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denoland-deno/cli/worker.rs

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// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
use crate::fmt_errors::JSError;
use crate::inspector::DenoInspector;
use crate::ops;
use crate::state::DebugType;
use crate::state::State;
use deno_core::Buf;
use deno_core::ErrBox;
use deno_core::ModuleId;
use deno_core::ModuleSpecifier;
use deno_core::StartupData;
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use futures::channel::mpsc;
use futures::future::FutureExt;
use futures::stream::StreamExt;
use futures::task::AtomicWaker;
use std::env;
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use std::future::Future;
use std::ops::Deref;
use std::ops::DerefMut;
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use std::pin::Pin;
use std::rc::Rc;
use std::sync::Arc;
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use std::task::Context;
use std::task::Poll;
use tokio::sync::Mutex as AsyncMutex;
use url::Url;
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/// Events that are sent to host from child
/// worker.
pub enum WorkerEvent {
Message(Buf),
Error(ErrBox),
TerminalError(ErrBox),
}
pub struct WorkerChannelsInternal {
pub sender: mpsc::Sender<WorkerEvent>,
pub receiver: mpsc::Receiver<Buf>,
}
#[derive(Clone)]
pub struct WorkerHandle {
pub sender: mpsc::Sender<Buf>,
pub receiver: Arc<AsyncMutex<mpsc::Receiver<WorkerEvent>>>,
}
impl WorkerHandle {
/// Post message to worker as a host.
pub fn post_message(&self, buf: Buf) -> Result<(), ErrBox> {
let mut sender = self.sender.clone();
sender.try_send(buf).map_err(ErrBox::from)
}
// TODO: should use `try_lock` and return error if
// more than one listener tries to get event
pub async fn get_event(&self) -> Option<WorkerEvent> {
let mut receiver = self.receiver.lock().await;
receiver.next().await
}
}
fn create_channels() -> (WorkerChannelsInternal, WorkerHandle) {
let (in_tx, in_rx) = mpsc::channel::<Buf>(1);
let (out_tx, out_rx) = mpsc::channel::<WorkerEvent>(1);
let internal_channels = WorkerChannelsInternal {
sender: out_tx,
receiver: in_rx,
};
let external_channels = WorkerHandle {
sender: in_tx,
receiver: Arc::new(AsyncMutex::new(out_rx)),
};
(internal_channels, external_channels)
}
/// Worker is a CLI wrapper for `deno_core::Isolate`.
///
/// It provides infrastructure to communicate with a worker and
/// consequently between workers.
///
/// This struct is meant to be used as a base struct for concrete
/// type of worker that registers set of ops.
///
/// Currently there are three types of workers:
/// - `MainWorker`
/// - `CompilerWorker`
/// - `WebWorker`
pub struct Worker {
pub name: String,
pub isolate: Box<deno_core::EsIsolate>,
pub state: State,
pub waker: AtomicWaker,
pub(crate) internal_channels: WorkerChannelsInternal,
external_channels: WorkerHandle,
pub(crate) inspector: Option<Box<DenoInspector>>,
}
impl Worker {
pub fn new(name: String, startup_data: StartupData, state: State) -> Self {
let loader = Rc::new(state.clone());
let mut isolate = deno_core::EsIsolate::new(loader, startup_data, false);
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let global_state = state.borrow().global_state.clone();
let inspect = global_state.flags.inspect.as_ref();
let inspect_brk = global_state.flags.inspect_brk.as_ref();
let inspector = inspect
.or(inspect_brk)
.and_then(|host| match state.borrow().debug_type {
DebugType::Main if inspect_brk.is_some() => Some((host, true)),
DebugType::Main | DebugType::Dependent => Some((host, false)),
DebugType::Internal => None,
})
.map(|(host, wait_for_debugger)| {
DenoInspector::new(&mut isolate, *host, wait_for_debugger)
});
isolate.set_js_error_create_fn(move |core_js_error| {
JSError::create(core_js_error, &global_state.ts_compiler)
});
let (internal_channels, external_channels) = create_channels();
Self {
name,
isolate,
state,
waker: AtomicWaker::new(),
internal_channels,
external_channels,
inspector,
}
}
/// Same as execute2() but the filename defaults to "$CWD/__anonymous__".
pub fn execute(&mut self, js_source: &str) -> Result<(), ErrBox> {
let path = env::current_dir().unwrap().join("__anonymous__");
let url = Url::from_file_path(path).unwrap();
self.execute2(url.as_str(), js_source)
}
/// Executes the provided JavaScript source code. The js_filename argument is
/// provided only for debugging purposes.
pub fn execute2(
&mut self,
js_filename: &str,
js_source: &str,
) -> Result<(), ErrBox> {
self.isolate.execute(js_filename, js_source)
}
/// Loads and instantiates specified JavaScript module.
pub async fn preload_module(
&mut self,
module_specifier: &ModuleSpecifier,
) -> Result<ModuleId, ErrBox> {
self.isolate.load_module(module_specifier, None).await
}
/// Loads, instantiates and executes specified JavaScript module.
pub async fn execute_module(
&mut self,
module_specifier: &ModuleSpecifier,
) -> Result<(), ErrBox> {
let id = self.preload_module(module_specifier).await?;
self.isolate.mod_evaluate(id)
}
/// Loads, instantiates and executes provided source code
/// as module.
pub async fn execute_module_from_code(
&mut self,
module_specifier: &ModuleSpecifier,
code: String,
) -> Result<(), ErrBox> {
let id = self
.isolate
.load_module(module_specifier, Some(code))
.await?;
self.isolate.mod_evaluate(id)
}
/// Returns a way to communicate with the Worker from other threads.
pub fn thread_safe_handle(&self) -> WorkerHandle {
self.external_channels.clone()
}
}
impl Drop for Worker {
fn drop(&mut self) {
// The Isolate object must outlive the Inspector object, but this is
// currently not enforced by the type system.
self.inspector.take();
}
}
impl Future for Worker {
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type Output = Result<(), ErrBox>;
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fn poll(self: Pin<&mut Self>, cx: &mut Context) -> Poll<Self::Output> {
let inner = self.get_mut();
if let Some(deno_inspector) = inner.inspector.as_mut() {
// We always poll the inspector if it exists.
let _ = deno_inspector.poll_unpin(cx);
}
inner.waker.register(cx.waker());
inner.isolate.poll_unpin(cx)
}
}
impl Deref for Worker {
type Target = deno_core::EsIsolate;
fn deref(&self) -> &Self::Target {
&self.isolate
}
}
impl DerefMut for Worker {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.isolate
}
}
/// This worker is created and used by Deno executable.
///
/// It provides ops available in the `Deno` namespace.
///
/// All WebWorkers created during program execution are decendants of
/// this worker.
pub struct MainWorker(Worker);
impl MainWorker {
pub fn new(name: String, startup_data: StartupData, state: State) -> Self {
let state_ = state.clone();
let mut worker = Worker::new(name, startup_data, state_);
{
let isolate = &mut worker.isolate;
ops::runtime::init(isolate, &state);
ops::runtime_compiler::init(isolate, &state);
ops::errors::init(isolate, &state);
ops::fetch::init(isolate, &state);
ops::fs::init(isolate, &state);
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ops::fs_events::init(isolate, &state);
ops::io::init(isolate, &state);
ops::plugins::init(isolate, &state);
ops::net::init(isolate, &state);
ops::tls::init(isolate, &state);
ops::os::init(isolate, &state);
ops::permissions::init(isolate, &state);
ops::process::init(isolate, &state);
ops::random::init(isolate, &state);
ops::repl::init(isolate, &state);
ops::resources::init(isolate, &state);
ops::signal::init(isolate, &state);
ops::timers::init(isolate, &state);
ops::tty::init(isolate, &state);
ops::worker_host::init(isolate, &state);
}
Self(worker)
}
}
impl Deref for MainWorker {
type Target = Worker;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl DerefMut for MainWorker {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.0
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::flags;
use crate::global_state::GlobalState;
use crate::startup_data;
use crate::state::State;
use crate::tokio_util;
use std::sync::atomic::Ordering;
#[test]
fn execute_mod_esm_imports_a() {
let p = std::path::PathBuf::from(env!("CARGO_MANIFEST_DIR"))
.parent()
.unwrap()
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.join("cli/tests/esm_imports_a.js");
let module_specifier =
ModuleSpecifier::resolve_url_or_path(&p.to_string_lossy()).unwrap();
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let global_state = GlobalState::new(flags::Flags::default()).unwrap();
let state = State::new(
global_state,
None,
module_specifier.clone(),
DebugType::Main,
)
.unwrap();
let state_ = state.clone();
tokio_util::run_basic(async move {
let mut worker =
MainWorker::new("TEST".to_string(), StartupData::None, state);
let result = worker.execute_module(&module_specifier).await;
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if let Err(err) = result {
eprintln!("execute_mod err {:?}", err);
}
if let Err(e) = (&mut *worker).await {
panic!("Future got unexpected error: {:?}", e);
}
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});
let state = state_.borrow();
assert_eq!(state.metrics.resolve_count, 2);
// Check that we didn't start the compiler.
assert_eq!(state.global_state.compiler_starts.load(Ordering::SeqCst), 0);
}
#[test]
fn execute_mod_circular() {
let p = std::path::PathBuf::from(env!("CARGO_MANIFEST_DIR"))
.parent()
.unwrap()
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.join("tests/circular1.ts");
let module_specifier =
ModuleSpecifier::resolve_url_or_path(&p.to_string_lossy()).unwrap();
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let global_state = GlobalState::new(flags::Flags::default()).unwrap();
let state = State::new(
global_state,
None,
module_specifier.clone(),
DebugType::Main,
)
.unwrap();
let state_ = state.clone();
tokio_util::run_basic(async move {
let mut worker =
MainWorker::new("TEST".to_string(), StartupData::None, state);
let result = worker.execute_module(&module_specifier).await;
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if let Err(err) = result {
eprintln!("execute_mod err {:?}", err);
}
if let Err(e) = (&mut *worker).await {
panic!("Future got unexpected error: {:?}", e);
}
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});
let state = state_.borrow();
assert_eq!(state.metrics.resolve_count, 1);
// Check that we didn't start the compiler.
assert_eq!(state.global_state.compiler_starts.load(Ordering::SeqCst), 0);
}
#[tokio::test]
async fn execute_006_url_imports() {
let http_server_guard = crate::test_util::http_server();
let p = std::path::PathBuf::from(env!("CARGO_MANIFEST_DIR"))
.parent()
.unwrap()
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.join("cli/tests/006_url_imports.ts");
let module_specifier =
ModuleSpecifier::resolve_url_or_path(&p.to_string_lossy()).unwrap();
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let flags = flags::Flags {
subcommand: flags::DenoSubcommand::Run {
script: module_specifier.to_string(),
},
reload: true,
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..flags::Flags::default()
};
let global_state = GlobalState::new(flags).unwrap();
let state = State::new(
global_state.clone(),
None,
module_specifier.clone(),
DebugType::Main,
)
.unwrap();
let mut worker = MainWorker::new(
"TEST".to_string(),
startup_data::deno_isolate_init(),
state.clone(),
);
worker.execute("bootstrap.mainRuntime()").unwrap();
let result = worker.execute_module(&module_specifier).await;
if let Err(err) = result {
eprintln!("execute_mod err {:?}", err);
}
if let Err(e) = (&mut *worker).await {
panic!("Future got unexpected error: {:?}", e);
}
let state = state.borrow();
assert_eq!(state.metrics.resolve_count, 3);
// Check that we've only invoked the compiler once.
assert_eq!(state.global_state.compiler_starts.load(Ordering::SeqCst), 1);
drop(http_server_guard);
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}
fn create_test_worker() -> MainWorker {
let state = State::mock("./hello.js");
let mut worker = MainWorker::new(
"TEST".to_string(),
startup_data::deno_isolate_init(),
state,
);
worker.execute("bootstrap.mainRuntime()").unwrap();
worker
}
#[tokio::test]
async fn execute_mod_resolve_error() {
// "foo" is not a valid module specifier so this should return an error.
let mut worker = create_test_worker();
let module_specifier =
ModuleSpecifier::resolve_url_or_path("does-not-exist").unwrap();
let result = worker.execute_module(&module_specifier).await;
assert!(result.is_err());
}
#[tokio::test]
async fn execute_mod_002_hello() {
// This assumes cwd is project root (an assumption made throughout the
// tests).
let mut worker = create_test_worker();
let p = std::path::PathBuf::from(env!("CARGO_MANIFEST_DIR"))
.parent()
.unwrap()
.join("cli/tests/002_hello.ts");
let module_specifier =
ModuleSpecifier::resolve_url_or_path(&p.to_string_lossy()).unwrap();
let result = worker.execute_module(&module_specifier).await;
assert!(result.is_ok());
}
}