/
schedule_one.go
912 lines (831 loc) · 36.8 KB
/
schedule_one.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 scheduler
import (
"context"
"fmt"
"math/rand"
"strconv"
"sync"
"sync/atomic"
"time"
v1 "k8s.io/api/core/v1"
apierrors "k8s.io/apimachinery/pkg/api/errors"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
utilruntime "k8s.io/apimachinery/pkg/util/runtime"
"k8s.io/apimachinery/pkg/util/sets"
clientset "k8s.io/client-go/kubernetes"
"k8s.io/klog/v2"
extenderv1 "k8s.io/kube-scheduler/extender/v1"
podutil "k8s.io/kubernetes/pkg/api/v1/pod"
"k8s.io/kubernetes/pkg/apis/core/validation"
"k8s.io/kubernetes/pkg/scheduler/framework"
"k8s.io/kubernetes/pkg/scheduler/framework/parallelize"
frameworkruntime "k8s.io/kubernetes/pkg/scheduler/framework/runtime"
internalqueue "k8s.io/kubernetes/pkg/scheduler/internal/queue"
"k8s.io/kubernetes/pkg/scheduler/metrics"
"k8s.io/kubernetes/pkg/scheduler/util"
utiltrace "k8s.io/utils/trace"
)
const (
// SchedulerError is the reason recorded for events when an error occurs during scheduling a pod.
SchedulerError = "SchedulerError"
// Percentage of plugin metrics to be sampled.
pluginMetricsSamplePercent = 10
// minFeasibleNodesToFind is the minimum number of nodes that would be scored
// in each scheduling cycle. This is a semi-arbitrary value to ensure that a
// certain minimum of nodes are checked for feasibility. This in turn helps
// ensure a minimum level of spreading.
minFeasibleNodesToFind = 100
// minFeasibleNodesPercentageToFind is the minimum percentage of nodes that
// would be scored in each scheduling cycle. This is a semi-arbitrary value
// to ensure that a certain minimum of nodes are checked for feasibility.
// This in turn helps ensure a minimum level of spreading.
minFeasibleNodesPercentageToFind = 5
)
var clearNominatedNode = &framework.NominatingInfo{NominatingMode: framework.ModeOverride, NominatedNodeName: ""}
// scheduleOne does the entire scheduling workflow for a single pod. It is serialized on the scheduling algorithm's host fitting.
func (sched *Scheduler) scheduleOne(ctx context.Context) {
podInfo := sched.NextPod()
// pod could be nil when schedulerQueue is closed
if podInfo == nil || podInfo.Pod == nil {
return
}
pod := podInfo.Pod
fwk, err := sched.frameworkForPod(pod)
if err != nil {
// This shouldn't happen, because we only accept for scheduling the pods
// which specify a scheduler name that matches one of the profiles.
klog.ErrorS(err, "Error occurred")
return
}
if sched.skipPodSchedule(fwk, pod) {
return
}
klog.V(3).InfoS("Attempting to schedule pod", "pod", klog.KObj(pod))
// Synchronously attempt to find a fit for the pod.
start := time.Now()
state := framework.NewCycleState()
state.SetRecordPluginMetrics(rand.Intn(100) < pluginMetricsSamplePercent)
// Initialize an empty podsToActivate struct, which will be filled up by plugins or stay empty.
podsToActivate := framework.NewPodsToActivate()
state.Write(framework.PodsToActivateKey, podsToActivate)
schedulingCycleCtx, cancel := context.WithCancel(ctx)
defer cancel()
scheduleResult, err := sched.SchedulePod(schedulingCycleCtx, fwk, state, pod)
if err != nil {
// SchedulePod() may have failed because the pod would not fit on any host, so we try to
// preempt, with the expectation that the next time the pod is tried for scheduling it
// will fit due to the preemption. It is also possible that a different pod will schedule
// into the resources that were preempted, but this is harmless.
var nominatingInfo *framework.NominatingInfo
reason := v1.PodReasonUnschedulable
if fitError, ok := err.(*framework.FitError); ok {
if !fwk.HasPostFilterPlugins() {
klog.V(3).InfoS("No PostFilter plugins are registered, so no preemption will be performed")
} else {
// Run PostFilter plugins to try to make the pod schedulable in a future scheduling cycle.
result, status := fwk.RunPostFilterPlugins(ctx, state, pod, fitError.Diagnosis.NodeToStatusMap)
if status.Code() == framework.Error {
klog.ErrorS(nil, "Status after running PostFilter plugins for pod", "pod", klog.KObj(pod), "status", status)
} else {
fitError.Diagnosis.PostFilterMsg = status.Message()
klog.V(5).InfoS("Status after running PostFilter plugins for pod", "pod", klog.KObj(pod), "status", status)
}
if result != nil {
nominatingInfo = result.NominatingInfo
}
}
// Pod did not fit anywhere, so it is counted as a failure. If preemption
// succeeds, the pod should get counted as a success the next time we try to
// schedule it. (hopefully)
metrics.PodUnschedulable(fwk.ProfileName(), metrics.SinceInSeconds(start))
} else if err == ErrNoNodesAvailable {
nominatingInfo = clearNominatedNode
// No nodes available is counted as unschedulable rather than an error.
metrics.PodUnschedulable(fwk.ProfileName(), metrics.SinceInSeconds(start))
} else {
nominatingInfo = clearNominatedNode
klog.ErrorS(err, "Error selecting node for pod", "pod", klog.KObj(pod))
metrics.PodScheduleError(fwk.ProfileName(), metrics.SinceInSeconds(start))
reason = SchedulerError
}
sched.FailureHandler(ctx, fwk, podInfo, err, reason, nominatingInfo)
return
}
metrics.SchedulingAlgorithmLatency.Observe(metrics.SinceInSeconds(start))
// Tell the cache to assume that a pod now is running on a given node, even though it hasn't been bound yet.
// This allows us to keep scheduling without waiting on binding to occur.
assumedPodInfo := podInfo.DeepCopy()
assumedPod := assumedPodInfo.Pod
// assume modifies `assumedPod` by setting NodeName=scheduleResult.SuggestedHost
err = sched.assume(assumedPod, scheduleResult.SuggestedHost)
if err != nil {
metrics.PodScheduleError(fwk.ProfileName(), metrics.SinceInSeconds(start))
// This is most probably result of a BUG in retrying logic.
// We report an error here so that pod scheduling can be retried.
// This relies on the fact that Error will check if the pod has been bound
// to a node and if so will not add it back to the unscheduled pods queue
// (otherwise this would cause an infinite loop).
sched.FailureHandler(ctx, fwk, assumedPodInfo, err, SchedulerError, clearNominatedNode)
return
}
// Run the Reserve method of reserve plugins.
if sts := fwk.RunReservePluginsReserve(schedulingCycleCtx, state, assumedPod, scheduleResult.SuggestedHost); !sts.IsSuccess() {
metrics.PodScheduleError(fwk.ProfileName(), metrics.SinceInSeconds(start))
// trigger un-reserve to clean up state associated with the reserved Pod
fwk.RunReservePluginsUnreserve(schedulingCycleCtx, state, assumedPod, scheduleResult.SuggestedHost)
if forgetErr := sched.Cache.ForgetPod(assumedPod); forgetErr != nil {
klog.ErrorS(forgetErr, "Scheduler cache ForgetPod failed")
}
sched.FailureHandler(ctx, fwk, assumedPodInfo, sts.AsError(), SchedulerError, clearNominatedNode)
return
}
// Run "permit" plugins.
runPermitStatus := fwk.RunPermitPlugins(schedulingCycleCtx, state, assumedPod, scheduleResult.SuggestedHost)
if !runPermitStatus.IsWait() && !runPermitStatus.IsSuccess() {
var reason string
if runPermitStatus.IsUnschedulable() {
metrics.PodUnschedulable(fwk.ProfileName(), metrics.SinceInSeconds(start))
reason = v1.PodReasonUnschedulable
} else {
metrics.PodScheduleError(fwk.ProfileName(), metrics.SinceInSeconds(start))
reason = SchedulerError
}
// One of the plugins returned status different than success or wait.
fwk.RunReservePluginsUnreserve(schedulingCycleCtx, state, assumedPod, scheduleResult.SuggestedHost)
if forgetErr := sched.Cache.ForgetPod(assumedPod); forgetErr != nil {
klog.ErrorS(forgetErr, "Scheduler cache ForgetPod failed")
}
sched.FailureHandler(ctx, fwk, assumedPodInfo, runPermitStatus.AsError(), reason, clearNominatedNode)
return
}
// At the end of a successful scheduling cycle, pop and move up Pods if needed.
if len(podsToActivate.Map) != 0 {
sched.SchedulingQueue.Activate(podsToActivate.Map)
// Clear the entries after activation.
podsToActivate.Map = make(map[string]*v1.Pod)
}
// bind the pod to its host asynchronously (we can do this b/c of the assumption step above).
go func() {
bindingCycleCtx, cancel := context.WithCancel(ctx)
defer cancel()
metrics.SchedulerGoroutines.WithLabelValues(metrics.Binding).Inc()
defer metrics.SchedulerGoroutines.WithLabelValues(metrics.Binding).Dec()
waitOnPermitStatus := fwk.WaitOnPermit(bindingCycleCtx, assumedPod)
if !waitOnPermitStatus.IsSuccess() {
var reason string
if waitOnPermitStatus.IsUnschedulable() {
metrics.PodUnschedulable(fwk.ProfileName(), metrics.SinceInSeconds(start))
reason = v1.PodReasonUnschedulable
} else {
metrics.PodScheduleError(fwk.ProfileName(), metrics.SinceInSeconds(start))
reason = SchedulerError
}
// trigger un-reserve plugins to clean up state associated with the reserved Pod
fwk.RunReservePluginsUnreserve(bindingCycleCtx, state, assumedPod, scheduleResult.SuggestedHost)
if forgetErr := sched.Cache.ForgetPod(assumedPod); forgetErr != nil {
klog.ErrorS(forgetErr, "scheduler cache ForgetPod failed")
} else {
// "Forget"ing an assumed Pod in binding cycle should be treated as a PodDelete event,
// as the assumed Pod had occupied a certain amount of resources in scheduler cache.
// TODO(#103853): de-duplicate the logic.
// Avoid moving the assumed Pod itself as it's always Unschedulable.
// It's intentional to "defer" this operation; otherwise MoveAllToActiveOrBackoffQueue() would
// update `q.moveRequest` and thus move the assumed pod to backoffQ anyways.
defer sched.SchedulingQueue.MoveAllToActiveOrBackoffQueue(internalqueue.AssignedPodDelete, func(pod *v1.Pod) bool {
return assumedPod.UID != pod.UID
})
}
sched.FailureHandler(ctx, fwk, assumedPodInfo, waitOnPermitStatus.AsError(), reason, clearNominatedNode)
return
}
// Run "prebind" plugins.
preBindStatus := fwk.RunPreBindPlugins(bindingCycleCtx, state, assumedPod, scheduleResult.SuggestedHost)
if !preBindStatus.IsSuccess() {
metrics.PodScheduleError(fwk.ProfileName(), metrics.SinceInSeconds(start))
// trigger un-reserve plugins to clean up state associated with the reserved Pod
fwk.RunReservePluginsUnreserve(bindingCycleCtx, state, assumedPod, scheduleResult.SuggestedHost)
if forgetErr := sched.Cache.ForgetPod(assumedPod); forgetErr != nil {
klog.ErrorS(forgetErr, "scheduler cache ForgetPod failed")
} else {
// "Forget"ing an assumed Pod in binding cycle should be treated as a PodDelete event,
// as the assumed Pod had occupied a certain amount of resources in scheduler cache.
// TODO(#103853): de-duplicate the logic.
sched.SchedulingQueue.MoveAllToActiveOrBackoffQueue(internalqueue.AssignedPodDelete, nil)
}
sched.FailureHandler(ctx, fwk, assumedPodInfo, preBindStatus.AsError(), SchedulerError, clearNominatedNode)
return
}
err := sched.bind(bindingCycleCtx, fwk, assumedPod, scheduleResult.SuggestedHost, state)
if err != nil {
metrics.PodScheduleError(fwk.ProfileName(), metrics.SinceInSeconds(start))
// trigger un-reserve plugins to clean up state associated with the reserved Pod
fwk.RunReservePluginsUnreserve(bindingCycleCtx, state, assumedPod, scheduleResult.SuggestedHost)
if err := sched.Cache.ForgetPod(assumedPod); err != nil {
klog.ErrorS(err, "scheduler cache ForgetPod failed")
} else {
// "Forget"ing an assumed Pod in binding cycle should be treated as a PodDelete event,
// as the assumed Pod had occupied a certain amount of resources in scheduler cache.
// TODO(#103853): de-duplicate the logic.
sched.SchedulingQueue.MoveAllToActiveOrBackoffQueue(internalqueue.AssignedPodDelete, nil)
}
sched.FailureHandler(ctx, fwk, assumedPodInfo, fmt.Errorf("binding rejected: %w", err), SchedulerError, clearNominatedNode)
return
}
// Calculating nodeResourceString can be heavy. Avoid it if klog verbosity is below 2.
klog.V(2).InfoS("Successfully bound pod to node", "pod", klog.KObj(pod), "node", scheduleResult.SuggestedHost, "evaluatedNodes", scheduleResult.EvaluatedNodes, "feasibleNodes", scheduleResult.FeasibleNodes)
metrics.PodScheduled(fwk.ProfileName(), metrics.SinceInSeconds(start))
metrics.PodSchedulingAttempts.Observe(float64(podInfo.Attempts))
metrics.PodSchedulingDuration.WithLabelValues(getAttemptsLabel(podInfo)).Observe(metrics.SinceInSeconds(podInfo.InitialAttemptTimestamp))
// Run "postbind" plugins.
fwk.RunPostBindPlugins(bindingCycleCtx, state, assumedPod, scheduleResult.SuggestedHost)
// At the end of a successful binding cycle, move up Pods if needed.
if len(podsToActivate.Map) != 0 {
sched.SchedulingQueue.Activate(podsToActivate.Map)
// Unlike the logic in scheduling cycle, we don't bother deleting the entries
// as `podsToActivate.Map` is no longer consumed.
}
}()
}
func (sched *Scheduler) frameworkForPod(pod *v1.Pod) (framework.Framework, error) {
fwk, ok := sched.Profiles[pod.Spec.SchedulerName]
if !ok {
return nil, fmt.Errorf("profile not found for scheduler name %q", pod.Spec.SchedulerName)
}
return fwk, nil
}
// skipPodSchedule returns true if we could skip scheduling the pod for specified cases.
func (sched *Scheduler) skipPodSchedule(fwk framework.Framework, pod *v1.Pod) bool {
// Case 1: pod is being deleted.
if pod.DeletionTimestamp != nil {
fwk.EventRecorder().Eventf(pod, nil, v1.EventTypeWarning, "FailedScheduling", "Scheduling", "skip schedule deleting pod: %v/%v", pod.Namespace, pod.Name)
klog.V(3).InfoS("Skip schedule deleting pod", "pod", klog.KObj(pod))
return true
}
// Case 2: pod that has been assumed could be skipped.
// An assumed pod can be added again to the scheduling queue if it got an update event
// during its previous scheduling cycle but before getting assumed.
isAssumed, err := sched.Cache.IsAssumedPod(pod)
if err != nil {
utilruntime.HandleError(fmt.Errorf("failed to check whether pod %s/%s is assumed: %v", pod.Namespace, pod.Name, err))
return false
}
return isAssumed
}
// schedulePod tries to schedule the given pod to one of the nodes in the node list.
// If it succeeds, it will return the name of the node.
// If it fails, it will return a FitError with reasons.
func (sched *Scheduler) schedulePod(ctx context.Context, fwk framework.Framework, state *framework.CycleState, pod *v1.Pod) (result ScheduleResult, err error) {
trace := utiltrace.New("Scheduling", utiltrace.Field{Key: "namespace", Value: pod.Namespace}, utiltrace.Field{Key: "name", Value: pod.Name})
defer trace.LogIfLong(100 * time.Millisecond)
if err := sched.Cache.UpdateSnapshot(sched.nodeInfoSnapshot); err != nil {
return result, err
}
trace.Step("Snapshotting scheduler cache and node infos done")
if sched.nodeInfoSnapshot.NumNodes() == 0 {
return result, ErrNoNodesAvailable
}
feasibleNodes, diagnosis, err := sched.findNodesThatFitPod(ctx, fwk, state, pod)
if err != nil {
return result, err
}
trace.Step("Computing predicates done")
if len(feasibleNodes) == 0 {
return result, &framework.FitError{
Pod: pod,
NumAllNodes: sched.nodeInfoSnapshot.NumNodes(),
Diagnosis: diagnosis,
}
}
// When only one node after predicate, just use it.
if len(feasibleNodes) == 1 {
return ScheduleResult{
SuggestedHost: feasibleNodes[0].Name,
EvaluatedNodes: 1 + len(diagnosis.NodeToStatusMap),
FeasibleNodes: 1,
}, nil
}
priorityList, err := prioritizeNodes(ctx, sched.Extenders, fwk, state, pod, feasibleNodes)
if err != nil {
return result, err
}
host, err := selectHost(priorityList)
trace.Step("Prioritizing done")
return ScheduleResult{
SuggestedHost: host,
EvaluatedNodes: len(feasibleNodes) + len(diagnosis.NodeToStatusMap),
FeasibleNodes: len(feasibleNodes),
}, err
}
// Filters the nodes to find the ones that fit the pod based on the framework
// filter plugins and filter extenders.
func (sched *Scheduler) findNodesThatFitPod(ctx context.Context, fwk framework.Framework, state *framework.CycleState, pod *v1.Pod) ([]*v1.Node, framework.Diagnosis, error) {
diagnosis := framework.Diagnosis{
NodeToStatusMap: make(framework.NodeToStatusMap),
UnschedulablePlugins: sets.NewString(),
}
allNodes, err := sched.nodeInfoSnapshot.NodeInfos().List()
if err != nil {
return nil, diagnosis, err
}
// Run "prefilter" plugins.
preRes, s := fwk.RunPreFilterPlugins(ctx, state, pod)
if !s.IsSuccess() {
if !s.IsUnschedulable() {
return nil, diagnosis, s.AsError()
}
// All nodes will have the same status. Some non trivial refactoring is
// needed to avoid this copy.
for _, n := range allNodes {
diagnosis.NodeToStatusMap[n.Node().Name] = s
}
// Status satisfying IsUnschedulable() gets injected into diagnosis.UnschedulablePlugins.
if s.FailedPlugin() != "" {
diagnosis.UnschedulablePlugins.Insert(s.FailedPlugin())
}
return nil, diagnosis, nil
}
// "NominatedNodeName" can potentially be set in a previous scheduling cycle as a result of preemption.
// This node is likely the only candidate that will fit the pod, and hence we try it first before iterating over all nodes.
if len(pod.Status.NominatedNodeName) > 0 {
feasibleNodes, err := sched.evaluateNominatedNode(ctx, pod, fwk, state, diagnosis)
if err != nil {
klog.ErrorS(err, "Evaluation failed on nominated node", "pod", klog.KObj(pod), "node", pod.Status.NominatedNodeName)
}
// Nominated node passes all the filters, scheduler is good to assign this node to the pod.
if len(feasibleNodes) != 0 {
return feasibleNodes, diagnosis, nil
}
}
nodes := allNodes
if !preRes.AllNodes() {
nodes = make([]*framework.NodeInfo, 0, len(preRes.NodeNames))
for n := range preRes.NodeNames {
nInfo, err := sched.nodeInfoSnapshot.NodeInfos().Get(n)
if err != nil {
return nil, diagnosis, err
}
nodes = append(nodes, nInfo)
}
}
feasibleNodes, err := sched.findNodesThatPassFilters(ctx, fwk, state, pod, diagnosis, nodes)
// always try to update the sched.nextStartNodeIndex regardless of whether an error has occurred
// this is helpful to make sure that all the nodes have a chance to be searched
processedNodes := len(feasibleNodes) + len(diagnosis.NodeToStatusMap)
sched.nextStartNodeIndex = (sched.nextStartNodeIndex + processedNodes) % len(nodes)
if err != nil {
return nil, diagnosis, err
}
feasibleNodes, err = findNodesThatPassExtenders(sched.Extenders, pod, feasibleNodes, diagnosis.NodeToStatusMap)
if err != nil {
return nil, diagnosis, err
}
return feasibleNodes, diagnosis, nil
}
func (sched *Scheduler) evaluateNominatedNode(ctx context.Context, pod *v1.Pod, fwk framework.Framework, state *framework.CycleState, diagnosis framework.Diagnosis) ([]*v1.Node, error) {
nnn := pod.Status.NominatedNodeName
nodeInfo, err := sched.nodeInfoSnapshot.Get(nnn)
if err != nil {
return nil, err
}
node := []*framework.NodeInfo{nodeInfo}
feasibleNodes, err := sched.findNodesThatPassFilters(ctx, fwk, state, pod, diagnosis, node)
if err != nil {
return nil, err
}
feasibleNodes, err = findNodesThatPassExtenders(sched.Extenders, pod, feasibleNodes, diagnosis.NodeToStatusMap)
if err != nil {
return nil, err
}
return feasibleNodes, nil
}
// findNodesThatPassFilters finds the nodes that fit the filter plugins.
func (sched *Scheduler) findNodesThatPassFilters(
ctx context.Context,
fwk framework.Framework,
state *framework.CycleState,
pod *v1.Pod,
diagnosis framework.Diagnosis,
nodes []*framework.NodeInfo) ([]*v1.Node, error) {
numAllNodes := len(nodes)
numNodesToFind := sched.numFeasibleNodesToFind(int32(numAllNodes))
// Create feasible list with enough space to avoid growing it
// and allow assigning.
feasibleNodes := make([]*v1.Node, numNodesToFind)
if !fwk.HasFilterPlugins() {
for i := range feasibleNodes {
feasibleNodes[i] = nodes[(sched.nextStartNodeIndex+i)%numAllNodes].Node()
}
return feasibleNodes, nil
}
errCh := parallelize.NewErrorChannel()
var statusesLock sync.Mutex
var feasibleNodesLen int32
ctx, cancel := context.WithCancel(ctx)
checkNode := func(i int) {
// We check the nodes starting from where we left off in the previous scheduling cycle,
// this is to make sure all nodes have the same chance of being examined across pods.
nodeInfo := nodes[(sched.nextStartNodeIndex+i)%numAllNodes]
status := fwk.RunFilterPluginsWithNominatedPods(ctx, state, pod, nodeInfo)
if status.Code() == framework.Error {
errCh.SendErrorWithCancel(status.AsError(), cancel)
return
}
if status.IsSuccess() {
length := atomic.AddInt32(&feasibleNodesLen, 1)
if length > numNodesToFind {
cancel()
atomic.AddInt32(&feasibleNodesLen, -1)
} else {
feasibleNodes[length-1] = nodeInfo.Node()
}
} else {
statusesLock.Lock()
diagnosis.NodeToStatusMap[nodeInfo.Node().Name] = status
diagnosis.UnschedulablePlugins.Insert(status.FailedPlugin())
statusesLock.Unlock()
}
}
beginCheckNode := time.Now()
statusCode := framework.Success
defer func() {
// We record Filter extension point latency here instead of in framework.go because framework.RunFilterPlugins
// function is called for each node, whereas we want to have an overall latency for all nodes per scheduling cycle.
// Note that this latency also includes latency for `addNominatedPods`, which calls framework.RunPreFilterAddPod.
metrics.FrameworkExtensionPointDuration.WithLabelValues(frameworkruntime.Filter, statusCode.String(), fwk.ProfileName()).Observe(metrics.SinceInSeconds(beginCheckNode))
}()
// Stops searching for more nodes once the configured number of feasible nodes
// are found.
fwk.Parallelizer().Until(ctx, numAllNodes, checkNode)
feasibleNodes = feasibleNodes[:feasibleNodesLen]
if err := errCh.ReceiveError(); err != nil {
statusCode = framework.Error
return feasibleNodes, err
}
return feasibleNodes, nil
}
// numFeasibleNodesToFind returns the number of feasible nodes that once found, the scheduler stops
// its search for more feasible nodes.
func (sched *Scheduler) numFeasibleNodesToFind(numAllNodes int32) (numNodes int32) {
if numAllNodes < minFeasibleNodesToFind || sched.percentageOfNodesToScore >= 100 {
return numAllNodes
}
adaptivePercentage := sched.percentageOfNodesToScore
if adaptivePercentage <= 0 {
basePercentageOfNodesToScore := int32(50)
adaptivePercentage = basePercentageOfNodesToScore - numAllNodes/125
if adaptivePercentage < minFeasibleNodesPercentageToFind {
adaptivePercentage = minFeasibleNodesPercentageToFind
}
}
numNodes = numAllNodes * adaptivePercentage / 100
if numNodes < minFeasibleNodesToFind {
return minFeasibleNodesToFind
}
return numNodes
}
func findNodesThatPassExtenders(extenders []framework.Extender, pod *v1.Pod, feasibleNodes []*v1.Node, statuses framework.NodeToStatusMap) ([]*v1.Node, error) {
// Extenders are called sequentially.
// Nodes in original feasibleNodes can be excluded in one extender, and pass on to the next
// extender in a decreasing manner.
for _, extender := range extenders {
if len(feasibleNodes) == 0 {
break
}
if !extender.IsInterested(pod) {
continue
}
// Status of failed nodes in failedAndUnresolvableMap will be added or overwritten in <statuses>,
// so that the scheduler framework can respect the UnschedulableAndUnresolvable status for
// particular nodes, and this may eventually improve preemption efficiency.
// Note: users are recommended to configure the extenders that may return UnschedulableAndUnresolvable
// status ahead of others.
feasibleList, failedMap, failedAndUnresolvableMap, err := extender.Filter(pod, feasibleNodes)
if err != nil {
if extender.IsIgnorable() {
klog.InfoS("Skipping extender as it returned error and has ignorable flag set", "extender", extender, "err", err)
continue
}
return nil, err
}
for failedNodeName, failedMsg := range failedAndUnresolvableMap {
var aggregatedReasons []string
if _, found := statuses[failedNodeName]; found {
aggregatedReasons = statuses[failedNodeName].Reasons()
}
aggregatedReasons = append(aggregatedReasons, failedMsg)
statuses[failedNodeName] = framework.NewStatus(framework.UnschedulableAndUnresolvable, aggregatedReasons...)
}
for failedNodeName, failedMsg := range failedMap {
if _, found := failedAndUnresolvableMap[failedNodeName]; found {
// failedAndUnresolvableMap takes precedence over failedMap
// note that this only happens if the extender returns the node in both maps
continue
}
if _, found := statuses[failedNodeName]; !found {
statuses[failedNodeName] = framework.NewStatus(framework.Unschedulable, failedMsg)
} else {
statuses[failedNodeName].AppendReason(failedMsg)
}
}
feasibleNodes = feasibleList
}
return feasibleNodes, nil
}
// prioritizeNodes prioritizes the nodes by running the score plugins,
// which return a score for each node from the call to RunScorePlugins().
// The scores from each plugin are added together to make the score for that node, then
// any extenders are run as well.
// All scores are finally combined (added) to get the total weighted scores of all nodes
func prioritizeNodes(
ctx context.Context,
extenders []framework.Extender,
fwk framework.Framework,
state *framework.CycleState,
pod *v1.Pod,
nodes []*v1.Node,
) (framework.NodeScoreList, error) {
// If no priority configs are provided, then all nodes will have a score of one.
// This is required to generate the priority list in the required format
if len(extenders) == 0 && !fwk.HasScorePlugins() {
result := make(framework.NodeScoreList, 0, len(nodes))
for i := range nodes {
result = append(result, framework.NodeScore{
Name: nodes[i].Name,
Score: 1,
})
}
return result, nil
}
// Run PreScore plugins.
preScoreStatus := fwk.RunPreScorePlugins(ctx, state, pod, nodes)
if !preScoreStatus.IsSuccess() {
return nil, preScoreStatus.AsError()
}
// Run the Score plugins.
scoresMap, scoreStatus := fwk.RunScorePlugins(ctx, state, pod, nodes)
if !scoreStatus.IsSuccess() {
return nil, scoreStatus.AsError()
}
// Additional details logged at level 10 if enabled.
klogV := klog.V(10)
if klogV.Enabled() {
for plugin, nodeScoreList := range scoresMap {
for _, nodeScore := range nodeScoreList {
klogV.InfoS("Plugin scored node for pod", "pod", klog.KObj(pod), "plugin", plugin, "node", nodeScore.Name, "score", nodeScore.Score)
}
}
}
// Summarize all scores.
result := make(framework.NodeScoreList, 0, len(nodes))
for i := range nodes {
result = append(result, framework.NodeScore{Name: nodes[i].Name, Score: 0})
for j := range scoresMap {
result[i].Score += scoresMap[j][i].Score
}
}
if len(extenders) != 0 && nodes != nil {
var mu sync.Mutex
var wg sync.WaitGroup
combinedScores := make(map[string]int64, len(nodes))
for i := range extenders {
if !extenders[i].IsInterested(pod) {
continue
}
wg.Add(1)
go func(extIndex int) {
metrics.SchedulerGoroutines.WithLabelValues(metrics.PrioritizingExtender).Inc()
defer func() {
metrics.SchedulerGoroutines.WithLabelValues(metrics.PrioritizingExtender).Dec()
wg.Done()
}()
prioritizedList, weight, err := extenders[extIndex].Prioritize(pod, nodes)
if err != nil {
// Prioritization errors from extender can be ignored, let k8s/other extenders determine the priorities
klog.V(5).InfoS("Failed to run extender's priority function. No score given by this extender.", "error", err, "pod", klog.KObj(pod), "extender", extenders[extIndex].Name())
return
}
mu.Lock()
for i := range *prioritizedList {
host, score := (*prioritizedList)[i].Host, (*prioritizedList)[i].Score
if klogV.Enabled() {
klogV.InfoS("Extender scored node for pod", "pod", klog.KObj(pod), "extender", extenders[extIndex].Name(), "node", host, "score", score)
}
combinedScores[host] += score * weight
}
mu.Unlock()
}(i)
}
// wait for all go routines to finish
wg.Wait()
for i := range result {
// MaxExtenderPriority may diverge from the max priority used in the scheduler and defined by MaxNodeScore,
// therefore we need to scale the score returned by extenders to the score range used by the scheduler.
result[i].Score += combinedScores[result[i].Name] * (framework.MaxNodeScore / extenderv1.MaxExtenderPriority)
}
}
if klogV.Enabled() {
for i := range result {
klogV.InfoS("Calculated node's final score for pod", "pod", klog.KObj(pod), "node", result[i].Name, "score", result[i].Score)
}
}
return result, nil
}
// selectHost takes a prioritized list of nodes and then picks one
// in a reservoir sampling manner from the nodes that had the highest score.
func selectHost(nodeScoreList framework.NodeScoreList) (string, error) {
if len(nodeScoreList) == 0 {
return "", fmt.Errorf("empty priorityList")
}
maxScore := nodeScoreList[0].Score
selected := nodeScoreList[0].Name
cntOfMaxScore := 1
for _, ns := range nodeScoreList[1:] {
if ns.Score > maxScore {
maxScore = ns.Score
selected = ns.Name
cntOfMaxScore = 1
} else if ns.Score == maxScore {
cntOfMaxScore++
if rand.Intn(cntOfMaxScore) == 0 {
// Replace the candidate with probability of 1/cntOfMaxScore
selected = ns.Name
}
}
}
return selected, nil
}
// assume signals to the cache that a pod is already in the cache, so that binding can be asynchronous.
// assume modifies `assumed`.
func (sched *Scheduler) assume(assumed *v1.Pod, host string) error {
// Optimistically assume that the binding will succeed and send it to apiserver
// in the background.
// If the binding fails, scheduler will release resources allocated to assumed pod
// immediately.
assumed.Spec.NodeName = host
if err := sched.Cache.AssumePod(assumed); err != nil {
klog.ErrorS(err, "Scheduler cache AssumePod failed")
return err
}
// if "assumed" is a nominated pod, we should remove it from internal cache
if sched.SchedulingQueue != nil {
sched.SchedulingQueue.DeleteNominatedPodIfExists(assumed)
}
return nil
}
// bind binds a pod to a given node defined in a binding object.
// The precedence for binding is: (1) extenders and (2) framework plugins.
// We expect this to run asynchronously, so we handle binding metrics internally.
func (sched *Scheduler) bind(ctx context.Context, fwk framework.Framework, assumed *v1.Pod, targetNode string, state *framework.CycleState) (err error) {
defer func() {
sched.finishBinding(fwk, assumed, targetNode, err)
}()
bound, err := sched.extendersBinding(assumed, targetNode)
if bound {
return err
}
bindStatus := fwk.RunBindPlugins(ctx, state, assumed, targetNode)
if bindStatus.IsSuccess() {
return nil
}
if bindStatus.Code() == framework.Error {
return bindStatus.AsError()
}
return fmt.Errorf("bind status: %s, %v", bindStatus.Code().String(), bindStatus.Message())
}
// TODO(#87159): Move this to a Plugin.
func (sched *Scheduler) extendersBinding(pod *v1.Pod, node string) (bool, error) {
for _, extender := range sched.Extenders {
if !extender.IsBinder() || !extender.IsInterested(pod) {
continue
}
return true, extender.Bind(&v1.Binding{
ObjectMeta: metav1.ObjectMeta{Namespace: pod.Namespace, Name: pod.Name, UID: pod.UID},
Target: v1.ObjectReference{Kind: "Node", Name: node},
})
}
return false, nil
}
func (sched *Scheduler) finishBinding(fwk framework.Framework, assumed *v1.Pod, targetNode string, err error) {
if finErr := sched.Cache.FinishBinding(assumed); finErr != nil {
klog.ErrorS(finErr, "Scheduler cache FinishBinding failed")
}
if err != nil {
klog.V(1).InfoS("Failed to bind pod", "pod", klog.KObj(assumed))
return
}
fwk.EventRecorder().Eventf(assumed, nil, v1.EventTypeNormal, "Scheduled", "Binding", "Successfully assigned %v/%v to %v", assumed.Namespace, assumed.Name, targetNode)
}
func getAttemptsLabel(p *framework.QueuedPodInfo) string {
// We breakdown the pod scheduling duration by attempts capped to a limit
// to avoid ending up with a high cardinality metric.
if p.Attempts >= 15 {
return "15+"
}
return strconv.Itoa(p.Attempts)
}
// handleSchedulingFailure records an event for the pod that indicates the
// pod has failed to schedule. Also, update the pod condition and nominated node name if set.
func (sched *Scheduler) handleSchedulingFailure(ctx context.Context, fwk framework.Framework, podInfo *framework.QueuedPodInfo, err error, reason string, nominatingInfo *framework.NominatingInfo) {
pod := podInfo.Pod
var errMsg string
if err != nil {
errMsg = err.Error()
}
if err == ErrNoNodesAvailable {
klog.V(2).InfoS("Unable to schedule pod; no nodes are registered to the cluster; waiting", "pod", klog.KObj(pod))
} else if fitError, ok := err.(*framework.FitError); ok {
// Inject UnschedulablePlugins to PodInfo, which will be used later for moving Pods between queues efficiently.
podInfo.UnschedulablePlugins = fitError.Diagnosis.UnschedulablePlugins
klog.V(2).InfoS("Unable to schedule pod; no fit; waiting", "pod", klog.KObj(pod), "err", errMsg)
} else if apierrors.IsNotFound(err) {
klog.V(2).InfoS("Unable to schedule pod, possibly due to node not found; waiting", "pod", klog.KObj(pod), "err", errMsg)
if errStatus, ok := err.(apierrors.APIStatus); ok && errStatus.Status().Details.Kind == "node" {
nodeName := errStatus.Status().Details.Name
// when node is not found, We do not remove the node right away. Trying again to get
// the node and if the node is still not found, then remove it from the scheduler cache.
_, err := fwk.ClientSet().CoreV1().Nodes().Get(context.TODO(), nodeName, metav1.GetOptions{})
if err != nil && apierrors.IsNotFound(err) {
node := v1.Node{ObjectMeta: metav1.ObjectMeta{Name: nodeName}}
if err := sched.Cache.RemoveNode(&node); err != nil {
klog.V(4).InfoS("Node is not found; failed to remove it from the cache", "node", node.Name)
}
}
}
} else {
klog.ErrorS(err, "Error scheduling pod; retrying", "pod", klog.KObj(pod))
}
// Check if the Pod exists in informer cache.
podLister := fwk.SharedInformerFactory().Core().V1().Pods().Lister()
cachedPod, e := podLister.Pods(pod.Namespace).Get(pod.Name)
if e != nil {
klog.InfoS("Pod doesn't exist in informer cache", "pod", klog.KObj(pod), "err", e)
} else {
// In the case of extender, the pod may have been bound successfully, but timed out returning its response to the scheduler.
// It could result in the live version to carry .spec.nodeName, and that's inconsistent with the internal-queued version.
if len(cachedPod.Spec.NodeName) != 0 {
klog.InfoS("Pod has been assigned to node. Abort adding it back to queue.", "pod", klog.KObj(pod), "node", cachedPod.Spec.NodeName)
} else {
// As <cachedPod> is from SharedInformer, we need to do a DeepCopy() here.
podInfo.PodInfo = framework.NewPodInfo(cachedPod.DeepCopy())
if err := sched.SchedulingQueue.AddUnschedulableIfNotPresent(podInfo, sched.SchedulingQueue.SchedulingCycle()); err != nil {
klog.ErrorS(err, "Error occurred")
}
}
}
// Update the scheduling queue with the nominated pod information. Without
// this, there would be a race condition between the next scheduling cycle
// and the time the scheduler receives a Pod Update for the nominated pod.
// Here we check for nil only for tests.
if sched.SchedulingQueue != nil {
sched.SchedulingQueue.AddNominatedPod(podInfo.PodInfo, nominatingInfo)
}
if err == nil {
// Only tests can reach here.
return
}
msg := truncateMessage(errMsg)
fwk.EventRecorder().Eventf(pod, nil, v1.EventTypeWarning, "FailedScheduling", "Scheduling", msg)
if err := updatePod(ctx, sched.client, pod, &v1.PodCondition{
Type: v1.PodScheduled,
Status: v1.ConditionFalse,
Reason: reason,
Message: errMsg,
}, nominatingInfo); err != nil {
klog.ErrorS(err, "Error updating pod", "pod", klog.KObj(pod))
}
}
// truncateMessage truncates a message if it hits the NoteLengthLimit.
func truncateMessage(message string) string {
max := validation.NoteLengthLimit
if len(message) <= max {
return message
}
suffix := " ..."
return message[:max-len(suffix)] + suffix
}
func updatePod(ctx context.Context, client clientset.Interface, pod *v1.Pod, condition *v1.PodCondition, nominatingInfo *framework.NominatingInfo) error {
klog.V(3).InfoS("Updating pod condition", "pod", klog.KObj(pod), "conditionType", condition.Type, "conditionStatus", condition.Status, "conditionReason", condition.Reason)
podStatusCopy := pod.Status.DeepCopy()
// NominatedNodeName is updated only if we are trying to set it, and the value is
// different from the existing one.
nnnNeedsUpdate := nominatingInfo.Mode() == framework.ModeOverride && pod.Status.NominatedNodeName != nominatingInfo.NominatedNodeName
if !podutil.UpdatePodCondition(podStatusCopy, condition) && !nnnNeedsUpdate {
return nil
}
if nnnNeedsUpdate {
podStatusCopy.NominatedNodeName = nominatingInfo.NominatedNodeName
}
return util.PatchPodStatus(ctx, client, pod, podStatusCopy)
}