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rust-libp2p/misc/metrics/src/swarm.rs
Thomas Eizinger ed14630672
feat: leverage type-safe /p2p in multiaddr 
This updates `multiaddr` to version `0.19`.

Depends-On: #3656.
Depends-On: https://github.com/multiformats/rust-multiaddr/pull/83.
Resolves: #4039.

Pull-Request: #4037.
2023-06-08 01:38:18 +00:00

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// Copyright 2021 Protocol Labs.
//
// 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 std::collections::HashMap;
use std::sync::{Arc, Mutex};
use crate::protocol_stack;
use instant::Instant;
use libp2p_swarm::ConnectionId;
use prometheus_client::encoding::{EncodeLabelSet, EncodeLabelValue};
use prometheus_client::metrics::counter::Counter;
use prometheus_client::metrics::family::Family;
use prometheus_client::metrics::histogram::{exponential_buckets, Histogram};
use prometheus_client::registry::{Registry, Unit};
pub(crate) struct Metrics {
connections_incoming: Family<AddressLabels, Counter>,
connections_incoming_error: Family<IncomingConnectionErrorLabels, Counter>,
connections_established: Family<ConnectionLabels, Counter>,
connections_establishment_duration: Family<ConnectionLabels, Histogram>,
connections_duration: Family<ConnectionClosedLabels, Histogram>,
new_listen_addr: Family<AddressLabels, Counter>,
expired_listen_addr: Family<AddressLabels, Counter>,
listener_closed: Family<AddressLabels, Counter>,
listener_error: Counter,
dial_attempt: Counter,
outgoing_connection_error: Family<OutgoingConnectionErrorLabels, Counter>,
connections: Arc<Mutex<HashMap<ConnectionId, Instant>>>,
}
impl Metrics {
pub(crate) fn new(registry: &mut Registry) -> Self {
let sub_registry = registry.sub_registry_with_prefix("swarm");
let connections_incoming = Family::default();
sub_registry.register(
"connections_incoming",
"Number of incoming connections per address stack",
connections_incoming.clone(),
);
let connections_incoming_error = Family::default();
sub_registry.register(
"connections_incoming_error",
"Number of incoming connection errors",
connections_incoming_error.clone(),
);
let new_listen_addr = Family::default();
sub_registry.register(
"new_listen_addr",
"Number of new listen addresses",
new_listen_addr.clone(),
);
let expired_listen_addr = Family::default();
sub_registry.register(
"expired_listen_addr",
"Number of expired listen addresses",
expired_listen_addr.clone(),
);
let listener_closed = Family::default();
sub_registry.register(
"listener_closed",
"Number of listeners closed",
listener_closed.clone(),
);
let listener_error = Counter::default();
sub_registry.register(
"listener_error",
"Number of listener errors",
listener_error.clone(),
);
let dial_attempt = Counter::default();
sub_registry.register(
"dial_attempt",
"Number of dial attempts",
dial_attempt.clone(),
);
let outgoing_connection_error = Family::default();
sub_registry.register(
"outgoing_connection_error",
"Number outgoing connection errors",
outgoing_connection_error.clone(),
);
let connections_established = Family::default();
sub_registry.register(
"connections_established",
"Number of connections established",
connections_established.clone(),
);
let connections_establishment_duration = {
let constructor: fn() -> Histogram =
|| Histogram::new(exponential_buckets(0.01, 1.5, 20));
Family::new_with_constructor(constructor)
};
sub_registry.register(
"connections_establishment_duration",
"Time it took (locally) to establish connections",
connections_establishment_duration.clone(),
);
let connections_duration = {
let constructor: fn() -> Histogram =
|| Histogram::new(exponential_buckets(0.01, 3.0, 20));
Family::new_with_constructor(constructor)
};
sub_registry.register_with_unit(
"connections_duration",
"Time a connection was alive",
Unit::Seconds,
connections_duration.clone(),
);
Self {
connections_incoming,
connections_incoming_error,
connections_established,
new_listen_addr,
expired_listen_addr,
listener_closed,
listener_error,
dial_attempt,
outgoing_connection_error,
connections_establishment_duration,
connections_duration,
connections: Default::default(),
}
}
}
impl<TBvEv, THandleErr> super::Recorder<libp2p_swarm::SwarmEvent<TBvEv, THandleErr>> for Metrics {
fn record(&self, event: &libp2p_swarm::SwarmEvent<TBvEv, THandleErr>) {
match event {
libp2p_swarm::SwarmEvent::Behaviour(_) => {}
libp2p_swarm::SwarmEvent::ConnectionEstablished {
endpoint,
established_in: time_taken,
connection_id,
..
} => {
let labels = ConnectionLabels {
role: endpoint.into(),
protocols: protocol_stack::as_string(endpoint.get_remote_address()),
};
self.connections_established.get_or_create(&labels).inc();
self.connections_establishment_duration
.get_or_create(&labels)
.observe(time_taken.as_secs_f64());
self.connections
.lock()
.expect("lock not to be poisoned")
.insert(*connection_id, Instant::now());
}
libp2p_swarm::SwarmEvent::ConnectionClosed {
endpoint,
connection_id,
cause,
..
} => {
let labels = ConnectionClosedLabels {
connection: ConnectionLabels {
role: endpoint.into(),
protocols: protocol_stack::as_string(endpoint.get_remote_address()),
},
cause: cause.as_ref().map(Into::into),
};
self.connections_duration.get_or_create(&labels).observe(
self.connections
.lock()
.expect("lock not to be poisoned")
.remove(connection_id)
.expect("closed connection to previously be established")
.elapsed()
.as_secs_f64(),
);
}
libp2p_swarm::SwarmEvent::IncomingConnection { send_back_addr, .. } => {
self.connections_incoming
.get_or_create(&AddressLabels {
protocols: protocol_stack::as_string(send_back_addr),
})
.inc();
}
libp2p_swarm::SwarmEvent::IncomingConnectionError {
error,
send_back_addr,
..
} => {
self.connections_incoming_error
.get_or_create(&IncomingConnectionErrorLabels {
error: error.into(),
protocols: protocol_stack::as_string(send_back_addr),
})
.inc();
}
libp2p_swarm::SwarmEvent::OutgoingConnectionError { error, peer_id, .. } => {
let peer = match peer_id {
Some(_) => PeerStatus::Known,
None => PeerStatus::Unknown,
};
let record = |error| {
self.outgoing_connection_error
.get_or_create(&OutgoingConnectionErrorLabels { peer, error })
.inc();
};
match error {
libp2p_swarm::DialError::Transport(errors) => {
for (_multiaddr, error) in errors {
match error {
libp2p_core::transport::TransportError::MultiaddrNotSupported(
_,
) => {
record(OutgoingConnectionError::TransportMultiaddrNotSupported)
}
libp2p_core::transport::TransportError::Other(_) => {
record(OutgoingConnectionError::TransportOther)
}
};
}
}
libp2p_swarm::DialError::LocalPeerId { .. } => {
record(OutgoingConnectionError::LocalPeerId)
}
libp2p_swarm::DialError::NoAddresses => {
record(OutgoingConnectionError::NoAddresses)
}
libp2p_swarm::DialError::DialPeerConditionFalse(_) => {
record(OutgoingConnectionError::DialPeerConditionFalse)
}
libp2p_swarm::DialError::Aborted => record(OutgoingConnectionError::Aborted),
libp2p_swarm::DialError::WrongPeerId { .. } => {
record(OutgoingConnectionError::WrongPeerId)
}
libp2p_swarm::DialError::Denied { .. } => {
record(OutgoingConnectionError::Denied)
}
};
}
libp2p_swarm::SwarmEvent::NewListenAddr { address, .. } => {
self.new_listen_addr
.get_or_create(&AddressLabels {
protocols: protocol_stack::as_string(address),
})
.inc();
}
libp2p_swarm::SwarmEvent::ExpiredListenAddr { address, .. } => {
self.expired_listen_addr
.get_or_create(&AddressLabels {
protocols: protocol_stack::as_string(address),
})
.inc();
}
libp2p_swarm::SwarmEvent::ListenerClosed { addresses, .. } => {
for address in addresses {
self.listener_closed
.get_or_create(&AddressLabels {
protocols: protocol_stack::as_string(address),
})
.inc();
}
}
libp2p_swarm::SwarmEvent::ListenerError { .. } => {
self.listener_error.inc();
}
libp2p_swarm::SwarmEvent::Dialing { .. } => {
self.dial_attempt.inc();
}
}
}
}
#[derive(EncodeLabelSet, Hash, Clone, Eq, PartialEq, Debug)]
struct ConnectionLabels {
role: Role,
protocols: String,
}
#[derive(EncodeLabelSet, Hash, Clone, Eq, PartialEq, Debug)]
struct ConnectionClosedLabels {
cause: Option<ConnectionError>,
#[prometheus(flatten)]
connection: ConnectionLabels,
}
#[derive(EncodeLabelValue, Hash, Clone, Eq, PartialEq, Debug)]
enum ConnectionError {
Io,
KeepAliveTimeout,
Handler,
}
impl<E> From<&libp2p_swarm::ConnectionError<E>> for ConnectionError {
fn from(value: &libp2p_swarm::ConnectionError<E>) -> Self {
match value {
libp2p_swarm::ConnectionError::IO(_) => ConnectionError::Io,
libp2p_swarm::ConnectionError::KeepAliveTimeout => ConnectionError::KeepAliveTimeout,
libp2p_swarm::ConnectionError::Handler(_) => ConnectionError::Handler,
}
}
}
#[derive(EncodeLabelSet, Hash, Clone, Eq, PartialEq, Debug)]
struct AddressLabels {
protocols: String,
}
#[derive(EncodeLabelValue, Hash, Clone, Eq, PartialEq, Debug)]
enum Role {
Dialer,
Listener,
}
impl From<&libp2p_core::ConnectedPoint> for Role {
fn from(point: &libp2p_core::ConnectedPoint) -> Self {
match point {
libp2p_core::ConnectedPoint::Dialer { .. } => Role::Dialer,
libp2p_core::ConnectedPoint::Listener { .. } => Role::Listener,
}
}
}
#[derive(EncodeLabelSet, Hash, Clone, Eq, PartialEq, Debug)]
struct OutgoingConnectionErrorLabels {
peer: PeerStatus,
error: OutgoingConnectionError,
}
#[derive(EncodeLabelValue, Hash, Clone, Eq, PartialEq, Copy, Debug)]
enum PeerStatus {
Known,
Unknown,
}
#[derive(EncodeLabelValue, Hash, Clone, Eq, PartialEq, Debug)]
enum OutgoingConnectionError {
LocalPeerId,
NoAddresses,
DialPeerConditionFalse,
Aborted,
WrongPeerId,
TransportMultiaddrNotSupported,
TransportOther,
Denied,
}
#[derive(EncodeLabelSet, Hash, Clone, Eq, PartialEq, Debug)]
struct IncomingConnectionErrorLabels {
error: IncomingConnectionError,
protocols: String,
}
#[derive(EncodeLabelValue, Hash, Clone, Eq, PartialEq, Debug)]
enum IncomingConnectionError {
WrongPeerId,
LocalPeerId,
TransportErrorMultiaddrNotSupported,
TransportErrorOther,
Aborted,
Denied,
}
impl From<&libp2p_swarm::ListenError> for IncomingConnectionError {
fn from(error: &libp2p_swarm::ListenError) -> Self {
match error {
libp2p_swarm::ListenError::WrongPeerId { .. } => IncomingConnectionError::WrongPeerId,
libp2p_swarm::ListenError::LocalPeerId { .. } => IncomingConnectionError::LocalPeerId,
libp2p_swarm::ListenError::Transport(
libp2p_core::transport::TransportError::MultiaddrNotSupported(_),
) => IncomingConnectionError::TransportErrorMultiaddrNotSupported,
libp2p_swarm::ListenError::Transport(
libp2p_core::transport::TransportError::Other(_),
) => IncomingConnectionError::TransportErrorOther,
libp2p_swarm::ListenError::Aborted => IncomingConnectionError::Aborted,
libp2p_swarm::ListenError::Denied { .. } => IncomingConnectionError::Denied,
}
}
}
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