use std::fmt::Debug; use std::marker::PhantomData; use std::net; use actix_codec::{AsyncRead, AsyncWrite, Framed}; use actix_service::{IntoNewService, NewService, Service}; use actix_utils::cloneable::CloneableService; use futures::future::{ok, FutureResult}; use futures::{try_ready, Async, Future, IntoFuture, Poll, Stream}; use log::error; use crate::body::MessageBody; use crate::config::{KeepAlive, ServiceConfig}; use crate::error::{DispatchError, ParseError}; use crate::request::Request; use crate::response::Response; use super::codec::Codec; use super::dispatcher::Dispatcher; use super::{H1ServiceResult, Message}; /// `NewService` implementation for HTTP1 transport pub struct H1Service { srv: S, cfg: ServiceConfig, _t: PhantomData<(T, B)>, } impl H1Service where S: NewService, S::Error: Debug, S::Response: Into>, S::Service: 'static, B: MessageBody, { /// Create new `HttpService` instance with default config. pub fn new>(service: F) -> Self { let cfg = ServiceConfig::new(KeepAlive::Timeout(5), 5000, 0); H1Service { cfg, srv: service.into_new_service(), _t: PhantomData, } } /// Create new `HttpService` instance with config. pub fn with_config>( cfg: ServiceConfig, service: F, ) -> Self { H1Service { cfg, srv: service.into_new_service(), _t: PhantomData, } } /// Create builder for `HttpService` instance. pub fn build() -> H1ServiceBuilder { H1ServiceBuilder::new() } } impl NewService for H1Service where T: AsyncRead + AsyncWrite, S: NewService, S::Error: Debug, S::Response: Into>, S::Service: 'static, B: MessageBody, { type Response = H1ServiceResult; type Error = DispatchError; type InitError = S::InitError; type Service = H1ServiceHandler; type Future = H1ServiceResponse; fn new_service(&self, _: &()) -> Self::Future { H1ServiceResponse { fut: self.srv.new_service(&()).into_future(), cfg: Some(self.cfg.clone()), _t: PhantomData, } } } /// A http/1 new service builder /// /// This type can be used to construct an instance of `ServiceConfig` through a /// builder-like pattern. pub struct H1ServiceBuilder { keep_alive: KeepAlive, client_timeout: u64, client_disconnect: u64, host: String, addr: net::SocketAddr, secure: bool, _t: PhantomData<(T, S)>, } impl H1ServiceBuilder where S: NewService, S::Error: Debug, { /// Create instance of `ServiceConfigBuilder` pub fn new() -> H1ServiceBuilder { H1ServiceBuilder { keep_alive: KeepAlive::Timeout(5), client_timeout: 5000, client_disconnect: 0, secure: false, host: "localhost".to_owned(), addr: "127.0.0.1:8080".parse().unwrap(), _t: PhantomData, } } /// Enable secure flag for current server. /// This flags also enables `client disconnect timeout`. /// /// By default this flag is set to false. pub fn secure(mut self) -> Self { self.secure = true; if self.client_disconnect == 0 { self.client_disconnect = 3000; } self } /// Set server keep-alive setting. /// /// By default keep alive is set to a 5 seconds. pub fn keep_alive>(mut self, val: U) -> Self { self.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(mut self, val: u64) -> Self { self.client_timeout = val; self } /// Set server connection disconnect timeout in milliseconds. /// /// Defines a timeout for disconnect connection. If a disconnect procedure does not complete /// within this time, the request get dropped. This timeout affects secure connections. /// /// To disable timeout set value to 0. /// /// By default disconnect timeout is set to 3000 milliseconds. pub fn client_disconnect(mut self, val: u64) -> Self { self.client_disconnect = val; self } /// Set server host name. /// /// Host name is used by application router aa 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(mut self, val: &str) -> Self { self.host = val.to_owned(); self } /// Set server ip address. /// /// Host name is used by application router aa a hostname for url /// generation. Check [ConnectionInfo](./dev/struct.ConnectionInfo. /// html#method.host) documentation for more information. /// /// By default server address is set to a "127.0.0.1:8080" pub fn server_address(mut self, addr: U) -> Self { match addr.to_socket_addrs() { Err(err) => error!("Can not convert to SocketAddr: {}", err), Ok(mut addrs) => { if let Some(addr) = addrs.next() { self.addr = addr; } } } self } /// Finish service configuration and create `H1Service` instance. pub fn finish(self, service: F) -> H1Service where B: MessageBody, F: IntoNewService, { let cfg = ServiceConfig::new( self.keep_alive, self.client_timeout, self.client_disconnect, ); H1Service { cfg, srv: service.into_new_service(), _t: PhantomData, } } } #[doc(hidden)] pub struct H1ServiceResponse, B> { fut: ::Future, cfg: Option, _t: PhantomData<(T, B)>, } impl Future for H1ServiceResponse where T: AsyncRead + AsyncWrite, S: NewService, S::Service: 'static, S::Error: Debug, S::Response: Into>, B: MessageBody, { type Item = H1ServiceHandler; type Error = S::InitError; fn poll(&mut self) -> Poll { let service = try_ready!(self.fut.poll()); Ok(Async::Ready(H1ServiceHandler::new( self.cfg.take().unwrap(), service, ))) } } /// `Service` implementation for HTTP1 transport pub struct H1ServiceHandler { srv: CloneableService, cfg: ServiceConfig, _t: PhantomData<(T, B)>, } impl H1ServiceHandler where S: Service, S::Error: Debug, S::Response: Into>, B: MessageBody, { fn new(cfg: ServiceConfig, srv: S) -> H1ServiceHandler { H1ServiceHandler { srv: CloneableService::new(srv), cfg, _t: PhantomData, } } } impl Service for H1ServiceHandler where T: AsyncRead + AsyncWrite, S: Service, S::Error: Debug, S::Response: Into>, B: MessageBody, { type Response = H1ServiceResult; type Error = DispatchError; type Future = Dispatcher; fn poll_ready(&mut self) -> Poll<(), Self::Error> { self.srv.poll_ready().map_err(DispatchError::Service) } fn call(&mut self, req: T) -> Self::Future { Dispatcher::new(req, self.cfg.clone(), self.srv.clone()) } } /// `NewService` implementation for `OneRequestService` service #[derive(Default)] pub struct OneRequest { config: ServiceConfig, _t: PhantomData, } impl OneRequest where T: AsyncRead + AsyncWrite, { /// Create new `H1SimpleService` instance. pub fn new() -> Self { OneRequest { config: ServiceConfig::default(), _t: PhantomData, } } } impl NewService for OneRequest where T: AsyncRead + AsyncWrite, { type Response = (Request, Framed); type Error = ParseError; type InitError = (); type Service = OneRequestService; type Future = FutureResult; fn new_service(&self, _: &()) -> Self::Future { ok(OneRequestService { config: self.config.clone(), _t: PhantomData, }) } } /// `Service` implementation for HTTP1 transport. Reads one request and returns /// request and framed object. pub struct OneRequestService { config: ServiceConfig, _t: PhantomData, } impl Service for OneRequestService where T: AsyncRead + AsyncWrite, { type Response = (Request, Framed); type Error = ParseError; type Future = OneRequestServiceResponse; fn poll_ready(&mut self) -> Poll<(), Self::Error> { Ok(Async::Ready(())) } fn call(&mut self, req: T) -> Self::Future { OneRequestServiceResponse { framed: Some(Framed::new(req, Codec::new(self.config.clone()))), } } } #[doc(hidden)] pub struct OneRequestServiceResponse where T: AsyncRead + AsyncWrite, { framed: Option>, } impl Future for OneRequestServiceResponse where T: AsyncRead + AsyncWrite, { type Item = (Request, Framed); type Error = ParseError; fn poll(&mut self) -> Poll { match self.framed.as_mut().unwrap().poll()? { Async::Ready(Some(req)) => match req { Message::Item(req) => { Ok(Async::Ready((req, self.framed.take().unwrap()))) } Message::Chunk(_) => unreachable!("Something is wrong"), }, Async::Ready(None) => Err(ParseError::Incomplete), Async::NotReady => Ok(Async::NotReady), } } }