func defaultPriorities() sets.String {
return sets.NewString(
// Prioritize nodes by least requested utilization.
factory.RegisterPriorityFunction("LeastRequestedPriority", priorities.LeastRequestedPriority, 1),
// Prioritizes nodes to help achieve balanced resource usage
factory.RegisterPriorityFunction("BalancedResourceAllocation", priorities.BalancedResourceAllocation, 1),
// 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.PodLister, args.ServiceLister, args.ControllerLister, args.ReplicaSetLister)
},
Weight: 1,
},
),
factory.RegisterPriorityConfigFactory(
"NodeAffinityPriority",
factory.PriorityConfigFactory{
Function: func(args factory.PluginFactoryArgs) algorithm.PriorityFunction {
return priorities.NewNodeAffinityPriority(args.NodeLister)
},
Weight: 1,
},
),
)
}
func defaultPriorities() sets.String {
return sets.NewString(
// 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),
// 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.PodLister, args.ServiceLister, args.ControllerLister, args.ReplicaSetLister)
},
Weight: 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),
factory.RegisterPriorityFunction2("NodeAffinityPriority", priorities.CalculateNodeAffinityPriorityMap, priorities.CalculateNodeAffinityPriorityReduce, 1),
factory.RegisterPriorityFunction2("TaintTolerationPriority", priorities.ComputeTaintTolerationPriorityMap, priorities.ComputeTaintTolerationPriorityReduce, 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, args.FailureDomains)
},
Weight: 1,
},
),
)
}
func init() {
factory.RegisterAlgorithmProvider(factory.DefaultProvider, defaultPredicates(), defaultPriorities())
// 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.RegisterPriorityFunction("EqualPriority", scheduler.EqualPriority, 1)
// 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.PodLister, args.ServiceLister, algorithm.EmptyControllerLister{}, algorithm.EmptyReplicaSetLister{})
},
Weight: 1,
},
)
// 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)
// 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.RegisterPriorityFunction("ImageLocalityPriority", priorities.ImageLocalityPriority, 1)
// 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)
// Fit is determined by inter-pod affinity.
factory.RegisterFitPredicateFactory(
"MatchInterPodAffinity",
func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
return predicates.NewPodAffinityPredicate(args.NodeInfo, args.PodLister, args.FailureDomains)
},
)
//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, args.FailureDomains)
},
Weight: 1,
},
)
}
func defaultPriorities() sets.String {
return sets.NewString(
// Prioritize nodes by least requested utilization.
factory.RegisterPriorityFunction("LeastRequestedPriority", priorities.LeastRequestedPriority, 1),
// Prioritizes nodes to help achieve balanced resource usage
factory.RegisterPriorityFunction("BalancedResourceAllocation", priorities.BalancedResourceAllocation, 1),
// 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.PodLister, args.ServiceLister, args.ControllerLister, args.ReplicaSetLister)
},
Weight: 1,
},
),
factory.RegisterPriorityConfigFactory(
"NodePreferAvoidPodsPriority",
factory.PriorityConfigFactory{
Function: func(args factory.PluginFactoryArgs) algorithm.PriorityFunction {
return priorities.NewNodePreferAvoidPodsPriority(args.ControllerLister, args.ReplicaSetLister)
},
// 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.
Weight: 10000,
},
),
factory.RegisterPriorityFunction("NodeAffinityPriority", priorities.CalculateNodeAffinityPriority, 1),
factory.RegisterPriorityFunction("TaintTolerationPriority", priorities.ComputeTaintTolerationPriority, 1),
)
}
func init() {
factory.RegisterAlgorithmProvider(factory.DefaultProvider, defaultPredicates(), defaultPriorities())
// 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.RegisterPriorityFunction("EqualPriority", scheduler.EqualPriority, 1)
// 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.PodLister, args.ServiceLister, algorithm.EmptyControllerLister{}, algorithm.EmptyReplicaSetLister{})
},
Weight: 1,
},
)
// PodFitsPorts has been replaced by PodFitsHostPorts for better user understanding.
// For backwards compatibility with 1.0, PodFitsPorts is regitered as well.
factory.RegisterFitPredicate("PodFitsPorts", predicates.PodFitsHostPorts)
// 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.RegisterPriorityFunction("ImageLocalityPriority", priorities.ImageLocalityPriority, 1)
}
func init() {
factory.RegisterAlgorithmProvider(factory.DefaultProvider, defaultPredicates(), defaultPriorities())
// Cluster autoscaler friendly scheduling algorithm.
factory.RegisterAlgorithmProvider(ClusterAutoscalerProvider, defaultPredicates(),
replace(defaultPriorities(), "LeastRequestedPriority", "MostRequestedPriority"))
factory.RegisterPriorityMetadataProducerFactory(
func(args factory.PluginFactoryArgs) algorithm.MetadataProducer {
return priorities.PriorityMetadata
})
factory.RegisterPredicateMetadataProducerFactory(
func(args factory.PluginFactoryArgs) algorithm.MetadataProducer {
return predicates.NewPredicateMetadataFactory(args.PodLister)
})
// 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", scheduler.EqualPriorityMap, nil, 1)
// 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{})
},
Weight: 1,
},
)
// 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)
// 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)
// 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)
// Optional, cluster-autoscaler friendly priority function - give used nodes higher priority.
factory.RegisterPriorityFunction2("MostRequestedPriority", priorities.MostRequestedPriorityMap, nil, 1)
// Use equivalence class to speed up predicates & priorities
factory.RegisterGetEquivalencePodFunction(GetEquivalencePod)
}
func init() {
factory.RegisterAlgorithmProvider(factory.DefaultProvider, defaultPredicates(), defaultPriorities())
// 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.RegisterPriorityFunction("EqualPriority", scheduler.EqualPriority, 1)
// 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{})
},
Weight: 1,
},
)
}