use std::marker::PhantomData; use std::sync::{Arc, Mutex}; use std::{fmt, io, net}; use actix_http::{body::MessageBody, Error, HttpService, KeepAlive, Request, Response}; use actix_server::{Server, ServerBuilder}; use actix_service::{map_config, IntoServiceFactory, Service, ServiceFactory}; #[cfg(unix)] use actix_http::Protocol; #[cfg(unix)] use actix_service::pipeline_factory; #[cfg(unix)] use futures_util::future::ok; #[cfg(feature = "openssl")] use actix_tls::openssl::{AlpnError, SslAcceptor, SslAcceptorBuilder}; #[cfg(feature = "rustls")] use actix_tls::rustls::ServerConfig as RustlsServerConfig; use crate::config::AppConfig; struct Socket { scheme: &'static str, addr: net::SocketAddr, } struct Config { host: Option, keep_alive: KeepAlive, client_timeout: u64, client_shutdown: u64, } /// An HTTP Server. /// /// Create new http server with application factory. /// /// ```rust,no_run /// use actix_web::{web, App, HttpResponse, HttpServer}; /// /// #[actix_rt::main] /// async fn main() -> std::io::Result<()> { /// HttpServer::new( /// || App::new() /// .service(web::resource("/").to(|| HttpResponse::Ok()))) /// .bind("127.0.0.1:59090")? /// .run() /// .await /// } /// ``` pub struct HttpServer where F: Fn() -> I + Send + Clone + 'static, I: IntoServiceFactory, S: ServiceFactory, S::Error: Into, S::InitError: fmt::Debug, S::Response: Into>, B: MessageBody, { pub(super) factory: F, config: Arc>, backlog: i32, sockets: Vec, builder: ServerBuilder, _t: PhantomData<(S, B)>, } impl HttpServer where F: Fn() -> I + Send + Clone + 'static, I: IntoServiceFactory, S: ServiceFactory, S::Error: Into + 'static, S::InitError: fmt::Debug, S::Response: Into> + 'static, ::Future: 'static, B: MessageBody + 'static, { /// Create new http server with application factory pub fn new(factory: F) -> Self { HttpServer { factory, config: Arc::new(Mutex::new(Config { host: None, keep_alive: KeepAlive::Timeout(5), client_timeout: 5000, client_shutdown: 5000, })), backlog: 1024, sockets: Vec::new(), builder: ServerBuilder::default(), _t: PhantomData, } } /// Set number of workers to start. /// /// By default http server uses number of available logical cpu as threads /// count. pub fn workers(mut self, num: usize) -> Self { self.builder = self.builder.workers(num); self } /// Set the maximum number of pending connections. /// /// This refers to the number of clients that can be waiting to be served. /// Exceeding this number results in the client getting an error when /// attempting to connect. It should only affect servers under significant /// load. /// /// Generally set in the 64-2048 range. Default value is 2048. /// /// This method should be called before `bind()` method call. pub fn backlog(mut self, backlog: i32) -> Self { self.backlog = backlog; self.builder = self.builder.backlog(backlog); self } /// Sets the maximum per-worker number of concurrent connections. /// /// All socket listeners will stop accepting connections when this limit is reached /// for each worker. /// /// By default max connections is set to a 25k. pub fn maxconn(mut self, num: usize) -> Self { self.builder = self.builder.maxconn(num); self } /// Sets the maximum per-worker concurrent connection establish process. /// /// All listeners will stop accepting connections when this limit is reached. It /// can be used to limit the global SSL CPU usage. /// /// By default max connections is set to a 256. pub fn maxconnrate(self, num: usize) -> Self { actix_tls::max_concurrent_ssl_connect(num); self } /// Set server keep-alive setting. /// /// By default keep alive is set to a 5 seconds. pub fn keep_alive>(self, val: T) -> Self { self.config.lock().unwrap().keep_alive = val.into(); self } /// Set server client timeout in milliseconds for first request. /// /// Defines a timeout for reading client request header. If a client does not transmit /// the entire set headers within this time, the request is terminated with /// the 408 (Request Time-out) error. /// /// To disable timeout set value to 0. /// /// By default client timeout is set to 5000 milliseconds. pub fn client_timeout(self, val: u64) -> Self { self.config.lock().unwrap().client_timeout = val; self } /// Set server connection shutdown timeout in milliseconds. /// /// Defines a timeout for shutdown connection. If a shutdown procedure does not complete /// within this time, the request is dropped. /// /// To disable timeout set value to 0. /// /// By default client timeout is set to 5000 milliseconds. pub fn client_shutdown(self, val: u64) -> Self { self.config.lock().unwrap().client_shutdown = val; self } /// Set server host name. /// /// Host name is used by application router as a hostname for url generation. /// Check [ConnectionInfo](./dev/struct.ConnectionInfo.html#method.host) /// documentation for more information. /// /// By default host name is set to a "localhost" value. pub fn server_hostname>(self, val: T) -> Self { self.config.lock().unwrap().host = Some(val.as_ref().to_owned()); self } /// Stop actix system. pub fn system_exit(mut self) -> Self { self.builder = self.builder.system_exit(); self } /// Disable signal handling pub fn disable_signals(mut self) -> Self { self.builder = self.builder.disable_signals(); self } /// Timeout for graceful workers shutdown. /// /// After receiving a stop signal, workers have this much time to finish /// serving requests. Workers still alive after the timeout are force /// dropped. /// /// By default shutdown timeout sets to 30 seconds. pub fn shutdown_timeout(mut self, sec: u64) -> Self { self.builder = self.builder.shutdown_timeout(sec); self } /// Get addresses of bound sockets. pub fn addrs(&self) -> Vec { self.sockets.iter().map(|s| s.addr).collect() } /// Get addresses of bound sockets and the scheme for it. /// /// This is useful when the server is bound from different sources /// with some sockets listening on http and some listening on https /// and the user should be presented with an enumeration of which /// socket requires which protocol. pub fn addrs_with_scheme(&self) -> Vec<(net::SocketAddr, &str)> { self.sockets.iter().map(|s| (s.addr, s.scheme)).collect() } /// Use listener for accepting incoming connection requests /// /// HttpServer does not change any configuration for TcpListener, /// it needs to be configured before passing it to listen() method. pub fn listen(mut self, lst: net::TcpListener) -> io::Result { let cfg = self.config.clone(); let factory = self.factory.clone(); let addr = lst.local_addr().unwrap(); self.sockets.push(Socket { addr, scheme: "http", }); self.builder = self.builder.listen( format!("actix-web-service-{}", addr), lst, move || { let c = cfg.lock().unwrap(); let cfg = AppConfig::new( false, addr, c.host.clone().unwrap_or_else(|| format!("{}", addr)), ); HttpService::build() .keep_alive(c.keep_alive) .client_timeout(c.client_timeout) .local_addr(addr) .finish(map_config(factory(), move |_| cfg.clone())) .tcp() }, )?; Ok(self) } #[cfg(feature = "openssl")] /// Use listener for accepting incoming tls connection requests /// /// This method sets alpn protocols to "h2" and "http/1.1" pub fn listen_openssl( self, lst: net::TcpListener, builder: SslAcceptorBuilder, ) -> io::Result { self.listen_ssl_inner(lst, openssl_acceptor(builder)?) } #[cfg(feature = "openssl")] fn listen_ssl_inner( mut self, lst: net::TcpListener, acceptor: SslAcceptor, ) -> io::Result { let factory = self.factory.clone(); let cfg = self.config.clone(); let addr = lst.local_addr().unwrap(); self.sockets.push(Socket { addr, scheme: "https", }); self.builder = self.builder.listen( format!("actix-web-service-{}", addr), lst, move || { let c = cfg.lock().unwrap(); let cfg = AppConfig::new( true, addr, c.host.clone().unwrap_or_else(|| format!("{}", addr)), ); HttpService::build() .keep_alive(c.keep_alive) .client_timeout(c.client_timeout) .client_disconnect(c.client_shutdown) .finish(map_config(factory(), move |_| cfg.clone())) .openssl(acceptor.clone()) }, )?; Ok(self) } #[cfg(feature = "rustls")] /// Use listener for accepting incoming tls connection requests /// /// This method sets alpn protocols to "h2" and "http/1.1" pub fn listen_rustls( self, lst: net::TcpListener, config: RustlsServerConfig, ) -> io::Result { self.listen_rustls_inner(lst, config) } #[cfg(feature = "rustls")] fn listen_rustls_inner( mut self, lst: net::TcpListener, config: RustlsServerConfig, ) -> io::Result { let factory = self.factory.clone(); let cfg = self.config.clone(); let addr = lst.local_addr().unwrap(); self.sockets.push(Socket { addr, scheme: "https", }); self.builder = self.builder.listen( format!("actix-web-service-{}", addr), lst, move || { let c = cfg.lock().unwrap(); let cfg = AppConfig::new( true, addr, c.host.clone().unwrap_or_else(|| format!("{}", addr)), ); HttpService::build() .keep_alive(c.keep_alive) .client_timeout(c.client_timeout) .client_disconnect(c.client_shutdown) .finish(map_config(factory(), move |_| cfg.clone())) .rustls(config.clone()) }, )?; Ok(self) } /// The socket address to bind /// /// To bind multiple addresses this method can be called multiple times. pub fn bind(mut self, addr: A) -> io::Result { let sockets = self.bind2(addr)?; for lst in sockets { self = self.listen(lst)?; } Ok(self) } fn bind2( &self, addr: A, ) -> io::Result> { let mut err = None; let mut succ = false; let mut sockets = Vec::new(); for addr in addr.to_socket_addrs()? { match create_tcp_listener(addr, self.backlog) { Ok(lst) => { succ = true; sockets.push(lst); } Err(e) => err = Some(e), } } if !succ { if let Some(e) = err.take() { Err(e) } else { Err(io::Error::new( io::ErrorKind::Other, "Can not bind to address.", )) } } else { Ok(sockets) } } #[cfg(feature = "openssl")] /// Start listening for incoming tls connections. /// /// This method sets alpn protocols to "h2" and "http/1.1" pub fn bind_openssl( mut self, addr: A, builder: SslAcceptorBuilder, ) -> io::Result where A: net::ToSocketAddrs, { let sockets = self.bind2(addr)?; let acceptor = openssl_acceptor(builder)?; for lst in sockets { self = self.listen_ssl_inner(lst, acceptor.clone())?; } Ok(self) } #[cfg(feature = "rustls")] /// Start listening for incoming tls connections. /// /// This method sets alpn protocols to "h2" and "http/1.1" pub fn bind_rustls( mut self, addr: A, config: RustlsServerConfig, ) -> io::Result { let sockets = self.bind2(addr)?; for lst in sockets { self = self.listen_rustls_inner(lst, config.clone())?; } Ok(self) } #[cfg(unix)] /// Start listening for unix domain connections on existing listener. pub fn listen_uds( mut self, lst: std::os::unix::net::UnixListener, ) -> io::Result { use actix_rt::net::UnixStream; let cfg = self.config.clone(); let factory = self.factory.clone(); let socket_addr = net::SocketAddr::new( net::IpAddr::V4(net::Ipv4Addr::new(127, 0, 0, 1)), 8080, ); self.sockets.push(Socket { scheme: "http", addr: socket_addr, }); let addr = format!("actix-web-service-{:?}", lst.local_addr()?); self.builder = self.builder.listen_uds(addr, lst, move || { let c = cfg.lock().unwrap(); let config = AppConfig::new( false, socket_addr, c.host.clone().unwrap_or_else(|| format!("{}", socket_addr)), ); pipeline_factory(|io: UnixStream| ok((io, Protocol::Http1, None))).and_then( HttpService::build() .keep_alive(c.keep_alive) .client_timeout(c.client_timeout) .finish(map_config(factory(), move |_| config.clone())), ) })?; Ok(self) } #[cfg(unix)] /// Start listening for incoming unix domain connections. pub fn bind_uds(mut self, addr: A) -> io::Result where A: AsRef, { use actix_rt::net::UnixStream; let cfg = self.config.clone(); let factory = self.factory.clone(); let socket_addr = net::SocketAddr::new( net::IpAddr::V4(net::Ipv4Addr::new(127, 0, 0, 1)), 8080, ); self.sockets.push(Socket { scheme: "http", addr: socket_addr, }); self.builder = self.builder.bind_uds( format!("actix-web-service-{:?}", addr.as_ref()), addr, move || { let c = cfg.lock().unwrap(); let config = AppConfig::new( false, socket_addr, c.host.clone().unwrap_or_else(|| format!("{}", socket_addr)), ); pipeline_factory(|io: UnixStream| ok((io, Protocol::Http1, None))) .and_then( HttpService::build() .keep_alive(c.keep_alive) .client_timeout(c.client_timeout) .finish(map_config(factory(), move |_| config.clone())), ) }, )?; Ok(self) } } impl HttpServer where F: Fn() -> I + Send + Clone + 'static, I: IntoServiceFactory, S: ServiceFactory, S::Error: Into, S::InitError: fmt::Debug, S::Response: Into>, S::Service: 'static, B: MessageBody, { /// Start listening for incoming connections. /// /// This method starts number of http workers in separate threads. /// For each address this method starts separate thread which does /// `accept()` in a loop. /// /// This methods panics if no socket address can be bound or an `Actix` system is not yet /// configured. /// /// ```rust,no_run /// use std::io; /// use actix_web::{web, App, HttpResponse, HttpServer}; /// /// #[actix_rt::main] /// async fn main() -> io::Result<()> { /// HttpServer::new(|| App::new().service(web::resource("/").to(|| HttpResponse::Ok()))) /// .bind("127.0.0.1:0")? /// .run() /// .await /// } /// ``` pub fn run(self) -> Server { self.builder.start() } } fn create_tcp_listener( addr: net::SocketAddr, backlog: i32, ) -> io::Result { use socket2::{Domain, Protocol, Socket, Type}; let domain = match addr { net::SocketAddr::V4(_) => Domain::ipv4(), net::SocketAddr::V6(_) => Domain::ipv6(), }; let socket = Socket::new(domain, Type::stream(), Some(Protocol::tcp()))?; socket.set_reuse_address(true)?; socket.bind(&addr.into())?; socket.listen(backlog)?; Ok(socket.into_tcp_listener()) } #[cfg(feature = "openssl")] /// Configure `SslAcceptorBuilder` with custom server flags. fn openssl_acceptor(mut builder: SslAcceptorBuilder) -> io::Result { builder.set_alpn_select_callback(|_, protos| { const H2: &[u8] = b"\x02h2"; const H11: &[u8] = b"\x08http/1.1"; if protos.windows(3).any(|window| window == H2) { Ok(b"h2") } else if protos.windows(9).any(|window| window == H11) { Ok(b"http/1.1") } else { Err(AlpnError::NOACK) } }); builder.set_alpn_protos(b"\x08http/1.1\x02h2")?; Ok(builder.build()) }