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https://gitlab.com/pulsechaincom/lighthouse-pulse.git
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improve libp2p connected peer metrics (#5314)
* patch rust-yamux dep * improve libp2p connected peer metrics
This commit is contained in:
parent
65c4ff0775
commit
a89ff100af
3
Cargo.lock
generated
3
Cargo.lock
generated
@ -9971,8 +9971,7 @@ dependencies = [
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[[package]]
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name = "yamux"
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version = "0.13.1"
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source = "registry+https://github.com/rust-lang/crates.io-index"
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checksum = "ad1d0148b89300047e72994bee99ecdabd15a9166a7b70c8b8c37c314dcc9002"
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source = "git+https://github.com/sigp/rust-yamux.git#6689e227a48258a52347cd1d984adfc94afc6f7a"
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dependencies = [
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"futures",
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"instant",
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@ -231,6 +231,9 @@ validator_client = { path = "validator_client" }
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validator_dir = { path = "common/validator_dir" }
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warp_utils = { path = "common/warp_utils" }
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[patch.crates-io]
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yamux = { git = "https://github.com/sigp/rust-yamux.git" }
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[profile.maxperf]
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inherits = "release"
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lto = "fat"
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@ -68,7 +68,7 @@ use std::path::PathBuf;
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use std::pin::Pin;
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use std::sync::Arc;
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use sysinfo::{System, SystemExt};
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use system_health::observe_system_health_bn;
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use system_health::{observe_nat, observe_system_health_bn};
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use task_spawner::{Priority, TaskSpawner};
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use tokio::sync::{
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mpsc::{Sender, UnboundedSender},
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@ -3965,13 +3965,7 @@ pub fn serve<T: BeaconChainTypes>(
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.and(warp::path::end())
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.then(|task_spawner: TaskSpawner<T::EthSpec>| {
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task_spawner.blocking_json_task(Priority::P1, move || {
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Ok(api_types::GenericResponse::from(
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lighthouse_network::metrics::NAT_OPEN
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.as_ref()
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.map(|v| v.get())
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.unwrap_or(0)
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!= 0,
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))
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Ok(api_types::GenericResponse::from(observe_nat()))
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})
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});
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@ -1004,7 +1004,10 @@ impl<TSpec: EthSpec> NetworkBehaviour for Discovery<TSpec> {
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discv5::Event::SocketUpdated(socket_addr) => {
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info!(self.log, "Address updated"; "ip" => %socket_addr.ip(), "udp_port" => %socket_addr.port());
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metrics::inc_counter(&metrics::ADDRESS_UPDATE_COUNT);
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metrics::check_nat();
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// We have SOCKET_UPDATED messages. This occurs when discovery has a majority of
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// users reporting an external port and our ENR gets updated.
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// Which means we are able to do NAT traversal.
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metrics::set_gauge_vec(&metrics::NAT_OPEN, &["discv5"], 1);
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// Discv5 will have updated our local ENR. We save the updated version
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// to disk.
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@ -1,9 +1,10 @@
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pub use lighthouse_metrics::*;
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lazy_static! {
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pub static ref NAT_OPEN: Result<IntCounter> = try_create_int_counter(
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pub static ref NAT_OPEN: Result<IntGaugeVec> = try_create_int_gauge_vec(
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"nat_open",
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"An estimate indicating if the local node is exposed to the internet."
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"An estimate indicating if the local node is reachable from external nodes",
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&["protocol"]
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);
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pub static ref ADDRESS_UPDATE_COUNT: Result<IntCounter> = try_create_int_counter(
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"libp2p_address_update_total",
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@ -14,6 +15,9 @@ lazy_static! {
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"Count of libp2p peers currently connected"
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);
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pub static ref PEERS_CONNECTED_MULTI: Result<IntGaugeVec> =
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try_create_int_gauge_vec("libp2p_peers_multi", "Count of libp2p peers currently connected", &["direction", "transport"]);
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pub static ref TCP_PEERS_CONNECTED: Result<IntGauge> = try_create_int_gauge(
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"libp2p_tcp_peers",
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"Count of libp2p peers currently connected via TCP"
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@ -32,13 +36,10 @@ lazy_static! {
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"libp2p_peer_disconnect_event_total",
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"Count of libp2p peer disconnect events"
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);
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pub static ref DISCOVERY_SENT_BYTES: Result<IntGauge> = try_create_int_gauge(
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"discovery_sent_bytes",
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"The number of bytes sent in discovery"
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);
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pub static ref DISCOVERY_RECV_BYTES: Result<IntGauge> = try_create_int_gauge(
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"discovery_recv_bytes",
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"The number of bytes received in discovery"
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pub static ref DISCOVERY_BYTES: Result<IntGaugeVec> = try_create_int_gauge_vec(
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"discovery_bytes",
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"The number of bytes sent and received in discovery",
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&["direction"]
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);
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pub static ref DISCOVERY_QUEUE: Result<IntGauge> = try_create_int_gauge(
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"discovery_queue_size",
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@ -135,17 +136,6 @@ lazy_static! {
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&["type"]
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);
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/*
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* Inbound/Outbound peers
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*/
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/// The number of peers that dialed us.
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pub static ref NETWORK_INBOUND_PEERS: Result<IntGauge> =
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try_create_int_gauge("network_inbound_peers","The number of peers that are currently connected that have dialed us.");
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/// The number of peers that we dialed us.
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pub static ref NETWORK_OUTBOUND_PEERS: Result<IntGauge> =
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try_create_int_gauge("network_outbound_peers","The number of peers that are currently connected that we dialed.");
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/*
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* Peer Reporting
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*/
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@ -156,31 +146,11 @@ lazy_static! {
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);
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}
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/// Checks if we consider the NAT open.
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///
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/// Conditions for an open NAT:
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/// 1. We have 1 or more SOCKET_UPDATED messages. This occurs when discovery has a majority of
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/// users reporting an external port and our ENR gets updated.
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/// 2. We have 0 SOCKET_UPDATED messages (can be true if the port was correct on boot), then we
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/// rely on whether we have any inbound messages. If we have no socket update messages, but
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/// manage to get at least one inbound peer, we are exposed correctly.
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pub fn check_nat() {
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// NAT is already deemed open.
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if NAT_OPEN.as_ref().map(|v| v.get()).unwrap_or(0) != 0 {
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return;
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}
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if ADDRESS_UPDATE_COUNT.as_ref().map(|v| v.get()).unwrap_or(0) != 0
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|| NETWORK_INBOUND_PEERS.as_ref().map(|v| v.get()).unwrap_or(0) != 0_i64
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{
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inc_counter(&NAT_OPEN);
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}
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}
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pub fn scrape_discovery_metrics() {
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let metrics =
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discv5::metrics::Metrics::from(discv5::Discv5::<discv5::DefaultProtocolId>::raw_metrics());
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set_float_gauge(&DISCOVERY_REQS, metrics.unsolicited_requests_per_second);
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set_gauge(&DISCOVERY_SESSIONS, metrics.active_sessions as i64);
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set_gauge(&DISCOVERY_SENT_BYTES, metrics.bytes_sent as i64);
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set_gauge(&DISCOVERY_RECV_BYTES, metrics.bytes_recv as i64);
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set_gauge_vec(&DISCOVERY_BYTES, &["inbound"], metrics.bytes_recv as i64);
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set_gauge_vec(&DISCOVERY_BYTES, &["outbound"], metrics.bytes_sent as i64);
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}
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@ -10,7 +10,7 @@ use delay_map::HashSetDelay;
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use discv5::Enr;
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use libp2p::identify::Info as IdentifyInfo;
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use lru_cache::LRUTimeCache;
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use peerdb::{client::ClientKind, BanOperation, BanResult, ScoreUpdateResult};
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use peerdb::{BanOperation, BanResult, ScoreUpdateResult};
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use rand::seq::SliceRandom;
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use slog::{debug, error, trace, warn};
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use smallvec::SmallVec;
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@ -18,7 +18,6 @@ use std::{
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sync::Arc,
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time::{Duration, Instant},
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};
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use strum::IntoEnumIterator;
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use types::{EthSpec, SyncSubnetId};
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pub use libp2p::core::Multiaddr;
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@ -719,46 +718,6 @@ impl<TSpec: EthSpec> PeerManager<TSpec> {
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}
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}
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// This function updates metrics for all connected peers.
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fn update_connected_peer_metrics(&self) {
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// Do nothing if we don't have metrics enabled.
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if !self.metrics_enabled {
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return;
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}
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let mut connected_peer_count = 0;
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let mut inbound_connected_peers = 0;
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let mut outbound_connected_peers = 0;
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let mut clients_per_peer = HashMap::new();
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for (_peer, peer_info) in self.network_globals.peers.read().connected_peers() {
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connected_peer_count += 1;
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if let PeerConnectionStatus::Connected { n_in, .. } = peer_info.connection_status() {
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if *n_in > 0 {
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inbound_connected_peers += 1;
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} else {
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outbound_connected_peers += 1;
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}
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}
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*clients_per_peer
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.entry(peer_info.client().kind.to_string())
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.or_default() += 1;
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}
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metrics::set_gauge(&metrics::PEERS_CONNECTED, connected_peer_count);
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metrics::set_gauge(&metrics::NETWORK_INBOUND_PEERS, inbound_connected_peers);
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metrics::set_gauge(&metrics::NETWORK_OUTBOUND_PEERS, outbound_connected_peers);
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for client_kind in ClientKind::iter() {
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let value = clients_per_peer.get(&client_kind.to_string()).unwrap_or(&0);
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metrics::set_gauge_vec(
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&metrics::PEERS_PER_CLIENT,
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&[client_kind.as_ref()],
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*value as i64,
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);
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}
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}
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/* Internal functions */
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/// Sets a peer as connected as long as their reputation allows it
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@ -154,8 +154,8 @@ impl<TSpec: EthSpec> NetworkBehaviour for PeerManager<TSpec> {
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self.on_dial_failure(peer_id);
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}
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FromSwarm::ExternalAddrConfirmed(_) => {
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// TODO: we likely want to check this against our assumed external tcp
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// address
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// We have an external address confirmed, means we are able to do NAT traversal.
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metrics::set_gauge_vec(&metrics::NAT_OPEN, &["libp2p"], 1);
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}
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_ => {
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// NOTE: FromSwarm is a non exhaustive enum so updates should be based on release
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@ -243,14 +243,15 @@ impl<TSpec: EthSpec> PeerManager<TSpec> {
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self.events.push(PeerManagerEvent::MetaData(peer_id));
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}
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// Check NAT if metrics are enabled
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if self.network_globals.local_enr.read().udp4().is_some() {
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metrics::check_nat();
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}
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// increment prometheus metrics
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if self.metrics_enabled {
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let remote_addr = endpoint.get_remote_address();
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let direction = if endpoint.is_dialer() {
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"outbound"
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} else {
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"inbound"
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};
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match remote_addr.iter().find(|proto| {
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matches!(
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proto,
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@ -258,10 +259,10 @@ impl<TSpec: EthSpec> PeerManager<TSpec> {
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)
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}) {
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Some(multiaddr::Protocol::QuicV1) => {
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metrics::inc_gauge(&metrics::QUIC_PEERS_CONNECTED);
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metrics::inc_gauge_vec(&metrics::PEERS_CONNECTED_MULTI, &[direction, "quic"]);
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}
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Some(multiaddr::Protocol::Tcp(_)) => {
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metrics::inc_gauge(&metrics::TCP_PEERS_CONNECTED);
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metrics::inc_gauge_vec(&metrics::PEERS_CONNECTED_MULTI, &[direction, "tcp"]);
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}
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Some(_) => unreachable!(),
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None => {
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@ -269,7 +270,7 @@ impl<TSpec: EthSpec> PeerManager<TSpec> {
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}
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};
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self.update_connected_peer_metrics();
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metrics::inc_gauge(&metrics::PEERS_CONNECTED);
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metrics::inc_counter(&metrics::PEER_CONNECT_EVENT_COUNT);
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}
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@ -339,6 +340,12 @@ impl<TSpec: EthSpec> PeerManager<TSpec> {
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let remote_addr = endpoint.get_remote_address();
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// Update the prometheus metrics
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if self.metrics_enabled {
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let direction = if endpoint.is_dialer() {
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"outbound"
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} else {
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"inbound"
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};
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match remote_addr.iter().find(|proto| {
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matches!(
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proto,
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@ -346,15 +353,16 @@ impl<TSpec: EthSpec> PeerManager<TSpec> {
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)
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}) {
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Some(multiaddr::Protocol::QuicV1) => {
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metrics::dec_gauge(&metrics::QUIC_PEERS_CONNECTED);
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metrics::dec_gauge_vec(&metrics::PEERS_CONNECTED_MULTI, &[direction, "quic"]);
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}
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Some(multiaddr::Protocol::Tcp(_)) => {
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metrics::dec_gauge(&metrics::TCP_PEERS_CONNECTED);
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metrics::dec_gauge_vec(&metrics::PEERS_CONNECTED_MULTI, &[direction, "tcp"]);
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}
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// If it's an unknown protocol we already logged when connection was established.
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_ => {}
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};
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self.update_connected_peer_metrics();
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// Legacy standard metrics.
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metrics::dec_gauge(&metrics::PEERS_CONNECTED);
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metrics::inc_counter(&metrics::PEER_DISCONNECT_EVENT_COUNT);
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}
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}
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@ -198,6 +198,25 @@ pub fn observe_system_health_vc(
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}
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}
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/// Observes if NAT traversal is possible.
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pub fn observe_nat() -> bool {
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let discv5_nat = lighthouse_network::metrics::get_int_gauge(
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&lighthouse_network::metrics::NAT_OPEN,
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&["discv5"],
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)
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.map(|g| g.get() == 1)
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.unwrap_or_default();
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let libp2p_nat = lighthouse_network::metrics::get_int_gauge(
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&lighthouse_network::metrics::NAT_OPEN,
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&["libp2p"],
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)
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.map(|g| g.get() == 1)
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.unwrap_or_default();
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discv5_nat && libp2p_nat
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}
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/// Observes the Beacon Node system health.
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pub fn observe_system_health_bn<TSpec: EthSpec>(
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sysinfo: Arc<RwLock<System>>,
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@ -223,11 +242,7 @@ pub fn observe_system_health_bn<TSpec: EthSpec>(
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.unwrap_or_else(|| (String::from("None"), 0, 0));
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// Determine if the NAT is open or not.
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let nat_open = lighthouse_network::metrics::NAT_OPEN
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.as_ref()
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.map(|v| v.get())
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.unwrap_or(0)
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!= 0;
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let nat_open = observe_nat();
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SystemHealthBN {
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system_health,
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