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// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
use futures::task::AtomicWaker;
use std::marker::PhantomData;
use std::ops::DerefMut;
use std::sync::atomic::AtomicBool;
use std::sync::atomic::Ordering;
use std::sync::Arc;
use std::sync::Mutex;
use std::task::Context;
use std::task::Poll;
type UnsendTask = Box<dyn FnOnce(&mut v8::HandleScope) + 'static>;
type SendTask = Box<dyn FnOnce(&mut v8::HandleScope) + Send + 'static>;
static_assertions::assert_not_impl_any!(V8TaskSpawnerFactory: Send);
static_assertions::assert_not_impl_any!(V8TaskSpawner: Send);
static_assertions::assert_impl_all!(V8CrossThreadTaskSpawner: Send);
/// The [`V8TaskSpawnerFactory`] must be created on the same thread as the thread that runs tasks.
///
/// This factory is not [`Send`] because it may contain `!Send` tasks submitted by a
/// [`V8CrossThreadTaskSpawner`]. It is only safe to send this object to another thread if you plan on
/// submitting [`Send`] tasks to it, which is what [`V8CrossThreadTaskSpawner`] does.
#[derive(Default)]
pub(crate) struct V8TaskSpawnerFactory {
// TODO(mmastrac): ideally we wouldn't box if we could use arena allocation and a max submission size
// TODO(mmastrac): we may want to split the Send and !Send tasks
/// The set of tasks, non-empty if `has_tasks` is set.
tasks: Mutex<Vec<SendTask>>,
/// A flag we can poll without any locks.
has_tasks: AtomicBool,
/// The polled waker, woken on task submission.
waker: AtomicWaker,
/// Mark as `!Send`. See note above.
_unsend_marker: PhantomData<*const ()>,
}
impl V8TaskSpawnerFactory {
pub fn new_same_thread_spawner(self: Arc<Self>) -> V8TaskSpawner {
V8TaskSpawner {
tasks: self,
_unsend_marker: PhantomData,
}
}
pub fn new_cross_thread_spawner(self: Arc<Self>) -> V8CrossThreadTaskSpawner {
V8CrossThreadTaskSpawner { tasks: self }
}
/// `false` guarantees that there are no queued tasks, while `true` means that it is likely (but not guaranteed)
/// that tasks exist.
///
/// Calls should prefer using the waker, but this is left while we rework the event loop.
pub fn has_pending_tasks(&self) -> bool {
// Ensure that all reads after this point happen-after we load from the atomic
self.has_tasks.load(Ordering::Acquire)
}
/// Poll this set of tasks, returning a non-empty set of tasks if there have
/// been any queued, or registering the waker if not.
pub fn poll_inner(&self, cx: &mut Context) -> Poll<Vec<UnsendTask>> {
// Check the flag first -- if it's false we definitely have no tasks. AcqRel semantics ensure
// that this read happens-before the vector read below, and that any writes happen-after the success
// case.
if self
.has_tasks
.compare_exchange(true, false, Ordering::AcqRel, Ordering::Acquire)
.is_err()
{
self.waker.register(cx.waker());
return Poll::Pending;
}
let mut lock = self.tasks.lock().unwrap();
let tasks = std::mem::take(lock.deref_mut());
if tasks.is_empty() {
// Unlikely race lost -- the task submission to the queue and flag are not atomic, so it's
// possible we ended up with an extra poll here. This only shows up under Miri, but as it is
// possible we do need to handle it.
self.waker.register(cx.waker());
return Poll::Pending;
}
// SAFETY: we are removing the Send trait as we return the tasks here to prevent
// these tasks from accidentally leaking to another thread.
let tasks =
unsafe { std::mem::transmute::<Vec<SendTask>, Vec<UnsendTask>>(tasks) };
Poll::Ready(tasks)
}
fn spawn(&self, task: SendTask) {
self.tasks.lock().unwrap().push(task);
// TODO(mmastrac): can we skip the mutex here?
// Release ordering means that the writes in the above lock happen-before the atomic store
self.has_tasks.store(true, Ordering::Release);
self.waker.wake();
}
}
/// Allows for submission of v8 tasks on the same thread.
#[derive(Clone)]
pub struct V8TaskSpawner {
// TODO(mmastrac): can we split the waker into a send and !send one?
tasks: Arc<V8TaskSpawnerFactory>,
_unsend_marker: PhantomData<*const ()>,
}
impl V8TaskSpawner {
/// Spawn a task that runs within the [`crate::JsRuntime`] event loop from the same thread
/// that the runtime is running on. This function is re-entrant-safe and may be called from
/// ops, from outside of a [`v8::HandleScope`] in a plain `async`` task, or even from within
/// another, previously-spawned task.
///
/// The task is handed off to be run the next time the event loop is polled, and there are
/// no guarantees as to when this may happen.
///
/// # Safety
///
/// The task shares the same [`v8::HandleScope`] as the core event loop, which means that it
/// must maintain the scope in a valid state to avoid corrupting or destroying the runtime.
///
/// For example, if the code called by this task can raise an exception, the task must ensure
/// that it calls that code within a new [`v8::TryCatch`] to avoid the exception leaking to the
/// event loop's [`v8::HandleScope`].
pub fn spawn<F>(&self, f: F)
where
F: FnOnce(&mut v8::HandleScope) + 'static,
{
let task: Box<dyn FnOnce(&mut v8::HandleScope<'_>)> = Box::new(f);
// SAFETY: we are transmuting Send into a !Send handle but we guarantee this object will never
// leave the current thread because `V8TaskSpawner` is !Send.
let task: Box<dyn FnOnce(&mut v8::HandleScope<'_>) + Send> =
unsafe { std::mem::transmute(task) };
self.tasks.spawn(task)
}
}
/// Allows for submission of v8 tasks on any thread.
#[derive(Clone)]
pub struct V8CrossThreadTaskSpawner {
tasks: Arc<V8TaskSpawnerFactory>,
}
// SAFETY: the underlying V8TaskSpawnerFactory is not Send, but we always submit Send tasks
// to it from this spawner.
unsafe impl Send for V8CrossThreadTaskSpawner {}
impl V8CrossThreadTaskSpawner {
/// Spawn a task that runs within the [`crate::JsRuntime`] event loop, potentially (but not
/// required to be) from a different thread than the runtime is running on.
///
/// The task is handed off to be run the next time the event loop is polled, and there are
/// no guarantees as to when this may happen.
///
/// # Safety
///
/// The task shares the same [`v8::HandleScope`] as the core event loop, which means that it
/// must maintain the scope in a valid state to avoid corrupting or destroying the runtime.
///
/// For example, if the code called by this task can raise an exception, the task must ensure
/// that it calls that code within a new [`v8::TryCatch`] to avoid the exception leaking to the
/// event loop's [`v8::HandleScope`].
pub fn spawn<F>(&self, f: F)
where
F: FnOnce(&mut v8::HandleScope) + Send + 'static,
{
self.tasks.spawn(Box::new(f))
}
/// Spawn a task that runs within the [`crate::JsRuntime`] event loop from a different thread
/// than the runtime is running on.
///
/// This function will deadlock if called from the same thread as the [`crate::JsRuntime`], and
/// there are no checks for this case.
///
/// As this function blocks until the task has run to completion (or panics/deadlocks), it is
/// safe to borrow data from the local environment and use it within the closure.
///
/// The task is handed off to be run the next time the event loop is polled, and there are
/// no guarantees as to when this may happen, however the function will not return until the
/// task has been fully run to completion.
///
/// # Safety
///
/// The task shares the same [`v8::HandleScope`] as the core event loop, which means that it
/// must maintain the scope in a valid state to avoid corrupting or destroying the runtime.
///
/// For example, if the code called by this task can raise an exception, the task must ensure
/// that it calls that code within a new [`v8::TryCatch`] to avoid the exception leaking to the
/// event loop's [`v8::HandleScope`].
pub fn spawn_blocking<'a, F, T>(&self, f: F) -> T
where
F: FnOnce(&mut v8::HandleScope) -> T + Send + 'a,
T: Send + 'a,
{
let (tx, rx) = std::sync::mpsc::sync_channel(0);
let task: Box<dyn FnOnce(&mut v8::HandleScope<'_>) + Send> =
Box::new(|scope| {
let r = f(scope);
_ = tx.send(r);
});
// SAFETY: We can safely transmute to the 'static lifetime because we guarantee this method will either
// complete fully by the time it returns, deadlock or panic.
let task: SendTask = unsafe { std::mem::transmute(task) };
self.tasks.spawn(task);
rx.recv().unwrap()
}
}
#[cfg(test)]
mod tests {
use super::*;
use std::future::poll_fn;
use tokio::task::LocalSet;
// https://github.com/tokio-rs/tokio/issues/6155
#[test]
#[cfg(not(all(miri, target_os = "linux")))]
fn test_spawner_serial() {
let runtime = tokio::runtime::Builder::new_multi_thread()
.worker_threads(1)
.build()
.unwrap();
runtime.block_on(async {
let factory = Arc::<V8TaskSpawnerFactory>::default();
let cross_thread_spawner = factory.clone().new_cross_thread_spawner();
let local_set = LocalSet::new();
const COUNT: usize = 1000;
let task = runtime.spawn(async move {
for _ in 0..COUNT {
cross_thread_spawner.spawn(|_| {});
}
});
local_set.spawn_local(async move {
let mut count = 0;
loop {
count += poll_fn(|cx| factory.poll_inner(cx)).await.len();
if count >= COUNT {
break;
}
}
});
local_set.await;
_ = task.await;
});
}
// https://github.com/tokio-rs/tokio/issues/6155
#[test]
#[cfg(not(all(miri, target_os = "linux")))]
fn test_spawner_parallel() {
let runtime = tokio::runtime::Builder::new_multi_thread()
.worker_threads(1)
.build()
.unwrap();
runtime.block_on(async {
let factory = Arc::<V8TaskSpawnerFactory>::default();
let cross_thread_spawner = factory.clone().new_cross_thread_spawner();
let local_set = LocalSet::new();
const COUNT: usize = 100;
let mut tasks = vec![];
for _ in 0..COUNT {
let cross_thread_spawner = cross_thread_spawner.clone();
tasks.push(runtime.spawn(async move {
cross_thread_spawner.spawn(|_| {});
}));
}
local_set.spawn_local(async move {
let mut count = 0;
loop {
count += poll_fn(|cx| factory.poll_inner(cx)).await.len();
if count >= COUNT {
break;
}
}
});
local_set.await;
for task in tasks.drain(..) {
_ = task.await;
}
});
}
}