//Starts the webserver.
func StartMonitoringServer(port string) *MonitoringServer {
mutex.Lock()
if singleMonitoringServer == nil && port != "" {
singleMonitoringServer = &MonitoringServer{port, make(chan bool), logging.GetLogger(), statistics.NewSimpleStatisticsUser(), make(map[string][]int)}
singleMonitoringServer.statisticUser.SetDataReceiver(statistics.NewCmdStatisticReceiver())
go singleMonitoringServer.run()
}
mutex.Unlock()
return singleMonitoringServer
}
func main() {
//Parse Args
var configPath string
flag.Usage = func() {
fmt.Println(`Nagflux by Philip Griesbacher @ 2015
Commandline Parameter:
-configPath Path to the config file. If no file path is given the default is ./config.gcfg.
`)
}
flag.StringVar(&configPath, "configPath", "config.gcfg", "path to the config file")
flag.Parse()
//Load config
var cfg config.Config
err := gcfg.ReadFileInto(&cfg, configPath)
if err != nil {
panic(err)
}
//Create Logger
logging.InitLogger(cfg.Log.LogFile, cfg.Log.MinSeverity)
log = logging.GetLogger()
resultQueue := make(chan interface{}, int(resultQueueLength))
influx := influx.InfluxConnectorFactory(resultQueue, cfg.Influx.Address, cfg.Influx.Arguments, cfg.Main.DumpFile, cfg.Main.InfluxWorker, cfg.Main.MaxInfluxWorker, cfg.Influx.Version, cfg.Influx.CreateDatabaseIfNotExists)
dumpFileCollector := nagflux.NewDumpfileCollector(resultQueue, cfg.Main.DumpFile)
//Some time for the dumpfile to fill the queue
time.Sleep(time.Duration(100) * time.Millisecond)
liveconnector := &livestatus.LivestatusConnector{log, cfg.Livestatus.Address, cfg.Livestatus.Type}
livestatusCollector := livestatus.NewLivestatusCollector(resultQueue, liveconnector, cfg.Grafana.FieldSeperator)
livestatusCache := livestatus.NewLivestatusCacheBuilder(liveconnector)
log.Info("Nagios Spoolfile Folder: ", cfg.Main.NagiosSpoolfileFolder)
nagiosCollector := spoolfile.NagiosSpoolfileCollectorFactory(cfg.Main.NagiosSpoolfileFolder, cfg.Main.NagiosSpoolfileWorker, resultQueue, cfg.Grafana.FieldSeperator, livestatusCache)
log.Info("Nagflux Spoolfile Folder: ", cfg.Main.NagfluxSpoolfileFolder)
nagfluxCollector := nagflux.NewNagfluxFileCollector(resultQueue, cfg.Main.NagfluxSpoolfileFolder)
statisticUser := statistics.NewSimpleStatisticsUser()
statisticUser.SetDataReceiver(statistics.NewCmdStatisticReceiver())
if cfg.Monitoring.WebserverPort != "" {
monitoring.StartMonitoringServer(cfg.Monitoring.WebserverPort)
}
//Listen for Interrupts
interruptChannel := make(chan os.Signal, 1)
signal.Notify(interruptChannel, syscall.SIGINT)
signal.Notify(interruptChannel, syscall.SIGTERM)
go func() {
<-interruptChannel
log.Warn("Got Interrupted")
cleanUp([]Stoppable{livestatusCollector, livestatusCache, nagiosCollector, dumpFileCollector, nagfluxCollector, influx}, resultQueue)
os.Exit(1)
}()
//Main loop
for {
select {
case <-time.After(time.Duration(updateRate) * time.Second):
queriesSend, measureTime, err := statisticUser.GetData("send")
if err != nil {
continue
}
idleTime := (measureTime.Seconds() - queriesSend.Time.Seconds()/float64(influx.AmountWorkers())) / updateRate
log.Debugf("Buffer len: %d - Idletime in percent: %0.2f ", len(resultQueue), idleTime*100)
if idleTime > 0.25 {
influx.RemoveWorker()
} else if idleTime < 0.1 && float64(len(resultQueue)) > resultQueueLength*0.8 {
influx.AddWorker()
}
}
}
cleanUp([]Stoppable{livestatusCollector, livestatusCache, nagiosCollector, dumpFileCollector, nagfluxCollector, influx}, resultQueue)
}