Files
cc-metric-collector/collectors/megwareEureka.go
2026-07-07 16:51:06 +02:00

198 lines
5.3 KiB
Go

// Copyright (C) NHR@FAU, University Erlangen-Nuremberg.
// All rights reserved.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
// additional authors:
// Michael Panzlaff (NHR@FAU)
package collectors
import (
"bytes"
"encoding/json"
"fmt"
"os/exec"
"time"
cclog "github.com/ClusterCockpit/cc-lib/v2/ccLogger"
lp "github.com/ClusterCockpit/cc-lib/v2/ccMessage"
)
// MPS refers to Monolithic Power Systems, from which the MP5922 is used
// to measure telemetry on the Eureka platform.
type mpsData struct {
Cnt int64 `json:"Cnt"` // No idea what this is, ignore
Energy float64 `json:"Energy"`
Vin float64 `json:"Vin"`
Iin float64 `json:"Iin"`
Pin float64 `json:"Pin"`
PinAvg float64 `json:"PinAvg"`
Vout float64 `json:"Vout"`
Iout float64 `json:"Iout"`
Pout float64 `json:"Pout"`
StandbyVout float64 `json:"StandbyVout"`
StandbyIout float64 `json:"StandbyIout"`
StandbyPout float64 `json:"StandbyPout"`
TempBusbar float64 `json:"TempBusbar"`
TempSsd float64 `json:"TempSsd"`
TempMps float64 `json:"TempMps"`
// No idea what the ones below mean exactl. Ignore them for now.
EnergyTime int64 `json:"EnergyTime"`
EnergyAccumulator int64 `json:"EnergyAccumulator"`
EnergyRolloverCnt int64 `json:"EnergyRolloverCnt"`
EnergySampleCntU24 int64 `json:"EnergySampleCntU24"`
Timestamp time.Time
}
type MegwareEurekaCollector struct {
metricCollector
config struct {
U20Path string `json:"u20_path"`
Sudo bool `json:"use_sudo"`
}
u20path string
energyValLast float64
energyTimeLast time.Time
}
func (m *MegwareEurekaCollector) Init(config json.RawMessage) error {
// Check if already initialized
if m.init {
return nil
}
m.name = "MegwareEureka"
if err := m.setup(); err != nil {
return fmt.Errorf("%s Init(): setup() call failed: %w", m.name, err)
}
m.meta = map[string]string{
"source": m.name,
"group": "U20",
}
m.config.U20Path = "u20"
if len(config) > 0 {
d := json.NewDecoder(bytes.NewReader(config))
d.DisallowUnknownFields()
if err := d.Decode(&m.config); err != nil {
return fmt.Errorf("%s Init(): Error decoding JSON config: %w", m.name, err)
}
}
m.u20path = m.config.U20Path
data, err := m.readMpsData()
if err != nil {
return fmt.Errorf("energy reading test failed: %w", err)
}
m.energyValLast = data.Energy
m.energyTimeLast = time.Now()
m.init = true
return nil
}
func (m *MegwareEurekaCollector) readMpsData() (*mpsData, error) {
argv := make([]string, 0)
if m.config.Sudo {
argv = append(argv, "sudo", "-n")
}
argv = append(argv, m.u20path, "values", "--read", "GET_MPS_POLL_VALUES")
cmd := exec.Command(argv[0], argv[1:]...)
var stdout bytes.Buffer
var stderr bytes.Buffer
cmd.Stdout = &stdout
cmd.Stderr = &stderr
err := cmd.Run()
if err != nil {
return nil, fmt.Errorf("failed to run u20: %w (stdout=%s stderr=%s)", err, stdout.String(), stderr.String())
}
var u20output struct {
GetMpsPollValues mpsData `json:"GET_MPS_POLL_VALUES"`
}
err = json.Unmarshal(stdout.Bytes(), &u20output)
if err != nil {
return nil, fmt.Errorf("unable to decode u20 JSON output: %w (stdout=%s)", err, stdout.String())
}
fmt.Printf("string: %+v\n", stdout.String())
fmt.Printf("obj: %+v\n", u20output)
u20output.GetMpsPollValues.Timestamp = time.Now()
return &u20output.GetMpsPollValues, nil
}
func (m *MegwareEurekaCollector) Read(interval time.Duration, output chan lp.CCMessage) {
// Check if already initialized
if !m.init {
return
}
data, err := m.readMpsData()
if err != nil {
cclog.ComponentErrorf(m.name, "readMpsData failed: %v", err)
return
}
powerVal := 0.0
if data.Timestamp.After(m.energyTimeLast) {
// Important, m.energy comes in Wh, so multiply by 3600 to get Ws (aka Joule)
energyValDiff := data.Energy - m.energyValLast
energyTimeDiff := data.Timestamp.Sub(m.energyTimeLast)
powerVal = energyValDiff * 3600 / energyTimeDiff.Seconds()
m.energyValLast = data.Energy
m.energyTimeLast = data.Timestamp
}
metricNamePrefix := "eureka_"
metricMap := map[string]struct {
value any
unit string
}{
"power": {value: powerVal, unit: "Watts"},
"vin": {value: data.Vin, unit: "Volts"},
"iin": {value: data.Iin, unit: "Amperes"},
"pin": {value: data.Pin, unit: "Watts"},
"pin_avg": {value: data.PinAvg, unit: "Watts"},
"vout": {value: data.Vout, unit: "Volts"},
"iout": {value: data.Iout, unit: "Amperes"},
"pout": {value: data.Pout, unit: "Watts"},
"standby_vout": {value: data.StandbyVout, unit: "Volts"},
"standby_iout": {value: data.StandbyIout, unit: "Amperes"},
"standby_pout": {value: data.StandbyPout, unit: "Watts"},
"temp_busbar": {value: data.TempBusbar, unit: "degC"},
"temp_ssd": {value: data.TempSsd, unit: "degC"},
"temp_mps": {value: data.TempMps, unit: "degC"},
}
for metricName, metricData := range metricMap {
metricName = metricNamePrefix + metricName
metric, err := lp.NewMetric(metricName, map[string]string{"type": "node"}, m.meta, metricData.value, data.Timestamp)
if err != nil {
cclog.ComponentErrorf(m.name, "lp.NewMetric failed: %v", err)
return
}
metric.AddMeta("unit", metricData.unit)
output <- metric
}
}
func (m *MegwareEurekaCollector) Close() {
m.init = false
}