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denoland-deno/runtime/inspector.rs

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// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.
//! The documentation for the inspector API is sparse, but these are helpful:
//! https://chromedevtools.github.io/devtools-protocol/
//! https://hyperandroid.com/2020/02/12/v8-inspector-from-an-embedder-standpoint/
use core::convert::Infallible as Never; // Alias for the future `!` type.
use deno_core::error::generic_error;
use deno_core::error::AnyError;
use deno_core::futures::channel::mpsc;
use deno_core::futures::channel::mpsc::UnboundedReceiver;
use deno_core::futures::channel::mpsc::UnboundedSender;
use deno_core::futures::channel::oneshot;
use deno_core::futures::future::{self, Future};
use deno_core::futures::pin_mut;
use deno_core::futures::prelude::*;
use deno_core::futures::select;
use deno_core::futures::stream::FuturesUnordered;
use deno_core::futures::stream::StreamExt;
use deno_core::futures::task;
use deno_core::futures::task::Context;
use deno_core::futures::task::Poll;
use deno_core::serde_json;
use deno_core::serde_json::json;
use deno_core::serde_json::Value;
use deno_core::v8;
use deno_websocket::tokio_tungstenite::tungstenite;
use std::collections::HashMap;
use std::ffi::c_void;
use std::mem::replace;
use std::mem::take;
use std::mem::MaybeUninit;
use std::net::SocketAddr;
use std::ops::Deref;
use std::ops::DerefMut;
use std::pin::Pin;
use std::process;
use std::ptr;
use std::ptr::NonNull;
use std::sync::Arc;
use std::sync::Mutex;
use std::thread;
use std::{cell::BorrowMutError, convert::Infallible};
use std::{cell::RefCell, rc::Rc};
use uuid::Uuid;
pub struct InspectorServer {
pub host: SocketAddr,
register_inspector_tx: UnboundedSender<InspectorInfo>,
shutdown_server_tx: Option<oneshot::Sender<()>>,
thread_handle: Option<thread::JoinHandle<()>>,
}
impl InspectorServer {
pub fn new(host: SocketAddr, name: String) -> Self {
let (register_inspector_tx, register_inspector_rx) =
mpsc::unbounded::<InspectorInfo>();
let (shutdown_server_tx, shutdown_server_rx) = oneshot::channel();
let thread_handle = thread::spawn(move || {
let rt = crate::tokio_util::create_basic_runtime();
let local = tokio::task::LocalSet::new();
local.block_on(
&rt,
server(host, register_inspector_rx, shutdown_server_rx, name),
)
});
Self {
host,
register_inspector_tx,
shutdown_server_tx: Some(shutdown_server_tx),
thread_handle: Some(thread_handle),
}
}
fn register_inspector(&self, info: InspectorInfo) {
self.register_inspector_tx.unbounded_send(info).unwrap();
}
}
impl Drop for InspectorServer {
fn drop(&mut self) {
if let Some(shutdown_server_tx) = self.shutdown_server_tx.take() {
shutdown_server_tx
.send(())
.expect("unable to send shutdown signal");
}
if let Some(thread_handle) = self.thread_handle.take() {
thread_handle.join().expect("unable to join thread");
}
}
}
/// Inspector information that is sent from the isolate thread to the server
/// thread when a new inspector is created.
struct InspectorInfo {
host: SocketAddr,
uuid: Uuid,
thread_name: Option<String>,
new_websocket_tx: UnboundedSender<WebSocketProxy>,
canary_rx: oneshot::Receiver<Never>,
}
impl InspectorInfo {
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fn get_json_metadata(&self) -> Value {
json!({
"description": "deno",
"devtoolsFrontendUrl": self.get_frontend_url(),
"faviconUrl": "https://deno.land/favicon.ico",
"id": self.uuid.to_string(),
"title": self.get_title(),
"type": "deno",
// TODO(ry): "url": "file://",
"webSocketDebuggerUrl": self.get_websocket_debugger_url(),
})
}
fn get_websocket_debugger_url(&self) -> String {
format!("ws://{}/ws/{}", &self.host, &self.uuid)
}
fn get_frontend_url(&self) -> String {
format!(
"devtools://devtools/bundled/inspector.html?v8only=true&ws={}/ws/{}",
&self.host, &self.uuid
)
}
fn get_title(&self) -> String {
format!(
"[{}] deno{}",
process::id(),
self
.thread_name
.as_ref()
.map(|n| format!(" - {}", n))
.unwrap_or_default()
)
}
}
// Needed so hyper can use non Send futures
#[derive(Clone)]
struct LocalExecutor;
impl<Fut> hyper::rt::Executor<Fut> for LocalExecutor
where
Fut: Future + 'static,
Fut::Output: 'static,
{
fn execute(&self, fut: Fut) {
tokio::task::spawn_local(fut);
}
}
fn handle_ws_request(
req: http::Request<hyper::Body>,
inspector_map: Rc<RefCell<HashMap<Uuid, InspectorInfo>>>,
) -> http::Result<http::Response<hyper::Body>> {
let (parts, body) = req.into_parts();
let req = http::Request::from_parts(parts, ());
if let Some(new_websocket_tx) = req
.uri()
.path()
.strip_prefix("/ws/")
.and_then(|s| Uuid::parse_str(s).ok())
.and_then(|uuid| {
inspector_map
.borrow()
.get(&uuid)
.map(|info| info.new_websocket_tx.clone())
})
{
let resp = tungstenite::handshake::server::create_response(&req)
.map(|resp| resp.map(|_| hyper::Body::empty()))
.or_else(|e| match e {
tungstenite::error::Error::HttpFormat(http_error) => Err(http_error),
_ => http::Response::builder()
.status(http::StatusCode::BAD_REQUEST)
.body("Not a valid Websocket Request".into()),
});
let (parts, _) = req.into_parts();
let req = http::Request::from_parts(parts, body);
if resp.is_ok() {
tokio::task::spawn_local(async move {
let upgraded = hyper::upgrade::on(req).await.unwrap();
let websocket =
deno_websocket::tokio_tungstenite::WebSocketStream::from_raw_socket(
upgraded,
tungstenite::protocol::Role::Server,
None,
)
.await;
let (proxy, pump) = create_websocket_proxy(websocket);
let _ = new_websocket_tx.unbounded_send(proxy);
pump.await;
});
}
resp
} else {
http::Response::builder()
.status(http::StatusCode::NOT_FOUND)
.body("No Valid inspector".into())
}
}
fn handle_json_request(
inspector_map: Rc<RefCell<HashMap<Uuid, InspectorInfo>>>,
) -> http::Result<http::Response<hyper::Body>> {
let data = inspector_map
.borrow()
.values()
.map(|info| info.get_json_metadata())
.collect::<Vec<_>>();
http::Response::builder()
.status(http::StatusCode::OK)
.header(http::header::CONTENT_TYPE, "application/json")
.body(serde_json::to_string(&data).unwrap().into())
}
fn handle_json_version_request(
version_response: Value,
) -> http::Result<http::Response<hyper::Body>> {
http::Response::builder()
.status(http::StatusCode::OK)
.header(http::header::CONTENT_TYPE, "application/json")
.body(serde_json::to_string(&version_response).unwrap().into())
}
async fn server(
host: SocketAddr,
register_inspector_rx: UnboundedReceiver<InspectorInfo>,
shutdown_server_rx: oneshot::Receiver<()>,
name: String,
) {
let inspector_map_ =
Rc::new(RefCell::new(HashMap::<Uuid, InspectorInfo>::new()));
let inspector_map = Rc::clone(&inspector_map_);
let register_inspector_handler = register_inspector_rx
.map(|info| {
eprintln!(
"Debugger listening on {}",
info.get_websocket_debugger_url()
);
if inspector_map.borrow_mut().insert(info.uuid, info).is_some() {
panic!("Inspector UUID already in map");
}
})
.collect::<()>();
let inspector_map = Rc::clone(&inspector_map_);
let deregister_inspector_handler = future::poll_fn(|cx| {
inspector_map
.borrow_mut()
.retain(|_, info| info.canary_rx.poll_unpin(cx) == Poll::Pending);
Poll::<Never>::Pending
})
.fuse();
let json_version_response = json!({
"Browser": name,
"Protocol-Version": "1.3",
"V8-Version": deno_core::v8_version(),
});
let make_svc = hyper::service::make_service_fn(|_| {
let inspector_map = Rc::clone(&inspector_map_);
let json_version_response = json_version_response.clone();
future::ok::<_, Infallible>(hyper::service::service_fn(
move |req: http::Request<hyper::Body>| {
future::ready({
match (req.method(), req.uri().path()) {
(&http::Method::GET, path) if path.starts_with("/ws/") => {
handle_ws_request(req, inspector_map.clone())
}
(&http::Method::GET, "/json/version") => {
handle_json_version_request(json_version_response.clone())
}
(&http::Method::GET, "/json") => {
handle_json_request(inspector_map.clone())
}
(&http::Method::GET, "/json/list") => {
handle_json_request(inspector_map.clone())
}
_ => http::Response::builder()
.status(http::StatusCode::NOT_FOUND)
.body("Not Found".into()),
}
})
},
))
});
// Create the server manually so it can use the Local Executor
let server_handler = hyper::server::Builder::new(
hyper::server::conn::AddrIncoming::bind(&host).unwrap_or_else(|e| {
eprintln!("Cannot start inspector server: {}.", e);
process::exit(1);
}),
hyper::server::conn::Http::new().with_executor(LocalExecutor),
)
.serve(make_svc)
.with_graceful_shutdown(async {
shutdown_server_rx.await.ok();
})
.unwrap_or_else(|err| {
eprintln!("Cannot start inspector server: {}.", err);
process::exit(1);
})
.fuse();
pin_mut!(register_inspector_handler);
pin_mut!(deregister_inspector_handler);
pin_mut!(server_handler);
select! {
_ = register_inspector_handler => {},
_ = deregister_inspector_handler => unreachable!(),
_ = server_handler => {},
}
}
type WebSocketProxySender = UnboundedSender<tungstenite::Message>;
type WebSocketProxyReceiver =
UnboundedReceiver<Result<tungstenite::Message, tungstenite::Error>>;
/// Encapsulates an UnboundedSender/UnboundedReceiver pair that together form
/// a duplex channel for sending/receiving websocket messages.
struct WebSocketProxy {
tx: WebSocketProxySender,
rx: WebSocketProxyReceiver,
}
impl WebSocketProxy {
pub fn split(self) -> (WebSocketProxySender, WebSocketProxyReceiver) {
(self.tx, self.rx)
}
}
/// Creates a future that proxies messages sent and received on a warp WebSocket
/// to a UnboundedSender/UnboundedReceiver pair. We need this to sidestep
/// Tokio's task budget, which causes issues when DenoInspector::poll_sessions()
/// needs to block the thread because JavaScript execution is paused.
///
/// This works because UnboundedSender/UnboundedReceiver are implemented in the
/// 'futures' crate, therefore they can't participate in Tokio's cooperative
/// task yielding.
///
/// A tuple is returned, where the first element is a duplex channel that can
/// be used to send/receive messages on the websocket, and the second element
/// is a future that does the forwarding.
fn create_websocket_proxy(
websocket: deno_websocket::tokio_tungstenite::WebSocketStream<
hyper::upgrade::Upgraded,
>,
) -> (WebSocketProxy, impl Future<Output = ()> + Send) {
// The 'outbound' channel carries messages sent to the websocket.
let (outbound_tx, outbound_rx) = mpsc::unbounded();
// The 'inbound' channel carries messages received from the websocket.
let (inbound_tx, inbound_rx) = mpsc::unbounded();
let proxy = WebSocketProxy {
tx: outbound_tx,
rx: inbound_rx,
};
// The pump future takes care of forwarding messages between the websocket
// and channels. It resolves to () when either side disconnects, ignoring any
// errors.
let pump = async move {
let (websocket_tx, websocket_rx) = websocket.split();
let outbound_pump =
outbound_rx.map(Ok).forward(websocket_tx).map_err(|_| ());
let inbound_pump = websocket_rx
.map(|msg| inbound_tx.unbounded_send(msg))
.map_err(|_| ())
.try_collect::<()>();
let _ = future::try_join(outbound_pump, inbound_pump).await;
};
(proxy, pump)
}
#[derive(Clone, Copy)]
enum PollState {
Idle,
Woken,
Polling,
Parked,
Dropped,
}
pub struct DenoInspector {
v8_inspector_client: v8::inspector::V8InspectorClientBase,
v8_inspector: v8::UniqueRef<v8::inspector::V8Inspector>,
sessions: RefCell<InspectorSessions>,
flags: RefCell<InspectorFlags>,
waker: Arc<InspectorWaker>,
_canary_tx: oneshot::Sender<Never>,
pub server: Option<Arc<InspectorServer>>,
pub debugger_url: Option<String>,
}
impl Deref for DenoInspector {
type Target = v8::inspector::V8Inspector;
fn deref(&self) -> &Self::Target {
&self.v8_inspector
}
}
impl DerefMut for DenoInspector {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.v8_inspector
}
}
impl Drop for DenoInspector {
fn drop(&mut self) {
// Since the waker is cloneable, it might outlive the inspector itself.
// Set the poll state to 'dropped' so it doesn't attempt to request an
// interrupt from the isolate.
self.waker.update(|w| w.poll_state = PollState::Dropped);
// V8 automatically deletes all sessions when an Inspector instance is
// deleted, however InspectorSession also has a drop handler that cleans
// up after itself. To avoid a double free, make sure the inspector is
// dropped last.
take(&mut *self.sessions.borrow_mut());
}
}
impl v8::inspector::V8InspectorClientImpl for DenoInspector {
fn base(&self) -> &v8::inspector::V8InspectorClientBase {
&self.v8_inspector_client
}
fn base_mut(&mut self) -> &mut v8::inspector::V8InspectorClientBase {
&mut self.v8_inspector_client
}
fn run_message_loop_on_pause(&mut self, context_group_id: i32) {
assert_eq!(context_group_id, DenoInspectorSession::CONTEXT_GROUP_ID);
self.flags.borrow_mut().on_pause = true;
let _ = self.poll_sessions(None);
}
fn quit_message_loop_on_pause(&mut self) {
self.flags.borrow_mut().on_pause = false;
}
fn run_if_waiting_for_debugger(&mut self, context_group_id: i32) {
assert_eq!(context_group_id, DenoInspectorSession::CONTEXT_GROUP_ID);
self.flags.borrow_mut().session_handshake_done = true;
}
}
/// DenoInspector implements a Future so that it can poll for new incoming
/// connections and messages from the WebSocket server. The Worker that owns
/// this DenoInspector will call our poll function from Worker::poll().
impl Future for DenoInspector {
type Output = ();
fn poll(self: Pin<&mut Self>, cx: &mut Context) -> Poll<()> {
self.poll_sessions(Some(cx)).unwrap()
}
}
impl DenoInspector {
const CONTEXT_GROUP_ID: i32 = 1;
pub fn new(
js_runtime: &mut deno_core::JsRuntime,
server: Option<Arc<InspectorServer>>,
) -> Box<Self> {
let context = js_runtime.global_context();
let scope = &mut v8::HandleScope::new(js_runtime.v8_isolate());
let (new_websocket_tx, new_websocket_rx) =
mpsc::unbounded::<WebSocketProxy>();
let (canary_tx, canary_rx) = oneshot::channel::<Never>();
// Create DenoInspector instance.
let mut self_ = new_box_with(|self_ptr| {
let v8_inspector_client =
v8::inspector::V8InspectorClientBase::new::<Self>();
let v8_inspector =
v8::inspector::V8Inspector::create(scope, unsafe { &mut *self_ptr });
let sessions = InspectorSessions::new(self_ptr, new_websocket_rx);
let flags = InspectorFlags::new();
let waker = InspectorWaker::new(scope.thread_safe_handle());
let debugger_url = if let Some(server) = server.clone() {
let info = InspectorInfo {
host: server.host,
uuid: Uuid::new_v4(),
thread_name: thread::current().name().map(|n| n.to_owned()),
new_websocket_tx,
canary_rx,
};
let debugger_url = info.get_websocket_debugger_url();
server.register_inspector(info);
Some(debugger_url)
} else {
None
};
Self {
v8_inspector_client,
v8_inspector,
sessions,
flags,
waker,
_canary_tx: canary_tx,
server,
debugger_url,
}
});
// Tell the inspector about the global context.
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let context = v8::Local::new(scope, context);
let context_name = v8::inspector::StringView::from(&b"global context"[..]);
self_.context_created(context, Self::CONTEXT_GROUP_ID, context_name);
// Poll the session handler so we will get notified whenever there is
// new_incoming debugger activity.
let _ = self_.poll_sessions(None).unwrap();
self_
}
fn poll_sessions(
&self,
mut invoker_cx: Option<&mut Context>,
) -> Result<Poll<()>, BorrowMutError> {
// Short-circuit if there is no server
if self.server.is_none() {
return Ok(Poll::Ready(()));
}
// The futures this function uses do not have re-entrant poll() functions.
// However it is can happpen that poll_sessions() gets re-entered, e.g.
// when an interrupt request is honored while the inspector future is polled
// by the task executor. We let the caller know by returning some error.
let mut sessions = self.sessions.try_borrow_mut()?;
self.waker.update(|w| {
match w.poll_state {
PollState::Idle | PollState::Woken => w.poll_state = PollState::Polling,
_ => unreachable!(),
};
});
// Create a new Context object that will make downstream futures
// use the InspectorWaker when they are ready to be polled again.
let waker_ref = task::waker_ref(&self.waker);
let cx = &mut Context::from_waker(&waker_ref);
loop {
loop {
// Do one "handshake" with a newly connected session at a time.
if let Some(session) = &mut sessions.handshake {
let poll_result = session.poll_unpin(cx);
let handshake_done =
replace(&mut self.flags.borrow_mut().session_handshake_done, false);
match poll_result {
Poll::Pending if handshake_done => {
let session = sessions.handshake.take().unwrap();
sessions.established.push(session);
take(&mut self.flags.borrow_mut().waiting_for_session);
}
Poll::Ready(_) => sessions.handshake = None,
Poll::Pending => break,
};
}
// Accept new connections.
match sessions.new_incoming.poll_next_unpin(cx) {
Poll::Ready(Some(session)) => {
let prev = sessions.handshake.replace(session);
assert!(prev.is_none());
continue;
}
Poll::Ready(None) => {}
Poll::Pending => {}
}
// Poll established sessions.
match sessions.established.poll_next_unpin(cx) {
Poll::Ready(Some(_)) => continue,
Poll::Ready(None) => break,
Poll::Pending => break,
};
}
let should_block = sessions.handshake.is_some()
|| self.flags.borrow().on_pause
|| self.flags.borrow().waiting_for_session;
let new_state = self.waker.update(|w| {
match w.poll_state {
PollState::Woken => {
// The inspector was woken while the session handler was being
// polled, so we poll it another time.
w.poll_state = PollState::Polling;
}
PollState::Polling if !should_block => {
// The session handler doesn't need to be polled any longer, and
// there's no reason to block (execution is not paused), so this
// function is about to return.
w.poll_state = PollState::Idle;
// Register the task waker that can be used to wake the parent
// task that will poll the inspector future.
if let Some(cx) = invoker_cx.take() {
w.task_waker.replace(cx.waker().clone());
}
// Register the address of the inspector, which allows the waker
// to request an interrupt from the isolate.
w.inspector_ptr = NonNull::new(self as *const _ as *mut Self);
}
PollState::Polling if should_block => {
// Isolate execution has been paused but there are no more
// events to process, so this thread will be parked. Therefore,
// store the current thread handle in the waker so it knows
// which thread to unpark when new events arrive.
w.poll_state = PollState::Parked;
w.parked_thread.replace(thread::current());
}
_ => unreachable!(),
};
w.poll_state
});
match new_state {
PollState::Idle => break Ok(Poll::Pending), // Yield to task.
PollState::Polling => {} // Poll the session handler again.
PollState::Parked => thread::park(), // Park the thread.
_ => unreachable!(),
};
}
}
/// This function blocks the thread until at least one inspector client has
/// established a websocket connection and successfully completed the
/// handshake. After that, it instructs V8 to pause at the next statement.
pub fn wait_for_session_and_break_on_next_statement(&mut self) {
loop {
match self.sessions.get_mut().established.iter_mut().next() {
Some(session) => break session.break_on_next_statement(),
None => {
self.flags.get_mut().waiting_for_session = true;
let _ = self.poll_sessions(None).unwrap();
}
};
}
}
}
#[derive(Default)]
struct InspectorFlags {
waiting_for_session: bool,
session_handshake_done: bool,
on_pause: bool,
}
impl InspectorFlags {
fn new() -> RefCell<Self> {
let self_ = Self::default();
RefCell::new(self_)
}
}
struct InspectorSessions {
new_incoming:
Pin<Box<dyn Stream<Item = Box<DenoInspectorSession>> + 'static>>,
handshake: Option<Box<DenoInspectorSession>>,
established: FuturesUnordered<Box<DenoInspectorSession>>,
}
impl InspectorSessions {
fn new(
inspector_ptr: *mut DenoInspector,
new_websocket_rx: UnboundedReceiver<WebSocketProxy>,
) -> RefCell<Self> {
let new_incoming = new_websocket_rx
.map(move |websocket| DenoInspectorSession::new(inspector_ptr, websocket))
.boxed_local();
let self_ = Self {
new_incoming,
..Default::default()
};
RefCell::new(self_)
}
}
impl Default for InspectorSessions {
fn default() -> Self {
Self {
new_incoming: stream::empty().boxed_local(),
handshake: None,
established: FuturesUnordered::new(),
}
}
}
struct InspectorWakerInner {
poll_state: PollState,
task_waker: Option<task::Waker>,
parked_thread: Option<thread::Thread>,
inspector_ptr: Option<NonNull<DenoInspector>>,
isolate_handle: v8::IsolateHandle,
}
unsafe impl Send for InspectorWakerInner {}
struct InspectorWaker(Mutex<InspectorWakerInner>);
impl InspectorWaker {
fn new(isolate_handle: v8::IsolateHandle) -> Arc<Self> {
let inner = InspectorWakerInner {
poll_state: PollState::Idle,
task_waker: None,
parked_thread: None,
inspector_ptr: None,
isolate_handle,
};
Arc::new(Self(Mutex::new(inner)))
}
fn update<F, R>(&self, update_fn: F) -> R
where
F: FnOnce(&mut InspectorWakerInner) -> R,
{
let mut g = self.0.lock().unwrap();
update_fn(&mut g)
}
}
impl task::ArcWake for InspectorWaker {
fn wake_by_ref(arc_self: &Arc<Self>) {
arc_self.update(|w| {
match w.poll_state {
PollState::Idle => {
// Wake the task, if any, that has polled the Inspector future last.
if let Some(waker) = w.task_waker.take() {
waker.wake()
}
// Request an interrupt from the isolate if it's running and there's
// not unhandled interrupt request in flight.
if let Some(arg) = w
.inspector_ptr
.take()
.map(|ptr| ptr.as_ptr() as *mut c_void)
{
w.isolate_handle.request_interrupt(handle_interrupt, arg);
}
extern "C" fn handle_interrupt(
_isolate: &mut v8::Isolate,
arg: *mut c_void,
) {
let inspector = unsafe { &*(arg as *mut DenoInspector) };
let _ = inspector.poll_sessions(None);
}
}
PollState::Parked => {
// Unpark the isolate thread.
let parked_thread = w.parked_thread.take().unwrap();
assert_ne!(parked_thread.id(), thread::current().id());
parked_thread.unpark();
}
_ => {}
};
w.poll_state = PollState::Woken;
});
}
}
struct DenoInspectorSession {
v8_channel: v8::inspector::ChannelBase,
v8_session: v8::UniqueRef<v8::inspector::V8InspectorSession>,
websocket_tx: WebSocketProxySender,
websocket_rx_handler: Pin<Box<dyn Future<Output = ()> + 'static>>,
}
impl Deref for DenoInspectorSession {
type Target = v8::inspector::V8InspectorSession;
fn deref(&self) -> &Self::Target {
&self.v8_session
}
}
impl DerefMut for DenoInspectorSession {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.v8_session
}
}
impl DenoInspectorSession {
const CONTEXT_GROUP_ID: i32 = 1;
pub fn new(
inspector_ptr: *mut DenoInspector,
websocket: WebSocketProxy,
) -> Box<Self> {
new_box_with(move |self_ptr| {
let v8_channel = v8::inspector::ChannelBase::new::<Self>();
let v8_session = unsafe { &mut *inspector_ptr }.connect(
Self::CONTEXT_GROUP_ID,
// Todo(piscisaureus): V8Inspector::connect() should require that
// the 'v8_channel' argument cannot move.
unsafe { &mut *self_ptr },
v8::inspector::StringView::empty(),
);
let (websocket_tx, websocket_rx) = websocket.split();
let websocket_rx_handler =
Self::receive_from_websocket(self_ptr, websocket_rx);
Self {
v8_channel,
v8_session,
websocket_tx,
websocket_rx_handler,
}
})
}
/// Returns a future that receives messages from the websocket and dispatches
/// them to the V8 session.
fn receive_from_websocket(
self_ptr: *mut Self,
websocket_rx: WebSocketProxyReceiver,
) -> Pin<Box<dyn Future<Output = ()> + 'static>> {
async move {
eprintln!("Debugger session started.");
let result = websocket_rx
.map_ok(move |msg| {
let msg = msg.into_data();
let msg = v8::inspector::StringView::from(msg.as_slice());
unsafe { &mut *self_ptr }.dispatch_protocol_message(msg);
})
.try_collect::<()>()
.await;
match result {
Ok(_) => eprintln!("Debugger session ended."),
Err(err) => eprintln!("Debugger session ended: {}.", err),
};
}
.boxed_local()
}
fn send_to_websocket(&self, msg: v8::UniquePtr<v8::inspector::StringBuffer>) {
let msg = msg.unwrap().string().to_string();
let msg = tungstenite::Message::text(msg);
let _ = self.websocket_tx.unbounded_send(msg);
}
pub fn break_on_next_statement(&mut self) {
let reason = v8::inspector::StringView::from(&b"debugCommand"[..]);
let detail = v8::inspector::StringView::empty();
self.schedule_pause_on_next_statement(reason, detail);
}
}
impl v8::inspector::ChannelImpl for DenoInspectorSession {
fn base(&self) -> &v8::inspector::ChannelBase {
&self.v8_channel
}
fn base_mut(&mut self) -> &mut v8::inspector::ChannelBase {
&mut self.v8_channel
}
fn send_response(
&mut self,
_call_id: i32,
message: v8::UniquePtr<v8::inspector::StringBuffer>,
) {
self.send_to_websocket(message);
}
fn send_notification(
&mut self,
message: v8::UniquePtr<v8::inspector::StringBuffer>,
) {
self.send_to_websocket(message);
}
fn flush_protocol_notifications(&mut self) {}
}
impl Future for DenoInspectorSession {
type Output = ();
fn poll(mut self: Pin<&mut Self>, cx: &mut Context) -> Poll<Self::Output> {
self.websocket_rx_handler.poll_unpin(cx)
}
}
/// A local inspector session that can be used to send and receive protocol messages directly on
/// the same thread as an isolate.
pub struct InspectorSession {
v8_channel: v8::inspector::ChannelBase,
v8_session: v8::UniqueRef<v8::inspector::V8InspectorSession>,
response_tx_map: HashMap<i32, oneshot::Sender<serde_json::Value>>,
next_message_id: i32,
notification_queue: Vec<Value>,
}
impl Deref for InspectorSession {
type Target = v8::inspector::V8InspectorSession;
fn deref(&self) -> &Self::Target {
&self.v8_session
}
}
impl DerefMut for InspectorSession {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.v8_session
}
}
impl v8::inspector::ChannelImpl for InspectorSession {
fn base(&self) -> &v8::inspector::ChannelBase {
&self.v8_channel
}
fn base_mut(&mut self) -> &mut v8::inspector::ChannelBase {
&mut self.v8_channel
}
fn send_response(
&mut self,
call_id: i32,
message: v8::UniquePtr<v8::inspector::StringBuffer>,
) {
let raw_message = message.unwrap().string().to_string();
let message: serde_json::Value = match serde_json::from_str(&raw_message) {
Ok(v) => v,
Err(error) => match error.classify() {
serde_json::error::Category::Syntax => json!({
"id": call_id,
"result": {
"result": {
"type": "error",
"description": "Unterminated string literal",
"value": "Unterminated string literal",
},
"exceptionDetails": {
"exceptionId": 0,
"text": "Unterminated string literal",
"lineNumber": 0,
"columnNumber": 0
},
},
}),
_ => panic!("Could not parse inspector message"),
},
};
self
.response_tx_map
.remove(&call_id)
.unwrap()
.send(message)
.unwrap();
}
fn send_notification(
&mut self,
message: v8::UniquePtr<v8::inspector::StringBuffer>,
) {
let raw_message = message.unwrap().string().to_string();
let message = serde_json::from_str(&raw_message).unwrap();
self.notification_queue.push(message);
}
fn flush_protocol_notifications(&mut self) {}
}
impl InspectorSession {
const CONTEXT_GROUP_ID: i32 = 1;
pub fn new(inspector_ptr: *mut DenoInspector) -> Box<Self> {
new_box_with(move |self_ptr| {
let v8_channel = v8::inspector::ChannelBase::new::<Self>();
let v8_session = unsafe { &mut *inspector_ptr }.connect(
Self::CONTEXT_GROUP_ID,
unsafe { &mut *self_ptr },
v8::inspector::StringView::empty(),
);
let response_tx_map = HashMap::new();
let next_message_id = 0;
let notification_queue = Vec::new();
Self {
v8_channel,
v8_session,
response_tx_map,
next_message_id,
notification_queue,
}
})
}
pub fn notifications(&mut self) -> Vec<Value> {
self.notification_queue.split_off(0)
}
pub async fn post_message(
&mut self,
method: &str,
params: Option<serde_json::Value>,
) -> Result<serde_json::Value, AnyError> {
let id = self.next_message_id;
self.next_message_id += 1;
let (response_tx, response_rx) = oneshot::channel::<serde_json::Value>();
self.response_tx_map.insert(id, response_tx);
let message = json!({
"id": id,
"method": method,
"params": params,
});
let raw_message = serde_json::to_string(&message).unwrap();
let raw_message = v8::inspector::StringView::from(raw_message.as_bytes());
self.v8_session.dispatch_protocol_message(raw_message);
let response = response_rx.await.unwrap();
if let Some(error) = response.get("error") {
return Err(generic_error(error.to_string()));
}
let result = response.get("result").unwrap().clone();
Ok(result)
}
}
fn new_box_with<T>(new_fn: impl FnOnce(*mut T) -> T) -> Box<T> {
let b = Box::new(MaybeUninit::<T>::uninit());
let p = Box::into_raw(b) as *mut T;
unsafe { ptr::write(p, new_fn(p)) };
unsafe { Box::from_raw(p) }
}