This document describes the Kubernetes Role-Based Access Control (RBAC) roles that an operator installation Helm chart automatically creates for you.
The general design goal of the operator installation is to automatically provide the operator with the minimum amount of permissions that the operator requires and to favor built-in roles over custom roles where it makes sense to use the Kubernetes built-in roles.
The operator installation Helm chart automatically creates
RBAC ClusterRoles, ClusterRoleBindings, Roles, and RoleBindings
for the ServiceAccount
that is used by the operator.
A running operator assumes that these roles are created in the
Kubernetes cluster and will automatically attempt to verify that
they are correct when it starts.
Note that the operator installation Helm chart
creates ClusterRoles and ClusterRoleBindings
when the enableClusterRoleBinding Helm chart configuration setting
is set to true
, and the chart creates Roles and RoleBindings
when the setting is set to false
(the default).
References
For more information about:
enableClusterRoleBinding
operator Helm chart setting, see
Choose a security strategy.ServiceAccount
used by the operator, see
Service accounts.To display the Kubernetes Roles and related Bindings used by
the operator, where the operator was installed using the
Helm release name weblogic-operator
, look for the Kubernetes objects, Role
, RoleBinding
,
ClusterRole
, and ClusterRoleBinding
, when using the Helm status
command:
$ helm status weblogic-operator
Assuming the operator was installed into the namespace weblogic-operator-ns
with a target namespaces of domain1-ns
, the following
commands can be used to display a subset of the Kubernetes Roles and
related RoleBindings:
$ kubectl describe clusterrole \
weblogic-operator-ns-weblogic-operator-clusterrole-general
$ kubectl describe clusterrolebinding \
weblogic-operator-ns-weblogic-operator-clusterrolebinding-general
$ kubectl -n weblogic-operator-ns \
describe role weblogic-operator-role
$ kubectl -n domain1-ns \
describe rolebinding weblogic-operator-rolebinding-namespace
The following naming pattern is used for the Role
and RoleBinding
objects:
<type>
-<optional-role-name>
Using:
<type>
as the kind of Kubernetes object:
<optional-role-name>
as an optional name given to the Role or RoleBinding
namespace
A complete name for an operator created Kubernetes RoleBinding
would be:
weblogic-operator-rolebinding-namespace
The following naming pattern is used for the ClusterRole
and ClusterRoleBinding
objects:
<operator-ns>
-weblogic-operator-<type>
-<role-name>
Using:
<operator-ns>
as the namespace in which the operator is installed
weblogic-operator-ns
<type>
as the kind of Kubernetes object:
<role-name>
as the name given to the Role or RoleBinding
general
A complete name for an operator created Kubernetes ClusterRoleBinding
would be:
weblogic-operator-ns-weblogic-operator-clusterrolebinding-general
Assuming that the operator was installed into the Kubernetes Namespace weblogic-operator-ns
,
and a target namespace for the operator is domain1-ns
, the following RoleBinding
entries are mapped
to a Role
or ClusterRole
granting permission to the operator.
RoleBinding | Mapped to Role | Resource Access | Notes |
---|---|---|---|
weblogic-operator-rolebinding |
weblogic-operator-role |
Edit: secrets, configmaps, events | The RoleBinding is created in the namespace weblogic-operator-ns 1 |
weblogic-operator-rolebinding-namespace |
Operator Cluster Role namespace |
Read: secrets, pods/log, pods/exec | The RoleBinding is created in the namespace domain1-ns 2 |
Edit: configmaps, events, pods, services, jobs.batch, poddisruptionbudgets.policy | |||
Create: pods/exec |
Assuming that the operator was installed into the Kubernetes Namespace weblogic-operator-ns
,
the following ClusterRoleBinding
entries are mapped to a ClusterRole
granting permission to the operator.
Note: The operator names in table below represent the <role-name>
from the cluster names section.
ClusterRoleBinding | Mapped to Cluster Role | Resource Access | Notes |
---|---|---|---|
Operator general |
Operator general |
Read: namespaces | 3 |
Edit: customresourcedefinitions | |||
Update: domains (weblogic.oracle), domains/status | |||
Create: tokenreviews, selfsubjectrulesreviews | |||
Operator nonresource |
Operator nonresource |
Get: /version/* | 1 |
The binding is assigned to the operator ServiceAccount
. ↩︎ ↩︎
The binding is assigned to the operator ServiceAccount
in each namespace that the operator is configured to manage.
See Namespace management ↩︎
The binding is assigned to the operator ServiceAccount
.
In addition, the Kubernetes RBAC resources that the operator installation actually
set up will be adjusted based on the value of the dedicated
mode.
By default, the operator does not run in dedicated mode and those security resources
are created as ClusterRole
and ClusterRoleBindings
.
If the operator is running in dedicated mode,
then those resources will be created as Roles
and RoleBindings
in the namespace of the operator.
See the Dedicated
option for the
domainNamespaceSelectionStrategy
setting. ↩︎