actix-web/src/h2/service.rs

use std::fmt::Debug;
use std::marker::PhantomData;
use std::net;

use actix_codec::{AsyncRead, AsyncWrite, Framed};
use actix_service::{IntoNewService, NewService, Service};
use bytes::Bytes;
use futures::future::{ok, FutureResult};
use futures::{try_ready, Async, Future, Poll, Stream};
use h2::server::{self, Connection, Handshake};
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::dispatcher::Dispatcher;
use super::H2ServiceResult;

/// `NewService` implementation for HTTP2 transport
pub struct H2Service<T, S, B> {
    srv: S,
    cfg: ServiceConfig,
    _t: PhantomData<(T, B)>,
}

impl<T, S, B> H2Service<T, S, B>
where
    S: NewService<Request = Request, Response = Response<B>> + Clone,
    S::Service: Clone,
    S::Error: Debug,
    B: MessageBody,
{
    /// Create new `HttpService` instance.
    pub fn new<F: IntoNewService<S>>(service: F) -> Self {
        let cfg = ServiceConfig::new(KeepAlive::Timeout(5), 5000, 0);

        H2Service {
            cfg,
            srv: service.into_new_service(),
            _t: PhantomData,
        }
    }

    /// Create builder for `HttpService` instance.
    pub fn build() -> H2ServiceBuilder<T, S> {
        H2ServiceBuilder::new()
    }
}

impl<T, S, B> NewService for H2Service<T, S, B>
where
    T: AsyncRead + AsyncWrite,
    S: NewService<Request = Request, Response = Response<B>> + Clone,
    S::Service: Clone,
    S::Error: Debug,
    B: MessageBody,
{
    type Request = T;
    type Response = H2ServiceResult<T>;
    type Error = (); //DispatchError<S::Error>;
    type InitError = S::InitError;
    type Service = H2ServiceHandler<T, S::Service, B>;
    type Future = H2ServiceResponse<T, S, B>;

    fn new_service(&self) -> Self::Future {
        H2ServiceResponse {
            fut: self.srv.new_service(),
            cfg: Some(self.cfg.clone()),
            _t: PhantomData,
        }
    }
}

/// A http/2 new service builder
///
/// This type can be used to construct an instance of `ServiceConfig` through a
/// builder-like pattern.
pub struct H2ServiceBuilder<T, S> {
    keep_alive: KeepAlive,
    client_timeout: u64,
    client_disconnect: u64,
    host: String,
    addr: net::SocketAddr,
    secure: bool,
    _t: PhantomData<(T, S)>,
}

impl<T, S> H2ServiceBuilder<T, S>
where
    S: NewService<Request = Request>,
    S::Service: Clone,
    S::Error: Debug,
{
    /// Create instance of `H2ServiceBuilder`
    pub fn new() -> H2ServiceBuilder<T, S> {
        H2ServiceBuilder {
            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<U: Into<KeepAlive>>(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<U: net::ToSocketAddrs>(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<F, B>(self, service: F) -> H2Service<T, S, B>
    where
        B: MessageBody,
        F: IntoNewService<S>,
    {
        let cfg = ServiceConfig::new(
            self.keep_alive,
            self.client_timeout,
            self.client_disconnect,
        );
        H2Service {
            cfg,
            srv: service.into_new_service(),
            _t: PhantomData,
        }
    }
}

#[doc(hidden)]
pub struct H2ServiceResponse<T, S: NewService, B> {
    fut: S::Future,
    cfg: Option<ServiceConfig>,
    _t: PhantomData<(T, B)>,
}

impl<T, S, B> Future for H2ServiceResponse<T, S, B>
where
    T: AsyncRead + AsyncWrite,
    S: NewService<Request = Request, Response = Response<B>>,
    S::Service: Clone,
    S::Error: Debug,
    B: MessageBody,
{
    type Item = H2ServiceHandler<T, S::Service, B>;
    type Error = S::InitError;

    fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
        let service = try_ready!(self.fut.poll());
        Ok(Async::Ready(H2ServiceHandler::new(
            self.cfg.take().unwrap(),
            service,
        )))
    }
}

/// `Service` implementation for http/2 transport
pub struct H2ServiceHandler<T, S, B> {
    srv: S,
    cfg: ServiceConfig,
    _t: PhantomData<(T, B)>,
}

impl<T, S, B> H2ServiceHandler<T, S, B>
where
    S: Service<Request = Request, Response = Response<B>> + Clone,
    S::Error: Debug,
    B: MessageBody,
{
    fn new(cfg: ServiceConfig, srv: S) -> H2ServiceHandler<T, S, B> {
        H2ServiceHandler {
            srv,
            cfg,
            _t: PhantomData,
        }
    }
}

impl<T, S, B> Service for H2ServiceHandler<T, S, B>
where
    T: AsyncRead + AsyncWrite,
    S: Service<Request = Request, Response = Response<B>> + Clone,
    S::Error: Debug,
    B: MessageBody,
{
    type Request = T;
    type Response = H2ServiceResult<T>;
    type Error = (); // DispatchError<S::Error>;
    type Future = H2ServiceHandlerResponse<T, S, B>;

    fn poll_ready(&mut self) -> Poll<(), Self::Error> {
        self.srv.poll_ready().map_err(|_| ())
    }

    fn call(&mut self, req: T) -> Self::Future {
        H2ServiceHandlerResponse {
            state: State::Handshake(server::handshake(req)),
            _t: PhantomData,
        }
    }
}

enum State<T: AsyncRead + AsyncWrite> {
    Handshake(Handshake<T, Bytes>),
    Connection(Connection<T, Bytes>),
    Empty,
}

pub struct H2ServiceHandlerResponse<T, S, B>
where
    T: AsyncRead + AsyncWrite,
    S: Service<Request = Request, Response = Response<B>> + Clone,
    S::Error: Debug,
    B: MessageBody,
{
    state: State<T>,
    _t: PhantomData<S>,
}

impl<T, S, B> Future for H2ServiceHandlerResponse<T, S, B>
where
    T: AsyncRead + AsyncWrite,
    S: Service<Request = Request, Response = Response<B>> + Clone,
    S::Error: Debug,
    B: MessageBody,
{
    type Item = H2ServiceResult<T>;
    type Error = ();

    fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
        unimplemented!()
    }
}
migrate to actix-service 0.2 2019-02-02 05:18:44 +01:00			`use std::fmt::Debug;`
			`use std::marker::PhantomData;`
			`use std::net;`

			`use actix_codec::{AsyncRead, AsyncWrite, Framed};`
			`use actix_service::{IntoNewService, NewService, Service};`
			`use bytes::Bytes;`
			`use futures::future::{ok, FutureResult};`
			`use futures::{try_ready, Async, Future, Poll, Stream};`
			`use h2::server::{self, Connection, Handshake};`
			`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::dispatcher::Dispatcher;`
			`use super::H2ServiceResult;`

			/// `NewService` implementation for HTTP2 transport
			`pub struct H2Service<T, S, B> {`
			`srv: S,`
			`cfg: ServiceConfig,`
			`_t: PhantomData<(T, B)>,`
			`}`

			`impl<T, S, B> H2Service<T, S, B>`
			`where`
			`S: NewService<Request = Request, Response = Response<B>> + Clone,`
			`S::Service: Clone,`
			`S::Error: Debug,`
			`B: MessageBody,`
			`{`
			/// Create new `HttpService` instance.
			`pub fn new<F: IntoNewService<S>>(service: F) -> Self {`
			`let cfg = ServiceConfig::new(KeepAlive::Timeout(5), 5000, 0);`

			`H2Service {`
			`cfg,`
			`srv: service.into_new_service(),`
			`_t: PhantomData,`
			`}`
			`}`

			/// Create builder for `HttpService` instance.
			`pub fn build() -> H2ServiceBuilder<T, S> {`
			`H2ServiceBuilder::new()`
			`}`
			`}`

			`impl<T, S, B> NewService for H2Service<T, S, B>`
			`where`
			`T: AsyncRead + AsyncWrite,`
			`S: NewService<Request = Request, Response = Response<B>> + Clone,`
			`S::Service: Clone,`
			`S::Error: Debug,`
			`B: MessageBody,`
			`{`
			`type Request = T;`
			`type Response = H2ServiceResult<T>;`
			`type Error = (); //DispatchError<S::Error>;`
			`type InitError = S::InitError;`
			`type Service = H2ServiceHandler<T, S::Service, B>;`
			`type Future = H2ServiceResponse<T, S, B>;`

			`fn new_service(&self) -> Self::Future {`
			`H2ServiceResponse {`
			`fut: self.srv.new_service(),`
			`cfg: Some(self.cfg.clone()),`
			`_t: PhantomData,`
			`}`
			`}`
			`}`

			`/// A http/2 new service builder`
			`///`
			/// This type can be used to construct an instance of `ServiceConfig` through a
			`/// builder-like pattern.`
			`pub struct H2ServiceBuilder<T, S> {`
			`keep_alive: KeepAlive,`
			`client_timeout: u64,`
			`client_disconnect: u64,`
			`host: String,`
			`addr: net::SocketAddr,`
			`secure: bool,`
			`_t: PhantomData<(T, S)>,`
			`}`

			`impl<T, S> H2ServiceBuilder<T, S>`
			`where`
			`S: NewService<Request = Request>,`
			`S::Service: Clone,`
			`S::Error: Debug,`
			`{`
			/// Create instance of `H2ServiceBuilder`
			`pub fn new() -> H2ServiceBuilder<T, S> {`
			`H2ServiceBuilder {`
			`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<U: Into<KeepAlive>>(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<U: net::ToSocketAddrs>(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<F, B>(self, service: F) -> H2Service<T, S, B>`
			`where`
			`B: MessageBody,`
			`F: IntoNewService<S>,`
			`{`
			`let cfg = ServiceConfig::new(`
			`self.keep_alive,`
			`self.client_timeout,`
			`self.client_disconnect,`
			`);`
			`H2Service {`
			`cfg,`
			`srv: service.into_new_service(),`
			`_t: PhantomData,`
			`}`
			`}`
			`}`

			`#[doc(hidden)]`
			`pub struct H2ServiceResponse<T, S: NewService, B> {`
			`fut: S::Future,`
			`cfg: Option<ServiceConfig>,`
			`_t: PhantomData<(T, B)>,`
			`}`

			`impl<T, S, B> Future for H2ServiceResponse<T, S, B>`
			`where`
			`T: AsyncRead + AsyncWrite,`
			`S: NewService<Request = Request, Response = Response<B>>,`
			`S::Service: Clone,`
			`S::Error: Debug,`
			`B: MessageBody,`
			`{`
			`type Item = H2ServiceHandler<T, S::Service, B>;`
			`type Error = S::InitError;`

			`fn poll(&mut self) -> Poll<Self::Item, Self::Error> {`
			`let service = try_ready!(self.fut.poll());`
			`Ok(Async::Ready(H2ServiceHandler::new(`
			`self.cfg.take().unwrap(),`
			`service,`
			`)))`
			`}`
			`}`

			/// `Service` implementation for http/2 transport
			`pub struct H2ServiceHandler<T, S, B> {`
			`srv: S,`
			`cfg: ServiceConfig,`
			`_t: PhantomData<(T, B)>,`
			`}`

			`impl<T, S, B> H2ServiceHandler<T, S, B>`
			`where`
			`S: Service<Request = Request, Response = Response<B>> + Clone,`
			`S::Error: Debug,`
			`B: MessageBody,`
			`{`
			`fn new(cfg: ServiceConfig, srv: S) -> H2ServiceHandler<T, S, B> {`
			`H2ServiceHandler {`
			`srv,`
			`cfg,`
			`_t: PhantomData,`
			`}`
			`}`
			`}`

			`impl<T, S, B> Service for H2ServiceHandler<T, S, B>`
			`where`
			`T: AsyncRead + AsyncWrite,`
			`S: Service<Request = Request, Response = Response<B>> + Clone,`
			`S::Error: Debug,`
			`B: MessageBody,`
			`{`
			`type Request = T;`
			`type Response = H2ServiceResult<T>;`
			`type Error = (); // DispatchError<S::Error>;`
			`type Future = H2ServiceHandlerResponse<T, S, B>;`

			`fn poll_ready(&mut self) -> Poll<(), Self::Error> {`
			`self.srv.poll_ready().map_err(\|_\| ())`
			`}`

			`fn call(&mut self, req: T) -> Self::Future {`
			`H2ServiceHandlerResponse {`
			`state: State::Handshake(server::handshake(req)),`
			`_t: PhantomData,`
			`}`
			`}`
			`}`

			`enum State<T: AsyncRead + AsyncWrite> {`
			`Handshake(Handshake<T, Bytes>),`
			`Connection(Connection<T, Bytes>),`
			`Empty,`
			`}`

			`pub struct H2ServiceHandlerResponse<T, S, B>`
			`where`
			`T: AsyncRead + AsyncWrite,`
			`S: Service<Request = Request, Response = Response<B>> + Clone,`
			`S::Error: Debug,`
			`B: MessageBody,`
			`{`
			`state: State<T>,`
			`_t: PhantomData<S>,`
			`}`

			`impl<T, S, B> Future for H2ServiceHandlerResponse<T, S, B>`
			`where`
			`T: AsyncRead + AsyncWrite,`
			`S: Service<Request = Request, Response = Response<B>> + Clone,`
			`S::Error: Debug,`
			`B: MessageBody,`
			`{`
			`type Item = H2ServiceResult<T>;`
			`type Error = ();`

			`fn poll(&mut self) -> Poll<Self::Item, Self::Error> {`
			`unimplemented!()`
			`}`
			`}`