Rocket/core/lib/src/rocket.rs

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use std::collections::HashMap;
use std::convert::{From, TryInto};
use std::cmp::min;
use std::io;
use std::mem;
use std::net::ToSocketAddrs;
use std::sync::Arc;
use std::time::Duration;
use futures::future::{Future, FutureExt, BoxFuture};
use futures::channel::{mpsc, oneshot};
use futures::stream::StreamExt;
use futures::task::SpawnExt;
use futures_tokio_compat::Compat as TokioCompat;
use yansi::Paint;
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use state::Container;
#[cfg(feature = "tls")] use crate::http::tls::TlsAcceptor;
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use crate::{logger, handler};
use crate::config::{Config, FullConfig, ConfigError, LoggedValue};
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use crate::request::{Request, FormItems};
use crate::data::Data;
use crate::response::{Body, Response};
use crate::router::{Router, Route};
use crate::catcher::{self, Catcher};
use crate::outcome::Outcome;
use crate::error::{LaunchError, LaunchErrorKind};
use crate::fairing::{Fairing, Fairings};
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use crate::logger::PaintExt;
use crate::ext::AsyncReadExt;
use crate::shutdown::{ShutdownHandle, ShutdownHandleManaged};
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use crate::http::{Method, Status, Header};
use crate::http::hyper::{self, header};
use crate::http::uri::Origin;
/// The main `Rocket` type: used to mount routes and catchers and launch the
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/// application.
pub struct Rocket {
pub(crate) config: Config,
router: Router,
default_catchers: HashMap<u16, Catcher>,
catchers: HashMap<u16, Catcher>,
pub(crate) state: Container,
Remove Session in favor of private cookies. New testing API. Sessions -------- This commit removes the `Session` type in favor of methods on the `Cookies` types that allow for adding, removing, and getting private (signed and encrypted) cookies. These methods provide a superset of the functionality of `Session` while also being a minimal addition to the existing API. They can be used to implement the previous `Session` type as well as other forms of session storage. The new methods are: * Cookie::add_private(&mut self, Cookie) * Cookie::remove_private(&mut self, Cookie) * Cookie::get_private(&self, &str) Resolves #20 Testing ------- This commit removes the `rocket::testing` module. It adds the `rocket::local` module which provides a `Client` type for local dispatching of requests against a `Rocket` instance. This `local` package subsumes the previous `testing` package. Rocket Examples --------------- The `forms`, `optional_result`, and `hello_alt_methods` examples have been removed. The following example have been renamed: * extended_validation -> form_validation * hello_ranks -> ranking * from_request -> request_guard * hello_tls -> tls Other Changes ------------- This commit also includes the following smaller changes: * Config::{development, staging, production} constructors have been added for easier creation of default `Config` structures. * The `Config` type is exported from the root. * `Request` implements `Clone` and `Debug`. * `Request::new` is no longer exported. * A `Response::body_bytes` method was added to easily retrieve a response's body as a `Vec<u8>`.
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fairings: Fairings,
shutdown_handle: ShutdownHandle,
shutdown_receiver: Option<mpsc::Receiver<()>>,
}
// This function tries to hide all of the Hyper-ness from Rocket. It
// essentially converts Hyper types into Rocket types, then calls the
// `dispatch` function, which knows nothing about Hyper. Because responding
// depends on the `HyperResponse` type, this function does the actual
// response processing.
fn hyper_service_fn(
rocket: Arc<Rocket>,
h_addr: std::net::SocketAddr,
mut spawn: impl futures::task::Spawn,
hyp_req: hyper::Request<hyper::Body>,
) -> impl Future<Output = Result<hyper::Response<hyper::Body>, io::Error>> {
// This future must return a hyper::Response, but that's not easy
// because the response body might borrow from the request. Instead,
// we do the body writing in another future that will send us
// the response metadata (and a body channel) beforehand.
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let (tx, rx) = oneshot::channel();
spawn.spawn(async move {
// Get all of the information from Hyper.
let (h_parts, h_body) = hyp_req.into_parts();
// Convert the Hyper request into a Rocket request.
let req_res = Request::from_hyp(&rocket, h_parts.method, h_parts.headers, h_parts.uri, h_addr);
let mut req = match req_res {
Ok(req) => req,
Err(e) => {
error!("Bad incoming request: {}", e);
// TODO: We don't have a request to pass in, so we just
// fabricate one. This is weird. We should let the user know
// that we failed to parse a request (by invoking some special
// handler) instead of doing this.
let dummy = Request::new(&rocket, Method::Get, Origin::dummy());
let r = rocket.handle_error(Status::BadRequest, &dummy).await;
return rocket.issue_response(r, tx).await;
}
};
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// Retrieve the data from the hyper body.
let data = Data::from_hyp(h_body).await;
// Dispatch the request to get a response, then write that response out.
let r = rocket.dispatch(&mut req, data).await;
rocket.issue_response(r, tx).await;
}).expect("failed to spawn handler");
async move {
Ok(rx.await.expect("TODO.async: sender was dropped, error instead"))
}
}
impl Rocket {
// TODO.async: Reconsider io::Result
#[inline]
fn issue_response<'r>(
&self,
response: Response<'r>,
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tx: oneshot::Sender<hyper::Response<hyper::Body>>,
) -> impl Future<Output = ()> + 'r {
let result = self.write_response(response, tx);
async move {
match result.await {
Ok(()) => {
info_!("{}", Paint::green("Response succeeded."));
}
Err(e) => {
error_!("Failed to write response: {:?}.", e);
}
}
}
}
#[inline]
fn write_response<'r>(
&self,
mut response: Response<'r>,
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tx: oneshot::Sender<hyper::Response<hyper::Body>>,
) -> impl Future<Output = io::Result<()>> + 'r {
async move {
let mut hyp_res = hyper::Response::builder();
hyp_res.status(response.status().code);
for header in response.headers().iter() {
let name = header.name.as_str();
let value = header.value.as_bytes();
hyp_res.header(name, value);
}
let send_response = move |mut hyp_res: hyper::ResponseBuilder, body| -> io::Result<()> {
let response = hyp_res.body(body).map_err(|e| io::Error::new(io::ErrorKind::Other, e))?;
tx.send(response).expect("channel receiver should not be dropped");
Ok(())
};
match response.body() {
None => {
hyp_res.header(header::CONTENT_LENGTH, "0");
send_response(hyp_res, hyper::Body::empty())?;
}
Some(Body::Sized(body, size)) => {
hyp_res.header(header::CONTENT_LENGTH, size.to_string());
let (mut sender, hyp_body) = hyper::Body::channel();
send_response(hyp_res, hyp_body)?;
let mut stream = body.into_chunk_stream(4096);
while let Some(next) = stream.next().await {
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sender.send_data(next?).await.expect("TODO.async client gone?");
}
}
Some(Body::Chunked(body, chunk_size)) => {
// TODO.async: This is identical to Body::Sized except for the chunk size
let (mut sender, hyp_body) = hyper::Body::channel();
send_response(hyp_res, hyp_body)?;
let mut stream = body.into_chunk_stream(chunk_size.try_into().expect("u64 -> usize overflow"));
while let Some(next) = stream.next().await {
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sender.send_data(next?).await.expect("TODO.async client gone?");
}
}
};
Ok(())
}
}
}
impl Rocket {
/// Preprocess the request for Rocket things. Currently, this means:
///
/// * Rewriting the method in the request if _method form field exists.
///
/// Keep this in-sync with derive_form when preprocessing form fields.
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fn preprocess_request(&self, req: &mut Request<'_>, data: &Data) {
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// Check if this is a form and if the form contains the special _method
// field which we use to reinterpret the request's method.
let data_len = data.peek().len();
let (min_len, max_len) = ("_method=get".len(), "_method=delete".len());
let is_form = req.content_type().map_or(false, |ct| ct.is_form());
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if is_form && req.method() == Method::Post && data_len >= min_len {
if let Ok(form) = std::str::from_utf8(&data.peek()[..min(data_len, max_len)]) {
let method: Option<Result<Method, _>> = FormItems::from(form)
.filter(|item| item.key.as_str() == "_method")
.map(|item| item.value.parse())
.next();
if let Some(Ok(method)) = method {
req.set_method(method);
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}
}
}
}
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#[inline]
pub(crate) fn dispatch<'s, 'r: 's>(
&'s self,
request: &'r mut Request<'s>,
data: Data
) -> impl Future<Output = Response<'r>> + 's {
async move {
info!("{}:", request);
// Do a bit of preprocessing before routing.
self.preprocess_request(request, &data);
// Run the request fairings.
self.fairings.handle_request(request, &data);
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// Remember if the request is a `HEAD` request for later body stripping.
let was_head_request = request.method() == Method::Head;
// Route the request and run the user's handlers.
let mut response = self.route_and_process(request, data).await;
// Add a default 'Server' header if it isn't already there.
// TODO: If removing Hyper, write out `Date` header too.
if !response.headers().contains("Server") {
response.set_header(Header::new("Server", "Rocket"));
}
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// Run the response fairings.
self.fairings.handle_response(request, &mut response).await;
// Strip the body if this is a `HEAD` request.
if was_head_request {
response.strip_body();
}
response
}
}
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/// Route the request and process the outcome to eventually get a response.
fn route_and_process<'s, 'r: 's>(
&'s self,
request: &'r Request<'s>,
data: Data
) -> impl Future<Output = Response<'r>> + Send + 's {
async move {
let mut response = match self.route(request, data).await {
Outcome::Success(response) => response,
Outcome::Forward(data) => {
// There was no matching route. Autohandle `HEAD` requests.
if request.method() == Method::Head {
info_!("Autohandling {} request.", Paint::default("HEAD").bold());
// Dispatch the request again with Method `GET`.
request._set_method(Method::Get);
// Return early so we don't set cookies twice.
let try_next: BoxFuture<'_, _> = Box::pin(self.route_and_process(request, data));
return try_next.await;
} else {
// No match was found and it can't be autohandled. 404.
self.handle_error(Status::NotFound, request).await
}
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}
Outcome::Failure(status) => self.handle_error(status, request).await,
};
// Set the cookies. Note that error responses will only include
// cookies set by the error handler. See `handle_error` for more.
for cookie in request.cookies().delta() {
response.adjoin_header(cookie);
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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
/// 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
/// additional routes to try (forward). The corresponding outcome for each
/// condition is returned.
//
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// TODO: We _should_ be able to take an `&mut` here and mutate the request
// at any pointer _before_ we pass it to a handler as long as we drop the
// outcome. That should be safe. Since no mutable borrow can be held
// (ensuring `handler` takes an immutable borrow), any caller to `route`
// should be able to supply an `&mut` and retain an `&` after the call.
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#[inline]
pub(crate) fn route<'s, 'r: 's>(
&'s self,
request: &'r Request<'s>,
mut data: Data,
) -> impl Future<Output = handler::Outcome<'r>> + 's {
async move {
// Go through the list of matching routes until we fail or succeed.
let matches = self.router.route(request);
for route in matches {
// Retrieve and set the requests parameters.
info_!("Matched: {}", route);
request.set_route(route);
// Dispatch the request to the handler.
let outcome = route.handler.handle(request, data).await;
// Check if the request processing completed (Some) or if the request needs
// to be forwarded. If it does, continue the loop (None) to try again.
info_!("{} {}", Paint::default("Outcome:").bold(), outcome);
match outcome {
o@Outcome::Success(_) | o@Outcome::Failure(_) => return o,
Outcome::Forward(unused_data) => data = unused_data,
}
}
error_!("No matching routes for {}.", request);
Outcome::Forward(data)
}
}
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// Finds the error catcher for the status `status` and executes it for the
// given request `req`. If a user has registered a catcher for `status`, the
// catcher is called. If the catcher fails to return a good response, the
// 500 catcher is executed. If there is no registered catcher for `status`,
// the default catcher is used.
pub(crate) fn handle_error<'s, 'r: 's>(
&'s self,
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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status: Status,
req: &'r Request<'s>
) -> impl Future<Output = Response<'r>> + 's {
async move {
warn_!("Responding with {} catcher.", Paint::red(&status));
// For now, we reset the delta state to prevent any modifications
// from earlier, unsuccessful paths from being reflected in error
// response. We may wish to relax this in the future.
req.cookies().reset_delta();
// Try to get the active catcher but fallback to user's 500 catcher.
let catcher = self.catchers.get(&status.code).unwrap_or_else(|| {
error_!("No catcher found for {}. Using 500 catcher.", status);
self.catchers.get(&500).expect("500 catcher.")
});
// Dispatch to the user's catcher. If it fails, use the default 500.
match catcher.handle(req).await {
Ok(r) => return r,
Err(err_status) => {
error_!("Catcher failed with status: {}!", err_status);
warn_!("Using default 500 error catcher.");
let default = self.default_catchers.get(&500).expect("Default 500");
default.handle(req).await.expect("Default 500 response.")
}
}
}
}
}
impl Rocket {
/// Create a new `Rocket` application using the configuration information in
/// `Rocket.toml`. If the file does not exist or if there is an I/O error
/// reading the file, the defaults, overridden by any environment-based
/// paramparameters, are used. See the [`config`](crate::config)
/// documentation for more information on defaults.
///
/// This method is typically called through the
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/// [`rocket::ignite()`](crate::ignite) alias.
///
/// # Panics
///
/// If there is an error reading configuration sources, this function prints
/// a nice error message and then exits the process.
///
/// # Examples
///
/// ```rust
/// # {
/// rocket::ignite()
/// # };
/// ```
pub fn ignite() -> Rocket {
Config::read()
.or_else(|e| match e {
ConfigError::IoError => {
warn!("Failed to read 'Rocket.toml'. Using defaults.");
Ok(FullConfig::env_default()?.take_active())
}
ConfigError::NotFound => Ok(FullConfig::env_default()?.take_active()),
_ => Err(e)
})
.map(Rocket::configured)
.unwrap_or_else(|e: ConfigError| {
logger::init(logger::LoggingLevel::Debug);
e.pretty_print();
std::process::exit(1)
})
}
/// Creates a new `Rocket` application using the supplied custom
/// configuration. The `Rocket.toml` file, if present, is ignored. Any
/// environment variables setting config parameters are ignored.
///
/// This method is typically called through the `rocket::custom` alias.
///
/// # Examples
///
/// ```rust
/// use rocket::config::{Config, Environment};
/// # use rocket::config::ConfigError;
///
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/// # #[allow(dead_code)]
/// # fn try_config() -> Result<(), ConfigError> {
/// let config = Config::build(Environment::Staging)
/// .address("1.2.3.4")
/// .port(9234)
/// .finalize()?;
///
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/// # #[allow(unused_variables)]
/// let app = rocket::custom(config);
/// # Ok(())
/// # }
/// ```
#[inline]
pub fn custom(config: Config) -> Rocket {
Rocket::configured(config)
}
#[inline]
fn configured(config: Config) -> Rocket {
if logger::try_init(config.log_level, false) {
// Temporary weaken log level for launch info.
logger::push_max_level(logger::LoggingLevel::Normal);
}
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launch_info!("{}Configured for {}.", Paint::emoji("🔧 "), config.environment);
launch_info_!("address: {}", Paint::default(&config.address).bold());
launch_info_!("port: {}", Paint::default(&config.port).bold());
launch_info_!("log: {}", Paint::default(config.log_level).bold());
launch_info_!("workers: {}", Paint::default(config.workers).bold());
launch_info_!("secret key: {}", Paint::default(&config.secret_key).bold());
launch_info_!("limits: {}", Paint::default(&config.limits).bold());
match config.keep_alive {
Some(v) => launch_info_!("keep-alive: {}", Paint::default(format!("{}s", v)).bold()),
None => launch_info_!("keep-alive: {}", Paint::default("disabled").bold()),
}
let tls_configured = config.tls.is_some();
if tls_configured && cfg!(feature = "tls") {
launch_info_!("tls: {}", Paint::default("enabled").bold());
} else if tls_configured {
error_!("tls: {}", Paint::default("disabled").bold());
error_!("tls is configured, but the tls feature is disabled");
} else {
launch_info_!("tls: {}", Paint::default("disabled").bold());
}
if config.secret_key.is_generated() && config.environment.is_prod() {
warn!("environment is 'production', but no `secret_key` is configured");
}
for (name, value) in config.extras() {
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launch_info_!("{} {}: {}",
Paint::yellow("[extra]"), name,
Paint::default(LoggedValue(value)).bold());
}
let (shutdown_sender, shutdown_receiver) = mpsc::channel(1);
let rocket = Rocket {
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config,
router: Router::new(),
default_catchers: catcher::defaults::get(),
catchers: catcher::defaults::get(),
state: Container::new(),
fairings: Fairings::new(),
shutdown_handle: ShutdownHandle(shutdown_sender),
shutdown_receiver: Some(shutdown_receiver),
};
rocket.state.set(ShutdownHandleManaged(rocket.shutdown_handle.clone()));
rocket
}
/// Mounts all of the routes in the supplied vector at the given `base`
/// path. Mounting a route with path `path` at path `base` makes the route
/// available at `base/path`.
///
/// # Panics
///
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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/// Panics if the `base` mount point is not a valid static path: a valid
/// origin URI without dynamic parameters.
///
/// Panics if any route's URI is not a valid origin URI. This kind of panic
/// is guaranteed not to occur if the routes were generated using Rocket's
/// code generation.
///
/// # Examples
///
/// Use the `routes!` macro to mount routes created using the code
/// generation facilities. Requests to the `/hello/world` URI will be
/// dispatched to the `hi` route.
///
/// ```rust
/// # #![feature(proc_macro_hygiene)]
/// # #[macro_use] extern crate rocket;
/// #
/// #[get("/world")]
/// fn hi() -> &'static str {
/// "Hello!"
/// }
///
/// fn main() {
/// # if false { // We don't actually want to launch the server in an example.
/// rocket::ignite().mount("/hello", routes![hi])
/// # .launch();
/// # }
/// }
/// ```
///
/// Manually create a route named `hi` at path `"/world"` mounted at base
/// `"/hello"`. Requests to the `/hello/world` URI will be dispatched to the
/// `hi` route.
///
/// ```rust
/// use rocket::{Request, Route, Data};
/// use rocket::handler::{HandlerFuture, Outcome};
/// use rocket::http::Method::*;
///
/// fn hi<'r>(req: &'r Request, _: Data) -> HandlerFuture<'r> {
/// Outcome::from(req, "Hello!")
/// }
///
/// # if false { // We don't actually want to launch the server in an example.
/// rocket::ignite().mount("/hello", vec![Route::new(Get, "/world", hi)])
/// # .launch();
/// # }
/// ```
#[inline]
pub fn mount<R: Into<Vec<Route>>>(mut self, base: &str, routes: R) -> Self {
info!("{}{} {}{}",
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Paint::emoji("🛰 "),
Paint::magenta("Mounting"),
Paint::blue(base),
Paint::magenta(":"));
let base_uri = Origin::parse(base)
.unwrap_or_else(|e| {
error_!("Invalid origin URI '{}' used as mount point.", base);
panic!("Error: {}", e);
});
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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if base_uri.query().is_some() {
error_!("Mount point '{}' contains query string.", base);
panic!("Invalid mount point.");
}
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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for mut route in routes.into() {
let path = route.uri.clone();
if let Err(e) = route.set_uri(base_uri.clone(), path) {
error_!("{}", e);
panic!("Invalid route URI.");
}
info_!("{}", route);
self.router.add(route);
}
self
}
/// Registers all of the catchers in the supplied vector.
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///
/// # Examples
///
/// ```rust
/// # #![feature(proc_macro_hygiene)]
/// # #[macro_use] extern crate rocket;
/// use rocket::Request;
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///
/// #[catch(500)]
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/// fn internal_error() -> &'static str {
/// "Whoops! Looks like we messed up."
/// }
///
/// #[catch(400)]
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/// fn not_found(req: &Request) -> String {
/// format!("I couldn't find '{}'. Try something else?", req.uri())
/// }
///
/// fn main() {
/// # if false { // We don't actually want to launch the server in an example.
/// rocket::ignite()
/// .register(catchers![internal_error, not_found])
/// # .launch();
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/// # }
/// }
/// ```
#[inline]
pub fn register(mut self, catchers: Vec<Catcher>) -> Self {
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info!("{}{}", Paint::emoji("👾 "), Paint::magenta("Catchers:"));
for c in catchers {
if self.catchers.get(&c.code).map_or(false, |e| !e.is_default) {
info_!("{} {}", c, Paint::yellow("(warning: duplicate catcher!)"));
} else {
info_!("{}", c);
}
self.catchers.insert(c.code, c);
}
self
}
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/// Add `state` to the state managed by this instance of Rocket.
///
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/// This method can be called any number of times as long as each call
/// refers to a different `T`.
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///
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/// Managed state can be retrieved by any request handler via the
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/// [`State`](crate::State) request guard. In particular, if a value of type `T`
/// is managed by Rocket, adding `State<T>` to the list of arguments in a
/// request handler instructs Rocket to retrieve the managed value.
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///
/// # Panics
///
/// Panics if state of type `T` is already being managed.
///
/// # Example
///
/// ```rust
/// # #![feature(proc_macro_hygiene)]
/// # #[macro_use] extern crate rocket;
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/// use rocket::State;
///
/// struct MyValue(usize);
///
/// #[get("/")]
/// fn index(state: State<MyValue>) -> String {
/// format!("The stateful value is: {}", state.0)
/// }
///
/// fn main() {
/// # if false { // We don't actually want to launch the server in an example.
/// rocket::ignite()
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/// .mount("/", routes![index])
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/// .manage(MyValue(10))
/// .launch();
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/// # }
/// }
/// ```
#[inline]
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pub fn manage<T: Send + Sync + 'static>(self, state: T) -> Self {
if !self.state.set::<T>(state) {
error!("State for this type is already being managed!");
panic!("Aborting due to duplicately managed state.");
}
self
}
/// Attaches a fairing to this instance of Rocket. If the fairing is an
/// _attach_ fairing, it is run immediately. All other kinds of fairings
/// will be executed at their appropriate time.
///
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/// # Example
///
/// ```rust
/// # #![feature(proc_macro_hygiene)]
/// # #[macro_use] extern crate rocket;
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/// use rocket::Rocket;
/// use rocket::fairing::AdHoc;
///
/// fn main() {
/// # if false { // We don't actually want to launch the server in an example.
/// rocket::ignite()
/// .attach(AdHoc::on_launch("Launch Message", |_| {
/// println!("Rocket is launching!");
/// }))
/// .launch();
/// # }
/// }
/// ```
#[inline]
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pub fn attach<F: Fairing>(mut self, fairing: F) -> Self {
// Attach (and run attach) fairings, which requires us to move `self`.
let mut fairings = mem::replace(&mut self.fairings, Fairings::new());
self = fairings.attach(Box::new(fairing), self);
// Make sure we keep all fairings around: the old and newly added ones!
fairings.append(self.fairings);
self.fairings = fairings;
self
}
pub(crate) fn prelaunch_check(mut self) -> Result<Rocket, LaunchError> {
self.router = match self.router.collisions() {
Ok(router) => router,
Err(e) => return Err(LaunchError::new(LaunchErrorKind::Collision(e)))
};
if let Some(failures) = self.fairings.failures() {
return Err(LaunchError::new(LaunchErrorKind::FailedFairings(failures.to_vec())))
}
Ok(self)
}
/// Similar to `launch()`, but using a custom Tokio runtime and returning
/// a `Future` that completes along with the server. The runtime has no
/// restrictions other than being Tokio-based, and can have other tasks
/// running on it.
///
/// # Example
///
/// ```rust
/// use futures::future::FutureExt;
///
/// // This gives us the default behavior. Alternatively, we could use a
/// // `tokio::runtime::Builder` to configure with greater detail.
/// let runtime = tokio::runtime::Runtime::new().expect("error creating runtime");
///
/// # if false {
/// let server_done = rocket::ignite().spawn_on(&runtime).expect("error launching server");
/// runtime.block_on(async move {
/// let result = server_done.await;
/// assert!(result.is_ok());
/// });
/// # }
/// ```
pub fn spawn_on(
mut self,
runtime: &tokio::runtime::Runtime,
) -> Result<impl Future<Output = Result<(), hyper::Error>>, LaunchError> {
#[cfg(feature = "tls")] use crate::http::tls;
self = self.prelaunch_check()?;
self.fairings.pretty_print_counts();
let full_addr = format!("{}:{}", self.config.address, self.config.port);
let addrs = match full_addr.to_socket_addrs() {
Ok(a) => a.collect::<Vec<_>>(),
// TODO.async: Reconsider this error type
Err(e) => return Err(From::from(io::Error::new(io::ErrorKind::Other, e))),
};
// TODO.async: support for TLS, unix sockets.
// Likely will be implemented with a custom "Incoming" type.
let mut incoming = match hyper::AddrIncoming::bind(&addrs[0]) {
Ok(incoming) => incoming,
Err(e) => return Err(LaunchError::new(LaunchErrorKind::Bind(e))),
};
// Determine the address and port we actually binded to.
self.config.port = incoming.local_addr().port();
let proto = "http://";
// Set the keep-alive.
let timeout = self.config.keep_alive.map(|s| Duration::from_secs(s as u64));
incoming.set_keepalive(timeout);
// Freeze managed state for synchronization-free accesses later.
self.state.freeze();
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// Run the launch fairings.
self.fairings.handle_launch(&self);
launch_info!("{}{} {}{}",
Paint::emoji("🚀 "),
Paint::default("Rocket has launched from").bold(),
Paint::default(proto).bold().underline(),
Paint::default(&full_addr).bold().underline());
// Restore the log level back to what it originally was.
logger::pop_max_level();
// We need to get these values before moving `self` into an `Arc`.
let mut shutdown_receiver = self.shutdown_receiver
.take().expect("shutdown receiver has already been used");
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#[cfg(feature = "ctrl_c_shutdown")]
let shutdown_handle = self.get_shutdown_handle();
let rocket = Arc::new(self);
let spawn = Box::new(TokioCompat::new(runtime.executor()));
let service = hyper::make_service_fn(move |socket: &hyper::AddrStream| {
let rocket = rocket.clone();
let remote_addr = socket.remote_addr();
let spawn = spawn.clone();
async move {
Ok::<_, std::convert::Infallible>(hyper::service_fn(move |req| {
hyper_service_fn(rocket.clone(), remote_addr, spawn.clone(), req)
}))
}
});
#[cfg(feature = "ctrl_c_shutdown")]
let (cancel_ctrl_c_listener_sender, cancel_ctrl_c_listener_receiver) = oneshot::channel();
// NB: executor must be passed manually here, see hyperium/hyper#1537
let (future, handle) = hyper::Server::builder(incoming)
.executor(runtime.executor())
.serve(service)
.with_graceful_shutdown(async move { shutdown_receiver.next().await; })
.inspect(|_| {
#[cfg(feature = "ctrl_c_shutdown")]
let _ = cancel_ctrl_c_listener_sender.send(());
})
.remote_handle();
runtime.spawn(future);
#[cfg(feature = "ctrl_c_shutdown")]
match tokio::net::signal::ctrl_c() {
Ok(mut ctrl_c) => {
runtime.spawn(async move {
// Stop listening for `ctrl_c` if the server shuts down
// a different way to avoid waiting forever.
futures::future::select(
ctrl_c.next(),
cancel_ctrl_c_listener_receiver,
).await;
// Request the server shutdown.
shutdown_handle.shutdown();
});
},
Err(err) => {
// Signal handling isn't strictly necessary, so we can skip it
// if necessary. It's a good idea to let the user know we're
// doing so in case they are expecting certain behavior.
let message = "Not listening for shutdown keybinding.";
warn!("{}", Paint::yellow(message));
info_!("Error: {}", err);
},
}
Ok(handle)
}
/// Starts the application server and begins listening for and dispatching
/// requests to mounted routes and catchers. This function does not return
/// unless a shutdown is requested via a [`ShutdownHandle`] or there is an
/// error.
///
/// # Error
///
/// If there is a problem starting the application, a [`LaunchError`] is
/// returned. Note that a value of type `LaunchError` panics if dropped
/// without first being inspected. See the [`LaunchError`] documentation for
/// more information.
///
/// # Example
///
/// ```rust
/// # if false {
/// rocket::ignite().launch();
/// # }
/// ```
pub fn launch(self) -> Result<(), crate::error::Error> {
use crate::error::Error;
// TODO.async What meaning should config.workers have now?
// Initialize the tokio runtime
let runtime = tokio::runtime::Builder::new()
.core_threads(self.config.workers as usize)
.build()
.expect("Cannot build runtime!");
match self.spawn_on(&runtime) {
Ok(fut) => runtime.block_on(fut).map_err(Error::Run),
Err(err) => Err(Error::Launch(err)),
}
}
/// Returns a [`ShutdownHandle`], which can be used to gracefully terminate
/// the instance of Rocket. In routes, you should use the [`ShutdownHandle`]
/// request guard.
///
/// # Example
///
/// ```rust
/// # #![feature(proc_macro_hygiene)]
/// # use std::{thread, time::Duration};
/// #
/// let rocket = rocket::ignite();
/// let handle = rocket.get_shutdown_handle();
/// # let real_handle = rocket.get_shutdown_handle();
///
/// # if false {
/// thread::spawn(move || {
/// thread::sleep(Duration::from_secs(10));
/// handle.shutdown();
/// });
/// # }
/// # real_handle.shutdown();
///
/// // Shuts down after 10 seconds
/// let shutdown_result = rocket.launch();
/// assert!(shutdown_result.is_ok());
/// ```
#[inline(always)]
pub fn get_shutdown_handle(&self) -> ShutdownHandle {
self.shutdown_handle.clone()
}
/// Returns an iterator over all of the routes mounted on this instance of
/// Rocket.
///
/// # Example
///
/// ```rust
/// # #![feature(proc_macro_hygiene)]
/// # #[macro_use] extern crate rocket;
/// use rocket::Rocket;
/// use rocket::fairing::AdHoc;
///
/// #[get("/hello")]
/// fn hello() -> &'static str {
/// "Hello, world!"
/// }
///
/// fn main() {
/// let rocket = rocket::ignite()
/// .mount("/", routes![hello])
/// .mount("/hi", routes![hello]);
///
/// for route in rocket.routes() {
/// match route.base() {
/// "/" => assert_eq!(route.uri.path(), "/hello"),
/// "/hi" => assert_eq!(route.uri.path(), "/hi/hello"),
/// _ => unreachable!("only /hello, /hi/hello are expected")
/// }
/// }
///
/// assert_eq!(rocket.routes().count(), 2);
/// }
/// ```
#[inline(always)]
pub fn routes<'a>(&'a self) -> impl Iterator<Item = &'a Route> + 'a {
self.router.routes()
}
/// Returns `Some` of the managed state value for the type `T` if it is
/// being managed by `self`. Otherwise, returns `None`.
///
/// # Example
///
/// ```rust
/// #[derive(PartialEq, Debug)]
/// struct MyState(&'static str);
///
/// let rocket = rocket::ignite().manage(MyState("hello!"));
/// assert_eq!(rocket.state::<MyState>(), Some(&MyState("hello!")));
///
/// let client = rocket::local::Client::new(rocket).expect("valid rocket");
/// assert_eq!(client.rocket().state::<MyState>(), Some(&MyState("hello!")));
/// ```
#[inline(always)]
pub fn state<T: Send + Sync + 'static>(&self) -> Option<&T> {
self.state.try_get()
}
/// Returns the active configuration.
///
/// # Example
///
/// ```rust
/// # #![feature(proc_macro_hygiene)]
/// # #[macro_use] extern crate rocket;
/// use rocket::Rocket;
/// use rocket::fairing::AdHoc;
///
/// fn main() {
/// # if false { // We don't actually want to launch the server in an example.
/// rocket::ignite()
/// .attach(AdHoc::on_launch("Config Printer", |rocket| {
/// println!("Rocket launch config: {:?}", rocket.config());
/// }))
/// .launch();
/// # }
/// }
/// ```
#[inline(always)]
pub fn config(&self) -> &Config {
&self.config
}
}