mirror of https://github.com/k3s-io/k3s
328 lines
12 KiB
Go
328 lines
12 KiB
Go
/*
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Copyright 2020 The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package endpointslicemirroring
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import (
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"context"
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"fmt"
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corev1 "k8s.io/api/core/v1"
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discovery "k8s.io/api/discovery/v1beta1"
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"k8s.io/apimachinery/pkg/api/errors"
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metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
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"k8s.io/apimachinery/pkg/types"
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clientset "k8s.io/client-go/kubernetes"
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"k8s.io/client-go/tools/record"
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"k8s.io/klog/v2"
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"k8s.io/kubernetes/pkg/controller/endpointslicemirroring/metrics"
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endpointutil "k8s.io/kubernetes/pkg/controller/util/endpoint"
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)
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// reconciler is responsible for transforming current EndpointSlice state into
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// desired state
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type reconciler struct {
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client clientset.Interface
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// endpointSliceTracker tracks the list of EndpointSlices and associated
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// resource versions expected for each Endpoints resource. It can help
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// determine if a cached EndpointSlice is out of date.
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endpointSliceTracker *endpointSliceTracker
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// eventRecorder allows reconciler to record an event if it finds an invalid
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// IP address in an Endpoints resource.
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eventRecorder record.EventRecorder
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// maxEndpointsPerSubset references the maximum number of endpoints that
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// should be added to an EndpointSlice for an EndpointSubset. This allows
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// for a simple 1:1 mapping between EndpointSubset and EndpointSlice.
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maxEndpointsPerSubset int32
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// metricsCache tracks values for total numbers of desired endpoints as well
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// as the efficiency of EndpointSlice endpoints distribution
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metricsCache *metrics.Cache
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}
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// reconcile takes an Endpoints resource and ensures that corresponding
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// EndpointSlices exist. It creates, updates, or deletes EndpointSlices to
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// ensure the desired set of addresses are represented by EndpointSlices.
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func (r *reconciler) reconcile(endpoints *corev1.Endpoints, existingSlices []*discovery.EndpointSlice) error {
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// Calculate desired state.
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d := newDesiredCalc()
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numInvalidAddresses := 0
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addressesSkipped := 0
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for _, subset := range endpoints.Subsets {
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multiKey := d.initPorts(subset.Ports)
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totalAddresses := len(subset.Addresses) + len(subset.NotReadyAddresses)
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totalAddressesAdded := 0
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for _, address := range subset.Addresses {
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// Break if we've reached the max number of addresses to mirror
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// per EndpointSubset. This allows for a simple 1:1 mapping between
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// EndpointSubset and EndpointSlice.
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if totalAddressesAdded >= int(r.maxEndpointsPerSubset) {
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break
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}
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if ok := d.addAddress(address, multiKey, true); ok {
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totalAddressesAdded++
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} else {
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numInvalidAddresses++
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klog.Warningf("Address in %s/%s Endpoints is not a valid IP, it will not be mirrored to an EndpointSlice: %s", endpoints.Namespace, endpoints.Name, address.IP)
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}
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}
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for _, address := range subset.NotReadyAddresses {
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// Break if we've reached the max number of addresses to mirror
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// per EndpointSubset. This allows for a simple 1:1 mapping between
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// EndpointSubset and EndpointSlice.
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if totalAddressesAdded >= int(r.maxEndpointsPerSubset) {
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break
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}
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if ok := d.addAddress(address, multiKey, true); ok {
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totalAddressesAdded++
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} else {
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numInvalidAddresses++
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klog.Warningf("Address in %s/%s Endpoints is not a valid IP, it will not be mirrored to an EndpointSlice: %s", endpoints.Namespace, endpoints.Name, address.IP)
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}
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}
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addressesSkipped += totalAddresses - totalAddressesAdded
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}
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// This metric includes addresses skipped for being invalid or exceeding
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// MaxEndpointsPerSubset.
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metrics.AddressesSkippedPerSync.WithLabelValues().Observe(float64(addressesSkipped))
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// Record an event on the Endpoints resource if we skipped mirroring for any
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// invalid IP addresses.
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if numInvalidAddresses > 0 {
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r.eventRecorder.Eventf(endpoints, corev1.EventTypeWarning, InvalidIPAddress,
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"Skipped %d invalid IP addresses when mirroring to EndpointSlices", numInvalidAddresses)
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}
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// Record a separate event if we skipped mirroring due to the number of
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// addresses exceeding MaxEndpointsPerSubset.
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if addressesSkipped > numInvalidAddresses {
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klog.Warningf("%d addresses in %s/%s Endpoints were skipped due to exceeding MaxEndpointsPerSubset", addressesSkipped, endpoints.Namespace, endpoints.Name)
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r.eventRecorder.Eventf(endpoints, corev1.EventTypeWarning, TooManyAddressesToMirror,
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"A max of %d addresses can be mirrored to EndpointSlices per Endpoints subset. %d addresses were skipped", r.maxEndpointsPerSubset, addressesSkipped)
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}
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// Build data structures for existing state.
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existingSlicesByKey := endpointSlicesByKey(existingSlices)
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// Determine changes necessary for each group of slices by port map.
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epMetrics := metrics.NewEndpointPortCache()
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totals := totalsByAction{}
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slices := slicesByAction{}
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for portKey, desiredEndpoints := range d.endpointsByKey {
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numEndpoints := len(desiredEndpoints)
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pmSlices, pmTotals := r.reconcileByPortMapping(
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endpoints, existingSlicesByKey[portKey], desiredEndpoints, d.portsByKey[portKey], portKey.addressType())
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slices.append(pmSlices)
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totals.add(pmTotals)
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epMetrics.Set(endpointutil.PortMapKey(portKey), metrics.EfficiencyInfo{
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Endpoints: numEndpoints,
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Slices: len(existingSlicesByKey[portKey]) + len(pmSlices.toCreate) - len(pmSlices.toDelete),
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})
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}
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// If there are unique sets of ports that are no longer desired, mark
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// the corresponding endpoint slices for deletion.
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for portKey, existingSlices := range existingSlicesByKey {
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if _, ok := d.endpointsByKey[portKey]; !ok {
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for _, existingSlice := range existingSlices {
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slices.toDelete = append(slices.toDelete, existingSlice)
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}
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}
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}
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metrics.EndpointsAddedPerSync.WithLabelValues().Observe(float64(totals.added))
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metrics.EndpointsUpdatedPerSync.WithLabelValues().Observe(float64(totals.updated))
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metrics.EndpointsRemovedPerSync.WithLabelValues().Observe(float64(totals.removed))
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endpointsNN := types.NamespacedName{Name: endpoints.Name, Namespace: endpoints.Namespace}
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r.metricsCache.UpdateEndpointPortCache(endpointsNN, epMetrics)
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return r.finalize(endpoints, slices)
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}
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// reconcileByPortMapping compares the endpoints found in existing slices with
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// the list of desired endpoints and returns lists of slices to create, update,
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// and delete.
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func (r *reconciler) reconcileByPortMapping(
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endpoints *corev1.Endpoints,
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existingSlices []*discovery.EndpointSlice,
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desiredSet endpointSet,
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endpointPorts []discovery.EndpointPort,
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addressType discovery.AddressType,
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) (slicesByAction, totalsByAction) {
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slices := slicesByAction{}
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totals := totalsByAction{}
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// If no endpoints are desired, mark existing slices for deletion and
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// return.
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if desiredSet.Len() == 0 {
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slices.toDelete = existingSlices
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for _, epSlice := range existingSlices {
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totals.removed += len(epSlice.Endpoints)
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}
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return slices, totals
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}
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if len(existingSlices) == 0 {
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// if no existing slices, all desired endpoints will be added.
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totals.added = desiredSet.Len()
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} else {
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// if >0 existing slices, mark all but 1 for deletion.
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slices.toDelete = existingSlices[1:]
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// Return early if first slice matches desired endpoints.
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totals = totalChanges(existingSlices[0], desiredSet)
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if totals.added == 0 && totals.updated == 0 && totals.removed == 0 {
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return slices, totals
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}
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}
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// generate a new slice with the desired endpoints.
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var sliceName string
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if len(existingSlices) > 0 {
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sliceName = existingSlices[0].Name
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}
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newSlice := newEndpointSlice(endpoints, endpointPorts, addressType, sliceName)
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for desiredSet.Len() > 0 && len(newSlice.Endpoints) < int(r.maxEndpointsPerSubset) {
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endpoint, _ := desiredSet.PopAny()
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newSlice.Endpoints = append(newSlice.Endpoints, *endpoint)
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}
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if newSlice.Name != "" {
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slices.toUpdate = []*discovery.EndpointSlice{newSlice}
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} else { // Slices to be created set GenerateName instead of Name.
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slices.toCreate = []*discovery.EndpointSlice{newSlice}
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}
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return slices, totals
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}
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// finalize creates, updates, and deletes slices as specified
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func (r *reconciler) finalize(endpoints *corev1.Endpoints, slices slicesByAction) error {
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// If there are slices to create and delete, recycle the slices marked for
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// deletion by replacing creates with updates of slices that would otherwise
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// be deleted.
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recycleSlices(&slices)
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epsClient := r.client.DiscoveryV1beta1().EndpointSlices(endpoints.Namespace)
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// Don't create more EndpointSlices if corresponding Endpoints resource is
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// being deleted.
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if endpoints.DeletionTimestamp == nil {
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for _, endpointSlice := range slices.toCreate {
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createdSlice, err := epsClient.Create(context.TODO(), endpointSlice, metav1.CreateOptions{})
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if err != nil {
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// If the namespace is terminating, creates will continue to fail. Simply drop the item.
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if errors.HasStatusCause(err, corev1.NamespaceTerminatingCause) {
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return nil
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}
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return fmt.Errorf("failed to create EndpointSlice for Endpoints %s/%s: %v", endpoints.Namespace, endpoints.Name, err)
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}
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r.endpointSliceTracker.Update(createdSlice)
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metrics.EndpointSliceChanges.WithLabelValues("create").Inc()
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}
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}
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for _, endpointSlice := range slices.toUpdate {
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updatedSlice, err := epsClient.Update(context.TODO(), endpointSlice, metav1.UpdateOptions{})
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if err != nil {
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return fmt.Errorf("failed to update %s EndpointSlice for Endpoints %s/%s: %v", endpointSlice.Name, endpoints.Namespace, endpoints.Name, err)
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}
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r.endpointSliceTracker.Update(updatedSlice)
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metrics.EndpointSliceChanges.WithLabelValues("update").Inc()
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}
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for _, endpointSlice := range slices.toDelete {
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err := epsClient.Delete(context.TODO(), endpointSlice.Name, metav1.DeleteOptions{})
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if err != nil {
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return fmt.Errorf("failed to delete %s EndpointSlice for Endpoints %s/%s: %v", endpointSlice.Name, endpoints.Namespace, endpoints.Name, err)
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}
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r.endpointSliceTracker.Delete(endpointSlice)
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metrics.EndpointSliceChanges.WithLabelValues("delete").Inc()
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}
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return nil
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}
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// deleteEndpoints deletes any associated EndpointSlices and cleans up any
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// Endpoints references from the metricsCache.
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func (r *reconciler) deleteEndpoints(namespace, name string, endpointSlices []*discovery.EndpointSlice) error {
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r.metricsCache.DeleteEndpoints(types.NamespacedName{Namespace: namespace, Name: name})
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var errs []error
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for _, endpointSlice := range endpointSlices {
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err := r.client.DiscoveryV1beta1().EndpointSlices(namespace).Delete(context.TODO(), endpointSlice.Name, metav1.DeleteOptions{})
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if err != nil {
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errs = append(errs, err)
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}
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}
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if len(errs) > 0 {
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return fmt.Errorf("Error(s) deleting %d/%d EndpointSlices for %s/%s Endpoints, including: %s", len(errs), len(endpointSlices), namespace, name, errs[0])
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}
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return nil
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}
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// endpointSlicesByKey returns a map that groups EndpointSlices by unique
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// addrTypePortMapKey values.
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func endpointSlicesByKey(existingSlices []*discovery.EndpointSlice) map[addrTypePortMapKey][]*discovery.EndpointSlice {
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slicesByKey := map[addrTypePortMapKey][]*discovery.EndpointSlice{}
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for _, existingSlice := range existingSlices {
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epKey := newAddrTypePortMapKey(existingSlice.Ports, existingSlice.AddressType)
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slicesByKey[epKey] = append(slicesByKey[epKey], existingSlice)
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}
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return slicesByKey
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}
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// totalChanges returns the total changes that will be required for an
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// EndpointSlice to match a desired set of endpoints.
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func totalChanges(existingSlice *discovery.EndpointSlice, desiredSet endpointSet) totalsByAction {
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totals := totalsByAction{}
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existingMatches := 0
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for _, endpoint := range existingSlice.Endpoints {
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got := desiredSet.Get(&endpoint)
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if got == nil {
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// If not desired, increment number of endpoints to be deleted.
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totals.removed++
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} else {
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existingMatches++
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// If existing version of endpoint doesn't match desired version
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// increment number of endpoints to be updated.
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if !endpointsEqualBeyondHash(got, &endpoint) {
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totals.updated++
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}
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}
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}
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// Any desired endpoints that have not been found in the existing slice will
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// be added.
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totals.added = desiredSet.Len() - existingMatches
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return totals
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}
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