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actix-web/actix-http/src/h2/service.rs

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use std::{
error::Error as StdError,
future::Future,
marker::PhantomData,
net,
pin::Pin,
rc::Rc,
task::{Context, Poll},
};
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use actix_codec::{AsyncRead, AsyncWrite};
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use actix_rt::net::TcpStream;
use actix_service::{
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fn_factory, fn_service, IntoServiceFactory, Service, ServiceFactory,
ServiceFactoryExt as _,
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};
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use actix_utils::future::ready;
use futures_core::{future::LocalBoxFuture, ready};
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use log::error;
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use crate::{
body::{AnyBody, MessageBody},
config::ServiceConfig,
error::DispatchError,
service::HttpFlow,
ConnectCallback, OnConnectData, Request, Response,
};
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use super::{dispatcher::Dispatcher, handshake_with_timeout, HandshakeWithTimeout};
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/// `ServiceFactory` implementation for HTTP/2 transport
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pub struct H2Service<T, S, B> {
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srv: S,
cfg: ServiceConfig,
on_connect_ext: Option<Rc<ConnectCallback<T>>>,
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_phantom: PhantomData<(T, B)>,
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}
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impl<T, S, B> H2Service<T, S, B>
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where
S: ServiceFactory<Request, Config = ()>,
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S::Error: Into<Response<AnyBody>> + 'static,
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S::Response: Into<Response<B>> + 'static,
<S::Service as Service<Request>>::Future: 'static,
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B: MessageBody + 'static,
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B::Error: Into<Box<dyn StdError>>,
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{
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/// Create new `H2Service` instance with config.
pub(crate) fn with_config<F: IntoServiceFactory<S, Request>>(
cfg: ServiceConfig,
service: F,
) -> Self {
H2Service {
cfg,
on_connect_ext: None,
srv: service.into_factory(),
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_phantom: PhantomData,
}
}
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/// Set on connect callback.
pub(crate) fn on_connect_ext(mut self, f: Option<Rc<ConnectCallback<T>>>) -> Self {
self.on_connect_ext = f;
self
}
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}
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impl<S, B> H2Service<TcpStream, S, B>
where
S: ServiceFactory<Request, Config = ()>,
S::Future: 'static,
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S::Error: Into<Response<AnyBody>> + 'static,
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S::Response: Into<Response<B>> + 'static,
<S::Service as Service<Request>>::Future: 'static,
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B: MessageBody + 'static,
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B::Error: Into<Box<dyn StdError>>,
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{
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/// Create plain TCP based service
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pub fn tcp(
self,
) -> impl ServiceFactory<
TcpStream,
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Config = (),
Response = (),
Error = DispatchError,
InitError = S::InitError,
> {
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fn_factory(|| {
ready(Ok::<_, S::InitError>(fn_service(|io: TcpStream| {
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let peer_addr = io.peer_addr().ok();
ready(Ok::<_, DispatchError>((io, peer_addr)))
})))
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})
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.and_then(self)
}
}
#[cfg(feature = "openssl")]
mod openssl {
use actix_service::ServiceFactoryExt as _;
use actix_tls::accept::{
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openssl::{
reexports::{Error as SslError, SslAcceptor},
Acceptor, TlsStream,
},
TlsError,
};
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use super::*;
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impl<S, B> H2Service<TlsStream<TcpStream>, S, B>
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where
S: ServiceFactory<Request, Config = ()>,
S::Future: 'static,
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S::Error: Into<Response<AnyBody>> + 'static,
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S::Response: Into<Response<B>> + 'static,
<S::Service as Service<Request>>::Future: 'static,
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B: MessageBody + 'static,
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B::Error: Into<Box<dyn StdError>>,
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{
/// Create OpenSSL based service.
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pub fn openssl(
self,
acceptor: SslAcceptor,
) -> impl ServiceFactory<
TcpStream,
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Config = (),
Response = (),
Error = TlsError<SslError, DispatchError>,
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InitError = S::InitError,
> {
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Acceptor::new(acceptor)
.map_init_err(|_| {
unreachable!("TLS acceptor service factory does not error on init")
})
.map_err(TlsError::into_service_error)
.map(|io: TlsStream<TcpStream>| {
let peer_addr = io.get_ref().peer_addr().ok();
(io, peer_addr)
})
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.and_then(self.map_err(TlsError::Service))
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}
}
}
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#[cfg(feature = "rustls")]
mod rustls {
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use std::io;
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use actix_service::ServiceFactoryExt as _;
use actix_tls::accept::{
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rustls::{reexports::ServerConfig, Acceptor, TlsStream},
TlsError,
};
use super::*;
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impl<S, B> H2Service<TlsStream<TcpStream>, S, B>
where
S: ServiceFactory<Request, Config = ()>,
S::Future: 'static,
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S::Error: Into<Response<AnyBody>> + 'static,
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S::Response: Into<Response<B>> + 'static,
<S::Service as Service<Request>>::Future: 'static,
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B: MessageBody + 'static,
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B::Error: Into<Box<dyn StdError>>,
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{
/// Create Rustls based service.
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pub fn rustls(
self,
mut config: ServerConfig,
) -> impl ServiceFactory<
TcpStream,
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Config = (),
Response = (),
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Error = TlsError<io::Error, DispatchError>,
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InitError = S::InitError,
> {
let mut protos = vec![b"h2".to_vec()];
protos.extend_from_slice(&config.alpn_protocols);
config.alpn_protocols = protos;
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Acceptor::new(config)
.map_init_err(|_| {
unreachable!("TLS acceptor service factory does not error on init")
})
.map_err(TlsError::into_service_error)
.map(|io: TlsStream<TcpStream>| {
let peer_addr = io.get_ref().0.peer_addr().ok();
(io, peer_addr)
})
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.and_then(self.map_err(TlsError::Service))
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}
}
}
impl<T, S, B> ServiceFactory<(T, Option<net::SocketAddr>)> for H2Service<T, S, B>
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where
T: AsyncRead + AsyncWrite + Unpin + 'static,
S: ServiceFactory<Request, Config = ()>,
S::Future: 'static,
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S::Error: Into<Response<AnyBody>> + 'static,
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S::Response: Into<Response<B>> + 'static,
<S::Service as Service<Request>>::Future: 'static,
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B: MessageBody + 'static,
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B::Error: Into<Box<dyn StdError>>,
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{
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type Response = ();
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type Error = DispatchError;
type Config = ();
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type Service = H2ServiceHandler<T, S::Service, B>;
type InitError = S::InitError;
type Future = LocalBoxFuture<'static, Result<Self::Service, Self::InitError>>;
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fn new_service(&self, _: ()) -> Self::Future {
let service = self.srv.new_service(());
let cfg = self.cfg.clone();
let on_connect_ext = self.on_connect_ext.clone();
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Box::pin(async move {
let service = service.await?;
Ok(H2ServiceHandler::new(cfg, on_connect_ext, service))
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})
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}
}
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/// `Service` implementation for HTTP/2 transport
pub struct H2ServiceHandler<T, S, B>
where
S: Service<Request>,
{
flow: Rc<HttpFlow<S, (), ()>>,
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cfg: ServiceConfig,
on_connect_ext: Option<Rc<ConnectCallback<T>>>,
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_phantom: PhantomData<B>,
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}
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impl<T, S, B> H2ServiceHandler<T, S, B>
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where
S: Service<Request>,
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S::Error: Into<Response<AnyBody>> + 'static,
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S::Future: 'static,
S::Response: Into<Response<B>> + 'static,
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B: MessageBody + 'static,
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{
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fn new(
cfg: ServiceConfig,
on_connect_ext: Option<Rc<ConnectCallback<T>>>,
service: S,
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) -> H2ServiceHandler<T, S, B> {
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H2ServiceHandler {
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flow: HttpFlow::new(service, (), None),
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cfg,
on_connect_ext,
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_phantom: PhantomData,
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}
}
}
impl<T, S, B> Service<(T, Option<net::SocketAddr>)> for H2ServiceHandler<T, S, B>
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where
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T: AsyncRead + AsyncWrite + Unpin,
S: Service<Request>,
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S::Error: Into<Response<AnyBody>> + 'static,
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S::Future: 'static,
S::Response: Into<Response<B>> + 'static,
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B: MessageBody + 'static,
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B::Error: Into<Box<dyn StdError>>,
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{
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type Response = ();
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type Error = DispatchError;
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type Future = H2ServiceHandlerResponse<T, S, B>;
fn poll_ready(&self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
self.flow.service.poll_ready(cx).map_err(|e| {
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let e = e.into();
error!("Service readiness error: {:?}", e);
DispatchError::Service(e)
})
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}
fn call(&self, (io, addr): (T, Option<net::SocketAddr>)) -> Self::Future {
let on_connect_data =
OnConnectData::from_io(&io, self.on_connect_ext.as_deref());
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H2ServiceHandlerResponse {
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state: State::Handshake(
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Some(self.flow.clone()),
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Some(self.cfg.clone()),
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addr,
on_connect_data,
handshake_with_timeout(io, &self.cfg),
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),
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}
}
}
enum State<T, S: Service<Request>, B: MessageBody>
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where
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T: AsyncRead + AsyncWrite + Unpin,
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S::Future: 'static,
{
Incoming(Dispatcher<T, S, B, (), ()>),
Handshake(
Option<Rc<HttpFlow<S, (), ()>>>,
Option<ServiceConfig>,
Option<net::SocketAddr>,
OnConnectData,
HandshakeWithTimeout<T>,
),
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}
pub struct H2ServiceHandlerResponse<T, S, B>
where
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T: AsyncRead + AsyncWrite + Unpin,
S: Service<Request>,
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S::Error: Into<Response<AnyBody>> + 'static,
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S::Future: 'static,
S::Response: Into<Response<B>> + 'static,
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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
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T: AsyncRead + AsyncWrite + Unpin,
S: Service<Request>,
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S::Error: Into<Response<AnyBody>> + 'static,
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S::Future: 'static,
S::Response: Into<Response<B>> + 'static,
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B: MessageBody,
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B::Error: Into<Box<dyn StdError>>,
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{
type Output = Result<(), DispatchError>;
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fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
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match self.state {
State::Incoming(ref mut disp) => Pin::new(disp).poll(cx),
State::Handshake(
ref mut srv,
ref mut config,
ref peer_addr,
ref mut on_connect_data,
ref mut handshake,
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) => match ready!(Pin::new(handshake).poll(cx)) {
Ok((conn, timer)) => {
let on_connect_data = std::mem::take(on_connect_data);
self.state = State::Incoming(Dispatcher::new(
srv.take().unwrap(),
conn,
on_connect_data,
config.take().unwrap(),
*peer_addr,
timer,
));
self.poll(cx)
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}
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Err(err) => {
trace!("H2 handshake error: {}", err);
Poll::Ready(Err(err))
}
},
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}
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}
}