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denoland-deno/cli/tools/test/reporters/junit.rs
Matt Mastracci 596a2996cf
feat(cli): Add slow test warning (#23874)
By default, uses a 60 second timeout, backing off 2x each time (can be
overridden using the hidden `DENO_SLOW_TEST_TIMEOUT` which we implement
only really for spec testing.

```
Deno.test(async function test() {
  await new Promise(r => setTimeout(r, 130_000));
});
```

```
$ target/debug/deno test /tmp/test_slow.ts 
Check file:///tmp/test_slow.ts
running 1 test from ../../../../../../tmp/test_slow.ts
test ...'test' is running very slowly (1m0s)
'test' is running very slowly (2m0s)
 ok (2m10s)

ok | 1 passed | 0 failed (2m10s)
```

---------

Signed-off-by: Matt Mastracci <matthew@mastracci.com>
Co-authored-by: Bartek Iwańczuk <biwanczuk@gmail.com>
2024-05-22 08:08:27 -06:00

426 lines
12 KiB
Rust

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
use std::collections::VecDeque;
use std::path::PathBuf;
use super::fmt::to_relative_path_or_remote_url;
use super::*;
pub struct JunitTestReporter {
cwd: Url,
output_path: String,
// Stores TestCases (i.e. Tests) by the Test ID
cases: IndexMap<usize, quick_junit::TestCase>,
// Stores nodes representing test cases in such a way that can be traversed
// from child to parent to build the full test name that reflects the test
// hierarchy.
test_name_tree: TestNameTree,
}
impl JunitTestReporter {
pub fn new(cwd: Url, output_path: String) -> Self {
Self {
cwd,
output_path,
cases: IndexMap::new(),
test_name_tree: TestNameTree::new(),
}
}
fn convert_status(status: &TestResult) -> quick_junit::TestCaseStatus {
match status {
TestResult::Ok => quick_junit::TestCaseStatus::success(),
TestResult::Ignored => quick_junit::TestCaseStatus::skipped(),
TestResult::Failed(failure) => quick_junit::TestCaseStatus::NonSuccess {
kind: quick_junit::NonSuccessKind::Failure,
message: Some(failure.overview()),
ty: None,
description: Some(failure.detail()),
reruns: vec![],
},
TestResult::Cancelled => quick_junit::TestCaseStatus::NonSuccess {
kind: quick_junit::NonSuccessKind::Error,
message: Some("Cancelled".to_string()),
ty: None,
description: None,
reruns: vec![],
},
}
}
fn convert_step_status(
status: &TestStepResult,
) -> quick_junit::TestCaseStatus {
match status {
TestStepResult::Ok => quick_junit::TestCaseStatus::success(),
TestStepResult::Ignored => quick_junit::TestCaseStatus::skipped(),
TestStepResult::Failed(failure) => {
quick_junit::TestCaseStatus::NonSuccess {
kind: quick_junit::NonSuccessKind::Failure,
message: Some(failure.overview()),
ty: None,
description: Some(failure.detail()),
reruns: vec![],
}
}
}
}
}
impl TestReporter for JunitTestReporter {
fn report_register(&mut self, description: &TestDescription) {
let mut case = quick_junit::TestCase::new(
description.name.clone(),
quick_junit::TestCaseStatus::skipped(),
);
case.classname = Some(to_relative_path_or_remote_url(
&self.cwd,
&description.location.file_name,
));
case.extra.insert(
String::from("line"),
description.location.line_number.to_string(),
);
case.extra.insert(
String::from("col"),
description.location.column_number.to_string(),
);
self.cases.insert(description.id, case);
self.test_name_tree.add_node(description.clone().into());
}
fn report_plan(&mut self, _plan: &TestPlan) {}
fn report_slow(&mut self, _description: &TestDescription, _elapsed: u64) {}
fn report_wait(&mut self, _description: &TestDescription) {}
fn report_output(&mut self, _output: &[u8]) {
/*
TODO(skycoop): Right now I can't include stdout/stderr in the report because
we have a global pair of output streams that don't differentiate between the
output of different tests. This is a nice to have feature, so we can come
back to it later
*/
}
fn report_result(
&mut self,
description: &TestDescription,
result: &TestResult,
elapsed: u64,
) {
if let Some(case) = self.cases.get_mut(&description.id) {
case.status = Self::convert_status(result);
case.set_time(Duration::from_millis(elapsed));
}
}
fn report_uncaught_error(&mut self, _origin: &str, _error: Box<JsError>) {}
fn report_step_register(&mut self, description: &TestStepDescription) {
self.test_name_tree.add_node(description.clone().into());
let test_case_name =
self.test_name_tree.construct_full_test_name(description.id);
let mut case = quick_junit::TestCase::new(
test_case_name,
quick_junit::TestCaseStatus::skipped(),
);
case.classname = Some(to_relative_path_or_remote_url(
&self.cwd,
&description.location.file_name,
));
case.extra.insert(
String::from("line"),
description.location.line_number.to_string(),
);
case.extra.insert(
String::from("col"),
description.location.column_number.to_string(),
);
self.cases.insert(description.id, case);
}
fn report_step_wait(&mut self, _description: &TestStepDescription) {}
fn report_step_result(
&mut self,
description: &TestStepDescription,
result: &TestStepResult,
elapsed: u64,
_tests: &IndexMap<usize, TestDescription>,
_test_steps: &IndexMap<usize, TestStepDescription>,
) {
if let Some(case) = self.cases.get_mut(&description.id) {
case.status = Self::convert_step_status(result);
case.set_time(Duration::from_millis(elapsed));
}
}
fn report_summary(
&mut self,
_elapsed: &Duration,
_tests: &IndexMap<usize, TestDescription>,
_test_steps: &IndexMap<usize, TestStepDescription>,
) {
}
fn report_sigint(
&mut self,
tests_pending: &HashSet<usize>,
tests: &IndexMap<usize, TestDescription>,
_test_steps: &IndexMap<usize, TestStepDescription>,
) {
for id in tests_pending {
if let Some(description) = tests.get(id) {
self.report_result(description, &TestResult::Cancelled, 0)
}
}
}
fn report_completed(&mut self) {
// TODO(mmastrac): This reporter does not handle stdout/stderr yet, and when we do, we may need to redirect
// pre-and-post-test output somewhere.
}
fn flush_report(
&mut self,
elapsed: &Duration,
tests: &IndexMap<usize, TestDescription>,
test_steps: &IndexMap<usize, TestStepDescription>,
) -> anyhow::Result<()> {
let mut suites: IndexMap<String, quick_junit::TestSuite> = IndexMap::new();
for (id, case) in &self.cases {
let abs_filename = match (tests.get(id), test_steps.get(id)) {
(Some(test), _) => &test.location.file_name,
(_, Some(step)) => &step.location.file_name,
(None, None) => {
unreachable!("Unknown test ID '{id}' provided");
}
};
let filename = to_relative_path_or_remote_url(&self.cwd, abs_filename);
suites
.entry(filename.clone())
.and_modify(|s| {
s.add_test_case(case.clone());
})
.or_insert_with(|| {
let mut suite = quick_junit::TestSuite::new(filename);
suite.add_test_case(case.clone());
suite
});
}
let mut report = quick_junit::Report::new("deno test");
report
.set_time(*elapsed)
.add_test_suites(suites.into_values());
if self.output_path == "-" {
report
.serialize(std::io::stdout())
.with_context(|| "Failed to write JUnit report to stdout")?;
} else {
let file =
crate::util::fs::create_file(&PathBuf::from(&self.output_path))
.context("Failed to open JUnit report file.")?;
report.serialize(file).with_context(|| {
format!("Failed to write JUnit report to {}", self.output_path)
})?;
}
Ok(())
}
}
#[derive(Debug, Default)]
struct TestNameTree(IndexMap<usize, TestNameTreeNode>);
impl TestNameTree {
fn new() -> Self {
// Pre-allocate some space to avoid excessive reallocations.
Self(IndexMap::with_capacity(256))
}
fn add_node(&mut self, node: TestNameTreeNode) {
self.0.insert(node.id, node);
}
/// Constructs the full test name by traversing the tree from the specified
/// node as a child to its parent nodes.
/// If the provided ID is not found in the tree, or the tree is broken (e.g.
/// a child node refers to a parent node that doesn't exist), this method
/// just panics.
fn construct_full_test_name(&self, id: usize) -> String {
let mut current_id = Some(id);
let mut name_pieces = VecDeque::new();
loop {
let Some(id) = current_id else {
break;
};
let Some(node) = self.0.get(&id) else {
// The ID specified as a parent node by the child node should exist in
// the tree, but it doesn't. In this case we give up constructing the
// full test name.
unreachable!("Unregistered test ID '{id}' provided");
};
name_pieces.push_front(node.test_name.as_str());
current_id = node.parent_id;
}
if name_pieces.is_empty() {
unreachable!("Unregistered test ID '{id}' provided");
}
let v: Vec<_> = name_pieces.into();
v.join(" > ")
}
}
#[derive(Debug)]
struct TestNameTreeNode {
id: usize,
parent_id: Option<usize>,
test_name: String,
}
impl From<TestDescription> for TestNameTreeNode {
fn from(description: TestDescription) -> Self {
Self {
id: description.id,
parent_id: None,
test_name: description.name,
}
}
}
impl From<TestStepDescription> for TestNameTreeNode {
fn from(description: TestStepDescription) -> Self {
Self {
id: description.id,
parent_id: Some(description.parent_id),
test_name: description.name,
}
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn construct_full_test_name_one_node() {
let mut tree = TestNameTree::new();
tree.add_node(TestNameTreeNode {
id: 0,
parent_id: None,
test_name: "root".to_string(),
});
assert_eq!(tree.construct_full_test_name(0), "root".to_string());
}
#[test]
fn construct_full_test_name_two_level_hierarchy() {
let mut tree = TestNameTree::new();
tree.add_node(TestNameTreeNode {
id: 0,
parent_id: None,
test_name: "root".to_string(),
});
tree.add_node(TestNameTreeNode {
id: 1,
parent_id: Some(0),
test_name: "child".to_string(),
});
assert_eq!(tree.construct_full_test_name(0), "root".to_string());
assert_eq!(tree.construct_full_test_name(1), "root > child".to_string());
}
#[test]
fn construct_full_test_name_three_level_hierarchy() {
let mut tree = TestNameTree::new();
tree.add_node(TestNameTreeNode {
id: 0,
parent_id: None,
test_name: "root".to_string(),
});
tree.add_node(TestNameTreeNode {
id: 1,
parent_id: Some(0),
test_name: "child".to_string(),
});
tree.add_node(TestNameTreeNode {
id: 2,
parent_id: Some(1),
test_name: "grandchild".to_string(),
});
assert_eq!(tree.construct_full_test_name(0), "root".to_string());
assert_eq!(tree.construct_full_test_name(1), "root > child".to_string());
assert_eq!(
tree.construct_full_test_name(2),
"root > child > grandchild".to_string()
);
}
#[test]
fn construct_full_test_name_one_root_two_chains() {
// 0
// / \
// 1 2
// / \
// 3 4
let mut tree = TestNameTree::new();
tree.add_node(TestNameTreeNode {
id: 0,
parent_id: None,
test_name: "root".to_string(),
});
tree.add_node(TestNameTreeNode {
id: 1,
parent_id: Some(0),
test_name: "child 1".to_string(),
});
tree.add_node(TestNameTreeNode {
id: 2,
parent_id: Some(0),
test_name: "child 2".to_string(),
});
tree.add_node(TestNameTreeNode {
id: 3,
parent_id: Some(1),
test_name: "grandchild 1".to_string(),
});
tree.add_node(TestNameTreeNode {
id: 4,
parent_id: Some(1),
test_name: "grandchild 2".to_string(),
});
assert_eq!(tree.construct_full_test_name(0), "root".to_string());
assert_eq!(
tree.construct_full_test_name(1),
"root > child 1".to_string(),
);
assert_eq!(
tree.construct_full_test_name(2),
"root > child 2".to_string(),
);
assert_eq!(
tree.construct_full_test_name(3),
"root > child 1 > grandchild 1".to_string(),
);
assert_eq!(
tree.construct_full_test_name(4),
"root > child 1 > grandchild 2".to_string(),
);
}
}