use std::io::{Read, Write}; use actix_http::http::header::{ ContentEncoding, ACCEPT_ENCODING, CONTENT_ENCODING, CONTENT_LENGTH, TRANSFER_ENCODING, }; use actix_http::{h1, Error, HttpService, Response}; use actix_http_test::TestServer; use brotli2::write::{BrotliDecoder, BrotliEncoder}; use bytes::Bytes; use flate2::read::GzDecoder; use flate2::write::{GzEncoder, ZlibDecoder, ZlibEncoder}; use flate2::Compression; use futures::{future::ok, stream::once}; use rand::{distributions::Alphanumeric, Rng}; use actix_web::middleware::{BodyEncoding, Compress}; use actix_web::{dev, http, web, App, HttpResponse, HttpServer}; const STR: &str = "Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World \ Hello World Hello World Hello World Hello World Hello World"; #[actix_rt::test] async fn test_body() { let srv = TestServer::start(|| { h1::H1Service::new( App::new() .service(web::resource("/").route(web::to(|| Response::Ok().body(STR)))), ) }); let mut response = srv.get("/").send().await.unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); assert_eq!(bytes, Bytes::from_static(STR.as_ref())); } #[cfg(any(feature = "flate2-zlib", feature = "flate2-rust"))] #[actix_rt::test] async fn test_body_gzip() { let srv = TestServer::start(|| { h1::H1Service::new( App::new() .wrap(Compress::new(ContentEncoding::Gzip)) .service(web::resource("/").route(web::to(|| Response::Ok().body(STR)))), ) }); let mut response = srv .get("/") .no_decompress() .header(ACCEPT_ENCODING, "gzip") .send() .await .unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); // decode let mut e = GzDecoder::new(&bytes[..]); let mut dec = Vec::new(); e.read_to_end(&mut dec).unwrap(); assert_eq!(Bytes::from(dec), Bytes::from_static(STR.as_ref())); } #[cfg(any(feature = "flate2-zlib", feature = "flate2-rust"))] #[actix_rt::test] async fn test_body_gzip2() { let srv = TestServer::start(|| { h1::H1Service::new( App::new() .wrap(Compress::new(ContentEncoding::Gzip)) .service(web::resource("/").route(web::to(|| { Response::Ok().body(STR).into_body::() }))), ) }); let mut response = srv .get("/") .no_decompress() .header(ACCEPT_ENCODING, "gzip") .send() .await .unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); // decode let mut e = GzDecoder::new(&bytes[..]); let mut dec = Vec::new(); e.read_to_end(&mut dec).unwrap(); assert_eq!(Bytes::from(dec), Bytes::from_static(STR.as_ref())); } #[cfg(any(feature = "flate2-zlib", feature = "flate2-rust"))] #[actix_rt::test] async fn test_body_encoding_override() { let srv = TestServer::start(|| { h1::H1Service::new( App::new() .wrap(Compress::new(ContentEncoding::Gzip)) .service(web::resource("/").route(web::to(|| { Response::Ok().encoding(ContentEncoding::Deflate).body(STR) }))) .service(web::resource("/raw").route(web::to(|| { let body = actix_web::dev::Body::Bytes(STR.into()); let mut response = Response::with_body(actix_web::http::StatusCode::OK, body); response.encoding(ContentEncoding::Deflate); response }))), ) }); // Builder let mut response = srv .get("/") .no_decompress() .header(ACCEPT_ENCODING, "deflate") .send() .await .unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); // decode let mut e = ZlibDecoder::new(Vec::new()); e.write_all(bytes.as_ref()).unwrap(); let dec = e.finish().unwrap(); assert_eq!(Bytes::from(dec), Bytes::from_static(STR.as_ref())); // Raw Response let mut response = srv .request(actix_web::http::Method::GET, srv.url("/raw")) .no_decompress() .header(ACCEPT_ENCODING, "deflate") .send() .await .unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); // decode let mut e = ZlibDecoder::new(Vec::new()); e.write_all(bytes.as_ref()).unwrap(); let dec = e.finish().unwrap(); assert_eq!(Bytes::from(dec), Bytes::from_static(STR.as_ref())); } #[cfg(any(feature = "flate2-zlib", feature = "flate2-rust"))] #[actix_rt::test] async fn test_body_gzip_large() { let data = STR.repeat(10); let srv_data = data.clone(); let srv = TestServer::start(move || { let data = srv_data.clone(); h1::H1Service::new( App::new() .wrap(Compress::new(ContentEncoding::Gzip)) .service( web::resource("/") .route(web::to(move || Response::Ok().body(data.clone()))), ), ) }); let mut response = srv .get("/") .no_decompress() .header(ACCEPT_ENCODING, "gzip") .send() .await .unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); // decode let mut e = GzDecoder::new(&bytes[..]); let mut dec = Vec::new(); e.read_to_end(&mut dec).unwrap(); assert_eq!(Bytes::from(dec), Bytes::from(data)); } #[cfg(any(feature = "flate2-zlib", feature = "flate2-rust"))] #[actix_rt::test] async fn test_body_gzip_large_random() { let data = rand::thread_rng() .sample_iter(&Alphanumeric) .take(70_000) .collect::(); let srv_data = data.clone(); let srv = TestServer::start(move || { let data = srv_data.clone(); h1::H1Service::new( App::new() .wrap(Compress::new(ContentEncoding::Gzip)) .service( web::resource("/") .route(web::to(move || Response::Ok().body(data.clone()))), ), ) }); let mut response = srv .get("/") .no_decompress() .header(ACCEPT_ENCODING, "gzip") .send() .await .unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); // decode let mut e = GzDecoder::new(&bytes[..]); let mut dec = Vec::new(); e.read_to_end(&mut dec).unwrap(); assert_eq!(dec.len(), data.len()); assert_eq!(Bytes::from(dec), Bytes::from(data)); } #[cfg(any(feature = "flate2-zlib", feature = "flate2-rust"))] #[actix_rt::test] async fn test_body_chunked_implicit() { let srv = TestServer::start(move || { h1::H1Service::new( App::new() .wrap(Compress::new(ContentEncoding::Gzip)) .service(web::resource("/").route(web::get().to(move || { Response::Ok().streaming(once(ok::<_, Error>(Bytes::from_static( STR.as_ref(), )))) }))), ) }); let mut response = srv .get("/") .no_decompress() .header(ACCEPT_ENCODING, "gzip") .send() .await .unwrap(); assert!(response.status().is_success()); assert_eq!( response.headers().get(TRANSFER_ENCODING).unwrap(), &b"chunked"[..] ); // read response let bytes = response.body().await.unwrap(); // decode let mut e = GzDecoder::new(&bytes[..]); let mut dec = Vec::new(); e.read_to_end(&mut dec).unwrap(); assert_eq!(Bytes::from(dec), Bytes::from_static(STR.as_ref())); } #[actix_rt::test] #[cfg(feature = "brotli")] async fn test_body_br_streaming() { let srv = TestServer::start(move || { h1::H1Service::new(App::new().wrap(Compress::new(ContentEncoding::Br)).service( web::resource("/").route(web::to(move || { Response::Ok() .streaming(once(ok::<_, Error>(Bytes::from_static(STR.as_ref())))) })), )) }); let mut response = srv .get("/") .header(ACCEPT_ENCODING, "br") .no_decompress() .send() .await .unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); // decode br let mut e = BrotliDecoder::new(Vec::with_capacity(2048)); e.write_all(bytes.as_ref()).unwrap(); let dec = e.finish().unwrap(); assert_eq!(Bytes::from(dec), Bytes::from_static(STR.as_ref())); } #[actix_rt::test] async fn test_head_binary() { let srv = TestServer::start(move || { h1::H1Service::new(App::new().service(web::resource("/").route( web::head().to(move || Response::Ok().content_length(100).body(STR)), ))) }); let mut response = srv.head("/").send().await.unwrap(); assert!(response.status().is_success()); { let len = response.headers().get(CONTENT_LENGTH).unwrap(); assert_eq!(format!("{}", STR.len()), len.to_str().unwrap()); } // read response let bytes = response.body().await.unwrap(); assert!(bytes.is_empty()); } #[actix_rt::test] async fn test_no_chunking() { let srv = TestServer::start(move || { h1::H1Service::new(App::new().service(web::resource("/").route(web::to( move || { Response::Ok() .no_chunking() .content_length(STR.len() as u64) .streaming(once(ok::<_, Error>(Bytes::from_static(STR.as_ref())))) }, )))) }); let mut response = srv.get("/").send().await.unwrap(); assert!(response.status().is_success()); assert!(!response.headers().contains_key(TRANSFER_ENCODING)); // read response let bytes = response.body().await.unwrap(); assert_eq!(bytes, Bytes::from_static(STR.as_ref())); } #[actix_rt::test] #[cfg(any(feature = "flate2-zlib", feature = "flate2-rust"))] async fn test_body_deflate() { let srv = TestServer::start(move || { h1::H1Service::new( App::new() .wrap(Compress::new(ContentEncoding::Deflate)) .service( web::resource("/").route(web::to(move || Response::Ok().body(STR))), ), ) }); // client request let mut response = srv .get("/") .header(ACCEPT_ENCODING, "deflate") .no_decompress() .send() .await .unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); let mut e = ZlibDecoder::new(Vec::new()); e.write_all(bytes.as_ref()).unwrap(); let dec = e.finish().unwrap(); assert_eq!(Bytes::from(dec), Bytes::from_static(STR.as_ref())); } #[actix_rt::test] #[cfg(any(feature = "brotli"))] async fn test_body_brotli() { let srv = TestServer::start(move || { h1::H1Service::new(App::new().wrap(Compress::new(ContentEncoding::Br)).service( web::resource("/").route(web::to(move || Response::Ok().body(STR))), )) }); // client request let mut response = srv .get("/") .header(ACCEPT_ENCODING, "br") .no_decompress() .send() .await .unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); // decode brotli let mut e = BrotliDecoder::new(Vec::with_capacity(2048)); e.write_all(bytes.as_ref()).unwrap(); let dec = e.finish().unwrap(); assert_eq!(Bytes::from(dec), Bytes::from_static(STR.as_ref())); } #[actix_rt::test] #[cfg(any(feature = "flate2-zlib", feature = "flate2-rust"))] async fn test_encoding() { let srv = TestServer::start(move || { HttpService::new( App::new().wrap(Compress::default()).service( web::resource("/") .route(web::to(move |body: Bytes| Response::Ok().body(body))), ), ) }); // client request let mut e = GzEncoder::new(Vec::new(), Compression::default()); e.write_all(STR.as_ref()).unwrap(); let enc = e.finish().unwrap(); let request = srv .post("/") .header(CONTENT_ENCODING, "gzip") .send_body(enc.clone()); let mut response = request.await.unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); assert_eq!(bytes, Bytes::from_static(STR.as_ref())); } #[actix_rt::test] #[cfg(any(feature = "flate2-zlib", feature = "flate2-rust"))] async fn test_gzip_encoding() { let srv = TestServer::start(move || { HttpService::new( App::new().service( web::resource("/") .route(web::to(move |body: Bytes| Response::Ok().body(body))), ), ) }); // client request let mut e = GzEncoder::new(Vec::new(), Compression::default()); e.write_all(STR.as_ref()).unwrap(); let enc = e.finish().unwrap(); let request = srv .post("/") .header(CONTENT_ENCODING, "gzip") .send_body(enc.clone()); let mut response = request.await.unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); assert_eq!(bytes, Bytes::from_static(STR.as_ref())); } #[actix_rt::test] #[cfg(any(feature = "flate2-zlib", feature = "flate2-rust"))] async fn test_gzip_encoding_large() { let data = STR.repeat(10); let srv = TestServer::start(move || { h1::H1Service::new( App::new().service( web::resource("/") .route(web::to(move |body: Bytes| Response::Ok().body(body))), ), ) }); // client request let mut e = GzEncoder::new(Vec::new(), Compression::default()); e.write_all(data.as_ref()).unwrap(); let enc = e.finish().unwrap(); let request = srv .post("/") .header(CONTENT_ENCODING, "gzip") .send_body(enc.clone()); let mut response = request.await.unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); assert_eq!(bytes, Bytes::from(data)); } #[actix_rt::test] #[cfg(any(feature = "flate2-zlib", feature = "flate2-rust"))] async fn test_reading_gzip_encoding_large_random() { let data = rand::thread_rng() .sample_iter(&Alphanumeric) .take(60_000) .collect::(); let srv = TestServer::start(move || { HttpService::new( App::new().service( web::resource("/") .route(web::to(move |body: Bytes| Response::Ok().body(body))), ), ) }); // client request let mut e = GzEncoder::new(Vec::new(), Compression::default()); e.write_all(data.as_ref()).unwrap(); let enc = e.finish().unwrap(); let request = srv .post("/") .header(CONTENT_ENCODING, "gzip") .send_body(enc.clone()); let mut response = request.await.unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); assert_eq!(bytes.len(), data.len()); assert_eq!(bytes, Bytes::from(data)); } #[actix_rt::test] #[cfg(any(feature = "flate2-zlib", feature = "flate2-rust"))] async fn test_reading_deflate_encoding() { let srv = TestServer::start(move || { h1::H1Service::new( App::new().service( web::resource("/") .route(web::to(move |body: Bytes| Response::Ok().body(body))), ), ) }); let mut e = ZlibEncoder::new(Vec::new(), Compression::default()); e.write_all(STR.as_ref()).unwrap(); let enc = e.finish().unwrap(); // client request let request = srv .post("/") .header(CONTENT_ENCODING, "deflate") .send_body(enc.clone()); let mut response = request.await.unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); assert_eq!(bytes, Bytes::from_static(STR.as_ref())); } #[actix_rt::test] #[cfg(any(feature = "flate2-zlib", feature = "flate2-rust"))] async fn test_reading_deflate_encoding_large() { let data = STR.repeat(10); let srv = TestServer::start(move || { h1::H1Service::new( App::new().service( web::resource("/") .route(web::to(move |body: Bytes| Response::Ok().body(body))), ), ) }); let mut e = ZlibEncoder::new(Vec::new(), Compression::default()); e.write_all(data.as_ref()).unwrap(); let enc = e.finish().unwrap(); // client request let request = srv .post("/") .header(CONTENT_ENCODING, "deflate") .send_body(enc.clone()); let mut response = request.await.unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); assert_eq!(bytes, Bytes::from(data)); } #[actix_rt::test] #[cfg(any(feature = "flate2-zlib", feature = "flate2-rust"))] async fn test_reading_deflate_encoding_large_random() { let data = rand::thread_rng() .sample_iter(&Alphanumeric) .take(160_000) .collect::(); let srv = TestServer::start(move || { h1::H1Service::new( App::new().service( web::resource("/") .route(web::to(move |body: Bytes| Response::Ok().body(body))), ), ) }); let mut e = ZlibEncoder::new(Vec::new(), Compression::default()); e.write_all(data.as_ref()).unwrap(); let enc = e.finish().unwrap(); // client request let request = srv .post("/") .header(CONTENT_ENCODING, "deflate") .send_body(enc.clone()); let mut response = request.await.unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); assert_eq!(bytes.len(), data.len()); assert_eq!(bytes, Bytes::from(data)); } #[actix_rt::test] #[cfg(feature = "brotli")] async fn test_brotli_encoding() { let srv = TestServer::start(move || { h1::H1Service::new( App::new().service( web::resource("/") .route(web::to(move |body: Bytes| Response::Ok().body(body))), ), ) }); let mut e = BrotliEncoder::new(Vec::new(), 5); e.write_all(STR.as_ref()).unwrap(); let enc = e.finish().unwrap(); // client request let request = srv .post("/") .header(CONTENT_ENCODING, "br") .send_body(enc.clone()); let mut response = request.await.unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); assert_eq!(bytes, Bytes::from_static(STR.as_ref())); } #[cfg(feature = "brotli")] #[actix_rt::test] async fn test_brotli_encoding_large() { let data = STR.repeat(10); let srv = TestServer::start(move || { h1::H1Service::new( App::new().service( web::resource("/") .route(web::to(move |body: Bytes| Response::Ok().body(body))), ), ) }); let mut e = BrotliEncoder::new(Vec::new(), 5); e.write_all(data.as_ref()).unwrap(); let enc = e.finish().unwrap(); // client request let request = srv .post("/") .header(CONTENT_ENCODING, "br") .send_body(enc.clone()); let mut response = request.await.unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); assert_eq!(bytes, Bytes::from(data)); } // #[cfg(all(feature = "brotli", feature = "ssl"))] // #[actix_rt::test] // async fn test_brotli_encoding_large_ssl() { // use actix::{Actor, System}; // use openssl::ssl::{ // SslAcceptor, SslConnector, SslFiletype, SslMethod, SslVerifyMode, // }; // // load ssl keys // let mut builder = SslAcceptor::mozilla_intermediate(SslMethod::tls()).unwrap(); // builder // .set_private_key_file("tests/key.pem", SslFiletype::PEM) // .unwrap(); // builder // .set_certificate_chain_file("tests/cert.pem") // .unwrap(); // let data = STR.repeat(10); // let srv = test::TestServer::build().ssl(builder).start(|app| { // app.handler(|req: &HttpRequest| { // req.body() // .and_then(|bytes: Bytes| { // Ok(HttpResponse::Ok() // .content_encoding(http::ContentEncoding::Identity) // .body(bytes)) // }) // .responder() // }) // }); // let mut rt = System::new("test"); // // client connector // let mut builder = SslConnector::builder(SslMethod::tls()).unwrap(); // builder.set_verify(SslVerifyMode::NONE); // let conn = client::ClientConnector::with_connector(builder.build()).start(); // // body // let mut e = BrotliEncoder::new(Vec::new(), 5); // e.write_all(data.as_ref()).unwrap(); // let enc = e.finish().unwrap(); // // client request // let request = client::ClientRequest::build() // .uri(srv.url("/")) // .method(http::Method::POST) // .header(http::header::CONTENT_ENCODING, "br") // .with_connector(conn) // .body(enc) // .unwrap(); // let response = rt.block_on(request.send()).unwrap(); // assert!(response.status().is_success()); // // read response // let bytes = rt.block_on(response.body()).unwrap(); // assert_eq!(bytes, Bytes::from(data)); // } #[cfg(all( feature = "rustls", feature = "openssl", any(feature = "flate2-zlib", feature = "flate2-rust") ))] #[actix_rt::test] async fn test_reading_deflate_encoding_large_random_ssl() { use open_ssl::ssl::{SslConnector, SslMethod, SslVerifyMode}; use rust_tls::internal::pemfile::{certs, pkcs8_private_keys}; use rust_tls::{NoClientAuth, ServerConfig}; use std::fs::File; use std::io::BufReader; use std::sync::mpsc; let addr = TestServer::unused_addr(); let (tx, rx) = mpsc::channel(); let data = rand::thread_rng() .sample_iter(&Alphanumeric) .take(160_000) .collect::(); std::thread::spawn(move || { let sys = actix_rt::System::new("test"); // load ssl keys let mut config = ServerConfig::new(NoClientAuth::new()); let cert_file = &mut BufReader::new(File::open("tests/cert.pem").unwrap()); let key_file = &mut BufReader::new(File::open("tests/key.pem").unwrap()); let cert_chain = certs(cert_file).unwrap(); let mut keys = pkcs8_private_keys(key_file).unwrap(); config.set_single_cert(cert_chain, keys.remove(0)).unwrap(); let srv = HttpServer::new(|| { App::new().service(web::resource("/").route(web::to(|bytes: Bytes| { async move { Ok::<_, Error>( HttpResponse::Ok() .encoding(http::ContentEncoding::Identity) .body(bytes), ) } }))) }) .bind_rustls(addr, config) .unwrap() .start(); let _ = tx.send((srv, actix_rt::System::current())); let _ = sys.run(); }); let (srv, _sys) = rx.recv().unwrap(); let client = { let mut builder = SslConnector::builder(SslMethod::tls()).unwrap(); builder.set_verify(SslVerifyMode::NONE); let _ = builder.set_alpn_protos(b"\x02h2\x08http/1.1").unwrap(); awc::Client::build() .connector( awc::Connector::new() .timeout(std::time::Duration::from_millis(500)) .ssl(builder.build()) .finish(), ) .finish() }; // encode data let mut e = ZlibEncoder::new(Vec::new(), Compression::default()); e.write_all(data.as_ref()).unwrap(); let enc = e.finish().unwrap(); // client request let req = client .post(format!("https://localhost:{}/", addr.port())) .header(http::header::CONTENT_ENCODING, "deflate") .send_body(enc); let mut response = req.await.unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); assert_eq!(bytes.len(), data.len()); assert_eq!(bytes, Bytes::from(data)); // stop let _ = srv.stop(false); } // #[cfg(all(feature = "tls", feature = "ssl"))] // #[test] // fn test_reading_deflate_encoding_large_random_tls() { // use native_tls::{Identity, TlsAcceptor}; // use openssl::ssl::{ // SslAcceptor, SslConnector, SslFiletype, SslMethod, SslVerifyMode, // }; // use std::fs::File; // use std::sync::mpsc; // use actix::{Actor, System}; // let (tx, rx) = mpsc::channel(); // // load ssl keys // let mut file = File::open("tests/identity.pfx").unwrap(); // let mut identity = vec![]; // file.read_to_end(&mut identity).unwrap(); // let identity = Identity::from_pkcs12(&identity, "1").unwrap(); // let acceptor = TlsAcceptor::new(identity).unwrap(); // // load ssl keys // let mut builder = SslAcceptor::mozilla_intermediate(SslMethod::tls()).unwrap(); // builder // .set_private_key_file("tests/key.pem", SslFiletype::PEM) // .unwrap(); // builder // .set_certificate_chain_file("tests/cert.pem") // .unwrap(); // let data = rand::thread_rng() // .sample_iter(&Alphanumeric) // .take(160_000) // .collect::(); // let addr = test::TestServer::unused_addr(); // thread::spawn(move || { // System::run(move || { // server::new(|| { // App::new().handler("/", |req: &HttpRequest| { // req.body() // .and_then(|bytes: Bytes| { // Ok(HttpResponse::Ok() // .content_encoding(http::ContentEncoding::Identity) // .body(bytes)) // }) // .responder() // }) // }) // .bind_tls(addr, acceptor) // .unwrap() // .start(); // let _ = tx.send(System::current()); // }); // }); // let sys = rx.recv().unwrap(); // let mut rt = System::new("test"); // // client connector // let mut builder = SslConnector::builder(SslMethod::tls()).unwrap(); // builder.set_verify(SslVerifyMode::NONE); // let conn = client::ClientConnector::with_connector(builder.build()).start(); // // encode data // let mut e = ZlibEncoder::new(Vec::new(), Compression::default()); // e.write_all(data.as_ref()).unwrap(); // let enc = e.finish().unwrap(); // // client request // let request = client::ClientRequest::build() // .uri(format!("https://{}/", addr)) // .method(http::Method::POST) // .header(http::header::CONTENT_ENCODING, "deflate") // .with_connector(conn) // .body(enc) // .unwrap(); // let response = rt.block_on(request.send()).unwrap(); // assert!(response.status().is_success()); // // read response // let bytes = rt.block_on(response.body()).unwrap(); // assert_eq!(bytes.len(), data.len()); // assert_eq!(bytes, Bytes::from(data)); // let _ = sys.stop(); // } // #[test] // fn test_server_cookies() { // use actix_web::http; // let srv = test::TestServer::with_factory(|| { // App::new().resource("/", |r| { // r.f(|_| { // HttpResponse::Ok() // .cookie( // http::CookieBuilder::new("first", "first_value") // .http_only(true) // .finish(), // ) // .cookie(http::Cookie::new("second", "first_value")) // .cookie(http::Cookie::new("second", "second_value")) // .finish() // }) // }) // }); // let first_cookie = http::CookieBuilder::new("first", "first_value") // .http_only(true) // .finish(); // let second_cookie = http::Cookie::new("second", "second_value"); // let request = srv.get("/").finish().unwrap(); // let response = srv.execute(request.send()).unwrap(); // assert!(response.status().is_success()); // let cookies = response.cookies().expect("To have cookies"); // assert_eq!(cookies.len(), 2); // if cookies[0] == first_cookie { // assert_eq!(cookies[1], second_cookie); // } else { // assert_eq!(cookies[0], second_cookie); // assert_eq!(cookies[1], first_cookie); // } // let first_cookie = first_cookie.to_string(); // let second_cookie = second_cookie.to_string(); // //Check that we have exactly two instances of raw cookie headers // let cookies = response // .headers() // .get_all(http::header::SET_COOKIE) // .iter() // .map(|header| header.to_str().expect("To str").to_string()) // .collect::>(); // assert_eq!(cookies.len(), 2); // if cookies[0] == first_cookie { // assert_eq!(cookies[1], second_cookie); // } else { // assert_eq!(cookies[0], second_cookie); // assert_eq!(cookies[1], first_cookie); // } // } // #[test] // fn test_slow_request() { // use actix::System; // use std::net; // use std::sync::mpsc; // let (tx, rx) = mpsc::channel(); // let addr = test::TestServer::unused_addr(); // thread::spawn(move || { // System::run(move || { // let srv = server::new(|| { // vec![App::new().resource("/", |r| { // r.method(http::Method::GET).f(|_| HttpResponse::Ok()) // })] // }); // let srv = srv.bind(addr).unwrap(); // srv.client_timeout(200).start(); // let _ = tx.send(System::current()); // }); // }); // let sys = rx.recv().unwrap(); // thread::sleep(time::Duration::from_millis(200)); // let mut stream = net::TcpStream::connect(addr).unwrap(); // let mut data = String::new(); // let _ = stream.read_to_string(&mut data); // assert!(data.starts_with("HTTP/1.1 408 Request Timeout")); // let mut stream = net::TcpStream::connect(addr).unwrap(); // let _ = stream.write_all(b"GET /test/tests/test HTTP/1.1\r\n"); // let mut data = String::new(); // let _ = stream.read_to_string(&mut data); // assert!(data.starts_with("HTTP/1.1 408 Request Timeout")); // sys.stop(); // } // #[test] // #[cfg(feature = "ssl")] // fn test_ssl_handshake_timeout() { // use actix::System; // use openssl::ssl::{SslAcceptor, SslFiletype, SslMethod}; // use std::net; // use std::sync::mpsc; // let (tx, rx) = mpsc::channel(); // let addr = test::TestServer::unused_addr(); // // load ssl keys // let mut builder = SslAcceptor::mozilla_intermediate(SslMethod::tls()).unwrap(); // builder // .set_private_key_file("tests/key.pem", SslFiletype::PEM) // .unwrap(); // builder // .set_certificate_chain_file("tests/cert.pem") // .unwrap(); // thread::spawn(move || { // System::run(move || { // let srv = server::new(|| { // App::new().resource("/", |r| { // r.method(http::Method::GET).f(|_| HttpResponse::Ok()) // }) // }); // srv.bind_ssl(addr, builder) // .unwrap() // .workers(1) // .client_timeout(200) // .start(); // let _ = tx.send(System::current()); // }); // }); // let sys = rx.recv().unwrap(); // let mut stream = net::TcpStream::connect(addr).unwrap(); // let mut data = String::new(); // let _ = stream.read_to_string(&mut data); // assert!(data.is_empty()); // let _ = sys.stop(); // }