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actix-web/src/server/worker.rs

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use futures::sync::oneshot;
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use futures::Future;
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use net2::TcpStreamExt;
use slab::Slab;
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use std::rc::Rc;
use std::{net, time};
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use tokio::executor::current_thread;
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use tokio_reactor::Handle;
use tokio_tcp::TcpStream;
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#[cfg(any(feature = "tls", feature = "alpn"))]
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use futures::future;
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#[cfg(feature = "tls")]
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use native_tls::TlsAcceptor;
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#[cfg(feature = "tls")]
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use tokio_tls::TlsAcceptorExt;
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#[cfg(feature = "alpn")]
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use openssl::ssl::SslAcceptor;
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#[cfg(feature = "alpn")]
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use tokio_openssl::SslAcceptorExt;
use actix::msgs::StopArbiter;
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use actix::*;
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use server::channel::HttpChannel;
use server::settings::WorkerSettings;
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use server::{HttpHandler, KeepAlive};
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#[derive(Message)]
pub(crate) struct Conn<T> {
pub io: T,
pub token: usize,
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pub peer: Option<net::SocketAddr>,
pub http2: bool,
}
#[derive(Clone)]
pub(crate) struct SocketInfo {
pub addr: net::SocketAddr,
pub htype: StreamHandlerType,
}
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/// Stop worker message. Returns `true` on successful shutdown
/// and `false` if some connections still alive.
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pub(crate) struct StopWorker {
pub graceful: Option<time::Duration>,
}
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impl Message for StopWorker {
type Result = Result<bool, ()>;
}
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/// Http worker
///
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/// Worker accepts Socket objects via unbounded channel and start requests
/// processing.
pub(crate) struct Worker<H>
where
H: HttpHandler + 'static,
{
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settings: Rc<WorkerSettings<H>>,
socks: Slab<SocketInfo>,
tcp_ka: Option<time::Duration>,
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}
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impl<H: HttpHandler + 'static> Worker<H> {
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pub(crate) fn new(
h: Vec<H>, socks: Slab<SocketInfo>, keep_alive: KeepAlive,
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) -> Worker<H> {
let tcp_ka = if let KeepAlive::Tcp(val) = keep_alive {
Some(time::Duration::new(val as u64, 0))
} else {
None
};
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Worker {
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settings: Rc::new(WorkerSettings::new(h, keep_alive)),
socks,
tcp_ka,
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}
}
fn update_time(&self, ctx: &mut Context<Self>) {
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self.settings.update_date();
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ctx.run_later(time::Duration::new(1, 0), |slf, ctx| slf.update_time(ctx));
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}
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fn shutdown_timeout(
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&self, ctx: &mut Context<Self>, tx: oneshot::Sender<bool>, dur: time::Duration,
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) {
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// sleep for 1 second and then check again
ctx.run_later(time::Duration::new(1, 0), move |slf, ctx| {
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let num = slf.settings.num_channels();
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if num == 0 {
let _ = tx.send(true);
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Arbiter::arbiter().do_send(StopArbiter(0));
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} else if let Some(d) = dur.checked_sub(time::Duration::new(1, 0)) {
slf.shutdown_timeout(ctx, tx, d);
} else {
info!("Force shutdown http worker, {} connections", num);
slf.settings.head().traverse::<TcpStream, H>();
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let _ = tx.send(false);
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Arbiter::arbiter().do_send(StopArbiter(0));
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}
});
}
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}
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impl<H: 'static> Actor for Worker<H>
where
H: HttpHandler + 'static,
{
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type Context = Context<Self>;
fn started(&mut self, ctx: &mut Self::Context) {
self.update_time(ctx);
}
}
impl<H> Handler<Conn<net::TcpStream>> for Worker<H>
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where
H: HttpHandler + 'static,
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{
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type Result = ();
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fn handle(&mut self, msg: Conn<net::TcpStream>, _: &mut Context<Self>) {
if self.tcp_ka.is_some() && msg.io.set_keepalive(self.tcp_ka).is_err() {
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error!("Can not set socket keep-alive option");
}
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self.socks
.get_mut(msg.token)
.unwrap()
.htype
.handle(Rc::clone(&self.settings), msg);
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}
}
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/// `StopWorker` message handler
impl<H> Handler<StopWorker> for Worker<H>
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where
H: HttpHandler + 'static,
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{
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type Result = Response<bool, ()>;
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fn handle(&mut self, msg: StopWorker, ctx: &mut Context<Self>) -> Self::Result {
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let num = self.settings.num_channels();
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if num == 0 {
info!("Shutting down http worker, 0 connections");
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Response::reply(Ok(true))
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} else if let Some(dur) = msg.graceful {
info!("Graceful http worker shutdown, {} connections", num);
let (tx, rx) = oneshot::channel();
self.shutdown_timeout(ctx, tx, dur);
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Response::async(rx.map_err(|_| ()))
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} else {
info!("Force shutdown http worker, {} connections", num);
self.settings.head().traverse::<TcpStream, H>();
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Response::reply(Ok(false))
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}
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}
}
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#[derive(Clone)]
pub(crate) enum StreamHandlerType {
Normal,
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#[cfg(feature = "tls")]
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Tls(TlsAcceptor),
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#[cfg(feature = "alpn")]
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Alpn(SslAcceptor),
}
impl StreamHandlerType {
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fn handle<H: HttpHandler>(
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&mut self, h: Rc<WorkerSettings<H>>, msg: Conn<net::TcpStream>,
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) {
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match *self {
StreamHandlerType::Normal => {
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let _ = msg.io.set_nodelay(true);
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let io = TcpStream::from_std(msg.io, &Handle::default())
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.expect("failed to associate TCP stream");
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current_thread::spawn(HttpChannel::new(h, io, msg.peer, msg.http2));
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}
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#[cfg(feature = "tls")]
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StreamHandlerType::Tls(ref acceptor) => {
let Conn {
io, peer, http2, ..
} = msg;
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let _ = io.set_nodelay(true);
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let io = TcpStream::from_std(io, &Handle::default())
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.expect("failed to associate TCP stream");
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Arbiter::spawn(TlsAcceptorExt::accept_async(acceptor, io).then(
move |res| {
match res {
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Ok(io) => current_thread::spawn(HttpChannel::new(
h, io, peer, http2,
)),
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Err(err) => {
trace!("Error during handling tls connection: {}", err)
}
};
future::result(Ok(()))
},
));
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}
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#[cfg(feature = "alpn")]
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StreamHandlerType::Alpn(ref acceptor) => {
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let Conn { io, peer, .. } = msg;
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let _ = io.set_nodelay(true);
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let io = TcpStream::from_std(io, &Handle::default())
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.expect("failed to associate TCP stream");
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Arbiter::spawn(SslAcceptorExt::accept_async(acceptor, io).then(
move |res| {
match res {
Ok(io) => {
let http2 = if let Some(p) =
io.get_ref().ssl().selected_alpn_protocol()
{
p.len() == 2 && &p == b"h2"
} else {
false
};
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current_thread::spawn(HttpChannel::new(
h, io, peer, http2,
));
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}
Err(err) => {
trace!("Error during handling tls connection: {}", err)
}
};
future::result(Ok(()))
},
));
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}
}
}
pub(crate) fn scheme(&self) -> &'static str {
match *self {
StreamHandlerType::Normal => "http",
#[cfg(feature = "tls")]
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StreamHandlerType::Tls(_) => "https",
#[cfg(feature = "alpn")]
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StreamHandlerType::Alpn(_) => "https",
}
}
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}