func TestAuthSetStorage(t *testing.T) { ratingDbAuth, _ = engine.NewMapStorageJson() engine.SetRatingStorage(ratingDbAuth) acntDbAuth, _ = engine.NewMapStorageJson() engine.SetAccountingStorage(acntDbAuth) cfg, _ := config.NewDefaultCGRConfig() config.SetCgrConfig(cfg) rsponder = new(engine.Responder) }
func init() { apierDebitStorage, _ = engine.NewMapStorage() cfg, _ := config.NewDefaultCGRConfig() responder := new(engine.Responder) engine.SetAccountingStorage(apierDebitStorage) engine.SetRatingStorage(apierDebitStorage) apierDebit = &ApierV1{ AccountDb: engine.AccountingStorage(apierDebitStorage), RatingDb: engine.RatingStorage(apierDebitStorage), Config: cfg, Responder: responder, } }
func durInternalRater(cd *engine.CallDescriptor) (time.Duration, error) { ratingDb, err := engine.ConfigureRatingStorage(*ratingdb_type, *ratingdb_host, *ratingdb_port, *ratingdb_name, *ratingdb_user, *ratingdb_pass, *dbdata_encoding, *cacheDumpDir, *loadHistorySize) if err != nil { return nilDuration, fmt.Errorf("Could not connect to rating database: %s", err.Error()) } defer ratingDb.Close() engine.SetRatingStorage(ratingDb) accountDb, err := engine.ConfigureAccountingStorage(*accountdb_type, *accountdb_host, *accountdb_port, *accountdb_name, *accountdb_user, *accountdb_pass, *dbdata_encoding, *cacheDumpDir, *loadHistorySize) if err != nil { return nilDuration, fmt.Errorf("Could not connect to accounting database: %s", err.Error()) } defer accountDb.Close() engine.SetAccountingStorage(accountDb) if err := ratingDb.CacheRatingAll("cgr-tester"); err != nil { return nilDuration, fmt.Errorf("Cache rating error: %s", err.Error()) } if err := accountDb.CacheAccountingAll("cgr-tester"); err != nil { return nilDuration, fmt.Errorf("Cache accounting error: %s", err.Error()) } log.Printf("Runnning %d cycles...", *runs) var result *engine.CallCost j := 0 start := time.Now() for i := 0; i < *runs; i++ { result, err = cd.GetCost() if *memprofile != "" { runtime.MemProfileRate = 1 runtime.GC() f, err := os.Create(*memprofile) if err != nil { log.Fatal(err) } pprof.WriteHeapProfile(f) f.Close() break } j = i } log.Print(result, j, err) memstats := new(runtime.MemStats) runtime.ReadMemStats(memstats) log.Printf("memstats before GC: Kbytes = %d footprint = %d", memstats.HeapAlloc/1024, memstats.Sys/1024) return time.Since(start), nil }
func TestCosts1SetStorage(t *testing.T) { ratingDb, _ = engine.NewMapStorageJson() engine.SetRatingStorage(ratingDb) acntDb, _ = engine.NewMapStorageJson() engine.SetAccountingStorage(acntDb) }
func TestSetStorage2(t *testing.T) { ratingDb2, _ = engine.NewMapStorageJson() engine.SetRatingStorage(ratingDb2) acntDb2, _ = engine.NewMapStorageJson() engine.SetAccountingStorage(acntDb2) }
func TestAcntActsSetStorage(t *testing.T) { ratingDbAcntActs, _ = engine.NewMapStorageJson() engine.SetRatingStorage(ratingDbAcntActs) acntDbAcntActs, _ = engine.NewMapStorageJson() engine.SetAccountingStorage(acntDbAcntActs) }
func TestSMSSetStorageSmsChrg1(t *testing.T) { ratingDb, _ = engine.NewMapStorageJson() engine.SetRatingStorage(ratingDb) acntDb, _ = engine.NewMapStorageJson() engine.SetAccountingStorage(acntDb) }
func main() { flag.Parse() if *version { fmt.Println("CGRateS " + utils.VERSION) return } if *pidFile != "" { writePid() } if *singlecpu { runtime.GOMAXPROCS(1) // Having multiple cpus slows down computing due to CPU management, to be reviewed in future Go releases } if *cpuprofile != "" { f, err := os.Create(*cpuprofile) if err != nil { log.Fatal(err) } pprof.StartCPUProfile(f) defer pprof.StopCPUProfile() } cfg, err = config.NewCGRConfigFromFolder(*cfgDir) if err != nil { utils.Logger.Crit(fmt.Sprintf("Could not parse config: %s exiting!", err)) return } config.SetCgrConfig(cfg) // Share the config object if *raterEnabled { cfg.RaterEnabled = *raterEnabled } if *schedEnabled { cfg.SchedulerEnabled = *schedEnabled } if *cdrsEnabled { cfg.CDRSEnabled = *cdrsEnabled } var ratingDb engine.RatingStorage var accountDb engine.AccountingStorage var logDb engine.LogStorage var loadDb engine.LoadStorage var cdrDb engine.CdrStorage if cfg.RaterEnabled || cfg.SchedulerEnabled { // Only connect to dataDb if necessary ratingDb, err = engine.ConfigureRatingStorage(cfg.TpDbType, cfg.TpDbHost, cfg.TpDbPort, cfg.TpDbName, cfg.TpDbUser, cfg.TpDbPass, cfg.DBDataEncoding) if err != nil { // Cannot configure getter database, show stopper utils.Logger.Crit(fmt.Sprintf("Could not configure dataDb: %s exiting!", err)) return } defer ratingDb.Close() engine.SetRatingStorage(ratingDb) accountDb, err = engine.ConfigureAccountingStorage(cfg.DataDbType, cfg.DataDbHost, cfg.DataDbPort, cfg.DataDbName, cfg.DataDbUser, cfg.DataDbPass, cfg.DBDataEncoding) if err != nil { // Cannot configure getter database, show stopper utils.Logger.Crit(fmt.Sprintf("Could not configure dataDb: %s exiting!", err)) return } defer accountDb.Close() engine.SetAccountingStorage(accountDb) } if cfg.RaterEnabled || cfg.CDRSEnabled || cfg.SchedulerEnabled { // Only connect to storDb if necessary logDb, err = engine.ConfigureLogStorage(cfg.StorDBType, cfg.StorDBHost, cfg.StorDBPort, cfg.StorDBName, cfg.StorDBUser, cfg.StorDBPass, cfg.DBDataEncoding, cfg.StorDBMaxOpenConns, cfg.StorDBMaxIdleConns) if err != nil { // Cannot configure logger database, show stopper utils.Logger.Crit(fmt.Sprintf("Could not configure logger database: %s exiting!", err)) return } defer logDb.Close() engine.SetStorageLogger(logDb) // loadDb,cdrDb and logDb are all mapped on the same stordb storage loadDb = logDb.(engine.LoadStorage) cdrDb = logDb.(engine.CdrStorage) engine.SetCdrStorage(cdrDb) } engine.SetRoundingDecimals(cfg.RoundingDecimals) stopHandled := false // Rpc/http server server := new(engine.Server) // Async starts here, will follow cgrates.json start order exitChan := make(chan bool) // Define internal connections via channels internalBalancerChan := make(chan *balancer2go.Balancer, 1) internalRaterChan := make(chan *engine.Responder, 1) internalSchedulerChan := make(chan *scheduler.Scheduler, 1) internalCdrSChan := make(chan *engine.CdrServer, 1) internalCdrStatSChan := make(chan engine.StatsInterface, 1) internalHistorySChan := make(chan history.Scribe, 1) internalPubSubSChan := make(chan engine.PublisherSubscriber, 1) internalUserSChan := make(chan engine.UserService, 1) internalAliaseSChan := make(chan engine.AliasService, 1) // Start balancer service if cfg.BalancerEnabled { go startBalancer(internalBalancerChan, &stopHandled, exitChan) // Not really needed async here but to cope with uniformity } // Start rater service if cfg.RaterEnabled { go startRater(internalRaterChan, internalBalancerChan, internalSchedulerChan, internalCdrStatSChan, internalHistorySChan, internalPubSubSChan, internalUserSChan, internalAliaseSChan, server, ratingDb, accountDb, loadDb, cdrDb, logDb, &stopHandled, exitChan) } // Start Scheduler if cfg.SchedulerEnabled { go startScheduler(internalSchedulerChan, ratingDb, exitChan) } // Start CDR Server if cfg.CDRSEnabled { go startCDRS(internalCdrSChan, logDb, cdrDb, internalRaterChan, internalPubSubSChan, internalUserSChan, internalAliaseSChan, internalCdrStatSChan, server, exitChan) } // Start CDR Stats server if cfg.CDRStatsEnabled { go startCdrStats(internalCdrStatSChan, ratingDb, accountDb, server) } // Start CDRC components if necessary go startCdrcs(internalCdrSChan, internalRaterChan, exitChan) // Start SM-FreeSWITCH if cfg.SmFsConfig.Enabled { go startSmFreeSWITCH(internalRaterChan, cdrDb, exitChan) // close all sessions on shutdown go shutdownSessionmanagerSingnalHandler(exitChan) } // Start SM-Kamailio if cfg.SmKamConfig.Enabled { go startSmKamailio(internalRaterChan, cdrDb, exitChan) } // Start SM-OpenSIPS if cfg.SmOsipsConfig.Enabled { go startSmOpenSIPS(internalRaterChan, cdrDb, exitChan) } // Register session manager service // FixMe: make sure this is thread safe if cfg.SmFsConfig.Enabled || cfg.SmKamConfig.Enabled || cfg.SmOsipsConfig.Enabled { // Register SessionManagerV1 service smRpc = new(v1.SessionManagerV1) server.RpcRegister(smRpc) } // Start HistoryS service if cfg.HistoryServerEnabled { go startHistoryServer(internalHistorySChan, server, exitChan) } // Start PubSubS service if cfg.PubSubServerEnabled { go startPubSubServer(internalPubSubSChan, accountDb, server) } // Start Aliases service if cfg.AliasesServerEnabled { go startAliasesServer(internalAliaseSChan, accountDb, server, exitChan) } // Start users service if cfg.UserServerEnabled { go startUsersServer(internalUserSChan, accountDb, server, exitChan) } // Serve rpc connections go startRpc(server, internalRaterChan, internalCdrSChan, internalCdrStatSChan, internalHistorySChan, internalPubSubSChan, internalUserSChan, internalAliaseSChan) <-exitChan if *pidFile != "" { if err := os.Remove(*pidFile); err != nil { utils.Logger.Warning("Could not remove pid file: " + err.Error()) } } utils.Logger.Info("Stopped all components. CGRateS shutdown!") }
func main() { flag.Parse() if *version { fmt.Println("CGRateS " + utils.VERSION) return } if *pidFile != "" { writePid() } if *singlecpu { runtime.GOMAXPROCS(1) // Having multiple cpus may slow down computing due to CPU management, to be reviewed in future Go releases } exitChan := make(chan bool) if *cpuprofile != "" { f, err := os.Create(*cpuprofile) if err != nil { log.Fatal(err) } pprof.StartCPUProfile(f) defer pprof.StopCPUProfile() } if *scheduledShutdown != "" { shutdownDur, err := utils.ParseDurationWithSecs(*scheduledShutdown) if err != nil { log.Fatal(err) } go func() { // Schedule shutdown time.Sleep(shutdownDur) exitChan <- true }() } cfg, err = config.NewCGRConfigFromFolder(*cfgDir) if err != nil { log.Fatalf("Could not parse config: ", err) return } lgLevel := cfg.LogLevel if *logLevel != -1 { // Modify the log level if provided by command arguments lgLevel = *logLevel } utils.Logger.SetLogLevel(lgLevel) config.SetCgrConfig(cfg) // Share the config object cache.NewCache(cfg.CacheConfig) var ratingDb engine.RatingStorage var accountDb engine.AccountingStorage var loadDb engine.LoadStorage var cdrDb engine.CdrStorage if cfg.RALsEnabled || cfg.SchedulerEnabled || cfg.CDRStatsEnabled { // Only connect to dataDb if necessary ratingDb, err = engine.ConfigureRatingStorage(cfg.TpDbType, cfg.TpDbHost, cfg.TpDbPort, cfg.TpDbName, cfg.TpDbUser, cfg.TpDbPass, cfg.DBDataEncoding, cfg.CacheConfig, cfg.LoadHistorySize) if err != nil { // Cannot configure getter database, show stopper utils.Logger.Crit(fmt.Sprintf("Could not configure dataDb: %s exiting!", err)) return } defer ratingDb.Close() engine.SetRatingStorage(ratingDb) } if cfg.RALsEnabled || cfg.CDRStatsEnabled || cfg.PubSubServerEnabled || cfg.AliasesServerEnabled || cfg.UserServerEnabled { accountDb, err = engine.ConfigureAccountingStorage(cfg.DataDbType, cfg.DataDbHost, cfg.DataDbPort, cfg.DataDbName, cfg.DataDbUser, cfg.DataDbPass, cfg.DBDataEncoding, cfg.CacheConfig, cfg.LoadHistorySize) if err != nil { // Cannot configure getter database, show stopper utils.Logger.Crit(fmt.Sprintf("Could not configure dataDb: %s exiting!", err)) return } defer accountDb.Close() engine.SetAccountingStorage(accountDb) if err := engine.CheckVersion(nil); err != nil { fmt.Println(err.Error()) return } } if cfg.RALsEnabled || cfg.CDRSEnabled || cfg.SchedulerEnabled { // Only connect to storDb if necessary storDb, err := engine.ConfigureStorStorage(cfg.StorDBType, cfg.StorDBHost, cfg.StorDBPort, cfg.StorDBName, cfg.StorDBUser, cfg.StorDBPass, cfg.DBDataEncoding, cfg.StorDBMaxOpenConns, cfg.StorDBMaxIdleConns, cfg.StorDBCDRSIndexes) if err != nil { // Cannot configure logger database, show stopper utils.Logger.Crit(fmt.Sprintf("Could not configure logger database: %s exiting!", err)) return } defer storDb.Close() // loadDb,cdrDb and storDb are all mapped on the same stordb storage loadDb = storDb.(engine.LoadStorage) cdrDb = storDb.(engine.CdrStorage) engine.SetCdrStorage(cdrDb) } engine.SetRoundingDecimals(cfg.RoundingDecimals) engine.SetRpSubjectPrefixMatching(cfg.RpSubjectPrefixMatching) engine.SetLcrSubjectPrefixMatching(cfg.LcrSubjectPrefixMatching) stopHandled := false // Rpc/http server server := new(utils.Server) // Async starts here, will follow cgrates.json start order // Define internal connections via channels internalBalancerChan := make(chan *balancer2go.Balancer, 1) internalRaterChan := make(chan rpcclient.RpcClientConnection, 1) cacheDoneChan := make(chan struct{}, 1) internalSchedulerChan := make(chan *scheduler.Scheduler, 1) internalCdrSChan := make(chan rpcclient.RpcClientConnection, 1) internalCdrStatSChan := make(chan rpcclient.RpcClientConnection, 1) internalHistorySChan := make(chan rpcclient.RpcClientConnection, 1) internalPubSubSChan := make(chan rpcclient.RpcClientConnection, 1) internalUserSChan := make(chan rpcclient.RpcClientConnection, 1) internalAliaseSChan := make(chan rpcclient.RpcClientConnection, 1) internalSMGChan := make(chan *sessionmanager.SMGeneric, 1) internalRLSChan := make(chan rpcclient.RpcClientConnection, 1) // Start balancer service if cfg.BalancerEnabled { go startBalancer(internalBalancerChan, &stopHandled, exitChan) // Not really needed async here but to cope with uniformity } // Start rater service if cfg.RALsEnabled { go startRater(internalRaterChan, cacheDoneChan, internalBalancerChan, internalSchedulerChan, internalCdrStatSChan, internalHistorySChan, internalPubSubSChan, internalUserSChan, internalAliaseSChan, server, ratingDb, accountDb, loadDb, cdrDb, &stopHandled, exitChan) } // Start Scheduler if cfg.SchedulerEnabled { go startScheduler(internalSchedulerChan, cacheDoneChan, ratingDb, exitChan) } // Start CDR Server if cfg.CDRSEnabled { go startCDRS(internalCdrSChan, cdrDb, accountDb, internalRaterChan, internalPubSubSChan, internalUserSChan, internalAliaseSChan, internalCdrStatSChan, server, exitChan) } // Start CDR Stats server if cfg.CDRStatsEnabled { go startCdrStats(internalCdrStatSChan, ratingDb, accountDb, server) } // Start CDRC components if necessary go startCdrcs(internalCdrSChan, internalRaterChan, exitChan) // Start SM-Generic if cfg.SmGenericConfig.Enabled { go startSmGeneric(internalSMGChan, internalRaterChan, internalCdrSChan, server, exitChan) } // Start SM-FreeSWITCH if cfg.SmFsConfig.Enabled { go startSmFreeSWITCH(internalRaterChan, internalCdrSChan, internalRLSChan, cdrDb, exitChan) // close all sessions on shutdown go shutdownSessionmanagerSingnalHandler(exitChan) } // Start SM-Kamailio if cfg.SmKamConfig.Enabled { go startSmKamailio(internalRaterChan, internalCdrSChan, cdrDb, exitChan) } // Start SM-OpenSIPS if cfg.SmOsipsConfig.Enabled { go startSmOpenSIPS(internalRaterChan, internalCdrSChan, cdrDb, exitChan) } // Register session manager service // FixMe: make sure this is thread safe if cfg.SmGenericConfig.Enabled || cfg.SmFsConfig.Enabled || cfg.SmKamConfig.Enabled || cfg.SmOsipsConfig.Enabled || cfg.SMAsteriskCfg().Enabled { // Register SessionManagerV1 service smRpc = new(v1.SessionManagerV1) server.RpcRegister(smRpc) } if cfg.SMAsteriskCfg().Enabled { go startSMAsterisk(internalSMGChan, exitChan) } if cfg.DiameterAgentCfg().Enabled { go startDiameterAgent(internalSMGChan, internalPubSubSChan, exitChan) } // Start HistoryS service if cfg.HistoryServerEnabled { go startHistoryServer(internalHistorySChan, server, exitChan) } // Start PubSubS service if cfg.PubSubServerEnabled { go startPubSubServer(internalPubSubSChan, accountDb, server) } // Start Aliases service if cfg.AliasesServerEnabled { go startAliasesServer(internalAliaseSChan, accountDb, server, exitChan) } // Start users service if cfg.UserServerEnabled { go startUsersServer(internalUserSChan, accountDb, server, exitChan) } // Start RL service if cfg.ResourceLimiterCfg().Enabled { go startResourceLimiterService(internalRLSChan, internalCdrStatSChan, cfg, accountDb, server, exitChan) } // Serve rpc connections go startRpc(server, internalRaterChan, internalCdrSChan, internalCdrStatSChan, internalHistorySChan, internalPubSubSChan, internalUserSChan, internalAliaseSChan, internalSMGChan) <-exitChan if *pidFile != "" { if err := os.Remove(*pidFile); err != nil { utils.Logger.Warning("Could not remove pid file: " + err.Error()) } } utils.Logger.Info("Stopped all components. CGRateS shutdown!") }
func main() { flag.Parse() if *version { fmt.Println("CGRateS " + utils.VERSION) return } if *pidFile != "" { writePid() } // runtime.GOMAXPROCS(runtime.NumCPU()) // For now it slows down computing due to CPU management, to be reviewed in future Go releases cfg, err = config.NewCGRConfigFromFile(cfgPath) if err != nil { engine.Logger.Crit(fmt.Sprintf("Could not parse config: %s exiting!", err)) return } config.SetCgrConfig(cfg) // Share the config object if *raterEnabled { cfg.RaterEnabled = *raterEnabled } if *schedEnabled { cfg.SchedulerEnabled = *schedEnabled } if *cdrsEnabled { cfg.CDRSEnabled = *cdrsEnabled } if *cdrcEnabled { cfg.CdrcEnabled = *cdrcEnabled } if *mediatorEnabled { cfg.MediatorEnabled = *mediatorEnabled } // some consitency checks errCfg := checkConfigSanity() if errCfg != nil { engine.Logger.Crit(errCfg.Error()) return } var ratingDb engine.RatingStorage var accountDb engine.AccountingStorage var logDb engine.LogStorage var loadDb engine.LoadStorage var cdrDb engine.CdrStorage ratingDb, err = engine.ConfigureRatingStorage(cfg.RatingDBType, cfg.RatingDBHost, cfg.RatingDBPort, cfg.RatingDBName, cfg.RatingDBUser, cfg.RatingDBPass, cfg.DBDataEncoding) if err != nil { // Cannot configure getter database, show stopper engine.Logger.Crit(fmt.Sprintf("Could not configure dataDb: %s exiting!", err)) return } defer ratingDb.Close() engine.SetRatingStorage(ratingDb) accountDb, err = engine.ConfigureAccountingStorage(cfg.AccountDBType, cfg.AccountDBHost, cfg.AccountDBPort, cfg.AccountDBName, cfg.AccountDBUser, cfg.AccountDBPass, cfg.DBDataEncoding) if err != nil { // Cannot configure getter database, show stopper engine.Logger.Crit(fmt.Sprintf("Could not configure dataDb: %s exiting!", err)) return } defer accountDb.Close() engine.SetAccountingStorage(accountDb) if cfg.StorDBType == SAME { logDb = ratingDb.(engine.LogStorage) } else { logDb, err = engine.ConfigureLogStorage(cfg.StorDBType, cfg.StorDBHost, cfg.StorDBPort, cfg.StorDBName, cfg.StorDBUser, cfg.StorDBPass, cfg.DBDataEncoding) if err != nil { // Cannot configure logger database, show stopper engine.Logger.Crit(fmt.Sprintf("Could not configure logger database: %s exiting!", err)) return } } defer logDb.Close() engine.SetStorageLogger(logDb) // loadDb,cdrDb and logDb are all mapped on the same stordb storage loadDb = logDb.(engine.LoadStorage) cdrDb = logDb.(engine.CdrStorage) engine.SetRoundingDecimals(cfg.RoundingDecimals) if cfg.SMDebitInterval > 0 { if dp, err := time.ParseDuration(fmt.Sprintf("%vs", cfg.SMDebitInterval)); err == nil { engine.SetDebitPeriod(dp) } } stopHandled := false // Async starts here rpcWait := make([]chan struct{}, 0) // Rpc server will start as soon as this list is consumed httpWait := make([]chan struct{}, 0) // Http server will start as soon as this list is consumed var cacheChan chan struct{} if cfg.RaterEnabled { // Cache rating if rater enabled cacheChan = make(chan struct{}) rpcWait = append(rpcWait, cacheChan) go cacheData(ratingDb, accountDb, cacheChan) } if cfg.RaterEnabled && cfg.RaterBalancer != "" && !cfg.BalancerEnabled { go registerToBalancer() go stopRaterSignalHandler() stopHandled = true } if cfg.CDRStatsEnabled { // Init it here so we make it availabe to the Apier cdrStats = engine.NewStats(ratingDb) if cfg.CDRStatConfig != nil && len(cfg.CDRStatConfig.Metrics) != 0 { cdrStats.AddQueue(engine.NewCdrStatsFromCdrStatsCfg(cfg.CDRStatConfig), nil) } server.RpcRegister(cdrStats) server.RpcRegister(&apier.CDRStatsV1{cdrStats}) // Public APIs } responder := &engine.Responder{ExitChan: exitChan} apierRpc := &apier.ApierV1{StorDb: loadDb, RatingDb: ratingDb, AccountDb: accountDb, CdrDb: cdrDb, LogDb: logDb, Config: cfg, Responder: responder, CdrStatsSrv: cdrStats} if cfg.RaterEnabled && !cfg.BalancerEnabled && cfg.RaterBalancer != utils.INTERNAL { engine.Logger.Info("Registering Rater service") server.RpcRegister(responder) server.RpcRegister(apierRpc) } if cfg.BalancerEnabled { engine.Logger.Info("Registering Balancer service.") go stopBalancerSignalHandler() stopHandled = true responder.Bal = bal server.RpcRegister(responder) server.RpcRegister(apierRpc) if cfg.RaterEnabled { engine.Logger.Info("<Balancer> Registering internal rater") bal.AddClient("local", new(engine.ResponderWorker)) } } if !stopHandled { go generalSignalHandler() } if cfg.SchedulerEnabled { engine.Logger.Info("Starting CGRateS Scheduler.") go func() { sched := scheduler.NewScheduler() go reloadSchedulerSingnalHandler(sched, accountDb) apierRpc.Sched = sched sched.LoadActionTimings(accountDb) sched.Loop() }() } var histServChan chan struct{} // Will be initialized only if the server starts if cfg.HistoryServerEnabled { histServChan = make(chan struct{}) rpcWait = append(rpcWait, histServChan) go startHistoryServer(histServChan) } if cfg.HistoryAgentEnabled { engine.Logger.Info("Starting CGRateS History Agent.") go startHistoryAgent(histServChan) } var medChan chan struct{} if cfg.MediatorEnabled { engine.Logger.Info("Starting CGRateS Mediator service.") medChan = make(chan struct{}) go startMediator(responder, logDb, cdrDb, cacheChan, medChan) } var cdrsChan chan struct{} if cfg.CDRSEnabled { engine.Logger.Info("Starting CGRateS CDRS service.") cdrsChan = make(chan struct{}) httpWait = append(httpWait, cdrsChan) go startCDRS(responder, cdrDb, medChan, cdrsChan) } if cfg.SMEnabled { engine.Logger.Info("Starting CGRateS SessionManager service.") go startSessionManager(responder, logDb, cacheChan) // close all sessions on shutdown go shutdownSessionmanagerSingnalHandler() } var cdrcEnabled bool if cfg.CdrcEnabled { // Start default cdrc configured in csv here cdrcEnabled = true go startCdrc(cdrsChan, cfg.CdrcCdrs, cfg.CdrcCdrType, cfg.CdrcCdrInDir, cfg.CdrcCdrOutDir, cfg.CdrcSourceId, cfg.CdrcRunDelay, cfg.CdrcCsvSep, cfg.CdrcCdrFields) } if cfg.XmlCfgDocument != nil { for _, xmlCdrc := range cfg.XmlCfgDocument.GetCdrcCfgs("") { if !xmlCdrc.Enabled { continue } cdrcEnabled = true go startCdrc(cdrsChan, xmlCdrc.CdrsAddress, xmlCdrc.CdrType, xmlCdrc.CdrInDir, xmlCdrc.CdrOutDir, xmlCdrc.CdrSourceId, time.Duration(xmlCdrc.RunDelay), xmlCdrc.CsvSeparator, xmlCdrc.CdrRSRFields()) } } if cdrcEnabled { engine.Logger.Info("Starting CGRateS CDR client.") } // Start the servers go serveRpc(rpcWait) go serveHttp(httpWait) <-exitChan if *pidFile != "" { if err := os.Remove(*pidFile); err != nil { engine.Logger.Warning("Could not remove pid file: " + err.Error()) } } engine.Logger.Info("Stopped all components. CGRateS shutdown!") }