// 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, // 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, failure_format_options: TestFailureFormatOptions, } impl JunitTestReporter { pub fn new( cwd: Url, output_path: String, failure_format_options: TestFailureFormatOptions, ) -> Self { Self { cwd, output_path, cases: IndexMap::new(), test_name_tree: TestNameTree::new(), failure_format_options, } } fn convert_status( status: &TestResult, failure_format_options: &TestFailureFormatOptions, ) -> 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.format(failure_format_options).into_owned()), 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, failure_format_options: &TestFailureFormatOptions, ) -> 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.format(failure_format_options).into_owned(), ), 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, &self.failure_format_options); case.set_time(Duration::from_millis(elapsed)); } } fn report_uncaught_error(&mut self, _origin: &str, _error: Box) {} 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, _test_steps: &IndexMap, ) { if let Some(case) = self.cases.get_mut(&description.id) { case.status = Self::convert_step_status(result, &self.failure_format_options); case.set_time(Duration::from_millis(elapsed)); } } fn report_summary( &mut self, _elapsed: &Duration, _tests: &IndexMap, _test_steps: &IndexMap, ) { } fn report_sigint( &mut self, tests_pending: &HashSet, tests: &IndexMap, _test_steps: &IndexMap, ) { 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, test_steps: &IndexMap, ) -> anyhow::Result<()> { let mut suites: IndexMap = 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); 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, test_name: String, } impl From for TestNameTreeNode { fn from(description: TestDescription) -> Self { Self { id: description.id, parent_id: None, test_name: description.name, } } } impl From 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(), ); } }