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use crate::future::poll_fn;
use crate::loom::sync::atomic::AtomicBool;
use crate::loom::sync::Arc;
use crate::runtime::driver::{self, Driver};
use crate::runtime::scheduler::{self, Defer, Inject};
use crate::runtime::task::{self, JoinHandle, OwnedTasks, Schedule, Task};
use crate::runtime::{blocking, context, Config, MetricsBatch, SchedulerMetrics, WorkerMetrics};
use crate::sync::notify::Notify;
use crate::util::atomic_cell::AtomicCell;
use crate::util::{waker_ref, RngSeedGenerator, Wake, WakerRef};
use std::cell::RefCell;
use std::collections::VecDeque;
use std::fmt;
use std::future::Future;
use std::sync::atomic::Ordering::{AcqRel, Release};
use std::task::Poll::{Pending, Ready};
use std::task::Waker;
use std::time::Duration;
/// Executes tasks on the current thread
pub(crate) struct CurrentThread {
/// Core scheduler data is acquired by a thread entering `block_on`.
core: AtomicCell<Core>,
/// Notifier for waking up other threads to steal the
/// driver.
notify: Notify,
}
/// Handle to the current thread scheduler
pub(crate) struct Handle {
/// Scheduler state shared across threads
shared: Shared,
/// Resource driver handles
pub(crate) driver: driver::Handle,
/// Blocking pool spawner
pub(crate) blocking_spawner: blocking::Spawner,
/// Current random number generator seed
pub(crate) seed_generator: RngSeedGenerator,
}
/// Data required for executing the scheduler. The struct is passed around to
/// a function that will perform the scheduling work and acts as a capability token.
struct Core {
/// Scheduler run queue
tasks: VecDeque<Notified>,
/// Current tick
tick: u32,
/// Runtime driver
///
/// The driver is removed before starting to park the thread
driver: Option<Driver>,
/// Metrics batch
metrics: MetricsBatch,
/// How often to check the global queue
global_queue_interval: u32,
/// True if a task panicked without being handled and the runtime is
/// configured to shutdown on unhandled panic.
unhandled_panic: bool,
}
/// Scheduler state shared between threads.
struct Shared {
/// Remote run queue
inject: Inject<Arc<Handle>>,
/// Collection of all active tasks spawned onto this executor.
owned: OwnedTasks<Arc<Handle>>,
/// Indicates whether the blocked on thread was woken.
woken: AtomicBool,
/// Scheduler configuration options
config: Config,
/// Keeps track of various runtime metrics.
scheduler_metrics: SchedulerMetrics,
/// This scheduler only has one worker.
worker_metrics: WorkerMetrics,
}
/// Thread-local context.
///
/// pub(crate) to store in `runtime::context`.
pub(crate) struct Context {
/// Scheduler handle
handle: Arc<Handle>,
/// Scheduler core, enabling the holder of `Context` to execute the
/// scheduler.
core: RefCell<Option<Box<Core>>>,
/// Deferred tasks, usually ones that called `task::yield_now()`.
pub(crate) defer: Defer,
}
type Notified = task::Notified<Arc<Handle>>;
/// Initial queue capacity.
const INITIAL_CAPACITY: usize = 64;
/// Used if none is specified. This is a temporary constant and will be removed
/// as we unify tuning logic between the multi-thread and current-thread
/// schedulers.
const DEFAULT_GLOBAL_QUEUE_INTERVAL: u32 = 31;
impl CurrentThread {
pub(crate) fn new(
driver: Driver,
driver_handle: driver::Handle,
blocking_spawner: blocking::Spawner,
seed_generator: RngSeedGenerator,
config: Config,
) -> (CurrentThread, Arc<Handle>) {
let worker_metrics = WorkerMetrics::from_config(&config);
// Get the configured global queue interval, or use the default.
let global_queue_interval = config
.global_queue_interval
.unwrap_or(DEFAULT_GLOBAL_QUEUE_INTERVAL);
let handle = Arc::new(Handle {
shared: Shared {
inject: Inject::new(),
owned: OwnedTasks::new(1),
woken: AtomicBool::new(false),
config,
scheduler_metrics: SchedulerMetrics::new(),
worker_metrics,
},
driver: driver_handle,
blocking_spawner,
seed_generator,
});
let core = AtomicCell::new(Some(Box::new(Core {
tasks: VecDeque::with_capacity(INITIAL_CAPACITY),
tick: 0,
driver: Some(driver),
metrics: MetricsBatch::new(&handle.shared.worker_metrics),
global_queue_interval,
unhandled_panic: false,
})));
let scheduler = CurrentThread {
core,
notify: Notify::new(),
};
(scheduler, handle)
}
#[track_caller]
pub(crate) fn block_on<F: Future>(&self, handle: &scheduler::Handle, future: F) -> F::Output {
pin!(future);
crate::runtime::context::enter_runtime(handle, false, |blocking| {
let handle = handle.as_current_thread();
// Attempt to steal the scheduler core and block_on the future if we can
// there, otherwise, lets select on a notification that the core is
// available or the future is complete.
loop {
if let Some(core) = self.take_core(handle) {
return core.block_on(future);
} else {
let notified = self.notify.notified();
pin!(notified);
if let Some(out) = blocking
.block_on(poll_fn(|cx| {
if notified.as_mut().poll(cx).is_ready() {
return Ready(None);
}
if let Ready(out) = future.as_mut().poll(cx) {
return Ready(Some(out));
}
Pending
}))
.expect("Failed to `Enter::block_on`")
{
return out;
}
}
}
})
}
fn take_core(&self, handle: &Arc<Handle>) -> Option<CoreGuard<'_>> {
let core = self.core.take()?;
Some(CoreGuard {
context: scheduler::Context::CurrentThread(Context {
handle: handle.clone(),
core: RefCell::new(Some(core)),
defer: Defer::new(),
}),
scheduler: self,
})
}
pub(crate) fn shutdown(&mut self, handle: &scheduler::Handle) {
let handle = handle.as_current_thread();
// Avoid a double panic if we are currently panicking and
// the lock may be poisoned.
let core = match self.take_core(handle) {
Some(core) => core,
None if std::thread::panicking() => return,
None => panic!("Oh no! We never placed the Core back, this is a bug!"),
};
// Check that the thread-local is not being destroyed
let tls_available = context::with_current(|_| ()).is_ok();
if tls_available {
core.enter(|core, _context| {
let core = shutdown2(core, handle);
(core, ())
});
} else {
// Shutdown without setting the context. `tokio::spawn` calls will
// fail, but those will fail either way because the thread-local is
// not available anymore.
let context = core.context.expect_current_thread();
let core = context.core.borrow_mut().take().unwrap();
let core = shutdown2(core, handle);
*context.core.borrow_mut() = Some(core);
}
}
}
fn shutdown2(mut core: Box<Core>, handle: &Handle) -> Box<Core> {
// Drain the OwnedTasks collection. This call also closes the
// collection, ensuring that no tasks are ever pushed after this
// call returns.
handle.shared.owned.close_and_shutdown_all(0);
// Drain local queue
// We already shut down every task, so we just need to drop the task.
while let Some(task) = core.next_local_task(handle) {
drop(task);
}
// Close the injection queue
handle.shared.inject.close();
// Drain remote queue
while let Some(task) = handle.shared.inject.pop() {
drop(task);
}
assert!(handle.shared.owned.is_empty());
// Submit metrics
core.submit_metrics(handle);
// Shutdown the resource drivers
if let Some(driver) = core.driver.as_mut() {
driver.shutdown(&handle.driver);
}
core
}
impl fmt::Debug for CurrentThread {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt.debug_struct("CurrentThread").finish()
}
}
// ===== impl Core =====
impl Core {
/// Get and increment the current tick
fn tick(&mut self) {
self.tick = self.tick.wrapping_add(1);
}
fn next_task(&mut self, handle: &Handle) -> Option<Notified> {
if self.tick % self.global_queue_interval == 0 {
handle
.next_remote_task()
.or_else(|| self.next_local_task(handle))
} else {
self.next_local_task(handle)
.or_else(|| handle.next_remote_task())
}
}
fn next_local_task(&mut self, handle: &Handle) -> Option<Notified> {
let ret = self.tasks.pop_front();
handle
.shared
.worker_metrics
.set_queue_depth(self.tasks.len());
ret
}
fn push_task(&mut self, handle: &Handle, task: Notified) {
self.tasks.push_back(task);
self.metrics.inc_local_schedule_count();
handle
.shared
.worker_metrics
.set_queue_depth(self.tasks.len());
}
fn submit_metrics(&mut self, handle: &Handle) {
self.metrics.submit(&handle.shared.worker_metrics, 0);
}
}
#[cfg(tokio_taskdump)]
fn wake_deferred_tasks_and_free(context: &Context) {
let wakers = context.defer.take_deferred();
for waker in wakers {
waker.wake();
}
}
// ===== impl Context =====
impl Context {
/// Execute the closure with the given scheduler core stored in the
/// thread-local context.
fn run_task<R>(&self, mut core: Box<Core>, f: impl FnOnce() -> R) -> (Box<Core>, R) {
core.metrics.start_poll();
let mut ret = self.enter(core, || crate::runtime::coop::budget(f));
ret.0.metrics.end_poll();
ret
}
/// Blocks the current thread until an event is received by the driver,
/// including I/O events, timer events, ...
fn park(&self, mut core: Box<Core>, handle: &Handle) -> Box<Core> {
let mut driver = core.driver.take().expect("driver missing");
if let Some(f) = &handle.shared.config.before_park {
let (c, ()) = self.enter(core, || f());
core = c;
}
// This check will fail if `before_park` spawns a task for us to run
// instead of parking the thread
if core.tasks.is_empty() {
// Park until the thread is signaled
core.metrics.about_to_park();
core.submit_metrics(handle);
let (c, ()) = self.enter(core, || {
driver.park(&handle.driver);
self.defer.wake();
});
core = c;
}
if let Some(f) = &handle.shared.config.after_unpark {
let (c, ()) = self.enter(core, || f());
core = c;
}
core.driver = Some(driver);
core
}
/// Checks the driver for new events without blocking the thread.
fn park_yield(&self, mut core: Box<Core>, handle: &Handle) -> Box<Core> {
let mut driver = core.driver.take().expect("driver missing");
core.submit_metrics(handle);
let (mut core, ()) = self.enter(core, || {
driver.park_timeout(&handle.driver, Duration::from_millis(0));
self.defer.wake();
});
core.driver = Some(driver);
core
}
fn enter<R>(&self, core: Box<Core>, f: impl FnOnce() -> R) -> (Box<Core>, R) {
// Store the scheduler core in the thread-local context
//
// A drop-guard is employed at a higher level.
*self.core.borrow_mut() = Some(core);
// Execute the closure while tracking the execution budget
let ret = f();
// Take the scheduler core back
let core = self.core.borrow_mut().take().expect("core missing");
(core, ret)
}
pub(crate) fn defer(&self, waker: &Waker) {
self.defer.defer(waker);
}
}
// ===== impl Handle =====
impl Handle {
/// Spawns a future onto the `CurrentThread` scheduler
pub(crate) fn spawn<F>(
me: &Arc<Self>,
future: F,
id: crate::runtime::task::Id,
) -> JoinHandle<F::Output>
where
F: crate::future::Future + Send + 'static,
F::Output: Send + 'static,
{
let (handle, notified) = me.shared.owned.bind(future, me.clone(), id);
if let Some(notified) = notified {
me.schedule(notified);
}
handle
}
/// Capture a snapshot of this runtime's state.
#[cfg(all(
tokio_unstable,
tokio_taskdump,
target_os = "linux",
any(target_arch = "aarch64", target_arch = "x86", target_arch = "x86_64")
))]
pub(crate) fn dump(&self) -> crate::runtime::Dump {
use crate::runtime::dump;
use task::trace::trace_current_thread;
let mut traces = vec![];
// todo: how to make this work outside of a runtime context?
context::with_scheduler(|maybe_context| {
// drain the local queue
let context = if let Some(context) = maybe_context {
context.expect_current_thread()
} else {
return;
};
let mut maybe_core = context.core.borrow_mut();
let core = if let Some(core) = maybe_core.as_mut() {
core
} else {
return;
};
let local = &mut core.tasks;
if self.shared.inject.is_closed() {
return;
}
traces = trace_current_thread(&self.shared.owned, local, &self.shared.inject)
.into_iter()
.map(|(id, trace)| dump::Task::new(id, trace))
.collect();
// Avoid double borrow panic
drop(maybe_core);
// Taking a taskdump could wakes every task, but we probably don't want
// the `yield_now` vector to be that large under normal circumstances.
// Therefore, we free its allocation.
wake_deferred_tasks_and_free(context);
});
dump::Dump::new(traces)
}
fn next_remote_task(&self) -> Option<Notified> {
self.shared.inject.pop()
}
fn waker_ref(me: &Arc<Self>) -> WakerRef<'_> {
// Set woken to true when enter block_on, ensure outer future
// be polled for the first time when enter loop
me.shared.woken.store(true, Release);
waker_ref(me)
}
// reset woken to false and return original value
pub(crate) fn reset_woken(&self) -> bool {
self.shared.woken.swap(false, AcqRel)
}
}
cfg_metrics! {
impl Handle {
pub(crate) fn scheduler_metrics(&self) -> &SchedulerMetrics {
&self.shared.scheduler_metrics
}
pub(crate) fn injection_queue_depth(&self) -> usize {
self.shared.inject.len()
}
pub(crate) fn worker_metrics(&self, worker: usize) -> &WorkerMetrics {
assert_eq!(0, worker);
&self.shared.worker_metrics
}
pub(crate) fn worker_local_queue_depth(&self, worker: usize) -> usize {
self.worker_metrics(worker).queue_depth()
}
pub(crate) fn num_blocking_threads(&self) -> usize {
self.blocking_spawner.num_threads()
}
pub(crate) fn num_idle_blocking_threads(&self) -> usize {
self.blocking_spawner.num_idle_threads()
}
pub(crate) fn blocking_queue_depth(&self) -> usize {
self.blocking_spawner.queue_depth()
}
pub(crate) fn active_tasks_count(&self) -> usize {
self.shared.owned.active_tasks_count()
}
}
}
cfg_unstable! {
use std::num::NonZeroU64;
impl Handle {
pub(crate) fn owned_id(&self) -> NonZeroU64 {
self.shared.owned.id
}
}
}
impl fmt::Debug for Handle {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt.debug_struct("current_thread::Handle { ... }").finish()
}
}
// ===== impl Shared =====
impl Schedule for Arc<Handle> {
fn release(&self, task: &Task<Self>) -> Option<Task<Self>> {
self.shared.owned.remove(task)
}
fn schedule(&self, task: task::Notified<Self>) {
use scheduler::Context::CurrentThread;
context::with_scheduler(|maybe_cx| match maybe_cx {
Some(CurrentThread(cx)) if Arc::ptr_eq(self, &cx.handle) => {
let mut core = cx.core.borrow_mut();
// If `None`, the runtime is shutting down, so there is no need
// to schedule the task.
if let Some(core) = core.as_mut() {
core.push_task(self, task);
}
}
_ => {
// Track that a task was scheduled from **outside** of the runtime.
self.shared.scheduler_metrics.inc_remote_schedule_count();
// Schedule the task
self.shared.inject.push(task);
self.driver.unpark();
}
});
}
cfg_unstable! {
fn unhandled_panic(&self) {
use crate::runtime::UnhandledPanic;
match self.shared.config.unhandled_panic {
UnhandledPanic::Ignore => {
// Do nothing
}
UnhandledPanic::ShutdownRuntime => {
use scheduler::Context::CurrentThread;
// This hook is only called from within the runtime, so
// `context::with_scheduler` should match with `&self`, i.e.
// there is no opportunity for a nested scheduler to be
// called.
context::with_scheduler(|maybe_cx| match maybe_cx {
Some(CurrentThread(cx)) if Arc::ptr_eq(self, &cx.handle) => {
let mut core = cx.core.borrow_mut();
// If `None`, the runtime is shutting down, so there is no need to signal shutdown
if let Some(core) = core.as_mut() {
core.unhandled_panic = true;
self.shared.owned.close_and_shutdown_all(0);
}
}
_ => unreachable!("runtime core not set in CURRENT thread-local"),
})
}
}
}
}
}
impl Wake for Handle {
fn wake(arc_self: Arc<Self>) {
Wake::wake_by_ref(&arc_self);
}
/// Wake by reference
fn wake_by_ref(arc_self: &Arc<Self>) {
arc_self.shared.woken.store(true, Release);
arc_self.driver.unpark();
}
}
// ===== CoreGuard =====
/// Used to ensure we always place the `Core` value back into its slot in
/// `CurrentThread`, even if the future panics.
struct CoreGuard<'a> {
context: scheduler::Context,
scheduler: &'a CurrentThread,
}
impl CoreGuard<'_> {
#[track_caller]
fn block_on<F: Future>(self, future: F) -> F::Output {
let ret = self.enter(|mut core, context| {
let waker = Handle::waker_ref(&context.handle);
let mut cx = std::task::Context::from_waker(&waker);
pin!(future);
core.metrics.start_processing_scheduled_tasks();
'outer: loop {
let handle = &context.handle;
if handle.reset_woken() {
let (c, res) = context.enter(core, || {
crate::runtime::coop::budget(|| future.as_mut().poll(&mut cx))
});
core = c;
if let Ready(v) = res {
return (core, Some(v));
}
}
for _ in 0..handle.shared.config.event_interval {
// Make sure we didn't hit an unhandled_panic
if core.unhandled_panic {
return (core, None);
}
core.tick();
let entry = core.next_task(handle);
let task = match entry {
Some(entry) => entry,
None => {
core.metrics.end_processing_scheduled_tasks();
core = if !context.defer.is_empty() {
context.park_yield(core, handle)
} else {
context.park(core, handle)
};
core.metrics.start_processing_scheduled_tasks();
// Try polling the `block_on` future next
continue 'outer;
}
};
let task = context.handle.shared.owned.assert_owner(task);
let (c, ()) = context.run_task(core, || {
task.run();
});
core = c;
}
core.metrics.end_processing_scheduled_tasks();
// Yield to the driver, this drives the timer and pulls any
// pending I/O events.
core = context.park_yield(core, handle);
core.metrics.start_processing_scheduled_tasks();
}
});
match ret {
Some(ret) => ret,
None => {
// `block_on` panicked.
panic!("a spawned task panicked and the runtime is configured to shut down on unhandled panic");
}
}
}
/// Enters the scheduler context. This sets the queue and other necessary
/// scheduler state in the thread-local.
fn enter<F, R>(self, f: F) -> R
where
F: FnOnce(Box<Core>, &Context) -> (Box<Core>, R),
{
let context = self.context.expect_current_thread();
// Remove `core` from `context` to pass into the closure.
let core = context.core.borrow_mut().take().expect("core missing");
// Call the closure and place `core` back
let (core, ret) = context::set_scheduler(&self.context, || f(core, context));
*context.core.borrow_mut() = Some(core);
ret
}
}
impl Drop for CoreGuard<'_> {
fn drop(&mut self) {
let context = self.context.expect_current_thread();
if let Some(core) = context.core.borrow_mut().take() {
// Replace old scheduler back into the state to allow
// other threads to pick it up and drive it.
self.scheduler.core.set(core);
// Wake up other possible threads that could steal the driver.
self.scheduler.notify.notify_one();
}
}
}