// CountedByStatusXX returns an http.Handler that passes requests to an // underlying http.Handler and then counts the response by the first digit of // its HTTP status code via go-kit/kit/metrics. func CountedByStatusXX(handler http.Handler, name string, p provider.Provider) *CounterByStatusXX { return &CounterByStatusXX{ counter1xx: p.NewCounter(fmt.Sprintf("%s-1xx", name), fmt.Sprintf("counting responses to %q with a status code of 1XX", name)), counter2xx: p.NewCounter(fmt.Sprintf("%s-2xx", name), fmt.Sprintf("counting responses to %q with a status code of 2XX", name)), counter3xx: p.NewCounter(fmt.Sprintf("%s-3xx", name), fmt.Sprintf("counting responses to %q with a status code of 3XX", name)), counter4xx: p.NewCounter(fmt.Sprintf("%s-4xx", name), fmt.Sprintf("counting responses to %q with a status code of 4XX", name)), counter5xx: p.NewCounter(fmt.Sprintf("%s-5xx", name), fmt.Sprintf("counting responses to %q with a status code of 5XX", name)), handler: handler, } }
func registerRPCMetrics(name string, mets provider.Provider) { name = "rpc." + name hist, err := mets.NewHistogram(name+".DURATION", fmt.Sprintf("tracking request duration for %q", name), 0, 1500000, 4, // 0-15min time range 50, 75, 90, 95, 99) if err != nil { panic(fmt.Sprint("invalid histogram settings: ", err)) } rpcEndpointMetrics[name] = &rpcMetrics{ Timer: metrics.NewTimeHistogram(time.Millisecond, hist), SuccessCounter: mets.NewCounter(name+".SUCCESS", fmt.Sprintf("counting successful repsonses for %s", name)), ErrorCounter: mets.NewCounter(name+".ERROR", fmt.Sprintf("counting error responses for %s", name)), PanicCounter: mets.NewCounter(name+".PANIC", fmt.Sprintf("counting paniced responses for %s", name)), } }