// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license. use super::definitions::TestDefinition; use super::definitions::TestDefinitions; use super::lsp_custom; use crate::args::flags_from_vec; use crate::args::DenoSubcommand; use crate::lsp::client::Client; use crate::lsp::client::TestingNotification; use crate::lsp::config; use crate::lsp::logging::lsp_log; use crate::ops; use crate::proc_state; use crate::tools::test; use crate::tools::test::TestEventSender; use crate::util::checksum; use crate::worker::create_main_worker_for_test_or_bench; use deno_core::anyhow::anyhow; use deno_core::error::AnyError; use deno_core::error::JsError; use deno_core::futures::future; use deno_core::futures::stream; use deno_core::futures::StreamExt; use deno_core::parking_lot::Mutex; use deno_core::parking_lot::RwLock; use deno_core::ModuleSpecifier; use deno_runtime::ops::io::Stdio; use deno_runtime::ops::io::StdioPipe; use deno_runtime::permissions::Permissions; use deno_runtime::tokio_util::run_local; use indexmap::IndexMap; use std::collections::HashMap; use std::collections::HashSet; use std::sync::Arc; use std::time::Duration; use std::time::Instant; use tokio::sync::mpsc; use tokio_util::sync::CancellationToken; use tower_lsp::lsp_types as lsp; /// Logic to convert a test request into a set of test modules to be tested and /// any filters to be applied to those tests fn as_queue_and_filters( params: &lsp_custom::TestRunRequestParams, tests: &HashMap, ) -> ( HashSet, HashMap, ) { let mut queue: HashSet = HashSet::new(); let mut filters: HashMap = HashMap::new(); if let Some(include) = ¶ms.include { for item in include { if let Some(test_definitions) = tests.get(&item.text_document.uri) { queue.insert(item.text_document.uri.clone()); if let Some(id) = &item.id { if let Some(test) = test_definitions.get_by_id(id) { let filter = filters.entry(item.text_document.uri.clone()).or_default(); if let Some(include) = filter.include.as_mut() { include.insert(test.id.clone(), test.clone()); } else { let mut include = HashMap::new(); include.insert(test.id.clone(), test.clone()); filter.include = Some(include); } } } } } } // if we didn't have any specific include filters, we assume that all modules // will be tested if queue.is_empty() { queue.extend(tests.keys().cloned()); } for item in ¶ms.exclude { if let Some(test_definitions) = tests.get(&item.text_document.uri) { if let Some(id) = &item.id { // there is no way to exclude a test step if item.step_id.is_none() { if let Some(test) = test_definitions.get_by_id(id) { let filter = filters.entry(item.text_document.uri.clone()).or_default(); filter.exclude.insert(test.id.clone(), test.clone()); } } } else { // the entire test module is excluded queue.remove(&item.text_document.uri); } } } (queue, filters) } fn as_test_messages>( message: S, is_markdown: bool, ) -> Vec { let message = lsp::MarkupContent { kind: if is_markdown { lsp::MarkupKind::Markdown } else { lsp::MarkupKind::PlainText }, value: message.as_ref().to_string(), }; vec![lsp_custom::TestMessage { message, expected_output: None, actual_output: None, location: None, }] } #[derive(Debug, Clone, Default, PartialEq)] struct LspTestFilter { include: Option>, exclude: HashMap, } impl LspTestFilter { fn as_ids(&self, test_definitions: &TestDefinitions) -> Vec { let ids: Vec = if let Some(include) = &self.include { include.keys().cloned().collect() } else { test_definitions .discovered .iter() .map(|td| td.id.clone()) .collect() }; ids .into_iter() .filter(|id| !self.exclude.contains_key(id)) .collect() } } async fn test_specifier( ps: proc_state::ProcState, permissions: Permissions, specifier: ModuleSpecifier, mode: test::TestMode, sender: &TestEventSender, token: CancellationToken, filter: test::TestFilter, ) -> Result<(), AnyError> { if !token.is_cancelled() { let mut worker = create_main_worker_for_test_or_bench( &ps, specifier.clone(), permissions, vec![ops::testing::init(sender.clone(), filter)], Stdio { stdin: StdioPipe::Inherit, stdout: StdioPipe::File(sender.stdout()), stderr: StdioPipe::File(sender.stderr()), }, ) .await?; worker.run_lsp_test_specifier(mode).await?; } Ok(()) } #[derive(Debug, Clone)] pub struct TestRun { id: u32, kind: lsp_custom::TestRunKind, filters: HashMap, queue: HashSet, tests: Arc>>, token: CancellationToken, workspace_settings: config::WorkspaceSettings, } impl TestRun { pub fn new( params: &lsp_custom::TestRunRequestParams, tests: Arc>>, workspace_settings: config::WorkspaceSettings, ) -> Self { let (queue, filters) = { let tests = tests.lock(); as_queue_and_filters(params, &tests) }; Self { id: params.id, kind: params.kind.clone(), filters, queue, tests, token: CancellationToken::new(), workspace_settings, } } /// Provide the tests of a test run as an enqueued module which can be sent /// to the client to indicate tests are enqueued for testing. pub fn as_enqueued(&self) -> Vec { let tests = self.tests.lock(); self .queue .iter() .map(|s| { let ids = if let Some(test_definitions) = tests.get(s) { if let Some(filter) = self.filters.get(s) { filter.as_ids(test_definitions) } else { test_definitions .discovered .iter() .map(|test| test.id.clone()) .collect() } } else { Vec::new() }; lsp_custom::EnqueuedTestModule { text_document: lsp::TextDocumentIdentifier { uri: s.clone() }, ids, } }) .collect() } /// If being executed, cancel the test. pub fn cancel(&self) { self.token.cancel(); } /// Execute the tests, dispatching progress notifications to the client. pub async fn exec( &self, client: &Client, maybe_root_uri: Option<&ModuleSpecifier>, ) -> Result<(), AnyError> { let args = self.get_args(); lsp_log!("Executing test run with arguments: {}", args.join(" ")); let flags = flags_from_vec(args.into_iter().map(String::from).collect())?; let ps = proc_state::ProcState::build(flags).await?; let permissions = Permissions::from_options(&ps.options.permissions_options())?; test::check_specifiers( &ps, permissions.clone(), self .queue .iter() .map(|s| (s.clone(), test::TestMode::Executable)) .collect(), ) .await?; let (sender, mut receiver) = mpsc::unbounded_channel::(); let sender = TestEventSender::new(sender); let (concurrent_jobs, fail_fast) = if let DenoSubcommand::Test(test_flags) = ps.options.sub_command() { ( test_flags.concurrent_jobs.into(), test_flags.fail_fast.map(|count| count.into()), ) } else { unreachable!("Should always be Test subcommand."); }; let mut queue = self.queue.iter().collect::>(); queue.sort(); let tests: Arc>> = Arc::new(RwLock::new(IndexMap::new())); let mut test_steps = IndexMap::new(); let tests_ = tests.clone(); let join_handles = queue.into_iter().map(move |specifier| { let specifier = specifier.clone(); let ps = ps.clone(); let permissions = permissions.clone(); let mut sender = sender.clone(); let lsp_filter = self.filters.get(&specifier); let filter = test::TestFilter { substring: None, regex: None, include: lsp_filter.and_then(|f| { f.include .as_ref() .map(|i| i.values().map(|t| t.name.clone()).collect()) }), exclude: lsp_filter .map(|f| f.exclude.values().map(|t| t.name.clone()).collect()) .unwrap_or_default(), }; let token = self.token.clone(); let tests = tests_.clone(); tokio::task::spawn_blocking(move || { let origin = specifier.to_string(); let file_result = run_local(test_specifier( ps, permissions, specifier, test::TestMode::Executable, &sender, token, filter, )); if let Err(error) = file_result { if error.is::() { sender.send(test::TestEvent::UncaughtError( origin.clone(), Box::new(error.downcast::().unwrap()), ))?; for desc in tests.read().values() { if desc.origin == origin { sender.send(test::TestEvent::Result( desc.id, test::TestResult::Cancelled, 0, ))? } } } else { return Err(error); } } Ok(()) }) }); let join_stream = stream::iter(join_handles) .buffer_unordered(concurrent_jobs) .collect::, tokio::task::JoinError>>>(); let mut reporter = Box::new(LspTestReporter::new( self, client.clone(), maybe_root_uri, self.tests.clone(), )); let handler = { tokio::task::spawn(async move { let earlier = Instant::now(); let mut summary = test::TestSummary::new(); let mut used_only = false; while let Some(event) = receiver.recv().await { match event { test::TestEvent::Register(description) => { reporter.report_register(&description); tests.write().insert(description.id, description); } test::TestEvent::Plan(plan) => { summary.total += plan.total; summary.filtered_out += plan.filtered_out; if plan.used_only { used_only = true; } reporter.report_plan(&plan); } test::TestEvent::Wait(id) => { reporter.report_wait(tests.read().get(&id).unwrap()); } test::TestEvent::Output(output) => { reporter.report_output(&output); } test::TestEvent::Result(id, result, elapsed) => { let description = tests.read().get(&id).unwrap().clone(); match &result { test::TestResult::Ok => summary.passed += 1, test::TestResult::Ignored => summary.ignored += 1, test::TestResult::Failed(error) => { summary.failed += 1; summary.failures.push((description.clone(), error.clone())); } test::TestResult::Cancelled => { summary.failed += 1; } } reporter.report_result(&description, &result, elapsed); } test::TestEvent::UncaughtError(origin, error) => { reporter.report_uncaught_error(&origin, &error); summary.failed += 1; summary.uncaught_errors.push((origin, error)); } test::TestEvent::StepRegister(description) => { reporter.report_step_register(&description); test_steps.insert(description.id, description); } test::TestEvent::StepWait(id) => { reporter.report_step_wait(test_steps.get(&id).unwrap()); } test::TestEvent::StepResult(id, result, duration) => { match &result { test::TestStepResult::Ok => { summary.passed_steps += 1; } test::TestStepResult::Ignored => { summary.ignored_steps += 1; } test::TestStepResult::Failed(_) => { summary.failed_steps += 1; } test::TestStepResult::Pending(_) => { summary.pending_steps += 1; } } reporter.report_step_result( test_steps.get(&id).unwrap(), &result, duration, ); } } if let Some(count) = fail_fast { if summary.failed >= count { break; } } } let elapsed = Instant::now().duration_since(earlier); reporter.report_summary(&summary, &elapsed); if used_only { return Err(anyhow!( "Test failed because the \"only\" option was used" )); } if summary.failed > 0 { return Err(anyhow!("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(()) } fn get_args(&self) -> Vec<&str> { let mut args = vec!["deno", "test"]; args.extend( self .workspace_settings .testing .args .iter() .map(|s| s.as_str()), ); if self.workspace_settings.unstable && !args.contains(&"--unstable") { args.push("--unstable"); } if let Some(config) = &self.workspace_settings.config { if !args.contains(&"--config") && !args.contains(&"-c") { args.push("--config"); args.push(config.as_str()); } } if let Some(import_map) = &self.workspace_settings.import_map { if !args.contains(&"--import-map") { args.push("--import-map"); args.push(import_map.as_str()); } } if self.kind == lsp_custom::TestRunKind::Debug && !args.contains(&"--inspect") && !args.contains(&"--inspect-brk") { args.push("--inspect"); } args } } #[derive(Debug, PartialEq)] enum TestOrTestStepDescription { TestDescription(test::TestDescription), TestStepDescription(test::TestStepDescription), } impl From<&test::TestDescription> for TestOrTestStepDescription { fn from(desc: &test::TestDescription) -> Self { Self::TestDescription(desc.clone()) } } impl From<&test::TestStepDescription> for TestOrTestStepDescription { fn from(desc: &test::TestStepDescription) -> Self { Self::TestStepDescription(desc.clone()) } } impl From<&TestOrTestStepDescription> for lsp_custom::TestIdentifier { fn from(desc: &TestOrTestStepDescription) -> lsp_custom::TestIdentifier { match desc { TestOrTestStepDescription::TestDescription(test_desc) => test_desc.into(), TestOrTestStepDescription::TestStepDescription(test_step_desc) => { test_step_desc.into() } } } } impl From<&TestOrTestStepDescription> for lsp_custom::TestData { fn from(desc: &TestOrTestStepDescription) -> Self { match desc { TestOrTestStepDescription::TestDescription(desc) => desc.into(), TestOrTestStepDescription::TestStepDescription(desc) => desc.into(), } } } impl From<&test::TestDescription> for lsp_custom::TestData { fn from(desc: &test::TestDescription) -> Self { Self { id: desc.static_id(), label: desc.name.clone(), steps: Default::default(), range: None, } } } impl From<&test::TestDescription> for lsp_custom::TestIdentifier { fn from(desc: &test::TestDescription) -> Self { let uri = ModuleSpecifier::parse(&desc.origin).unwrap(); Self { text_document: lsp::TextDocumentIdentifier { uri }, id: Some(desc.static_id()), step_id: None, } } } impl From<&test::TestStepDescription> for lsp_custom::TestData { fn from(desc: &test::TestStepDescription) -> Self { Self { id: desc.static_id(), label: desc.name.clone(), steps: Default::default(), range: None, } } } impl From<&test::TestStepDescription> for lsp_custom::TestIdentifier { fn from(desc: &test::TestStepDescription) -> Self { let uri = ModuleSpecifier::parse(&desc.origin).unwrap(); Self { text_document: lsp::TextDocumentIdentifier { uri }, id: Some(checksum::gen(&[ desc.origin.as_bytes(), desc.root_name.as_bytes(), ])), step_id: Some(desc.static_id()), } } } struct LspTestReporter { client: Client, current_origin: Option, maybe_root_uri: Option, id: u32, stack: HashMap>, tests: Arc>>, } impl LspTestReporter { fn new( run: &TestRun, client: Client, maybe_root_uri: Option<&ModuleSpecifier>, tests: Arc>>, ) -> Self { Self { client, current_origin: None, maybe_root_uri: maybe_root_uri.cloned(), id: run.id, stack: HashMap::new(), tests, } } fn progress(&self, message: lsp_custom::TestRunProgressMessage) { self .client .send_test_notification(TestingNotification::Progress( lsp_custom::TestRunProgressParams { id: self.id, message, }, )); } fn report_plan(&mut self, _plan: &test::TestPlan) {} fn report_register(&mut self, desc: &test::TestDescription) { let mut tests = self.tests.lock(); let tds = tests .entry(ModuleSpecifier::parse(&desc.location.file_name).unwrap()) .or_default(); if tds.inject(desc.into()) { let specifier = ModuleSpecifier::parse(&desc.origin).unwrap(); let label = if let Some(root) = &self.maybe_root_uri { specifier.as_str().replace(root.as_str(), "") } else { specifier .path_segments() .and_then(|s| s.last().map(|s| s.to_string())) .unwrap_or_else(|| "".to_string()) }; self .client .send_test_notification(TestingNotification::Module( lsp_custom::TestModuleNotificationParams { text_document: lsp::TextDocumentIdentifier { uri: specifier }, kind: lsp_custom::TestModuleNotificationKind::Insert, label, tests: vec![desc.into()], }, )); } } fn report_wait(&mut self, desc: &test::TestDescription) { self.current_origin = Some(desc.origin.clone()); let test: lsp_custom::TestIdentifier = desc.into(); let stack = self.stack.entry(desc.origin.clone()).or_default(); assert!(stack.is_empty()); stack.push(desc.into()); self.progress(lsp_custom::TestRunProgressMessage::Started { test }); } fn report_output(&mut self, output: &[u8]) { let test = self.current_origin.as_ref().and_then(|origin| { self .stack .get(origin) .and_then(|v| v.last().map(|td| td.into())) }); let value = String::from_utf8_lossy(output).replace('\n', "\r\n"); self.progress(lsp_custom::TestRunProgressMessage::Output { value, test, // TODO(@kitsonk) test output should include a location location: None, }) } fn report_result( &mut self, desc: &test::TestDescription, result: &test::TestResult, elapsed: u64, ) { let stack = self.stack.entry(desc.origin.clone()).or_default(); assert_eq!(stack.len(), 1); assert_eq!(stack.pop(), Some(desc.into())); self.current_origin = None; match result { test::TestResult::Ok => { self.progress(lsp_custom::TestRunProgressMessage::Passed { test: desc.into(), duration: Some(elapsed as u32), }) } test::TestResult::Ignored => { self.progress(lsp_custom::TestRunProgressMessage::Skipped { test: desc.into(), }) } test::TestResult::Failed(js_error) => { let err_string = test::format_test_error(js_error); self.progress(lsp_custom::TestRunProgressMessage::Failed { test: desc.into(), messages: as_test_messages(err_string, false), duration: Some(elapsed as u32), }) } test::TestResult::Cancelled => { self.progress(lsp_custom::TestRunProgressMessage::Failed { test: desc.into(), messages: vec![], duration: Some(elapsed as u32), }) } } } fn report_uncaught_error(&mut self, origin: &str, js_error: &JsError) { if self.current_origin == Some(origin.to_string()) { self.current_origin = None; } let stack = self.stack.remove(origin).unwrap_or_default(); let err_string = format!( "Uncaught error from {}: {}\nThis error was not caught from a test and caused the test runner to fail on the referenced module.\nIt most likely originated from a dangling promise, event/timeout handler or top-level code.", origin, test::format_test_error(js_error) ); let messages = as_test_messages(err_string, false); for t in stack.iter().rev() { match t { TestOrTestStepDescription::TestDescription(desc) => { self.progress(lsp_custom::TestRunProgressMessage::Failed { test: desc.into(), messages: messages.clone(), duration: None, }); } TestOrTestStepDescription::TestStepDescription(desc) => { self.progress(lsp_custom::TestRunProgressMessage::Failed { test: desc.into(), messages: messages.clone(), duration: None, }); } } } } fn report_step_register(&mut self, desc: &test::TestStepDescription) { let mut tests = self.tests.lock(); let tds = tests .entry(ModuleSpecifier::parse(&desc.location.file_name).unwrap()) .or_default(); if tds.inject(desc.into()) { let specifier = ModuleSpecifier::parse(&desc.origin).unwrap(); let mut prev: lsp_custom::TestData = desc.into(); if let Some(stack) = self.stack.get(&desc.origin) { for item in stack.iter().rev() { let mut data: lsp_custom::TestData = item.into(); data.steps = vec![prev]; prev = data; } let label = if let Some(root) = &self.maybe_root_uri { specifier.as_str().replace(root.as_str(), "") } else { specifier .path_segments() .and_then(|s| s.last().map(|s| s.to_string())) .unwrap_or_else(|| "".to_string()) }; self .client .send_test_notification(TestingNotification::Module( lsp_custom::TestModuleNotificationParams { text_document: lsp::TextDocumentIdentifier { uri: specifier }, kind: lsp_custom::TestModuleNotificationKind::Insert, label, tests: vec![prev], }, )); } } } fn report_step_wait(&mut self, desc: &test::TestStepDescription) { let test: lsp_custom::TestIdentifier = desc.into(); let stack = self.stack.entry(desc.origin.clone()).or_default(); self.current_origin = Some(desc.origin.clone()); assert!(!stack.is_empty()); stack.push(desc.into()); self.progress(lsp_custom::TestRunProgressMessage::Started { test }); } fn report_step_result( &mut self, desc: &test::TestStepDescription, result: &test::TestStepResult, elapsed: u64, ) { let stack = self.stack.entry(desc.origin.clone()).or_default(); assert_eq!(stack.pop(), Some(desc.into())); match result { test::TestStepResult::Ok => { self.progress(lsp_custom::TestRunProgressMessage::Passed { test: desc.into(), duration: Some(elapsed as u32), }) } test::TestStepResult::Ignored => { self.progress(lsp_custom::TestRunProgressMessage::Skipped { test: desc.into(), }) } test::TestStepResult::Failed(js_error) => { let messages = if let Some(js_error) = js_error { let err_string = test::format_test_error(js_error); as_test_messages(err_string, false) } else { vec![] }; self.progress(lsp_custom::TestRunProgressMessage::Failed { test: desc.into(), messages, duration: Some(elapsed as u32), }) } test::TestStepResult::Pending(_) => { self.progress(lsp_custom::TestRunProgressMessage::Enqueued { test: desc.into(), }) } } } fn report_summary( &mut self, _summary: &test::TestSummary, _elapsed: &Duration, ) { // there is nothing to do on report_summary } } #[cfg(test)] mod tests { use super::*; use crate::lsp::testing::collectors::tests::new_range; use deno_core::serde_json::json; #[test] fn test_as_queue_and_filters() { let specifier = ModuleSpecifier::parse("file:///a/file.ts").unwrap(); let params = lsp_custom::TestRunRequestParams { id: 1, kind: lsp_custom::TestRunKind::Run, include: Some(vec![lsp_custom::TestIdentifier { text_document: lsp::TextDocumentIdentifier { uri: specifier.clone(), }, id: None, step_id: None, }]), exclude: vec![lsp_custom::TestIdentifier { text_document: lsp::TextDocumentIdentifier { uri: specifier.clone(), }, id: Some( "69d9fe87f64f5b66cb8b631d4fd2064e8224b8715a049be54276c42189ff8f9f" .to_string(), ), step_id: None, }], }; let mut tests = HashMap::new(); let test_def_a = TestDefinition { id: "0b7c6bf3cd617018d33a1bf982a08fe088c5bb54fcd5eb9e802e7c137ec1af94" .to_string(), level: 0, name: "test a".to_string(), range: new_range(420, 424), steps: vec![], }; let test_def_b = TestDefinition { id: "69d9fe87f64f5b66cb8b631d4fd2064e8224b8715a049be54276c42189ff8f9f" .to_string(), level: 0, name: "test b".to_string(), range: new_range(480, 481), steps: vec![], }; let test_definitions = TestDefinitions { discovered: vec![test_def_a, test_def_b.clone()], injected: vec![], script_version: "1".to_string(), }; tests.insert(specifier.clone(), test_definitions.clone()); let (queue, filters) = as_queue_and_filters(¶ms, &tests); assert_eq!(json!(queue), json!([specifier])); let mut exclude = HashMap::new(); exclude.insert( "69d9fe87f64f5b66cb8b631d4fd2064e8224b8715a049be54276c42189ff8f9f" .to_string(), test_def_b, ); let maybe_filter = filters.get(&specifier); assert!(maybe_filter.is_some()); let filter = maybe_filter.unwrap(); assert_eq!( filter, &LspTestFilter { include: None, exclude, } ); assert_eq!( filter.as_ids(&test_definitions), vec![ "0b7c6bf3cd617018d33a1bf982a08fe088c5bb54fcd5eb9e802e7c137ec1af94" .to_string() ] ); } }