// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license. use flaky_test::flaky_test; use std::fs::write; use std::io::BufRead; use tempfile::TempDir; use test_util as util; macro_rules! assert_contains { ($string:expr, $($test:expr),+) => { let string = $string; // This might be a function call or something if !($(string.contains($test))||+) { panic!("{:?} does not contain any of {:?}", string, [$($test),+]); } } } // Helper function to skip watcher output that contains "Restarting" // phrase. fn skip_restarting_line( mut stderr_lines: impl Iterator, ) -> String { loop { let msg = stderr_lines.next().unwrap(); if !msg.contains("Restarting") { return msg; } } } fn read_all_lints(stderr_lines: &mut impl Iterator) -> String { let mut str = String::new(); for t in stderr_lines { let t = util::strip_ansi_codes(&t); if t.starts_with("Watcher File change detected") { continue; } if t.starts_with("Watcher") { break; } if t.starts_with('(') { str.push_str(&t); str.push('\n'); } } str } fn wait_for(s: &str, lines: &mut impl Iterator) { loop { let msg = lines.next().unwrap(); if msg.contains(s) { break; } } } fn check_alive_then_kill(mut child: std::process::Child) { assert!(child.try_wait().unwrap().is_none()); child.kill().unwrap(); } fn child_lines( child: &mut std::process::Child, ) -> (impl Iterator, impl Iterator) { let stdout_lines = std::io::BufReader::new(child.stdout.take().unwrap()) .lines() .map(|r| r.unwrap()); let stderr_lines = std::io::BufReader::new(child.stderr.take().unwrap()) .lines() .map(|r| r.unwrap()); (stdout_lines, stderr_lines) } #[test] fn lint_watch_test() { let t = TempDir::new().expect("tempdir fail"); let badly_linted_original = util::testdata_path().join("lint/watch/badly_linted.js"); let badly_linted_fixed1 = util::testdata_path().join("lint/watch/badly_linted_fixed1.js"); let badly_linted_fixed1_output = util::testdata_path().join("lint/watch/badly_linted_fixed1.js.out"); let badly_linted_fixed2 = util::testdata_path().join("lint/watch/badly_linted_fixed2.js"); let badly_linted_fixed2_output = util::testdata_path().join("lint/watch/badly_linted_fixed2.js.out"); let badly_linted = t.path().join("badly_linted.js"); let badly_linted_output = util::testdata_path().join("lint/watch/badly_linted.js.out"); std::fs::copy(&badly_linted_original, &badly_linted) .expect("Failed to copy file"); let mut child = util::deno_cmd() .current_dir(util::testdata_path()) .arg("lint") .arg(&badly_linted) .arg("--watch") .arg("--unstable") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .expect("Failed to spawn script"); let mut stderr = child.stderr.as_mut().unwrap(); let mut stderr_lines = std::io::BufReader::new(&mut stderr) .lines() .map(|r| r.unwrap()); // TODO(lucacasonato): remove this timeout. It seems to be needed on Linux. std::thread::sleep(std::time::Duration::from_secs(1)); let mut output = read_all_lints(&mut stderr_lines); let expected = std::fs::read_to_string(badly_linted_output).unwrap(); assert_eq!(expected, output); // Change content of the file again to be badly-linted1 std::fs::copy(&badly_linted_fixed1, &badly_linted) .expect("Failed to copy file"); std::thread::sleep(std::time::Duration::from_secs(1)); output = read_all_lints(&mut stderr_lines); let expected = std::fs::read_to_string(badly_linted_fixed1_output).unwrap(); assert_eq!(expected, output); // Change content of the file again to be badly-linted1 std::fs::copy(&badly_linted_fixed2, &badly_linted) .expect("Failed to copy file"); std::thread::sleep(std::time::Duration::from_secs(1)); output = read_all_lints(&mut stderr_lines); let expected = std::fs::read_to_string(badly_linted_fixed2_output).unwrap(); assert_eq!(expected, output); // the watcher process is still alive assert!(child.try_wait().unwrap().is_none()); child.kill().unwrap(); drop(t); } #[test] fn fmt_watch_test() { let t = TempDir::new().unwrap(); let fixed = util::testdata_path().join("badly_formatted_fixed.js"); let badly_formatted_original = util::testdata_path().join("badly_formatted.mjs"); let badly_formatted = t.path().join("badly_formatted.js"); std::fs::copy(&badly_formatted_original, &badly_formatted).unwrap(); let mut child = util::deno_cmd() .current_dir(util::testdata_path()) .arg("fmt") .arg(&badly_formatted) .arg("--watch") .arg("--unstable") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap(); let (_stdout_lines, stderr_lines) = child_lines(&mut child); // TODO(lucacasonato): remove this timeout. It seems to be needed on Linux. std::thread::sleep(std::time::Duration::from_secs(1)); assert!(skip_restarting_line(stderr_lines).contains("badly_formatted.js")); let expected = std::fs::read_to_string(fixed.clone()).unwrap(); let actual = std::fs::read_to_string(badly_formatted.clone()).unwrap(); assert_eq!(expected, actual); // Change content of the file again to be badly formatted std::fs::copy(&badly_formatted_original, &badly_formatted).unwrap(); std::thread::sleep(std::time::Duration::from_secs(1)); // Check if file has been automatically formatted by watcher let expected = std::fs::read_to_string(fixed).unwrap(); let actual = std::fs::read_to_string(badly_formatted).unwrap(); assert_eq!(expected, actual); check_alive_then_kill(child); } #[test] fn bundle_js_watch() { use std::path::PathBuf; // Test strategy extends this of test bundle_js by adding watcher let t = TempDir::new().unwrap(); let file_to_watch = t.path().join("file_to_watch.js"); write(&file_to_watch, "console.log('Hello world');").unwrap(); assert!(file_to_watch.is_file()); let t = TempDir::new().unwrap(); let bundle = t.path().join("mod6.bundle.js"); let mut deno = util::deno_cmd() .current_dir(util::testdata_path()) .arg("bundle") .arg(&file_to_watch) .arg(&bundle) .arg("--watch") .arg("--unstable") .env("NO_COLOR", "1") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap(); let (_stdout_lines, mut stderr_lines) = child_lines(&mut deno); std::thread::sleep(std::time::Duration::from_secs(1)); assert_contains!(stderr_lines.next().unwrap(), "Check"); assert_contains!(stderr_lines.next().unwrap(), "file_to_watch.js"); assert_contains!(stderr_lines.next().unwrap(), "mod6.bundle.js"); let file = PathBuf::from(&bundle); assert!(file.is_file()); wait_for("Bundle finished", &mut stderr_lines); write(&file_to_watch, "console.log('Hello world2');").unwrap(); std::thread::sleep(std::time::Duration::from_secs(1)); assert_contains!(stderr_lines.next().unwrap(), "Check"); assert_contains!(stderr_lines.next().unwrap(), "File change detected!"); assert_contains!(stderr_lines.next().unwrap(), "file_to_watch.js"); assert_contains!(stderr_lines.next().unwrap(), "mod6.bundle.js"); let file = PathBuf::from(&bundle); assert!(file.is_file()); wait_for("Bundle finished", &mut stderr_lines); // Confirm that the watcher keeps on working even if the file is updated and has invalid syntax write(&file_to_watch, "syntax error ^^").unwrap(); std::thread::sleep(std::time::Duration::from_secs(1)); assert_contains!(stderr_lines.next().unwrap(), "File change detected!"); assert_contains!(stderr_lines.next().unwrap(), "error: "); wait_for("Bundle failed", &mut stderr_lines); check_alive_then_kill(deno); } /// Confirm that the watcher continues to work even if module resolution fails at the *first* attempt #[test] fn bundle_watch_not_exit() { let t = TempDir::new().unwrap(); let file_to_watch = t.path().join("file_to_watch.js"); write(&file_to_watch, "syntax error ^^").unwrap(); let target_file = t.path().join("target.js"); let mut deno = util::deno_cmd() .current_dir(util::testdata_path()) .arg("bundle") .arg(&file_to_watch) .arg(&target_file) .arg("--watch") .arg("--unstable") .env("NO_COLOR", "1") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap(); let (_stdout_lines, mut stderr_lines) = child_lines(&mut deno); std::thread::sleep(std::time::Duration::from_secs(1)); assert_contains!(stderr_lines.next().unwrap(), "error:"); assert_contains!(stderr_lines.next().unwrap(), "Bundle failed"); // the target file hasn't been created yet assert!(!target_file.is_file()); // Make sure the watcher actually restarts and works fine with the proper syntax write(&file_to_watch, "console.log(42);").unwrap(); std::thread::sleep(std::time::Duration::from_secs(1)); assert_contains!(stderr_lines.next().unwrap(), "Check"); assert_contains!(stderr_lines.next().unwrap(), "File change detected!"); assert_contains!(stderr_lines.next().unwrap(), "file_to_watch.js"); assert_contains!(stderr_lines.next().unwrap(), "target.js"); wait_for("Bundle finished", &mut stderr_lines); // bundled file is created assert!(target_file.is_file()); check_alive_then_kill(deno); } #[flaky_test::flaky_test] fn run_watch() { let t = TempDir::new().unwrap(); let file_to_watch = t.path().join("file_to_watch.js"); write(&file_to_watch, "console.log('Hello world');").unwrap(); let mut child = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--watch") .arg("--unstable") .arg(&file_to_watch) .env("NO_COLOR", "1") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap(); let (mut stdout_lines, mut stderr_lines) = child_lines(&mut child); assert_contains!(stdout_lines.next().unwrap(), "Hello world"); wait_for("Process finished", &mut stderr_lines); // TODO(lucacasonato): remove this timeout. It seems to be needed on Linux. std::thread::sleep(std::time::Duration::from_secs(1)); // Change content of the file write(&file_to_watch, "console.log('Hello world2');").unwrap(); // Events from the file watcher is "debounced", so we need to wait for the next execution to start std::thread::sleep(std::time::Duration::from_secs(1)); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stdout_lines.next().unwrap(), "Hello world2"); wait_for("Process finished", &mut stderr_lines); // Add dependency let another_file = t.path().join("another_file.js"); write(&another_file, "export const foo = 0;").unwrap(); write( &file_to_watch, "import { foo } from './another_file.js'; console.log(foo);", ) .unwrap(); std::thread::sleep(std::time::Duration::from_secs(1)); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stdout_lines.next().unwrap(), '0'); wait_for("Process finished", &mut stderr_lines); // Confirm that restarting occurs when a new file is updated write(&another_file, "export const foo = 42;").unwrap(); std::thread::sleep(std::time::Duration::from_secs(1)); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stdout_lines.next().unwrap(), "42"); wait_for("Process finished", &mut stderr_lines); // Confirm that the watcher keeps on working even if the file is updated and has invalid syntax write(&file_to_watch, "syntax error ^^").unwrap(); std::thread::sleep(std::time::Duration::from_secs(1)); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stderr_lines.next().unwrap(), "error:"); wait_for("Process failed", &mut stderr_lines); // Then restore the file write( &file_to_watch, "import { foo } from './another_file.js'; console.log(foo);", ) .unwrap(); std::thread::sleep(std::time::Duration::from_secs(1)); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stdout_lines.next().unwrap(), "42"); wait_for("Process finished", &mut stderr_lines); // Update the content of the imported file with invalid syntax write(&another_file, "syntax error ^^").unwrap(); std::thread::sleep(std::time::Duration::from_secs(1)); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stderr_lines.next().unwrap(), "error:"); wait_for("Process failed", &mut stderr_lines); // Modify the imported file and make sure that restarting occurs write(&another_file, "export const foo = 'modified!';").unwrap(); std::thread::sleep(std::time::Duration::from_secs(1)); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stdout_lines.next().unwrap(), "modified!"); wait_for("Process finished", &mut stderr_lines); check_alive_then_kill(child); } #[test] fn run_watch_load_unload_events() { let t = TempDir::new().unwrap(); let file_to_watch = t.path().join("file_to_watch.js"); write( &file_to_watch, r#" setInterval(() => {}, 0); window.addEventListener("load", () => { console.log("load"); }); window.addEventListener("unload", () => { console.log("unload"); }); "#, ) .unwrap(); let mut child = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--watch") .arg("--unstable") .arg(&file_to_watch) .env("NO_COLOR", "1") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap(); let (mut stdout_lines, mut stderr_lines) = child_lines(&mut child); // Wait for the first load event to fire assert_contains!(stdout_lines.next().unwrap(), "load"); // Change content of the file, this time without an interval to keep it alive. write( &file_to_watch, r#" window.addEventListener("load", () => { console.log("load"); }); window.addEventListener("unload", () => { console.log("unload"); }); "#, ) .unwrap(); // Events from the file watcher is "debounced", so we need to wait for the next execution to start std::thread::sleep(std::time::Duration::from_secs(1)); // Wait for the restart assert_contains!(stderr_lines.next().unwrap(), "Restarting"); // Confirm that the unload event was dispatched from the first run assert_contains!(stdout_lines.next().unwrap(), "unload"); // Followed by the load event of the second run assert_contains!(stdout_lines.next().unwrap(), "load"); // Which is then unloaded as there is nothing keeping it alive. assert_contains!(stdout_lines.next().unwrap(), "unload"); check_alive_then_kill(child); } /// Confirm that the watcher continues to work even if module resolution fails at the *first* attempt #[test] fn run_watch_not_exit() { let t = TempDir::new().unwrap(); let file_to_watch = t.path().join("file_to_watch.js"); write(&file_to_watch, "syntax error ^^").unwrap(); let mut child = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--watch") .arg("--unstable") .arg(&file_to_watch) .env("NO_COLOR", "1") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap(); let (mut stdout_lines, mut stderr_lines) = child_lines(&mut child); std::thread::sleep(std::time::Duration::from_secs(1)); assert_contains!(stderr_lines.next().unwrap(), "error:"); assert_contains!(stderr_lines.next().unwrap(), "Process failed"); // Make sure the watcher actually restarts and works fine with the proper syntax write(&file_to_watch, "console.log(42);").unwrap(); std::thread::sleep(std::time::Duration::from_secs(1)); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stdout_lines.next().unwrap(), "42"); wait_for("Process finished", &mut stderr_lines); check_alive_then_kill(child); } #[test] fn run_watch_with_import_map_and_relative_paths() { fn create_relative_tmp_file( directory: &TempDir, filename: &'static str, filecontent: &'static str, ) -> std::path::PathBuf { let absolute_path = directory.path().join(filename); write(&absolute_path, filecontent).unwrap(); let relative_path = absolute_path .strip_prefix(util::testdata_path()) .unwrap() .to_owned(); assert!(relative_path.is_relative()); relative_path } let temp_directory = TempDir::new_in(util::testdata_path()).unwrap(); let file_to_watch = create_relative_tmp_file( &temp_directory, "file_to_watch.js", "console.log('Hello world');", ); let import_map_path = create_relative_tmp_file( &temp_directory, "import_map.json", "{\"imports\": {}}", ); let mut child = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--unstable") .arg("--watch") .arg("--import-map") .arg(&import_map_path) .arg(&file_to_watch) .env("NO_COLOR", "1") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap(); let (mut stdout_lines, mut stderr_lines) = child_lines(&mut child); assert_contains!(stderr_lines.next().unwrap(), "Process finished"); assert_contains!(stdout_lines.next().unwrap(), "Hello world"); check_alive_then_kill(child); } #[flaky_test] fn test_watch() { let t = TempDir::new().unwrap(); let mut child = util::deno_cmd() .current_dir(util::testdata_path()) .arg("test") .arg("--watch") .arg("--unstable") .arg("--no-check") .arg(&t.path()) .env("NO_COLOR", "1") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap(); let (mut stdout_lines, mut stderr_lines) = child_lines(&mut child); assert_eq!(stdout_lines.next().unwrap(), ""); assert_contains!( stdout_lines.next().unwrap(), "0 passed; 0 failed; 0 ignored; 0 measured; 0 filtered out" ); wait_for("Test finished", &mut stderr_lines); let foo_file = t.path().join("foo.js"); let bar_file = t.path().join("bar.js"); let foo_test = t.path().join("foo_test.js"); let bar_test = t.path().join("bar_test.js"); write(&foo_file, "export default function foo() { 1 + 1 }").unwrap(); write(&bar_file, "export default function bar() { 2 + 2 }").unwrap(); write( &foo_test, "import foo from './foo.js'; Deno.test('foo', foo);", ) .unwrap(); write( &bar_test, "import bar from './bar.js'; Deno.test('bar', bar);", ) .unwrap(); assert_eq!(stdout_lines.next().unwrap(), ""); assert_contains!(stdout_lines.next().unwrap(), "running 1 test"); assert_contains!(stdout_lines.next().unwrap(), "foo", "bar"); assert_contains!(stdout_lines.next().unwrap(), "running 1 test"); assert_contains!(stdout_lines.next().unwrap(), "foo", "bar"); stdout_lines.next(); stdout_lines.next(); stdout_lines.next(); wait_for("Test finished", &mut stderr_lines); // Change content of the file write( &foo_test, "import foo from './foo.js'; Deno.test('foobar', foo);", ) .unwrap(); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stdout_lines.next().unwrap(), "running 1 test"); assert_contains!(stdout_lines.next().unwrap(), "foobar"); stdout_lines.next(); stdout_lines.next(); stdout_lines.next(); wait_for("Test finished", &mut stderr_lines); // Add test let another_test = t.path().join("new_test.js"); write(&another_test, "Deno.test('another one', () => 3 + 3)").unwrap(); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stdout_lines.next().unwrap(), "running 1 test"); assert_contains!(stdout_lines.next().unwrap(), "another one"); stdout_lines.next(); stdout_lines.next(); stdout_lines.next(); wait_for("Test finished", &mut stderr_lines); // Confirm that restarting occurs when a new file is updated write(&another_test, "Deno.test('another one', () => 3 + 3); Deno.test('another another one', () => 4 + 4)") .unwrap(); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stdout_lines.next().unwrap(), "running 2 tests"); assert_contains!(stdout_lines.next().unwrap(), "another one"); assert_contains!(stdout_lines.next().unwrap(), "another another one"); stdout_lines.next(); stdout_lines.next(); stdout_lines.next(); wait_for("Test finished", &mut stderr_lines); // Confirm that the watcher keeps on working even if the file is updated and has invalid syntax write(&another_test, "syntax error ^^").unwrap(); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stderr_lines.next().unwrap(), "error:"); assert_contains!(stderr_lines.next().unwrap(), "Test failed"); // Then restore the file write(&another_test, "Deno.test('another one', () => 3 + 3)").unwrap(); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stdout_lines.next().unwrap(), "running 1 test"); assert_contains!(stdout_lines.next().unwrap(), "another one"); stdout_lines.next(); stdout_lines.next(); stdout_lines.next(); wait_for("Test finished", &mut stderr_lines); // Confirm that the watcher keeps on working even if the file is updated and the test fails // This also confirms that it restarts when dependencies change write( &foo_file, "export default function foo() { throw new Error('Whoops!'); }", ) .unwrap(); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stdout_lines.next().unwrap(), "running 1 test"); assert_contains!(stdout_lines.next().unwrap(), "FAILED"); wait_for("test result", &mut stdout_lines); stdout_lines.next(); wait_for("Test finished", &mut stderr_lines); // Then restore the file write(&foo_file, "export default function foo() { 1 + 1 }").unwrap(); assert_contains!(stderr_lines.next().unwrap(), "Restarting"); assert_contains!(stdout_lines.next().unwrap(), "running 1 test"); assert_contains!(stdout_lines.next().unwrap(), "foo"); stdout_lines.next(); stdout_lines.next(); stdout_lines.next(); wait_for("Test finished", &mut stderr_lines); // Test that circular dependencies work fine write( &foo_file, "import './bar.js'; export default function foo() { 1 + 1 }", ) .unwrap(); write( &bar_file, "import './foo.js'; export default function bar() { 2 + 2 }", ) .unwrap(); check_alive_then_kill(child); } #[flaky_test] fn test_watch_doc() { let t = TempDir::new().unwrap(); let mut child = util::deno_cmd() .current_dir(util::testdata_path()) .arg("test") .arg("--watch") .arg("--doc") .arg("--unstable") .arg(&t.path()) .env("NO_COLOR", "1") .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()) .spawn() .unwrap(); let (mut stdout_lines, mut stderr_lines) = child_lines(&mut child); assert_eq!(stdout_lines.next().unwrap(), ""); assert_contains!( stdout_lines.next().unwrap(), "0 passed; 0 failed; 0 ignored; 0 measured; 0 filtered out" ); wait_for("Test finished", &mut stderr_lines); let foo_file = t.path().join("foo.ts"); write( &foo_file, r#" export default function foo() {} "#, ) .unwrap(); write( &foo_file, r#" /** * ```ts * import foo from "./foo.ts"; * ``` */ export default function foo() {} "#, ) .unwrap(); // We only need to scan for a Check file://.../foo.ts$3-6 line that // corresponds to the documentation block being type-checked. assert_contains!(skip_restarting_line(stderr_lines), "foo.ts$3-6"); check_alive_then_kill(child); }