Пример #1
0
/*
plot draws an svg plot to b.
Valid values for resolution are 'minute', 'five_minutes', 'hour'.
*/
func (f fieldMetric) plot(deviceID, typeID, resolution string, plotter ts.SVGPlot, b *bytes.Buffer) *weft.Result {
	// we need the devicePK often so read it once.
	var devicePK int
	if err := dbR.QueryRow(`SELECT devicePK FROM field.device WHERE deviceID = $1`,
		deviceID).Scan(&devicePK); err != nil {
		if err == sql.ErrNoRows {
			return &weft.NotFound
		}
		return weft.InternalServerError(err)
	}

	var typePK int
	var scale float64
	var display string

	if err := dbR.QueryRow(`SELECT typePK, scale, display FROM field.type WHERE typeID = $1`,
		typeID).Scan(&typePK, &scale, &display); err != nil {
		if err == sql.ErrNoRows {
			return &weft.NotFound
		}
		return weft.InternalServerError(err)
	}

	var p ts.Plot

	p.SetUnit(display)

	var rows *sql.Rows
	var err error
	var lower, upper int

	if err := dbR.QueryRow(`SELECT lower,upper FROM field.threshold
		WHERE devicePK = $1 AND typePK = $2`,
		devicePK, typePK).Scan(&lower, &upper); err != nil && err != sql.ErrNoRows {
		return weft.InternalServerError(err)
	}

	if !(lower == 0 && upper == 0) {
		p.SetThreshold(float64(lower)*scale, float64(upper)*scale)
	}

	var tags []string

	if rows, err = dbR.Query(`SELECT tag FROM field.metric_tag JOIN mtr.tag USING (tagpk) WHERE
		devicePK = $1 AND typePK = $2
		ORDER BY tag asc`,
		devicePK, typePK); err != nil {
		return weft.InternalServerError(err)
	}

	defer rows.Close()

	for rows.Next() {
		var s string
		if err = rows.Scan(&s); err != nil {
			return weft.InternalServerError(err)
		}
		tags = append(tags, s)
	}

	rows.Close()

	p.SetSubTitle("Tags: " + strings.Join(tags, ","))

	var mod string
	// TODO move into first select for devicePK
	if err = dbR.QueryRow(`SELECT modelid FROM field.device JOIN field.model using (modelpk)
		WHERE devicePK = $1`,
		devicePK).Scan(&mod); err != nil && err != sql.ErrNoRows {
		return weft.InternalServerError(err)
	}

	p.SetTitle(fmt.Sprintf("Device: %s, Model: %s, Metric: %s", deviceID, mod, strings.Title(typeID)))

	switch resolution {
	case "minute":
		p.SetXAxis(time.Now().UTC().Add(time.Hour*-12), time.Now().UTC())
		p.SetXLabel("12 hours")
	case "five_minutes":
		p.SetXAxis(time.Now().UTC().Add(time.Hour*-24*2), time.Now().UTC())
		p.SetXLabel("48 hours")
	case "hour":
		p.SetXAxis(time.Now().UTC().Add(time.Hour*-24*28), time.Now().UTC())
		p.SetXLabel("4 weeks")
	default:
		return weft.BadRequest("invalid resolution")
	}

	var timeRange []time.Time
	if timeRange, err = defaultTimeRange(resolution); err != nil {
		return weft.InternalServerError(err)
	}

	rows, err = queryMetricRows(devicePK, typePK, resolution, timeRange)
	if err != nil {
		return weft.InternalServerError(err)
	}

	defer rows.Close()

	var pts []ts.Point

	for rows.Next() {
		var pt ts.Point
		if err = rows.Scan(&pt.DateTime, &pt.Value); err != nil {
			return weft.InternalServerError(err)
		}
		pt.Value = pt.Value * scale
		pts = append(pts, pt)
	}
	rows.Close()

	// Add the latest value to the plot - this may be different to the average at minute or hour resolution.
	var pt ts.Point

	if err = dbR.QueryRow(`SELECT time, value FROM field.metric WHERE
			devicePK = $1 AND typePK = $2
			ORDER BY time DESC
			LIMIT 1`,
		devicePK, typePK).Scan(&pt.DateTime, &pt.Value); err != nil {
		return weft.InternalServerError(err)
	}

	pt.Value = pt.Value * scale

	pts = append(pts, pt)
	p.SetLatest(pt, "deepskyblue")

	p.AddSeries(ts.Series{Colour: "deepskyblue", Points: pts})

	if err = plotter.Draw(p, b); err != nil {
		return weft.InternalServerError(err)
	}

	return &weft.StatusOK
}
Пример #2
0
/*
plot draws an svg plot to b.  Assumes f.loadPK has been called first.
*/
func dataCompletenessPlot(siteID, typeID, resolution string, plotter ts.SVGPlot, b *bytes.Buffer) *weft.Result {
	var err error
	// we need the sitePK often so read it once.
	var sitePK int
	if err = dbR.QueryRow(`SELECT sitePK FROM data.site WHERE siteID = $1`,
		siteID).Scan(&sitePK); err != nil {
		if err == sql.ErrNoRows {
			return &weft.NotFound
		}
		return weft.InternalServerError(err)
	}

	var typePK int
	var expected int

	if err = dbR.QueryRow(`SELECT typePK, expected FROM data.completeness_type WHERE typeID = $1`,
		typeID).Scan(&typePK, &expected); err != nil {
		if err == sql.ErrNoRows {
			return &weft.NotFound
		}
		return weft.InternalServerError(err)
	}

	expectedf := float64(expected)
	var p ts.Plot

	var tags []string
	var rows *sql.Rows

	if rows, err = dbR.Query(`SELECT tag FROM data.completeness_tag JOIN mtr.tag USING (tagpk) WHERE
		sitePK = $1 AND typePK = $2
		ORDER BY tag asc`,
		sitePK, typePK); err != nil {

		return weft.InternalServerError(err)
	}

	defer rows.Close()

	for rows.Next() {
		var s string
		if err = rows.Scan(&s); err != nil {
			return weft.InternalServerError(err)
		}
		tags = append(tags, s)
	}
	rows.Close()

	p.SetSubTitle("Tags: " + strings.Join(tags, ","))
	p.SetTitle(fmt.Sprintf("Site: %s - %s", siteID, strings.Title(typeID)))
	p.SetUnit("completeness")

	switch resolution {
	case "five_minutes":
		p.SetXAxis(time.Now().UTC().Add(time.Hour*-24*2), time.Now().UTC())
		p.SetXLabel("48 hours")

		expectedf /= 288
		rows, err = dbR.Query(`SELECT date_trunc('hour', time) + extract(minute from time)::int / 5 * interval '5 min' as t,
		 sum(count) FROM data.completeness WHERE
		sitePK = $1 AND typePK = $2
		AND time > now() - interval '2 days'
		GROUP BY date_trunc('hour', time) + extract(minute from time)::int / 5 * interval '5 min'
		ORDER BY t ASC`,
			sitePK, typePK)
	case "hour":
		p.SetXAxis(time.Now().UTC().Add(time.Hour*-24*28), time.Now().UTC())
		p.SetXLabel("4 weeks")

		expectedf /= 24
		rows, err = dbR.Query(`SELECT date_trunc('`+resolution+`',time) as t, sum(count) FROM data.completeness WHERE
		sitePK = $1 AND typePK = $2
		AND time > now() - interval '28 days'
		GROUP BY date_trunc('`+resolution+`',time)
		ORDER BY t ASC`,
			sitePK, typePK)
	case "twelve_hours":
		p.SetXAxis(time.Now().UTC().Add(time.Hour*-24*28), time.Now().UTC())
		p.SetXLabel("4 weeks")

		expectedf /= 2
		rows, err = dbR.Query(`SELECT date_trunc('hour', time) + extract(hour from time)::int / 12 * interval '12 hour' as t, sum(count) FROM data.completeness WHERE
		sitePK = $1 AND typePK = $2
		AND time > now() - interval '28 days'
		GROUP BY date_trunc('hour', time) + extract(hour from time)::int / 12 * interval '12 hour'
		ORDER BY t ASC`,
			sitePK, typePK)
	default:
		return weft.BadRequest("invalid resolution")
	}
	if err != nil {
		return weft.InternalServerError(err)
	}

	var pts []ts.Point

	for rows.Next() {
		var pt ts.Point
		var v int
		if err = rows.Scan(&pt.DateTime, &v); err != nil {
			return weft.InternalServerError(err)
		}

		pt.Value = float64(v) / expectedf
		pts = append(pts, pt)
	}

	// Add the latest value to the plot.
	var pt ts.Point

	if err = dbR.QueryRow(`SELECT time, count FROM data.completeness WHERE
			sitePK = $1 AND typePK = $2
			ORDER BY time DESC
			LIMIT 1`,
		sitePK, typePK).Scan(&pt.DateTime, &pt.Value); err != nil {
		// Note: We keep rendering the plot even there's no data.
		if err != sql.ErrNoRows {
			return weft.InternalServerError(err)
		}
		pt.Value = pt.Value / expectedf

		pts = append(pts, pt)
		p.SetLatest(pt, "deepskyblue")
	}

	p.AddSeries(ts.Series{Colour: "deepskyblue", Points: pts})

	if err = plotter.Draw(p, b); err != nil {
		return weft.InternalServerError(err)
	}

	return &weft.StatusOK
}
Пример #3
0
func dataLatencyPlot(siteID, typeID, resolution string, plotter ts.SVGPlot, b *bytes.Buffer) *weft.Result {
	var err error
	// we need the sitePK often so read it once.
	var sitePK int
	if err = dbR.QueryRow(`SELECT sitePK FROM data.site WHERE siteID = $1`,
		siteID).Scan(&sitePK); err != nil {
		if err == sql.ErrNoRows {
			return &weft.NotFound
		}
		return weft.InternalServerError(err)
	}

	var typePK int
	var scale float64
	var display string

	if err = dbR.QueryRow(`SELECT typePK, scale, display FROM data.type WHERE typeID = $1`,
		typeID).Scan(&typePK, &scale, &display); err != nil {
		if err == sql.ErrNoRows {
			return &weft.NotFound
		}
		return weft.InternalServerError(err)
	}

	var p ts.Plot

	p.SetUnit(display)

	var lower, upper int

	if err := dbR.QueryRow(`SELECT lower,upper FROM data.latency_threshold
		WHERE sitePK = $1 AND typePK = $2`,
		sitePK, typePK).Scan(&lower, &upper); err != nil && err != sql.ErrNoRows {
		return weft.InternalServerError(err)
	}

	if !(lower == 0 && upper == 0) {
		p.SetThreshold(float64(lower)*scale, float64(upper)*scale)
	}

	var tags []string
	var rows *sql.Rows

	if rows, err = dbR.Query(`SELECT tag FROM data.latency_tag JOIN mtr.tag USING (tagpk) WHERE
		sitePK = $1 AND typePK = $2
		ORDER BY tag asc`,
		sitePK, typePK); err != nil {
		return weft.InternalServerError(err)
	}

	defer rows.Close()

	for rows.Next() {
		var s string
		if err = rows.Scan(&s); err != nil {
			return weft.InternalServerError(err)
		}
		tags = append(tags, s)
	}
	rows.Close()

	p.SetSubTitle("Tags: " + strings.Join(tags, ","))
	p.SetTitle(fmt.Sprintf("Site: %s - %s", siteID, strings.Title(typeID)))

	// TODO - loading avg(mean) at each resolution.  Need to add max(fifty) and max(ninety) when there are some values.
	switch resolution {
	case "minute":
		p.SetXAxis(time.Now().UTC().Add(time.Hour*-12), time.Now().UTC())
		p.SetXLabel("12 hours")
	case "five_minutes":
		p.SetXAxis(time.Now().UTC().Add(time.Hour*-24*2), time.Now().UTC())
		p.SetXLabel("48 hours")
	case "hour":
		p.SetXAxis(time.Now().UTC().Add(time.Hour*-24*28), time.Now().UTC())
		p.SetXLabel("4 weeks")
	default:
		return weft.BadRequest("invalid resolution")
	}

	if err != nil {
		return weft.InternalServerError(err)
	}

	var timeRange []time.Time
	if timeRange, err = defaultTimeRange(resolution); err != nil {
		weft.InternalServerError(err)
	}

	rows, err = queryLatencyRows(sitePK, typePK, resolution, timeRange)
	defer rows.Close()

	pts := make(map[internal.ID]([]ts.Point))

	var mean float64
	var fifty int
	var ninety int
	var pt ts.Point

	for rows.Next() {
		if err = rows.Scan(&pt.DateTime, &mean, &fifty, &ninety); err != nil {
			return weft.InternalServerError(err)
		}
		pt.Value = mean * scale
		pts[internal.Mean] = append(pts[internal.Mean], pt)

		pt.Value = float64(fifty) * scale
		pts[internal.Fifty] = append(pts[internal.Fifty], pt)

		pt.Value = float64(ninety) * scale
		pts[internal.Ninety] = append(pts[internal.Ninety], pt)

	}
	rows.Close()

	// Add the latest value to the plot - this may be different to the average at minute or hour resolution.
	if err = dbR.QueryRow(`SELECT time, mean, fifty, ninety FROM data.latency WHERE
			sitePK = $1 AND typePK = $2
			ORDER BY time DESC
			LIMIT 1`,
		sitePK, typePK).Scan(&pt.DateTime, &mean, &fifty, &ninety); err != nil {
		return weft.InternalServerError(err)
	}

	pt.Value = mean * scale
	pts[internal.Mean] = append(pts[internal.Mean], pt)
	p.SetLatest(pt, internal.Colour(int(internal.Mean)))

	// No latest label for fifty and ninety
	pt.Value = float64(fifty) * scale
	pts[internal.Fifty] = append(pts[internal.Fifty], pt)

	pt.Value = float64(ninety) * scale
	pts[internal.Ninety] = append(pts[internal.Ninety], pt)

	for k, v := range pts {
		i := int(k)
		p.AddSeries(ts.Series{Colour: internal.Colour(i), Points: v})
	}

	// We need the labels in the order of "Mean, Fifty, Ninety" so put labels in the "range pts" won't work
	var labels ts.Labels
	labels = append(labels, ts.Label{Label: internal.Label(int(internal.Mean)), Colour: internal.Colour(int(internal.Mean))})
	labels = append(labels, ts.Label{Label: internal.Label(int(internal.Fifty)), Colour: internal.Colour(int(internal.Fifty))})
	labels = append(labels, ts.Label{Label: internal.Label(int(internal.Ninety)), Colour: internal.Colour(int(internal.Ninety))})
	p.SetLabels(labels)

	if err = plotter.Draw(p, b); err != nil {
		return weft.InternalServerError(err)
	}

	return &weft.StatusOK
}