).await
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.unwrap_or(Outcome::Failure(Status::InternalServerError));
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// Check if the request processing completed (Some) or if the
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// request needs to be forwarded. If it does, continue the loop
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// (None) to try again.
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info_!("{} {}", Paint::default("Outcome:").bold(), outcome);
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match outcome {
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o@Outcome::Success(_) | o@Outcome::Failure(_) => return o,
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Outcome::Forward(unused_data) => data = unused_data,
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}
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}
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error_!("No matching routes for {}.", request);
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Outcome::Forward(data)
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}
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/// Invokes the handler with `req` for catcher with status `status`.
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///
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/// In order of preference, invoked handler is:
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/// * the user's registered handler for `status`
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/// * the user's registered `default` handler
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/// * Rocket's default handler for `status`
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///
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/// Return `Ok(result)` if the handler succeeded. Returns `Ok(Some(Status))`
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/// if the handler ran to completion but failed. Returns `Ok(None)` if the
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/// handler panicked while executing.
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async fn invoke_catcher<'s, 'r: 's>(
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&'s self,
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status: Status,
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req: &'r Request<'s>
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) -> Result<Response<'r>, Option<Status>> {
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// For now, we reset the delta state to prevent any modifications
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// from earlier, unsuccessful paths from being reflected in error
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// response. We may wish to relax this in the future.
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req.cookies().reset_delta();
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if let Some(catcher) = self.router.catch(status, req) {
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warn_!("Responding with registered {} catcher.", catcher);
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let name = catcher.name.as_deref();
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handle(name, || catcher.handler.handle(status, req)).await
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.map(|result| result.map_err(Some))
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.unwrap_or_else(|| Err(None))
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} else {
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let code = Paint::blue(status.code).bold();
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warn_!("No {} catcher registered. Using Rocket default.", code);
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Ok(crate::catcher::default_handler(status, req))
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}
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}
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// Invokes the catcher for `status`. Returns the response on success.
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//
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// On catcher failure, the 500 error catcher is attempted. If _that_ fails,
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// the (infallible) default 500 error cather is used.
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pub(crate) async fn handle_error<'s, 'r: 's>(
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&'s self,
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mut status: Status,
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req: &'r Request<'s>
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) -> Response<'r> {
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// Dispatch to the `status` catcher.
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if let Ok(r) = self.invoke_catcher(status, req).await {
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return r;
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}
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// If it fails and it's not a 500, try the 500 catcher.
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if status != Status::InternalServerError {
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error_!("Catcher failed. Attempting 500 error catcher.");
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status = Status::InternalServerError;
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if let Ok(r) = self.invoke_catcher(status, req).await {
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return r;
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}
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}
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// If it failed again or if it was already a 500, use Rocket's default.
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error_!("{} catcher failed. Using Rocket default 500.", status.code);
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crate::catcher::default_handler(Status::InternalServerError, req)
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}
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pub(crate) async fn default_tcp_http_server<C>(mut self, ready: C) -> Result<Self, Error>
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where C: for<'a> Fn(&'a Self) -> BoxFuture<'a, ()>
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{
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use std::net::ToSocketAddrs;
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// Determine the address we're going to serve on.
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let addr = format!("{}:{}", self.config.address, self.config.port);
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let mut addr = addr.to_socket_addrs()
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.map(|mut addrs| addrs.next().expect(">= 1 socket addr"))
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.map_err(|e| Error::new(ErrorKind::Io(e)))?;
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#[cfg(feature = "tls")]
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if self.config.tls_enabled() {
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if let Some(ref config) = self.config.tls {
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use crate::http::tls::TlsListener;
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let conf = config.to_native_config().map_err(ErrorKind::Io)?;
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let l = TlsListener::bind(addr, conf).await.map_err(ErrorKind::Bind)?;
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addr = l.local_addr().unwrap_or(addr);
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self.config.address = addr.ip();
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self.config.port = addr.port();
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ready(&mut self).await;
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return self.http_server(l).await;
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}
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}
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let l = TcpListener::bind(addr).await.map_err(ErrorKind::Bind)?;
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addr = l.local_addr().unwrap_or(addr);
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self.config.address = addr.ip();
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self.config.port = addr.port();
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ready(&mut self).await;
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self.http_server(l).await
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}
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// TODO.async: Solidify the Listener APIs and make this function public
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pub(crate) async fn http_server<L>(self, listener: L) -> Result<Self, Error>
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where L: Listener + Send, <L as Listener>::Connection: Send + Unpin + 'static
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{
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// Emit a warning if we're not running inside of Rocket's async runtime.
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if self.config.profile == Config::DEBUG_PROFILE {
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tokio::task::spawn_blocking(|| {
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let this = std::thread::current();
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if !this.name().map_or(false, |s| s.starts_with("rocket-worker")) {
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warn!("Rocket is executing inside of a custom runtime.");
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info_!("Rocket's runtime is enabled via `#[rocket::main]` or `#[launch]`.");
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info_!("Forced shutdown is disabled. Runtime settings may be suboptimal.");
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}
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});
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}
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// Set up cancellable I/O from the given listener. Shutdown occurs when
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// `Shutdown` (`TripWire`) resolves. This can occur directly through a
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// notification or indirectly through an external signal which, when
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// received, results in triggering the notify.
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let shutdown = self.shutdown();
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let sig_stream = self.config.shutdown.signal_stream();
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let grace = self.config.shutdown.grace as u64;
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let mercy = self.config.shutdown.mercy as u64;
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// Start a task that listens for external signals and notifies shutdown.
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if let Some(mut stream) = sig_stream {
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let shutdown = shutdown.clone();
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tokio::spawn(async move {
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while let Some(sig) = stream.next().await {
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if shutdown.0.tripped() {
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warn!("Received {}. Shutdown already in progress.", sig);
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} else {
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warn!("Received {}. Requesting shutdown.", sig);
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}
|
|
|
|
shutdown.0.trip();
|
|
}
|
|
});
|
|
}
|
|
|
|
// Save the keep-alive value for later use; we're about to move `self`.
|
|
let keep_alive = self.config.keep_alive;
|
|
|
|
// Create the Hyper `Service`.
|
|
let rocket = Arc::new(self);
|
|
let service_fn = |conn: &CancellableIo<_, L::Connection>| {
|
|
let rocket = rocket.clone();
|
|
let connection = ConnectionMeta {
|
|
remote: conn.peer_address(),
|
|
client_certificates: conn.peer_certificates(),
|
|
};
|
|
|
|
async move {
|
|
Ok::<_, std::convert::Infallible>(hyper::service::service_fn(move |req| {
|
|
hyper_service_fn(rocket.clone(), connection.clone(), req)
|
|
}))
|
|
}
|
|
};
|
|
|
|
// NOTE: `hyper` uses `tokio::spawn()` as the default executor.
|
|
let listener = CancellableListener::new(shutdown.clone(), listener, grace, mercy);
|
|
let builder = hyper::server::Server::builder(Incoming::new(listener).nodelay(true));
|
|
|
|
#[cfg(feature = "http2")]
|
|
let builder = builder.http2_keep_alive_interval(match keep_alive {
|
|
0 => None,
|
|
n => Some(Duration::from_secs(n as u64))
|
|
});
|
|
|
|
let server = builder
|
|
.http1_keepalive(keep_alive != 0)
|
|
.http1_preserve_header_case(true)
|
|
.serve(hyper::service::make_service_fn(service_fn))
|
|
.with_graceful_shutdown(shutdown.clone());
|
|
|
|
// This deserves some explanation.
|
|
//
|
|
// This is largely to deal with Hyper's dreadful and largely nonexistent
|
|
// handling of shutdown, in general, nevermind graceful.
|
|
//
|
|
// When Hyper receives a "graceful shutdown" request, it stops accepting
|
|
// new requests. That's it. It continues to process existing requests
|
|
// and outgoing responses forever and never cancels them. As a result,
|
|
// Rocket must take it upon itself to cancel any existing I/O.
|
|
//
|
|
// To do so, Rocket wraps all connections in a `CancellableIo` struct,
|
|
// an internal structure that gracefully closes I/O when it receives a
|
|
// signal. That signal is the `shutdown` future. When the future
|
|
// resolves, `CancellableIo` begins to terminate in grace, mercy, and
|
|
// finally force close phases. Since all connections are wrapped in
|
|
// `CancellableIo`, this eventually ends all I/O.
|
|
//
|
|
// At that point, unless a user spawned an infinite, stand-alone task
|
|
// that isn't monitoring `Shutdown`, all tasks should resolve. This
|
|
// means that all instances of the shared `Arc<Rocket>` are dropped and
|
|
// we can return the owned instance of `Rocket`.
|
|
//
|
|
// Unfortunately, the Hyper `server` future resolves as soon as it has
|
|
// finishes processing requests without respect for ongoing responses.
|
|
// That is, `server` resolves even when there are running tasks that are
|
|
// generating a response. So, `server` resolving implies little to
|
|
// nothing about the state of connections. As a result, we depend on the
|
|
// timing of grace + mercy + some buffer to determine when all
|
|
// connections should be closed, thus all tasks should be complete, thus
|
|
// all references to `Arc<Rocket>` should be dropped and we can get a
|
|
// unique reference.
|
|
tokio::pin!(server);
|
|
tokio::select! {
|
|
biased;
|
|
|
|
_ = shutdown => {
|
|
// Run shutdown fairings. We compute `sleep()` for grace periods
|
|
// beforehand to ensure we don't add shutdown fairing completion
|
|
// time, which is arbitrary, to these periods.
|
|
info!("Shutdown requested. Waiting for pending I/O...");
|
|
let grace_timer = sleep(Duration::from_secs(grace));
|
|
let mercy_timer = sleep(Duration::from_secs(grace + mercy));
|
|
let shutdown_timer = sleep(Duration::from_secs(grace + mercy + 1));
|
|
rocket.fairings.handle_shutdown(&*rocket).await;
|
|
|
|
tokio::pin!(grace_timer, mercy_timer, shutdown_timer);
|
|
tokio::select! {
|
|
biased;
|
|
|
|
result = &mut server => {
|
|
if let Err(e) = result {
|
|
warn!("Server failed while shutting down: {}", e);
|
|
return Err(Error::shutdown(rocket.clone(), e));
|
|
}
|
|
|
|
if Arc::strong_count(&rocket) != 1 { grace_timer.await; }
|
|
if Arc::strong_count(&rocket) != 1 { mercy_timer.await; }
|
|
if Arc::strong_count(&rocket) != 1 { shutdown_timer.await; }
|
|
match Arc::try_unwrap(rocket) {
|
|
Ok(rocket) => {
|
|
info!("Graceful shutdown completed successfully.");
|
|
Ok(rocket)
|
|
}
|
|
Err(rocket) => {
|
|
warn!("Shutdown failed: outstanding background I/O.");
|
|
Err(Error::shutdown(rocket, None))
|
|
}
|
|
}
|
|
}
|
|
_ = &mut shutdown_timer => {
|
|
warn!("Shutdown failed: server executing after timeouts.");
|
|
return Err(Error::shutdown(rocket.clone(), None));
|
|
},
|
|
}
|
|
}
|
|
result = &mut server => {
|
|
match result {
|
|
Ok(()) => {
|
|
info!("Server shutdown nominally.");
|
|
Ok(Arc::try_unwrap(rocket).map_err(|r| Error::shutdown(r, None))?)
|
|
}
|
|
Err(e) => {
|
|
info!("Server failed prior to shutdown: {}:", e);
|
|
Err(Error::shutdown(rocket.clone(), e))
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|