//! Types representing various errors that can occur in a Rocket application. use std::{io, fmt}; use std::sync::atomic::{Ordering, AtomicBool}; use yansi::Paint; use crate::router::Route; /// An error that occurs during launch. /// /// An `Error` is returned by [`launch()`](crate::Rocket::launch()) when /// launching an application fails or, more rarely, when the runtime fails after /// lauching. /// /// # Panics /// /// A value of this type panics if it is dropped without first being inspected. /// An _inspection_ occurs when any method is called. For instance, if /// `println!("Error: {}", e)` is called, where `e: Error`, the `Display::fmt` /// method being called by `println!` results in `e` being marked as inspected; /// a subsequent `drop` of the value will _not_ result in a panic. The following /// snippet illustrates this: /// /// ```rust /// # let _ = async { /// if let Err(error) = rocket::ignite().launch().await { /// // This println "inspects" the error. /// println!("Launch failed! Error: {}", error); /// /// // This call to drop (explicit here for demonstration) will do nothing. /// drop(error); /// } /// # }; /// ``` /// /// When a value of this type panics, the corresponding error message is pretty /// printed to the console. The following illustrates this: /// /// ```rust /// # let _ = async { /// let error = rocket::ignite().launch().await; /// /// // This call to drop (explicit here for demonstration) will result in /// // `error` being pretty-printed to the console along with a `panic!`. /// drop(error); /// # }; /// ``` /// /// # Usage /// /// An `Error` value should usually be allowed to `drop` without inspection. /// There are at least two exceptions: /// /// 1. If you are writing a library or high-level application on-top of /// Rocket, you likely want to inspect the value before it drops to avoid a /// Rocket-specific `panic!`. This typically means simply printing the /// value. /// /// 2. You want to display your own error messages. pub struct Error { handled: AtomicBool, kind: ErrorKind } /// The kind error that occurred. /// /// In almost every instance, a launch error occurs because of an I/O error; /// this is represented by the `Io` variant. A launch error may also occur /// because of ill-defined routes that lead to collisions or because a fairing /// encountered an error; these are represented by the `Collision` and /// `FailedFairing` variants, respectively. #[derive(Debug)] pub enum ErrorKind { /// Binding to the provided address/port failed. Bind(io::Error), /// An I/O error occurred during launch. Io(io::Error), /// An I/O error occurred in the runtime. Runtime(Box), /// Route collisions were detected. Collision(Vec<(Route, Route)>), /// A launch fairing reported an error. FailedFairings(Vec<&'static str>), } impl From for Error { fn from(kind: ErrorKind) -> Self { Error::new(kind) } } impl Error { #[inline(always)] pub(crate) fn new(kind: ErrorKind) -> Error { Error { handled: AtomicBool::new(false), kind } } #[inline(always)] fn was_handled(&self) -> bool { self.handled.load(Ordering::Acquire) } #[inline(always)] fn mark_handled(&self) { self.handled.store(true, Ordering::Release) } /// Retrieve the `kind` of the launch error. /// /// # Example /// /// ```rust /// use rocket::error::ErrorKind; /// /// # let _ = async { /// if let Err(error) = rocket::ignite().launch().await { /// match error.kind() { /// ErrorKind::Io(e) => println!("found an i/o launch error: {}", e), /// e => println!("something else happened: {}", e) /// } /// } /// # }; /// ``` #[inline] pub fn kind(&self) -> &ErrorKind { self.mark_handled(); &self.kind } } impl fmt::Display for ErrorKind { #[inline] fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { ErrorKind::Bind(e) => write!(f, "binding failed: {}", e), ErrorKind::Io(e) => write!(f, "I/O error: {}", e), ErrorKind::Collision(_) => write!(f, "route collisions detected"), ErrorKind::FailedFairings(_) => write!(f, "a launch fairing failed"), ErrorKind::Runtime(e) => write!(f, "runtime error: {}", e) } } } impl fmt::Debug for Error { #[inline] fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { self.mark_handled(); self.kind().fmt(f) } } impl fmt::Display for Error { #[inline] fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { self.mark_handled(); write!(f, "{}", self.kind()) } } impl Drop for Error { fn drop(&mut self) { if self.was_handled() { return } match *self.kind() { ErrorKind::Bind(ref e) => { error!("Rocket failed to bind network socket to given address/port."); info_!("{}", e); panic!("aborting due to binding o error"); } ErrorKind::Io(ref e) => { error!("Rocket failed to launch due to an I/O error."); info_!("{}", e); panic!("aborting due to i/o error"); } ErrorKind::Collision(ref collisions) => { error!("Rocket failed to launch due to the following routing collisions:"); for &(ref a, ref b) in collisions { info_!("{} {} {}", a, Paint::red("collides with").italic(), b) } info_!("Note: Collisions can usually be resolved by ranking routes."); panic!("route collisions detected"); } ErrorKind::FailedFairings(ref failures) => { error!("Rocket failed to launch due to failing fairings:"); for fairing in failures { info_!("{}", fairing); } panic!("aborting due to launch fairing failure"); } ErrorKind::Runtime(ref err) => { error!("An error occured in the runtime:"); info_!("{}", err); panic!("aborting due to runtime failure"); } } } } use crate::http::uri; use crate::http::ext::IntoOwned; use crate::http::route::Error as SegmentError; /// Error returned by [`Route::map_base()`] on invalid URIs. #[derive(Debug)] pub enum RouteUriError { /// The base (mount point) or route path contains invalid segments. Segment, /// The route URI is not a valid URI. Uri(uri::Error<'static>), /// The base (mount point) contains dynamic segments. DynamicBase, } impl<'a> From<(&'a str, SegmentError<'a>)> for RouteUriError { fn from(_: (&'a str, SegmentError<'a>)) -> Self { RouteUriError::Segment } } impl<'a> From> for RouteUriError { fn from(error: uri::Error<'a>) -> Self { RouteUriError::Uri(error.into_owned()) } } impl fmt::Display for RouteUriError { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { RouteUriError::Segment => { write!(f, "The URI contains malformed dynamic route path segments.") } RouteUriError::DynamicBase => { write!(f, "The mount point contains dynamic parameters.") } RouteUriError::Uri(error) => { write!(f, "Malformed URI: {}", error) } } } }