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actix-extras/actix-http/src/service.rs

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use std::fmt::Debug;
use std::marker::PhantomData;
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use std::{fmt, io};
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use actix_codec::{AsyncRead, AsyncWrite, Framed, FramedParts};
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use actix_server_config::{Io as ServerIo, Protocol, ServerConfig as SrvConfig};
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use actix_service::{IntoNewService, NewService, Service};
use actix_utils::cloneable::CloneableService;
use bytes::{Buf, BufMut, Bytes, BytesMut};
use futures::{try_ready, Async, Future, IntoFuture, Poll};
use h2::server::{self, Handshake};
use log::error;
use crate::body::MessageBody;
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use crate::builder::HttpServiceBuilder;
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use crate::config::{KeepAlive, ServiceConfig};
use crate::error::DispatchError;
use crate::request::Request;
use crate::response::Response;
use crate::{h1, h2::Dispatcher};
/// `NewService` HTTP1.1/HTTP2 transport implementation
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pub struct HttpService<T, P, S, B> {
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srv: S,
cfg: ServiceConfig,
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_t: PhantomData<(T, P, B)>,
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}
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impl<T, S, B> HttpService<T, (), S, B>
where
S: NewService<SrvConfig, Request = Request>,
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S::Error: Debug,
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S::Response: Into<Response<B>>,
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<S::Service as Service>::Future: 'static,
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B: MessageBody + 'static,
{
/// Create builder for `HttpService` instance.
pub fn build() -> HttpServiceBuilder<T, S> {
HttpServiceBuilder::new()
}
}
impl<T, P, S, B> HttpService<T, P, S, B>
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where
S: NewService<SrvConfig, Request = Request>,
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S::Error: Debug,
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S::Response: Into<Response<B>>,
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<S::Service as Service>::Future: 'static,
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B: MessageBody + 'static,
{
/// Create new `HttpService` instance.
pub fn new<F: IntoNewService<S, SrvConfig>>(service: F) -> Self {
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let cfg = ServiceConfig::new(KeepAlive::Timeout(5), 5000, 0);
HttpService {
cfg,
srv: service.into_new_service(),
_t: PhantomData,
}
}
/// Create new `HttpService` instance with config.
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pub(crate) fn with_config<F: IntoNewService<S, SrvConfig>>(
cfg: ServiceConfig,
service: F,
) -> Self {
HttpService {
cfg,
srv: service.into_new_service(),
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_t: PhantomData,
}
}
}
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impl<T, P, S, B> NewService<SrvConfig> for HttpService<T, P, S, B>
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where
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T: AsyncRead + AsyncWrite,
S: NewService<SrvConfig, Request = Request>,
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S::Error: Debug,
S::Response: Into<Response<B>>,
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<S::Service as Service>::Future: 'static,
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B: MessageBody + 'static,
{
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type Request = ServerIo<T, P>;
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type Response = ();
type Error = DispatchError;
type InitError = S::InitError;
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type Service = HttpServiceHandler<T, P, S::Service, B>;
type Future = HttpServiceResponse<T, P, S, B>;
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fn new_service(&self, cfg: &SrvConfig) -> Self::Future {
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HttpServiceResponse {
fut: self.srv.new_service(cfg).into_future(),
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cfg: Some(self.cfg.clone()),
_t: PhantomData,
}
}
}
#[doc(hidden)]
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pub struct HttpServiceResponse<T, P, S: NewService<SrvConfig>, B> {
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fut: <S::Future as IntoFuture>::Future,
cfg: Option<ServiceConfig>,
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_t: PhantomData<(T, P, B)>,
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}
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impl<T, P, S, B> Future for HttpServiceResponse<T, P, S, B>
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where
T: AsyncRead + AsyncWrite,
S: NewService<SrvConfig, Request = Request>,
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S::Error: Debug,
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S::Response: Into<Response<B>>,
<S::Service as Service>::Future: 'static,
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B: MessageBody + 'static,
{
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type Item = HttpServiceHandler<T, P, S::Service, B>;
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type Error = S::InitError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
let service = try_ready!(self.fut.poll());
Ok(Async::Ready(HttpServiceHandler::new(
self.cfg.take().unwrap(),
service,
)))
}
}
/// `Service` implementation for http transport
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pub struct HttpServiceHandler<T, P, S, B> {
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srv: CloneableService<S>,
cfg: ServiceConfig,
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_t: PhantomData<(T, P, B)>,
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}
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impl<T, P, S, B> HttpServiceHandler<T, P, S, B>
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where
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S: Service<Request = Request>,
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S::Error: Debug,
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S::Future: 'static,
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S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
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fn new(cfg: ServiceConfig, srv: S) -> HttpServiceHandler<T, P, S, B> {
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HttpServiceHandler {
cfg,
srv: CloneableService::new(srv),
_t: PhantomData,
}
}
}
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impl<T, P, S, B> Service for HttpServiceHandler<T, P, S, B>
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where
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T: AsyncRead + AsyncWrite,
S: Service<Request = Request>,
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S::Error: Debug,
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S::Future: 'static,
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S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
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type Request = ServerIo<T, P>;
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type Response = ();
type Error = DispatchError;
type Future = HttpServiceHandlerResponse<T, S, B>;
fn poll_ready(&mut self) -> Poll<(), Self::Error> {
self.srv.poll_ready().map_err(|e| {
error!("Service readiness error: {:?}", e);
DispatchError::Service
})
}
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fn call(&mut self, req: Self::Request) -> Self::Future {
let (io, _, proto) = req.into_parts();
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match proto {
Protocol::Http2 => {
let io = Io {
inner: io,
unread: None,
};
HttpServiceHandlerResponse {
state: State::Handshake(Some((
server::handshake(io),
self.cfg.clone(),
self.srv.clone(),
))),
}
}
Protocol::Http10 | Protocol::Http11 => HttpServiceHandlerResponse {
state: State::H1(h1::Dispatcher::new(
io,
self.cfg.clone(),
self.srv.clone(),
)),
},
_ => HttpServiceHandlerResponse {
state: State::Unknown(Some((
io,
BytesMut::with_capacity(14),
self.cfg.clone(),
self.srv.clone(),
))),
},
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}
}
}
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enum State<T, S: Service<Request = Request>, B: MessageBody>
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where
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S::Future: 'static,
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S::Error: fmt::Debug,
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T: AsyncRead + AsyncWrite,
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{
H1(h1::Dispatcher<T, S, B>),
H2(Dispatcher<Io<T>, S, B>),
Unknown(Option<(T, BytesMut, ServiceConfig, CloneableService<S>)>),
Handshake(Option<(Handshake<Io<T>, Bytes>, ServiceConfig, CloneableService<S>)>),
}
pub struct HttpServiceHandlerResponse<T, S, B>
where
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T: AsyncRead + AsyncWrite,
S: Service<Request = Request>,
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S::Error: Debug,
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S::Future: 'static,
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S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
state: State<T, S, B>,
}
const HTTP2_PREFACE: [u8; 14] = *b"PRI * HTTP/2.0";
impl<T, S, B> Future for HttpServiceHandlerResponse<T, S, B>
where
T: AsyncRead + AsyncWrite,
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S: Service<Request = Request>,
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S::Error: Debug,
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S::Future: 'static,
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S::Response: Into<Response<B>>,
B: MessageBody,
{
type Item = ();
type Error = DispatchError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
match self.state {
State::H1(ref mut disp) => disp.poll(),
State::H2(ref mut disp) => disp.poll(),
State::Unknown(ref mut data) => {
if let Some(ref mut item) = data {
loop {
unsafe {
let b = item.1.bytes_mut();
let n = try_ready!(item.0.poll_read(b));
if n == 0 {
return Ok(Async::Ready(()));
}
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item.1.advance_mut(n);
if item.1.len() >= HTTP2_PREFACE.len() {
break;
}
}
}
} else {
panic!()
}
let (io, buf, cfg, srv) = data.take().unwrap();
if buf[..14] == HTTP2_PREFACE[..] {
let io = Io {
inner: io,
unread: Some(buf),
};
self.state =
State::Handshake(Some((server::handshake(io), cfg, srv)));
} else {
let framed = Framed::from_parts(FramedParts::with_read_buf(
io,
h1::Codec::new(cfg.clone()),
buf,
));
self.state =
State::H1(h1::Dispatcher::with_timeout(framed, cfg, None, srv))
}
self.poll()
}
State::Handshake(ref mut data) => {
let conn = if let Some(ref mut item) = data {
match item.0.poll() {
Ok(Async::Ready(conn)) => conn,
Ok(Async::NotReady) => return Ok(Async::NotReady),
Err(err) => {
trace!("H2 handshake error: {}", err);
return Err(err.into());
}
}
} else {
panic!()
};
let (_, cfg, srv) = data.take().unwrap();
self.state = State::H2(Dispatcher::new(srv, conn, cfg, None));
self.poll()
}
}
}
}
/// Wrapper for `AsyncRead + AsyncWrite` types
struct Io<T> {
unread: Option<BytesMut>,
inner: T,
}
impl<T: io::Read> io::Read for Io<T> {
fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> {
if let Some(mut bytes) = self.unread.take() {
let size = std::cmp::min(buf.len(), bytes.len());
buf[..size].copy_from_slice(&bytes[..size]);
if bytes.len() > size {
bytes.split_to(size);
self.unread = Some(bytes);
}
Ok(size)
} else {
self.inner.read(buf)
}
}
}
impl<T: io::Write> io::Write for Io<T> {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
self.inner.write(buf)
}
fn flush(&mut self) -> io::Result<()> {
self.inner.flush()
}
}
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impl<T: AsyncRead> AsyncRead for Io<T> {
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unsafe fn prepare_uninitialized_buffer(&self, buf: &mut [u8]) -> bool {
self.inner.prepare_uninitialized_buffer(buf)
}
}
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impl<T: AsyncWrite> AsyncWrite for Io<T> {
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fn shutdown(&mut self) -> Poll<(), io::Error> {
self.inner.shutdown()
}
fn write_buf<B: Buf>(&mut self, buf: &mut B) -> Poll<usize, io::Error> {
self.inner.write_buf(buf)
}
}