//! HTTP Request message related code. use std::{str, fmt, mem}; use std::rc::Rc; use std::net::SocketAddr; use std::collections::HashMap; use bytes::{Bytes, BytesMut}; use cookie::Cookie; use futures::{Future, Stream, Poll}; use http_range::HttpRange; use serde::de::DeserializeOwned; use mime::Mime; use url::{Url, form_urlencoded}; use http::{header, Uri, Method, Version, HeaderMap, Extensions}; use info::ConnectionInfo; use param::Params; use router::Router; use payload::Payload; use json::JsonBody; use multipart::Multipart; use helpers::SharedHttpMessage; use error::{ParseError, UrlGenerationError, CookieParseError, HttpRangeError, PayloadError, UrlencodedError}; pub struct HttpMessage { pub version: Version, pub method: Method, pub uri: Uri, pub headers: HeaderMap, pub extensions: Extensions, pub params: Params<'static>, pub cookies: Option>>, pub query: Params<'static>, pub query_loaded: bool, pub addr: Option, pub payload: Option, pub info: Option>, } impl Default for HttpMessage { fn default() -> HttpMessage { HttpMessage { method: Method::GET, uri: Uri::default(), version: Version::HTTP_11, headers: HeaderMap::with_capacity(16), params: Params::new(), query: Params::new(), query_loaded: false, cookies: None, addr: None, payload: None, extensions: Extensions::new(), info: None, } } } impl HttpMessage { /// Checks if a connection should be kept alive. #[inline] pub fn keep_alive(&self) -> bool { if let Some(conn) = self.headers.get(header::CONNECTION) { if let Ok(conn) = conn.to_str() { if self.version == Version::HTTP_10 && conn.contains("keep-alive") { true } else { self.version == Version::HTTP_11 && !(conn.contains("close") || conn.contains("upgrade")) } } else { false } } else { self.version != Version::HTTP_10 } } #[inline] pub(crate) fn reset(&mut self) { self.headers.clear(); self.extensions.clear(); self.params.clear(); self.query.clear(); self.query_loaded = false; self.cookies = None; self.addr = None; self.info = None; self.payload = None; } } /// An HTTP Request pub struct HttpRequest(SharedHttpMessage, Option>, Option); impl HttpRequest<()> { /// Construct a new Request. #[inline] pub fn new(method: Method, uri: Uri, version: Version, headers: HeaderMap, payload: Option) -> HttpRequest { HttpRequest( SharedHttpMessage::from_message(HttpMessage { method: method, uri: uri, version: version, headers: headers, params: Params::new(), query: Params::new(), query_loaded: false, cookies: None, addr: None, payload: payload, extensions: Extensions::new(), info: None, }), None, None, ) } #[inline(always)] #[cfg_attr(feature = "cargo-clippy", allow(inline_always))] pub(crate) fn from_message(msg: SharedHttpMessage) -> HttpRequest { HttpRequest(msg, None, None) } #[inline] /// Construct new http request with state. pub fn with_state(self, state: Rc, router: Router) -> HttpRequest { HttpRequest(self.0, Some(state), Some(router)) } #[cfg(test)] /// Construct new http request with state. pub(crate) fn with_state_no_router(self, state: Rc) -> HttpRequest { HttpRequest(self.0, Some(state), None) } } impl HttpRequest { #[inline] /// Construct new http request with state. pub fn change_state(&self, state: Rc) -> HttpRequest { HttpRequest(self.0.clone(), Some(state), self.2.clone()) } #[inline] /// Construct new http request without state. pub(crate) fn clone_without_state(&self) -> HttpRequest { HttpRequest(self.0.clone(), None, None) } /// get mutable reference for inner message /// mutable reference should not be returned as result for request's method #[inline(always)] #[cfg_attr(feature = "cargo-clippy", allow(mut_from_ref, inline_always))] pub(crate) fn as_mut(&self) -> &mut HttpMessage { self.0.get_mut() } #[inline(always)] #[cfg_attr(feature = "cargo-clippy", allow(mut_from_ref, inline_always))] fn as_ref(&self) -> &HttpMessage { self.0.get_ref() } #[inline] pub(crate) fn get_inner(&mut self) -> &mut HttpMessage { self.as_mut() } /// Shared application state #[inline] pub fn state(&self) -> &S { self.1.as_ref().unwrap() } /// Protocol extensions. #[inline] pub fn extensions(&mut self) -> &mut Extensions { &mut self.as_mut().extensions } #[doc(hidden)] pub fn prefix_len(&self) -> usize { if let Some(router) = self.router() { router.prefix().len() } else { 0 } } /// Read the Request Uri. #[inline] pub fn uri(&self) -> &Uri { &self.as_ref().uri } #[doc(hidden)] #[inline] /// Modify the Request Uri. /// /// This might be useful for middlewares, i.e. path normalization pub fn uri_mut(&mut self) -> &mut Uri { &mut self.as_mut().uri } /// Read the Request method. #[inline] pub fn method(&self) -> &Method { &self.as_ref().method } /// Read the Request Version. #[inline] pub fn version(&self) -> Version { self.as_ref().version } /// Read the Request Headers. #[inline] pub fn headers(&self) -> &HeaderMap { &self.as_ref().headers } #[doc(hidden)] #[inline] pub fn headers_mut(&mut self) -> &mut HeaderMap { &mut self.as_mut().headers } /// The target path of this Request. #[inline] pub fn path(&self) -> &str { self.uri().path() } /// Get *ConnectionInfo* for correct request. pub fn connection_info(&self) -> &ConnectionInfo { if self.as_ref().info.is_none() { let info: ConnectionInfo<'static> = unsafe{ mem::transmute(ConnectionInfo::new(self))}; self.as_mut().info = Some(info); } self.as_ref().info.as_ref().unwrap() } /// Generate url for named resource /// /// ```rust /// # extern crate actix_web; /// # use actix_web::*; /// # use actix_web::httpcodes::*; /// # /// fn index(req: HttpRequest) -> HttpResponse { /// let url = req.url_for("foo", &["1", "2", "3"]); // <- generate url for "foo" resource /// HTTPOk.into() /// } /// /// fn main() { /// let app = Application::new() /// .resource("/test/{one}/{two}/{three}", |r| { /// r.name("foo"); // <- set resource name, then it could be used in `url_for` /// r.method(Method::GET).f(|_| httpcodes::HTTPOk); /// }) /// .finish(); /// } /// ``` pub fn url_for(&self, name: &str, elements: U) -> Result where U: IntoIterator, I: AsRef, { if self.router().is_none() { Err(UrlGenerationError::RouterNotAvailable) } else { let path = self.router().unwrap().resource_path(name, elements)?; if path.starts_with('/') { let conn = self.connection_info(); Ok(Url::parse(&format!("{}://{}{}", conn.scheme(), conn.host(), path))?) } else { Ok(Url::parse(&path)?) } } } /// This method returns reference to current `Router` object. #[inline] pub fn router(&self) -> Option<&Router> { self.2.as_ref() } /// Peer socket address /// /// Peer address is actual socket address, if proxy is used in front of /// actix http server, then peer address would be address of this proxy. /// /// To get client connection information `connection_info()` method should be used. #[inline] pub fn peer_addr(&self) -> Option<&SocketAddr> { self.as_ref().addr.as_ref() } #[inline] pub(crate) fn set_peer_addr(&mut self, addr: Option) { self.as_mut().addr = addr } /// Get a reference to the Params object. /// Params is a container for url query parameters. pub fn query(&self) -> &Params { if !self.as_ref().query_loaded { let params: &mut Params = unsafe{ mem::transmute(&mut self.as_mut().query) }; self.as_mut().query_loaded = true; for (key, val) in form_urlencoded::parse(self.query_string().as_ref()) { params.add(key, val); } } unsafe{ mem::transmute(&self.as_ref().query) } } /// The query string in the URL. /// /// E.g., id=10 #[inline] pub fn query_string(&self) -> &str { if let Some(query) = self.uri().query().as_ref() { query } else { "" } } /// Load request cookies. pub fn cookies(&self) -> Result<&Vec>, CookieParseError> { if self.as_ref().cookies.is_none() { let msg = self.as_mut(); let mut cookies = Vec::new(); if let Some(val) = msg.headers.get(header::COOKIE) { let s = str::from_utf8(val.as_bytes()) .map_err(CookieParseError::from)?; for cookie in s.split("; ") { cookies.push(Cookie::parse_encoded(cookie)?.into_owned()); } } msg.cookies = Some(cookies) } Ok(self.as_ref().cookies.as_ref().unwrap()) } /// Return request cookie. pub fn cookie(&self, name: &str) -> Option<&Cookie> { if let Ok(cookies) = self.cookies() { for cookie in cookies { if cookie.name() == name { return Some(cookie) } } } None } /// Get a reference to the Params object. /// Params is a container for url parameters. /// Route supports glob patterns: * for a single wildcard segment and :param /// for matching storing that segment of the request url in the Params object. #[inline] pub fn match_info(&self) -> &Params { unsafe{ mem::transmute(&self.as_ref().params) } } /// Get mutable reference to request's Params. #[inline] pub(crate) fn match_info_mut(&mut self) -> &mut Params { unsafe{ mem::transmute(&mut self.as_mut().params) } } /// Checks if a connection should be kept alive. pub fn keep_alive(&self) -> bool { self.as_ref().keep_alive() } /// Read the request content type. If request does not contain /// *Content-Type* header, empty str get returned. pub fn content_type(&self) -> &str { if let Some(content_type) = self.headers().get(header::CONTENT_TYPE) { if let Ok(content_type) = content_type.to_str() { return content_type.split(';').next().unwrap().trim() } } "" } /// Convert the request content type to a known mime type. pub fn mime_type(&self) -> Option { if let Some(content_type) = self.headers().get(header::CONTENT_TYPE) { if let Ok(content_type) = content_type.to_str() { return match content_type.parse() { Ok(mt) => Some(mt), Err(_) => None }; } } None } /// Check if request requires connection upgrade pub(crate) fn upgrade(&self) -> bool { if let Some(conn) = self.as_ref().headers.get(header::CONNECTION) { if let Ok(s) = conn.to_str() { return s.to_lowercase().contains("upgrade") } } self.as_ref().method == Method::CONNECT } /// Check if request has chunked transfer encoding pub fn chunked(&self) -> Result { if let Some(encodings) = self.headers().get(header::TRANSFER_ENCODING) { if let Ok(s) = encodings.to_str() { Ok(s.to_lowercase().contains("chunked")) } else { Err(ParseError::Header) } } else { Ok(false) } } /// Parses Range HTTP header string as per RFC 2616. /// `size` is full size of response (file). pub fn range(&self, size: u64) -> Result, HttpRangeError> { if let Some(range) = self.headers().get(header::RANGE) { HttpRange::parse(unsafe{str::from_utf8_unchecked(range.as_bytes())}, size) .map_err(|e| e.into()) } else { Ok(Vec::new()) } } /// Returns reference to the associated http payload. #[inline] pub fn payload(&self) -> &Payload { let msg = self.as_mut(); if msg.payload.is_none() { msg.payload = Some(Payload::empty()); } msg.payload.as_ref().unwrap() } /// Returns mutable reference to the associated http payload. #[inline] pub fn payload_mut(&mut self) -> &mut Payload { let msg = self.as_mut(); if msg.payload.is_none() { msg.payload = Some(Payload::empty()); } msg.payload.as_mut().unwrap() } /// Load request body. /// /// By default only 256Kb payload reads to a memory, then `BAD REQUEST` /// http response get returns to a peer. Use `RequestBody::limit()` /// method to change upper limit. /// /// ```rust /// # extern crate bytes; /// # extern crate actix_web; /// # extern crate futures; /// # #[macro_use] extern crate serde_derive; /// use actix_web::*; /// use bytes::Bytes; /// use futures::future::Future; /// /// fn index(mut req: HttpRequest) -> Box> { /// req.body() // <- get Body future /// .limit(1024) // <- change max size of the body to a 1kb /// .from_err() /// .and_then(|bytes: Bytes| { // <- complete body /// println!("==== BODY ==== {:?}", bytes); /// Ok(httpcodes::HTTPOk.into()) /// }).responder() /// } /// # fn main() {} /// ``` pub fn body(self) -> RequestBody { RequestBody::from(self) } /// Return stream to http payload processes as multipart. /// /// Content-type: multipart/form-data; /// /// ```rust /// # extern crate actix; /// # extern crate actix_web; /// # extern crate env_logger; /// # extern crate futures; /// # use std::str; /// # use actix::*; /// # use actix_web::*; /// # use futures::{Future, Stream}; /// # use futures::future::{ok, result, Either}; /// fn index(mut req: HttpRequest) -> Box> { /// req.multipart().from_err() // <- get multipart stream for current request /// .and_then(|item| match item { // <- iterate over multipart items /// multipart::MultipartItem::Field(field) => { /// // Field in turn is stream of *Bytes* object /// Either::A(field.from_err() /// .map(|c| println!("-- CHUNK: \n{:?}", str::from_utf8(&c))) /// .finish()) /// }, /// multipart::MultipartItem::Nested(mp) => { /// // Or item could be nested Multipart stream /// Either::B(ok(())) /// } /// }) /// .finish() // <- Stream::finish() combinator from actix /// .map(|_| httpcodes::HTTPOk.into()) /// .responder() /// } /// # fn main() {} /// ``` pub fn multipart(self) -> Multipart { Multipart::from_request(self) } /// Parse `application/x-www-form-urlencoded` encoded body. /// Return `UrlEncoded` future. It resolves to a `HashMap` which /// contains decoded parameters. /// /// Returns error: /// /// * content type is not `application/x-www-form-urlencoded` /// * transfer encoding is `chunked`. /// * content-length is greater than 256k /// /// ```rust /// # extern crate actix_web; /// # extern crate futures; /// use actix_web::*; /// use futures::future::{Future, ok}; /// /// fn index(mut req: HttpRequest) -> Box> { /// req.urlencoded() // <- get UrlEncoded future /// .from_err() /// .and_then(|params| { // <- url encoded parameters /// println!("==== BODY ==== {:?}", params); /// ok(httpcodes::HTTPOk.into()) /// }) /// .responder() /// } /// # fn main() {} /// ``` pub fn urlencoded(self) -> UrlEncoded { UrlEncoded::from(self) } /// Parse `application/json` encoded body. /// Return `JsonBody` future. It resolves to a `T` value. /// /// Returns error: /// /// * content type is not `application/json` /// * content length is greater than 256k /// /// ```rust /// # extern crate actix_web; /// # extern crate futures; /// # #[macro_use] extern crate serde_derive; /// use actix_web::*; /// use futures::future::{Future, ok}; /// /// #[derive(Deserialize, Debug)] /// struct MyObj { /// name: String, /// } /// /// fn index(mut req: HttpRequest) -> Box> { /// req.json() // <- get JsonBody future /// .from_err() /// .and_then(|val: MyObj| { // <- deserialized value /// println!("==== BODY ==== {:?}", val); /// Ok(httpcodes::HTTPOk.into()) /// }).responder() /// } /// # fn main() {} /// ``` pub fn json(self) -> JsonBody { JsonBody::from_request(self) } } impl Default for HttpRequest<()> { /// Construct default request fn default() -> HttpRequest { HttpRequest(SharedHttpMessage::default(), None, None) } } impl Clone for HttpRequest { fn clone(&self) -> HttpRequest { HttpRequest(self.0.clone(), self.1.clone(), self.2.clone()) } } impl Stream for HttpRequest { type Item = Bytes; type Error = PayloadError; fn poll(&mut self) -> Poll, PayloadError> { self.payload_mut().poll() } } impl fmt::Debug for HttpRequest { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let res = write!(f, "\nHttpRequest {:?} {}:{}\n", self.as_ref().version, self.as_ref().method, self.as_ref().uri); if !self.query_string().is_empty() { let _ = write!(f, " query: ?{:?}\n", self.query_string()); } if !self.match_info().is_empty() { let _ = write!(f, " params: {:?}\n", self.as_ref().params); } let _ = write!(f, " headers:\n"); for key in self.as_ref().headers.keys() { let vals: Vec<_> = self.as_ref().headers.get_all(key).iter().collect(); if vals.len() > 1 { let _ = write!(f, " {:?}: {:?}\n", key, vals); } else { let _ = write!(f, " {:?}: {:?}\n", key, vals[0]); } } res } } /// Future that resolves to a parsed urlencoded values. pub struct UrlEncoded { req: Option>, limit: usize, fut: Option, Error=UrlencodedError>>>, } impl UrlEncoded { pub fn from(req: HttpRequest) -> UrlEncoded { UrlEncoded { req: Some(req.clone_without_state()), limit: 262_144, fut: None, } } /// Change max size of payload. By default max size is 256Kb pub fn limit(mut self, limit: usize) -> Self { self.limit = limit; self } } impl Future for UrlEncoded { type Item = HashMap; type Error = UrlencodedError; fn poll(&mut self) -> Poll { if let Some(req) = self.req.take() { if req.chunked().unwrap_or(false) { return Err(UrlencodedError::Chunked) } else if let Some(len) = req.headers().get(header::CONTENT_LENGTH) { if let Ok(s) = len.to_str() { if let Ok(len) = s.parse::() { if len > 262_144 { return Err(UrlencodedError::Overflow); } } else { return Err(UrlencodedError::UnknownLength) } } else { return Err(UrlencodedError::UnknownLength) } } // check content type let mut err = true; if let Some(content_type) = req.headers().get(header::CONTENT_TYPE) { if let Ok(content_type) = content_type.to_str() { if content_type.to_lowercase() == "application/x-www-form-urlencoded" { err = false; } } } if err { return Err(UrlencodedError::ContentType); } // future let limit = self.limit; let fut = req.from_err() .fold(BytesMut::new(), move |mut body, chunk| { if (body.len() + chunk.len()) > limit { Err(UrlencodedError::Overflow) } else { body.extend_from_slice(&chunk); Ok(body) } }) .map(|body| { let mut m = HashMap::new(); for (k, v) in form_urlencoded::parse(&body) { m.insert(k.into(), v.into()); } m }); self.fut = Some(Box::new(fut)); } self.fut.as_mut().expect("UrlEncoded could not be used second time").poll() } } /// Future that resolves to a complete request body. pub struct RequestBody { limit: usize, req: Option>, fut: Option>>, } impl RequestBody { /// Create `RequestBody` for request. pub fn from(req: HttpRequest) -> RequestBody { RequestBody { limit: 262_144, req: Some(req.clone_without_state()), fut: None, } } /// Change max size of payload. By default max size is 256Kb pub fn limit(mut self, limit: usize) -> Self { self.limit = limit; self } } impl Future for RequestBody { type Item = Bytes; type Error = PayloadError; fn poll(&mut self) -> Poll { if let Some(req) = self.req.take() { if let Some(len) = req.headers().get(header::CONTENT_LENGTH) { if let Ok(s) = len.to_str() { if let Ok(len) = s.parse::() { if len > self.limit { return Err(PayloadError::Overflow); } } else { return Err(PayloadError::UnknownLength); } } else { return Err(PayloadError::UnknownLength); } } // future let limit = self.limit; self.fut = Some(Box::new( req.from_err() .fold(BytesMut::new(), move |mut body, chunk| { if (body.len() + chunk.len()) > limit { Err(PayloadError::Overflow) } else { body.extend_from_slice(&chunk); Ok(body) } }) .map(|body| body.freeze()) )); } self.fut.as_mut().expect("UrlEncoded could not be used second time").poll() } } #[cfg(test)] mod tests { use super::*; use mime; use http::{Uri, HttpTryFrom}; use std::str::FromStr; use router::Pattern; use resource::Resource; use test::TestRequest; use server::ServerSettings; #[test] fn test_debug() { let req = TestRequest::with_header("content-type", "text/plain").finish(); let dbg = format!("{:?}", req); assert!(dbg.contains("HttpRequest")); } #[test] fn test_content_type() { let req = TestRequest::with_header("content-type", "text/plain").finish(); assert_eq!(req.content_type(), "text/plain"); let req = TestRequest::with_header( "content-type", "application/json; charset=utf=8").finish(); assert_eq!(req.content_type(), "application/json"); let req = HttpRequest::default(); assert_eq!(req.content_type(), ""); } #[test] fn test_mime_type() { let req = TestRequest::with_header("content-type", "application/json").finish(); assert_eq!(req.mime_type(), Some(mime::APPLICATION_JSON)); let req = HttpRequest::default(); assert_eq!(req.mime_type(), None); let req = TestRequest::with_header( "content-type", "application/json; charset=utf-8").finish(); let mt = req.mime_type().unwrap(); assert_eq!(mt.get_param(mime::CHARSET), Some(mime::UTF_8)); assert_eq!(mt.type_(), mime::APPLICATION); assert_eq!(mt.subtype(), mime::JSON); } #[test] fn test_uri_mut() { let mut req = HttpRequest::default(); assert_eq!(req.path(), "/"); *req.uri_mut() = Uri::try_from("/test").unwrap(); assert_eq!(req.path(), "/test"); } #[test] fn test_no_request_cookies() { let req = HttpRequest::default(); assert!(req.cookies().unwrap().is_empty()); } #[test] fn test_request_cookies() { let req = TestRequest::with_header( header::COOKIE, "cookie1=value1; cookie2=value2").finish(); { let cookies = req.cookies().unwrap(); assert_eq!(cookies.len(), 2); assert_eq!(cookies[0].name(), "cookie1"); assert_eq!(cookies[0].value(), "value1"); assert_eq!(cookies[1].name(), "cookie2"); assert_eq!(cookies[1].value(), "value2"); } let cookie = req.cookie("cookie1"); assert!(cookie.is_some()); let cookie = cookie.unwrap(); assert_eq!(cookie.name(), "cookie1"); assert_eq!(cookie.value(), "value1"); let cookie = req.cookie("cookie-unknown"); assert!(cookie.is_none()); } #[test] fn test_no_request_range_header() { let req = HttpRequest::default(); let ranges = req.range(100).unwrap(); assert!(ranges.is_empty()); } #[test] fn test_request_range_header() { let req = TestRequest::with_header(header::RANGE, "bytes=0-4").finish(); let ranges = req.range(100).unwrap(); assert_eq!(ranges.len(), 1); assert_eq!(ranges[0].start, 0); assert_eq!(ranges[0].length, 5); } #[test] fn test_request_query() { let req = TestRequest::with_uri("/?id=test").finish(); assert_eq!(req.query_string(), "id=test"); let query = req.query(); assert_eq!(&query["id"], "test"); } #[test] fn test_request_match_info() { let mut req = TestRequest::with_uri("/value/?id=test").finish(); let mut resource = Resource::<()>::default(); resource.name("index"); let mut routes = Vec::new(); routes.push((Pattern::new("index", "/{key}/"), Some(resource))); let (router, _) = Router::new("", ServerSettings::default(), routes); assert!(router.recognize(&mut req).is_some()); assert_eq!(req.match_info().get("key"), Some("value")); } #[test] fn test_chunked() { let req = HttpRequest::default(); assert!(!req.chunked().unwrap()); let req = TestRequest::with_header(header::TRANSFER_ENCODING, "chunked").finish(); assert!(req.chunked().unwrap()); let mut headers = HeaderMap::new(); let s = unsafe{str::from_utf8_unchecked(b"some va\xadscc\xacas0xsdasdlue".as_ref())}; headers.insert(header::TRANSFER_ENCODING, header::HeaderValue::from_str(s).unwrap()); let req = HttpRequest::new( Method::GET, Uri::from_str("/").unwrap(), Version::HTTP_11, headers, None); assert!(req.chunked().is_err()); } impl PartialEq for UrlencodedError { fn eq(&self, other: &UrlencodedError) -> bool { match *self { UrlencodedError::Chunked => match *other { UrlencodedError::Chunked => true, _ => false, }, UrlencodedError::Overflow => match *other { UrlencodedError::Overflow => true, _ => false, }, UrlencodedError::UnknownLength => match *other { UrlencodedError::UnknownLength => true, _ => false, }, UrlencodedError::ContentType => match *other { UrlencodedError::ContentType => true, _ => false, }, _ => false, } } } #[test] fn test_urlencoded_error() { let req = TestRequest::with_header(header::TRANSFER_ENCODING, "chunked").finish(); assert_eq!(req.urlencoded().poll().err().unwrap(), UrlencodedError::Chunked); let req = TestRequest::with_header( header::CONTENT_TYPE, "application/x-www-form-urlencoded") .header(header::CONTENT_LENGTH, "xxxx") .finish(); assert_eq!(req.urlencoded().poll().err().unwrap(), UrlencodedError::UnknownLength); let req = TestRequest::with_header( header::CONTENT_TYPE, "application/x-www-form-urlencoded") .header(header::CONTENT_LENGTH, "1000000") .finish(); assert_eq!(req.urlencoded().poll().err().unwrap(), UrlencodedError::Overflow); let req = TestRequest::with_header( header::CONTENT_TYPE, "text/plain") .header(header::CONTENT_LENGTH, "10") .finish(); assert_eq!(req.urlencoded().poll().err().unwrap(), UrlencodedError::ContentType); } #[test] fn test_request_body() { let req = TestRequest::with_header(header::CONTENT_LENGTH, "xxxx").finish(); match req.body().poll().err().unwrap() { PayloadError::UnknownLength => (), _ => panic!("error"), } let req = TestRequest::with_header(header::CONTENT_LENGTH, "1000000").finish(); match req.body().poll().err().unwrap() { PayloadError::Overflow => (), _ => panic!("error"), } let mut req = HttpRequest::default(); req.payload_mut().unread_data(Bytes::from_static(b"test")); match req.body().poll().ok().unwrap() { Async::Ready(bytes) => assert_eq!(bytes, Bytes::from_static(b"test")), _ => panic!("error"), } let mut req = HttpRequest::default(); req.payload_mut().unread_data(Bytes::from_static(b"11111111111111")); match req.body().limit(5).poll().err().unwrap() { PayloadError::Overflow => (), _ => panic!("error"), } } #[test] fn test_url_for() { let req = TestRequest::with_header(header::HOST, "www.rust-lang.org") .finish_no_router(); let mut resource = Resource::<()>::default(); resource.name("index"); let routes = vec!((Pattern::new("index", "/user/{name}.{ext}"), Some(resource))); let (router, _) = Router::new("/", ServerSettings::default(), routes); assert!(router.has_route("/user/test.html")); assert!(!router.has_route("/test/unknown")); assert_eq!(req.url_for("unknown", &["test"]), Err(UrlGenerationError::RouterNotAvailable)); let req = req.with_state(Rc::new(()), router); assert_eq!(req.url_for("unknown", &["test"]), Err(UrlGenerationError::ResourceNotFound)); assert_eq!(req.url_for("index", &["test"]), Err(UrlGenerationError::NotEnoughElements)); let url = req.url_for("index", &["test", "html"]); assert_eq!(url.ok().unwrap().as_str(), "http://www.rust-lang.org/user/test.html"); } #[test] fn test_url_for_with_prefix() { let req = TestRequest::with_header(header::HOST, "www.rust-lang.org").finish(); let mut resource = Resource::<()>::default(); resource.name("index"); let routes = vec![(Pattern::new("index", "/user/{name}.{ext}"), Some(resource))]; let (router, _) = Router::new("/prefix/", ServerSettings::default(), routes); assert!(router.has_route("/user/test.html")); assert!(!router.has_route("/prefix/user/test.html")); let req = req.with_state(Rc::new(()), router); let url = req.url_for("index", &["test", "html"]); assert_eq!(url.ok().unwrap().as_str(), "http://www.rust-lang.org/prefix/user/test.html"); } #[test] fn test_url_for_external() { let req = HttpRequest::default(); let mut resource = Resource::<()>::default(); resource.name("index"); let routes = vec![ (Pattern::new("youtube", "https://youtube.com/watch/{video_id}"), None)]; let (router, _) = Router::new::<()>("", ServerSettings::default(), routes); assert!(!router.has_route("https://youtube.com/watch/unknown")); let req = req.with_state(Rc::new(()), router); let url = req.url_for("youtube", &["oHg5SJYRHA0"]); assert_eq!(url.ok().unwrap().as_str(), "https://youtube.com/watch/oHg5SJYRHA0"); } }