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Beego/toolbox/profile.go

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package toolbox
import (
"fmt"
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"io"
"log"
"os"
"runtime"
"runtime/debug"
"runtime/pprof"
"strconv"
"time"
)
var startTime = time.Now()
var pid int
func init() {
pid = os.Getpid()
}
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// parse input command string
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func ProcessInput(input string, w io.Writer) {
switch input {
case "lookup goroutine":
p := pprof.Lookup("goroutine")
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p.WriteTo(w, 2)
case "lookup heap":
p := pprof.Lookup("heap")
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p.WriteTo(w, 2)
case "lookup threadcreate":
p := pprof.Lookup("threadcreate")
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p.WriteTo(w, 2)
case "lookup block":
p := pprof.Lookup("block")
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p.WriteTo(w, 2)
case "start cpuprof":
StartCPUProfile()
case "stop cpuprof":
StopCPUProfile()
case "get memprof":
MemProf()
case "gc summary":
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PrintGCSummary(w)
}
}
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// record memory profile in pprof
func MemProf() {
if f, err := os.Create("mem-" + strconv.Itoa(pid) + ".memprof"); err != nil {
log.Fatal("record memory profile failed: %v", err)
} else {
runtime.GC()
pprof.WriteHeapProfile(f)
f.Close()
}
}
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// start cpu profile monitor
func StartCPUProfile() {
f, err := os.Create("cpu-" + strconv.Itoa(pid) + ".pprof")
if err != nil {
log.Fatal(err)
}
pprof.StartCPUProfile(f)
}
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// stop cpu profile monitor
func StopCPUProfile() {
pprof.StopCPUProfile()
}
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// print gc information to io.Writer
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func PrintGCSummary(w io.Writer) {
memStats := &runtime.MemStats{}
runtime.ReadMemStats(memStats)
gcstats := &debug.GCStats{PauseQuantiles: make([]time.Duration, 100)}
debug.ReadGCStats(gcstats)
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printGC(memStats, gcstats, w)
}
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func printGC(memStats *runtime.MemStats, gcstats *debug.GCStats, w io.Writer) {
if gcstats.NumGC > 0 {
lastPause := gcstats.Pause[0]
elapsed := time.Now().Sub(startTime)
overhead := float64(gcstats.PauseTotal) / float64(elapsed) * 100
allocatedRate := float64(memStats.TotalAlloc) / elapsed.Seconds()
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fmt.Fprintf(w, "NumGC:%d Pause:%s Pause(Avg):%s Overhead:%3.2f%% Alloc:%s Sys:%s Alloc(Rate):%s/s Histogram:%s %s %s \n",
gcstats.NumGC,
toS(lastPause),
toS(avg(gcstats.Pause)),
overhead,
toH(memStats.Alloc),
toH(memStats.Sys),
toH(uint64(allocatedRate)),
toS(gcstats.PauseQuantiles[94]),
toS(gcstats.PauseQuantiles[98]),
toS(gcstats.PauseQuantiles[99]))
} else {
// while GC has disabled
elapsed := time.Now().Sub(startTime)
allocatedRate := float64(memStats.TotalAlloc) / elapsed.Seconds()
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fmt.Fprintf(w, "Alloc:%s Sys:%s Alloc(Rate):%s/s\n",
toH(memStats.Alloc),
toH(memStats.Sys),
toH(uint64(allocatedRate)))
}
}
func avg(items []time.Duration) time.Duration {
var sum time.Duration
for _, item := range items {
sum += item
}
return time.Duration(int64(sum) / int64(len(items)))
}
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// format bytes number friendly
func toH(bytes uint64) string {
switch {
case bytes < 1024:
return fmt.Sprintf("%dB", bytes)
case bytes < 1024*1024:
return fmt.Sprintf("%.2fK", float64(bytes)/1024)
case bytes < 1024*1024*1024:
return fmt.Sprintf("%.2fM", float64(bytes)/1024/1024)
default:
return fmt.Sprintf("%.2fG", float64(bytes)/1024/1024/1024)
}
}
// short string format
func toS(d time.Duration) string {
u := uint64(d)
if u < uint64(time.Second) {
switch {
case u == 0:
return "0"
case u < uint64(time.Microsecond):
return fmt.Sprintf("%.2fns", float64(u))
case u < uint64(time.Millisecond):
return fmt.Sprintf("%.2fus", float64(u)/1000)
default:
return fmt.Sprintf("%.2fms", float64(u)/1000/1000)
}
} else {
switch {
case u < uint64(time.Minute):
return fmt.Sprintf("%.2fs", float64(u)/1000/1000/1000)
case u < uint64(time.Hour):
return fmt.Sprintf("%.2fm", float64(u)/1000/1000/1000/60)
default:
return fmt.Sprintf("%.2fh", float64(u)/1000/1000/1000/60/60)
}
}
}