node_exporter/collector/perf_linux.go

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// Copyright 2019 The Prometheus Authors
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//go:build !noperf
// +build !noperf
package collector
import (
"fmt"
"runtime"
"strconv"
"strings"
"github.com/alecthomas/kingpin/v2"
"github.com/go-kit/log"
"github.com/go-kit/log/level"
"github.com/hodgesds/perf-utils"
"github.com/prometheus/client_golang/prometheus"
"golang.org/x/sys/unix"
)
const (
perfSubsystem = "perf"
)
var (
perfCPUsFlag = kingpin.Flag("collector.perf.cpus", "List of CPUs from which perf metrics should be collected").Default("").String()
perfTracepointFlag = kingpin.Flag("collector.perf.tracepoint", "perf tracepoint that should be collected").Strings()
perfNoHwProfiler = kingpin.Flag("collector.perf.disable-hardware-profilers", "disable perf hardware profilers").Default("false").Bool()
perfHwProfilerFlag = kingpin.Flag("collector.perf.hardware-profilers", "perf hardware profilers that should be collected").Strings()
perfNoSwProfiler = kingpin.Flag("collector.perf.disable-software-profilers", "disable perf software profilers").Default("false").Bool()
perfSwProfilerFlag = kingpin.Flag("collector.perf.software-profilers", "perf software profilers that should be collected").Strings()
perfNoCaProfiler = kingpin.Flag("collector.perf.disable-cache-profilers", "disable perf cache profilers").Default("false").Bool()
perfCaProfilerFlag = kingpin.Flag("collector.perf.cache-profilers", "perf cache profilers that should be collected").Strings()
)
func init() {
registerCollector(perfSubsystem, defaultDisabled, NewPerfCollector)
}
var (
perfHardwareProfilerMap = map[string]perf.HardwareProfilerType{
"CpuCycles": perf.CpuCyclesProfiler,
"CpuInstr": perf.CpuInstrProfiler,
"CacheRef": perf.CacheRefProfiler,
"CacheMisses": perf.CacheMissesProfiler,
"BranchInstr": perf.BranchInstrProfiler,
"BranchMisses": perf.BranchMissesProfiler,
"StalledCyclesBackend": perf.StalledCyclesBackendProfiler,
"StalledCyclesFrontend": perf.StalledCyclesFrontendProfiler,
"RefCpuCycles": perf.RefCpuCyclesProfiler,
// "BusCycles": perf.BusCyclesProfiler,
}
perfSoftwareProfilerMap = map[string]perf.SoftwareProfilerType{
"PageFault": perf.PageFaultProfiler,
"ContextSwitch": perf.ContextSwitchProfiler,
"CpuMigration": perf.CpuMigrationProfiler,
"MinorFault": perf.MinorFaultProfiler,
"MajorFault": perf.MajorFaultProfiler,
// "CpuClock": perf.CpuClockProfiler,
// "TaskClock": perf.TaskClockProfiler,
// "AlignFault": perf.AlignFaultProfiler,
// "EmuFault": perf.EmuFaultProfiler,
}
perfCacheProfilerMap = map[string]perf.CacheProfilerType{
"L1DataReadHit": perf.L1DataReadHitProfiler,
"L1DataReadMiss": perf.L1DataReadMissProfiler,
"L1DataWriteHit": perf.L1DataWriteHitProfiler,
"L1InstrReadMiss": perf.L1InstrReadMissProfiler,
"LLReadHit": perf.LLReadHitProfiler,
"LLReadMiss": perf.LLReadMissProfiler,
"LLWriteHit": perf.LLWriteHitProfiler,
"LLWriteMiss": perf.LLWriteMissProfiler,
"InstrTLBReadHit": perf.InstrTLBReadHitProfiler,
"InstrTLBReadMiss": perf.InstrTLBReadMissProfiler,
"BPUReadHit": perf.BPUReadHitProfiler,
"BPUReadMiss": perf.BPUReadMissProfiler,
// "L1InstrReadHit": perf.L1InstrReadHitProfiler,
// "DataTLBReadHit": perf.DataTLBReadHitProfiler,
// "DataTLBReadMiss": perf.DataTLBReadMissProfiler,
// "DataTLBWriteHit": perf.DataTLBWriteHitProfiler,
// "DataTLBWriteMiss": perf.DataTLBWriteMissProfiler,
// "NodeCacheReadHit": perf.NodeCacheReadHitProfiler,
// "NodeCacheReadMiss": perf.NodeCacheReadMissProfiler,
// "NodeCacheWriteHit": perf.NodeCacheWriteHitProfiler,
// "NodeCacheWriteMiss": perf.NodeCacheWriteMissProfiler,
}
)
// perfTracepointFlagToTracepoints returns the set of configured tracepoints.
func perfTracepointFlagToTracepoints(tracepointsFlag []string) ([]*perfTracepoint, error) {
tracepoints := make([]*perfTracepoint, len(tracepointsFlag))
for i, tracepoint := range tracepointsFlag {
split := strings.Split(tracepoint, ":")
if len(split) != 2 {
return nil, fmt.Errorf("invalid tracepoint config %v", tracepoint)
}
tracepoints[i] = &perfTracepoint{
subsystem: split[0],
event: split[1],
}
}
return tracepoints, nil
}
// perfCPUFlagToCPUs returns a set of CPUs for the perf collectors to monitor.
func perfCPUFlagToCPUs(cpuFlag string) ([]int, error) {
var err error
cpus := []int{}
for _, subset := range strings.Split(cpuFlag, ",") {
// First parse a single CPU.
if !strings.Contains(subset, "-") {
cpu, err := strconv.Atoi(subset)
if err != nil {
return nil, err
}
cpus = append(cpus, cpu)
continue
}
stride := 1
// Handle strides, ie 1-10:5 should yield 1,5,10
strideSet := strings.Split(subset, ":")
if len(strideSet) == 2 {
stride, err = strconv.Atoi(strideSet[1])
if err != nil {
return nil, err
}
}
rangeSet := strings.Split(strideSet[0], "-")
if len(rangeSet) != 2 {
return nil, fmt.Errorf("invalid flag value %q", cpuFlag)
}
start, err := strconv.Atoi(rangeSet[0])
if err != nil {
return nil, err
}
end, err := strconv.Atoi(rangeSet[1])
if err != nil {
return nil, err
}
for i := start; i <= end; i += stride {
cpus = append(cpus, i)
}
}
return cpus, nil
}
// perfTracepoint is a struct for holding tracepoint information.
type perfTracepoint struct {
subsystem string
event string
}
// label returns the tracepoint name in the format of subsystem_tracepoint.
func (t *perfTracepoint) label() string {
return t.subsystem + "_" + t.event
}
// tracepoint returns the tracepoint name in the format of subsystem:tracepoint.
func (t *perfTracepoint) tracepoint() string {
return t.subsystem + ":" + t.event
}
// perfCollector is a Collector that uses the perf subsystem to collect
// metrics. It uses perf_event_open an ioctls for profiling. Due to the fact
// that the perf subsystem is highly dependent on kernel configuration and
// settings not all profiler values may be exposed on the target system at any
// given time.
type perfCollector struct {
hwProfilerCPUMap map[*perf.HardwareProfiler]int
swProfilerCPUMap map[*perf.SoftwareProfiler]int
cacheProfilerCPUMap map[*perf.CacheProfiler]int
perfHwProfilers map[int]*perf.HardwareProfiler
perfSwProfilers map[int]*perf.SoftwareProfiler
perfCacheProfilers map[int]*perf.CacheProfiler
desc map[string]*prometheus.Desc
logger log.Logger
tracepointCollector *perfTracepointCollector
}
type perfTracepointCollector struct {
// desc is the mapping of subsystem to tracepoint *prometheus.Desc.
descs map[string]map[string]*prometheus.Desc
// collection order is the sorted configured collection order of the profiler.
collectionOrder []string
logger log.Logger
profilers map[int]perf.GroupProfiler
}
// update is used collect all tracepoints across all tracepoint profilers.
func (c *perfTracepointCollector) update(ch chan<- prometheus.Metric) error {
for cpu := range c.profilers {
if err := c.updateCPU(cpu, ch); err != nil {
return err
}
}
return nil
}
// updateCPU is used to update metrics per CPU profiler.
func (c *perfTracepointCollector) updateCPU(cpu int, ch chan<- prometheus.Metric) error {
profiler := c.profilers[cpu]
p := &perf.GroupProfileValue{}
if err := profiler.Profile(p); err != nil {
level.Error(c.logger).Log("msg", "Failed to collect tracepoint profile", "err", err)
return err
}
cpuid := strconv.Itoa(cpu)
for i, value := range p.Values {
// Get the Desc from the ordered group value.
descKey := c.collectionOrder[i]
descKeySlice := strings.Split(descKey, ":")
ch <- prometheus.MustNewConstMetric(
c.descs[descKeySlice[0]][descKeySlice[1]],
prometheus.CounterValue,
float64(value),
cpuid,
)
}
return nil
}
// newPerfTracepointCollector returns a configured perfTracepointCollector.
func newPerfTracepointCollector(
logger log.Logger,
tracepointsFlag []string,
cpus []int,
) (*perfTracepointCollector, error) {
tracepoints, err := perfTracepointFlagToTracepoints(tracepointsFlag)
if err != nil {
return nil, err
}
collectionOrder := make([]string, len(tracepoints))
descs := map[string]map[string]*prometheus.Desc{}
eventAttrs := make([]unix.PerfEventAttr, len(tracepoints))
for i, tracepoint := range tracepoints {
eventAttr, err := perf.TracepointEventAttr(tracepoint.subsystem, tracepoint.event)
if err != nil {
return nil, err
}
eventAttrs[i] = *eventAttr
collectionOrder[i] = tracepoint.tracepoint()
if _, ok := descs[tracepoint.subsystem]; !ok {
descs[tracepoint.subsystem] = map[string]*prometheus.Desc{}
}
descs[tracepoint.subsystem][tracepoint.event] = prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
tracepoint.label(),
),
"Perf tracepoint "+tracepoint.tracepoint(),
[]string{"cpu"},
nil,
)
}
profilers := make(map[int]perf.GroupProfiler, len(cpus))
for _, cpu := range cpus {
profiler, err := perf.NewGroupProfiler(-1, cpu, 0, eventAttrs...)
if err != nil {
return nil, err
}
profilers[cpu] = profiler
}
c := &perfTracepointCollector{
descs: descs,
collectionOrder: collectionOrder,
profilers: profilers,
logger: logger,
}
for _, profiler := range c.profilers {
if err := profiler.Start(); err != nil {
return nil, err
}
}
return c, nil
}
// NewPerfCollector returns a new perf based collector, it creates a profiler
// per CPU.
func NewPerfCollector(logger log.Logger) (Collector, error) {
collector := &perfCollector{
perfHwProfilers: map[int]*perf.HardwareProfiler{},
perfSwProfilers: map[int]*perf.SoftwareProfiler{},
perfCacheProfilers: map[int]*perf.CacheProfiler{},
hwProfilerCPUMap: map[*perf.HardwareProfiler]int{},
swProfilerCPUMap: map[*perf.SoftwareProfiler]int{},
cacheProfilerCPUMap: map[*perf.CacheProfiler]int{},
logger: logger,
}
var (
cpus []int
err error
)
if perfCPUsFlag != nil && *perfCPUsFlag != "" {
cpus, err = perfCPUFlagToCPUs(*perfCPUsFlag)
if err != nil {
return nil, err
}
} else {
cpus = make([]int, runtime.NumCPU())
for i := range cpus {
cpus[i] = i
}
}
// First configure any tracepoints.
if *perfTracepointFlag != nil && len(*perfTracepointFlag) > 0 {
tracepointCollector, err := newPerfTracepointCollector(logger, *perfTracepointFlag, cpus)
if err != nil {
return nil, err
}
collector.tracepointCollector = tracepointCollector
}
// Configure perf profilers
hardwareProfilers := perf.AllHardwareProfilers
if *perfHwProfilerFlag != nil && len(*perfHwProfilerFlag) > 0 {
// hardwareProfilers = 0
for _, hf := range *perfHwProfilerFlag {
if v, ok := perfHardwareProfilerMap[hf]; ok {
hardwareProfilers |= v
}
}
}
softwareProfilers := perf.AllSoftwareProfilers
if *perfSwProfilerFlag != nil && len(*perfSwProfilerFlag) > 0 {
// softwareProfilers = 0
for _, sf := range *perfSwProfilerFlag {
if v, ok := perfSoftwareProfilerMap[sf]; ok {
softwareProfilers |= v
}
}
}
cacheProfilers := perf.L1DataReadHitProfiler | perf.L1DataReadMissProfiler | perf.L1DataWriteHitProfiler | perf.L1InstrReadMissProfiler | perf.InstrTLBReadHitProfiler | perf.InstrTLBReadMissProfiler | perf.LLReadHitProfiler | perf.LLReadMissProfiler | perf.LLWriteHitProfiler | perf.LLWriteMissProfiler | perf.BPUReadHitProfiler | perf.BPUReadMissProfiler
if *perfCaProfilerFlag != nil && len(*perfCaProfilerFlag) > 0 {
cacheProfilers = 0
for _, cf := range *perfCaProfilerFlag {
if v, ok := perfCacheProfilerMap[cf]; ok {
cacheProfilers |= v
}
}
}
// Configure all profilers for the specified CPUs.
for _, cpu := range cpus {
// Use -1 to profile all processes on the CPU, see:
// man perf_event_open
if !*perfNoHwProfiler {
hwProf, err := perf.NewHardwareProfiler(
-1,
cpu,
hardwareProfilers,
)
if err != nil && !hwProf.HasProfilers() {
return nil, err
}
if err := hwProf.Start(); err != nil {
return nil, err
}
collector.perfHwProfilers[cpu] = &hwProf
collector.hwProfilerCPUMap[&hwProf] = cpu
}
if !*perfNoSwProfiler {
swProf, err := perf.NewSoftwareProfiler(-1, cpu, softwareProfilers)
if err != nil && !swProf.HasProfilers() {
return nil, err
}
if err := swProf.Start(); err != nil {
return nil, err
}
collector.perfSwProfilers[cpu] = &swProf
collector.swProfilerCPUMap[&swProf] = cpu
}
if !*perfNoCaProfiler {
cacheProf, err := perf.NewCacheProfiler(
-1,
cpu,
cacheProfilers,
)
if err != nil && !cacheProf.HasProfilers() {
return nil, err
}
if err := cacheProf.Start(); err != nil {
return nil, err
}
collector.perfCacheProfilers[cpu] = &cacheProf
collector.cacheProfilerCPUMap[&cacheProf] = cpu
}
}
collector.desc = map[string]*prometheus.Desc{
"cpucycles_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cpucycles_total",
),
"Number of CPU cycles (frequency scaled)",
[]string{"cpu"},
nil,
),
"instructions_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"instructions_total",
),
"Number of CPU instructions",
[]string{"cpu"},
nil,
),
"branch_instructions_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"branch_instructions_total",
),
"Number of CPU branch instructions",
[]string{"cpu"},
nil,
),
"branch_misses_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"branch_misses_total",
),
"Number of CPU branch misses",
[]string{"cpu"},
nil,
),
"cache_refs_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cache_refs_total",
),
"Number of cache references (non frequency scaled)",
[]string{"cpu"},
nil,
),
"cache_misses_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cache_misses_total",
),
"Number of cache misses",
[]string{"cpu"},
nil,
),
"ref_cpucycles_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"ref_cpucycles_total",
),
"Number of CPU cycles",
[]string{"cpu"},
nil,
),
"stalled_cycles_backend_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"stalled_cycles_backend_total",
),
"Number of stalled backend CPU cycles",
[]string{"cpu"},
nil,
),
"stalled_cycles_frontend_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"stalled_cycles_frontend_total",
),
"Number of stalled frontend CPU cycles",
[]string{"cpu"},
nil,
),
"page_faults_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"page_faults_total",
),
"Number of page faults",
[]string{"cpu"},
nil,
),
"context_switches_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"context_switches_total",
),
"Number of context switches",
[]string{"cpu"},
nil,
),
"cpu_migrations_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cpu_migrations_total",
),
"Number of CPU process migrations",
[]string{"cpu"},
nil,
),
"minor_faults_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"minor_faults_total",
),
"Number of minor page faults",
[]string{"cpu"},
nil,
),
"major_faults_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"major_faults_total",
),
"Number of major page faults",
[]string{"cpu"},
nil,
),
"cache_l1d_read_hits_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cache_l1d_read_hits_total",
),
"Number L1 data cache read hits",
[]string{"cpu"},
nil,
),
"cache_l1d_read_misses_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cache_l1d_read_misses_total",
),
"Number L1 data cache read misses",
[]string{"cpu"},
nil,
),
"cache_l1d_write_hits_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cache_l1d_write_hits_total",
),
"Number L1 data cache write hits",
[]string{"cpu"},
nil,
),
"cache_l1_instr_read_misses_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cache_l1_instr_read_misses_total",
),
"Number instruction L1 instruction read misses",
[]string{"cpu"},
nil,
),
"cache_tlb_instr_read_hits_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cache_tlb_instr_read_hits_total",
),
"Number instruction TLB read hits",
[]string{"cpu"},
nil,
),
"cache_tlb_instr_read_misses_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cache_tlb_instr_read_misses_total",
),
"Number instruction TLB read misses",
[]string{"cpu"},
nil,
),
"cache_ll_read_hits_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cache_ll_read_hits_total",
),
"Number last level read hits",
[]string{"cpu"},
nil,
),
"cache_ll_read_misses_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cache_ll_read_misses_total",
),
"Number last level read misses",
[]string{"cpu"},
nil,
),
"cache_ll_write_hits_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cache_ll_write_hits_total",
),
"Number last level write hits",
[]string{"cpu"},
nil,
),
"cache_ll_write_misses_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cache_ll_write_misses_total",
),
"Number last level write misses",
[]string{"cpu"},
nil,
),
"cache_bpu_read_hits_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cache_bpu_read_hits_total",
),
"Number BPU read hits",
[]string{"cpu"},
nil,
),
"cache_bpu_read_misses_total": prometheus.NewDesc(
prometheus.BuildFQName(
namespace,
perfSubsystem,
"cache_bpu_read_misses_total",
),
"Number BPU read misses",
[]string{"cpu"},
nil,
),
}
return collector, nil
}
// Update implements the Collector interface and will collect metrics per CPU.
func (c *perfCollector) Update(ch chan<- prometheus.Metric) error {
if err := c.updateHardwareStats(ch); err != nil {
return err
}
if err := c.updateSoftwareStats(ch); err != nil {
return err
}
if err := c.updateCacheStats(ch); err != nil {
return err
}
if c.tracepointCollector != nil {
return c.tracepointCollector.update(ch)
}
return nil
}
func (c *perfCollector) updateHardwareStats(ch chan<- prometheus.Metric) error {
for _, profiler := range c.perfHwProfilers {
hwProfile := &perf.HardwareProfile{}
if err := (*profiler).Profile(hwProfile); err != nil {
return err
}
cpuid := strconv.Itoa(c.hwProfilerCPUMap[profiler])
if hwProfile.CPUCycles != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cpucycles_total"],
prometheus.CounterValue, float64(*hwProfile.CPUCycles),
cpuid,
)
}
if hwProfile.Instructions != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["instructions_total"],
prometheus.CounterValue, float64(*hwProfile.Instructions),
cpuid,
)
}
if hwProfile.BranchInstr != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["branch_instructions_total"],
prometheus.CounterValue, float64(*hwProfile.BranchInstr),
cpuid,
)
}
if hwProfile.BranchMisses != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["branch_misses_total"],
prometheus.CounterValue, float64(*hwProfile.BranchMisses),
cpuid,
)
}
if hwProfile.CacheRefs != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cache_refs_total"],
prometheus.CounterValue, float64(*hwProfile.CacheRefs),
cpuid,
)
}
if hwProfile.CacheMisses != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cache_misses_total"],
prometheus.CounterValue, float64(*hwProfile.CacheMisses),
cpuid,
)
}
if hwProfile.RefCPUCycles != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["ref_cpucycles_total"],
prometheus.CounterValue, float64(*hwProfile.RefCPUCycles),
cpuid,
)
}
if hwProfile.StalledCyclesBackend != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["stalled_cycles_backend_total"],
prometheus.CounterValue, float64(*hwProfile.StalledCyclesBackend),
cpuid,
)
}
if hwProfile.StalledCyclesFrontend != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["stalled_cycles_frontend_total"],
prometheus.CounterValue, float64(*hwProfile.StalledCyclesFrontend),
cpuid,
)
}
}
return nil
}
func (c *perfCollector) updateSoftwareStats(ch chan<- prometheus.Metric) error {
for _, profiler := range c.perfSwProfilers {
swProfile := &perf.SoftwareProfile{}
if err := (*profiler).Profile(swProfile); err != nil {
return err
}
cpuid := strconv.Itoa(c.swProfilerCPUMap[profiler])
if swProfile.PageFaults != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["page_faults_total"],
prometheus.CounterValue, float64(*swProfile.PageFaults),
cpuid,
)
}
if swProfile.ContextSwitches != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["context_switches_total"],
prometheus.CounterValue, float64(*swProfile.ContextSwitches),
cpuid,
)
}
if swProfile.CPUMigrations != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cpu_migrations_total"],
prometheus.CounterValue, float64(*swProfile.CPUMigrations),
cpuid,
)
}
if swProfile.MinorPageFaults != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["minor_faults_total"],
prometheus.CounterValue, float64(*swProfile.MinorPageFaults),
cpuid,
)
}
if swProfile.MajorPageFaults != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["major_faults_total"],
prometheus.CounterValue, float64(*swProfile.MajorPageFaults),
cpuid,
)
}
}
return nil
}
func (c *perfCollector) updateCacheStats(ch chan<- prometheus.Metric) error {
for _, profiler := range c.perfCacheProfilers {
cacheProfile := &perf.CacheProfile{}
if err := (*profiler).Profile(cacheProfile); err != nil {
return err
}
cpuid := strconv.Itoa(c.cacheProfilerCPUMap[profiler])
if cacheProfile.L1DataReadHit != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cache_l1d_read_hits_total"],
prometheus.CounterValue, float64(*cacheProfile.L1DataReadHit),
cpuid,
)
}
if cacheProfile.L1DataReadMiss != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cache_l1d_read_misses_total"],
prometheus.CounterValue, float64(*cacheProfile.L1DataReadMiss),
cpuid,
)
}
if cacheProfile.L1DataWriteHit != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cache_l1d_write_hits_total"],
prometheus.CounterValue, float64(*cacheProfile.L1DataWriteHit),
cpuid,
)
}
if cacheProfile.L1InstrReadMiss != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cache_l1_instr_read_misses_total"],
prometheus.CounterValue, float64(*cacheProfile.L1InstrReadMiss),
cpuid,
)
}
if cacheProfile.InstrTLBReadHit != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cache_tlb_instr_read_hits_total"],
prometheus.CounterValue, float64(*cacheProfile.InstrTLBReadHit),
cpuid,
)
}
if cacheProfile.InstrTLBReadMiss != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cache_tlb_instr_read_misses_total"],
prometheus.CounterValue, float64(*cacheProfile.InstrTLBReadMiss),
cpuid,
)
}
if cacheProfile.LastLevelReadHit != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cache_ll_read_hits_total"],
prometheus.CounterValue, float64(*cacheProfile.LastLevelReadHit),
cpuid,
)
}
if cacheProfile.LastLevelReadMiss != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cache_ll_read_misses_total"],
prometheus.CounterValue, float64(*cacheProfile.LastLevelReadMiss),
cpuid,
)
}
if cacheProfile.LastLevelWriteHit != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cache_ll_write_hits_total"],
prometheus.CounterValue, float64(*cacheProfile.LastLevelWriteHit),
cpuid,
)
}
if cacheProfile.LastLevelWriteMiss != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cache_ll_write_misses_total"],
prometheus.CounterValue, float64(*cacheProfile.LastLevelWriteMiss),
cpuid,
)
}
if cacheProfile.BPUReadHit != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cache_bpu_read_hits_total"],
prometheus.CounterValue, float64(*cacheProfile.BPUReadHit),
cpuid,
)
}
if cacheProfile.BPUReadMiss != nil {
ch <- prometheus.MustNewConstMetric(
c.desc["cache_bpu_read_misses_total"],
prometheus.CounterValue, float64(*cacheProfile.BPUReadMiss),
cpuid,
)
}
}
return nil
}