subspace_farmer/plotter/cpu/
metrics.rsuse prometheus_client::metrics::counter::Counter;
use prometheus_client::metrics::gauge::Gauge;
use prometheus_client::metrics::histogram::{exponential_buckets, Histogram};
use prometheus_client::registry::{Registry, Unit};
use std::num::NonZeroUsize;
use std::sync::atomic::{AtomicI64, AtomicU64};
#[derive(Debug)]
pub(super) struct CpuPlotterMetrics {
pub(super) sector_downloading_time: Histogram,
pub(super) sector_encoding_time: Histogram,
pub(super) sector_plotting_time: Histogram,
pub(super) sector_downloading: Counter<u64, AtomicU64>,
pub(super) sector_downloaded: Counter<u64, AtomicU64>,
pub(super) sector_encoding: Counter<u64, AtomicU64>,
pub(super) sector_encoded: Counter<u64, AtomicU64>,
pub(super) sector_plotting: Counter<u64, AtomicU64>,
pub(super) sector_plotted: Counter<u64, AtomicU64>,
pub(super) sector_plotting_error: Counter<u64, AtomicU64>,
pub(super) plotting_capacity_used: Gauge<i64, AtomicI64>,
}
impl CpuPlotterMetrics {
pub(super) fn new(
registry: &mut Registry,
subtype: &str,
total_capacity: NonZeroUsize,
) -> Self {
let registry = registry
.sub_registry_with_prefix("plotter")
.sub_registry_with_label(("kind".into(), format!("cpu-{subtype}").into()));
let sector_downloading_time = Histogram::new(exponential_buckets(0.1, 2.0, 15));
registry.register_with_unit(
"sector_downloading_time",
"Sector downloading time",
Unit::Seconds,
sector_downloading_time.clone(),
);
let sector_encoding_time = Histogram::new(exponential_buckets(0.1, 2.0, 15));
registry.register_with_unit(
"sector_encoding_time",
"Sector encoding time",
Unit::Seconds,
sector_encoding_time.clone(),
);
let sector_plotting_time = Histogram::new(exponential_buckets(0.1, 2.0, 15));
registry.register_with_unit(
"sector_plotting_time",
"Sector plotting time",
Unit::Seconds,
sector_plotting_time.clone(),
);
let sector_downloading = Counter::default();
registry.register_with_unit(
"sector_downloading_counter",
"Number of sectors being downloaded",
Unit::Other("Sectors".to_string()),
sector_downloading.clone(),
);
let sector_downloaded = Counter::default();
registry.register_with_unit(
"sector_downloaded_counter",
"Number of downloaded sectors",
Unit::Other("Sectors".to_string()),
sector_downloaded.clone(),
);
let sector_encoding = Counter::default();
registry.register_with_unit(
"sector_encoding_counter",
"Number of sectors being encoded",
Unit::Other("Sectors".to_string()),
sector_encoding.clone(),
);
let sector_encoded = Counter::default();
registry.register_with_unit(
"sector_encoded_counter",
"Number of encoded sectors",
Unit::Other("Sectors".to_string()),
sector_encoded.clone(),
);
let sector_plotting = Counter::default();
registry.register_with_unit(
"sector_plotting_counter",
"Number of sectors being plotted",
Unit::Other("Sectors".to_string()),
sector_plotting.clone(),
);
let sector_plotted = Counter::default();
registry.register_with_unit(
"sector_plotted_counter",
"Number of plotted sectors",
Unit::Other("Sectors".to_string()),
sector_plotted.clone(),
);
let sector_plotting_error = Counter::default();
registry.register_with_unit(
"sector_plotting_error_counter",
"Number of sector plotting failures",
Unit::Other("Sectors".to_string()),
sector_plotting_error.clone(),
);
let plotting_capacity_total = Gauge::<i64, AtomicI64>::default();
plotting_capacity_total.set(total_capacity.get() as i64);
registry.register_with_unit(
"plotting_capacity_total",
"Plotting capacity total",
Unit::Other("Sectors".to_string()),
plotting_capacity_total,
);
let plotting_capacity_used = Gauge::default();
registry.register_with_unit(
"plotting_capacity_used",
"Plotting capacity used",
Unit::Other("Sectors".to_string()),
plotting_capacity_used.clone(),
);
Self {
sector_downloading_time,
sector_encoding_time,
sector_plotting_time,
sector_downloading,
sector_downloaded,
sector_encoding,
sector_encoded,
sector_plotting,
sector_plotted,
sector_plotting_error,
plotting_capacity_used,
}
}
}