//! Various helpers for Actix applications to use during testing. use std::convert::TryFrom; use std::net::SocketAddr; use std::rc::Rc; use std::sync::mpsc; use std::{fmt, net, thread, time}; use actix_codec::{AsyncRead, AsyncWrite, Framed}; use actix_http::http::header::{ContentType, Header, HeaderName, IntoHeaderValue}; use actix_http::http::{Error as HttpError, Method, StatusCode, Uri, Version}; use actix_http::test::TestRequest as HttpTestRequest; use actix_http::{cookie::Cookie, ws, Extensions, HttpService, Request}; use actix_router::{Path, ResourceDef, Url}; use actix_rt::{time::delay_for, System}; use actix_service::{ map_config, IntoService, IntoServiceFactory, Service, ServiceFactory, }; use awc::error::PayloadError; use awc::{Client, ClientRequest, ClientResponse, Connector}; use bytes::{Bytes, BytesMut}; use futures::future::ok; use futures::stream::{Stream, StreamExt}; use net2::TcpBuilder; use serde::de::DeserializeOwned; use serde::Serialize; use serde_json; pub use actix_http::test::TestBuffer; use crate::config::AppConfig; use crate::data::Data; use crate::dev::{Body, MessageBody, Payload, Server}; use crate::request::HttpRequestPool; use crate::rmap::ResourceMap; use crate::service::{ServiceRequest, ServiceResponse}; use crate::{Error, HttpRequest, HttpResponse}; /// Create service that always responds with `HttpResponse::Ok()` pub fn ok_service( ) -> impl Service, Error = Error> { default_service(StatusCode::OK) } /// Create service that responds with response with specified status code pub fn default_service( status_code: StatusCode, ) -> impl Service, Error = Error> { (move |req: ServiceRequest| { ok(req.into_response(HttpResponse::build(status_code).finish())) }) .into_service() } /// This method accepts application builder instance, and constructs /// service. /// /// ```rust /// use actix_service::Service; /// use actix_web::{test, web, App, HttpResponse, http::StatusCode}; /// /// #[actix_rt::test] /// async fn test_init_service() { /// let mut app = test::init_service( /// App::new() /// .service(web::resource("/test").to(|| async { HttpResponse::Ok() })) /// ).await; /// /// // Create request object /// let req = test::TestRequest::with_uri("/test").to_request(); /// /// // Execute application /// let resp = app.call(req).await.unwrap(); /// assert_eq!(resp.status(), StatusCode::OK); /// } /// ``` pub async fn init_service( app: R, ) -> impl Service, Error = E> where R: IntoServiceFactory, S: ServiceFactory< Config = AppConfig, Request = Request, Response = ServiceResponse, Error = E, >, S::InitError: std::fmt::Debug, { let srv = app.into_factory(); srv.new_service(AppConfig::default()).await.unwrap() } /// Calls service and waits for response future completion. /// /// ```rust /// use actix_web::{test, web, App, HttpResponse, http::StatusCode}; /// /// #[actix_rt::test] /// async fn test_response() { /// let mut app = test::init_service( /// App::new() /// .service(web::resource("/test").to(|| async { /// HttpResponse::Ok() /// })) /// ).await; /// /// // Create request object /// let req = test::TestRequest::with_uri("/test").to_request(); /// /// // Call application /// let resp = test::call_service(&mut app, req).await; /// assert_eq!(resp.status(), StatusCode::OK); /// } /// ``` pub async fn call_service(app: &mut S, req: R) -> S::Response where S: Service, Error = E>, E: std::fmt::Debug, { app.call(req).await.unwrap() } /// Helper function that returns a response body of a TestRequest /// /// ```rust /// use actix_web::{test, web, App, HttpResponse, http::header}; /// use bytes::Bytes; /// /// #[actix_rt::test] /// async fn test_index() { /// let mut app = test::init_service( /// App::new().service( /// web::resource("/index.html") /// .route(web::post().to(|| async { /// HttpResponse::Ok().body("welcome!") /// }))) /// ).await; /// /// let req = test::TestRequest::post() /// .uri("/index.html") /// .header(header::CONTENT_TYPE, "application/json") /// .to_request(); /// /// let result = test::read_response(&mut app, req).await; /// assert_eq!(result, Bytes::from_static(b"welcome!")); /// } /// ``` pub async fn read_response(app: &mut S, req: Request) -> Bytes where S: Service, Error = Error>, B: MessageBody, { let mut resp = app .call(req) .await .unwrap_or_else(|_| panic!("read_response failed at application call")); let mut body = resp.take_body(); let mut bytes = BytesMut::new(); while let Some(item) = body.next().await { bytes.extend_from_slice(&item.unwrap()); } bytes.freeze() } /// Helper function that returns a response body of a ServiceResponse. /// /// ```rust /// use actix_web::{test, web, App, HttpResponse, http::header}; /// use bytes::Bytes; /// /// #[actix_rt::test] /// async fn test_index() { /// let mut app = test::init_service( /// App::new().service( /// web::resource("/index.html") /// .route(web::post().to(|| async { /// HttpResponse::Ok().body("welcome!") /// }))) /// ).await; /// /// let req = test::TestRequest::post() /// .uri("/index.html") /// .header(header::CONTENT_TYPE, "application/json") /// .to_request(); /// /// let resp = test::call_service(&mut app, req).await; /// let result = test::read_body(resp); /// assert_eq!(result, Bytes::from_static(b"welcome!")); /// } /// ``` pub async fn read_body(mut res: ServiceResponse) -> Bytes where B: MessageBody, { let mut body = res.take_body(); let mut bytes = BytesMut::new(); while let Some(item) = body.next().await { bytes.extend_from_slice(&item.unwrap()); } bytes.freeze() } pub async fn load_stream(mut stream: S) -> Result where S: Stream> + Unpin, { let mut data = BytesMut::new(); while let Some(item) = stream.next().await { data.extend_from_slice(&item?); } Ok(data.freeze()) } /// Helper function that returns a deserialized response body of a TestRequest /// /// ```rust /// use actix_web::{App, test, web, HttpResponse, http::header}; /// use serde::{Serialize, Deserialize}; /// /// #[derive(Serialize, Deserialize)] /// pub struct Person { /// id: String, /// name: String /// } /// /// #[actix_rt::test] /// async fn test_add_person() { /// let mut app = test::init_service( /// App::new().service( /// web::resource("/people") /// .route(web::post().to(|person: web::Json| async { /// HttpResponse::Ok() /// .json(person.into_inner())}) /// )) /// ).await; /// /// let payload = r#"{"id":"12345","name":"User name"}"#.as_bytes(); /// /// let req = test::TestRequest::post() /// .uri("/people") /// .header(header::CONTENT_TYPE, "application/json") /// .set_payload(payload) /// .to_request(); /// /// let result: Person = test::read_response_json(&mut app, req).await; /// } /// ``` pub async fn read_response_json(app: &mut S, req: Request) -> T where S: Service, Error = Error>, B: MessageBody, T: DeserializeOwned, { let body = read_response(app, req).await; serde_json::from_slice(&body) .unwrap_or_else(|_| panic!("read_response_json failed during deserialization")) } /// Test `Request` builder. /// /// For unit testing, actix provides a request builder type and a simple handler runner. TestRequest implements a builder-like pattern. /// You can generate various types of request via TestRequest's methods: /// * `TestRequest::to_request` creates `actix_http::Request` instance. /// * `TestRequest::to_srv_request` creates `ServiceRequest` instance, which is used for testing middlewares and chain adapters. /// * `TestRequest::to_srv_response` creates `ServiceResponse` instance. /// * `TestRequest::to_http_request` creates `HttpRequest` instance, which is used for testing handlers. /// /// ```rust /// use actix_web::{test, HttpRequest, HttpResponse, HttpMessage}; /// use actix_web::http::{header, StatusCode}; /// /// async fn index(req: HttpRequest) -> HttpResponse { /// if let Some(hdr) = req.headers().get(header::CONTENT_TYPE) { /// HttpResponse::Ok().into() /// } else { /// HttpResponse::BadRequest().into() /// } /// } /// /// #[test] /// fn test_index() { /// let req = test::TestRequest::with_header("content-type", "text/plain") /// .to_http_request(); /// /// let resp = index(req).await.unwrap(); /// assert_eq!(resp.status(), StatusCode::OK); /// /// let req = test::TestRequest::default().to_http_request(); /// let resp = index(req).await.unwrap(); /// assert_eq!(resp.status(), StatusCode::BAD_REQUEST); /// } /// ``` pub struct TestRequest { req: HttpTestRequest, rmap: ResourceMap, config: AppConfig, path: Path, peer_addr: Option, app_data: Extensions, } impl Default for TestRequest { fn default() -> TestRequest { TestRequest { req: HttpTestRequest::default(), rmap: ResourceMap::new(ResourceDef::new("")), config: AppConfig::default(), path: Path::new(Url::new(Uri::default())), peer_addr: None, app_data: Extensions::new(), } } } #[allow(clippy::wrong_self_convention)] impl TestRequest { /// Create TestRequest and set request uri pub fn with_uri(path: &str) -> TestRequest { TestRequest::default().uri(path) } /// Create TestRequest and set header pub fn with_hdr(hdr: H) -> TestRequest { TestRequest::default().set(hdr) } /// Create TestRequest and set header pub fn with_header(key: K, value: V) -> TestRequest where HeaderName: TryFrom, >::Error: Into, V: IntoHeaderValue, { TestRequest::default().header(key, value) } /// Create TestRequest and set method to `Method::GET` pub fn get() -> TestRequest { TestRequest::default().method(Method::GET) } /// Create TestRequest and set method to `Method::POST` pub fn post() -> TestRequest { TestRequest::default().method(Method::POST) } /// Create TestRequest and set method to `Method::PUT` pub fn put() -> TestRequest { TestRequest::default().method(Method::PUT) } /// Create TestRequest and set method to `Method::PATCH` pub fn patch() -> TestRequest { TestRequest::default().method(Method::PATCH) } /// Create TestRequest and set method to `Method::DELETE` pub fn delete() -> TestRequest { TestRequest::default().method(Method::DELETE) } /// Set HTTP version of this request pub fn version(mut self, ver: Version) -> Self { self.req.version(ver); self } /// Set HTTP method of this request pub fn method(mut self, meth: Method) -> Self { self.req.method(meth); self } /// Set HTTP Uri of this request pub fn uri(mut self, path: &str) -> Self { self.req.uri(path); self } /// Set a header pub fn set(mut self, hdr: H) -> Self { self.req.set(hdr); self } /// Set a header pub fn header(mut self, key: K, value: V) -> Self where HeaderName: TryFrom, >::Error: Into, V: IntoHeaderValue, { self.req.header(key, value); self } /// Set cookie for this request pub fn cookie(mut self, cookie: Cookie<'_>) -> Self { self.req.cookie(cookie); self } /// Set request path pattern parameter pub fn param(mut self, name: &'static str, value: &'static str) -> Self { self.path.add_static(name, value); self } /// Set peer addr pub fn peer_addr(mut self, addr: SocketAddr) -> Self { self.peer_addr = Some(addr); self } /// Set request payload pub fn set_payload>(mut self, data: B) -> Self { self.req.set_payload(data); self } /// Serialize `data` to a URL encoded form and set it as the request payload. The `Content-Type` /// header is set to `application/x-www-form-urlencoded`. pub fn set_form(mut self, data: &T) -> Self { let bytes = serde_urlencoded::to_string(data) .expect("Failed to serialize test data as a urlencoded form"); self.req.set_payload(bytes); self.req.set(ContentType::form_url_encoded()); self } /// Serialize `data` to JSON and set it as the request payload. The `Content-Type` header is /// set to `application/json`. pub fn set_json(mut self, data: &T) -> Self { let bytes = serde_json::to_string(data).expect("Failed to serialize test data to json"); self.req.set_payload(bytes); self.req.set(ContentType::json()); self } /// Set application data. This is equivalent of `App::data()` method /// for testing purpose. pub fn data(mut self, data: T) -> Self { self.app_data.insert(Data::new(data)); self } /// Set application data. This is equivalent of `App::app_data()` method /// for testing purpose. pub fn app_data(mut self, data: T) -> Self { self.app_data.insert(data); self } #[cfg(test)] /// Set request config pub(crate) fn rmap(mut self, rmap: ResourceMap) -> Self { self.rmap = rmap; self } /// Complete request creation and generate `Request` instance pub fn to_request(mut self) -> Request { let mut req = self.req.finish(); req.head_mut().peer_addr = self.peer_addr; req } /// Complete request creation and generate `ServiceRequest` instance pub fn to_srv_request(mut self) -> ServiceRequest { let (mut head, payload) = self.req.finish().into_parts(); head.peer_addr = self.peer_addr; self.path.get_mut().update(&head.uri); ServiceRequest::new(HttpRequest::new( self.path, head, payload, Rc::new(self.rmap), self.config.clone(), Rc::new(self.app_data), HttpRequestPool::create(), )) } /// Complete request creation and generate `ServiceResponse` instance pub fn to_srv_response(self, res: HttpResponse) -> ServiceResponse { self.to_srv_request().into_response(res) } /// Complete request creation and generate `HttpRequest` instance pub fn to_http_request(mut self) -> HttpRequest { let (mut head, payload) = self.req.finish().into_parts(); head.peer_addr = self.peer_addr; self.path.get_mut().update(&head.uri); HttpRequest::new( self.path, head, payload, Rc::new(self.rmap), self.config.clone(), Rc::new(self.app_data), HttpRequestPool::create(), ) } /// Complete request creation and generate `HttpRequest` and `Payload` instances pub fn to_http_parts(mut self) -> (HttpRequest, Payload) { let (mut head, payload) = self.req.finish().into_parts(); head.peer_addr = self.peer_addr; self.path.get_mut().update(&head.uri); let req = HttpRequest::new( self.path, head, Payload::None, Rc::new(self.rmap), self.config.clone(), Rc::new(self.app_data), HttpRequestPool::create(), ); (req, payload) } } /// Start test server with default configuration /// /// Test server is very simple server that simplify process of writing /// integration tests cases for actix web applications. /// /// # Examples /// /// ```rust /// use actix_web::{web, test, App, HttpResponse, Error}; /// /// async fn my_handler() -> Result { /// Ok(HttpResponse::Ok().into()) /// } /// /// #[actix_rt::test] /// async fn test_example() { /// let mut srv = test::start( /// || App::new().service( /// web::resource("/").to(my_handler)) /// ); /// /// let req = srv.get("/"); /// let response = req.send().await.unwrap(); /// assert!(response.status().is_success()); /// } /// ``` pub fn start(factory: F) -> TestServer where F: Fn() -> I + Send + Clone + 'static, I: IntoServiceFactory, S: ServiceFactory + 'static, S::Error: Into + 'static, S::InitError: fmt::Debug, S::Response: Into> + 'static, ::Future: 'static, B: MessageBody + 'static, { start_with(TestServerConfig::default(), factory) } /// Start test server with custom configuration /// /// Test server could be configured in different ways, for details check /// `TestServerConfig` docs. /// /// # Examples /// /// ```rust /// use actix_web::{web, test, App, HttpResponse, Error}; /// /// async fn my_handler() -> Result { /// Ok(HttpResponse::Ok().into()) /// } /// /// #[actix_rt::test] /// async fn test_example() { /// let mut srv = test::start_with(test::config().h1(), || /// App::new().service(web::resource("/").to(my_handler)) /// ); /// /// let req = srv.get("/"); /// let response = req.send().await.unwrap(); /// assert!(response.status().is_success()); /// } /// ``` pub fn start_with(cfg: TestServerConfig, factory: F) -> TestServer where F: Fn() -> I + Send + Clone + 'static, I: IntoServiceFactory, S: ServiceFactory + 'static, S::Error: Into + 'static, S::InitError: fmt::Debug, S::Response: Into> + 'static, ::Future: 'static, B: MessageBody + 'static, { let (tx, rx) = mpsc::channel(); let ssl = match cfg.stream { StreamType::Tcp => false, #[cfg(feature = "openssl")] StreamType::Openssl(_) => true, #[cfg(feature = "rustls")] StreamType::Rustls(_) => true, }; // run server in separate thread thread::spawn(move || { let sys = System::new("actix-test-server"); let tcp = net::TcpListener::bind("127.0.0.1:0").unwrap(); let local_addr = tcp.local_addr().unwrap(); let factory = factory.clone(); let cfg = cfg.clone(); let ctimeout = cfg.client_timeout; let builder = Server::build().workers(1).disable_signals(); let srv = match cfg.stream { StreamType::Tcp => match cfg.tp { HttpVer::Http1 => builder.listen("test", tcp, move || { let cfg = AppConfig::new(false, local_addr, format!("{}", local_addr)); HttpService::build() .client_timeout(ctimeout) .h1(map_config(factory(), move |_| cfg.clone())) .tcp() }), HttpVer::Http2 => builder.listen("test", tcp, move || { let cfg = AppConfig::new(false, local_addr, format!("{}", local_addr)); HttpService::build() .client_timeout(ctimeout) .h2(map_config(factory(), move |_| cfg.clone())) .tcp() }), HttpVer::Both => builder.listen("test", tcp, move || { let cfg = AppConfig::new(false, local_addr, format!("{}", local_addr)); HttpService::build() .client_timeout(ctimeout) .finish(map_config(factory(), move |_| cfg.clone())) .tcp() }), }, #[cfg(feature = "openssl")] StreamType::Openssl(acceptor) => match cfg.tp { HttpVer::Http1 => builder.listen("test", tcp, move || { let cfg = AppConfig::new(true, local_addr, format!("{}", local_addr)); HttpService::build() .client_timeout(ctimeout) .h1(map_config(factory(), move |_| cfg.clone())) .openssl(acceptor.clone()) }), HttpVer::Http2 => builder.listen("test", tcp, move || { let cfg = AppConfig::new(true, local_addr, format!("{}", local_addr)); HttpService::build() .client_timeout(ctimeout) .h2(map_config(factory(), move |_| cfg.clone())) .openssl(acceptor.clone()) }), HttpVer::Both => builder.listen("test", tcp, move || { let cfg = AppConfig::new(true, local_addr, format!("{}", local_addr)); HttpService::build() .client_timeout(ctimeout) .finish(map_config(factory(), move |_| cfg.clone())) .openssl(acceptor.clone()) }), }, #[cfg(feature = "rustls")] StreamType::Rustls(config) => match cfg.tp { HttpVer::Http1 => builder.listen("test", tcp, move || { let cfg = AppConfig::new(true, local_addr, format!("{}", local_addr)); HttpService::build() .client_timeout(ctimeout) .h1(map_config(factory(), move |_| cfg.clone())) .rustls(config.clone()) }), HttpVer::Http2 => builder.listen("test", tcp, move || { let cfg = AppConfig::new(true, local_addr, format!("{}", local_addr)); HttpService::build() .client_timeout(ctimeout) .h2(map_config(factory(), move |_| cfg.clone())) .rustls(config.clone()) }), HttpVer::Both => builder.listen("test", tcp, move || { let cfg = AppConfig::new(true, local_addr, format!("{}", local_addr)); HttpService::build() .client_timeout(ctimeout) .finish(map_config(factory(), move |_| cfg.clone())) .rustls(config.clone()) }), }, } .unwrap() .start(); tx.send((System::current(), srv, local_addr)).unwrap(); sys.run() }); let (system, server, addr) = rx.recv().unwrap(); let client = { let connector = { #[cfg(feature = "openssl")] { use open_ssl::ssl::{SslConnector, SslMethod, SslVerifyMode}; let mut builder = SslConnector::builder(SslMethod::tls()).unwrap(); builder.set_verify(SslVerifyMode::NONE); let _ = builder .set_alpn_protos(b"\x02h2\x08http/1.1") .map_err(|e| log::error!("Can not set alpn protocol: {:?}", e)); Connector::new() .conn_lifetime(time::Duration::from_secs(0)) .timeout(time::Duration::from_millis(30000)) .ssl(builder.build()) .finish() } #[cfg(not(feature = "openssl"))] { Connector::new() .conn_lifetime(time::Duration::from_secs(0)) .timeout(time::Duration::from_millis(30000)) .finish() } }; Client::build().connector(connector).finish() }; TestServer { ssl, addr, client, system, server, } } #[derive(Clone)] pub struct TestServerConfig { tp: HttpVer, stream: StreamType, client_timeout: u64, } #[derive(Clone)] enum HttpVer { Http1, Http2, Both, } #[derive(Clone)] enum StreamType { Tcp, #[cfg(feature = "openssl")] Openssl(open_ssl::ssl::SslAcceptor), #[cfg(feature = "rustls")] Rustls(rust_tls::ServerConfig), } impl Default for TestServerConfig { fn default() -> Self { TestServerConfig::new() } } /// Create default test server config pub fn config() -> TestServerConfig { TestServerConfig::new() } impl TestServerConfig { /// Create default server configuration pub(crate) fn new() -> TestServerConfig { TestServerConfig { tp: HttpVer::Both, stream: StreamType::Tcp, client_timeout: 5000, } } /// Start http/1.1 server only pub fn h1(mut self) -> Self { self.tp = HttpVer::Http1; self } /// Start http/2 server only pub fn h2(mut self) -> Self { self.tp = HttpVer::Http2; self } /// Start openssl server #[cfg(feature = "openssl")] pub fn openssl(mut self, acceptor: open_ssl::ssl::SslAcceptor) -> Self { self.stream = StreamType::Openssl(acceptor); self } /// Start rustls server #[cfg(feature = "rustls")] pub fn rustls(mut self, config: rust_tls::ServerConfig) -> Self { self.stream = StreamType::Rustls(config); self } /// Set server client timeout in milliseconds for first request. pub fn client_timeout(mut self, val: u64) -> Self { self.client_timeout = val; self } } /// Get first available unused address pub fn unused_addr() -> net::SocketAddr { let addr: net::SocketAddr = "127.0.0.1:0".parse().unwrap(); let socket = TcpBuilder::new_v4().unwrap(); socket.bind(&addr).unwrap(); socket.reuse_address(true).unwrap(); let tcp = socket.to_tcp_listener().unwrap(); tcp.local_addr().unwrap() } /// Test server controller pub struct TestServer { addr: net::SocketAddr, client: awc::Client, system: actix_rt::System, ssl: bool, server: Server, } impl TestServer { /// Construct test server url pub fn addr(&self) -> net::SocketAddr { self.addr } /// Construct test server url pub fn url(&self, uri: &str) -> String { let scheme = if self.ssl { "https" } else { "http" }; if uri.starts_with('/') { format!("{}://localhost:{}{}", scheme, self.addr.port(), uri) } else { format!("{}://localhost:{}/{}", scheme, self.addr.port(), uri) } } /// Create `GET` request pub fn get>(&self, path: S) -> ClientRequest { self.client.get(self.url(path.as_ref()).as_str()) } /// Create `POST` request pub fn post>(&self, path: S) -> ClientRequest { self.client.post(self.url(path.as_ref()).as_str()) } /// Create `HEAD` request pub fn head>(&self, path: S) -> ClientRequest { self.client.head(self.url(path.as_ref()).as_str()) } /// Create `PUT` request pub fn put>(&self, path: S) -> ClientRequest { self.client.put(self.url(path.as_ref()).as_str()) } /// Create `PATCH` request pub fn patch>(&self, path: S) -> ClientRequest { self.client.patch(self.url(path.as_ref()).as_str()) } /// Create `DELETE` request pub fn delete>(&self, path: S) -> ClientRequest { self.client.delete(self.url(path.as_ref()).as_str()) } /// Create `OPTIONS` request pub fn options>(&self, path: S) -> ClientRequest { self.client.options(self.url(path.as_ref()).as_str()) } /// Connect to test http server pub fn request>(&self, method: Method, path: S) -> ClientRequest { self.client.request(method, path.as_ref()) } pub async fn load_body( &mut self, mut response: ClientResponse, ) -> Result where S: Stream> + Unpin + 'static, { response.body().limit(10_485_760).await } /// Connect to websocket server at a given path pub async fn ws_at( &mut self, path: &str, ) -> Result, awc::error::WsClientError> { let url = self.url(path); let connect = self.client.ws(url).connect(); connect.await.map(|(_, framed)| framed) } /// Connect to a websocket server pub async fn ws( &mut self, ) -> Result, awc::error::WsClientError> { self.ws_at("/").await } /// Gracefully stop http server pub async fn stop(self) { self.server.stop(true).await; self.system.stop(); delay_for(time::Duration::from_millis(100)).await; } } impl Drop for TestServer { fn drop(&mut self) { self.system.stop() } } #[cfg(test)] mod tests { use actix_http::httpmessage::HttpMessage; use futures::FutureExt; use serde::{Deserialize, Serialize}; use std::time::SystemTime; use super::*; use crate::{http::header, web, App, HttpResponse, Responder}; #[actix_rt::test] async fn test_basics() { let req = TestRequest::with_hdr(header::ContentType::json()) .version(Version::HTTP_2) .set(header::Date(SystemTime::now().into())) .param("test", "123") .data(10u32) .app_data(20u64) .peer_addr("127.0.0.1:8081".parse().unwrap()) .to_http_request(); assert!(req.headers().contains_key(header::CONTENT_TYPE)); assert!(req.headers().contains_key(header::DATE)); assert_eq!( req.head().peer_addr, Some("127.0.0.1:8081".parse().unwrap()) ); assert_eq!(&req.match_info()["test"], "123"); assert_eq!(req.version(), Version::HTTP_2); let data = req.app_data::>().unwrap(); assert!(req.app_data::>().is_none()); assert_eq!(*data.get_ref(), 10); assert!(req.app_data::().is_none()); let data = req.app_data::().unwrap(); assert_eq!(*data, 20); } #[actix_rt::test] async fn test_request_methods() { let mut app = init_service( App::new().service( web::resource("/index.html") .route(web::put().to(|| async { HttpResponse::Ok().body("put!") })) .route( web::patch().to(|| async { HttpResponse::Ok().body("patch!") }), ) .route( web::delete() .to(|| async { HttpResponse::Ok().body("delete!") }), ), ), ) .await; let put_req = TestRequest::put() .uri("/index.html") .header(header::CONTENT_TYPE, "application/json") .to_request(); let result = read_response(&mut app, put_req).await; assert_eq!(result, Bytes::from_static(b"put!")); let patch_req = TestRequest::patch() .uri("/index.html") .header(header::CONTENT_TYPE, "application/json") .to_request(); let result = read_response(&mut app, patch_req).await; assert_eq!(result, Bytes::from_static(b"patch!")); let delete_req = TestRequest::delete().uri("/index.html").to_request(); let result = read_response(&mut app, delete_req).await; assert_eq!(result, Bytes::from_static(b"delete!")); } #[actix_rt::test] async fn test_response() { let mut app = init_service(App::new().service(web::resource("/index.html").route( web::post().to(|| async { HttpResponse::Ok().body("welcome!") }), ))) .await; let req = TestRequest::post() .uri("/index.html") .header(header::CONTENT_TYPE, "application/json") .to_request(); let result = read_response(&mut app, req).await; assert_eq!(result, Bytes::from_static(b"welcome!")); } #[derive(Serialize, Deserialize)] pub struct Person { id: String, name: String, } #[actix_rt::test] async fn test_response_json() { let mut app = init_service(App::new().service(web::resource("/people").route( web::post().to(|person: web::Json| { async { HttpResponse::Ok().json(person.into_inner()) } }), ))) .await; let payload = r#"{"id":"12345","name":"User name"}"#.as_bytes(); let req = TestRequest::post() .uri("/people") .header(header::CONTENT_TYPE, "application/json") .set_payload(payload) .to_request(); let result: Person = read_response_json(&mut app, req).await; assert_eq!(&result.id, "12345"); } #[actix_rt::test] async fn test_request_response_form() { let mut app = init_service(App::new().service(web::resource("/people").route( web::post().to(|person: web::Form| { async { HttpResponse::Ok().json(person.into_inner()) } }), ))) .await; let payload = Person { id: "12345".to_string(), name: "User name".to_string(), }; let req = TestRequest::post() .uri("/people") .set_form(&payload) .to_request(); assert_eq!(req.content_type(), "application/x-www-form-urlencoded"); let result: Person = read_response_json(&mut app, req).await; assert_eq!(&result.id, "12345"); assert_eq!(&result.name, "User name"); } #[actix_rt::test] async fn test_request_response_json() { let mut app = init_service(App::new().service(web::resource("/people").route( web::post().to(|person: web::Json| { async { HttpResponse::Ok().json(person.into_inner()) } }), ))) .await; let payload = Person { id: "12345".to_string(), name: "User name".to_string(), }; let req = TestRequest::post() .uri("/people") .set_json(&payload) .to_request(); assert_eq!(req.content_type(), "application/json"); let result: Person = read_response_json(&mut app, req).await; assert_eq!(&result.id, "12345"); assert_eq!(&result.name, "User name"); } #[actix_rt::test] async fn test_async_with_block() { async fn async_with_block() -> Result { let res = web::block(move || Some(4usize).ok_or("wrong")).await; match res { Ok(value) => Ok(HttpResponse::Ok() .content_type("text/plain") .body(format!("Async with block value: {}", value))), Err(_) => panic!("Unexpected"), } } let mut app = init_service( App::new().service(web::resource("/index.html").to(async_with_block)), ) .await; let req = TestRequest::post().uri("/index.html").to_request(); let res = app.call(req).await.unwrap(); assert!(res.status().is_success()); } #[actix_rt::test] async fn test_server_data() { async fn handler(data: web::Data) -> impl Responder { assert_eq!(**data, 10); HttpResponse::Ok() } let mut app = init_service( App::new() .data(10usize) .service(web::resource("/index.html").to(handler)), ) .await; let req = TestRequest::post().uri("/index.html").to_request(); let res = app.call(req).await.unwrap(); assert!(res.status().is_success()); } #[actix_rt::test] async fn test_actor() { use actix::Actor; struct MyActor; struct Num(usize); impl actix::Message for Num { type Result = usize; } impl actix::Actor for MyActor { type Context = actix::Context; } impl actix::Handler for MyActor { type Result = usize; fn handle(&mut self, msg: Num, _: &mut Self::Context) -> Self::Result { msg.0 } } let addr = MyActor.start(); let mut app = init_service(App::new().service(web::resource("/index.html").to( move || { addr.send(Num(1)).map(|res| match res { Ok(res) => { if res == 1 { Ok(HttpResponse::Ok()) } else { Ok(HttpResponse::BadRequest()) } } Err(err) => Err(err), }) }, ))) .await; let req = TestRequest::post().uri("/index.html").to_request(); let res = app.call(req).await.unwrap(); assert!(res.status().is_success()); } }