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// Copyright 2017 Parity Technologies (UK) Ltd.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the "Software"),
// to deal in the Software without restriction, including without limitation
// the rights to use, copy, modify, merge, publish, distribute, sublicense,
// and/or sell copies of the Software, and to permit persons to whom the
// Software is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
// DEALINGS IN THE SOFTWARE.
//! Protocol negotiation strategies for the peer acting as the dialer.
use crate::protocol::{HeaderLine, Message, MessageIO, Protocol, ProtocolError};
use crate::{Negotiated, NegotiationError, Version};
use futures::prelude::*;
use std::{
convert::TryFrom as _,
iter, mem,
pin::Pin,
task::{Context, Poll},
};
/// Returns a `Future` that negotiates a protocol on the given I/O stream
/// for a peer acting as the _dialer_ (or _initiator_).
///
/// This function is given an I/O stream and a list of protocols and returns a
/// computation that performs the protocol negotiation with the remote. The
/// returned `Future` resolves with the name of the negotiated protocol and
/// a [`Negotiated`] I/O stream.
///
/// Within the scope of this library, a dialer always commits to a specific
/// multistream-select [`Version`], whereas a listener always supports
/// all versions supported by this library. Frictionless multistream-select
/// protocol upgrades may thus proceed by deployments with updated listeners,
/// eventually followed by deployments of dialers choosing the newer protocol.
pub fn dialer_select_proto<R, I>(
inner: R,
protocols: I,
version: Version,
) -> DialerSelectFuture<R, I::IntoIter>
where
R: AsyncRead + AsyncWrite,
I: IntoIterator,
I::Item: AsRef<str>,
{
let protocols = protocols.into_iter().peekable();
DialerSelectFuture {
version,
protocols,
state: State::SendHeader {
io: MessageIO::new(inner),
},
}
}
/// A `Future` returned by [`dialer_select_proto`] which negotiates
/// a protocol iteratively by considering one protocol after the other.
#[pin_project::pin_project]
pub struct DialerSelectFuture<R, I: Iterator> {
// TODO: It would be nice if eventually N = I::Item = Protocol.
protocols: iter::Peekable<I>,
state: State<R, I::Item>,
version: Version,
}
enum State<R, N> {
SendHeader { io: MessageIO<R> },
SendProtocol { io: MessageIO<R>, protocol: N },
FlushProtocol { io: MessageIO<R>, protocol: N },
AwaitProtocol { io: MessageIO<R>, protocol: N },
Done,
}
impl<R, I> Future for DialerSelectFuture<R, I>
where
// The Unpin bound here is required because we produce a `Negotiated<R>` as the output.
// It also makes the implementation considerably easier to write.
R: AsyncRead + AsyncWrite + Unpin,
I: Iterator,
I::Item: AsRef<str>,
{
type Output = Result<(I::Item, Negotiated<R>), NegotiationError>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let this = self.project();
loop {
match mem::replace(this.state, State::Done) {
State::SendHeader { mut io } => {
match Pin::new(&mut io).poll_ready(cx)? {
Poll::Ready(()) => {}
Poll::Pending => {
*this.state = State::SendHeader { io };
return Poll::Pending;
}
}
let h = HeaderLine::from(*this.version);
if let Err(err) = Pin::new(&mut io).start_send(Message::Header(h)) {
return Poll::Ready(Err(From::from(err)));
}
let protocol = this.protocols.next().ok_or(NegotiationError::Failed)?;
// The dialer always sends the header and the first protocol
// proposal in one go for efficiency.
*this.state = State::SendProtocol { io, protocol };
}
State::SendProtocol { mut io, protocol } => {
match Pin::new(&mut io).poll_ready(cx)? {
Poll::Ready(()) => {}
Poll::Pending => {
*this.state = State::SendProtocol { io, protocol };
return Poll::Pending;
}
}
let p = Protocol::try_from(protocol.as_ref())?;
if let Err(err) = Pin::new(&mut io).start_send(Message::Protocol(p.clone())) {
return Poll::Ready(Err(From::from(err)));
}
tracing::debug!(protocol=%p, "Dialer: Proposed protocol");
if this.protocols.peek().is_some() {
*this.state = State::FlushProtocol { io, protocol }
} else {
match this.version {
Version::V1 => *this.state = State::FlushProtocol { io, protocol },
// This is the only effect that `V1Lazy` has compared to `V1`:
// Optimistically settling on the only protocol that
// the dialer supports for this negotiation. Notably,
// the dialer expects a regular `V1` response.
Version::V1Lazy => {
tracing::debug!(protocol=%p, "Dialer: Expecting proposed protocol");
let hl = HeaderLine::from(Version::V1Lazy);
let io = Negotiated::expecting(io.into_reader(), p, Some(hl));
return Poll::Ready(Ok((protocol, io)));
}
}
}
}
State::FlushProtocol { mut io, protocol } => {
match Pin::new(&mut io).poll_flush(cx)? {
Poll::Ready(()) => *this.state = State::AwaitProtocol { io, protocol },
Poll::Pending => {
*this.state = State::FlushProtocol { io, protocol };
return Poll::Pending;
}
}
}
State::AwaitProtocol { mut io, protocol } => {
let msg = match Pin::new(&mut io).poll_next(cx)? {
Poll::Ready(Some(msg)) => msg,
Poll::Pending => {
*this.state = State::AwaitProtocol { io, protocol };
return Poll::Pending;
}
// Treat EOF error as [`NegotiationError::Failed`], not as
// [`NegotiationError::ProtocolError`], allowing dropping or closing an I/O
// stream as a permissible way to "gracefully" fail a negotiation.
Poll::Ready(None) => return Poll::Ready(Err(NegotiationError::Failed)),
};
match msg {
Message::Header(v) if v == HeaderLine::from(*this.version) => {
*this.state = State::AwaitProtocol { io, protocol };
}
Message::Protocol(ref p) if p.as_ref() == protocol.as_ref() => {
tracing::debug!(protocol=%p, "Dialer: Received confirmation for protocol");
let io = Negotiated::completed(io.into_inner());
return Poll::Ready(Ok((protocol, io)));
}
Message::NotAvailable => {
tracing::debug!(
protocol=%protocol.as_ref(),
"Dialer: Received rejection of protocol"
);
let protocol = this.protocols.next().ok_or(NegotiationError::Failed)?;
*this.state = State::SendProtocol { io, protocol }
}
_ => return Poll::Ready(Err(ProtocolError::InvalidMessage.into())),
}
}
State::Done => panic!("State::poll called after completion"),
}
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::listener_select_proto;
use async_std::future::timeout;
use async_std::net::{TcpListener, TcpStream};
use quickcheck::{Arbitrary, Gen, GenRange};
use std::time::Duration;
use tracing::metadata::LevelFilter;
use tracing_subscriber::EnvFilter;
#[test]
fn select_proto_basic() {
async fn run(version: Version) {
let (client_connection, server_connection) = futures_ringbuf::Endpoint::pair(100, 100);
let server = async_std::task::spawn(async move {
let protos = vec!["/proto1", "/proto2"];
let (proto, mut io) = listener_select_proto(server_connection, protos)
.await
.unwrap();
assert_eq!(proto, "/proto2");
let mut out = vec![0; 32];
let n = io.read(&mut out).await.unwrap();
out.truncate(n);
assert_eq!(out, b"ping");
io.write_all(b"pong").await.unwrap();
io.flush().await.unwrap();
});
let client = async_std::task::spawn(async move {
let protos = vec!["/proto3", "/proto2"];
let (proto, mut io) = dialer_select_proto(client_connection, protos, version)
.await
.unwrap();
assert_eq!(proto, "/proto2");
io.write_all(b"ping").await.unwrap();
io.flush().await.unwrap();
let mut out = vec![0; 32];
let n = io.read(&mut out).await.unwrap();
out.truncate(n);
assert_eq!(out, b"pong");
});
server.await;
client.await;
}
async_std::task::block_on(run(Version::V1));
async_std::task::block_on(run(Version::V1Lazy));
}
/// Tests the expected behaviour of failed negotiations.
#[test]
fn negotiation_failed() {
fn prop(
version: Version,
DialerProtos(dial_protos): DialerProtos,
ListenerProtos(listen_protos): ListenerProtos,
DialPayload(dial_payload): DialPayload,
) {
let _ = tracing_subscriber::fmt()
.with_env_filter(
EnvFilter::builder()
.with_default_directive(LevelFilter::DEBUG.into())
.from_env_lossy(),
)
.try_init();
async_std::task::block_on(async move {
let listener = TcpListener::bind("0.0.0.0:0").await.unwrap();
let addr = listener.local_addr().unwrap();
let server = async_std::task::spawn(async move {
let server_connection = listener.accept().await.unwrap().0;
let io = match timeout(
Duration::from_secs(2),
listener_select_proto(server_connection, listen_protos),
)
.await
.unwrap()
{
Ok((_, io)) => io,
Err(NegotiationError::Failed) => return,
Err(NegotiationError::ProtocolError(e)) => {
panic!("Unexpected protocol error {e}")
}
};
match io.complete().await {
Err(NegotiationError::Failed) => {}
_ => panic!(),
}
});
let client = async_std::task::spawn(async move {
let client_connection = TcpStream::connect(addr).await.unwrap();
let mut io = match timeout(
Duration::from_secs(2),
dialer_select_proto(client_connection, dial_protos, version),
)
.await
.unwrap()
{
Err(NegotiationError::Failed) => return,
Ok((_, io)) => io,
Err(_) => panic!(),
};
// The dialer may write a payload that is even sent before it
// got confirmation of the last proposed protocol, when `V1Lazy`
// is used.
tracing::info!("Writing early data");
io.write_all(&dial_payload).await.unwrap();
match io.complete().await {
Err(NegotiationError::Failed) => {}
_ => panic!(),
}
});
server.await;
client.await;
tracing::info!("---------------------------------------")
});
}
quickcheck::QuickCheck::new()
.tests(1000)
.quickcheck(prop as fn(_, _, _, _));
}
#[async_std::test]
async fn v1_lazy_do_not_wait_for_negotiation_on_poll_close() {
let (client_connection, _server_connection) =
futures_ringbuf::Endpoint::pair(1024 * 1024, 1);
let client = async_std::task::spawn(async move {
// Single protocol to allow for lazy (or optimistic) protocol negotiation.
let protos = vec!["/proto1"];
let (proto, mut io) = dialer_select_proto(client_connection, protos, Version::V1Lazy)
.await
.unwrap();
assert_eq!(proto, "/proto1");
// client can close the connection even though protocol negotiation is not yet done, i.e.
// `_server_connection` had been untouched.
io.close().await.unwrap();
});
async_std::future::timeout(Duration::from_secs(10), client)
.await
.unwrap();
}
#[derive(Clone, Debug)]
struct DialerProtos(Vec<&'static str>);
impl Arbitrary for DialerProtos {
fn arbitrary(g: &mut Gen) -> Self {
if bool::arbitrary(g) {
DialerProtos(vec!["/proto1"])
} else {
DialerProtos(vec!["/proto1", "/proto2"])
}
}
}
#[derive(Clone, Debug)]
struct ListenerProtos(Vec<&'static str>);
impl Arbitrary for ListenerProtos {
fn arbitrary(g: &mut Gen) -> Self {
if bool::arbitrary(g) {
ListenerProtos(vec!["/proto3"])
} else {
ListenerProtos(vec!["/proto3", "/proto4"])
}
}
}
#[derive(Clone, Debug)]
struct DialPayload(Vec<u8>);
impl Arbitrary for DialPayload {
fn arbitrary(g: &mut Gen) -> Self {
DialPayload(
(0..g.gen_range(0..2u8))
.map(|_| g.gen_range(1..255)) // We can generate 0 as that will produce a different error.
.collect(),
)
}
}
}
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