// +build linux darwin package proc import ( "os" "os/signal" "sync" "syscall" "time" "github.com/tal-tech/go-zero/core/logx" ) const ( wrapUpTime = time.Second // why we use 5500 milliseconds is because most of our queue are blocking mode with 5 seconds waitTime = 5500 * time.Millisecond ) var ( wrapUpListeners = new(listenerManager) shutdownListeners = new(listenerManager) delayTimeBeforeForceQuit = waitTime ) // AddShutdownListener adds fn as a shutdown listener. // The returned func can be used to wait for fn getting called. func AddShutdownListener(fn func()) (waitForCalled func()) { return shutdownListeners.addListener(fn) } // AddWrapUpListener adds fn as a wrap up listener. // The returned func can be used to wait for fn getting called. func AddWrapUpListener(fn func()) (waitForCalled func()) { return wrapUpListeners.addListener(fn) } // SetTimeToForceQuit sets the waiting time before force quitting. func SetTimeToForceQuit(duration time.Duration) { delayTimeBeforeForceQuit = duration } func gracefulStop(signals chan os.Signal) { signal.Stop(signals) logx.Info("Got signal SIGTERM, shutting down...") wrapUpListeners.notifyListeners() time.Sleep(wrapUpTime) shutdownListeners.notifyListeners() time.Sleep(delayTimeBeforeForceQuit - wrapUpTime) logx.Infof("Still alive after %v, going to force kill the process...", delayTimeBeforeForceQuit) syscall.Kill(syscall.Getpid(), syscall.SIGTERM) } type listenerManager struct { lock sync.Mutex waitGroup sync.WaitGroup listeners []func() } func (lm *listenerManager) addListener(fn func()) (waitForCalled func()) { lm.waitGroup.Add(1) lm.lock.Lock() lm.listeners = append(lm.listeners, func() { defer lm.waitGroup.Done() fn() }) lm.lock.Unlock() return func() { lm.waitGroup.Wait() } } func (lm *listenerManager) notifyListeners() { lm.lock.Lock() defer lm.lock.Unlock() for _, listener := range lm.listeners { listener() } }