#[cfg(feature = "openssl")] extern crate tls_openssl as openssl; #[cfg(feature = "rustls")] extern crate tls_rustls as rustls; use std::{ future::Future, io::{Read, Write}, pin::Pin, task::{Context, Poll}, }; use actix_web::{ dev::BodyEncoding, http::header::{ ContentEncoding, ACCEPT_ENCODING, CONTENT_ENCODING, CONTENT_LENGTH, TRANSFER_ENCODING, }, middleware::{Compress, NormalizePath, TrailingSlash}, web, App, Error, HttpResponse, }; use brotli2::write::{BrotliDecoder, BrotliEncoder}; use bytes::Bytes; use cookie::{Cookie, CookieBuilder}; use flate2::{ read::GzDecoder, write::{GzEncoder, ZlibDecoder, ZlibEncoder}, Compression, }; use futures_core::ready; #[cfg(feature = "openssl")] use openssl::{ pkey::PKey, ssl::{SslAcceptor, SslMethod}, x509::X509, }; use rand::{distributions::Alphanumeric, Rng}; use zstd::stream::{read::Decoder as ZstdDecoder, write::Encoder as ZstdEncoder}; 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"; #[cfg(feature = "openssl")] fn openssl_config() -> SslAcceptor { let cert = rcgen::generate_simple_self_signed(vec!["localhost".to_owned()]).unwrap(); let cert_file = cert.serialize_pem().unwrap(); let key_file = cert.serialize_private_key_pem(); let cert = X509::from_pem(cert_file.as_bytes()).unwrap(); let key = PKey::private_key_from_pem(key_file.as_bytes()).unwrap(); let mut builder = SslAcceptor::mozilla_intermediate(SslMethod::tls()).unwrap(); builder.set_certificate(&cert).unwrap(); builder.set_private_key(&key).unwrap(); builder.set_alpn_select_callback(|_, protos| { const H2: &[u8] = b"\x02h2"; if protos.windows(3).any(|window| window == H2) { Ok(b"h2") } else { Err(openssl::ssl::AlpnError::NOACK) } }); builder.set_alpn_protos(b"\x02h2").unwrap(); builder.build() } struct TestBody { data: Bytes, chunk_size: usize, delay: Pin>, } impl TestBody { fn new(data: Bytes, chunk_size: usize) -> Self { TestBody { data, chunk_size, delay: Box::pin(actix_rt::time::sleep(std::time::Duration::from_millis(10))), } } } impl futures_core::stream::Stream for TestBody { type Item = Result; fn poll_next(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll> { ready!(Pin::new(&mut self.delay).poll(cx)); self.delay = Box::pin(actix_rt::time::sleep(std::time::Duration::from_millis(10))); let chunk_size = std::cmp::min(self.chunk_size, self.data.len()); let chunk = self.data.split_to(chunk_size); if chunk.is_empty() { Poll::Ready(None) } else { Poll::Ready(Some(Ok(chunk))) } } } #[actix_rt::test] async fn test_body() { let srv = actix_test::start(|| { App::new().service(web::resource("/").route(web::to(|| HttpResponse::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())); srv.stop().await; } #[actix_rt::test] async fn test_body_gzip() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new() .wrap(Compress::new(ContentEncoding::Gzip)) .service(web::resource("/").route(web::to(|| HttpResponse::Ok().body(STR)))) }); let mut response = srv .get("/") .no_decompress() .append_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())); srv.stop().await; } #[actix_rt::test] async fn test_body_gzip2() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new() .wrap(Compress::new(ContentEncoding::Gzip)) .service(web::resource("/").route(web::to(|| HttpResponse::Ok().body(STR)))) }); let mut response = srv .get("/") .no_decompress() .append_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())); srv.stop().await; } #[actix_rt::test] async fn test_body_encoding_override() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new() .wrap(Compress::new(ContentEncoding::Gzip)) .service(web::resource("/").route(web::to(|| { HttpResponse::Ok() .encoding(ContentEncoding::Deflate) .body(STR) }))) .service(web::resource("/raw").route(web::to(|| { let mut response = HttpResponse::with_body(actix_web::http::StatusCode::OK, STR); response.encoding(ContentEncoding::Deflate); response.map_into_boxed_body() }))) }); // Builder let mut response = srv .get("/") .no_decompress() .append_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() .append_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())); srv.stop().await; } #[actix_rt::test] async fn test_body_gzip_large() { let data = STR.repeat(10); let srv_data = data.clone(); let srv = actix_test::start_with(actix_test::config().h1(), move || { let data = srv_data.clone(); App::new() .wrap(Compress::new(ContentEncoding::Gzip)) .service( web::resource("/") .route(web::to(move || HttpResponse::Ok().body(data.clone()))), ) }); let mut response = srv .get("/") .no_decompress() .append_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)); srv.stop().await; } #[actix_rt::test] async fn test_body_gzip_large_random() { let data = rand::thread_rng() .sample_iter(&Alphanumeric) .take(70_000) .map(char::from) .collect::(); let srv_data = data.clone(); let srv = actix_test::start_with(actix_test::config().h1(), move || { let data = srv_data.clone(); App::new() .wrap(Compress::new(ContentEncoding::Gzip)) .service( web::resource("/") .route(web::to(move || HttpResponse::Ok().body(data.clone()))), ) }); let mut response = srv .get("/") .no_decompress() .append_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)); srv.stop().await; } #[actix_rt::test] async fn test_body_chunked_implicit() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new() .wrap(Compress::new(ContentEncoding::Gzip)) .service(web::resource("/").route(web::get().to(move || { HttpResponse::Ok() .streaming(TestBody::new(Bytes::from_static(STR.as_ref()), 24)) }))) }); let mut response = srv .get("/") .no_decompress() .append_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())); srv.stop().await; } #[actix_rt::test] async fn test_body_br_streaming() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new() .wrap(Compress::new(ContentEncoding::Br)) .service(web::resource("/").route(web::to(move || { HttpResponse::Ok() .streaming(TestBody::new(Bytes::from_static(STR.as_ref()), 24)) }))) }); let mut response = srv .get("/") .append_header((ACCEPT_ENCODING, "br")) .no_decompress() .send() .await .unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); println!("TEST: {:?}", bytes.len()); // decode br let mut e = BrotliDecoder::new(Vec::with_capacity(2048)); e.write_all(bytes.as_ref()).unwrap(); let dec = e.finish().unwrap(); println!("T: {:?}", Bytes::copy_from_slice(&dec)); assert_eq!(Bytes::from(dec), Bytes::from_static(STR.as_ref())); srv.stop().await; } #[actix_rt::test] async fn test_head_binary() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new().service( web::resource("/").route(web::head().to(move || HttpResponse::Ok().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()); srv.stop().await; } #[actix_rt::test] async fn test_no_chunking() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new().service(web::resource("/").route(web::to(move || { HttpResponse::Ok() .no_chunking(STR.len() as u64) .streaming(TestBody::new(Bytes::from_static(STR.as_ref()), 24)) }))) }); 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())); srv.stop().await; } #[actix_rt::test] async fn test_body_deflate() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new() .wrap(Compress::new(ContentEncoding::Deflate)) .service(web::resource("/").route(web::to(move || HttpResponse::Ok().body(STR)))) }); // client request let mut response = srv .get("/") .append_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())); srv.stop().await; } #[actix_rt::test] async fn test_body_brotli() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new() .wrap(Compress::new(ContentEncoding::Br)) .service(web::resource("/").route(web::to(move || HttpResponse::Ok().body(STR)))) }); // client request let mut response = srv .get("/") .append_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())); srv.stop().await; } #[actix_rt::test] async fn test_body_zstd() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new() .wrap(Compress::new(ContentEncoding::Zstd)) .service(web::resource("/").route(web::to(move || HttpResponse::Ok().body(STR)))) }); // client request let mut response = srv .get("/") .append_header((ACCEPT_ENCODING, "zstd")) .no_decompress() .send() .await .unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); // decode let mut e = ZstdDecoder::new(&bytes[..]).unwrap(); let mut dec = Vec::new(); e.read_to_end(&mut dec).unwrap(); assert_eq!(Bytes::from(dec), Bytes::from_static(STR.as_ref())); srv.stop().await; } #[actix_rt::test] async fn test_body_zstd_streaming() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new() .wrap(Compress::new(ContentEncoding::Zstd)) .service(web::resource("/").route(web::to(move || { HttpResponse::Ok() .streaming(TestBody::new(Bytes::from_static(STR.as_ref()), 24)) }))) }); // client request let mut response = srv .get("/") .append_header((ACCEPT_ENCODING, "zstd")) .no_decompress() .send() .await .unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); // decode let mut e = ZstdDecoder::new(&bytes[..]).unwrap(); let mut dec = Vec::new(); e.read_to_end(&mut dec).unwrap(); assert_eq!(Bytes::from(dec), Bytes::from_static(STR.as_ref())); srv.stop().await; } #[actix_rt::test] async fn test_zstd_encoding() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new().service( web::resource("/").route(web::to(move |body: Bytes| HttpResponse::Ok().body(body))), ) }); let mut e = ZstdEncoder::new(Vec::new(), 5).unwrap(); e.write_all(STR.as_ref()).unwrap(); let enc = e.finish().unwrap(); // client request let request = srv .post("/") .append_header((CONTENT_ENCODING, "zstd")) .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())); srv.stop().await; } #[actix_rt::test] async fn test_zstd_encoding_large() { let data = rand::thread_rng() .sample_iter(&Alphanumeric) .take(320_000) .map(char::from) .collect::(); let srv = actix_test::start_with(actix_test::config().h1(), || { App::new().service( web::resource("/") .app_data(web::PayloadConfig::new(320_000)) .route(web::to(move |body: Bytes| { HttpResponse::Ok().streaming(TestBody::new(body, 10240)) })), ) }); let mut e = ZstdEncoder::new(Vec::new(), 5).unwrap(); e.write_all(data.as_ref()).unwrap(); let enc = e.finish().unwrap(); // client request let request = srv .post("/") .append_header((CONTENT_ENCODING, "zstd")) .send_body(enc.clone()); let mut response = request.await.unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().limit(320_000).await.unwrap(); assert_eq!(bytes, Bytes::from(data)); srv.stop().await; } #[actix_rt::test] async fn test_encoding() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new().wrap(Compress::default()).service( web::resource("/").route(web::to(move |body: Bytes| HttpResponse::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("/") .insert_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())); srv.stop().await; } #[actix_rt::test] async fn test_gzip_encoding() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new().service( web::resource("/").route(web::to(move |body: Bytes| HttpResponse::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("/") .append_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())); srv.stop().await; } #[actix_rt::test] async fn test_gzip_encoding_large() { let data = STR.repeat(10); let srv = actix_test::start_with(actix_test::config().h1(), || { App::new().service( web::resource("/").route(web::to(move |body: Bytes| HttpResponse::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("/") .append_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)); srv.stop().await; } #[actix_rt::test] async fn test_reading_gzip_encoding_large_random() { let data = rand::thread_rng() .sample_iter(&Alphanumeric) .take(60_000) .map(char::from) .collect::(); let srv = actix_test::start_with(actix_test::config().h1(), || { App::new().service( web::resource("/").route(web::to(move |body: Bytes| HttpResponse::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("/") .append_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)); srv.stop().await; } #[actix_rt::test] async fn test_reading_deflate_encoding() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new().service( web::resource("/").route(web::to(move |body: Bytes| HttpResponse::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("/") .append_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())); srv.stop().await; } #[actix_rt::test] async fn test_reading_deflate_encoding_large() { let data = STR.repeat(10); let srv = actix_test::start_with(actix_test::config().h1(), || { App::new().service( web::resource("/").route(web::to(move |body: Bytes| HttpResponse::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("/") .append_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)); srv.stop().await; } #[actix_rt::test] async fn test_reading_deflate_encoding_large_random() { let data = rand::thread_rng() .sample_iter(&Alphanumeric) .take(160_000) .map(char::from) .collect::(); let srv = actix_test::start_with(actix_test::config().h1(), || { App::new().service( web::resource("/").route(web::to(move |body: Bytes| HttpResponse::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("/") .append_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)); srv.stop().await; } #[actix_rt::test] async fn test_brotli_encoding() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new().service( web::resource("/").route(web::to(move |body: Bytes| HttpResponse::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("/") .append_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())); srv.stop().await; } #[actix_rt::test] async fn test_brotli_encoding_large() { let data = rand::thread_rng() .sample_iter(&Alphanumeric) .take(320_000) .map(char::from) .collect::(); let srv = actix_test::start_with(actix_test::config().h1(), || { App::new().service( web::resource("/") .app_data(web::PayloadConfig::new(320_000)) .route(web::to(move |body: Bytes| { HttpResponse::Ok().streaming(TestBody::new(body, 10240)) })), ) }); 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("/") .append_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().limit(320_000).await.unwrap(); assert_eq!(bytes, Bytes::from(data)); srv.stop().await; } #[cfg(feature = "openssl")] #[actix_rt::test] async fn test_brotli_encoding_large_openssl() { let data = STR.repeat(10); let srv = actix_test::start_with(actix_test::config().openssl(openssl_config()), move || { App::new().service(web::resource("/").route(web::to(|bytes: Bytes| { HttpResponse::Ok() .encoding(ContentEncoding::Identity) .body(bytes) }))) }); // body let mut enc = BrotliEncoder::new(Vec::new(), 3); enc.write_all(data.as_ref()).unwrap(); let enc = enc.finish().unwrap(); // client request let mut response = srv .post("/") .append_header((actix_web::http::header::CONTENT_ENCODING, "br")) .send_body(enc) .await .unwrap(); assert!(response.status().is_success()); // read response let bytes = response.body().await.unwrap(); assert_eq!(bytes, Bytes::from(data)); srv.stop().await; } #[cfg(feature = "rustls")] mod plus_rustls { use std::io::BufReader; use rustls::{Certificate, PrivateKey, ServerConfig as RustlsServerConfig}; use rustls_pemfile::{certs, pkcs8_private_keys}; use super::*; fn tls_config() -> RustlsServerConfig { let cert = rcgen::generate_simple_self_signed(vec!["localhost".to_owned()]).unwrap(); let cert_file = cert.serialize_pem().unwrap(); let key_file = cert.serialize_private_key_pem(); let cert_file = &mut BufReader::new(cert_file.as_bytes()); let key_file = &mut BufReader::new(key_file.as_bytes()); let cert_chain = certs(cert_file) .unwrap() .into_iter() .map(Certificate) .collect(); let mut keys = pkcs8_private_keys(key_file).unwrap(); RustlsServerConfig::builder() .with_safe_defaults() .with_no_client_auth() .with_single_cert(cert_chain, PrivateKey(keys.remove(0))) .unwrap() } #[actix_rt::test] async fn test_reading_deflate_encoding_large_random_rustls() { let data = rand::thread_rng() .sample_iter(&Alphanumeric) .take(160_000) .map(char::from) .collect::(); let srv = actix_test::start_with(actix_test::config().rustls(tls_config()), || { App::new().service(web::resource("/").route(web::to(|bytes: Bytes| { HttpResponse::Ok() .encoding(ContentEncoding::Identity) .body(bytes) }))) }); // 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 = srv .post("/") .insert_header((actix_web::http::header::CONTENT_ENCODING, "deflate")) .send_stream(TestBody::new(Bytes::from(enc), 1024)); 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)); srv.stop().await; } } #[actix_rt::test] async fn test_server_cookies() { use actix_web::http; let srv = actix_test::start(|| { App::new().default_service(web::to(|| { HttpResponse::Ok() .cookie( CookieBuilder::new("first", "first_value") .http_only(true) .finish(), ) .cookie(Cookie::new("second", "first_value")) .cookie(Cookie::new("second", "second_value")) .finish() })) }); let req = srv.get("/"); let res = req.send().await.unwrap(); assert!(res.status().is_success()); let first_cookie = CookieBuilder::new("first", "first_value") .http_only(true) .finish(); let second_cookie = Cookie::new("second", "second_value"); let cookies = res.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 = res .headers() .get_all(http::header::SET_COOKIE) .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); } srv.stop().await; } #[actix_rt::test] async fn test_slow_request() { use std::net; let srv = actix_test::start_with(actix_test::config().client_timeout(200), || { App::new().service(web::resource("/").route(web::to(HttpResponse::Ok))) }); let mut stream = net::TcpStream::connect(srv.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(srv.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")); srv.stop().await; } #[actix_rt::test] async fn test_normalize() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new() .wrap(NormalizePath::new(TrailingSlash::Trim)) .service(web::resource("/one").route(web::to(HttpResponse::Ok))) }); let response = srv.get("/one/").send().await.unwrap(); assert!(response.status().is_success()); srv.stop().await } // allow deprecated App::data #[allow(deprecated)] #[actix_rt::test] async fn test_data_drop() { use std::sync::{ atomic::{AtomicUsize, Ordering}, Arc, }; struct TestData(Arc); impl TestData { fn new(inner: Arc) -> Self { let _ = inner.fetch_add(1, Ordering::SeqCst); Self(inner) } } impl Clone for TestData { fn clone(&self) -> Self { let inner = self.0.clone(); let _ = inner.fetch_add(1, Ordering::SeqCst); Self(inner) } } impl Drop for TestData { fn drop(&mut self) { self.0.fetch_sub(1, Ordering::SeqCst); } } let num = Arc::new(AtomicUsize::new(0)); let data = TestData::new(num.clone()); assert_eq!(num.load(Ordering::SeqCst), 1); let srv = actix_test::start(move || { let data = data.clone(); App::new() .data(data) .service(web::resource("/").to(|_data: web::Data| async { "ok" })) }); assert!(srv.get("/").send().await.unwrap().status().is_success()); srv.stop().await; assert_eq!(num.load(Ordering::SeqCst), 0); } #[actix_rt::test] async fn test_accept_encoding_no_match() { let srv = actix_test::start_with(actix_test::config().h1(), || { App::new() .wrap(Compress::default()) .service(web::resource("/").route(web::to(move || HttpResponse::Ok().finish()))) }); let response = srv .get("/") .append_header((ACCEPT_ENCODING, "compress, identity;q=0")) .no_decompress() .send() .await .unwrap(); assert_eq!(response.status().as_u16(), 406); srv.stop().await; }