/
fake_extender.go
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/
fake_extender.go
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/*
Copyright 2020 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 testing
import (
"context"
"fmt"
"sort"
v1 "k8s.io/api/core/v1"
"k8s.io/apimachinery/pkg/runtime"
corev1helpers "k8s.io/component-helpers/scheduling/corev1"
extenderv1 "k8s.io/kube-scheduler/extender/v1"
"k8s.io/kubernetes/pkg/scheduler/framework"
frameworkruntime "k8s.io/kubernetes/pkg/scheduler/framework/runtime"
"k8s.io/kubernetes/pkg/scheduler/util"
)
// FitPredicate is a function type which is used in fake extender.
type FitPredicate func(pod *v1.Pod, node *v1.Node) *framework.Status
// PriorityFunc is a function type which is used in fake extender.
type PriorityFunc func(pod *v1.Pod, nodes []*v1.Node) (*framework.NodeScoreList, error)
// PriorityConfig is used in fake extender to perform Prioritize function.
type PriorityConfig struct {
Function PriorityFunc
Weight int64
}
// ErrorPredicateExtender implements FitPredicate function to always return error status.
func ErrorPredicateExtender(pod *v1.Pod, node *v1.Node) *framework.Status {
return framework.NewStatus(framework.Error, "some error")
}
// FalsePredicateExtender implements FitPredicate function to always return unschedulable status.
func FalsePredicateExtender(pod *v1.Pod, node *v1.Node) *framework.Status {
return framework.NewStatus(framework.Unschedulable, fmt.Sprintf("pod is unschedulable on the node %q", node.Name))
}
// FalseAndUnresolvePredicateExtender implements fitPredicate to always return unschedulable and unresolvable status.
func FalseAndUnresolvePredicateExtender(pod *v1.Pod, node *v1.Node) *framework.Status {
return framework.NewStatus(framework.UnschedulableAndUnresolvable, fmt.Sprintf("pod is unschedulable and unresolvable on the node %q", node.Name))
}
// TruePredicateExtender implements FitPredicate function to always return success status.
func TruePredicateExtender(pod *v1.Pod, node *v1.Node) *framework.Status {
return framework.NewStatus(framework.Success)
}
// Node1PredicateExtender implements FitPredicate function to return true
// when the given node's name is "node1"; otherwise return false.
func Node1PredicateExtender(pod *v1.Pod, node *v1.Node) *framework.Status {
if node.Name == "node1" {
return framework.NewStatus(framework.Success)
}
return framework.NewStatus(framework.Unschedulable, fmt.Sprintf("node %q is not allowed", node.Name))
}
// Node2PredicateExtender implements FitPredicate function to return true
// when the given node's name is "node2"; otherwise return false.
func Node2PredicateExtender(pod *v1.Pod, node *v1.Node) *framework.Status {
if node.Name == "node2" {
return framework.NewStatus(framework.Success)
}
return framework.NewStatus(framework.Unschedulable, fmt.Sprintf("node %q is not allowed", node.Name))
}
// ErrorPrioritizerExtender implements PriorityFunc function to always return error.
func ErrorPrioritizerExtender(pod *v1.Pod, nodes []*v1.Node) (*framework.NodeScoreList, error) {
return &framework.NodeScoreList{}, fmt.Errorf("some error")
}
// Node1PrioritizerExtender implements PriorityFunc function to give score 10
// if the given node's name is "node1"; otherwise score 1.
func Node1PrioritizerExtender(pod *v1.Pod, nodes []*v1.Node) (*framework.NodeScoreList, error) {
result := framework.NodeScoreList{}
for _, node := range nodes {
score := 1
if node.Name == "node1" {
score = 10
}
result = append(result, framework.NodeScore{Name: node.Name, Score: int64(score)})
}
return &result, nil
}
// Node2PrioritizerExtender implements PriorityFunc function to give score 10
// if the given node's name is "node2"; otherwise score 1.
func Node2PrioritizerExtender(pod *v1.Pod, nodes []*v1.Node) (*framework.NodeScoreList, error) {
result := framework.NodeScoreList{}
for _, node := range nodes {
score := 1
if node.Name == "node2" {
score = 10
}
result = append(result, framework.NodeScore{Name: node.Name, Score: int64(score)})
}
return &result, nil
}
type node2PrioritizerPlugin struct{}
// NewNode2PrioritizerPlugin returns a factory function to build node2PrioritizerPlugin.
func NewNode2PrioritizerPlugin() frameworkruntime.PluginFactory {
return func(_ runtime.Object, _ framework.Handle) (framework.Plugin, error) {
return &node2PrioritizerPlugin{}, nil
}
}
// Name returns name of the plugin.
func (pl *node2PrioritizerPlugin) Name() string {
return "Node2Prioritizer"
}
// Score return score 100 if the given nodeName is "node2"; otherwise return score 10.
func (pl *node2PrioritizerPlugin) Score(_ context.Context, _ *framework.CycleState, _ *v1.Pod, nodeName string) (int64, *framework.Status) {
score := 10
if nodeName == "node2" {
score = 100
}
return int64(score), nil
}
// ScoreExtensions returns nil.
func (pl *node2PrioritizerPlugin) ScoreExtensions() framework.ScoreExtensions {
return nil
}
// FakeExtender is a data struct which implements the Extender interface.
type FakeExtender struct {
// ExtenderName indicates this fake extender's name.
// Note that extender name should be unique.
ExtenderName string
Predicates []FitPredicate
Prioritizers []PriorityConfig
Weight int64
NodeCacheCapable bool
FilteredNodes []*v1.Node
UnInterested bool
Ignorable bool
// Cached node information for fake extender
CachedNodeNameToInfo map[string]*framework.NodeInfo
}
const defaultFakeExtenderName = "defaultFakeExtender"
// Name returns name of the extender.
func (f *FakeExtender) Name() string {
if f.ExtenderName == "" {
// If ExtenderName is unset, use default name.
return defaultFakeExtenderName
}
return f.ExtenderName
}
// IsIgnorable returns a bool value indicating whether internal errors can be ignored.
func (f *FakeExtender) IsIgnorable() bool {
return f.Ignorable
}
// SupportsPreemption returns true indicating the extender supports preemption.
func (f *FakeExtender) SupportsPreemption() bool {
// Assume preempt verb is always defined.
return true
}
// ProcessPreemption implements the extender preempt function.
func (f *FakeExtender) ProcessPreemption(
pod *v1.Pod,
nodeNameToVictims map[string]*extenderv1.Victims,
nodeInfos framework.NodeInfoLister,
) (map[string]*extenderv1.Victims, error) {
nodeNameToVictimsCopy := map[string]*extenderv1.Victims{}
// We don't want to change the original nodeNameToVictims
for k, v := range nodeNameToVictims {
// In real world implementation, extender's user should have their own way to get node object
// by name if needed (e.g. query kube-apiserver etc).
//
// For test purpose, we just use node from parameters directly.
nodeNameToVictimsCopy[k] = v
}
for nodeName, victims := range nodeNameToVictimsCopy {
// Try to do preemption on extender side.
nodeInfo, _ := nodeInfos.Get(nodeName)
extenderVictimPods, extenderPDBViolations, fits, err := f.selectVictimsOnNodeByExtender(pod, nodeInfo.Node())
if err != nil {
return nil, err
}
// If it's unfit after extender's preemption, this node is unresolvable by preemption overall,
// let's remove it from potential preemption nodes.
if !fits {
delete(nodeNameToVictimsCopy, nodeName)
} else {
// Append new victims to original victims
nodeNameToVictimsCopy[nodeName].Pods = append(victims.Pods, extenderVictimPods...)
nodeNameToVictimsCopy[nodeName].NumPDBViolations = victims.NumPDBViolations + int64(extenderPDBViolations)
}
}
return nodeNameToVictimsCopy, nil
}
// selectVictimsOnNodeByExtender checks the given nodes->pods map with predicates on extender's side.
// Returns:
// 1. More victim pods (if any) amended by preemption phase of extender.
// 2. Number of violating victim (used to calculate PDB).
// 3. Fits or not after preemption phase on extender's side.
func (f *FakeExtender) selectVictimsOnNodeByExtender(pod *v1.Pod, node *v1.Node) ([]*v1.Pod, int, bool, error) {
// If a extender support preemption but have no cached node info, let's run filter to make sure
// default scheduler's decision still stand with given pod and node.
if !f.NodeCacheCapable {
err := f.runPredicate(pod, node)
if err.IsSuccess() {
return []*v1.Pod{}, 0, true, nil
} else if err.IsUnschedulable() {
return nil, 0, false, nil
} else {
return nil, 0, false, err.AsError()
}
}
// Otherwise, as a extender support preemption and have cached node info, we will assume cachedNodeNameToInfo is available
// and get cached node info by given node name.
nodeInfoCopy := f.CachedNodeNameToInfo[node.GetName()].Clone()
var potentialVictims []*v1.Pod
removePod := func(rp *v1.Pod) {
nodeInfoCopy.RemovePod(rp)
}
addPod := func(ap *v1.Pod) {
nodeInfoCopy.AddPod(ap)
}
// As the first step, remove all the lower priority pods from the node and
// check if the given pod can be scheduled.
podPriority := corev1helpers.PodPriority(pod)
for _, p := range nodeInfoCopy.Pods {
if corev1helpers.PodPriority(p.Pod) < podPriority {
potentialVictims = append(potentialVictims, p.Pod)
removePod(p.Pod)
}
}
sort.Slice(potentialVictims, func(i, j int) bool { return util.MoreImportantPod(potentialVictims[i], potentialVictims[j]) })
// If the new pod does not fit after removing all the lower priority pods,
// we are almost done and this node is not suitable for preemption.
status := f.runPredicate(pod, nodeInfoCopy.Node())
if status.IsSuccess() {
// pass
} else if status.IsUnschedulable() {
// does not fit
return nil, 0, false, nil
} else {
// internal errors
return nil, 0, false, status.AsError()
}
var victims []*v1.Pod
// TODO(harry): handle PDBs in the future.
numViolatingVictim := 0
reprievePod := func(p *v1.Pod) bool {
addPod(p)
status := f.runPredicate(pod, nodeInfoCopy.Node())
if !status.IsSuccess() {
removePod(p)
victims = append(victims, p)
}
return status.IsSuccess()
}
// For now, assume all potential victims to be non-violating.
// Now we try to reprieve non-violating victims.
for _, p := range potentialVictims {
reprievePod(p)
}
return victims, numViolatingVictim, true, nil
}
// runPredicate run predicates of extender one by one for given pod and node.
// Returns: fits or not.
func (f *FakeExtender) runPredicate(pod *v1.Pod, node *v1.Node) *framework.Status {
for _, predicate := range f.Predicates {
status := predicate(pod, node)
if !status.IsSuccess() {
return status
}
}
return framework.NewStatus(framework.Success)
}
// Filter implements the extender Filter function.
func (f *FakeExtender) Filter(pod *v1.Pod, nodes []*v1.Node) ([]*v1.Node, extenderv1.FailedNodesMap, extenderv1.FailedNodesMap, error) {
var filtered []*v1.Node
failedNodesMap := extenderv1.FailedNodesMap{}
failedAndUnresolvableMap := extenderv1.FailedNodesMap{}
for _, node := range nodes {
status := f.runPredicate(pod, node)
if status.IsSuccess() {
filtered = append(filtered, node)
} else if status.Code() == framework.Unschedulable {
failedNodesMap[node.Name] = fmt.Sprintf("FakeExtender: node %q failed", node.Name)
} else if status.Code() == framework.UnschedulableAndUnresolvable {
failedAndUnresolvableMap[node.Name] = fmt.Sprintf("FakeExtender: node %q failed and unresolvable", node.Name)
} else {
return nil, nil, nil, status.AsError()
}
}
f.FilteredNodes = filtered
if f.NodeCacheCapable {
return filtered, failedNodesMap, failedAndUnresolvableMap, nil
}
return filtered, failedNodesMap, failedAndUnresolvableMap, nil
}
// Prioritize implements the extender Prioritize function.
func (f *FakeExtender) Prioritize(pod *v1.Pod, nodes []*v1.Node) (*extenderv1.HostPriorityList, int64, error) {
result := extenderv1.HostPriorityList{}
combinedScores := map[string]int64{}
for _, prioritizer := range f.Prioritizers {
weight := prioritizer.Weight
if weight == 0 {
continue
}
priorityFunc := prioritizer.Function
prioritizedList, err := priorityFunc(pod, nodes)
if err != nil {
return &extenderv1.HostPriorityList{}, 0, err
}
for _, hostEntry := range *prioritizedList {
combinedScores[hostEntry.Name] += hostEntry.Score * weight
}
}
for host, score := range combinedScores {
result = append(result, extenderv1.HostPriority{Host: host, Score: score})
}
return &result, f.Weight, nil
}
// Bind implements the extender Bind function.
func (f *FakeExtender) Bind(binding *v1.Binding) error {
if len(f.FilteredNodes) != 0 {
for _, node := range f.FilteredNodes {
if node.Name == binding.Target.Name {
f.FilteredNodes = nil
return nil
}
}
err := fmt.Errorf("Node %v not in filtered nodes %v", binding.Target.Name, f.FilteredNodes)
f.FilteredNodes = nil
return err
}
return nil
}
// IsBinder returns true indicating the extender implements the Binder function.
func (f *FakeExtender) IsBinder() bool {
return true
}
// IsInterested returns a bool indicating whether this extender is interested in this Pod.
func (f *FakeExtender) IsInterested(pod *v1.Pod) bool {
return !f.UnInterested
}
var _ framework.Extender = &FakeExtender{}