// Copyright 2020 The Prometheus 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 kubernetes import ( "context" "errors" "fmt" "log/slog" "net" "strconv" "github.com/prometheus/client_golang/prometheus" "github.com/prometheus/common/model" "github.com/prometheus/common/promslog" apiv1 "k8s.io/api/core/v1" v1 "k8s.io/api/discovery/v1" "k8s.io/client-go/tools/cache" "k8s.io/client-go/util/workqueue" "github.com/prometheus/prometheus/discovery/targetgroup" "github.com/prometheus/prometheus/util/strutil" ) // EndpointSlice discovers new endpoint targets. type EndpointSlice struct { logger *slog.Logger endpointSliceInf cache.SharedIndexInformer serviceInf cache.SharedInformer podInf cache.SharedInformer nodeInf cache.SharedInformer withNodeMetadata bool podStore cache.Store endpointSliceStore cache.Store serviceStore cache.Store queue *workqueue.Type } // NewEndpointSlice returns a new endpointslice discovery. func NewEndpointSlice(l *slog.Logger, eps cache.SharedIndexInformer, svc, pod, node cache.SharedInformer, eventCount *prometheus.CounterVec) *EndpointSlice { if l == nil { l = promslog.NewNopLogger() } epslAddCount := eventCount.WithLabelValues(RoleEndpointSlice.String(), MetricLabelRoleAdd) epslUpdateCount := eventCount.WithLabelValues(RoleEndpointSlice.String(), MetricLabelRoleUpdate) epslDeleteCount := eventCount.WithLabelValues(RoleEndpointSlice.String(), MetricLabelRoleDelete) svcAddCount := eventCount.WithLabelValues(RoleService.String(), MetricLabelRoleAdd) svcUpdateCount := eventCount.WithLabelValues(RoleService.String(), MetricLabelRoleUpdate) svcDeleteCount := eventCount.WithLabelValues(RoleService.String(), MetricLabelRoleDelete) e := &EndpointSlice{ logger: l, endpointSliceInf: eps, endpointSliceStore: eps.GetStore(), serviceInf: svc, serviceStore: svc.GetStore(), podInf: pod, podStore: pod.GetStore(), nodeInf: node, withNodeMetadata: node != nil, queue: workqueue.NewNamed(RoleEndpointSlice.String()), } _, err := e.endpointSliceInf.AddEventHandler(cache.ResourceEventHandlerFuncs{ AddFunc: func(o interface{}) { epslAddCount.Inc() e.enqueue(o) }, UpdateFunc: func(_, o interface{}) { epslUpdateCount.Inc() e.enqueue(o) }, DeleteFunc: func(o interface{}) { epslDeleteCount.Inc() e.enqueue(o) }, }) if err != nil { l.Error("Error adding endpoint slices event handler.", "err", err) } serviceUpdate := func(o interface{}) { svc, err := convertToService(o) if err != nil { e.logger.Error("converting to Service object failed", "err", err) return } // TODO(brancz): use cache.Indexer to index endpointslices by // LabelServiceName so this operation doesn't have to iterate over all // endpoint objects. for _, obj := range e.endpointSliceStore.List() { esa, err := e.getEndpointSliceAdaptor(obj) if err != nil { e.logger.Error("converting to EndpointSlice object failed", "err", err) continue } if lv, exists := esa.labels()[esa.labelServiceName()]; exists && lv == svc.Name { e.enqueue(esa.get()) } } } _, err = e.serviceInf.AddEventHandler(cache.ResourceEventHandlerFuncs{ AddFunc: func(o interface{}) { svcAddCount.Inc() serviceUpdate(o) }, UpdateFunc: func(_, o interface{}) { svcUpdateCount.Inc() serviceUpdate(o) }, DeleteFunc: func(o interface{}) { svcDeleteCount.Inc() serviceUpdate(o) }, }) if err != nil { l.Error("Error adding services event handler.", "err", err) } if e.withNodeMetadata { _, err = e.nodeInf.AddEventHandler(cache.ResourceEventHandlerFuncs{ AddFunc: func(o interface{}) { node := o.(*apiv1.Node) e.enqueueNode(node.Name) }, UpdateFunc: func(_, o interface{}) { node := o.(*apiv1.Node) e.enqueueNode(node.Name) }, DeleteFunc: func(o interface{}) { node := o.(*apiv1.Node) e.enqueueNode(node.Name) }, }) if err != nil { l.Error("Error adding nodes event handler.", "err", err) } } return e } func (e *EndpointSlice) enqueueNode(nodeName string) { endpoints, err := e.endpointSliceInf.GetIndexer().ByIndex(nodeIndex, nodeName) if err != nil { e.logger.Error("Error getting endpoints for node", "node", nodeName, "err", err) return } for _, endpoint := range endpoints { e.enqueue(endpoint) } } func (e *EndpointSlice) enqueue(obj interface{}) { key, err := cache.DeletionHandlingMetaNamespaceKeyFunc(obj) if err != nil { return } e.queue.Add(key) } // Run implements the Discoverer interface. func (e *EndpointSlice) Run(ctx context.Context, ch chan<- []*targetgroup.Group) { defer e.queue.ShutDown() cacheSyncs := []cache.InformerSynced{e.endpointSliceInf.HasSynced, e.serviceInf.HasSynced, e.podInf.HasSynced} if e.withNodeMetadata { cacheSyncs = append(cacheSyncs, e.nodeInf.HasSynced) } if !cache.WaitForCacheSync(ctx.Done(), cacheSyncs...) { if !errors.Is(ctx.Err(), context.Canceled) { e.logger.Error("endpointslice informer unable to sync cache") } return } go func() { for e.process(ctx, ch) { } }() // Block until the target provider is explicitly canceled. <-ctx.Done() } func (e *EndpointSlice) process(ctx context.Context, ch chan<- []*targetgroup.Group) bool { keyObj, quit := e.queue.Get() if quit { return false } defer e.queue.Done(keyObj) key := keyObj.(string) namespace, name, err := cache.SplitMetaNamespaceKey(key) if err != nil { e.logger.Error("splitting key failed", "key", key) return true } o, exists, err := e.endpointSliceStore.GetByKey(key) if err != nil { e.logger.Error("getting object from store failed", "key", key) return true } if !exists { send(ctx, ch, &targetgroup.Group{Source: endpointSliceSourceFromNamespaceAndName(namespace, name)}) return true } esa, err := e.getEndpointSliceAdaptor(o) if err != nil { e.logger.Error("converting to EndpointSlice object failed", "err", err) return true } send(ctx, ch, e.buildEndpointSlice(esa)) return true } func (e *EndpointSlice) getEndpointSliceAdaptor(o interface{}) (endpointSliceAdaptor, error) { switch endpointSlice := o.(type) { case *v1.EndpointSlice: return newEndpointSliceAdaptorFromV1(endpointSlice), nil default: return nil, fmt.Errorf("received unexpected object: %v", o) } } func endpointSliceSource(ep endpointSliceAdaptor) string { return endpointSliceSourceFromNamespaceAndName(ep.namespace(), ep.name()) } func endpointSliceSourceFromNamespaceAndName(namespace, name string) string { return "endpointslice/" + namespace + "/" + name } const ( endpointSliceAddressTypeLabel = metaLabelPrefix + "endpointslice_address_type" endpointSlicePortNameLabel = metaLabelPrefix + "endpointslice_port_name" endpointSlicePortProtocolLabel = metaLabelPrefix + "endpointslice_port_protocol" endpointSlicePortLabel = metaLabelPrefix + "endpointslice_port" endpointSlicePortAppProtocol = metaLabelPrefix + "endpointslice_port_app_protocol" endpointSliceEndpointConditionsReadyLabel = metaLabelPrefix + "endpointslice_endpoint_conditions_ready" endpointSliceEndpointConditionsServingLabel = metaLabelPrefix + "endpointslice_endpoint_conditions_serving" endpointSliceEndpointConditionsTerminatingLabel = metaLabelPrefix + "endpointslice_endpoint_conditions_terminating" endpointSliceEndpointZoneLabel = metaLabelPrefix + "endpointslice_endpoint_zone" endpointSliceEndpointHostnameLabel = metaLabelPrefix + "endpointslice_endpoint_hostname" endpointSliceEndpointNodenameLabel = metaLabelPrefix + "endpointslice_endpoint_node_name" endpointSliceAddressTargetKindLabel = metaLabelPrefix + "endpointslice_address_target_kind" endpointSliceAddressTargetNameLabel = metaLabelPrefix + "endpointslice_address_target_name" endpointSliceEndpointTopologyLabelPrefix = metaLabelPrefix + "endpointslice_endpoint_topology_" endpointSliceEndpointTopologyLabelPresentPrefix = metaLabelPrefix + "endpointslice_endpoint_topology_present_" ) func (e *EndpointSlice) buildEndpointSlice(eps endpointSliceAdaptor) *targetgroup.Group { tg := &targetgroup.Group{ Source: endpointSliceSource(eps), } tg.Labels = model.LabelSet{ namespaceLabel: lv(eps.namespace()), endpointSliceAddressTypeLabel: lv(eps.addressType()), } addObjectMetaLabels(tg.Labels, eps.getObjectMeta(), RoleEndpointSlice) e.addServiceLabels(eps, tg) type podEntry struct { pod *apiv1.Pod servicePorts []endpointSlicePortAdaptor } seenPods := map[string]*podEntry{} add := func(addr string, ep endpointSliceEndpointAdaptor, port endpointSlicePortAdaptor) { a := addr if port.port() != nil { a = net.JoinHostPort(addr, strconv.FormatUint(uint64(*port.port()), 10)) } target := model.LabelSet{ model.AddressLabel: lv(a), } if port.name() != nil { target[endpointSlicePortNameLabel] = lv(*port.name()) } if port.protocol() != nil { target[endpointSlicePortProtocolLabel] = lv(*port.protocol()) } if port.port() != nil { target[endpointSlicePortLabel] = lv(strconv.FormatUint(uint64(*port.port()), 10)) } if port.appProtocol() != nil { target[endpointSlicePortAppProtocol] = lv(*port.appProtocol()) } if ep.conditions().ready() != nil { target[endpointSliceEndpointConditionsReadyLabel] = lv(strconv.FormatBool(*ep.conditions().ready())) } if ep.conditions().serving() != nil { target[endpointSliceEndpointConditionsServingLabel] = lv(strconv.FormatBool(*ep.conditions().serving())) } if ep.conditions().terminating() != nil { target[endpointSliceEndpointConditionsTerminatingLabel] = lv(strconv.FormatBool(*ep.conditions().terminating())) } if ep.hostname() != nil { target[endpointSliceEndpointHostnameLabel] = lv(*ep.hostname()) } if ep.targetRef() != nil { target[model.LabelName(endpointSliceAddressTargetKindLabel)] = lv(ep.targetRef().Kind) target[model.LabelName(endpointSliceAddressTargetNameLabel)] = lv(ep.targetRef().Name) } if ep.nodename() != nil { target[endpointSliceEndpointNodenameLabel] = lv(*ep.nodename()) } if ep.zone() != nil { target[model.LabelName(endpointSliceEndpointZoneLabel)] = lv(*ep.zone()) } for k, v := range ep.topology() { ln := strutil.SanitizeLabelName(k) target[model.LabelName(endpointSliceEndpointTopologyLabelPrefix+ln)] = lv(v) target[model.LabelName(endpointSliceEndpointTopologyLabelPresentPrefix+ln)] = presentValue } if e.withNodeMetadata { if ep.targetRef() != nil && ep.targetRef().Kind == "Node" { target = addNodeLabels(target, e.nodeInf, e.logger, &ep.targetRef().Name) } else { target = addNodeLabels(target, e.nodeInf, e.logger, ep.nodename()) } } pod := e.resolvePodRef(ep.targetRef()) if pod == nil { // This target is not a Pod, so don't continue with Pod specific logic. tg.Targets = append(tg.Targets, target) return } s := namespacedName(pod.Namespace, pod.Name) sp, ok := seenPods[s] if !ok { sp = &podEntry{pod: pod} seenPods[s] = sp } // Attach standard pod labels. target = target.Merge(podLabels(pod)) // Attach potential container port labels matching the endpoint port. containers := append(pod.Spec.Containers, pod.Spec.InitContainers...) for i, c := range containers { for _, cport := range c.Ports { if port.port() == nil { continue } if *port.port() == cport.ContainerPort { ports := strconv.FormatUint(uint64(*port.port()), 10) isInit := i >= len(pod.Spec.Containers) target[podContainerNameLabel] = lv(c.Name) target[podContainerImageLabel] = lv(c.Image) target[podContainerPortNameLabel] = lv(cport.Name) target[podContainerPortNumberLabel] = lv(ports) target[podContainerPortProtocolLabel] = lv(string(cport.Protocol)) target[podContainerIsInit] = lv(strconv.FormatBool(isInit)) break } } } // Add service port so we know that we have already generated a target // for it. sp.servicePorts = append(sp.servicePorts, port) tg.Targets = append(tg.Targets, target) } for _, ep := range eps.endpoints() { for _, port := range eps.ports() { for _, addr := range ep.addresses() { add(addr, ep, port) } } } // For all seen pods, check all container ports. If they were not covered // by one of the service endpoints, generate targets for them. for _, pe := range seenPods { // PodIP can be empty when a pod is starting or has been evicted. if len(pe.pod.Status.PodIP) == 0 { continue } containers := append(pe.pod.Spec.Containers, pe.pod.Spec.InitContainers...) for i, c := range containers { for _, cport := range c.Ports { hasSeenPort := func() bool { for _, eport := range pe.servicePorts { if eport.port() == nil { continue } if cport.ContainerPort == *eport.port() { return true } } return false } if hasSeenPort() { continue } a := net.JoinHostPort(pe.pod.Status.PodIP, strconv.FormatUint(uint64(cport.ContainerPort), 10)) ports := strconv.FormatUint(uint64(cport.ContainerPort), 10) isInit := i >= len(pe.pod.Spec.Containers) target := model.LabelSet{ model.AddressLabel: lv(a), podContainerNameLabel: lv(c.Name), podContainerImageLabel: lv(c.Image), podContainerPortNameLabel: lv(cport.Name), podContainerPortNumberLabel: lv(ports), podContainerPortProtocolLabel: lv(string(cport.Protocol)), podContainerIsInit: lv(strconv.FormatBool(isInit)), } tg.Targets = append(tg.Targets, target.Merge(podLabels(pe.pod))) } } } return tg } func (e *EndpointSlice) resolvePodRef(ref *apiv1.ObjectReference) *apiv1.Pod { if ref == nil || ref.Kind != "Pod" { return nil } p := &apiv1.Pod{} p.Namespace = ref.Namespace p.Name = ref.Name obj, exists, err := e.podStore.Get(p) if err != nil { e.logger.Error("resolving pod ref failed", "err", err) return nil } if !exists { return nil } return obj.(*apiv1.Pod) } func (e *EndpointSlice) addServiceLabels(esa endpointSliceAdaptor, tg *targetgroup.Group) { var ( svc = &apiv1.Service{} found bool ) svc.Namespace = esa.namespace() // Every EndpointSlice object has the Service they belong to in the // kubernetes.io/service-name label. svc.Name, found = esa.labels()[esa.labelServiceName()] if !found { return } obj, exists, err := e.serviceStore.Get(svc) if err != nil { e.logger.Error("retrieving service failed", "err", err) return } if !exists { return } svc = obj.(*apiv1.Service) tg.Labels = tg.Labels.Merge(serviceLabels(svc)) }