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// Copyright 2016 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 agent provides hooks programs can register to retrieve
// diagnostics data by using gops.
package agent
import (
"bufio"
"context"
"encoding/binary"
"fmt"
"io"
"io/ioutil"
"net"
"os"
gosignal "os/signal"
"path/filepath"
"runtime"
"runtime/debug"
"runtime/pprof"
"runtime/trace"
"strconv"
"strings"
"sync"
"syscall"
"time"
"github.com/google/gops/internal"
"github.com/google/gops/signal"
)
const defaultAddr = "127.0.0.1:0"
var (
mu sync.Mutex
portfile string
listener net.Listener
units = []string{" bytes", "KB", "MB", "GB", "TB", "PB"}
)
// Options allows configuring the started agent.
type Options struct {
// Addr is the host:port the agent will be listening at.
// Optional.
Addr string
// ConfigDir is the directory to store the configuration file,
// PID of the gops process, filename, port as well as content.
// Optional.
ConfigDir string
// ShutdownCleanup automatically cleans up resources if the
// running process receives an interrupt. Otherwise, users
// can call Close before shutting down.
// Optional.
ShutdownCleanup bool
// ReuseSocketAddrAndPort determines whether the SO_REUSEADDR and
// SO_REUSEPORT socket options should be set on the listening socket of
// the agent. This option is only effective on unix-like OSes and if
// Addr is set to a fixed host:port.
// Optional.
ReuseSocketAddrAndPort bool
}
// Listen starts the gops agent on a host process. Once agent started, users
// can use the advanced gops features. The agent will listen to Interrupt
// signals and exit the process, if you need to perform further work on the
// Interrupt signal use the options parameter to configure the agent
// accordingly.
//
// Note: The agent exposes an endpoint via a TCP connection that can be used by
// any program on the system. Review your security requirements before starting
// the agent.
func Listen(opts Options) error {
mu.Lock()
defer mu.Unlock()
if portfile != "" {
return fmt.Errorf("gops: agent already listening at: %v", listener.Addr())
}
// new
gopsdir := opts.ConfigDir
if gopsdir == "" {
cfgDir, err := internal.ConfigDir()
if err != nil {
return err
}
gopsdir = cfgDir
}
err := os.MkdirAll(gopsdir, os.ModePerm)
if err != nil {
return err
}
if opts.ShutdownCleanup {
gracefulShutdown()
}
addr := opts.Addr
if addr == "" {
addr = defaultAddr
}
var lc net.ListenConfig
if opts.ReuseSocketAddrAndPort {
lc.Control = setReuseAddrAndPortSockopts
}
listener, err = lc.Listen(context.Background(), "tcp", addr)
if err != nil {
return err
}
port := listener.Addr().(*net.TCPAddr).Port
portfile = filepath.Join(gopsdir, strconv.Itoa(os.Getpid()))
err = ioutil.WriteFile(portfile, []byte(strconv.Itoa(port)), os.ModePerm)
if err != nil {
return err
}
go listen(listener)
return nil
}
func listen(l net.Listener) {
buf := make([]byte, 1)
for {
fd, err := l.Accept()
if err != nil {
// No great way to check for this, see https://golang.org/issues/4373.
if !strings.Contains(err.Error(), "use of closed network connection") {
fmt.Fprintf(os.Stderr, "gops: %v\n", err)
}
if netErr, ok := err.(net.Error); ok && !netErr.Temporary() {
break
}
continue
}
if _, err := fd.Read(buf); err != nil {
fmt.Fprintf(os.Stderr, "gops: %v\n", err)
continue
}
if err := handle(fd, buf); err != nil {
fmt.Fprintf(os.Stderr, "gops: %v\n", err)
continue
}
fd.Close()
}
}
func gracefulShutdown() {
c := make(chan os.Signal, 1)
gosignal.Notify(c, syscall.SIGINT, syscall.SIGTERM, syscall.SIGQUIT)
go func() {
// cleanup the socket on shutdown.
sig := <-c
Close()
ret := 1
if sig == syscall.SIGTERM {
ret = 0
}
os.Exit(ret)
}()
}
// Close closes the agent, removing temporary files and closing the TCP listener.
// If no agent is listening, Close does nothing.
func Close() {
mu.Lock()
defer mu.Unlock()
if portfile != "" {
os.Remove(portfile)
portfile = ""
}
if listener != nil {
listener.Close()
}
}
func formatBytes(val uint64) string {
var i int
var target uint64
for i = range units {
target = 1 << uint(10*(i+1))
if val < target {
break
}
}
if i > 0 {
return fmt.Sprintf("%0.2f%s (%d bytes)", float64(val)/(float64(target)/1024), units[i], val)
}
return fmt.Sprintf("%d bytes", val)
}
func handle(conn io.ReadWriter, msg []byte) error {
switch msg[0] {
case signal.StackTrace:
return pprof.Lookup("goroutine").WriteTo(conn, 2)
case signal.GC:
runtime.GC()
_, err := conn.Write([]byte("ok"))
return err
case signal.MemStats:
var s runtime.MemStats
runtime.ReadMemStats(&s)
fmt.Fprintf(conn, "alloc: %v\n", formatBytes(s.Alloc))
fmt.Fprintf(conn, "total-alloc: %v\n", formatBytes(s.TotalAlloc))
fmt.Fprintf(conn, "sys: %v\n", formatBytes(s.Sys))
fmt.Fprintf(conn, "lookups: %v\n", s.Lookups)
fmt.Fprintf(conn, "mallocs: %v\n", s.Mallocs)
fmt.Fprintf(conn, "frees: %v\n", s.Frees)
fmt.Fprintf(conn, "heap-alloc: %v\n", formatBytes(s.HeapAlloc))
fmt.Fprintf(conn, "heap-sys: %v\n", formatBytes(s.HeapSys))
fmt.Fprintf(conn, "heap-idle: %v\n", formatBytes(s.HeapIdle))
fmt.Fprintf(conn, "heap-in-use: %v\n", formatBytes(s.HeapInuse))
fmt.Fprintf(conn, "heap-released: %v\n", formatBytes(s.HeapReleased))
fmt.Fprintf(conn, "heap-objects: %v\n", s.HeapObjects)
fmt.Fprintf(conn, "stack-in-use: %v\n", formatBytes(s.StackInuse))
fmt.Fprintf(conn, "stack-sys: %v\n", formatBytes(s.StackSys))
fmt.Fprintf(conn, "stack-mspan-inuse: %v\n", formatBytes(s.MSpanInuse))
fmt.Fprintf(conn, "stack-mspan-sys: %v\n", formatBytes(s.MSpanSys))
fmt.Fprintf(conn, "stack-mcache-inuse: %v\n", formatBytes(s.MCacheInuse))
fmt.Fprintf(conn, "stack-mcache-sys: %v\n", formatBytes(s.MCacheSys))
fmt.Fprintf(conn, "other-sys: %v\n", formatBytes(s.OtherSys))
fmt.Fprintf(conn, "gc-sys: %v\n", formatBytes(s.GCSys))
fmt.Fprintf(conn, "next-gc: when heap-alloc >= %v\n", formatBytes(s.NextGC))
lastGC := "-"
if s.LastGC != 0 {
lastGC = fmt.Sprint(time.Unix(0, int64(s.LastGC)))
}
fmt.Fprintf(conn, "last-gc: %v\n", lastGC)
fmt.Fprintf(conn, "gc-pause-total: %v\n", time.Duration(s.PauseTotalNs))
fmt.Fprintf(conn, "gc-pause: %v\n", s.PauseNs[(s.NumGC+255)%256])
fmt.Fprintf(conn, "gc-pause-end: %v\n", s.PauseEnd[(s.NumGC+255)%256])
fmt.Fprintf(conn, "num-gc: %v\n", s.NumGC)
fmt.Fprintf(conn, "num-forced-gc: %v\n", s.NumForcedGC)
fmt.Fprintf(conn, "gc-cpu-fraction: %v\n", s.GCCPUFraction)
fmt.Fprintf(conn, "enable-gc: %v\n", s.EnableGC)
fmt.Fprintf(conn, "debug-gc: %v\n", s.DebugGC)
case signal.Version:
fmt.Fprintf(conn, "%v\n", runtime.Version())
case signal.HeapProfile:
return pprof.WriteHeapProfile(conn)
case signal.CPUProfile:
if err := pprof.StartCPUProfile(conn); err != nil {
return err
}
time.Sleep(30 * time.Second)
pprof.StopCPUProfile()
case signal.Stats:
fmt.Fprintf(conn, "goroutines: %v\n", runtime.NumGoroutine())
fmt.Fprintf(conn, "OS threads: %v\n", pprof.Lookup("threadcreate").Count())
fmt.Fprintf(conn, "GOMAXPROCS: %v\n", runtime.GOMAXPROCS(0))
fmt.Fprintf(conn, "num CPU: %v\n", runtime.NumCPU())
case signal.BinaryDump:
path, err := os.Executable()
if err != nil {
return err
}
f, err := os.Open(path)
if err != nil {
return err
}
defer f.Close()
_, err = bufio.NewReader(f).WriteTo(conn)
return err
case signal.Trace:
if err := trace.Start(conn); err != nil {
return err
}
time.Sleep(5 * time.Second)
trace.Stop()
case signal.SetGCPercent:
perc, err := binary.ReadVarint(bufio.NewReader(conn))
if err != nil {
return err
}
fmt.Fprintf(conn, "New GC percent set to %v. Previous value was %v.\n", perc, debug.SetGCPercent(int(perc)))
}
return nil
}
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