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denoland-deno/cli/tools/test.rs
Bartek Iwańczuk 220a7d544a
refactor(core): use JoinSet instead of FuturesUnordered (#19378)
This commit migrates "deno_core" from using "FuturesUnordered" to
"tokio::task::JoinSet". This makes every op to be a separate Tokio task
and should unlock better utilization of kqueue/epoll.

There were two quirks added to this PR:
- because of the fact that "JoinSet" immediately polls spawn tasks,
op sanitizers can give false positives in some cases, this was
alleviated by polling event loop once before running a test with 
"deno test", which gives canceled ops an opportunity to settle
- "JsRuntimeState::waker" was moved to "OpState::waker" so that FFI
API can still use threadsafe functions - without this change the
registered wakers were wrong as they would not wake up the 
whole "JsRuntime" but the task associated with an op

---------

Co-authored-by: Matt Mastracci <matthew@mastracci.com>
2023-06-09 01:13:25 +02:00

2168 lines
63 KiB
Rust

// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
use crate::args::CliOptions;
use crate::args::FilesConfig;
use crate::args::TestOptions;
use crate::colors;
use crate::display;
use crate::factory::CliFactory;
use crate::file_fetcher::File;
use crate::file_fetcher::FileFetcher;
use crate::graph_util::graph_valid_with_cli_options;
use crate::module_loader::ModuleLoadPreparer;
use crate::ops;
use crate::util::checksum;
use crate::util::file_watcher;
use crate::util::file_watcher::ResolutionResult;
use crate::util::fs::collect_specifiers;
use crate::util::path::get_extension;
use crate::util::path::is_supported_ext;
use crate::util::path::mapped_specifier_for_tsc;
use crate::worker::CliMainWorkerFactory;
use deno_ast::swc::common::comments::CommentKind;
use deno_ast::MediaType;
use deno_ast::SourceRangedForSpanned;
use deno_core::error::generic_error;
use deno_core::error::AnyError;
use deno_core::error::JsError;
use deno_core::futures::future;
use deno_core::futures::stream;
use deno_core::futures::task::noop_waker;
use deno_core::futures::FutureExt;
use deno_core::futures::StreamExt;
use deno_core::located_script_name;
use deno_core::parking_lot::Mutex;
use deno_core::serde_v8;
use deno_core::task::spawn;
use deno_core::task::spawn_blocking;
use deno_core::url::Url;
use deno_core::v8;
use deno_core::ModuleSpecifier;
use deno_runtime::deno_io::Stdio;
use deno_runtime::deno_io::StdioPipe;
use deno_runtime::fmt_errors::format_js_error;
use deno_runtime::permissions::Permissions;
use deno_runtime::permissions::PermissionsContainer;
use deno_runtime::tokio_util::create_and_run_current_thread;
use indexmap::IndexMap;
use indexmap::IndexSet;
use log::Level;
use rand::rngs::SmallRng;
use rand::seq::SliceRandom;
use rand::SeedableRng;
use regex::Regex;
use serde::Deserialize;
use std::collections::BTreeMap;
use std::collections::BTreeSet;
use std::collections::HashMap;
use std::collections::HashSet;
use std::fmt::Write as _;
use std::io::Read;
use std::io::Write;
use std::num::NonZeroUsize;
use std::path::Path;
use std::path::PathBuf;
use std::sync::atomic::AtomicBool;
use std::sync::atomic::AtomicUsize;
use std::sync::atomic::Ordering;
use std::sync::Arc;
use std::task::Context;
use std::time::Duration;
use std::time::Instant;
use std::time::SystemTime;
use tokio::signal;
use tokio::sync::mpsc::unbounded_channel;
use tokio::sync::mpsc::UnboundedSender;
use tokio::sync::mpsc::WeakUnboundedSender;
/// The test mode is used to determine how a specifier is to be tested.
#[derive(Debug, Clone, Eq, PartialEq)]
pub enum TestMode {
/// Test as documentation, type-checking fenced code blocks.
Documentation,
/// Test as an executable module, loading the module into the isolate and running each test it
/// defines.
Executable,
/// Test as both documentation and an executable module.
Both,
}
#[derive(Clone, Debug, Default)]
pub struct TestFilter {
pub substring: Option<String>,
pub regex: Option<Regex>,
pub include: Option<Vec<String>>,
pub exclude: Vec<String>,
}
impl TestFilter {
pub fn includes(&self, name: &String) -> bool {
if let Some(substring) = &self.substring {
if !name.contains(substring) {
return false;
}
}
if let Some(regex) = &self.regex {
if !regex.is_match(name) {
return false;
}
}
if let Some(include) = &self.include {
if !include.contains(name) {
return false;
}
}
if self.exclude.contains(name) {
return false;
}
true
}
pub fn from_flag(flag: &Option<String>) -> Self {
let mut substring = None;
let mut regex = None;
if let Some(flag) = flag {
if flag.starts_with('/') && flag.ends_with('/') {
let rs = flag.trim_start_matches('/').trim_end_matches('/');
regex =
Some(Regex::new(rs).unwrap_or_else(|_| Regex::new("$^").unwrap()));
} else {
substring = Some(flag.clone());
}
}
Self {
substring,
regex,
..Default::default()
}
}
}
#[derive(Debug, Clone, PartialEq, Deserialize, Eq, Hash)]
#[serde(rename_all = "camelCase")]
pub struct TestLocation {
pub file_name: String,
pub line_number: u32,
pub column_number: u32,
}
#[derive(Debug, Clone, PartialEq, Deserialize, Eq, Hash)]
#[serde(rename_all = "camelCase")]
pub struct TestDescription {
pub id: usize,
pub name: String,
pub ignore: bool,
pub only: bool,
pub origin: String,
pub location: TestLocation,
}
impl TestDescription {
pub fn static_id(&self) -> String {
checksum::gen(&[self.location.file_name.as_bytes(), self.name.as_bytes()])
}
}
#[derive(Debug, Clone, Eq, PartialEq, Deserialize)]
#[serde(rename_all = "camelCase")]
pub enum TestOutput {
String(String),
Bytes(Vec<u8>),
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Debug, Clone, PartialEq, Deserialize)]
#[serde(rename_all = "camelCase")]
pub enum TestFailure {
JsError(Box<JsError>),
FailedSteps(usize),
IncompleteSteps,
LeakedOps(Vec<String>, bool), // Details, isOpCallTracingEnabled
LeakedResources(Vec<String>), // Details
// The rest are for steps only.
Incomplete,
OverlapsWithSanitizers(IndexSet<String>), // Long names of overlapped tests
HasSanitizersAndOverlaps(IndexSet<String>), // Long names of overlapped tests
}
impl ToString for TestFailure {
fn to_string(&self) -> String {
match self {
TestFailure::JsError(js_error) => format_test_error(js_error),
TestFailure::FailedSteps(1) => "1 test step failed.".to_string(),
TestFailure::FailedSteps(n) => format!("{} test steps failed.", n),
TestFailure::IncompleteSteps => "Completed while steps were still running. Ensure all steps are awaited with `await t.step(...)`.".to_string(),
TestFailure::Incomplete => "Didn't complete before parent. Await step with `await t.step(...)`.".to_string(),
TestFailure::LeakedOps(details, is_op_call_tracing_enabled) => {
let mut string = "Leaking async ops:".to_string();
for detail in details {
string.push_str(&format!("\n - {}", detail));
}
if !is_op_call_tracing_enabled {
string.push_str("\nTo get more details where ops were leaked, run again with --trace-ops flag.");
}
string
}
TestFailure::LeakedResources(details) => {
let mut string = "Leaking resources:".to_string();
for detail in details {
string.push_str(&format!("\n - {}", detail));
}
string
}
TestFailure::OverlapsWithSanitizers(long_names) => {
let mut string = "Started test step while another test step with sanitizers was running:".to_string();
for long_name in long_names {
string.push_str(&format!("\n * {}", long_name));
}
string
}
TestFailure::HasSanitizersAndOverlaps(long_names) => {
let mut string = "Started test step with sanitizers while another test step was running:".to_string();
for long_name in long_names {
string.push_str(&format!("\n * {}", long_name));
}
string
}
}
}
}
impl TestFailure {
fn format_label(&self) -> String {
match self {
TestFailure::Incomplete => colors::gray("INCOMPLETE").to_string(),
_ => colors::red("FAILED").to_string(),
}
}
fn format_inline_summary(&self) -> Option<String> {
match self {
TestFailure::FailedSteps(1) => Some("due to 1 failed step".to_string()),
TestFailure::FailedSteps(n) => Some(format!("due to {} failed steps", n)),
TestFailure::IncompleteSteps => {
Some("due to incomplete steps".to_string())
}
_ => None,
}
}
fn hide_in_summary(&self) -> bool {
// These failure variants are hidden in summaries because they are caused
// by child errors that will be summarized separately.
matches!(
self,
TestFailure::FailedSteps(_) | TestFailure::IncompleteSteps
)
}
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Debug, Clone, PartialEq, Deserialize)]
#[serde(rename_all = "camelCase")]
pub enum TestResult {
Ok,
Ignored,
Failed(TestFailure),
Cancelled,
}
#[derive(Debug, Clone, Eq, PartialEq, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct TestStepDescription {
pub id: usize,
pub name: String,
pub origin: String,
pub location: TestLocation,
pub level: usize,
pub parent_id: usize,
pub root_id: usize,
pub root_name: String,
}
impl TestStepDescription {
pub fn static_id(&self) -> String {
checksum::gen(&[
self.location.file_name.as_bytes(),
&self.level.to_be_bytes(),
self.name.as_bytes(),
])
}
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Debug, Clone, PartialEq, Deserialize)]
#[serde(rename_all = "camelCase")]
pub enum TestStepResult {
Ok,
Ignored,
Failed(TestFailure),
}
#[derive(Debug, Clone, Eq, PartialEq, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct TestPlan {
pub origin: String,
pub total: usize,
pub filtered_out: usize,
pub used_only: bool,
}
#[derive(Debug, Clone, Deserialize)]
#[serde(rename_all = "camelCase")]
pub enum TestEvent {
Register(TestDescription),
Plan(TestPlan),
Wait(usize),
Output(Vec<u8>),
Result(usize, TestResult, u64),
UncaughtError(String, Box<JsError>),
StepRegister(TestStepDescription),
StepWait(usize),
StepResult(usize, TestStepResult, u64),
Sigint,
}
#[derive(Debug, Clone, Deserialize)]
pub struct TestSummary {
pub total: usize,
pub passed: usize,
pub failed: usize,
pub ignored: usize,
pub passed_steps: usize,
pub failed_steps: usize,
pub ignored_steps: usize,
pub filtered_out: usize,
pub measured: usize,
pub failures: Vec<(TestDescription, TestFailure)>,
pub uncaught_errors: Vec<(String, Box<JsError>)>,
}
#[derive(Debug, Clone)]
struct TestSpecifiersOptions {
concurrent_jobs: NonZeroUsize,
fail_fast: Option<NonZeroUsize>,
log_level: Option<log::Level>,
specifier: TestSpecifierOptions,
}
#[derive(Debug, Clone)]
pub struct TestSpecifierOptions {
pub shuffle: Option<u64>,
pub filter: TestFilter,
pub trace_ops: bool,
}
impl TestSummary {
pub fn new() -> TestSummary {
TestSummary {
total: 0,
passed: 0,
failed: 0,
ignored: 0,
passed_steps: 0,
failed_steps: 0,
ignored_steps: 0,
filtered_out: 0,
measured: 0,
failures: Vec::new(),
uncaught_errors: Vec::new(),
}
}
fn has_failed(&self) -> bool {
self.failed > 0 || !self.failures.is_empty()
}
}
struct PrettyTestReporter {
parallel: bool,
echo_output: bool,
in_new_line: bool,
scope_test_id: Option<usize>,
cwd: Url,
did_have_user_output: bool,
started_tests: bool,
child_results_buffer:
HashMap<usize, IndexMap<usize, (TestStepDescription, TestStepResult, u64)>>,
}
impl PrettyTestReporter {
fn new(parallel: bool, echo_output: bool) -> PrettyTestReporter {
PrettyTestReporter {
parallel,
echo_output,
in_new_line: true,
scope_test_id: None,
cwd: Url::from_directory_path(std::env::current_dir().unwrap()).unwrap(),
did_have_user_output: false,
started_tests: false,
child_results_buffer: Default::default(),
}
}
fn force_report_wait(&mut self, description: &TestDescription) {
if !self.in_new_line {
println!();
}
if self.parallel {
print!(
"{}",
colors::gray(format!(
"{} => ",
self.to_relative_path_or_remote_url(&description.origin)
))
);
}
print!("{} ...", description.name);
self.in_new_line = false;
// flush for faster feedback when line buffered
std::io::stdout().flush().unwrap();
self.scope_test_id = Some(description.id);
}
fn to_relative_path_or_remote_url(&self, path_or_url: &str) -> String {
let url = Url::parse(path_or_url).unwrap();
if url.scheme() == "file" {
if let Some(mut r) = self.cwd.make_relative(&url) {
if !r.starts_with("../") {
r = format!("./{r}");
}
return r;
}
}
path_or_url.to_string()
}
fn force_report_step_wait(&mut self, description: &TestStepDescription) {
self.write_output_end();
if !self.in_new_line {
println!();
}
print!("{}{} ...", " ".repeat(description.level), description.name);
self.in_new_line = false;
// flush for faster feedback when line buffered
std::io::stdout().flush().unwrap();
self.scope_test_id = Some(description.id);
}
fn force_report_step_result(
&mut self,
description: &TestStepDescription,
result: &TestStepResult,
elapsed: u64,
) {
self.write_output_end();
if self.in_new_line || self.scope_test_id != Some(description.id) {
self.force_report_step_wait(description);
}
if !self.parallel {
let child_results = self
.child_results_buffer
.remove(&description.id)
.unwrap_or_default();
for (desc, result, elapsed) in child_results.values() {
self.force_report_step_result(desc, result, *elapsed);
}
if !child_results.is_empty() {
self.force_report_step_wait(description);
}
}
let status = match &result {
TestStepResult::Ok => colors::green("ok").to_string(),
TestStepResult::Ignored => colors::yellow("ignored").to_string(),
TestStepResult::Failed(failure) => failure.format_label(),
};
print!(" {}", status);
if let TestStepResult::Failed(failure) = result {
if let Some(inline_summary) = failure.format_inline_summary() {
print!(" ({})", inline_summary)
}
}
if !matches!(result, TestStepResult::Failed(TestFailure::Incomplete)) {
print!(
" {}",
colors::gray(format!("({})", display::human_elapsed(elapsed.into())))
);
}
println!();
self.in_new_line = true;
if self.parallel {
self.scope_test_id = None;
} else {
self.scope_test_id = Some(description.parent_id);
}
self
.child_results_buffer
.entry(description.parent_id)
.or_default()
.remove(&description.id);
}
fn write_output_end(&mut self) {
if self.did_have_user_output {
println!("{}", colors::gray("----- output end -----"));
self.in_new_line = true;
self.did_have_user_output = false;
}
}
fn report_register(&mut self, _description: &TestDescription) {}
fn report_plan(&mut self, plan: &TestPlan) {
if self.parallel {
return;
}
let inflection = if plan.total == 1 { "test" } else { "tests" };
println!(
"{}",
colors::gray(format!(
"running {} {} from {}",
plan.total,
inflection,
self.to_relative_path_or_remote_url(&plan.origin)
))
);
self.in_new_line = true;
}
fn report_wait(&mut self, description: &TestDescription) {
if !self.parallel {
self.force_report_wait(description);
}
self.started_tests = true;
}
fn report_output(&mut self, output: &[u8]) {
if !self.echo_output {
return;
}
if !self.did_have_user_output && self.started_tests {
self.did_have_user_output = true;
if !self.in_new_line {
println!();
}
println!("{}", colors::gray("------- output -------"));
self.in_new_line = true;
}
// output everything to stdout in order to prevent
// stdout and stderr racing
std::io::stdout().write_all(output).unwrap();
}
fn report_result(
&mut self,
description: &TestDescription,
result: &TestResult,
elapsed: u64,
) {
if self.parallel {
self.force_report_wait(description);
}
self.write_output_end();
if self.in_new_line || self.scope_test_id != Some(description.id) {
self.force_report_wait(description);
}
let status = match result {
TestResult::Ok => colors::green("ok").to_string(),
TestResult::Ignored => colors::yellow("ignored").to_string(),
TestResult::Failed(failure) => failure.format_label(),
TestResult::Cancelled => colors::gray("cancelled").to_string(),
};
print!(" {}", status);
if let TestResult::Failed(failure) = result {
if let Some(inline_summary) = failure.format_inline_summary() {
print!(" ({})", inline_summary)
}
}
println!(
" {}",
colors::gray(format!("({})", display::human_elapsed(elapsed.into())))
);
self.in_new_line = true;
self.scope_test_id = None;
}
fn report_uncaught_error(&mut self, origin: &str, _error: &JsError) {
if !self.in_new_line {
println!();
}
println!(
"Uncaught error from {} {}",
self.to_relative_path_or_remote_url(origin),
colors::red("FAILED")
);
self.in_new_line = true;
self.did_have_user_output = false;
}
fn report_step_register(&mut self, _description: &TestStepDescription) {}
fn report_step_wait(&mut self, description: &TestStepDescription) {
if !self.parallel && self.scope_test_id == Some(description.parent_id) {
self.force_report_step_wait(description);
}
}
fn report_step_result(
&mut self,
desc: &TestStepDescription,
result: &TestStepResult,
elapsed: u64,
tests: &IndexMap<usize, TestDescription>,
test_steps: &IndexMap<usize, TestStepDescription>,
) {
if self.parallel {
self.write_output_end();
print!(
"{} {} ...",
colors::gray(format!(
"{} =>",
self.to_relative_path_or_remote_url(&desc.origin)
)),
self.format_test_step_ancestry(desc, tests, test_steps)
);
self.in_new_line = false;
self.scope_test_id = Some(desc.id);
self.force_report_step_result(desc, result, elapsed);
} else {
let sibling_results =
self.child_results_buffer.entry(desc.parent_id).or_default();
if self.scope_test_id == Some(desc.id)
|| self.scope_test_id == Some(desc.parent_id)
{
let sibling_results = std::mem::take(sibling_results);
self.force_report_step_result(desc, result, elapsed);
// Flush buffered sibling results.
for (desc, result, elapsed) in sibling_results.values() {
self.force_report_step_result(desc, result, *elapsed);
}
} else {
sibling_results
.insert(desc.id, (desc.clone(), result.clone(), elapsed));
}
}
}
fn report_summary(&mut self, summary: &TestSummary, elapsed: &Duration) {
if !summary.failures.is_empty() || !summary.uncaught_errors.is_empty() {
#[allow(clippy::type_complexity)] // Type alias doesn't look better here
let mut failures_by_origin: BTreeMap<
String,
(Vec<(&TestDescription, &TestFailure)>, Option<&JsError>),
> = BTreeMap::default();
let mut failure_titles = vec![];
for (description, failure) in &summary.failures {
let (failures, _) = failures_by_origin
.entry(description.origin.clone())
.or_default();
failures.push((description, failure));
}
for (origin, js_error) in &summary.uncaught_errors {
let (_, uncaught_error) =
failures_by_origin.entry(origin.clone()).or_default();
let _ = uncaught_error.insert(js_error.as_ref());
}
// note: the trailing whitespace is intentional to get a red background
println!("\n{}\n", colors::white_bold_on_red(" ERRORS "));
for (origin, (failures, uncaught_error)) in failures_by_origin {
for (description, failure) in failures {
if !failure.hide_in_summary() {
let failure_title = self.format_test_for_summary(description);
println!("{}", &failure_title);
println!("{}: {}", colors::red_bold("error"), failure.to_string());
println!();
failure_titles.push(failure_title);
}
}
if let Some(js_error) = uncaught_error {
let failure_title = format!(
"{} (uncaught error)",
self.to_relative_path_or_remote_url(&origin)
);
println!("{}", &failure_title);
println!(
"{}: {}",
colors::red_bold("error"),
format_test_error(js_error)
);
println!("This error was not caught from a test and caused the test runner to fail on the referenced module.");
println!("It most likely originated from a dangling promise, event/timeout handler or top-level code.");
println!();
failure_titles.push(failure_title);
}
}
// note: the trailing whitespace is intentional to get a red background
println!("{}\n", colors::white_bold_on_red(" FAILURES "));
for failure_title in failure_titles {
println!("{failure_title}");
}
}
let status = if summary.has_failed() {
colors::red("FAILED").to_string()
} else {
colors::green("ok").to_string()
};
let get_steps_text = |count: usize| -> String {
if count == 0 {
String::new()
} else if count == 1 {
" (1 step)".to_string()
} else {
format!(" ({count} steps)")
}
};
let mut summary_result = String::new();
write!(
summary_result,
"{} passed{} | {} failed{}",
summary.passed,
get_steps_text(summary.passed_steps),
summary.failed,
get_steps_text(summary.failed_steps),
)
.unwrap();
let ignored_steps = get_steps_text(summary.ignored_steps);
if summary.ignored > 0 || !ignored_steps.is_empty() {
write!(
summary_result,
" | {} ignored{}",
summary.ignored, ignored_steps
)
.unwrap()
}
if summary.measured > 0 {
write!(summary_result, " | {} measured", summary.measured,).unwrap();
}
if summary.filtered_out > 0 {
write!(summary_result, " | {} filtered out", summary.filtered_out)
.unwrap()
};
println!(
"\n{} | {} {}\n",
status,
summary_result,
colors::gray(format!(
"({})",
display::human_elapsed(elapsed.as_millis())
)),
);
self.in_new_line = true;
}
fn report_sigint(
&mut self,
tests_pending: &HashSet<usize>,
tests: &IndexMap<usize, TestDescription>,
test_steps: &IndexMap<usize, TestStepDescription>,
) {
if tests_pending.is_empty() {
return;
}
let mut formatted_pending = BTreeSet::new();
for id in tests_pending {
if let Some(desc) = tests.get(id) {
formatted_pending.insert(self.format_test_for_summary(desc));
}
if let Some(desc) = test_steps.get(id) {
formatted_pending
.insert(self.format_test_step_for_summary(desc, tests, test_steps));
}
}
println!(
"\n{} The following tests were pending:\n",
colors::intense_blue("SIGINT")
);
for entry in formatted_pending {
println!("{}", entry);
}
println!();
self.in_new_line = true;
}
fn format_test_step_ancestry(
&self,
desc: &TestStepDescription,
tests: &IndexMap<usize, TestDescription>,
test_steps: &IndexMap<usize, TestStepDescription>,
) -> String {
let root;
let mut ancestor_names = vec![];
let mut current_desc = desc;
loop {
if let Some(step_desc) = test_steps.get(&current_desc.parent_id) {
ancestor_names.push(&step_desc.name);
current_desc = step_desc;
} else {
root = tests.get(&current_desc.parent_id).unwrap();
break;
}
}
ancestor_names.reverse();
let mut result = String::new();
result.push_str(&root.name);
result.push_str(" ... ");
for name in ancestor_names {
result.push_str(name);
result.push_str(" ... ");
}
result.push_str(&desc.name);
result
}
fn format_test_for_summary(&self, desc: &TestDescription) -> String {
format!(
"{} {}",
&desc.name,
colors::gray(format!(
"=> {}:{}:{}",
self.to_relative_path_or_remote_url(&desc.location.file_name),
desc.location.line_number,
desc.location.column_number
))
)
}
fn format_test_step_for_summary(
&self,
desc: &TestStepDescription,
tests: &IndexMap<usize, TestDescription>,
test_steps: &IndexMap<usize, TestStepDescription>,
) -> String {
let long_name = self.format_test_step_ancestry(desc, tests, test_steps);
format!(
"{} {}",
long_name,
colors::gray(format!(
"=> {}:{}:{}",
self.to_relative_path_or_remote_url(&desc.location.file_name),
desc.location.line_number,
desc.location.column_number
))
)
}
}
fn abbreviate_test_error(js_error: &JsError) -> JsError {
let mut js_error = js_error.clone();
let frames = std::mem::take(&mut js_error.frames);
// check if there are any stack frames coming from user code
let should_filter = frames.iter().any(|f| {
if let Some(file_name) = &f.file_name {
!(file_name.starts_with("[ext:") || file_name.starts_with("ext:"))
} else {
true
}
});
if should_filter {
let mut frames = frames
.into_iter()
.rev()
.skip_while(|f| {
if let Some(file_name) = &f.file_name {
file_name.starts_with("[ext:") || file_name.starts_with("ext:")
} else {
false
}
})
.collect::<Vec<_>>();
frames.reverse();
js_error.frames = frames;
} else {
js_error.frames = frames;
}
js_error.cause = js_error
.cause
.as_ref()
.map(|e| Box::new(abbreviate_test_error(e)));
js_error.aggregated = js_error
.aggregated
.as_ref()
.map(|es| es.iter().map(abbreviate_test_error).collect());
js_error
}
// This function prettifies `JsError` and applies some changes specifically for
// test runner purposes:
//
// - filter out stack frames:
// - if stack trace consists of mixed user and internal code, the frames
// below the first user code frame are filtered out
// - if stack trace consists only of internal code it is preserved as is
pub fn format_test_error(js_error: &JsError) -> String {
let mut js_error = abbreviate_test_error(js_error);
js_error.exception_message = js_error
.exception_message
.trim_start_matches("Uncaught ")
.to_string();
format_js_error(&js_error)
}
/// Test a single specifier as documentation containing test programs, an executable test module or
/// both.
pub async fn test_specifier(
worker_factory: Arc<CliMainWorkerFactory>,
permissions: Permissions,
specifier: ModuleSpecifier,
mut sender: TestEventSender,
fail_fast_tracker: FailFastTracker,
options: TestSpecifierOptions,
) -> Result<(), AnyError> {
if fail_fast_tracker.should_stop() {
return Ok(());
}
let stdout = StdioPipe::File(sender.stdout());
let stderr = StdioPipe::File(sender.stderr());
let mut worker = worker_factory
.create_custom_worker(
specifier.clone(),
PermissionsContainer::new(permissions),
vec![ops::testing::deno_test::init_ops(sender.clone())],
Stdio {
stdin: StdioPipe::Inherit,
stdout,
stderr,
},
)
.await?;
let mut coverage_collector = worker.maybe_setup_coverage_collector().await?;
// We execute the main module as a side module so that import.meta.main is not set.
match worker.execute_side_module_possibly_with_npm().await {
Ok(()) => {}
Err(error) => {
if error.is::<JsError>() {
sender.send(TestEvent::UncaughtError(
specifier.to_string(),
Box::new(error.downcast::<JsError>().unwrap()),
))?;
return Ok(());
} else {
return Err(error);
}
}
}
let mut worker = worker.into_main_worker();
if options.trace_ops {
worker.js_runtime.execute_script_static(
located_script_name!(),
"Deno[Deno.internal].core.enableOpCallTracing();",
)?;
}
worker.dispatch_load_event(located_script_name!())?;
let tests = {
let state_rc = worker.js_runtime.op_state();
let mut state = state_rc.borrow_mut();
std::mem::take(&mut state.borrow_mut::<ops::testing::TestContainer>().0)
};
let unfiltered = tests.len();
let (only, no_only): (Vec<_>, Vec<_>) =
tests.into_iter().partition(|(d, _)| d.only);
let used_only = !only.is_empty();
let tests = if used_only { only } else { no_only };
let mut tests = tests
.into_iter()
.filter(|(d, _)| options.filter.includes(&d.name))
.collect::<Vec<_>>();
if let Some(seed) = options.shuffle {
tests.shuffle(&mut SmallRng::seed_from_u64(seed));
}
sender.send(TestEvent::Plan(TestPlan {
origin: specifier.to_string(),
total: tests.len(),
filtered_out: unfiltered - tests.len(),
used_only,
}))?;
let mut had_uncaught_error = false;
for (desc, function) in tests {
if fail_fast_tracker.should_stop() {
break;
}
if desc.ignore {
sender.send(TestEvent::Result(desc.id, TestResult::Ignored, 0))?;
continue;
}
if had_uncaught_error {
sender.send(TestEvent::Result(desc.id, TestResult::Cancelled, 0))?;
continue;
}
sender.send(TestEvent::Wait(desc.id))?;
// TODO(bartlomieju): this is a nasty (beautiful) hack, that was required
// when switching `JsRuntime` from `FuturesUnordered` to `JoinSet`. With
// `JoinSet` all pending ops are immediately polled and that caused a problem
// when some async ops were fired and canceled before running tests (giving
// false positives in the ops sanitizer). We should probably rewrite sanitizers
// to be done in Rust instead of in JS (40_testing.js).
{
// Poll event loop once, this will allow all ops that are already resolved,
// but haven't responded to settle.
let waker = noop_waker();
let mut cx = Context::from_waker(&waker);
let _ = worker.js_runtime.poll_event_loop(&mut cx, false);
}
let earlier = SystemTime::now();
let result = match worker.js_runtime.call_and_await(&function).await {
Ok(r) => r,
Err(error) => {
if error.is::<JsError>() {
sender.send(TestEvent::UncaughtError(
specifier.to_string(),
Box::new(error.downcast::<JsError>().unwrap()),
))?;
fail_fast_tracker.add_failure();
sender.send(TestEvent::Result(desc.id, TestResult::Cancelled, 0))?;
had_uncaught_error = true;
continue;
} else {
return Err(error);
}
}
};
let scope = &mut worker.js_runtime.handle_scope();
let result = v8::Local::new(scope, result);
let result = serde_v8::from_v8::<TestResult>(scope, result)?;
if matches!(result, TestResult::Failed(_)) {
fail_fast_tracker.add_failure();
}
let elapsed = SystemTime::now().duration_since(earlier)?.as_millis();
sender.send(TestEvent::Result(desc.id, result, elapsed as u64))?;
}
// Ignore `defaultPrevented` of the `beforeunload` event. We don't allow the
// event loop to continue beyond what's needed to await results.
worker.dispatch_beforeunload_event(located_script_name!())?;
worker.dispatch_unload_event(located_script_name!())?;
if let Some(coverage_collector) = coverage_collector.as_mut() {
worker
.with_event_loop(coverage_collector.stop_collecting().boxed_local())
.await?;
}
Ok(())
}
fn extract_files_from_regex_blocks(
specifier: &ModuleSpecifier,
source: &str,
media_type: MediaType,
file_line_index: usize,
blocks_regex: &Regex,
lines_regex: &Regex,
) -> Result<Vec<File>, AnyError> {
let files = blocks_regex
.captures_iter(source)
.filter_map(|block| {
block.get(1)?;
let maybe_attributes: Option<Vec<_>> = block
.get(1)
.map(|attributes| attributes.as_str().split(' ').collect());
let file_media_type = if let Some(attributes) = maybe_attributes {
if attributes.contains(&"ignore") {
return None;
}
match attributes.first() {
Some(&"js") => MediaType::JavaScript,
Some(&"javascript") => MediaType::JavaScript,
Some(&"mjs") => MediaType::Mjs,
Some(&"cjs") => MediaType::Cjs,
Some(&"jsx") => MediaType::Jsx,
Some(&"ts") => MediaType::TypeScript,
Some(&"typescript") => MediaType::TypeScript,
Some(&"mts") => MediaType::Mts,
Some(&"cts") => MediaType::Cts,
Some(&"tsx") => MediaType::Tsx,
_ => MediaType::Unknown,
}
} else {
media_type
};
if file_media_type == MediaType::Unknown {
return None;
}
let line_offset = source[0..block.get(0).unwrap().start()]
.chars()
.filter(|c| *c == '\n')
.count();
let line_count = block.get(0).unwrap().as_str().split('\n').count();
let body = block.get(2).unwrap();
let text = body.as_str();
// TODO(caspervonb) generate an inline source map
let mut file_source = String::new();
for line in lines_regex.captures_iter(text) {
let text = line.get(1).unwrap();
writeln!(file_source, "{}", text.as_str()).unwrap();
}
let file_specifier = ModuleSpecifier::parse(&format!(
"{}${}-{}",
specifier,
file_line_index + line_offset + 1,
file_line_index + line_offset + line_count + 1,
))
.unwrap();
let file_specifier =
mapped_specifier_for_tsc(&file_specifier, file_media_type)
.map(|s| ModuleSpecifier::parse(&s).unwrap())
.unwrap_or(file_specifier);
Some(File {
local: file_specifier.to_file_path().unwrap(),
maybe_types: None,
media_type: file_media_type,
source: file_source.into(),
specifier: file_specifier,
maybe_headers: None,
})
})
.collect();
Ok(files)
}
fn extract_files_from_source_comments(
specifier: &ModuleSpecifier,
source: Arc<str>,
media_type: MediaType,
) -> Result<Vec<File>, AnyError> {
let parsed_source = deno_ast::parse_module(deno_ast::ParseParams {
specifier: specifier.to_string(),
text_info: deno_ast::SourceTextInfo::new(source),
media_type,
capture_tokens: false,
maybe_syntax: None,
scope_analysis: false,
})?;
let comments = parsed_source.comments().get_vec();
let blocks_regex = lazy_regex::regex!(r"```([^\r\n]*)\r?\n([\S\s]*?)```");
let lines_regex = lazy_regex::regex!(r"(?:\* ?)(?:\# ?)?(.*)");
let files = comments
.iter()
.filter(|comment| {
if comment.kind != CommentKind::Block || !comment.text.starts_with('*') {
return false;
}
true
})
.flat_map(|comment| {
extract_files_from_regex_blocks(
specifier,
&comment.text,
media_type,
parsed_source.text_info().line_index(comment.start()),
blocks_regex,
lines_regex,
)
})
.flatten()
.collect();
Ok(files)
}
fn extract_files_from_fenced_blocks(
specifier: &ModuleSpecifier,
source: &str,
media_type: MediaType,
) -> Result<Vec<File>, AnyError> {
// The pattern matches code blocks as well as anything in HTML comment syntax,
// but it stores the latter without any capturing groups. This way, a simple
// check can be done to see if a block is inside a comment (and skip typechecking)
// or not by checking for the presence of capturing groups in the matches.
let blocks_regex =
lazy_regex::regex!(r"(?s)<!--.*?-->|```([^\r\n]*)\r?\n([\S\s]*?)```");
let lines_regex = lazy_regex::regex!(r"(?:\# ?)?(.*)");
extract_files_from_regex_blocks(
specifier,
source,
media_type,
/* file line index */ 0,
blocks_regex,
lines_regex,
)
}
async fn fetch_inline_files(
file_fetcher: &FileFetcher,
specifiers: Vec<ModuleSpecifier>,
) -> Result<Vec<File>, AnyError> {
let mut files = Vec::new();
for specifier in specifiers {
let fetch_permissions = PermissionsContainer::allow_all();
let file = file_fetcher.fetch(&specifier, fetch_permissions).await?;
let inline_files = if file.media_type == MediaType::Unknown {
extract_files_from_fenced_blocks(
&file.specifier,
&file.source,
file.media_type,
)
} else {
extract_files_from_source_comments(
&file.specifier,
file.source,
file.media_type,
)
};
files.extend(inline_files?);
}
Ok(files)
}
/// Type check a collection of module and document specifiers.
pub async fn check_specifiers(
cli_options: &CliOptions,
file_fetcher: &FileFetcher,
module_load_preparer: &ModuleLoadPreparer,
specifiers: Vec<(ModuleSpecifier, TestMode)>,
) -> Result<(), AnyError> {
let lib = cli_options.ts_type_lib_window();
let inline_files = fetch_inline_files(
file_fetcher,
specifiers
.iter()
.filter_map(|(specifier, mode)| {
if *mode != TestMode::Executable {
Some(specifier.clone())
} else {
None
}
})
.collect(),
)
.await?;
if !inline_files.is_empty() {
let specifiers = inline_files
.iter()
.map(|file| file.specifier.clone())
.collect();
for file in inline_files {
file_fetcher.insert_cached(file);
}
module_load_preparer
.prepare_module_load(
specifiers,
false,
lib,
PermissionsContainer::new(Permissions::allow_all()),
)
.await?;
}
let module_specifiers = specifiers
.into_iter()
.filter_map(|(specifier, mode)| {
if mode != TestMode::Documentation {
Some(specifier)
} else {
None
}
})
.collect();
module_load_preparer
.prepare_module_load(
module_specifiers,
false,
lib,
PermissionsContainer::allow_all(),
)
.await?;
Ok(())
}
static HAS_TEST_RUN_SIGINT_HANDLER: AtomicBool = AtomicBool::new(false);
/// Test a collection of specifiers with test modes concurrently.
async fn test_specifiers(
worker_factory: Arc<CliMainWorkerFactory>,
permissions: &Permissions,
specifiers: Vec<ModuleSpecifier>,
options: TestSpecifiersOptions,
) -> Result<(), AnyError> {
let specifiers = if let Some(seed) = options.specifier.shuffle {
let mut rng = SmallRng::seed_from_u64(seed);
let mut specifiers = specifiers;
specifiers.sort();
specifiers.shuffle(&mut rng);
specifiers
} else {
specifiers
};
let (sender, mut receiver) = unbounded_channel::<TestEvent>();
let sender = TestEventSender::new(sender);
let concurrent_jobs = options.concurrent_jobs;
let sender_ = sender.downgrade();
let sigint_handler_handle = spawn(async move {
signal::ctrl_c().await.unwrap();
sender_.upgrade().map(|s| s.send(TestEvent::Sigint).ok());
});
HAS_TEST_RUN_SIGINT_HANDLER.store(true, Ordering::Relaxed);
let join_handles = specifiers.into_iter().map(move |specifier| {
let worker_factory = worker_factory.clone();
let permissions = permissions.clone();
let sender = sender.clone();
let fail_fast_tracker = FailFastTracker::new(options.fail_fast);
let specifier_options = options.specifier.clone();
spawn_blocking(move || {
create_and_run_current_thread(test_specifier(
worker_factory,
permissions,
specifier,
sender.clone(),
fail_fast_tracker,
specifier_options,
))
})
});
let join_stream = stream::iter(join_handles)
.buffer_unordered(concurrent_jobs.get())
.collect::<Vec<Result<Result<(), AnyError>, tokio::task::JoinError>>>();
let mut reporter = Box::new(PrettyTestReporter::new(
concurrent_jobs.get() > 1,
options.log_level != Some(Level::Error),
));
let handler = {
spawn(async move {
let earlier = Instant::now();
let mut tests = IndexMap::new();
let mut test_steps = IndexMap::new();
let mut tests_started = HashSet::new();
let mut tests_with_result = HashSet::new();
let mut summary = TestSummary::new();
let mut used_only = false;
while let Some(event) = receiver.recv().await {
match event {
TestEvent::Register(description) => {
reporter.report_register(&description);
tests.insert(description.id, description);
}
TestEvent::Plan(plan) => {
summary.total += plan.total;
summary.filtered_out += plan.filtered_out;
if plan.used_only {
used_only = true;
}
reporter.report_plan(&plan);
}
TestEvent::Wait(id) => {
if tests_started.insert(id) {
reporter.report_wait(tests.get(&id).unwrap());
}
}
TestEvent::Output(output) => {
reporter.report_output(&output);
}
TestEvent::Result(id, result, elapsed) => {
if tests_with_result.insert(id) {
let description = tests.get(&id).unwrap();
match &result {
TestResult::Ok => {
summary.passed += 1;
}
TestResult::Ignored => {
summary.ignored += 1;
}
TestResult::Failed(failure) => {
summary.failed += 1;
summary
.failures
.push((description.clone(), failure.clone()));
}
TestResult::Cancelled => {
summary.failed += 1;
}
}
reporter.report_result(description, &result, elapsed);
}
}
TestEvent::UncaughtError(origin, error) => {
reporter.report_uncaught_error(&origin, &error);
summary.failed += 1;
summary.uncaught_errors.push((origin.clone(), error));
}
TestEvent::StepRegister(description) => {
reporter.report_step_register(&description);
test_steps.insert(description.id, description);
}
TestEvent::StepWait(id) => {
if tests_started.insert(id) {
reporter.report_step_wait(test_steps.get(&id).unwrap());
}
}
TestEvent::StepResult(id, result, duration) => {
if tests_with_result.insert(id) {
let description = test_steps.get(&id).unwrap();
match &result {
TestStepResult::Ok => {
summary.passed_steps += 1;
}
TestStepResult::Ignored => {
summary.ignored_steps += 1;
}
TestStepResult::Failed(failure) => {
summary.failed_steps += 1;
summary.failures.push((
TestDescription {
id: description.id,
name: reporter.format_test_step_ancestry(
description,
&tests,
&test_steps,
),
ignore: false,
only: false,
origin: description.origin.clone(),
location: description.location.clone(),
},
failure.clone(),
))
}
}
reporter.report_step_result(
description,
&result,
duration,
&tests,
&test_steps,
);
}
}
TestEvent::Sigint => {
reporter.report_sigint(
&tests_started
.difference(&tests_with_result)
.copied()
.collect(),
&tests,
&test_steps,
);
std::process::exit(130);
}
}
}
sigint_handler_handle.abort();
HAS_TEST_RUN_SIGINT_HANDLER.store(false, Ordering::Relaxed);
let elapsed = Instant::now().duration_since(earlier);
reporter.report_summary(&summary, &elapsed);
if used_only {
return Err(generic_error(
"Test failed because the \"only\" option was used",
));
}
if summary.failed > 0 {
return Err(generic_error("Test failed"));
}
Ok(())
})
};
let (join_results, result) = future::join(join_stream, handler).await;
// propagate any errors
for join_result in join_results {
join_result??;
}
result??;
Ok(())
}
/// Checks if the path has a basename and extension Deno supports for tests.
pub(crate) fn is_supported_test_path(path: &Path) -> bool {
if let Some(name) = path.file_stem() {
let basename = name.to_string_lossy();
(basename.ends_with("_test")
|| basename.ends_with(".test")
|| basename == "test")
&& is_supported_ext(path)
} else {
false
}
}
/// Checks if the path has an extension Deno supports for tests.
fn is_supported_test_ext(path: &Path) -> bool {
if let Some(ext) = get_extension(path) {
matches!(
ext.as_str(),
"ts"
| "tsx"
| "js"
| "jsx"
| "mjs"
| "mts"
| "cjs"
| "cts"
| "md"
| "mkd"
| "mkdn"
| "mdwn"
| "mdown"
| "markdown"
)
} else {
false
}
}
/// Collects specifiers marking them with the appropriate test mode while maintaining the natural
/// input order.
///
/// - Specifiers matching the `is_supported_test_ext` predicate are marked as
/// `TestMode::Documentation`.
/// - Specifiers matching the `is_supported_test_path` are marked as `TestMode::Executable`.
/// - Specifiers matching both predicates are marked as `TestMode::Both`
fn collect_specifiers_with_test_mode(
files: &FilesConfig,
include_inline: &bool,
) -> Result<Vec<(ModuleSpecifier, TestMode)>, AnyError> {
let module_specifiers = collect_specifiers(files, is_supported_test_path)?;
if *include_inline {
return collect_specifiers(files, is_supported_test_ext).map(
|specifiers| {
specifiers
.into_iter()
.map(|specifier| {
let mode = if module_specifiers.contains(&specifier) {
TestMode::Both
} else {
TestMode::Documentation
};
(specifier, mode)
})
.collect()
},
);
}
let specifiers_with_mode = module_specifiers
.into_iter()
.map(|specifier| (specifier, TestMode::Executable))
.collect();
Ok(specifiers_with_mode)
}
/// Collects module and document specifiers with test modes via
/// `collect_specifiers_with_test_mode` which are then pre-fetched and adjusted
/// based on the media type.
///
/// Specifiers that do not have a known media type that can be executed as a
/// module are marked as `TestMode::Documentation`. Type definition files
/// cannot be run, and therefore need to be marked as `TestMode::Documentation`
/// as well.
async fn fetch_specifiers_with_test_mode(
file_fetcher: &FileFetcher,
files: &FilesConfig,
doc: &bool,
) -> Result<Vec<(ModuleSpecifier, TestMode)>, AnyError> {
let mut specifiers_with_mode = collect_specifiers_with_test_mode(files, doc)?;
for (specifier, mode) in &mut specifiers_with_mode {
let file = file_fetcher
.fetch(specifier, PermissionsContainer::allow_all())
.await?;
if file.media_type == MediaType::Unknown
|| file.media_type == MediaType::Dts
{
*mode = TestMode::Documentation
}
}
Ok(specifiers_with_mode)
}
pub async fn run_tests(
cli_options: CliOptions,
test_options: TestOptions,
) -> Result<(), AnyError> {
let factory = CliFactory::from_cli_options(Arc::new(cli_options));
let cli_options = factory.cli_options();
let file_fetcher = factory.file_fetcher()?;
let module_load_preparer = factory.module_load_preparer().await?;
// Various test files should not share the same permissions in terms of
// `PermissionsContainer` - otherwise granting/revoking permissions in one
// file would have impact on other files, which is undesirable.
let permissions =
Permissions::from_options(&cli_options.permissions_options())?;
let log_level = cli_options.log_level();
let specifiers_with_mode = fetch_specifiers_with_test_mode(
file_fetcher,
&test_options.files,
&test_options.doc,
)
.await?;
if !test_options.allow_none && specifiers_with_mode.is_empty() {
return Err(generic_error("No test modules found"));
}
check_specifiers(
cli_options,
file_fetcher,
module_load_preparer,
specifiers_with_mode.clone(),
)
.await?;
if test_options.no_run {
return Ok(());
}
let worker_factory =
Arc::new(factory.create_cli_main_worker_factory().await?);
test_specifiers(
worker_factory,
&permissions,
specifiers_with_mode
.into_iter()
.filter_map(|(s, m)| match m {
TestMode::Documentation => None,
_ => Some(s),
})
.collect(),
TestSpecifiersOptions {
concurrent_jobs: test_options.concurrent_jobs,
fail_fast: test_options.fail_fast,
log_level,
specifier: TestSpecifierOptions {
filter: TestFilter::from_flag(&test_options.filter),
shuffle: test_options.shuffle,
trace_ops: test_options.trace_ops,
},
},
)
.await?;
Ok(())
}
pub async fn run_tests_with_watch(
cli_options: CliOptions,
test_options: TestOptions,
) -> Result<(), AnyError> {
let factory = CliFactory::from_cli_options(Arc::new(cli_options));
let cli_options = factory.cli_options();
let module_graph_builder = factory.module_graph_builder().await?;
let module_load_preparer = factory.module_load_preparer().await?;
let file_fetcher = factory.file_fetcher()?;
let file_watcher = factory.file_watcher()?;
// Various test files should not share the same permissions in terms of
// `PermissionsContainer` - otherwise granting/revoking permissions in one
// file would have impact on other files, which is undesirable.
let permissions =
Permissions::from_options(&cli_options.permissions_options())?;
let graph_kind = cli_options.type_check_mode().as_graph_kind();
let log_level = cli_options.log_level();
let resolver = |changed: Option<Vec<PathBuf>>| {
let paths_to_watch = test_options.files.include.clone();
let paths_to_watch_clone = paths_to_watch.clone();
let files_changed = changed.is_some();
let test_options = &test_options;
let cli_options = cli_options.clone();
let module_graph_builder = module_graph_builder.clone();
async move {
let test_modules = if test_options.doc {
collect_specifiers(&test_options.files, is_supported_test_ext)
} else {
collect_specifiers(&test_options.files, is_supported_test_path)
}?;
let mut paths_to_watch = paths_to_watch_clone;
let mut modules_to_reload = if files_changed {
Vec::new()
} else {
test_modules.clone()
};
let graph = module_graph_builder
.create_graph(graph_kind, test_modules.clone())
.await?;
graph_valid_with_cli_options(&graph, &test_modules, &cli_options)?;
// TODO(@kitsonk) - This should be totally derivable from the graph.
for specifier in test_modules {
fn get_dependencies<'a>(
graph: &'a deno_graph::ModuleGraph,
maybe_module: Option<&'a deno_graph::Module>,
// This needs to be accessible to skip getting dependencies if they're already there,
// otherwise this will cause a stack overflow with circular dependencies
output: &mut HashSet<&'a ModuleSpecifier>,
) {
if let Some(module) = maybe_module.and_then(|m| m.esm()) {
for dep in module.dependencies.values() {
if let Some(specifier) = &dep.get_code() {
if !output.contains(specifier) {
output.insert(specifier);
get_dependencies(graph, graph.get(specifier), output);
}
}
if let Some(specifier) = &dep.get_type() {
if !output.contains(specifier) {
output.insert(specifier);
get_dependencies(graph, graph.get(specifier), output);
}
}
}
}
}
// This test module and all it's dependencies
let mut modules = HashSet::new();
modules.insert(&specifier);
get_dependencies(&graph, graph.get(&specifier), &mut modules);
paths_to_watch.extend(
modules
.iter()
.filter_map(|specifier| specifier.to_file_path().ok()),
);
if let Some(changed) = &changed {
for path in changed
.iter()
.filter_map(|path| ModuleSpecifier::from_file_path(path).ok())
{
if modules.contains(&path) {
modules_to_reload.push(specifier);
break;
}
}
}
}
Ok((paths_to_watch, modules_to_reload))
}
.map(move |result| {
if files_changed
&& matches!(result, Ok((_, ref modules)) if modules.is_empty())
{
ResolutionResult::Ignore
} else {
match result {
Ok((paths_to_watch, modules_to_reload)) => {
ResolutionResult::Restart {
paths_to_watch,
result: Ok(modules_to_reload),
}
}
Err(e) => ResolutionResult::Restart {
paths_to_watch,
result: Err(e),
},
}
}
})
};
let create_cli_main_worker_factory =
factory.create_cli_main_worker_factory_func().await?;
let operation = |modules_to_reload: Vec<ModuleSpecifier>| {
let permissions = &permissions;
let test_options = &test_options;
file_watcher.reset();
let cli_options = cli_options.clone();
let file_fetcher = file_fetcher.clone();
let module_load_preparer = module_load_preparer.clone();
let create_cli_main_worker_factory = create_cli_main_worker_factory.clone();
async move {
let worker_factory = Arc::new(create_cli_main_worker_factory());
let specifiers_with_mode = fetch_specifiers_with_test_mode(
&file_fetcher,
&test_options.files,
&test_options.doc,
)
.await?
.into_iter()
.filter(|(specifier, _)| modules_to_reload.contains(specifier))
.collect::<Vec<(ModuleSpecifier, TestMode)>>();
check_specifiers(
&cli_options,
&file_fetcher,
&module_load_preparer,
specifiers_with_mode.clone(),
)
.await?;
if test_options.no_run {
return Ok(());
}
test_specifiers(
worker_factory,
permissions,
specifiers_with_mode
.into_iter()
.filter_map(|(s, m)| match m {
TestMode::Documentation => None,
_ => Some(s),
})
.collect(),
TestSpecifiersOptions {
concurrent_jobs: test_options.concurrent_jobs,
fail_fast: test_options.fail_fast,
log_level,
specifier: TestSpecifierOptions {
filter: TestFilter::from_flag(&test_options.filter),
shuffle: test_options.shuffle,
trace_ops: test_options.trace_ops,
},
},
)
.await?;
Ok(())
}
};
// On top of the sigint handlers which are added and unbound for each test
// run, a process-scoped basic exit handler is required due to a tokio
// limitation where it doesn't unbind its own handler for the entire process
// once a user adds one.
spawn(async move {
loop {
signal::ctrl_c().await.unwrap();
if !HAS_TEST_RUN_SIGINT_HANDLER.load(Ordering::Relaxed) {
std::process::exit(130);
}
}
});
let clear_screen = !cli_options.no_clear_screen();
file_watcher::watch_func(
resolver,
operation,
file_watcher::PrintConfig {
job_name: "Test".to_string(),
clear_screen,
},
)
.await?;
Ok(())
}
/// Tracks failures for the `--fail-fast` argument in
/// order to tell when to stop running tests.
#[derive(Clone)]
pub struct FailFastTracker {
max_count: Option<usize>,
failure_count: Arc<AtomicUsize>,
}
impl FailFastTracker {
pub fn new(fail_fast: Option<NonZeroUsize>) -> Self {
Self {
max_count: fail_fast.map(|v| v.into()),
failure_count: Default::default(),
}
}
pub fn add_failure(&self) -> bool {
if let Some(max_count) = &self.max_count {
self
.failure_count
.fetch_add(1, std::sync::atomic::Ordering::SeqCst)
>= *max_count
} else {
false
}
}
pub fn should_stop(&self) -> bool {
if let Some(max_count) = &self.max_count {
self.failure_count.load(std::sync::atomic::Ordering::SeqCst) >= *max_count
} else {
false
}
}
}
#[derive(Clone)]
pub struct TestEventSender {
sender: UnboundedSender<TestEvent>,
stdout_writer: TestOutputPipe,
stderr_writer: TestOutputPipe,
}
impl TestEventSender {
pub fn new(sender: UnboundedSender<TestEvent>) -> Self {
Self {
stdout_writer: TestOutputPipe::new(sender.clone()),
stderr_writer: TestOutputPipe::new(sender.clone()),
sender,
}
}
pub fn stdout(&self) -> std::fs::File {
self.stdout_writer.as_file()
}
pub fn stderr(&self) -> std::fs::File {
self.stderr_writer.as_file()
}
pub fn send(&mut self, message: TestEvent) -> Result<(), AnyError> {
// for any event that finishes collecting output, we need to
// ensure that the collected stdout and stderr pipes are flushed
if matches!(
message,
TestEvent::Result(_, _, _)
| TestEvent::StepWait(_)
| TestEvent::StepResult(_, _, _)
| TestEvent::UncaughtError(_, _)
) {
self.flush_stdout_and_stderr()?;
}
self.sender.send(message)?;
Ok(())
}
fn downgrade(&self) -> WeakUnboundedSender<TestEvent> {
self.sender.downgrade()
}
fn flush_stdout_and_stderr(&mut self) -> Result<(), AnyError> {
self.stdout_writer.flush()?;
self.stderr_writer.flush()?;
Ok(())
}
}
// use a string that if it ends up in the output won't affect how things are displayed
const ZERO_WIDTH_SPACE: &str = "\u{200B}";
struct TestOutputPipe {
writer: os_pipe::PipeWriter,
state: Arc<Mutex<Option<std::sync::mpsc::Sender<()>>>>,
}
impl Clone for TestOutputPipe {
fn clone(&self) -> Self {
Self {
writer: self.writer.try_clone().unwrap(),
state: self.state.clone(),
}
}
}
impl TestOutputPipe {
pub fn new(sender: UnboundedSender<TestEvent>) -> Self {
let (reader, writer) = os_pipe::pipe().unwrap();
let state = Arc::new(Mutex::new(None));
start_output_redirect_thread(reader, sender, state.clone());
Self { writer, state }
}
pub fn flush(&mut self) -> Result<(), AnyError> {
// We want to wake up the other thread and have it respond back
// that it's done clearing out its pipe before returning.
let (sender, receiver) = std::sync::mpsc::channel();
if let Some(sender) = self.state.lock().replace(sender) {
let _ = sender.send(()); // just in case
}
// Bit of a hack to send a zero width space in order to wake
// the thread up. It seems that sending zero bytes here does
// not work on windows.
self.writer.write_all(ZERO_WIDTH_SPACE.as_bytes())?;
self.writer.flush()?;
// ignore the error as it might have been picked up and closed
let _ = receiver.recv();
Ok(())
}
pub fn as_file(&self) -> std::fs::File {
pipe_writer_to_file(self.writer.try_clone().unwrap())
}
}
#[cfg(windows)]
fn pipe_writer_to_file(writer: os_pipe::PipeWriter) -> std::fs::File {
use std::os::windows::prelude::FromRawHandle;
use std::os::windows::prelude::IntoRawHandle;
// SAFETY: Requires consuming ownership of the provided handle
unsafe { std::fs::File::from_raw_handle(writer.into_raw_handle()) }
}
#[cfg(unix)]
fn pipe_writer_to_file(writer: os_pipe::PipeWriter) -> std::fs::File {
use std::os::unix::io::FromRawFd;
use std::os::unix::io::IntoRawFd;
// SAFETY: Requires consuming ownership of the provided handle
unsafe { std::fs::File::from_raw_fd(writer.into_raw_fd()) }
}
fn start_output_redirect_thread(
mut pipe_reader: os_pipe::PipeReader,
sender: UnboundedSender<TestEvent>,
flush_state: Arc<Mutex<Option<std::sync::mpsc::Sender<()>>>>,
) {
spawn_blocking(move || loop {
let mut buffer = [0; 512];
let size = match pipe_reader.read(&mut buffer) {
Ok(0) | Err(_) => break,
Ok(size) => size,
};
let oneshot_sender = flush_state.lock().take();
let mut data = &buffer[0..size];
if data.ends_with(ZERO_WIDTH_SPACE.as_bytes()) {
data = &data[0..data.len() - ZERO_WIDTH_SPACE.len()];
}
if !data.is_empty()
&& sender
.send(TestEvent::Output(buffer[0..size].to_vec()))
.is_err()
{
break;
}
// Always respond back if this was set. Ideally we would also check to
// ensure the pipe reader is empty before sending back this response.
if let Some(sender) = oneshot_sender {
let _ignore = sender.send(());
}
});
}
#[cfg(test)]
mod inner_test {
use std::path::Path;
use super::*;
#[test]
fn test_is_supported_test_ext() {
assert!(!is_supported_test_ext(Path::new("tests/subdir/redirects")));
assert!(is_supported_test_ext(Path::new("README.md")));
assert!(is_supported_test_ext(Path::new("readme.MD")));
assert!(is_supported_test_ext(Path::new("lib/typescript.d.ts")));
assert!(is_supported_test_ext(Path::new(
"testdata/run/001_hello.js"
)));
assert!(is_supported_test_ext(Path::new(
"testdata/run/002_hello.ts"
)));
assert!(is_supported_test_ext(Path::new("foo.jsx")));
assert!(is_supported_test_ext(Path::new("foo.tsx")));
assert!(is_supported_test_ext(Path::new("foo.TS")));
assert!(is_supported_test_ext(Path::new("foo.TSX")));
assert!(is_supported_test_ext(Path::new("foo.JS")));
assert!(is_supported_test_ext(Path::new("foo.JSX")));
assert!(is_supported_test_ext(Path::new("foo.mjs")));
assert!(is_supported_test_ext(Path::new("foo.mts")));
assert!(is_supported_test_ext(Path::new("foo.cjs")));
assert!(is_supported_test_ext(Path::new("foo.cts")));
assert!(!is_supported_test_ext(Path::new("foo.mjsx")));
assert!(!is_supported_test_ext(Path::new("foo.jsonc")));
assert!(!is_supported_test_ext(Path::new("foo.JSONC")));
assert!(!is_supported_test_ext(Path::new("foo.json")));
assert!(!is_supported_test_ext(Path::new("foo.JsON")));
}
#[test]
fn test_is_supported_test_path() {
assert!(is_supported_test_path(Path::new(
"tests/subdir/foo_test.ts"
)));
assert!(is_supported_test_path(Path::new(
"tests/subdir/foo_test.tsx"
)));
assert!(is_supported_test_path(Path::new(
"tests/subdir/foo_test.js"
)));
assert!(is_supported_test_path(Path::new(
"tests/subdir/foo_test.jsx"
)));
assert!(is_supported_test_path(Path::new("bar/foo.test.ts")));
assert!(is_supported_test_path(Path::new("bar/foo.test.tsx")));
assert!(is_supported_test_path(Path::new("bar/foo.test.js")));
assert!(is_supported_test_path(Path::new("bar/foo.test.jsx")));
assert!(is_supported_test_path(Path::new("foo/bar/test.js")));
assert!(is_supported_test_path(Path::new("foo/bar/test.jsx")));
assert!(is_supported_test_path(Path::new("foo/bar/test.ts")));
assert!(is_supported_test_path(Path::new("foo/bar/test.tsx")));
assert!(!is_supported_test_path(Path::new("README.md")));
assert!(!is_supported_test_path(Path::new("lib/typescript.d.ts")));
assert!(!is_supported_test_path(Path::new("notatest.js")));
assert!(!is_supported_test_path(Path::new("NotAtest.ts")));
}
}