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denoland-deno/cli/tests/integration_tests.rs
Anonymous b40d5e5e0b
ignore "use asm" (#9019)
Preventing V8 from logging erroneous line numbers. Use wasm.
2021-01-07 10:50:57 -05:00

5228 lines
142 KiB
Rust

// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
use deno_core::futures;
use deno_core::futures::prelude::*;
use deno_core::serde_json;
use deno_core::url;
use deno_runtime::deno_fetch::reqwest;
use deno_runtime::deno_websocket::tokio_tungstenite;
use std::io::{BufRead, Write};
use std::path::Path;
use std::path::PathBuf;
use std::process::Command;
use tempfile::TempDir;
use test_util as util;
use walkdir::WalkDir;
macro_rules! itest(
($name:ident {$( $key:ident: $value:expr,)*}) => {
#[test]
fn $name() {
(util::CheckOutputIntegrationTest {
$(
$key: $value,
)*
.. Default::default()
}).run()
}
}
);
#[test]
fn std_tests() {
let dir = TempDir::new().expect("tempdir fail");
let status = util::deno_cmd()
.env("DENO_DIR", dir.path())
.current_dir(util::root_path())
.arg("test")
.arg("--unstable")
.arg("--seed=86") // Some tests rely on specific random numbers.
.arg("-A")
// .arg("-Ldebug")
.arg("std/")
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
}
#[test]
fn std_lint() {
let status = util::deno_cmd()
.arg("lint")
.arg("--unstable")
.arg(format!(
"--ignore={}",
util::root_path().join("std/node/tests").to_string_lossy()
))
.arg(util::root_path().join("std"))
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
}
#[test]
fn unit_test_lint() {
let status = util::deno_cmd()
.arg("lint")
.arg("--unstable")
.arg(util::root_path().join("cli/tests/unit"))
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
}
#[test]
fn x_deno_warning() {
let _g = util::http_server();
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("--reload")
.arg("http://127.0.0.1:4545/cli/tests/x_deno_warning.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();
let stderr_str = std::str::from_utf8(&output.stderr).unwrap().trim();
assert_eq!("testing x-deno-warning header", stdout_str);
assert!(util::strip_ansi_codes(stderr_str).contains("Warning foobar"));
}
#[test]
fn eval_p() {
let output = util::deno_cmd()
.arg("eval")
.arg("-p")
.arg("1+2")
.stdout(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
let stdout_str =
util::strip_ansi_codes(std::str::from_utf8(&output.stdout).unwrap().trim());
assert_eq!("3", stdout_str);
}
#[test]
fn run_from_stdin() {
let mut deno = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("-")
.stdout(std::process::Stdio::piped())
.stdin(std::process::Stdio::piped())
.spawn()
.unwrap();
deno
.stdin
.as_mut()
.unwrap()
.write_all(b"console.log(\"Hello World\");")
.unwrap();
let output = deno.wait_with_output().unwrap();
assert!(output.status.success());
let deno_out = std::str::from_utf8(&output.stdout).unwrap().trim();
assert_eq!("Hello World", deno_out);
let mut deno = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("-")
.stdout(std::process::Stdio::piped())
.stdin(std::process::Stdio::piped())
.spawn()
.unwrap();
deno
.stdin
.as_mut()
.unwrap()
.write_all(b"console.log(\"Bye cached code\");")
.unwrap();
let output = deno.wait_with_output().unwrap();
assert!(output.status.success());
let deno_out = std::str::from_utf8(&output.stdout).unwrap().trim();
assert_eq!("Bye cached code", deno_out);
}
#[test]
fn no_color() {
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("cli/tests/no_color.js")
.env("NO_COLOR", "1")
.stdout(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_eq!("noColor true", stdout_str);
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("cli/tests/no_color.js")
.stdout(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_eq!("noColor false", util::strip_ansi_codes(stdout_str));
}
#[cfg(unix)]
#[test]
pub fn test_raw_tty() {
use std::io::{Read, Write};
use util::pty::fork::*;
let deno_exe = util::deno_exe_path();
let root_path = util::root_path();
let fork = Fork::from_ptmx().unwrap();
if let Ok(mut master) = fork.is_parent() {
let mut obytes: [u8; 100] = [0; 100];
let mut nread = master.read(&mut obytes).unwrap();
assert_eq!(String::from_utf8_lossy(&obytes[0..nread]), "S");
master.write_all(b"a").unwrap();
nread = master.read(&mut obytes).unwrap();
assert_eq!(String::from_utf8_lossy(&obytes[0..nread]), "A");
master.write_all(b"b").unwrap();
nread = master.read(&mut obytes).unwrap();
assert_eq!(String::from_utf8_lossy(&obytes[0..nread]), "B");
master.write_all(b"c").unwrap();
nread = master.read(&mut obytes).unwrap();
assert_eq!(String::from_utf8_lossy(&obytes[0..nread]), "C");
fork.wait().unwrap();
} else {
use nix::sys::termios;
use std::os::unix::io::AsRawFd;
// Turn off echo such that parent is reading works properly.
let stdin_fd = std::io::stdin().as_raw_fd();
let mut t = termios::tcgetattr(stdin_fd).unwrap();
t.local_flags.remove(termios::LocalFlags::ECHO);
termios::tcsetattr(stdin_fd, termios::SetArg::TCSANOW, &t).unwrap();
std::env::set_current_dir(root_path).unwrap();
let err = exec::Command::new(deno_exe)
.arg("run")
.arg("--unstable")
.arg("--quiet")
.arg("--no-check")
.arg("cli/tests/raw_mode.ts")
.exec();
println!("err {}", err);
unreachable!()
}
}
#[cfg(unix)]
#[test]
pub fn test_raw_tty_cbreak() {
use std::io::{Read, Write};
use util::pty::fork::*;
let deno_exe = util::deno_exe_path();
let root_path = util::root_path();
let fork = Fork::from_ptmx().unwrap();
if let Ok(mut master) = fork.is_parent() {
let mut obytes: [u8; 100] = [0; 100];
let mut nread = master.read(&mut obytes).unwrap();
assert_eq!(String::from_utf8_lossy(&obytes[0..nread]), "S");
master.write_all(&[3]).unwrap(); // send SIGINT
master.flush().unwrap();
nread = master.read(&mut obytes).unwrap();
assert_eq!(String::from_utf8_lossy(&obytes[0..nread]), "A");
fork.wait().unwrap();
} else {
// Keep echo enabled such that 'C^' would be printed in non-raw mode.
std::env::set_current_dir(root_path).unwrap();
let err = exec::Command::new(deno_exe)
.arg("run")
.arg("--unstable")
.arg("--quiet")
.arg("--no-check")
.arg("cli/tests/raw_mode_cbreak.ts")
.exec();
println!("err {}", err);
unreachable!()
}
}
#[test]
fn test_pattern_match() {
// foo, bar, baz, qux, quux, quuz, corge, grault, garply, waldo, fred, plugh, xyzzy
let wildcard = "[BAR]";
assert!(util::pattern_match("foo[BAR]baz", "foobarbaz", wildcard));
assert!(!util::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!("{}\n", v),
None => "".to_string(),
};
format!(
"{}foo:
quuz {} corge
grault",
head, input
)
}
// 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!(util::pattern_match(
multiline_pattern,
&multi_line_builder("baz", Some("QUX=quux")),
wildcard
));
// Correct input & no leading line
assert!(util::pattern_match(
multiline_pattern,
&multi_line_builder("baz", None),
wildcard
));
// Incorrect input & leading line
assert!(!util::pattern_match(
multiline_pattern,
&multi_line_builder("garply", Some("QUX=quux")),
wildcard
));
// Incorrect input & no leading line
assert!(!util::pattern_match(
multiline_pattern,
&multi_line_builder("garply", None),
wildcard
));
}
#[test]
fn deno_dir_test() {
use std::fs::remove_dir_all;
let _g = util::http_server();
let deno_dir = TempDir::new().expect("tempdir fail");
remove_dir_all(deno_dir.path()).unwrap();
// Run deno with no env flag
let status = util::deno_cmd()
.env_remove("DENO_DIR")
.current_dir(util::root_path())
.arg("run")
.arg("http://localhost:4545/cli/tests/subdir/print_hello.ts")
.spawn()
.expect("Failed to spawn script")
.wait()
.expect("Failed to wait for child process");
assert!(status.success());
assert!(!deno_dir.path().exists());
// Run deno with DENO_DIR env flag
let status = util::deno_cmd()
.env("DENO_DIR", deno_dir.path())
.current_dir(util::root_path())
.arg("run")
.arg("http://localhost:4545/cli/tests/subdir/print_hello.ts")
.spawn()
.expect("Failed to spawn script")
.wait()
.expect("Failed to wait for child process");
assert!(status.success());
assert!(deno_dir.path().is_dir());
assert!(deno_dir.path().join("deps").is_dir());
assert!(deno_dir.path().join("gen").is_dir());
remove_dir_all(deno_dir.path()).unwrap();
}
#[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/cli/tests/006_url_imports.ts")
.unwrap();
let output = Command::new(util::deno_exe_path())
.env("DENO_DIR", deno_dir.path())
.current_dir(util::root_path())
.arg("cache")
.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, "");
// TODO(ry) Is there some way to check that the file was actually cached in
// DENO_DIR?
}
#[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::root_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::root_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::root_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::root_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 fmt_test() {
let t = TempDir::new().expect("tempdir fail");
let fixed = util::root_path().join("cli/tests/badly_formatted_fixed.js");
let badly_formatted_original =
util::root_path().join("cli/tests/badly_formatted.mjs");
let badly_formatted = t.path().join("badly_formatted.js");
let badly_formatted_str = badly_formatted.to_str().unwrap();
std::fs::copy(&badly_formatted_original, &badly_formatted)
.expect("Failed to copy file");
// First, check formatting by ignoring the badly formatted file.
let status = util::deno_cmd()
.current_dir(util::root_path())
.arg("fmt")
.arg(format!("--ignore={}", badly_formatted_str))
.arg("--check")
.arg(badly_formatted_str)
.spawn()
.expect("Failed to spawn script")
.wait()
.expect("Failed to wait for child process");
assert!(status.success());
// Check without ignore.
let status = util::deno_cmd()
.current_dir(util::root_path())
.arg("fmt")
.arg("--check")
.arg(badly_formatted_str)
.spawn()
.expect("Failed to spawn script")
.wait()
.expect("Failed to wait for child process");
assert!(!status.success());
// Format the source file.
let status = util::deno_cmd()
.current_dir(util::root_path())
.arg("fmt")
.arg(badly_formatted_str)
.spawn()
.expect("Failed to spawn script")
.wait()
.expect("Failed to wait for child process");
assert!(status.success());
let expected = std::fs::read_to_string(fixed).unwrap();
let actual = std::fs::read_to_string(badly_formatted).unwrap();
assert_eq!(expected, actual);
}
// Helper function to skip watcher output that contains "Restarting"
// phrase.
fn skip_restarting_line(
mut stderr_lines: impl Iterator<Item = String>,
) -> String {
loop {
let msg = stderr_lines.next().unwrap();
if !msg.contains("Restarting") {
return msg;
}
}
}
#[test]
#[ignore]
fn fmt_watch_test() {
let t = TempDir::new().expect("tempdir fail");
let fixed = util::root_path().join("cli/tests/badly_formatted_fixed.js");
let badly_formatted_original =
util::root_path().join("cli/tests/badly_formatted.mjs");
let badly_formatted = t.path().join("badly_formatted.js");
std::fs::copy(&badly_formatted_original, &badly_formatted)
.expect("Failed to copy file");
let mut child = util::deno_cmd()
.current_dir(util::root_path())
.arg("fmt")
.arg(&badly_formatted)
.arg("--watch")
.arg("--unstable")
.stdout(std::process::Stdio::piped())
.stderr(std::process::Stdio::piped())
.spawn()
.expect("Failed to spawn script");
let stderr = child.stderr.as_mut().unwrap();
let stderr_lines =
std::io::BufReader::new(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));
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)
.expect("Failed to copy file");
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);
// the watcher process is still alive
assert!(child.try_wait().unwrap().is_none());
child.kill().unwrap();
drop(t);
}
#[test]
fn fmt_stdin_error() {
use std::io::Write;
let mut deno = util::deno_cmd()
.current_dir(util::root_path())
.arg("fmt")
.arg("-")
.stdin(std::process::Stdio::piped())
.stdout(std::process::Stdio::piped())
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap();
let stdin = deno.stdin.as_mut().unwrap();
let invalid_js = b"import { example }";
stdin.write_all(invalid_js).unwrap();
let output = deno.wait_with_output().unwrap();
// Error message might change. Just check stdout empty, stderr not.
assert!(output.stdout.is_empty());
assert!(!output.stderr.is_empty());
assert!(!output.status.success());
}
// Warning: this test requires internet access.
// TODO(#7412): reenable. test is flaky
#[test]
#[ignore]
fn upgrade_in_tmpdir() {
let temp_dir = TempDir::new().unwrap();
let exe_path = temp_dir.path().join("deno");
let _ = std::fs::copy(util::deno_exe_path(), &exe_path).unwrap();
assert!(exe_path.exists());
let _mtime1 = std::fs::metadata(&exe_path).unwrap().modified().unwrap();
let status = Command::new(&exe_path)
.arg("upgrade")
.arg("--force")
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
let _mtime2 = std::fs::metadata(&exe_path).unwrap().modified().unwrap();
// TODO(ry) assert!(mtime1 < mtime2);
}
// Warning: this test requires internet access.
// TODO(#7412): reenable. test is flaky
#[test]
#[ignore]
fn upgrade_with_space_in_path() {
let temp_dir = tempfile::Builder::new()
.prefix("directory with spaces")
.tempdir()
.unwrap();
let exe_path = temp_dir.path().join("deno");
let _ = std::fs::copy(util::deno_exe_path(), &exe_path).unwrap();
assert!(exe_path.exists());
let status = Command::new(&exe_path)
.arg("upgrade")
.arg("--force")
.env("TMP", temp_dir.path())
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
}
// Warning: this test requires internet access.
// TODO(#7412): reenable. test is flaky
#[test]
#[ignore]
fn upgrade_with_version_in_tmpdir() {
let temp_dir = TempDir::new().unwrap();
let exe_path = temp_dir.path().join("deno");
let _ = std::fs::copy(util::deno_exe_path(), &exe_path).unwrap();
assert!(exe_path.exists());
let _mtime1 = std::fs::metadata(&exe_path).unwrap().modified().unwrap();
let status = Command::new(&exe_path)
.arg("upgrade")
.arg("--force")
.arg("--version")
.arg("0.42.0")
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
let upgraded_deno_version = String::from_utf8(
Command::new(&exe_path).arg("-V").output().unwrap().stdout,
)
.unwrap();
assert!(upgraded_deno_version.contains("0.42.0"));
let _mtime2 = std::fs::metadata(&exe_path).unwrap().modified().unwrap();
// TODO(ry) assert!(mtime1 < mtime2);
}
// Warning: this test requires internet access.
// TODO(#7412): reenable. test is flaky
#[test]
#[ignore]
fn upgrade_with_canary_in_tmpdir() {
let temp_dir = TempDir::new().unwrap();
let exe_path = temp_dir.path().join("deno");
let _ = std::fs::copy(util::deno_exe_path(), &exe_path).unwrap();
assert!(exe_path.exists());
let _mtime1 = std::fs::metadata(&exe_path).unwrap().modified().unwrap();
let status = Command::new(&exe_path)
.arg("upgrade")
.arg("--canary")
.arg("--version")
.arg("e6685f0f01b8a11a5eaff020f5babcfde76b3038")
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
let upgraded_deno_version = String::from_utf8(
Command::new(&exe_path).arg("-V").output().unwrap().stdout,
)
.unwrap();
assert!(upgraded_deno_version.contains("e6685f0"));
let _mtime2 = std::fs::metadata(&exe_path).unwrap().modified().unwrap();
// TODO(ry) assert!(mtime1 < mtime2);
}
// Warning: this test requires internet access.
// TODO(#7412): reenable. test is flaky
#[test]
#[ignore]
fn upgrade_with_out_in_tmpdir() {
let temp_dir = TempDir::new().unwrap();
let exe_path = temp_dir.path().join("deno");
let new_exe_path = temp_dir.path().join("foo");
let _ = std::fs::copy(util::deno_exe_path(), &exe_path).unwrap();
assert!(exe_path.exists());
let mtime1 = std::fs::metadata(&exe_path).unwrap().modified().unwrap();
let status = Command::new(&exe_path)
.arg("upgrade")
.arg("--version")
.arg("1.0.2")
.arg("--output")
.arg(&new_exe_path.to_str().unwrap())
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
assert!(new_exe_path.exists());
let mtime2 = std::fs::metadata(&exe_path).unwrap().modified().unwrap();
assert_eq!(mtime1, mtime2); // Original exe_path was not changed.
let v = String::from_utf8(
Command::new(&new_exe_path)
.arg("-V")
.output()
.unwrap()
.stdout,
)
.unwrap();
assert!(v.contains("1.0.2"));
}
#[test]
fn installer_test_local_module_run() {
let temp_dir = TempDir::new().expect("tempdir fail");
let bin_dir = temp_dir.path().join("bin");
std::fs::create_dir(&bin_dir).unwrap();
let status = util::deno_cmd()
.current_dir(util::root_path())
.arg("install")
.arg("--name")
.arg("echo_test")
.arg("--root")
.arg(temp_dir.path())
.arg(util::tests_path().join("echo.ts"))
.arg("hello")
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
let mut file_path = bin_dir.join("echo_test");
if cfg!(windows) {
file_path = file_path.with_extension("cmd");
}
assert!(file_path.exists());
// NOTE: using file_path here instead of exec_name, because tests
// shouldn't mess with user's PATH env variable
let output = Command::new(file_path)
.current_dir(temp_dir.path())
.arg("foo")
.env("PATH", util::target_dir())
.output()
.expect("failed to spawn script");
let stdout_str = std::str::from_utf8(&output.stdout).unwrap().trim();
assert!(stdout_str.ends_with("hello, foo"));
}
#[test]
fn installer_test_remote_module_run() {
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 status = util::deno_cmd()
.current_dir(util::root_path())
.arg("install")
.arg("--name")
.arg("echo_test")
.arg("--root")
.arg(temp_dir.path())
.arg("http://localhost:4545/cli/tests/echo.ts")
.arg("hello")
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
let mut file_path = bin_dir.join("echo_test");
if cfg!(windows) {
file_path = file_path.with_extension("cmd");
}
assert!(file_path.exists());
let output = Command::new(file_path)
.current_dir(temp_dir.path())
.arg("foo")
.env("PATH", util::target_dir())
.output()
.expect("failed to spawn script");
assert!(std::str::from_utf8(&output.stdout)
.unwrap()
.trim()
.ends_with("hello, foo"));
}
#[test]
fn js_unit_tests() {
let _g = util::http_server();
let mut deno = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("--unstable")
.arg("--reload")
.arg("-A")
.arg("cli/tests/unit/unit_test_runner.ts")
.arg("--master")
.arg("--verbose")
.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 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::root_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::root_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_reload() {
let hello_ts = util::root_path().join("cli/tests/002_hello.ts");
assert!(hello_ts.is_file());
let mut initial = util::deno_cmd()
.current_dir(util::root_path())
.arg("cache")
.arg("--reload")
.arg(hello_ts.clone())
.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()
.current_dir(util::root_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.
assert!(std::str::from_utf8(&output.stderr)
.unwrap()
.trim()
.contains("host.writeFile(\"deno://002_hello.js\")"));
}
#[test]
fn bundle_exports() {
// First we have to generate a bundle of some module that has exports.
let mod1 = util::root_path().join("cli/tests/subdir/mod1.ts");
assert!(mod1.is_file());
let t = TempDir::new().expect("tempdir fail");
let bundle = t.path().join("mod1.bundle.js");
let mut deno = util::deno_cmd()
.current_dir(util::root_path())
.arg("bundle")
.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::root_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 bundle_exports_no_check() {
// First we have to generate a bundle of some module that has exports.
let mod1 = util::root_path().join("cli/tests/subdir/mod1.ts");
assert!(mod1.is_file());
let t = TempDir::new().expect("tempdir fail");
let bundle = t.path().join("mod1.bundle.js");
let mut deno = util::deno_cmd()
.current_dir(util::root_path())
.arg("bundle")
.arg("--no-check")
.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::root_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 bundle_circular() {
// First we have to generate a bundle of some module that has exports.
let circular1 = util::root_path().join("cli/tests/subdir/circular1.ts");
assert!(circular1.is_file());
let t = TempDir::new().expect("tempdir fail");
let bundle = t.path().join("circular1.bundle.js");
let mut deno = util::deno_cmd()
.current_dir(util::root_path())
.arg("bundle")
.arg(circular1)
.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());
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg(&bundle)
.output()
.expect("failed to spawn script");
// check the output of the the bundle program.
assert!(std::str::from_utf8(&output.stdout)
.unwrap()
.trim()
.ends_with("f1\nf2"));
assert_eq!(output.stderr, b"");
}
#[test]
fn bundle_single_module() {
// First we have to generate a bundle of some module that has exports.
let single_module =
util::root_path().join("cli/tests/subdir/single_module.ts");
assert!(single_module.is_file());
let t = TempDir::new().expect("tempdir fail");
let bundle = t.path().join("single_module.bundle.js");
let mut deno = util::deno_cmd()
.current_dir(util::root_path())
.arg("bundle")
.arg(single_module)
.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());
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("--reload")
.arg(&bundle)
.output()
.expect("failed to spawn script");
// check the output of the the bundle program.
assert!(std::str::from_utf8(&output.stdout)
.unwrap()
.trim()
.ends_with("Hello world!"));
assert_eq!(output.stderr, b"");
}
#[test]
fn bundle_tla() {
// First we have to generate a bundle of some module that has exports.
let tla_import = util::root_path().join("cli/tests/subdir/tla.ts");
assert!(tla_import.is_file());
let t = tempfile::TempDir::new().expect("tempdir fail");
let bundle = t.path().join("tla.bundle.js");
let mut deno = util::deno_cmd()
.current_dir(util::root_path())
.arg("bundle")
.arg(tla_import)
.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 { foo } from \"./tla.bundle.js\";
console.log(foo); ",
)
.expect("error writing file");
let output = util::deno_cmd()
.current_dir(util::root_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 bundle_js() {
// First we have to generate a bundle of some module that has exports.
let mod6 = util::root_path().join("cli/tests/subdir/mod6.js");
assert!(mod6.is_file());
let t = TempDir::new().expect("tempdir fail");
let bundle = t.path().join("mod6.bundle.js");
let mut deno = util::deno_cmd()
.current_dir(util::root_path())
.arg("bundle")
.arg(mod6)
.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());
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg(&bundle)
.output()
.expect("failed to spawn script");
// check that nothing went to stderr
assert_eq!(output.stderr, b"");
}
#[test]
fn bundle_dynamic_import() {
let _g = util::http_server();
let dynamic_import =
util::root_path().join("cli/tests/bundle_dynamic_import.ts");
assert!(dynamic_import.is_file());
let t = TempDir::new().expect("tempdir fail");
let bundle = t.path().join("bundle_dynamic_import.bundle.js");
let mut deno = util::deno_cmd()
.current_dir(util::root_path())
.arg("bundle")
.arg(dynamic_import)
.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());
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("--allow-net")
.arg("--quiet")
.arg(&bundle)
.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 bundle_import_map() {
let import = util::root_path().join("cli/tests/bundle_im.ts");
let import_map_path = util::root_path().join("cli/tests/bundle_im.json");
assert!(import.is_file());
let t = TempDir::new().expect("tempdir fail");
let bundle = t.path().join("import_map.bundle.js");
let mut deno = util::deno_cmd()
.current_dir(util::root_path())
.arg("bundle")
.arg("--import-map")
.arg(import_map_path)
.arg("--unstable")
.arg(import)
.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 \"./import_map.bundle.js\";
printHello3(); ",
)
.expect("error writing file");
let output = util::deno_cmd()
.current_dir(util::root_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 bundle_import_map_no_check() {
let import = util::root_path().join("cli/tests/bundle_im.ts");
let import_map_path = util::root_path().join("cli/tests/bundle_im.json");
assert!(import.is_file());
let t = TempDir::new().expect("tempdir fail");
let bundle = t.path().join("import_map.bundle.js");
let mut deno = util::deno_cmd()
.current_dir(util::root_path())
.arg("bundle")
.arg("--no-check")
.arg("--importmap")
.arg(import_map_path)
.arg("--unstable")
.arg(import)
.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 \"./import_map.bundle.js\";
printHello3(); ",
)
.expect("error writing file");
let output = util::deno_cmd()
.current_dir(util::root_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]
#[ignore]
fn bundle_js_watch() {
use std::path::PathBuf;
// Test strategy extends this of test bundle_js by adding watcher
let t = TempDir::new().expect("tempdir fail");
let file_to_watch = t.path().join("file_to_watch.js");
std::fs::write(&file_to_watch, "console.log('Hello world');")
.expect("error writing file");
assert!(file_to_watch.is_file());
let t = TempDir::new().expect("tempdir fail");
let bundle = t.path().join("mod6.bundle.js");
let mut deno = util::deno_cmd()
.current_dir(util::root_path())
.arg("bundle")
.arg(&file_to_watch)
.arg(&bundle)
.arg("--watch")
.arg("--unstable")
.stdout(std::process::Stdio::piped())
.stderr(std::process::Stdio::piped())
.spawn()
.expect("failed to spawn script");
let stderr = deno.stderr.as_mut().unwrap();
let mut stderr_lines =
std::io::BufReader::new(stderr).lines().map(|r| r.unwrap());
std::thread::sleep(std::time::Duration::from_secs(1));
assert!(stderr_lines.next().unwrap().contains("file_to_watch.js"));
assert!(stderr_lines.next().unwrap().contains("mod6.bundle.js"));
let file = PathBuf::from(&bundle);
assert!(file.is_file());
wait_for_process_finished("Bundle", &mut stderr_lines);
std::fs::write(&file_to_watch, "console.log('Hello world2');")
.expect("error writing file");
std::thread::sleep(std::time::Duration::from_secs(1));
assert!(stderr_lines
.next()
.unwrap()
.contains("File change detected!"));
assert!(stderr_lines.next().unwrap().contains("file_to_watch.js"));
assert!(stderr_lines.next().unwrap().contains("mod6.bundle.js"));
let file = PathBuf::from(&bundle);
assert!(file.is_file());
wait_for_process_finished("Bundle", &mut stderr_lines);
// Confirm that the watcher keeps on working even if the file is updated and has invalid syntax
std::fs::write(&file_to_watch, "syntax error ^^")
.expect("error writing file");
std::thread::sleep(std::time::Duration::from_secs(1));
assert!(stderr_lines
.next()
.unwrap()
.contains("File change detected!"));
assert!(stderr_lines.next().unwrap().contains("file_to_watch.js"));
assert!(stderr_lines.next().unwrap().contains("mod6.bundle.js"));
let file = PathBuf::from(&bundle);
assert!(file.is_file());
wait_for_process_finished("Bundle", &mut stderr_lines);
// the watcher process is still alive
assert!(deno.try_wait().unwrap().is_none());
deno.kill().unwrap();
drop(t);
}
/// Confirm that the watcher continues to work even if module resolution fails at the *first* attempt
#[test]
#[ignore]
fn bundle_watch_not_exit() {
let t = TempDir::new().expect("tempdir fail");
let file_to_watch = t.path().join("file_to_watch.js");
std::fs::write(&file_to_watch, "syntax error ^^")
.expect("error writing file");
let target_file = t.path().join("target.js");
let mut deno = util::deno_cmd()
.current_dir(util::root_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()
.expect("failed to spawn script");
let stderr = deno.stderr.as_mut().unwrap();
let mut stderr_lines =
std::io::BufReader::new(stderr).lines().map(|r| r.unwrap());
std::thread::sleep(std::time::Duration::from_secs(1));
assert!(stderr_lines.next().unwrap().contains("file_to_watch.js"));
assert!(stderr_lines.next().unwrap().contains("error:"));
assert!(stderr_lines.next().unwrap().contains("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
std::fs::write(&file_to_watch, "console.log(42);")
.expect("error writing file");
std::thread::sleep(std::time::Duration::from_secs(1));
assert!(stderr_lines
.next()
.unwrap()
.contains("File change detected!"));
assert!(stderr_lines.next().unwrap().contains("file_to_watch.js"));
assert!(stderr_lines.next().unwrap().contains("target.js"));
wait_for_process_finished("Bundle", &mut stderr_lines);
// bundled file is created
assert!(target_file.is_file());
// the watcher process is still alive
assert!(deno.try_wait().unwrap().is_none());
drop(t);
}
#[test]
fn info_with_compiled_source() {
let _g = util::http_server();
let module_path = "http://127.0.0.1:4545/cli/tests/048_media_types_jsx.ts";
let t = TempDir::new().expect("tempdir fail");
let mut deno = util::deno_cmd()
.env("DENO_DIR", t.path())
.current_dir(util::root_path())
.arg("cache")
.arg(&module_path)
.spawn()
.expect("failed to spawn script");
let status = deno.wait().expect("failed to wait for the child process");
assert!(status.success());
let output = util::deno_cmd()
.env("DENO_DIR", t.path())
.env("NO_COLOR", "1")
.current_dir(util::root_path())
.arg("info")
.arg(&module_path)
.output()
.expect("failed to spawn script");
let str_output = std::str::from_utf8(&output.stdout).unwrap().trim();
eprintln!("{}", str_output);
// check the output of the test.ts program.
assert!(str_output.contains("compiled: "));
assert_eq!(output.stderr, b"");
}
/// Helper function to skip watcher output that doesn't contain
/// "{job_name} finished" phrase.
fn wait_for_process_finished(
job_name: &str,
stderr_lines: &mut impl Iterator<Item = String>,
) {
let phrase = format!("{} finished", job_name);
loop {
let msg = stderr_lines.next().unwrap();
if msg.contains(&phrase) {
break;
}
}
}
#[test]
#[ignore]
fn run_watch() {
let t = TempDir::new().expect("tempdir fail");
let file_to_watch = t.path().join("file_to_watch.js");
std::fs::write(&file_to_watch, "console.log('Hello world');")
.expect("error writing file");
let mut child = util::deno_cmd()
.current_dir(util::root_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()
.expect("failed to spawn script");
let stdout = child.stdout.as_mut().unwrap();
let mut stdout_lines =
std::io::BufReader::new(stdout).lines().map(|r| r.unwrap());
let stderr = child.stderr.as_mut().unwrap();
let mut stderr_lines =
std::io::BufReader::new(stderr).lines().map(|r| r.unwrap());
assert!(stdout_lines.next().unwrap().contains("Hello world"));
wait_for_process_finished("Process", &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
std::fs::write(&file_to_watch, "console.log('Hello world2');")
.expect("error writing file");
// 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!(stderr_lines.next().unwrap().contains("Restarting"));
assert!(stdout_lines.next().unwrap().contains("Hello world2"));
wait_for_process_finished("Process", &mut stderr_lines);
// Add dependency
let another_file = t.path().join("another_file.js");
std::fs::write(&another_file, "export const foo = 0;")
.expect("error writing file");
std::fs::write(
&file_to_watch,
"import { foo } from './another_file.js'; console.log(foo);",
)
.expect("error writing file");
std::thread::sleep(std::time::Duration::from_secs(1));
assert!(stderr_lines.next().unwrap().contains("Restarting"));
assert!(stdout_lines.next().unwrap().contains('0'));
wait_for_process_finished("Process", &mut stderr_lines);
// Confirm that restarting occurs when a new file is updated
std::fs::write(&another_file, "export const foo = 42;")
.expect("error writing file");
std::thread::sleep(std::time::Duration::from_secs(1));
assert!(stderr_lines.next().unwrap().contains("Restarting"));
assert!(stdout_lines.next().unwrap().contains("42"));
wait_for_process_finished("Process", &mut stderr_lines);
// Confirm that the watcher keeps on working even if the file is updated and has invalid syntax
std::fs::write(&file_to_watch, "syntax error ^^")
.expect("error writing file");
std::thread::sleep(std::time::Duration::from_secs(1));
assert!(stderr_lines.next().unwrap().contains("Restarting"));
assert!(stderr_lines.next().unwrap().contains("error:"));
wait_for_process_finished("Process", &mut stderr_lines);
// Then restore the file
std::fs::write(
&file_to_watch,
"import { foo } from './another_file.js'; console.log(foo);",
)
.expect("error writing file");
std::thread::sleep(std::time::Duration::from_secs(1));
assert!(stderr_lines.next().unwrap().contains("Restarting"));
assert!(stdout_lines.next().unwrap().contains("42"));
wait_for_process_finished("Process", &mut stderr_lines);
// the watcher process is still alive
assert!(child.try_wait().unwrap().is_none());
child.kill().unwrap();
drop(t);
}
/// Confirm that the watcher continues to work even if module resolution fails at the *first* attempt
#[test]
#[ignore]
fn run_watch_not_exit() {
let t = TempDir::new().expect("tempdir fail");
let file_to_watch = t.path().join("file_to_watch.js");
std::fs::write(&file_to_watch, "syntax error ^^")
.expect("error writing file");
let mut child = util::deno_cmd()
.current_dir(util::root_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()
.expect("failed to spawn script");
let stdout = child.stdout.as_mut().unwrap();
let mut stdout_lines =
std::io::BufReader::new(stdout).lines().map(|r| r.unwrap());
let stderr = child.stderr.as_mut().unwrap();
let mut stderr_lines =
std::io::BufReader::new(stderr).lines().map(|r| r.unwrap());
std::thread::sleep(std::time::Duration::from_secs(1));
assert!(stderr_lines.next().unwrap().contains("error:"));
assert!(stderr_lines.next().unwrap().contains("Process failed!"));
// Make sure the watcher actually restarts and works fine with the proper syntax
std::fs::write(&file_to_watch, "console.log(42);")
.expect("error writing file");
std::thread::sleep(std::time::Duration::from_secs(1));
assert!(stderr_lines.next().unwrap().contains("Restarting"));
assert!(stdout_lines.next().unwrap().contains("42"));
wait_for_process_finished("Process", &mut stderr_lines);
// the watcher process is still alive
assert!(child.try_wait().unwrap().is_none());
drop(t);
}
#[cfg(unix)]
#[test]
fn repl_test_pty_multiline() {
use std::io::Read;
use util::pty::fork::*;
let deno_exe = util::deno_exe_path();
let fork = Fork::from_ptmx().unwrap();
if let Ok(mut master) = fork.is_parent() {
master.write_all(b"(\n1 + 2\n)\n").unwrap();
master.write_all(b"{\nfoo: \"foo\"\n}\n").unwrap();
master.write_all(b"`\nfoo\n`\n").unwrap();
master.write_all(b"`\n\\`\n`\n").unwrap();
master.write_all(b"'{'\n").unwrap();
master.write_all(b"'('\n").unwrap();
master.write_all(b"'['\n").unwrap();
master.write_all(b"/{/'\n").unwrap();
master.write_all(b"/(/'\n").unwrap();
master.write_all(b"/[/'\n").unwrap();
master.write_all(b"console.log(\"{test1} abc {test2} def {{test3}}\".match(/{([^{].+?)}/));\n").unwrap();
master.write_all(b"close();\n").unwrap();
let mut output = String::new();
master.read_to_string(&mut output).unwrap();
assert!(output.contains('3'));
assert!(output.contains("{ foo: \"foo\" }"));
assert!(output.contains("\"\\nfoo\\n\""));
assert!(output.contains("\"\\n`\\n\""));
assert!(output.contains("\"{\""));
assert!(output.contains("\"(\""));
assert!(output.contains("\"[\""));
assert!(output.contains("/{/"));
assert!(output.contains("/(/"));
assert!(output.contains("/{/"));
assert!(output.contains("[ \"{test1}\", \"test1\" ]"));
fork.wait().unwrap();
} else {
std::env::set_var("NO_COLOR", "1");
let err = exec::Command::new(deno_exe).arg("repl").exec();
println!("err {}", err);
unreachable!()
}
}
#[cfg(unix)]
#[test]
fn repl_test_pty_unpaired_braces() {
use std::io::Read;
use util::pty::fork::*;
let deno_exe = util::deno_exe_path();
let fork = Fork::from_ptmx().unwrap();
if let Ok(mut master) = fork.is_parent() {
master.write_all(b")\n").unwrap();
master.write_all(b"]\n").unwrap();
master.write_all(b"}\n").unwrap();
master.write_all(b"close();\n").unwrap();
let mut output = String::new();
master.read_to_string(&mut output).unwrap();
assert!(output.contains("Unexpected token ')'"));
assert!(output.contains("Unexpected token ']'"));
assert!(output.contains("Unexpected token '}'"));
fork.wait().unwrap();
} else {
std::env::set_var("NO_COLOR", "1");
let err = exec::Command::new(deno_exe).arg("repl").exec();
println!("err {}", err);
unreachable!()
}
}
#[cfg(unix)]
#[test]
fn repl_test_pty_bad_input() {
use std::io::Read;
use util::pty::fork::*;
let deno_exe = util::deno_exe_path();
let fork = Fork::from_ptmx().unwrap();
if let Ok(mut master) = fork.is_parent() {
master.write_all(b"'\\u{1f3b5}'[0]\n").unwrap();
master.write_all(b"close();\n").unwrap();
let mut output = String::new();
master.read_to_string(&mut output).unwrap();
assert!(output.contains("Unterminated string literal"));
fork.wait().unwrap();
} else {
std::env::set_var("NO_COLOR", "1");
let err = exec::Command::new(deno_exe).arg("repl").exec();
println!("err {}", err);
unreachable!()
}
}
#[test]
#[ignore]
fn run_watch_with_importmap_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);
std::fs::write(&absolute_path, filecontent).expect("error writing file");
let relative_path = absolute_path
.strip_prefix(util::root_path())
.expect("unable to create relative temporary file")
.to_owned();
assert!(relative_path.is_relative());
relative_path
}
let temp_directory =
TempDir::new_in(util::root_path()).expect("tempdir fail");
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::root_path())
.arg("run")
.arg("--unstable")
.arg("--watch")
.arg("--importmap")
.arg(&import_map_path)
.arg(&file_to_watch)
.env("NO_COLOR", "1")
.stdout(std::process::Stdio::piped())
.stderr(std::process::Stdio::piped())
.spawn()
.expect("failed to spawn script");
let stdout = child.stdout.as_mut().unwrap();
let mut stdout_lines =
std::io::BufReader::new(stdout).lines().map(|r| r.unwrap());
let stderr = child.stderr.as_mut().unwrap();
let mut stderr_lines =
std::io::BufReader::new(stderr).lines().map(|r| r.unwrap());
assert!(stderr_lines.next().unwrap().contains("Process finished"));
assert!(stdout_lines.next().unwrap().contains("Hello world"));
child.kill().unwrap();
drop(file_to_watch);
drop(import_map_path);
temp_directory.close().unwrap();
}
#[test]
fn repl_test_console_log() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["console.log('hello')", "'world'"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(out.ends_with("hello\nundefined\n\"world\"\n"));
assert!(err.is_empty());
}
#[test]
fn repl_test_object_literal() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["{}", "{ foo: 'bar' }"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(out.ends_with("{}\n{ foo: \"bar\" }\n"));
assert!(err.is_empty());
}
#[test]
fn repl_test_block_expression() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["{};", "{\"\"}"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(out.ends_with("undefined\n\"\"\n"));
assert!(err.is_empty());
}
#[test]
fn repl_test_await_resolve() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["await Promise.resolve('done')"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(out.ends_with("\"done\"\n"));
assert!(err.is_empty());
}
#[test]
fn repl_test_await_timeout() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["await new Promise((r) => setTimeout(r, 0, 'done'))"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(out.ends_with("\"done\"\n"));
assert!(err.is_empty());
}
#[test]
fn repl_test_let_redeclaration() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["let foo = 0;", "foo", "let foo = 1;", "foo"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(out.ends_with("undefined\n0\nundefined\n1\n"));
assert!(err.is_empty());
}
#[test]
fn repl_cwd() {
let (_out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["Deno.cwd()"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(err.is_empty());
}
#[test]
fn repl_test_eof() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["1 + 2"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(out.ends_with("3\n"));
assert!(err.is_empty());
}
#[test]
fn repl_test_strict() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec![
"let a = {};",
"Object.preventExtensions(a);",
"a.c = 1;",
]),
None,
false,
);
assert!(out.contains(
"Uncaught TypeError: Cannot add property c, object is not extensible"
));
assert!(err.is_empty());
}
#[test]
fn repl_test_close_command() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["close()", "'ignored'"]),
None,
false,
);
assert!(!out.contains("ignored"));
assert!(err.is_empty());
}
#[test]
fn repl_test_function() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["Deno.writeFileSync"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(out.ends_with("[Function: writeFileSync]\n"));
assert!(err.is_empty());
}
#[test]
#[ignore]
fn repl_test_multiline() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["(\n1 + 2\n)"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(out.ends_with("3\n"));
assert!(err.is_empty());
}
#[test]
fn repl_test_import() {
let (out, _) = util::run_and_collect_output(
true,
"repl",
Some(vec!["import('./subdir/auto_print_hello.ts')"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(out.contains("hello!\n"));
}
#[test]
fn repl_test_eval_unterminated() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["eval('{')"]),
None,
false,
);
assert!(out.contains("Unexpected end of input"));
assert!(err.is_empty());
}
#[test]
fn repl_test_unpaired_braces() {
for right_brace in &[")", "]", "}"] {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec![right_brace]),
None,
false,
);
assert!(out.contains("Unexpected token"));
assert!(err.is_empty());
}
}
#[test]
fn repl_test_reference_error() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["not_a_variable"]),
None,
false,
);
assert!(out.contains("not_a_variable is not defined"));
assert!(err.is_empty());
}
#[test]
fn repl_test_syntax_error() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["syntax error"]),
None,
false,
);
assert!(out.contains("Unexpected identifier"));
assert!(err.is_empty());
}
#[test]
fn repl_test_type_error() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["console()"]),
None,
false,
);
assert!(out.contains("console is not a function"));
assert!(err.is_empty());
}
#[test]
fn repl_test_variable() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["var a = 123;", "a"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(out.ends_with("undefined\n123\n"));
assert!(err.is_empty());
}
#[test]
fn repl_test_lexical_scoped_variable() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["let a = 123;", "a"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(out.ends_with("undefined\n123\n"));
assert!(err.is_empty());
}
#[test]
fn repl_test_missing_deno_dir() {
use std::fs::{read_dir, remove_dir_all};
const DENO_DIR: &str = "nonexistent";
let test_deno_dir =
util::root_path().join("cli").join("tests").join(DENO_DIR);
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["1"]),
Some(vec![
("DENO_DIR".to_owned(), DENO_DIR.to_owned()),
("NO_COLOR".to_owned(), "1".to_owned()),
]),
false,
);
assert!(read_dir(&test_deno_dir).is_ok());
remove_dir_all(&test_deno_dir).unwrap();
assert!(out.ends_with("1\n"));
assert!(err.is_empty());
}
#[test]
fn repl_test_save_last_eval() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["1", "_"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(out.ends_with("1\n1\n"));
assert!(err.is_empty());
}
#[test]
fn repl_test_save_last_thrown() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["throw 1", "_error"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(out.ends_with("Uncaught 1\n1\n"));
assert!(err.is_empty());
}
#[test]
fn repl_test_assign_underscore() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["_ = 1", "2", "_"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
assert!(
out.ends_with("Last evaluation result is no longer saved to _.\n1\n2\n1\n")
);
assert!(err.is_empty());
}
#[test]
fn repl_test_assign_underscore_error() {
let (out, err) = util::run_and_collect_output(
true,
"repl",
Some(vec!["_error = 1", "throw 2", "_error"]),
Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]),
false,
);
println!("{}", out);
assert!(out.ends_with(
"Last thrown error is no longer saved to _error.\n1\nUncaught 2\n1\n"
));
assert!(err.is_empty());
}
#[test]
fn deno_test_no_color() {
let (out, _) = util::run_and_collect_output(
false,
"test deno_test_no_color.ts",
None,
Some(vec![("NO_COLOR".to_owned(), "true".to_owned())]),
false,
);
// ANSI escape codes should be stripped.
assert!(out.contains("test success ... ok"));
assert!(out.contains("test fail ... FAILED"));
assert!(out.contains("test ignored ... ignored"));
assert!(out.contains("test result: FAILED. 1 passed; 1 failed; 1 ignored; 0 measured; 0 filtered out"));
}
itest!(stdout_write_all {
args: "run --quiet stdout_write_all.ts",
output: "stdout_write_all.out",
});
itest!(_001_hello {
args: "run --reload 001_hello.js",
output: "001_hello.js.out",
});
itest!(_002_hello {
args: "run --quiet --reload 002_hello.ts",
output: "002_hello.ts.out",
});
itest!(_003_relative_import {
args: "run --quiet --reload 003_relative_import.ts",
output: "003_relative_import.ts.out",
});
itest!(_004_set_timeout {
args: "run --quiet --reload 004_set_timeout.ts",
output: "004_set_timeout.ts.out",
});
itest!(_005_more_imports {
args: "run --quiet --reload 005_more_imports.ts",
output: "005_more_imports.ts.out",
});
itest!(_006_url_imports {
args: "run --quiet --reload 006_url_imports.ts",
output: "006_url_imports.ts.out",
http_server: true,
});
itest!(_012_async {
args: "run --quiet --reload 012_async.ts",
output: "012_async.ts.out",
});
itest!(_013_dynamic_import {
args: "run --quiet --reload --allow-read 013_dynamic_import.ts",
output: "013_dynamic_import.ts.out",
});
itest!(_014_duplicate_import {
args: "run --quiet --reload --allow-read 014_duplicate_import.ts ",
output: "014_duplicate_import.ts.out",
});
itest!(_015_duplicate_parallel_import {
args: "run --quiet --reload --allow-read 015_duplicate_parallel_import.js",
output: "015_duplicate_parallel_import.js.out",
});
itest!(_016_double_await {
args: "run --quiet --allow-read --reload 016_double_await.ts",
output: "016_double_await.ts.out",
});
itest!(_017_import_redirect {
args: "run --quiet --reload 017_import_redirect.ts",
output: "017_import_redirect.ts.out",
});
itest!(_017_import_redirect_nocheck {
args: "run --quiet --reload --no-check 017_import_redirect.ts",
output: "017_import_redirect.ts.out",
});
itest!(_017_import_redirect_info {
args: "info --quiet --reload 017_import_redirect.ts",
output: "017_import_redirect_info.out",
});
itest!(_018_async_catch {
args: "run --quiet --reload 018_async_catch.ts",
output: "018_async_catch.ts.out",
});
itest!(_019_media_types {
args: "run --reload 019_media_types.ts",
output: "019_media_types.ts.out",
http_server: true,
});
itest!(_020_json_modules {
args: "run --reload 020_json_modules.ts",
output: "020_json_modules.ts.out",
exit_code: 1,
});
itest!(_021_mjs_modules {
args: "run --quiet --reload 021_mjs_modules.ts",
output: "021_mjs_modules.ts.out",
});
itest!(_022_info_flag_script {
args: "info http://127.0.0.1:4545/cli/tests/019_media_types.ts",
output: "022_info_flag_script.out",
http_server: true,
});
itest!(_023_no_ext {
args: "run --reload 023_no_ext",
output: "023_no_ext.out",
});
// TODO(lucacasonato): remove --unstable when permissions goes stable
itest!(_025_hrtime {
args: "run --quiet --allow-hrtime --unstable --reload 025_hrtime.ts",
output: "025_hrtime.ts.out",
});
itest!(_025_reload_js_type_error {
args: "run --quiet --reload 025_reload_js_type_error.js",
output: "025_reload_js_type_error.js.out",
});
itest!(_026_redirect_javascript {
args: "run --quiet --reload 026_redirect_javascript.js",
output: "026_redirect_javascript.js.out",
http_server: true,
});
itest!(deno_test {
args: "test test_runner_test.ts",
exit_code: 1,
output: "deno_test.out",
});
itest!(deno_test_fail_fast {
args: "test --fail-fast test_runner_test.ts",
exit_code: 1,
output: "deno_test_fail_fast.out",
});
itest!(deno_test_only {
args: "test deno_test_only.ts",
exit_code: 1,
output: "deno_test_only.ts.out",
});
itest!(deno_test_no_check {
args: "test --no-check test_runner_test.ts",
exit_code: 1,
output: "deno_test.out",
});
itest!(deno_test_unresolved_promise {
args: "test test_unresolved_promise.js",
exit_code: 1,
output: "deno_test_unresolved_promise.out",
});
#[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::tests_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 workers() {
let _g = util::http_server();
let status = util::deno_cmd()
.current_dir(util::tests_path())
.arg("test")
.arg("--reload")
.arg("--allow-net")
.arg("--allow-read")
.arg("--unstable")
.arg("workers_test.ts")
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
}
#[test]
fn compiler_api() {
let status = util::deno_cmd()
.current_dir(util::tests_path())
.arg("test")
.arg("--unstable")
.arg("--reload")
.arg("--allow-read")
.arg("compiler_api_test.ts")
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
}
itest!(_027_redirect_typescript {
args: "run --quiet --reload 027_redirect_typescript.ts",
output: "027_redirect_typescript.ts.out",
http_server: true,
});
itest!(_028_args {
args: "run --quiet --reload 028_args.ts --arg1 val1 --arg2=val2 -- arg3 arg4",
output: "028_args.ts.out",
});
itest!(_029_eval {
args: "eval console.log(\"hello\")",
output: "029_eval.out",
});
// Ugly parentheses due to whitespace delimiting problem.
itest!(_030_eval_ts {
args: "eval --quiet -T console.log((123)as(number))", // 'as' is a TS keyword only
output: "030_eval_ts.out",
});
itest!(_031_info_ts_error {
args: "info 031_info_ts_error.ts",
output: "031_info_ts_error.out",
});
itest!(_033_import_map {
args:
"run --quiet --reload --import-map=import_maps/import_map.json --unstable import_maps/test.ts",
output: "033_import_map.out",
});
itest!(_034_onload {
args: "run --quiet --reload 034_onload/main.ts",
output: "034_onload.out",
});
itest!(_035_cached_only_flag {
args:
"run --reload --cached-only http://127.0.0.1:4545/cli/tests/019_media_types.ts",
output: "035_cached_only_flag.out",
exit_code: 1,
http_server: true,
});
itest!(_036_import_map_fetch {
args:
"cache --quiet --reload --import-map=import_maps/import_map.json --unstable import_maps/test.ts",
output: "036_import_map_fetch.out",
});
itest!(_037_fetch_multiple {
args: "cache --reload fetch/test.ts fetch/other.ts",
http_server: true,
output: "037_fetch_multiple.out",
});
itest!(_038_checkjs {
// checking if JS file is run through TS compiler
args: "run --reload --config 038_checkjs.tsconfig.json 038_checkjs.js",
exit_code: 1,
output: "038_checkjs.js.out",
});
itest!(_041_dyn_import_eval {
args: "eval import('./subdir/mod4.js').then(console.log)",
output: "041_dyn_import_eval.out",
});
itest!(_041_info_flag {
args: "info",
output: "041_info_flag.out",
});
itest!(info_json {
args: "info --json --unstable",
output: "info_json.out",
});
itest!(_042_dyn_import_evalcontext {
args: "run --quiet --allow-read --reload 042_dyn_import_evalcontext.ts",
output: "042_dyn_import_evalcontext.ts.out",
});
itest!(_044_bad_resource {
args: "run --quiet --reload --allow-read 044_bad_resource.ts",
output: "044_bad_resource.ts.out",
exit_code: 1,
});
itest!(_045_proxy {
args: "run -L debug --allow-net --allow-env --allow-run --allow-read --reload --quiet 045_proxy_test.ts",
output: "045_proxy_test.ts.out",
http_server: true,
});
itest!(_046_tsx {
args: "run --quiet --reload 046_jsx_test.tsx",
output: "046_jsx_test.tsx.out",
});
itest!(_047_jsx {
args: "run --quiet --reload 047_jsx_test.jsx",
output: "047_jsx_test.jsx.out",
});
itest!(_048_media_types_jsx {
args: "run --reload 048_media_types_jsx.ts",
output: "048_media_types_jsx.ts.out",
http_server: true,
});
itest!(_049_info_flag_script_jsx {
args: "info http://127.0.0.1:4545/cli/tests/048_media_types_jsx.ts",
output: "049_info_flag_script_jsx.out",
http_server: true,
});
itest!(_052_no_remote_flag {
args:
"run --reload --no-remote http://127.0.0.1:4545/cli/tests/019_media_types.ts",
output: "052_no_remote_flag.out",
exit_code: 1,
http_server: true,
});
itest!(_054_info_local_imports {
args: "info --quiet 005_more_imports.ts",
output: "054_info_local_imports.out",
exit_code: 0,
});
itest!(_055_info_file_json {
args: "info --quiet --json --unstable 005_more_imports.ts",
output: "055_info_file_json.out",
exit_code: 0,
});
itest!(_056_make_temp_file_write_perm {
args:
"run --quiet --allow-read --allow-write=./subdir/ 056_make_temp_file_write_perm.ts",
output: "056_make_temp_file_write_perm.out",
});
itest!(_058_tasks_microtasks_close {
args: "run --quiet 058_tasks_microtasks_close.ts",
output: "058_tasks_microtasks_close.ts.out",
});
itest!(_059_fs_relative_path_perm {
args: "run 059_fs_relative_path_perm.ts",
output: "059_fs_relative_path_perm.ts.out",
exit_code: 1,
});
itest!(_060_deno_doc_displays_all_overloads_in_details_view {
args: "doc 060_deno_doc_displays_all_overloads_in_details_view.ts NS.test",
output: "060_deno_doc_displays_all_overloads_in_details_view.ts.out",
});
#[cfg(unix)]
#[test]
fn _061_permissions_request() {
let args = "run --unstable 061_permissions_request.ts";
let output = "061_permissions_request.ts.out";
let input = b"g\nd\n";
util::test_pty(args, output, input);
}
#[cfg(unix)]
#[test]
fn _062_permissions_request_global() {
let args = "run --unstable 062_permissions_request_global.ts";
let output = "062_permissions_request_global.ts.out";
let input = b"g\n";
util::test_pty(args, output, input);
}
itest!(_063_permissions_revoke {
args: "run --unstable --allow-read=foo,bar 063_permissions_revoke.ts",
output: "063_permissions_revoke.ts.out",
});
itest!(_064_permissions_revoke_global {
args: "run --unstable --allow-read=foo,bar 064_permissions_revoke_global.ts",
output: "064_permissions_revoke_global.ts.out",
});
itest!(_065_import_map_info {
args:
"info --quiet --import-map=import_maps/import_map.json --unstable import_maps/test.ts",
output: "065_import_map_info.out",
});
#[cfg(unix)]
#[test]
fn _066_prompt() {
let args = "run --unstable 066_prompt.ts";
let output = "066_prompt.ts.out";
// These are answers to prompt, confirm, and alert calls.
let input = b"John Doe\n\nfoo\nY\nN\nyes\n\nwindows\r\n\n\n";
util::test_pty(args, output, input);
}
itest!(_067_test_no_run_type_error {
args: "test --unstable --no-run test_type_error",
output: "067_test_no_run_type_error.out",
exit_code: 1,
});
itest!(_073_worker_error {
args: "run -A 073_worker_error.ts",
output: "073_worker_error.ts.out",
exit_code: 1,
});
itest!(_074_worker_nested_error {
args: "run -A 074_worker_nested_error.ts",
output: "074_worker_nested_error.ts.out",
exit_code: 1,
});
itest!(_075_import_local_query_hash {
args: "run 075_import_local_query_hash.ts",
output: "075_import_local_query_hash.ts.out",
});
itest!(_076_info_json_deps_order {
args: "info --unstable --json 076_info_json_deps_order.ts",
output: "076_info_json_deps_order.out",
});
itest!(js_import_detect {
args: "run --quiet --reload js_import_detect.ts",
output: "js_import_detect.ts.out",
exit_code: 0,
});
itest!(lock_write_requires_lock {
args: "run --lock-write some_file.ts",
output: "lock_write_requires_lock.out",
exit_code: 1,
});
itest!(lock_write_fetch {
args:
"run --quiet --allow-read --allow-write --allow-env --allow-run lock_write_fetch.ts",
output: "lock_write_fetch.ts.out",
exit_code: 0,
});
itest!(lock_check_ok {
args: "run --lock=lock_check_ok.json http://127.0.0.1:4545/cli/tests/003_relative_import.ts",
output: "003_relative_import.ts.out",
http_server: true,
});
itest!(lock_check_ok2 {
args: "run --lock=lock_check_ok2.json 019_media_types.ts",
output: "019_media_types.ts.out",
http_server: true,
});
itest!(lock_dynamic_imports {
args: "run --lock=lock_dynamic_imports.json --allow-read --allow-net http://127.0.0.1:4545/cli/tests/013_dynamic_import.ts",
output: "lock_dynamic_imports.out",
exit_code: 10,
http_server: true,
});
itest!(lock_check_err {
args: "run --lock=lock_check_err.json http://127.0.0.1:4545/cli/tests/003_relative_import.ts",
output: "lock_check_err.out",
exit_code: 10,
http_server: true,
});
itest!(lock_check_err2 {
args: "run --lock=lock_check_err2.json 019_media_types.ts",
output: "lock_check_err2.out",
exit_code: 10,
http_server: true,
});
itest!(lock_check_err_with_bundle {
args: "bundle --lock=lock_check_err_with_bundle.json http://127.0.0.1:4545/cli/tests/subdir/mod1.ts",
output: "lock_check_err_with_bundle.out",
exit_code: 10,
http_server: true,
});
itest!(async_error {
exit_code: 1,
args: "run --reload async_error.ts",
output: "async_error.ts.out",
});
itest!(bundle {
args: "bundle subdir/mod1.ts",
output: "bundle.test.out",
});
itest!(fmt_check_tests_dir {
args: "fmt --check ./",
output: "fmt/expected_fmt_check_tests_dir.out",
exit_code: 1,
});
itest!(fmt_quiet_check_fmt_dir {
args: "fmt --check --quiet fmt/",
output_str: Some(""),
exit_code: 0,
});
itest!(fmt_check_formatted_files {
args: "fmt --check fmt/formatted1.js fmt/formatted2.ts",
output: "fmt/expected_fmt_check_formatted_files.out",
exit_code: 0,
});
itest!(fmt_check_ignore {
args: "fmt --check --ignore=fmt/formatted1.js fmt/",
output: "fmt/expected_fmt_check_ignore.out",
exit_code: 0,
});
itest!(fmt_stdin {
args: "fmt -",
input: Some("const a = 1\n"),
output_str: Some("const a = 1;\n"),
});
itest!(fmt_stdin_check_formatted {
args: "fmt --check -",
input: Some("const a = 1;\n"),
output_str: Some(""),
});
itest!(fmt_stdin_check_not_formatted {
args: "fmt --check -",
input: Some("const a = 1\n"),
output_str: Some("Not formatted stdin\n"),
});
itest!(config {
args: "run --reload --config config.tsconfig.json config.ts",
exit_code: 1,
output: "config.ts.out",
});
itest!(emtpy_typescript {
args: "run --reload subdir/empty.ts",
output_str: Some("Check file:[WILDCARD]tests/subdir/empty.ts\n"),
});
itest!(error_001 {
args: "run --reload error_001.ts",
exit_code: 1,
output: "error_001.ts.out",
});
itest!(error_002 {
args: "run --reload error_002.ts",
exit_code: 1,
output: "error_002.ts.out",
});
itest!(error_003_typescript {
args: "run --reload error_003_typescript.ts",
exit_code: 1,
output: "error_003_typescript.ts.out",
});
// Supposing that we've already attempted to run error_003_typescript.ts
// we want to make sure that JS wasn't emitted. Running again without reload flag
// should result in the same output.
// https://github.com/denoland/deno/issues/2436
itest!(error_003_typescript2 {
args: "run error_003_typescript.ts",
exit_code: 1,
output: "error_003_typescript.ts.out",
});
itest!(error_004_missing_module {
args: "run --reload error_004_missing_module.ts",
exit_code: 1,
output: "error_004_missing_module.ts.out",
});
itest!(error_005_missing_dynamic_import {
args: "run --reload --allow-read --quiet error_005_missing_dynamic_import.ts",
exit_code: 1,
output: "error_005_missing_dynamic_import.ts.out",
});
itest!(error_006_import_ext_failure {
args: "run --reload error_006_import_ext_failure.ts",
exit_code: 1,
output: "error_006_import_ext_failure.ts.out",
});
itest!(error_007_any {
args: "run --reload error_007_any.ts",
exit_code: 1,
output: "error_007_any.ts.out",
});
itest!(error_008_checkjs {
args: "run --reload error_008_checkjs.js",
exit_code: 1,
output: "error_008_checkjs.js.out",
});
itest!(error_009_op_crates_error {
args: "run error_009_op_crates_error.js",
output: "error_009_op_crates_error.js.out",
exit_code: 1,
});
itest!(error_011_bad_module_specifier {
args: "run --reload error_011_bad_module_specifier.ts",
exit_code: 1,
output: "error_011_bad_module_specifier.ts.out",
});
itest!(error_012_bad_dynamic_import_specifier {
args: "run --reload error_012_bad_dynamic_import_specifier.ts",
exit_code: 1,
output: "error_012_bad_dynamic_import_specifier.ts.out",
});
itest!(error_013_missing_script {
args: "run --reload missing_file_name",
exit_code: 1,
output: "error_013_missing_script.out",
});
itest!(error_014_catch_dynamic_import_error {
args: "run --reload --allow-read error_014_catch_dynamic_import_error.js",
output: "error_014_catch_dynamic_import_error.js.out",
});
itest!(error_015_dynamic_import_permissions {
args: "run --reload --quiet error_015_dynamic_import_permissions.js",
output: "error_015_dynamic_import_permissions.out",
exit_code: 1,
http_server: true,
});
// We have an allow-net flag but not allow-read, it should still result in error.
itest!(error_016_dynamic_import_permissions2 {
args: "run --reload --allow-net error_016_dynamic_import_permissions2.js",
output: "error_016_dynamic_import_permissions2.out",
exit_code: 1,
http_server: true,
});
itest!(error_017_hide_long_source_ts {
args: "run --reload error_017_hide_long_source_ts.ts",
output: "error_017_hide_long_source_ts.ts.out",
exit_code: 1,
});
itest!(error_018_hide_long_source_js {
args: "run error_018_hide_long_source_js.js",
output: "error_018_hide_long_source_js.js.out",
exit_code: 1,
});
itest!(error_019_stack_function {
args: "run error_019_stack_function.ts",
output: "error_019_stack_function.ts.out",
exit_code: 1,
});
itest!(error_020_stack_constructor {
args: "run error_020_stack_constructor.ts",
output: "error_020_stack_constructor.ts.out",
exit_code: 1,
});
itest!(error_021_stack_method {
args: "run error_021_stack_method.ts",
output: "error_021_stack_method.ts.out",
exit_code: 1,
});
itest!(error_022_stack_custom_error {
args: "run error_022_stack_custom_error.ts",
output: "error_022_stack_custom_error.ts.out",
exit_code: 1,
});
itest!(error_023_stack_async {
args: "run error_023_stack_async.ts",
output: "error_023_stack_async.ts.out",
exit_code: 1,
});
itest!(error_024_stack_promise_all {
args: "run error_024_stack_promise_all.ts",
output: "error_024_stack_promise_all.ts.out",
exit_code: 1,
});
itest!(error_025_tab_indent {
args: "run error_025_tab_indent",
output: "error_025_tab_indent.out",
exit_code: 1,
});
itest!(error_no_check {
args: "run --reload --no-check error_no_check.ts",
output: "error_no_check.ts.out",
exit_code: 1,
});
itest!(error_syntax {
args: "run --reload error_syntax.js",
exit_code: 1,
output: "error_syntax.js.out",
});
itest!(error_syntax_empty_trailing_line {
args: "run --reload error_syntax_empty_trailing_line.mjs",
exit_code: 1,
output: "error_syntax_empty_trailing_line.mjs.out",
});
itest!(error_type_definitions {
args: "run --reload error_type_definitions.ts",
exit_code: 1,
output: "error_type_definitions.ts.out",
});
itest!(error_local_static_import_from_remote_ts {
args: "run --reload http://localhost:4545/cli/tests/error_local_static_import_from_remote.ts",
exit_code: 1,
http_server: true,
output: "error_local_static_import_from_remote.ts.out",
});
itest!(error_local_static_import_from_remote_js {
args: "run --reload http://localhost:4545/cli/tests/error_local_static_import_from_remote.js",
exit_code: 1,
http_server: true,
output: "error_local_static_import_from_remote.js.out",
});
itest!(error_worker_permissions_local {
args: "run --reload error_worker_permissions_local.ts",
output: "error_worker_permissions_local.ts.out",
exit_code: 1,
});
itest!(error_worker_permissions_remote {
args: "run --reload error_worker_permissions_remote.ts",
http_server: true,
output: "error_worker_permissions_remote.ts.out",
exit_code: 1,
});
itest!(exit_error42 {
exit_code: 42,
args: "run --quiet --reload exit_error42.ts",
output: "exit_error42.ts.out",
});
itest!(https_import {
args: "run --quiet --reload --cert tls/RootCA.pem https_import.ts",
output: "https_import.ts.out",
http_server: true,
});
itest!(if_main {
args: "run --quiet --reload if_main.ts",
output: "if_main.ts.out",
});
itest!(import_meta {
args: "run --quiet --reload import_meta.ts",
output: "import_meta.ts.out",
});
itest!(main_module {
args: "run --quiet --allow-read --reload main_module.ts",
output: "main_module.ts.out",
});
itest!(no_check {
args: "run --quiet --reload --no-check 006_url_imports.ts",
output: "006_url_imports.ts.out",
http_server: true,
});
itest!(no_check_decorators {
args: "run --quiet --reload --no-check no_check_decorators.ts",
output: "no_check_decorators.ts.out",
});
itest!(runtime_decorators {
args: "run --quiet --reload --no-check runtime_decorators.ts",
output: "runtime_decorators.ts.out",
});
itest!(lib_ref {
args: "run --quiet --unstable --reload lib_ref.ts",
output: "lib_ref.ts.out",
});
itest!(lib_runtime_api {
args: "run --quiet --unstable --reload lib_runtime_api.ts",
output: "lib_runtime_api.ts.out",
});
itest!(seed_random {
args: "run --seed=100 seed_random.js",
output: "seed_random.js.out",
});
itest!(type_definitions {
args: "run --reload type_definitions.ts",
output: "type_definitions.ts.out",
});
itest!(type_definitions_for_export {
args: "run --reload type_definitions_for_export.ts",
output: "type_definitions_for_export.ts.out",
exit_code: 1,
});
itest!(type_directives_01 {
args: "run --reload -L debug type_directives_01.ts",
output: "type_directives_01.ts.out",
http_server: true,
});
itest!(type_directives_02 {
args: "run --reload -L debug type_directives_02.ts",
output: "type_directives_02.ts.out",
});
itest!(type_directives_js_main {
args: "run --reload -L debug type_directives_js_main.js",
output: "type_directives_js_main.js.out",
exit_code: 0,
});
itest!(type_directives_redirect {
args: "run --reload type_directives_redirect.ts",
output: "type_directives_redirect.ts.out",
http_server: true,
});
itest!(type_headers_deno_types {
args: "run --reload type_headers_deno_types.ts",
output: "type_headers_deno_types.ts.out",
http_server: true,
});
itest!(ts_type_imports {
args: "run --reload ts_type_imports.ts",
output: "ts_type_imports.ts.out",
exit_code: 1,
});
itest!(ts_decorators {
args: "run --reload -c tsconfig.decorators.json ts_decorators.ts",
output: "ts_decorators.ts.out",
});
itest!(ts_decorators_bundle {
args: "bundle ts_decorators_bundle.ts",
output: "ts_decorators_bundle.out",
});
itest!(ts_type_only_import {
args: "run --reload ts_type_only_import.ts",
output: "ts_type_only_import.ts.out",
});
itest!(swc_syntax_error {
args: "run --reload swc_syntax_error.ts",
output: "swc_syntax_error.ts.out",
exit_code: 1,
});
itest!(types {
args: "types",
output: "types.out",
});
itest!(unbuffered_stderr {
args: "run --reload unbuffered_stderr.ts",
output: "unbuffered_stderr.ts.out",
});
itest!(unbuffered_stdout {
args: "run --quiet --reload unbuffered_stdout.ts",
output: "unbuffered_stdout.ts.out",
});
// Cannot write the expression to evaluate as "console.log(typeof gc)"
// because itest! splits args on whitespace.
itest!(v8_flags_eval {
args: "eval --v8-flags=--expose-gc console.log(typeof(gc))",
output: "v8_flags.js.out",
});
itest!(v8_flags_run {
args: "run --v8-flags=--expose-gc v8_flags.js",
output: "v8_flags.js.out",
});
itest!(v8_flags_unrecognized {
args: "repl --v8-flags=--foo,bar,--trace-gc,-baz",
output: "v8_flags_unrecognized.out",
exit_code: 1,
});
itest!(v8_help {
args: "repl --v8-flags=--help",
output: "v8_help.out",
});
itest!(unsupported_dynamic_import_scheme {
args: "eval import('xxx:')",
output: "unsupported_dynamic_import_scheme.out",
exit_code: 1,
});
itest!(wasm {
args: "run --quiet wasm.ts",
output: "wasm.ts.out",
});
itest!(wasm_async {
args: "run wasm_async.js",
output: "wasm_async.out",
});
itest!(wasm_streaming {
args: "run wasm_streaming.js",
output: "wasm_streaming.out",
});
itest!(wasm_unreachable {
args: "run wasm_unreachable.js",
output: "wasm_unreachable.out",
exit_code: 1,
});
itest!(weakref {
args: "run --quiet --reload weakref.ts",
output: "weakref.ts.out",
});
itest!(top_level_await_order {
args: "run --allow-read top_level_await_order.js",
output: "top_level_await_order.out",
});
itest!(top_level_await_loop {
args: "run --allow-read top_level_await_loop.js",
output: "top_level_await_loop.out",
});
itest!(top_level_await_circular {
args: "run --allow-read top_level_await_circular.js",
output: "top_level_await_circular.out",
exit_code: 1,
});
itest!(top_level_await_unresolved {
args: "run top_level_await_unresolved.js",
output: "top_level_await_unresolved.out",
exit_code: 1,
});
itest!(top_level_await {
args: "run --allow-read top_level_await.js",
output: "top_level_await.out",
});
itest!(top_level_await_ts {
args: "run --quiet --allow-read top_level_await.ts",
output: "top_level_await.out",
});
itest!(top_level_for_await {
args: "run --quiet top_level_for_await.js",
output: "top_level_for_await.out",
});
itest!(top_level_for_await_ts {
args: "run --quiet top_level_for_await.ts",
output: "top_level_for_await.out",
});
itest!(unstable_disabled {
args: "run --reload unstable.ts",
exit_code: 1,
output: "unstable_disabled.out",
});
itest!(unstable_enabled {
args: "run --quiet --reload --unstable unstable.ts",
output: "unstable_enabled.out",
});
itest!(unstable_disabled_js {
args: "run --reload unstable.js",
output: "unstable_disabled_js.out",
});
itest!(unstable_enabled_js {
args: "run --quiet --reload --unstable unstable.ts",
output: "unstable_enabled_js.out",
});
itest!(unstable_disabled_ts2551 {
args: "run --reload unstable_ts2551.ts",
exit_code: 1,
output: "unstable_disabled_ts2551.out",
});
itest!(unstable_worker {
args: "run --reload --unstable --quiet --allow-read unstable_worker.ts",
output: "unstable_worker.ts.out",
});
itest!(_053_import_compression {
args: "run --quiet --reload --allow-net 053_import_compression/main.ts",
output: "053_import_compression.out",
http_server: true,
});
itest!(cache_extensionless {
args: "cache --reload http://localhost:4545/cli/tests/subdir/no_js_ext",
output: "cache_extensionless.out",
http_server: true,
});
itest!(cache_random_extension {
args: "cache --reload http://localhost:4545/cli/tests/subdir/no_js_ext@1.0.0",
output: "cache_random_extension.out",
http_server: true,
});
itest!(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!(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!(cafile_eval {
args: "eval --cert tls/RootCA.pem fetch('https://localhost:5545/cli/tests/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!(cafile_info {
args:
"info --quiet --cert tls/RootCA.pem https://localhost:5545/cli/tests/cafile_info.ts",
output: "cafile_info.ts.out",
http_server: true,
});
itest!(disallow_http_from_https_js {
args: "run --quiet --reload --cert tls/RootCA.pem https://localhost:5545/cli/tests/disallow_http_from_https.js",
output: "disallow_http_from_https_js.out",
http_server: true,
exit_code: 1,
});
itest!(disallow_http_from_https_ts {
args: "run --quiet --reload --cert tls/RootCA.pem https://localhost:5545/cli/tests/disallow_http_from_https.ts",
output: "disallow_http_from_https_ts.out",
http_server: true,
exit_code: 1,
});
itest!(dynamic_import_conditional {
args: "run --quiet --reload dynamic_import_conditional.js",
output: "dynamic_import_conditional.js.out",
});
itest!(tsx_imports {
args: "run --reload tsx_imports.ts",
output: "tsx_imports.ts.out",
});
itest!(fix_dynamic_import_errors {
args: "run --reload fix_dynamic_import_errors.js",
output: "fix_dynamic_import_errors.js.out",
});
itest!(fix_emittable_skipped {
args: "run --reload fix_emittable_skipped.js",
output: "fix_emittable_skipped.ts.out",
});
itest!(fix_exotic_specifiers {
args: "run --quiet --reload fix_exotic_specifiers.ts",
output: "fix_exotic_specifiers.ts.out",
});
itest!(fix_js_import_js {
args: "run --quiet --reload fix_js_import_js.ts",
output: "fix_js_import_js.ts.out",
});
itest!(fix_js_imports {
args: "run --quiet --reload fix_js_imports.ts",
output: "fix_js_imports.ts.out",
});
itest!(fix_tsc_file_exists {
args: "run --quiet --reload tsc/test.js",
output: "fix_tsc_file_exists.out",
});
itest!(es_private_fields {
args: "run --quiet --reload es_private_fields.js",
output: "es_private_fields.js.out",
});
itest!(cjs_imports {
args: "run --quiet --reload cjs_imports.ts",
output: "cjs_imports.ts.out",
});
itest!(ts_import_from_js {
args: "run --quiet --reload ts_import_from_js.js",
output: "ts_import_from_js.js.out",
http_server: true,
});
itest!(jsx_import_from_ts {
args: "run --quiet --reload jsx_import_from_ts.ts",
output: "jsx_import_from_ts.ts.out",
});
itest!(single_compile_with_reload {
args: "run --reload --allow-read single_compile_with_reload.ts",
output: "single_compile_with_reload.ts.out",
});
itest!(performance_stats {
args: "cache --reload --log-level debug 002_hello.ts",
output: "performance_stats.out",
});
itest!(proto_exploit {
args: "run proto_exploit.js",
output: "proto_exploit.js.out",
});
itest!(redirect_cache {
http_server: true,
args: "cache --reload http://localhost:4548/cli/tests/subdir/redirects/a.ts",
output: "redirect_cache.out",
});
itest!(deno_test_coverage {
args: "test --coverage --unstable test_coverage.ts",
output: "test_coverage.out",
exit_code: 0,
});
itest!(deno_test_branch_coverage {
args: "test --coverage --unstable test_branch_coverage.ts",
output: "test_branch_coverage.out",
exit_code: 0,
});
itest!(deno_test_coverage_explicit {
args: "test --coverage=.test_coverage --unstable test_coverage.ts",
output: "test_coverage.out",
exit_code: 0,
});
itest!(deno_test_run_test_coverage {
args: "test --allow-all --coverage --unstable test_run_test_coverage.ts",
output: "test_run_test_coverage.out",
exit_code: 0,
});
itest!(deno_test_run_run_coverage {
args: "test --allow-all --coverage --unstable test_run_run_coverage.ts",
output: "test_run_run_coverage.out",
exit_code: 0,
});
itest!(deno_test_run_combined_coverage {
args: "test --allow-all --coverage --unstable test_run_run_coverage.ts test_run_test_coverage.ts",
output: "test_run_combined_coverage.out",
exit_code: 0,
});
itest!(deno_lint {
args: "lint --unstable lint/file1.js lint/file2.ts lint/ignored_file.ts",
output: "lint/expected.out",
exit_code: 1,
});
itest!(deno_lint_quiet {
args: "lint --unstable --quiet lint/file1.js",
output: "lint/expected_quiet.out",
exit_code: 1,
});
itest!(deno_lint_json {
args:
"lint --unstable --json lint/file1.js lint/file2.ts lint/ignored_file.ts lint/malformed.js",
output: "lint/expected_json.out",
exit_code: 1,
});
itest!(deno_lint_ignore {
args: "lint --unstable --ignore=lint/file1.js,lint/malformed.js lint/",
output: "lint/expected_ignore.out",
exit_code: 1,
});
itest!(deno_lint_glob {
args: "lint --unstable --ignore=lint/malformed.js lint/",
output: "lint/expected_glob.out",
exit_code: 1,
});
itest!(deno_lint_from_stdin {
args: "lint --unstable -",
input: Some("let a: any;"),
output: "lint/expected_from_stdin.out",
exit_code: 1,
});
itest!(deno_lint_from_stdin_json {
args: "lint --unstable --json -",
input: Some("let a: any;"),
output: "lint/expected_from_stdin_json.out",
exit_code: 1,
});
itest!(deno_lint_rules {
args: "lint --unstable --rules",
output: "lint/expected_rules.out",
exit_code: 0,
});
// Make sure that the rules are printed if quiet option is enabled.
itest!(deno_lint_rules_quiet {
args: "lint --unstable --rules -q",
output: "lint/expected_rules.out",
exit_code: 0,
});
itest!(deno_doc_builtin {
args: "doc",
output: "deno_doc_builtin.out",
});
itest!(deno_doc {
args: "doc deno_doc.ts",
output: "deno_doc.out",
});
itest!(deno_doc_import_map {
args: "doc --unstable --import-map=doc/import_map.json doc/use_import_map.js",
output: "doc/use_import_map.out",
});
itest!(import_data_url_error_stack {
args: "run --quiet --reload import_data_url_error_stack.ts",
output: "import_data_url_error_stack.ts.out",
exit_code: 1,
});
itest!(import_data_url_import_relative {
args: "run --quiet --reload import_data_url_import_relative.ts",
output: "import_data_url_import_relative.ts.out",
exit_code: 1,
});
itest!(import_data_url_imports {
args: "run --quiet --reload import_data_url_imports.ts",
output: "import_data_url_imports.ts.out",
http_server: true,
});
itest!(import_data_url_jsx {
args: "run --quiet --reload import_data_url_jsx.ts",
output: "import_data_url_jsx.ts.out",
});
itest!(import_data_url {
args: "run --quiet --reload import_data_url.ts",
output: "import_data_url.ts.out",
});
itest!(import_dynamic_data_url {
args: "run --quiet --reload import_dynamic_data_url.ts",
output: "import_dynamic_data_url.ts.out",
});
itest!(import_file_with_colon {
args: "run --quiet --reload import_file_with_colon.ts",
output: "import_file_with_colon.ts.out",
http_server: true,
});
itest!(info_missing_module {
args: "info error_009_missing_js_module.js",
output: "info_missing_module.out",
exit_code: 1,
});
itest!(info_recursive_modules {
args: "info --quiet info_recursive_imports_test.ts",
output: "info_recursive_imports_test.out",
exit_code: 0,
});
itest!(info_type_import {
args: "info info_type_import.ts",
output: "info_type_import.out",
});
itest!(ignore_require {
args: "cache --reload --no-check ignore_require.js",
output_str: Some(""),
exit_code: 0,
});
itest!(local_sources_not_cached_in_memory {
args: "run --allow-read --allow-write no_mem_cache.js",
output: "no_mem_cache.js.out",
});
// This test checks that inline source map data is used. It uses a hand crafted
// source map that maps to a file that exists, but is not loaded into the module
// graph (inline_js_source_map_2.ts) (because there are no direct dependencies).
// Source line is not remapped because no inline source contents are included in
// the sourcemap and the file is not present in the dependency graph.
itest!(inline_js_source_map_2 {
args: "run --quiet inline_js_source_map_2.js",
output: "inline_js_source_map_2.js.out",
exit_code: 1,
});
// This test checks that inline source map data is used. It uses a hand crafted
// source map that maps to a file that exists, but is not loaded into the module
// graph (inline_js_source_map_2.ts) (because there are no direct dependencies).
// Source line remapped using th inline source contents that are included in the
// inline source map.
itest!(inline_js_source_map_2_with_inline_contents {
args: "run --quiet inline_js_source_map_2_with_inline_contents.js",
output: "inline_js_source_map_2_with_inline_contents.js.out",
exit_code: 1,
});
// This test checks that inline source map data is used. It uses a hand crafted
// source map that maps to a file that exists, and is loaded into the module
// graph because of a direct import statement (inline_js_source_map.ts). The
// source map was generated from an earlier version of this file, where the throw
// was not commented out. The source line is remapped using source contents that
// from the module graph.
itest!(inline_js_source_map_with_contents_from_graph {
args: "run --quiet inline_js_source_map_with_contents_from_graph.js",
output: "inline_js_source_map_with_contents_from_graph.js.out",
exit_code: 1,
http_server: true,
});
#[test]
fn no_validate_asm() {
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("cli/tests/no_validate_asm.js")
.stderr(std::process::Stdio::piped())
.stdout(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
assert!(output.stderr.is_empty());
assert!(output.stdout.is_empty());
}
#[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/cli/tests/cafile_url_imports.ts")
.unwrap();
let cafile = util::root_path().join("cli/tests/tls/RootCA.pem");
let output = Command::new(util::deno_exe_path())
.env("DENO_DIR", deno_dir.path())
.env("DENO_CERT", cafile)
.current_dir(util::root_path())
.arg("cache")
.arg(module_url.to_string())
.output()
.expect("Failed to spawn script");
assert!(output.status.success());
}
#[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/cli/tests/cafile_url_imports.ts")
.unwrap();
let cafile = util::root_path().join("cli/tests/tls/RootCA.pem");
let output = Command::new(util::deno_exe_path())
.env("DENO_DIR", deno_dir.path())
.current_dir(util::root_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, "");
}
#[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::root_path().join("cli/tests/tls/RootCA.pem");
let install_output = Command::new(util::deno_exe_path())
.env("DENO_DIR", deno_dir.path())
.current_dir(util::root_path())
.arg("install")
.arg("--cert")
.arg(cafile)
.arg("--root")
.arg(temp_dir.path())
.arg("-n")
.arg("echo_test")
.arg("https://localhost:5545/cli/tests/echo.ts")
.output()
.expect("Failed to spawn script");
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"));
}
#[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/cli/tests/subdir/mod1.ts";
let cafile = util::root_path().join("cli/tests/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::root_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::root_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 test_permissions_with_allow() {
for permission in &util::PERMISSION_VARIANTS {
let status = util::deno_cmd()
.current_dir(&util::tests_path())
.arg("run")
.arg(format!("--allow-{0}", permission))
.arg("permission_test.ts")
.arg(format!("{0}Required", permission))
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
}
}
#[test]
fn test_permissions_without_allow() {
for permission in &util::PERMISSION_VARIANTS {
let (_, err) = util::run_and_collect_output(
false,
&format!("run permission_test.ts {0}Required", permission),
None,
None,
false,
);
assert!(err.contains(util::PERMISSION_DENIED_PATTERN));
}
}
#[test]
fn test_permissions_rw_inside_project_dir() {
const PERMISSION_VARIANTS: [&str; 2] = ["read", "write"];
for permission in &PERMISSION_VARIANTS {
let status = util::deno_cmd()
.current_dir(&util::tests_path())
.arg("run")
.arg(format!(
"--allow-{0}={1}",
permission,
util::root_path().into_os_string().into_string().unwrap()
))
.arg("complex_permissions_test.ts")
.arg(permission)
.arg("complex_permissions_test.ts")
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
}
}
#[test]
fn test_permissions_rw_outside_test_dir() {
const PERMISSION_VARIANTS: [&str; 2] = ["read", "write"];
for permission in &PERMISSION_VARIANTS {
let (_, err) = util::run_and_collect_output(
false,
&format!(
"run --allow-{0}={1} complex_permissions_test.ts {0} {2}",
permission,
util::root_path()
.join("cli")
.join("tests")
.into_os_string()
.into_string()
.unwrap(),
util::root_path()
.join("Cargo.toml")
.into_os_string()
.into_string()
.unwrap(),
),
None,
None,
false,
);
assert!(err.contains(util::PERMISSION_DENIED_PATTERN));
}
}
#[test]
fn test_permissions_rw_inside_test_dir() {
const PERMISSION_VARIANTS: [&str; 2] = ["read", "write"];
for permission in &PERMISSION_VARIANTS {
let status = util::deno_cmd()
.current_dir(&util::tests_path())
.arg("run")
.arg(format!(
"--allow-{0}={1}",
permission,
util::root_path()
.join("cli")
.join("tests")
.into_os_string()
.into_string()
.unwrap()
))
.arg("complex_permissions_test.ts")
.arg(permission)
.arg("complex_permissions_test.ts")
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
}
}
#[test]
fn test_permissions_rw_outside_test_and_js_dir() {
const PERMISSION_VARIANTS: [&str; 2] = ["read", "write"];
let test_dir = util::root_path()
.join("cli")
.join("tests")
.into_os_string()
.into_string()
.unwrap();
let js_dir = util::root_path()
.join("js")
.into_os_string()
.into_string()
.unwrap();
for permission in &PERMISSION_VARIANTS {
let (_, err) = util::run_and_collect_output(
false,
&format!(
"run --allow-{0}={1},{2} complex_permissions_test.ts {0} {3}",
permission,
test_dir,
js_dir,
util::root_path()
.join("Cargo.toml")
.into_os_string()
.into_string()
.unwrap(),
),
None,
None,
false,
);
assert!(err.contains(util::PERMISSION_DENIED_PATTERN));
}
}
#[test]
fn test_permissions_rw_inside_test_and_js_dir() {
const PERMISSION_VARIANTS: [&str; 2] = ["read", "write"];
let test_dir = util::root_path()
.join("cli")
.join("tests")
.into_os_string()
.into_string()
.unwrap();
let js_dir = util::root_path()
.join("js")
.into_os_string()
.into_string()
.unwrap();
for permission in &PERMISSION_VARIANTS {
let status = util::deno_cmd()
.current_dir(&util::tests_path())
.arg("run")
.arg(format!("--allow-{0}={1},{2}", permission, test_dir, js_dir))
.arg("complex_permissions_test.ts")
.arg(permission)
.arg("complex_permissions_test.ts")
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
}
}
#[test]
fn test_permissions_rw_relative() {
const PERMISSION_VARIANTS: [&str; 2] = ["read", "write"];
for permission in &PERMISSION_VARIANTS {
let status = util::deno_cmd()
.current_dir(&util::tests_path())
.arg("run")
.arg(format!("--allow-{0}=.", permission))
.arg("complex_permissions_test.ts")
.arg(permission)
.arg("complex_permissions_test.ts")
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
}
}
#[test]
fn test_permissions_rw_no_prefix() {
const PERMISSION_VARIANTS: [&str; 2] = ["read", "write"];
for permission in &PERMISSION_VARIANTS {
let status = util::deno_cmd()
.current_dir(&util::tests_path())
.arg("run")
.arg(format!("--allow-{0}=tls/../", permission))
.arg("complex_permissions_test.ts")
.arg(permission)
.arg("complex_permissions_test.ts")
.spawn()
.unwrap()
.wait()
.unwrap();
assert!(status.success());
}
}
#[test]
fn test_permissions_net_fetch_allow_localhost_4545() {
let (_, err) = util::run_and_collect_output(
true,
"run --allow-net=localhost:4545 complex_permissions_test.ts netFetch http://localhost:4545/",
None,
None,
true,
);
assert!(!err.contains(util::PERMISSION_DENIED_PATTERN));
}
#[test]
fn test_permissions_net_fetch_allow_deno_land() {
let (_, err) = util::run_and_collect_output(
false,
"run --allow-net=deno.land complex_permissions_test.ts netFetch http://localhost:4545/",
None,
None,
true,
);
assert!(err.contains(util::PERMISSION_DENIED_PATTERN));
}
#[test]
fn test_permissions_net_fetch_localhost_4545_fail() {
let (_, err) = util::run_and_collect_output(
false,
"run --allow-net=localhost:4545 complex_permissions_test.ts netFetch http://localhost:4546/",
None,
None,
true,
);
assert!(err.contains(util::PERMISSION_DENIED_PATTERN));
}
#[test]
fn test_permissions_net_fetch_localhost() {
let (_, err) = util::run_and_collect_output(
true,
"run --allow-net=localhost complex_permissions_test.ts netFetch http://localhost:4545/ http://localhost:4546/ http://localhost:4547/",
None,
None,
true,
);
assert!(!err.contains(util::PERMISSION_DENIED_PATTERN));
}
#[test]
fn test_permissions_net_connect_allow_localhost_ip_4555() {
let (_, err) = util::run_and_collect_output(
true,
"run --allow-net=127.0.0.1:4545 complex_permissions_test.ts netConnect 127.0.0.1:4545",
None,
None,
true,
);
assert!(!err.contains(util::PERMISSION_DENIED_PATTERN));
}
#[test]
fn test_permissions_net_connect_allow_deno_land() {
let (_, err) = util::run_and_collect_output(
false,
"run --allow-net=deno.land complex_permissions_test.ts netConnect 127.0.0.1:4546",
None,
None,
true,
);
assert!(err.contains(util::PERMISSION_DENIED_PATTERN));
}
#[test]
fn test_permissions_net_connect_allow_localhost_ip_4545_fail() {
let (_, err) = util::run_and_collect_output(
false,
"run --allow-net=127.0.0.1:4545 complex_permissions_test.ts netConnect 127.0.0.1:4546",
None,
None,
true,
);
assert!(err.contains(util::PERMISSION_DENIED_PATTERN));
}
#[test]
fn test_permissions_net_connect_allow_localhost_ip() {
let (_, err) = util::run_and_collect_output(
true,
"run --allow-net=127.0.0.1 complex_permissions_test.ts netConnect 127.0.0.1:4545 127.0.0.1:4546 127.0.0.1:4547",
None,
None,
true,
);
assert!(!err.contains(util::PERMISSION_DENIED_PATTERN));
}
#[test]
fn test_permissions_net_listen_allow_localhost_4555() {
let (_, err) = util::run_and_collect_output(
true,
"run --allow-net=localhost:4558 complex_permissions_test.ts netListen localhost:4558",
None,
None,
false,
);
assert!(!err.contains(util::PERMISSION_DENIED_PATTERN));
}
#[test]
fn test_permissions_net_listen_allow_deno_land() {
let (_, err) = util::run_and_collect_output(
false,
"run --allow-net=deno.land complex_permissions_test.ts netListen localhost:4545",
None,
None,
false,
);
assert!(err.contains(util::PERMISSION_DENIED_PATTERN));
}
#[test]
fn test_permissions_net_listen_allow_localhost_4555_fail() {
let (_, err) = util::run_and_collect_output(
false,
"run --allow-net=localhost:4555 complex_permissions_test.ts netListen localhost:4556",
None,
None,
false,
);
assert!(err.contains(util::PERMISSION_DENIED_PATTERN));
}
#[test]
fn test_permissions_net_listen_allow_localhost() {
// Port 4600 is chosen to not colide with those used by
// target/debug/test_server
let (_, err) = util::run_and_collect_output(
true,
"run --allow-net=localhost complex_permissions_test.ts netListen localhost:4600",
None,
None,
false,
);
assert!(!err.contains(util::PERMISSION_DENIED_PATTERN));
}
fn inspect_flag_with_unique_port(flag_prefix: &str) -> String {
use std::sync::atomic::{AtomicU16, Ordering};
static PORT: AtomicU16 = AtomicU16::new(9229);
let port = PORT.fetch_add(1, Ordering::Relaxed);
format!("{}=127.0.0.1:{}", flag_prefix, port)
}
fn extract_ws_url_from_stderr(
stderr_lines: &mut impl std::iter::Iterator<Item = String>,
) -> url::Url {
let stderr_first_line = stderr_lines.next().unwrap();
assert!(stderr_first_line.starts_with("Debugger listening on "));
let v: Vec<_> = stderr_first_line.match_indices("ws:").collect();
assert_eq!(v.len(), 1);
let ws_url_index = v[0].0;
let ws_url = &stderr_first_line[ws_url_index..];
url::Url::parse(ws_url).unwrap()
}
#[tokio::test]
async fn inspector_connect() {
let script = util::tests_path().join("inspector1.js");
let mut child = util::deno_cmd()
.arg("run")
.arg(inspect_flag_with_unique_port("--inspect"))
.arg(script)
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap();
let stderr = child.stderr.as_mut().unwrap();
let mut stderr_lines =
std::io::BufReader::new(stderr).lines().map(|r| r.unwrap());
let ws_url = extract_ws_url_from_stderr(&mut stderr_lines);
// We use tokio_tungstenite as a websocket client because warp (which is
// a dependency of Deno) uses it.
let (_socket, response) = tokio_tungstenite::connect_async(ws_url)
.await
.expect("Can't connect");
assert_eq!("101 Switching Protocols", response.status().to_string());
child.kill().unwrap();
child.wait().unwrap();
}
enum TestStep {
StdOut(&'static str),
StdErr(&'static str),
WsRecv(&'static str),
WsSend(&'static str),
}
#[tokio::test]
async fn inspector_break_on_first_line() {
let script = util::tests_path().join("inspector2.js");
let mut child = util::deno_cmd()
.arg("run")
.arg(inspect_flag_with_unique_port("--inspect-brk"))
.arg(script)
.stdout(std::process::Stdio::piped())
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap();
let stderr = child.stderr.as_mut().unwrap();
let mut stderr_lines =
std::io::BufReader::new(stderr).lines().map(|r| r.unwrap());
let ws_url = extract_ws_url_from_stderr(&mut stderr_lines);
let (socket, response) = tokio_tungstenite::connect_async(ws_url)
.await
.expect("Can't connect");
assert_eq!(response.status(), 101); // Switching protocols.
let (mut socket_tx, socket_rx) = socket.split();
let mut socket_rx =
socket_rx.map(|msg| msg.unwrap().to_string()).filter(|msg| {
let pass = !msg.starts_with(r#"{"method":"Debugger.scriptParsed","#);
futures::future::ready(pass)
});
let stdout = child.stdout.as_mut().unwrap();
let mut stdout_lines =
std::io::BufReader::new(stdout).lines().map(|r| r.unwrap());
use TestStep::*;
let test_steps = vec![
WsSend(r#"{"id":1,"method":"Runtime.enable"}"#),
WsSend(r#"{"id":2,"method":"Debugger.enable"}"#),
WsRecv(
r#"{"method":"Runtime.executionContextCreated","params":{"context":{"id":1,"#,
),
WsRecv(r#"{"id":1,"result":{}}"#),
WsRecv(r#"{"id":2,"result":{"debuggerId":"#),
WsSend(r#"{"id":3,"method":"Runtime.runIfWaitingForDebugger"}"#),
WsRecv(r#"{"id":3,"result":{}}"#),
WsRecv(r#"{"method":"Debugger.paused","#),
WsSend(
r#"{"id":4,"method":"Runtime.evaluate","params":{"expression":"Deno.core.print(\"hello from the inspector\\n\")","contextId":1,"includeCommandLineAPI":true,"silent":false,"returnByValue":true}}"#,
),
WsRecv(r#"{"id":4,"result":{"result":{"type":"undefined"}}}"#),
StdOut("hello from the inspector"),
WsSend(r#"{"id":5,"method":"Debugger.resume"}"#),
WsRecv(r#"{"id":5,"result":{}}"#),
StdOut("hello from the script"),
];
for step in test_steps {
match step {
StdOut(s) => assert_eq!(&stdout_lines.next().unwrap(), s),
WsRecv(s) => assert!(socket_rx.next().await.unwrap().starts_with(s)),
WsSend(s) => socket_tx.send(s.into()).await.unwrap(),
_ => unreachable!(),
}
}
child.kill().unwrap();
child.wait().unwrap();
}
#[tokio::test]
async fn inspector_pause() {
let script = util::tests_path().join("inspector1.js");
let mut child = util::deno_cmd()
.arg("run")
.arg(inspect_flag_with_unique_port("--inspect"))
.arg(script)
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap();
let stderr = child.stderr.as_mut().unwrap();
let mut stderr_lines =
std::io::BufReader::new(stderr).lines().map(|r| r.unwrap());
let ws_url = extract_ws_url_from_stderr(&mut stderr_lines);
// We use tokio_tungstenite as a websocket client because warp (which is
// a dependency of Deno) uses it.
let (mut socket, _) = tokio_tungstenite::connect_async(ws_url)
.await
.expect("Can't connect");
/// Returns the next websocket message as a string ignoring
/// Debugger.scriptParsed messages.
async fn ws_read_msg(
socket: &mut tokio_tungstenite::WebSocketStream<tokio::net::TcpStream>,
) -> String {
use deno_core::futures::stream::StreamExt;
while let Some(msg) = socket.next().await {
let msg = msg.unwrap().to_string();
// FIXME(bartlomieju): fails because there's a file loaded
// called 150_errors.js
// assert!(!msg.contains("error"));
if !msg.contains("Debugger.scriptParsed") {
return msg;
}
}
unreachable!()
}
socket
.send(r#"{"id":6,"method":"Debugger.enable"}"#.into())
.await
.unwrap();
let msg = ws_read_msg(&mut socket).await;
println!("response msg 1 {}", msg);
assert!(msg.starts_with(r#"{"id":6,"result":{"debuggerId":"#));
socket
.send(r#"{"id":31,"method":"Debugger.pause"}"#.into())
.await
.unwrap();
let msg = ws_read_msg(&mut socket).await;
println!("response msg 2 {}", msg);
assert_eq!(msg, r#"{"id":31,"result":{}}"#);
child.kill().unwrap();
}
#[tokio::test]
async fn inspector_port_collision() {
// Skip this test on WSL, which allows multiple processes to listen on the
// same port, rather than making `bind()` fail with `EADDRINUSE`.
if cfg!(target_os = "linux") && std::env::var_os("WSL_DISTRO_NAME").is_some()
{
return;
}
let script = util::tests_path().join("inspector1.js");
let inspect_flag = inspect_flag_with_unique_port("--inspect");
let mut child1 = util::deno_cmd()
.arg("run")
.arg(&inspect_flag)
.arg(script.clone())
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap();
let stderr_1 = child1.stderr.as_mut().unwrap();
let mut stderr_1_lines = std::io::BufReader::new(stderr_1)
.lines()
.map(|r| r.unwrap());
let _ = extract_ws_url_from_stderr(&mut stderr_1_lines);
let mut child2 = util::deno_cmd()
.arg("run")
.arg(&inspect_flag)
.arg(script)
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap();
let stderr_2 = child2.stderr.as_mut().unwrap();
let stderr_2_error_message = std::io::BufReader::new(stderr_2)
.lines()
.map(|r| r.unwrap())
.inspect(|line| assert!(!line.contains("Debugger listening")))
.find(|line| line.contains("Cannot start inspector server"));
assert!(stderr_2_error_message.is_some());
child1.kill().unwrap();
child1.wait().unwrap();
child2.wait().unwrap();
}
#[tokio::test]
async fn inspector_does_not_hang() {
let script = util::tests_path().join("inspector3.js");
let mut child = util::deno_cmd()
.arg("run")
.arg(inspect_flag_with_unique_port("--inspect-brk"))
.env("NO_COLOR", "1")
.arg(script)
.stdout(std::process::Stdio::piped())
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap();
let stderr = child.stderr.as_mut().unwrap();
let mut stderr_lines =
std::io::BufReader::new(stderr).lines().map(|r| r.unwrap());
let ws_url = extract_ws_url_from_stderr(&mut stderr_lines);
let (socket, response) = tokio_tungstenite::connect_async(ws_url)
.await
.expect("Can't connect");
assert_eq!(response.status(), 101); // Switching protocols.
let (mut socket_tx, socket_rx) = socket.split();
let mut socket_rx =
socket_rx.map(|msg| msg.unwrap().to_string()).filter(|msg| {
let pass = !msg.starts_with(r#"{"method":"Debugger.scriptParsed","#);
futures::future::ready(pass)
});
let stdout = child.stdout.as_mut().unwrap();
let mut stdout_lines =
std::io::BufReader::new(stdout).lines().map(|r| r.unwrap());
use TestStep::*;
let test_steps = vec![
WsSend(r#"{"id":1,"method":"Runtime.enable"}"#),
WsSend(r#"{"id":2,"method":"Debugger.enable"}"#),
WsRecv(
r#"{"method":"Runtime.executionContextCreated","params":{"context":{"id":1,"#,
),
WsRecv(r#"{"id":1,"result":{}}"#),
WsRecv(r#"{"id":2,"result":{"debuggerId":"#),
WsSend(r#"{"id":3,"method":"Runtime.runIfWaitingForDebugger"}"#),
WsRecv(r#"{"id":3,"result":{}}"#),
WsRecv(r#"{"method":"Debugger.paused","#),
WsSend(r#"{"id":4,"method":"Debugger.resume"}"#),
WsRecv(r#"{"id":4,"result":{}}"#),
WsRecv(r#"{"method":"Debugger.resumed","params":{}}"#),
];
for step in test_steps {
match step {
WsRecv(s) => assert!(socket_rx.next().await.unwrap().starts_with(s)),
WsSend(s) => socket_tx.send(s.into()).await.unwrap(),
_ => unreachable!(),
}
}
for i in 0..128u32 {
let request_id = i + 10;
// Expect the number {i} on stdout.
let s = i.to_string();
assert_eq!(stdout_lines.next().unwrap(), s);
// Expect hitting the `debugger` statement.
let s = r#"{"method":"Debugger.paused","#;
assert!(socket_rx.next().await.unwrap().starts_with(s));
// Send the 'Debugger.resume' request.
let s = format!(r#"{{"id":{},"method":"Debugger.resume"}}"#, request_id);
socket_tx.send(s.into()).await.unwrap();
// Expect confirmation of the 'Debugger.resume' request.
let s = format!(r#"{{"id":{},"result":{{}}}}"#, request_id);
assert_eq!(socket_rx.next().await.unwrap(), s);
let s = r#"{"method":"Debugger.resumed","params":{}}"#;
assert_eq!(socket_rx.next().await.unwrap(), s);
}
// Check that we can gracefully close the websocket connection.
socket_tx.close().await.unwrap();
socket_rx.for_each(|_| async {}).await;
assert_eq!(&stdout_lines.next().unwrap(), "done");
assert!(child.wait().unwrap().success());
}
#[tokio::test]
async fn inspector_without_brk_runs_code() {
let script = util::tests_path().join("inspector4.js");
let mut child = util::deno_cmd()
.arg("run")
.arg(inspect_flag_with_unique_port("--inspect"))
.arg(script)
.stdout(std::process::Stdio::piped())
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap();
let stderr = child.stderr.as_mut().unwrap();
let mut stderr_lines =
std::io::BufReader::new(stderr).lines().map(|r| r.unwrap());
let _ = extract_ws_url_from_stderr(&mut stderr_lines);
// Check that inspector actually runs code without waiting for inspector
// connection.
let stdout = child.stdout.as_mut().unwrap();
let mut stdout_lines =
std::io::BufReader::new(stdout).lines().map(|r| r.unwrap());
let stdout_first_line = stdout_lines.next().unwrap();
assert_eq!(stdout_first_line, "hello");
child.kill().unwrap();
child.wait().unwrap();
}
#[tokio::test]
async fn inspector_runtime_evaluate_does_not_crash() {
let mut child = util::deno_cmd()
.arg("repl")
.arg(inspect_flag_with_unique_port("--inspect"))
.stdin(std::process::Stdio::piped())
.stdout(std::process::Stdio::piped())
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap();
let stderr = child.stderr.as_mut().unwrap();
let mut stderr_lines = std::io::BufReader::new(stderr)
.lines()
.map(|r| r.unwrap())
.filter(|s| s.as_str() != "Debugger session started.");
let ws_url = extract_ws_url_from_stderr(&mut stderr_lines);
let (socket, response) = tokio_tungstenite::connect_async(ws_url)
.await
.expect("Can't connect");
assert_eq!(response.status(), 101); // Switching protocols.
let (mut socket_tx, socket_rx) = socket.split();
let mut socket_rx =
socket_rx.map(|msg| msg.unwrap().to_string()).filter(|msg| {
let pass = !msg.starts_with(r#"{"method":"Debugger.scriptParsed","#);
futures::future::ready(pass)
});
let stdin = child.stdin.take().unwrap();
let stdout = child.stdout.as_mut().unwrap();
let mut stdout_lines = std::io::BufReader::new(stdout)
.lines()
.map(|r| r.unwrap())
.filter(|s| !s.starts_with("Deno "));
use TestStep::*;
let test_steps = vec![
WsSend(r#"{"id":1,"method":"Runtime.enable"}"#),
WsSend(r#"{"id":2,"method":"Debugger.enable"}"#),
WsRecv(
r#"{"method":"Runtime.executionContextCreated","params":{"context":{"id":1,"#,
),
WsRecv(r#"{"id":1,"result":{}}"#),
WsRecv(r#"{"id":2,"result":{"debuggerId":"#),
WsSend(r#"{"id":3,"method":"Runtime.runIfWaitingForDebugger"}"#),
WsRecv(r#"{"id":3,"result":{}}"#),
StdOut("exit using ctrl+d or close()"),
WsSend(
r#"{"id":4,"method":"Runtime.compileScript","params":{"expression":"Deno.cwd()","sourceURL":"","persistScript":false,"executionContextId":1}}"#,
),
WsRecv(r#"{"id":4,"result":{}}"#),
WsSend(
r#"{"id":5,"method":"Runtime.evaluate","params":{"expression":"Deno.cwd()","objectGroup":"console","includeCommandLineAPI":true,"silent":false,"contextId":1,"returnByValue":true,"generatePreview":true,"userGesture":true,"awaitPromise":false,"replMode":true}}"#,
),
WsRecv(r#"{"id":5,"result":{"result":{"type":"string","value":""#),
WsSend(
r#"{"id":6,"method":"Runtime.evaluate","params":{"expression":"console.error('done');","objectGroup":"console","includeCommandLineAPI":true,"silent":false,"contextId":1,"returnByValue":true,"generatePreview":true,"userGesture":true,"awaitPromise":false,"replMode":true}}"#,
),
WsRecv(r#"{"id":6,"result":{"result":{"type":"undefined"}}}"#),
StdErr("done"),
];
for step in test_steps {
match step {
StdOut(s) => assert_eq!(&stdout_lines.next().unwrap(), s),
StdErr(s) => assert_eq!(&stderr_lines.next().unwrap(), s),
WsRecv(s) => assert!(socket_rx.next().await.unwrap().starts_with(s)),
WsSend(s) => socket_tx.send(s.into()).await.unwrap(),
}
}
drop(stdin);
child.wait().unwrap();
}
#[tokio::test]
async fn inspector_json() {
let script = util::tests_path().join("inspector1.js");
let mut child = util::deno_cmd()
.arg("run")
.arg(inspect_flag_with_unique_port("--inspect"))
.arg(script)
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap();
let stderr = child.stderr.as_mut().unwrap();
let mut stderr_lines =
std::io::BufReader::new(stderr).lines().map(|r| r.unwrap());
let ws_url = extract_ws_url_from_stderr(&mut stderr_lines);
let mut url = ws_url.clone();
let _ = url.set_scheme("http");
url.set_path("/json");
let resp = reqwest::get(url).await.unwrap();
assert_eq!(resp.status(), reqwest::StatusCode::OK);
let endpoint_list: Vec<deno_core::serde_json::Value> =
serde_json::from_str(&resp.text().await.unwrap()).unwrap();
let matching_endpoint = endpoint_list
.iter()
.find(|e| e["webSocketDebuggerUrl"] == ws_url.as_str());
assert!(matching_endpoint.is_some());
child.kill().unwrap();
}
#[tokio::test]
async fn inspector_json_list() {
let script = util::tests_path().join("inspector1.js");
let mut child = util::deno_cmd()
.arg("run")
.arg(inspect_flag_with_unique_port("--inspect"))
.arg(script)
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap();
let stderr = child.stderr.as_mut().unwrap();
let mut stderr_lines =
std::io::BufReader::new(stderr).lines().map(|r| r.unwrap());
let ws_url = extract_ws_url_from_stderr(&mut stderr_lines);
let mut url = ws_url.clone();
let _ = url.set_scheme("http");
url.set_path("/json/list");
let resp = reqwest::get(url).await.unwrap();
assert_eq!(resp.status(), reqwest::StatusCode::OK);
let endpoint_list: Vec<deno_core::serde_json::Value> =
serde_json::from_str(&resp.text().await.unwrap()).unwrap();
let matching_endpoint = endpoint_list
.iter()
.find(|e| e["webSocketDebuggerUrl"] == ws_url.as_str());
assert!(matching_endpoint.is_some());
child.kill().unwrap();
}
#[test]
fn websocket() {
let _g = util::http_server();
let script = util::tests_path().join("websocket_test.ts");
let root_ca = util::tests_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 exec_path() {
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("--allow-read")
.arg("cli/tests/exec_path.ts")
.stdout(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();
let actual =
std::fs::canonicalize(&std::path::Path::new(stdout_str)).unwrap();
let expected = std::fs::canonicalize(util::deno_exe_path()).unwrap();
assert_eq!(expected, actual);
}
#[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"));
}
#[cfg(windows)]
// Clippy suggests to remove the `NoStd` prefix from all variants. I disagree.
#[allow(clippy::enum_variant_names)]
enum WinProcConstraints {
NoStdIn,
NoStdOut,
NoStdErr,
}
#[cfg(windows)]
fn run_deno_script_constrained(
script_path: std::path::PathBuf,
constraints: WinProcConstraints,
) -> Result<(), i64> {
let file_path = "cli/tests/DenoWinRunner.ps1";
let constraints = match constraints {
WinProcConstraints::NoStdIn => "1",
WinProcConstraints::NoStdOut => "2",
WinProcConstraints::NoStdErr => "4",
};
let deno_exe_path = util::deno_exe_path()
.into_os_string()
.into_string()
.unwrap();
let deno_script_path = script_path.into_os_string().into_string().unwrap();
let args = vec![&deno_exe_path[..], &deno_script_path[..], constraints];
util::run_powershell_script_file(file_path, args)
}
#[cfg(windows)]
#[test]
fn should_not_panic_on_no_stdin() {
let output = run_deno_script_constrained(
util::tests_path().join("echo.ts"),
WinProcConstraints::NoStdIn,
);
output.unwrap();
}
#[cfg(windows)]
#[test]
fn should_not_panic_on_no_stdout() {
let output = run_deno_script_constrained(
util::tests_path().join("echo.ts"),
WinProcConstraints::NoStdOut,
);
output.unwrap();
}
#[cfg(windows)]
#[test]
fn should_not_panic_on_no_stderr() {
let output = run_deno_script_constrained(
util::tests_path().join("echo.ts"),
WinProcConstraints::NoStdErr,
);
output.unwrap();
}
#[cfg(not(windows))]
#[test]
fn should_not_panic_on_undefined_home_environment_variable() {
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("cli/tests/echo.ts")
.env_remove("HOME")
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
}
#[test]
fn should_not_panic_on_undefined_deno_dir_environment_variable() {
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("cli/tests/echo.ts")
.env_remove("DENO_DIR")
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
}
#[cfg(not(windows))]
#[test]
fn should_not_panic_on_undefined_deno_dir_and_home_environment_variables() {
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("cli/tests/echo.ts")
.env_remove("DENO_DIR")
.env_remove("HOME")
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
}
#[test]
fn rust_log() {
// Without RUST_LOG the stderr is empty.
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("cli/tests/001_hello.js")
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
assert!(output.stderr.is_empty());
// With RUST_LOG the stderr is not empty.
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("run")
.arg("cli/tests/001_hello.js")
.env("RUST_LOG", "debug")
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
assert!(!output.stderr.is_empty());
}
#[test]
fn lint_ignore_unexplicit_files() {
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("lint")
.arg("--unstable")
.arg("--ignore=./")
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
assert_eq!(output.stderr, b"Checked 0 file\n");
}
#[test]
fn fmt_ignore_unexplicit_files() {
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("fmt")
.arg("--check")
.arg("--ignore=./")
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
assert_eq!(output.stderr, b"Checked 0 file\n");
}
#[test]
fn compile() {
let dir = TempDir::new().expect("tempdir fail");
let exe = if cfg!(windows) {
dir.path().join("welcome.exe")
} else {
dir.path().join("welcome")
};
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("compile")
.arg("--unstable")
.arg("--output")
.arg(&exe)
.arg("./std/examples/welcome.ts")
.stdout(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
let output = Command::new(exe)
.stdout(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
assert_eq!(output.stdout, "Welcome to Deno!\n".as_bytes());
}
#[test]
fn standalone_args() {
let dir = TempDir::new().expect("tempdir fail");
let exe = if cfg!(windows) {
dir.path().join("args.exe")
} else {
dir.path().join("args")
};
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("compile")
.arg("--unstable")
.arg("--output")
.arg(&exe)
.arg("./cli/tests/028_args.ts")
.arg("a")
.arg("b")
.stdout(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
let output = Command::new(exe)
.arg("foo")
.arg("--bar")
.arg("--unstable")
.stdout(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
assert_eq!(output.stdout, b"a\nb\nfoo\n--bar\n--unstable\n");
}
#[test]
fn standalone_error() {
let dir = TempDir::new().expect("tempdir fail");
let exe = if cfg!(windows) {
dir.path().join("error.exe")
} else {
dir.path().join("error")
};
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("compile")
.arg("--unstable")
.arg("--output")
.arg(&exe)
.arg("./cli/tests/standalone_error.ts")
.stdout(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
let output = Command::new(exe)
.env("NO_COLOR", "1")
.stdout(std::process::Stdio::piped())
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(!output.status.success());
assert_eq!(output.stdout, b"");
let expected_stderr = "error: Error: boom!\n at boom (file://$deno$/bundle.js:2:11)\n at foo (file://$deno$/bundle.js:5:5)\n at file://$deno$/bundle.js:7:1\n";
let stderr = String::from_utf8(output.stderr).unwrap();
assert_eq!(stderr, expected_stderr);
}
#[test]
fn standalone_no_module_load() {
let dir = TempDir::new().expect("tempdir fail");
let exe = if cfg!(windows) {
dir.path().join("hello.exe")
} else {
dir.path().join("hello")
};
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("compile")
.arg("--unstable")
.arg("--output")
.arg(&exe)
.arg("./cli/tests/standalone_import.ts")
.stdout(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
let output = Command::new(exe)
.stdout(std::process::Stdio::piped())
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(!output.status.success());
assert_eq!(output.stdout, b"start\n");
let stderr_str = String::from_utf8(output.stderr).unwrap();
assert!(util::strip_ansi_codes(&stderr_str)
.contains("Self-contained binaries don't support module loading"));
}
#[test]
fn compile_with_directory_exists_error() {
let dir = TempDir::new().expect("tempdir fail");
let exe = if cfg!(windows) {
dir.path().join("args.exe")
} else {
dir.path().join("args")
};
std::fs::create_dir(&exe).expect("cannot create directory");
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("compile")
.arg("--unstable")
.arg("--output")
.arg(&exe)
.arg("./cli/tests/028_args.ts")
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(!output.status.success());
let expected_stderr =
format!("Could not compile: {:?} is a directory.\n", &exe);
let stderr = String::from_utf8(output.stderr).unwrap();
assert!(stderr.contains(&expected_stderr));
}
#[test]
fn compile_with_conflict_file_exists_error() {
let dir = TempDir::new().expect("tempdir fail");
let exe = if cfg!(windows) {
dir.path().join("args.exe")
} else {
dir.path().join("args")
};
std::fs::write(&exe, b"SHOULD NOT BE OVERWRITTEN")
.expect("cannot create file");
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("compile")
.arg("--unstable")
.arg("--output")
.arg(&exe)
.arg("./cli/tests/028_args.ts")
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(!output.status.success());
let expected_stderr =
format!("Could not compile: cannot overwrite {:?}.\n", &exe);
let stderr = String::from_utf8(output.stderr).unwrap();
dbg!(&stderr);
assert!(stderr.contains(&expected_stderr));
assert!(std::fs::read(&exe)
.expect("cannot read file")
.eq(b"SHOULD NOT BE OVERWRITTEN"));
}
#[test]
fn compile_and_overwrite_file() {
let dir = TempDir::new().expect("tempdir fail");
let exe = if cfg!(windows) {
dir.path().join("args.exe")
} else {
dir.path().join("args")
};
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("compile")
.arg("--unstable")
.arg("--output")
.arg(&exe)
.arg("./cli/tests/028_args.ts")
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
assert!(&exe.exists());
let recompile_output = util::deno_cmd()
.current_dir(util::root_path())
.arg("compile")
.arg("--unstable")
.arg("--output")
.arg(&exe)
.arg("./cli/tests/028_args.ts")
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(recompile_output.status.success());
}
#[test]
fn standalone_runtime_flags() {
let dir = TempDir::new().expect("tempdir fail");
let exe = if cfg!(windows) {
dir.path().join("flags.exe")
} else {
dir.path().join("flags")
};
let output = util::deno_cmd()
.current_dir(util::root_path())
.arg("compile")
.arg("--unstable")
.arg("--allow-read")
.arg("--seed")
.arg("1")
.arg("--output")
.arg(&exe)
.arg("./cli/tests/standalone_runtime_flags.ts")
.stdout(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(output.status.success());
let output = Command::new(exe)
.stdout(std::process::Stdio::piped())
.stderr(std::process::Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap();
assert!(!output.status.success());
let stdout_str = String::from_utf8(output.stdout).unwrap();
assert_eq!(util::strip_ansi_codes(&stdout_str), "0.147205063401058\n");
let stderr_str = String::from_utf8(output.stderr).unwrap();
assert!(util::strip_ansi_codes(&stderr_str)
.contains("PermissionDenied: write access"));
}
fn concat_bundle(
files: Vec<(PathBuf, String)>,
bundle_path: &Path,
init: String,
) -> String {
let bundle_url = url::Url::from_file_path(bundle_path).unwrap().to_string();
let mut bundle = init.clone();
let mut bundle_line_count = init.lines().count() as u32;
let mut source_map = sourcemap::SourceMapBuilder::new(Some(&bundle_url));
for (path, text) in files {
let path = std::fs::canonicalize(path).unwrap();
let url = url::Url::from_file_path(path).unwrap().to_string();
let src_id = source_map.add_source(&url);
source_map.set_source_contents(src_id, Some(&text));
for (line_index, line) in text.lines().enumerate() {
bundle.push_str(line);
bundle.push('\n');
source_map.add_raw(
bundle_line_count,
0,
line_index as u32,
0,
Some(src_id),
None,
);
bundle_line_count += 1;
}
bundle.push('\n');
bundle_line_count += 1;
}
let mut source_map_buf: Vec<u8> = vec![];
source_map
.into_sourcemap()
.to_writer(&mut source_map_buf)
.unwrap();
bundle.push_str("//# sourceMappingURL=data:application/json;base64,");
let encoded_map = base64::encode(source_map_buf);
bundle.push_str(&encoded_map);
bundle
}
// TODO(lucacasonato): DRY with tsc_config.rs
/// Convert a jsonc libraries `JsonValue` to a serde `Value`.
fn jsonc_to_serde(j: jsonc_parser::JsonValue) -> serde_json::Value {
use jsonc_parser::JsonValue;
use serde_json::Value;
use std::str::FromStr;
match j {
JsonValue::Array(arr) => {
let vec = arr.into_iter().map(jsonc_to_serde).collect();
Value::Array(vec)
}
JsonValue::Boolean(bool) => Value::Bool(bool),
JsonValue::Null => Value::Null,
JsonValue::Number(num) => {
let number =
serde_json::Number::from_str(&num).expect("could not parse number");
Value::Number(number)
}
JsonValue::Object(obj) => {
let mut map = serde_json::map::Map::new();
for (key, json_value) in obj.into_iter() {
map.insert(key, jsonc_to_serde(json_value));
}
Value::Object(map)
}
JsonValue::String(str) => Value::String(str),
}
}
#[test]
fn web_platform_tests() {
use deno_core::serde::Deserialize;
#[derive(Deserialize)]
#[serde(untagged)]
enum WptConfig {
Simple(String),
#[serde(rename_all = "camelCase")]
Options {
name: String,
expect_fail: Vec<String>,
},
}
let text =
std::fs::read_to_string(util::tests_path().join("wpt.jsonc")).unwrap();
let jsonc = jsonc_parser::parse_to_value(&text).unwrap().unwrap();
let config: std::collections::HashMap<String, Vec<WptConfig>> =
deno_core::serde_json::from_value(jsonc_to_serde(jsonc)).unwrap();
for (suite_name, includes) in config.into_iter() {
let suite_path = util::wpt_path().join(suite_name);
let dir = WalkDir::new(&suite_path)
.into_iter()
.filter_map(Result::ok)
.filter(|e| e.file_type().is_file())
.filter(|f| {
let filename = f.file_name().to_str().unwrap();
filename.ends_with(".any.js") || filename.ends_with(".window.js")
})
.filter_map(|f| {
let path = f
.path()
.strip_prefix(&suite_path)
.unwrap()
.to_str()
.unwrap();
for cfg in &includes {
match cfg {
WptConfig::Simple(name) if path.starts_with(name) => {
return Some((f.path().to_owned(), vec![]))
}
WptConfig::Options { name, expect_fail }
if path.starts_with(name) =>
{
return Some((f.path().to_owned(), expect_fail.to_vec()))
}
_ => {}
}
}
None
});
let testharness_path = util::wpt_path().join("resources/testharness.js");
let testharness_text = std::fs::read_to_string(&testharness_path).unwrap();
let testharnessreporter_path =
util::tests_path().join("wpt_testharnessconsolereporter.js");
let testharnessreporter_text =
std::fs::read_to_string(&testharnessreporter_path).unwrap();
for (test_file_path, expect_fail) in dir {
let test_file_text = std::fs::read_to_string(&test_file_path).unwrap();
let imports: Vec<(PathBuf, String)> = test_file_text
.split('\n')
.into_iter()
.filter_map(|t| t.strip_prefix("// META: script="))
.map(|s| {
let s = if s == "/resources/WebIDLParser.js" {
"/resources/webidl2/lib/webidl2.js"
} else {
s
};
if s.starts_with('/') {
util::wpt_path().join(format!(".{}", s))
} else {
test_file_path.parent().unwrap().join(s)
}
})
.map(|path| {
let text = std::fs::read_to_string(&path).unwrap();
(path, text)
})
.collect();
let mut variants: Vec<&str> = test_file_text
.split('\n')
.into_iter()
.filter_map(|t| t.strip_prefix("// META: variant="))
.collect();
if variants.is_empty() {
variants.push("");
}
for variant in variants {
let mut files = Vec::with_capacity(3 + imports.len());
files.push((testharness_path.clone(), testharness_text.clone()));
files.push((
testharnessreporter_path.clone(),
testharnessreporter_text.clone(),
));
files.extend(imports.clone());
files.push((test_file_path.clone(), test_file_text.clone()));
let mut file = tempfile::Builder::new()
.prefix("wpt-bundle-")
.suffix(".js")
.rand_bytes(5)
.tempfile()
.unwrap();
let bundle = concat_bundle(
files,
file.path(),
format!("window.location = {{search: \"{}\"}};\n", variant),
);
file.write_all(bundle.as_bytes()).unwrap();
let child = util::deno_cmd()
.current_dir(test_file_path.parent().unwrap())
.arg("run")
.arg("-A")
.arg(file.path())
.arg(deno_core::serde_json::to_string(&expect_fail).unwrap())
.stdin(std::process::Stdio::piped())
.spawn()
.unwrap();
let output = child.wait_with_output().unwrap();
if !output.status.success() {
file.keep().unwrap();
}
assert!(output.status.success());
}
}
}
}