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// Copyright 2018 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. use crate::{SERVICE_NAME, META_QUERY_SERVICE, dns}; use dns_parser::{Packet, RData}; use either::Either::{Left, Right}; use futures::{future, prelude::*}; use libp2p_core::{multiaddr::{Multiaddr, Protocol}, PeerId}; use std::{convert::TryFrom as _, fmt, io, net::Ipv4Addr, net::SocketAddr, str, time::{Duration, Instant}}; use wasm_timer::Interval; use lazy_static::lazy_static; pub use dns::{MdnsResponseError, build_query_response, build_service_discovery_response}; lazy_static! { static ref IPV4_MDNS_MULTICAST_ADDRESS: SocketAddr = SocketAddr::from(( Ipv4Addr::new(224, 0, 0, 251), 5353, )); } macro_rules! codegen { ($feature_name:expr, $service_name:ident, $udp_socket:ty, $udp_socket_from_std:tt) => { /// A running service that discovers libp2p peers and responds to other libp2p peers' queries on /// the local network. /// /// # Usage /// /// In order to use mDNS to discover peers on the local network, use the `MdnsService`. This is /// done by creating a `MdnsService` then polling it in the same way as you would poll a stream. /// /// Polling the `MdnsService` can produce either an `MdnsQuery`, corresponding to an mDNS query /// received by another node on the local network, or an `MdnsResponse` corresponding to a response /// to a query previously emitted locally. The `MdnsService` will automatically produce queries, /// which means that you will receive responses automatically. /// /// When you receive an `MdnsQuery`, use the `respond` method to send back an answer to the node /// that emitted the query. /// /// When you receive an `MdnsResponse`, use the provided methods to query the information received /// in the response. /// /// # Example /// /// ```rust /// # use futures::prelude::*; /// # use futures::executor::block_on; /// # use libp2p_core::{identity, Multiaddr, PeerId}; /// # use libp2p_mdns::service::{MdnsPacket, build_query_response, build_service_discovery_response}; /// # use std::{io, time::Duration, task::Poll}; /// # fn main() { /// # let my_peer_id = PeerId::from(identity::Keypair::generate_ed25519().public()); /// # let my_listened_addrs: Vec<Multiaddr> = vec![]; /// # async { /// # #[cfg(feature = "async-std")] /// # let mut service = libp2p_mdns::service::MdnsService::new().unwrap(); /// # #[cfg(feature = "tokio")] /// # let mut service = libp2p_mdns::service::TokioMdnsService::new().unwrap(); /// let _future_to_poll = async { /// let (mut service, packet) = service.next().await; /// /// match packet { /// MdnsPacket::Query(query) => { /// println!("Query from {:?}", query.remote_addr()); /// let resp = build_query_response( /// query.query_id(), /// my_peer_id.clone(), /// vec![].into_iter(), /// Duration::from_secs(120), /// ).unwrap(); /// service.enqueue_response(resp); /// } /// MdnsPacket::Response(response) => { /// for peer in response.discovered_peers() { /// println!("Discovered peer {:?}", peer.id()); /// for addr in peer.addresses() { /// println!("Address = {:?}", addr); /// } /// } /// } /// MdnsPacket::ServiceDiscovery(disc) => { /// let resp = build_service_discovery_response( /// disc.query_id(), /// Duration::from_secs(120), /// ); /// service.enqueue_response(resp); /// } /// } /// }; /// # }; /// # } #[cfg_attr(docsrs, doc(cfg(feature = $feature_name)))] pub struct $service_name { /// Main socket for listening. socket: $udp_socket, /// Socket for sending queries on the network. query_socket: $udp_socket, /// Interval for sending queries. query_interval: Interval, /// Whether we send queries on the network at all. /// Note that we still need to have an interval for querying, as we need to wake up the socket /// regularly to recover from errors. Otherwise we could simply use an `Option<Interval>`. silent: bool, /// Buffer used for receiving data from the main socket. recv_buffer: [u8; 2048], /// Buffers pending to send on the main socket. send_buffers: Vec<Vec<u8>>, /// Buffers pending to send on the query socket. query_send_buffers: Vec<Vec<u8>>, } impl $service_name { /// Starts a new mDNS service. pub fn new() -> io::Result<$service_name> { Self::new_inner(false) } /// Same as `new`, but we don't automatically send queries on the network. pub fn silent() -> io::Result<$service_name> { Self::new_inner(true) } /// Starts a new mDNS service. fn new_inner(silent: bool) -> io::Result<$service_name> { let std_socket = { #[cfg(unix)] fn platform_specific(s: &net2::UdpBuilder) -> io::Result<()> { net2::unix::UnixUdpBuilderExt::reuse_port(s, true)?; Ok(()) } #[cfg(not(unix))] fn platform_specific(_: &net2::UdpBuilder) -> io::Result<()> { Ok(()) } let builder = net2::UdpBuilder::new_v4()?; builder.reuse_address(true)?; platform_specific(&builder)?; builder.bind(("0.0.0.0", 5353))? }; let socket = $udp_socket_from_std(std_socket)?; // Given that we pass an IP address to bind, which does not need to be resolved, we can // use std::net::UdpSocket::bind, instead of its async counterpart from async-std. let query_socket = $udp_socket_from_std( std::net::UdpSocket::bind((Ipv4Addr::from([0u8, 0, 0, 0]), 0u16))?, )?; socket.set_multicast_loop_v4(true)?; socket.set_multicast_ttl_v4(255)?; // TODO: correct interfaces? socket.join_multicast_v4(From::from([224, 0, 0, 251]), Ipv4Addr::UNSPECIFIED)?; Ok($service_name { socket, query_socket, query_interval: Interval::new_at(Instant::now(), Duration::from_secs(20)), silent, recv_buffer: [0; 2048], send_buffers: Vec::new(), query_send_buffers: Vec::new(), }) } pub fn enqueue_response(&mut self, rsp: Vec<u8>) { self.send_buffers.push(rsp); } /// Returns a future resolving to itself and the next received `MdnsPacket`. // // **Note**: Why does `next` take ownership of itself? // // `MdnsService::next` needs to be called from within `NetworkBehaviour` // implementations. Given that traits cannot have async methods the // respective `NetworkBehaviour` implementation needs to somehow keep the // Future returned by `MdnsService::next` across classic `poll` // invocations. The instance method `next` can either take a reference or // ownership of itself: // // 1. Taking a reference - If `MdnsService::poll` takes a reference to // `&self` the respective `NetworkBehaviour` implementation would need to // keep both the Future as well as its `MdnsService` instance across poll // invocations. Given that in this case the Future would have a reference // to `MdnsService`, the `NetworkBehaviour` implementation struct would // need to be self-referential which is not possible without unsafe code in // Rust. // // 2. Taking ownership - Instead `MdnsService::next` takes ownership of // self and returns it alongside an `MdnsPacket` once the actual future // resolves, not forcing self-referential structures on the caller. pub async fn next(mut self) -> (Self, MdnsPacket) { loop { // Flush the send buffer of the main socket. while !self.send_buffers.is_empty() { let to_send = self.send_buffers.remove(0); match self.socket.send_to(&to_send, *IPV4_MDNS_MULTICAST_ADDRESS).await { Ok(bytes_written) => { debug_assert_eq!(bytes_written, to_send.len()); } Err(_) => { // Errors are non-fatal because they can happen for example if we lose // connection to the network. self.send_buffers.clear(); break; } } } // Flush the query send buffer. while !self.query_send_buffers.is_empty() { let to_send = self.query_send_buffers.remove(0); match self.query_socket.send_to(&to_send, *IPV4_MDNS_MULTICAST_ADDRESS).await { Ok(bytes_written) => { debug_assert_eq!(bytes_written, to_send.len()); } Err(_) => { // Errors are non-fatal because they can happen for example if we lose // connection to the network. self.query_send_buffers.clear(); break; } } } // Either (left) listen for incoming packets or (right) send query packets whenever the // query interval fires. let selected_output = match futures::future::select( Box::pin(self.socket.recv_from(&mut self.recv_buffer)), Box::pin(self.query_interval.next()), ).await { future::Either::Left((recved, _)) => Left(recved), future::Either::Right(_) => Right(()), }; match selected_output { Left(left) => match left { Ok((len, from)) => { match MdnsPacket::new_from_bytes(&self.recv_buffer[..len], from) { Some(packet) => return (self, packet), None => {}, } }, Err(_) => { // Errors are non-fatal and can happen if we get disconnected from the network. // The query interval will wake up the task at some point so that we can try again. }, }, Right(_) => { // Ensure underlying task is woken up on the next interval tick. while let Some(_) = self.query_interval.next().now_or_never() {}; if !self.silent { let query = dns::build_query(); self.query_send_buffers.push(query.to_vec()); } } }; } } } impl fmt::Debug for $service_name { fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result { fmt.debug_struct("$service_name") .field("silent", &self.silent) .finish() } } }; } #[cfg(feature = "async-std")] codegen!("async-std", MdnsService, async_std::net::UdpSocket, (|socket| Ok::<_, std::io::Error>(async_std::net::UdpSocket::from(socket)))); #[cfg(feature = "tokio")] codegen!("tokio", TokioMdnsService, tokio::net::UdpSocket, (|socket| tokio::net::UdpSocket::from_std(socket))); /// A valid mDNS packet received by the service. #[derive(Debug)] pub enum MdnsPacket { /// A query made by a remote. Query(MdnsQuery), /// A response sent by a remote in response to one of our queries. Response(MdnsResponse), /// A request for service discovery. ServiceDiscovery(MdnsServiceDiscovery), } impl MdnsPacket { fn new_from_bytes(buf: &[u8], from: SocketAddr) -> Option<MdnsPacket> { match Packet::parse(buf) { Ok(packet) => { if packet.header.query { if packet .questions .iter() .any(|q| q.qname.to_string().as_bytes() == SERVICE_NAME) { let query = MdnsPacket::Query(MdnsQuery { from, query_id: packet.header.id, }); return Some(query); } else if packet .questions .iter() .any(|q| q.qname.to_string().as_bytes() == META_QUERY_SERVICE) { // TODO: what if multiple questions, one with SERVICE_NAME and one with META_QUERY_SERVICE? let discovery = MdnsPacket::ServiceDiscovery( MdnsServiceDiscovery { from, query_id: packet.header.id, }, ); return Some(discovery); } else { return None; } } else { let resp = MdnsPacket::Response(MdnsResponse::new ( packet, from, )); return Some(resp); } } Err(_) => { return None; } } } } /// A received mDNS query. pub struct MdnsQuery { /// Sender of the address. from: SocketAddr, /// Id of the received DNS query. We need to pass this ID back in the results. query_id: u16, } impl MdnsQuery { /// Source address of the packet. pub fn remote_addr(&self) -> &SocketAddr { &self.from } /// Query id of the packet. pub fn query_id(&self) -> u16 { self.query_id } } impl fmt::Debug for MdnsQuery { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.debug_struct("MdnsQuery") .field("from", self.remote_addr()) .field("query_id", &self.query_id) .finish() } } /// A received mDNS service discovery query. pub struct MdnsServiceDiscovery { /// Sender of the address. from: SocketAddr, /// Id of the received DNS query. We need to pass this ID back in the results. query_id: u16, } impl MdnsServiceDiscovery { /// Source address of the packet. pub fn remote_addr(&self) -> &SocketAddr { &self.from } /// Query id of the packet. pub fn query_id(&self) -> u16 { self.query_id } } impl fmt::Debug for MdnsServiceDiscovery { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.debug_struct("MdnsServiceDiscovery") .field("from", self.remote_addr()) .field("query_id", &self.query_id) .finish() } } /// A received mDNS response. pub struct MdnsResponse { peers: Vec<MdnsPeer>, from: SocketAddr, } impl MdnsResponse { /// Creates a new `MdnsResponse` based on the provided `Packet`. fn new(packet: Packet<'_>, from: SocketAddr) -> MdnsResponse { let peers = packet.answers.iter().filter_map(|record| { if record.name.to_string().as_bytes() != SERVICE_NAME { return None; } let record_value = match record.data { RData::PTR(record) => record.0.to_string(), _ => return None, }; let mut peer_name = match record_value.rsplitn(4, |c| c == '.').last() { Some(n) => n.to_owned(), None => return None, }; // if we have a segmented name, remove the '.' peer_name.retain(|c| c != '.'); let peer_id = match data_encoding::BASE32_DNSCURVE.decode(peer_name.as_bytes()) { Ok(bytes) => match PeerId::from_bytes(bytes) { Ok(id) => id, Err(_) => return None, }, Err(_) => return None, }; Some(MdnsPeer::new ( &packet, record_value, peer_id, record.ttl, )) }).collect(); MdnsResponse { peers, from, } } /// Returns the list of peers that have been reported in this packet. /// /// > **Note**: Keep in mind that this will also contain the responses we sent ourselves. pub fn discovered_peers(&self) -> impl Iterator<Item = &MdnsPeer> { self.peers.iter() } /// Source address of the packet. #[inline] pub fn remote_addr(&self) -> &SocketAddr { &self.from } } impl fmt::Debug for MdnsResponse { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.debug_struct("MdnsResponse") .field("from", self.remote_addr()) .finish() } } /// A peer discovered by the service. pub struct MdnsPeer { addrs: Vec<Multiaddr>, /// Id of the peer. peer_id: PeerId, /// TTL of the record in seconds. ttl: u32, } impl MdnsPeer { /// Creates a new `MdnsPeer` based on the provided `Packet`. pub fn new(packet: &Packet<'_>, record_value: String, my_peer_id: PeerId, ttl: u32) -> MdnsPeer { let addrs = packet .additional .iter() .filter_map(|add_record| { if add_record.name.to_string() != record_value { return None; } if let RData::TXT(ref txt) = add_record.data { Some(txt) } else { None } }) .flat_map(|txt| txt.iter()) .filter_map(|txt| { // TODO: wrong, txt can be multiple character strings let addr = match dns::decode_character_string(txt) { Ok(a) => a, Err(_) => return None, }; if !addr.starts_with(b"dnsaddr=") { return None; } let addr = match str::from_utf8(&addr[8..]) { Ok(a) => a, Err(_) => return None, }; let mut addr = match addr.parse::<Multiaddr>() { Ok(a) => a, Err(_) => return None, }; match addr.pop() { Some(Protocol::P2p(peer_id)) => { if let Ok(peer_id) = PeerId::try_from(peer_id) { if peer_id != my_peer_id { return None; } } else { return None; } }, _ => return None, }; Some(addr) }).collect(); MdnsPeer { addrs, peer_id: my_peer_id.clone(), ttl, } } /// Returns the id of the peer. #[inline] pub fn id(&self) -> &PeerId { &self.peer_id } /// Returns the requested time-to-live for the record. #[inline] pub fn ttl(&self) -> Duration { Duration::from_secs(u64::from(self.ttl)) } /// Returns the list of addresses the peer says it is listening on. /// /// Filters out invalid addresses. pub fn addresses(&self) -> &Vec<Multiaddr> { &self.addrs } } impl fmt::Debug for MdnsPeer { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.debug_struct("MdnsPeer") .field("peer_id", &self.peer_id) .finish() } } #[cfg(test)] mod tests { macro_rules! testgen { ($runtime_name:ident, $service_name:ty, $block_on_fn:tt) => { mod $runtime_name { use libp2p_core::{PeerId, multiaddr::multihash}; use std::time::Duration; use crate::service::MdnsPacket; fn discover(peer_id: PeerId) { let fut = async { let mut service = <$service_name>::new().unwrap(); loop { let next = service.next().await; service = next.0; match next.1 { MdnsPacket::Query(query) => { let resp = crate::dns::build_query_response( query.query_id(), peer_id.clone(), vec![].into_iter(), Duration::from_secs(120), ).unwrap(); service.enqueue_response(resp); } MdnsPacket::Response(response) => { for peer in response.discovered_peers() { if peer.id() == &peer_id { return; } } } MdnsPacket::ServiceDiscovery(_) => panic!( "did not expect a service discovery packet", ) } } }; $block_on_fn(Box::pin(fut)); } // As of today the underlying UDP socket is not stubbed out. Thus tests run in parallel to // this unit tests inter fear with it. Test needs to be run in sequence to ensure test // properties. #[test] fn respect_query_interval() { let own_ips: Vec<std::net::IpAddr> = get_if_addrs::get_if_addrs().unwrap() .into_iter() .map(|i| i.addr.ip()) .collect(); let fut = async { let mut service = <$service_name>::new().unwrap(); let mut sent_queries = vec![]; loop { let next = service.next().await; service = next.0; match next.1 { MdnsPacket::Query(query) => { // Ignore queries from other nodes. let source_ip = query.remote_addr().ip(); if !own_ips.contains(&source_ip) { continue; } sent_queries.push(query); if sent_queries.len() > 1 { return; } } // Ignore response packets. We don't stub out the UDP socket, thus this is // either random noise from the network, or noise from other unit tests // running in parallel. MdnsPacket::Response(_) => {}, MdnsPacket::ServiceDiscovery(_) => { panic!("Did not expect a service discovery packet."); }, } } }; $block_on_fn(Box::pin(fut)); } #[test] fn discover_normal_peer_id() { discover(PeerId::random()) } #[test] fn discover_long_peer_id() { let max_value = String::from_utf8(vec![b'f'; 42]).unwrap(); let hash = multihash::Identity::digest(max_value.as_ref()); discover(PeerId::from_multihash(hash).unwrap()) } } } } #[cfg(feature = "async-std")] testgen!( async_std, crate::service::MdnsService, (|fut| async_std::task::block_on::<_, ()>(fut)) ); #[cfg(feature = "tokio")] testgen!( tokio, crate::service::TokioMdnsService, (|fut| tokio::runtime::Runtime::new().unwrap().block_on::<futures::future::BoxFuture<()>>(fut)) ); }