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- using System;
- using System.Text.RegularExpressions;
- using NLog;
- using LibreHardwareMonitor.Hardware;
- using Prometheus;
- namespace OhmGraphite
- {
- public class PrometheusCollection
- {
- private static readonly Logger Logger = LogManager.GetCurrentClassLogger();
- private static readonly Regex Rx = new Regex("[^a-zA-Z0-9_:]", RegexOptions.Compiled);
- private readonly IGiveSensors _collector;
- private readonly MetricFactory _metrics;
- public PrometheusCollection(IGiveSensors collector, MetricFactory metrics)
- {
- _collector = collector;
- _metrics = metrics;
- }
- public static CollectorRegistry SetupDefault(IGiveSensors collector)
- {
- var registry = Metrics.DefaultRegistry;
- var metrics = Metrics.WithCustomRegistry(registry);
- var prometheusCollection = new PrometheusCollection(collector, metrics);
- registry.AddBeforeCollectCallback(() => prometheusCollection.UpdateMetrics());
- return registry;
- }
- public void UpdateMetrics()
- {
- Logger.LogAction("prometheus update metrics", PollSensors);
- }
- private static (string, double) BaseReport(ReportedValue report)
- {
- // Convert reported value into a base value by converting MB and GB into bytes, etc.
- // Flow rate is still liters per hour, even though liters per second may seem more
- // "base-unity", as grafana contained the former but not the latter. Fan speed remains
- // revolutions per minute, as I'm unaware of any manufacturer reporting fan speed as
- // revolutions per second.
- double BaseValue()
- {
- double value = report.Value;
- switch (report.SensorType)
- {
- case SensorType.Data: // GB = 2^30 Bytes
- return value * (1L << 30);
- case SensorType.SmallData: // MB = 2^20 Bytes
- return value * (1L << 20);
- case SensorType.Clock: // MHz
- return value * 1000000;
- default:
- return value;
- }
- }
- string BaseUnit()
- {
- switch (report.SensorType)
- {
- case SensorType.Voltage: // V
- return "volts";
- case SensorType.Frequency: // Hz
- case SensorType.Clock: // MHz
- return "hertz";
- case SensorType.Temperature: // °C
- return "celsius";
- case SensorType.Power: // W
- return "watts";
- case SensorType.Data: // GB = 2^30 Bytes
- case SensorType.SmallData: // MB = 2^20 Bytes
- return "bytes";
- case SensorType.Throughput: // B/s
- return "bytes_per_second";
- case SensorType.Load: // %
- return "load_percent";
- case SensorType.Control: // %
- return "control_percent";
- case SensorType.Level: // %
- return "level_percent";
- case SensorType.Fan: // RPM
- return "revolutions_per_minute";
- case SensorType.Flow: // L/h
- return "liters_per_hour";
- case SensorType.Factor: // 1
- default:
- return report.SensorType.ToString().ToLowerInvariant();
- }
- }
- return (BaseUnit(), BaseValue());
- }
- private void PollSensors()
- {
- foreach (var sensor in _collector.ReadAllSensors())
- {
- var (unit, value) = BaseReport(sensor);
- var hw = Enum.GetName(typeof(HardwareType), sensor.HardwareType)?.ToLowerInvariant();
- var name = Rx.Replace($"ohm_{hw}_{unit}", "_");
- _metrics.CreateGauge(name, "Metric reported by open hardware sensor", "hardware", "sensor", "hw_instance")
- .WithLabels(sensor.Hardware, sensor.Sensor, sensor.HardwareInstance)
- .Set(value);
- }
- }
- }
- }
|
