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denoland-deno/cli/tools/test.rs

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// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
use crate::cache;
use crate::cache::CacherLoader;
use crate::colors;
use crate::compat;
use crate::create_main_worker;
use crate::display;
use crate::emit;
use crate::file_fetcher::File;
use crate::file_watcher;
use crate::file_watcher::ResolutionResult;
use crate::flags::Flags;
use crate::flags::TestFlags;
use crate::flags::TypecheckMode;
use crate::fs_util::collect_specifiers;
use crate::fs_util::is_supported_test_ext;
use crate::fs_util::is_supported_test_path;
use crate::graph_util::contains_specifier;
use crate::graph_util::graph_valid;
use crate::located_script_name;
use crate::lockfile;
use crate::ops;
use crate::proc_state::ProcState;
use crate::resolver::ImportMapResolver;
use crate::resolver::JsxResolver;
use crate::tools::coverage::CoverageCollector;
use deno_ast::swc::common::comments::CommentKind;
use deno_ast::MediaType;
use deno_core::error::generic_error;
use deno_core::error::AnyError;
use deno_core::futures::future;
use deno_core::futures::stream;
refactor: Rewrite Inspector implementation (#10725) This commit refactors implementation of inspector. The intention is to be able to move inspector implementation to "deno_core". Following things were done to make that possible: * "runtime/inspector.rs" was split into "runtime/inspector/mod.rs" and "runtime/inspector/server.rs", separating inspector implementation from Websocket server implementation. * "DenoInspector" was renamed to "JsRuntimeInspector" and reference to "server" was removed from the structure, making it independent of Websocket server used to connect to Chrome Devtools. * "WebsocketSession" was renamed to "InspectorSession" and rewritten in such a way that it's not tied to Websockets anymore; instead it accepts a pair of "proxy" channel ends that allow to integrate the session with different "transports". * "InspectorSession" was renamed to "LocalInspectorSession" to better indicate that it's an "in-memory" session and doesn't require Websocket server. It was also rewritten in such a way that it uses "InspectorSession" from previous point instead of reimplementing "v8::inspector::ChannelImpl" trait; this is done by using the "proxy" channels to communicate with the V8 session. Consequently "LocalInspectorSession" is now a frontend to "InspectorSession". This introduces a small inconvenience that awaiting responses for "LocalInspectorSession" requires to concurrently poll worker's event loop. This arises from the fact that "InspectorSession" is now owned by "JsRuntimeInspector", which in turn is owned by "Worker" or "WebWorker". To ease this situation "Worker::with_event_loop" helper method was added, that takes a future and concurrently polls it along with the event loop (using "tokio::select!" macro inside a loop).
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use deno_core::futures::FutureExt;
use deno_core::futures::StreamExt;
use deno_core::serde_json::json;
use deno_core::ModuleSpecifier;
use deno_graph::ModuleKind;
use deno_runtime::permissions::Permissions;
use deno_runtime::tokio_util::run_basic;
use log::Level;
use rand::rngs::SmallRng;
use rand::seq::SliceRandom;
use rand::SeedableRng;
use regex::Regex;
use serde::Deserialize;
use std::collections::HashMap;
use std::collections::HashSet;
use std::io::Write;
use std::num::NonZeroUsize;
use std::path::PathBuf;
use std::sync::Arc;
use std::time::Duration;
use std::time::Instant;
use tokio::sync::mpsc::unbounded_channel;
use tokio::sync::mpsc::UnboundedSender;
/// The test mode is used to determine how a specifier is to be tested.
#[derive(Debug, Clone, PartialEq)]
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(Debug, Clone, PartialEq, Deserialize, Eq, Hash)]
#[serde(rename_all = "camelCase")]
pub struct TestDescription {
pub origin: String,
pub name: String,
}
#[derive(Debug, Clone, PartialEq, Deserialize)]
#[serde(rename_all = "camelCase")]
pub enum TestOutput {
// TODO(caspervonb): add stdout and stderr redirection.
Console(String),
}
#[derive(Debug, Clone, PartialEq, Deserialize)]
#[serde(rename_all = "camelCase")]
pub enum TestResult {
Ok,
Ignored,
Failed(String),
}
#[derive(Debug, Clone, PartialEq, Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct TestStepDescription {
pub test: TestDescription,
pub level: usize,
pub name: String,
}
#[derive(Debug, Clone, PartialEq, Deserialize)]
#[serde(rename_all = "camelCase")]
pub enum TestStepResult {
Ok,
Ignored,
Failed(Option<String>),
Pending(Option<String>),
}
impl TestStepResult {
fn error(&self) -> Option<&str> {
match self {
TestStepResult::Failed(Some(text)) => Some(text.as_str()),
TestStepResult::Pending(Some(text)) => Some(text.as_str()),
_ => None,
}
}
}
#[derive(Debug, Clone, 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 {
Plan(TestPlan),
Wait(TestDescription),
Output(TestOutput),
Result(TestDescription, TestResult, u64),
StepWait(TestStepDescription),
StepResult(TestStepDescription, TestStepResult, u64),
}
#[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 pending_steps: usize,
pub ignored_steps: usize,
pub filtered_out: usize,
pub measured: usize,
pub failures: Vec<(TestDescription, String)>,
}
#[derive(Debug, Clone, Deserialize)]
struct TestSpecifierOptions {
compat_mode: bool,
concurrent_jobs: NonZeroUsize,
fail_fast: Option<NonZeroUsize>,
filter: Option<String>,
shuffle: Option<u64>,
trace_ops: bool,
}
impl TestSummary {
fn new() -> TestSummary {
TestSummary {
total: 0,
passed: 0,
failed: 0,
ignored: 0,
passed_steps: 0,
failed_steps: 0,
pending_steps: 0,
ignored_steps: 0,
filtered_out: 0,
measured: 0,
failures: Vec::new(),
}
}
fn has_failed(&self) -> bool {
self.failed > 0 || !self.failures.is_empty()
}
fn has_pending(&self) -> bool {
self.total - self.passed - self.failed - self.ignored > 0
}
}
trait TestReporter {
fn report_plan(&mut self, plan: &TestPlan);
fn report_wait(&mut self, description: &TestDescription);
fn report_output(&mut self, output: &TestOutput);
fn report_result(
&mut self,
description: &TestDescription,
result: &TestResult,
elapsed: u64,
);
fn report_step_wait(&mut self, description: &TestStepDescription);
fn report_step_result(
&mut self,
description: &TestStepDescription,
result: &TestStepResult,
elapsed: u64,
);
fn report_summary(&mut self, summary: &TestSummary, elapsed: &Duration);
}
enum DeferredStepOutput {
StepWait(TestStepDescription),
StepResult(TestStepDescription, TestStepResult, u64),
}
struct PrettyTestReporter {
concurrent: bool,
echo_output: bool,
deferred_step_output: HashMap<TestDescription, Vec<DeferredStepOutput>>,
last_wait_output_level: usize,
}
impl PrettyTestReporter {
fn new(concurrent: bool, echo_output: bool) -> PrettyTestReporter {
PrettyTestReporter {
concurrent,
echo_output,
deferred_step_output: HashMap::new(),
last_wait_output_level: 0,
}
}
fn force_report_wait(&mut self, description: &TestDescription) {
print!("test {} ...", description.name);
// flush for faster feedback when line buffered
std::io::stdout().flush().unwrap();
self.last_wait_output_level = 0;
}
fn force_report_step_wait(&mut self, description: &TestStepDescription) {
if self.last_wait_output_level < description.level {
println!();
}
print!(
"{}test {} ...",
" ".repeat(description.level),
description.name
);
// flush for faster feedback when line buffered
std::io::stdout().flush().unwrap();
self.last_wait_output_level = description.level;
}
fn force_report_step_result(
&mut self,
description: &TestStepDescription,
result: &TestStepResult,
elapsed: u64,
) {
let status = match result {
TestStepResult::Ok => colors::green("ok").to_string(),
TestStepResult::Ignored => colors::yellow("ignored").to_string(),
TestStepResult::Pending(_) => colors::gray("pending").to_string(),
TestStepResult::Failed(_) => colors::red("FAILED").to_string(),
};
if self.last_wait_output_level == description.level {
print!(" ");
} else {
print!("{}", " ".repeat(description.level));
}
println!(
"{} {}",
status,
colors::gray(format!("({})", display::human_elapsed(elapsed.into())))
);
if let Some(error_text) = result.error() {
for line in error_text.lines() {
println!("{}{}", " ".repeat(description.level + 1), line);
}
}
}
}
impl TestReporter for PrettyTestReporter {
fn report_plan(&mut self, plan: &TestPlan) {
let inflection = if plan.total == 1 { "test" } else { "tests" };
println!("running {} {} from {}", plan.total, inflection, plan.origin);
}
fn report_wait(&mut self, description: &TestDescription) {
if !self.concurrent {
self.force_report_wait(description);
}
}
fn report_output(&mut self, output: &TestOutput) {
if self.echo_output {
match output {
TestOutput::Console(line) => println!("{}", line),
}
}
}
fn report_result(
&mut self,
description: &TestDescription,
result: &TestResult,
elapsed: u64,
) {
if self.concurrent {
self.force_report_wait(description);
if let Some(step_outputs) = self.deferred_step_output.remove(description)
{
for step_output in step_outputs {
match step_output {
DeferredStepOutput::StepWait(description) => {
self.force_report_step_wait(&description)
}
DeferredStepOutput::StepResult(
step_description,
step_result,
elapsed,
) => self.force_report_step_result(
&step_description,
&step_result,
elapsed,
),
}
}
}
}
let status = match result {
TestResult::Ok => colors::green("ok").to_string(),
TestResult::Ignored => colors::yellow("ignored").to_string(),
TestResult::Failed(_) => colors::red("FAILED").to_string(),
};
if self.last_wait_output_level == 0 {
print!(" ");
}
println!(
"{} {}",
status,
colors::gray(format!("({})", display::human_elapsed(elapsed.into())))
);
}
fn report_step_wait(&mut self, description: &TestStepDescription) {
if self.concurrent {
self
.deferred_step_output
.entry(description.test.to_owned())
.or_insert_with(Vec::new)
.push(DeferredStepOutput::StepWait(description.clone()));
} else {
self.force_report_step_wait(description);
}
}
fn report_step_result(
&mut self,
description: &TestStepDescription,
result: &TestStepResult,
elapsed: u64,
) {
if self.concurrent {
self
.deferred_step_output
.entry(description.test.to_owned())
.or_insert_with(Vec::new)
.push(DeferredStepOutput::StepResult(
description.clone(),
result.clone(),
elapsed,
));
} else {
self.force_report_step_result(description, result, elapsed);
}
}
fn report_summary(&mut self, summary: &TestSummary, elapsed: &Duration) {
if !summary.failures.is_empty() {
println!("\nfailures:\n");
for (description, error) in &summary.failures {
println!("{}", description.name);
println!("{}", error);
println!();
}
println!("failures:\n");
for (description, _) in &summary.failures {
println!("\t{}", description.name);
}
}
let status = if summary.has_failed() || summary.has_pending() {
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!(" ({} steps)", count)
}
};
println!(
"\ntest result: {}. {} passed{}; {} failed{}; {} ignored{}; {} measured; {} filtered out {}\n",
status,
summary.passed,
get_steps_text(summary.passed_steps),
summary.failed,
get_steps_text(summary.failed_steps + summary.pending_steps),
summary.ignored,
get_steps_text(summary.ignored_steps),
summary.measured,
summary.filtered_out,
colors::gray(
format!("({})", display::human_elapsed(elapsed.as_millis()))),
);
}
}
fn create_reporter(
concurrent: bool,
echo_output: bool,
) -> Box<dyn TestReporter + Send> {
Box::new(PrettyTestReporter::new(concurrent, echo_output))
}
/// Test a single specifier as documentation containing test programs, an executable test module or
/// both.
async fn test_specifier(
ps: ProcState,
permissions: Permissions,
specifier: ModuleSpecifier,
mode: TestMode,
channel: UnboundedSender<TestEvent>,
options: TestSpecifierOptions,
) -> Result<(), AnyError> {
let mut worker = create_main_worker(
&ps,
specifier.clone(),
permissions,
vec![ops::testing::init(channel.clone())],
);
let mut maybe_coverage_collector = if let Some(ref coverage_dir) =
ps.coverage_dir
{
refactor: Rewrite Inspector implementation (#10725) This commit refactors implementation of inspector. The intention is to be able to move inspector implementation to "deno_core". Following things were done to make that possible: * "runtime/inspector.rs" was split into "runtime/inspector/mod.rs" and "runtime/inspector/server.rs", separating inspector implementation from Websocket server implementation. * "DenoInspector" was renamed to "JsRuntimeInspector" and reference to "server" was removed from the structure, making it independent of Websocket server used to connect to Chrome Devtools. * "WebsocketSession" was renamed to "InspectorSession" and rewritten in such a way that it's not tied to Websockets anymore; instead it accepts a pair of "proxy" channel ends that allow to integrate the session with different "transports". * "InspectorSession" was renamed to "LocalInspectorSession" to better indicate that it's an "in-memory" session and doesn't require Websocket server. It was also rewritten in such a way that it uses "InspectorSession" from previous point instead of reimplementing "v8::inspector::ChannelImpl" trait; this is done by using the "proxy" channels to communicate with the V8 session. Consequently "LocalInspectorSession" is now a frontend to "InspectorSession". This introduces a small inconvenience that awaiting responses for "LocalInspectorSession" requires to concurrently poll worker's event loop. This arises from the fact that "InspectorSession" is now owned by "JsRuntimeInspector", which in turn is owned by "Worker" or "WebWorker". To ease this situation "Worker::with_event_loop" helper method was added, that takes a future and concurrently polls it along with the event loop (using "tokio::select!" macro inside a loop).
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let session = worker.create_inspector_session().await;
let coverage_dir = PathBuf::from(coverage_dir);
let mut coverage_collector = CoverageCollector::new(coverage_dir, session);
refactor: Rewrite Inspector implementation (#10725) This commit refactors implementation of inspector. The intention is to be able to move inspector implementation to "deno_core". Following things were done to make that possible: * "runtime/inspector.rs" was split into "runtime/inspector/mod.rs" and "runtime/inspector/server.rs", separating inspector implementation from Websocket server implementation. * "DenoInspector" was renamed to "JsRuntimeInspector" and reference to "server" was removed from the structure, making it independent of Websocket server used to connect to Chrome Devtools. * "WebsocketSession" was renamed to "InspectorSession" and rewritten in such a way that it's not tied to Websockets anymore; instead it accepts a pair of "proxy" channel ends that allow to integrate the session with different "transports". * "InspectorSession" was renamed to "LocalInspectorSession" to better indicate that it's an "in-memory" session and doesn't require Websocket server. It was also rewritten in such a way that it uses "InspectorSession" from previous point instead of reimplementing "v8::inspector::ChannelImpl" trait; this is done by using the "proxy" channels to communicate with the V8 session. Consequently "LocalInspectorSession" is now a frontend to "InspectorSession". This introduces a small inconvenience that awaiting responses for "LocalInspectorSession" requires to concurrently poll worker's event loop. This arises from the fact that "InspectorSession" is now owned by "JsRuntimeInspector", which in turn is owned by "Worker" or "WebWorker". To ease this situation "Worker::with_event_loop" helper method was added, that takes a future and concurrently polls it along with the event loop (using "tokio::select!" macro inside a loop).
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worker
.with_event_loop(coverage_collector.start_collecting().boxed_local())
.await?;
Some(coverage_collector)
} else {
None
};
// Enable op call tracing in core to enable better debugging of op sanitizer
// failures.
if options.trace_ops {
worker
.execute_script(
&located_script_name!(),
"Deno.core.enableOpCallTracing();",
)
.unwrap();
}
// We only execute the specifier as a module if it is tagged with TestMode::Module or
// TestMode::Both.
if mode != TestMode::Documentation {
if options.compat_mode {
worker.execute_side_module(&compat::GLOBAL_URL).await?;
worker.execute_side_module(&compat::MODULE_URL).await?;
let use_esm_loader = compat::check_if_should_use_esm_loader(&specifier)?;
if use_esm_loader {
worker.execute_side_module(&specifier).await?;
} else {
compat::load_cjs_module(
&mut worker.js_runtime,
&specifier.to_file_path().unwrap().display().to_string(),
false,
)?;
worker.run_event_loop(false).await?;
}
} else {
// We execute the module module as a side module so that import.meta.main is not set.
worker.execute_side_module(&specifier).await?;
}
}
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worker.dispatch_load_event(&located_script_name!())?;
let test_result = worker.js_runtime.execute_script(
&located_script_name!(),
&format!(
r#"Deno[Deno.internal].runTests({})"#,
json!({
"filter": options.filter,
"shuffle": options.shuffle,
}),
),
)?;
worker.js_runtime.resolve_value(test_result).await?;
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worker.dispatch_unload_event(&located_script_name!())?;
if let Some(coverage_collector) = maybe_coverage_collector.as_mut() {
refactor: Rewrite Inspector implementation (#10725) This commit refactors implementation of inspector. The intention is to be able to move inspector implementation to "deno_core". Following things were done to make that possible: * "runtime/inspector.rs" was split into "runtime/inspector/mod.rs" and "runtime/inspector/server.rs", separating inspector implementation from Websocket server implementation. * "DenoInspector" was renamed to "JsRuntimeInspector" and reference to "server" was removed from the structure, making it independent of Websocket server used to connect to Chrome Devtools. * "WebsocketSession" was renamed to "InspectorSession" and rewritten in such a way that it's not tied to Websockets anymore; instead it accepts a pair of "proxy" channel ends that allow to integrate the session with different "transports". * "InspectorSession" was renamed to "LocalInspectorSession" to better indicate that it's an "in-memory" session and doesn't require Websocket server. It was also rewritten in such a way that it uses "InspectorSession" from previous point instead of reimplementing "v8::inspector::ChannelImpl" trait; this is done by using the "proxy" channels to communicate with the V8 session. Consequently "LocalInspectorSession" is now a frontend to "InspectorSession". This introduces a small inconvenience that awaiting responses for "LocalInspectorSession" requires to concurrently poll worker's event loop. This arises from the fact that "InspectorSession" is now owned by "JsRuntimeInspector", which in turn is owned by "Worker" or "WebWorker". To ease this situation "Worker::with_event_loop" helper method was added, that takes a future and concurrently polls it along with the event loop (using "tokio::select!" macro inside a loop).
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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
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.captures_iter(source)
.filter_map(|block| {
if block.get(1) == None {
return None;
}
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.get(0) {
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,
Some(&"") => media_type,
_ => 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();
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for line in lines_regex.captures_iter(text) {
let text = line.get(1).unwrap();
file_source.push_str(&format!("{}\n", text.as_str()));
}
file_source.push_str("export {};");
let file_specifier = deno_core::resolve_url_or_path(&format!(
"{}${}-{}{}",
specifier,
file_line_index + line_offset + 1,
file_line_index + line_offset + line_count + 1,
file_media_type.as_ts_extension(),
))
.unwrap();
Some(File {
local: file_specifier.to_file_path().unwrap(),
maybe_types: None,
media_type: file_media_type,
source: Arc::new(file_source),
specifier: file_specifier,
maybe_headers: None,
})
})
.collect();
Ok(files)
}
fn extract_files_from_source_comments(
specifier: &ModuleSpecifier,
source: Arc<String>,
media_type: MediaType,
) -> Result<Vec<File>, AnyError> {
let parsed_source = deno_ast::parse_module(deno_ast::ParseParams {
specifier: specifier.as_str().to_string(),
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source: 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 = Regex::new(r"```([^\r\n]*)\r?\n([\S\s]*?)```")?;
let lines_regex = Regex::new(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,
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media_type,
parsed_source.source().line_index(comment.span.lo),
&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 =
Regex::new(r"(?s)<!--.*?-->|```([^\r\n]*)\r?\n([\S\s]*?)```")?;
let lines_regex = Regex::new(r"(?:\# ?)?(.*)")?;
extract_files_from_regex_blocks(
specifier,
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source,
media_type,
/* file line index */ 0,
&blocks_regex,
&lines_regex,
)
}
async fn fetch_inline_files(
ps: ProcState,
specifiers: Vec<ModuleSpecifier>,
) -> Result<Vec<File>, AnyError> {
let mut files = Vec::new();
for specifier in specifiers {
let mut fetch_permissions = Permissions::allow_all();
let file = ps
.file_fetcher
.fetch(&specifier, &mut 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.clone(),
file.media_type,
)
};
files.extend(inline_files?);
}
Ok(files)
}
/// Type check a collection of module and document specifiers.
async fn check_specifiers(
ps: &ProcState,
permissions: Permissions,
specifiers: Vec<(ModuleSpecifier, TestMode)>,
lib: emit::TypeLib,
) -> Result<(), AnyError> {
let inline_files = fetch_inline_files(
ps.clone(),
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 {
ps.file_fetcher.insert_cached(file);
}
ps.prepare_module_load(
specifiers,
false,
lib.clone(),
Permissions::allow_all(),
permissions.clone(),
false,
)
.await?;
}
let module_specifiers = specifiers
.iter()
.filter_map(|(specifier, mode)| {
if *mode != TestMode::Documentation {
Some(specifier.clone())
} else {
None
}
})
.collect();
ps.prepare_module_load(
module_specifiers,
false,
lib,
Permissions::allow_all(),
permissions,
true,
)
.await?;
Ok(())
}
/// Test a collection of specifiers with test modes concurrently.
async fn test_specifiers(
ps: ProcState,
permissions: Permissions,
specifiers_with_mode: Vec<(ModuleSpecifier, TestMode)>,
options: TestSpecifierOptions,
) -> Result<(), AnyError> {
let log_level = ps.flags.log_level;
let specifiers_with_mode = if let Some(seed) = options.shuffle {
let mut rng = SmallRng::seed_from_u64(seed);
let mut specifiers_with_mode = specifiers_with_mode.clone();
specifiers_with_mode.sort_by_key(|(specifier, _)| specifier.clone());
specifiers_with_mode.shuffle(&mut rng);
specifiers_with_mode
} else {
specifiers_with_mode
};
let (sender, mut receiver) = unbounded_channel::<TestEvent>();
let concurrent_jobs = options.concurrent_jobs;
let fail_fast = options.fail_fast;
let join_handles =
specifiers_with_mode.iter().map(move |(specifier, mode)| {
let ps = ps.clone();
let permissions = permissions.clone();
let specifier = specifier.clone();
let mode = mode.clone();
let sender = sender.clone();
let options = options.clone();
tokio::task::spawn_blocking(move || {
let future =
test_specifier(ps, permissions, specifier, mode, sender, options);
run_basic(future)
})
});
let join_stream = stream::iter(join_handles)
.buffer_unordered(concurrent_jobs.get())
.collect::<Vec<Result<Result<(), AnyError>, tokio::task::JoinError>>>();
let mut reporter =
create_reporter(concurrent_jobs.get() > 1, log_level != Some(Level::Error));
let handler = {
tokio::task::spawn(async move {
let earlier = Instant::now();
let mut summary = TestSummary::new();
let mut used_only = false;
while let Some(event) = receiver.recv().await {
match event {
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(description) => {
reporter.report_wait(&description);
}
TestEvent::Output(output) => {
reporter.report_output(&output);
}
TestEvent::Result(description, result, elapsed) => {
match &result {
TestResult::Ok => {
summary.passed += 1;
}
TestResult::Ignored => {
summary.ignored += 1;
}
TestResult::Failed(error) => {
summary.failed += 1;
summary.failures.push((description.clone(), error.clone()));
}
}
reporter.report_result(&description, &result, elapsed);
}
TestEvent::StepWait(description) => {
reporter.report_step_wait(&description);
}
TestEvent::StepResult(description, result, duration) => {
match &result {
TestStepResult::Ok => {
summary.passed_steps += 1;
}
TestStepResult::Ignored => {
summary.ignored_steps += 1;
}
TestStepResult::Failed(_) => {
summary.failed_steps += 1;
}
TestStepResult::Pending(_) => {
summary.pending_steps += 1;
}
}
reporter.report_step_result(&description, &result, duration);
}
}
if let Some(x) = fail_fast {
if summary.failed >= x.get() {
break;
}
}
}
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(())
})
2020-04-02 09:26:40 -04:00
};
let (join_results, result) = future::join(join_stream, handler).await;
// propagate any errors
for join_result in join_results {
join_result??;
}
result??;
Ok(())
}
/// 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(
include: Vec<String>,
ignore: Vec<PathBuf>,
include_inline: bool,
) -> Result<Vec<(ModuleSpecifier, TestMode)>, AnyError> {
let module_specifiers =
collect_specifiers(include.clone(), &ignore, is_supported_test_path)?;
if include_inline {
return collect_specifiers(include, &ignore, 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(
ps: &ProcState,
include: Vec<String>,
ignore: Vec<PathBuf>,
include_inline: bool,
) -> Result<Vec<(ModuleSpecifier, TestMode)>, AnyError> {
let mut specifiers_with_mode =
collect_specifiers_with_test_mode(include, ignore, include_inline)?;
for (specifier, mode) in &mut specifiers_with_mode {
let file = ps
.file_fetcher
.fetch(specifier, &mut Permissions::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(
flags: Flags,
test_flags: TestFlags,
) -> Result<(), AnyError> {
let ps = ProcState::build(Arc::new(flags)).await?;
let permissions = Permissions::from_options(&ps.flags.permissions_options());
let specifiers_with_mode = fetch_specifiers_with_test_mode(
&ps,
test_flags.include.unwrap_or_else(|| vec![".".to_string()]),
test_flags.ignore.clone(),
test_flags.doc,
)
.await?;
if !test_flags.allow_none && specifiers_with_mode.is_empty() {
return Err(generic_error("No test modules found"));
}
let lib = if ps.flags.unstable {
emit::TypeLib::UnstableDenoWindow
} else {
emit::TypeLib::DenoWindow
};
check_specifiers(&ps, permissions.clone(), specifiers_with_mode.clone(), lib)
.await?;
if test_flags.no_run {
return Ok(());
}
let compat = ps.flags.compat;
test_specifiers(
ps,
permissions,
specifiers_with_mode,
TestSpecifierOptions {
compat_mode: compat,
concurrent_jobs: test_flags.concurrent_jobs,
fail_fast: test_flags.fail_fast,
filter: test_flags.filter,
shuffle: test_flags.shuffle,
trace_ops: test_flags.trace_ops,
},
)
.await?;
Ok(())
}
pub async fn run_tests_with_watch(
flags: Flags,
test_flags: TestFlags,
) -> Result<(), AnyError> {
let flags = Arc::new(flags);
let ps = ProcState::build(flags.clone()).await?;
let permissions = Permissions::from_options(&flags.permissions_options());
let lib = if flags.unstable {
emit::TypeLib::UnstableDenoWindow
} else {
emit::TypeLib::DenoWindow
};
let include = test_flags.include.unwrap_or_else(|| vec![".".to_string()]);
let ignore = test_flags.ignore.clone();
let paths_to_watch: Vec<_> = include.iter().map(PathBuf::from).collect();
let no_check = ps.flags.typecheck_mode == TypecheckMode::None;
let resolver = |changed: Option<Vec<PathBuf>>| {
let mut cache = cache::FetchCacher::new(
ps.dir.gen_cache.clone(),
ps.file_fetcher.clone(),
Permissions::allow_all(),
Permissions::allow_all(),
);
let paths_to_watch = paths_to_watch.clone();
let paths_to_watch_clone = paths_to_watch.clone();
let maybe_import_map_resolver =
ps.maybe_import_map.clone().map(ImportMapResolver::new);
2022-02-24 20:03:12 -05:00
let maybe_jsx_resolver = ps.maybe_config_file.as_ref().and_then(|cf| {
cf.to_maybe_jsx_import_source_module()
.map(|im| JsxResolver::new(im, maybe_import_map_resolver.clone()))
});
let maybe_locker = lockfile::as_maybe_locker(ps.lockfile.clone());
let maybe_imports = ps
.maybe_config_file
.as_ref()
.map(|cf| cf.to_maybe_imports());
let files_changed = changed.is_some();
let include = include.clone();
let ignore = ignore.clone();
let check_js = ps
.maybe_config_file
.as_ref()
.map(|cf| cf.get_check_js())
.unwrap_or(false);
async move {
let test_modules = if test_flags.doc {
collect_specifiers(include.clone(), &ignore, is_supported_test_ext)
} else {
collect_specifiers(include.clone(), &ignore, 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
.iter()
.map(|url| (url.clone(), ModuleKind::Esm))
.collect()
};
let maybe_imports = if let Some(result) = maybe_imports {
result?
} else {
None
};
let maybe_resolver = if maybe_jsx_resolver.is_some() {
maybe_jsx_resolver.as_ref().map(|jr| jr.as_resolver())
} else {
maybe_import_map_resolver
.as_ref()
.map(|im| im.as_resolver())
};
let graph = deno_graph::create_graph(
test_modules
.iter()
.map(|s| (s.clone(), ModuleKind::Esm))
.collect(),
false,
maybe_imports,
cache.as_mut_loader(),
maybe_resolver,
maybe_locker,
None,
None,
)
.await;
graph_valid(&graph, !no_check, check_js)?;
// 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>,
no_check: bool,
) {
if let Some(module) = maybe_module {
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,
no_check,
);
}
}
if !no_check {
if let Some(specifier) = &dep.get_type() {
if !output.contains(specifier) {
output.insert(specifier);
get_dependencies(
graph,
graph.get(specifier),
output,
no_check,
);
}
}
}
}
}
}
// This test module and all it's dependencies
let mut modules = HashSet::new();
modules.insert(&specifier);
get_dependencies(&graph, graph.get(&specifier), &mut modules, no_check);
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| {
deno_core::resolve_url_or_path(&path.to_string_lossy()).ok()
}) {
if modules.contains(&&path) {
modules_to_reload.push((specifier, ModuleKind::Esm));
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 operation = |modules_to_reload: Vec<(ModuleSpecifier, ModuleKind)>| {
let flags = flags.clone();
let filter = test_flags.filter.clone();
let include = include.clone();
let ignore = ignore.clone();
let lib = lib.clone();
let permissions = permissions.clone();
let ps = ps.clone();
async move {
let specifiers_with_mode = fetch_specifiers_with_test_mode(
&ps,
include.clone(),
ignore.clone(),
test_flags.doc,
)
.await?
.iter()
.filter(|(specifier, _)| {
contains_specifier(&modules_to_reload, specifier)
})
.cloned()
.collect::<Vec<(ModuleSpecifier, TestMode)>>();
check_specifiers(
&ps,
permissions.clone(),
specifiers_with_mode.clone(),
lib,
)
.await?;
if test_flags.no_run {
return Ok(());
}
test_specifiers(
ps,
permissions.clone(),
specifiers_with_mode,
TestSpecifierOptions {
compat_mode: flags.compat,
concurrent_jobs: test_flags.concurrent_jobs,
fail_fast: test_flags.fail_fast,
filter: filter.clone(),
shuffle: test_flags.shuffle,
trace_ops: test_flags.trace_ops,
},
)
.await?;
Ok(())
}
};
file_watcher::watch_func(
resolver,
operation,
file_watcher::PrintConfig {
job_name: "Test".to_string(),
clear_screen: !flags.no_clear_screen,
},
)
.await?;
Ok(())
}