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defaults.go
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defaults.go
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/*
Copyright 2014 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 defaults
import (
"os"
"strconv"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/util/sets"
"k8s.io/kubernetes/pkg/api/v1"
"k8s.io/kubernetes/pkg/cloudprovider/providers/aws"
"k8s.io/kubernetes/plugin/pkg/scheduler/algorithm"
"k8s.io/kubernetes/plugin/pkg/scheduler/algorithm/predicates"
"k8s.io/kubernetes/plugin/pkg/scheduler/algorithm/priorities"
"k8s.io/kubernetes/plugin/pkg/scheduler/core"
"k8s.io/kubernetes/plugin/pkg/scheduler/factory"
"github.com/golang/glog"
)
const (
// DefaultMaxGCEPDVolumes defines the maximum number of PD Volumes for GCE
// GCE instances can have up to 16 PD volumes attached.
DefaultMaxGCEPDVolumes = 16
// DefaultMaxAzureDiskVolumes defines the maximum number of PD Volumes for Azure
// Larger Azure VMs can actually have much more disks attached.
// TODO We should determine the max based on VM size
DefaultMaxAzureDiskVolumes = 16
// ClusterAutoscalerProvider defines the default autoscaler provider
ClusterAutoscalerProvider = "ClusterAutoscalerProvider"
// StatefulSetKind defines the name of 'StatefulSet' kind
StatefulSetKind = "StatefulSet"
// KubeMaxPDVols defines the maximum number of PD Volumes per kubelet
KubeMaxPDVols = "KUBE_MAX_PD_VOLS"
)
func init() {
// Register functions that extract metadata used by predicates and priorities computations.
factory.RegisterPredicateMetadataProducerFactory(
func(args factory.PluginFactoryArgs) algorithm.MetadataProducer {
return predicates.NewPredicateMetadataFactory(args.PodLister)
})
factory.RegisterPriorityMetadataProducerFactory(
func(args factory.PluginFactoryArgs) algorithm.MetadataProducer {
return priorities.PriorityMetadata
})
// Registers algorithm providers. By default we use 'DefaultProvider', but user can specify one to be used
// by specifying flag.
factory.RegisterAlgorithmProvider(factory.DefaultProvider, defaultPredicates(), defaultPriorities())
// Cluster autoscaler friendly scheduling algorithm.
factory.RegisterAlgorithmProvider(ClusterAutoscalerProvider, defaultPredicates(),
copyAndReplace(defaultPriorities(), "LeastRequestedPriority", "MostRequestedPriority"))
// Registers predicates and priorities that are not enabled by default, but user can pick when creating his
// own set of priorities/predicates.
// PodFitsPorts has been replaced by PodFitsHostPorts for better user understanding.
// For backwards compatibility with 1.0, PodFitsPorts is registered as well.
factory.RegisterFitPredicate("PodFitsPorts", predicates.PodFitsHostPorts)
// Fit is defined based on the absence of port conflicts.
// This predicate is actually a default predicate, because it is invoked from
// predicates.GeneralPredicates()
factory.RegisterFitPredicate("PodFitsHostPorts", predicates.PodFitsHostPorts)
// Fit is determined by resource availability.
// This predicate is actually a default predicate, because it is invoked from
// predicates.GeneralPredicates()
factory.RegisterFitPredicate("PodFitsResources", predicates.PodFitsResources)
// Fit is determined by the presence of the Host parameter and a string match
// This predicate is actually a default predicate, because it is invoked from
// predicates.GeneralPredicates()
factory.RegisterFitPredicate("HostName", predicates.PodFitsHost)
// Fit is determined by node selector query.
factory.RegisterFitPredicate("MatchNodeSelector", predicates.PodSelectorMatches)
// Use equivalence class to speed up predicates & priorities
factory.RegisterGetEquivalencePodFunction(GetEquivalencePod)
// ServiceSpreadingPriority is a priority config factory that spreads pods by minimizing
// the number of pods (belonging to the same service) on the same node.
// Register the factory so that it's available, but do not include it as part of the default priorities
// Largely replaced by "SelectorSpreadPriority", but registered for backward compatibility with 1.0
factory.RegisterPriorityConfigFactory(
"ServiceSpreadingPriority",
factory.PriorityConfigFactory{
Function: func(args factory.PluginFactoryArgs) algorithm.PriorityFunction {
return priorities.NewSelectorSpreadPriority(args.ServiceLister, algorithm.EmptyControllerLister{}, algorithm.EmptyReplicaSetLister{}, algorithm.EmptyStatefulSetLister{})
},
Weight: 1,
},
)
// EqualPriority is a prioritizer function that gives an equal weight of one to all nodes
// Register the priority function so that its available
// but do not include it as part of the default priorities
factory.RegisterPriorityFunction2("EqualPriority", core.EqualPriorityMap, nil, 1)
// ImageLocalityPriority prioritizes nodes based on locality of images requested by a pod. Nodes with larger size
// of already-installed packages required by the pod will be preferred over nodes with no already-installed
// packages required by the pod or a small total size of already-installed packages required by the pod.
factory.RegisterPriorityFunction2("ImageLocalityPriority", priorities.ImageLocalityPriorityMap, nil, 1)
// Optional, cluster-autoscaler friendly priority function - give used nodes higher priority.
factory.RegisterPriorityFunction2("MostRequestedPriority", priorities.MostRequestedPriorityMap, nil, 1)
}
func defaultPredicates() sets.String {
return sets.NewString(
// Fit is determined by volume zone requirements.
factory.RegisterFitPredicateFactory(
"NoVolumeZoneConflict",
func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
return predicates.NewVolumeZonePredicate(args.PVInfo, args.PVCInfo)
},
),
// Fit is determined by whether or not there would be too many AWS EBS volumes attached to the node
factory.RegisterFitPredicateFactory(
"MaxEBSVolumeCount",
func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
// TODO: allow for generically parameterized scheduler predicates, because this is a bit ugly
maxVols := getMaxVols(aws.DefaultMaxEBSVolumes)
return predicates.NewMaxPDVolumeCountPredicate(predicates.EBSVolumeFilter, maxVols, args.PVInfo, args.PVCInfo)
},
),
// Fit is determined by whether or not there would be too many GCE PD volumes attached to the node
factory.RegisterFitPredicateFactory(
"MaxGCEPDVolumeCount",
func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
// TODO: allow for generically parameterized scheduler predicates, because this is a bit ugly
maxVols := getMaxVols(DefaultMaxGCEPDVolumes)
return predicates.NewMaxPDVolumeCountPredicate(predicates.GCEPDVolumeFilter, maxVols, args.PVInfo, args.PVCInfo)
},
),
// Fit is determined by whether or not there would be too many Azure Disk volumes attached to the node
factory.RegisterFitPredicateFactory(
"MaxAzureDiskVolumeCount",
func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
// TODO: allow for generically parameterized scheduler predicates, because this is a bit ugly
maxVols := getMaxVols(DefaultMaxAzureDiskVolumes)
return predicates.NewMaxPDVolumeCountPredicate(predicates.AzureDiskVolumeFilter, maxVols, args.PVInfo, args.PVCInfo)
},
),
// Fit is determined by inter-pod affinity.
factory.RegisterFitPredicateFactory(
"MatchInterPodAffinity",
func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
return predicates.NewPodAffinityPredicate(args.NodeInfo, args.PodLister)
},
),
// Fit is determined by non-conflicting disk volumes.
factory.RegisterFitPredicate("NoDiskConflict", predicates.NoDiskConflict),
// GeneralPredicates are the predicates that are enforced by all Kubernetes components
// (e.g. kubelet and all schedulers)
factory.RegisterFitPredicate("GeneralPredicates", predicates.GeneralPredicates),
// Fit is determined based on whether a pod can tolerate all of the node's taints
factory.RegisterFitPredicate("PodToleratesNodeTaints", predicates.PodToleratesNodeTaints),
// Fit is determined by node memory pressure condition.
factory.RegisterFitPredicate("CheckNodeMemoryPressure", predicates.CheckNodeMemoryPressurePredicate),
// Fit is determined by node disk pressure condition.
factory.RegisterFitPredicate("CheckNodeDiskPressure", predicates.CheckNodeDiskPressurePredicate),
)
}
func defaultPriorities() sets.String {
return sets.NewString(
// spreads pods by minimizing the number of pods (belonging to the same service or replication controller) on the same node.
factory.RegisterPriorityConfigFactory(
"SelectorSpreadPriority",
factory.PriorityConfigFactory{
Function: func(args factory.PluginFactoryArgs) algorithm.PriorityFunction {
return priorities.NewSelectorSpreadPriority(args.ServiceLister, args.ControllerLister, args.ReplicaSetLister, args.StatefulSetLister)
},
Weight: 1,
},
),
// pods should be placed in the same topological domain (e.g. same node, same rack, same zone, same power domain, etc.)
// as some other pods, or, conversely, should not be placed in the same topological domain as some other pods.
factory.RegisterPriorityConfigFactory(
"InterPodAffinityPriority",
factory.PriorityConfigFactory{
Function: func(args factory.PluginFactoryArgs) algorithm.PriorityFunction {
return priorities.NewInterPodAffinityPriority(args.NodeInfo, args.NodeLister, args.PodLister, args.HardPodAffinitySymmetricWeight)
},
Weight: 1,
},
),
// Prioritize nodes by least requested utilization.
factory.RegisterPriorityFunction2("LeastRequestedPriority", priorities.LeastRequestedPriorityMap, nil, 1),
// Prioritizes nodes to help achieve balanced resource usage
factory.RegisterPriorityFunction2("BalancedResourceAllocation", priorities.BalancedResourceAllocationMap, nil, 1),
// Set this weight large enough to override all other priority functions.
// TODO: Figure out a better way to do this, maybe at same time as fixing #24720.
factory.RegisterPriorityFunction2("NodePreferAvoidPodsPriority", priorities.CalculateNodePreferAvoidPodsPriorityMap, nil, 10000),
// Prioritizes nodes that have labels matching NodeAffinity
factory.RegisterPriorityFunction2("NodeAffinityPriority", priorities.CalculateNodeAffinityPriorityMap, priorities.CalculateNodeAffinityPriorityReduce, 1),
// TODO: explain what it does.
factory.RegisterPriorityFunction2("TaintTolerationPriority", priorities.ComputeTaintTolerationPriorityMap, priorities.ComputeTaintTolerationPriorityReduce, 1),
)
}
// getMaxVols checks the max PD volumes environment variable, otherwise returning a default value
func getMaxVols(defaultVal int) int {
if rawMaxVols := os.Getenv(KubeMaxPDVols); rawMaxVols != "" {
if parsedMaxVols, err := strconv.Atoi(rawMaxVols); err != nil {
glog.Errorf("Unable to parse maxiumum PD volumes value, using default of %v: %v", defaultVal, err)
} else if parsedMaxVols <= 0 {
glog.Errorf("Maximum PD volumes must be a positive value, using default of %v", defaultVal)
} else {
return parsedMaxVols
}
}
return defaultVal
}
func copyAndReplace(set sets.String, replaceWhat, replaceWith string) sets.String {
result := sets.NewString(set.List()...)
if result.Has(replaceWhat) {
result.Delete(replaceWhat)
result.Insert(replaceWith)
}
return result
}
// GetEquivalencePod returns a EquivalencePod which contains a group of pod attributes which can be reused.
func GetEquivalencePod(pod *v1.Pod) interface{} {
// For now we only consider pods:
// 1. OwnerReferences is Controller
// 2. with same OwnerReferences
// to be equivalent
if len(pod.OwnerReferences) != 0 {
for _, ref := range pod.OwnerReferences {
if *ref.Controller {
// a pod can only belongs to one controller
return &EquivalencePod{
ControllerRef: ref,
}
}
}
}
return nil
}
// EquivalencePod is a group of pod attributes which can be reused as equivalence to schedule other pods.
type EquivalencePod struct {
ControllerRef metav1.OwnerReference
}