use std::future::Future; use std::io; use std::pin::Pin; use std::task::{Context, Poll}; use futures::future::lazy; use crate::server::Server; /// Different types of process signals #[allow(dead_code)] #[derive(PartialEq, Clone, Copy, Debug)] pub(crate) enum Signal { /// SIGHUP Hup, /// SIGINT Int, /// SIGTERM Term, /// SIGQUIT Quit, } pub(crate) struct Signals { srv: Server, #[cfg(not(unix))] stream: Pin>>>, #[cfg(unix)] streams: Vec<(Signal, actix_rt::signal::unix::Signal)>, } impl Signals { pub(crate) fn start(srv: Server) -> io::Result<()> { actix_rt::spawn(lazy(|_| { #[cfg(not(unix))] { actix_rt::spawn(Signals { srv, stream: Box::pin(actix_rt::signal::ctrl_c()), }); } #[cfg(unix)] { use actix_rt::signal::unix; let mut streams = Vec::new(); let sig_map = [ (unix::SignalKind::interrupt(), Signal::Int), (unix::SignalKind::hangup(), Signal::Hup), (unix::SignalKind::terminate(), Signal::Term), (unix::SignalKind::quit(), Signal::Quit), ]; for (kind, sig) in sig_map.iter() { match unix::signal(*kind) { Ok(stream) => streams.push((*sig, stream)), Err(e) => log::error!( "Can not initialize stream handler for {:?} err: {}", sig, e ), } } actix_rt::spawn(Signals { srv, streams }) } })); Ok(()) } } impl Future for Signals { type Output = (); fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll { #[cfg(not(unix))] match Pin::new(&mut self.stream).poll(cx) { Poll::Ready(_) => { self.srv.signal(Signal::Int); Poll::Ready(()) } Poll::Pending => return Poll::Pending, } #[cfg(unix)] { for idx in 0..self.streams.len() { loop { match self.streams[idx].1.poll_recv(cx) { Poll::Ready(None) => return Poll::Ready(()), Poll::Pending => break, Poll::Ready(Some(_)) => { let sig = self.streams[idx].0; self.srv.signal(sig); } } } } Poll::Pending } } }