/* Copyright 2017 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 node import ( "context" "fmt" "k8s.io/klog/v2" rbacv1 "k8s.io/api/rbac/v1" "k8s.io/apimachinery/pkg/runtime/schema" "k8s.io/apiserver/pkg/authentication/user" "k8s.io/apiserver/pkg/authorization/authorizer" utilfeature "k8s.io/apiserver/pkg/util/feature" "k8s.io/component-base/featuregate" coordapi "k8s.io/kubernetes/pkg/apis/coordination" api "k8s.io/kubernetes/pkg/apis/core" resourceapi "k8s.io/kubernetes/pkg/apis/resource" storageapi "k8s.io/kubernetes/pkg/apis/storage" "k8s.io/kubernetes/pkg/auth/nodeidentifier" "k8s.io/kubernetes/plugin/pkg/auth/authorizer/rbac" "k8s.io/kubernetes/third_party/forked/gonum/graph" "k8s.io/kubernetes/third_party/forked/gonum/graph/traverse" ) // NodeAuthorizer authorizes requests from kubelets, with the following logic: // 1. If a request is not from a node (NodeIdentity() returns isNode=false), reject // 2. If a specific node cannot be identified (NodeIdentity() returns nodeName=""), reject // 3. If a request is for a secret, configmap, persistent volume, resource claim, or persistent volume claim, reject unless the verb is get, and the requested object is related to the requesting node: // node <- configmap // node <- pod // node <- pod <- secret // node <- pod <- configmap // node <- pod <- pvc // node <- pod <- pvc <- pv // node <- pod <- pvc <- pv <- secret // node <- pod <- ResourceClaim // 4. If a request is for a resourceslice, then authorize access if there is an // edge from the existing slice object to the node, which is the case if the // existing object has the node in its NodeName field. For create, the access gets // granted because the noderestriction admission plugin checks that the NodeName // is set to the node. // 5. For other resources, authorize all nodes uniformly using statically defined rules type NodeAuthorizer struct { graph *Graph identifier nodeidentifier.NodeIdentifier nodeRules []rbacv1.PolicyRule // allows overriding for testing features featuregate.FeatureGate } var _ = authorizer.Authorizer(&NodeAuthorizer{}) var _ = authorizer.RuleResolver(&NodeAuthorizer{}) // NewAuthorizer returns a new node authorizer func NewAuthorizer(graph *Graph, identifier nodeidentifier.NodeIdentifier, rules []rbacv1.PolicyRule) *NodeAuthorizer { return &NodeAuthorizer{ graph: graph, identifier: identifier, nodeRules: rules, features: utilfeature.DefaultFeatureGate, } } var ( configMapResource = api.Resource("configmaps") secretResource = api.Resource("secrets") resourceSlice = resourceapi.Resource("resourceslices") pvcResource = api.Resource("persistentvolumeclaims") pvResource = api.Resource("persistentvolumes") resourceClaimResource = resourceapi.Resource("resourceclaims") vaResource = storageapi.Resource("volumeattachments") svcAcctResource = api.Resource("serviceaccounts") leaseResource = coordapi.Resource("leases") csiNodeResource = storageapi.Resource("csinodes") ) func (r *NodeAuthorizer) RulesFor(user user.Info, namespace string) ([]authorizer.ResourceRuleInfo, []authorizer.NonResourceRuleInfo, bool, error) { if _, isNode := r.identifier.NodeIdentity(user); isNode { // indicate nodes do not have fully enumerated permissions return nil, nil, true, fmt.Errorf("node authorizer does not support user rule resolution") } return nil, nil, false, nil } func (r *NodeAuthorizer) Authorize(ctx context.Context, attrs authorizer.Attributes) (authorizer.Decision, string, error) { nodeName, isNode := r.identifier.NodeIdentity(attrs.GetUser()) if !isNode { // reject requests from non-nodes return authorizer.DecisionNoOpinion, "", nil } if len(nodeName) == 0 { // reject requests from unidentifiable nodes klog.V(2).Infof("NODE DENY: unknown node for user %q", attrs.GetUser().GetName()) return authorizer.DecisionNoOpinion, fmt.Sprintf("unknown node for user %q", attrs.GetUser().GetName()), nil } // subdivide access to specific resources if attrs.IsResourceRequest() { requestResource := schema.GroupResource{Group: attrs.GetAPIGroup(), Resource: attrs.GetResource()} switch requestResource { case secretResource: return r.authorizeReadNamespacedObject(nodeName, secretVertexType, attrs) case configMapResource: return r.authorizeReadNamespacedObject(nodeName, configMapVertexType, attrs) case pvcResource: if attrs.GetSubresource() == "status" { return r.authorizeStatusUpdate(nodeName, pvcVertexType, attrs) } return r.authorizeGet(nodeName, pvcVertexType, attrs) case pvResource: return r.authorizeGet(nodeName, pvVertexType, attrs) case resourceClaimResource: return r.authorizeGet(nodeName, resourceClaimVertexType, attrs) case vaResource: return r.authorizeGet(nodeName, vaVertexType, attrs) case svcAcctResource: return r.authorizeCreateToken(nodeName, serviceAccountVertexType, attrs) case leaseResource: return r.authorizeLease(nodeName, attrs) case csiNodeResource: return r.authorizeCSINode(nodeName, attrs) case resourceSlice: return r.authorizeResourceSlice(nodeName, attrs) } } // Access to other resources is not subdivided, so just evaluate against the statically defined node rules if rbac.RulesAllow(attrs, r.nodeRules...) { return authorizer.DecisionAllow, "", nil } return authorizer.DecisionNoOpinion, "", nil } // authorizeStatusUpdate authorizes get/update/patch requests to status subresources of the specified type if they are related to the specified node func (r *NodeAuthorizer) authorizeStatusUpdate(nodeName string, startingType vertexType, attrs authorizer.Attributes) (authorizer.Decision, string, error) { switch attrs.GetVerb() { case "update", "patch": // ok default: klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "can only get/update/patch this type", nil } if attrs.GetSubresource() != "status" { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "can only update status subresource", nil } return r.authorize(nodeName, startingType, attrs) } // authorizeGet authorizes "get" requests to objects of the specified type if they are related to the specified node func (r *NodeAuthorizer) authorizeGet(nodeName string, startingType vertexType, attrs authorizer.Attributes) (authorizer.Decision, string, error) { if attrs.GetVerb() != "get" { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "can only get individual resources of this type", nil } if len(attrs.GetSubresource()) > 0 { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "cannot get subresource", nil } return r.authorize(nodeName, startingType, attrs) } // authorizeReadNamespacedObject authorizes "get", "list" and "watch" requests to single objects of a // specified types if they are related to the specified node. func (r *NodeAuthorizer) authorizeReadNamespacedObject(nodeName string, startingType vertexType, attrs authorizer.Attributes) (authorizer.Decision, string, error) { switch attrs.GetVerb() { case "get", "list", "watch": //ok default: klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "can only read resources of this type", nil } if len(attrs.GetSubresource()) > 0 { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "cannot read subresource", nil } if len(attrs.GetNamespace()) == 0 { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "can only read namespaced object of this type", nil } return r.authorize(nodeName, startingType, attrs) } func (r *NodeAuthorizer) authorize(nodeName string, startingType vertexType, attrs authorizer.Attributes) (authorizer.Decision, string, error) { if len(attrs.GetName()) == 0 { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "No Object name found", nil } ok, err := r.hasPathFrom(nodeName, startingType, attrs.GetNamespace(), attrs.GetName()) if err != nil { klog.V(2).InfoS("NODE DENY", "err", err) return authorizer.DecisionNoOpinion, fmt.Sprintf("no relationship found between node '%s' and this object", nodeName), nil } if !ok { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, fmt.Sprintf("no relationship found between node '%s' and this object", nodeName), nil } return authorizer.DecisionAllow, "", nil } // authorizeCreateToken authorizes "create" requests to serviceaccounts 'token' // subresource of pods running on a node func (r *NodeAuthorizer) authorizeCreateToken(nodeName string, startingType vertexType, attrs authorizer.Attributes) (authorizer.Decision, string, error) { if attrs.GetVerb() != "create" || len(attrs.GetName()) == 0 { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "can only create tokens for individual service accounts", nil } if attrs.GetSubresource() != "token" { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "can only create token subresource of serviceaccount", nil } ok, err := r.hasPathFrom(nodeName, startingType, attrs.GetNamespace(), attrs.GetName()) if err != nil { klog.V(2).Infof("NODE DENY: %v", err) return authorizer.DecisionNoOpinion, fmt.Sprintf("no relationship found between node '%s' and this object", nodeName), nil } if !ok { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, fmt.Sprintf("no relationship found between node '%s' and this object", nodeName), nil } return authorizer.DecisionAllow, "", nil } // authorizeLease authorizes node requests to coordination.k8s.io/leases. func (r *NodeAuthorizer) authorizeLease(nodeName string, attrs authorizer.Attributes) (authorizer.Decision, string, error) { // allowed verbs: get, create, update, patch, delete verb := attrs.GetVerb() switch verb { case "get", "create", "update", "patch", "delete": //ok default: klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "can only get, create, update, patch, or delete a node lease", nil } // the request must be against the system namespace reserved for node leases if attrs.GetNamespace() != api.NamespaceNodeLease { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, fmt.Sprintf("can only access leases in the %q system namespace", api.NamespaceNodeLease), nil } // the request must come from a node with the same name as the lease // note we skip this check for create, since the authorizer doesn't know the name on create // the noderestriction admission plugin is capable of performing this check at create time if verb != "create" && attrs.GetName() != nodeName { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "can only access node lease with the same name as the requesting node", nil } return authorizer.DecisionAllow, "", nil } // authorizeCSINode authorizes node requests to CSINode storage.k8s.io/csinodes func (r *NodeAuthorizer) authorizeCSINode(nodeName string, attrs authorizer.Attributes) (authorizer.Decision, string, error) { // allowed verbs: get, create, update, patch, delete verb := attrs.GetVerb() switch verb { case "get", "create", "update", "patch", "delete": //ok default: klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "can only get, create, update, patch, or delete a CSINode", nil } if len(attrs.GetSubresource()) > 0 { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "cannot authorize CSINode subresources", nil } // the request must come from a node with the same name as the CSINode // note we skip this check for create, since the authorizer doesn't know the name on create // the noderestriction admission plugin is capable of performing this check at create time if verb != "create" && attrs.GetName() != nodeName { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "can only access CSINode with the same name as the requesting node", nil } return authorizer.DecisionAllow, "", nil } // authorizeResourceSlice authorizes node requests to ResourceSlice resource.k8s.io/resourceslices func (r *NodeAuthorizer) authorizeResourceSlice(nodeName string, attrs authorizer.Attributes) (authorizer.Decision, string, error) { if len(attrs.GetSubresource()) > 0 { klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "cannot authorize ResourceSlice subresources", nil } // allowed verbs: get, create, update, patch, delete verb := attrs.GetVerb() switch verb { case "get", "create", "update", "patch", "delete": // Okay, but check individual object permission below. case "watch", "list": // Okay. The kubelet is trusted to use a filter for its own objects. return authorizer.DecisionAllow, "", nil default: klog.V(2).Infof("NODE DENY: '%s' %#v", nodeName, attrs) return authorizer.DecisionNoOpinion, "can only get, create, update, patch, or delete a ResourceSlice", nil } // The request must come from a node with the same name as the ResourceSlice.NodeName field. // // For create, the noderestriction admission plugin is performing this check. // Here we don't have access to the content of the new object. if verb == "create" { return authorizer.DecisionAllow, "", nil } // For any other verb, checking the existing object must have established that access // is allowed by recording a graph edge. return r.authorize(nodeName, sliceVertexType, attrs) } // hasPathFrom returns true if there is a directed path from the specified type/namespace/name to the specified Node func (r *NodeAuthorizer) hasPathFrom(nodeName string, startingType vertexType, startingNamespace, startingName string) (bool, error) { r.graph.lock.RLock() defer r.graph.lock.RUnlock() nodeVertex, exists := r.graph.getVertex_rlocked(nodeVertexType, "", nodeName) if !exists { return false, fmt.Errorf("unknown node '%s' cannot get %s %s/%s", nodeName, vertexTypes[startingType], startingNamespace, startingName) } startingVertex, exists := r.graph.getVertex_rlocked(startingType, startingNamespace, startingName) if !exists { return false, fmt.Errorf("node '%s' cannot get unknown %s %s/%s", nodeName, vertexTypes[startingType], startingNamespace, startingName) } // Fast check to see if we know of a destination edge if r.graph.destinationEdgeIndex[startingVertex.ID()].has(nodeVertex.ID()) { return true, nil } found := false traversal := &traverse.VisitingDepthFirst{ EdgeFilter: func(edge graph.Edge) bool { if destinationEdge, ok := edge.(*destinationEdge); ok { if destinationEdge.DestinationID() != nodeVertex.ID() { // Don't follow edges leading to other nodes return false } // We found an edge leading to the node we want found = true } // Visit this edge return true }, } traversal.Walk(r.graph.graph, startingVertex, func(n graph.Node) bool { if n.ID() == nodeVertex.ID() { // We found the node we want found = true } // Stop visiting if we've found the node we want return found }) if !found { return false, fmt.Errorf("node '%s' cannot get %s %s/%s, no relationship to this object was found in the node authorizer graph", nodeName, vertexTypes[startingType], startingNamespace, startingName) } return true, nil }