func loadLoggerAndConfig(c *cli.Context, component string) (logger.Logger, *gosteno.Logger, *config.Config) { configPath := c.String("config") if configPath == "" { fmt.Printf("Config path required") os.Exit(1) } conf, err := config.FromFile(configPath) if err != nil { fmt.Printf("Failed to load config: %s", err.Error()) os.Exit(1) } stenoConf := &gosteno.Config{ Sinks: []gosteno.Sink{ gosteno.NewIOSink(os.Stdout), gosteno.NewSyslogSink("vcap.hm9000." + component), }, Level: conf.LogLevel(), Codec: gosteno.NewJsonCodec(), } gosteno.Init(stenoConf) steno := gosteno.NewLogger("vcap.hm9000." + component) hmLogger := logger.NewRealLogger(steno) return hmLogger, steno, conf }
func SetupLoggerFromConfig(c *config.Config) { l, err := steno.GetLogLevel(c.Logging.Level) if err != nil { panic(err) } s := make([]steno.Sink, 0) if c.Logging.File != "" { s = append(s, steno.NewFileSink(c.Logging.File)) } else { s = append(s, steno.NewIOSink(os.Stdout)) } if c.Logging.Syslog != "" { s = append(s, steno.NewSyslogSink(c.Logging.Syslog)) } stenoConfig := &steno.Config{ Sinks: s, Codec: steno.NewJsonCodec(), Level: l, } steno.Init(stenoConfig) log = steno.NewLogger("router.global") }
func InitLoggerFromConfig(c *config.Config, logCounter *vcap.LogCounter) { l, err := steno.GetLogLevel(c.Logging.Level) if err != nil { panic(err) } s := make([]steno.Sink, 0, 3) if c.Logging.File != "" { s = append(s, steno.NewFileSink(c.Logging.File)) } else { s = append(s, steno.NewIOSink(os.Stdout)) } if c.Logging.Syslog != "" { s = append(s, steno.NewSyslogSink(c.Logging.Syslog)) } s = append(s, logCounter) stenoConfig := &steno.Config{ Sinks: s, Codec: steno.NewJsonCodec(), Level: l, } steno.Init(stenoConfig) }
func NewLogger(verbose bool, logFilePath, name string, syslogNamespace string) *gosteno.Logger { level := gosteno.LOG_INFO if verbose { level = gosteno.LOG_DEBUG } loggingConfig := &gosteno.Config{ Sinks: make([]gosteno.Sink, 1), Level: level, Codec: gosteno.NewJsonCodec(), EnableLOC: true} if strings.TrimSpace(logFilePath) == "" { loggingConfig.Sinks[0] = gosteno.NewIOSink(os.Stdout) } else { loggingConfig.Sinks[0] = gosteno.NewFileSink(logFilePath) } if syslogNamespace != "" { loggingConfig.Sinks = append(loggingConfig.Sinks, GetNewSyslogSink(syslogNamespace)) } gosteno.Init(loggingConfig) logger := gosteno.NewLogger(name) logger.Debugf("Component %s in debug mode!", name) return logger }
func main() { flag.Parse() level, err := gosteno.GetLogLevel(*logLevel) if err != nil { level = gosteno.LOG_INFO } loggingConfig := &gosteno.Config{ Sinks: []gosteno.Sink{ gosteno.NewIOSink(os.Stdout), }, Level: level, Codec: gosteno.NewJsonCodec(), EnableLOC: true, } gosteno.Init(loggingConfig) logger := gosteno.NewLogger("statsdinjector") statsdMessageListener := statsdlistener.New(*statsdPort, logger) statsdEmitter := statsdemitter.New(*metronPort, logger) inputChan := make(chan *events.Envelope) go statsdMessageListener.Run(inputChan) statsdEmitter.Run(inputChan) }
func main() { flag.Parse() if *version { fmt.Printf("\n\nversion: %s\ngitSha: %s\n\n", versionNumber, gitSha) return } level := gosteno.LOG_INFO if *logLevel { level = gosteno.LOG_DEBUG } loggingConfig := &gosteno.Config{ Sinks: make([]gosteno.Sink, 1), Level: level, Codec: gosteno.NewJsonCodec(), EnableLOC: true} if strings.TrimSpace(*logFilePath) == "" { loggingConfig.Sinks[0] = gosteno.NewIOSink(os.Stdout) } else { loggingConfig.Sinks[0] = gosteno.NewFileSink(*logFilePath) } gosteno.Init(loggingConfig) logger := gosteno.NewLogger("loggregator") listener := loggregator.NewAgentListener(*host, logger) incomingData := listener.Start() cfSink := loggregator.NewCfSink(incomingData, logger) cfSink.Start() }
func main() { flag.Parse() if *version { fmt.Printf("\n\nversion: %s\ngitSha: %s\n\n", versionNumber, gitSha) return } level := gosteno.LOG_INFO if *logLevel { level = gosteno.LOG_DEBUG } loggingConfig := &gosteno.Config{ Sinks: make([]gosteno.Sink, 1), Level: level, Codec: gosteno.NewJsonCodec(), EnableLOC: true} if strings.TrimSpace(*logFilePath) == "" { loggingConfig.Sinks[0] = gosteno.NewIOSink(os.Stdout) } else { loggingConfig.Sinks[0] = gosteno.NewFileSink(*logFilePath) } gosteno.Init(loggingConfig) logger := gosteno.NewLogger("deaagent") loggregatorClient := loggregatorclient.NewLoggregatorClient(*loggregatorAddress, logger, 4096) agent := deaagent.NewAgent(*instancesJsonFilePath, logger) agent.Start(loggregatorClient) }
func setup_steno(conf *proxy.ProxyConfig) { level, err := steno.GetLogLevel(conf.LOGGING.LEVEL) if err != nil { panic(err) } log_path := conf.LOGGING.PATH if log_path != "" { os.MkdirAll(filepath.Dir(log_path), 0755) } sinks := make([]steno.Sink, 0) if log_path != "" { sinks = append(sinks, steno.NewFileSink(log_path)) } else { sinks = append(sinks, steno.NewIOSink(os.Stdout)) } stenoConfig := &steno.Config{ Sinks: sinks, Codec: steno.NewJsonCodec(), Level: level, } steno.Init(stenoConfig) }
func init() { steno.Init(&steno.Config{ Sinks: []steno.Sink{steno.NewIOSink(os.Stderr)}, Codec: steno.NewJsonCodec(), Level: steno.LOG_ALL, }) log = steno.NewLogger("directory_server_test") }
func main() { c := &gosteno.Config{ Sinks: []gosteno.Sink{ gosteno.NewIOSink(os.Stdout), }, Level: gosteno.LOG_DEBUG, Codec: gosteno.NewJsonPrettifier(0), EnableLOC: true, } gosteno.Init(c) logger := gosteno.NewLogger("atk_instances") conf := config.NewConfig() m := martini.Classic() key, err := atkoauth2.TokenKey(conf.TokenKeyUrl) if err != nil { logger.Error(err.Error()) return } m.Handlers( atkoauth2.ResourceServer(key), martini.Logger(), render.Renderer(render.Options{IndentJSON: true}), ) m.Get("/rest/orgs/:id/atkinstances", func(params martini.Params, t *jwt.Token, r render.Render) { cloudController := cc.NewRestCloudController(conf.ApiUrl, t.Raw) spaceSummaryHelper := service.NewSpaceSummaryHelper() srv := service.NewAtkListService(cloudController, spaceSummaryHelper) if len(conf.CommonService) == 0 { conf.CommonService = "postgres" } //TODO: check id param instances, err := srv.GetAllInstances(conf.ServiceLabel, conf.ScoringEngineLabel, conf.CommonService, params["id"]) if err != nil { r.JSON(500, err.Error()) } r.JSON(200, instances) }) m.Run() }
func init() { stenoConfig := &steno.Config{ Sinks: []steno.Sink{steno.NewIOSink(os.Stderr)}, Codec: steno.NewJsonCodec(), Level: steno.LOG_ALL, } steno.Init(stenoConfig) log = steno.NewLogger("common.logger") }
func InitLog(logFile string) { c := &steno.Config{ Level: steno.LOG_INFO, Codec: steno.NewJsonCodec(), EnableLOC: true, } if logFile == "" { c.Sinks = []steno.Sink{steno.NewIOSink(os.Stdout)} } else { c.Sinks = []steno.Sink{steno.NewFileSink(logFile)} } steno.Init(c) obj = steno.NewLogger("") }
func main() { stenoConfig := &steno.Config{ Sinks: []steno.Sink{steno.NewIOSink(os.Stderr)}, Codec: steno.NewJsonCodec(), Level: steno.LOG_ALL, } steno.Init(stenoConfig) log = steno.NewLogger("router.test") s := true log.Infof("test %s ", s) p := &Proxy{} p.Logger = steno.NewLogger("router.registry") p.Infof("hello %s", "ss\n") fmt.Printf("fmt world\n") }
func getLogger(debug bool) *gosteno.Logger { if debug { level := gosteno.LOG_DEBUG loggingConfig := &gosteno.Config{ Sinks: make([]gosteno.Sink, 1), Level: level, Codec: gosteno.NewJsonCodec(), EnableLOC: true, } loggingConfig.Sinks[0] = gosteno.NewIOSink(os.Stdout) gosteno.Init(loggingConfig) } return gosteno.NewLogger("TestLogger") }
func loadLoggerAndConfig(c *cli.Context, component string) (logger.Logger, *gosteno.Logger, *config.Config) { configPath := c.String("config") if configPath == "" { fmt.Printf("Config path required") os.Exit(1) } conf, err := config.FromFile(configPath) if err != nil { fmt.Printf("Failed to load config: %s", err.Error()) os.Exit(1) } sinks := make([]gosteno.Sink, 0, 3) if conf.LogDirectory != "" { logName := fmt.Sprintf("hm9000_%s.log", component) logFile := path.Join(conf.LogDirectory, logName) sinks = append(sinks, gosteno.NewFileSink(logFile)) } else { sinks = append(sinks, gosteno.NewIOSink(os.Stdout)) } sinks = append(sinks, gosteno.NewSyslogSink("vcap.hm9000."+component)) stenoConf := &gosteno.Config{ Sinks: sinks, Level: conf.LogLevel(), Codec: gosteno.NewJsonCodec(), } gosteno.Init(stenoConf) steno := gosteno.NewLogger("vcap.hm9000." + component) hmLogger := logger.NewRealLogger(steno) debugAddr := c.String("debugAddr") if debugAddr != "" { _, err = cf_debug_server.Run(debugAddr, nil) if err != nil { hmLogger.Error("Failed to start debug server", err) os.Exit(1) } } return hmLogger, steno, conf }
func setupStdoutLogger() steno.Logger { level, err := steno.GetLogLevel("debug") if err != nil { panic(err) } sinks := make([]steno.Sink, 0) sinks = append(sinks, steno.NewIOSink(os.Stdout)) stenoConfig := &steno.Config{ Sinks: sinks, Codec: steno.NewJsonCodec(), Level: level, } steno.Init(stenoConfig) return steno.NewLogger("mongodb_proxy") }
func NewLogger(file *os.File, level string) (Logger, error) { if len(level) == 0 { level = "debug" } logLevel, err := steno.GetLogLevel(level) if err != nil { return nil, err } out := steno.NewIOSink(file) out.SetCodec(steno.NewJsonPrettifier(steno.EXCLUDE_DATA)) cnf := &steno.Config{ Sinks: []steno.Sink{out}, Level: logLevel, Port: 8080, // TODO: parameterize? EnableLOC: false, } steno.Init(cnf) return steno.NewLogger("gonatsd"), nil }
func SetupSteno(logConfig *LogConfig) { level, err := steno.GetLogLevel(logConfig.Level) if err != nil { panic(err) } sinks := make([]steno.Sink, 0) if logConfig.File != "" { sinks = append(sinks, steno.NewFileSink(logConfig.File)) } else { sinks = append(sinks, steno.NewIOSink(os.Stdout)) } if logConfig.Syslog != "" { sinks = append(sinks, steno.NewSyslogSink(logConfig.Syslog)) } stenoConfig := &steno.Config{ Sinks: sinks, Codec: steno.NewJsonCodec(), Level: level, } steno.Init(stenoConfig) }
panic(err) } sinks := []gosteno.Sink{} if params.path != "" { sinks = append(sinks, NewFileSink(params.path)) } else { sinks = append(sinks, NewIOSink(os.Stdout)) } c := &gosteno.Config{ Sinks: sinks, Level: level, EnableLOC: true, } InitGoSteno(c) } var InitGoSteno = func(c *gosteno.Config) { gosteno.Init(c) } var NewFileSink = func(path string) gosteno.Sink { return gosteno.NewFileSink(path) } var NewIOSink = func(file *os.File) gosteno.Sink { return gosteno.NewIOSink(file) }
// the HTTP request is from dea push cmd, from 10.0.2.15:5678 func (p *Proxy) ServeHTTP(hrw http.ResponseWriter, req *http.Request) { rw := responseWriter{ ResponseWriter: hrw, Logger: p.Logger.Copy(), } // log for zjlog! stenoConfig := &steno.Config{ Sinks: []steno.Sink{steno.NewIOSink(os.Stderr)}, Codec: steno.NewJsonCodec(), Level: steno.LOG_ALL, } steno.Init(stenoConfig) zlog = steno.NewLogger("router.test") rw.Set("RemoteAddr", req.RemoteAddr) rw.Set("Host", req.Host) rw.Set("X-Forwarded-For", req.Header["X-Forwarded-For"]) // rw.Set("X-Forwarded-Proto", req.Header["X-Forwarded-Proto"]) a := AccessLogRecord{ Request: req, StartedAt: time.Now(), } if req.ProtoMajor != 1 && (req.ProtoMinor != 0 || req.ProtoMinor != 1) { c, brw, err := rw.Hijack() if err != nil { panic(err) } fmt.Fprintf(brw, "HTTP/1.0 400 Bad Request\r\n\r\n") brw.Flush() c.Close() return } start := time.Now() // Return 200 OK for heartbeats from LB if req.UserAgent() == "HTTP-Monitor/1.1" { rw.WriteHeader(http.StatusOK) fmt.Fprintln(rw, "ok") return } rw.Infof("zhang:req= %s", req) bytes, _ := ioutil.ReadAll(req.Body) parentTx := "" rootTx := "" parentName := "" parent_port := "" subName := "" invocationCtx := "" cat := string(bytes) var rm reqMessage u_err := json.Unmarshal(bytes, &rm) if u_err != nil { rw.Infof("cat= %s", cat) rw.Infof("!umarshal error %s ", u_err) } if len(rm.Params) > 0 { str := string(rm.Params[0]) //居然index out of range rw.Info(str) arr := strings.Split(str, "|") // rw.Infof("0=%s", arr[0]) // rw.Infof("1=%s",arr[1]) // rootTx = arr[1] parentTx = arr[2] if len(arr) > 6 { parentName = arr[3] // actually , this is current component parent_port = arr[4] subName = arr[5] invocationCtx = arr[6] } rm.Params[0] = Param(arr[0]) //什么意思??? y, err := json.Marshal(rm) if err != nil { rw.Infof("marshal error %s ", err) } req.Body = ioutil.NopCloser(strings.NewReader(string(y))) // } else { rw.Infof("rm.Params == nil %s", rm.Params) } // rw.Infof("mybody = %s", cat) // bufio.Reader //所以,或许parentTx要在lookup前 //首先时获取backend,如果此处因为状态,返回nil,那么,就不会再有请求了。 x, ok := p.Lookup(req, rootTx) // get backend, if there is JSESSIONID , router to the same backend if !ok { p.Varz.CaptureBadRequest(req) rw.WriteStatus(http.StatusNotFound) return } fmt.Printf("check whether use cachedTxBackends \n") if rootTx != "" { h := hostWithoutPort(req) fmt.Printf("h = %s \n", h) find_key := h + ":" + rootTx if p.CachedTxBackends[find_key] != nil { x = p.CachedTxBackends[find_key] fmt.Printf("%s get key: app_id = %s from map ,tx = %s\n", x.CollectPort, x.ApplicationId, rootTx) } else { key := h + ":" + rootTx p.CachedTxBackends[key] = x fmt.Printf("%s save key:%s to map ,tx = %s \n", x.CollectPort, x.ApplicationId, rootTx) } fmt.Printf("%v ,%d, %s, blocked false\n ", x.BackendId, x.ApplicationId, x.Port) sub_port := x.CollectPort remote := &remoteMessage{ RootTx: rootTx, ParentTx: parentTx, ParentPort: parent_port, ParentName: parentName, SubPort: sub_port, SubName: subName, InvocationCtx: invocationCtx, } cachedTxes := p.CachedBackendTxes[x.PrivateInstanceId] p.CachedBackendTxes[x.PrivateInstanceId] = append(cachedTxes, remote) // fmt.Printf("after add \n") // // // for x,y := range p.CachedBackendTxes { // for j := 0 ; j < len (y); j++ { // fmt.Printf("i:%s,j:%d,remote:%s.\n",x,j,y[j].RootTx) // } // } } else { fmt.Printf("rootTx == whitespace \n") } rw.Set("Backend", x.ToLogData()) a.Backend = x p.Registry.CaptureBackendRequest(x, start) //record request p.Varz.CaptureBackendRequest(x, req) req.URL.Scheme = "http" req.URL.Host = x.CanonicalAddr() // Add X-Forwarded-For if host, _, err := net.SplitHostPort(req.RemoteAddr); err == nil { // We assume there is a trusted upstream (L7 LB) that properly // strips client's XFF header // This is sloppy but fine since we don't share this request or // headers. Otherwise we should copy the underlying header and // append xff := append(req.Header["X-Forwarded-For"], host) req.Header.Set("X-Forwarded-For", strings.Join(xff, ", ")) } // Check if the connection is going to be upgraded to a WebSocket connection if p.CheckWebSocket(rw, req) { p.ServeWebSocket(rw, req) return } // Use a new connection for every request // Keep-alive can be bolted on later, if we want to req.Close = true req.Header.Del("Connection") // this is used for send request and get resposne res, err := http.DefaultTransport.RoundTrip(req) latency := time.Since(start) a.FirstByteAt = time.Now() a.Response = res if err != nil { p.Varz.CaptureBackendResponse(x, res, latency) rw.Warnf("Error reading from upstream: %s", err) rw.WriteStatus(http.StatusBadGateway) return } rw.Infof("zhang:res= %s", res) p.Varz.CaptureBackendResponse(x, res, latency) for k, vv := range res.Header { for _, v := range vv { rw.Header().Add(k, v) } } if p.Config.TraceKey != "" && req.Header.Get(VcapTraceHeader) == p.Config.TraceKey { rw.Header().Set(VcapRouterHeader, p.Config.Ip) rw.Header().Set(VcapBackendHeader, x.CanonicalAddr()) } needSticky := false //这里是判断response中,cookie中是否有jsessionid for _, v := range res.Cookies() { // here we get res.Cookies(), if exists v[i].name = StickyCookieKey zlog.Info(v.Name) //基于Cookie的web应用,会将数据存成<key,value> //但是基于Http Session的应用,为什么在这里只看到了jsessionid? if v.Name == StickyCookieKey { //JSESSIONID needSticky = true // here flag = needSticky break } } if needSticky && x.PrivateInstanceId != "" { cookie := &http.Cookie{ // here we got http cookie which has sessionid Name: VcapCookieId, Value: x.PrivateInstanceId, Path: "/", } // http.SetCookie(rw, cookie) // set httpCookie 只在发现有sticky session时,才set Cookie // http session,第一次生成jsessionid时,会在返回头部加上cookie } rw.WriteHeader(res.StatusCode) n, _ := rw.CopyFrom(res.Body) a.FinishedAt = time.Now() a.BodyBytesSent = n if p.AccessLogger != nil { p.AccessLogger.Log(a) } }