$ oc get -n openshift-dns-operator deployment/dns-operator
The DNS Operator deploys and manages CoreDNS to provide a name resolution service to pods, enabling DNS-based Kubernetes Service discovery in OKD.
The DNS Operator implements the dns
API from the operator.openshift.io
API
group. The Operator deploys CoreDNS using a daemon set, creates a service for
the daemon set, and configures the kubelet to instruct pods to use the CoreDNS
service IP address for name resolution.
The DNS Operator is deployed during installation with a Deployment
object.
Use the oc get
command to view the deployment status:
$ oc get -n openshift-dns-operator deployment/dns-operator
NAME READY UP-TO-DATE AVAILABLE AGE
dns-operator 1/1 1 1 23h
Use the oc get
command to view the state of the DNS Operator:
$ oc get clusteroperator/dns
NAME VERSION AVAILABLE PROGRESSING DEGRADED SINCE
dns 4.1.0-0.11 True False False 92m
AVAILABLE
, PROGRESSING
and DEGRADED
provide information about the status of the operator. AVAILABLE
is True
when at least 1 pod from the CoreDNS daemon set reports an Available
status condition.
DNS manages the CoreDNS component to provide a name resolution service for pods and services in the cluster. The managementState
of the DNS Operator is set to Managed
by default, which means that the DNS Operator is actively managing its resources. You can change it to Unmanaged
, which means the DNS Operator is not managing its resources.
The following are use cases for changing the DNS Operator managementState
:
You are a developer and want to test a configuration change to see if it fixes an issue in CoreDNS. You can stop the DNS Operator from overwriting the fix by setting the managementState
to Unmanaged
.
You are a cluster administrator and have reported an issue with CoreDNS, but need to apply a workaround until the issue is fixed. You can set the managementState
field of the DNS Operator to Unmanaged
to apply the workaround.
Change managementState
DNS Operator:
oc patch dns.operator.openshift.io default --type merge --patch '{"spec":{"managementState":"Unmanaged"}}'
The DNS Operator has two daemon sets: one for CoreDNS and one for managing the /etc/hosts
file. The daemon set for /etc/hosts
must run on every node host to add an entry for the cluster image registry to support pulling images. Security policies can prohibit communication between pairs of nodes, which prevents the daemon set for CoreDNS from running on every node.
As a cluster administrator, you can use a custom node selector to configure the daemon set for CoreDNS to run or not run on certain nodes.
You installed the oc
CLI.
You are logged in to the cluster with a user with cluster-admin
privileges.
To prevent communication between certain nodes, configure the spec.nodePlacement.nodeSelector
API field:
Modify the DNS Operator object named default
:
$ oc edit dns.operator/default
Specify a node selector that includes only control plane nodes in the spec.nodePlacement.nodeSelector
API field:
spec:
nodePlacement:
nodeSelector:
node-role.kubernetes.io/worker: ""
To allow the daemon set for CoreDNS to run on nodes, configure a taint and toleration:
Modify the DNS Operator object named default
:
$ oc edit dns.operator/default
Specify a taint key and a toleration for the taint:
spec:
nodePlacement:
tolerations:
- effect: NoExecute
key: "dns-only"
operators: Equal
value: abc
tolerationSeconds: 3600 (1)
1 | If the taint is dns-only , it can be tolerated indefinitely. You can omit tolerationSeconds . |
Every new OKD installation has a dns.operator
named default
.
Use the oc describe
command to view the default dns
:
$ oc describe dns.operator/default
Name: default
Namespace:
Labels: <none>
Annotations: <none>
API Version: operator.openshift.io/v1
Kind: DNS
...
Status:
Cluster Domain: cluster.local (1)
Cluster IP: 172.30.0.10 (2)
...
1 | The Cluster Domain field is the base DNS domain used to construct fully qualified pod and service domain names. |
2 | The Cluster IP is the address pods query for name resolution. The IP is defined as the 10th address in the service CIDR range. |
To find the service CIDR of your cluster,
use the oc get
command:
$ oc get networks.config/cluster -o jsonpath='{$.status.serviceNetwork}'
[172.30.0.0/16]
You can use DNS forwarding to override the forwarding configuration identified in /etc/resolv.conf
on a per-zone basis by specifying which name server should be used for a given zone. If the forwarded zone is the Ingress domain managed by OKD, then the upstream name server must be authorized for the domain.
Modify the DNS Operator object named default
:
$ oc edit dns.operator/default
This allows the Operator to create and update the ConfigMap named dns-default
with additional server configuration blocks based on Server
. If none of the servers has a zone that matches the query, then name resolution falls back to the name servers that are specified in /etc/resolv.conf
.
apiVersion: operator.openshift.io/v1
kind: DNS
metadata:
name: default
spec:
servers:
- name: foo-server (1)
zones: (2)
- example.com
forwardPlugin:
upstreams: (3)
- 1.1.1.1
- 2.2.2.2:5353
- name: bar-server
zones:
- bar.com
- example.com
forwardPlugin:
upstreams:
- 3.3.3.3
- 4.4.4.4:5454
1 | name must comply with the rfc6335 service name syntax. |
2 | zones must conform to the definition of a subdomain in rfc1123 . The cluster domain, cluster.local , is an invalid subdomain for zones . |
3 | A maximum of 15 upstreams is allowed per forwardPlugin . |
If |
View the ConfigMap:
$ oc get configmap/dns-default -n openshift-dns -o yaml
apiVersion: v1
data:
Corefile: |
example.com:5353 {
forward . 1.1.1.1 2.2.2.2:5353
}
bar.com:5353 example.com:5353 {
forward . 3.3.3.3 4.4.4.4:5454 (1)
}
.:5353 {
errors
health
kubernetes cluster.local in-addr.arpa ip6.arpa {
pods insecure
upstream
fallthrough in-addr.arpa ip6.arpa
}
prometheus :9153
forward . /etc/resolv.conf {
policy sequential
}
cache 30
reload
}
kind: ConfigMap
metadata:
labels:
dns.operator.openshift.io/owning-dns: default
name: dns-default
namespace: openshift-dns
1 | Changes to the forwardPlugin triggers a rolling update of the CoreDNS daemon set. |
For more information on DNS forwarding, see the CoreDNS forward documentation.