//! A shutdown channel. //! //! Each worker holds the `Sender` half. When all the `Sender` halves are //! dropped, the `Receiver` receives a notification. use crate::loom::sync::Arc; use crate::sync::oneshot; use std::time::Duration; #[derive(Debug, Clone)] pub(super) struct Sender { tx: Arc>, } #[derive(Debug)] pub(super) struct Receiver { rx: oneshot::Receiver<()>, } pub(super) fn channel() -> (Sender, Receiver) { let (tx, rx) = oneshot::channel(); let tx = Sender { tx: Arc::new(tx) }; let rx = Receiver { rx }; (tx, rx) } impl Receiver { /// Blocks the current thread until all `Sender` handles drop. /// /// If `timeout` is `Some`, the thread is blocked for **at most** `timeout` /// duration. If `timeout` is `None`, then the thread is blocked until the /// shutdown signal is received. /// /// If the timeout has elapsed, it returns `false`, otherwise it returns `true`. pub(crate) fn wait(&mut self, timeout: Option) -> bool { use crate::runtime::enter::try_enter; if timeout == Some(Duration::from_nanos(0)) { return false; } let mut e = match try_enter(false) { Some(enter) => enter, _ => { if std::thread::panicking() { // Don't panic in a panic return false; } else { panic!( "Cannot drop a runtime in a context where blocking is not allowed. \ This happens when a runtime is dropped from within an asynchronous context." ); } } }; // The oneshot completes with an Err // // If blocking fails to wait, this indicates a problem parking the // current thread (usually, shutting down a runtime stored in a // thread-local). if let Some(timeout) = timeout { e.block_on_timeout(&mut self.rx, timeout).is_ok() } else { let _ = e.block_on(&mut self.rx); true } } }