cfc65a13f6
This commit includes updates that affects the build, testing, and
deployment of Tile38.
- The root level build.sh has been broken up into multiple scripts
and placed in the "scripts" directory.
- The vendor directory has been updated to follow the Go modules
rules, thus `make` should work on isolated environments. Also
some vendored packages may have been updated to a later
version, if needed.
- The Makefile has been updated to allow for making single
binaries such as `make tile38-server`. There is some scaffolding
during the build process, so from now on all binaries should be
made using make. For example, to run a development version of
the tile38-cli binary, do this:
make tile38-cli && ./tile38-cli
not this:
go run cmd/tile38-cli/main.go
- Travis.CI docker push script has been updated to address a
change to Docker's JSON repo meta output, which in turn fixes
a bug where new Tile38 versions were not being properly pushed
to Docker
213 lines
8.6 KiB
Go
213 lines
8.6 KiB
Go
package metrics
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import (
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"runtime"
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"runtime/pprof"
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"time"
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)
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var (
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memStats runtime.MemStats
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runtimeMetrics struct {
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MemStats struct {
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Alloc Gauge
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BuckHashSys Gauge
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DebugGC Gauge
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EnableGC Gauge
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Frees Gauge
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HeapAlloc Gauge
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HeapIdle Gauge
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HeapInuse Gauge
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HeapObjects Gauge
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HeapReleased Gauge
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HeapSys Gauge
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LastGC Gauge
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Lookups Gauge
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Mallocs Gauge
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MCacheInuse Gauge
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MCacheSys Gauge
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MSpanInuse Gauge
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MSpanSys Gauge
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NextGC Gauge
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NumGC Gauge
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GCCPUFraction GaugeFloat64
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PauseNs Histogram
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PauseTotalNs Gauge
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StackInuse Gauge
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StackSys Gauge
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Sys Gauge
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TotalAlloc Gauge
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}
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NumCgoCall Gauge
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NumGoroutine Gauge
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NumThread Gauge
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ReadMemStats Timer
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}
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frees uint64
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lookups uint64
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mallocs uint64
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numGC uint32
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numCgoCalls int64
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threadCreateProfile = pprof.Lookup("threadcreate")
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)
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// Capture new values for the Go runtime statistics exported in
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// runtime.MemStats. This is designed to be called as a goroutine.
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func CaptureRuntimeMemStats(r Registry, d time.Duration) {
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for _ = range time.Tick(d) {
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CaptureRuntimeMemStatsOnce(r)
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}
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}
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// Capture new values for the Go runtime statistics exported in
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// runtime.MemStats. This is designed to be called in a background
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// goroutine. Giving a registry which has not been given to
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// RegisterRuntimeMemStats will panic.
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//
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// Be very careful with this because runtime.ReadMemStats calls the C
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// functions runtime·semacquire(&runtime·worldsema) and runtime·stoptheworld()
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// and that last one does what it says on the tin.
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func CaptureRuntimeMemStatsOnce(r Registry) {
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t := time.Now()
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runtime.ReadMemStats(&memStats) // This takes 50-200us.
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runtimeMetrics.ReadMemStats.UpdateSince(t)
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runtimeMetrics.MemStats.Alloc.Update(int64(memStats.Alloc))
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runtimeMetrics.MemStats.BuckHashSys.Update(int64(memStats.BuckHashSys))
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if memStats.DebugGC {
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runtimeMetrics.MemStats.DebugGC.Update(1)
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} else {
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runtimeMetrics.MemStats.DebugGC.Update(0)
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}
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if memStats.EnableGC {
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runtimeMetrics.MemStats.EnableGC.Update(1)
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} else {
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runtimeMetrics.MemStats.EnableGC.Update(0)
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}
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runtimeMetrics.MemStats.Frees.Update(int64(memStats.Frees - frees))
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runtimeMetrics.MemStats.HeapAlloc.Update(int64(memStats.HeapAlloc))
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runtimeMetrics.MemStats.HeapIdle.Update(int64(memStats.HeapIdle))
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runtimeMetrics.MemStats.HeapInuse.Update(int64(memStats.HeapInuse))
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runtimeMetrics.MemStats.HeapObjects.Update(int64(memStats.HeapObjects))
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runtimeMetrics.MemStats.HeapReleased.Update(int64(memStats.HeapReleased))
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runtimeMetrics.MemStats.HeapSys.Update(int64(memStats.HeapSys))
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runtimeMetrics.MemStats.LastGC.Update(int64(memStats.LastGC))
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runtimeMetrics.MemStats.Lookups.Update(int64(memStats.Lookups - lookups))
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runtimeMetrics.MemStats.Mallocs.Update(int64(memStats.Mallocs - mallocs))
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runtimeMetrics.MemStats.MCacheInuse.Update(int64(memStats.MCacheInuse))
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runtimeMetrics.MemStats.MCacheSys.Update(int64(memStats.MCacheSys))
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runtimeMetrics.MemStats.MSpanInuse.Update(int64(memStats.MSpanInuse))
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runtimeMetrics.MemStats.MSpanSys.Update(int64(memStats.MSpanSys))
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runtimeMetrics.MemStats.NextGC.Update(int64(memStats.NextGC))
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runtimeMetrics.MemStats.NumGC.Update(int64(memStats.NumGC - numGC))
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runtimeMetrics.MemStats.GCCPUFraction.Update(gcCPUFraction(&memStats))
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// <https://code.google.com/p/go/source/browse/src/pkg/runtime/mgc0.c>
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i := numGC % uint32(len(memStats.PauseNs))
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ii := memStats.NumGC % uint32(len(memStats.PauseNs))
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if memStats.NumGC-numGC >= uint32(len(memStats.PauseNs)) {
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for i = 0; i < uint32(len(memStats.PauseNs)); i++ {
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runtimeMetrics.MemStats.PauseNs.Update(int64(memStats.PauseNs[i]))
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}
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} else {
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if i > ii {
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for ; i < uint32(len(memStats.PauseNs)); i++ {
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runtimeMetrics.MemStats.PauseNs.Update(int64(memStats.PauseNs[i]))
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}
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i = 0
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}
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for ; i < ii; i++ {
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runtimeMetrics.MemStats.PauseNs.Update(int64(memStats.PauseNs[i]))
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}
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}
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frees = memStats.Frees
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lookups = memStats.Lookups
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mallocs = memStats.Mallocs
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numGC = memStats.NumGC
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runtimeMetrics.MemStats.PauseTotalNs.Update(int64(memStats.PauseTotalNs))
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runtimeMetrics.MemStats.StackInuse.Update(int64(memStats.StackInuse))
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runtimeMetrics.MemStats.StackSys.Update(int64(memStats.StackSys))
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runtimeMetrics.MemStats.Sys.Update(int64(memStats.Sys))
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runtimeMetrics.MemStats.TotalAlloc.Update(int64(memStats.TotalAlloc))
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currentNumCgoCalls := numCgoCall()
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runtimeMetrics.NumCgoCall.Update(currentNumCgoCalls - numCgoCalls)
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numCgoCalls = currentNumCgoCalls
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runtimeMetrics.NumGoroutine.Update(int64(runtime.NumGoroutine()))
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runtimeMetrics.NumThread.Update(int64(threadCreateProfile.Count()))
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}
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// Register runtimeMetrics for the Go runtime statistics exported in runtime and
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// specifically runtime.MemStats. The runtimeMetrics are named by their
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// fully-qualified Go symbols, i.e. runtime.MemStats.Alloc.
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func RegisterRuntimeMemStats(r Registry) {
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runtimeMetrics.MemStats.Alloc = NewGauge()
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runtimeMetrics.MemStats.BuckHashSys = NewGauge()
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runtimeMetrics.MemStats.DebugGC = NewGauge()
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runtimeMetrics.MemStats.EnableGC = NewGauge()
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runtimeMetrics.MemStats.Frees = NewGauge()
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runtimeMetrics.MemStats.HeapAlloc = NewGauge()
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runtimeMetrics.MemStats.HeapIdle = NewGauge()
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runtimeMetrics.MemStats.HeapInuse = NewGauge()
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runtimeMetrics.MemStats.HeapObjects = NewGauge()
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runtimeMetrics.MemStats.HeapReleased = NewGauge()
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runtimeMetrics.MemStats.HeapSys = NewGauge()
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runtimeMetrics.MemStats.LastGC = NewGauge()
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runtimeMetrics.MemStats.Lookups = NewGauge()
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runtimeMetrics.MemStats.Mallocs = NewGauge()
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runtimeMetrics.MemStats.MCacheInuse = NewGauge()
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runtimeMetrics.MemStats.MCacheSys = NewGauge()
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runtimeMetrics.MemStats.MSpanInuse = NewGauge()
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runtimeMetrics.MemStats.MSpanSys = NewGauge()
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runtimeMetrics.MemStats.NextGC = NewGauge()
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runtimeMetrics.MemStats.NumGC = NewGauge()
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runtimeMetrics.MemStats.GCCPUFraction = NewGaugeFloat64()
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runtimeMetrics.MemStats.PauseNs = NewHistogram(NewExpDecaySample(1028, 0.015))
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runtimeMetrics.MemStats.PauseTotalNs = NewGauge()
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runtimeMetrics.MemStats.StackInuse = NewGauge()
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runtimeMetrics.MemStats.StackSys = NewGauge()
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runtimeMetrics.MemStats.Sys = NewGauge()
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runtimeMetrics.MemStats.TotalAlloc = NewGauge()
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runtimeMetrics.NumCgoCall = NewGauge()
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runtimeMetrics.NumGoroutine = NewGauge()
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runtimeMetrics.NumThread = NewGauge()
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runtimeMetrics.ReadMemStats = NewTimer()
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r.Register("runtime.MemStats.Alloc", runtimeMetrics.MemStats.Alloc)
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r.Register("runtime.MemStats.BuckHashSys", runtimeMetrics.MemStats.BuckHashSys)
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r.Register("runtime.MemStats.DebugGC", runtimeMetrics.MemStats.DebugGC)
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r.Register("runtime.MemStats.EnableGC", runtimeMetrics.MemStats.EnableGC)
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r.Register("runtime.MemStats.Frees", runtimeMetrics.MemStats.Frees)
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r.Register("runtime.MemStats.HeapAlloc", runtimeMetrics.MemStats.HeapAlloc)
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r.Register("runtime.MemStats.HeapIdle", runtimeMetrics.MemStats.HeapIdle)
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r.Register("runtime.MemStats.HeapInuse", runtimeMetrics.MemStats.HeapInuse)
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r.Register("runtime.MemStats.HeapObjects", runtimeMetrics.MemStats.HeapObjects)
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r.Register("runtime.MemStats.HeapReleased", runtimeMetrics.MemStats.HeapReleased)
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r.Register("runtime.MemStats.HeapSys", runtimeMetrics.MemStats.HeapSys)
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r.Register("runtime.MemStats.LastGC", runtimeMetrics.MemStats.LastGC)
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r.Register("runtime.MemStats.Lookups", runtimeMetrics.MemStats.Lookups)
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r.Register("runtime.MemStats.Mallocs", runtimeMetrics.MemStats.Mallocs)
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r.Register("runtime.MemStats.MCacheInuse", runtimeMetrics.MemStats.MCacheInuse)
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r.Register("runtime.MemStats.MCacheSys", runtimeMetrics.MemStats.MCacheSys)
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r.Register("runtime.MemStats.MSpanInuse", runtimeMetrics.MemStats.MSpanInuse)
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r.Register("runtime.MemStats.MSpanSys", runtimeMetrics.MemStats.MSpanSys)
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r.Register("runtime.MemStats.NextGC", runtimeMetrics.MemStats.NextGC)
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r.Register("runtime.MemStats.NumGC", runtimeMetrics.MemStats.NumGC)
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r.Register("runtime.MemStats.GCCPUFraction", runtimeMetrics.MemStats.GCCPUFraction)
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r.Register("runtime.MemStats.PauseNs", runtimeMetrics.MemStats.PauseNs)
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r.Register("runtime.MemStats.PauseTotalNs", runtimeMetrics.MemStats.PauseTotalNs)
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r.Register("runtime.MemStats.StackInuse", runtimeMetrics.MemStats.StackInuse)
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r.Register("runtime.MemStats.StackSys", runtimeMetrics.MemStats.StackSys)
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r.Register("runtime.MemStats.Sys", runtimeMetrics.MemStats.Sys)
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r.Register("runtime.MemStats.TotalAlloc", runtimeMetrics.MemStats.TotalAlloc)
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r.Register("runtime.NumCgoCall", runtimeMetrics.NumCgoCall)
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r.Register("runtime.NumGoroutine", runtimeMetrics.NumGoroutine)
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r.Register("runtime.NumThread", runtimeMetrics.NumThread)
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r.Register("runtime.ReadMemStats", runtimeMetrics.ReadMemStats)
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}
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