Esempio n. 1
0
func (d *DummyIn) GetFieldRangeByName(name string, start time.Time, end time.Time) ([]common.Field, error) {
	var err error
	var startField common.Field
	var midField common.Field
	var endField common.Field

	startTs := start.UnixNano()
	endTs := end.UnixNano()

	if startTs-endTs < 10 || endTs-startTs < 10 {

	}

	startField.Name = name
	startField.Tags = make(map[string]string)
	startField.Values = make(map[string]interface{})
	startField.Values[`time`] = startTs

	// same TS, emit only one record
	if startTs == endTs {
		return []common.Field{startField}, err
	}
	endField.Name = name
	endField.Tags = make(map[string]string)
	endField.Values = make(map[string]interface{})
	endField.Values[`time`] = endTs

	// very small spread, emit only start and end
	if startTs-endTs < time.Second.Nanoseconds() || endTs-startTs < time.Second.Nanoseconds() {
		return []common.Field{startField, endField}, err
	}

	midField.Name = name
	midField.Tags = make(map[string]string)
	midField.Values = make(map[string]interface{})
	midField.Values[`time`] = (startTs + endTs) / 2

	return []common.Field{startField, midField, endField}, err
}
Esempio n. 2
0
func (influx *Influx09Input) GetFieldRangeByName(name string, start time.Time, end time.Time) ([]common.Field, error) {
	var datapoints []common.Field
	var err error
	q := client.NewQuery(
		fmt.Sprintf(`SELECT * FROM "%s" WHERE time > %d AND time < %d`,
			name,
			start.UnixNano(),
			end.UnixNano()),
		influx.Db,
		`ns`,
	)
	res, err := influx.Client.Query(q)
	if res.Error() != nil {
		err = res.Error()
		return datapoints, err
	}
	for _, result := range res.Results {
		for _, ser := range result.Series {
			columns := ser.Columns
			for _, value := range ser.Values {
				var f common.Field
				f.Name = ser.Name
				f.Tags = ser.Tags
				f.Values = make(map[string]interface{})
				for j, value := range value {
					// influxdb lib is a bit funny
					if w, ok := value.(json.Number); ok {
						// check if it is an int or float
						a, _ := w.Float64()

						if a == float64(int64(a)) {
							f.Values[columns[j]], _ = w.Int64()
						} else {
							f.Values[columns[j]] = a
						}
					} else {
						f.Values[columns[j]] = value
					}
				}
				datapoints = append(datapoints, f)
			}
		}
	}
	return datapoints, err
}
Esempio n. 3
0
func TestWriter(t *testing.T) {
	var f common.Field
	f.Name = "zupa"
	f.Values = make(map[string]interface{})
	f.Values[`time`] = time.Now()
	f.Values[`cake`] = "lie"
	f.Values[`other`] = time.Now()

	writeCh := make(chan *common.Field, 1)
	writeCh <- &f
	var sql SQLiteOut
	sql.Init("t-data/router-test")

	err := sql.writers.RunWriter(writeCh, []string{`t-data`, `point-writer-test.sqlite`}, false)
	Convey("WritePoint", t, func() {
		So(err, ShouldBeNil)
	})
	close(writeCh) // close channel so writer exits

	sql.writers.Shutdown()
}
func TestRouter(t *testing.T) {
	var f common.Field
	var sql SQLiteOut
	sql.Init("t-data/router-test")
	f.Name = "zupad"
	f.Values = make(map[string]interface{})
	f.Values[`time`] = time.Now()
	f.Values[`data`] = "lie"
	f.Values[`other_thing`] = time.Now()
	Convey("Create writer", t, func() {
		So(sql.writers, ShouldNotBeNil)
	})
	ch := make(chan *common.Field, 128)
	sql.routers.Add(1)
	go sql.route(ch)
	ch <- &f
	ch <- &f
	ch <- &f
	ch <- &f
	close(ch)
	sql.writers.Shutdown()
}
Esempio n. 5
0
func TestQuoting(t *testing.T) {
	var f common.Field
	f.Name = "bad-name-test"
	f.Values = make(map[string]interface{})
	f.Values[`time`] = time.Now()
	f.Values[`cake`] = "lie"
	f.Values[`some-long-name`] = time.Now()
	f.Values[`name with spaces`] = time.Now()
	f.Values[`ga@#&*$H*&GD&*!@GTbage`] = time.Now()

	writeCh := make(chan *common.Field, 10)
	writeCh <- &f
	writeCh <- &f
	writeCh <- &f
	var sql SQLiteOut
	sql.Init("t-data/quote-test")

	err := sql.writers.RunWriter(writeCh, []string{`t-data`, `quoted-writer-test.sqlite`}, false)
	Convey("WriteGarbageFields", t, func() {
		So(err, ShouldBeNil)
	})
	close(writeCh) // close channel so writer exits
	sql.writers.Shutdown()
}