Files
nym/common/client-core/src/client/statistics_control.rs
T
2025-02-17 14:37:34 +01:00

191 lines
6.5 KiB
Rust

// Copyright 2024 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
//! # Statistics collection and reporting.
//!
//! Modular metrics collection and reporting system. submodules can be added to collect different types of metrics.
//! On creation the Statistics controller will start a task that will listen for incoming stats events and
//! multiplex them out to the appropriate metrics module based on type.
//!
//! Adding A new module you need to write a new module that implements the `StatsObj` trait and add it to
//! the `stats` hashmap in the `StatisticsControl` struct during it's initialization in the `new` function in
//! this file.
#![warn(clippy::expect_used)]
#![warn(clippy::unwrap_used)]
#![warn(clippy::todo)]
#![warn(clippy::dbg_macro)]
use futures::StreamExt;
use nym_client_core_config_types::StatsReporting;
use nym_sphinx::addressing::Recipient;
use nym_statistics_common::clients::{
ClientStatsController, ClientStatsReceiver, ClientStatsSender,
};
use nym_task::{connections::TransmissionLane, TaskClient};
use std::time::Duration;
use crate::{
client::inbound_messages::{InputMessage, InputMessageSender},
spawn_future,
};
/// Time interval between reporting statistics locally (logging/task_client)
const LOCAL_REPORT_INTERVAL: Duration = Duration::from_secs(2);
/// Interval for taking snapshots of the statistics
const SNAPSHOT_INTERVAL: Duration = Duration::from_millis(500);
/// Launches and manages metrics collection and reporting.
///
/// This is designed to be generic to allow for multiple types of metrics to be collected and
/// reported.
pub(crate) struct StatisticsControl {
/// Keep store the different types of metrics collectors
stats: ClientStatsController,
/// Incoming packet stats events from other tasks
stats_rx: ClientStatsReceiver,
/// Channel to send stats report through the mixnet
report_tx: InputMessageSender,
/// Config for stats reporting (enabled, address, interval)
reporting_config: StatsReporting,
/// Task client for listening for shutdown
task_client: TaskClient,
}
impl StatisticsControl {
pub(crate) fn create(
reporting_config: StatsReporting,
client_type: String,
client_stats_id: String,
report_tx: InputMessageSender,
task_client: TaskClient,
) -> (Self, ClientStatsSender) {
let (stats_tx, stats_rx) = tokio::sync::mpsc::unbounded_channel();
let stats = ClientStatsController::new(client_stats_id, client_type);
let mut task_client_stats_sender = task_client.fork("stats_sender");
task_client_stats_sender.disarm();
(
StatisticsControl {
stats,
stats_rx,
report_tx,
reporting_config,
task_client,
},
ClientStatsSender::new(Some(stats_tx), task_client_stats_sender),
)
}
async fn report_stats(&mut self, recipient: Recipient) {
let stats_report = self.stats.build_report();
let report_message = InputMessage::new_regular(
recipient,
stats_report.into(),
TransmissionLane::General,
None,
);
if let Err(err) = self.report_tx.send(report_message).await {
log::error!("Failed to report client stats: {:?}", err);
} else {
self.stats.reset();
}
}
async fn run(&mut self) {
log::debug!("Started StatisticsControl with graceful shutdown support");
#[cfg(not(target_arch = "wasm32"))]
let mut stats_report_interval = tokio_stream::wrappers::IntervalStream::new(
tokio::time::interval(self.reporting_config.reporting_interval),
);
#[cfg(not(target_arch = "wasm32"))]
let mut local_report_interval = tokio_stream::wrappers::IntervalStream::new(
tokio::time::interval(LOCAL_REPORT_INTERVAL),
);
#[cfg(not(target_arch = "wasm32"))]
let mut snapshot_interval =
tokio_stream::wrappers::IntervalStream::new(tokio::time::interval(SNAPSHOT_INTERVAL));
#[cfg(target_arch = "wasm32")]
let mut stats_report_interval = gloo_timers::future::IntervalStream::new(
self.reporting_config.reporting_interval.as_millis() as u32,
);
#[cfg(target_arch = "wasm32")]
let mut local_report_interval =
gloo_timers::future::IntervalStream::new(LOCAL_REPORT_INTERVAL.as_millis() as u32);
#[cfg(target_arch = "wasm32")]
let mut snapshot_interval =
gloo_timers::future::IntervalStream::new(SNAPSHOT_INTERVAL.as_millis() as u32);
while !self.task_client.is_shutdown() {
tokio::select! {
biased;
_ = self.task_client.recv() => {
log::trace!("StatisticsControl: Received shutdown");
break;
},
stats_event = self.stats_rx.recv() => match stats_event {
Some(stats_event) => self.stats.handle_event(stats_event),
None => {
log::trace!("StatisticsControl: shutting down due to closed stats channel");
break;
}
},
_ = snapshot_interval.next() => {
self.stats.snapshot();
}
_ = stats_report_interval.next() => {
let Some(recipient) = self.reporting_config.provider_address else {
continue
};
if self.reporting_config.enabled {
self.report_stats(recipient).await;
}
}
_ = local_report_interval.next() => {
self.stats.local_report(&mut self.task_client);
}
}
}
log::debug!("StatisticsControl: Exiting");
}
pub(crate) fn start(mut self) {
spawn_future(async move {
self.run().await;
})
}
pub(crate) fn create_and_start(
reporting_config: StatsReporting,
client_type: String,
client_stats_id: String,
report_tx: InputMessageSender,
task_client: TaskClient,
) -> ClientStatsSender {
let (controller, sender) = Self::create(
reporting_config,
client_type,
client_stats_id,
report_tx,
task_client,
);
controller.start();
sender
}
}