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mirror of https://github.com/fafhrd91/actix-web synced 2024-11-28 01:52:57 +01:00
actix-web/src/error.rs
2018-06-14 00:19:48 +03:00

1162 lines
35 KiB
Rust

//! Error and Result module
use std::io::Error as IoError;
use std::str::Utf8Error;
use std::string::FromUtf8Error;
use std::sync::Mutex;
use std::{fmt, io, mem, result};
use actix::MailboxError;
use cookie;
use failure::{self, Backtrace, Fail};
use futures::Canceled;
use http::uri::InvalidUri;
use http::{header, Error as HttpError, StatusCode};
use http2::Error as Http2Error;
use http_range::HttpRangeParseError;
use httparse;
use serde::de::value::Error as DeError;
use serde_json::error::Error as JsonError;
use serde_urlencoded::ser::Error as FormError;
use tokio_timer::Error as TimerError;
pub use url::ParseError as UrlParseError;
// re-exports
pub use cookie::ParseError as CookieParseError;
use body::Body;
use handler::Responder;
use httprequest::HttpRequest;
use httpresponse::{HttpResponse, InnerHttpResponse};
/// A specialized [`Result`](https://doc.rust-lang.org/std/result/enum.Result.html)
/// for actix web operations
///
/// This typedef is generally used to avoid writing out
/// `actix_web::error::Error` directly and is otherwise a direct mapping to
/// `Result`.
pub type Result<T, E = Error> = result::Result<T, E>;
/// General purpose actix web error.
///
/// An actix web error is used to carry errors from `failure` or `std::error`
/// through actix in a convenient way. It can be created through through
/// converting errors with `into()`.
///
/// Whenever it is created from an external object a response error is created
/// for it that can be used to create an http response from it this means that
/// if you have access to an actix `Error` you can always get a
/// `ResponseError` reference from it.
pub struct Error {
cause: Box<ResponseError>,
backtrace: Option<Backtrace>,
}
impl Error {
/// Deprecated way to reference the underlying response error.
#[deprecated(
since = "0.6.0", note = "please use `Error::as_response_error()` instead"
)]
pub fn cause(&self) -> &ResponseError {
self.cause.as_ref()
}
/// Returns a reference to the underlying cause of this `Error` as `Fail`
pub fn as_fail(&self) -> &Fail {
self.cause.as_fail()
}
/// Returns the reference to the underlying `ResponseError`.
pub fn as_response_error(&self) -> &ResponseError {
self.cause.as_ref()
}
/// Returns a reference to the Backtrace carried by this error, if it
/// carries one.
///
/// This uses the same `Backtrace` type that `failure` uses.
pub fn backtrace(&self) -> &Backtrace {
if let Some(bt) = self.cause.backtrace() {
bt
} else {
self.backtrace.as_ref().unwrap()
}
}
/// Attempts to downcast this `Error` to a particular `Fail` type by
/// reference.
///
/// If the underlying error is not of type `T`, this will return `None`.
pub fn downcast_ref<T: Fail>(&self) -> Option<&T> {
// in the most trivial way the cause is directly of the requested type.
if let Some(rv) = Fail::downcast_ref(self.cause.as_fail()) {
return Some(rv);
}
// in the more complex case the error has been constructed from a failure
// error. This happens because we implement From<failure::Error> by
// calling compat() and then storing it here. In failure this is
// represented by a failure::Error being wrapped in a failure::Compat.
//
// So we first downcast into that compat, to then further downcast through
// the failure's Error downcasting system into the original failure.
//
// This currently requires a transmute. This could be avoided if failure
// provides a deref: https://github.com/rust-lang-nursery/failure/pull/213
let compat: Option<&failure::Compat<failure::Error>> =
Fail::downcast_ref(self.cause.as_fail());
if let Some(compat) = compat {
pub struct CompatWrappedError {
error: failure::Error,
}
let compat: &CompatWrappedError =
unsafe { &*(compat as *const _ as *const CompatWrappedError) };
compat.error.downcast_ref()
} else {
None
}
}
}
/// Helper trait to downcast a response error into a fail.
///
/// This is currently not exposed because it's unclear if this is the best way
/// to achieve the downcasting on `Error` for which this is needed.
#[doc(hidden)]
pub trait InternalResponseErrorAsFail {
#[doc(hidden)]
fn as_fail(&self) -> &Fail;
#[doc(hidden)]
fn as_mut_fail(&mut self) -> &mut Fail;
}
#[doc(hidden)]
impl<T: ResponseError> InternalResponseErrorAsFail for T {
fn as_fail(&self) -> &Fail {
self
}
fn as_mut_fail(&mut self) -> &mut Fail {
self
}
}
/// Error that can be converted to `HttpResponse`
pub trait ResponseError: Fail + InternalResponseErrorAsFail {
/// Create response for error
///
/// Internal server error is generated by default.
fn error_response(&self) -> HttpResponse {
HttpResponse::new(StatusCode::INTERNAL_SERVER_ERROR)
}
}
impl fmt::Display for Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
fmt::Display::fmt(&self.cause, f)
}
}
impl fmt::Debug for Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
if let Some(bt) = self.cause.backtrace() {
write!(f, "{:?}\n\n{:?}", &self.cause, bt)
} else {
write!(
f,
"{:?}\n\n{:?}",
&self.cause,
self.backtrace.as_ref().unwrap()
)
}
}
}
/// Convert `Error` to a `HttpResponse` instance
impl From<Error> for HttpResponse {
fn from(err: Error) -> Self {
HttpResponse::from_error(err)
}
}
/// `Error` for any error that implements `ResponseError`
impl<T: ResponseError> From<T> for Error {
fn from(err: T) -> Error {
let backtrace = if err.backtrace().is_none() {
Some(Backtrace::new())
} else {
None
};
Error {
cause: Box::new(err),
backtrace,
}
}
}
/// Compatibility for `failure::Error`
impl<T> ResponseError for failure::Compat<T> where
T: fmt::Display + fmt::Debug + Sync + Send + 'static
{}
impl From<failure::Error> for Error {
fn from(err: failure::Error) -> Error {
err.compat().into()
}
}
/// `InternalServerError` for `JsonError`
impl ResponseError for JsonError {}
/// `InternalServerError` for `FormError`
impl ResponseError for FormError {}
/// `InternalServerError` for `TimerError`
impl ResponseError for TimerError {}
/// `InternalServerError` for `UrlParseError`
impl ResponseError for UrlParseError {}
/// Return `BAD_REQUEST` for `de::value::Error`
impl ResponseError for DeError {
fn error_response(&self) -> HttpResponse {
HttpResponse::new(StatusCode::BAD_REQUEST)
}
}
/// Return `BAD_REQUEST` for `Utf8Error`
impl ResponseError for Utf8Error {
fn error_response(&self) -> HttpResponse {
HttpResponse::new(StatusCode::BAD_REQUEST)
}
}
/// Return `InternalServerError` for `HttpError`,
/// Response generation can return `HttpError`, so it is internal error
impl ResponseError for HttpError {}
/// Return `InternalServerError` for `io::Error`
impl ResponseError for io::Error {
fn error_response(&self) -> HttpResponse {
match self.kind() {
io::ErrorKind::NotFound => HttpResponse::new(StatusCode::NOT_FOUND),
io::ErrorKind::PermissionDenied => HttpResponse::new(StatusCode::FORBIDDEN),
_ => HttpResponse::new(StatusCode::INTERNAL_SERVER_ERROR),
}
}
}
/// `BadRequest` for `InvalidHeaderValue`
impl ResponseError for header::InvalidHeaderValue {
fn error_response(&self) -> HttpResponse {
HttpResponse::new(StatusCode::BAD_REQUEST)
}
}
/// `BadRequest` for `InvalidHeaderValue`
impl ResponseError for header::InvalidHeaderValueBytes {
fn error_response(&self) -> HttpResponse {
HttpResponse::new(StatusCode::BAD_REQUEST)
}
}
/// `InternalServerError` for `futures::Canceled`
impl ResponseError for Canceled {}
/// `InternalServerError` for `actix::MailboxError`
impl ResponseError for MailboxError {}
/// A set of errors that can occur during parsing HTTP streams
#[derive(Fail, Debug)]
pub enum ParseError {
/// An invalid `Method`, such as `GE.T`.
#[fail(display = "Invalid Method specified")]
Method,
/// An invalid `Uri`, such as `exam ple.domain`.
#[fail(display = "Uri error: {}", _0)]
Uri(InvalidUri),
/// An invalid `HttpVersion`, such as `HTP/1.1`
#[fail(display = "Invalid HTTP version specified")]
Version,
/// An invalid `Header`.
#[fail(display = "Invalid Header provided")]
Header,
/// A message head is too large to be reasonable.
#[fail(display = "Message head is too large")]
TooLarge,
/// A message reached EOF, but is not complete.
#[fail(display = "Message is incomplete")]
Incomplete,
/// An invalid `Status`, such as `1337 ELITE`.
#[fail(display = "Invalid Status provided")]
Status,
/// A timeout occurred waiting for an IO event.
#[allow(dead_code)]
#[fail(display = "Timeout")]
Timeout,
/// An `io::Error` that occurred while trying to read or write to a network
/// stream.
#[fail(display = "IO error: {}", _0)]
Io(#[cause] IoError),
/// Parsing a field as string failed
#[fail(display = "UTF8 error: {}", _0)]
Utf8(#[cause] Utf8Error),
}
/// Return `BadRequest` for `ParseError`
impl ResponseError for ParseError {
fn error_response(&self) -> HttpResponse {
HttpResponse::new(StatusCode::BAD_REQUEST)
}
}
impl From<IoError> for ParseError {
fn from(err: IoError) -> ParseError {
ParseError::Io(err)
}
}
impl From<InvalidUri> for ParseError {
fn from(err: InvalidUri) -> ParseError {
ParseError::Uri(err)
}
}
impl From<Utf8Error> for ParseError {
fn from(err: Utf8Error) -> ParseError {
ParseError::Utf8(err)
}
}
impl From<FromUtf8Error> for ParseError {
fn from(err: FromUtf8Error) -> ParseError {
ParseError::Utf8(err.utf8_error())
}
}
impl From<httparse::Error> for ParseError {
fn from(err: httparse::Error) -> ParseError {
match err {
httparse::Error::HeaderName
| httparse::Error::HeaderValue
| httparse::Error::NewLine
| httparse::Error::Token => ParseError::Header,
httparse::Error::Status => ParseError::Status,
httparse::Error::TooManyHeaders => ParseError::TooLarge,
httparse::Error::Version => ParseError::Version,
}
}
}
#[derive(Fail, Debug)]
/// A set of errors that can occur during payload parsing
pub enum PayloadError {
/// A payload reached EOF, but is not complete.
#[fail(display = "A payload reached EOF, but is not complete.")]
Incomplete,
/// Content encoding stream corruption
#[fail(display = "Can not decode content-encoding.")]
EncodingCorrupted,
/// A payload reached size limit.
#[fail(display = "A payload reached size limit.")]
Overflow,
/// A payload length is unknown.
#[fail(display = "A payload length is unknown.")]
UnknownLength,
/// Io error
#[fail(display = "{}", _0)]
Io(#[cause] IoError),
/// Http2 error
#[fail(display = "{}", _0)]
Http2(#[cause] Http2Error),
}
impl From<IoError> for PayloadError {
fn from(err: IoError) -> PayloadError {
PayloadError::Io(err)
}
}
/// `PayloadError` returns two possible results:
///
/// - `Overflow` returns `PayloadTooLarge`
/// - Other errors returns `BadRequest`
impl ResponseError for PayloadError {
fn error_response(&self) -> HttpResponse {
match *self {
PayloadError::Overflow => HttpResponse::new(StatusCode::PAYLOAD_TOO_LARGE),
_ => HttpResponse::new(StatusCode::BAD_REQUEST),
}
}
}
/// Return `BadRequest` for `cookie::ParseError`
impl ResponseError for cookie::ParseError {
fn error_response(&self) -> HttpResponse {
HttpResponse::new(StatusCode::BAD_REQUEST)
}
}
/// Http range header parsing error
#[derive(Fail, PartialEq, Debug)]
pub enum HttpRangeError {
/// Returned if range is invalid.
#[fail(display = "Range header is invalid")]
InvalidRange,
/// Returned if first-byte-pos of all of the byte-range-spec
/// values is greater than the content size.
/// See `https://github.com/golang/go/commit/aa9b3d7`
#[fail(
display = "First-byte-pos of all of the byte-range-spec values is greater than the content size"
)]
NoOverlap,
}
/// Return `BadRequest` for `HttpRangeError`
impl ResponseError for HttpRangeError {
fn error_response(&self) -> HttpResponse {
HttpResponse::with_body(StatusCode::BAD_REQUEST, "Invalid Range header provided")
}
}
impl From<HttpRangeParseError> for HttpRangeError {
fn from(err: HttpRangeParseError) -> HttpRangeError {
match err {
HttpRangeParseError::InvalidRange => HttpRangeError::InvalidRange,
HttpRangeParseError::NoOverlap => HttpRangeError::NoOverlap,
}
}
}
/// A set of errors that can occur during parsing multipart streams
#[derive(Fail, Debug)]
pub enum MultipartError {
/// Content-Type header is not found
#[fail(display = "No Content-type header found")]
NoContentType,
/// Can not parse Content-Type header
#[fail(display = "Can not parse Content-Type header")]
ParseContentType,
/// Multipart boundary is not found
#[fail(display = "Multipart boundary is not found")]
Boundary,
/// Multipart stream is incomplete
#[fail(display = "Multipart stream is incomplete")]
Incomplete,
/// Error during field parsing
#[fail(display = "{}", _0)]
Parse(#[cause] ParseError),
/// Payload error
#[fail(display = "{}", _0)]
Payload(#[cause] PayloadError),
}
impl From<ParseError> for MultipartError {
fn from(err: ParseError) -> MultipartError {
MultipartError::Parse(err)
}
}
impl From<PayloadError> for MultipartError {
fn from(err: PayloadError) -> MultipartError {
MultipartError::Payload(err)
}
}
/// Return `BadRequest` for `MultipartError`
impl ResponseError for MultipartError {
fn error_response(&self) -> HttpResponse {
HttpResponse::new(StatusCode::BAD_REQUEST)
}
}
/// Error during handling `Expect` header
#[derive(Fail, PartialEq, Debug)]
pub enum ExpectError {
/// Expect header value can not be converted to utf8
#[fail(display = "Expect header value can not be converted to utf8")]
Encoding,
/// Unknown expect value
#[fail(display = "Unknown expect value")]
UnknownExpect,
}
impl ResponseError for ExpectError {
fn error_response(&self) -> HttpResponse {
HttpResponse::with_body(StatusCode::EXPECTATION_FAILED, "Unknown Expect")
}
}
/// A set of error that can occure during parsing content type
#[derive(Fail, PartialEq, Debug)]
pub enum ContentTypeError {
/// Can not parse content type
#[fail(display = "Can not parse content type")]
ParseError,
/// Unknown content encoding
#[fail(display = "Unknown content encoding")]
UnknownEncoding,
}
/// Return `BadRequest` for `ContentTypeError`
impl ResponseError for ContentTypeError {
fn error_response(&self) -> HttpResponse {
HttpResponse::new(StatusCode::BAD_REQUEST)
}
}
/// A set of errors that can occur during parsing urlencoded payloads
#[derive(Fail, Debug)]
pub enum UrlencodedError {
/// Can not decode chunked transfer encoding
#[fail(display = "Can not decode chunked transfer encoding")]
Chunked,
/// Payload size is bigger than allowed. (default: 256kB)
#[fail(
display = "Urlencoded payload size is bigger than allowed. (default: 256kB)"
)]
Overflow,
/// Payload size is now known
#[fail(display = "Payload size is now known")]
UnknownLength,
/// Content type error
#[fail(display = "Content type error")]
ContentType,
/// Parse error
#[fail(display = "Parse error")]
Parse,
/// Payload error
#[fail(display = "Error that occur during reading payload: {}", _0)]
Payload(#[cause] PayloadError),
}
/// Return `BadRequest` for `UrlencodedError`
impl ResponseError for UrlencodedError {
fn error_response(&self) -> HttpResponse {
match *self {
UrlencodedError::Overflow => {
HttpResponse::new(StatusCode::PAYLOAD_TOO_LARGE)
}
UrlencodedError::UnknownLength => {
HttpResponse::new(StatusCode::LENGTH_REQUIRED)
}
_ => HttpResponse::new(StatusCode::BAD_REQUEST),
}
}
}
impl From<PayloadError> for UrlencodedError {
fn from(err: PayloadError) -> UrlencodedError {
UrlencodedError::Payload(err)
}
}
/// A set of errors that can occur during parsing json payloads
#[derive(Fail, Debug)]
pub enum JsonPayloadError {
/// Payload size is bigger than allowed. (default: 256kB)
#[fail(display = "Json payload size is bigger than allowed. (default: 256kB)")]
Overflow,
/// Content type error
#[fail(display = "Content type error")]
ContentType,
/// Deserialize error
#[fail(display = "Json deserialize error: {}", _0)]
Deserialize(#[cause] JsonError),
/// Payload error
#[fail(display = "Error that occur during reading payload: {}", _0)]
Payload(#[cause] PayloadError),
}
/// Return `BadRequest` for `UrlencodedError`
impl ResponseError for JsonPayloadError {
fn error_response(&self) -> HttpResponse {
match *self {
JsonPayloadError::Overflow => {
HttpResponse::new(StatusCode::PAYLOAD_TOO_LARGE)
}
_ => HttpResponse::new(StatusCode::BAD_REQUEST),
}
}
}
impl From<PayloadError> for JsonPayloadError {
fn from(err: PayloadError) -> JsonPayloadError {
JsonPayloadError::Payload(err)
}
}
impl From<JsonError> for JsonPayloadError {
fn from(err: JsonError) -> JsonPayloadError {
JsonPayloadError::Deserialize(err)
}
}
/// Error type returned when reading body as lines.
pub enum ReadlinesError {
/// Error when decoding a line.
EncodingError,
/// Payload error.
PayloadError(PayloadError),
/// Line limit exceeded.
LimitOverflow,
/// ContentType error.
ContentTypeError(ContentTypeError),
}
impl From<PayloadError> for ReadlinesError {
fn from(err: PayloadError) -> Self {
ReadlinesError::PayloadError(err)
}
}
impl From<ContentTypeError> for ReadlinesError {
fn from(err: ContentTypeError) -> Self {
ReadlinesError::ContentTypeError(err)
}
}
/// Errors which can occur when attempting to interpret a segment string as a
/// valid path segment.
#[derive(Fail, Debug, PartialEq)]
pub enum UriSegmentError {
/// The segment started with the wrapped invalid character.
#[fail(display = "The segment started with the wrapped invalid character")]
BadStart(char),
/// The segment contained the wrapped invalid character.
#[fail(display = "The segment contained the wrapped invalid character")]
BadChar(char),
/// The segment ended with the wrapped invalid character.
#[fail(display = "The segment ended with the wrapped invalid character")]
BadEnd(char),
}
/// Return `BadRequest` for `UriSegmentError`
impl ResponseError for UriSegmentError {
fn error_response(&self) -> HttpResponse {
HttpResponse::new(StatusCode::BAD_REQUEST)
}
}
/// Errors which can occur when attempting to generate resource uri.
#[derive(Fail, Debug, PartialEq)]
pub enum UrlGenerationError {
/// Resource not found
#[fail(display = "Resource not found")]
ResourceNotFound,
/// Not all path pattern covered
#[fail(display = "Not all path pattern covered")]
NotEnoughElements,
/// Router is not available
#[fail(display = "Router is not available")]
RouterNotAvailable,
/// URL parse error
#[fail(display = "{}", _0)]
ParseError(#[cause] UrlParseError),
}
/// `InternalServerError` for `UrlGeneratorError`
impl ResponseError for UrlGenerationError {}
impl From<UrlParseError> for UrlGenerationError {
fn from(err: UrlParseError) -> Self {
UrlGenerationError::ParseError(err)
}
}
/// Helper type that can wrap any error and generate custom response.
///
/// In following example any `io::Error` will be converted into "BAD REQUEST"
/// response as opposite to *INTERNAL SERVER ERROR* which is defined by
/// default.
///
/// ```rust
/// # extern crate actix_web;
/// # use actix_web::*;
/// use actix_web::fs::NamedFile;
///
/// fn index(req: HttpRequest) -> Result<fs::NamedFile> {
/// let f = NamedFile::open("test.txt").map_err(error::ErrorBadRequest)?;
/// Ok(f)
/// }
/// # fn main() {}
/// ```
pub struct InternalError<T> {
cause: T,
status: InternalErrorType,
backtrace: Backtrace,
}
enum InternalErrorType {
Status(StatusCode),
Response(Mutex<Option<Box<InnerHttpResponse>>>),
}
impl<T> InternalError<T> {
/// Create `InternalError` instance
pub fn new(cause: T, status: StatusCode) -> Self {
InternalError {
cause,
status: InternalErrorType::Status(status),
backtrace: Backtrace::new(),
}
}
/// Create `InternalError` with predefined `HttpResponse`.
pub fn from_response(cause: T, response: HttpResponse) -> Self {
let mut resp = response.into_inner();
let body = mem::replace(&mut resp.body, Body::Empty);
match body {
Body::Empty => (),
Body::Binary(mut bin) => {
resp.body = Body::Binary(bin.take().into());
}
Body::Streaming(_) | Body::Actor(_) => {
error!("Streaming or Actor body is not support by error response");
}
}
InternalError {
cause,
status: InternalErrorType::Response(Mutex::new(Some(resp))),
backtrace: Backtrace::new(),
}
}
}
impl<T> Fail for InternalError<T>
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
fn backtrace(&self) -> Option<&Backtrace> {
Some(&self.backtrace)
}
}
impl<T> fmt::Debug for InternalError<T>
where
T: Send + Sync + fmt::Debug + 'static,
{
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
fmt::Debug::fmt(&self.cause, f)
}
}
impl<T> fmt::Display for InternalError<T>
where
T: Send + Sync + fmt::Display + 'static,
{
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
fmt::Display::fmt(&self.cause, f)
}
}
impl<T> ResponseError for InternalError<T>
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
fn error_response(&self) -> HttpResponse {
match self.status {
InternalErrorType::Status(st) => HttpResponse::new(st),
InternalErrorType::Response(ref resp) => {
if let Some(resp) = resp.lock().unwrap().take() {
HttpResponse::from_inner(resp)
} else {
HttpResponse::new(StatusCode::INTERNAL_SERVER_ERROR)
}
}
}
}
}
impl<T> Responder for InternalError<T>
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
type Item = HttpResponse;
type Error = Error;
fn respond_to<S>(self, _: &HttpRequest<S>) -> Result<HttpResponse, Error> {
Err(self.into())
}
}
/// Helper function that creates wrapper of any error and generate *BAD
/// REQUEST* response.
#[allow(non_snake_case)]
pub fn ErrorBadRequest<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::BAD_REQUEST).into()
}
/// Helper function that creates wrapper of any error and generate
/// *UNAUTHORIZED* response.
#[allow(non_snake_case)]
pub fn ErrorUnauthorized<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::UNAUTHORIZED).into()
}
/// Helper function that creates wrapper of any error and generate *FORBIDDEN*
/// response.
#[allow(non_snake_case)]
pub fn ErrorForbidden<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::FORBIDDEN).into()
}
/// Helper function that creates wrapper of any error and generate *NOT FOUND*
/// response.
#[allow(non_snake_case)]
pub fn ErrorNotFound<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::NOT_FOUND).into()
}
/// Helper function that creates wrapper of any error and generate *METHOD NOT
/// ALLOWED* response.
#[allow(non_snake_case)]
pub fn ErrorMethodNotAllowed<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::METHOD_NOT_ALLOWED).into()
}
/// Helper function that creates wrapper of any error and generate *REQUEST
/// TIMEOUT* response.
#[allow(non_snake_case)]
pub fn ErrorRequestTimeout<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::REQUEST_TIMEOUT).into()
}
/// Helper function that creates wrapper of any error and generate *CONFLICT*
/// response.
#[allow(non_snake_case)]
pub fn ErrorConflict<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::CONFLICT).into()
}
/// Helper function that creates wrapper of any error and generate *GONE*
/// response.
#[allow(non_snake_case)]
pub fn ErrorGone<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::GONE).into()
}
/// Helper function that creates wrapper of any error and generate
/// *PRECONDITION FAILED* response.
#[allow(non_snake_case)]
pub fn ErrorPreconditionFailed<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::PRECONDITION_FAILED).into()
}
/// Helper function that creates wrapper of any error and generate
/// *EXPECTATION FAILED* response.
#[allow(non_snake_case)]
pub fn ErrorExpectationFailed<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::EXPECTATION_FAILED).into()
}
/// Helper function that creates wrapper of any error and
/// generate *INTERNAL SERVER ERROR* response.
#[allow(non_snake_case)]
pub fn ErrorInternalServerError<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::INTERNAL_SERVER_ERROR).into()
}
/// Helper function that creates wrapper of any error and
/// generate *NOT IMPLEMENTED* response.
#[allow(non_snake_case)]
pub fn ErrorNotImplemented<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::NOT_IMPLEMENTED).into()
}
/// Helper function that creates wrapper of any error and
/// generate *BAD GATEWAY* response.
#[allow(non_snake_case)]
pub fn ErrorBadGateway<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::BAD_GATEWAY).into()
}
/// Helper function that creates wrapper of any error and
/// generate *SERVICE UNAVAILABLE* response.
#[allow(non_snake_case)]
pub fn ErrorServiceUnavailable<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::SERVICE_UNAVAILABLE).into()
}
/// Helper function that creates wrapper of any error and
/// generate *GATEWAY TIMEOUT* response.
#[allow(non_snake_case)]
pub fn ErrorGatewayTimeout<T>(err: T) -> Error
where
T: Send + Sync + fmt::Debug + fmt::Display + 'static,
{
InternalError::new(err, StatusCode::GATEWAY_TIMEOUT).into()
}
#[cfg(test)]
mod tests {
use super::*;
use cookie::ParseError as CookieParseError;
use failure;
use http::{Error as HttpError, StatusCode};
use httparse;
use std::env;
use std::error::Error as StdError;
use std::io;
#[test]
#[cfg(actix_nightly)]
fn test_nightly() {
let resp: HttpResponse =
IoError::new(io::ErrorKind::Other, "test").error_response();
assert_eq!(resp.status(), StatusCode::INTERNAL_SERVER_ERROR);
}
#[test]
fn test_into_response() {
let resp: HttpResponse = ParseError::Incomplete.error_response();
assert_eq!(resp.status(), StatusCode::BAD_REQUEST);
let resp: HttpResponse = HttpRangeError::InvalidRange.error_response();
assert_eq!(resp.status(), StatusCode::BAD_REQUEST);
let resp: HttpResponse = CookieParseError::EmptyName.error_response();
assert_eq!(resp.status(), StatusCode::BAD_REQUEST);
let resp: HttpResponse = MultipartError::Boundary.error_response();
assert_eq!(resp.status(), StatusCode::BAD_REQUEST);
let err: HttpError = StatusCode::from_u16(10000).err().unwrap().into();
let resp: HttpResponse = err.error_response();
assert_eq!(resp.status(), StatusCode::INTERNAL_SERVER_ERROR);
}
#[test]
fn test_as_fail() {
let orig = io::Error::new(io::ErrorKind::Other, "other");
let desc = orig.description().to_owned();
let e = ParseError::Io(orig);
assert_eq!(format!("{}", e.cause().unwrap()), desc);
}
#[test]
fn test_backtrace() {
let e = ErrorBadRequest("err");
let _ = e.backtrace();
}
#[test]
fn test_error_cause() {
let orig = io::Error::new(io::ErrorKind::Other, "other");
let desc = orig.description().to_owned();
let e = Error::from(orig);
assert_eq!(format!("{}", e.as_fail()), desc);
}
#[test]
fn test_error_display() {
let orig = io::Error::new(io::ErrorKind::Other, "other");
let desc = orig.description().to_owned();
let e = Error::from(orig);
assert_eq!(format!("{}", e), desc);
}
#[test]
fn test_error_http_response() {
let orig = io::Error::new(io::ErrorKind::Other, "other");
let e = Error::from(orig);
let resp: HttpResponse = e.into();
assert_eq!(resp.status(), StatusCode::INTERNAL_SERVER_ERROR);
}
#[test]
fn test_range_error() {
let e: HttpRangeError = HttpRangeParseError::InvalidRange.into();
assert_eq!(e, HttpRangeError::InvalidRange);
let e: HttpRangeError = HttpRangeParseError::NoOverlap.into();
assert_eq!(e, HttpRangeError::NoOverlap);
}
#[test]
fn test_expect_error() {
let resp: HttpResponse = ExpectError::Encoding.error_response();
assert_eq!(resp.status(), StatusCode::EXPECTATION_FAILED);
let resp: HttpResponse = ExpectError::UnknownExpect.error_response();
assert_eq!(resp.status(), StatusCode::EXPECTATION_FAILED);
}
macro_rules! from {
($from:expr => $error:pat) => {
match ParseError::from($from) {
e @ $error => {
assert!(format!("{}", e).len() >= 5);
}
e => unreachable!("{:?}", e),
}
};
}
macro_rules! from_and_cause {
($from:expr => $error:pat) => {
match ParseError::from($from) {
e @ $error => {
let desc = format!("{}", e.cause().unwrap());
assert_eq!(desc, $from.description().to_owned());
}
_ => unreachable!("{:?}", $from),
}
};
}
#[test]
fn test_from() {
from_and_cause!(io::Error::new(io::ErrorKind::Other, "other") => ParseError::Io(..));
from!(httparse::Error::HeaderName => ParseError::Header);
from!(httparse::Error::HeaderName => ParseError::Header);
from!(httparse::Error::HeaderValue => ParseError::Header);
from!(httparse::Error::NewLine => ParseError::Header);
from!(httparse::Error::Status => ParseError::Status);
from!(httparse::Error::Token => ParseError::Header);
from!(httparse::Error::TooManyHeaders => ParseError::TooLarge);
from!(httparse::Error::Version => ParseError::Version);
}
#[test]
fn failure_error() {
const NAME: &str = "RUST_BACKTRACE";
let old_tb = env::var(NAME);
env::set_var(NAME, "0");
let error = failure::err_msg("Hello!");
let resp: Error = error.into();
assert_eq!(
format!("{:?}", resp),
"Compat { error: ErrorMessage { msg: \"Hello!\" } }\n\n"
);
match old_tb {
Ok(x) => env::set_var(NAME, x),
_ => env::remove_var(NAME),
}
}
#[test]
fn test_internal_error() {
let err = InternalError::from_response(
ExpectError::Encoding,
HttpResponse::Ok().into(),
);
let resp: HttpResponse = err.error_response();
assert_eq!(resp.status(), StatusCode::OK);
}
#[test]
fn test_error_downcasting_direct() {
#[derive(Debug, Fail)]
#[fail(display = "demo error")]
struct DemoError;
impl ResponseError for DemoError {}
let err: Error = DemoError.into();
let err_ref: &DemoError = err.downcast_ref().unwrap();
assert_eq!(err_ref.to_string(), "demo error");
}
#[test]
fn test_error_downcasting_compat() {
#[derive(Debug, Fail)]
#[fail(display = "demo error")]
struct DemoError;
impl ResponseError for DemoError {}
let err: Error = failure::Error::from(DemoError).into();
let err_ref: &DemoError = err.downcast_ref().unwrap();
assert_eq!(err_ref.to_string(), "demo error");
}
#[test]
fn test_error_helpers() {
let r: HttpResponse = ErrorBadRequest("err").into();
assert_eq!(r.status(), StatusCode::BAD_REQUEST);
let r: HttpResponse = ErrorUnauthorized("err").into();
assert_eq!(r.status(), StatusCode::UNAUTHORIZED);
let r: HttpResponse = ErrorForbidden("err").into();
assert_eq!(r.status(), StatusCode::FORBIDDEN);
let r: HttpResponse = ErrorNotFound("err").into();
assert_eq!(r.status(), StatusCode::NOT_FOUND);
let r: HttpResponse = ErrorMethodNotAllowed("err").into();
assert_eq!(r.status(), StatusCode::METHOD_NOT_ALLOWED);
let r: HttpResponse = ErrorRequestTimeout("err").into();
assert_eq!(r.status(), StatusCode::REQUEST_TIMEOUT);
let r: HttpResponse = ErrorConflict("err").into();
assert_eq!(r.status(), StatusCode::CONFLICT);
let r: HttpResponse = ErrorGone("err").into();
assert_eq!(r.status(), StatusCode::GONE);
let r: HttpResponse = ErrorPreconditionFailed("err").into();
assert_eq!(r.status(), StatusCode::PRECONDITION_FAILED);
let r: HttpResponse = ErrorExpectationFailed("err").into();
assert_eq!(r.status(), StatusCode::EXPECTATION_FAILED);
let r: HttpResponse = ErrorInternalServerError("err").into();
assert_eq!(r.status(), StatusCode::INTERNAL_SERVER_ERROR);
let r: HttpResponse = ErrorNotImplemented("err").into();
assert_eq!(r.status(), StatusCode::NOT_IMPLEMENTED);
let r: HttpResponse = ErrorBadGateway("err").into();
assert_eq!(r.status(), StatusCode::BAD_GATEWAY);
let r: HttpResponse = ErrorServiceUnavailable("err").into();
assert_eq!(r.status(), StatusCode::SERVICE_UNAVAILABLE);
let r: HttpResponse = ErrorGatewayTimeout("err").into();
assert_eq!(r.status(), StatusCode::GATEWAY_TIMEOUT);
}
}