/* Copyright 2015 The Kubernetes Authors. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ package qos import ( core "k8s.io/api/core/v1" "k8s.io/apimachinery/pkg/api/resource" "k8s.io/apimachinery/pkg/util/sets" ) var supportedQoSComputeResources = sets.NewString(string(core.ResourceCPU), string(core.ResourceMemory)) func isSupportedQoSComputeResource(name core.ResourceName) bool { return supportedQoSComputeResources.Has(string(name)) } // GetPodQOS returns the QoS class of a pod persisted in the PodStatus.QOSClass field. // If PodStatus.QOSClass is empty, it returns value of ComputePodQOS() which evaluates pod's QoS class. func GetPodQOS(pod *core.Pod) core.PodQOSClass { if pod.Status.QOSClass != "" { return pod.Status.QOSClass } return ComputePodQOS(pod) } // ComputePodQOS evaluates the list of containers to determine a pod's QoS class. This function is more // expensive than GetPodQOS which should be used for pods having a non-empty .Status.QOSClass. // A pod is besteffort if none of its containers have specified any requests or limits. // A pod is guaranteed only when requests and limits are specified for all the containers and they are equal. // A pod is burstable if limits and requests do not match across all containers. func ComputePodQOS(pod *core.Pod) core.PodQOSClass { requests := core.ResourceList{} limits := core.ResourceList{} zeroQuantity := resource.MustParse("0") isGuaranteed := true // note, ephemeral containers are not considered for QoS as they cannot define resources allContainers := []core.Container{} allContainers = append(allContainers, pod.Spec.Containers...) allContainers = append(allContainers, pod.Spec.InitContainers...) for _, container := range allContainers { // process requests for name, quantity := range container.Resources.Requests { if !isSupportedQoSComputeResource(name) { continue } if quantity.Cmp(zeroQuantity) == 1 { delta := quantity.DeepCopy() if _, exists := requests[name]; !exists { requests[name] = delta } else { delta.Add(requests[name]) requests[name] = delta } } } // process limits qosLimitsFound := sets.NewString() for name, quantity := range container.Resources.Limits { if !isSupportedQoSComputeResource(name) { continue } if quantity.Cmp(zeroQuantity) == 1 { qosLimitsFound.Insert(string(name)) delta := quantity.DeepCopy() if _, exists := limits[name]; !exists { limits[name] = delta } else { delta.Add(limits[name]) limits[name] = delta } } } if !qosLimitsFound.HasAll(string(core.ResourceMemory), string(core.ResourceCPU)) { isGuaranteed = false } } if len(requests) == 0 && len(limits) == 0 { return core.PodQOSBestEffort } // Check is requests match limits for all resources. if isGuaranteed { for name, req := range requests { if lim, exists := limits[name]; !exists || lim.Cmp(req) != 0 { isGuaranteed = false break } } } if isGuaranteed && len(requests) == len(limits) { return core.PodQOSGuaranteed } return core.PodQOSBurstable }