func BenchmarkReceive(b *testing.B) { b.StopTimer() mchan := metchan.New(cfg) mchan.Start() st := store.NewRedisStore(cfg) st.Mchan = mchan recv := receiver.NewReceiver(cfg, st) recv.Mchan = mchan recv.Start() opts := make(map[string][]string) opts["user"] = []string{"u"} opts["password"] = []string{"p"} tf := "2013-03-27T20:02:24+00:00" bmsg := "94 <190>1 %s hostname token shuttle - - measure#hello=1" for i := 0; i < b.N; i++ { msg := fmt.Sprintf(bmsg, time.Now().Format(tf)) b.StartTimer() recv.Receive([]byte(msg), opts) b.StopTimer() b.SetBytes(int64(len(msg))) } recv.Wait() }
func main() { if cfg.PrintVersion { fmt.Println(conf.Version) os.Exit(0) } // Can be passed to other modules // as an internal metrics channel. mchan := metchan.New(cfg) mchan.Start() // The store will be used by receivers and outlets. var st store.Store if len(cfg.RedisHost) > 0 { redisStore := store.NewRedisStore(cfg) redisStore.Mchan = mchan st = redisStore fmt.Printf("at=initialized-redis-store\n") } else { st = store.NewMemStore() fmt.Printf("at=initialized-mem-store\n") } if cfg.UseOutlet { rdr := reader.New(cfg, st) rdr.Mchan = mchan outlet := outlet.NewLibratoOutlet(cfg, rdr) outlet.Mchan = mchan outlet.Start() } if cfg.UsingReciever { recv := receiver.NewReceiver(cfg, st) recv.Mchan = mchan recv.Start() http.Handle("/logs", recv) } http.Handle("/health", st) http.HandleFunc("/sign", auth.ServeHTTP) e := http.ListenAndServe(fmt.Sprintf(":%d", cfg.Port), nil) if e != nil { log.Fatal("Unable to start HTTP server.") } fmt.Printf("at=l2met-initialized port=%d\n", cfg.Port) }
func main() { cfg = conf.New() flag.Parse() // Can be passed to other modules // as an internal metrics channel. mchan := metchan.New(cfg.Verbose, cfg.MetchanUrl) mchan.Start() // The store will be used by receivers and outlets. var st store.Store if len(cfg.RedisHost) > 0 { redisStore := store.NewRedisStore(cfg) redisStore.Mchan = mchan st = redisStore fmt.Printf("at=initialized-redis-store\n") } else { st = store.NewMemStore() fmt.Printf("at=initialized-mem-store\n") } if cfg.UseOutlet { rdr := reader.New(cfg, st) rdr.Mchan = mchan outlet := outlet.NewLibratoOutlet(cfg, rdr) outlet.Mchan = mchan outlet.Start() } if cfg.UsingReciever { recv := receiver.NewReceiver(cfg, st) recv.Mchan = mchan recv.Start() if cfg.Verbose { go recv.Report() } http.HandleFunc("/logs", func(w http.ResponseWriter, r *http.Request) { startReceiveT := time.Now() if r.Method != "POST" { http.Error(w, "Invalid Request", 400) return } user, pass, err := auth.ParseAndDecrypt(r) if err != nil { http.Error(w, "Invalid Request", 400) return } b, err := ioutil.ReadAll(r.Body) r.Body.Close() if err != nil { http.Error(w, "Invalid Request", 400) return } v := r.URL.Query() v.Add("user", user) v.Add("password", pass) recv.Receive(b, v) mchan.Time("http.accept", startReceiveT) }) } // The only thing that constitutes a healthy l2met // is the health of the store. In some cases, this might mean // a Redis health check. http.HandleFunc("/health", func(w http.ResponseWriter, r *http.Request) { ok := st.Health() if !ok { msg := "Store is unavailable." fmt.Printf("error=%q\n", msg) http.Error(w, msg, 500) } }) http.HandleFunc("/sign", func(w http.ResponseWriter, r *http.Request) { if r.Method != "POST" { http.Error(w, "Method must be POST.", 400) return } l := r.Header.Get("Authorization") user, _, err := auth.ParseRaw(l) if err != nil { http.Error(w, "Unable to parse headers.", 400) return } matched := false for i := range cfg.Secrets { if user == cfg.Secrets[i] { matched = true break } } if !matched { http.Error(w, "Authentication failed.", 401) return } b, err := ioutil.ReadAll(r.Body) r.Body.Close() if err != nil { http.Error(w, "Unable to read body.", 400) return } signed, err := auth.EncryptAndSign(b) if err != nil { http.Error(w, "Unable to sign body.", 500) return } fmt.Fprint(w, string(signed)) }) // Start the HTTP server. e := http.ListenAndServe(fmt.Sprintf(":%d", cfg.Port), nil) if e != nil { log.Fatal("Unable to start HTTP server.") } fmt.Printf("at=l2met-initialized port=%d\n", cfg.Port) }