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mirror of https://github.com/actix/actix-extras.git synced 2024-11-28 09:42:40 +01:00
actix-extras/src/server.rs

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Rust
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use std::{io, net, thread};
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use std::rc::Rc;
use std::sync::Arc;
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use std::time::Duration;
use std::marker::PhantomData;
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use actix::dev::*;
use futures::Stream;
use futures::sync::mpsc;
use tokio_io::{AsyncRead, AsyncWrite};
use tokio_core::net::TcpStream;
use num_cpus;
use socket2::{Socket, Domain, Type};
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#[cfg(feature="tls")]
use futures::{future, Future};
#[cfg(feature="tls")]
use native_tls::TlsAcceptor;
#[cfg(feature="tls")]
use tokio_tls::{TlsStream, TlsAcceptorExt};
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#[cfg(feature="alpn")]
use futures::{future, Future};
#[cfg(feature="alpn")]
use openssl::ssl::{SslMethod, SslAcceptor, SslAcceptorBuilder};
#[cfg(feature="alpn")]
use openssl::pkcs12::ParsedPkcs12;
#[cfg(feature="alpn")]
use tokio_openssl::{SslStream, SslAcceptorExt};
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use helpers;
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use channel::{HttpChannel, HttpHandler, IntoHttpHandler};
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/// Various server settings
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#[derive(Debug, Clone)]
pub struct ServerSettings {
addr: Option<net::SocketAddr>,
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secure: bool,
host: String,
}
impl Default for ServerSettings {
fn default() -> Self {
ServerSettings {
addr: None,
secure: false,
host: "localhost:8080".to_owned(),
}
}
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}
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impl ServerSettings {
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/// Crate server settings instance
fn new(addr: Option<net::SocketAddr>, secure: bool) -> Self {
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let host = if let Some(ref addr) = addr {
format!("{}", addr)
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} else {
"unknown".to_owned()
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};
ServerSettings {
addr: addr,
secure: secure,
host: host,
}
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}
/// Returns the socket address of the local half of this TCP connection
pub fn local_addr(&self) -> Option<net::SocketAddr> {
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self.addr
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}
/// Returns true if connection is secure(https)
pub fn secure(&self) -> bool {
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self.secure
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}
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/// Returns host header value
pub fn host(&self) -> &str {
&self.host
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}
}
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/// An HTTP Server
///
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/// `T` - async stream, anything that implements `AsyncRead` + `AsyncWrite`.
///
/// `A` - peer address
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///
/// `H` - request handler
pub struct HttpServer<T, A, H, U>
where H: 'static
{
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h: Option<Rc<WorkerSettings<H>>>,
io: PhantomData<T>,
addr: PhantomData<A>,
threads: usize,
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keep_alive: Option<u64>,
factory: Arc<Fn() -> U + Send + Sync>,
workers: Vec<SyncAddress<Worker<H>>>,
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}
impl<T: 'static, A: 'static, H, U: 'static> Actor for HttpServer<T, A, H, U> {
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type Context = Context<Self>;
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fn started(&mut self, ctx: &mut Self::Context) {
self.update_time(ctx);
}
}
impl<T: 'static, A: 'static, H, U: 'static> HttpServer<T, A, H, U> {
fn update_time(&self, ctx: &mut Context<Self>) {
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helpers::update_date();
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ctx.run_later(Duration::new(1, 0), |slf, ctx| slf.update_time(ctx));
}
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}
impl<T, A, H, U, V> HttpServer<T, A, H, U>
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where A: 'static,
T: AsyncRead + AsyncWrite + 'static,
H: HttpHandler,
U: IntoIterator<Item=V> + 'static,
V: IntoHttpHandler<Handler=H>,
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{
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/// Create new http server with application factory
pub fn new<F>(factory: F) -> Self
where F: Sync + Send + 'static + Fn() -> U,
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{
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HttpServer{ h: None,
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io: PhantomData,
addr: PhantomData,
threads: num_cpus::get(),
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keep_alive: None,
factory: Arc::new(factory),
workers: Vec::new(),
}
}
/// Set number of workers to start.
///
/// By default http server uses number of available logical cpu as threads count.
pub fn threads(mut self, num: usize) -> Self {
self.threads = num;
self
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}
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/// Set server keep-alive setting.
///
/// By default keep alive is enabled.
///
/// - `Some(75)` - enable
///
/// - `Some(0)` - disable
///
/// - `None` - use `SO_KEEPALIVE` socket option
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pub fn keep_alive(mut self, val: Option<u64>) -> Self {
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self.keep_alive = val;
self
}
/// Start listening for incomming connections from a stream.
///
/// This method uses only one thread for handling incoming connections.
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pub fn serve_incoming<S, Addr>(mut self, stream: S, secure: bool) -> io::Result<Addr>
where Self: ActorAddress<Self, Addr>,
S: Stream<Item=(T, A), Error=io::Error> + 'static
{
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// set server settings
let addr: net::SocketAddr = "127.0.0.1:8080".parse().unwrap();
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let settings = ServerSettings::new(Some(addr), secure);
let mut apps: Vec<_> = (*self.factory)().into_iter().map(|h| h.into_handler()).collect();
for app in &mut apps {
app.server_settings(settings.clone());
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}
self.h = Some(Rc::new(WorkerSettings::new(apps, self.keep_alive)));
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// start server
Ok(HttpServer::create(move |ctx| {
ctx.add_stream(stream.map(
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move |(t, _)| IoStream{io: t, peer: None, http2: false}));
self
}))
}
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fn bind<S: net::ToSocketAddrs>(&self, addr: S)
-> io::Result<Vec<(net::SocketAddr, Socket)>>
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{
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let mut err = None;
let mut sockets = Vec::new();
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if let Ok(iter) = addr.to_socket_addrs() {
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for addr in iter {
match addr {
net::SocketAddr::V4(a) => {
let socket = Socket::new(Domain::ipv4(), Type::stream(), None)?;
match socket.bind(&a.into()) {
Ok(_) => {
socket.listen(1024)
.expect("failed to set socket backlog");
socket.set_reuse_address(true)
.expect("failed to set socket reuse address");
sockets.push((addr, socket));
},
Err(e) => err = Some(e),
}
}
net::SocketAddr::V6(a) => {
let socket = Socket::new(Domain::ipv6(), Type::stream(), None)?;
match socket.bind(&a.into()) {
Ok(_) => {
socket.listen(1024)
.expect("failed to set socket backlog");
socket.set_reuse_address(true)
.expect("failed to set socket reuse address");
sockets.push((addr, socket))
}
Err(e) => err = Some(e),
}
}
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}
}
}
if sockets.is_empty() {
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if let Some(e) = err.take() {
Err(e)
} else {
Err(io::Error::new(io::ErrorKind::Other, "Can not bind to address."))
}
} else {
Ok(sockets)
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}
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}
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fn start_workers(&mut self, settings: &ServerSettings, handler: &StreamHandlerType)
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-> Vec<mpsc::UnboundedSender<IoStream<Socket>>>
{
// start workers
let mut workers = Vec::new();
for _ in 0..self.threads {
let s = settings.clone();
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let (tx, rx) = mpsc::unbounded::<IoStream<Socket>>();
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let h = handler.clone();
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let ka = self.keep_alive;
let factory = Arc::clone(&self.factory);
let addr = Arbiter::start(move |ctx: &mut Context<_>| {
let mut apps: Vec<_> = (*factory)()
.into_iter().map(|h| h.into_handler()).collect();
for app in &mut apps {
app.server_settings(s.clone());
}
ctx.add_stream(rx);
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Worker::new(apps, h, ka)
});
workers.push(tx);
self.workers.push(addr);
}
info!("Starting {} http workers", self.threads);
workers
}
}
impl<H: HttpHandler, U, V> HttpServer<TcpStream, net::SocketAddr, H, U>
where U: IntoIterator<Item=V> + 'static,
V: IntoHttpHandler<Handler=H>,
{
/// Start listening for incomming connections.
///
/// This methods converts address to list of `SocketAddr`
/// then binds to all available addresses.
/// It also starts number of http handler workers in seperate threads.
/// For each address this method starts separate thread which does `accept()` in a loop.
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pub fn serve<S, Addr>(mut self, addr: S) -> io::Result<Addr>
where Self: ActorAddress<Self, Addr>,
S: net::ToSocketAddrs,
{
let addrs = self.bind(addr)?;
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let settings = ServerSettings::new(Some(addrs[0].0), false);
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let workers = self.start_workers(&settings, &StreamHandlerType::Normal);
// start acceptors threads
for (addr, sock) in addrs {
info!("Starting http server on {}", addr);
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start_accept_thread(sock, addr, workers.clone());
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}
// start http server actor
Ok(HttpServer::create(|_| {self}))
}
}
#[cfg(feature="tls")]
impl<H: HttpHandler, U, V> HttpServer<TlsStream<TcpStream>, net::SocketAddr, H, U>
where U: IntoIterator<Item=V> + 'static,
V: IntoHttpHandler<Handler=H>,
{
/// Start listening for incomming tls connections.
///
/// This methods converts address to list of `SocketAddr`
/// then binds to all available addresses.
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pub fn serve_tls<S, Addr>(mut self, addr: S, pkcs12: ::Pkcs12) -> io::Result<Addr>
where Self: ActorAddress<Self, Addr>,
S: net::ToSocketAddrs,
{
let addrs = self.bind(addr)?;
let settings = ServerSettings::new(Some(addrs[0].0), false);
let acceptor = match TlsAcceptor::builder(pkcs12) {
Ok(builder) => {
match builder.build() {
Ok(acceptor) => acceptor,
Err(err) => return Err(io::Error::new(io::ErrorKind::Other, err))
}
}
Err(err) => return Err(io::Error::new(io::ErrorKind::Other, err))
};
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let workers = self.start_workers(&settings, &StreamHandlerType::Tls(acceptor));
// start acceptors threads
for (addr, sock) in addrs {
info!("Starting tls http server on {}", addr);
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start_accept_thread(sock, addr, workers.clone());
}
// start http server actor
Ok(HttpServer::create(|_| {self}))
}
}
#[cfg(feature="alpn")]
impl<H: HttpHandler, U, V> HttpServer<SslStream<TcpStream>, net::SocketAddr, H, U>
where U: IntoIterator<Item=V> + 'static,
V: IntoHttpHandler<Handler=H>,
{
/// Start listening for incomming tls connections.
///
/// This methods converts address to list of `SocketAddr`
/// then binds to all available addresses.
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pub fn serve_ssl<S, Addr>(mut self, addr: S, identity: &ParsedPkcs12) -> io::Result<Addr>
where Self: ActorAddress<Self, Addr>,
S: net::ToSocketAddrs,
{
let addrs = self.bind(addr)?;
let settings = ServerSettings::new(Some(addrs[0].0), false);
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let acceptor = match SslAcceptorBuilder::mozilla_intermediate(
SslMethod::tls(), &identity.pkey, &identity.cert, &identity.chain)
{
Ok(mut builder) => {
match builder.set_alpn_protocols(&[b"h2", b"http/1.1"]) {
Ok(_) => builder.build(),
Err(err) => return Err(io::Error::new(io::ErrorKind::Other, err)),
}
},
Err(err) => return Err(io::Error::new(io::ErrorKind::Other, err))
};
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let workers = self.start_workers(&settings, &StreamHandlerType::Alpn(acceptor));
// start acceptors threads
for (addr, sock) in addrs {
info!("Starting tls http server on {}", addr);
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start_accept_thread(sock, addr, workers.clone());
}
// start http server actor
Ok(HttpServer::create(|_| {self}))
}
}
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struct IoStream<T> {
io: T,
peer: Option<net::SocketAddr>,
http2: bool,
}
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impl<T> ResponseType for IoStream<T>
{
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type Item = ();
type Error = ();
}
impl<T, A, H, U> StreamHandler<IoStream<T>, io::Error> for HttpServer<T, A, H, U>
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where T: AsyncRead + AsyncWrite + 'static,
H: HttpHandler + 'static,
U: 'static,
A: 'static {}
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impl<T, A, H, U> Handler<IoStream<T>, io::Error> for HttpServer<T, A, H, U>
where T: AsyncRead + AsyncWrite + 'static,
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H: HttpHandler + 'static,
U: 'static,
A: 'static,
{
fn error(&mut self, err: io::Error, _: &mut Context<Self>) {
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debug!("Error handling request: {}", err)
}
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fn handle(&mut self, msg: IoStream<T>, _: &mut Context<Self>)
-> Response<Self, IoStream<T>>
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{
Arbiter::handle().spawn(
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HttpChannel::new(Rc::clone(self.h.as_ref().unwrap()), msg.io, msg.peer, msg.http2));
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Self::empty()
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}
}
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/// Http worker
///
/// Worker accepts Socket objects via unbounded channel and start requests processing.
struct Worker<H> {
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h: Rc<WorkerSettings<H>>,
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handler: StreamHandlerType,
}
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pub(crate) struct WorkerSettings<H> {
h: Vec<H>,
enabled: bool,
keep_alive: u64,
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}
impl<H> WorkerSettings<H> {
fn new(h: Vec<H>, keep_alive: Option<u64>) -> WorkerSettings<H> {
WorkerSettings {
h: h,
enabled: if let Some(ka) = keep_alive { ka > 0 } else { false },
keep_alive: keep_alive.unwrap_or(0),
}
}
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pub fn handlers(&self) -> &Vec<H> {
&self.h
}
pub fn keep_alive(&self) -> u64 {
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self.keep_alive
}
pub fn keep_alive_enabled(&self) -> bool {
self.enabled
}
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}
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impl<H: 'static> Worker<H> {
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fn new(h: Vec<H>, handler: StreamHandlerType, keep_alive: Option<u64>) -> Worker<H> {
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Worker {
h: Rc::new(WorkerSettings::new(h, keep_alive)),
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handler: handler,
}
}
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fn update_time(&self, ctx: &mut Context<Self>) {
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helpers::update_date();
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ctx.run_later(Duration::new(1, 0), |slf, ctx| slf.update_time(ctx));
}
}
impl<H: 'static> Actor for Worker<H> {
type Context = Context<Self>;
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fn started(&mut self, ctx: &mut Self::Context) {
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self.update_time(ctx);
}
}
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impl<H> StreamHandler<IoStream<Socket>> for Worker<H>
where H: HttpHandler + 'static {}
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impl<H> Handler<IoStream<Socket>> for Worker<H>
where H: HttpHandler + 'static,
{
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fn handle(&mut self, msg: IoStream<Socket>, _: &mut Context<Self>)
-> Response<Self, IoStream<Socket>>
{
if !self.h.keep_alive_enabled() &&
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msg.io.set_keepalive(Some(Duration::new(75, 0))).is_err()
{
error!("Can not set socket keep-alive option");
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}
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self.handler.handle(Rc::clone(&self.h), msg);
Self::empty()
}
}
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#[derive(Clone)]
enum StreamHandlerType {
Normal,
#[cfg(feature="tls")]
Tls(TlsAcceptor),
#[cfg(feature="alpn")]
Alpn(SslAcceptor),
}
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impl StreamHandlerType {
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fn handle<H: HttpHandler>(&mut self, h: Rc<WorkerSettings<H>>, msg: IoStream<Socket>) {
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match *self {
StreamHandlerType::Normal => {
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let io = TcpStream::from_stream(msg.io.into_tcp_stream(), Arbiter::handle())
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.expect("failed to associate TCP stream");
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Arbiter::handle().spawn(HttpChannel::new(h, io, msg.peer, msg.http2));
}
#[cfg(feature="tls")]
StreamHandlerType::Tls(ref acceptor) => {
let IoStream { io, peer, http2 } = msg;
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let io = TcpStream::from_stream(io.into_tcp_stream(), Arbiter::handle())
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.expect("failed to associate TCP stream");
Arbiter::handle().spawn(
TlsAcceptorExt::accept_async(acceptor, io).then(move |res| {
match res {
Ok(io) => Arbiter::handle().spawn(
HttpChannel::new(h, io, peer, http2)),
Err(err) =>
trace!("Error during handling tls connection: {}", err),
};
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future::result(Ok(()))
})
);
}
#[cfg(feature="alpn")]
StreamHandlerType::Alpn(ref acceptor) => {
let IoStream { io, peer, .. } = msg;
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let io = TcpStream::from_stream(io.into_tcp_stream(), Arbiter::handle())
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.expect("failed to associate TCP stream");
Arbiter::handle().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
};
Arbiter::handle().spawn(HttpChannel::new(h, io, peer, http2));
},
Err(err) =>
trace!("Error during handling tls connection: {}", err),
};
future::result(Ok(()))
})
);
}
}
}
}
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fn start_accept_thread(sock: Socket, addr: net::SocketAddr,
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workers: Vec<mpsc::UnboundedSender<IoStream<Socket>>>) {
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// start acceptors thread
let _ = thread::Builder::new().name(format!("Accept on {}", addr)).spawn(move || {
let mut next = 0;
loop {
match sock.accept() {
Ok((socket, addr)) => {
let addr = if let Some(addr) = addr.as_inet() {
net::SocketAddr::V4(addr)
} else {
net::SocketAddr::V6(addr.as_inet6().unwrap())
};
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let msg = IoStream{io: socket, peer: Some(addr), http2: false};
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workers[next].unbounded_send(msg).expect("worker thread died");
next = (next + 1) % workers.len();
}
Err(err) => error!("Error accepting connection: {:?}", err),
}
}
});
}