apiVersion: kubevirt.io/v1
kind: VirtualMachine
metadata:
name: vm-ephemeral
namespace: example-namespace
spec:
running: false
template:
metadata:
labels:
special: key (1)
# ...
You can expose a virtual machine within the cluster or outside the cluster by using a service
object.
A Kubernetes service exposes network access for clients to an application running on a set of pods. services offer abstraction, load balancing, and, in the case of NodePort and LoadBalancer, exposure to the outside world.
services can be exposed in the VirtualMachine details → Details tab of the web console or by specifying a spec.type
in the service
object:
Exposes the service on an internal IP address and as a DNS name to other applications within the cluster. A single service can map to multiple virtual machines. When a client tries to connect to the service, the client’s request is load balanced among available backends. ClusterIP
is the default service type
.
Exposes the service on the same port of each selected node in the cluster. NodePort
makes a service accessible from outside the cluster.
Creates an external load balancer in the current cloud (if supported) and assigns a fixed, external IP address to the service.
For on-premise clusters, you can configure a load-balancing service by deploying the MetalLB Operator. |
If IPv4 and IPv6 dual-stack networking is enabled for your cluster, you can create a service that uses IPv4, IPv6, or both, by defining the spec.ipFamilyPolicy
and the spec.ipFamilies
fields in the service
object.
The spec.ipFamilyPolicy
field can be set to one of the following values:
The control plane assigns a cluster IP address for the service based on the first configured service cluster IP range.
The control plane assigns both IPv4 and IPv6 cluster IP addresses for the service on clusters that have dual-stack configured.
This option fails for clusters that do not have dual-stack networking enabled. For clusters that have dual-stack configured, the behavior is the same as when the value is set to PreferDualStack
. The control plane allocates cluster IP addresses from both IPv4 and IPv6 address ranges.
You can define which IP family to use for single-stack or define the order of IP families for dual-stack by setting the spec.ipFamilies
field to one of the following array values:
[IPv4]
[IPv6]
[IPv4, IPv6]
[IPv6, IPv4]
Create a ClusterIP
, NodePort
, or LoadBalancer
service to connect to a running virtual machine (VM) from within or outside the cluster.
Edit the VirtualMachine
manifest to add the label for service creation:
apiVersion: kubevirt.io/v1
kind: VirtualMachine
metadata:
name: vm-ephemeral
namespace: example-namespace
spec:
running: false
template:
metadata:
labels:
special: key (1)
# ...
1 | Add the label special: key in the spec.template.metadata.labels section. |
Labels on a virtual machine are passed through to the pod. The |
Save the VirtualMachine
manifest file to apply your changes.
Create a service
manifest to expose the VM:
apiVersion: v1
kind: service
metadata:
name: vmservice (1)
namespace: example-namespace (2)
spec:
externalTrafficPolicy: Cluster (3)
ports:
- nodePort: 30000 (4)
port: 27017
protocol: TCP
targetPort: 22 (5)
selector:
special: key (6)
type: NodePort (7)
1 | The name of the service object. |
2 | The namespace where the service object resides. This must match the metadata.namespace field of the VirtualMachine manifest. |
3 | Optional: Specifies how the nodes distribute service traffic that is received on external IP addresses. This only applies to NodePort and LoadBalancer service types. The default value is Cluster which routes traffic evenly to all cluster endpoints. |
4 | Optional: When set, the nodePort value must be unique across all services. If not specified, a value in the range above 30000 is dynamically allocated. |
5 | Optional: The VM port to be exposed by the service. It must reference an open port if a port list is defined in the VM manifest. If targetPort is not specified, it takes the same value as port . |
6 | The reference to the label that you added in the spec.template.metadata.labels stanza of the VirtualMachine manifest. |
7 | The type of service. Possible values are ClusterIP , NodePort and LoadBalancer . |
Save the service
manifest file.
Create the service by running the following command:
$ oc create -f <service_name>.yaml
Start the VM. If the VM is already running, restart it.
Query the service
object to verify that it is available:
$ oc get service -n example-namespace
ClusterIP
serviceNAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
vmservice ClusterIP 172.30.3.149 <none> 27017/TCP 2m
NodePort
serviceNAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
vmservice NodePort 172.30.232.73 <none> 27017:30000/TCP 5m
LoadBalancer
serviceNAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
vmservice LoadBalancer 172.30.27.5 172.29.10.235,172.29.10.235 27017:31829/TCP 5s
Choose the appropriate method to connect to the virtual machine:
For a ClusterIP
service, connect to the VM from within the cluster by using the service IP address and the service port. For example:
$ ssh fedora@172.30.3.149 -p 27017
For a NodePort
service, connect to the VM by specifying the node IP address and the node port outside the cluster network. For example:
$ ssh fedora@$NODE_IP -p 30000
For a LoadBalancer
service, use the vinagre
client to connect to your virtual machine by using the public IP address and port. External ports are dynamically allocated.