package proxy import ( "fmt" "log" "os" "os/exec" "reflect" "sync" "time" ) // Constants related to restart timers with the daemon mode proxies. At some // point we will probably want to expose these knobs to an end user, but // reasonable defaults are chosen. const ( DaemonRestartHealthy = 10 * time.Second // time before considering healthy DaemonRestartBackoffMin = 3 // 3 attempts before backing off DaemonRestartMaxWait = 1 * time.Minute // maximum backoff wait time ) // Daemon is a long-running proxy process. It is expected to keep running // and to use blocking queries to detect changes in configuration, certs, // and more. // // Consul will ensure that if the daemon crashes, that it is restarted. type Daemon struct { // Command is the command to execute to start this daemon. This must // be a Cmd that isn't yet started. Command *exec.Cmd // ProxyToken is the special local-only ACL token that allows a proxy // to communicate to the Connect-specific endpoints. ProxyToken string // Logger is where logs will be sent around the management of this // daemon. The actual logs for the daemon itself will be sent to // a file. Logger *log.Logger // process is the started process lock sync.Mutex stopped bool stopCh chan struct{} process *os.Process } // Start starts the daemon and keeps it running. // // This function returns after the process is successfully started. func (p *Daemon) Start() error { p.lock.Lock() defer p.lock.Unlock() // A stopped proxy cannot be restarted if p.stopped { return fmt.Errorf("stopped") } // If we're already running, that is okay if p.process != nil { return nil } // Setup our stop channel stopCh := make(chan struct{}) p.stopCh = stopCh // Start the loop. go p.keepAlive(stopCh) return nil } // keepAlive starts and keeps the configured process alive until it // is stopped via Stop. func (p *Daemon) keepAlive(stopCh <-chan struct{}) { p.lock.Lock() process := p.process p.lock.Unlock() // attemptsDeadline is the time at which we consider the daemon to have // been alive long enough that we can reset the attempt counter. // // attempts keeps track of the number of restart attempts we've had and // is used to calculate the wait time using an exponential backoff. var attemptsDeadline time.Time var attempts uint for { if process == nil { // If we're passed the attempt deadline then reset the attempts if !attemptsDeadline.IsZero() && time.Now().After(attemptsDeadline) { attempts = 0 } attemptsDeadline = time.Now().Add(DaemonRestartHealthy) attempts++ // Calculate the exponential backoff and wait if we have to if attempts > DaemonRestartBackoffMin { waitTime := (1 << (attempts - DaemonRestartBackoffMin)) * time.Second if waitTime > DaemonRestartMaxWait { waitTime = DaemonRestartMaxWait } if waitTime > 0 { p.Logger.Printf( "[WARN] agent/proxy: waiting %s before restarting daemon", waitTime) timer := time.NewTimer(waitTime) select { case <-timer.C: // Timer is up, good! case <-stopCh: // During our backoff wait, we've been signalled to // quit, so just quit. timer.Stop() return } } } p.lock.Lock() // If we gracefully stopped then don't restart. if p.stopped { p.lock.Unlock() return } // Process isn't started currently. We're restarting. Start it // and save the process if we have it. var err error process, err = p.start() if err == nil { p.process = process } p.lock.Unlock() if err != nil { p.Logger.Printf("[ERR] agent/proxy: error restarting daemon: %s", err) continue } } ps, err := process.Wait() process = nil if err != nil { p.Logger.Printf("[INFO] agent/proxy: daemon exited with error: %s", err) } else if status, ok := exitStatus(ps); ok { p.Logger.Printf("[INFO] agent/proxy: daemon exited with exit code: %d", status) } } } // start starts and returns the process. This will create a copy of the // configured *exec.Command with the modifications documented on Daemon // such as setting the proxy token environmental variable. func (p *Daemon) start() (*os.Process, error) { cmd := *p.Command // Add the proxy token to the environment. We first copy the env because // it is a slice and therefore the "copy" above will only copy the slice // reference. We allocate an exactly sized slice. cmd.Env = make([]string, len(p.Command.Env), len(p.Command.Env)+1) copy(cmd.Env, p.Command.Env) cmd.Env = append(cmd.Env, fmt.Sprintf("%s=%s", EnvProxyToken, p.ProxyToken)) // TODO(mitchellh): temporary until we introduce the file based logging cmd.Stdout = os.Stdout cmd.Stderr = os.Stderr // Args must always contain a 0 entry which is usually the executed binary. // To be safe and a bit more robust we default this, but only to prevent // a panic below. if len(cmd.Args) == 0 { cmd.Args = []string{cmd.Path} } // Start it p.Logger.Printf("[DEBUG] agent/proxy: starting proxy: %q %#v", cmd.Path, cmd.Args[1:]) err := cmd.Start() return cmd.Process, err } // Stop stops the daemon. // // This will attempt a graceful stop (SIGINT) before force killing the // process (SIGKILL). In either case, the process won't be automatically // restarted unless Start is called again. // // This is safe to call multiple times. If the daemon is already stopped, // then this returns no error. func (p *Daemon) Stop() error { p.lock.Lock() defer p.lock.Unlock() // If we're already stopped or never started, then no problem. if p.stopped || p.process == nil { // In the case we never even started, calling Stop makes it so // that we can't ever start in the future, either, so mark this. p.stopped = true return nil } // Note that we've stopped p.stopped = true close(p.stopCh) err := p.process.Signal(os.Interrupt) return err //return p.Command.Process.Kill() } // Equal implements Proxy to check for equality. func (p *Daemon) Equal(raw Proxy) bool { p2, ok := raw.(*Daemon) if !ok { return false } // We compare equality on a subset of the command configuration return p.ProxyToken == p2.ProxyToken && p.Command.Path == p2.Command.Path && p.Command.Dir == p2.Command.Dir && reflect.DeepEqual(p.Command.Args, p2.Command.Args) && reflect.DeepEqual(p.Command.Env, p2.Command.Env) }