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actix-extras/src/h2/service.rs

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use std::fmt::Debug;
use std::marker::PhantomData;
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use std::{io, net};
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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};
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use h2::RecvStream;
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use log::error;
use crate::body::MessageBody;
use crate::config::{KeepAlive, ServiceConfig};
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use crate::error::{DispatchError, Error, ParseError, ResponseError};
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use crate::request::Request;
use crate::response::Response;
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use super::dispatcher::Dispatcher;
use super::{H2ServiceResult, Payload};
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/// `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
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S: NewService<Request = Request<Payload>, Response = Response<B>> + Clone,
S::Service: Clone + 'static,
S::Error: Into<Error> + Debug + 'static,
B: MessageBody + 'static,
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{
/// 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,
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S: NewService<Request = Request<Payload>, Response = Response<B>> + Clone,
S::Service: Clone + 'static,
S::Error: Into<Error> + Debug,
B: MessageBody + 'static,
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{
type Request = T;
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type Response = ();
type Error = DispatchError<()>;
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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
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S: NewService<Request = Request<Payload>>,
S::Service: Clone + 'static,
S::Error: Into<Error> + Debug + 'static,
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{
/// 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
}
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// #[cfg(feature = "ssl")]
// /// Configure alpn protocols for SslAcceptorBuilder.
// pub fn configure_openssl(
// builder: &mut openssl::ssl::SslAcceptorBuilder,
// ) -> io::Result<()> {
// let protos: &[u8] = b"\x02h2";
// builder.set_alpn_select_callback(|_, protos| {
// const H2: &[u8] = b"\x02h2";
// if protos.windows(3).any(|window| window == H2) {
// Ok(b"h2")
// } else {
// Err(openssl::ssl::AlpnError::NOACK)
// }
// });
// builder.set_alpn_protos(&protos)?;
// Ok(())
// }
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/// 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,
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S: NewService<Request = Request<Payload>, Response = Response<B>>,
S::Service: Clone + 'static,
S::Error: Into<Error> + Debug,
B: MessageBody + 'static,
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{
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
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S: Service<Request = Request<Payload>, Response = Response<B>> + Clone + 'static,
S::Error: Into<Error> + Debug,
B: MessageBody + 'static,
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{
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,
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S: Service<Request = Request<Payload>, Response = Response<B>> + Clone + 'static,
S::Error: Into<Error> + Debug,
B: MessageBody + 'static,
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{
type Request = T;
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type Response = ();
type Error = DispatchError<()>;
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type Future = H2ServiceHandlerResponse<T, S, B>;
fn poll_ready(&mut self) -> Poll<(), Self::Error> {
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self.srv.poll_ready().map_err(|e| {
error!("Service readiness error: {:?}", e);
DispatchError::Service(())
})
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}
fn call(&mut self, req: T) -> Self::Future {
H2ServiceHandlerResponse {
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state: State::Handshake(
Some(self.srv.clone()),
Some(self.cfg.clone()),
server::handshake(req),
),
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}
}
}
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enum State<T: AsyncRead + AsyncWrite, S: Service, B: MessageBody> {
Incoming(Dispatcher<T, S, B>),
Handshake(Option<S>, Option<ServiceConfig>, Handshake<T, Bytes>),
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}
pub struct H2ServiceHandlerResponse<T, S, B>
where
T: AsyncRead + AsyncWrite,
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S: Service<Request = Request<Payload>, Response = Response<B>> + Clone + 'static,
S::Error: Into<Error> + Debug,
B: MessageBody + 'static,
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{
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state: State<T, S, B>,
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}
impl<T, S, B> Future for H2ServiceHandlerResponse<T, S, B>
where
T: AsyncRead + AsyncWrite,
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S: Service<Request = Request<Payload>, Response = Response<B>> + Clone,
S::Error: Into<Error> + Debug,
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B: MessageBody,
{
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type Item = ();
type Error = DispatchError<()>;
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fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
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match self.state {
State::Incoming(ref mut disp) => disp.poll(),
State::Handshake(ref mut srv, ref mut config, ref mut handshake) => {
match handshake.poll() {
Ok(Async::Ready(conn)) => {
self.state = State::Incoming(Dispatcher::new(
srv.take().unwrap(),
conn,
config.take().unwrap(),
None,
));
self.poll()
}
Ok(Async::NotReady) => Ok(Async::NotReady),
Err(err) => {
trace!("H2 handshake error: {}", err);
return Err(err.into());
}
}
}
}
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}
}