// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license. use crate::itest; use deno_core::url; use deno_runtime::deno_fetch::reqwest; use deno_runtime::deno_net::ops_tls::TlsStream; use deno_runtime::deno_tls::rustls; use deno_runtime::deno_tls::rustls_pemfile; use std::fs; use std::io::BufReader; use std::io::Cursor; use std::io::{Read, Write}; use std::process::Command; use std::sync::Arc; use tempfile::TempDir; use test_util as util; use tokio::task::LocalSet; #[macro_export] macro_rules! itest( ($name:ident {$( $key:ident: $value:expr,)*}) => { #[test] fn $name() { (test_util::CheckOutputIntegrationTest { $( $key: $value, )* .. Default::default() }).run() } } ); #[macro_export] macro_rules! itest_flaky( ($name:ident {$( $key:ident: $value:expr,)*}) => { #[flaky_test::flaky_test] fn $name() { (test_util::CheckOutputIntegrationTest { $( $key: $value, )* .. Default::default() }).run() } } ); // These files have `_tests.rs` suffix to make it easier to tell which file is // the test (ex. `lint_tests.rs`) and which is the implementation (ex. `lint.rs`) // when both are open, especially for two tabs in VS Code #[path = "bundle_tests.rs"] mod bundle; #[path = "cache_tests.rs"] mod cache; #[path = "compat_tests.rs"] mod compat; #[path = "compile_tests.rs"] mod compile; #[path = "coverage_tests.rs"] mod coverage; #[path = "doc_tests.rs"] mod doc; #[path = "eval_tests.rs"] mod eval; #[path = "fmt_tests.rs"] mod fmt; #[path = "info_tests.rs"] mod info; #[path = "inspector_tests.rs"] mod inspector; #[path = "install_tests.rs"] mod install; #[path = "lint_tests.rs"] mod lint; #[path = "lsp_tests.rs"] mod lsp; #[path = "repl_tests.rs"] mod repl; #[path = "run_tests.rs"] mod run; #[path = "test_tests.rs"] mod test; #[path = "upgrade_tests.rs"] mod upgrade; #[path = "watcher_tests.rs"] mod watcher; #[path = "worker_tests.rs"] mod worker; #[test] fn help_flag() { let status = util::deno_cmd() .current_dir(util::testdata_path()) .arg("--help") .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); } #[test] fn version_short_flag() { let status = util::deno_cmd() .current_dir(util::testdata_path()) .arg("-V") .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); } #[test] fn version_long_flag() { let status = util::deno_cmd() .current_dir(util::testdata_path()) .arg("--version") .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); } itest!(types { args: "types", output: "types.out", }); #[test] fn cache_test() { let _g = util::http_server(); let deno_dir = TempDir::new().expect("tempdir fail"); let module_url = url::Url::parse("http://localhost:4545/006_url_imports.ts").unwrap(); let output = Command::new(util::deno_exe_path()) .env("DENO_DIR", deno_dir.path()) .current_dir(util::testdata_path()) .arg("cache") .arg("-L") .arg("debug") .arg(module_url.to_string()) .output() .expect("Failed to spawn script"); assert!(output.status.success()); let out = std::str::from_utf8(&output.stderr).unwrap(); // Check if file and dependencies are written successfully assert!(out.contains("host.writeFile(\"deno://subdir/print_hello.js\")")); assert!(out.contains("host.writeFile(\"deno://subdir/mod2.js\")")); assert!(out.contains("host.writeFile(\"deno://006_url_imports.js\")")); let prg = util::deno_exe_path(); let output = Command::new(&prg) .env("DENO_DIR", deno_dir.path()) .env("HTTP_PROXY", "http://nil") .env("NO_COLOR", "1") .current_dir(util::testdata_path()) .arg("run") .arg(module_url.to_string()) .output() .expect("Failed to spawn script"); let str_output = std::str::from_utf8(&output.stdout).unwrap(); let module_output_path = util::testdata_path().join("006_url_imports.ts.out"); let mut module_output = String::new(); let mut module_output_file = fs::File::open(module_output_path).unwrap(); module_output_file .read_to_string(&mut module_output) .unwrap(); assert_eq!(module_output, str_output); } #[test] fn cache_invalidation_test() { let deno_dir = TempDir::new().expect("tempdir fail"); let fixture_path = deno_dir.path().join("fixture.ts"); { let mut file = std::fs::File::create(fixture_path.clone()) .expect("could not create fixture"); file .write_all(b"console.log(\"42\");") .expect("could not write fixture"); } let output = Command::new(util::deno_exe_path()) .env("DENO_DIR", deno_dir.path()) .current_dir(util::testdata_path()) .arg("run") .arg(fixture_path.to_str().unwrap()) .output() .expect("Failed to spawn script"); assert!(output.status.success()); let actual = std::str::from_utf8(&output.stdout).unwrap(); assert_eq!(actual, "42\n"); { let mut file = std::fs::File::create(fixture_path.clone()) .expect("could not create fixture"); file .write_all(b"console.log(\"43\");") .expect("could not write fixture"); } let output = Command::new(util::deno_exe_path()) .env("DENO_DIR", deno_dir.path()) .current_dir(util::testdata_path()) .arg("run") .arg(fixture_path.to_str().unwrap()) .output() .expect("Failed to spawn script"); assert!(output.status.success()); let actual = std::str::from_utf8(&output.stdout).unwrap(); assert_eq!(actual, "43\n"); } #[test] fn cache_invalidation_test_no_check() { let deno_dir = TempDir::new().expect("tempdir fail"); let fixture_path = deno_dir.path().join("fixture.ts"); { let mut file = std::fs::File::create(fixture_path.clone()) .expect("could not create fixture"); file .write_all(b"console.log(\"42\");") .expect("could not write fixture"); } let output = Command::new(util::deno_exe_path()) .env("DENO_DIR", deno_dir.path()) .current_dir(util::testdata_path()) .arg("run") .arg("--no-check") .arg(fixture_path.to_str().unwrap()) .output() .expect("Failed to spawn script"); assert!(output.status.success()); let actual = std::str::from_utf8(&output.stdout).unwrap(); assert_eq!(actual, "42\n"); { let mut file = std::fs::File::create(fixture_path.clone()) .expect("could not create fixture"); file .write_all(b"console.log(\"43\");") .expect("could not write fixture"); } let output = Command::new(util::deno_exe_path()) .env("DENO_DIR", deno_dir.path()) .current_dir(util::testdata_path()) .arg("run") .arg("--no-check") .arg(fixture_path.to_str().unwrap()) .output() .expect("Failed to spawn script"); assert!(output.status.success()); let actual = std::str::from_utf8(&output.stdout).unwrap(); assert_eq!(actual, "43\n"); } #[test] fn ts_dependency_recompilation() { let t = TempDir::new().expect("tempdir fail"); let ats = t.path().join("a.ts"); std::fs::write( &ats, " import { foo } from \"./b.ts\"; function print(str: string): void { console.log(str); } print(foo);", ) .unwrap(); let bts = t.path().join("b.ts"); std::fs::write( &bts, " export const foo = \"foo\";", ) .unwrap(); let output = util::deno_cmd() .current_dir(util::testdata_path()) .env("NO_COLOR", "1") .arg("run") .arg(&ats) .output() .expect("failed to spawn script"); let stdout_output = std::str::from_utf8(&output.stdout).unwrap().trim(); let stderr_output = std::str::from_utf8(&output.stderr).unwrap().trim(); assert!(stdout_output.ends_with("foo")); assert!(stderr_output.starts_with("Check")); // Overwrite contents of b.ts and run again std::fs::write( &bts, " export const foo = 5;", ) .expect("error writing file"); let output = util::deno_cmd() .current_dir(util::testdata_path()) .env("NO_COLOR", "1") .arg("run") .arg(&ats) .output() .expect("failed to spawn script"); let stdout_output = std::str::from_utf8(&output.stdout).unwrap().trim(); let stderr_output = std::str::from_utf8(&output.stderr).unwrap().trim(); // error: TS2345 [ERROR]: Argument of type '5' is not assignable to parameter of type 'string'. assert!(stderr_output.contains("TS2345")); assert!(!output.status.success()); assert!(stdout_output.is_empty()); } #[test] fn ts_no_recheck_on_redirect() { let deno_dir = util::new_deno_dir(); let e = util::deno_exe_path(); let redirect_ts = util::testdata_path().join("017_import_redirect.ts"); assert!(redirect_ts.is_file()); let mut cmd = Command::new(e.clone()); cmd.env("DENO_DIR", deno_dir.path()); let mut initial = cmd .current_dir(util::testdata_path()) .arg("run") .arg(redirect_ts.clone()) .spawn() .expect("failed to span script"); let status_initial = initial.wait().expect("failed to wait for child process"); assert!(status_initial.success()); let mut cmd = Command::new(e); cmd.env("DENO_DIR", deno_dir.path()); let output = cmd .current_dir(util::testdata_path()) .arg("run") .arg(redirect_ts) .output() .expect("failed to spawn script"); assert!(std::str::from_utf8(&output.stderr).unwrap().is_empty()); } #[test] fn ts_reload() { let hello_ts = util::testdata_path().join("002_hello.ts"); assert!(hello_ts.is_file()); let deno_dir = TempDir::new().expect("tempdir fail"); let mut initial = util::deno_cmd_with_deno_dir(deno_dir.path()) .current_dir(util::testdata_path()) .arg("cache") .arg(&hello_ts) .spawn() .expect("failed to spawn script"); let status_initial = initial.wait().expect("failed to wait for child process"); assert!(status_initial.success()); let output = util::deno_cmd_with_deno_dir(deno_dir.path()) .current_dir(util::testdata_path()) .arg("cache") .arg("--reload") .arg("-L") .arg("debug") .arg(&hello_ts) .output() .expect("failed to spawn script"); // check the output of the the bundle program. let output_path = hello_ts.canonicalize().unwrap(); assert!( dbg!(std::str::from_utf8(&output.stderr).unwrap().trim()).contains( &format!( "host.getSourceFile(\"{}\", Latest)", url::Url::from_file_path(&output_path).unwrap().as_str() ) ) ); } #[test] fn timeout_clear() { // https://github.com/denoland/deno/issues/7599 use std::time::Duration; use std::time::Instant; let source_code = r#" const handle = setTimeout(() => { console.log("timeout finish"); }, 10000); clearTimeout(handle); console.log("finish"); "#; let mut p = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("-") .stdin(std::process::Stdio::piped()) .spawn() .unwrap(); let stdin = p.stdin.as_mut().unwrap(); stdin.write_all(source_code.as_bytes()).unwrap(); let start = Instant::now(); let status = p.wait().unwrap(); let end = Instant::now(); assert!(status.success()); // check that program did not run for 10 seconds // for timeout to clear assert!(end - start < Duration::new(10, 0)); } #[test] fn compiler_api() { let status = util::deno_cmd() .current_dir(util::testdata_path()) .arg("test") .arg("--unstable") .arg("--reload") .arg("--allow-read") .arg("compiler_api_test.ts") .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); } #[test] fn broken_stdout() { let (reader, writer) = os_pipe::pipe().unwrap(); // drop the reader to create a broken pipe drop(reader); let output = util::deno_cmd() .current_dir(util::testdata_path()) .arg("eval") .arg("console.log(3.14)") .stdout(writer) .stderr(std::process::Stdio::piped()) .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(!output.status.success()); let stderr = std::str::from_utf8(output.stderr.as_ref()).unwrap().trim(); assert!(stderr.contains("Uncaught BrokenPipe")); assert!(!stderr.contains("panic")); } itest!(error_cause { args: "run error_cause.ts", output: "error_cause.ts.out", exit_code: 1, }); itest!(error_cause_recursive { args: "run error_cause_recursive.ts", output: "error_cause_recursive.ts.out", exit_code: 1, }); itest_flaky!(cafile_url_imports { args: "run --quiet --reload --cert tls/RootCA.pem cafile_url_imports.ts", output: "cafile_url_imports.ts.out", http_server: true, }); itest_flaky!(cafile_ts_fetch { args: "run --quiet --reload --allow-net --cert tls/RootCA.pem cafile_ts_fetch.ts", output: "cafile_ts_fetch.ts.out", http_server: true, }); itest_flaky!(cafile_eval { args: "eval --cert tls/RootCA.pem fetch('https://localhost:5545/cafile_ts_fetch.ts.out').then(r=>r.text()).then(t=>console.log(t.trimEnd()))", output: "cafile_ts_fetch.ts.out", http_server: true, }); itest_flaky!(cafile_info { args: "info --quiet --cert tls/RootCA.pem https://localhost:5545/cafile_info.ts", output: "cafile_info.ts.out", http_server: true, }); itest_flaky!(cafile_url_imports_unsafe_ssl { args: "run --quiet --reload --unsafely-ignore-certificate-errors=localhost cafile_url_imports.ts", output: "cafile_url_imports_unsafe_ssl.ts.out", http_server: true, }); itest_flaky!(cafile_ts_fetch_unsafe_ssl { args: "run --quiet --reload --allow-net --unsafely-ignore-certificate-errors cafile_ts_fetch.ts", output: "cafile_ts_fetch_unsafe_ssl.ts.out", http_server: true, }); itest!(deno_land_unsafe_ssl { args: "run --quiet --reload --allow-net --unsafely-ignore-certificate-errors=deno.land deno_land_unsafe_ssl.ts", output: "deno_land_unsafe_ssl.ts.out", }); itest!(localhost_unsafe_ssl { args: "run --quiet --reload --allow-net --unsafely-ignore-certificate-errors=deno.land cafile_url_imports.ts", output: "localhost_unsafe_ssl.ts.out", http_server: true, exit_code: 1, }); #[flaky_test::flaky_test] fn cafile_env_fetch() { use deno_core::url::Url; let _g = util::http_server(); let deno_dir = TempDir::new().expect("tempdir fail"); let module_url = Url::parse("https://localhost:5545/cafile_url_imports.ts").unwrap(); let cafile = util::testdata_path().join("tls/RootCA.pem"); let output = Command::new(util::deno_exe_path()) .env("DENO_DIR", deno_dir.path()) .env("DENO_CERT", cafile) .current_dir(util::testdata_path()) .arg("cache") .arg(module_url.to_string()) .output() .expect("Failed to spawn script"); assert!(output.status.success()); } #[flaky_test::flaky_test] fn cafile_fetch() { use deno_core::url::Url; let _g = util::http_server(); let deno_dir = TempDir::new().expect("tempdir fail"); let module_url = Url::parse("http://localhost:4545/cafile_url_imports.ts").unwrap(); let cafile = util::testdata_path().join("tls/RootCA.pem"); let output = Command::new(util::deno_exe_path()) .env("DENO_DIR", deno_dir.path()) .current_dir(util::testdata_path()) .arg("cache") .arg("--cert") .arg(cafile) .arg(module_url.to_string()) .output() .expect("Failed to spawn script"); assert!(output.status.success()); let out = std::str::from_utf8(&output.stdout).unwrap(); assert_eq!(out, ""); } #[flaky_test::flaky_test] fn cafile_install_remote_module() { let _g = util::http_server(); let temp_dir = TempDir::new().expect("tempdir fail"); let bin_dir = temp_dir.path().join("bin"); std::fs::create_dir(&bin_dir).unwrap(); let deno_dir = TempDir::new().expect("tempdir fail"); let cafile = util::testdata_path().join("tls/RootCA.pem"); let install_output = Command::new(util::deno_exe_path()) .env("DENO_DIR", deno_dir.path()) .current_dir(util::testdata_path()) .arg("install") .arg("--cert") .arg(cafile) .arg("--root") .arg(temp_dir.path()) .arg("-n") .arg("echo_test") .arg("https://localhost:5545/echo.ts") .output() .expect("Failed to spawn script"); println!("{}", std::str::from_utf8(&install_output.stdout).unwrap()); eprintln!("{}", std::str::from_utf8(&install_output.stderr).unwrap()); assert!(install_output.status.success()); let mut echo_test_path = bin_dir.join("echo_test"); if cfg!(windows) { echo_test_path = echo_test_path.with_extension("cmd"); } assert!(echo_test_path.exists()); let output = Command::new(echo_test_path) .current_dir(temp_dir.path()) .arg("foo") .env("PATH", util::target_dir()) .output() .expect("failed to spawn script"); let stdout = std::str::from_utf8(&output.stdout).unwrap().trim(); assert!(stdout.ends_with("foo")); } #[flaky_test::flaky_test] fn cafile_bundle_remote_exports() { let _g = util::http_server(); // First we have to generate a bundle of some remote module that has exports. let mod1 = "https://localhost:5545/subdir/mod1.ts"; let cafile = util::testdata_path().join("tls/RootCA.pem"); let t = TempDir::new().expect("tempdir fail"); let bundle = t.path().join("mod1.bundle.js"); let mut deno = util::deno_cmd() .current_dir(util::testdata_path()) .arg("bundle") .arg("--cert") .arg(cafile) .arg(mod1) .arg(&bundle) .spawn() .expect("failed to spawn script"); let status = deno.wait().expect("failed to wait for the child process"); assert!(status.success()); assert!(bundle.is_file()); // Now we try to use that bundle from another module. let test = t.path().join("test.js"); std::fs::write( &test, " import { printHello3 } from \"./mod1.bundle.js\"; printHello3(); ", ) .expect("error writing file"); let output = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg(&test) .output() .expect("failed to spawn script"); // check the output of the test.ts program. assert!(std::str::from_utf8(&output.stdout) .unwrap() .trim() .ends_with("Hello")); assert_eq!(output.stderr, b""); } #[test] fn websocket() { let _g = util::http_server(); let script = util::testdata_path().join("websocket_test.ts"); let root_ca = util::testdata_path().join("tls/RootCA.pem"); let status = util::deno_cmd() .arg("test") .arg("--unstable") .arg("--allow-net") .arg("--cert") .arg(root_ca) .arg(script) .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); } #[test] fn websocketstream() { let _g = util::http_server(); let script = util::testdata_path().join("websocketstream_test.ts"); let root_ca = util::testdata_path().join("tls/RootCA.pem"); let status = util::deno_cmd() .arg("test") .arg("--unstable") .arg("--allow-net") .arg("--cert") .arg(root_ca) .arg(script) .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); } #[test] fn websocket_server_multi_field_connection_header() { let script = util::testdata_path() .join("websocket_server_multi_field_connection_header_test.ts"); let root_ca = util::testdata_path().join("tls/RootCA.pem"); let mut child = util::deno_cmd() .arg("run") .arg("--unstable") .arg("--allow-net") .arg("--cert") .arg(root_ca) .arg(script) .stdout(std::process::Stdio::piped()) .spawn() .unwrap(); let stdout = child.stdout.as_mut().unwrap(); let mut buffer = [0; 5]; let read = stdout.read(&mut buffer).unwrap(); assert_eq!(read, 5); let msg = std::str::from_utf8(&buffer).unwrap(); assert_eq!(msg, "READY"); let req = http::request::Builder::new() .header(http::header::CONNECTION, "keep-alive, Upgrade") .uri("ws://localhost:4319") .body(()) .unwrap(); assert!( deno_runtime::deno_websocket::tokio_tungstenite::tungstenite::connect(req) .is_ok() ); assert!(child.wait().unwrap().success()); } #[test] fn websocket_server_idletimeout() { let script = util::testdata_path().join("websocket_server_idletimeout.ts"); let root_ca = util::testdata_path().join("tls/RootCA.pem"); let mut child = util::deno_cmd() .arg("test") .arg("--unstable") .arg("--allow-net") .arg("--cert") .arg(root_ca) .arg(script) .stdout(std::process::Stdio::piped()) .spawn() .unwrap(); let stdout = child.stdout.as_mut().unwrap(); let mut buffer = [0; 5]; let read = stdout.read(&mut buffer).unwrap(); assert_eq!(read, 5); let msg = std::str::from_utf8(&buffer).unwrap(); assert_eq!(msg, "READY"); let req = http::request::Builder::new() .uri("ws://localhost:4502") .body(()) .unwrap(); let (_ws, _request) = deno_runtime::deno_websocket::tokio_tungstenite::tungstenite::connect(req) .unwrap(); assert!(child.wait().unwrap().success()); } #[cfg(not(windows))] #[test] fn set_raw_should_not_panic_on_no_tty() { let output = util::deno_cmd() .arg("eval") .arg("--unstable") .arg("Deno.setRaw(Deno.stdin.rid, true)") // stdin set to piped so it certainly does not refer to TTY .stdin(std::process::Stdio::piped()) // stderr is piped so we can capture output. .stderr(std::process::Stdio::piped()) .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(!output.status.success()); let stderr = std::str::from_utf8(&output.stderr).unwrap().trim(); assert!(stderr.contains("BadResource")); } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_resolve_dns() { use std::collections::BTreeMap; use std::net::Ipv4Addr; use std::net::Ipv6Addr; use std::net::SocketAddr; use std::str::FromStr; use std::sync::Arc; use std::sync::RwLock; use std::time::Duration; use tokio::net::TcpListener; use tokio::net::UdpSocket; use tokio::sync::oneshot; use trust_dns_client::rr::LowerName; use trust_dns_client::rr::RecordType; use trust_dns_client::rr::RrKey; use trust_dns_server::authority::Catalog; use trust_dns_server::authority::ZoneType; use trust_dns_server::proto::rr::rdata::mx::MX; use trust_dns_server::proto::rr::rdata::soa::SOA; use trust_dns_server::proto::rr::rdata::srv::SRV; use trust_dns_server::proto::rr::rdata::txt::TXT; use trust_dns_server::proto::rr::record_data::RData; use trust_dns_server::proto::rr::resource::Record; use trust_dns_server::proto::rr::Name; use trust_dns_server::proto::rr::RecordSet; use trust_dns_server::store::in_memory::InMemoryAuthority; use trust_dns_server::ServerFuture; const DNS_PORT: u16 = 4553; // Setup DNS server for testing async fn run_dns_server(tx: oneshot::Sender<()>) { let catalog = { let records = { let mut map = BTreeMap::new(); let lookup_name = "www.example.com".parse::().unwrap(); let lookup_name_lower = LowerName::new(&lookup_name); // Inserts SOA record let soa = SOA::new( Name::from_str("net").unwrap(), Name::from_str("example").unwrap(), 0, i32::MAX, i32::MAX, i32::MAX, 0, ); let rdata = RData::SOA(soa); let record = Record::from_rdata(Name::new(), u32::MAX, rdata); let record_set = RecordSet::from(record); map .insert(RrKey::new(Name::root().into(), RecordType::SOA), record_set); // Inserts A record let rdata = RData::A(Ipv4Addr::new(1, 2, 3, 4)); let record = Record::from_rdata(lookup_name.clone(), u32::MAX, rdata); let record_set = RecordSet::from(record); map.insert( RrKey::new(lookup_name_lower.clone(), RecordType::A), record_set, ); // Inserts AAAA record let rdata = RData::AAAA(Ipv6Addr::new(1, 2, 3, 4, 5, 6, 7, 8)); let record = Record::from_rdata(lookup_name.clone(), u32::MAX, rdata); let record_set = RecordSet::from(record); map.insert( RrKey::new(lookup_name_lower.clone(), RecordType::AAAA), record_set, ); // Inserts ANAME record let rdata = RData::ANAME(Name::from_str("aname.com").unwrap()); let record = Record::from_rdata(lookup_name.clone(), u32::MAX, rdata); let record_set = RecordSet::from(record); map.insert( RrKey::new(lookup_name_lower.clone(), RecordType::ANAME), record_set, ); // Inserts CNAME record let rdata = RData::CNAME(Name::from_str("cname.com").unwrap()); let record = Record::from_rdata(Name::from_str("foo").unwrap(), u32::MAX, rdata); let record_set = RecordSet::from(record); map.insert( RrKey::new(lookup_name_lower.clone(), RecordType::CNAME), record_set, ); // Inserts MX record let rdata = RData::MX(MX::new(0, Name::from_str("mx.com").unwrap())); let record = Record::from_rdata(lookup_name.clone(), u32::MAX, rdata); let record_set = RecordSet::from(record); map.insert( RrKey::new(lookup_name_lower.clone(), RecordType::MX), record_set, ); // Inserts PTR record let rdata = RData::PTR(Name::from_str("ptr.com").unwrap()); let record = Record::from_rdata( Name::from_str("5.6.7.8").unwrap(), u32::MAX, rdata, ); let record_set = RecordSet::from(record); map.insert( RrKey::new("5.6.7.8".parse().unwrap(), RecordType::PTR), record_set, ); // Inserts SRV record let rdata = RData::SRV(SRV::new( 0, 100, 1234, Name::from_str("srv.com").unwrap(), )); let record = Record::from_rdata( Name::from_str("_Service._TCP.example.com").unwrap(), u32::MAX, rdata, ); let record_set = RecordSet::from(record); map.insert( RrKey::new(lookup_name_lower.clone(), RecordType::SRV), record_set, ); // Inserts TXT record let rdata = RData::TXT(TXT::new(vec!["foo".to_string(), "bar".to_string()])); let record = Record::from_rdata(lookup_name, u32::MAX, rdata); let record_set = RecordSet::from(record); map.insert(RrKey::new(lookup_name_lower, RecordType::TXT), record_set); map }; let authority = Box::new(Arc::new(RwLock::new( InMemoryAuthority::new( Name::from_str("com").unwrap(), records, ZoneType::Primary, false, ) .unwrap(), ))); let mut c = Catalog::new(); c.upsert(Name::root().into(), authority); c }; let mut server_fut = ServerFuture::new(catalog); let socket_addr = SocketAddr::from(([127, 0, 0, 1], DNS_PORT)); let tcp_listener = TcpListener::bind(socket_addr).await.unwrap(); let udp_socket = UdpSocket::bind(socket_addr).await.unwrap(); server_fut.register_socket(udp_socket); server_fut.register_listener(tcp_listener, Duration::from_secs(2)); // Notifies that the DNS server is ready tx.send(()).unwrap(); server_fut.block_until_done().await.unwrap(); } let (ready_tx, ready_rx) = oneshot::channel(); let dns_server_fut = run_dns_server(ready_tx); let handle = tokio::spawn(dns_server_fut); // Waits for the DNS server to be ready ready_rx.await.unwrap(); // Pass: `--allow-net` { let output = util::deno_cmd() .current_dir(util::testdata_path()) .env("NO_COLOR", "1") .arg("run") .arg("--allow-net") .arg("resolve_dns.ts") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap() .wait_with_output() .unwrap(); let err = String::from_utf8_lossy(&output.stderr); let out = String::from_utf8_lossy(&output.stdout); assert!(output.status.success()); assert!(err.starts_with("Check file")); let expected = std::fs::read_to_string(util::testdata_path().join("resolve_dns.ts.out")) .unwrap(); assert_eq!(expected, out); } // Pass: `--allow-net=127.0.0.1:4553` { let output = util::deno_cmd() .current_dir(util::testdata_path()) .env("NO_COLOR", "1") .arg("run") .arg("--allow-net=127.0.0.1:4553") .arg("resolve_dns.ts") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap() .wait_with_output() .unwrap(); let err = String::from_utf8_lossy(&output.stderr); let out = String::from_utf8_lossy(&output.stdout); assert!(output.status.success()); assert!(err.starts_with("Check file")); let expected = std::fs::read_to_string(util::testdata_path().join("resolve_dns.ts.out")) .unwrap(); assert_eq!(expected, out); } // Permission error: `--allow-net=deno.land` { let output = util::deno_cmd() .current_dir(util::testdata_path()) .env("NO_COLOR", "1") .arg("run") .arg("--allow-net=deno.land") .arg("resolve_dns.ts") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap() .wait_with_output() .unwrap(); let err = String::from_utf8_lossy(&output.stderr); let out = String::from_utf8_lossy(&output.stdout); assert!(!output.status.success()); assert!(err.starts_with("Check file")); assert!(err.contains(r#"error: Uncaught (in promise) PermissionDenied: Requires net access to "127.0.0.1:4553""#)); assert!(out.is_empty()); } // Permission error: no permission specified { let output = util::deno_cmd() .current_dir(util::testdata_path()) .env("NO_COLOR", "1") .arg("run") .arg("resolve_dns.ts") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap() .wait_with_output() .unwrap(); let err = String::from_utf8_lossy(&output.stderr); let out = String::from_utf8_lossy(&output.stdout); assert!(!output.status.success()); assert!(err.starts_with("Check file")); assert!(err.contains(r#"error: Uncaught (in promise) PermissionDenied: Requires net access to "127.0.0.1:4553""#)); assert!(out.is_empty()); } handle.abort(); } #[test] fn typecheck_declarations_ns() { let output = util::deno_cmd() .arg("test") .arg("--doc") .arg(util::root_path().join("cli/dts/lib.deno.ns.d.ts")) .output() .unwrap(); println!("stdout: {}", String::from_utf8(output.stdout).unwrap()); println!("stderr: {}", String::from_utf8(output.stderr).unwrap()); assert!(output.status.success()); } #[test] fn typecheck_declarations_unstable() { let output = util::deno_cmd() .arg("test") .arg("--doc") .arg("--unstable") .arg(util::root_path().join("cli/dts/lib.deno.unstable.d.ts")) .output() .unwrap(); println!("stdout: {}", String::from_utf8(output.stdout).unwrap()); println!("stderr: {}", String::from_utf8(output.stderr).unwrap()); assert!(output.status.success()); } #[test] fn js_unit_tests_lint() { let status = util::deno_cmd() .arg("lint") .arg("--unstable") .arg(util::tests_path().join("unit")) .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); } #[test] fn js_unit_tests() { let _g = util::http_server(); // Note that the unit tests are not safe for concurrency and must be run with a concurrency limit // of one because there are some chdir tests in there. // TODO(caspervonb) split these tests into two groups: parallel and serial. let mut deno = util::deno_cmd() .current_dir(util::root_path()) .arg("test") .arg("--unstable") .arg("--location=http://js-unit-tests/foo/bar") .arg("-A") .arg(util::tests_path().join("unit")) .spawn() .expect("failed to spawn script"); let status = deno.wait().expect("failed to wait for the child process"); assert_eq!(Some(0), status.code()); assert!(status.success()); } #[test] fn basic_auth_tokens() { let _g = util::http_server(); let output = util::deno_cmd() .current_dir(util::root_path()) .arg("run") .arg("http://127.0.0.1:4554/001_hello.js") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(!output.status.success()); let stdout_str = std::str::from_utf8(&output.stdout).unwrap().trim(); assert!(stdout_str.is_empty()); let stderr_str = std::str::from_utf8(&output.stderr).unwrap().trim(); eprintln!("{}", stderr_str); assert!(stderr_str .contains("Module not found \"http://127.0.0.1:4554/001_hello.js\".")); let output = util::deno_cmd() .current_dir(util::root_path()) .arg("run") .arg("http://127.0.0.1:4554/001_hello.js") .env("DENO_AUTH_TOKENS", "testuser123:testpassabc@127.0.0.1:4554") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap() .wait_with_output() .unwrap(); let stderr_str = std::str::from_utf8(&output.stderr).unwrap().trim(); eprintln!("{}", stderr_str); assert!(output.status.success()); let stdout_str = std::str::from_utf8(&output.stdout).unwrap().trim(); assert_eq!(util::strip_ansi_codes(stdout_str), "Hello World"); } #[tokio::test] async fn listen_tls_alpn() { // TLS streams require the presence of an ambient local task set to gracefully // close dropped connections in the background. LocalSet::new() .run_until(async { let mut child = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--unstable") .arg("--quiet") .arg("--allow-net") .arg("--allow-read") .arg("./listen_tls_alpn.ts") .arg("4504") .stdout(std::process::Stdio::piped()) .spawn() .unwrap(); let stdout = child.stdout.as_mut().unwrap(); let mut msg = [0; 5]; let read = stdout.read(&mut msg).unwrap(); assert_eq!(read, 5); assert_eq!(&msg, b"READY"); let mut reader = &mut BufReader::new(Cursor::new(include_bytes!( "../testdata/tls/RootCA.crt" ))); let certs = rustls_pemfile::certs(&mut reader).unwrap(); let mut root_store = rustls::RootCertStore::empty(); root_store.add_parsable_certificates(&certs); let mut cfg = rustls::ClientConfig::builder() .with_safe_defaults() .with_root_certificates(root_store) .with_no_client_auth(); cfg.alpn_protocols.push(b"foobar".to_vec()); let cfg = Arc::new(cfg); let hostname = rustls::ServerName::try_from("localhost").unwrap(); let tcp_stream = tokio::net::TcpStream::connect("localhost:4504") .await .unwrap(); let mut tls_stream = TlsStream::new_client_side(tcp_stream, cfg, hostname); tls_stream.handshake().await.unwrap(); let (_, rustls_connection) = tls_stream.get_ref(); let alpn = rustls_connection.alpn_protocol().unwrap(); assert_eq!(alpn, b"foobar"); let status = child.wait().unwrap(); assert!(status.success()); }) .await; } #[tokio::test] async fn listen_tls_alpn_fail() { // TLS streams require the presence of an ambient local task set to gracefully // close dropped connections in the background. LocalSet::new() .run_until(async { let mut child = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--unstable") .arg("--quiet") .arg("--allow-net") .arg("--allow-read") .arg("./listen_tls_alpn_fail.ts") .arg("4505") .stdout(std::process::Stdio::piped()) .spawn() .unwrap(); let stdout = child.stdout.as_mut().unwrap(); let mut msg = [0; 5]; let read = stdout.read(&mut msg).unwrap(); assert_eq!(read, 5); assert_eq!(&msg, b"READY"); let mut reader = &mut BufReader::new(Cursor::new(include_bytes!( "../testdata/tls/RootCA.crt" ))); let certs = rustls_pemfile::certs(&mut reader).unwrap(); let mut root_store = rustls::RootCertStore::empty(); root_store.add_parsable_certificates(&certs); let mut cfg = rustls::ClientConfig::builder() .with_safe_defaults() .with_root_certificates(root_store) .with_no_client_auth(); cfg.alpn_protocols.push(b"boofar".to_vec()); let cfg = Arc::new(cfg); let hostname = rustls::ServerName::try_from("localhost").unwrap(); let tcp_stream = tokio::net::TcpStream::connect("localhost:4505") .await .unwrap(); let mut tls_stream = TlsStream::new_client_side(tcp_stream, cfg, hostname); tls_stream.handshake().await.unwrap_err(); let (_, rustls_connection) = tls_stream.get_ref(); assert!(rustls_connection.alpn_protocol().is_none()); let status = child.wait().unwrap(); assert!(status.success()); }) .await; } #[tokio::test] async fn http2_request_url() { // TLS streams require the presence of an ambient local task set to gracefully // close dropped connections in the background. LocalSet::new() .run_until(async { let mut child = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--unstable") .arg("--quiet") .arg("--allow-net") .arg("--allow-read") .arg("./http2_request_url.ts") .arg("4506") .stdout(std::process::Stdio::piped()) .spawn() .unwrap(); let stdout = child.stdout.as_mut().unwrap(); let mut buffer = [0; 5]; let read = stdout.read(&mut buffer).unwrap(); assert_eq!(read, 5); let msg = std::str::from_utf8(&buffer).unwrap(); assert_eq!(msg, "READY"); let cert = reqwest::Certificate::from_pem(include_bytes!( "../testdata/tls/RootCA.crt" )) .unwrap(); let client = reqwest::Client::builder() .add_root_certificate(cert) .http2_prior_knowledge() .build() .unwrap(); let res = client.get("http://127.0.0.1:4506").send().await.unwrap(); assert_eq!(200, res.status()); let body = res.text().await.unwrap(); assert_eq!(body, "http://127.0.0.1:4506/"); child.kill().unwrap(); child.wait().unwrap(); }) .await; }