#![cfg(test)] use libp2p::gossipsub; use lighthouse_network::service::Network as LibP2PService; use lighthouse_network::Enr; use lighthouse_network::EnrExt; use lighthouse_network::Multiaddr; use lighthouse_network::{NetworkConfig, NetworkEvent}; use slog::{debug, error, o, Drain}; use std::sync::Arc; use std::sync::Weak; use std::time::Duration; use tokio::runtime::Runtime; use types::{ ChainSpec, EnrForkId, Epoch, EthSpec, ForkContext, ForkName, Hash256, MinimalEthSpec, Slot, }; type E = MinimalEthSpec; type ReqId = usize; use tempfile::Builder as TempBuilder; /// Returns a dummy fork context pub fn fork_context(fork_name: ForkName) -> ForkContext { let mut chain_spec = E::default_spec(); let altair_fork_epoch = Epoch::new(1); let merge_fork_epoch = Epoch::new(2); let capella_fork_epoch = Epoch::new(3); chain_spec.altair_fork_epoch = Some(altair_fork_epoch); chain_spec.bellatrix_fork_epoch = Some(merge_fork_epoch); chain_spec.capella_fork_epoch = Some(capella_fork_epoch); let current_slot = match fork_name { ForkName::Base => Slot::new(0), ForkName::Altair => altair_fork_epoch.start_slot(E::slots_per_epoch()), ForkName::Merge => merge_fork_epoch.start_slot(E::slots_per_epoch()), ForkName::Capella => capella_fork_epoch.start_slot(E::slots_per_epoch()), }; ForkContext::new::(current_slot, Hash256::zero(), &chain_spec) } pub struct Libp2pInstance(LibP2PService, exit_future::Signal); impl std::ops::Deref for Libp2pInstance { type Target = LibP2PService; fn deref(&self) -> &Self::Target { &self.0 } } impl std::ops::DerefMut for Libp2pInstance { fn deref_mut(&mut self) -> &mut Self::Target { &mut self.0 } } #[allow(unused)] pub fn build_log(level: slog::Level, enabled: bool) -> slog::Logger { let decorator = slog_term::TermDecorator::new().build(); let drain = slog_term::FullFormat::new(decorator).build().fuse(); let drain = slog_async::Async::new(drain).build().fuse(); if enabled { slog::Logger::root(drain.filter_level(level).fuse(), o!()) } else { slog::Logger::root(drain.filter(|_| false).fuse(), o!()) } } pub fn build_config(mut boot_nodes: Vec) -> NetworkConfig { let mut config = NetworkConfig::default(); // Find unused ports by using the 0 port. let port = 0; let random_path: u16 = rand::random(); let path = TempBuilder::new() .prefix(&format!("libp2p_test_{}", random_path)) .tempdir() .unwrap(); config.set_ipv4_listening_address(std::net::Ipv4Addr::UNSPECIFIED, port, port, port); config.enr_address = (Some(std::net::Ipv4Addr::LOCALHOST), None); config.boot_nodes_enr.append(&mut boot_nodes); config.network_dir = path.into_path(); // Reduce gossipsub heartbeat parameters config.gs_config = gossipsub::ConfigBuilder::from(config.gs_config) .heartbeat_initial_delay(Duration::from_millis(500)) .heartbeat_interval(Duration::from_millis(500)) .build() .unwrap(); config } pub async fn build_libp2p_instance( rt: Weak, boot_nodes: Vec, log: slog::Logger, fork_name: ForkName, spec: &ChainSpec, ) -> Libp2pInstance { let config = build_config(boot_nodes); // launch libp2p service let (signal, exit) = exit_future::signal(); let (shutdown_tx, _) = futures::channel::mpsc::channel(1); let executor = task_executor::TaskExecutor::new(rt, exit, log.clone(), shutdown_tx); let libp2p_context = lighthouse_network::Context { config: &config, enr_fork_id: EnrForkId::default(), fork_context: Arc::new(fork_context(fork_name)), chain_spec: spec, gossipsub_registry: None, }; Libp2pInstance( LibP2PService::new(executor, libp2p_context, &log) .await .expect("should build libp2p instance") .0, signal, ) } #[allow(dead_code)] pub fn get_enr(node: &LibP2PService) -> Enr { node.local_enr() } // Protocol for the node pair connection. pub enum Protocol { Tcp, Quic, } // Constructs a pair of nodes with separate loggers. The sender dials the receiver. // This returns a (sender, receiver) pair. #[allow(dead_code)] pub async fn build_node_pair( rt: Weak, log: &slog::Logger, fork_name: ForkName, spec: &ChainSpec, protocol: Protocol, ) -> (Libp2pInstance, Libp2pInstance) { let sender_log = log.new(o!("who" => "sender")); let receiver_log = log.new(o!("who" => "receiver")); let mut sender = build_libp2p_instance(rt.clone(), vec![], sender_log, fork_name, spec).await; let mut receiver = build_libp2p_instance(rt, vec![], receiver_log, fork_name, spec).await; // let the two nodes set up listeners let sender_fut = async { loop { if let NetworkEvent::NewListenAddr(addr) = sender.next_event().await { // Only end once we've listened on the protocol we care about match protocol { Protocol::Tcp => { if addr.iter().any(|multiaddr_proto| { matches!(multiaddr_proto, libp2p::multiaddr::Protocol::Tcp(_)) }) { return addr; } } Protocol::Quic => { if addr.iter().any(|multiaddr_proto| { matches!(multiaddr_proto, libp2p::multiaddr::Protocol::QuicV1) }) { return addr; } } } } } }; let receiver_fut = async { loop { if let NetworkEvent::NewListenAddr(addr) = receiver.next_event().await { match protocol { Protocol::Tcp => { if addr.iter().any(|multiaddr_proto| { matches!(multiaddr_proto, libp2p::multiaddr::Protocol::Tcp(_)) }) { return addr; } } Protocol::Quic => { if addr.iter().any(|multiaddr_proto| { matches!(multiaddr_proto, libp2p::multiaddr::Protocol::QuicV1) }) { return addr; } } } } } }; let joined = futures::future::join(sender_fut, receiver_fut); let receiver_multiaddr = joined.await.1; match sender.testing_dial(receiver_multiaddr.clone()) { Ok(()) => { debug!(log, "Sender dialed receiver"; "address" => format!("{:?}", receiver_multiaddr)) } Err(_) => error!(log, "Dialing failed"), }; (sender, receiver) } // Returns `n` peers in a linear topology #[allow(dead_code)] pub async fn build_linear( rt: Weak, log: slog::Logger, n: usize, fork_name: ForkName, spec: &ChainSpec, ) -> Vec { let mut nodes = Vec::with_capacity(n); for _ in 0..n { nodes.push(build_libp2p_instance(rt.clone(), vec![], log.clone(), fork_name, spec).await); } let multiaddrs: Vec = nodes .iter() .map(|x| get_enr(x).multiaddr()[1].clone()) .collect(); for i in 0..n - 1 { match nodes[i].testing_dial(multiaddrs[i + 1].clone()) { Ok(()) => debug!(log, "Connected"), Err(_) => error!(log, "Failed to connect"), }; } nodes }