tokio_tower/multiplex/server.rs
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use futures_core::{ready, stream::TryStream};
use futures_sink::Sink;
use futures_util::stream::FuturesUnordered;
use pin_project::pin_project;
use std::future::Future;
use std::pin::Pin;
use std::task::{Context, Poll};
use std::{error, fmt};
use tower_service::Service;
/// This type provides an implementation of a Tower
/// [`Service`](https://docs.rs/tokio-service/0.1/tokio_service/trait.Service.html) on top of a
/// multiplexed protocol transport. In particular, it wraps a transport that implements
/// `Sink<SinkItem = Response>` and `Stream<Item = Request>` with the necessary bookkeeping to
/// adhere to Tower's convenient `fn(Request) -> Future<Response>` API.
#[pin_project]
#[derive(Debug)]
pub struct Server<T, S>
where
T: Sink<S::Response> + TryStream,
S: Service<<T as TryStream>::Ok>,
{
#[pin]
pending: FuturesUnordered<S::Future>,
#[pin]
transport: T,
service: S,
in_flight: usize,
finish: bool,
}
/// An error that occurred while servicing a request.
pub enum Error<T, S>
where
T: Sink<S::Response> + TryStream,
S: Service<<T as TryStream>::Ok>,
{
/// The underlying transport failed to produce a request.
BrokenTransportRecv(<T as TryStream>::Error),
/// The underlying transport failed while attempting to send a response.
BrokenTransportSend(<T as Sink<S::Response>>::Error),
/// The underlying service failed to process a request.
Service(S::Error),
}
impl<T, S> fmt::Display for Error<T, S>
where
T: Sink<S::Response> + TryStream,
S: Service<<T as TryStream>::Ok>,
<T as Sink<S::Response>>::Error: fmt::Display,
<T as TryStream>::Error: fmt::Display,
S::Error: fmt::Display,
{
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match *self {
Error::BrokenTransportRecv(_) => {
f.pad("underlying transport failed to produce a request")
}
Error::BrokenTransportSend(_) => {
f.pad("underlying transport failed while attempting to send a response")
}
Error::Service(_) => f.pad("underlying service failed to process a request"),
}
}
}
impl<T, S> fmt::Debug for Error<T, S>
where
T: Sink<S::Response> + TryStream,
S: Service<<T as TryStream>::Ok>,
<T as Sink<S::Response>>::Error: fmt::Debug,
<T as TryStream>::Error: fmt::Debug,
S::Error: fmt::Debug,
{
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match *self {
Error::BrokenTransportRecv(ref se) => write!(f, "BrokenTransportRecv({:?})", se),
Error::BrokenTransportSend(ref se) => write!(f, "BrokenTransportSend({:?})", se),
Error::Service(ref se) => write!(f, "Service({:?})", se),
}
}
}
impl<T, S> error::Error for Error<T, S>
where
T: Sink<S::Response> + TryStream,
S: Service<<T as TryStream>::Ok>,
<T as Sink<S::Response>>::Error: error::Error + 'static,
<T as TryStream>::Error: error::Error + 'static,
S::Error: error::Error + 'static,
{
fn source(&self) -> Option<&(dyn error::Error + 'static)> {
match *self {
Error::BrokenTransportSend(ref se) => Some(se),
Error::BrokenTransportRecv(ref se) => Some(se),
Error::Service(ref se) => Some(se),
}
}
}
impl<T, S> Error<T, S>
where
T: Sink<S::Response> + TryStream,
S: Service<<T as TryStream>::Ok>,
{
fn from_sink_error(e: <T as Sink<S::Response>>::Error) -> Self {
Error::BrokenTransportSend(e)
}
fn from_stream_error(e: <T as TryStream>::Error) -> Self {
Error::BrokenTransportRecv(e)
}
fn from_service_error(e: S::Error) -> Self {
Error::Service(e)
}
}
impl<T, S> Server<T, S>
where
T: Sink<S::Response> + TryStream,
S: Service<<T as TryStream>::Ok>,
{
/// Construct a new [`Server`] over the given `transport` that services requests using the
/// given `service`.
///
/// Requests are passed to `Service::call` as they arrive, and responses are written back to
/// the underlying `transport` in the order that they complete. If a later request completes
/// before an earlier request, its response is still sent immediately.
pub fn new(transport: T, service: S) -> Self {
Server {
pending: FuturesUnordered::new(),
transport,
service,
in_flight: 0,
finish: false,
}
}
/*
/// Manage incoming new transport instances using the given service constructor.
///
/// For each transport that `incoming` yields, a new instance of `service` is created to
/// manage requests on that transport. This is roughly equivalent to:
///
/// ```rust,ignore
/// incoming.map(|t| Server::multiplexed(t, service.new_service(), limit))
/// ```
pub fn serve_on<TS, SS, E>(
incoming: TS,
service: SS,
limit: Option<usize>,
) -> impl Stream<Item = Self, Error = E>
where
TS: Stream<Item = T>,
SS: NewService<Request = S::Request, Response = S::Response, Error = S::Error, Service = S>,
E: From<TS::Error>,
E: From<SS::InitError>,
{
incoming.map_err(E::from).and_then(move |transport| {
service
.new_service()
.map_err(E::from)
.map(move |s| Server::multiplexed(transport, s, limit))
})
}
*/
}
impl<T, S> Future for Server<T, S>
where
T: Sink<S::Response> + TryStream,
S: Service<<T as TryStream>::Ok>,
{
type Output = Result<(), Error<T, S>>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let span = tracing::trace_span!("poll");
let _guard = span.enter();
tracing::trace!("poll");
// go through the deref so we can do partial borrows
let this = self.project();
// we never move transport or pending, nor do we ever hand out &mut to it
let mut transport: Pin<_> = this.transport;
let mut pending: Pin<_> = this.pending;
// track how many times we have iterated
let mut i = 0;
loop {
// first, poll pending futures to see if any have produced responses
// note that we only poll for completed service futures if we can send the response
while let Poll::Ready(r) = transport.as_mut().poll_ready(cx) {
if let Err(e) = r {
return Poll::Ready(Err(Error::from_sink_error(e)));
}
tracing::trace!(
in_flight = *this.in_flight,
pending = pending.len(),
"transport.ready"
);
match pending.as_mut().try_poll_next(cx) {
Poll::Ready(Some(Err(e))) => {
return Poll::Ready(Err(Error::from_service_error(e)));
}
Poll::Ready(Some(Ok(rsp))) => {
tracing::trace!("transport.start_send");
// try to send the response!
transport
.as_mut()
.start_send(rsp)
.map_err(Error::from_sink_error)?;
*this.in_flight -= 1;
}
_ => {
// XXX: should we "release" the poll_ready we got from the Sink?
break;
}
}
}
// also try to make progress on sending
tracing::trace!(finish = *this.finish, "transport.poll_flush");
if let Poll::Ready(()) = transport
.as_mut()
.poll_flush(cx)
.map_err(Error::from_sink_error)?
{
if *this.finish && pending.as_mut().is_empty() {
// there are no more requests
// and we've finished all the work!
return Poll::Ready(Ok(()));
}
}
if *this.finish {
// there's still work to be done, but there are no more requests
// so no need to check the incoming transport
return Poll::Pending;
}
// if we have run for a while without yielding, yield back so other tasks can run
i += 1;
if i == crate::YIELD_EVERY {
// we're forcing a yield, so need to ensure we get woken up again
tracing::trace!("forced yield");
cx.waker().wake_by_ref();
return Poll::Pending;
}
// is the service ready?
tracing::trace!("service.poll_ready");
ready!(this.service.poll_ready(cx)).map_err(Error::from_service_error)?;
tracing::trace!("transport.poll_next");
let rq = ready!(transport.as_mut().try_poll_next(cx))
.transpose()
.map_err(Error::from_stream_error)?;
if let Some(rq) = rq {
// the service is ready, and we have another request!
// you know what that means:
pending.push(this.service.call(rq));
*this.in_flight += 1;
} else {
// there are no more requests coming
// check one more time for responses, and then yield
assert!(!*this.finish);
*this.finish = true;
}
}
}
}