//! This file contains a test for a handshake with monerod but uses fragmented messages. use std::{ net::SocketAddr, pin::Pin, sync::Arc, task::{Context, Poll}, time::Duration, }; use futures::{Stream, StreamExt}; use tokio::{ net::{ tcp::{OwnedReadHalf, OwnedWriteHalf}, TcpListener, TcpStream, }, sync::{broadcast, Semaphore}, time::timeout, }; use tokio_util::{ bytes::BytesMut, codec::{Encoder, FramedRead, FramedWrite}, }; use tower::{Service, ServiceExt}; use cuprate_helper::network::Network; use monero_p2p::{ client::{ConnectRequest, Connector, DoHandshakeRequest, HandShaker, InternalPeerID}, network_zones::ClearNetServerCfg, ConnectionDirection, NetworkZone, }; use monero_wire::{ common::PeerSupportFlags, levin::{message::make_fragmented_messages, LevinMessage, Protocol}, BasicNodeData, Message, MoneroWireCodec, }; use cuprate_test_utils::monerod::monerod; mod utils; use utils::*; /// A network zone equal to clear net where every message sent is turned into a fragmented message. /// Does not support sending fragmented or dummy messages manually. #[derive(Clone, Copy)] pub enum FragNet {} #[async_trait::async_trait] impl NetworkZone for FragNet { const NAME: &'static str = "FragNet"; const ALLOW_SYNC: bool = true; const DANDELION_PP: bool = true; const CHECK_NODE_ID: bool = true; type Addr = SocketAddr; type Stream = FramedRead; type Sink = FramedWrite; type Listener = InBoundStream; type ServerCfg = ClearNetServerCfg; async fn connect_to_peer( addr: Self::Addr, ) -> Result<(Self::Stream, Self::Sink), std::io::Error> { let (read, write) = TcpStream::connect(addr).await?.into_split(); Ok(( FramedRead::new(read, MoneroWireCodec::default()), FramedWrite::new(write, FragmentCodec::default()), )) } async fn incoming_connection_listener( config: Self::ServerCfg, ) -> Result { let listener = TcpListener::bind(config.addr).await?; Ok(InBoundStream { listener }) } } pub struct InBoundStream { listener: TcpListener, } impl Stream for InBoundStream { type Item = Result< ( Option, FramedRead, FramedWrite, ), std::io::Error, >; fn poll_next(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll> { self.listener .poll_accept(cx) .map_ok(|(stream, addr)| { let (read, write) = stream.into_split(); ( Some(addr), FramedRead::new(read, MoneroWireCodec::default()), FramedWrite::new(write, FragmentCodec::default()), ) }) .map(Some) } } #[derive(Default)] pub struct FragmentCodec(MoneroWireCodec); impl Encoder> for FragmentCodec { type Error = >>::Error; fn encode( &mut self, item: LevinMessage, dst: &mut BytesMut, ) -> Result<(), Self::Error> { match item { LevinMessage::Body(body) => { // 66 is the minimum fragment size. let fragments = make_fragmented_messages(&Protocol::default(), 66, body).unwrap(); for frag in fragments { self.0.encode(frag.into(), dst)?; } } _ => unreachable!("Handshakes should only send bucket bodys"), } Ok(()) } } #[tokio::test] async fn fragmented_handshake_cuprate_to_monerod() { let (broadcast_tx, _) = broadcast::channel(1); // this isn't actually used in this test. let semaphore = Arc::new(Semaphore::new(10)); let permit = semaphore.acquire_owned().await.unwrap(); let monerod = monerod(["--fixed-difficulty=1", "--out-peers=0"]).await; let our_basic_node_data = BasicNodeData { my_port: 0, network_id: Network::Mainnet.network_id().into(), peer_id: 87980, support_flags: PeerSupportFlags::from(1_u32), rpc_port: 0, rpc_credits_per_hash: 0, }; let handshaker = HandShaker::::new( DummyAddressBook, DummyCoreSyncSvc, DummyPeerRequestHandlerSvc, broadcast_tx, our_basic_node_data, ); let mut connector = Connector::new(handshaker); connector .ready() .await .unwrap() .call(ConnectRequest { addr: monerod.p2p_addr(), permit, }) .await .unwrap(); } #[tokio::test] async fn fragmented_handshake_monerod_to_cuprate() { let (broadcast_tx, _) = broadcast::channel(1); // this isn't actually used in this test. let semaphore = Arc::new(Semaphore::new(10)); let permit = semaphore.acquire_owned().await.unwrap(); let our_basic_node_data = BasicNodeData { my_port: 18081, network_id: Network::Mainnet.network_id().into(), peer_id: 87980, support_flags: PeerSupportFlags::from(1_u32), rpc_port: 0, rpc_credits_per_hash: 0, }; let mut handshaker = HandShaker::::new( DummyAddressBook, DummyCoreSyncSvc, DummyPeerRequestHandlerSvc, broadcast_tx, our_basic_node_data, ); let addr = "127.0.0.1:18081".parse().unwrap(); let mut listener = FragNet::incoming_connection_listener(ClearNetServerCfg { addr }) .await .unwrap(); let _monerod = monerod(["--add-exclusive-node=127.0.0.1:18081"]).await; // Put a timeout on this just in case monerod doesn't make the connection to us. let next_connection_fut = timeout(Duration::from_secs(30), listener.next()); if let Some(Ok((addr, stream, sink))) = next_connection_fut.await.unwrap() { let _ = handshaker .ready() .await .unwrap() .call(DoHandshakeRequest { addr: InternalPeerID::KnownAddr(addr.unwrap()), // This is clear net all addresses are known. peer_stream: stream, peer_sink: sink, direction: ConnectionDirection::InBound, permit, }) .await .unwrap(); } else { panic!("Failed to receive connection from monerod."); }; }