Ejemplo n.º 1
0
func (rp *ResponseParser) parseTimepoint(valuePair []interface{}, valuePosition int) (tsdb.TimePoint, error) {
	var value null.Float = rp.parseValue(valuePair[valuePosition])

	timestampNumber, _ := valuePair[0].(json.Number)
	timestamp, err := timestampNumber.Float64()
	if err != nil {
		return tsdb.TimePoint{}, err
	}

	return tsdb.NewTimePoint(value, timestamp), nil
}
Ejemplo n.º 2
0
func testReducer(typ string, datapoints ...float64) float64 {
	reducer := NewSimpleReducer(typ)
	series := &tsdb.TimeSeries{
		Name: "test time serie",
	}

	for idx := range datapoints {
		series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFrom(datapoints[idx]), 1234134))
	}

	return reducer.Reduce(series).Float64
}
Ejemplo n.º 3
0
func (parser *ResponseParser) Parse(res *http.Response, queryRef *Query) ([]*tsdb.TimeSeries, error) {
	body, err := ioutil.ReadAll(res.Body)
	defer res.Body.Close()
	if err != nil {
		return nil, err
	}

	if res.StatusCode/100 != 2 {
		parser.log.Error("Request failed", "status code", res.StatusCode, "body", string(body))
		return nil, fmt.Errorf("Returned invalid statuscode")
	}

	var data *MQEResponse = &MQEResponse{}
	err = json.Unmarshal(body, data)
	if err != nil {
		parser.log.Info("Failed to unmarshal response", "error", err, "status", res.Status, "body", string(body))
		return nil, err
	}

	if !data.Success {
		return nil, fmt.Errorf("Request failed.")
	}

	var series []*tsdb.TimeSeries
	for _, body := range data.Body {
		for _, mqeSerie := range body.Series {
			namePrefix := ""

			//append predefined tags to seriename
			for key, value := range mqeSerie.Tagset {
				if key == "cluster" && queryRef.AddClusterToAlias {
					namePrefix += value + " "
				}
			}
			for key, value := range mqeSerie.Tagset {
				if key == "host" && queryRef.AddHostToAlias {
					namePrefix += value + " "
				}
			}

			serie := &tsdb.TimeSeries{Name: namePrefix + body.Name}

			for i, value := range mqeSerie.Values {
				timestamp := body.TimeRange.Start + int64(i)*body.TimeRange.Resolution
				serie.Points = append(serie.Points, tsdb.NewTimePoint(value, float64(timestamp)))
			}

			series = append(series, serie)
		}
	}

	return series, nil
}
Ejemplo n.º 4
0
func (e *OpenTsdbExecutor) parseResponse(query OpenTsdbQuery, res *http.Response) (map[string]*tsdb.QueryResult, error) {

	queryResults := make(map[string]*tsdb.QueryResult)
	queryRes := tsdb.NewQueryResult()

	body, err := ioutil.ReadAll(res.Body)
	defer res.Body.Close()
	if err != nil {
		return nil, err
	}

	if res.StatusCode/100 != 2 {
		plog.Info("Request failed", "status", res.Status, "body", string(body))
		return nil, fmt.Errorf("Request failed status: %v", res.Status)
	}

	var data []OpenTsdbResponse
	err = json.Unmarshal(body, &data)
	if err != nil {
		plog.Info("Failed to unmarshal opentsdb response", "error", err, "status", res.Status, "body", string(body))
		return nil, err
	}

	for _, val := range data {
		series := tsdb.TimeSeries{
			Name: val.Metric,
		}

		for timeString, value := range val.DataPoints {
			timestamp, err := strconv.ParseFloat(timeString, 64)
			if err != nil {
				plog.Info("Failed to unmarshal opentsdb timestamp", "timestamp", timeString)
				return nil, err
			}
			series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFrom(value), timestamp))
		}

		queryRes.Series = append(queryRes.Series, &series)
	}

	queryResults["A"] = queryRes
	return queryResults, nil
}
Ejemplo n.º 5
0
func parseResponse(value pmodel.Value, query *PrometheusQuery) (map[string]*tsdb.QueryResult, error) {
	queryResults := make(map[string]*tsdb.QueryResult)
	queryRes := tsdb.NewQueryResult()

	data, ok := value.(pmodel.Matrix)
	if !ok {
		return queryResults, fmt.Errorf("Unsupported result format: %s", value.Type().String())
	}

	for _, v := range data {
		series := tsdb.TimeSeries{
			Name: formatLegend(v.Metric, query),
		}

		for _, k := range v.Values {
			series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFrom(float64(k.Value)), float64(k.Timestamp.Unix()*1000)))
		}

		queryRes.Series = append(queryRes.Series, &series)
	}

	queryResults["A"] = queryRes
	return queryResults, nil
}
Ejemplo n.º 6
0
func TestSimpleReducer(t *testing.T) {
	Convey("Test simple reducer by calculating", t, func() {

		Convey("sum", func() {
			result := testReducer("sum", 1, 2, 3)
			So(result, ShouldEqual, float64(6))
		})

		Convey("min", func() {
			result := testReducer("min", 3, 2, 1)
			So(result, ShouldEqual, float64(1))
		})

		Convey("max", func() {
			result := testReducer("max", 1, 2, 3)
			So(result, ShouldEqual, float64(3))
		})

		Convey("count", func() {
			result := testReducer("count", 1, 2, 3000)
			So(result, ShouldEqual, float64(3))
		})

		Convey("last", func() {
			result := testReducer("last", 1, 2, 3000)
			So(result, ShouldEqual, float64(3000))
		})

		Convey("median odd amount of numbers", func() {
			result := testReducer("median", 1, 2, 3000)
			So(result, ShouldEqual, float64(2))
		})

		Convey("median even amount of numbers", func() {
			result := testReducer("median", 1, 2, 4, 3000)
			So(result, ShouldEqual, float64(3))
		})

		Convey("median with one values", func() {
			result := testReducer("median", 1)
			So(result, ShouldEqual, float64(1))
		})

		Convey("avg", func() {
			result := testReducer("avg", 1, 2, 3)
			So(result, ShouldEqual, float64(2))
		})

		Convey("avg of number values and null values should ignore nulls", func() {
			reducer := NewSimpleReducer("avg")
			series := &tsdb.TimeSeries{
				Name: "test time serie",
			}

			series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFrom(3), 1))
			series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFromPtr(nil), 2))
			series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFromPtr(nil), 3))
			series.Points = append(series.Points, tsdb.NewTimePoint(null.FloatFrom(3), 4))

			So(reducer.Reduce(series).Float64, ShouldEqual, float64(3))
		})
	})
}
Ejemplo n.º 7
0
func init() {
	ScenarioRegistry = make(map[string]*Scenario)
	logger := log.New("tsdb.testdata")

	logger.Debug("Initializing TestData Scenario")

	registerScenario(&Scenario{
		Id:   "random_walk",
		Name: "Random Walk",

		Handler: func(query *tsdb.Query, context *tsdb.QueryContext) *tsdb.QueryResult {
			timeWalkerMs := context.TimeRange.GetFromAsMsEpoch()
			to := context.TimeRange.GetToAsMsEpoch()

			series := newSeriesForQuery(query)

			points := make(tsdb.TimeSeriesPoints, 0)
			walker := rand.Float64() * 100

			for i := int64(0); i < 10000 && timeWalkerMs < to; i++ {
				points = append(points, tsdb.NewTimePoint(walker, float64(timeWalkerMs)))

				walker += rand.Float64() - 0.5
				timeWalkerMs += query.IntervalMs
			}

			series.Points = points

			queryRes := tsdb.NewQueryResult()
			queryRes.Series = append(queryRes.Series, series)
			return queryRes
		},
	})

	registerScenario(&Scenario{
		Id:   "no_data_points",
		Name: "No Data Points",
		Handler: func(query *tsdb.Query, context *tsdb.QueryContext) *tsdb.QueryResult {
			return tsdb.NewQueryResult()
		},
	})

	registerScenario(&Scenario{
		Id:   "datapoints_outside_range",
		Name: "Datapoints Outside Range",
		Handler: func(query *tsdb.Query, context *tsdb.QueryContext) *tsdb.QueryResult {
			queryRes := tsdb.NewQueryResult()

			series := newSeriesForQuery(query)
			outsideTime := context.TimeRange.MustGetFrom().Add(-1*time.Hour).Unix() * 1000

			series.Points = append(series.Points, tsdb.NewTimePoint(10, float64(outsideTime)))
			queryRes.Series = append(queryRes.Series, series)

			return queryRes
		},
	})

	registerScenario(&Scenario{
		Id:          "csv_metric_values",
		Name:        "CSV Metric Values",
		StringInput: "1,20,90,30,5,0",
		Handler: func(query *tsdb.Query, context *tsdb.QueryContext) *tsdb.QueryResult {
			queryRes := tsdb.NewQueryResult()

			stringInput := query.Model.Get("stringInput").MustString()
			values := []float64{}
			for _, strVal := range strings.Split(stringInput, ",") {
				if val, err := strconv.ParseFloat(strVal, 64); err == nil {
					values = append(values, val)
				}
			}

			if len(values) == 0 {
				return queryRes
			}

			series := newSeriesForQuery(query)
			startTime := context.TimeRange.GetFromAsMsEpoch()
			endTime := context.TimeRange.GetToAsMsEpoch()
			step := (endTime - startTime) / int64(len(values)-1)

			for _, val := range values {
				series.Points = append(series.Points, tsdb.NewTimePoint(val, float64(startTime)))
				startTime += step
			}

			queryRes.Series = append(queryRes.Series, series)

			return queryRes
		},
	})
}