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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.
//! Implementation of the libp2p [`libp2p_core::Transport`] trait for TCP/IP.
//!
//! # Usage
//!
//! This crate provides a [`async_io::Transport`] and [`tokio::Transport`], depending on
//! the enabled features, which implement the [`libp2p_core::Transport`] trait for use as a
//! transport with `libp2p-core` or `libp2p-swarm`.
#![cfg_attr(docsrs, feature(doc_cfg, doc_auto_cfg))]
mod provider;
#[cfg(feature = "async-io")]
pub use provider::async_io;
#[cfg(feature = "tokio")]
pub use provider::tokio;
use futures::{
future::{self, Ready},
prelude::*,
};
use futures_timer::Delay;
use if_watch::IfEvent;
use libp2p_core::{
address_translation,
multiaddr::{Multiaddr, Protocol},
transport::{ListenerId, TransportError, TransportEvent},
};
use provider::{Incoming, Provider};
use socket2::{Domain, Socket, Type};
use std::{
collections::{HashSet, VecDeque},
io,
net::{IpAddr, Ipv4Addr, Ipv6Addr, SocketAddr, TcpListener},
pin::Pin,
sync::{Arc, RwLock},
task::{Context, Poll},
time::Duration,
};
/// The configuration for a TCP/IP transport capability for libp2p.
#[derive(Clone, Debug)]
pub struct Config {
/// TTL to set for opened sockets, or `None` to keep default.
ttl: Option<u32>,
/// `TCP_NODELAY` to set for opened sockets, or `None` to keep default.
nodelay: Option<bool>,
/// Size of the listen backlog for listen sockets.
backlog: u32,
/// Whether port reuse should be enabled.
enable_port_reuse: bool,
}
type Port = u16;
/// The configuration for port reuse of listening sockets.
#[derive(Debug, Clone)]
enum PortReuse {
/// Port reuse is disabled, i.e. ephemeral local ports are
/// used for outgoing TCP connections.
Disabled,
/// Port reuse when dialing is enabled, i.e. the local
/// address and port that a new socket for an outgoing
/// connection is bound to are chosen from an existing
/// listening socket, if available.
Enabled {
/// The addresses and ports of the listening sockets
/// registered as eligible for port reuse when dialing.
listen_addrs: Arc<RwLock<HashSet<(IpAddr, Port)>>>,
},
}
impl PortReuse {
/// Registers a socket address for port reuse.
///
/// Has no effect if port reuse is disabled.
fn register(&mut self, ip: IpAddr, port: Port) {
if let PortReuse::Enabled { listen_addrs } = self {
log::trace!("Registering for port reuse: {}:{}", ip, port);
listen_addrs
.write()
.expect("`register()` and `unregister()` never panic while holding the lock")
.insert((ip, port));
}
}
/// Unregisters a socket address for port reuse.
///
/// Has no effect if port reuse is disabled.
fn unregister(&mut self, ip: IpAddr, port: Port) {
if let PortReuse::Enabled { listen_addrs } = self {
log::trace!("Unregistering for port reuse: {}:{}", ip, port);
listen_addrs
.write()
.expect("`register()` and `unregister()` never panic while holding the lock")
.remove(&(ip, port));
}
}
/// Selects a listening socket address suitable for use
/// as the local socket address when dialing.
///
/// If multiple listening sockets are registered for port
/// reuse, one is chosen whose IP protocol version and
/// loopback status is the same as that of `remote_ip`.
///
/// Returns `None` if port reuse is disabled or no suitable
/// listening socket address is found.
fn local_dial_addr(&self, remote_ip: &IpAddr) -> Option<SocketAddr> {
if let PortReuse::Enabled { listen_addrs } = self {
for (ip, port) in listen_addrs
.read()
.expect("`local_dial_addr` never panic while holding the lock")
.iter()
{
if ip.is_ipv4() == remote_ip.is_ipv4()
&& ip.is_loopback() == remote_ip.is_loopback()
{
if remote_ip.is_ipv4() {
return Some(SocketAddr::new(IpAddr::V4(Ipv4Addr::UNSPECIFIED), *port));
} else {
return Some(SocketAddr::new(IpAddr::V6(Ipv6Addr::UNSPECIFIED), *port));
}
}
}
}
None
}
}
impl Config {
/// Creates a new configuration for a TCP/IP transport:
///
/// * Nagle's algorithm, i.e. `TCP_NODELAY`, is _enabled_.
/// See [`Config::nodelay`].
/// * Reuse of listening ports is _disabled_.
/// See [`Config::port_reuse`].
/// * No custom `IP_TTL` is set. The default of the OS TCP stack applies.
/// See [`Config::ttl`].
/// * The size of the listen backlog for new listening sockets is `1024`.
/// See [`Config::listen_backlog`].
pub fn new() -> Self {
Self {
ttl: None,
nodelay: None,
backlog: 1024,
enable_port_reuse: false,
}
}
/// Configures the `IP_TTL` option for new sockets.
pub fn ttl(mut self, value: u32) -> Self {
self.ttl = Some(value);
self
}
/// Configures the `TCP_NODELAY` option for new sockets.
pub fn nodelay(mut self, value: bool) -> Self {
self.nodelay = Some(value);
self
}
/// Configures the listen backlog for new listen sockets.
pub fn listen_backlog(mut self, backlog: u32) -> Self {
self.backlog = backlog;
self
}
/// Configures port reuse for local sockets, which implies
/// reuse of listening ports for outgoing connections to
/// enhance NAT traversal capabilities.
///
/// Please refer to e.g. [RFC 4787](https://tools.ietf.org/html/rfc4787)
/// section 4 and 5 for some of the NAT terminology used here.
///
/// There are two main use-cases for port reuse among local
/// sockets:
///
/// 1. Creating multiple listening sockets for the same address
/// and port to allow accepting connections on multiple threads
/// without having to synchronise access to a single listen socket.
///
/// 2. Creating outgoing connections whose local socket is bound to
/// the same address and port as a listening socket. In the rare
/// case of simple NATs with both endpoint-independent mapping and
/// endpoint-independent filtering, this can on its own already
/// permit NAT traversal by other nodes sharing the observed
/// external address of the local node. For the common case of
/// NATs with address-dependent or address and port-dependent
/// filtering, port reuse for outgoing connections can facilitate
/// further TCP hole punching techniques for NATs that perform
/// endpoint-independent mapping. Port reuse cannot facilitate
/// NAT traversal in the presence of "symmetric" NATs that employ
/// both address/port-dependent mapping and filtering, unless
/// there is some means of port prediction.
///
/// Both use-cases are enabled when port reuse is enabled, with port reuse
/// for outgoing connections (`2.` above) always being implied.
///
/// > **Note**: Due to the identification of a TCP socket by a 4-tuple
/// > of source IP address, source port, destination IP address and
/// > destination port, with port reuse enabled there can be only
/// > a single outgoing connection to a particular address and port
/// > of a peer per local listening socket address.
///
/// [`Transport`] keeps track of the listen socket addresses as they
/// are reported by polling it. It is possible to listen on multiple
/// addresses, enabling port reuse for each, knowing exactly which listen
/// address is reused when dialing with a specific [`Transport`], as in the
/// following example:
///
/// ```no_run
/// # use futures::StreamExt;
/// # use libp2p_core::transport::{ListenerId, TransportEvent};
/// # use libp2p_core::{Multiaddr, Transport};
/// # use std::pin::Pin;
/// # #[cfg(not(feature = "async-io"))]
/// # fn main() {}
/// #
/// #[cfg(feature = "async-io")]
/// #[async_std::main]
/// async fn main() -> std::io::Result<()> {
///
/// let listen_addr1: Multiaddr = "/ip4/127.0.0.1/tcp/9001".parse().unwrap();
/// let listen_addr2: Multiaddr = "/ip4/127.0.0.1/tcp/9002".parse().unwrap();
///
/// let mut tcp1 = libp2p_tcp::async_io::Transport::new(libp2p_tcp::Config::new().port_reuse(true)).boxed();
/// tcp1.listen_on( listen_addr1.clone()).expect("listener");
/// match tcp1.select_next_some().await {
/// TransportEvent::NewAddress { listen_addr, .. } => {
/// println!("Listening on {:?}", listen_addr);
/// let mut stream = tcp1.dial(listen_addr2.clone()).unwrap().await?;
/// // `stream` has `listen_addr1` as its local socket address.
/// }
/// _ => {}
/// }
///
/// let mut tcp2 = libp2p_tcp::async_io::Transport::new(libp2p_tcp::Config::new().port_reuse(true)).boxed();
/// tcp2.listen_on( listen_addr2).expect("listener");
/// match tcp2.select_next_some().await {
/// TransportEvent::NewAddress { listen_addr, .. } => {
/// println!("Listening on {:?}", listen_addr);
/// let mut socket = tcp2.dial(listen_addr1).unwrap().await?;
/// // `stream` has `listen_addr2` as its local socket address.
/// }
/// _ => {}
/// }
/// Ok(())
/// }
/// ```
///
/// If a wildcard listen socket address is used to listen on any interface,
/// there can be multiple such addresses registered for port reuse. In this
/// case, one is chosen whose IP protocol version and loopback status is the
/// same as that of the remote address. Consequently, for maximum control of
/// the local listening addresses and ports that are used for outgoing
/// connections, a new [`Transport`] should be created for each listening
/// socket, avoiding the use of wildcard addresses which bind a socket to
/// all network interfaces.
///
/// When this option is enabled on a unix system, the socket
/// option `SO_REUSEPORT` is set, if available, to permit
/// reuse of listening ports for multiple sockets.
pub fn port_reuse(mut self, port_reuse: bool) -> Self {
self.enable_port_reuse = port_reuse;
self
}
}
impl Default for Config {
fn default() -> Self {
Self::new()
}
}
/// An abstract [`libp2p_core::Transport`] implementation.
///
/// You shouldn't need to use this type directly. Use one of the following instead:
///
/// - [`tokio::Transport`]
/// - [`async_io::Transport`]
pub struct Transport<T>
where
T: Provider + Send,
{
config: Config,
/// The configuration of port reuse when dialing.
port_reuse: PortReuse,
/// All the active listeners.
/// The [`TcpListenStream`] struct contains a stream that we want to be pinned. Since the `VecDeque`
/// can be resized, the only way is to use a `Pin<Box<>>`.
listeners: VecDeque<Pin<Box<TcpListenStream<T>>>>,
/// Pending transport events to return from [`libp2p_core::Transport::poll`].
pending_events:
VecDeque<TransportEvent<<Self as libp2p_core::Transport>::ListenerUpgrade, io::Error>>,
}
impl<T> Transport<T>
where
T: Provider + Send,
{
/// Create a new instance of [`Transport`].
///
/// If you don't want to specify a [`Config`], use [`Transport::default`].
///
/// It is best to call this function through one of the type-aliases of this type:
///
/// - [`tokio::Transport::new`]
/// - [`async_io::Transport::new`]
pub fn new(config: Config) -> Self {
let port_reuse = if config.enable_port_reuse {
PortReuse::Enabled {
listen_addrs: Arc::new(RwLock::new(HashSet::new())),
}
} else {
PortReuse::Disabled
};
Transport {
config,
port_reuse,
..Default::default()
}
}
fn create_socket(&self, socket_addr: &SocketAddr) -> io::Result<Socket> {
let domain = if socket_addr.is_ipv4() {
Domain::IPV4
} else {
Domain::IPV6
};
let socket = Socket::new(domain, Type::STREAM, Some(socket2::Protocol::TCP))?;
if socket_addr.is_ipv6() {
socket.set_only_v6(true)?;
}
if let Some(ttl) = self.config.ttl {
socket.set_ttl(ttl)?;
}
if let Some(nodelay) = self.config.nodelay {
socket.set_nodelay(nodelay)?;
}
socket.set_reuse_address(true)?;
#[cfg(unix)]
if let PortReuse::Enabled { .. } = &self.port_reuse {
socket.set_reuse_port(true)?;
}
Ok(socket)
}
fn do_listen(
&mut self,
id: ListenerId,
socket_addr: SocketAddr,
) -> io::Result<TcpListenStream<T>> {
let socket = self.create_socket(&socket_addr)?;
socket.bind(&socket_addr.into())?;
socket.listen(self.config.backlog as _)?;
socket.set_nonblocking(true)?;
let listener: TcpListener = socket.into();
let local_addr = listener.local_addr()?;
if local_addr.ip().is_unspecified() {
return TcpListenStream::<T>::new(
id,
listener,
Some(T::new_if_watcher()?),
self.port_reuse.clone(),
);
}
self.port_reuse.register(local_addr.ip(), local_addr.port());
let listen_addr = ip_to_multiaddr(local_addr.ip(), local_addr.port());
self.pending_events.push_back(TransportEvent::NewAddress {
listener_id: id,
listen_addr,
});
TcpListenStream::<T>::new(id, listener, None, self.port_reuse.clone())
}
}
impl<T> Default for Transport<T>
where
T: Provider + Send,
{
/// Creates a [`Transport`] with reasonable defaults.
///
/// This transport will have port-reuse disabled.
fn default() -> Self {
let config = Config::default();
let port_reuse = if config.enable_port_reuse {
PortReuse::Enabled {
listen_addrs: Arc::new(RwLock::new(HashSet::new())),
}
} else {
PortReuse::Disabled
};
Transport {
port_reuse,
config,
listeners: VecDeque::new(),
pending_events: VecDeque::new(),
}
}
}
impl<T> libp2p_core::Transport for Transport<T>
where
T: Provider + Send + 'static,
T::Listener: Unpin,
T::Stream: Unpin,
{
type Output = T::Stream;
type Error = io::Error;
type Dial = Pin<Box<dyn Future<Output = Result<Self::Output, Self::Error>> + Send>>;
type ListenerUpgrade = Ready<Result<Self::Output, Self::Error>>;
fn listen_on(&mut self, addr: Multiaddr) -> Result<ListenerId, TransportError<Self::Error>> {
let socket_addr = if let Ok(sa) = multiaddr_to_socketaddr(addr.clone()) {
sa
} else {
return Err(TransportError::MultiaddrNotSupported(addr));
};
let id = ListenerId::new();
log::debug!("listening on {}", socket_addr);
let listener = self
.do_listen(id, socket_addr)
.map_err(TransportError::Other)?;
self.listeners.push_back(Box::pin(listener));
Ok(id)
}
fn remove_listener(&mut self, id: ListenerId) -> bool {
if let Some(index) = self.listeners.iter().position(|l| l.listener_id != id) {
self.listeners.remove(index);
self.pending_events
.push_back(TransportEvent::ListenerClosed {
listener_id: id,
reason: Ok(()),
});
true
} else {
false
}
}
fn dial(&mut self, addr: Multiaddr) -> Result<Self::Dial, TransportError<Self::Error>> {
let socket_addr = if let Ok(socket_addr) = multiaddr_to_socketaddr(addr.clone()) {
if socket_addr.port() == 0 || socket_addr.ip().is_unspecified() {
return Err(TransportError::MultiaddrNotSupported(addr));
}
socket_addr
} else {
return Err(TransportError::MultiaddrNotSupported(addr));
};
log::debug!("dialing {}", socket_addr);
let socket = self
.create_socket(&socket_addr)
.map_err(TransportError::Other)?;
if let Some(addr) = self.port_reuse.local_dial_addr(&socket_addr.ip()) {
log::trace!("Binding dial socket to listen socket {}", addr);
socket.bind(&addr.into()).map_err(TransportError::Other)?;
}
socket
.set_nonblocking(true)
.map_err(TransportError::Other)?;
Ok(async move {
// [`Transport::dial`] should do no work unless the returned [`Future`] is polled. Thus
// do the `connect` call within the [`Future`].
match socket.connect(&socket_addr.into()) {
Ok(()) => {}
Err(err) if err.raw_os_error() == Some(libc::EINPROGRESS) => {}
Err(err) if err.kind() == io::ErrorKind::WouldBlock => {}
Err(err) => return Err(err),
};
let stream = T::new_stream(socket.into()).await?;
Ok(stream)
}
.boxed())
}
fn dial_as_listener(
&mut self,
addr: Multiaddr,
) -> Result<Self::Dial, TransportError<Self::Error>> {
self.dial(addr)
}
/// When port reuse is disabled and hence ephemeral local ports are
/// used for outgoing connections, the returned address is the
/// `observed` address with the port replaced by the port of the
/// `listen` address.
///
/// If port reuse is enabled, `Some(observed)` is returned, as there
/// is a chance that the `observed` address _and_ port are reachable
/// for other peers if there is a NAT in the way that does endpoint-
/// independent filtering. Furthermore, even if that is not the case
/// and TCP hole punching techniques must be used for NAT traversal,
/// the `observed` address is still the one that a remote should connect
/// to for the purpose of the hole punching procedure, as it represents
/// the mapped IP and port of the NAT device in front of the local
/// node.
///
/// `None` is returned if one of the given addresses is not a TCP/IP
/// address.
fn address_translation(&self, listen: &Multiaddr, observed: &Multiaddr) -> Option<Multiaddr> {
if !is_tcp_addr(listen) || !is_tcp_addr(observed) {
return None;
}
match &self.port_reuse {
PortReuse::Disabled => address_translation(listen, observed),
PortReuse::Enabled { .. } => Some(observed.clone()),
}
}
/// Poll all listeners.
fn poll(
mut self: Pin<&mut Self>,
cx: &mut Context<'_>,
) -> Poll<TransportEvent<Self::ListenerUpgrade, Self::Error>> {
// Return pending events from closed listeners.
if let Some(event) = self.pending_events.pop_front() {
return Poll::Ready(event);
}
// We remove each element from `listeners` one by one and add them back.
let mut remaining = self.listeners.len();
while let Some(mut listener) = self.listeners.pop_back() {
match TryStream::try_poll_next(listener.as_mut(), cx) {
Poll::Pending => {
self.listeners.push_front(listener);
remaining -= 1;
if remaining == 0 {
break;
}
}
Poll::Ready(Some(Ok(TcpListenerEvent::Upgrade {
upgrade,
local_addr,
remote_addr,
}))) => {
let id = listener.listener_id;
self.listeners.push_front(listener);
return Poll::Ready(TransportEvent::Incoming {
listener_id: id,
upgrade,
local_addr,
send_back_addr: remote_addr,
});
}
Poll::Ready(Some(Ok(TcpListenerEvent::NewAddress(a)))) => {
let id = listener.listener_id;
self.listeners.push_front(listener);
return Poll::Ready(TransportEvent::NewAddress {
listener_id: id,
listen_addr: a,
});
}
Poll::Ready(Some(Ok(TcpListenerEvent::AddressExpired(a)))) => {
let id = listener.listener_id;
self.listeners.push_front(listener);
return Poll::Ready(TransportEvent::AddressExpired {
listener_id: id,
listen_addr: a,
});
}
Poll::Ready(Some(Ok(TcpListenerEvent::Error(error)))) => {
let id = listener.listener_id;
self.listeners.push_front(listener);
return Poll::Ready(TransportEvent::ListenerError {
listener_id: id,
error,
});
}
Poll::Ready(None) => {
return Poll::Ready(TransportEvent::ListenerClosed {
listener_id: listener.listener_id,
reason: Ok(()),
});
}
Poll::Ready(Some(Err(err))) => {
return Poll::Ready(TransportEvent::ListenerClosed {
listener_id: listener.listener_id,
reason: Err(err),
});
}
}
}
Poll::Pending
}
}
/// Event produced by a [`TcpListenStream`].
#[derive(Debug)]
enum TcpListenerEvent<S> {
/// The listener is listening on a new additional [`Multiaddr`].
NewAddress(Multiaddr),
/// An upgrade, consisting of the upgrade future, the listener address and the remote address.
Upgrade {
/// The upgrade.
upgrade: Ready<Result<S, io::Error>>,
/// The local address which produced this upgrade.
local_addr: Multiaddr,
/// The remote address which produced this upgrade.
remote_addr: Multiaddr,
},
/// A [`Multiaddr`] is no longer used for listening.
AddressExpired(Multiaddr),
/// A non-fatal error has happened on the listener.
///
/// This event should be generated in order to notify the user that something wrong has
/// happened. The listener, however, continues to run.
Error(io::Error),
}
/// A stream of incoming connections on one or more interfaces.
struct TcpListenStream<T>
where
T: Provider,
{
/// The ID of this listener.
listener_id: ListenerId,
/// The socket address that the listening socket is bound to,
/// which may be a "wildcard address" like `INADDR_ANY` or `IN6ADDR_ANY`
/// when listening on all interfaces for IPv4 respectively IPv6 connections.
listen_addr: SocketAddr,
/// The async listening socket for incoming connections.
listener: T::Listener,
/// Watcher for network interface changes.
/// Reports [`IfEvent`]s for new / deleted ip-addresses when interfaces
/// become or stop being available.
///
/// `None` if the socket is only listening on a single interface.
if_watcher: Option<T::IfWatcher>,
/// The port reuse configuration for outgoing connections.
///
/// If enabled, all IP addresses on which this listening stream
/// is accepting connections (`in_addr`) are registered for reuse
/// as local addresses for the sockets of outgoing connections. They are
/// unregistered when the stream encounters an error or is dropped.
port_reuse: PortReuse,
/// How long to sleep after a (non-fatal) error while trying
/// to accept a new connection.
sleep_on_error: Duration,
/// The current pause, if any.
pause: Option<Delay>,
}
impl<T> TcpListenStream<T>
where
T: Provider,
{
/// Constructs a [`TcpListenStream`] for incoming connections around
/// the given [`TcpListener`].
fn new(
listener_id: ListenerId,
listener: TcpListener,
if_watcher: Option<T::IfWatcher>,
port_reuse: PortReuse,
) -> io::Result<Self> {
let listen_addr = listener.local_addr()?;
let listener = T::new_listener(listener)?;
Ok(TcpListenStream {
port_reuse,
listener,
listener_id,
listen_addr,
if_watcher,
pause: None,
sleep_on_error: Duration::from_millis(100),
})
}
/// Disables port reuse for any listen address of this stream.
///
/// This is done when the `TcpListenStream` encounters a fatal
/// error (for the stream) or is dropped.
///
/// Has no effect if port reuse is disabled.
fn disable_port_reuse(&mut self) {
match &self.if_watcher {
Some(if_watcher) => {
for ip_net in T::addrs(if_watcher) {
self.port_reuse
.unregister(ip_net.addr(), self.listen_addr.port());
}
}
None => self
.port_reuse
.unregister(self.listen_addr.ip(), self.listen_addr.port()),
}
}
}
impl<T> Drop for TcpListenStream<T>
where
T: Provider,
{
fn drop(&mut self) {
self.disable_port_reuse();
}
}
impl<T> Stream for TcpListenStream<T>
where
T: Provider,
T::Listener: Unpin,
T::Stream: Unpin,
{
type Item = Result<TcpListenerEvent<T::Stream>, io::Error>;
fn poll_next(self: Pin<&mut Self>, cx: &mut Context) -> Poll<Option<Self::Item>> {
let me = Pin::into_inner(self);
if let Some(mut pause) = me.pause.take() {
match pause.poll_unpin(cx) {
Poll::Ready(_) => {}
Poll::Pending => {
me.pause = Some(pause);
return Poll::Pending;
}
}
}
if let Some(if_watcher) = me.if_watcher.as_mut() {
while let Poll::Ready(Some(event)) = if_watcher.poll_next_unpin(cx) {
match event {
Ok(IfEvent::Up(inet)) => {
let ip = inet.addr();
if me.listen_addr.is_ipv4() == ip.is_ipv4() {
let ma = ip_to_multiaddr(ip, me.listen_addr.port());
log::debug!("New listen address: {}", ma);
me.port_reuse.register(ip, me.listen_addr.port());
return Poll::Ready(Some(Ok(TcpListenerEvent::NewAddress(ma))));
}
}
Ok(IfEvent::Down(inet)) => {
let ip = inet.addr();
if me.listen_addr.is_ipv4() == ip.is_ipv4() {
let ma = ip_to_multiaddr(ip, me.listen_addr.port());
log::debug!("Expired listen address: {}", ma);
me.port_reuse.unregister(ip, me.listen_addr.port());
return Poll::Ready(Some(Ok(TcpListenerEvent::AddressExpired(ma))));
}
}
Err(err) => {
me.pause = Some(Delay::new(me.sleep_on_error));
return Poll::Ready(Some(Ok(TcpListenerEvent::Error(err))));
}
}
}
}
// Take the pending connection from the backlog.
match T::poll_accept(&mut me.listener, cx) {
Poll::Ready(Ok(Incoming {
local_addr,
remote_addr,
stream,
})) => {
let local_addr = ip_to_multiaddr(local_addr.ip(), local_addr.port());
let remote_addr = ip_to_multiaddr(remote_addr.ip(), remote_addr.port());
log::debug!("Incoming connection from {} at {}", remote_addr, local_addr);
return Poll::Ready(Some(Ok(TcpListenerEvent::Upgrade {
upgrade: future::ok(stream),
local_addr,
remote_addr,
})));
}
Poll::Ready(Err(e)) => {
// These errors are non-fatal for the listener stream.
me.pause = Some(Delay::new(me.sleep_on_error));
return Poll::Ready(Some(Ok(TcpListenerEvent::Error(e))));
}
Poll::Pending => {}
};
Poll::Pending
}
}
/// Extracts a `SocketAddr` from a given `Multiaddr`.
///
/// Fails if the given `Multiaddr` does not begin with an IP
/// protocol encapsulating a TCP port.
fn multiaddr_to_socketaddr(mut addr: Multiaddr) -> Result<SocketAddr, ()> {
// "Pop" the IP address and TCP port from the end of the address,
// ignoring a `/p2p/...` suffix as well as any prefix of possibly
// outer protocols, if present.
let mut port = None;
while let Some(proto) = addr.pop() {
match proto {
Protocol::Ip4(ipv4) => match port {
Some(port) => return Ok(SocketAddr::new(ipv4.into(), port)),
None => return Err(()),
},
Protocol::Ip6(ipv6) => match port {
Some(port) => return Ok(SocketAddr::new(ipv6.into(), port)),
None => return Err(()),
},
Protocol::Tcp(portnum) => match port {
Some(_) => return Err(()),
None => port = Some(portnum),
},
Protocol::P2p(_) => {}
_ => return Err(()),
}
}
Err(())
}
// Create a [`Multiaddr`] from the given IP address and port number.
fn ip_to_multiaddr(ip: IpAddr, port: u16) -> Multiaddr {
Multiaddr::empty().with(ip.into()).with(Protocol::Tcp(port))
}
fn is_tcp_addr(addr: &Multiaddr) -> bool {
use Protocol::*;
let mut iter = addr.iter();
let first = match iter.next() {
None => return false,
Some(p) => p,
};
let second = match iter.next() {
None => return false,
Some(p) => p,
};
matches!(first, Ip4(_) | Ip6(_) | Dns(_) | Dns4(_) | Dns6(_)) && matches!(second, Tcp(_))
}
/// The configuration for a TCP/IP transport capability for libp2p.
#[deprecated(since = "0.37.0", note = "Use `Config` instead.")]
pub type GenTcpConfig = Config;
/// The type of a [`Transport`](libp2p_core::Transport) using the `async-io` implementation.
#[cfg(feature = "async-io")]
#[deprecated(since = "0.37.0", note = "Use `async_io::Transport` instead.")]
pub type TcpTransport = Transport<async_io::Tcp>;
/// The type of a [`Transport`](libp2p_core::Transport) using the `tokio` implementation.
#[cfg(feature = "tokio")]
#[deprecated(since = "0.37.0", note = "Use `tokio::Transport` instead.")]
pub type TokioTcpTransport = Transport<tokio::Tcp>;
#[cfg(test)]
mod tests {
use super::*;
use futures::{
channel::{mpsc, oneshot},
future::poll_fn,
};
use libp2p_core::PeerId;
use libp2p_core::Transport as _;
#[test]
fn multiaddr_to_tcp_conversion() {
use std::net::{IpAddr, Ipv4Addr, Ipv6Addr};
assert!(
multiaddr_to_socketaddr("/ip4/127.0.0.1/udp/1234".parse::<Multiaddr>().unwrap())
.is_err()
);
assert_eq!(
multiaddr_to_socketaddr("/ip4/127.0.0.1/tcp/12345".parse::<Multiaddr>().unwrap()),
Ok(SocketAddr::new(
IpAddr::V4(Ipv4Addr::new(127, 0, 0, 1)),
12345,
))
);
assert_eq!(
multiaddr_to_socketaddr(
"/ip4/255.255.255.255/tcp/8080"
.parse::<Multiaddr>()
.unwrap()
),
Ok(SocketAddr::new(
IpAddr::V4(Ipv4Addr::new(255, 255, 255, 255)),
8080,
))
);
assert_eq!(
multiaddr_to_socketaddr("/ip6/::1/tcp/12345".parse::<Multiaddr>().unwrap()),
Ok(SocketAddr::new(
IpAddr::V6(Ipv6Addr::new(0, 0, 0, 0, 0, 0, 0, 1)),
12345,
))
);
assert_eq!(
multiaddr_to_socketaddr(
"/ip6/ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff/tcp/8080"
.parse::<Multiaddr>()
.unwrap()
),
Ok(SocketAddr::new(
IpAddr::V6(Ipv6Addr::new(
65535, 65535, 65535, 65535, 65535, 65535, 65535, 65535,
)),
8080,
))
);
}
#[test]
fn communicating_between_dialer_and_listener() {
env_logger::try_init().ok();
async fn listener<T: Provider>(addr: Multiaddr, mut ready_tx: mpsc::Sender<Multiaddr>) {
let mut tcp = Transport::<T>::default().boxed();
tcp.listen_on(addr).unwrap();
loop {
match tcp.select_next_some().await {
TransportEvent::NewAddress { listen_addr, .. } => {
ready_tx.send(listen_addr).await.unwrap();
}
TransportEvent::Incoming { upgrade, .. } => {
let mut upgrade = upgrade.await.unwrap();
let mut buf = [0u8; 3];
upgrade.read_exact(&mut buf).await.unwrap();
assert_eq!(buf, [1, 2, 3]);
upgrade.write_all(&[4, 5, 6]).await.unwrap();
return;
}
e => panic!("Unexpected transport event: {:?}", e),
}
}
}
async fn dialer<T: Provider>(mut ready_rx: mpsc::Receiver<Multiaddr>) {
let addr = ready_rx.next().await.unwrap();
let mut tcp = Transport::<T>::default();
// Obtain a future socket through dialing
let mut socket = tcp.dial(addr.clone()).unwrap().await.unwrap();
socket.write_all(&[0x1, 0x2, 0x3]).await.unwrap();
let mut buf = [0u8; 3];
socket.read_exact(&mut buf).await.unwrap();
assert_eq!(buf, [4, 5, 6]);
}
fn test(addr: Multiaddr) {
#[cfg(feature = "async-io")]
{
let (ready_tx, ready_rx) = mpsc::channel(1);
let listener = listener::<async_io::Tcp>(addr.clone(), ready_tx);
let dialer = dialer::<async_io::Tcp>(ready_rx);
let listener = async_std::task::spawn(listener);
async_std::task::block_on(dialer);
async_std::task::block_on(listener);
}
#[cfg(feature = "tokio")]
{
let (ready_tx, ready_rx) = mpsc::channel(1);
let listener = listener::<tokio::Tcp>(addr, ready_tx);
let dialer = dialer::<tokio::Tcp>(ready_rx);
let rt = ::tokio::runtime::Builder::new_current_thread()
.enable_io()
.build()
.unwrap();
let tasks = ::tokio::task::LocalSet::new();
let listener = tasks.spawn_local(listener);
tasks.block_on(&rt, dialer);
tasks.block_on(&rt, listener).unwrap();
}
}
test("/ip4/127.0.0.1/tcp/0".parse().unwrap());
test("/ip6/::1/tcp/0".parse().unwrap());
}
#[test]
fn wildcard_expansion() {
env_logger::try_init().ok();
async fn listener<T: Provider>(addr: Multiaddr, mut ready_tx: mpsc::Sender<Multiaddr>) {
let mut tcp = Transport::<T>::default().boxed();
tcp.listen_on(addr).unwrap();
loop {
match tcp.select_next_some().await {
TransportEvent::NewAddress { listen_addr, .. } => {
let mut iter = listen_addr.iter();
match iter.next().expect("ip address") {
Protocol::Ip4(ip) => assert!(!ip.is_unspecified()),
Protocol::Ip6(ip) => assert!(!ip.is_unspecified()),
other => panic!("Unexpected protocol: {}", other),
}
if let Protocol::Tcp(port) = iter.next().expect("port") {
assert_ne!(0, port)
} else {
panic!("No TCP port in address: {}", listen_addr)
}
ready_tx.send(listen_addr).await.ok();
}
TransportEvent::Incoming { .. } => {
return;
}
_ => {}
}
}
}
async fn dialer<T: Provider>(mut ready_rx: mpsc::Receiver<Multiaddr>) {
let dest_addr = ready_rx.next().await.unwrap();
let mut tcp = Transport::<T>::default();
tcp.dial(dest_addr).unwrap().await.unwrap();
}
fn test(addr: Multiaddr) {
#[cfg(feature = "async-io")]
{
let (ready_tx, ready_rx) = mpsc::channel(1);
let listener = listener::<async_io::Tcp>(addr.clone(), ready_tx);
let dialer = dialer::<async_io::Tcp>(ready_rx);
let listener = async_std::task::spawn(listener);
async_std::task::block_on(dialer);
async_std::task::block_on(listener);
}
#[cfg(feature = "tokio")]
{
let (ready_tx, ready_rx) = mpsc::channel(1);
let listener = listener::<tokio::Tcp>(addr, ready_tx);
let dialer = dialer::<tokio::Tcp>(ready_rx);
let rt = ::tokio::runtime::Builder::new_current_thread()
.enable_io()
.build()
.unwrap();
let tasks = ::tokio::task::LocalSet::new();
let listener = tasks.spawn_local(listener);
tasks.block_on(&rt, dialer);
tasks.block_on(&rt, listener).unwrap();
}
}
test("/ip4/0.0.0.0/tcp/0".parse().unwrap());
test("/ip6/::1/tcp/0".parse().unwrap());
}
#[test]
fn port_reuse_dialing() {
env_logger::try_init().ok();
async fn listener<T: Provider>(
addr: Multiaddr,
mut ready_tx: mpsc::Sender<Multiaddr>,
port_reuse_rx: oneshot::Receiver<Protocol<'_>>,
) {
let mut tcp = Transport::<T>::new(Config::new()).boxed();
tcp.listen_on(addr).unwrap();
loop {
match tcp.select_next_some().await {
TransportEvent::NewAddress { listen_addr, .. } => {
ready_tx.send(listen_addr).await.ok();
}
TransportEvent::Incoming {
upgrade,
mut send_back_addr,
..
} => {
// Receive the dialer tcp port reuse
let remote_port_reuse = port_reuse_rx.await.unwrap();
// And check it is the same as the remote port used for upgrade
assert_eq!(send_back_addr.pop().unwrap(), remote_port_reuse);
let mut upgrade = upgrade.await.unwrap();
let mut buf = [0u8; 3];
upgrade.read_exact(&mut buf).await.unwrap();
assert_eq!(buf, [1, 2, 3]);
upgrade.write_all(&[4, 5, 6]).await.unwrap();
return;
}
e => panic!("Unexpected event: {:?}", e),
}
}
}
async fn dialer<T: Provider>(
addr: Multiaddr,
mut ready_rx: mpsc::Receiver<Multiaddr>,
port_reuse_tx: oneshot::Sender<Protocol<'_>>,
) {
let dest_addr = ready_rx.next().await.unwrap();
let mut tcp = Transport::<T>::new(Config::new().port_reuse(true));
tcp.listen_on(addr).unwrap();
match poll_fn(|cx| Pin::new(&mut tcp).poll(cx)).await {
TransportEvent::NewAddress { .. } => {
// Check that tcp and listener share the same port reuse SocketAddr
let listener = tcp.listeners.front().unwrap();
let port_reuse_tcp = tcp.port_reuse.local_dial_addr(&listener.listen_addr.ip());
let port_reuse_listener = listener
.port_reuse
.local_dial_addr(&listener.listen_addr.ip());
assert!(port_reuse_tcp.is_some());
assert_eq!(port_reuse_tcp, port_reuse_listener);
// Send the dialer tcp port reuse to the listener
port_reuse_tx
.send(Protocol::Tcp(port_reuse_tcp.unwrap().port()))
.ok();
// Obtain a future socket through dialing
let mut socket = tcp.dial(dest_addr).unwrap().await.unwrap();
socket.write_all(&[0x1, 0x2, 0x3]).await.unwrap();
// socket.flush().await;
let mut buf = [0u8; 3];
socket.read_exact(&mut buf).await.unwrap();
assert_eq!(buf, [4, 5, 6]);
}
e => panic!("Unexpected transport event: {:?}", e),
}
}
fn test(addr: Multiaddr) {
#[cfg(feature = "async-io")]
{
let (ready_tx, ready_rx) = mpsc::channel(1);
let (port_reuse_tx, port_reuse_rx) = oneshot::channel();
let listener = listener::<async_io::Tcp>(addr.clone(), ready_tx, port_reuse_rx);
let dialer = dialer::<async_io::Tcp>(addr.clone(), ready_rx, port_reuse_tx);
let listener = async_std::task::spawn(listener);
async_std::task::block_on(dialer);
async_std::task::block_on(listener);
}
#[cfg(feature = "tokio")]
{
let (ready_tx, ready_rx) = mpsc::channel(1);
let (port_reuse_tx, port_reuse_rx) = oneshot::channel();
let listener = listener::<tokio::Tcp>(addr.clone(), ready_tx, port_reuse_rx);
let dialer = dialer::<tokio::Tcp>(addr, ready_rx, port_reuse_tx);
let rt = ::tokio::runtime::Builder::new_current_thread()
.enable_io()
.build()
.unwrap();
let tasks = ::tokio::task::LocalSet::new();
let listener = tasks.spawn_local(listener);
tasks.block_on(&rt, dialer);
tasks.block_on(&rt, listener).unwrap();
}
}
test("/ip4/127.0.0.1/tcp/0".parse().unwrap());
test("/ip6/::1/tcp/0".parse().unwrap());
}
#[test]
fn port_reuse_listening() {
env_logger::try_init().ok();
async fn listen_twice<T: Provider>(addr: Multiaddr) {
let mut tcp = Transport::<T>::new(Config::new().port_reuse(true));
tcp.listen_on(addr).unwrap();
match poll_fn(|cx| Pin::new(&mut tcp).poll(cx)).await {
TransportEvent::NewAddress {
listen_addr: addr1, ..
} => {
let listener1 = tcp.listeners.front().unwrap();
let port_reuse_tcp =
tcp.port_reuse.local_dial_addr(&listener1.listen_addr.ip());
let port_reuse_listener1 = listener1
.port_reuse
.local_dial_addr(&listener1.listen_addr.ip());
assert!(port_reuse_tcp.is_some());
assert_eq!(port_reuse_tcp, port_reuse_listener1);
// Listen on the same address a second time.
tcp.listen_on(addr1.clone()).unwrap();
match poll_fn(|cx| Pin::new(&mut tcp).poll(cx)).await {
TransportEvent::NewAddress {
listen_addr: addr2, ..
} => assert_eq!(addr1, addr2),
e => panic!("Unexpected transport event: {:?}", e),
}
}
e => panic!("Unexpected transport event: {:?}", e),
}
}
fn test(addr: Multiaddr) {
#[cfg(feature = "async-io")]
{
let listener = listen_twice::<async_io::Tcp>(addr.clone());
async_std::task::block_on(listener);
}
#[cfg(feature = "tokio")]
{
let listener = listen_twice::<tokio::Tcp>(addr);
let rt = ::tokio::runtime::Builder::new_current_thread()
.enable_io()
.build()
.unwrap();
rt.block_on(listener);
}
}
test("/ip4/127.0.0.1/tcp/0".parse().unwrap());
}
#[test]
fn listen_port_0() {
env_logger::try_init().ok();
async fn listen<T: Provider>(addr: Multiaddr) -> Multiaddr {
let mut tcp = Transport::<T>::default().boxed();
tcp.listen_on(addr).unwrap();
tcp.select_next_some()
.await
.into_new_address()
.expect("listen address")
}
fn test(addr: Multiaddr) {
#[cfg(feature = "async-io")]
{
let new_addr = async_std::task::block_on(listen::<async_io::Tcp>(addr.clone()));
assert!(!new_addr.to_string().contains("tcp/0"));
}
#[cfg(feature = "tokio")]
{
let rt = ::tokio::runtime::Builder::new_current_thread()
.enable_io()
.build()
.unwrap();
let new_addr = rt.block_on(listen::<tokio::Tcp>(addr));
assert!(!new_addr.to_string().contains("tcp/0"));
}
}
test("/ip6/::1/tcp/0".parse().unwrap());
test("/ip4/127.0.0.1/tcp/0".parse().unwrap());
}
#[test]
fn listen_invalid_addr() {
env_logger::try_init().ok();
fn test(addr: Multiaddr) {
#[cfg(feature = "async-io")]
{
let mut tcp = async_io::Transport::default();
assert!(tcp.listen_on(addr.clone()).is_err());
}
#[cfg(feature = "tokio")]
{
let mut tcp = tokio::Transport::default();
assert!(tcp.listen_on(addr).is_err());
}
}
test("/ip4/127.0.0.1/tcp/12345/tcp/12345".parse().unwrap());
}
#[cfg(feature = "async-io")]
#[test]
fn test_address_translation_async_io() {
test_address_translation::<async_io::Transport>()
}
#[cfg(feature = "tokio")]
#[test]
fn test_address_translation_tokio() {
test_address_translation::<tokio::Transport>()
}
fn test_address_translation<T>()
where
T: Default + libp2p_core::Transport,
{
let transport = T::default();
let port = 42;
let tcp_listen_addr = Multiaddr::empty()
.with(Protocol::Ip4(Ipv4Addr::new(127, 0, 0, 1)))
.with(Protocol::Tcp(port));
let observed_ip = Ipv4Addr::new(123, 45, 67, 8);
let tcp_observed_addr = Multiaddr::empty()
.with(Protocol::Ip4(observed_ip))
.with(Protocol::Tcp(1))
.with(Protocol::P2p(PeerId::random().into()));
let translated = transport
.address_translation(&tcp_listen_addr, &tcp_observed_addr)
.unwrap();
let mut iter = translated.iter();
assert_eq!(iter.next(), Some(Protocol::Ip4(observed_ip)));
assert_eq!(iter.next(), Some(Protocol::Tcp(port)));
assert_eq!(iter.next(), None);
let quic_addr = Multiaddr::empty()
.with(Protocol::Ip4(Ipv4Addr::new(87, 65, 43, 21)))
.with(Protocol::Udp(1))
.with(Protocol::QuicV1);
assert!(transport
.address_translation(&tcp_listen_addr, &quic_addr)
.is_none());
assert!(transport
.address_translation(&quic_addr, &tcp_observed_addr)
.is_none());
}
}