ooggss

initial

f0f4f2b 11 months ago

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	use crate::future::{BoxFuture, Either, FutureExt};
	use futures::{future, AsyncRead, AsyncWrite};
	use futures::{AsyncReadExt, Stream};
	use futures::{AsyncWriteExt, StreamExt};
	use libp2p_core::muxing::StreamMuxerExt;
	use libp2p_core::upgrade::{InboundConnectionUpgrade, OutboundConnectionUpgrade};
	use libp2p_core::{StreamMuxer, UpgradeInfo};
	use std::future::Future;
	use std::pin::Pin;
	use std::task::{Context, Poll};
	use std::time::Duration;
	use std::{fmt, mem};

	pub async fn connected_muxers_on_memory_ring_buffer<MC, M, E>() -> (M, M)
	where
	MC: InboundConnectionUpgrade<futures_ringbuf::Endpoint, Error = E, Output = M>
	+ OutboundConnectionUpgrade<futures_ringbuf::Endpoint, Error = E, Output = M>
	+ Send
	+ 'static
	+ Default,
	<MC as UpgradeInfo>::Info: Send,
	<<MC as UpgradeInfo>::InfoIter as IntoIterator>::IntoIter: Send,
	<MC as InboundConnectionUpgrade<futures_ringbuf::Endpoint>>::Future: Send,
	<MC as OutboundConnectionUpgrade<futures_ringbuf::Endpoint>>::Future: Send,
	E: std::error::Error + Send + Sync + 'static,
	{
	let (alice, bob) = futures_ringbuf::Endpoint::pair(100, 100);

	let alice_upgrade = MC::default().upgrade_inbound(
	alice,
	MC::default().protocol_info().into_iter().next().unwrap(),
	);

	let bob_upgrade = MC::default().upgrade_outbound(
	bob,
	MC::default().protocol_info().into_iter().next().unwrap(),
	);

	futures::future::try_join(alice_upgrade, bob_upgrade)
	.await
	.unwrap()
	}

	/// Verifies that Alice can send a message and immediately close the stream afterwards and Bob can use `read_to_end` to read the entire message.
	pub async fn close_implies_flush<A, B, S, E>(alice: A, bob: B)
	where
	A: StreamMuxer<Substream = S, Error = E> + Unpin,
	B: StreamMuxer<Substream = S, Error = E> + Unpin,
	S: AsyncRead + AsyncWrite + Send + Unpin + 'static,
	E: fmt::Debug,
	{
	run_commutative(
	alice,
	bob,
	\|mut stream\| async move {
	stream.write_all(b"PING").await.unwrap();
	stream.close().await.unwrap();
	},
	\|mut stream\| async move {
	let mut buf = Vec::new();
	stream.read_to_end(&mut buf).await.unwrap();

	assert_eq!(buf, b"PING");
	},
	)
	.await;
	}

	/// Verifies that we can "half-close" a substream.
	pub async fn read_after_close<A, B, S, E>(alice: A, bob: B)
	where
	A: StreamMuxer<Substream = S, Error = E> + Unpin,
	B: StreamMuxer<Substream = S, Error = E> + Unpin,
	S: AsyncRead + AsyncWrite + Send + Unpin + 'static,
	E: fmt::Debug,
	{
	run_commutative(
	alice,
	bob,
	\|mut stream\| async move {
	stream.write_all(b"PING").await.unwrap();
	stream.close().await.unwrap();

	let mut buf = Vec::new();
	stream.read_to_end(&mut buf).await.unwrap();

	assert_eq!(buf, b"PONG");
	},
	\|mut stream\| async move {
	let mut buf = [0u8; 4];
	stream.read_exact(&mut buf).await.unwrap();

	assert_eq!(&buf, b"PING");

	stream.write_all(b"PONG").await.unwrap();
	stream.close().await.unwrap();
	},
	)
	.await;
	}

	/// Runs the given protocol between the two parties, ensuring commutativity, i.e. either party can be the dialer and listener.
	async fn run_commutative<A, B, S, E, F1, F2>(
	mut alice: A,
	mut bob: B,
	alice_proto: impl Fn(S) -> F1 + Clone + 'static,
	bob_proto: impl Fn(S) -> F2 + Clone + 'static,
	) where
	A: StreamMuxer<Substream = S, Error = E> + Unpin,
	B: StreamMuxer<Substream = S, Error = E> + Unpin,
	S: AsyncRead + AsyncWrite + Send + Unpin + 'static,
	E: fmt::Debug,
	F1: Future<Output = ()> + Send + 'static,
	F2: Future<Output = ()> + Send + 'static,
	{
	run(&mut alice, &mut bob, alice_proto.clone(), bob_proto.clone()).await;
	run(&mut bob, &mut alice, alice_proto, bob_proto).await;
	}

	/// Runs a given protocol between the two parties.
	///
	/// The first party will open a new substream and the second party will wait for this.
	/// The [`StreamMuxer`] is polled until both parties have completed the protocol to ensure that the underlying connection can make progress at all times.
	async fn run<A, B, S, E, F1, F2>(
	dialer: &mut A,
	listener: &mut B,
	alice_proto: impl Fn(S) -> F1 + 'static,
	bob_proto: impl Fn(S) -> F2 + 'static,
	) where
	A: StreamMuxer<Substream = S, Error = E> + Unpin,
	B: StreamMuxer<Substream = S, Error = E> + Unpin,
	S: AsyncRead + AsyncWrite + Send + Unpin + 'static,
	E: fmt::Debug,
	F1: Future<Output = ()> + Send + 'static,
	F2: Future<Output = ()> + Send + 'static,
	{
	let mut dialer = Harness::OutboundSetup {
	muxer: dialer,
	proto_fn: Box::new(move \|s\| alice_proto(s).boxed()),
	};
	let mut listener = Harness::InboundSetup {
	muxer: listener,
	proto_fn: Box::new(move \|s\| bob_proto(s).boxed()),
	};

	let mut dialer_complete = false;
	let mut listener_complete = false;

	loop {
	match futures::future::select(dialer.next(), listener.next()).await {
	Either::Left((Some(Event::SetupComplete), _)) => {
	tracing::info!("Dialer opened outbound stream");
	}
	Either::Left((Some(Event::ProtocolComplete), _)) => {
	tracing::info!("Dialer completed protocol");
	dialer_complete = true
	}
	Either::Left((Some(Event::Timeout), _)) => {
	panic!("Dialer protocol timed out");
	}
	Either::Right((Some(Event::SetupComplete), _)) => {
	tracing::info!("Listener received inbound stream");
	}
	Either::Right((Some(Event::ProtocolComplete), _)) => {
	tracing::info!("Listener completed protocol");
	listener_complete = true
	}
	Either::Right((Some(Event::Timeout), _)) => {
	panic!("Listener protocol timed out");
	}
	_ => unreachable!(),
	}

	if dialer_complete && listener_complete {
	break;
	}
	}
	}

	enum Harness<'m, M>
	where
	M: StreamMuxer,
	{
	InboundSetup {
	muxer: &'m mut M,
	proto_fn: Box<dyn FnOnce(M::Substream) -> BoxFuture<'static, ()>>,
	},
	OutboundSetup {
	muxer: &'m mut M,
	proto_fn: Box<dyn FnOnce(M::Substream) -> BoxFuture<'static, ()>>,
	},
	Running {
	muxer: &'m mut M,
	timeout: futures_timer::Delay,
	proto: BoxFuture<'static, ()>,
	},
	Complete {
	muxer: &'m mut M,
	},
	Poisoned,
	}

	enum Event {
	SetupComplete,
	Timeout,
	ProtocolComplete,
	}

	impl<'m, M> Stream for Harness<'m, M>
	where
	M: StreamMuxer + Unpin,
	{
	type Item = Event;

	fn poll_next(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Option<Self::Item>> {
	let this = self.get_mut();

	loop {
	match mem::replace(this, Self::Poisoned) {
	Harness::InboundSetup { muxer, proto_fn } => {
	if let Poll::Ready(stream) = muxer.poll_inbound_unpin(cx) {
	*this = Harness::Running {
	muxer,
	timeout: futures_timer::Delay::new(Duration::from_secs(10)),
	proto: proto_fn(stream.unwrap()),
	};
	return Poll::Ready(Some(Event::SetupComplete));
	}

	if let Poll::Ready(event) = muxer.poll_unpin(cx) {
	event.unwrap();

	*this = Harness::InboundSetup { muxer, proto_fn };
	continue;
	}

	*this = Harness::InboundSetup { muxer, proto_fn };
	return Poll::Pending;
	}
	Harness::OutboundSetup { muxer, proto_fn } => {
	if let Poll::Ready(stream) = muxer.poll_outbound_unpin(cx) {
	*this = Harness::Running {
	muxer,
	timeout: futures_timer::Delay::new(Duration::from_secs(10)),
	proto: proto_fn(stream.unwrap()),
	};
	return Poll::Ready(Some(Event::SetupComplete));
	}

	if let Poll::Ready(event) = muxer.poll_unpin(cx) {
	event.unwrap();

	*this = Harness::OutboundSetup { muxer, proto_fn };
	continue;
	}

	*this = Harness::OutboundSetup { muxer, proto_fn };
	return Poll::Pending;
	}
	Harness::Running {
	muxer,
	mut proto,
	mut timeout,
	} => {
	if let Poll::Ready(event) = muxer.poll_unpin(cx) {
	event.unwrap();

	*this = Harness::Running {
	muxer,
	proto,
	timeout,
	};
	continue;
	}

	if let Poll::Ready(()) = proto.poll_unpin(cx) {
	*this = Harness::Complete { muxer };
	return Poll::Ready(Some(Event::ProtocolComplete));
	}

	if let Poll::Ready(()) = timeout.poll_unpin(cx) {
	return Poll::Ready(Some(Event::Timeout));
	}

	*this = Harness::Running {
	muxer,
	proto,
	timeout,
	};
	return Poll::Pending;
	}
	Harness::Complete { muxer } => {
	if let Poll::Ready(event) = muxer.poll_unpin(cx) {
	event.unwrap();

	*this = Harness::Complete { muxer };
	continue;
	}

	*this = Harness::Complete { muxer };
	return Poll::Pending;
	}
	Harness::Poisoned => {
	unreachable!()
	}
	}
	}
	}
	}