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metrics: improve accuracy of CPU gauges (#26793)
This PR changes metrics collection to actually measure the time interval between collections, rather than assume 3 seconds. I did some ad hoc profiling, and on slower hardware (eg, my Raspberry Pi 4) I routinely saw intervals between 3.3 - 3.5 seconds, with some being as high as 4.5 seconds. This will generally cause the CPU gauge readings to be too high, and in some cases can cause impossibly large values for the CPU load metrics (eg. greater than 400 for a 4 core CPU). --------- Co-authored-by: Felix Lange <fjl@twurst.com>
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@ -17,8 +17,9 @@
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package metrics
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// CPUStats is the system and process CPU stats.
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// All values are in seconds.
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type CPUStats struct {
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GlobalTime int64 // Time spent by the CPU working on all processes
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GlobalWait int64 // Time spent by waiting on disk for all processes
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LocalTime int64 // Time spent by the CPU working on this process
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GlobalTime float64 // Time spent by the CPU working on all processes
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GlobalWait float64 // Time spent by waiting on disk for all processes
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LocalTime float64 // Time spent by the CPU working on this process
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}
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@ -38,7 +38,7 @@ func ReadCPUStats(stats *CPUStats) {
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}
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// requesting all cpu times will always return an array with only one time stats entry
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timeStat := timeStats[0]
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stats.GlobalTime = int64((timeStat.User + timeStat.Nice + timeStat.System) * cpu.ClocksPerSec)
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stats.GlobalWait = int64((timeStat.Iowait) * cpu.ClocksPerSec)
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stats.GlobalTime = timeStat.User + timeStat.Nice + timeStat.System
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stats.GlobalWait = timeStat.Iowait
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stats.LocalTime = getProcessCPUTime()
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}
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@ -21,6 +21,6 @@ package metrics
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// getProcessCPUTime returns 0 on Windows as there is no system call to resolve
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// the actual process' CPU time.
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func getProcessCPUTime() int64 {
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func getProcessCPUTime() float64 {
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return 0
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}
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@ -26,11 +26,11 @@ import (
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)
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// getProcessCPUTime retrieves the process' CPU time since program startup.
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func getProcessCPUTime() int64 {
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func getProcessCPUTime() float64 {
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var usage syscall.Rusage
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if err := syscall.Getrusage(syscall.RUSAGE_SELF, &usage); err != nil {
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log.Warn("Failed to retrieve CPU time", "err", err)
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return 0
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}
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return int64(usage.Utime.Sec+usage.Stime.Sec)*100 + int64(usage.Utime.Usec+usage.Stime.Usec)/10000 //nolint:unconvert
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return float64(usage.Utime.Sec+usage.Stime.Sec) + float64(usage.Utime.Usec+usage.Stime.Usec)/1000000 //nolint:unconvert
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}
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@ -127,8 +127,6 @@ func CollectProcessMetrics(refresh time.Duration) {
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return
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}
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refreshFreq := int64(refresh / time.Second)
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// Create the various data collectors
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var (
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cpustats = make([]CPUStats, 2)
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@ -163,14 +161,25 @@ func CollectProcessMetrics(refresh time.Duration) {
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diskWriteBytesCounter = GetOrRegisterCounter("system/disk/writebytes", DefaultRegistry)
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)
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var lastCollectTime time.Time
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// Iterate loading the different stats and updating the meters.
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now, prev := 0, 1
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for ; ; now, prev = prev, now {
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// CPU
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// Gather CPU times.
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ReadCPUStats(&cpustats[now])
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cpuSysLoad.Update((cpustats[now].GlobalTime - cpustats[prev].GlobalTime) / refreshFreq)
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cpuSysWait.Update((cpustats[now].GlobalWait - cpustats[prev].GlobalWait) / refreshFreq)
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cpuProcLoad.Update((cpustats[now].LocalTime - cpustats[prev].LocalTime) / refreshFreq)
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collectTime := time.Now()
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secondsSinceLastCollect := collectTime.Sub(lastCollectTime).Seconds()
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lastCollectTime = collectTime
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if secondsSinceLastCollect > 0 {
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sysLoad := (cpustats[now].GlobalTime - cpustats[prev].GlobalTime) / secondsSinceLastCollect
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sysWait := (cpustats[now].GlobalWait - cpustats[prev].GlobalWait) / secondsSinceLastCollect
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procLoad := (cpustats[now].LocalTime - cpustats[prev].LocalTime) / secondsSinceLastCollect
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// Convert to integer percentage.
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cpuSysLoad.Update(int64(sysLoad * 100))
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cpuSysWait.Update(int64(sysWait * 100))
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cpuProcLoad.Update(int64(procLoad * 100))
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}
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// Threads
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cpuThreads.Update(int64(threadCreateProfile.Count()))
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