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Allowing non-cluster administrators to install Operators - Administrator tasks | Operators | OKD 4
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Understanding Operator installation policy

Operators can require wide privileges to run, and the required privileges can change between versions. Operator Lifecycle Manager (OLM) runs with cluster-admin privileges. By default, Operator authors can specify any set of permissions in the cluster service version (CSV), and OLM consequently grants it to the Operator.

To ensure that an Operator cannot achieve cluster-scoped privileges and that users cannot escalate privileges using OLM, Cluster administrators can manually audit Operators before they are added to the cluster. Cluster administrators are also provided tools for determining and constraining which actions are allowed during an Operator installation or upgrade using service accounts.

Cluster administrators can associate an Operator group with a service account that has a set of privileges granted to it. The service account sets policy on Operators to ensure they only run within predetermined boundaries by using role-based access control (RBAC) rules. As a result, the Operator is unable to do anything that is not explicitly permitted by those rules.

By employing Operator groups, users with enough privileges can install Operators with a limited scope. As a result, more of the Operator Framework tools can safely be made available to more users, providing a richer experience for building applications with Operators.

Role-based access control (RBAC) for Subscription objects is automatically granted to every user with the edit or admin role in a namespace. However, RBAC does not exist on OperatorGroup objects; this absence is what prevents regular users from installing Operators. Preinstalling Operator groups is effectively what gives installation privileges.

Keep the following points in mind when associating an Operator group with a service account:

  • The APIservice and CustomResourceDefinition resources are always created by OLM using the cluster-admin role. A service account associated with an Operator group should never be granted privileges to write these resources.

  • Any Operator tied to this Operator group is now confined to the permissions granted to the specified service account. If the Operator asks for permissions that are outside the scope of the service account, the install fails with appropriate errors so the cluster administrator can troubleshoot and resolve the issue.

Installation scenarios

When determining whether an Operator can be installed or upgraded on a cluster, Operator Lifecycle Manager (OLM) considers the following scenarios:

  • A cluster administrator creates a new Operator group and specifies a service account. All Operator(s) associated with this Operator group are installed and run against the privileges granted to the service account.

  • A cluster administrator creates a new Operator group and does not specify any service account. OKD maintains backward compatibility, so the default behavior remains and Operator installs and upgrades are permitted.

  • For existing Operator groups that do not specify a service account, the default behavior remains and Operator installs and upgrades are permitted.

  • A cluster administrator updates an existing Operator group and specifies a service account. OLM allows the existing Operator to continue to run with their current privileges. When such an existing Operator is going through an upgrade, it is reinstalled and run against the privileges granted to the service account like any new Operator.

  • A service account specified by an Operator group changes by adding or removing permissions, or the existing service account is swapped with a new one. When existing Operators go through an upgrade, it is reinstalled and run against the privileges granted to the updated service account like any new Operator.

  • A cluster administrator removes the service account from an Operator group. The default behavior remains and Operator installs and upgrades are permitted.

Installation workflow

When an Operator group is tied to a service account and an Operator is installed or upgraded, Operator Lifecycle Manager (OLM) uses the following workflow:

  1. The given Subscription object is picked up by OLM.

  2. OLM fetches the Operator group tied to this subscription.

  3. OLM determines that the Operator group has a service account specified.

  4. OLM creates a client scoped to the service account and uses the scoped client to install the Operator. This ensures that any permission requested by the Operator is always confined to that of the service account in the Operator group.

  5. OLM creates a new service account with the set of permissions specified in the CSV and assigns it to the Operator. The Operator runs as the assigned service account.

Scoping Operator installations

To provide scoping rules to Operator installations and upgrades on Operator Lifecycle Manager (OLM), associate a service account with an Operator group.

Using this example, a cluster administrator can confine a set of Operators to a designated namespace.

Prerequisites
  • You have access to the cluster as a user with the cluster-admin role.

  • You have installed the OpenShift CLI (oc).

Procedure
  1. Create a new namespace:

    Example command that creates a Namespace object
    $ cat <<EOF | oc create -f -
    apiVersion: v1
    kind: Namespace
    metadata:
      name: scoped
    EOF
  2. Allocate permissions that you want the Operator(s) to be confined to. This involves creating a new service account, relevant role(s), and role binding(s) in the newly created, designated namespace:

    1. Create a service account by running the following command:

      Example command that creates a serviceAccount object
      $ cat <<EOF | oc create -f -
      apiVersion: v1
      kind: serviceAccount
      metadata:
        name: scoped
        namespace: scoped
      EOF
    2. Create a secret by running the following command:

      Example command that creates a long-lived API token Secret object
      $ cat <<EOF | oc create -f -
      apiVersion: v1
      kind: Secret
      type: kubernetes.io/service-account-token (1)
      metadata:
        name: scoped
        namespace: scoped
        annotations:
          kubernetes.io/service-account.name: scoped
      EOF
      1 The secret must be a long-lived API token, which is used by the service account.
    3. Create a role by running the following command.

      In this example, the role grants the service account permissions to do anything in the designated namespace for demonostration purposes only. In a production environment, you should create a more fine-grained set of permissions. For more information, see "Fine-grained permissions".

      Example command that creates Role and RoleBinding objects
      $ cat <<EOF | oc create -f -
      apiVersion: rbac.authorization.k8s.io/v1
      kind: Role
      metadata:
        name: scoped
        namespace: scoped
      rules:
      - apiGroups: ["*"]
        resources: ["*"]
        verbs: ["*"]
      ---
      apiVersion: rbac.authorization.k8s.io/v1
      kind: RoleBinding
      metadata:
        name: scoped-bindings
        namespace: scoped
      roleRef:
        apiGroup: rbac.authorization.k8s.io
        kind: Role
        name: scoped
      subjects:
      - kind: serviceAccount
        name: scoped
        namespace: scoped
      EOF
  3. Create an OperatorGroup object in the designated namespace by running the following command. This Operator group targets the designated namespace to ensure that its tenancy is confined to it. In addition, Operator groups allow a user to specify a service account.

    Example command that creates an OperatorGroup object
    $ cat <<EOF | oc create -f -
    apiVersion: operators.coreos.com/v1
    kind: OperatorGroup
    metadata:
      name: scoped
      namespace: scoped
    spec:
      serviceAccountName: scoped (1)
      targetNamespaces:
      - scoped
    EOF
    1 Specify the service account created in the previous step. Any Operator installed in the designated namespace is tied to this Operator group and therefore to the service account specified.
  4. Create a Subscription object in the designated namespace to install an Operator:

    Example command that creates a Subscription object
    $ cat <<EOF | oc create -f -
    apiVersion: operators.coreos.com/v1alpha1
    kind: Subscription
    metadata:
      name: openshift-cert-manager-operator
      namespace: scoped
    spec:
      channel: stable-v1
      name: openshift-cert-manager-operator
      source: <catalog_source_name> (1)
      sourceNamespace: <catalog_source_namespace> (2)
    EOF
    1 Specify a catalog source that already exists in the designated namespace or one that is in the global catalog namespace, for example redhat-operators.
    2 Specify a namespace where the catalog source was created, for example openshift-marketplace for the redhat-operators catalog.

    Any Operator tied to this Operator group is confined to the permissions granted to the specified service account. If the Operator requests permissions that are outside the scope of the service account, the installation fails with relevant errors.

Fine-grained permissions

Operator Lifecycle Manager (OLM) uses the service account specified in an Operator group to create or update the following resources related to the Operator being installed:

  • ClusterserviceVersion

  • Subscription

  • Secret

  • serviceAccount

  • service

  • ClusterRole and ClusterRoleBinding

  • Role and RoleBinding

To confine Operators to a designated namespace, cluster administrators can start by granting the following permissions to the service account:

The following role is a generic example and additional rules might be required based on the specific Operator.

kind: Role
rules:
- apiGroups: ["operators.coreos.com"]
  resources: ["subscriptions", "clusterserviceversions"]
  verbs: ["get", "create", "update", "patch"]
- apiGroups: [""]
  resources: ["services", "serviceaccounts"]
  verbs: ["get", "create", "update", "patch"]
- apiGroups: ["rbac.authorization.k8s.io"]
  resources: ["roles", "rolebindings"]
  verbs: ["get", "create", "update", "patch"]
- apiGroups: ["apps"] (1)
  resources: ["deployments"]
  verbs: ["list", "watch", "get", "create", "update", "patch", "delete"]
- apiGroups: [""] (1)
  resources: ["pods"]
  verbs: ["list", "watch", "get", "create", "update", "patch", "delete"]
1 Add permissions to create other resources, such as deployments and pods shown here.

In addition, if any Operator specifies a pull secret, the following permissions must also be added:

kind: ClusterRole (1)
rules:
- apiGroups: [""]
  resources: ["secrets"]
  verbs: ["get"]
---
kind: Role
rules:
- apiGroups: [""]
  resources: ["secrets"]
  verbs: ["create", "update", "patch"]
1 Required to get the secret from the OLM namespace.

Operator catalog access control

When an Operator catalog is created in the global catalog namespace openshift-marketplace, the catalog’s Operators are made available cluster-wide to all namespaces. A catalog created in other namespaces only makes its Operators available in that same namespace of the catalog.

On clusters where non-cluster administrator users have been delegated Operator installation privileges, cluster administrators might want to further control or restrict the set of Operators those users are allowed to install. This can be achieved with the following actions:

  1. Disable all of the default global catalogs.

  2. Enable custom, curated catalogs in the same namespace where the relevant Operator groups have been preinstalled.

Troubleshooting permission failures

If an Operator installation fails due to lack of permissions, identify the errors using the following procedure.

Procedure
  1. Review the Subscription object. Its status has an object reference installPlanRef that points to the InstallPlan object that attempted to create the necessary [Cluster]Role[Binding] object(s) for the Operator:

    apiVersion: operators.coreos.com/v1
    kind: Subscription
    metadata:
      name: etcd
      namespace: scoped
    status:
      installPlanRef:
        apiVersion: operators.coreos.com/v1
        kind: InstallPlan
        name: install-4plp8
        namespace: scoped
        resourceVersion: "117359"
        uid: 2c1df80e-afea-11e9-bce3-5254009c9c23
  2. Check the status of the InstallPlan object for any errors:

    apiVersion: operators.coreos.com/v1
    kind: InstallPlan
    status:
      conditions:
      - lastTransitionTime: "2019-07-26T21:13:10Z"
        lastUpdateTime: "2019-07-26T21:13:10Z"
        message: 'error creating clusterrole etcdoperator.v0.9.4-clusterwide-dsfx4: clusterroles.rbac.authorization.k8s.io
          is forbidden: User "system:serviceaccount:scoped:scoped" cannot create resource
          "clusterroles" in API group "rbac.authorization.k8s.io" at the cluster scope'
        reason: InstallComponentFailed
        status: "False"
        type: Installed
      phase: Failed

    The error message tells you:

    • The type of resource it failed to create, including the API group of the resource. In this case, it was clusterroles in the rbac.authorization.k8s.io group.

    • The name of the resource.

    • The type of error: is forbidden tells you that the user does not have enough permission to do the operation.

    • The name of the user who attempted to create or update the resource. In this case, it refers to the service account specified in the Operator group.

    • The scope of the operation: cluster scope or not.

      The user can add the missing permission to the service account and then iterate.

      Operator Lifecycle Manager (OLM) does not currently provide the complete list of errors on the first try.