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denoland-deno/test_util/src/lib.rs
Leo Kettmeir b34d95667a
fix(node/http): use fake socket and proper url handling (#19340)
Fixes https://github.com/denoland/deno/issues/19349

---------

Co-authored-by: Bartek Iwańczuk <biwanczuk@gmail.com>
2023-06-09 01:13:24 +02:00

2617 lines
75 KiB
Rust

// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
// Usage: provide a port as argument to run hyper_hello benchmark server
// otherwise this starts multiple servers on many ports for test endpoints.
use anyhow::anyhow;
use futures::Future;
use futures::FutureExt;
use futures::Stream;
use futures::StreamExt;
use hyper::header::HeaderValue;
use hyper::server::Server;
use hyper::service::make_service_fn;
use hyper::service::service_fn;
use hyper::upgrade::Upgraded;
use hyper::Body;
use hyper::Request;
use hyper::Response;
use hyper::StatusCode;
use npm::CUSTOM_NPM_PACKAGE_CACHE;
use once_cell::sync::Lazy;
use pretty_assertions::assert_eq;
use pty::Pty;
use regex::Regex;
use rustls::Certificate;
use rustls::PrivateKey;
use serde::Serialize;
use std::collections::HashMap;
use std::convert::Infallible;
use std::env;
use std::io;
use std::io::Write;
use std::mem::replace;
use std::net::SocketAddr;
use std::ops::Deref;
use std::ops::DerefMut;
use std::path::Path;
use std::path::PathBuf;
use std::pin::Pin;
use std::process::Child;
use std::process::Command;
use std::process::Output;
use std::process::Stdio;
use std::result::Result;
use std::sync::Arc;
use std::sync::Mutex;
use std::sync::MutexGuard;
use std::task::Context;
use std::task::Poll;
use std::time::Duration;
use tokio::io::AsyncWriteExt;
use tokio::net::TcpListener;
use tokio::net::TcpStream;
use tokio_rustls::rustls;
use tokio_rustls::TlsAcceptor;
use url::Url;
pub mod assertions;
mod builders;
pub mod factory;
pub mod lsp;
mod npm;
pub mod pty;
mod temp_dir;
pub use builders::TestCommandBuilder;
pub use builders::TestCommandOutput;
pub use builders::TestContext;
pub use builders::TestContextBuilder;
pub use temp_dir::TempDir;
const PORT: u16 = 4545;
const TEST_AUTH_TOKEN: &str = "abcdef123456789";
const TEST_BASIC_AUTH_USERNAME: &str = "testuser123";
const TEST_BASIC_AUTH_PASSWORD: &str = "testpassabc";
const REDIRECT_PORT: u16 = 4546;
const ANOTHER_REDIRECT_PORT: u16 = 4547;
const DOUBLE_REDIRECTS_PORT: u16 = 4548;
const INF_REDIRECTS_PORT: u16 = 4549;
const REDIRECT_ABSOLUTE_PORT: u16 = 4550;
const AUTH_REDIRECT_PORT: u16 = 4551;
const TLS_CLIENT_AUTH_PORT: u16 = 4552;
const BASIC_AUTH_REDIRECT_PORT: u16 = 4554;
const TLS_PORT: u16 = 4557;
const HTTPS_PORT: u16 = 5545;
const H1_ONLY_TLS_PORT: u16 = 5546;
const H2_ONLY_TLS_PORT: u16 = 5547;
const H1_ONLY_PORT: u16 = 5548;
const H2_ONLY_PORT: u16 = 5549;
const HTTPS_CLIENT_AUTH_PORT: u16 = 5552;
const WS_PORT: u16 = 4242;
const WSS_PORT: u16 = 4243;
const WS_CLOSE_PORT: u16 = 4244;
const WS_PING_PORT: u16 = 4245;
pub const PERMISSION_VARIANTS: [&str; 5] =
["read", "write", "env", "net", "run"];
pub const PERMISSION_DENIED_PATTERN: &str = "PermissionDenied";
static GUARD: Lazy<Mutex<HttpServerCount>> =
Lazy::new(|| Mutex::new(HttpServerCount::default()));
pub fn env_vars_for_npm_tests_no_sync_download() -> Vec<(String, String)> {
vec![
("NPM_CONFIG_REGISTRY".to_string(), npm_registry_url()),
("NO_COLOR".to_string(), "1".to_string()),
]
}
pub fn env_vars_for_npm_tests() -> Vec<(String, String)> {
let mut env_vars = env_vars_for_npm_tests_no_sync_download();
env_vars.push((
// make downloads determinstic
"DENO_UNSTABLE_NPM_SYNC_DOWNLOAD".to_string(),
"1".to_string(),
));
env_vars
}
pub fn root_path() -> PathBuf {
PathBuf::from(concat!(env!("CARGO_MANIFEST_DIR")))
.parent()
.unwrap()
.to_path_buf()
}
pub fn prebuilt_path() -> PathBuf {
third_party_path().join("prebuilt")
}
pub fn tests_path() -> PathBuf {
root_path().join("cli").join("tests")
}
pub fn testdata_path() -> PathBuf {
tests_path().join("testdata")
}
pub fn third_party_path() -> PathBuf {
root_path().join("third_party")
}
pub fn napi_tests_path() -> PathBuf {
root_path().join("test_napi")
}
/// Test server registry url.
pub fn npm_registry_url() -> String {
"http://localhost:4545/npm/registry/".to_string()
}
pub fn std_path() -> PathBuf {
root_path().join("test_util").join("std")
}
pub fn std_file_url() -> String {
Url::from_directory_path(std_path()).unwrap().to_string()
}
pub fn target_dir() -> PathBuf {
let current_exe = std::env::current_exe().unwrap();
let target_dir = current_exe.parent().unwrap().parent().unwrap();
target_dir.into()
}
pub fn deno_exe_path() -> PathBuf {
// Something like /Users/rld/src/deno/target/debug/deps/deno
let mut p = target_dir().join("deno");
if cfg!(windows) {
p.set_extension("exe");
}
p
}
pub fn prebuilt_tool_path(tool: &str) -> PathBuf {
let mut exe = tool.to_string();
exe.push_str(if cfg!(windows) { ".exe" } else { "" });
prebuilt_path().join(platform_dir_name()).join(exe)
}
pub fn platform_dir_name() -> &'static str {
if cfg!(target_os = "linux") {
"linux64"
} else if cfg!(target_os = "macos") {
"mac"
} else if cfg!(target_os = "windows") {
"win"
} else {
unreachable!()
}
}
pub fn test_server_path() -> PathBuf {
let mut p = target_dir().join("test_server");
if cfg!(windows) {
p.set_extension("exe");
}
p
}
fn ensure_test_server_built() {
// if the test server doesn't exist then remind the developer to build first
if !test_server_path().exists() {
panic!(
"Test server not found. Please cargo build before running the tests."
);
}
}
/// Benchmark server that just serves "hello world" responses.
async fn hyper_hello(port: u16) {
println!("hyper hello");
let addr = SocketAddr::from(([127, 0, 0, 1], port));
let hello_svc = make_service_fn(|_| async move {
Ok::<_, Infallible>(service_fn(move |_: Request<Body>| async move {
Ok::<_, Infallible>(Response::new(Body::from("Hello World!")))
}))
});
let server = Server::bind(&addr).serve(hello_svc);
if let Err(e) = server.await {
eprintln!("server error: {e}");
}
}
fn redirect_resp(url: String) -> Response<Body> {
let mut redirect_resp = Response::new(Body::empty());
*redirect_resp.status_mut() = StatusCode::MOVED_PERMANENTLY;
redirect_resp.headers_mut().insert(
hyper::header::LOCATION,
HeaderValue::from_str(&url[..]).unwrap(),
);
redirect_resp
}
async fn redirect(req: Request<Body>) -> hyper::Result<Response<Body>> {
let p = req.uri().path();
assert_eq!(&p[0..1], "/");
let url = format!("http://localhost:{PORT}{p}");
Ok(redirect_resp(url))
}
async fn double_redirects(req: Request<Body>) -> hyper::Result<Response<Body>> {
let p = req.uri().path();
assert_eq!(&p[0..1], "/");
let url = format!("http://localhost:{REDIRECT_PORT}{p}");
Ok(redirect_resp(url))
}
async fn inf_redirects(req: Request<Body>) -> hyper::Result<Response<Body>> {
let p = req.uri().path();
assert_eq!(&p[0..1], "/");
let url = format!("http://localhost:{INF_REDIRECTS_PORT}{p}");
Ok(redirect_resp(url))
}
async fn another_redirect(req: Request<Body>) -> hyper::Result<Response<Body>> {
let p = req.uri().path();
assert_eq!(&p[0..1], "/");
let url = format!("http://localhost:{PORT}/subdir{p}");
Ok(redirect_resp(url))
}
async fn auth_redirect(req: Request<Body>) -> hyper::Result<Response<Body>> {
if let Some(auth) = req
.headers()
.get("authorization")
.map(|v| v.to_str().unwrap())
{
if auth.to_lowercase() == format!("bearer {TEST_AUTH_TOKEN}") {
let p = req.uri().path();
assert_eq!(&p[0..1], "/");
let url = format!("http://localhost:{PORT}{p}");
return Ok(redirect_resp(url));
}
}
let mut resp = Response::new(Body::empty());
*resp.status_mut() = StatusCode::NOT_FOUND;
Ok(resp)
}
async fn basic_auth_redirect(
req: Request<Body>,
) -> hyper::Result<Response<Body>> {
if let Some(auth) = req
.headers()
.get("authorization")
.map(|v| v.to_str().unwrap())
{
let credentials =
format!("{TEST_BASIC_AUTH_USERNAME}:{TEST_BASIC_AUTH_PASSWORD}");
if auth == format!("Basic {}", base64::encode(credentials)) {
let p = req.uri().path();
assert_eq!(&p[0..1], "/");
let url = format!("http://localhost:{PORT}{p}");
return Ok(redirect_resp(url));
}
}
let mut resp = Response::new(Body::empty());
*resp.status_mut() = StatusCode::NOT_FOUND;
Ok(resp)
}
async fn echo_websocket_handler(
ws: fastwebsockets::WebSocket<Upgraded>,
) -> Result<(), anyhow::Error> {
let mut ws = fastwebsockets::FragmentCollector::new(ws);
loop {
let frame = ws.read_frame().await.unwrap();
match frame.opcode {
fastwebsockets::OpCode::Close => break,
fastwebsockets::OpCode::Text | fastwebsockets::OpCode::Binary => {
ws.write_frame(frame).await.unwrap();
}
_ => {}
}
}
Ok(())
}
type WsHandler =
fn(
fastwebsockets::WebSocket<Upgraded>,
) -> Pin<Box<dyn Future<Output = Result<(), anyhow::Error>> + Send>>;
fn spawn_ws_server<S>(stream: S, handler: WsHandler)
where
S: tokio::io::AsyncRead + tokio::io::AsyncWrite + Unpin + Send + 'static,
{
let srv_fn = service_fn(move |mut req: Request<Body>| async move {
let (response, upgrade_fut) = fastwebsockets::upgrade::upgrade(&mut req)
.map_err(|e| anyhow!("Error upgrading websocket connection: {}", e))?;
tokio::spawn(async move {
let ws = upgrade_fut
.await
.map_err(|e| anyhow!("Error upgrading websocket connection: {}", e))
.unwrap();
if let Err(e) = handler(ws).await {
eprintln!("Error in websocket connection: {}", e);
}
});
Ok::<_, anyhow::Error>(response)
});
tokio::spawn(async move {
let conn_fut = hyper::server::conn::Http::new()
.serve_connection(stream, srv_fn)
.with_upgrades();
if let Err(e) = conn_fut.await {
eprintln!("websocket server error: {e:?}");
}
});
}
async fn run_ws_server(addr: &SocketAddr) {
let listener = TcpListener::bind(addr).await.unwrap();
println!("ready: ws"); // Eye catcher for HttpServerCount
while let Ok((stream, _addr)) = listener.accept().await {
spawn_ws_server(stream, |ws| Box::pin(echo_websocket_handler(ws)));
}
}
async fn ping_websocket_handler(
ws: fastwebsockets::WebSocket<Upgraded>,
) -> Result<(), anyhow::Error> {
use fastwebsockets::Frame;
use fastwebsockets::OpCode;
let mut ws = fastwebsockets::FragmentCollector::new(ws);
for i in 0..9 {
ws.write_frame(Frame::new(true, OpCode::Ping, None, vec![]))
.await
.unwrap();
let frame = ws.read_frame().await.unwrap();
assert_eq!(frame.opcode, OpCode::Pong);
assert!(frame.payload.is_empty());
ws.write_frame(Frame::text(format!("hello {}", i).as_bytes().to_vec()))
.await
.unwrap();
let frame = ws.read_frame().await.unwrap();
assert_eq!(frame.opcode, OpCode::Text);
assert_eq!(frame.payload, format!("hello {}", i).as_bytes());
}
ws.write_frame(fastwebsockets::Frame::close(1000, b""))
.await
.unwrap();
Ok(())
}
async fn run_ws_ping_server(addr: &SocketAddr) {
let listener = TcpListener::bind(addr).await.unwrap();
println!("ready: ws"); // Eye catcher for HttpServerCount
while let Ok((stream, _addr)) = listener.accept().await {
spawn_ws_server(stream, |ws| Box::pin(ping_websocket_handler(ws)));
}
}
async fn close_websocket_handler(
ws: fastwebsockets::WebSocket<Upgraded>,
) -> Result<(), anyhow::Error> {
let mut ws = fastwebsockets::FragmentCollector::new(ws);
ws.write_frame(fastwebsockets::Frame::close_raw(vec![]))
.await
.unwrap();
Ok(())
}
async fn run_ws_close_server(addr: &SocketAddr) {
let listener = TcpListener::bind(addr).await.unwrap();
while let Ok((stream, _addr)) = listener.accept().await {
spawn_ws_server(stream, |ws| Box::pin(close_websocket_handler(ws)));
}
}
#[derive(Default)]
enum SupportedHttpVersions {
#[default]
All,
Http1Only,
Http2Only,
}
async fn get_tls_config(
cert: &str,
key: &str,
ca: &str,
http_versions: SupportedHttpVersions,
) -> io::Result<Arc<rustls::ServerConfig>> {
let cert_path = testdata_path().join(cert);
let key_path = testdata_path().join(key);
let ca_path = testdata_path().join(ca);
let cert_file = std::fs::File::open(cert_path)?;
let key_file = std::fs::File::open(key_path)?;
let ca_file = std::fs::File::open(ca_path)?;
let certs: Vec<Certificate> = {
let mut cert_reader = io::BufReader::new(cert_file);
rustls_pemfile::certs(&mut cert_reader)
.unwrap()
.into_iter()
.map(Certificate)
.collect()
};
let mut ca_cert_reader = io::BufReader::new(ca_file);
let ca_cert = rustls_pemfile::certs(&mut ca_cert_reader)
.expect("Cannot load CA certificate")
.remove(0);
let mut key_reader = io::BufReader::new(key_file);
let key = {
let pkcs8_key = rustls_pemfile::pkcs8_private_keys(&mut key_reader)
.expect("Cannot load key file");
let rsa_key = rustls_pemfile::rsa_private_keys(&mut key_reader)
.expect("Cannot load key file");
if !pkcs8_key.is_empty() {
Some(pkcs8_key[0].clone())
} else if !rsa_key.is_empty() {
Some(rsa_key[0].clone())
} else {
None
}
};
match key {
Some(key) => {
let mut root_cert_store = rustls::RootCertStore::empty();
root_cert_store.add(&rustls::Certificate(ca_cert)).unwrap();
// Allow (but do not require) client authentication.
let mut config = rustls::ServerConfig::builder()
.with_safe_defaults()
.with_client_cert_verifier(Arc::new(
rustls::server::AllowAnyAnonymousOrAuthenticatedClient::new(
root_cert_store,
),
))
.with_single_cert(certs, PrivateKey(key))
.map_err(|e| anyhow!("Error setting cert: {:?}", e))
.unwrap();
match http_versions {
SupportedHttpVersions::All => {
config.alpn_protocols = vec!["h2".into(), "http/1.1".into()];
}
SupportedHttpVersions::Http1Only => {}
SupportedHttpVersions::Http2Only => {
config.alpn_protocols = vec!["h2".into()];
}
}
Ok(Arc::new(config))
}
None => Err(io::Error::new(io::ErrorKind::Other, "Cannot find key")),
}
}
async fn run_wss_server(addr: &SocketAddr) {
let cert_file = "tls/localhost.crt";
let key_file = "tls/localhost.key";
let ca_cert_file = "tls/RootCA.pem";
let tls_config =
get_tls_config(cert_file, key_file, ca_cert_file, Default::default())
.await
.unwrap();
let tls_acceptor = TlsAcceptor::from(tls_config);
let listener = TcpListener::bind(addr).await.unwrap();
println!("ready: wss"); // Eye catcher for HttpServerCount
while let Ok((stream, _addr)) = listener.accept().await {
let acceptor = tls_acceptor.clone();
tokio::spawn(async move {
match acceptor.accept(stream).await {
Ok(tls_stream) => {
spawn_ws_server(tls_stream, |ws| {
Box::pin(echo_websocket_handler(ws))
});
}
Err(e) => {
eprintln!("TLS accept error: {e:?}");
}
}
});
}
}
/// This server responds with 'PASS' if client authentication was successful. Try it by running
/// test_server and
/// curl --key cli/tests/testdata/tls/localhost.key \
/// --cert cli/tests/testsdata/tls/localhost.crt \
/// --cacert cli/tests/testdata/tls/RootCA.crt https://localhost:4552/
async fn run_tls_client_auth_server() {
let cert_file = "tls/localhost.crt";
let key_file = "tls/localhost.key";
let ca_cert_file = "tls/RootCA.pem";
let tls_config =
get_tls_config(cert_file, key_file, ca_cert_file, Default::default())
.await
.unwrap();
let tls_acceptor = TlsAcceptor::from(tls_config);
// Listen on ALL addresses that localhost can resolves to.
let accept = |listener: tokio::net::TcpListener| {
async {
let result = listener.accept().await;
Some((result, listener))
}
.boxed()
};
let host_and_port = &format!("localhost:{TLS_CLIENT_AUTH_PORT}");
let listeners = tokio::net::lookup_host(host_and_port)
.await
.expect(host_and_port)
.inspect(|address| println!("{host_and_port} -> {address}"))
.map(tokio::net::TcpListener::bind)
.collect::<futures::stream::FuturesUnordered<_>>()
.collect::<Vec<_>>()
.await
.into_iter()
.map(|s| s.unwrap())
.map(|listener| futures::stream::unfold(listener, accept))
.collect::<Vec<_>>();
println!("ready: tls client auth"); // Eye catcher for HttpServerCount
let mut listeners = futures::stream::select_all(listeners);
while let Some(Ok((stream, _addr))) = listeners.next().await {
let acceptor = tls_acceptor.clone();
tokio::spawn(async move {
match acceptor.accept(stream).await {
Ok(mut tls_stream) => {
let (_, tls_session) = tls_stream.get_mut();
// We only need to check for the presence of client certificates
// here. Rusttls ensures that they are valid and signed by the CA.
let response = match tls_session.peer_certificates() {
Some(_certs) => b"PASS",
None => b"FAIL",
};
tls_stream.write_all(response).await.unwrap();
}
Err(e) => {
eprintln!("TLS accept error: {e:?}");
}
}
});
}
}
/// This server responds with 'PASS' if client authentication was successful. Try it by running
/// test_server and
/// curl --cacert cli/tests/testdata/tls/RootCA.crt https://localhost:4553/
async fn run_tls_server() {
let cert_file = "tls/localhost.crt";
let key_file = "tls/localhost.key";
let ca_cert_file = "tls/RootCA.pem";
let tls_config =
get_tls_config(cert_file, key_file, ca_cert_file, Default::default())
.await
.unwrap();
let tls_acceptor = TlsAcceptor::from(tls_config);
// Listen on ALL addresses that localhost can resolves to.
let accept = |listener: tokio::net::TcpListener| {
async {
let result = listener.accept().await;
Some((result, listener))
}
.boxed()
};
let host_and_port = &format!("localhost:{TLS_PORT}");
let listeners = tokio::net::lookup_host(host_and_port)
.await
.expect(host_and_port)
.inspect(|address| println!("{host_and_port} -> {address}"))
.map(tokio::net::TcpListener::bind)
.collect::<futures::stream::FuturesUnordered<_>>()
.collect::<Vec<_>>()
.await
.into_iter()
.map(|s| s.unwrap())
.map(|listener| futures::stream::unfold(listener, accept))
.collect::<Vec<_>>();
println!("ready: tls"); // Eye catcher for HttpServerCount
let mut listeners = futures::stream::select_all(listeners);
while let Some(Ok((stream, _addr))) = listeners.next().await {
let acceptor = tls_acceptor.clone();
tokio::spawn(async move {
match acceptor.accept(stream).await {
Ok(mut tls_stream) => {
tls_stream.write_all(b"PASS").await.unwrap();
}
Err(e) => {
eprintln!("TLS accept error: {e:?}");
}
}
});
}
}
async fn absolute_redirect(
req: Request<Body>,
) -> hyper::Result<Response<Body>> {
let path = req.uri().path();
if path == "/" {
// We have to manually extract query params here,
// as `req.uri()` returns `PathAndQuery` only,
// and we cannot use `Url::parse(req.uri()).query_pairs()`,
// as it requires url to have a proper base.
let query_params: HashMap<_, _> = req
.uri()
.query()
.unwrap_or_default()
.split('&')
.filter_map(|s| {
s.split_once('=').map(|t| (t.0.to_owned(), t.1.to_owned()))
})
.collect();
if let Some(url) = query_params.get("redirect_to") {
println!("URL: {url:?}");
let redirect = redirect_resp(url.to_owned());
return Ok(redirect);
}
}
if path.starts_with("/REDIRECT") {
let url = &req.uri().path()[9..];
println!("URL: {url:?}");
let redirect = redirect_resp(url.to_string());
return Ok(redirect);
}
if path.starts_with("/a/b/c") {
if let Some(x_loc) = req.headers().get("x-location") {
let loc = x_loc.to_str().unwrap();
return Ok(redirect_resp(loc.to_string()));
}
}
let mut file_path = testdata_path();
file_path.push(&req.uri().path()[1..]);
if file_path.is_dir() || !file_path.exists() {
let mut not_found_resp = Response::new(Body::empty());
*not_found_resp.status_mut() = StatusCode::NOT_FOUND;
return Ok(not_found_resp);
}
let file = tokio::fs::read(file_path).await.unwrap();
let file_resp = custom_headers(req.uri().path(), file);
Ok(file_resp)
}
async fn main_server(
req: Request<Body>,
) -> Result<Response<Body>, hyper::http::Error> {
return match (req.method(), req.uri().path()) {
(
&hyper::Method::POST | &hyper::Method::PATCH | &hyper::Method::PUT,
"/echo_server",
) => {
let (parts, body) = req.into_parts();
let mut response = Response::new(body);
if let Some(status) = parts.headers.get("x-status") {
*response.status_mut() =
StatusCode::from_bytes(status.as_bytes()).unwrap();
}
response.headers_mut().extend(parts.headers);
Ok(response)
}
(&hyper::Method::POST, "/echo_multipart_file") => {
let body = req.into_body();
let bytes = &hyper::body::to_bytes(body).await.unwrap()[0..];
let start = b"--boundary\t \r\n\
Content-Disposition: form-data; name=\"field_1\"\r\n\
\r\n\
value_1 \r\n\
\r\n--boundary\r\n\
Content-Disposition: form-data; name=\"file\"; \
filename=\"file.bin\"\r\n\
Content-Type: application/octet-stream\r\n\
\r\n";
let end = b"\r\n--boundary--\r\n";
let b = [start as &[u8], bytes, end].concat();
let mut response = Response::new(Body::from(b));
response.headers_mut().insert(
"content-type",
HeaderValue::from_static("multipart/form-data;boundary=boundary"),
);
Ok(response)
}
(_, "/multipart_form_data.txt") => {
let b = "Preamble\r\n\
--boundary\t \r\n\
Content-Disposition: form-data; name=\"field_1\"\r\n\
\r\n\
value_1 \r\n\
\r\n--boundary\r\n\
Content-Disposition: form-data; name=\"field_2\";\
filename=\"file.js\"\r\n\
Content-Type: text/javascript\r\n\
\r\n\
console.log(\"Hi\")\
\r\n--boundary--\r\n\
Epilogue";
let mut res = Response::new(Body::from(b));
res.headers_mut().insert(
"content-type",
HeaderValue::from_static("multipart/form-data;boundary=boundary"),
);
Ok(res)
}
(_, "/multipart_form_bad_content_type") => {
let b = "Preamble\r\n\
--boundary\t \r\n\
Content-Disposition: form-data; name=\"field_1\"\r\n\
\r\n\
value_1 \r\n\
\r\n--boundary\r\n\
Content-Disposition: form-data; name=\"field_2\";\
filename=\"file.js\"\r\n\
Content-Type: text/javascript\r\n\
\r\n\
console.log(\"Hi\")\
\r\n--boundary--\r\n\
Epilogue";
let mut res = Response::new(Body::from(b));
res.headers_mut().insert(
"content-type",
HeaderValue::from_static("multipart/form-datatststs;boundary=boundary"),
);
Ok(res)
}
(_, "/bad_redirect") => {
let mut res = Response::new(Body::empty());
*res.status_mut() = StatusCode::FOUND;
Ok(res)
}
(_, "/x_deno_warning.js") => {
let mut res = Response::new(Body::empty());
*res.status_mut() = StatusCode::MOVED_PERMANENTLY;
res
.headers_mut()
.insert("X-Deno-Warning", HeaderValue::from_static("foobar"));
res.headers_mut().insert(
"location",
HeaderValue::from_bytes(b"/lsp/x_deno_warning_redirect.js").unwrap(),
);
Ok(res)
}
(_, "/non_ascii_redirect") => {
let mut res = Response::new(Body::empty());
*res.status_mut() = StatusCode::MOVED_PERMANENTLY;
res.headers_mut().insert(
"location",
HeaderValue::from_bytes(b"/redirect\xae").unwrap(),
);
Ok(res)
}
(_, "/etag_script.ts") => {
let if_none_match = req.headers().get("if-none-match");
if if_none_match == Some(&HeaderValue::from_static("33a64df551425fcc55e"))
{
let mut resp = Response::new(Body::empty());
*resp.status_mut() = StatusCode::NOT_MODIFIED;
resp.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/typescript"),
);
resp
.headers_mut()
.insert("ETag", HeaderValue::from_static("33a64df551425fcc55e"));
Ok(resp)
} else {
let mut resp = Response::new(Body::from("console.log('etag')"));
resp.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/typescript"),
);
resp
.headers_mut()
.insert("ETag", HeaderValue::from_static("33a64df551425fcc55e"));
Ok(resp)
}
}
(_, "/xTypeScriptTypes.js") => {
let mut res = Response::new(Body::from("export const foo = 'foo';"));
res.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/javascript"),
);
res.headers_mut().insert(
"X-TypeScript-Types",
HeaderValue::from_static("./xTypeScriptTypes.d.ts"),
);
Ok(res)
}
(_, "/xTypeScriptTypes.jsx") => {
let mut res = Response::new(Body::from("export const foo = 'foo';"));
res
.headers_mut()
.insert("Content-type", HeaderValue::from_static("text/jsx"));
res.headers_mut().insert(
"X-TypeScript-Types",
HeaderValue::from_static("./xTypeScriptTypes.d.ts"),
);
Ok(res)
}
(_, "/xTypeScriptTypes.ts") => {
let mut res =
Response::new(Body::from("export const foo: string = 'foo';"));
res.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/typescript"),
);
res.headers_mut().insert(
"X-TypeScript-Types",
HeaderValue::from_static("./xTypeScriptTypes.d.ts"),
);
Ok(res)
}
(_, "/xTypeScriptTypes.d.ts") => {
let mut res = Response::new(Body::from("export const foo: 'foo';"));
res.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/typescript"),
);
Ok(res)
}
(_, "/run/type_directives_redirect.js") => {
let mut res = Response::new(Body::from("export const foo = 'foo';"));
res.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/javascript"),
);
res.headers_mut().insert(
"X-TypeScript-Types",
HeaderValue::from_static(
"http://localhost:4547/xTypeScriptTypesRedirect.d.ts",
),
);
Ok(res)
}
(_, "/run/type_headers_deno_types.foo.js") => {
let mut res = Response::new(Body::from(
"export function foo(text) { console.log(text); }",
));
res.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/javascript"),
);
res.headers_mut().insert(
"X-TypeScript-Types",
HeaderValue::from_static(
"http://localhost:4545/run/type_headers_deno_types.d.ts",
),
);
Ok(res)
}
(_, "/run/type_headers_deno_types.d.ts") => {
let mut res =
Response::new(Body::from("export function foo(text: number): void;"));
res.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/typescript"),
);
Ok(res)
}
(_, "/run/type_headers_deno_types.foo.d.ts") => {
let mut res =
Response::new(Body::from("export function foo(text: string): void;"));
res.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/typescript"),
);
Ok(res)
}
(_, "/subdir/xTypeScriptTypesRedirect.d.ts") => {
let mut res = Response::new(Body::from(
"import './xTypeScriptTypesRedirected.d.ts';",
));
res.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/typescript"),
);
Ok(res)
}
(_, "/subdir/xTypeScriptTypesRedirected.d.ts") => {
let mut res = Response::new(Body::from("export const foo: 'foo';"));
res.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/typescript"),
);
Ok(res)
}
(_, "/referenceTypes.js") => {
let mut res = Response::new(Body::from("/// <reference types=\"./xTypeScriptTypes.d.ts\" />\r\nexport const foo = \"foo\";\r\n"));
res.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/javascript"),
);
Ok(res)
}
(_, "/subdir/file_with_:_in_name.ts") => {
let mut res = Response::new(Body::from(
"console.log('Hello from file_with_:_in_name.ts');",
));
res.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/typescript"),
);
Ok(res)
}
(_, "/v1/extensionless") => {
let mut res =
Response::new(Body::from(r#"export * from "/subdir/mod1.ts";"#));
res.headers_mut().insert(
"content-type",
HeaderValue::from_static("application/typescript"),
);
Ok(res)
}
(_, "/subdir/no_js_ext@1.0.0") => {
let mut res = Response::new(Body::from(
r#"import { printHello } from "./mod2.ts";
printHello();
"#,
));
res.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/javascript"),
);
Ok(res)
}
(_, "/.well-known/deno-import-intellisense.json") => {
let file_path =
testdata_path().join("lsp/registries/deno-import-intellisense.json");
if let Ok(body) = tokio::fs::read(file_path).await {
Ok(custom_headers(
"/.well-known/deno-import-intellisense.json",
body,
))
} else {
Ok(Response::new(Body::empty()))
}
}
(_, "/http_version") => {
let version = format!("{:?}", req.version());
Ok(Response::new(version.into()))
}
(_, "/content_length") => {
let content_length = format!("{:?}", req.headers().get("content-length"));
Ok(Response::new(content_length.into()))
}
(_, "/jsx/jsx-runtime") | (_, "/jsx/jsx-dev-runtime") => {
let mut res = Response::new(Body::from(
r#"export function jsx(
_type,
_props,
_key,
_source,
_self,
) {}
export const jsxs = jsx;
export const jsxDEV = jsx;
export const Fragment = Symbol("Fragment");
console.log("imported", import.meta.url);
"#,
));
res.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/javascript"),
);
Ok(res)
}
(_, "/dynamic") => {
let mut res = Response::new(Body::from(
serde_json::to_string_pretty(&std::time::SystemTime::now()).unwrap(),
));
res
.headers_mut()
.insert("cache-control", HeaderValue::from_static("no-cache"));
Ok(res)
}
(_, "/dynamic_cache") => {
let mut res = Response::new(Body::from(
serde_json::to_string_pretty(&std::time::SystemTime::now()).unwrap(),
));
res.headers_mut().insert(
"cache-control",
HeaderValue::from_static("public, max-age=604800, immutable"),
);
Ok(res)
}
(_, "/dynamic_module.ts") => {
let mut res = Response::new(Body::from(format!(
r#"export const time = {};"#,
std::time::SystemTime::now().elapsed().unwrap().as_nanos()
)));
res.headers_mut().insert(
"Content-type",
HeaderValue::from_static("application/typescript"),
);
Ok(res)
}
(_, "/echo_accept") => {
let accept = req.headers().get("accept").map(|v| v.to_str().unwrap());
let res = Response::new(Body::from(
serde_json::json!({ "accept": accept }).to_string(),
));
Ok(res)
}
(_, "/search_params") => {
let query = req.uri().query().map(|s| s.to_string());
let res = Response::new(Body::from(query.unwrap_or_default()));
Ok(res)
}
_ => {
let mut file_path = testdata_path();
file_path.push(&req.uri().path()[1..]);
if let Ok(file) = tokio::fs::read(&file_path).await {
let file_resp = custom_headers(req.uri().path(), file);
return Ok(file_resp);
}
// serve npm registry files
if let Some(suffix) =
req.uri().path().strip_prefix("/npm/registry/@denotest/")
{
// serve all requests to /npm/registry/@deno using the file system
// at that path
match handle_custom_npm_registry_path(suffix) {
Ok(Some(response)) => return Ok(response),
Ok(None) => {} // ignore, not found
Err(err) => {
return Response::builder()
.status(StatusCode::INTERNAL_SERVER_ERROR)
.body(format!("{err:#}").into());
}
}
} else if req.uri().path().starts_with("/npm/registry/") {
// otherwise, serve based on registry.json and tgz files
let is_tarball = req.uri().path().ends_with(".tgz");
if !is_tarball {
file_path.push("registry.json");
}
if let Ok(file) = tokio::fs::read(&file_path).await {
let file_resp = custom_headers(req.uri().path(), file);
return Ok(file_resp);
} else if should_download_npm_packages() {
if let Err(err) =
download_npm_registry_file(req.uri(), &file_path, is_tarball).await
{
return Response::builder()
.status(StatusCode::INTERNAL_SERVER_ERROR)
.body(format!("{err:#}").into());
};
// serve the file
if let Ok(file) = tokio::fs::read(&file_path).await {
let file_resp = custom_headers(req.uri().path(), file);
return Ok(file_resp);
}
}
} else if let Some(suffix) = req.uri().path().strip_prefix("/deno_std/") {
let mut file_path = std_path();
file_path.push(suffix);
if let Ok(file) = tokio::fs::read(&file_path).await {
let file_resp = custom_headers(req.uri().path(), file);
return Ok(file_resp);
}
} else if let Some(suffix) = req.uri().path().strip_prefix("/sleep/") {
let duration = suffix.parse::<u64>().unwrap();
tokio::time::sleep(Duration::from_millis(duration)).await;
return Response::builder()
.status(StatusCode::OK)
.header("content-type", "application/typescript")
.body(Body::empty());
}
Response::builder()
.status(StatusCode::NOT_FOUND)
.body(Body::empty())
}
};
}
fn handle_custom_npm_registry_path(
path: &str,
) -> Result<Option<Response<Body>>, anyhow::Error> {
let parts = path
.split('/')
.filter(|p| !p.is_empty())
.collect::<Vec<_>>();
let cache = &CUSTOM_NPM_PACKAGE_CACHE;
let package_name = format!("@denotest/{}", parts[0]);
if parts.len() == 2 {
if let Some(file_bytes) =
cache.tarball_bytes(&package_name, parts[1].trim_end_matches(".tgz"))?
{
let file_resp = custom_headers("file.tgz", file_bytes);
return Ok(Some(file_resp));
}
} else if parts.len() == 1 {
if let Some(registry_file) = cache.registry_file(&package_name)? {
let file_resp = custom_headers("registry.json", registry_file);
return Ok(Some(file_resp));
}
}
Ok(None)
}
fn should_download_npm_packages() -> bool {
// when this env var is set, it will download and save npm packages
// to the testdata/npm/registry directory
std::env::var("DENO_TEST_UTIL_UPDATE_NPM") == Ok("1".to_string())
}
async fn download_npm_registry_file(
uri: &hyper::Uri,
file_path: &PathBuf,
is_tarball: bool,
) -> Result<(), anyhow::Error> {
let url_parts = uri
.path()
.strip_prefix("/npm/registry/")
.unwrap()
.split('/')
.collect::<Vec<_>>();
let package_name = if url_parts[0].starts_with('@') {
url_parts.into_iter().take(2).collect::<Vec<_>>().join("/")
} else {
url_parts.into_iter().take(1).collect::<Vec<_>>().join("/")
};
let url = if is_tarball {
let file_name = file_path.file_name().unwrap().to_string_lossy();
format!("https://registry.npmjs.org/{package_name}/-/{file_name}")
} else {
format!("https://registry.npmjs.org/{package_name}")
};
let client = reqwest::Client::new();
let response = client.get(url).send().await?;
let bytes = response.bytes().await?;
let bytes = if is_tarball {
bytes.to_vec()
} else {
String::from_utf8(bytes.to_vec())
.unwrap()
.replace(
&format!("https://registry.npmjs.org/{package_name}/-/"),
&format!("http://localhost:4545/npm/registry/{package_name}/"),
)
.into_bytes()
};
std::fs::create_dir_all(file_path.parent().unwrap())?;
std::fs::write(file_path, bytes)?;
Ok(())
}
/// Taken from example in https://github.com/ctz/hyper-rustls/blob/a02ef72a227dcdf102f86e905baa7415c992e8b3/examples/server.rs
struct HyperAcceptor<'a> {
acceptor: Pin<
Box<
dyn Stream<Item = io::Result<tokio_rustls::server::TlsStream<TcpStream>>>
+ 'a,
>,
>,
}
impl hyper::server::accept::Accept for HyperAcceptor<'_> {
type Conn = tokio_rustls::server::TlsStream<TcpStream>;
type Error = io::Error;
fn poll_accept(
mut self: Pin<&mut Self>,
cx: &mut Context,
) -> Poll<Option<Result<Self::Conn, Self::Error>>> {
Pin::new(&mut self.acceptor).poll_next(cx)
}
}
#[allow(clippy::non_send_fields_in_send_ty)]
// SAFETY: unsafe trait must have unsafe implementation
unsafe impl std::marker::Send for HyperAcceptor<'_> {}
async fn wrap_redirect_server() {
let redirect_svc =
make_service_fn(|_| async { Ok::<_, Infallible>(service_fn(redirect)) });
let redirect_addr = SocketAddr::from(([127, 0, 0, 1], REDIRECT_PORT));
let redirect_server = Server::bind(&redirect_addr).serve(redirect_svc);
if let Err(e) = redirect_server.await {
eprintln!("Redirect error: {e:?}");
}
}
async fn wrap_double_redirect_server() {
let double_redirects_svc = make_service_fn(|_| async {
Ok::<_, Infallible>(service_fn(double_redirects))
});
let double_redirects_addr =
SocketAddr::from(([127, 0, 0, 1], DOUBLE_REDIRECTS_PORT));
let double_redirects_server =
Server::bind(&double_redirects_addr).serve(double_redirects_svc);
if let Err(e) = double_redirects_server.await {
eprintln!("Double redirect error: {e:?}");
}
}
async fn wrap_inf_redirect_server() {
let inf_redirects_svc = make_service_fn(|_| async {
Ok::<_, Infallible>(service_fn(inf_redirects))
});
let inf_redirects_addr =
SocketAddr::from(([127, 0, 0, 1], INF_REDIRECTS_PORT));
let inf_redirects_server =
Server::bind(&inf_redirects_addr).serve(inf_redirects_svc);
if let Err(e) = inf_redirects_server.await {
eprintln!("Inf redirect error: {e:?}");
}
}
async fn wrap_another_redirect_server() {
let another_redirect_svc = make_service_fn(|_| async {
Ok::<_, Infallible>(service_fn(another_redirect))
});
let another_redirect_addr =
SocketAddr::from(([127, 0, 0, 1], ANOTHER_REDIRECT_PORT));
let another_redirect_server =
Server::bind(&another_redirect_addr).serve(another_redirect_svc);
if let Err(e) = another_redirect_server.await {
eprintln!("Another redirect error: {e:?}");
}
}
async fn wrap_auth_redirect_server() {
let auth_redirect_svc = make_service_fn(|_| async {
Ok::<_, Infallible>(service_fn(auth_redirect))
});
let auth_redirect_addr =
SocketAddr::from(([127, 0, 0, 1], AUTH_REDIRECT_PORT));
let auth_redirect_server =
Server::bind(&auth_redirect_addr).serve(auth_redirect_svc);
if let Err(e) = auth_redirect_server.await {
eprintln!("Auth redirect error: {e:?}");
}
}
async fn wrap_basic_auth_redirect_server() {
let basic_auth_redirect_svc = make_service_fn(|_| async {
Ok::<_, Infallible>(service_fn(basic_auth_redirect))
});
let basic_auth_redirect_addr =
SocketAddr::from(([127, 0, 0, 1], BASIC_AUTH_REDIRECT_PORT));
let basic_auth_redirect_server =
Server::bind(&basic_auth_redirect_addr).serve(basic_auth_redirect_svc);
if let Err(e) = basic_auth_redirect_server.await {
eprintln!("Basic auth redirect error: {e:?}");
}
}
async fn wrap_abs_redirect_server() {
let abs_redirect_svc = make_service_fn(|_| async {
Ok::<_, Infallible>(service_fn(absolute_redirect))
});
let abs_redirect_addr =
SocketAddr::from(([127, 0, 0, 1], REDIRECT_ABSOLUTE_PORT));
let abs_redirect_server =
Server::bind(&abs_redirect_addr).serve(abs_redirect_svc);
if let Err(e) = abs_redirect_server.await {
eprintln!("Absolute redirect error: {e:?}");
}
}
async fn wrap_main_server() {
let main_server_svc =
make_service_fn(|_| async { Ok::<_, Infallible>(service_fn(main_server)) });
let main_server_addr = SocketAddr::from(([127, 0, 0, 1], PORT));
let main_server = Server::bind(&main_server_addr).serve(main_server_svc);
if let Err(e) = main_server.await {
eprintln!("HTTP server error: {e:?}");
}
}
async fn wrap_main_https_server() {
let main_server_https_addr = SocketAddr::from(([127, 0, 0, 1], HTTPS_PORT));
let cert_file = "tls/localhost.crt";
let key_file = "tls/localhost.key";
let ca_cert_file = "tls/RootCA.pem";
let tls_config =
get_tls_config(cert_file, key_file, ca_cert_file, Default::default())
.await
.unwrap();
loop {
let tcp = TcpListener::bind(&main_server_https_addr)
.await
.expect("Cannot bind TCP");
println!("ready: https"); // Eye catcher for HttpServerCount
let tls_acceptor = TlsAcceptor::from(tls_config.clone());
// Prepare a long-running future stream to accept and serve cients.
let incoming_tls_stream = async_stream::stream! {
loop {
let (socket, _) = tcp.accept().await?;
let stream = tls_acceptor.accept(socket);
yield stream.await;
}
}
.boxed();
let main_server_https_svc = make_service_fn(|_| async {
Ok::<_, Infallible>(service_fn(main_server))
});
let main_server_https = Server::builder(HyperAcceptor {
acceptor: incoming_tls_stream,
})
.serve(main_server_https_svc);
//continue to prevent TLS error stopping the server
if main_server_https.await.is_err() {
continue;
}
}
}
async fn wrap_https_h1_only_tls_server() {
let main_server_https_addr =
SocketAddr::from(([127, 0, 0, 1], H1_ONLY_TLS_PORT));
let cert_file = "tls/localhost.crt";
let key_file = "tls/localhost.key";
let ca_cert_file = "tls/RootCA.pem";
let tls_config = get_tls_config(
cert_file,
key_file,
ca_cert_file,
SupportedHttpVersions::Http1Only,
)
.await
.unwrap();
loop {
let tcp = TcpListener::bind(&main_server_https_addr)
.await
.expect("Cannot bind TCP");
println!("ready: https"); // Eye catcher for HttpServerCount
let tls_acceptor = TlsAcceptor::from(tls_config.clone());
// Prepare a long-running future stream to accept and serve cients.
let incoming_tls_stream = async_stream::stream! {
loop {
let (socket, _) = tcp.accept().await?;
let stream = tls_acceptor.accept(socket);
yield stream.await;
}
}
.boxed();
let main_server_https_svc = make_service_fn(|_| async {
Ok::<_, Infallible>(service_fn(main_server))
});
let main_server_https = Server::builder(HyperAcceptor {
acceptor: incoming_tls_stream,
})
.http1_only(true)
.serve(main_server_https_svc);
//continue to prevent TLS error stopping the server
if main_server_https.await.is_err() {
continue;
}
}
}
async fn wrap_https_h2_only_tls_server() {
let main_server_https_addr =
SocketAddr::from(([127, 0, 0, 1], H2_ONLY_TLS_PORT));
let cert_file = "tls/localhost.crt";
let key_file = "tls/localhost.key";
let ca_cert_file = "tls/RootCA.pem";
let tls_config = get_tls_config(
cert_file,
key_file,
ca_cert_file,
SupportedHttpVersions::Http2Only,
)
.await
.unwrap();
loop {
let tcp = TcpListener::bind(&main_server_https_addr)
.await
.expect("Cannot bind TCP");
println!("ready: https"); // Eye catcher for HttpServerCount
let tls_acceptor = TlsAcceptor::from(tls_config.clone());
// Prepare a long-running future stream to accept and serve cients.
let incoming_tls_stream = async_stream::stream! {
loop {
let (socket, _) = tcp.accept().await?;
let stream = tls_acceptor.accept(socket);
yield stream.await;
}
}
.boxed();
let main_server_https_svc = make_service_fn(|_| async {
Ok::<_, Infallible>(service_fn(main_server))
});
let main_server_https = Server::builder(HyperAcceptor {
acceptor: incoming_tls_stream,
})
.http2_only(true)
.serve(main_server_https_svc);
//continue to prevent TLS error stopping the server
if main_server_https.await.is_err() {
continue;
}
}
}
async fn wrap_https_h1_only_server() {
let main_server_http_addr = SocketAddr::from(([127, 0, 0, 1], H1_ONLY_PORT));
let main_server_http_svc =
make_service_fn(|_| async { Ok::<_, Infallible>(service_fn(main_server)) });
let main_server_http = Server::bind(&main_server_http_addr)
.http1_only(true)
.serve(main_server_http_svc);
let _ = main_server_http.await;
}
async fn wrap_https_h2_only_server() {
let main_server_http_addr = SocketAddr::from(([127, 0, 0, 1], H2_ONLY_PORT));
let main_server_http_svc =
make_service_fn(|_| async { Ok::<_, Infallible>(service_fn(main_server)) });
let main_server_http = Server::bind(&main_server_http_addr)
.http2_only(true)
.serve(main_server_http_svc);
let _ = main_server_http.await;
}
async fn wrap_client_auth_https_server() {
let main_server_https_addr =
SocketAddr::from(([127, 0, 0, 1], HTTPS_CLIENT_AUTH_PORT));
let cert_file = "tls/localhost.crt";
let key_file = "tls/localhost.key";
let ca_cert_file = "tls/RootCA.pem";
let tls_config =
get_tls_config(cert_file, key_file, ca_cert_file, Default::default())
.await
.unwrap();
loop {
let tcp = TcpListener::bind(&main_server_https_addr)
.await
.expect("Cannot bind TCP");
println!("ready: https_client_auth on :{HTTPS_CLIENT_AUTH_PORT:?}"); // Eye catcher for HttpServerCount
let tls_acceptor = TlsAcceptor::from(tls_config.clone());
// Prepare a long-running future stream to accept and serve cients.
let incoming_tls_stream = async_stream::stream! {
loop {
let (socket, _) = tcp.accept().await?;
match tls_acceptor.accept(socket).await {
Ok(mut tls_stream) => {
let (_, tls_session) = tls_stream.get_mut();
// We only need to check for the presence of client certificates
// here. Rusttls ensures that they are valid and signed by the CA.
match tls_session.peer_certificates() {
Some(_certs) => { yield Ok(tls_stream); },
None => { eprintln!("https_client_auth: no valid client certificate"); },
};
}
Err(e) => {
eprintln!("https-client-auth accept error: {e:?}");
yield Err(e);
}
}
}
}
.boxed();
let main_server_https_svc = make_service_fn(|_| async {
Ok::<_, Infallible>(service_fn(main_server))
});
let main_server_https = Server::builder(HyperAcceptor {
acceptor: incoming_tls_stream,
})
.serve(main_server_https_svc);
//continue to prevent TLS error stopping the server
if main_server_https.await.is_err() {
continue;
}
}
}
// Use the single-threaded scheduler. The hyper server is used as a point of
// comparison for the (single-threaded!) benchmarks in cli/bench. We're not
// comparing apples to apples if we use the default multi-threaded scheduler.
#[tokio::main(flavor = "current_thread")]
pub async fn run_all_servers() {
if let Some(port) = env::args().nth(1) {
return hyper_hello(port.parse::<u16>().unwrap()).await;
}
let redirect_server_fut = wrap_redirect_server();
let double_redirects_server_fut = wrap_double_redirect_server();
let inf_redirects_server_fut = wrap_inf_redirect_server();
let another_redirect_server_fut = wrap_another_redirect_server();
let auth_redirect_server_fut = wrap_auth_redirect_server();
let basic_auth_redirect_server_fut = wrap_basic_auth_redirect_server();
let abs_redirect_server_fut = wrap_abs_redirect_server();
let ws_addr = SocketAddr::from(([127, 0, 0, 1], WS_PORT));
let ws_server_fut = run_ws_server(&ws_addr);
let ws_ping_addr = SocketAddr::from(([127, 0, 0, 1], WS_PING_PORT));
let ws_ping_server_fut = run_ws_ping_server(&ws_ping_addr);
let wss_addr = SocketAddr::from(([127, 0, 0, 1], WSS_PORT));
let wss_server_fut = run_wss_server(&wss_addr);
let ws_close_addr = SocketAddr::from(([127, 0, 0, 1], WS_CLOSE_PORT));
let ws_close_server_fut = run_ws_close_server(&ws_close_addr);
let tls_server_fut = run_tls_server();
let tls_client_auth_server_fut = run_tls_client_auth_server();
let client_auth_server_https_fut = wrap_client_auth_https_server();
let main_server_fut = wrap_main_server();
let main_server_https_fut = wrap_main_https_server();
let h1_only_server_tls_fut = wrap_https_h1_only_tls_server();
let h2_only_server_tls_fut = wrap_https_h2_only_tls_server();
let h1_only_server_fut = wrap_https_h1_only_server();
let h2_only_server_fut = wrap_https_h2_only_server();
let mut server_fut = async {
futures::join!(
redirect_server_fut,
ws_server_fut,
ws_ping_server_fut,
wss_server_fut,
tls_server_fut,
tls_client_auth_server_fut,
ws_close_server_fut,
another_redirect_server_fut,
auth_redirect_server_fut,
basic_auth_redirect_server_fut,
inf_redirects_server_fut,
double_redirects_server_fut,
abs_redirect_server_fut,
main_server_fut,
main_server_https_fut,
client_auth_server_https_fut,
h1_only_server_tls_fut,
h2_only_server_tls_fut,
h1_only_server_fut,
h2_only_server_fut
)
}
.boxed();
let mut did_print_ready = false;
futures::future::poll_fn(move |cx| {
let poll_result = server_fut.poll_unpin(cx);
if !replace(&mut did_print_ready, true) {
println!("ready: server_fut"); // Eye catcher for HttpServerCount
}
poll_result
})
.await;
}
fn custom_headers(p: &str, body: Vec<u8>) -> Response<Body> {
let mut response = Response::new(Body::from(body));
if p.ends_with("/run/import_compression/brotli") {
response
.headers_mut()
.insert("Content-Encoding", HeaderValue::from_static("br"));
response.headers_mut().insert(
"Content-Type",
HeaderValue::from_static("application/javascript"),
);
response
.headers_mut()
.insert("Content-Length", HeaderValue::from_static("26"));
return response;
}
if p.ends_with("/run/import_compression/gziped") {
response
.headers_mut()
.insert("Content-Encoding", HeaderValue::from_static("gzip"));
response.headers_mut().insert(
"Content-Type",
HeaderValue::from_static("application/javascript"),
);
response
.headers_mut()
.insert("Content-Length", HeaderValue::from_static("39"));
return response;
}
if p.contains("/encoding/") {
let charset = p
.split_terminator('/')
.last()
.unwrap()
.trim_end_matches(".ts");
response.headers_mut().insert(
"Content-Type",
HeaderValue::from_str(
&format!("application/typescript;charset={charset}")[..],
)
.unwrap(),
);
return response;
}
let content_type = if p.contains(".t1.") {
Some("text/typescript")
} else if p.contains(".t2.") {
Some("video/vnd.dlna.mpeg-tts")
} else if p.contains(".t3.") {
Some("video/mp2t")
} else if p.contains(".t4.") {
Some("application/x-typescript")
} else if p.contains(".j1.") {
Some("text/javascript")
} else if p.contains(".j2.") {
Some("application/ecmascript")
} else if p.contains(".j3.") {
Some("text/ecmascript")
} else if p.contains(".j4.") {
Some("application/x-javascript")
} else if p.contains("form_urlencoded") {
Some("application/x-www-form-urlencoded")
} else if p.contains("unknown_ext") || p.contains("no_ext") {
Some("text/typescript")
} else if p.contains("mismatch_ext") || p.contains("no_js_ext") {
Some("text/javascript")
} else if p.ends_with(".ts") || p.ends_with(".tsx") {
Some("application/typescript")
} else if p.ends_with(".js") || p.ends_with(".jsx") {
Some("application/javascript")
} else if p.ends_with(".json") {
Some("application/json")
} else if p.ends_with(".wasm") {
Some("application/wasm")
} else if p.ends_with(".tgz") {
Some("application/gzip")
} else {
None
};
if let Some(t) = content_type {
response
.headers_mut()
.insert("Content-Type", HeaderValue::from_str(t).unwrap());
return response;
}
response
}
#[derive(Default)]
struct HttpServerCount {
count: usize,
test_server: Option<Child>,
}
impl HttpServerCount {
fn inc(&mut self) {
self.count += 1;
if self.test_server.is_none() {
assert_eq!(self.count, 1);
println!("test_server starting...");
let mut test_server = Command::new(test_server_path())
.current_dir(testdata_path())
.stdout(Stdio::piped())
.spawn()
.expect("failed to execute test_server");
let stdout = test_server.stdout.as_mut().unwrap();
use std::io::BufRead;
use std::io::BufReader;
let lines = BufReader::new(stdout).lines();
// Wait for all the servers to report being ready.
let mut ready_count = 0;
for maybe_line in lines {
if let Ok(line) = maybe_line {
if line.starts_with("ready:") {
ready_count += 1;
}
if ready_count == 6 {
break;
}
} else {
panic!("{}", maybe_line.unwrap_err());
}
}
self.test_server = Some(test_server);
}
}
fn dec(&mut self) {
assert!(self.count > 0);
self.count -= 1;
if self.count == 0 {
let mut test_server = self.test_server.take().unwrap();
match test_server.try_wait() {
Ok(None) => {
test_server.kill().expect("failed to kill test_server");
let _ = test_server.wait();
}
Ok(Some(status)) => {
panic!("test_server exited unexpectedly {status}")
}
Err(e) => panic!("test_server error: {e}"),
}
}
}
}
impl Drop for HttpServerCount {
fn drop(&mut self) {
assert_eq!(self.count, 0);
assert!(self.test_server.is_none());
}
}
fn lock_http_server<'a>() -> MutexGuard<'a, HttpServerCount> {
let r = GUARD.lock();
if let Err(poison_err) = r {
// If panics happened, ignore it. This is for tests.
poison_err.into_inner()
} else {
r.unwrap()
}
}
pub struct HttpServerGuard {}
impl Drop for HttpServerGuard {
fn drop(&mut self) {
let mut g = lock_http_server();
g.dec();
}
}
/// Adds a reference to a shared target/debug/test_server subprocess. When the
/// last instance of the HttpServerGuard is dropped, the subprocess will be
/// killed.
pub fn http_server() -> HttpServerGuard {
ensure_test_server_built();
let mut g = lock_http_server();
g.inc();
HttpServerGuard {}
}
/// Helper function to strip ansi codes.
pub fn strip_ansi_codes(s: &str) -> std::borrow::Cow<str> {
console_static_text::ansi::strip_ansi_codes(s)
}
pub fn run(
cmd: &[&str],
input: Option<&[&str]>,
envs: Option<Vec<(String, String)>>,
current_dir: Option<&str>,
expect_success: bool,
) {
let mut process_builder = Command::new(cmd[0]);
process_builder.args(&cmd[1..]).stdin(Stdio::piped());
if let Some(dir) = current_dir {
process_builder.current_dir(dir);
}
if let Some(envs) = envs {
process_builder.envs(envs);
}
let mut prog = process_builder.spawn().expect("failed to spawn script");
if let Some(lines) = input {
let stdin = prog.stdin.as_mut().expect("failed to get stdin");
stdin
.write_all(lines.join("\n").as_bytes())
.expect("failed to write to stdin");
}
let status = prog.wait().expect("failed to wait on child");
if expect_success != status.success() {
panic!("Unexpected exit code: {:?}", status.code());
}
}
pub fn run_collect(
cmd: &[&str],
input: Option<&[&str]>,
envs: Option<Vec<(String, String)>>,
current_dir: Option<&str>,
expect_success: bool,
) -> (String, String) {
let mut process_builder = Command::new(cmd[0]);
process_builder
.args(&cmd[1..])
.stdin(Stdio::piped())
.stdout(Stdio::piped())
.stderr(Stdio::piped());
if let Some(dir) = current_dir {
process_builder.current_dir(dir);
}
if let Some(envs) = envs {
process_builder.envs(envs);
}
let mut prog = process_builder.spawn().expect("failed to spawn script");
if let Some(lines) = input {
let stdin = prog.stdin.as_mut().expect("failed to get stdin");
stdin
.write_all(lines.join("\n").as_bytes())
.expect("failed to write to stdin");
}
let Output {
stdout,
stderr,
status,
} = prog.wait_with_output().expect("failed to wait on child");
let stdout = String::from_utf8(stdout).unwrap();
let stderr = String::from_utf8(stderr).unwrap();
if expect_success != status.success() {
eprintln!("stdout: <<<{stdout}>>>");
eprintln!("stderr: <<<{stderr}>>>");
panic!("Unexpected exit code: {:?}", status.code());
}
(stdout, stderr)
}
pub fn run_and_collect_output(
expect_success: bool,
args: &str,
input: Option<Vec<&str>>,
envs: Option<Vec<(String, String)>>,
need_http_server: bool,
) -> (String, String) {
run_and_collect_output_with_args(
expect_success,
args.split_whitespace().collect(),
input,
envs,
need_http_server,
)
}
pub fn run_and_collect_output_with_args(
expect_success: bool,
args: Vec<&str>,
input: Option<Vec<&str>>,
envs: Option<Vec<(String, String)>>,
need_http_server: bool,
) -> (String, String) {
let mut deno_process_builder = deno_cmd();
deno_process_builder
.args(args)
.current_dir(&testdata_path())
.stdin(Stdio::piped())
.stdout(Stdio::piped())
.stderr(Stdio::piped());
if let Some(envs) = envs {
deno_process_builder.envs(envs);
}
let _http_guard = if need_http_server {
Some(http_server())
} else {
None
};
let mut deno = deno_process_builder
.spawn()
.expect("failed to spawn script");
if let Some(lines) = input {
let stdin = deno.stdin.as_mut().expect("failed to get stdin");
stdin
.write_all(lines.join("\n").as_bytes())
.expect("failed to write to stdin");
}
let Output {
stdout,
stderr,
status,
} = deno.wait_with_output().expect("failed to wait on child");
let stdout = String::from_utf8(stdout).unwrap();
let stderr = String::from_utf8(stderr).unwrap();
if expect_success != status.success() {
eprintln!("stdout: <<<{stdout}>>>");
eprintln!("stderr: <<<{stderr}>>>");
panic!("Unexpected exit code: {:?}", status.code());
}
(stdout, stderr)
}
pub fn new_deno_dir() -> TempDir {
TempDir::new()
}
/// Because we need to keep the [`TempDir`] alive for the entire run of this command,
/// we have to effectively reproduce the entire builder-pattern object for [`Command`].
pub struct DenoCmd {
_deno_dir: TempDir,
cmd: Command,
}
impl DenoCmd {
pub fn args<I, S>(&mut self, args: I) -> &mut Self
where
I: IntoIterator<Item = S>,
S: AsRef<std::ffi::OsStr>,
{
self.cmd.args(args);
self
}
pub fn arg<S>(&mut self, arg: S) -> &mut Self
where
S: AsRef<std::ffi::OsStr>,
{
self.cmd.arg(arg);
self
}
pub fn envs<I, K, V>(&mut self, vars: I) -> &mut Self
where
I: IntoIterator<Item = (K, V)>,
K: AsRef<std::ffi::OsStr>,
V: AsRef<std::ffi::OsStr>,
{
self.cmd.envs(vars);
self
}
pub fn env<K, V>(&mut self, key: K, val: V) -> &mut Self
where
K: AsRef<std::ffi::OsStr>,
V: AsRef<std::ffi::OsStr>,
{
self.cmd.env(key, val);
self
}
pub fn env_remove<K>(&mut self, key: K) -> &mut Self
where
K: AsRef<std::ffi::OsStr>,
{
self.cmd.env_remove(key);
self
}
pub fn stdin<T: Into<Stdio>>(&mut self, cfg: T) -> &mut Self {
self.cmd.stdin(cfg);
self
}
pub fn stdout<T: Into<Stdio>>(&mut self, cfg: T) -> &mut Self {
self.cmd.stdout(cfg);
self
}
pub fn stderr<T: Into<Stdio>>(&mut self, cfg: T) -> &mut Self {
self.cmd.stderr(cfg);
self
}
pub fn current_dir<P: AsRef<Path>>(&mut self, dir: P) -> &mut Self {
self.cmd.current_dir(dir);
self
}
pub fn output(&mut self) -> Result<std::process::Output, std::io::Error> {
self.cmd.output()
}
pub fn status(&mut self) -> Result<std::process::ExitStatus, std::io::Error> {
self.cmd.status()
}
pub fn spawn(&mut self) -> Result<DenoChild, std::io::Error> {
Ok(DenoChild {
_deno_dir: self._deno_dir.clone(),
child: self.cmd.spawn()?,
})
}
}
/// We need to keep the [`TempDir`] around until the child has finished executing, so
/// this acts as a RAII guard.
pub struct DenoChild {
_deno_dir: TempDir,
child: Child,
}
impl Deref for DenoChild {
type Target = Child;
fn deref(&self) -> &Child {
&self.child
}
}
impl DerefMut for DenoChild {
fn deref_mut(&mut self) -> &mut Child {
&mut self.child
}
}
impl DenoChild {
pub fn wait_with_output(self) -> Result<Output, std::io::Error> {
self.child.wait_with_output()
}
}
pub fn deno_cmd() -> DenoCmd {
let deno_dir = new_deno_dir();
deno_cmd_with_deno_dir(&deno_dir)
}
pub fn deno_cmd_with_deno_dir(deno_dir: &TempDir) -> DenoCmd {
let exe_path = deno_exe_path();
assert!(exe_path.exists());
let mut cmd = Command::new(exe_path);
cmd.env("DENO_DIR", deno_dir.path());
DenoCmd {
_deno_dir: deno_dir.clone(),
cmd,
}
}
pub fn run_powershell_script_file(
script_file_path: &str,
args: Vec<&str>,
) -> std::result::Result<(), i64> {
let deno_dir = new_deno_dir();
let mut command = Command::new("powershell.exe");
command
.env("DENO_DIR", deno_dir.path())
.current_dir(testdata_path())
.arg("-file")
.arg(script_file_path);
for arg in args {
command.arg(arg);
}
let output = command.output().expect("failed to spawn script");
let stdout = String::from_utf8(output.stdout).unwrap();
let stderr = String::from_utf8(output.stderr).unwrap();
println!("{stdout}");
if !output.status.success() {
panic!(
"{script_file_path} executed with failing error code\n{stdout}{stderr}"
);
}
Ok(())
}
#[derive(Debug, Default)]
pub struct CheckOutputIntegrationTest<'a> {
pub args: &'a str,
pub args_vec: Vec<&'a str>,
pub output: &'a str,
pub input: Option<&'a str>,
pub output_str: Option<&'a str>,
pub exit_code: i32,
pub http_server: bool,
pub envs: Vec<(String, String)>,
pub env_clear: bool,
pub temp_cwd: bool,
/// Copies the files at the specified directory in the "testdata" directory
/// to the temp folder and runs the test from there. This is useful when
/// the test creates files in the testdata directory (ex. a node_modules folder)
pub copy_temp_dir: Option<&'a str>,
/// Relative to "testdata" directory
pub cwd: Option<&'a str>,
}
impl<'a> CheckOutputIntegrationTest<'a> {
pub fn output(&self) -> TestCommandOutput {
let mut context_builder = TestContextBuilder::default();
if self.temp_cwd {
context_builder = context_builder.use_temp_cwd();
}
if let Some(dir) = &self.copy_temp_dir {
context_builder = context_builder.use_copy_temp_dir(dir);
}
if self.http_server {
context_builder = context_builder.use_http_server();
}
let context = context_builder.build();
let mut command_builder = context.new_command();
if !self.args.is_empty() {
command_builder = command_builder.args(self.args);
}
if !self.args_vec.is_empty() {
command_builder = command_builder.args_vec(self.args_vec.clone());
}
if let Some(input) = &self.input {
command_builder = command_builder.stdin(input);
}
for (key, value) in &self.envs {
command_builder = command_builder.env(key, value);
}
if self.env_clear {
command_builder = command_builder.env_clear();
}
if let Some(cwd) = &self.cwd {
command_builder = command_builder.cwd(cwd);
}
command_builder.run()
}
}
pub fn wildcard_match(pattern: &str, s: &str) -> bool {
pattern_match(pattern, s, "[WILDCARD]")
}
pub fn pattern_match(pattern: &str, s: &str, wildcard: &str) -> bool {
// Normalize line endings
let mut s = s.replace("\r\n", "\n");
let pattern = pattern.replace("\r\n", "\n");
if pattern == wildcard {
return true;
}
let parts = pattern.split(wildcard).collect::<Vec<&str>>();
if parts.len() == 1 {
return pattern == s;
}
if !s.starts_with(parts[0]) {
return false;
}
// If the first line of the pattern is just a wildcard the newline character
// needs to be pre-pended so it can safely match anything or nothing and
// continue matching.
if pattern.lines().next() == Some(wildcard) {
s.insert(0, '\n');
}
let mut t = s.split_at(parts[0].len());
for (i, part) in parts.iter().enumerate() {
if i == 0 {
continue;
}
dbg!(part, i);
if i == parts.len() - 1 && (part.is_empty() || *part == "\n") {
dbg!("exit 1 true", i);
return true;
}
if let Some(found) = t.1.find(*part) {
dbg!("found ", found);
t = t.1.split_at(found + part.len());
} else {
dbg!("exit false ", i);
return false;
}
}
dbg!("end ", t.1.len());
t.1.is_empty()
}
pub fn with_pty(deno_args: &[&str], action: impl FnMut(Pty)) {
let context = TestContextBuilder::default().use_temp_cwd().build();
context.new_command().args_vec(deno_args).with_pty(action);
}
pub struct WrkOutput {
pub latency: f64,
pub requests: u64,
}
pub fn parse_wrk_output(output: &str) -> WrkOutput {
static REQUESTS_RX: Lazy<Regex> =
lazy_regex::lazy_regex!(r"Requests/sec:\s+(\d+)");
static LATENCY_RX: Lazy<Regex> =
lazy_regex::lazy_regex!(r"\s+99%(?:\s+(\d+.\d+)([a-z]+))");
let mut requests = None;
let mut latency = None;
for line in output.lines() {
if requests.is_none() {
if let Some(cap) = REQUESTS_RX.captures(line) {
requests =
Some(str::parse::<u64>(cap.get(1).unwrap().as_str()).unwrap());
}
}
if latency.is_none() {
if let Some(cap) = LATENCY_RX.captures(line) {
let time = cap.get(1).unwrap();
let unit = cap.get(2).unwrap();
latency = Some(
str::parse::<f64>(time.as_str()).unwrap()
* match unit.as_str() {
"ms" => 1.0,
"us" => 0.001,
"s" => 1000.0,
_ => unreachable!(),
},
);
}
}
}
WrkOutput {
requests: requests.unwrap(),
latency: latency.unwrap(),
}
}
#[derive(Debug, Clone, Serialize)]
pub struct StraceOutput {
pub percent_time: f64,
pub seconds: f64,
pub usecs_per_call: Option<u64>,
pub calls: u64,
pub errors: u64,
}
pub fn parse_strace_output(output: &str) -> HashMap<String, StraceOutput> {
let mut summary = HashMap::new();
// Filter out non-relevant lines. See the error log at
// https://github.com/denoland/deno/pull/3715/checks?check_run_id=397365887
// This is checked in testdata/strace_summary2.out
let mut lines = output.lines().filter(|line| {
!line.is_empty()
&& !line.contains("detached ...")
&& !line.contains("unfinished ...")
&& !line.contains("????")
});
let count = lines.clone().count();
if count < 4 {
return summary;
}
let total_line = lines.next_back().unwrap();
lines.next_back(); // Drop separator
let data_lines = lines.skip(2);
for line in data_lines {
let syscall_fields = line.split_whitespace().collect::<Vec<_>>();
let len = syscall_fields.len();
let syscall_name = syscall_fields.last().unwrap();
if (5..=6).contains(&len) {
summary.insert(
syscall_name.to_string(),
StraceOutput {
percent_time: str::parse::<f64>(syscall_fields[0]).unwrap(),
seconds: str::parse::<f64>(syscall_fields[1]).unwrap(),
usecs_per_call: Some(str::parse::<u64>(syscall_fields[2]).unwrap()),
calls: str::parse::<u64>(syscall_fields[3]).unwrap(),
errors: if syscall_fields.len() < 6 {
0
} else {
str::parse::<u64>(syscall_fields[4]).unwrap()
},
},
);
}
}
let total_fields = total_line.split_whitespace().collect::<Vec<_>>();
let mut usecs_call_offset = 0;
summary.insert(
"total".to_string(),
StraceOutput {
percent_time: str::parse::<f64>(total_fields[0]).unwrap(),
seconds: str::parse::<f64>(total_fields[1]).unwrap(),
usecs_per_call: if total_fields.len() > 5 {
usecs_call_offset = 1;
Some(str::parse::<u64>(total_fields[2]).unwrap())
} else {
None
},
calls: str::parse::<u64>(total_fields[2 + usecs_call_offset]).unwrap(),
errors: str::parse::<u64>(total_fields[3 + usecs_call_offset]).unwrap(),
},
);
summary
}
pub fn parse_max_mem(output: &str) -> Option<u64> {
// Takes the output from "time -v" as input and extracts the 'maximum
// resident set size' and returns it in bytes.
for line in output.lines() {
if line
.to_lowercase()
.contains("maximum resident set size (kbytes)")
{
let value = line.split(": ").nth(1).unwrap();
return Some(str::parse::<u64>(value).unwrap() * 1024);
}
}
None
}
/// Copies a directory to another directory.
///
/// Note: Does not handle symlinks.
pub fn copy_dir_recursive(from: &Path, to: &Path) -> Result<(), anyhow::Error> {
use anyhow::Context;
std::fs::create_dir_all(to)
.with_context(|| format!("Creating {}", to.display()))?;
let read_dir = std::fs::read_dir(from)
.with_context(|| format!("Reading {}", from.display()))?;
for entry in read_dir {
let entry = entry?;
let file_type = entry.file_type()?;
let new_from = from.join(entry.file_name());
let new_to = to.join(entry.file_name());
if file_type.is_dir() {
copy_dir_recursive(&new_from, &new_to).with_context(|| {
format!("Dir {} to {}", new_from.display(), new_to.display())
})?;
} else if file_type.is_file() {
std::fs::copy(&new_from, &new_to).with_context(|| {
format!("Copying {} to {}", new_from.display(), new_to.display())
})?;
}
}
Ok(())
}
#[cfg(test)]
mod tests {
use super::*;
use pretty_assertions::assert_eq;
#[test]
fn parse_wrk_output_1() {
const TEXT: &str = include_str!("./testdata/wrk1.txt");
let wrk = parse_wrk_output(TEXT);
assert_eq!(wrk.requests, 1837);
assert!((wrk.latency - 6.25).abs() < f64::EPSILON);
}
#[test]
fn parse_wrk_output_2() {
const TEXT: &str = include_str!("./testdata/wrk2.txt");
let wrk = parse_wrk_output(TEXT);
assert_eq!(wrk.requests, 53435);
assert!((wrk.latency - 6.22).abs() < f64::EPSILON);
}
#[test]
fn parse_wrk_output_3() {
const TEXT: &str = include_str!("./testdata/wrk3.txt");
let wrk = parse_wrk_output(TEXT);
assert_eq!(wrk.requests, 96037);
assert!((wrk.latency - 6.36).abs() < f64::EPSILON);
}
#[test]
fn strace_parse_1() {
const TEXT: &str = include_str!("./testdata/strace_summary.out");
let strace = parse_strace_output(TEXT);
// first syscall line
let munmap = strace.get("munmap").unwrap();
assert_eq!(munmap.calls, 60);
assert_eq!(munmap.errors, 0);
// line with errors
assert_eq!(strace.get("mkdir").unwrap().errors, 2);
// last syscall line
let prlimit = strace.get("prlimit64").unwrap();
assert_eq!(prlimit.calls, 2);
assert!((prlimit.percent_time - 0.0).abs() < f64::EPSILON);
// summary line
assert_eq!(strace.get("total").unwrap().calls, 704);
assert_eq!(strace.get("total").unwrap().errors, 5);
assert_eq!(strace.get("total").unwrap().usecs_per_call, None);
}
#[test]
fn strace_parse_2() {
const TEXT: &str = include_str!("./testdata/strace_summary2.out");
let strace = parse_strace_output(TEXT);
// first syscall line
let futex = strace.get("futex").unwrap();
assert_eq!(futex.calls, 449);
assert_eq!(futex.errors, 94);
// summary line
assert_eq!(strace.get("total").unwrap().calls, 821);
assert_eq!(strace.get("total").unwrap().errors, 107);
assert_eq!(strace.get("total").unwrap().usecs_per_call, None);
}
#[test]
fn strace_parse_3() {
const TEXT: &str = include_str!("./testdata/strace_summary3.out");
let strace = parse_strace_output(TEXT);
// first syscall line
let futex = strace.get("mprotect").unwrap();
assert_eq!(futex.calls, 90);
assert_eq!(futex.errors, 0);
// summary line
assert_eq!(strace.get("total").unwrap().calls, 543);
assert_eq!(strace.get("total").unwrap().errors, 36);
assert_eq!(strace.get("total").unwrap().usecs_per_call, Some(6));
}
#[test]
fn test_wildcard_match() {
let fixtures = vec![
("foobarbaz", "foobarbaz", true),
("[WILDCARD]", "foobarbaz", true),
("foobar", "foobarbaz", false),
("foo[WILDCARD]baz", "foobarbaz", true),
("foo[WILDCARD]baz", "foobazbar", false),
("foo[WILDCARD]baz[WILDCARD]qux", "foobarbazqatqux", true),
("foo[WILDCARD]", "foobar", true),
("foo[WILDCARD]baz[WILDCARD]", "foobarbazqat", true),
// check with different line endings
("foo[WILDCARD]\nbaz[WILDCARD]\n", "foobar\nbazqat\n", true),
(
"foo[WILDCARD]\nbaz[WILDCARD]\n",
"foobar\r\nbazqat\r\n",
true,
),
(
"foo[WILDCARD]\r\nbaz[WILDCARD]\n",
"foobar\nbazqat\r\n",
true,
),
(
"foo[WILDCARD]\r\nbaz[WILDCARD]\r\n",
"foobar\nbazqat\n",
true,
),
(
"foo[WILDCARD]\r\nbaz[WILDCARD]\r\n",
"foobar\r\nbazqat\r\n",
true,
),
];
// Iterate through the fixture lists, testing each one
for (pattern, string, expected) in fixtures {
let actual = wildcard_match(pattern, string);
dbg!(pattern, string, expected);
assert_eq!(actual, expected);
}
}
#[test]
fn test_pattern_match() {
// foo, bar, baz, qux, quux, quuz, corge, grault, garply, waldo, fred, plugh, xyzzy
let wildcard = "[BAR]";
assert!(pattern_match("foo[BAR]baz", "foobarbaz", wildcard));
assert!(!pattern_match("foo[BAR]baz", "foobazbar", wildcard));
let multiline_pattern = "[BAR]
foo:
[BAR]baz[BAR]";
fn multi_line_builder(input: &str, leading_text: Option<&str>) -> String {
// If there is leading text add a newline so it's on it's own line
let head = match leading_text {
Some(v) => format!("{v}\n"),
None => "".to_string(),
};
format!(
"{head}foo:
quuz {input} corge
grault"
)
}
// Validate multi-line string builder
assert_eq!(
"QUUX=qux
foo:
quuz BAZ corge
grault",
multi_line_builder("BAZ", Some("QUUX=qux"))
);
// Correct input & leading line
assert!(pattern_match(
multiline_pattern,
&multi_line_builder("baz", Some("QUX=quux")),
wildcard
));
// Correct input & no leading line
assert!(pattern_match(
multiline_pattern,
&multi_line_builder("baz", None),
wildcard
));
// Incorrect input & leading line
assert!(!pattern_match(
multiline_pattern,
&multi_line_builder("garply", Some("QUX=quux")),
wildcard
));
// Incorrect input & no leading line
assert!(!pattern_match(
multiline_pattern,
&multi_line_builder("garply", None),
wildcard
));
}
#[test]
fn max_mem_parse() {
const TEXT: &str = include_str!("./testdata/time.out");
let size = parse_max_mem(TEXT);
assert_eq!(size, Some(120380 * 1024));
}
}