forked from cerc-io/plugeth
afe0b65405
This removes the dashboard project. The dashboard was an experimental browser UI for geth which displayed metrics and chain information in real time. We are removing it because it has marginal utility and nobody on the team can maintain it. Removing the dashboard removes a lot of dependency code and shaves 6 MB off the geth binary size.
127 lines
5.1 KiB
Go
127 lines
5.1 KiB
Go
// Go port of Coda Hale's Metrics library
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//
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// <https://github.com/rcrowley/go-metrics>
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//
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// Coda Hale's original work: <https://github.com/codahale/metrics>
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package metrics
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import (
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"os"
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"runtime"
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"strings"
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"time"
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"github.com/ethereum/go-ethereum/log"
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)
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// Enabled is checked by the constructor functions for all of the
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// standard metrics. If it is true, the metric returned is a stub.
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//
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// This global kill-switch helps quantify the observer effect and makes
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// for less cluttered pprof profiles.
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var Enabled = false
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// EnabledExpensive is a soft-flag meant for external packages to check if costly
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// metrics gathering is allowed or not. The goal is to separate standard metrics
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// for health monitoring and debug metrics that might impact runtime performance.
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var EnabledExpensive = false
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// enablerFlags is the CLI flag names to use to enable metrics collections.
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var enablerFlags = []string{"metrics"}
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// expensiveEnablerFlags is the CLI flag names to use to enable metrics collections.
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var expensiveEnablerFlags = []string{"metrics.expensive"}
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// Init enables or disables the metrics system. Since we need this to run before
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// any other code gets to create meters and timers, we'll actually do an ugly hack
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// and peek into the command line args for the metrics flag.
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func init() {
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for _, arg := range os.Args {
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flag := strings.TrimLeft(arg, "-")
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for _, enabler := range enablerFlags {
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if !Enabled && flag == enabler {
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log.Info("Enabling metrics collection")
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Enabled = true
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}
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}
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for _, enabler := range expensiveEnablerFlags {
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if !EnabledExpensive && flag == enabler {
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log.Info("Enabling expensive metrics collection")
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EnabledExpensive = true
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}
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}
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}
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}
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// CollectProcessMetrics periodically collects various metrics about the running
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// process.
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func CollectProcessMetrics(refresh time.Duration) {
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// Short circuit if the metrics system is disabled
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if !Enabled {
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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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cpuStats := make([]*CPUStats, 2)
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memstats := make([]*runtime.MemStats, 2)
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diskstats := make([]*DiskStats, 2)
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for i := 0; i < len(memstats); i++ {
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cpuStats[i] = new(CPUStats)
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memstats[i] = new(runtime.MemStats)
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diskstats[i] = new(DiskStats)
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}
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// Define the various metrics to collect
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var (
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cpuSysLoad = GetOrRegisterGauge("system/cpu/sysload", DefaultRegistry)
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cpuSysWait = GetOrRegisterGauge("system/cpu/syswait", DefaultRegistry)
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cpuProcLoad = GetOrRegisterGauge("system/cpu/procload", DefaultRegistry)
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cpuThreads = GetOrRegisterGauge("system/cpu/threads", DefaultRegistry)
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cpuGoroutines = GetOrRegisterGauge("system/cpu/goroutines", DefaultRegistry)
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memPauses = GetOrRegisterMeter("system/memory/pauses", DefaultRegistry)
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memAllocs = GetOrRegisterMeter("system/memory/allocs", DefaultRegistry)
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memFrees = GetOrRegisterMeter("system/memory/frees", DefaultRegistry)
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memHeld = GetOrRegisterGauge("system/memory/held", DefaultRegistry)
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memUsed = GetOrRegisterGauge("system/memory/used", DefaultRegistry)
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diskReads = GetOrRegisterMeter("system/disk/readcount", DefaultRegistry)
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diskReadBytes = GetOrRegisterMeter("system/disk/readdata", DefaultRegistry)
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diskReadBytesCounter = GetOrRegisterCounter("system/disk/readbytes", DefaultRegistry)
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diskWrites = GetOrRegisterMeter("system/disk/writecount", DefaultRegistry)
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diskWriteBytes = GetOrRegisterMeter("system/disk/writedata", DefaultRegistry)
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diskWriteBytesCounter = GetOrRegisterCounter("system/disk/writebytes", DefaultRegistry)
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)
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// Iterate loading the different stats and updating the meters
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for i := 1; ; i++ {
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location1 := i % 2
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location2 := (i - 1) % 2
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ReadCPUStats(cpuStats[location1])
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cpuSysLoad.Update((cpuStats[location1].GlobalTime - cpuStats[location2].GlobalTime) / refreshFreq)
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cpuSysWait.Update((cpuStats[location1].GlobalWait - cpuStats[location2].GlobalWait) / refreshFreq)
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cpuProcLoad.Update((cpuStats[location1].LocalTime - cpuStats[location2].LocalTime) / refreshFreq)
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cpuThreads.Update(int64(threadCreateProfile.Count()))
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cpuGoroutines.Update(int64(runtime.NumGoroutine()))
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runtime.ReadMemStats(memstats[location1])
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memPauses.Mark(int64(memstats[location1].PauseTotalNs - memstats[location2].PauseTotalNs))
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memAllocs.Mark(int64(memstats[location1].Mallocs - memstats[location2].Mallocs))
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memFrees.Mark(int64(memstats[location1].Frees - memstats[location2].Frees))
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memHeld.Update(int64(memstats[location1].HeapSys - memstats[location1].HeapReleased))
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memUsed.Update(int64(memstats[location1].Alloc))
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if ReadDiskStats(diskstats[location1]) == nil {
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diskReads.Mark(diskstats[location1].ReadCount - diskstats[location2].ReadCount)
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diskReadBytes.Mark(diskstats[location1].ReadBytes - diskstats[location2].ReadBytes)
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diskWrites.Mark(diskstats[location1].WriteCount - diskstats[location2].WriteCount)
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diskWriteBytes.Mark(diskstats[location1].WriteBytes - diskstats[location2].WriteBytes)
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diskReadBytesCounter.Inc(diskstats[location1].ReadBytes - diskstats[location2].ReadBytes)
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diskWriteBytesCounter.Inc(diskstats[location1].WriteBytes - diskstats[location2].WriteBytes)
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}
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time.Sleep(refresh)
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}
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}
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