func main() { util.PanicHandlers = append(util.PanicHandlers, func(_ interface{}) { // by default the handler already logs the panic os.Exit(1) }) var versionFlag bool // parse flags cjson := flag.String("config", "config.json", "path to config file (json)") flag.BoolVar(&versionFlag, "version", false, "output the version") flag.Parse() // -version if versionFlag { fmt.Println(version) os.Exit(0) } // initialize logging logging.SetupLogs() // initialize resolver config := records.SetConfig(*cjson) res := resolver.New(version, config) errch := make(chan error) // launch DNS server if config.DNSOn { go func() { errch <- <-res.LaunchDNS() }() } // launch HTTP server if config.HTTPOn { go func() { errch <- <-res.LaunchHTTP() }() } changed := make(chan []string, 1) if config.Zk != "" { logging.Verbose.Println("Starting master detector for ZK ", config.Zk) if md, err := detector.New(config.Zk); err != nil { log.Fatalf("failed to create master detector: %v", err) } else if err := md.Detect(detect.NewMasters(config.Masters, changed)); err != nil { log.Fatalf("failed to initialize master detector: %v", err) } } else { changed <- config.Masters } reload := time.NewTicker(time.Second * time.Duration(config.RefreshSeconds)) timeout := time.AfterFunc(zkInitialDetectionTimeout, func() { errch <- fmt.Errorf("master detection timed out after %s", zkInitialDetectionTimeout) }) defer reload.Stop() defer util.HandleCrash() for { select { case <-reload.C: res.Reload() case masters := <-changed: timeout.Stop() logging.VeryVerbose.Printf("new masters detected: %v", masters) res.SetMasters(masters) res.Reload() case err := <-errch: logging.Error.Fatal(err) } } }
func main() { util.PanicHandlers = append(util.PanicHandlers, func(_ interface{}) { // by default the handler already logs the panic os.Exit(1) }) var versionFlag bool // parse flags cjson := flag.String("config", "config.json", "path to config file (json)") flag.BoolVar(&versionFlag, "version", false, "output the version") flag.Parse() // -version if versionFlag { fmt.Println(Version) os.Exit(0) } // initialize logging logging.SetupLogs() // initialize resolver config := records.SetConfig(*cjson) res := resolver.New(Version, config) errch := make(chan error) // launch DNS server if config.DNSOn { go func() { errch <- <-res.LaunchDNS() }() } // launch HTTP server if config.HTTPOn { go func() { errch <- <-res.LaunchHTTP() }() } changed := detectMasters(config.Zk, config.Masters) reload := time.NewTicker(time.Second * time.Duration(config.RefreshSeconds)) zkTimeout := time.Second * time.Duration(config.ZkDetectionTimeout) timeout := time.AfterFunc(zkTimeout, func() { if zkTimeout > 0 { errch <- fmt.Errorf("master detection timed out after %s", zkTimeout) } }) defer reload.Stop() defer util.HandleCrash() for { select { case <-reload.C: res.Reload() case masters := <-changed: if len(masters) == 0 || masters[0] == "" { // no leader timeout.Reset(zkTimeout) } else { timeout.Stop() } logging.VeryVerbose.Printf("new masters detected: %v", masters) res.SetMasters(masters) res.Reload() case err := <-errch: logging.Error.Fatal(err) } } }
func main() { util.PanicHandlers = append(util.PanicHandlers, func(_ interface{}) { // by default the handler already logs the panic os.Exit(1) }) var versionFlag bool // parse flags cjson := flag.String("config", "config.json", "path to config file (json)") flag.BoolVar(&versionFlag, "version", false, "output the version") flag.Parse() // -version if versionFlag { fmt.Println(version) os.Exit(0) } // initialize logging logging.SetupLogs() // initialize resolver config := records.SetConfig(*cjson) resolver := resolver.New(version, config) var dnsErr, httpErr, zkErr <-chan error var newLeader <-chan struct{} // launch DNS server if config.DNSOn { dnsErr = resolver.LaunchDNS() } // launch HTTP server if config.HTTPOn { httpErr = resolver.LaunchHTTP() } // launch Zookeeper listener if config.Zk != "" { newLeader, zkErr = resolver.LaunchZK(zkInitialDetectionTimeout) } else { // uniform behavior when new leader from masters field leader := make(chan struct{}, 1) leader <- struct{}{} newLeader = leader } // print error and terminate handleServerErr := func(name string, err error) { if err != nil { logging.Error.Fatalf("%s failed: %v", name, err) } else { logging.Error.Fatalf("%s stopped unexpectedly", name) } } // generate reload signal; up to 1 reload pending at any time reloadSignal := make(chan struct{}, 1) tryReload := func() { // non-blocking, attempt to queue a reload select { case reloadSignal <- struct{}{}: default: } } // periodic loading of DNS state (pull from Master) go func() { defer util.HandleCrash() reloadTimeout := time.Second * time.Duration(config.RefreshSeconds) reloadTimer := time.AfterFunc(reloadTimeout, tryReload) for _ = range reloadSignal { resolver.Reload() logging.PrintCurLog() reloadTimer.Reset(reloadTimeout) } }() // infinite loop until there is fatal error for { select { case <-newLeader: tryReload() case err := <-dnsErr: handleServerErr("DNS server", err) case err := <-httpErr: handleServerErr("HTTP server", err) case err := <-zkErr: handleServerErr("ZK watcher", err) } } }