src/proto/connection.rs - platform/external/rust/crates/h2 - Git at Google

 use crate::codec::UserError;
 use crate::frame::{Reason, StreamId};
 use crate::{client, server};

 use crate::frame::DEFAULT_INITIAL_WINDOW_SIZE;
 use crate::proto::*;

 use bytes::Bytes;
 use futures_core::Stream;
 use std::io;
 use std::marker::PhantomData;
 use std::pin::Pin;
 use std::task::{Context, Poll};
 use std::time::Duration;
 use tokio::io::AsyncRead;

 /// An H2 connection
 #[derive(Debug)]
 pub(crate) struct Connection<T, P, B: Buf = Bytes>
 where
     P: Peer,
 {
     /// Read / write frame values
     codec: Codec<T, Prioritized<B>>,

     inner: ConnectionInner<P, B>,
 }

 // Extracted part of `Connection` which does not depend on `T`. Reduces the amount of duplicated
 // method instantiations.
 #[derive(Debug)]
 struct ConnectionInner<P, B: Buf = Bytes>
 where
     P: Peer,
 {
     /// Tracks the connection level state transitions.
     state: State,

     /// An error to report back once complete.
     ///
     /// This exists separately from State in order to support
     /// graceful shutdown.
     error: Option<frame::GoAway>,

     /// Pending GOAWAY frames to write.
     go_away: GoAway,

     /// Ping/pong handler
     ping_pong: PingPong,

     /// Connection settings
     settings: Settings,

     /// Stream state handler
     streams: Streams<B, P>,

     /// A `tracing` span tracking the lifetime of the connection.
     span: tracing::Span,

     /// Client or server
     _phantom: PhantomData<P>,
 }

 struct DynConnection<'a, B: Buf = Bytes> {
     state: &'a mut State,

     go_away: &'a mut GoAway,

     streams: DynStreams<'a, B>,

     error: &'a mut Option<frame::GoAway>,

     ping_pong: &'a mut PingPong,
 }

 #[derive(Debug, Clone)]
 pub(crate) struct Config {
     pub next_stream_id: StreamId,
     pub initial_max_send_streams: usize,
     pub max_send_buffer_size: usize,
     pub reset_stream_duration: Duration,
     pub reset_stream_max: usize,
     pub remote_reset_stream_max: usize,
     pub local_error_reset_streams_max: Option<usize>,
     pub settings: frame::Settings,
 }

 #[derive(Debug)]
 enum State {
     /// Currently open in a sane state
     Open,

     /// The codec must be flushed
     Closing(Reason, Initiator),

     /// In a closed state
     Closed(Reason, Initiator),
 }

 impl<T, P, B> Connection<T, P, B>
 where
     T: AsyncRead + AsyncWrite + Unpin,
     P: Peer,
     B: Buf,
 {
     pub fn new(codec: Codec<T, Prioritized<B>>, config: Config) -> Connection<T, P, B> {
         fn streams_config(config: &Config) -> streams::Config {
             streams::Config {
                 initial_max_send_streams: config.initial_max_send_streams,
                 local_max_buffer_size: config.max_send_buffer_size,
                 local_next_stream_id: config.next_stream_id,
                 local_push_enabled: config.settings.is_push_enabled().unwrap_or(true),
                 extended_connect_protocol_enabled: config
                     .settings
                     .is_extended_connect_protocol_enabled()
                     .unwrap_or(false),
                 local_reset_duration: config.reset_stream_duration,
                 local_reset_max: config.reset_stream_max,
                 remote_reset_max: config.remote_reset_stream_max,
                 remote_init_window_sz: DEFAULT_INITIAL_WINDOW_SIZE,
                 remote_max_initiated: config
                     .settings
                     .max_concurrent_streams()
                     .map(|max| max as usize),
                 local_max_error_reset_streams: config.local_error_reset_streams_max,
             }
         }
         let streams = Streams::new(streams_config(&config));
         Connection {
             codec,
             inner: ConnectionInner {
                 state: State::Open,
                 error: None,
                 go_away: GoAway::new(),
                 ping_pong: PingPong::new(),
                 settings: Settings::new(config.settings),
                 streams,
                 span: tracing::debug_span!("Connection", peer = %P::NAME),
                 _phantom: PhantomData,
             },
         }
     }

     /// connection flow control
     pub(crate) fn set_target_window_size(&mut self, size: WindowSize) {
         let _res = self.inner.streams.set_target_connection_window_size(size);
         // TODO: proper error handling
         debug_assert!(_res.is_ok());
     }

     /// Send a new SETTINGS frame with an updated initial window size.
     pub(crate) fn set_initial_window_size(&mut self, size: WindowSize) -> Result<(), UserError> {
         let mut settings = frame::Settings::default();
         settings.set_initial_window_size(Some(size));
         self.inner.settings.send_settings(settings)
     }

     /// Send a new SETTINGS frame with extended CONNECT protocol enabled.
     pub(crate) fn set_enable_connect_protocol(&mut self) -> Result<(), UserError> {
         let mut settings = frame::Settings::default();
         settings.set_enable_connect_protocol(Some(1));
         self.inner.settings.send_settings(settings)
     }

     /// Returns the maximum number of concurrent streams that may be initiated
     /// by this peer.
     pub(crate) fn max_send_streams(&self) -> usize {
         self.inner.streams.max_send_streams()
     }

     /// Returns the maximum number of concurrent streams that may be initiated
     /// by the remote peer.
     pub(crate) fn max_recv_streams(&self) -> usize {
         self.inner.streams.max_recv_streams()
     }

     #[cfg(feature = "unstable")]
     pub fn num_wired_streams(&self) -> usize {
         self.inner.streams.num_wired_streams()
     }

     /// Returns `Ready` when the connection is ready to receive a frame.
     ///
     /// Returns `Error` as this may raise errors that are caused by delayed
     /// processing of received frames.
     fn poll_ready(&mut self, cx: &mut Context) -> Poll<Result<(), Error>> {
         let _e = self.inner.span.enter();
         let span = tracing::trace_span!("poll_ready");
         let _e = span.enter();
         // The order of these calls don't really matter too much
         ready!(self.inner.ping_pong.send_pending_pong(cx, &mut self.codec))?;
         ready!(self.inner.ping_pong.send_pending_ping(cx, &mut self.codec))?;
         ready!(self
             .inner
             .settings
             .poll_send(cx, &mut self.codec, &mut self.inner.streams))?;
         ready!(self.inner.streams.send_pending_refusal(cx, &mut self.codec))?;

         Poll::Ready(Ok(()))
     }

     /// Send any pending GOAWAY frames.
     ///
     /// This will return `Some(reason)` if the connection should be closed
     /// afterwards. If this is a graceful shutdown, this returns `None`.
     fn poll_go_away(&mut self, cx: &mut Context) -> Poll<Option<io::Result<Reason>>> {
         self.inner.go_away.send_pending_go_away(cx, &mut self.codec)
     }

     pub fn go_away_from_user(&mut self, e: Reason) {
         self.inner.as_dyn().go_away_from_user(e)
     }

     fn take_error(&mut self, ours: Reason, initiator: Initiator) -> Result<(), Error> {
         let (debug_data, theirs) = self
             .inner
             .error
             .take()
             .as_ref()
             .map_or((Bytes::new(), Reason::NO_ERROR), |frame| {
                 (frame.debug_data().clone(), frame.reason())
             });

         match (ours, theirs) {
             (Reason::NO_ERROR, Reason::NO_ERROR) => Ok(()),
             (ours, Reason::NO_ERROR) => Err(Error::GoAway(Bytes::new(), ours, initiator)),
             // If both sides reported an error, give their
             // error back to th user. We assume our error
             // was a consequence of their error, and less
             // important.
             (_, theirs) => Err(Error::remote_go_away(debug_data, theirs)),
         }
     }

     /// Closes the connection by transitioning to a GOAWAY state
     /// iff there are no streams or references
     pub fn maybe_close_connection_if_no_streams(&mut self) {
         // If we poll() and realize that there are no streams or references
         // then we can close the connection by transitioning to GOAWAY
         if !self.inner.streams.has_streams_or_other_references() {
             self.inner.as_dyn().go_away_now(Reason::NO_ERROR);
         }
     }

     pub(crate) fn take_user_pings(&mut self) -> Option<UserPings> {
         self.inner.ping_pong.take_user_pings()
     }

     /// Advances the internal state of the connection.
     pub fn poll(&mut self, cx: &mut Context) -> Poll<Result<(), Error>> {
         // XXX(eliza): cloning the span is unfortunately necessary here in
         // order to placate the borrow checker — `self` is mutably borrowed by
         // `poll2`, which means that we can't borrow `self.span` to enter it.
         // The clone is just an atomic ref bump.
         let span = self.inner.span.clone();
         let _e = span.enter();
         let span = tracing::trace_span!("poll");
         let _e = span.enter();

         loop {
             tracing::trace!(connection.state = ?self.inner.state);
             // TODO: probably clean up this glob of code
             match self.inner.state {
                 // When open, continue to poll a frame
                 State::Open => {
                     let result = match self.poll2(cx) {
                         Poll::Ready(result) => result,
                         // The connection is not ready to make progress
                         Poll::Pending => {
                             // Ensure all window updates have been sent.
                             //
                             // This will also handle flushing `self.codec`
                             ready!(self.inner.streams.poll_complete(cx, &mut self.codec))?;

                             if (self.inner.error.is_some()
                                 || self.inner.go_away.should_close_on_idle())
                                 && !self.inner.streams.has_streams()
                             {
                                 self.inner.as_dyn().go_away_now(Reason::NO_ERROR);
                                 continue;
                             }

                             return Poll::Pending;
                         }
                     };

                     self.inner.as_dyn().handle_poll2_result(result)?
                 }
                 State::Closing(reason, initiator) => {
                     tracing::trace!("connection closing after flush");
                     // Flush/shutdown the codec
                     ready!(self.codec.shutdown(cx))?;

                     // Transition the state to error
                     self.inner.state = State::Closed(reason, initiator);
                 }
                 State::Closed(reason, initiator) => {
                     return Poll::Ready(self.take_error(reason, initiator));
                 }
             }
         }
     }

     fn poll2(&mut self, cx: &mut Context) -> Poll<Result<(), Error>> {
         // This happens outside of the loop to prevent needing to do a clock
         // check and then comparison of the queue possibly multiple times a
         // second (and thus, the clock wouldn't have changed enough to matter).
         self.clear_expired_reset_streams();

         loop {
             // First, ensure that the `Connection` is able to receive a frame
             //
             // The order here matters:
             // - poll_go_away may buffer a graceful shutdown GOAWAY frame
             // - If it has, we've also added a PING to be sent in poll_ready
             if let Some(reason) = ready!(self.poll_go_away(cx)?) {
                 if self.inner.go_away.should_close_now() {
                     if self.inner.go_away.is_user_initiated() {
                         // A user initiated abrupt shutdown shouldn't return
                         // the same error back to the user.
                         return Poll::Ready(Ok(()));
                     } else {
                         return Poll::Ready(Err(Error::library_go_away(reason)));
                     }
                 }
                 // Only NO_ERROR should be waiting for idle
                 debug_assert_eq!(
                     reason,
                     Reason::NO_ERROR,
                     "graceful GOAWAY should be NO_ERROR"
                 );
             }
             ready!(self.poll_ready(cx))?;

             match self
                 .inner
                 .as_dyn()
                 .recv_frame(ready!(Pin::new(&mut self.codec).poll_next(cx)?))?
             {
                 ReceivedFrame::Settings(frame) => {
                     self.inner.settings.recv_settings(
                         frame,
                         &mut self.codec,
                         &mut self.inner.streams,
                     )?;
                 }
                 ReceivedFrame::Continue => (),
                 ReceivedFrame::Done => {
                     return Poll::Ready(Ok(()));
                 }
             }
         }
     }

     fn clear_expired_reset_streams(&mut self) {
         self.inner.streams.clear_expired_reset_streams();
     }
 }

 impl<P, B> ConnectionInner<P, B>
 where
     P: Peer,
     B: Buf,
 {
     fn as_dyn(&mut self) -> DynConnection<'_, B> {
         let ConnectionInner {
             state,
             go_away,
             streams,
             error,
             ping_pong,
             ..
         } = self;
         let streams = streams.as_dyn();
         DynConnection {
             state,
             go_away,
             streams,
             error,
             ping_pong,
         }
     }
 }

 impl<B> DynConnection<'_, B>
 where
     B: Buf,
 {
     fn go_away(&mut self, id: StreamId, e: Reason) {
         let frame = frame::GoAway::new(id, e);
         self.streams.send_go_away(id);
         self.go_away.go_away(frame);
     }

     fn go_away_now(&mut self, e: Reason) {
         let last_processed_id = self.streams.last_processed_id();
         let frame = frame::GoAway::new(last_processed_id, e);
         self.go_away.go_away_now(frame);
     }

     fn go_away_now_data(&mut self, e: Reason, data: Bytes) {
         let last_processed_id = self.streams.last_processed_id();
         let frame = frame::GoAway::with_debug_data(last_processed_id, e, data);
         self.go_away.go_away_now(frame);
     }

     fn go_away_from_user(&mut self, e: Reason) {
         let last_processed_id = self.streams.last_processed_id();
         let frame = frame::GoAway::new(last_processed_id, e);
         self.go_away.go_away_from_user(frame);

         // Notify all streams of reason we're abruptly closing.
         self.streams.handle_error(Error::user_go_away(e));
     }

     fn handle_poll2_result(&mut self, result: Result<(), Error>) -> Result<(), Error> {
         match result {
             // The connection has shutdown normally
             Ok(()) => {
                 *self.state = State::Closing(Reason::NO_ERROR, Initiator::Library);
                 Ok(())
             }
             // Attempting to read a frame resulted in a connection level
             // error. This is handled by setting a GOAWAY frame followed by
             // terminating the connection.
             Err(Error::GoAway(debug_data, reason, initiator)) => {
                 let e = Error::GoAway(debug_data.clone(), reason, initiator);
                 tracing::debug!(error = ?e, "Connection::poll; connection error");

                 // We may have already sent a GOAWAY for this error,
                 // if so, don't send another, just flush and close up.
                 if self
                     .go_away
                     .going_away()
                     .map_or(false, |frame| frame.reason() == reason)
                 {
                     tracing::trace!("    -> already going away");
                     *self.state = State::Closing(reason, initiator);
                     return Ok(());
                 }

                 // Reset all active streams
                 self.streams.handle_error(e);
                 self.go_away_now_data(reason, debug_data);
                 Ok(())
             }
             // Attempting to read a frame resulted in a stream level error.
             // This is handled by resetting the frame then trying to read
             // another frame.
             Err(Error::Reset(id, reason, initiator)) => {
                 debug_assert_eq!(initiator, Initiator::Library);
                 tracing::trace!(?id, ?reason, "stream error");
                 self.streams.send_reset(id, reason);
                 Ok(())
             }
             // Attempting to read a frame resulted in an I/O error. All
             // active streams must be reset.
             //
             // TODO: Are I/O errors recoverable?
             Err(Error::Io(kind, inner)) => {
                 tracing::debug!(error = ?kind, "Connection::poll; IO error");
                 let e = Error::Io(kind, inner);

                 // Reset all active streams
                 self.streams.handle_error(e.clone());

                 // Some client implementations drop the connections without notifying its peer
                 // Attempting to read after the client dropped the connection results in UnexpectedEof
                 // If as a server, we don't have anything more to send, just close the connection
                 // without error
                 //
                 // See https://github.com/hyperium/hyper/issues/3427
                 if self.streams.is_server()
                     && self.streams.is_buffer_empty()
                     && matches!(kind, io::ErrorKind::UnexpectedEof)
                 {
                     *self.state = State::Closed(Reason::NO_ERROR, Initiator::Library);
                     return Ok(());
                 }

                 // Return the error
                 Err(e)
             }
         }
     }

     fn recv_frame(&mut self, frame: Option<Frame>) -> Result<ReceivedFrame, Error> {
         use crate::frame::Frame::*;
         match frame {
             Some(Headers(frame)) => {
                 tracing::trace!(?frame, "recv HEADERS");
                 self.streams.recv_headers(frame)?;
             }
             Some(Data(frame)) => {
                 tracing::trace!(?frame, "recv DATA");
                 self.streams.recv_data(frame)?;
             }
             Some(Reset(frame)) => {
                 tracing::trace!(?frame, "recv RST_STREAM");
                 self.streams.recv_reset(frame)?;
             }
             Some(PushPromise(frame)) => {
                 tracing::trace!(?frame, "recv PUSH_PROMISE");
                 self.streams.recv_push_promise(frame)?;
             }
             Some(Settings(frame)) => {
                 tracing::trace!(?frame, "recv SETTINGS");
                 return Ok(ReceivedFrame::Settings(frame));
             }
             Some(GoAway(frame)) => {
                 tracing::trace!(?frame, "recv GOAWAY");
                 // This should prevent starting new streams,
                 // but should allow continuing to process current streams
                 // until they are all EOS. Once they are, State should
                 // transition to GoAway.
                 self.streams.recv_go_away(&frame)?;
                 *self.error = Some(frame);
             }
             Some(Ping(frame)) => {
                 tracing::trace!(?frame, "recv PING");
                 let status = self.ping_pong.recv_ping(frame);
                 if status.is_shutdown() {
                     assert!(
                         self.go_away.is_going_away(),
                         "received unexpected shutdown ping"
                     );

                     let last_processed_id = self.streams.last_processed_id();
                     self.go_away(last_processed_id, Reason::NO_ERROR);
                 }
             }
             Some(WindowUpdate(frame)) => {
                 tracing::trace!(?frame, "recv WINDOW_UPDATE");
                 self.streams.recv_window_update(frame)?;
             }
             Some(Priority(frame)) => {
                 tracing::trace!(?frame, "recv PRIORITY");
                 // TODO: handle
             }
             None => {
                 tracing::trace!("codec closed");
                 self.streams.recv_eof(false).expect("mutex poisoned");
                 return Ok(ReceivedFrame::Done);
             }
         }
         Ok(ReceivedFrame::Continue)
     }
 }

 enum ReceivedFrame {
     Settings(frame::Settings),
     Continue,
     Done,
 }

 impl<T, B> Connection<T, client::Peer, B>
 where
     T: AsyncRead + AsyncWrite,
     B: Buf,
 {
     pub(crate) fn streams(&self) -> &Streams<B, client::Peer> {
         &self.inner.streams
     }
 }

 impl<T, B> Connection<T, server::Peer, B>
 where
     T: AsyncRead + AsyncWrite + Unpin,
     B: Buf,
 {
     pub fn next_incoming(&mut self) -> Option<StreamRef<B>> {
         self.inner.streams.next_incoming()
     }

     // Graceful shutdown only makes sense for server peers.
     pub fn go_away_gracefully(&mut self) {
         if self.inner.go_away.is_going_away() {
             // No reason to start a new one.
             return;
         }

         // According to http://httpwg.org/specs/rfc7540.html#GOAWAY:
         //
         // > A server that is attempting to gracefully shut down a connection
         // > SHOULD send an initial GOAWAY frame with the last stream
         // > identifier set to 2^31-1 and a NO_ERROR code. This signals to the
         // > client that a shutdown is imminent and that initiating further
         // > requests is prohibited. After allowing time for any in-flight
         // > stream creation (at least one round-trip time), the server can
         // > send another GOAWAY frame with an updated last stream identifier.
         // > This ensures that a connection can be cleanly shut down without
         // > losing requests.
         self.inner.as_dyn().go_away(StreamId::MAX, Reason::NO_ERROR);

         // We take the advice of waiting 1 RTT literally, and wait
         // for a pong before proceeding.
         self.inner.ping_pong.ping_shutdown();
     }
 }

 impl<T, P, B> Drop for Connection<T, P, B>
 where
     P: Peer,
     B: Buf,
 {
     fn drop(&mut self) {
         // Ignore errors as this indicates that the mutex is poisoned.
         let _ = self.inner.streams.recv_eof(true);
     }
 }
	use crate::codec::UserError;
	use crate::frame::{Reason, StreamId};
	use crate::{client, server};

	use crate::frame::DEFAULT_INITIAL_WINDOW_SIZE;
	use crate::proto::*;

	use bytes::Bytes;
	use futures_core::Stream;
	use std::io;
	use std::marker::PhantomData;
	use std::pin::Pin;
	use std::task::{Context, Poll};
	use std::time::Duration;
	use tokio::io::AsyncRead;

	/// An H2 connection
	#[derive(Debug)]
	pub(crate) struct Connection<T, P, B: Buf = Bytes>
	where
	P: Peer,
	{
	/// Read / write frame values
	codec: Codec<T, Prioritized<B>>,

	inner: ConnectionInner<P, B>,
	}

	// Extracted part of `Connection` which does not depend on `T`. Reduces the amount of duplicated
	// method instantiations.
	#[derive(Debug)]
	struct ConnectionInner<P, B: Buf = Bytes>
	where
	P: Peer,
	{
	/// Tracks the connection level state transitions.
	state: State,

	/// An error to report back once complete.
	///
	/// This exists separately from State in order to support
	/// graceful shutdown.
	error: Option<frame::GoAway>,

	/// Pending GOAWAY frames to write.
	go_away: GoAway,

	/// Ping/pong handler
	ping_pong: PingPong,

	/// Connection settings
	settings: Settings,

	/// Stream state handler
	streams: Streams<B, P>,

	/// A `tracing` span tracking the lifetime of the connection.
	span: tracing::Span,

	/// Client or server
	_phantom: PhantomData<P>,
	}

	struct DynConnection<'a, B: Buf = Bytes> {
	state: &'a mut State,

	go_away: &'a mut GoAway,

	streams: DynStreams<'a, B>,

	error: &'a mut Option<frame::GoAway>,

	ping_pong: &'a mut PingPong,
	}

	#[derive(Debug, Clone)]
	pub(crate) struct Config {
	pub next_stream_id: StreamId,
	pub initial_max_send_streams: usize,
	pub max_send_buffer_size: usize,
	pub reset_stream_duration: Duration,
	pub reset_stream_max: usize,
	pub remote_reset_stream_max: usize,
	pub local_error_reset_streams_max: Option<usize>,
	pub settings: frame::Settings,
	}

	#[derive(Debug)]
	enum State {
	/// Currently open in a sane state
	Open,

	/// The codec must be flushed
	Closing(Reason, Initiator),

	/// In a closed state
	Closed(Reason, Initiator),
	}

	impl<T, P, B> Connection<T, P, B>
	where
	T: AsyncRead + AsyncWrite + Unpin,
	P: Peer,
	B: Buf,
	{
	pub fn new(codec: Codec<T, Prioritized<B>>, config: Config) -> Connection<T, P, B> {
	fn streams_config(config: &Config) -> streams::Config {
	streams::Config {
	initial_max_send_streams: config.initial_max_send_streams,
	local_max_buffer_size: config.max_send_buffer_size,
	local_next_stream_id: config.next_stream_id,
	local_push_enabled: config.settings.is_push_enabled().unwrap_or(true),
	extended_connect_protocol_enabled: config
	.settings
	.is_extended_connect_protocol_enabled()
	.unwrap_or(false),
	local_reset_duration: config.reset_stream_duration,
	local_reset_max: config.reset_stream_max,
	remote_reset_max: config.remote_reset_stream_max,
	remote_init_window_sz: DEFAULT_INITIAL_WINDOW_SIZE,
	remote_max_initiated: config
	.settings
	.max_concurrent_streams()
	.map(\|max\| max as usize),
	local_max_error_reset_streams: config.local_error_reset_streams_max,
	}
	}
	let streams = Streams::new(streams_config(&config));
	Connection {
	codec,
	inner: ConnectionInner {
	state: State::Open,
	error: None,
	go_away: GoAway::new(),
	ping_pong: PingPong::new(),
	settings: Settings::new(config.settings),
	streams,
	span: tracing::debug_span!("Connection", peer = %P::NAME),
	_phantom: PhantomData,
	},
	}
	}

	/// connection flow control
	pub(crate) fn set_target_window_size(&mut self, size: WindowSize) {
	let _res = self.inner.streams.set_target_connection_window_size(size);
	// TODO: proper error handling
	debug_assert!(_res.is_ok());
	}

	/// Send a new SETTINGS frame with an updated initial window size.
	pub(crate) fn set_initial_window_size(&mut self, size: WindowSize) -> Result<(), UserError> {
	let mut settings = frame::Settings::default();
	settings.set_initial_window_size(Some(size));
	self.inner.settings.send_settings(settings)
	}

	/// Send a new SETTINGS frame with extended CONNECT protocol enabled.
	pub(crate) fn set_enable_connect_protocol(&mut self) -> Result<(), UserError> {
	let mut settings = frame::Settings::default();
	settings.set_enable_connect_protocol(Some(1));
	self.inner.settings.send_settings(settings)
	}

	/// Returns the maximum number of concurrent streams that may be initiated
	/// by this peer.
	pub(crate) fn max_send_streams(&self) -> usize {
	self.inner.streams.max_send_streams()
	}

	/// Returns the maximum number of concurrent streams that may be initiated
	/// by the remote peer.
	pub(crate) fn max_recv_streams(&self) -> usize {
	self.inner.streams.max_recv_streams()
	}

	#[cfg(feature = "unstable")]
	pub fn num_wired_streams(&self) -> usize {
	self.inner.streams.num_wired_streams()
	}

	/// Returns `Ready` when the connection is ready to receive a frame.
	///
	/// Returns `Error` as this may raise errors that are caused by delayed
	/// processing of received frames.
	fn poll_ready(&mut self, cx: &mut Context) -> Poll<Result<(), Error>> {
	let _e = self.inner.span.enter();
	let span = tracing::trace_span!("poll_ready");
	let _e = span.enter();
	// The order of these calls don't really matter too much
	ready!(self.inner.ping_pong.send_pending_pong(cx, &mut self.codec))?;
	ready!(self.inner.ping_pong.send_pending_ping(cx, &mut self.codec))?;
	ready!(self
	.inner
	.settings
	.poll_send(cx, &mut self.codec, &mut self.inner.streams))?;
	ready!(self.inner.streams.send_pending_refusal(cx, &mut self.codec))?;

	Poll::Ready(Ok(()))
	}

	/// Send any pending GOAWAY frames.
	///
	/// This will return `Some(reason)` if the connection should be closed
	/// afterwards. If this is a graceful shutdown, this returns `None`.
	fn poll_go_away(&mut self, cx: &mut Context) -> Poll<Option<io::Result<Reason>>> {
	self.inner.go_away.send_pending_go_away(cx, &mut self.codec)
	}

	pub fn go_away_from_user(&mut self, e: Reason) {
	self.inner.as_dyn().go_away_from_user(e)
	}

	fn take_error(&mut self, ours: Reason, initiator: Initiator) -> Result<(), Error> {
	let (debug_data, theirs) = self
	.inner
	.error
	.take()
	.as_ref()
	.map_or((Bytes::new(), Reason::NO_ERROR), \|frame\| {
	(frame.debug_data().clone(), frame.reason())
	});

	match (ours, theirs) {
	(Reason::NO_ERROR, Reason::NO_ERROR) => Ok(()),
	(ours, Reason::NO_ERROR) => Err(Error::GoAway(Bytes::new(), ours, initiator)),
	// If both sides reported an error, give their
	// error back to th user. We assume our error
	// was a consequence of their error, and less
	// important.
	(_, theirs) => Err(Error::remote_go_away(debug_data, theirs)),
	}
	}

	/// Closes the connection by transitioning to a GOAWAY state
	/// iff there are no streams or references
	pub fn maybe_close_connection_if_no_streams(&mut self) {
	// If we poll() and realize that there are no streams or references
	// then we can close the connection by transitioning to GOAWAY
	if !self.inner.streams.has_streams_or_other_references() {
	self.inner.as_dyn().go_away_now(Reason::NO_ERROR);
	}
	}

	pub(crate) fn take_user_pings(&mut self) -> Option<UserPings> {
	self.inner.ping_pong.take_user_pings()
	}

	/// Advances the internal state of the connection.
	pub fn poll(&mut self, cx: &mut Context) -> Poll<Result<(), Error>> {
	// XXX(eliza): cloning the span is unfortunately necessary here in
	// order to placate the borrow checker — `self` is mutably borrowed by
	// `poll2`, which means that we can't borrow `self.span` to enter it.
	// The clone is just an atomic ref bump.
	let span = self.inner.span.clone();
	let _e = span.enter();
	let span = tracing::trace_span!("poll");
	let _e = span.enter();

	loop {
	tracing::trace!(connection.state = ?self.inner.state);
	// TODO: probably clean up this glob of code
	match self.inner.state {
	// When open, continue to poll a frame
	State::Open => {
	let result = match self.poll2(cx) {
	Poll::Ready(result) => result,
	// The connection is not ready to make progress
	Poll::Pending => {
	// Ensure all window updates have been sent.
	//
	// This will also handle flushing `self.codec`
	ready!(self.inner.streams.poll_complete(cx, &mut self.codec))?;

	if (self.inner.error.is_some()
	\|\| self.inner.go_away.should_close_on_idle())
	&& !self.inner.streams.has_streams()
	{
	self.inner.as_dyn().go_away_now(Reason::NO_ERROR);
	continue;
	}

	return Poll::Pending;
	}
	};

	self.inner.as_dyn().handle_poll2_result(result)?
	}
	State::Closing(reason, initiator) => {
	tracing::trace!("connection closing after flush");
	// Flush/shutdown the codec
	ready!(self.codec.shutdown(cx))?;

	// Transition the state to error
	self.inner.state = State::Closed(reason, initiator);
	}
	State::Closed(reason, initiator) => {
	return Poll::Ready(self.take_error(reason, initiator));
	}
	}
	}
	}

	fn poll2(&mut self, cx: &mut Context) -> Poll<Result<(), Error>> {
	// This happens outside of the loop to prevent needing to do a clock
	// check and then comparison of the queue possibly multiple times a
	// second (and thus, the clock wouldn't have changed enough to matter).
	self.clear_expired_reset_streams();

	loop {
	// First, ensure that the `Connection` is able to receive a frame
	//
	// The order here matters:
	// - poll_go_away may buffer a graceful shutdown GOAWAY frame
	// - If it has, we've also added a PING to be sent in poll_ready
	if let Some(reason) = ready!(self.poll_go_away(cx)?) {
	if self.inner.go_away.should_close_now() {
	if self.inner.go_away.is_user_initiated() {
	// A user initiated abrupt shutdown shouldn't return
	// the same error back to the user.
	return Poll::Ready(Ok(()));
	} else {
	return Poll::Ready(Err(Error::library_go_away(reason)));
	}
	}
	// Only NO_ERROR should be waiting for idle
	debug_assert_eq!(
	reason,
	Reason::NO_ERROR,
	"graceful GOAWAY should be NO_ERROR"
	);
	}
	ready!(self.poll_ready(cx))?;

	match self
	.inner
	.as_dyn()
	.recv_frame(ready!(Pin::new(&mut self.codec).poll_next(cx)?))?
	{
	ReceivedFrame::Settings(frame) => {
	self.inner.settings.recv_settings(
	frame,
	&mut self.codec,
	&mut self.inner.streams,
	)?;
	}
	ReceivedFrame::Continue => (),
	ReceivedFrame::Done => {
	return Poll::Ready(Ok(()));
	}
	}
	}
	}

	fn clear_expired_reset_streams(&mut self) {
	self.inner.streams.clear_expired_reset_streams();
	}
	}

	impl<P, B> ConnectionInner<P, B>
	where
	P: Peer,
	B: Buf,
	{
	fn as_dyn(&mut self) -> DynConnection<'_, B> {
	let ConnectionInner {
	state,
	go_away,
	streams,
	error,
	ping_pong,
	..
	} = self;
	let streams = streams.as_dyn();
	DynConnection {
	state,
	go_away,
	streams,
	error,
	ping_pong,
	}
	}
	}

	impl<B> DynConnection<'_, B>
	where
	B: Buf,
	{
	fn go_away(&mut self, id: StreamId, e: Reason) {
	let frame = frame::GoAway::new(id, e);
	self.streams.send_go_away(id);
	self.go_away.go_away(frame);
	}

	fn go_away_now(&mut self, e: Reason) {
	let last_processed_id = self.streams.last_processed_id();
	let frame = frame::GoAway::new(last_processed_id, e);
	self.go_away.go_away_now(frame);
	}

	fn go_away_now_data(&mut self, e: Reason, data: Bytes) {
	let last_processed_id = self.streams.last_processed_id();
	let frame = frame::GoAway::with_debug_data(last_processed_id, e, data);
	self.go_away.go_away_now(frame);
	}

	fn go_away_from_user(&mut self, e: Reason) {
	let last_processed_id = self.streams.last_processed_id();
	let frame = frame::GoAway::new(last_processed_id, e);
	self.go_away.go_away_from_user(frame);

	// Notify all streams of reason we're abruptly closing.
	self.streams.handle_error(Error::user_go_away(e));
	}

	fn handle_poll2_result(&mut self, result: Result<(), Error>) -> Result<(), Error> {
	match result {
	// The connection has shutdown normally
	Ok(()) => {
	*self.state = State::Closing(Reason::NO_ERROR, Initiator::Library);
	Ok(())
	}
	// Attempting to read a frame resulted in a connection level
	// error. This is handled by setting a GOAWAY frame followed by
	// terminating the connection.
	Err(Error::GoAway(debug_data, reason, initiator)) => {
	let e = Error::GoAway(debug_data.clone(), reason, initiator);
	tracing::debug!(error = ?e, "Connection::poll; connection error");

	// We may have already sent a GOAWAY for this error,
	// if so, don't send another, just flush and close up.
	if self
	.go_away
	.going_away()
	.map_or(false, \|frame\| frame.reason() == reason)
	{
	tracing::trace!(" -> already going away");
	*self.state = State::Closing(reason, initiator);
	return Ok(());
	}

	// Reset all active streams
	self.streams.handle_error(e);
	self.go_away_now_data(reason, debug_data);
	Ok(())
	}
	// Attempting to read a frame resulted in a stream level error.
	// This is handled by resetting the frame then trying to read
	// another frame.
	Err(Error::Reset(id, reason, initiator)) => {
	debug_assert_eq!(initiator, Initiator::Library);
	tracing::trace!(?id, ?reason, "stream error");
	self.streams.send_reset(id, reason);
	Ok(())
	}
	// Attempting to read a frame resulted in an I/O error. All
	// active streams must be reset.
	//
	// TODO: Are I/O errors recoverable?
	Err(Error::Io(kind, inner)) => {
	tracing::debug!(error = ?kind, "Connection::poll; IO error");
	let e = Error::Io(kind, inner);

	// Reset all active streams
	self.streams.handle_error(e.clone());

	// Some client implementations drop the connections without notifying its peer
	// Attempting to read after the client dropped the connection results in UnexpectedEof
	// If as a server, we don't have anything more to send, just close the connection
	// without error
	//
	// See https://github.com/hyperium/hyper/issues/3427
	if self.streams.is_server()
	&& self.streams.is_buffer_empty()
	&& matches!(kind, io::ErrorKind::UnexpectedEof)
	{
	*self.state = State::Closed(Reason::NO_ERROR, Initiator::Library);
	return Ok(());
	}

	// Return the error
	Err(e)
	}
	}
	}

	fn recv_frame(&mut self, frame: Option<Frame>) -> Result<ReceivedFrame, Error> {
	use crate::frame::Frame::*;
	match frame {
	Some(Headers(frame)) => {
	tracing::trace!(?frame, "recv HEADERS");
	self.streams.recv_headers(frame)?;
	}
	Some(Data(frame)) => {
	tracing::trace!(?frame, "recv DATA");
	self.streams.recv_data(frame)?;
	}
	Some(Reset(frame)) => {
	tracing::trace!(?frame, "recv RST_STREAM");
	self.streams.recv_reset(frame)?;
	}
	Some(PushPromise(frame)) => {
	tracing::trace!(?frame, "recv PUSH_PROMISE");
	self.streams.recv_push_promise(frame)?;
	}
	Some(Settings(frame)) => {
	tracing::trace!(?frame, "recv SETTINGS");
	return Ok(ReceivedFrame::Settings(frame));
	}
	Some(GoAway(frame)) => {
	tracing::trace!(?frame, "recv GOAWAY");
	// This should prevent starting new streams,
	// but should allow continuing to process current streams
	// until they are all EOS. Once they are, State should
	// transition to GoAway.
	self.streams.recv_go_away(&frame)?;
	*self.error = Some(frame);
	}
	Some(Ping(frame)) => {
	tracing::trace!(?frame, "recv PING");
	let status = self.ping_pong.recv_ping(frame);
	if status.is_shutdown() {
	assert!(
	self.go_away.is_going_away(),
	"received unexpected shutdown ping"
	);

	let last_processed_id = self.streams.last_processed_id();
	self.go_away(last_processed_id, Reason::NO_ERROR);
	}
	}
	Some(WindowUpdate(frame)) => {
	tracing::trace!(?frame, "recv WINDOW_UPDATE");
	self.streams.recv_window_update(frame)?;
	}
	Some(Priority(frame)) => {
	tracing::trace!(?frame, "recv PRIORITY");
	// TODO: handle
	}
	None => {
	tracing::trace!("codec closed");
	self.streams.recv_eof(false).expect("mutex poisoned");
	return Ok(ReceivedFrame::Done);
	}
	}
	Ok(ReceivedFrame::Continue)
	}
	}

	enum ReceivedFrame {
	Settings(frame::Settings),
	Continue,
	Done,
	}

	impl<T, B> Connection<T, client::Peer, B>
	where
	T: AsyncRead + AsyncWrite,
	B: Buf,
	{
	pub(crate) fn streams(&self) -> &Streams<B, client::Peer> {
	&self.inner.streams
	}
	}

	impl<T, B> Connection<T, server::Peer, B>
	where
	T: AsyncRead + AsyncWrite + Unpin,
	B: Buf,
	{
	pub fn next_incoming(&mut self) -> Option<StreamRef<B>> {
	self.inner.streams.next_incoming()
	}

	// Graceful shutdown only makes sense for server peers.
	pub fn go_away_gracefully(&mut self) {
	if self.inner.go_away.is_going_away() {
	// No reason to start a new one.
	return;
	}

	// According to http://httpwg.org/specs/rfc7540.html#GOAWAY:
	//
	// > A server that is attempting to gracefully shut down a connection
	// > SHOULD send an initial GOAWAY frame with the last stream
	// > identifier set to 2^31-1 and a NO_ERROR code. This signals to the
	// > client that a shutdown is imminent and that initiating further
	// > requests is prohibited. After allowing time for any in-flight
	// > stream creation (at least one round-trip time), the server can
	// > send another GOAWAY frame with an updated last stream identifier.
	// > This ensures that a connection can be cleanly shut down without
	// > losing requests.
	self.inner.as_dyn().go_away(StreamId::MAX, Reason::NO_ERROR);

	// We take the advice of waiting 1 RTT literally, and wait
	// for a pong before proceeding.
	self.inner.ping_pong.ping_shutdown();
	}
	}

	impl<T, P, B> Drop for Connection<T, P, B>
	where
	P: Peer,
	B: Buf,
	{
	fn drop(&mut self) {
	// Ignore errors as this indicates that the mutex is poisoned.
	let _ = self.inner.streams.recv_eof(true);
	}
	}