// Copyright 2014 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package main import ( "bufio" "cmd/internal/browser" "flag" "fmt" "html/template" "internal/trace" "io" "log" "net" "net/http" "os" "runtime" "runtime/debug" "sync" _ "net/http/pprof" // Required to use pprof ) const usageMessage = "" + `Usage of 'go tool trace': Given a trace file produced by 'go test': go test -trace=trace.out pkg Open a web browser displaying trace: go tool trace [flags] [pkg.test] trace.out Generate a pprof-like profile from the trace: go tool trace -pprof=TYPE [pkg.test] trace.out [pkg.test] argument is required for traces produced by Go 1.6 and below. Go 1.7 does not require the binary argument. Supported profile types are: - net: network blocking profile - sync: synchronization blocking profile - syscall: syscall blocking profile - sched: scheduler latency profile Flags: -http=addr: HTTP service address (e.g., ':6060') -pprof=type: print a pprof-like profile instead -d: print debug info such as parsed events Note that while the various profiles available when launching 'go tool trace' work on every browser, the trace viewer itself (the 'view trace' page) comes from the Chrome/Chromium project and is only actively tested on that browser. ` var ( httpFlag = flag.String("http", "localhost:0", "HTTP service address (e.g., ':6060')") pprofFlag = flag.String("pprof", "", "print a pprof-like profile instead") debugFlag = flag.Bool("d", false, "print debug information such as parsed events list") // The binary file name, left here for serveSVGProfile. programBinary string traceFile string ) func main() { flag.Usage = func() { fmt.Fprintln(os.Stderr, usageMessage) os.Exit(2) } flag.Parse() // Go 1.7 traces embed symbol info and does not require the binary. // But we optionally accept binary as first arg for Go 1.5 traces. switch flag.NArg() { case 1: traceFile = flag.Arg(0) case 2: programBinary = flag.Arg(0) traceFile = flag.Arg(1) default: flag.Usage() } var pprofFunc func(io.Writer, *http.Request) error switch *pprofFlag { case "net": pprofFunc = pprofByGoroutine(computePprofIO) case "sync": pprofFunc = pprofByGoroutine(computePprofBlock) case "syscall": pprofFunc = pprofByGoroutine(computePprofSyscall) case "sched": pprofFunc = pprofByGoroutine(computePprofSched) } if pprofFunc != nil { if err := pprofFunc(os.Stdout, &http.Request{}); err != nil { dief("failed to generate pprof: %v\n", err) } os.Exit(0) } if *pprofFlag != "" { dief("unknown pprof type %s\n", *pprofFlag) } ln, err := net.Listen("tcp", *httpFlag) if err != nil { dief("failed to create server socket: %v\n", err) } log.Print("Parsing trace...") res, err := parseTrace() if err != nil { dief("%v\n", err) } if *debugFlag { trace.Print(res.Events) os.Exit(0) } reportMemoryUsage("after parsing trace") debug.FreeOSMemory() log.Print("Splitting trace...") ranges = splitTrace(res) reportMemoryUsage("after spliting trace") debug.FreeOSMemory() addr := "http://" + ln.Addr().String() log.Printf("Opening browser. Trace viewer is listening on %s", addr) browser.Open(addr) // Start http server. http.HandleFunc("/", httpMain) err = http.Serve(ln, nil) dief("failed to start http server: %v\n", err) } var ranges []Range var loader struct { once sync.Once res trace.ParseResult err error } // parseEvents is a compatibility wrapper that returns only // the Events part of trace.ParseResult returned by parseTrace. func parseEvents() ([]*trace.Event, error) { res, err := parseTrace() if err != nil { return nil, err } return res.Events, err } func parseTrace() (trace.ParseResult, error) { loader.once.Do(func() { tracef, err := os.Open(traceFile) if err != nil { loader.err = fmt.Errorf("failed to open trace file: %v", err) return } defer tracef.Close() // Parse and symbolize. res, err := trace.Parse(bufio.NewReader(tracef), programBinary) if err != nil { loader.err = fmt.Errorf("failed to parse trace: %v", err) return } loader.res = res }) return loader.res, loader.err } // httpMain serves the starting page. func httpMain(w http.ResponseWriter, r *http.Request) { if err := templMain.Execute(w, ranges); err != nil { http.Error(w, err.Error(), http.StatusInternalServerError) return } } var templMain = template.Must(template.New("").Parse(` {{if $}} {{range $e := $}} View trace ({{$e.Name}})
{{end}}
{{else}} View trace
{{end}} Goroutine analysis
Network blocking profile ()
Synchronization blocking profile ()
Syscall blocking profile ()
Scheduler latency profile ()
User-defined tasks
User-defined regions
Minimum mutator utilization
`)) func dief(msg string, args ...interface{}) { fmt.Fprintf(os.Stderr, msg, args...) os.Exit(1) } var debugMemoryUsage bool func init() { v := os.Getenv("DEBUG_MEMORY_USAGE") debugMemoryUsage = v != "" } func reportMemoryUsage(msg string) { if !debugMemoryUsage { return } var s runtime.MemStats runtime.ReadMemStats(&s) w := os.Stderr fmt.Fprintf(w, "%s\n", msg) fmt.Fprintf(w, " Alloc:\t%d Bytes\n", s.Alloc) fmt.Fprintf(w, " Sys:\t%d Bytes\n", s.Sys) fmt.Fprintf(w, " HeapReleased:\t%d Bytes\n", s.HeapReleased) fmt.Fprintf(w, " HeapSys:\t%d Bytes\n", s.HeapSys) fmt.Fprintf(w, " HeapInUse:\t%d Bytes\n", s.HeapInuse) fmt.Fprintf(w, " HeapAlloc:\t%d Bytes\n", s.HeapAlloc) var dummy string fmt.Printf("Enter to continue...") fmt.Scanf("%s", &dummy) }