// Copyright 2019 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 futures::prelude::*; use log::debug; use quickcheck::{QuickCheck, TestResult}; use rand::{random, seq::SliceRandom, SeedableRng}; use std::{ pin::Pin, task::{Context, Poll}, time::Duration, }; use futures::StreamExt; use tet_libp2p_core::{ identity, multiaddr::Protocol, transport::MemoryTransport, upgrade, Multiaddr, Transport, }; use gossipsub::{ Gossipsub, GossipsubConfigBuilder, GossipsubEvent, IdentTopic as Topic, MessageAuthenticity, ValidationMode, }; use plaintext::PlainText2Config; use tet_libp2p_swarm::Swarm; use tet_libp2p_remux as remux; struct Graph { pub nodes: Vec<(Multiaddr, Swarm)>, } impl Future for Graph { type Output = (Multiaddr, GossipsubEvent); fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll { for (addr, node) in &mut self.nodes { match node.poll_next_unpin(cx) { Poll::Ready(Some(event)) => return Poll::Ready((addr.clone(), event)), Poll::Ready(None) => panic!("unexpected None when polling nodes"), Poll::Pending => {} } } Poll::Pending } } impl Graph { fn new_connected(num_nodes: usize, seed: u64) -> Graph { if num_nodes == 0 { panic!("expecting at least one node"); } let mut rng = rand::rngs::StdRng::seed_from_u64(seed); let mut not_connected_nodes = std::iter::once(()) .cycle() .take(num_nodes) .map(|_| build_node()) .collect::)>>(); let mut connected_nodes = vec![not_connected_nodes.pop().unwrap()]; while !not_connected_nodes.is_empty() { connected_nodes.shuffle(&mut rng); not_connected_nodes.shuffle(&mut rng); let mut next = not_connected_nodes.pop().unwrap(); let connected_addr = &connected_nodes[0].0; // Memory transport can not handle addresses with `/p2p` suffix. let mut connected_addr_no_p2p = connected_addr.clone(); let p2p_suffix_connected = connected_addr_no_p2p.pop(); debug!( "Connect: {} -> {}", next.0.clone().pop().unwrap(), p2p_suffix_connected.unwrap() ); Swarm::dial_addr(&mut next.1, connected_addr_no_p2p).unwrap(); connected_nodes.push(next); } Graph { nodes: connected_nodes, } } /// Polls the graph and passes each event into the provided FnMut until the closure returns /// `true`. /// /// Returns [`true`] on success and [`false`] on timeout. fn wait_for bool>(&mut self, mut f: F) -> bool { let fut = futures::future::poll_fn(move |cx| match self.poll_unpin(cx) { Poll::Ready((_addr, ev)) if f(&ev) => Poll::Ready(()), _ => Poll::Pending, }); let fut = async_std::future::timeout(Duration::from_secs(10), fut); futures::executor::block_on(fut).is_ok() } /// Polls the graph until Poll::Pending is obtained, completing the underlying polls. fn drain_poll(self) -> Self { // The future below should return self. Given that it is a FnMut and not a FnOnce, one needs // to wrap `self` in an Option, leaving a `None` behind after the final `Poll::Ready`. let mut this = Some(self); let fut = futures::future::poll_fn(move |cx| match &mut this { Some(graph) => loop { match graph.poll_unpin(cx) { Poll::Ready(_) => {} Poll::Pending => return Poll::Ready(this.take().unwrap()), } }, None => panic!("future called after final return"), }); let fut = async_std::future::timeout(Duration::from_secs(10), fut); futures::executor::block_on(fut).unwrap() } } fn build_node() -> (Multiaddr, Swarm) { let key = identity::Keypair::generate_ed25519(); let public_key = key.public(); let transport = MemoryTransport::default() .upgrade(upgrade::Version::V1) .authenticate(PlainText2Config { local_public_key: public_key.clone(), }) .multiplex(remux::RemuxConfig::default()) .boxed(); let peer_id = public_key.clone().into_peer_id(); // NOTE: The graph of created nodes can be disconnected from the mesh point of view as nodes // can reach their d_lo value and not add other nodes to their mesh. To speed up this test, we // reduce the default values of the heartbeat, so that all nodes will receive gossip in a // timely fashion. let config = GossipsubConfigBuilder::default() .heartbeat_initial_delay(Duration::from_millis(100)) .heartbeat_interval(Duration::from_millis(200)) .history_length(10) .history_gossip(10) .validation_mode(ValidationMode::Permissive) .build() .unwrap(); let behaviour = Gossipsub::new(MessageAuthenticity::Author(peer_id.clone()), config).unwrap(); let mut swarm = Swarm::new(transport, behaviour, peer_id); let port = 1 + random::(); let mut addr: Multiaddr = Protocol::Memory(port).into(); Swarm::listen_on(&mut swarm, addr.clone()).unwrap(); addr = addr.with(tet_libp2p_core::multiaddr::Protocol::P2p( public_key.into_peer_id().into(), )); (addr, swarm) } #[test] fn multi_hop_propagation() { let _ = env_logger::try_init(); fn prop(num_nodes: u8, seed: u64) -> TestResult { if num_nodes < 2 || num_nodes > 50 { return TestResult::discard(); } debug!("number nodes: {:?}, seed: {:?}", num_nodes, seed); let mut graph = Graph::new_connected(num_nodes as usize, seed); let number_nodes = graph.nodes.len(); // Subscribe each node to the same topic. let topic = Topic::new("test-net"); for (_addr, node) in &mut graph.nodes { node.subscribe(&topic).unwrap(); } // Wait for all nodes to be subscribed. let mut subscribed = 0; let all_subscribed = graph.wait_for(move |ev| { if let GossipsubEvent::Subscribed { .. } = ev { subscribed += 1; if subscribed == (number_nodes - 1) * 2 { return true; } } false }); if !all_subscribed { return TestResult::error(format!( "Timed out waiting for all nodes to subscribe but only have {:?}/{:?}.", subscribed, num_nodes, )); } // It can happen that the publish occurs before all grafts have completed causing this test // to fail. We drain all the poll messages before publishing. graph = graph.drain_poll(); // Publish a single message. graph.nodes[0].1.publish(topic, vec![1, 2, 3]).unwrap(); // Wait for all nodes to receive the published message. let mut received_msgs = 0; let all_received = graph.wait_for(move |ev| { if let GossipsubEvent::Message { .. } = ev { received_msgs += 1; if received_msgs == number_nodes - 1 { return true; } } false }); if !all_received { return TestResult::error(format!( "Timed out waiting for all nodes to receive the msg but only have {:?}/{:?}.", received_msgs, num_nodes, )); } TestResult::passed() } QuickCheck::new() .max_tests(5) .quickcheck(prop as fn(u8, u64) -> TestResult) }