Beispiel #1
0
// handle metrics received from statsd
// bucket name must be in this format:
// appname.info1#param1#param2.info2#param1.infoX.field
// data is saved for day, hour, and 15 minute intervals
func dbHandleMetrics(m *statsd.Metric) {
	values := strings.Split(m.Bucket, ".")
	if len(values) < 3 {
		log.Error("Invalid bucket name - at least 3 items dot-separated items are required: %s", m.Bucket)
		return
	}
	if strings.HasPrefix(m.Bucket, "_") {
		log.Error("Invalid bucket name - cannot start with underline: %s", m.Bucket)
		return
	}

	// first item - app
	app := values[0]

	// last item - field name
	name := values[len(values)-1]

	// sanitization
	if !data.ValidateName(app) {
		log.Error("Invalid bucket name - name not validated: %s", app)
		return
	}

	if !data.ValidateValueName(name) {
		log.Error("Invalid bucket name - name not validated: %s", name)
		return
	}

	// remove first and last item
	values = values[1 : len(values)-1]

	tm := time.Now().UTC()
	// 15 minute aggregation
	minute := int(tm.Minute()/15.0) * 15

	var idata *bson.M

	switch m.Type {
	case statsd.COUNTER:
		idata = &bson.M{
			"$inc": bson.M{
				fmt.Sprintf("_dy.c_%s", name):                                 m.Value,
				fmt.Sprintf("_hr.h_%d.c_%s", tm.Hour(), name):                 m.Value,
				fmt.Sprintf("_hr.h_%d.mn.m_%d.c_%s", tm.Hour(), minute, name): m.Value,
			},
		}
	case statsd.TIMER:
		idata = &bson.M{
			"$inc": bson.M{
				fmt.Sprintf("_dy.t_%s", name):                                  m.Value,
				fmt.Sprintf("_dy.tc_%s", name):                                 1,
				fmt.Sprintf("_hr.h_%d.t_%s", tm.Hour(), name):                  m.Value,
				fmt.Sprintf("_hr.h_%d.tc_%s", tm.Hour(), name):                 1,
				fmt.Sprintf("_hr.h_%d.mn.m_%d.t_%s", tm.Hour(), minute, name):  m.Value,
				fmt.Sprintf("_hr.h_%d.mn.m_%d.tc_%s", tm.Hour(), minute, name): 1,
			},
		}
	case statsd.GAUGE:
		idata = &bson.M{
			"$inc": bson.M{
				fmt.Sprintf("_dy.g_%s", name):                                  m.Value,
				fmt.Sprintf("_dy.gc_%s", name):                                 1,
				fmt.Sprintf("_hr.h_%d.g_%s", tm.Hour(), name):                  m.Value,
				fmt.Sprintf("_hr.h_%d.gc_%s", tm.Hour(), name):                 1,
				fmt.Sprintf("_hr.h_%d.mn.m_%d.g_%s", tm.Hour(), minute, name):  m.Value,
				fmt.Sprintf("_hr.h_%d.mn.m_%d.gc_%s", tm.Hour(), minute, name): 1,
			},
		}
	}

	if idata != nil {
		baseq := bson.M{
			"_dt": tm.Format("2006-01-02"),
		}
		baseqapp := bson.M{
			"_dt":  tm.Format("2006-01-02"),
			"_app": app,
		}

		// all collections start with stat_
		c_base := "stat"

		// loop on info. Each can have parameters separated by #
		for _, iv := range values {
			info := strings.Split(iv, "#")
			if strings.HasPrefix(info[0], "_") {
				log.Error("Invalid bucket name - info cannot start with underline: %s", info[0])
				return
			}

			// sanitize
			if !data.ValidateName(info[0]) {
				log.Error("Invalid bucket name - name not validated: %s", info[0])
				return
			}

			c_base = c_base + "_" + info[0]
			if len(c_base) == 0 {
				log.Error("Invalid bucket name - info cannot be blank: %s", m.Bucket)
				return
			}

			// separate database for total and per-app
			c := dbdb.C(c_base)
			capp := dbdb.C(fmt.Sprintf("%s-app", c_base))

			// loop parameters
			for ridx, rv := range info[1:] {
				if rv != "" {
					var pname string
					// from second parameter on, add index to parameter name, starting from 1
					if ridx > 0 {
						pname = fmt.Sprintf("%s%d", info[0], ridx)
					} else {
						pname = info[0]
					}

					// sanitize
					if !data.ValidateName(pname) {
						log.Error("Invalid param name - name not validated: %s", pname)
						return
					}

					// add parameter to queries
					baseq[pname] = rv
					baseqapp[pname] = rv
				}
			}

			// general
			_, err := c.Upsert(baseq, *idata)
			if err != nil {
				log.Error("Error saving log record: %s", err)
			}

			// by app
			if app != "" {
				_, err = capp.Upsert(baseqapp, *idata)
				if err != nil {
					log.Error("Error saving connection app record: %s", err)
				}
			}
		}
	}
}
Beispiel #2
0
func QueryStats(db *mgo.Database, statsquery *StatsQuery) (*StatsQueryResult, error) {
	// check parameters
	if statsquery.Process == "" || statsquery.Data == nil || len(statsquery.Data) == 0 {
		return nil, fmt.Errorf("Required parameter not sent")
	}
	if statsquery.Groups == nil {
		statsquery.Groups = make([]string, 0)
	}

	// sanitize
	if !data.ValidateValueName(statsquery.Process) {
		return nil, fmt.Errorf("Invalid process name - name not validated: %s", statsquery.Process)
	}
	if statsquery.App != "" && statsquery.App != "@" && !data.ValidateName(statsquery.App) {
		return nil, fmt.Errorf("Invalid app name - name not validated: %s", statsquery.App)
	}
	for _, gval := range statsquery.Groups {
		if gval != "_app" && !data.ValidateName(gval) {
			return nil, fmt.Errorf("Invalid group name - name not validated: %s", gval)
		}
	}

	if statsquery.Amount < 1 {
		statsquery.Amount = 1
	}

	// find collection
	cname := fmt.Sprintf("stat_%s", statsquery.Process)
	if statsquery.App != "" {
		cname += "-app"
	}

	if !infoCollectionExists(db, cname) {
		return nil, fmt.Errorf("Process not found: %s", statsquery.Process)
	}

	c := db.C(cname)
	if statsquery.App != "" {
		c.EnsureIndex(mgo.Index{
			Key:        []string{"_dt", "_app"},
			Background: true,
			Sparse:     true,
		})
	} else {
		c.EnsureIndex(mgo.Index{
			Key:        []string{"_dt"},
			Background: true,
			Sparse:     true,
		})
	}

	// start time
	startdate := epochdate.TodayUTC() - epochdate.Date(statsquery.Amount) + 1
	enddate := epochdate.TodayUTC()

	//log.Printf("StartDate: %s - EndDate: %s", startdate.String(), enddate.String())

	// build mongodb filter
	filter := bson.M{"_dt": bson.M{"$gte": startdate.String()}}
	if statsquery.App != "" && statsquery.App != "@" {
		filter["_app"] = statsquery.App
	}

	if statsquery.Filters != nil {
		for pn, pv := range statsquery.Filters {
			// sanitize
			if !data.ValidateValueName(pn) {
				return nil, fmt.Errorf("Invalid filter name - name not validated: %s", pn)
			}
			//log.Printf("Filter: %s = %s", pn, pv)
			filter[pn] = pv
		}
	}

	querysort := []string{"_dt"}
	if len(statsquery.Groups) > 0 {
		for _, g := range statsquery.Groups {
			querysort = append(querysort, g)
		}
	}

	query := c.Find(filter).Sort(querysort...).Iter()

	groupcollect := make(map[string]*InfoGroupInfo, 0)

	fdata := make(map[string]interface{})
	for query.Next(&fdata) {
		datadate, _ := epochdate.Parse(epochdate.RFC3339, fdata["_dt"].(string))
		//log.Printf("DateDate: %s", datadate.String())

		// build group string
		curgroup := ""
		if len(statsquery.Groups) > 0 {
			for _, g := range statsquery.Groups {
				if gv, ok := fdata[g]; ok {
					curgroup = curgroup + "::" + fmt.Sprintf("%v", gv)
				} else {
					return nil, fmt.Errorf("No such field %s", g)
				}
			}
		}

		ginfo, sdok := groupcollect[curgroup]
		if !sdok {
			//log.Printf("New data for group %s", curgroup)

			// stats collector, fills empty periods with 0
			scollect := NewSDayCollect(statsquery.Period)
			for _, ditem := range statsquery.Data {
				// add data - output name is equals data name
				scollect.AddImport(ditem, ditem)
			}
			scollect.Init(startdate, enddate)
			ginfo = &InfoGroupInfo{GroupId: curgroup, Groups: make(map[string]interface{}), Collect: scollect}
			groupcollect[curgroup] = ginfo

			for _, g := range statsquery.Groups {
				if gv, ok := fdata[g]; ok {
					ginfo.Groups[g] = gv
				} else {
					return nil, fmt.Errorf("No such field %s", g)
				}
			}
		}

		// fill day from data
		ginfo.Collect.ValueDay(datadate, fdata)
	}

	if err := query.Close(); err != nil {
		return nil, fmt.Errorf("Error reading data: %s", err)
	}

	var res interface{}
	if len(statsquery.Groups) > 0 {
		resgroup := &InfoResultGroup{Group: make([]*InfoResultGroupItem, 0)}
		for _, gv := range groupcollect {
			resgroup.Group = append(resgroup.Group, &InfoResultGroupItem{GroupId: gv.GroupId, Groups: gv.Groups, InfoResult: &InfoResult{List: gv.Collect.BuildResult()}})
		}
		res = resgroup
	} else {
		resinfo := &InfoResult{List: nil}
		if ri, ok := groupcollect[""]; ok {
			resinfo.List = ri.Collect.BuildResult()
		} else {
			resinfo.List = nil
		}
		res = resinfo
	}

	return &StatsQueryResult{
		StartDate: startdate,
		//EndDate:   curdate,
		EndDate: enddate,
		Result:  res,
	}, nil
}