refactor assign replicas strategy
Signed-off-by: Garrybest <garrybest@foxmail.com>
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Garrybest
parent
24c210af17
commit
6ef82917ca
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@ -0,0 +1,64 @@
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package core
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import (
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clusterv1alpha1 "github.com/karmada-io/karmada/pkg/apis/cluster/v1alpha1"
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policyv1alpha1 "github.com/karmada-io/karmada/pkg/apis/policy/v1alpha1"
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workv1alpha2 "github.com/karmada-io/karmada/pkg/apis/work/v1alpha2"
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)
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var (
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assignFuncMap = map[string]func(*assignState) ([]workv1alpha2.TargetCluster, error){
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DuplicatedStrategy: assignByDuplicatedStrategy,
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AggregatedStrategy: assignByAggregatedStrategy,
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StaticWeightStrategy: assignByStaticWeightStrategy,
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DynamicWeightStrategy: assignByDynamicWeightStrategy,
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}
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)
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// assignState is a wrapper of the input for assigning function.
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type assignState struct {
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candidates []*clusterv1alpha1.Cluster
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strategy *policyv1alpha1.ReplicaSchedulingStrategy
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object *workv1alpha2.ResourceBindingSpec
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}
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const (
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// DuplicatedStrategy indicates each candidate member cluster will directly apply the original replicas.
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DuplicatedStrategy = "Duplicated"
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// AggregatedStrategy indicates dividing replicas among clusters as few as possible and
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// taking clusters' available replicas into consideration as well.
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AggregatedStrategy = "Aggregated"
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// StaticWeightStrategy indicates dividing replicas by static weight according to WeightPreference.
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StaticWeightStrategy = "StaticWeight"
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// DynamicWeightStrategy indicates dividing replicas by dynamic weight according to WeightPreference.
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DynamicWeightStrategy = "DynamicWeight"
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)
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// assignByDuplicatedStrategy assigns replicas by DuplicatedStrategy.
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func assignByDuplicatedStrategy(state *assignState) ([]workv1alpha2.TargetCluster, error) {
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targetClusters := make([]workv1alpha2.TargetCluster, len(state.candidates))
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for i, cluster := range state.candidates {
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targetClusters[i] = workv1alpha2.TargetCluster{Name: cluster.Name, Replicas: state.object.Replicas}
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}
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return targetClusters, nil
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}
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// assignByAggregatedStrategy assigns replicas by AggregatedStrategy.
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func assignByAggregatedStrategy(state *assignState) ([]workv1alpha2.TargetCluster, error) {
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return divideReplicasByResource(state.candidates, state.object, policyv1alpha1.ReplicaDivisionPreferenceAggregated)
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}
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// assignByStaticWeightStrategy assigns replicas by StaticWeightStrategy.
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func assignByStaticWeightStrategy(state *assignState) ([]workv1alpha2.TargetCluster, error) {
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// If ReplicaDivisionPreference is set to "Weighted" and WeightPreference is not set,
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// scheduler will weight all clusters averagely.
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if state.strategy.WeightPreference == nil {
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state.strategy.WeightPreference = getDefaultWeightPreference(state.candidates)
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}
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return divideReplicasByStaticWeight(state.candidates, state.strategy.WeightPreference.StaticWeightList, state.object.Replicas)
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}
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// assignByDynamicWeightStrategy assigns replicas by assignByDynamicWeightStrategy.
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func assignByDynamicWeightStrategy(state *assignState) ([]workv1alpha2.TargetCluster, error) {
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return divideReplicasByDynamicWeight(state.candidates, state.strategy.WeightPreference.DynamicWeight, state.object)
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}
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@ -173,46 +173,45 @@ func (g *genericScheduler) assignReplicas(
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) ([]workv1alpha2.TargetCluster, error) {
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startTime := time.Now()
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defer metrics.ScheduleStep(metrics.ScheduleStepAssignReplicas, startTime)
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if len(clusters) == 0 {
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return nil, fmt.Errorf("no clusters available to schedule")
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}
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targetClusters := make([]workv1alpha2.TargetCluster, len(clusters))
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if object.Replicas > 0 && replicaSchedulingStrategy != nil {
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var strategy string
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switch replicaSchedulingStrategy.ReplicaSchedulingType {
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// 1. Duplicated Scheduling
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case policyv1alpha1.ReplicaSchedulingTypeDuplicated:
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for i, cluster := range clusters {
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targetClusters[i] = workv1alpha2.TargetCluster{Name: cluster.Name, Replicas: object.Replicas}
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}
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return targetClusters, nil
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// 2. Divided Scheduling
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strategy = DuplicatedStrategy
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case policyv1alpha1.ReplicaSchedulingTypeDivided:
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switch replicaSchedulingStrategy.ReplicaDivisionPreference {
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// 2.1 Weighted Scheduling
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case policyv1alpha1.ReplicaDivisionPreferenceWeighted:
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// If ReplicaDivisionPreference is set to "Weighted" and WeightPreference is not set,
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// scheduler will weight all clusters averagely.
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if replicaSchedulingStrategy.WeightPreference == nil {
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replicaSchedulingStrategy.WeightPreference = getDefaultWeightPreference(clusters)
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}
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// 2.1.1 Dynamic Weighted Scheduling (by resource)
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if len(replicaSchedulingStrategy.WeightPreference.DynamicWeight) != 0 {
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return divideReplicasByDynamicWeight(clusters, replicaSchedulingStrategy.WeightPreference.DynamicWeight, object)
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}
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// 2.1.2 Static Weighted Scheduling
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return divideReplicasByStaticWeight(clusters, replicaSchedulingStrategy.WeightPreference.StaticWeightList, object.Replicas)
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// 2.2 Aggregated scheduling (by resource)
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case policyv1alpha1.ReplicaDivisionPreferenceAggregated:
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return divideReplicasByResource(clusters, object, policyv1alpha1.ReplicaDivisionPreferenceAggregated)
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default:
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return nil, fmt.Errorf("undefined replica division preference: %s", replicaSchedulingStrategy.ReplicaDivisionPreference)
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strategy = AggregatedStrategy
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case policyv1alpha1.ReplicaDivisionPreferenceWeighted:
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if replicaSchedulingStrategy.WeightPreference != nil && len(replicaSchedulingStrategy.WeightPreference.DynamicWeight) != 0 {
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strategy = DynamicWeightStrategy
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} else {
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strategy = StaticWeightStrategy
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}
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}
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default:
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return nil, fmt.Errorf("undefined replica scheduling type: %s", replicaSchedulingStrategy.ReplicaSchedulingType)
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}
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assign, ok := assignFuncMap[strategy]
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if !ok {
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// should never happen at present
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return nil, fmt.Errorf("unsupported replica scheduling strategy, replicaSchedulingType: %s, replicaDivisionPreference: %s, "+
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"please try another scheduling strategy", replicaSchedulingStrategy.ReplicaSchedulingType, replicaSchedulingStrategy.ReplicaDivisionPreference)
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}
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return assign(&assignState{
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candidates: clusters,
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strategy: replicaSchedulingStrategy,
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object: object,
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})
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}
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// If not workload, assign all clusters without considering replicas.
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targetClusters := make([]workv1alpha2.TargetCluster, len(clusters))
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for i, cluster := range clusters {
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targetClusters[i] = workv1alpha2.TargetCluster{Name: cluster.Name}
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}
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