mirror of
https://github.com/0glabs/0g-storage-node.git
synced 2024-11-15 20:45:17 +00:00
509 lines
18 KiB
Rust
509 lines
18 KiB
Rust
use crate::behaviour::{Behaviour, BehaviourEvent, PeerRequestId, Request, Response};
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use crate::config::NetworkLoad;
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use crate::discovery::enr;
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use crate::multiaddr::Protocol;
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use crate::rpc::{GoodbyeReason, RPCResponseErrorCode, ReqId};
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use crate::types::{error, GossipKind};
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use crate::{EnrExt, NetworkMessage};
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use crate::{NetworkConfig, NetworkGlobals, PeerAction, ReportSource};
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use futures::prelude::*;
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use libp2p::core::{
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identity::Keypair, multiaddr::Multiaddr, muxing::StreamMuxerBox, transport::Boxed,
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};
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use libp2p::{
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bandwidth::{BandwidthLogging, BandwidthSinks},
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core, noise,
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swarm::{ConnectionLimits, SwarmBuilder, SwarmEvent},
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PeerId, Swarm, Transport,
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};
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use std::fs::File;
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use std::io::prelude::*;
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use std::pin::Pin;
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use std::sync::Arc;
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use std::time::Duration;
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use tokio::sync::mpsc::UnboundedSender;
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use crate::peer_manager::{MIN_OUTBOUND_ONLY_FACTOR, PEER_EXCESS_FACTOR, PRIORITY_PEER_EXCESS};
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pub const NETWORK_KEY_FILENAME: &str = "key";
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/// The maximum simultaneous libp2p connections per peer.
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const MAX_CONNECTIONS_PER_PEER: u32 = 1;
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/// The types of events than can be obtained from polling the libp2p service.
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///
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/// This is a subset of the events that a libp2p swarm emits.
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#[allow(clippy::large_enum_variant)]
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#[derive(Debug)]
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pub enum Libp2pEvent<AppReqId: ReqId> {
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/// A behaviour event
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Behaviour(BehaviourEvent<AppReqId>),
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/// A new listening address has been established.
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NewListenAddr(Multiaddr),
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/// We reached zero listening addresses.
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ZeroListeners,
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}
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/// The configuration and state of the libp2p components for the beacon node.
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pub struct Service<AppReqId: ReqId> {
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/// The libp2p Swarm handler.
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pub swarm: Swarm<Behaviour<AppReqId>>,
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/// The bandwidth logger for the underlying libp2p transport.
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pub bandwidth: Arc<BandwidthSinks>,
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/// This node's PeerId.
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pub local_peer_id: PeerId,
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}
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pub struct Context<'a> {
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pub config: &'a NetworkConfig,
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}
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impl<AppReqId: ReqId> Service<AppReqId> {
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pub async fn new(
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executor: task_executor::TaskExecutor,
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network_sender: UnboundedSender<NetworkMessage>,
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ctx: Context<'_>,
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) -> error::Result<(Arc<NetworkGlobals>, Keypair, Self)> {
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trace!("Libp2p Service starting");
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let config = ctx.config;
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// initialise the node's ID
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let local_keypair = load_private_key(config);
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// Create an ENR or load from disk if appropriate
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let enr = enr::build_or_load_enr(local_keypair.clone(), config)?;
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let local_peer_id = enr.peer_id();
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// set up a collection of variables accessible outside of the network crate
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let network_globals = Arc::new(NetworkGlobals::new(
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enr.clone(),
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config.libp2p_port,
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config.discovery_port,
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config
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.trusted_peers
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.iter()
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.map(|x| PeerId::from(x.clone()))
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.collect(),
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));
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// try and construct UPnP port mappings if required.
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if let Some(upnp_config) = crate::nat::UPnPConfig::from_config(config) {
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if config.upnp_enabled {
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executor.spawn_blocking(
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move || crate::nat::construct_upnp_mappings(upnp_config, network_sender),
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"UPnP",
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);
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}
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}
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info!(
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peer_id = %enr.peer_id(),
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bandwidth_config = %format!("{}-{}", config.network_load, NetworkLoad::from(config.network_load).name),
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"Libp2p Starting",
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);
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let discovery_string = if config.disable_discovery {
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"None".into()
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} else {
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config.discovery_port.to_string()
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};
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debug!(
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address = ?config.listen_address,
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tcp_port = %config.libp2p_port,
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udp_port = %discovery_string,
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"Attempting to open listening ports",
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);
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let (mut swarm, bandwidth) = {
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// Set up the transport - tcp/ws with noise and mplex
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let (transport, bandwidth) = build_transport(local_keypair.clone())
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.map_err(|e| format!("Failed to build transport: {:?}", e))?;
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// Lighthouse network behaviour
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let behaviour =
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Behaviour::new(&local_keypair.clone(), ctx, network_globals.clone()).await?;
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// use the executor for libp2p
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struct Executor(task_executor::TaskExecutor);
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impl libp2p::core::Executor for Executor {
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fn exec(&self, f: Pin<Box<dyn Future<Output = ()> + Send>>) {
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self.0.spawn(f, "libp2p");
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}
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}
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// sets up the libp2p connection limits
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let limits = ConnectionLimits::default()
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.with_max_pending_incoming(Some(5))
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.with_max_pending_outgoing(Some(16))
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.with_max_established_incoming(Some(
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(config.target_peers as f32
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* (1.0 + PEER_EXCESS_FACTOR - MIN_OUTBOUND_ONLY_FACTOR))
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.ceil() as u32,
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))
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.with_max_established_outgoing(Some(
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(config.target_peers as f32 * (1.0 + PEER_EXCESS_FACTOR)).ceil() as u32,
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))
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.with_max_established(Some(
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(config.target_peers as f32 * (1.0 + PEER_EXCESS_FACTOR + PRIORITY_PEER_EXCESS))
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.ceil() as u32,
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))
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.with_max_established_per_peer(Some(MAX_CONNECTIONS_PER_PEER));
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(
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SwarmBuilder::new(transport, behaviour, local_peer_id)
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.notify_handler_buffer_size(std::num::NonZeroUsize::new(7).expect("Not zero"))
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.connection_event_buffer_size(64)
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.connection_limits(limits)
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.executor(Box::new(Executor(executor)))
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.build(),
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bandwidth,
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)
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};
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// listen on the specified address
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let listen_multiaddr = {
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let mut m = Multiaddr::from(config.listen_address);
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m.push(Protocol::Tcp(config.libp2p_port));
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m
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};
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match Swarm::listen_on(&mut swarm, listen_multiaddr.clone()) {
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Ok(_) => {
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let mut log_address = listen_multiaddr;
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log_address.push(Protocol::P2p(local_peer_id.into()));
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info!(address = %log_address, "Listening established");
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}
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Err(err) => {
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error!(
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error = ?err,
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listen_multiaddr = %listen_multiaddr,
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"Unable to listen on libp2p address",
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);
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return Err("Libp2p was unable to listen on the given listen address.".into());
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}
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};
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// helper closure for dialing peers
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let mut dial = |multiaddr: Multiaddr| {
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// strip the p2p protocol if it exists
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match Swarm::dial(&mut swarm, multiaddr.clone()) {
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Ok(()) => debug!(address = %multiaddr, "Dialing libp2p peer"),
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Err(err) => {
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debug!(address = %multiaddr, error = ?err, "Could not connect to peer")
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}
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};
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};
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// attempt to connect to user-input libp2p nodes
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for multiaddr in &config.libp2p_nodes {
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dial(multiaddr.clone());
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}
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// attempt to connect to any specified boot-nodes
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let mut boot_nodes = config.boot_nodes_enr.clone();
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boot_nodes.dedup();
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for bootnode_enr in boot_nodes {
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for multiaddr in &bootnode_enr.multiaddr() {
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// ignore udp multiaddr if it exists
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let components = multiaddr.iter().collect::<Vec<_>>();
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if let Protocol::Udp(_) = components[1] {
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continue;
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}
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if !network_globals
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.peers
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.read()
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.is_connected_or_dialing(&bootnode_enr.peer_id())
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{
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dial(multiaddr.clone());
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}
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}
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}
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for multiaddr in &config.boot_nodes_multiaddr {
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// check TCP support for dialing
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if multiaddr
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.iter()
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.any(|proto| matches!(proto, Protocol::Tcp(_)))
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{
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dial(multiaddr.clone());
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}
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}
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let mut subscribed_topics: Vec<GossipKind> = vec![];
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// for topic_kind in &config.topics {
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// if swarm.behaviour_mut().subscribe_kind(topic_kind.clone()) {
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// subscribed_topics.push(topic_kind.clone());
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// } else {
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// warn!(topic = ?topic_kind, "Could not subscribe to topic");
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// }
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// }
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for topic_kind in &crate::types::CORE_TOPICS {
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if swarm.behaviour_mut().subscribe_kind(topic_kind.clone()) {
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subscribed_topics.push(topic_kind.clone());
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} else {
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warn!(topic = ?topic_kind, "Could not subscribe to topic");
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}
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}
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if !subscribed_topics.is_empty() {
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info!(topics = ?subscribed_topics, "Subscribed to topics");
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}
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let service = Service {
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swarm,
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bandwidth,
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local_peer_id,
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};
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Ok((network_globals, local_keypair, service))
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}
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/// Sends a request to a peer, with a given Id.
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pub fn send_request(&mut self, peer_id: PeerId, request_id: AppReqId, request: Request) {
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self.swarm
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.behaviour_mut()
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.send_request(peer_id, request_id, request);
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}
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/// Informs the peer that their request failed.
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pub fn respond_with_error(
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&mut self,
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peer_id: PeerId,
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id: PeerRequestId,
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error: RPCResponseErrorCode,
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reason: String,
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) {
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self.swarm
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.behaviour_mut()
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.send_error_reponse(peer_id, id, error, reason);
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}
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/// Report a peer's action.
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pub fn report_peer(
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&mut self,
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peer_id: &PeerId,
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action: PeerAction,
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source: ReportSource,
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msg: &'static str,
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) {
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self.swarm
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.behaviour_mut()
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.peer_manager_mut()
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.report_peer(peer_id, action, source, None, msg);
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}
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/// Disconnect and ban a peer, providing a reason.
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pub fn goodbye_peer(&mut self, peer_id: &PeerId, reason: GoodbyeReason, source: ReportSource) {
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self.swarm
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.behaviour_mut()
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.goodbye_peer(peer_id, reason, source);
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}
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/// Sends a response to a peer's request.
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pub fn send_response(&mut self, peer_id: PeerId, id: PeerRequestId, response: Response) {
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self.swarm
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.behaviour_mut()
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.send_successful_response(peer_id, id, response);
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}
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pub async fn next_event(&mut self) -> Libp2pEvent<AppReqId> {
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loop {
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match self.swarm.select_next_some().await {
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SwarmEvent::Behaviour(behaviour) => {
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// Handle banning here
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match &behaviour {
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BehaviourEvent::PeerBanned(peer_id) => {
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self.swarm.ban_peer_id(*peer_id);
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}
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BehaviourEvent::PeerUnbanned(peer_id) => {
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self.swarm.unban_peer_id(*peer_id);
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}
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_ => {}
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}
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return Libp2pEvent::Behaviour(behaviour);
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}
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SwarmEvent::ConnectionEstablished {
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peer_id: _,
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endpoint: _,
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num_established: _,
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concurrent_dial_errors: _,
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} => {}
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SwarmEvent::ConnectionClosed {
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peer_id: _,
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cause: _,
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endpoint: _,
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num_established: _,
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} => {}
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SwarmEvent::NewListenAddr { address, .. } => {
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return Libp2pEvent::NewListenAddr(address)
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}
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SwarmEvent::IncomingConnection {
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local_addr,
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send_back_addr,
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} => {
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trace!(our_addr = %local_addr, from = %send_back_addr, "Incoming connection")
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}
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SwarmEvent::IncomingConnectionError {
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local_addr,
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send_back_addr,
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error,
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} => {
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debug!(our_addr = %local_addr, from = %send_back_addr, error = %error, "Failed incoming connection");
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}
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SwarmEvent::BannedPeer { peer_id, .. } => {
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debug!(peer_id = %peer_id, "Banned peer connection rejected");
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}
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SwarmEvent::OutgoingConnectionError { peer_id, error } => {
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debug!(peer_id = ?peer_id, error = %error, "Failed to dial address");
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}
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SwarmEvent::ExpiredListenAddr { address, .. } => {
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debug!(address = %address, "Listen address expired")
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}
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SwarmEvent::ListenerClosed {
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addresses, reason, ..
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} => {
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error!(addresses = ?addresses, reason = ?reason, "Listener closed");
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if Swarm::listeners(&self.swarm).count() == 0 {
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return Libp2pEvent::ZeroListeners;
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}
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}
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SwarmEvent::ListenerError { error, .. } => {
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// this is non fatal, but we still check
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warn!(error = ?error, "Listener error");
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if Swarm::listeners(&self.swarm).count() == 0 {
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return Libp2pEvent::ZeroListeners;
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}
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}
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SwarmEvent::Dialing(_peer_id) => {}
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}
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}
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}
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}
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type BoxedTransport = Boxed<(PeerId, StreamMuxerBox)>;
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/// The implementation supports TCP/IP, WebSockets over TCP/IP, noise as the encryption layer, and
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/// mplex as the multiplexing layer.
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fn build_transport(
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local_private_key: Keypair,
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) -> std::io::Result<(BoxedTransport, Arc<BandwidthSinks>)> {
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let tcp = libp2p::tcp::TokioTcpConfig::new().nodelay(true);
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let transport = libp2p::dns::TokioDnsConfig::system(tcp)?;
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#[cfg(feature = "libp2p-websocket")]
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let transport = {
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let trans_clone = transport.clone();
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transport.or_transport(libp2p::websocket::WsConfig::new(trans_clone))
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};
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let (transport, bandwidth) = BandwidthLogging::new(transport);
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// mplex config
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let mut mplex_config = libp2p::mplex::MplexConfig::new();
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mplex_config.set_max_buffer_size(256);
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mplex_config.set_max_buffer_behaviour(libp2p::mplex::MaxBufferBehaviour::Block);
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// yamux config
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let mut yamux_config = libp2p::yamux::YamuxConfig::default();
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yamux_config.set_window_update_mode(libp2p::yamux::WindowUpdateMode::on_read());
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// Authentication
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Ok((
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transport
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.upgrade(core::upgrade::Version::V1)
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.authenticate(generate_noise_config(&local_private_key))
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.multiplex(core::upgrade::SelectUpgrade::new(
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yamux_config,
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mplex_config,
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))
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.timeout(Duration::from_secs(10))
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.boxed(),
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bandwidth,
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))
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}
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// Useful helper functions for debugging. Currently not used in the client.
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#[allow(dead_code)]
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fn keypair_from_hex(hex_bytes: &str) -> error::Result<Keypair> {
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let hex_bytes = if let Some(stripped) = hex_bytes.strip_prefix("0x") {
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stripped.to_string()
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} else {
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hex_bytes.to_string()
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};
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hex::decode(hex_bytes)
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.map_err(|e| format!("Failed to parse p2p secret key bytes: {:?}", e).into())
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.and_then(keypair_from_bytes)
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}
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#[allow(dead_code)]
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fn keypair_from_bytes(mut bytes: Vec<u8>) -> error::Result<Keypair> {
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libp2p::core::identity::secp256k1::SecretKey::from_bytes(&mut bytes)
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.map(|secret| {
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let keypair: libp2p::core::identity::secp256k1::Keypair = secret.into();
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Keypair::Secp256k1(keypair)
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})
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.map_err(|e| format!("Unable to parse p2p secret key: {:?}", e).into())
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}
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/// Loads a private key from disk. If this fails, a new key is
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/// generated and is then saved to disk.
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///
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/// Currently only secp256k1 keys are allowed, as these are the only keys supported by discv5.
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pub fn load_private_key(config: &NetworkConfig) -> Keypair {
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// check for key from disk
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let network_key_f = config.network_dir.join(NETWORK_KEY_FILENAME);
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if let Ok(mut network_key_file) = File::open(network_key_f.clone()) {
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let mut key_bytes: Vec<u8> = Vec::with_capacity(36);
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match network_key_file.read_to_end(&mut key_bytes) {
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Err(_) => debug!("Could not read network key file"),
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Ok(_) => {
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// only accept secp256k1 keys for now
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if let Ok(secret_key) =
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libp2p::core::identity::secp256k1::SecretKey::from_bytes(&mut key_bytes)
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{
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let kp: libp2p::core::identity::secp256k1::Keypair = secret_key.into();
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debug!("Loaded network key from disk.");
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return Keypair::Secp256k1(kp);
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} else {
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debug!("Network key file is not a valid secp256k1 key");
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}
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}
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}
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}
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// if a key could not be loaded from disk, generate a new one and save it
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let local_private_key = Keypair::generate_secp256k1();
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if let Keypair::Secp256k1(key) = local_private_key.clone() {
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let _ = std::fs::create_dir_all(&config.network_dir);
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match File::create(network_key_f.clone())
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.and_then(|mut f| f.write_all(&key.secret().to_bytes()))
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{
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Ok(_) => {
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debug!("New network key generated and written to disk");
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}
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Err(e) => {
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warn!(
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|
"Could not write node key to file: {:?}. error: {}",
|
|
network_key_f, e
|
|
);
|
|
}
|
|
}
|
|
}
|
|
local_private_key
|
|
}
|
|
|
|
/// Generate authenticated XX Noise config from identity keys
|
|
fn generate_noise_config(
|
|
identity_keypair: &Keypair,
|
|
) -> noise::NoiseAuthenticated<noise::XX, noise::X25519Spec, ()> {
|
|
let static_dh_keys = noise::Keypair::<noise::X25519Spec>::new()
|
|
.into_authentic(identity_keypair)
|
|
.expect("signing can fail only once during starting a node");
|
|
noise::NoiseConfig::xx(static_dh_keys).into_authenticated()
|
|
}
|