// 非法值: ts=0,value无意义 func GetLast(endpoint, counter string) *cmodel.RRDData { dsType, step, exists := index.GetTypeAndStep(endpoint, counter) if !exists { return cmodel.NewRRDData(0, 0.0) } if dsType == g.GAUGE { return GetLastRaw(endpoint, counter) } if dsType == g.COUNTER || dsType == g.DERIVE { md5 := cutils.Md5(endpoint + "/" + counter) items := store.GetAllItems(md5) if len(items) < 2 { return cmodel.NewRRDData(0, 0.0) } f0 := items[0] f1 := items[1] delta_ts := f0.Timestamp - f1.Timestamp delta_v := f0.Value - f1.Value if delta_ts != int64(step) || delta_ts <= 0 { return cmodel.NewRRDData(0, 0.0) } if delta_v < 0 { // when cnt restarted, new cnt value would be zero, so fix it here delta_v = 0 } return cmodel.NewRRDData(f0.Timestamp, delta_v/float64(delta_ts)) } return cmodel.NewRRDData(0, 0.0) }
func (this *Graph) Info(param cmodel.GraphInfoParam, resp *cmodel.GraphInfoResp) error { // statistics proc.GraphInfoCnt.Incr() dsType, step, exists := index.GetTypeAndStep(param.Endpoint, param.Counter) if !exists { return nil } md5 := cutils.Md5(param.Endpoint + "/" + param.Counter) filename := fmt.Sprintf("%s/%s/%s_%s_%d.rrd", g.Config().RRD.Storage, md5[0:2], md5, dsType, step) resp.ConsolFun = dsType resp.Step = step resp.Filename = filename return nil }
func (this *Graph) Query(param cmodel.GraphQueryParam, resp *cmodel.GraphQueryResponse) error { var ( datas []*cmodel.RRDData datas_size int ) // statistics proc.GraphQueryCnt.Incr() cfg := g.Config() // form empty response resp.Values = []*cmodel.RRDData{} resp.Endpoint = param.Endpoint resp.Counter = param.Counter dsType, step, exists := index.GetTypeAndStep(param.Endpoint, param.Counter) // complete dsType and step qstep := step if param.Step != 0 { qstep = param.Step } if !exists { return nil } resp.DsType = dsType resp.Step = qstep start_ts := param.Start - param.Start%int64(step) end_ts := param.End - param.End%int64(step) + int64(step) if end_ts-start_ts-int64(step) < 1 { return nil } md5 := cutils.Md5(param.Endpoint + "/" + param.Counter) key := g.FormRrdCacheKey(md5, dsType, step) filename := g.RrdFileName(cfg.RRD.Storage, md5, dsType, step) // read cached items items, flag := store.GraphItems.FetchAll(key) items_size := len(items) if cfg.Migrate.Enabled && flag&g.GRAPH_F_MISS != 0 { node, _ := rrdtool.Consistent.Get(param.Endpoint + "/" + param.Counter) done := make(chan error, 1) res := &cmodel.GraphAccurateQueryResponse{} rrdtool.Net_task_ch[node] <- &rrdtool.Net_task_t{ Method: rrdtool.NET_TASK_M_QUERY, Done: done, Args: param, Reply: res, } <-done // fetch data from remote datas = res.Values datas_size = len(datas) } else { // read data from rrd file datas, _ = rrdtool.Fetch(filename, param.ConsolFun, start_ts, end_ts, qstep) datas_size = len(datas) } nowTs := time.Now().Unix() lastUpTs := nowTs - nowTs%int64(step) rra1StartTs := lastUpTs - int64(rrdtool.RRA1PointCnt*step) // consolidated, do not merge if start_ts < rra1StartTs { resp.Values = datas goto _RETURN_OK } // no cached items, do not merge if items_size < 1 { resp.Values = datas goto _RETURN_OK } // merge { // fmt cached items var val cmodel.JsonFloat cache := make([]*cmodel.RRDData, 0) ts := items[0].Timestamp itemEndTs := items[items_size-1].Timestamp itemIdx := 0 if dsType == g.DERIVE || dsType == g.COUNTER { for ts < itemEndTs { if itemIdx < items_size-1 && ts == items[itemIdx].Timestamp && ts == items[itemIdx+1].Timestamp-int64(step) { val = cmodel.JsonFloat(items[itemIdx+1].Value-items[itemIdx].Value) / cmodel.JsonFloat(step) if val < 0 { val = cmodel.JsonFloat(math.NaN()) } itemIdx++ } else { // missing val = cmodel.JsonFloat(math.NaN()) } if ts >= start_ts && ts <= end_ts { cache = append(cache, &cmodel.RRDData{Timestamp: ts, Value: val}) } ts = ts + int64(step) } } else if dsType == g.GAUGE { for ts <= itemEndTs { if itemIdx < items_size && ts == items[itemIdx].Timestamp { val = cmodel.JsonFloat(items[itemIdx].Value) itemIdx++ } else { // missing val = cmodel.JsonFloat(math.NaN()) } if ts >= start_ts && ts <= end_ts { cache = append(cache, &cmodel.RRDData{Timestamp: ts, Value: val}) } ts = ts + int64(step) } } cache_size := len(cache) // do merging merged := make([]*cmodel.RRDData, 0) if datas_size > 0 { for _, val := range datas { if val.Timestamp >= start_ts && val.Timestamp <= end_ts { merged = append(merged, val) //rrdtool返回的数据,时间戳是连续的、不会有跳点的情况 } } } if cache_size > 0 { rrdDataSize := len(merged) lastTs := cache[0].Timestamp // find junction rrdDataIdx := 0 for rrdDataIdx = rrdDataSize - 1; rrdDataIdx >= 0; rrdDataIdx-- { if merged[rrdDataIdx].Timestamp < cache[0].Timestamp { lastTs = merged[rrdDataIdx].Timestamp break } } // fix missing for ts := lastTs + int64(step); ts < cache[0].Timestamp; ts += int64(step) { merged = append(merged, &cmodel.RRDData{Timestamp: ts, Value: cmodel.JsonFloat(math.NaN())}) } // merge cached items to result rrdDataIdx += 1 for cacheIdx := 0; cacheIdx < cache_size; cacheIdx++ { if rrdDataIdx < rrdDataSize { if !math.IsNaN(float64(cache[cacheIdx].Value)) { merged[rrdDataIdx] = cache[cacheIdx] } } else { merged = append(merged, cache[cacheIdx]) } rrdDataIdx++ } } mergedSize := len(merged) // fmt result ret_size := int((end_ts - start_ts) / int64(step)) ret := make([]*cmodel.RRDData, ret_size, ret_size) mergedIdx := 0 ts = start_ts for i := 0; i < ret_size; i++ { if mergedIdx < mergedSize && ts == merged[mergedIdx].Timestamp { ret[i] = merged[mergedIdx] mergedIdx++ } else { ret[i] = &cmodel.RRDData{Timestamp: ts, Value: cmodel.JsonFloat(math.NaN())} } ts += int64(step) } resp.Values = ret } _RETURN_OK: // statistics proc.GraphQueryItemCnt.IncrBy(int64(len(resp.Values))) return nil }