81c667b58e
Adds additional metrics for network monitoring and evaluation. Co-authored-by: Mark Mackey <mark@sigmaprime.io>
360 lines
11 KiB
Rust
360 lines
11 KiB
Rust
#![allow(clippy::needless_doctest_main)]
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//! A wrapper around the `prometheus` crate that provides a global, `lazy_static` metrics registry
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//! and functions to add and use the following components (more info at
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//! [Prometheus docs](https://prometheus.io/docs/concepts/metric_types/)):
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//!
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//! - `Histogram`: used with `start_timer(..)` and `stop_timer(..)` to record durations (e.g.,
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//! block processing time).
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//! - `IncCounter`: used to represent an ideally ever-growing, never-shrinking integer (e.g.,
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//! number of block processing requests).
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//! - `IntGauge`: used to represent an varying integer (e.g., number of attestations per block).
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//!
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//! ## Important
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//!
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//! Metrics will fail if two items have the same `name`. All metrics must have a unique `name`.
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//! Because we use a global registry there is no namespace per crate, it's one big global space.
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//!
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//! See the [Prometheus naming best practices](https://prometheus.io/docs/practices/naming/) when
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//! choosing metric names.
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//!
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//! ## Example
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//!
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//! ```rust
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//! #[macro_use]
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//! extern crate lazy_static;
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//! use lighthouse_metrics::*;
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//!
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//! // These metrics are "magically" linked to the global registry defined in `lighthouse_metrics`.
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//! lazy_static! {
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//! pub static ref RUN_COUNT: Result<IntCounter> = try_create_int_counter(
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//! "runs_total",
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//! "Total number of runs"
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//! );
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//! pub static ref CURRENT_VALUE: Result<IntGauge> = try_create_int_gauge(
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//! "current_value",
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//! "The current value"
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//! );
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//! pub static ref RUN_TIME: Result<Histogram> =
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//! try_create_histogram("run_seconds", "Time taken (measured to high precision)");
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//! }
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//!
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//!
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//! fn main() {
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//! for i in 0..100 {
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//! inc_counter(&RUN_COUNT);
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//! let timer = start_timer(&RUN_TIME);
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//!
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//! for j in 0..10 {
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//! set_gauge(&CURRENT_VALUE, j);
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//! println!("Howdy partner");
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//! }
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//!
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//! stop_timer(timer);
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//! }
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//! }
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//! ```
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use prometheus::{HistogramOpts, Opts};
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use std::time::Duration;
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use prometheus::core::{Atomic, GenericGauge, GenericGaugeVec};
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pub use prometheus::{
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proto::{Metric, MetricFamily, MetricType},
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Encoder, Gauge, GaugeVec, Histogram, HistogramTimer, HistogramVec, IntCounter, IntCounterVec,
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IntGauge, IntGaugeVec, Result, TextEncoder,
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};
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/// Collect all the metrics for reporting.
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pub fn gather() -> Vec<prometheus::proto::MetricFamily> {
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prometheus::gather()
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}
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/// Attempts to create an `IntCounter`, returning `Err` if the registry does not accept the counter
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/// (potentially due to naming conflict).
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pub fn try_create_int_counter(name: &str, help: &str) -> Result<IntCounter> {
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let opts = Opts::new(name, help);
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let counter = IntCounter::with_opts(opts)?;
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prometheus::register(Box::new(counter.clone()))?;
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Ok(counter)
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}
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/// Attempts to create an `IntGauge`, returning `Err` if the registry does not accept the counter
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/// (potentially due to naming conflict).
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pub fn try_create_int_gauge(name: &str, help: &str) -> Result<IntGauge> {
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let opts = Opts::new(name, help);
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let gauge = IntGauge::with_opts(opts)?;
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prometheus::register(Box::new(gauge.clone()))?;
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Ok(gauge)
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}
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/// Attempts to create a `Gauge`, returning `Err` if the registry does not accept the counter
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/// (potentially due to naming conflict).
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pub fn try_create_float_gauge(name: &str, help: &str) -> Result<Gauge> {
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let opts = Opts::new(name, help);
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let gauge = Gauge::with_opts(opts)?;
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prometheus::register(Box::new(gauge.clone()))?;
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Ok(gauge)
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}
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/// Attempts to create a `Histogram`, returning `Err` if the registry does not accept the counter
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/// (potentially due to naming conflict).
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pub fn try_create_histogram(name: &str, help: &str) -> Result<Histogram> {
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let opts = HistogramOpts::new(name, help);
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let histogram = Histogram::with_opts(opts)?;
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prometheus::register(Box::new(histogram.clone()))?;
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Ok(histogram)
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}
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/// Attempts to create a `HistogramVec`, returning `Err` if the registry does not accept the counter
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/// (potentially due to naming conflict).
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pub fn try_create_histogram_vec(
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name: &str,
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help: &str,
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label_names: &[&str],
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) -> Result<HistogramVec> {
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let opts = HistogramOpts::new(name, help);
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let histogram_vec = HistogramVec::new(opts, label_names)?;
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prometheus::register(Box::new(histogram_vec.clone()))?;
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Ok(histogram_vec)
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}
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/// Attempts to create a `IntGaugeVec`, returning `Err` if the registry does not accept the gauge
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/// (potentially due to naming conflict).
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pub fn try_create_int_gauge_vec(
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name: &str,
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help: &str,
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label_names: &[&str],
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) -> Result<IntGaugeVec> {
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let opts = Opts::new(name, help);
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let counter_vec = IntGaugeVec::new(opts, label_names)?;
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prometheus::register(Box::new(counter_vec.clone()))?;
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Ok(counter_vec)
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}
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/// Attempts to create a `GaugeVec`, returning `Err` if the registry does not accept the gauge
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/// (potentially due to naming conflict).
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pub fn try_create_float_gauge_vec(
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name: &str,
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help: &str,
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label_names: &[&str],
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) -> Result<GaugeVec> {
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let opts = Opts::new(name, help);
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let counter_vec = GaugeVec::new(opts, label_names)?;
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prometheus::register(Box::new(counter_vec.clone()))?;
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Ok(counter_vec)
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}
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/// Attempts to create a `IntCounterVec`, returning `Err` if the registry does not accept the gauge
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/// (potentially due to naming conflict).
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pub fn try_create_int_counter_vec(
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name: &str,
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help: &str,
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label_names: &[&str],
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) -> Result<IntCounterVec> {
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let opts = Opts::new(name, help);
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let counter_vec = IntCounterVec::new(opts, label_names)?;
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prometheus::register(Box::new(counter_vec.clone()))?;
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Ok(counter_vec)
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}
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/// If `int_gauge_vec.is_ok()`, returns a gauge with the given `name`.
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pub fn get_int_gauge(int_gauge_vec: &Result<IntGaugeVec>, name: &[&str]) -> Option<IntGauge> {
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if let Ok(int_gauge_vec) = int_gauge_vec {
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Some(int_gauge_vec.get_metric_with_label_values(name).ok()?)
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} else {
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None
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}
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}
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pub fn get_gauge<P: Atomic>(
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gauge_vec: &Result<GenericGaugeVec<P>>,
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name: &[&str],
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) -> Option<GenericGauge<P>> {
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if let Ok(gauge_vec) = gauge_vec {
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Some(gauge_vec.get_metric_with_label_values(name).ok()?)
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} else {
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None
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}
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}
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pub fn set_gauge_entry<P: Atomic>(
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gauge_vec: &Result<GenericGaugeVec<P>>,
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name: &[&str],
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value: P::T,
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) {
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if let Some(v) = get_gauge(gauge_vec, name) {
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v.set(value)
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};
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}
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/// If `int_gauge_vec.is_ok()`, sets the gauge with the given `name` to the given `value`
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/// otherwise returns false.
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pub fn set_int_gauge(int_gauge_vec: &Result<IntGaugeVec>, name: &[&str], value: i64) -> bool {
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if let Ok(int_gauge_vec) = int_gauge_vec {
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int_gauge_vec
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.get_metric_with_label_values(name)
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.map(|v| {
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v.set(value);
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true
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})
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.unwrap_or_else(|_| false)
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} else {
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false
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}
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}
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/// If `int_counter_vec.is_ok()`, returns a counter with the given `name`.
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pub fn get_int_counter(
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int_counter_vec: &Result<IntCounterVec>,
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name: &[&str],
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) -> Option<IntCounter> {
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if let Ok(int_counter_vec) = int_counter_vec {
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Some(int_counter_vec.get_metric_with_label_values(name).ok()?)
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} else {
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None
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}
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}
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/// Increments the `int_counter_vec` with the given `name`.
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pub fn inc_counter_vec(int_counter_vec: &Result<IntCounterVec>, name: &[&str]) {
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if let Some(counter) = get_int_counter(int_counter_vec, name) {
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counter.inc()
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}
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}
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pub fn inc_counter_vec_by(int_counter_vec: &Result<IntCounterVec>, name: &[&str], amount: u64) {
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if let Some(counter) = get_int_counter(int_counter_vec, name) {
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counter.inc_by(amount);
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}
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}
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/// If `histogram_vec.is_ok()`, returns a histogram with the given `name`.
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pub fn get_histogram(histogram_vec: &Result<HistogramVec>, name: &[&str]) -> Option<Histogram> {
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if let Ok(histogram_vec) = histogram_vec {
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Some(histogram_vec.get_metric_with_label_values(name).ok()?)
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} else {
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None
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}
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}
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/// Starts a timer on `vec` with the given `name`.
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pub fn start_timer_vec(vec: &Result<HistogramVec>, name: &[&str]) -> Option<HistogramTimer> {
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get_histogram(vec, name).map(|h| h.start_timer())
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}
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/// Starts a timer for the given `Histogram`, stopping when it gets dropped or given to `stop_timer(..)`.
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pub fn start_timer(histogram: &Result<Histogram>) -> Option<HistogramTimer> {
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if let Ok(histogram) = histogram {
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Some(histogram.start_timer())
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} else {
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None
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}
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}
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/// Starts a timer on `vec` with the given `name`.
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pub fn observe_timer_vec(vec: &Result<HistogramVec>, name: &[&str], duration: Duration) {
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if let Some(h) = get_histogram(vec, name) {
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h.observe(duration_to_f64(duration))
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}
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}
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/// Stops a timer created with `start_timer(..)`.
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pub fn stop_timer(timer: Option<HistogramTimer>) {
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if let Some(t) = timer {
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t.observe_duration()
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}
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}
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pub fn inc_counter(counter: &Result<IntCounter>) {
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if let Ok(counter) = counter {
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counter.inc();
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}
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}
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pub fn inc_counter_by(counter: &Result<IntCounter>, value: u64) {
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if let Ok(counter) = counter {
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counter.inc_by(value);
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}
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}
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pub fn set_gauge_vec(int_gauge_vec: &Result<IntGaugeVec>, name: &[&str], value: i64) {
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if let Some(gauge) = get_int_gauge(int_gauge_vec, name) {
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gauge.set(value);
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}
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}
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pub fn inc_gauge_vec(int_gauge_vec: &Result<IntGaugeVec>, name: &[&str]) {
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if let Some(gauge) = get_int_gauge(int_gauge_vec, name) {
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gauge.inc();
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}
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}
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pub fn dec_gauge_vec(int_gauge_vec: &Result<IntGaugeVec>, name: &[&str]) {
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if let Some(gauge) = get_int_gauge(int_gauge_vec, name) {
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gauge.dec();
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}
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}
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pub fn set_gauge(gauge: &Result<IntGauge>, value: i64) {
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if let Ok(gauge) = gauge {
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gauge.set(value);
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}
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}
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pub fn set_float_gauge(gauge: &Result<Gauge>, value: f64) {
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if let Ok(gauge) = gauge {
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gauge.set(value);
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}
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}
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pub fn set_float_gauge_vec(gauge_vec: &Result<GaugeVec>, name: &[&str], value: f64) {
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if let Some(gauge) = get_gauge(gauge_vec, name) {
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gauge.set(value);
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}
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}
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pub fn inc_gauge(gauge: &Result<IntGauge>) {
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if let Ok(gauge) = gauge {
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gauge.inc();
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}
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}
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pub fn dec_gauge(gauge: &Result<IntGauge>) {
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if let Ok(gauge) = gauge {
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gauge.dec();
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}
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}
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pub fn maybe_set_gauge(gauge: &Result<IntGauge>, value_opt: Option<i64>) {
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if let Some(value) = value_opt {
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set_gauge(gauge, value)
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}
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}
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pub fn maybe_set_float_gauge(gauge: &Result<Gauge>, value_opt: Option<f64>) {
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if let Some(value) = value_opt {
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set_float_gauge(gauge, value)
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}
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}
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/// Sets the value of a `Histogram` manually.
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pub fn observe(histogram: &Result<Histogram>, value: f64) {
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if let Ok(histogram) = histogram {
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histogram.observe(value);
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}
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}
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pub fn observe_duration(histogram: &Result<Histogram>, duration: Duration) {
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if let Ok(histogram) = histogram {
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histogram.observe(duration_to_f64(duration))
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}
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}
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fn duration_to_f64(duration: Duration) -> f64 {
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// This conversion was taken from here:
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//
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// https://docs.rs/prometheus/0.5.0/src/prometheus/histogram.rs.html#550-555
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let nanos = f64::from(duration.subsec_nanos()) / 1e9;
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duration.as_secs() as f64 + nanos
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}
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