lighthouse/beacon_node/lighthouse_network/src/metrics.rs

pub use lighthouse_metrics::*;

lazy_static! {
    pub static ref NAT_OPEN: Result<IntCounter> = try_create_int_counter(
        "nat_open",
        "An estimate indicating if the local node is exposed to the internet."
    );
    pub static ref ADDRESS_UPDATE_COUNT: Result<IntCounter> = try_create_int_counter(
        "libp2p_address_update_total",
        "Count of libp2p socked updated events (when our view of our IP address has changed)"
    );
    pub static ref PEERS_CONNECTED: Result<IntGauge> = try_create_int_gauge(
        "libp2p_peers",
        "Count of libp2p peers currently connected"
    );

    pub static ref PEER_CONNECT_EVENT_COUNT: Result<IntCounter> = try_create_int_counter(
        "libp2p_peer_connect_event_total",
        "Count of libp2p peer connect events (not the current number of connected peers)"
    );
    pub static ref PEER_DISCONNECT_EVENT_COUNT: Result<IntCounter> = try_create_int_counter(
        "libp2p_peer_disconnect_event_total",
        "Count of libp2p peer disconnect events"
    );
    pub static ref DISCOVERY_SENT_BYTES: Result<IntGauge> = try_create_int_gauge(
        "discovery_sent_bytes",
        "The number of bytes sent in discovery"
    );
    pub static ref DISCOVERY_RECV_BYTES: Result<IntGauge> = try_create_int_gauge(
        "discovery_recv_bytes",
        "The number of bytes received in discovery"
    );
    pub static ref DISCOVERY_QUEUE: Result<IntGauge> = try_create_int_gauge(
        "discovery_queue_size",
        "The number of discovery queries awaiting execution"
    );
    pub static ref DISCOVERY_REQS: Result<Gauge> = try_create_float_gauge(
        "discovery_requests",
        "The number of unsolicited discovery requests per second"
    );
    pub static ref DISCOVERY_SESSIONS: Result<IntGauge> = try_create_int_gauge(
        "discovery_sessions",
        "The number of active discovery sessions with peers"
    );

    pub static ref PEERS_PER_CLIENT: Result<IntGaugeVec> = try_create_int_gauge_vec(
        "libp2p_peers_per_client",
        "The connected peers via client implementation",
        &["Client"]
    );
    pub static ref FAILED_ATTESTATION_PUBLISHES_PER_SUBNET: Result<IntGaugeVec> =
        try_create_int_gauge_vec(
            "gossipsub_failed_attestation_publishes_per_subnet",
            "Failed attestation publishes per subnet",
            &["subnet"]
        );
    pub static ref FAILED_PUBLISHES_PER_MAIN_TOPIC: Result<IntGaugeVec> = try_create_int_gauge_vec(
        "gossipsub_failed_publishes_per_main_topic",
        "Failed gossip publishes",
        &["topic_hash"]
    );
    pub static ref TOTAL_RPC_ERRORS_PER_CLIENT: Result<IntCounterVec> = try_create_int_counter_vec(
        "libp2p_rpc_errors_per_client",
        "RPC errors per client",
        &["client", "rpc_error", "direction"]
    );
    pub static ref TOTAL_RPC_REQUESTS: Result<IntCounterVec> = try_create_int_counter_vec(
        "libp2p_rpc_requests_total",
        "RPC requests total",
        &["type"]
    );
    pub static ref PEER_ACTION_EVENTS_PER_CLIENT: Result<IntCounterVec> =
        try_create_int_counter_vec(
            "libp2p_peer_actions_per_client",
            "Score reports per client",
            &["client", "action", "source"]
        );
    pub static ref GOSSIP_UNACCEPTED_MESSAGES_PER_CLIENT: Result<IntCounterVec> =
        try_create_int_counter_vec(
            "gossipsub_unaccepted_messages_per_client",
            "Gossipsub messages that we did not accept, per client",
            &["client", "validation_result"]
        );

    pub static ref PEER_SCORE_DISTRIBUTION: Result<IntGaugeVec> =
        try_create_int_gauge_vec(
            "peer_score_distribution",
            "The distribution of connected peer scores",
            &["position"]
        );

    pub static ref PEER_SCORE_PER_CLIENT: Result<GaugeVec> =
        try_create_float_gauge_vec(
            "peer_score_per_client",
            "Average score per client",
            &["client"]
        );

    /*
     * Inbound/Outbound peers
     */
    /// The number of peers that dialed us.
    pub static ref NETWORK_INBOUND_PEERS: Result<IntGauge> =
        try_create_int_gauge("network_inbound_peers","The number of peers that are currently connected that have dialed us.");

    /// The number of peers that we dialed us.
    pub static ref NETWORK_OUTBOUND_PEERS: Result<IntGauge> =
        try_create_int_gauge("network_outbound_peers","The number of peers that are currently connected that we dialed.");
}

/// Checks if we consider the NAT open.
///
/// Conditions for an open NAT:
/// 1. We have 1 or more SOCKET_UPDATED messages. This occurs when discovery has a majority of
///    users reporting an external port and our ENR gets updated.
/// 2. We have 0 SOCKET_UPDATED messages (can be true if the port was correct on boot), then we
///    rely on whether we have any inbound messages. If we have no socket update messages, but
///    manage to get at least one inbound peer, we are exposed correctly.
pub fn check_nat() {
    // NAT is already deemed open.
    if NAT_OPEN.as_ref().map(|v| v.get()).unwrap_or(0) != 0 {
        return;
    }
    if ADDRESS_UPDATE_COUNT.as_ref().map(|v| v.get()).unwrap_or(0) == 0
        || NETWORK_INBOUND_PEERS.as_ref().map(|v| v.get()).unwrap_or(0) != 0_i64
    {
        inc_counter(&NAT_OPEN);
    }
}

pub fn scrape_discovery_metrics() {
    let metrics = discv5::metrics::Metrics::from(discv5::Discv5::raw_metrics());
    set_float_gauge(&DISCOVERY_REQS, metrics.unsolicited_requests_per_second);
    set_gauge(&DISCOVERY_SESSIONS, metrics.active_sessions as i64);
    set_gauge(&DISCOVERY_SENT_BYTES, metrics.bytes_sent as i64);
    set_gauge(&DISCOVERY_RECV_BYTES, metrics.bytes_recv as i64);
}