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Validate IPv4/IPv6 dual-stack
This document shares how to validate IPv4/IPv6 dual-stack enabled Kubernetes clusters.
Before you begin
- Provider support for dual-stack networking (Cloud provider or otherwise must be able to provide Kubernetes nodes with routable IPv4/IPv6 network interfaces)
- A network plugin that supports dual-stack (such as Kubenet or Calico)
- Dual-stack enabled cluster
kubectl version
.Validate addressing
Validate node addressing
Each dual-stack Node should have a single IPv4 block and a single IPv6 block allocated. Validate that IPv4/IPv6 Pod address ranges are configured by running the following command. Replace the sample node name with a valid dual-stack Node from your cluster. In this example, the Node's name is k8s-linuxpool1-34450317-0
:
kubectl get nodes k8s-linuxpool1-34450317-0 -o go-template --template='{{range .spec.podCIDRs}}{{printf "%s\n" .}}{{end}}'
10.244.1.0/24
a00:100::/24
There should be one IPv4 block and one IPv6 block allocated.
Validate that the node has an IPv4 and IPv6 interface detected (replace node name with a valid node from the cluster. In this example the node name is k8s-linuxpool1-34450317-0):
kubectl get nodes k8s-linuxpool1-34450317-0 -o go-template --template='{{range .status.addresses}}{{printf "%s: %s \n" .type .address}}{{end}}'
Hostname: k8s-linuxpool1-34450317-0
InternalIP: 10.240.0.5
InternalIP: 2001:1234:5678:9abc::5
Validate Pod addressing
Validate that a Pod has an IPv4 and IPv6 address assigned. (replace the Pod name with a valid Pod in your cluster. In this example the Pod name is pod01)
kubectl get pods pod01 -o go-template --template='{{range .status.podIPs}}{{printf "%s \n" .ip}}{{end}}'
10.244.1.4
a00:100::4
You can also validate Pod IPs using the Downward API via the status.podIPs
fieldPath. The following snippet demonstrates how you can expose the Pod IPs via an environment variable called MY_POD_IPS
within a container.
env:
- name: MY_POD_IPS
valueFrom:
fieldRef:
fieldPath: status.podIPs
The following command prints the value of the MY_POD_IPS
environment variable from within a container. The value is a comma separated list that corresponds to the Pod's IPv4 and IPv6 addresses.
kubectl exec -it pod01 -- set | grep MY_POD_IPS
MY_POD_IPS=10.244.1.4,a00:100::4
The Pod's IP addresses will also be written to /etc/hosts
within a container. The following command executes a cat on /etc/hosts
on a dual stack Pod. From the output you can verify both the IPv4 and IPv6 IP address for the Pod.
kubectl exec -it pod01 -- cat /etc/hosts
# Kubernetes-managed hosts file.
127.0.0.1 localhost
::1 localhost ip6-localhost ip6-loopback
fe00::0 ip6-localnet
fe00::0 ip6-mcastprefix
fe00::1 ip6-allnodes
fe00::2 ip6-allrouters
10.244.1.4 pod01
a00:100::4 pod01
Validate Services
Create the following Service without the ipFamily
field set. When this field is not set, the Service gets an IP from the first configured range via --service-cluster-ip-range
flag on the kube-controller-manager.
apiVersion: v1
kind: Service
metadata:
name: my-service
spec:
selector:
app: MyApp
ports:
- protocol: TCP
port: 80
targetPort: 9376
By viewing the YAML for the Service you can observe that the Service has the ipFamily
field has set to reflect the address family of the first configured range set via --service-cluster-ip-range
flag on kube-controller-manager.
kubectl get svc my-service -o yaml
apiVersion: v1
kind: Service
metadata:
creationTimestamp: "2019-09-03T20:45:13Z"
labels:
app: MyApp
name: my-service
namespace: default
resourceVersion: "485836"
selfLink: /api/v1/namespaces/default/services/my-service
uid: b6fa83ef-fe7e-47a3-96a1-ac212fa5b030
spec:
clusterIP: 10.0.29.179
ipFamily: IPv4
ports:
- port: 80
protocol: TCP
targetPort: 9376
selector:
app: MyApp
sessionAffinity: None
type: ClusterIP
status:
loadBalancer: {}
Create the following Service with the ipFamily
field set to IPv6
.
apiVersion: v1
kind: Service
metadata:
name: my-service
spec:
ipFamily: IPv6
selector:
app: MyApp
ports:
- protocol: TCP
port: 80
targetPort: 9376
Validate that the Service gets a cluster IP address from the IPv6 address block. You may then validate access to the service via the IP and port.
kubectl get svc -l app=MyApp
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
my-service ClusterIP fe80:20d::d06b <none> 80/TCP 9s
Create a dual-stack load balanced Service
If the cloud provider supports the provisioning of IPv6 enabled external load balancer, create the following Service with both the ipFamily
field set to IPv6
and the type
field set to LoadBalancer
apiVersion: v1
kind: Service
metadata:
name: my-service
labels:
app: MyApp
spec:
ipFamily: IPv6
type: LoadBalancer
selector:
app: MyApp
ports:
- protocol: TCP
port: 80
targetPort: 9376
Validate that the Service receives a CLUSTER-IP
address from the IPv6 address block along with an EXTERNAL-IP
. You may then validate access to the service via the IP and port.
kubectl get svc -l app=MyApp
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
my-service ClusterIP fe80:20d::d06b 2001:db8:f100:4002::9d37:c0d7 80:31868/TCP 30s