mirror of
https://github.com/ClusterCockpit/cc-metric-collector.git
synced 2024-11-10 04:27:25 +01:00
5c34805918
* Provide info to CollectorManager whether the collector can be executed in parallel with others * Split serial and parallel collectors. Read in parallel first
212 lines
5.3 KiB
Go
212 lines
5.3 KiB
Go
package collectors
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import (
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"bufio"
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"encoding/json"
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"fmt"
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"os"
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"strconv"
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"strings"
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"time"
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cclog "github.com/ClusterCockpit/cc-metric-collector/internal/ccLogger"
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lp "github.com/ClusterCockpit/cc-metric-collector/internal/ccMetric"
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)
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//
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// CPUFreqCollector
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// a metric collector to measure the current frequency of the CPUs
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// as obtained from /proc/cpuinfo
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// Only measure on the first hyperthread
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//
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type CPUFreqCpuInfoCollectorTopology struct {
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processor string // logical processor number (continuous, starting at 0)
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coreID string // socket local core ID
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coreID_int int64
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physicalPackageID string // socket / package ID
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physicalPackageID_int int64
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numPhysicalPackages string // number of sockets / packages
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numPhysicalPackages_int int64
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isHT bool
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numNonHT string // number of non hyperthreading processors
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numNonHT_int int64
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tagSet map[string]string
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}
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type CPUFreqCpuInfoCollector struct {
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metricCollector
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topology []*CPUFreqCpuInfoCollectorTopology
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}
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func (m *CPUFreqCpuInfoCollector) Init(config json.RawMessage) error {
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// Check if already initialized
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if m.init {
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return nil
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}
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m.setup()
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m.name = "CPUFreqCpuInfoCollector"
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m.parallel = true
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m.meta = map[string]string{
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"source": m.name,
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"group": "CPU",
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"unit": "MHz",
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}
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const cpuInfoFile = "/proc/cpuinfo"
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file, err := os.Open(cpuInfoFile)
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if err != nil {
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return fmt.Errorf("failed to open file '%s': %v", cpuInfoFile, err)
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}
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defer file.Close()
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// Collect topology information from file cpuinfo
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foundFreq := false
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processor := ""
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var numNonHT_int int64 = 0
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coreID := ""
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physicalPackageID := ""
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var maxPhysicalPackageID int64 = 0
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m.topology = make([]*CPUFreqCpuInfoCollectorTopology, 0)
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coreSeenBefore := make(map[string]bool)
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// Read cpuinfo file, line by line
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scanner := bufio.NewScanner(file)
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for scanner.Scan() {
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lineSplit := strings.Split(scanner.Text(), ":")
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if len(lineSplit) == 2 {
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key := strings.TrimSpace(lineSplit[0])
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value := strings.TrimSpace(lineSplit[1])
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switch key {
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case "cpu MHz":
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// frequency
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foundFreq = true
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case "processor":
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processor = value
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case "core id":
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coreID = value
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case "physical id":
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physicalPackageID = value
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}
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}
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// were all topology information collected?
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if foundFreq &&
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len(processor) > 0 &&
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len(coreID) > 0 &&
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len(physicalPackageID) > 0 {
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topology := new(CPUFreqCpuInfoCollectorTopology)
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// Processor
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topology.processor = processor
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// Core ID
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topology.coreID = coreID
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topology.coreID_int, err = strconv.ParseInt(coreID, 10, 64)
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if err != nil {
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return fmt.Errorf("unable to convert coreID '%s' to int64: %v", coreID, err)
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}
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// Physical package ID
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topology.physicalPackageID = physicalPackageID
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topology.physicalPackageID_int, err = strconv.ParseInt(physicalPackageID, 10, 64)
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if err != nil {
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return fmt.Errorf("unable to convert physicalPackageID '%s' to int64: %v", physicalPackageID, err)
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}
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// increase maximun socket / package ID, when required
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if topology.physicalPackageID_int > maxPhysicalPackageID {
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maxPhysicalPackageID = topology.physicalPackageID_int
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}
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// is hyperthread?
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globalID := physicalPackageID + ":" + coreID
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topology.isHT = coreSeenBefore[globalID]
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coreSeenBefore[globalID] = true
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if !topology.isHT {
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// increase number on non hyper thread cores
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numNonHT_int++
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}
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// store collected topology information
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m.topology = append(m.topology, topology)
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// reset topology information
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foundFreq = false
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processor = ""
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coreID = ""
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physicalPackageID = ""
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}
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}
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numPhysicalPackageID_int := maxPhysicalPackageID + 1
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numPhysicalPackageID := fmt.Sprint(numPhysicalPackageID_int)
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numNonHT := fmt.Sprint(numNonHT_int)
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for _, t := range m.topology {
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t.numPhysicalPackages = numPhysicalPackageID
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t.numPhysicalPackages_int = numPhysicalPackageID_int
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t.numNonHT = numNonHT
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t.numNonHT_int = numNonHT_int
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t.tagSet = map[string]string{
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"type": "hwthread",
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"type-id": t.processor,
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"package_id": t.physicalPackageID,
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}
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}
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m.init = true
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return nil
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}
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func (m *CPUFreqCpuInfoCollector) Read(interval time.Duration, output chan lp.CCMetric) {
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// Check if already initialized
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if !m.init {
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return
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}
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const cpuInfoFile = "/proc/cpuinfo"
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file, err := os.Open(cpuInfoFile)
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if err != nil {
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cclog.ComponentError(
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m.name,
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fmt.Sprintf("Read(): Failed to open file '%s': %v", cpuInfoFile, err))
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return
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}
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defer file.Close()
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processorCounter := 0
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now := time.Now()
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scanner := bufio.NewScanner(file)
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for scanner.Scan() {
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lineSplit := strings.Split(scanner.Text(), ":")
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if len(lineSplit) == 2 {
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key := strings.TrimSpace(lineSplit[0])
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// frequency
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if key == "cpu MHz" {
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t := m.topology[processorCounter]
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if !t.isHT {
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value, err := strconv.ParseFloat(strings.TrimSpace(lineSplit[1]), 64)
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if err != nil {
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cclog.ComponentError(
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m.name,
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fmt.Sprintf("Read(): Failed to convert cpu MHz '%s' to float64: %v", lineSplit[1], err))
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return
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}
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if y, err := lp.New("cpufreq", t.tagSet, m.meta, map[string]interface{}{"value": value}, now); err == nil {
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output <- y
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}
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}
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processorCounter++
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}
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}
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}
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}
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func (m *CPUFreqCpuInfoCollector) Close() {
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m.init = false
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}
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