Example #1
0
func main() {
	flag.Parse()
	servenv.Init("vt_binlog_player")

	if *startPosFile == "" {
		relog.Fatal("start-pos-file was not supplied.")
	}

	if *dbConfigFile == "" {
		relog.Fatal("Cannot start without db-config-file")
	}

	blp, err := initBinlogPlayer(*startPosFile, *dbConfigFile, *lookupConfigFile, *dbCredFile, *useCheckpoint, *debug, *port)
	if err != nil {
		relog.Fatal("Error in initializing binlog player - '%v'", err)
	}
	blp.txnBatch = *txnBatch
	blp.maxTxnInterval = time.Duration(*maxTxnInterval) * time.Second
	blp.execDdl = *execDdl

	if *tables != "" {
		tables := strings.Split(*tables, ",")
		blp.tables = make([]string, len(tables))
		for i, table := range tables {
			blp.tables[i] = strings.TrimSpace(table)
		}
		relog.Info("len tables %v tables %v", len(blp.tables), blp.tables)
	}

	relog.Info("BinlogPlayer client for keyrange '%v:%v' starting @ '%v'",
		blp.startPosition.KeyrangeStart,
		blp.startPosition.KeyrangeEnd,
		blp.startPosition.Position)

	if *port != 0 {
		umgmt.AddStartupCallback(func() {
			umgmt.StartHttpServer(fmt.Sprintf(":%v", *port))
		})
	}
	umgmt.AddStartupCallback(func() {
		c := make(chan os.Signal, 1)
		signal.Notify(c, syscall.SIGTERM)
		go func() {
			for sig := range c {
				umgmt.SigTermHandler(sig)
			}
		}()
	})
	umgmt.AddCloseCallback(func() {
		close(interrupted)
	})

	//Make a request to the server and start processing the events.
	stdout = bufio.NewWriterSize(os.Stdout, 16*1024)
	err = blp.applyBinlogEvents()
	if err != nil {
		relog.Error("Error in applying binlog events, err %v", err)
	}
	relog.Info("vt_binlog_player done")
}
Example #2
0
// zkocc: a proxy for zk
func main() {
	flag.Parse()
	if err := servenv.Init("zkocc"); err != nil {
		relog.Fatal("Error in servenv.Init: %v", err)
	}

	rpc.HandleHTTP()
	jsonrpc.ServeHTTP()
	jsonrpc.ServeRPC()
	bsonrpc.ServeHTTP()
	bsonrpc.ServeRPC()

	zk.RegisterZkReader(zkocc.NewZkReader(*resolveLocal, flag.Args()))

	// we delegate out startup to the micromanagement server so these actions
	// will occur after we have obtained our socket.
	umgmt.SetLameDuckPeriod(float32(*lameDuckPeriod))
	umgmt.SetRebindDelay(float32(*rebindDelay))
	umgmt.AddStartupCallback(func() {
		umgmt.StartHttpServer(fmt.Sprintf(":%v", *port))
	})

	relog.Info("started zkocc %v", *port)
	umgmtSocket := fmt.Sprintf("/tmp/zkocc-%08x-umgmt.sock", *port)
	if umgmtErr := umgmt.ListenAndServe(umgmtSocket); umgmtErr != nil {
		relog.Error("umgmt.ListenAndServe err: %v", umgmtErr)
	}
	relog.Info("done")
}
Example #3
0
func main() {
	flag.Parse()
	servenv.Init("vt_binlog_server")

	binlogServer := new(BinlogServer)
	if *mycnfFile == "" {
		relog.Fatal("Please specify the path for mycnf file.")
	}
	mycnf, err := mysqlctl.ReadMycnf(*mycnfFile)
	if err != nil {
		relog.Fatal("Error reading mycnf file %v", *mycnfFile)
	}
	binlogServer.mycnf = mycnf

	binlogServer.dbname = strings.ToLower(strings.TrimSpace(*dbname))
	binlogServer.blpStats = NewBlpStats()

	rpc.Register(binlogServer)
	rpcwrap.RegisterAuthenticated(binlogServer)
	//bsonrpc.ServeAuthRPC()

	rpc.HandleHTTP()
	bsonrpc.ServeHTTP()
	bsonrpc.ServeRPC()

	umgmt.SetLameDuckPeriod(30.0)
	umgmt.SetRebindDelay(0.01)
	umgmt.AddStartupCallback(func() {
		umgmt.StartHttpServer(fmt.Sprintf(":%v", *port))
	})
	umgmt.AddStartupCallback(func() {
		c := make(chan os.Signal, 1)
		signal.Notify(c, syscall.SIGTERM)
		go func() {
			for sig := range c {
				umgmt.SigTermHandler(sig)
			}
		}()
	})

	relog.Info("vt_binlog_server registered at port %v", *port)
	umgmtSocket := fmt.Sprintf("/tmp/vt_binlog_server-%08x-umgmt.sock", *port)
	if umgmtErr := umgmt.ListenAndServe(umgmtSocket); umgmtErr != nil {
		relog.Error("umgmt.ListenAndServe err: %v", umgmtErr)
	}
	relog.Info("done")
}
Example #4
0
func main() {
	flag.Parse()
	if err := servenv.Init("vtocc"); err != nil {
		relog.Fatal("Error in servenv.Init: %v", err)
	}
	if *queryLog != "" {
		if f, err := os.OpenFile(*queryLog, os.O_WRONLY|os.O_APPEND|os.O_CREATE, 0644); err == nil {
			ts.QueryLogger = relog.New(f, "", relog.DEBUG)
		} else {
			relog.Fatal("Error opening file %v: %v", *queryLog, err)
		}
	}
	ts.SqlQueryLogger.ServeLogs("/debug/querylog")
	ts.TxLogger.ServeLogs("/debug/txlog")
	unmarshalFile(*configFile, &config)
	data, _ := json.MarshalIndent(config, "", "  ")
	relog.Info("config: %s\n", data)

	unmarshalFile(*dbConfigFile, &dbconfig)
	relog.Info("dbconfig: %s\n", dbconfig)

	unmarshalFile(*overridesFile, &schemaOverrides)
	data, _ = json.MarshalIndent(schemaOverrides, "", "  ")
	relog.Info("schemaOverrides: %s\n", data)

	ts.RegisterQueryService(config)
	qrs := loadCustomRules()
	ts.AllowQueries(dbconfig, schemaOverrides, qrs)

	rpc.HandleHTTP()

	// NOTE(szopa): Changing credentials requires a server
	// restart.
	if *authConfig != "" {
		if err := auth.LoadCredentials(*authConfig); err != nil {
			relog.Error("could not load authentication credentials, not starting rpc servers: %v", err)
		}
		serveAuthRPC()
	}
	serveRPC()

	relog.Info("started vtocc %v", *port)

	// we delegate out startup to the micromanagement server so these actions
	// will occur after we have obtained our socket.
	usefulLameDuckPeriod := float64(config.QueryTimeout + 1)
	if usefulLameDuckPeriod > *lameDuckPeriod {
		*lameDuckPeriod = usefulLameDuckPeriod
		relog.Info("readjusted -lame-duck-period to %f", *lameDuckPeriod)
	}
	umgmt.SetLameDuckPeriod(float32(*lameDuckPeriod))
	umgmt.SetRebindDelay(float32(*rebindDelay))
	umgmt.AddStartupCallback(func() {
		umgmt.StartHttpServer(fmt.Sprintf(":%v", *port))
	})
	umgmt.AddStartupCallback(func() {
		c := make(chan os.Signal, 1)
		signal.Notify(c, syscall.SIGTERM)
		go func() {
			for sig := range c {
				umgmt.SigTermHandler(sig)
			}
		}()
	})
	umgmt.AddCloseCallback(func() {
		ts.DisallowQueries(true)
	})

	umgmtSocket := fmt.Sprintf("/tmp/vtocc-%08x-umgmt.sock", *port)
	if umgmtErr := umgmt.ListenAndServe(umgmtSocket); umgmtErr != nil {
		relog.Error("umgmt.ListenAndServe err: %v", umgmtErr)
	}
	relog.Info("done")
}
Example #5
0
func main() {
	dbConfigsFile, dbCredentialsFile := dbconfigs.RegisterCommonFlags()
	flag.Parse()

	if err := servenv.Init("vttablet"); err != nil {
		relog.Fatal("Error in servenv.Init: %s", err)
	}

	tabletAlias := tabletParamToTabletAlias(*tabletPath)

	mycnf := readMycnf(tabletAlias.Uid)
	dbcfgs, err := dbconfigs.Init(mycnf.SocketFile, *dbConfigsFile, *dbCredentialsFile)
	if err != nil {
		relog.Warning("%s", err)
	}

	initQueryService(dbcfgs)
	initUpdateStreamService(mycnf)
	ts.RegisterCacheInvalidator()                                                                                                                          // depends on both query and updateStream
	err = vttablet.InitAgent(tabletAlias, dbcfgs, mycnf, *dbConfigsFile, *dbCredentialsFile, *port, *securePort, *mycnfFile, *customrules, *overridesFile) // depends on both query and updateStream
	if err != nil {
		relog.Fatal("%s", err)
	}

	rpc.HandleHTTP()

	// NOTE(szopa): Changing credentials requires a server
	// restart.
	if *authConfig != "" {
		if err := auth.LoadCredentials(*authConfig); err != nil {
			relog.Error("could not load authentication credentials, not starting rpc servers: %v", err)
		}
		serveAuthRPC()
	}

	serveRPC()

	vttablet.HttpHandleSnapshots(mycnf, tabletAlias.Uid)

	// we delegate out startup to the micromanagement server so these actions
	// will occur after we have obtained our socket.
	umgmt.SetLameDuckPeriod(float32(*lameDuckPeriod))
	umgmt.SetRebindDelay(float32(*rebindDelay))
	umgmt.AddStartupCallback(func() {
		umgmt.StartHttpServer(fmt.Sprintf(":%v", *port))
		if *securePort != 0 {
			relog.Info("listening on secure port %v", *securePort)
			umgmt.StartHttpsServer(fmt.Sprintf(":%v", *securePort), *cert, *key, *caCert)
		}
	})
	umgmt.AddStartupCallback(func() {
		c := make(chan os.Signal, 1)
		signal.Notify(c, syscall.SIGTERM)
		go func() {
			for sig := range c {
				umgmt.SigTermHandler(sig)
			}
		}()
	})

	relog.Info("started vttablet %v", *port)
	umgmtSocket := fmt.Sprintf("/tmp/vttablet-%08x-umgmt.sock", *port)
	if umgmtErr := umgmt.ListenAndServe(umgmtSocket); umgmtErr != nil {
		relog.Error("umgmt.ListenAndServe err: %v", umgmtErr)
	}
	relog.Info("done")
}
Example #6
0
func main() {
	dbConfigsFile, dbCredentialsFile := dbconfigs.RegisterCommonFlags()
	flag.Parse()

	if err := servenv.Init("vttablet"); err != nil {
		relog.Fatal("Error in servenv.Init: %s", err)
	}

	tabletAlias := tabletParamToTabletAlias(*tabletPath)

	mycnf := readMycnf(tabletAlias.Uid)
	dbcfgs, err := dbconfigs.Init(mycnf.SocketFile, *dbConfigsFile, *dbCredentialsFile)
	if err != nil {
		relog.Warning("%s", err)
	}
	dbcfgs.App.Memcache = *rowcache

	if err := jscfg.ReadJson(*overridesFile, &schemaOverrides); err != nil {
		relog.Warning("%s", err)
	} else {
		data, _ := json.MarshalIndent(schemaOverrides, "", "  ")
		relog.Info("schemaOverrides: %s\n", data)
	}

	initQueryService(dbcfgs)
	initUpdateStreamService(mycnf)
	ts.RegisterCacheInvalidator()                                                   // depends on both query and updateStream
	err = initAgent(tabletAlias, dbcfgs, mycnf, *dbConfigsFile, *dbCredentialsFile) // depends on both query and updateStream
	if err != nil {
		relog.Fatal("%s", err)
	}

	rpc.HandleHTTP()

	// NOTE(szopa): Changing credentials requires a server
	// restart.
	if *authConfig != "" {
		if err := auth.LoadCredentials(*authConfig); err != nil {
			relog.Error("could not load authentication credentials, not starting rpc servers: %v", err)
		}
		serveAuthRPC()
	}

	serveRPC()

	// make a list of paths we can serve HTTP traffic from.
	// we don't resolve them here to real paths, as they might not exits yet
	snapshotDir := mysqlctl.SnapshotDir(tabletAlias.Uid)
	allowedPaths := []string{
		path.Join(vtenv.VtDataRoot(), "data"),
		mysqlctl.TabletDir(tabletAlias.Uid),
		snapshotDir,
		mycnf.DataDir,
		mycnf.InnodbDataHomeDir,
		mycnf.InnodbLogGroupHomeDir,
	}

	// NOTE: trailing slash in pattern means we handle all paths with this prefix
	http.Handle(mysqlctl.SnapshotURLPath+"/", http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
		handleSnapshot(w, r, snapshotDir, allowedPaths)
	}))

	// we delegate out startup to the micromanagement server so these actions
	// will occur after we have obtained our socket.
	umgmt.SetLameDuckPeriod(float32(*lameDuckPeriod))
	umgmt.SetRebindDelay(float32(*rebindDelay))
	umgmt.AddStartupCallback(func() {
		umgmt.StartHttpServer(fmt.Sprintf(":%v", *port))
		if *securePort != 0 {
			relog.Info("listening on secure port %v", *securePort)
			umgmt.StartHttpsServer(fmt.Sprintf(":%v", *securePort), *cert, *key, *caCert)
		}
	})
	umgmt.AddStartupCallback(func() {
		c := make(chan os.Signal, 1)
		signal.Notify(c, syscall.SIGTERM)
		go func() {
			for sig := range c {
				umgmt.SigTermHandler(sig)
			}
		}()
	})

	relog.Info("started vttablet %v", *port)
	umgmtSocket := fmt.Sprintf("/tmp/vttablet-%08x-umgmt.sock", *port)
	if umgmtErr := umgmt.ListenAndServe(umgmtSocket); umgmtErr != nil {
		relog.Error("umgmt.ListenAndServe err: %v", umgmtErr)
	}
	relog.Info("done")
}