VirtualMachineInstanceReplicaSet
A VirtualMachineInstanceReplicaSet tries to ensures that a specified number of VirtualMachineInstance replicas are running at any time. In other words, a VirtualMachineInstanceReplicaSet makes sure that a VirtualMachineInstance or a homogeneous set of VirtualMachineInstances is always up and ready. It is very similar to a Kubernetes ReplicaSet.
No state is kept and no guarantees about the maximum number of VirtualMachineInstance replicas which are up are given. For example, the VirtualMachineInstanceReplicaSet may decide to create new replicas if possibly still running VMs are entering an unknown state.
Using VirtualMachineInstanceReplicaSet
The VirtualMachineInstanceReplicaSet allows us to specify a VirtualMachineInstanceTemplate in spec.template
. It consists of ObjectMetadata
in spec.template.metadata
, and a VirtualMachineInstanceSpec
in spec.template.spec
. The specification of the virtual machine is equal to the specification of the virtual machine in the VirtualMachineInstance
workload.
spec.replicas
can be used to specify how many replicas are wanted. If unspecified, the default value is 1. This value can be updated anytime. The controller will react to the changes.
spec.selector
is used by the controller to keep track of managed virtual machines. The selector specified there must be able to match the virtual machine labels as specified in spec.template.metadata.labels
. If the selector does not match these labels, or they are empty, the controller will simply do nothing except from logging an error. The user is responsible for not creating other virtual machines or VirtualMachineInstanceReplicaSets which conflict with the selector and the template labels.
Exposing a VirtualMachineInstanceReplicaSet as a Service
A VirtualMachineInstanceReplicaSet could be exposed as a service. When this is done, one of the VirtualMachineInstances replicas will be picked for the actual delivery of the service.
For example, exposing SSH port (22) as a ClusterIP service using virtctl on a VirtualMachineInstanceReplicaSet:
$ virtctl expose vmirs vmi-ephemeral --name vmiservice --port 27017 --target-port 22
All service exposure options that apply to a VirtualMachineInstance apply to a VirtualMachineInstanceReplicaSet. See Exposing VirtualMachineInstance for more details.
When to use a VirtualMachineInstanceReplicaSet
Note: The base assumption is that referenced disks are read-only or that the VMIs are writing internally to a tmpfs. The most obvious volume sources for VirtualMachineInstanceReplicaSets which KubeVirt supports are referenced below. If other types are used data corruption is possible.
Using VirtualMachineInstanceReplicaSet is the right choice when one wants many identical VMs and does not care about maintaining any disk state after the VMs are terminated.
Volume types which work well in combination with a VirtualMachineInstanceReplicaSet are:
- cloudInitNoCloud
- ephemeral
- containerDisk
- emptyDisk
- configMap
- secret
- any other type, if the VMI writes internally to a tmpfs
Fast starting ephemeral Virtual Machines
This use-case involves small and fast booting VMs with little provisioning performed during initialization.
In this scenario, migrations are not important. Redistributing VM workloads between Nodes can be achieved simply by deleting managed VirtualMachineInstances which are running on an overloaded Node. The eviction
of such a VirtualMachineInstance can happen by directly deleting the VirtualMachineInstance instance (KubeVirt aware workload redistribution) or by deleting the corresponding Pod where the Virtual Machine runs in (Only Kubernetes aware workload redistribution).
Slow starting ephemeral Virtual Machines
In this use-case one has big and slow booting VMs, and complex or resource intensive provisioning is done during boot. More specifically, the timespan between the creation of a new VM and it entering the ready state is long.
In this scenario, one still does not care about the state, but since re-provisioning VMs is expensive, migrations are important. Workload redistribution between Nodes can be achieved by migrating VirtualMachineInstances to different Nodes. A workload redistributor needs to be aware of KubeVirt and create migrations, instead of evicting
VirtualMachineInstances by deletion.
Note: The simplest form of having a migratable ephemeral VirtualMachineInstance, will be to use local storage based on
ContainerDisks
in combination with a file based backing store. However, migratable backing store support has not officially landed yet in KubeVirt and is untested.
Example
apiVersion: kubevirt.io/v1alpha3
kind: VirtualMachineInstanceReplicaSet
metadata:
name: testreplicaset
spec:
replicas: 3
selector:
matchLabels:
myvmi: myvmi
template:
metadata:
name: test
labels:
myvmi: myvmi
spec:
domain:
devices:
disks:
- disk:
name: containerdisk
resources:
requests:
memory: 64M
volumes:
- name: containerdisk
containerDisk:
image: kubevirt/cirros-container-disk-demo:latest
Saving this manifest into testreplicaset.yaml
and submitting it to Kubernetes will create three virtual machines based on the template.
$ kubectl create -f testreplicaset.yaml
virtualmachineinstancereplicaset "testreplicaset" created
$ kubectl describe vmirs testreplicaset
Name: testreplicaset
Namespace: default
Labels: <none>
Annotations: <none>
API Version: kubevirt.io/v1alpha3
Kind: VirtualMachineInstanceReplicaSet
Metadata:
Cluster Name:
Creation Timestamp: 2018-01-03T12:42:30Z
Generation: 0
Resource Version: 6380
Self Link: /apis/kubevirt.io/v1alpha3/namespaces/default/virtualmachineinstancereplicasets/testreplicaset
UID: 903a9ea0-f083-11e7-9094-525400ee45b0
Spec:
Replicas: 3
Selector:
Match Labels:
Myvmi: myvmi
Template:
Metadata:
Creation Timestamp: <nil>
Labels:
Myvmi: myvmi
Name: test
Spec:
Domain:
Devices:
Disks:
Disk:
Name: containerdisk
Volume Name: containerdisk
Resources:
Requests:
Memory: 64M
Volumes:
Name: containerdisk
Container Disk:
Image: kubevirt/cirros-container-disk-demo:latest
Status:
Conditions: <nil>
Ready Replicas: 2
Replicas: 3
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Normal SuccessfulCreate 13s virtualmachineinstancereplicaset-controller Created virtual machine: testh8998
Normal SuccessfulCreate 13s virtualmachineinstancereplicaset-controller Created virtual machine: testf474w
Normal SuccessfulCreate 13s virtualmachineinstancereplicaset-controller Created virtual machine: test5lvkd
Replicas
is 3
and Ready Replicas
is 2
. This means that at the moment when showing the status, three Virtual Machines were already created, but only two are running and ready.
Scaling via the Scale Subresource
Note: This requires the
CustomResourceSubresources
feature gate to be enabled for clusters prior to 1.11.
The VirtualMachineInstanceReplicaSet
supports the scale
subresource. As a consequence it is possible to scale it via kubectl
:
$ kubectl scale vmirs myvmirs --replicas 5
Using the Horizontal Pod Autoscaler
Note: This requires at cluster newer or equal to 1.11.
The HorizontalPodAutoscaler (HPA) can be used with a VirtualMachineInstanceReplicaSet
. Simply reference it in the spec of the autoscaler:
apiVersion: autoscaling/v1
kind: HorizontalPodAutoscaler
metadata:
name: myhpa
spec:
scaleTargetRef:
kind: VirtualMachineInstanceReplicaSet
name: vmi-replicaset-cirros
apiVersion: kubevirt.io/v1alpha3
minReplicas: 3
maxReplicas: 10
targetCPUUtilizationPercentage: 50
or use kubectl autoscale
to define the HPA via the commandline:
$ kubectl autoscale vmirs vmi-replicaset-cirros --min=3 --max=10