/* Copyright 2019-2021 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 nfdmaster import ( "crypto/tls" "crypto/x509" "encoding/json" "fmt" "maps" "net" "os" "path" "path/filepath" "regexp" "sort" "strconv" "strings" "time" "github.com/google/uuid" "golang.org/x/net/context" "google.golang.org/grpc" "google.golang.org/grpc/credentials" "google.golang.org/grpc/health" "google.golang.org/grpc/health/grpc_health_v1" "google.golang.org/grpc/peer" corev1 "k8s.io/api/core/v1" apiequality "k8s.io/apimachinery/pkg/api/equality" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/labels" k8sLabels "k8s.io/apimachinery/pkg/labels" "k8s.io/apimachinery/pkg/types" k8sclient "k8s.io/client-go/kubernetes" restclient "k8s.io/client-go/rest" "k8s.io/client-go/tools/leaderelection" "k8s.io/client-go/tools/leaderelection/resourcelock" "k8s.io/klog/v2" controller "k8s.io/kubernetes/pkg/controller" klogutils "sigs.k8s.io/node-feature-discovery/pkg/utils/klog" taintutils "k8s.io/kubernetes/pkg/util/taints" "sigs.k8s.io/yaml" nfdclientset "sigs.k8s.io/node-feature-discovery/api/generated/clientset/versioned" nfdv1alpha1 "sigs.k8s.io/node-feature-discovery/api/nfd/v1alpha1" "sigs.k8s.io/node-feature-discovery/pkg/apis/nfd/nodefeaturerule" "sigs.k8s.io/node-feature-discovery/pkg/apis/nfd/validate" nfdfeatures "sigs.k8s.io/node-feature-discovery/pkg/features" pb "sigs.k8s.io/node-feature-discovery/pkg/labeler" "sigs.k8s.io/node-feature-discovery/pkg/utils" "sigs.k8s.io/node-feature-discovery/pkg/version" ) // Labels are a Kubernetes representation of discovered features. type Labels map[string]string // ExtendedResources are k8s extended resources which are created from discovered features. type ExtendedResources map[string]string // Annotations are used for NFD-related node metadata type Annotations map[string]string // NFDConfig contains the configuration settings of NfdMaster. type NFDConfig struct { AutoDefaultNs bool DenyLabelNs utils.StringSetVal ExtraLabelNs utils.StringSetVal LabelWhiteList *regexp.Regexp NoPublish bool ResourceLabels utils.StringSetVal EnableTaints bool ResyncPeriod utils.DurationVal LeaderElection LeaderElectionConfig NfdApiParallelism int Klog klogutils.KlogConfigOpts } // LeaderElectionConfig contains the configuration for leader election type LeaderElectionConfig struct { LeaseDuration utils.DurationVal RenewDeadline utils.DurationVal RetryPeriod utils.DurationVal } // ConfigOverrideArgs are args that override config file options type ConfigOverrideArgs struct { DenyLabelNs *utils.StringSetVal ExtraLabelNs *utils.StringSetVal LabelWhiteList *utils.RegexpVal ResourceLabels *utils.StringSetVal EnableTaints *bool NoPublish *bool ResyncPeriod *utils.DurationVal NfdApiParallelism *int } // Args holds command line arguments type Args struct { CaFile string CertFile string ConfigFile string Instance string KeyFile string Klog map[string]*utils.KlogFlagVal Kubeconfig string CrdController bool EnableNodeFeatureApi bool Port int // GrpcHealthPort is only needed to avoid races between tests (by skipping the health server). // Could be removed when gRPC labler service is dropped (when nfd-worker tests stop running nfd-master). GrpcHealthPort int Prune bool VerifyNodeName bool Options string EnableLeaderElection bool MetricsPort int Overrides ConfigOverrideArgs } type deniedNs struct { normal utils.StringSetVal wildcard utils.StringSetVal } type NfdMaster interface { Run() error Stop() WaitForReady(time.Duration) bool } type nfdMaster struct { *nfdController args Args namespace string nodeName string configFilePath string server *grpc.Server healthServer *grpc.Server stop chan struct{} ready chan struct{} kubeconfig *restclient.Config k8sClient k8sclient.Interface nfdClient *nfdclientset.Clientset updaterPool *updaterPool deniedNs config *NFDConfig } // NewNfdMaster creates a new NfdMaster server instance. func NewNfdMaster(opts ...NfdMasterOption) (NfdMaster, error) { nfd := &nfdMaster{ nodeName: utils.NodeName(), namespace: utils.GetKubernetesNamespace(), ready: make(chan struct{}), stop: make(chan struct{}), } for _, o := range opts { o.apply(nfd) } if nfd.args.Instance != "" { if ok, _ := regexp.MatchString(`^([A-Za-z0-9][-A-Za-z0-9_.]*)?[A-Za-z0-9]$`, nfd.args.Instance); !ok { return nfd, fmt.Errorf("invalid -instance %q: instance name "+ "must start and end with an alphanumeric character and may only contain "+ "alphanumerics, `-`, `_` or `.`", nfd.args.Instance) } } // Check TLS related args if nfd.args.CertFile != "" || nfd.args.KeyFile != "" || nfd.args.CaFile != "" { if nfd.args.CertFile == "" { return nfd, fmt.Errorf("-cert-file needs to be specified alongside -key-file and -ca-file") } if nfd.args.KeyFile == "" { return nfd, fmt.Errorf("-key-file needs to be specified alongside -cert-file and -ca-file") } if nfd.args.CaFile == "" { return nfd, fmt.Errorf("-ca-file needs to be specified alongside -cert-file and -key-file") } } if nfd.args.ConfigFile != "" { nfd.configFilePath = filepath.Clean(nfd.args.ConfigFile) } // k8sClient might've been set via opts by tests if nfd.k8sClient == nil { kubeconfig, err := utils.GetKubeconfig(nfd.args.Kubeconfig) if err != nil { return nfd, err } nfd.kubeconfig = kubeconfig cli, err := k8sclient.NewForConfig(kubeconfig) if err != nil { return nfd, err } nfd.k8sClient = cli } // nfdClient if nfd.kubeconfig != nil { kubeconfig, err := utils.GetKubeconfig(nfd.args.Kubeconfig) if err != nil { return nfd, err } nfd.kubeconfig = kubeconfig nfdClient, err := nfdclientset.NewForConfig(nfd.kubeconfig) if err != nil { return nfd, err } nfd.nfdClient = nfdClient } nfd.updaterPool = newUpdaterPool(nfd) return nfd, nil } // NfdMasterOption sets properties of the NfdMaster instance. type NfdMasterOption interface { apply(*nfdMaster) } // WithArgs is used for passing settings from command line arguments. func WithArgs(args *Args) NfdMasterOption { return &nfdMasterOpt{f: func(n *nfdMaster) { n.args = *args }} } // WithKuberneteClient forces to use the given kubernetes client, without // initializing one from kubeconfig. func WithKubernetesClient(cli k8sclient.Interface) NfdMasterOption { return &nfdMasterOpt{f: func(n *nfdMaster) { n.k8sClient = cli }} } type nfdMasterOpt struct { f func(*nfdMaster) } func (f *nfdMasterOpt) apply(n *nfdMaster) { f.f(n) } func newDefaultConfig() *NFDConfig { return &NFDConfig{ DenyLabelNs: utils.StringSetVal{}, ExtraLabelNs: utils.StringSetVal{}, NoPublish: false, AutoDefaultNs: true, NfdApiParallelism: 10, ResourceLabels: utils.StringSetVal{}, EnableTaints: false, ResyncPeriod: utils.DurationVal{Duration: time.Duration(1) * time.Hour}, LeaderElection: LeaderElectionConfig{ LeaseDuration: utils.DurationVal{Duration: time.Duration(15) * time.Second}, RetryPeriod: utils.DurationVal{Duration: time.Duration(2) * time.Second}, RenewDeadline: utils.DurationVal{Duration: time.Duration(10) * time.Second}, }, Klog: make(map[string]string), } } // Run NfdMaster server. The method returns in case of fatal errors or if Stop() // is called. func (m *nfdMaster) Run() error { klog.InfoS("Node Feature Discovery Master", "version", version.Get(), "nodeName", m.nodeName, "namespace", m.namespace) if m.args.Instance != "" { klog.InfoS("Master instance", "instance", m.args.Instance) } // Read initial configuration if err := m.configure(m.configFilePath, m.args.Options); err != nil { return err } if m.args.Prune { return m.prune() } if m.args.CrdController { err := m.startNfdApiController() if err != nil { return err } } m.updaterPool.start(m.config.NfdApiParallelism) // Create watcher for config file configWatch, err := utils.CreateFsWatcher(time.Second, m.configFilePath) if err != nil { return err } if !m.config.NoPublish { err := m.updateMasterNode() if err != nil { return fmt.Errorf("failed to update master node: %w", err) } } // Register to metrics server if m.args.MetricsPort > 0 { m := utils.CreateMetricsServer(m.args.MetricsPort, buildInfo, nodeUpdateRequests, nodeUpdates, nodeUpdateFailures, nodeLabelsRejected, nodeERsRejected, nodeTaintsRejected, nfrProcessingTime, nfrProcessingErrors) go m.Run() registerVersion(version.Get()) defer m.Stop() } // Run gRPC server grpcErr := make(chan error) // If the NodeFeature API is enabled, don'tregister the labeler API // server. Otherwise, register the labeler server. if !nfdfeatures.NFDFeatureGate.Enabled(nfdfeatures.NodeFeatureAPI) || !m.args.EnableNodeFeatureApi { go m.runGrpcServer(grpcErr) } // Run updater that handles events from the nfd CRD API. if m.nfdController != nil { if m.args.EnableLeaderElection { go m.nfdAPIUpdateHandlerWithLeaderElection() } else { go m.nfdAPIUpdateHandler() } } // Start gRPC server for liveness probe (at this point we're "live") if m.args.GrpcHealthPort != 0 { if err := m.startGrpcHealthServer(grpcErr); err != nil { return fmt.Errorf("failed to start gRPC health server: %w", err) } } // Notify that we're ready to accept connections close(m.ready) // NFD-Master main event loop for { select { case err := <-grpcErr: return fmt.Errorf("error in serving gRPC: %w", err) case <-configWatch.Events: klog.InfoS("reloading configuration") if err := m.configure(m.configFilePath, m.args.Options); err != nil { return err } // Stop the updaterPool so that no node updates are underway // while we reconfigure the NFD API controller (including the // listers) below m.updaterPool.stop() // restart NFD API controller if m.nfdController != nil { klog.InfoS("stopping the nfd api controller") m.nfdController.stop() } if m.args.CrdController { err := m.startNfdApiController() if err != nil { return nil } } // Restart the updaterPool m.updaterPool.start(m.config.NfdApiParallelism) // Update all nodes when the configuration changes if m.nfdController != nil && nfdfeatures.NFDFeatureGate.Enabled(nfdfeatures.NodeFeatureAPI) && m.args.EnableNodeFeatureApi { m.nfdController.updateAllNodesChan <- struct{}{} } case <-m.stop: klog.InfoS("shutting down nfd-master") return nil } } } // startGrpcHealthServer starts a gRPC health server for Kubernetes readiness/liveness probes. // TODO: improve status checking e.g. with watchdog in the main event loop and // cheking that node updater pool is alive. func (m *nfdMaster) startGrpcHealthServer(errChan chan<- error) error { lis, err := net.Listen("tcp", fmt.Sprintf(":%d", m.args.GrpcHealthPort)) if err != nil { return fmt.Errorf("failed to listen: %w", err) } s := grpc.NewServer() grpc_health_v1.RegisterHealthServer(s, health.NewServer()) klog.InfoS("gRPC health server serving", "port", m.args.GrpcHealthPort) go func() { defer func() { lis.Close() }() if err := s.Serve(lis); err != nil { errChan <- fmt.Errorf("gRPC health server exited with an error: %w", err) } klog.InfoS("gRPC health server stopped") }() m.healthServer = s return nil } func (m *nfdMaster) runGrpcServer(errChan chan<- error) { // Create server listening for TCP connections lis, err := net.Listen("tcp", fmt.Sprintf(":%d", m.args.Port)) if err != nil { errChan <- fmt.Errorf("failed to listen: %w", err) return } serverOpts := []grpc.ServerOption{} tlsConfig := utils.TlsConfig{} // Create watcher for TLS cert files certWatch, err := utils.CreateFsWatcher(time.Second, m.args.CertFile, m.args.KeyFile, m.args.CaFile) if err != nil { errChan <- err return } // Enable mutual TLS authentication if -cert-file, -key-file or -ca-file // is defined if m.args.CertFile != "" || m.args.KeyFile != "" || m.args.CaFile != "" { if err := tlsConfig.UpdateConfig(m.args.CertFile, m.args.KeyFile, m.args.CaFile); err != nil { errChan <- err return } tlsConfig := &tls.Config{GetConfigForClient: tlsConfig.GetConfig} serverOpts = append(serverOpts, grpc.Creds(credentials.NewTLS(tlsConfig))) } m.server = grpc.NewServer(serverOpts...) pb.RegisterLabelerServer(m.server, m) klog.InfoS("gRPC server serving", "port", m.args.Port) // Run gRPC server grpcErr := make(chan error) go func() { defer lis.Close() grpcErr <- m.server.Serve(lis) }() for { select { case <-certWatch.Events: klog.InfoS("reloading TLS certificates") if err := tlsConfig.UpdateConfig(m.args.CertFile, m.args.KeyFile, m.args.CaFile); err != nil { errChan <- err } case err := <-grpcErr: if err != nil { errChan <- fmt.Errorf("gRPC server exited with an error: %w", err) } klog.InfoS("gRPC server stopped") } } } // nfdAPIUpdateHandler handles events from the nfd API controller. func (m *nfdMaster) nfdAPIUpdateHandler() { // We want to unconditionally update all nodes at startup if gRPC is // disabled (i.e. NodeFeature API is enabled) updateAll := nfdfeatures.NFDFeatureGate.Enabled(nfdfeatures.NodeFeatureAPI) && m.args.EnableNodeFeatureApi updateNodes := make(map[string]struct{}) nodeFeatureGroup := make(map[string]struct{}) updateAllNodeFeatureGroups := false rateLimit := time.After(time.Second) for { select { case <-m.nfdController.updateAllNodesChan: updateAll = true case nodeName := <-m.nfdController.updateOneNodeChan: updateNodes[nodeName] = struct{}{} case <-m.nfdController.updateAllNodeFeatureGroupsChan: updateAllNodeFeatureGroups = true case nodeFeatureGroupName := <-m.nfdController.updateNodeFeatureGroupChan: nodeFeatureGroup[nodeFeatureGroupName] = struct{}{} case <-rateLimit: // NodeFeature errUpdateAll := false if updateAll { if err := m.nfdAPIUpdateAllNodes(); err != nil { klog.ErrorS(err, "failed to update nodes") errUpdateAll = true } } else { for nodeName := range updateNodes { m.updaterPool.addNode(nodeName) } } // NodeFeatureGroup errUpdateAllNFG := false if updateAllNodeFeatureGroups { if err := m.nfdAPIUpdateAllNodeFeatureGroups(); err != nil { klog.ErrorS(err, "failed to update NodeFeatureGroups") errUpdateAllNFG = true } } else { for nodeFeatureGroupName := range nodeFeatureGroup { m.updaterPool.addNodeFeatureGroup(nodeFeatureGroupName) } } // Reset "work queue" and timer updateAll = errUpdateAll updateAllNodeFeatureGroups = errUpdateAllNFG nodeFeatureGroup = map[string]struct{}{} updateNodes = map[string]struct{}{} rateLimit = time.After(time.Second) } } } // Stop NfdMaster func (m *nfdMaster) Stop() { if m.server != nil { m.server.GracefulStop() } if m.healthServer != nil { m.healthServer.GracefulStop() } if m.nfdController != nil { m.nfdController.stop() } m.updaterPool.stop() close(m.stop) } // Wait until NfdMaster is able able to accept connections. func (m *nfdMaster) WaitForReady(timeout time.Duration) bool { select { case <-m.ready: return true case <-time.After(timeout): } return false } // Prune erases all NFD related properties from the node objects of the cluster. func (m *nfdMaster) prune() error { if m.config.NoPublish { klog.InfoS("skipping pruning of nodes as noPublish config option is set") return nil } nodes, err := getNodes(m.k8sClient) if err != nil { return err } for _, node := range nodes.Items { klog.InfoS("pruning node...", "nodeName", node.Name) // Prune labels and extended resources err := m.updateNodeObject(m.k8sClient, &node, Labels{}, Annotations{}, ExtendedResources{}, []corev1.Taint{}) if err != nil { nodeUpdateFailures.Inc() return fmt.Errorf("failed to prune node %q: %v", node.Name, err) } // Prune annotations node, err := getNode(m.k8sClient, node.Name) if err != nil { return err } maps.DeleteFunc(node.Annotations, func(k, v string) bool { return strings.HasPrefix(k, m.instanceAnnotation(nfdv1alpha1.AnnotationNs)) }) _, err = m.k8sClient.CoreV1().Nodes().Update(context.TODO(), node, metav1.UpdateOptions{}) if err != nil { return fmt.Errorf("failed to prune annotations from node %q: %v", node.Name, err) } } return nil } // Update annotations on the node where nfd-master is running. Currently the // only function is to remove the deprecated // "nfd.node.kubernetes.io/master.version" annotation, if it exists. // TODO: Drop when nfdv1alpha1.MasterVersionAnnotation is removed. func (m *nfdMaster) updateMasterNode() error { node, err := getNode(m.k8sClient, m.nodeName) if err != nil { return err } // Advertise NFD version as an annotation p := createPatches([]string{m.instanceAnnotation(nfdv1alpha1.MasterVersionAnnotation)}, node.Annotations, nil, "/metadata/annotations") err = patchNode(m.k8sClient, node.Name, p) if err != nil { return fmt.Errorf("failed to patch node annotations: %w", err) } return nil } // Filter labels by namespace and name whitelist, and, turn selected labels // into extended resources. This function also handles proper namespacing of // labels and ERs, i.e. adds the possibly missing default namespace for labels // arriving through the gRPC API. func (m *nfdMaster) filterFeatureLabels(labels Labels, features *nfdv1alpha1.Features) (Labels, ExtendedResources) { outLabels := Labels{} for name, value := range labels { if value, err := m.filterFeatureLabel(name, value, features); err != nil { klog.ErrorS(err, "ignoring label", "labelKey", name, "labelValue", value) nodeLabelsRejected.Inc() } else { outLabels[name] = value } } // Remove labels which are intended to be extended resources extendedResources := ExtendedResources{} for extendedResourceName := range m.config.ResourceLabels { extendedResourceName := addNs(extendedResourceName, nfdv1alpha1.FeatureLabelNs) if value, ok := outLabels[extendedResourceName]; ok { if _, err := strconv.Atoi(value); err != nil { klog.ErrorS(err, "bad label value encountered for extended resource", "labelKey", extendedResourceName, "labelValue", value) nodeERsRejected.Inc() continue // non-numeric label can't be used } extendedResources[extendedResourceName] = value delete(outLabels, extendedResourceName) } } return outLabels, extendedResources } func (m *nfdMaster) filterFeatureLabel(name, value string, features *nfdv1alpha1.Features) (string, error) { // Check if Value is dynamic var filteredValue string if strings.HasPrefix(value, "@") { dynamicValue, err := getDynamicValue(value, features) if err != nil { return "", err } filteredValue = dynamicValue } else { filteredValue = value } // Validate ns, base := splitNs(name) err := validate.Label(name, filteredValue) if err == validate.ErrNSNotAllowed || isNamespaceDenied(ns, m.deniedNs.wildcard, m.deniedNs.normal) { if _, ok := m.config.ExtraLabelNs[ns]; !ok { return "", fmt.Errorf("namespace %q is not allowed", ns) } } else if err != nil { return "", err } // Skip if label doesn't match labelWhiteList if m.config.LabelWhiteList != nil && !m.config.LabelWhiteList.MatchString(base) { return "", fmt.Errorf("%s (%s) does not match the whitelist (%s)", base, name, m.config.LabelWhiteList.String()) } return filteredValue, nil } func getDynamicValue(value string, features *nfdv1alpha1.Features) (string, error) { // value is a string in the form of attribute.featureset.elements split := strings.SplitN(value[1:], ".", 3) if len(split) != 3 { return "", fmt.Errorf("value %s is not in the form of '@domain.feature.element'", value) } featureName := split[0] + "." + split[1] elementName := split[2] attrFeatureSet, ok := features.Attributes[featureName] if !ok { return "", fmt.Errorf("feature %s not found", featureName) } element, ok := attrFeatureSet.Elements[elementName] if !ok { return "", fmt.Errorf("element %s not found on feature %s", elementName, featureName) } return element, nil } func filterTaints(taints []corev1.Taint) []corev1.Taint { outTaints := []corev1.Taint{} for _, taint := range taints { if err := validate.Taint(&taint); err != nil { klog.ErrorS(err, "ignoring taint", "taint", taint) nodeTaintsRejected.Inc() } else { outTaints = append(outTaints, taint) } } return outTaints } func verifyNodeName(cert *x509.Certificate, nodeName string) error { if cert.Subject.CommonName == nodeName { return nil } err := cert.VerifyHostname(nodeName) if err != nil { return fmt.Errorf("certificate %q not valid for node %q: %v", cert.Subject.CommonName, nodeName, err) } return nil } func isNamespaceDenied(labelNs string, wildcardDeniedNs map[string]struct{}, normalDeniedNs map[string]struct{}) bool { for deniedNs := range normalDeniedNs { if labelNs == deniedNs { return true } } for deniedNs := range wildcardDeniedNs { if strings.HasSuffix(labelNs, deniedNs) { return true } } return false } // SetLabels implements LabelerServer func (m *nfdMaster) SetLabels(c context.Context, r *pb.SetLabelsRequest) (*pb.SetLabelsReply, error) { nodeUpdateRequests.Inc() err := authorizeClient(c, m.args.VerifyNodeName, r.NodeName) if err != nil { klog.ErrorS(err, "gRPC client authorization failed", "nodeName", r.NodeName) return &pb.SetLabelsReply{}, err } switch { case klog.V(4).Enabled(): klog.InfoS("gRPC SetLabels request received", "setLabelsRequest", utils.DelayedDumper(r)) case klog.V(1).Enabled(): klog.InfoS("gRPC SetLabels request received", "nodeName", r.NodeName, "nfdVersion", r.NfdVersion, "labels", r.Labels) default: klog.InfoS("gRPC SetLabels request received", "nodeName", r.NodeName) } if !m.config.NoPublish { // Fetch the node object. node, err := getNode(m.k8sClient, r.NodeName) if err != nil { return &pb.SetLabelsReply{}, err } // Create labels et al if err := m.refreshNodeFeatures(m.k8sClient, node, r.GetLabels(), r.GetFeatures()); err != nil { nodeUpdateFailures.Inc() return &pb.SetLabelsReply{}, err } } return &pb.SetLabelsReply{}, nil } func (m *nfdMaster) nfdAPIUpdateAllNodes() error { klog.InfoS("will process all nodes in the cluster") nodes, err := getNodes(m.k8sClient) if err != nil { return err } for _, node := range nodes.Items { m.updaterPool.addNode(node.Name) } return nil } // getAndMergeNodeFeatures merges the NodeFeature objects of the given node into a single NodeFeatureSpec. // The Name field of the returned NodeFeatureSpec contains the node name. func (m *nfdMaster) getAndMergeNodeFeatures(nodeName string) (*nfdv1alpha1.NodeFeature, error) { nodeFeatures := &nfdv1alpha1.NodeFeature{ ObjectMeta: metav1.ObjectMeta{ Name: nodeName, }, } sel := k8sLabels.SelectorFromSet(k8sLabels.Set{nfdv1alpha1.NodeFeatureObjNodeNameLabel: nodeName}) objs, err := m.nfdController.featureLister.List(sel) if err != nil { return &nfdv1alpha1.NodeFeature{}, fmt.Errorf("failed to get NodeFeature resources for node %q: %w", nodeName, err) } // Node without a running NFD-Worker if len(objs) == 0 { return &nfdv1alpha1.NodeFeature{}, nil } // Sort our objects sort.Slice(objs, func(i, j int) bool { // Objects in our nfd namespace gets into the beginning of the list if objs[i].Namespace == m.namespace && objs[j].Namespace != m.namespace { return true } if objs[i].Namespace != m.namespace && objs[j].Namespace == m.namespace { return false } // After the nfd namespace, sort objects by their name if objs[i].Name != objs[j].Name { return objs[i].Name < objs[j].Name } // Objects with the same name are sorted by their namespace return objs[i].Namespace < objs[j].Namespace }) if len(objs) > 0 { // Merge in features // // NOTE: changing the rule api to support handle multiple objects instead // of merging would probably perform better with lot less data to copy. features := objs[0].Spec.DeepCopy() if !nfdfeatures.NFDFeatureGate.Enabled(nfdfeatures.DisableAutoPrefix) && m.config.AutoDefaultNs { features.Labels = addNsToMapKeys(features.Labels, nfdv1alpha1.FeatureLabelNs) } for _, o := range objs[1:] { s := o.Spec.DeepCopy() if !nfdfeatures.NFDFeatureGate.Enabled(nfdfeatures.DisableAutoPrefix) && m.config.AutoDefaultNs { s.Labels = addNsToMapKeys(s.Labels, nfdv1alpha1.FeatureLabelNs) } s.MergeInto(features) } // Set the merged features to the NodeFeature object nodeFeatures.Spec = *features klog.V(4).InfoS("merged nodeFeatureSpecs", "newNodeFeatureSpec", utils.DelayedDumper(features)) } return nodeFeatures, nil } func (m *nfdMaster) nfdAPIUpdateOneNode(cli k8sclient.Interface, node *corev1.Node) error { if m.nfdController == nil || m.nfdController.featureLister == nil { return nil } // Merge all NodeFeature objects into a single NodeFeatureSpec nodeFeatures, err := m.getAndMergeNodeFeatures(node.Name) if err != nil { return fmt.Errorf("failed to merge NodeFeature objects for node %q: %w", node.Name, err) } // Update node labels et al. This may also mean removing all NFD-owned // labels (et al.), for example in the case no NodeFeature objects are // present. if err := m.refreshNodeFeatures(cli, node, nodeFeatures.Spec.Labels, &nodeFeatures.Spec.Features); err != nil { return err } return nil } func (m *nfdMaster) nfdAPIUpdateAllNodeFeatureGroups() error { klog.V(1).InfoS("updating all NodeFeatureGroups") nodeFeatureGroupsList, err := m.nfdController.featureGroupLister.List(labels.Everything()) if err != nil { return fmt.Errorf("failed to get NodeFeatureGroup objects: %w", err) } if len(nodeFeatureGroupsList) > 0 { for _, nodeFeatureGroup := range nodeFeatureGroupsList { m.updaterPool.nfgQueue.Add(nodeFeatureGroup.Name) } } else { klog.V(2).InfoS("no NodeFeatureGroup objects found") } return nil } func (m *nfdMaster) nfdAPIUpdateNodeFeatureGroup(nfdClient *nfdclientset.Clientset, nodeFeatureGroup *nfdv1alpha1.NodeFeatureGroup) error { klog.V(2).InfoS("evaluating NodeFeatureGroup", "nodeFeatureGroup", klog.KObj(nodeFeatureGroup)) if m.nfdController == nil || m.nfdController.featureLister == nil { return nil } // Get all Nodes nodes, err := getNodes(m.k8sClient) if err != nil { return fmt.Errorf("failed to get nodes: %w", err) } nodeFeaturesList := make([]*nfdv1alpha1.NodeFeature, 0) for _, node := range nodes.Items { // Merge all NodeFeature objects into a single NodeFeatureSpec nodeFeatures, err := m.getAndMergeNodeFeatures(node.Name) if err != nil { return fmt.Errorf("failed to merge NodeFeature objects for node %q: %w", node.Name, err) } if nodeFeatures.Name == "" { // Nothing to do for this node continue } nodeFeaturesList = append(nodeFeaturesList, nodeFeatures) } // Execute rules and create matching groups nodePool := make([]nfdv1alpha1.FeatureGroupNode, 0) nodeGroupValidator := make(map[string]bool) for _, rule := range nodeFeatureGroup.Spec.Rules { for _, feature := range nodeFeaturesList { match, err := nodefeaturerule.ExecuteGroupRule(&rule, &feature.Spec.Features) if err != nil { klog.ErrorS(err, "failed to evaluate rule", "ruleName", rule.Name) continue } if match { klog.ErrorS(err, "failed to evaluate rule", "ruleName", rule.Name, "nodeName", feature.Name) system := feature.Spec.Features.Attributes["system.name"] nodeName := system.Elements["nodename"] if _, ok := nodeGroupValidator[nodeName]; !ok { nodePool = append(nodePool, nfdv1alpha1.FeatureGroupNode{ Name: nodeName, }) nodeGroupValidator[nodeName] = true } } } } // Update the NodeFeatureGroup object with the updated featureGroupRules nodeFeatureGroupUpdated := nodeFeatureGroup.DeepCopy() nodeFeatureGroupUpdated.Status.Nodes = nodePool if !apiequality.Semantic.DeepEqual(nodeFeatureGroup, nodeFeatureGroupUpdated) { klog.InfoS("updating NodeFeatureGroup object", "nodeFeatureGroup", klog.KObj(nodeFeatureGroup)) nodeFeatureGroupUpdated, err = nfdClient.NfdV1alpha1().NodeFeatureGroups(m.namespace).UpdateStatus(context.TODO(), nodeFeatureGroupUpdated, metav1.UpdateOptions{}) if err != nil { return fmt.Errorf("failed to update NodeFeatureGroup object: %w", err) } klog.V(4).InfoS("NodeFeatureGroup object updated", "nodeFeatureGroup", utils.DelayedDumper(nodeFeatureGroupUpdated)) } else { klog.V(1).InfoS("no changes in NodeFeatureGroup, object is up to date", "nodeFeatureGroup", klog.KObj(nodeFeatureGroup)) } return nil } // filterExtendedResources filters extended resources and returns a map // of valid extended resources. func (m *nfdMaster) filterExtendedResources(features *nfdv1alpha1.Features, extendedResources ExtendedResources) ExtendedResources { outExtendedResources := ExtendedResources{} for name, value := range extendedResources { capacity, err := filterExtendedResource(name, value, features) if err != nil { klog.ErrorS(err, "failed to create extended resources", "extendedResourceName", name, "extendedResourceValue", value) nodeERsRejected.Inc() } else { outExtendedResources[name] = capacity } } return outExtendedResources } func filterExtendedResource(name, value string, features *nfdv1alpha1.Features) (string, error) { // Dynamic Value var filteredValue string if strings.HasPrefix(value, "@") { dynamicValue, err := getDynamicValue(value, features) if err != nil { return "", err } filteredValue = dynamicValue } else { filteredValue = value } // Validate err := validate.ExtendedResource(name, filteredValue) if err != nil { return "", err } return filteredValue, nil } func (m *nfdMaster) refreshNodeFeatures(cli k8sclient.Interface, node *corev1.Node, labels map[string]string, features *nfdv1alpha1.Features) error { if !nfdfeatures.NFDFeatureGate.Enabled(nfdfeatures.DisableAutoPrefix) && m.config.AutoDefaultNs { labels = addNsToMapKeys(labels, nfdv1alpha1.FeatureLabelNs) } else if labels == nil { labels = make(map[string]string) } crLabels, crAnnotations, crExtendedResources, crTaints := m.processNodeFeatureRule(node.Name, features) // Mix in CR-originated labels maps.Copy(labels, crLabels) // Remove labels which are intended to be extended resources via // -resource-labels or their NS is not whitelisted labels, extendedResources := m.filterFeatureLabels(labels, features) // Mix in CR-originated extended resources with -resource-labels maps.Copy(extendedResources, crExtendedResources) extendedResources = m.filterExtendedResources(features, extendedResources) // Annotations annotations := m.filterFeatureAnnotations(crAnnotations) // Taints var taints []corev1.Taint if m.config.EnableTaints { taints = filterTaints(crTaints) } if m.config.NoPublish { klog.V(1).InfoS("node update skipped, NoPublish=true", "nodeName", node.Name) return nil } err := m.updateNodeObject(cli, node, labels, annotations, extendedResources, taints) if err != nil { klog.ErrorS(err, "failed to update node", "nodeName", node.Name) return err } return nil } // setTaints sets node taints and annotations based on the taints passed via // nodeFeatureRule custom resorce. If empty list of taints is passed, currently // NFD owned taints and annotations are removed from the node. func setTaints(cli k8sclient.Interface, taints []corev1.Taint, node *corev1.Node) error { // De-serialize the taints annotation into corev1.Taint type for comparison below. var err error oldTaints := []corev1.Taint{} if val, ok := node.Annotations[nfdv1alpha1.NodeTaintsAnnotation]; ok { sts := strings.Split(val, ",") oldTaints, _, err = taintutils.ParseTaints(sts) if err != nil { return err } } // Delete old nfd-managed taints that are not found in the set of new taints. taintsUpdated := false newNode := node.DeepCopy() for _, taintToRemove := range oldTaints { if taintutils.TaintExists(taints, &taintToRemove) { continue } newTaints, removed := taintutils.DeleteTaint(newNode.Spec.Taints, &taintToRemove) if !removed { klog.V(1).InfoS("taint already deleted from node", "taint", taintToRemove) } taintsUpdated = taintsUpdated || removed newNode.Spec.Taints = newTaints } // Add new taints found in the set of new taints. for _, taint := range taints { var updated bool newNode, updated, err = taintutils.AddOrUpdateTaint(newNode, &taint) if err != nil { return fmt.Errorf("failed to add %q taint on node %v", taint, node.Name) } taintsUpdated = taintsUpdated || updated } if taintsUpdated { if err := controller.PatchNodeTaints(context.TODO(), cli, node.Name, node, newNode); err != nil { return fmt.Errorf("failed to patch the node %v", node.Name) } klog.InfoS("updated node taints", "nodeName", node.Name) } // Update node annotation that holds the taints managed by us newAnnotations := map[string]string{} if len(taints) > 0 { // Serialize the new taints into string and update the annotation // with that string. taintStrs := make([]string, 0, len(taints)) for _, taint := range taints { taintStrs = append(taintStrs, taint.ToString()) } newAnnotations[nfdv1alpha1.NodeTaintsAnnotation] = strings.Join(taintStrs, ",") } patches := createPatches([]string{nfdv1alpha1.NodeTaintsAnnotation}, node.Annotations, newAnnotations, "/metadata/annotations") if len(patches) > 0 { if err := patchNode(cli, node.Name, patches); err != nil { return fmt.Errorf("error while patching node object: %w", err) } klog.V(1).InfoS("patched node annotations for taints", "nodeName", node.Name) } return nil } func authorizeClient(c context.Context, checkNodeName bool, nodeName string) error { if checkNodeName { // Client authorization. // Check that the node name matches the CN from the TLS cert client, ok := peer.FromContext(c) if !ok { return fmt.Errorf("failed to get peer (client)") } tlsAuth, ok := client.AuthInfo.(credentials.TLSInfo) if !ok { return fmt.Errorf("incorrect client credentials") } if len(tlsAuth.State.VerifiedChains) == 0 || len(tlsAuth.State.VerifiedChains[0]) == 0 { return fmt.Errorf("client certificate verification failed") } err := verifyNodeName(tlsAuth.State.VerifiedChains[0][0], nodeName) if err != nil { return err } } return nil } func (m *nfdMaster) processNodeFeatureRule(nodeName string, features *nfdv1alpha1.Features) (Labels, Annotations, ExtendedResources, []corev1.Taint) { if m.nfdController == nil { return nil, nil, nil, nil } extendedResources := ExtendedResources{} labels := make(map[string]string) annotations := make(map[string]string) var taints []corev1.Taint ruleSpecs, err := m.nfdController.ruleLister.List(k8sLabels.Everything()) sort.Slice(ruleSpecs, func(i, j int) bool { return ruleSpecs[i].Name < ruleSpecs[j].Name }) if err != nil { klog.ErrorS(err, "failed to list NodeFeatureRule resources") return nil, nil, nil, nil } // Process all rule CRs processStart := time.Now() for _, spec := range ruleSpecs { t := time.Now() switch { case klog.V(3).Enabled(): klog.InfoS("executing NodeFeatureRule", "nodefeaturerule", klog.KObj(spec), "nodeName", nodeName, "nodeFeatureRuleSpec", utils.DelayedDumper(spec.Spec)) case klog.V(1).Enabled(): klog.InfoS("executing NodeFeatureRule", "nodefeaturerule", klog.KObj(spec), "nodeName", nodeName) } for _, rule := range spec.Spec.Rules { ruleOut, err := nodefeaturerule.Execute(&rule, features) if err != nil { klog.ErrorS(err, "failed to process rule", "ruleName", rule.Name, "nodefeaturerule", klog.KObj(spec), "nodeName", nodeName) nfrProcessingErrors.Inc() continue } taints = append(taints, ruleOut.Taints...) l := ruleOut.Labels e := ruleOut.ExtendedResources a := ruleOut.Annotations if !nfdfeatures.NFDFeatureGate.Enabled(nfdfeatures.DisableAutoPrefix) && m.config.AutoDefaultNs { l = addNsToMapKeys(ruleOut.Labels, nfdv1alpha1.FeatureLabelNs) e = addNsToMapKeys(ruleOut.ExtendedResources, nfdv1alpha1.ExtendedResourceNs) a = addNsToMapKeys(ruleOut.Annotations, nfdv1alpha1.FeatureAnnotationNs) } maps.Copy(labels, l) maps.Copy(extendedResources, e) maps.Copy(annotations, a) // Feed back rule output to features map for subsequent rules to match features.InsertAttributeFeatures(nfdv1alpha1.RuleBackrefDomain, nfdv1alpha1.RuleBackrefFeature, ruleOut.Labels) features.InsertAttributeFeatures(nfdv1alpha1.RuleBackrefDomain, nfdv1alpha1.RuleBackrefFeature, ruleOut.Vars) } nfrProcessingTime.WithLabelValues(spec.Name, nodeName).Observe(time.Since(t).Seconds()) } processingTime := time.Since(processStart) klog.V(2).InfoS("processed NodeFeatureRule objects", "nodeName", nodeName, "objectCount", len(ruleSpecs), "duration", processingTime) return labels, annotations, extendedResources, taints } // updateNodeObject ensures the Kubernetes node object is up to date, // creating new labels and extended resources where necessary and removing // outdated ones. Also updates the corresponding annotations. func (m *nfdMaster) updateNodeObject(cli k8sclient.Interface, node *corev1.Node, labels Labels, featureAnnotations Annotations, extendedResources ExtendedResources, taints []corev1.Taint) error { annotations := make(Annotations) // Store names of labels in an annotation if len(labels) > 0 { labelKeys := make([]string, 0, len(labels)) for key := range labels { // Drop the ns part for labels in the default ns labelKeys = append(labelKeys, strings.TrimPrefix(key, nfdv1alpha1.FeatureLabelNs+"/")) } sort.Strings(labelKeys) annotations[m.instanceAnnotation(nfdv1alpha1.FeatureLabelsAnnotation)] = strings.Join(labelKeys, ",") } // Store names of extended resources in an annotation if len(extendedResources) > 0 { extendedResourceKeys := make([]string, 0, len(extendedResources)) for key := range extendedResources { // Drop the ns part if in the default ns extendedResourceKeys = append(extendedResourceKeys, strings.TrimPrefix(key, nfdv1alpha1.FeatureLabelNs+"/")) } sort.Strings(extendedResourceKeys) annotations[m.instanceAnnotation(nfdv1alpha1.ExtendedResourceAnnotation)] = strings.Join(extendedResourceKeys, ",") } // Store feature annotations if len(featureAnnotations) > 0 { // Store names of feature annotations in an annotation annotationKeys := make([]string, 0, len(featureAnnotations)) for key := range featureAnnotations { // Drop the ns part for annotations in the default ns annotationKeys = append(annotationKeys, strings.TrimPrefix(key, nfdv1alpha1.FeatureAnnotationNs+"/")) } sort.Strings(annotationKeys) annotations[m.instanceAnnotation(nfdv1alpha1.FeatureAnnotationsTrackingAnnotation)] = strings.Join(annotationKeys, ",") maps.Copy(annotations, featureAnnotations) } // Create JSON patches for changes in labels and annotations oldLabels := stringToNsNames(node.Annotations[m.instanceAnnotation(nfdv1alpha1.FeatureLabelsAnnotation)], nfdv1alpha1.FeatureLabelNs) oldAnnotations := stringToNsNames(node.Annotations[m.instanceAnnotation(nfdv1alpha1.FeatureAnnotationsTrackingAnnotation)], nfdv1alpha1.FeatureAnnotationNs) patches := createPatches(oldLabels, node.Labels, labels, "/metadata/labels") oldAnnotations = append(oldAnnotations, []string{ m.instanceAnnotation(nfdv1alpha1.FeatureLabelsAnnotation), m.instanceAnnotation(nfdv1alpha1.ExtendedResourceAnnotation), m.instanceAnnotation(nfdv1alpha1.FeatureAnnotationsTrackingAnnotation), // Clean up deprecated/stale nfd version annotations m.instanceAnnotation(nfdv1alpha1.MasterVersionAnnotation), m.instanceAnnotation(nfdv1alpha1.WorkerVersionAnnotation)}...) patches = append(patches, createPatches(oldAnnotations, node.Annotations, annotations, "/metadata/annotations")...) // patch node status with extended resource changes statusPatches := m.createExtendedResourcePatches(node, extendedResources) err := patchNodeStatus(cli, node.Name, statusPatches) if err != nil { return fmt.Errorf("error while patching extended resources: %w", err) } // Patch the node object in the apiserver err = patchNode(cli, node.Name, patches) if err != nil { return fmt.Errorf("error while patching node object: %w", err) } if len(patches) > 0 || len(statusPatches) > 0 { nodeUpdates.Inc() klog.InfoS("node updated", "nodeName", node.Name) } else { klog.V(1).InfoS("no updates to node", "nodeName", node.Name) } // Set taints err = setTaints(cli, taints, node) if err != nil { return err } return err } // createPatches is a generic helper that returns json patch operations to perform func createPatches(removeKeys []string, oldItems map[string]string, newItems map[string]string, jsonPath string) []utils.JsonPatch { patches := []utils.JsonPatch{} // Determine items to remove for _, key := range removeKeys { if _, ok := oldItems[key]; ok { if _, ok := newItems[key]; !ok { patches = append(patches, utils.NewJsonPatch("remove", jsonPath, key, "")) } } } // Determine items to add or replace for key, newVal := range newItems { if oldVal, ok := oldItems[key]; ok { if newVal != oldVal { patches = append(patches, utils.NewJsonPatch("replace", jsonPath, key, newVal)) } } else { patches = append(patches, utils.NewJsonPatch("add", jsonPath, key, newVal)) } } return patches } // createExtendedResourcePatches returns a slice of operations to perform on // the node status func (m *nfdMaster) createExtendedResourcePatches(n *corev1.Node, extendedResources ExtendedResources) []utils.JsonPatch { patches := []utils.JsonPatch{} // Form a list of namespaced resource names managed by us oldResources := stringToNsNames(n.Annotations[m.instanceAnnotation(nfdv1alpha1.ExtendedResourceAnnotation)], nfdv1alpha1.FeatureLabelNs) // figure out which resources to remove for _, resource := range oldResources { if _, ok := n.Status.Capacity[corev1.ResourceName(resource)]; ok { // check if the ext resource is still needed if _, extResNeeded := extendedResources[resource]; !extResNeeded { patches = append(patches, utils.NewJsonPatch("remove", "/status/capacity", resource, "")) patches = append(patches, utils.NewJsonPatch("remove", "/status/allocatable", resource, "")) } } } // figure out which resources to replace and which to add for resource, value := range extendedResources { // check if the extended resource already exists with the same capacity in the node if quantity, ok := n.Status.Capacity[corev1.ResourceName(resource)]; ok { val, _ := quantity.AsInt64() if strconv.FormatInt(val, 10) != value { patches = append(patches, utils.NewJsonPatch("replace", "/status/capacity", resource, value)) patches = append(patches, utils.NewJsonPatch("replace", "/status/allocatable", resource, value)) } } else { patches = append(patches, utils.NewJsonPatch("add", "/status/capacity", resource, value)) // "allocatable" gets added implicitly after adding to capacity } } return patches } // Parse configuration options func (m *nfdMaster) configure(filepath string, overrides string) error { // Create a new default config c := newDefaultConfig() // Try to read and parse config file if filepath != "" { data, err := os.ReadFile(filepath) if err != nil { if os.IsNotExist(err) { klog.InfoS("config file not found, using defaults", "path", filepath) } else { return fmt.Errorf("error reading config file: %w", err) } } else { err = yaml.Unmarshal(data, c) if err != nil { return fmt.Errorf("failed to parse config file: %w", err) } klog.InfoS("configuration file parsed", "path", filepath) } } // Parse config overrides if err := yaml.Unmarshal([]byte(overrides), c); err != nil { return fmt.Errorf("failed to parse -options: %w", err) } if m.args.Overrides.NoPublish != nil { c.NoPublish = *m.args.Overrides.NoPublish } if m.args.Overrides.DenyLabelNs != nil { c.DenyLabelNs = *m.args.Overrides.DenyLabelNs } if m.args.Overrides.ExtraLabelNs != nil { c.ExtraLabelNs = *m.args.Overrides.ExtraLabelNs } if m.args.Overrides.ResourceLabels != nil { c.ResourceLabels = *m.args.Overrides.ResourceLabels } if m.args.Overrides.EnableTaints != nil { c.EnableTaints = *m.args.Overrides.EnableTaints } if m.args.Overrides.LabelWhiteList != nil { c.LabelWhiteList = &m.args.Overrides.LabelWhiteList.Regexp } if m.args.Overrides.ResyncPeriod != nil { c.ResyncPeriod = *m.args.Overrides.ResyncPeriod } if m.args.Overrides.NfdApiParallelism != nil { c.NfdApiParallelism = *m.args.Overrides.NfdApiParallelism } if c.NfdApiParallelism <= 0 { return fmt.Errorf("the maximum number of concurrent labelers should be a non-zero positive number") } m.config = c if err := klogutils.MergeKlogConfiguration(m.args.Klog, c.Klog); err != nil { return err } // Pre-process DenyLabelNS into 2 lists: one for normal ns, and the other for wildcard ns normalDeniedNs, wildcardDeniedNs := preProcessDeniedNamespaces(c.DenyLabelNs) m.deniedNs.normal = normalDeniedNs m.deniedNs.wildcard = wildcardDeniedNs klog.InfoS("configuration successfully updated", "configuration", utils.DelayedDumper(m.config)) return nil } // addNsToMapKeys creates a copy of a map with the namespace (prefix) added to // unprefixed keys. Prefixed keys in the input map will take presedence, i.e. // if the input contains both prefixed (say "prefix/name") and unprefixed // ("name") name the unprefixed key will be ignored. func addNsToMapKeys(in map[string]string, nsToAdd string) map[string]string { out := make(map[string]string, len(in)) for k, v := range in { if strings.Contains(k, "/") { out[k] = v } else { fqn := path.Join(nsToAdd, k) if _, ok := in[fqn]; !ok { out[fqn] = v } } } return out } // addNs adds a namespace if one isn't already found from src string func addNs(src string, nsToAdd string) string { if strings.Contains(src, "/") { return src } return path.Join(nsToAdd, src) } // splitNs splits a name into its namespace and name parts // Ported to Validate func splitNs(fullname string) (string, string) { split := strings.SplitN(fullname, "/", 2) if len(split) == 2 { return split[0], split[1] } return "", fullname } // stringToNsNames is a helper for converting a string of comma-separated names // into a slice of fully namespaced names func stringToNsNames(cslist, ns string) []string { var names []string if cslist != "" { names = strings.Split(cslist, ",") for i, name := range names { // Expect that names may omit the ns part names[i] = addNs(name, ns) } } return names } // Separate denied namespaces into two lists: // one contains wildcard namespaces the other contains normal namespaces func preProcessDeniedNamespaces(deniedNs map[string]struct{}) (normalDeniedNs map[string]struct{}, wildcardDeniedNs map[string]struct{}) { normalDeniedNs = map[string]struct{}{} wildcardDeniedNs = map[string]struct{}{} for ns := range deniedNs { if strings.HasPrefix(ns, "*") { trimedNs := strings.TrimLeft(ns, "*") wildcardDeniedNs[trimedNs] = struct{}{} } else { normalDeniedNs[ns] = struct{}{} } } return } func (m *nfdMaster) instanceAnnotation(name string) string { if m.args.Instance == "" { return name } return m.args.Instance + "." + name } func (m *nfdMaster) startNfdApiController() error { kubeconfig, err := utils.GetKubeconfig(m.args.Kubeconfig) if err != nil { return err } klog.InfoS("starting the nfd api controller") m.nfdController, err = newNfdController(kubeconfig, nfdApiControllerOptions{ DisableNodeFeature: !nfdfeatures.NFDFeatureGate.Enabled(nfdfeatures.NodeFeatureAPI) || !m.args.EnableNodeFeatureApi, ResyncPeriod: m.config.ResyncPeriod.Duration, }) if err != nil { return fmt.Errorf("failed to initialize CRD controller: %w", err) } return nil } func (m *nfdMaster) nfdAPIUpdateHandlerWithLeaderElection() { ctx := context.Background() lock := &resourcelock.LeaseLock{ LeaseMeta: metav1.ObjectMeta{ Name: "nfd-master.nfd.kubernetes.io", Namespace: m.namespace, }, Client: m.k8sClient.CoordinationV1(), LockConfig: resourcelock.ResourceLockConfig{ // add uuid to prevent situation where 2 nfd-master nodes run on same node Identity: m.nodeName + "_" + uuid.NewString(), }, } config := leaderelection.LeaderElectionConfig{ Lock: lock, // make it configurable? LeaseDuration: m.config.LeaderElection.LeaseDuration.Duration, RetryPeriod: m.config.LeaderElection.RetryPeriod.Duration, RenewDeadline: m.config.LeaderElection.RenewDeadline.Duration, Callbacks: leaderelection.LeaderCallbacks{ OnStartedLeading: func(_ context.Context) { m.nfdAPIUpdateHandler() }, OnStoppedLeading: func() { // We lost the lock. klog.InfoS("leaderelection lock was lost") m.Stop() }, }, } leaderElector, err := leaderelection.NewLeaderElector(config) if err != nil { klog.ErrorS(err, "couldn't create leader elector") m.Stop() } leaderElector.Run(ctx) } // Filter annotations by namespace. i.e. adds the possibly missing default namespace for annotations func (m *nfdMaster) filterFeatureAnnotations(annotations map[string]string) map[string]string { outAnnotations := make(map[string]string) for annotation, value := range annotations { // Check annotation namespace, filter out if ns is not whitelisted err := validate.Annotation(annotation, value) if err != nil { klog.ErrorS(err, "ignoring annotation", "annotationKey", annotation, "annotationValue", value) continue } outAnnotations[annotation] = value } return outAnnotations } func getNode(cli k8sclient.Interface, nodeName string) (*corev1.Node, error) { return cli.CoreV1().Nodes().Get(context.TODO(), nodeName, metav1.GetOptions{}) } func getNodeFeatureGroup(cli nfdclientset.Interface, namespace, name string) (*nfdv1alpha1.NodeFeatureGroup, error) { return cli.NfdV1alpha1().NodeFeatureGroups(namespace).Get(context.TODO(), name, metav1.GetOptions{}) } func getNodes(cli k8sclient.Interface) (*corev1.NodeList, error) { return cli.CoreV1().Nodes().List(context.TODO(), metav1.ListOptions{}) } func patchNode(cli k8sclient.Interface, nodeName string, patches []utils.JsonPatch, subresources ...string) error { if len(patches) == 0 { return nil } data, err := json.Marshal(patches) if err == nil { _, err = cli.CoreV1().Nodes().Patch(context.TODO(), nodeName, types.JSONPatchType, data, metav1.PatchOptions{}, subresources...) } return err } func patchNodeStatus(cli k8sclient.Interface, nodeName string, patches []utils.JsonPatch) error { return patchNode(cli, nodeName, patches, "status") }