Resize CPU and Memory Resources assigned to Containers
Kubernetes v1.27 [alpha]
This page assumes that you are familiar with Quality of Service for Kubernetes Pods.
This page shows how to resize CPU and memory resources assigned to containers
of a running pod without restarting the pod or its containers. A Kubernetes node
allocates resources for a pod based on its requests, and restricts the pod's
resource usage based on the limits specified in the pod's containers.
Changing the resource allocation for a running Pod requires the
InPlacePodVerticalScaling feature gate
to be enabled. The alternative is to delete the Pod and let the
workload controller make a replacement Pod
that has a different resource requirement.
For in-place resize of pod resources:
- Container's resource
requestsandlimitsare mutable for CPU and memory resources. allocatedResourcesfield incontainerStatusesof the Pod's status reflects the resources allocated to the pod's containers.resourcesfield incontainerStatusesof the Pod's status reflects the actual resourcerequestsandlimitsthat are configured on the running containers as reported by the container runtime.resizefield in the Pod's status shows the status of the last requested pending resize. It can have the following values:Proposed: This value indicates an acknowledgement of the requested resize and that the request was validated and recorded.InProgress: This value indicates that the node has accepted the resize request and is in the process of applying it to the pod's containers.Deferred: This value means that the requested resize cannot be granted at this time, and the node will keep retrying. The resize may be granted when other pods leave and free up node resources.Infeasible: is a signal that the node cannot accommodate the requested resize. This can happen if the requested resize exceeds the maximum resources the node can ever allocate for a pod.
Before you begin
You need to have a Kubernetes cluster, and the kubectl command-line tool must be configured to communicate with your cluster. It is recommended to run this tutorial on a cluster with at least two nodes that are not acting as control plane hosts. If you do not already have a cluster, you can create one by using minikube or you can use one of these Kubernetes playgrounds:
Your Kubernetes server must be at or later than version 1.27. To check the version, enterkubectl version.
The InPlacePodVerticalScaling feature gate must be enabled
for your control plane and for all nodes in your cluster.
Container Resize Policies
Resize policies allow for a more fine-grained control over how pod's containers are resized for CPU and memory resources. For example, the container's application may be able to handle CPU resources resized without being restarted, but resizing memory may require that the application hence the containers be restarted.
To enable this, the Container specification allows users to specify a resizePolicy.
The following restart policies can be specified for resizing CPU and memory:
NotRequired: Resize the container's resources while it is running.RestartContainer: Restart the container and apply new resources upon restart.
If resizePolicy[*].restartPolicy is not specified, it defaults to NotRequired.
restartPolicy is Never, container's resize restart policy must be
set to NotRequired for all Containers in the Pod.
Below example shows a Pod whose Container's CPU can be resized without restart, but resizing memory requires the container to be restarted.
apiVersion: v1
kind: Pod
metadata:
name: qos-demo-5
namespace: qos-example
spec:
containers:
- name: qos-demo-ctr-5
image: nginx
resizePolicy:
- resourceName: cpu
restartPolicy: NotRequired
- resourceName: memory
restartPolicy: RestartContainer
resources:
limits:
memory: "200Mi"
cpu: "700m"
requests:
memory: "200Mi"
cpu: "700m"
Create a pod with resource requests and limits
You can create a Guaranteed or Burstable Quality of Service class pod by specifying requests and/or limits for a pod's containers.
Consider the following manifest for a Pod that has one Container.
apiVersion: v1
kind: Pod
metadata:
name: qos-demo-5
namespace: qos-example
spec:
containers:
- name: qos-demo-ctr-5
image: nginx
resources:
limits:
memory: "200Mi"
cpu: "700m"
requests:
memory: "200Mi"
cpu: "700m"
Create the pod in the qos-example namespace:
kubectl create namespace qos-example
kubectl create -f https://k8s.io/examples/pods/qos/qos-pod-5.yaml
This pod is classified as a Guaranteed QoS class requesting 700m CPU and 200Mi memory.
View detailed information about the pod:
kubectl get pod qos-demo-5 --output=yaml --namespace=qos-example
Also notice that the values of resizePolicy[*].restartPolicy defaulted to
NotRequired, indicating that CPU and memory can be resized while container
is running.
spec:
containers:
...
resizePolicy:
- resourceName: cpu
restartPolicy: NotRequired
- resourceName: memory
restartPolicy: NotRequired
resources:
limits:
cpu: 700m
memory: 200Mi
requests:
cpu: 700m
memory: 200Mi
...
containerStatuses:
...
name: qos-demo-ctr-5
ready: true
...
allocatedResources:
cpu: 700m
memory: 200Mi
resources:
limits:
cpu: 700m
memory: 200Mi
requests:
cpu: 700m
memory: 200Mi
restartCount: 0
started: true
...
qosClass: Guaranteed
Updating the pod's resources
Let's say the CPU requirements have increased, and 0.8 CPU is now desired. This may be specified manually, or determined and programmatically applied by an entity such as VerticalPodAutoscaler (VPA).
Now, patch the Pod's Container with CPU requests & limits both set to 800m:
kubectl -n qos-example patch pod qos-demo-5 --patch '{"spec":{"containers":[{"name":"qos-demo-ctr-5", "resources":{"requests":{"cpu":"800m"}, "limits":{"cpu":"800m"}}}]}}'
Query the Pod's detailed information after the Pod has been patched.
kubectl get pod qos-demo-5 --output=yaml --namespace=qos-example
The Pod's spec below reflects the updated CPU requests and limits.
spec:
containers:
...
resources:
limits:
cpu: 800m
memory: 200Mi
requests:
cpu: 800m
memory: 200Mi
...
containerStatuses:
...
allocatedResources:
cpu: 800m
memory: 200Mi
resources:
limits:
cpu: 800m
memory: 200Mi
requests:
cpu: 800m
memory: 200Mi
restartCount: 0
started: true
Observe that the allocatedResources values have been updated to reflect the new
desired CPU requests. This indicates that node was able to accommodate the
increased CPU resource needs.
In the Container's status, updated CPU resource values shows that new CPU
resources have been applied. The Container's restartCount remains unchanged,
indicating that container's CPU resources were resized without restarting the container.
Clean up
Delete your namespace:
kubectl delete namespace qos-example