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policy.go
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policy.go
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/*
Copyright 2016 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 bootstrappolicy
import (
"k8s.io/apimachinery/pkg/api/meta"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apiserver/pkg/authentication/user"
rbac "k8s.io/kubernetes/pkg/apis/rbac"
)
var (
ReadWrite = []string{"get", "list", "watch", "create", "update", "patch", "delete", "deletecollection"}
Read = []string{"get", "list", "watch"}
Label = map[string]string{"kubernetes.io/bootstrapping": "rbac-defaults"}
Annotation = map[string]string{rbac.AutoUpdateAnnotationKey: "true"}
)
const (
legacyGroup = ""
appsGroup = "apps"
authenticationGroup = "authentication.k8s.io"
authorizationGroup = "authorization.k8s.io"
autoscalingGroup = "autoscaling"
batchGroup = "batch"
certificatesGroup = "certificates.k8s.io"
extensionsGroup = "extensions"
policyGroup = "policy"
rbacGroup = "rbac.authorization.k8s.io"
storageGroup = "storage.k8s.io"
)
func addDefaultMetadata(obj runtime.Object) {
metadata, err := meta.Accessor(obj)
if err != nil {
// if this happens, then some static code is broken
panic(err)
}
labels := metadata.GetLabels()
if labels == nil {
labels = map[string]string{}
}
for k, v := range Label {
labels[k] = v
}
metadata.SetLabels(labels)
annotations := metadata.GetAnnotations()
if annotations == nil {
annotations = map[string]string{}
}
for k, v := range Annotation {
annotations[k] = v
}
metadata.SetAnnotations(annotations)
}
func addClusterRoleLabel(roles []rbac.ClusterRole) {
for i := range roles {
addDefaultMetadata(&roles[i])
}
return
}
func addClusterRoleBindingLabel(rolebindings []rbac.ClusterRoleBinding) {
for i := range rolebindings {
addDefaultMetadata(&rolebindings[i])
}
return
}
func NodeRules() []rbac.PolicyRule {
return []rbac.PolicyRule{
// Needed to check API access. These creates are non-mutating
rbac.NewRule("create").Groups(authenticationGroup).Resources("tokenreviews").RuleOrDie(),
rbac.NewRule("create").Groups(authorizationGroup).Resources("subjectaccessreviews", "localsubjectaccessreviews").RuleOrDie(),
// Needed to build serviceLister, to populate env vars for services
rbac.NewRule(Read...).Groups(legacyGroup).Resources("services").RuleOrDie(),
// Nodes can register Node API objects and report status.
// Use the NodeRestriction admission plugin to limit a node to creating/updating its own API object.
rbac.NewRule("create", "get", "list", "watch").Groups(legacyGroup).Resources("nodes").RuleOrDie(),
rbac.NewRule("update", "patch").Groups(legacyGroup).Resources("nodes/status").RuleOrDie(),
rbac.NewRule("update", "patch", "delete").Groups(legacyGroup).Resources("nodes").RuleOrDie(),
// TODO: restrict to the bound node as creator in the NodeRestrictions admission plugin
rbac.NewRule("create", "update", "patch").Groups(legacyGroup).Resources("events").RuleOrDie(),
// TODO: restrict to pods scheduled on the bound node once field selectors are supported by list/watch authorization
rbac.NewRule(Read...).Groups(legacyGroup).Resources("pods").RuleOrDie(),
// Needed for the node to create/delete mirror pods.
// Use the NodeRestriction admission plugin to limit a node to creating/deleting mirror pods bound to itself.
rbac.NewRule("create", "delete").Groups(legacyGroup).Resources("pods").RuleOrDie(),
// Needed for the node to report status of pods it is running.
// Use the NodeRestriction admission plugin to limit a node to updating status of pods bound to itself.
rbac.NewRule("update").Groups(legacyGroup).Resources("pods/status").RuleOrDie(),
// Needed for the node to create pod evictions.
// Use the NodeRestriction admission plugin to limit a node to creating evictions for pods bound to itself.
rbac.NewRule("create").Groups(legacyGroup).Resources("pods/eviction").RuleOrDie(),
// Needed for imagepullsecrets, rbd/ceph and secret volumes, and secrets in envs
// Needed for configmap volume and envs
// Use the NodeRestriction admission plugin to limit a node to get secrets/configmaps referenced by pods bound to itself.
rbac.NewRule("get").Groups(legacyGroup).Resources("secrets", "configmaps").RuleOrDie(),
// Needed for persistent volumes
// Use the NodeRestriction admission plugin to limit a node to get pv/pvc objects referenced by pods bound to itself.
rbac.NewRule("get").Groups(legacyGroup).Resources("persistentvolumeclaims", "persistentvolumes").RuleOrDie(),
// TODO: add to the Node authorizer and restrict to endpoints referenced by pods or PVs bound to the node
// Needed for glusterfs volumes
rbac.NewRule("get").Groups(legacyGroup).Resources("endpoints").RuleOrDie(),
// Used to create a certificatesigningrequest for a node-specific client certificate, and watch
// for it to be signed. This allows the kubelet to rotate it's own certificate.
rbac.NewRule("create", "get", "list", "watch").Groups(certificatesGroup).Resources("certificatesigningrequests").RuleOrDie(),
}
}
// ClusterRoles returns the cluster roles to bootstrap an API server with
func ClusterRoles() []rbac.ClusterRole {
roles := []rbac.ClusterRole{
{
// a "root" role which can do absolutely anything
ObjectMeta: metav1.ObjectMeta{Name: "cluster-admin"},
Rules: []rbac.PolicyRule{
rbac.NewRule("*").Groups("*").Resources("*").RuleOrDie(),
rbac.NewRule("*").URLs("*").RuleOrDie(),
},
},
{
// a role which provides just enough power to determine if the server is ready and discover API versions for negotiation
ObjectMeta: metav1.ObjectMeta{Name: "system:discovery"},
Rules: []rbac.PolicyRule{
rbac.NewRule("get").URLs("/healthz", "/version", "/swaggerapi", "/swaggerapi/*", "/api", "/api/*", "/apis", "/apis/*").RuleOrDie(),
},
},
{
// a role which provides minimal resource access to allow a "normal" user to learn information about themselves
ObjectMeta: metav1.ObjectMeta{Name: "system:basic-user"},
Rules: []rbac.PolicyRule{
// TODO add future selfsubjectrulesreview, project request APIs, project listing APIs
rbac.NewRule("create").Groups(authorizationGroup).Resources("selfsubjectaccessreviews").RuleOrDie(),
},
},
{
// a role for a namespace level admin. It is `edit` plus the power to grant permissions to other users.
ObjectMeta: metav1.ObjectMeta{Name: "admin"},
Rules: []rbac.PolicyRule{
rbac.NewRule(ReadWrite...).Groups(legacyGroup).Resources("pods", "pods/attach", "pods/proxy", "pods/exec", "pods/portforward").RuleOrDie(),
rbac.NewRule(ReadWrite...).Groups(legacyGroup).Resources("replicationcontrollers", "replicationcontrollers/scale", "serviceaccounts",
"services", "services/proxy", "endpoints", "persistentvolumeclaims", "configmaps", "secrets").RuleOrDie(),
rbac.NewRule(Read...).Groups(legacyGroup).Resources("limitranges", "resourcequotas", "bindings", "events",
"pods/status", "resourcequotas/status", "namespaces/status", "replicationcontrollers/status", "pods/log").RuleOrDie(),
// read access to namespaces at the namespace scope means you can read *this* namespace. This can be used as an
// indicator of which namespaces you have access to.
rbac.NewRule(Read...).Groups(legacyGroup).Resources("namespaces").RuleOrDie(),
rbac.NewRule("impersonate").Groups(legacyGroup).Resources("serviceaccounts").RuleOrDie(),
rbac.NewRule(ReadWrite...).Groups(appsGroup).Resources("statefulsets",
"deployments", "deployments/scale", "deployments/rollback").RuleOrDie(),
rbac.NewRule(ReadWrite...).Groups(autoscalingGroup).Resources("horizontalpodautoscalers").RuleOrDie(),
rbac.NewRule(ReadWrite...).Groups(batchGroup).Resources("jobs", "cronjobs", "scheduledjobs").RuleOrDie(),
rbac.NewRule(ReadWrite...).Groups(extensionsGroup).Resources("daemonsets",
"deployments", "deployments/scale", "deployments/rollback", "ingresses",
"replicasets", "replicasets/scale", "replicationcontrollers/scale").RuleOrDie(),
// additional admin powers
rbac.NewRule("create").Groups(authorizationGroup).Resources("localsubjectaccessreviews").RuleOrDie(),
rbac.NewRule(ReadWrite...).Groups(rbacGroup).Resources("roles", "rolebindings").RuleOrDie(),
},
},
{
// a role for a namespace level editor. It grants access to all user level actions in a namespace.
// It does not grant powers for "privileged" resources which are domain of the system: `/status`
// subresources or `quota`/`limits` which are used to control namespaces
ObjectMeta: metav1.ObjectMeta{Name: "edit"},
Rules: []rbac.PolicyRule{
rbac.NewRule(ReadWrite...).Groups(legacyGroup).Resources("pods", "pods/attach", "pods/proxy", "pods/exec", "pods/portforward").RuleOrDie(),
rbac.NewRule(ReadWrite...).Groups(legacyGroup).Resources("replicationcontrollers", "replicationcontrollers/scale", "serviceaccounts",
"services", "services/proxy", "endpoints", "persistentvolumeclaims", "configmaps", "secrets").RuleOrDie(),
rbac.NewRule(Read...).Groups(legacyGroup).Resources("limitranges", "resourcequotas", "bindings", "events",
"pods/status", "resourcequotas/status", "namespaces/status", "replicationcontrollers/status", "pods/log").RuleOrDie(),
// read access to namespaces at the namespace scope means you can read *this* namespace. This can be used as an
// indicator of which namespaces you have access to.
rbac.NewRule(Read...).Groups(legacyGroup).Resources("namespaces").RuleOrDie(),
rbac.NewRule("impersonate").Groups(legacyGroup).Resources("serviceaccounts").RuleOrDie(),
rbac.NewRule(ReadWrite...).Groups(appsGroup).Resources("statefulsets",
"deployments", "deployments/scale", "deployments/rollback").RuleOrDie(),
rbac.NewRule(ReadWrite...).Groups(autoscalingGroup).Resources("horizontalpodautoscalers").RuleOrDie(),
rbac.NewRule(ReadWrite...).Groups(batchGroup).Resources("jobs", "cronjobs", "scheduledjobs").RuleOrDie(),
rbac.NewRule(ReadWrite...).Groups(extensionsGroup).Resources("daemonsets",
"deployments", "deployments/scale", "deployments/rollback", "ingresses",
"replicasets", "replicasets/scale", "replicationcontrollers/scale").RuleOrDie(),
},
},
{
// a role for namespace level viewing. It grants Read-only access to non-escalating resources in
// a namespace.
ObjectMeta: metav1.ObjectMeta{Name: "view"},
Rules: []rbac.PolicyRule{
rbac.NewRule(Read...).Groups(legacyGroup).Resources("pods", "replicationcontrollers", "replicationcontrollers/scale", "serviceaccounts",
"services", "endpoints", "persistentvolumeclaims", "configmaps").RuleOrDie(),
rbac.NewRule(Read...).Groups(legacyGroup).Resources("limitranges", "resourcequotas", "bindings", "events",
"pods/status", "resourcequotas/status", "namespaces/status", "replicationcontrollers/status", "pods/log").RuleOrDie(),
// read access to namespaces at the namespace scope means you can read *this* namespace. This can be used as an
// indicator of which namespaces you have access to.
rbac.NewRule(Read...).Groups(legacyGroup).Resources("namespaces").RuleOrDie(),
rbac.NewRule(Read...).Groups(appsGroup).Resources("statefulsets", "deployments", "deployments/scale").RuleOrDie(),
rbac.NewRule(Read...).Groups(autoscalingGroup).Resources("horizontalpodautoscalers").RuleOrDie(),
rbac.NewRule(Read...).Groups(batchGroup).Resources("jobs", "cronjobs", "scheduledjobs").RuleOrDie(),
rbac.NewRule(Read...).Groups(extensionsGroup).Resources("daemonsets", "deployments", "deployments/scale",
"ingresses", "replicasets", "replicasets/scale", "replicationcontrollers/scale").RuleOrDie(),
},
},
{
// a role to use for heapster's connections back to the API server
ObjectMeta: metav1.ObjectMeta{Name: "system:heapster"},
Rules: []rbac.PolicyRule{
rbac.NewRule(Read...).Groups(legacyGroup).Resources("events", "pods", "nodes", "namespaces").RuleOrDie(),
},
},
{
// a role for nodes to use to have the access they need for running pods
ObjectMeta: metav1.ObjectMeta{Name: "system:node"},
Rules: NodeRules(),
},
{
// a role to use for node-problem-detector access. It does not get bound to default location since
// deployment locations can reasonably vary.
ObjectMeta: metav1.ObjectMeta{Name: "system:node-problem-detector"},
Rules: []rbac.PolicyRule{
rbac.NewRule("get").Groups(legacyGroup).Resources("nodes").RuleOrDie(),
rbac.NewRule("patch").Groups(legacyGroup).Resources("nodes/status").RuleOrDie(),
eventsRule(),
},
},
{
// a role to use for setting up a proxy
ObjectMeta: metav1.ObjectMeta{Name: "system:node-proxier"},
Rules: []rbac.PolicyRule{
// Used to build serviceLister
rbac.NewRule("list", "watch").Groups(legacyGroup).Resources("services", "endpoints").RuleOrDie(),
rbac.NewRule("get").Groups(legacyGroup).Resources("nodes").RuleOrDie(),
eventsRule(),
},
},
{
// a role to use for bootstrapping a node's client certificates
ObjectMeta: metav1.ObjectMeta{Name: "system:node-bootstrapper"},
Rules: []rbac.PolicyRule{
// used to create a certificatesigningrequest for a node-specific client certificate, and watch for it to be signed
rbac.NewRule("create", "get", "list", "watch").Groups(certificatesGroup).Resources("certificatesigningrequests").RuleOrDie(),
},
},
{
// a role to use for allowing authentication and authorization delegation
ObjectMeta: metav1.ObjectMeta{Name: "system:auth-delegator"},
Rules: []rbac.PolicyRule{
// These creates are non-mutating
rbac.NewRule("create").Groups(authenticationGroup).Resources("tokenreviews").RuleOrDie(),
rbac.NewRule("create").Groups(authorizationGroup).Resources("subjectaccessreviews").RuleOrDie(),
},
},
{
// a role to use for the API registry, summarization, and proxy handling
ObjectMeta: metav1.ObjectMeta{Name: "system:kube-aggregator"},
Rules: []rbac.PolicyRule{
// it needs to see all services so that it knows whether the ones it points to exist or not
rbac.NewRule(Read...).Groups(legacyGroup).Resources("services", "endpoints").RuleOrDie(),
},
},
{
// a role to use for bootstrapping the kube-controller-manager so it can create the shared informers
// service accounts, and secrets that we need to create separate identities for other controllers
ObjectMeta: metav1.ObjectMeta{Name: "system:kube-controller-manager"},
Rules: []rbac.PolicyRule{
eventsRule(),
rbac.NewRule("create").Groups(legacyGroup).Resources("endpoints", "secrets", "serviceaccounts").RuleOrDie(),
rbac.NewRule("delete").Groups(legacyGroup).Resources("secrets").RuleOrDie(),
rbac.NewRule("get").Groups(legacyGroup).Resources("endpoints", "namespaces", "secrets", "serviceaccounts").RuleOrDie(),
rbac.NewRule("update").Groups(legacyGroup).Resources("endpoints", "secrets", "serviceaccounts").RuleOrDie(),
// Needed to check API access. These creates are non-mutating
rbac.NewRule("create").Groups(authenticationGroup).Resources("tokenreviews").RuleOrDie(),
// Needed for all shared informers
rbac.NewRule("list", "watch").Groups("*").Resources("*").RuleOrDie(),
},
},
{
// a role to use for the kube-scheduler
ObjectMeta: metav1.ObjectMeta{Name: "system:kube-scheduler"},
Rules: []rbac.PolicyRule{
eventsRule(),
// this is for leaderlease access
// TODO: scope this to the kube-system namespace
rbac.NewRule("create").Groups(legacyGroup).Resources("endpoints").RuleOrDie(),
rbac.NewRule("get", "update", "patch", "delete").Groups(legacyGroup).Resources("endpoints").Names("kube-scheduler").RuleOrDie(),
// fundamental resources
rbac.NewRule(Read...).Groups(legacyGroup).Resources("nodes", "pods").RuleOrDie(),
rbac.NewRule("create").Groups(legacyGroup).Resources("pods/binding", "bindings").RuleOrDie(),
rbac.NewRule("update").Groups(legacyGroup).Resources("pods/status").RuleOrDie(),
// things that select pods
rbac.NewRule(Read...).Groups(legacyGroup).Resources("services", "replicationcontrollers").RuleOrDie(),
rbac.NewRule(Read...).Groups(extensionsGroup).Resources("replicasets").RuleOrDie(),
rbac.NewRule(Read...).Groups(appsGroup).Resources("statefulsets").RuleOrDie(),
// things that pods use
rbac.NewRule(Read...).Groups(legacyGroup).Resources("persistentvolumeclaims", "persistentvolumes").RuleOrDie(),
},
},
{
// a role to use for the kube-dns pod
ObjectMeta: metav1.ObjectMeta{Name: "system:kube-dns"},
Rules: []rbac.PolicyRule{
rbac.NewRule("list", "watch").Groups(legacyGroup).Resources("endpoints", "services").RuleOrDie(),
},
},
{
// a role for an external/out-of-tree persistent volume provisioner
ObjectMeta: metav1.ObjectMeta{Name: "system:persistent-volume-provisioner"},
Rules: []rbac.PolicyRule{
rbac.NewRule("get", "list", "watch", "create", "delete").Groups(legacyGroup).Resources("persistentvolumes").RuleOrDie(),
// update is needed in addition to read access for setting lock annotations on PVCs
rbac.NewRule("get", "list", "watch", "update").Groups(legacyGroup).Resources("persistentvolumeclaims").RuleOrDie(),
rbac.NewRule(Read...).Groups(storageGroup).Resources("storageclasses").RuleOrDie(),
// Needed for watching provisioning success and failure events
rbac.NewRule("watch").Groups(legacyGroup).Resources("events").RuleOrDie(),
eventsRule(),
},
},
}
addClusterRoleLabel(roles)
return roles
}
// ClusterRoleBindingFilter can modify and return or omit (by returning nil) a role binding
type ClusterRoleBindingFilter func(*rbac.ClusterRoleBinding) *rbac.ClusterRoleBinding
// AddClusterRoleBindingFilter adds the given filter to the list that is invoked when determing bootstrap roles to reconcile.
func AddClusterRoleBindingFilter(filter ClusterRoleBindingFilter) {
clusterRoleBindingFilters = append(clusterRoleBindingFilters, filter)
}
// ClearClusterRoleBindingFilters removes any filters added using AddClusterRoleBindingFilter
func ClearClusterRoleBindingFilters() {
clusterRoleBindingFilters = nil
}
const systemNodeRoleName = "system:node"
var clusterRoleBindingFilters []ClusterRoleBindingFilter
// OmitNodesGroupBinding is a filter that omits the deprecated binding for the system:nodes group to the system:node role.
var OmitNodesGroupBinding = ClusterRoleBindingFilter(func(binding *rbac.ClusterRoleBinding) *rbac.ClusterRoleBinding {
if binding.RoleRef.Name == systemNodeRoleName {
subjects := []rbac.Subject{}
for _, subject := range binding.Subjects {
if subject.Kind == rbac.GroupKind && subject.Name == user.NodesGroup {
continue
}
subjects = append(subjects, subject)
}
binding.Subjects = subjects
}
return binding
})
// ClusterRoleBindings return default rolebindings to the default roles
func ClusterRoleBindings() []rbac.ClusterRoleBinding {
rolebindings := []rbac.ClusterRoleBinding{
rbac.NewClusterBinding("cluster-admin").Groups(user.SystemPrivilegedGroup).BindingOrDie(),
rbac.NewClusterBinding("system:discovery").Groups(user.AllAuthenticated, user.AllUnauthenticated).BindingOrDie(),
rbac.NewClusterBinding("system:basic-user").Groups(user.AllAuthenticated, user.AllUnauthenticated).BindingOrDie(),
rbac.NewClusterBinding("system:node-proxier").Users(user.KubeProxy).BindingOrDie(),
rbac.NewClusterBinding("system:kube-controller-manager").Users(user.KubeControllerManager).BindingOrDie(),
rbac.NewClusterBinding("system:kube-dns").SAs("kube-system", "kube-dns").BindingOrDie(),
rbac.NewClusterBinding("system:kube-scheduler").Users(user.KubeScheduler).BindingOrDie(),
// This default system:nodes binding is deprecated in 1.7 with the availability of the Node authorizer.
// If an admin wants to grant the system:node role (which cannot partition Node API access), they will need to create their own clusterrolebinding.
// TODO: Remove the subjects from this binding in 1.8 (leave the empty binding for tightening reconciliation), and remove AddClusterRoleBindingFilter()
rbac.NewClusterBinding(systemNodeRoleName).Groups(user.NodesGroup).BindingOrDie(),
}
addClusterRoleBindingLabel(rolebindings)
retval := []rbac.ClusterRoleBinding{}
for i := range rolebindings {
binding := &rolebindings[i]
for _, filter := range clusterRoleBindingFilters {
binding = filter(binding)
if binding == nil {
break
}
}
if binding != nil {
retval = append(retval, *binding)
}
}
return retval
}