Exemplo n.º 1
0
func computeServicesMetrics(instMetrics map[string]data.MetricData) map[string]data.MetricData {
	servicesAvg := make(map[string]data.MetricData, len(servicesMetrics))

	for service, metrics := range servicesMetrics {
		baseMetrics := make(map[string]float64)
		// CPU
		cpuAvg := computeServiceCpuPerc(service, instMetrics)
		baseMetrics[enum.METRIC_CPU_AVG.ToString()] = cpuAvg
		// MEMORY -TODO
		memAvg := 0.0
		baseMetrics[enum.METRIC_MEM_AVG.ToString()] = memAvg

		userMetrics := make(map[string]float64, len(metrics.UserMetrics))
		for metric, values := range metrics.UserMetrics {
			value := utils.Mean(values)
			userMetrics[metric] = value
		}

		serviceAvg := data.MetricData{
			BaseMetrics: baseMetrics,
			UserMetrics: userMetrics,
		}

		servicesAvg[service] = serviceAvg
	}

	return servicesAvg
}
Exemplo n.º 2
0
func computeSysMetrics(instMetrics map[string]data.MetricData) data.MetricData {
	// TODO - improve by adding capacity
	baseMetrics := make(map[string]float64)
	cpuSys := 0.0
	memSys := make([]float64, 0, len(instMetrics))
	for instance, metrics := range instMetrics {
		service, err := srv.GetServiceById(instance)
		if err != nil {
			log.WithFields(log.Fields{
				"instance": instance,
			}).Errorln("Cannot find service by instance")
		} else {
			instCpus := service.Docker.CPUnumber
			instCpuValue := metrics.BaseMetrics[enum.METRIC_CPU_AVG.ToString()] * float64(instCpus)
			// CPU
			cpuSys += instCpuValue

			// MEM
			// TODO
		}
	}

	baseMetrics[enum.METRIC_CPU_AVG.ToString()] = cpuSys / float64(res.GetResources().CPU.Total)
	baseMetrics[enum.METRIC_MEM_AVG.ToString()] = utils.Mean(memSys)
	sysMetrics := data.MetricData{
		BaseMetrics: baseMetrics,
	}

	return sysMetrics

}
Exemplo n.º 3
0
// Returns CPU percentage average, total.
func computeServiceCpuPerc(name string, instMetrics map[string]data.MetricData) float64 {

	service, _ := srv.GetServiceByName(name)
	values := make([]float64, 0)

	if len(service.Instances.Running) > 0 {
		for _, id := range service.Instances.Running {
			instCpuAvg := instMetrics[id].BaseMetrics[enum.METRIC_CPU_AVG.ToString()]
			values = append(values, instCpuAvg)
		}
	}

	return utils.Mean(values)
}
Exemplo n.º 4
0
func (p *scaleoutCreator) computeWeight(name string, clusterData data.Shared) float64 {
	service, _ := srv.GetServiceByName(name)

	if res.AvailableResourcesService(name) < 1.0 {
		return 0.0
	}

	srvCores := service.Docker.CpusetCpus
	if srvCores != "" {
		if !res.CheckSpecificCoresAvailable(srvCores) {
			return 0.0
		}
	}

	policy := cfg.GetPolicy().Scaleout
	metrics := policy.Metrics
	analytics := policy.Analytics
	threshold := policy.Threshold
	weights := []float64{}

	for _, metric := range metrics {
		if value, ok := clusterData.Service[name].Data.BaseShared[metric]; ok {
			weights = append(weights, p.computeMetricWeight(value, threshold))
		}
	}

	for _, analytic := range analytics {
		if value, ok := clusterData.Service[name].Data.UserShared[analytic]; ok {
			weights = append(weights, p.computeMetricWeight(value, threshold))
		}
	}

	policyValue := utils.Mean(weights)

	return policyValue
}
Exemplo n.º 5
0
func (p *scaleinCreator) computeWeight(name string, clusterData data.Shared) float64 {
	service, _ := srv.GetServiceByName(name)
	inst_run := len(service.Instances.Running)
	inst_pen := len(service.Instances.Pending)

	if inst_run < 1 {
		return 0.0
	}

	baseServices := cfg.GetNodeConstraints().BaseServices
	if (inst_pen+inst_run) <= 1 && utils.ContainsString(baseServices, name) {
		return 0.0
	}

	policy := cfg.GetPolicy().Scalein
	metrics := policy.Metrics
	analytics := policy.Analytics
	threshold := policy.Threshold
	weights := []float64{}

	for _, metric := range metrics {
		if value, ok := clusterData.Service[name].Data.BaseShared[metric]; ok {
			weights = append(weights, p.computeMetricWeight(value, threshold))
		}
	}

	for _, analytic := range analytics {
		if value, ok := clusterData.Service[name].Data.UserShared[analytic]; ok {
			weights = append(weights, p.computeMetricWeight(value, threshold))
		}
	}

	policyValue := utils.Mean(weights)

	return policyValue
}
Exemplo n.º 6
0
func MergeShared(toMerge []Shared) (Shared, error) {
	if len(toMerge) < 1 {
		return Shared{}, errors.New("No shared data to merge")
	}

	if len(toMerge) == 1 {
		return toMerge[0], nil
	}

	merged := Shared{
		Service: make(map[string]ServiceShared),
	}

	for _, name := range srv.List() {
		srvMerged := ServiceShared{}
		baseValues := make(map[string][]float64)
		userValues := make(map[string][]float64)
		for _, data := range toMerge {
			if data.Service[name].Active {
				srvMerged.Active = true

				for analytics, value := range data.Service[name].Data.BaseShared {
					baseValues[analytics] = append(baseValues[analytics], value)
				}

				for analytics, value := range data.Service[name].Data.UserShared {
					userValues[analytics] = append(userValues[analytics], value)
				}
			}
		}

		baseMerged := make(map[string]float64, len(baseValues))
		for analytics, values := range baseValues {
			baseMerged[analytics] = utils.Mean(values)
		}

		userMerged := make(map[string]float64, len(userValues))
		for analytics, values := range userValues {
			userMerged[analytics] = utils.Mean(values)
		}

		srvMerged.Data.BaseShared = baseMerged
		srvMerged.Data.UserShared = userMerged
		merged.Service[name] = srvMerged
	}

	sysMerged := SystemShared{}
	baseValues := make(map[string][]float64)
	userValues := make(map[string][]float64)
	for _, data := range toMerge {

		for analytics, value := range data.System.Data.BaseShared {
			baseValues[analytics] = append(baseValues[analytics], value)
		}

		for analytics, value := range data.System.Data.UserShared {
			userValues[analytics] = append(userValues[analytics], value)
		}

		sysMerged.ActiveServices = checkAndAppend(sysMerged.ActiveServices, data.System.ActiveServices)
	}

	baseMerged := make(map[string]float64, len(baseValues))
	for analytics, values := range baseValues {
		baseMerged[analytics] = utils.Mean(values)
	}

	userMerged := make(map[string]float64, len(userValues))
	for analytics, values := range userValues {
		userMerged[analytics] = utils.Mean(values)
	}

	sysMerged.Data.BaseShared = baseMerged
	sysMerged.Data.UserShared = userMerged
	merged.System = sysMerged

	return merged, nil

	// var loadAvg float64
	// var cpuAvg float64
	// var memAvg float64
	// var resourcesAvg float64

	// for _, name := range service.List() {
	// 	loadAvg = 0.0
	// 	cpuAvg = 0.0
	// 	memAvg = 0.0
	// 	resourcesAvg = 0.0
	// 	counter := 0.0
	// 	for _, info := range toMerge {
	// 		if srv, ok := info.Service[name]; ok {
	// 			if srv.Active {
	// 				loadAvg += srv.Load
	// 				cpuAvg += srv.Cpu
	// 				memAvg += srv.Memory
	// 				resourcesAvg += srv.Resources

	// 				counter++
	// 			}
	// 		}
	// 	}

	// 	if counter > 0 {
	// 		loadAvg /= counter
	// 		cpuAvg /= counter
	// 		memAvg /= counter
	// 		resourcesAvg /= counter

	// 		mergedService := ServiceShared{
	// 			Load:      loadAvg,
	// 			Cpu:       cpuAvg,
	// 			Memory:    memAvg,
	// 			Resources: resourcesAvg,
	// 			Active:    true,
	// 		}

	// 		merged.Service[name] = mergedService
	// 	}
	// }

	// cpuAvg = 0.0
	// memAvg = 0.0
	// resourcesAvg = 0.0
	// healthAvg := 0.0
	// activeServices := []string{}
	// for _, info := range toMerge {
	// 	cpuAvg += info.System.Cpu
	// 	memAvg += info.System.Memory
	// 	healthAvg += info.System.Health
	// 	activeServices = checkAndAppend(activeServices, info.System.ActiveServices)
	// }

	// lenght := float64(len(toMerge))
	// cpuAvg /= lenght
	// memAvg /= lenght
	// healthAvg /= lenght

	// mergedSystem := SystemShared{
	// 	Cpu:            cpuAvg,
	// 	Memory:         memAvg,
	// 	Health:         healthAvg,
	// 	ActiveServices: activeServices,
	// }

	// merged.System = mergedSystem
}
Exemplo n.º 7
0
func (p *swapCreator) computeWeight(running string, candidate string, clusterData data.Shared) float64 {
	srv_run, _ := srv.GetServiceByName(running)
	srv_cand, _ := srv.GetServiceByName(candidate)
	nRun := len(srv_run.Instances.Running)
	baseServices := cfg.GetNodeConstraints().BaseServices

	if utils.ContainsString(baseServices, running) && nRun < 2 {
		return 0.0
	}

	// If the service has the resources to start without stopping the other
	// there is no reason to swap them
	if res.AvailableResourcesService(candidate) > 0 {
		return 0.0
	}

	// TODO now this works only with homogeneous containers
	// and taking into account only the CPUs. This is not a
	// a good thing, so in the feuture the swap policy should
	// be able to compare the resources needed by each containers
	// and evaulte if it is possible to swap a container with
	// more than one that is active, in order to obtain
	// the requested amount of resources.
	if srv_run.Docker.CPUnumber != srv_cand.Docker.CPUnumber {
		return 0.0
	}

	runShared := clusterData.Service[running]
	candShared := clusterData.Service[candidate]
	policy := cfg.GetPolicy().Swap
	metrics := policy.Metrics
	analytics := policy.Analytics
	threshold := policy.Threshold
	weights := []float64{}

	candValue := 0.0
	runValue := 0.0
	for _, metric := range metrics {
		if value, ok := candShared.Data.BaseShared[metric]; ok {
			candValue = value
		} else {
			candValue = -1.0
		}

		if value, ok := runShared.Data.BaseShared[metric]; ok {
			runValue = value
		} else {
			runValue = -1.0
		}

		if candValue != -1.0 && runValue != -1.0 {
			delta := candValue - runValue
			weight := math.Min(1.0, delta/threshold)
			weights = append(weights, weight)
		} else {
			log.WithFields(log.Fields{
				"metric":    metric,
				"running":   running,
				"candidate": candidate,
			}).Warnln("Cannot compare services: metric not present in both services")
		}
	}

	for _, analytic := range analytics {
		if value, ok := candShared.Data.UserShared[analytic]; ok {
			candValue = value
		} else {
			candValue = -1.0
		}

		if value, ok := runShared.Data.UserShared[analytic]; ok {
			runValue = value
		} else {
			runValue = -1.0
		}

		if candValue != -1.0 && runValue != -1.0 {
			delta := candValue - runValue
			weight := math.Min(1.0, delta/threshold)
			weights = append(weights, weight)
		} else {
			log.WithFields(log.Fields{
				"analytic":  analytic,
				"running":   running,
				"candidate": candidate,
			}).Warnln("Cannot compare services: analytic not present in both services")
		}
	}

	policyValue := math.Max(0.0, utils.Mean(weights))

	return policyValue
}