Chapter 5. Using quotas and limit ranges
A resource quota, defined by a ResourceQuota object, provides constraints that limit aggregate resource consumption per project. It can limit the quantity of objects that can be created in a project by type, as well as the total amount of compute resources and storage that may be consumed by resources in that project.
Using quotas and limit ranges, cluster administrators can set constraints to limit the number of objects or amount of compute resources that are used in your project. This helps cluster administrators better manage and allocate resources across all projects, and ensure that no projects are using more than is appropriate for the cluster size.
Quotas are set by cluster administrators and are scoped to a given project. OpenShift Container Platform project owners can change quotas for their project, but not limit ranges. OpenShift Container Platform users cannot modify quotas or limit ranges.
The following sections help you understand how to check on your quota and limit range settings, what sorts of things they can constrain, and how you can request or limit compute resources in your own pods and containers.
5.1. Resources managed by quota
A resource quota, defined by a ResourceQuota object, provides constraints that limit aggregate resource consumption per project. It can limit the quantity of objects that can be created in a project by type, as well as the total amount of compute resources and storage that may be consumed by resources in that project.
The following describes the set of compute resources and object types that may be managed by a quota.
A pod is in a terminal state if status.phase is Failed or Succeeded.
| Resource Name | Description |
|---|---|
|
|
The sum of CPU requests across all pods in a non-terminal state cannot exceed this value. |
|
|
The sum of memory requests across all pods in a non-terminal state cannot exceed this value. |
|
|
The sum of local ephemeral storage requests across all pods in a non-terminal state cannot exceed this value. |
|
|
The sum of CPU requests across all pods in a non-terminal state cannot exceed this value. |
|
|
The sum of memory requests across all pods in a non-terminal state cannot exceed this value. |
|
|
The sum of ephemeral storage requests across all pods in a non-terminal state cannot exceed this value. |
|
| The sum of CPU limits across all pods in a non-terminal state cannot exceed this value. |
|
| The sum of memory limits across all pods in a non-terminal state cannot exceed this value. |
|
| The sum of ephemeral storage limits across all pods in a non-terminal state cannot exceed this value. This resource is available only if you enabled the ephemeral storage technology preview. This feature is disabled by default. |
| Resource Name | Description |
|---|---|
|
| The sum of storage requests across all persistent volume claims in any state cannot exceed this value. |
|
| The total number of persistent volume claims that can exist in the project. |
|
| The sum of storage requests across all persistent volume claims in any state that have a matching storage class, cannot exceed this value. |
|
| The total number of persistent volume claims with a matching storage class that can exist in the project. |
| Resource Name | Description |
|---|---|
|
| The total number of pods in a non-terminal state that can exist in the project. |
|
| The total number of replication controllers that can exist in the project. |
|
| The total number of resource quotas that can exist in the project. |
|
| The total number of services that can exist in the project. |
|
| The total number of secrets that can exist in the project. |
|
|
The total number of |
|
| The total number of persistent volume claims that can exist in the project. |
|
| The total number of image streams that can exist in the project. |
You can configure an object count quota for these standard namespaced resource types using the count/<resource>.<group> syntax.
$ oc create quota <name> --hard=count/<resource>.<group>=<quota> 1- 1
<resource>is the name of the resource, and<group>is the API group, if applicable. Use thekubectl api-resourcescommand for a list of resources and their associated API groups.
5.1.1. Setting resource quota for extended resources
Overcommitment of resources is not allowed for extended resources, so you must specify requests and limits for the same extended resource in a quota. Currently, only quota items with the prefix requests. are allowed for extended resources. The following is an example scenario of how to set resource quota for the GPU resource nvidia.com/gpu.
Procedure
To determine how many GPUs are available on a node in your cluster, use the following command:
$ oc describe node ip-172-31-27-209.us-west-2.compute.internal | egrep 'Capacity|Allocatable|gpu'
Example output
openshift.com/gpu-accelerator=true Capacity: nvidia.com/gpu: 2 Allocatable: nvidia.com/gpu: 2 nvidia.com/gpu: 0 0
In this example, 2 GPUs are available.
Use this command to set a quota in the namespace
nvidia. In this example, the quota is1:$ cat gpu-quota.yaml
Example output
apiVersion: v1 kind: ResourceQuota metadata: name: gpu-quota namespace: nvidia spec: hard: requests.nvidia.com/gpu: 1Create the quota with the following command:
$ oc create -f gpu-quota.yaml
Example output
resourcequota/gpu-quota created
Verify that the namespace has the correct quota set using the following command:
$ oc describe quota gpu-quota -n nvidia
Example output
Name: gpu-quota Namespace: nvidia Resource Used Hard -------- ---- ---- requests.nvidia.com/gpu 0 1
Run a pod that asks for a single GPU with the following command:
$ oc create pod gpu-pod.yaml
Example output
apiVersion: v1 kind: Pod metadata: generateName: gpu-pod-s46h7 namespace: nvidia spec: restartPolicy: OnFailure containers: - name: rhel7-gpu-pod image: rhel7 env: - name: NVIDIA_VISIBLE_DEVICES value: all - name: NVIDIA_DRIVER_CAPABILITIES value: "compute,utility" - name: NVIDIA_REQUIRE_CUDA value: "cuda>=5.0" command: ["sleep"] args: ["infinity"] resources: limits: nvidia.com/gpu: 1Verify that the pod is running bwith the following command:
$ oc get pods
Example output
NAME READY STATUS RESTARTS AGE gpu-pod-s46h7 1/1 Running 0 1m
Verify that the quota
Usedcounter is correct by running the following command:$ oc describe quota gpu-quota -n nvidia
Example output
Name: gpu-quota Namespace: nvidia Resource Used Hard -------- ---- ---- requests.nvidia.com/gpu 1 1
Using the following command, attempt to create a second GPU pod in the
nvidianamespace. This is technically available on the node because it has 2 GPUs:$ oc create -f gpu-pod.yaml
Example output
Error from server (Forbidden): error when creating "gpu-pod.yaml": pods "gpu-pod-f7z2w" is forbidden: exceeded quota: gpu-quota, requested: requests.nvidia.com/gpu=1, used: requests.nvidia.com/gpu=1, limited: requests.nvidia.com/gpu=1
This
Forbiddenerror message occurs because you have a quota of 1 GPU and this pod tried to allocate a second GPU, which exceeds its quota.
5.1.2. Quota scopes
Each quota can have an associated set of scopes. A quota only measures usage for a resource if it matches the intersection of enumerated scopes.
Adding a scope to a quota restricts the set of resources to which that quota can apply. Specifying a resource outside of the allowed set results in a validation error.
| Scope | Description |
|---|---|
|
|
Match pods where |
|
|
Match pods where |
|
|
Match pods that have best effort quality of service for either |
|
|
Match pods that do not have best effort quality of service for |
A BestEffort scope restricts a quota to limiting the following resources:
-
pods
A Terminating, NotTerminating, and NotBestEffort scope restricts a quota to tracking the following resources:
-
pods -
memory -
requests.memory -
limits.memory -
cpu -
requests.cpu -
limits.cpu -
ephemeral-storage -
requests.ephemeral-storage -
limits.ephemeral-storage
Ephemeral storage requests and limits apply only if you enabled the ephemeral storage technology preview. This feature is disabled by default.
Additional resources
See Resources managed by quotas for more on compute resources.
See Quality of Service Classes for more on committing compute resources.
5.2. Admin quota usage
5.2.1. Quota enforcement
After a resource quota for a project is first created, the project restricts the ability to create any new resources that can violate a quota constraint until it has calculated updated usage statistics.
After a quota is created and usage statistics are updated, the project accepts the creation of new content. When you create or modify resources, your quota usage is incremented immediately upon the request to create or modify the resource.
When you delete a resource, your quota use is decremented during the next full recalculation of quota statistics for the project.
A configurable amount of time determines how long it takes to reduce quota usage statistics to their current observed system value.
If project modifications exceed a quota usage limit, the server denies the action, and an appropriate error message is returned to the user explaining the quota constraint violated, and what their currently observed usage stats are in the system.
5.2.2. Requests compared to limits
When allocating compute resources by quota, each container can specify a request and a limit value each for CPU, memory, and ephemeral storage. Quotas can restrict any of these values.
If the quota has a value specified for requests.cpu or requests.memory, then it requires that every incoming container make an explicit request for those resources. If the quota has a value specified for limits.cpu or limits.memory, then it requires that every incoming container specify an explicit limit for those resources.
5.2.3. Sample resource quota definitions
Example core-object-counts.yaml
apiVersion: v1
kind: ResourceQuota
metadata:
name: core-object-counts
spec:
hard:
configmaps: "10" 1
persistentvolumeclaims: "4" 2
replicationcontrollers: "20" 3
secrets: "10" 4
services: "10" 5
- 1
- The total number of
ConfigMapobjects that can exist in the project. - 2
- The total number of persistent volume claims (PVCs) that can exist in the project.
- 3
- The total number of replication controllers that can exist in the project.
- 4
- The total number of secrets that can exist in the project.
- 5
- The total number of services that can exist in the project.
Example openshift-object-counts.yaml
apiVersion: v1
kind: ResourceQuota
metadata:
name: openshift-object-counts
spec:
hard:
openshift.io/imagestreams: "10" 1
- 1
- The total number of image streams that can exist in the project.
Example compute-resources.yaml
apiVersion: v1
kind: ResourceQuota
metadata:
name: compute-resources
spec:
hard:
pods: "4" 1
requests.cpu: "1" 2
requests.memory: 1Gi 3
requests.ephemeral-storage: 2Gi 4
limits.cpu: "2" 5
limits.memory: 2Gi 6
limits.ephemeral-storage: 4Gi 7
- 1
- The total number of pods in a non-terminal state that can exist in the project.
- 2
- Across all pods in a non-terminal state, the sum of CPU requests cannot exceed 1 core.
- 3
- Across all pods in a non-terminal state, the sum of memory requests cannot exceed 1Gi.
- 4
- Across all pods in a non-terminal state, the sum of ephemeral storage requests cannot exceed 2Gi.
- 5
- Across all pods in a non-terminal state, the sum of CPU limits cannot exceed 2 cores.
- 6
- Across all pods in a non-terminal state, the sum of memory limits cannot exceed 2Gi.
- 7
- Across all pods in a non-terminal state, the sum of ephemeral storage limits cannot exceed 4Gi.
Example besteffort.yaml
apiVersion: v1
kind: ResourceQuota
metadata:
name: besteffort
spec:
hard:
pods: "1" 1
scopes:
- BestEffort 2
Example compute-resources-long-running.yaml
apiVersion: v1
kind: ResourceQuota
metadata:
name: compute-resources-long-running
spec:
hard:
pods: "4" 1
limits.cpu: "4" 2
limits.memory: "2Gi" 3
limits.ephemeral-storage: "4Gi" 4
scopes:
- NotTerminating 5
- 1
- The total number of pods in a non-terminal state.
- 2
- Across all pods in a non-terminal state, the sum of CPU limits cannot exceed this value.
- 3
- Across all pods in a non-terminal state, the sum of memory limits cannot exceed this value.
- 4
- Across all pods in a non-terminal state, the sum of ephemeral storage limits cannot exceed this value.
- 5
- Restricts the quota to only matching pods where
spec.activeDeadlineSecondsis set tonil. Build pods will fall underNotTerminatingunless theRestartNeverpolicy is applied.
Example compute-resources-time-bound.yaml
apiVersion: v1
kind: ResourceQuota
metadata:
name: compute-resources-time-bound
spec:
hard:
pods: "2" 1
limits.cpu: "1" 2
limits.memory: "1Gi" 3
limits.ephemeral-storage: "1Gi" 4
scopes:
- Terminating 5
- 1
- The total number of pods in a non-terminal state.
- 2
- Across all pods in a non-terminal state, the sum of CPU limits cannot exceed this value.
- 3
- Across all pods in a non-terminal state, the sum of memory limits cannot exceed this value.
- 4
- Across all pods in a non-terminal state, the sum of ephemeral storage limits cannot exceed this value.
- 5
- Restricts the quota to only matching pods where
spec.activeDeadlineSeconds >=0. For example, this quota would charge for build pods, but not long running pods such as a web server or database.
Example storage-consumption.yaml
apiVersion: v1
kind: ResourceQuota
metadata:
name: storage-consumption
spec:
hard:
persistentvolumeclaims: "10" 1
requests.storage: "50Gi" 2
gold.storageclass.storage.k8s.io/requests.storage: "10Gi" 3
silver.storageclass.storage.k8s.io/requests.storage: "20Gi" 4
silver.storageclass.storage.k8s.io/persistentvolumeclaims: "5" 5
bronze.storageclass.storage.k8s.io/requests.storage: "0" 6
bronze.storageclass.storage.k8s.io/persistentvolumeclaims: "0" 7
- 1
- The total number of persistent volume claims in a project
- 2
- Across all persistent volume claims in a project, the sum of storage requested cannot exceed this value.
- 3
- Across all persistent volume claims in a project, the sum of storage requested in the gold storage class cannot exceed this value.
- 4
- Across all persistent volume claims in a project, the sum of storage requested in the silver storage class cannot exceed this value.
- 5
- Across all persistent volume claims in a project, the total number of claims in the silver storage class cannot exceed this value.
- 6
- Across all persistent volume claims in a project, the sum of storage requested in the bronze storage class cannot exceed this value. When this is set to
0, it means bronze storage class cannot request storage. - 7
- Across all persistent volume claims in a project, the sum of storage requested in the bronze storage class cannot exceed this value. When this is set to
0, it means bronze storage class cannot create claims.
5.2.4. Creating a quota
To create a quota, first define the quota in a file. Then use that file to apply it to a project. See the Additional resources section for a link describing this.
$ oc create -f <resource_quota_definition> [-n <project_name>]
Here is an example using the core-object-counts.yaml resource quota definition and the demoproject project name:
$ oc create -f core-object-counts.yaml -n demoproject
5.2.5. Creating object count quotas
You can create an object count quota for all OpenShift Container Platform standard namespaced resource types, such as BuildConfig, and DeploymentConfig. An object quota count places a defined quota on all standard namespaced resource types.
When using a resource quota, an object is charged against the quota if it exists in server storage. These types of quotas are useful to protect against exhaustion of storage resources.
To configure an object count quota for a resource, run the following command:
$ oc create quota <name> --hard=count/<resource>.<group>=<quota>,count/<resource>.<group>=<quota>
Example showing object count quota:
$ oc create quota test --hard=count/deployments.extensions=2,count/replicasets.extensions=4,count/pods=3,count/secrets=4 resourcequota "test" created $ oc describe quota test Name: test Namespace: quota Resource Used Hard -------- ---- ---- count/deployments.extensions 0 2 count/pods 0 3 count/replicasets.extensions 0 4 count/secrets 0 4
This example limits the listed resources to the hard limit in each project in the cluster.
5.2.6. Viewing a quota
You can view usage statistics related to any hard limits defined in a project’s quota by navigating in the web console to the project’s Quota page.
You can also use the CLI to view quota details:
First, get the list of quotas defined in the project. For example, for a project called
demoproject:$ oc get quota -n demoproject NAME AGE besteffort 11m compute-resources 2m core-object-counts 29m
Describe the quota you are interested in, for example the
core-object-countsquota:$ oc describe quota core-object-counts -n demoproject Name: core-object-counts Namespace: demoproject Resource Used Hard -------- ---- ---- configmaps 3 10 persistentvolumeclaims 0 4 replicationcontrollers 3 20 secrets 9 10 services 2 10
5.2.7. Configuring quota synchronization period
When a set of resources are deleted, the synchronization time frame of resources is determined by the resource-quota-sync-period setting in the /etc/origin/master/master-config.yaml file.
Before quota usage is restored, a user can encounter problems when attempting to reuse the resources. You can change the resource-quota-sync-period setting to have the set of resources regenerate in the needed amount of time (in seconds) for the resources to be once again available:
Example resource-quota-sync-period setting
kubernetesMasterConfig:
apiLevels:
- v1beta3
- v1
apiServerArguments: null
controllerArguments:
resource-quota-sync-period:
- "10s"
After making any changes, restart the controller services to apply them.
$ master-restart api $ master-restart controllers
Adjusting the regeneration time can be helpful for creating resources and determining resource usage when automation is used.
The resource-quota-sync-period setting balances system performance. Reducing the sync period can result in a heavy load on the controller.
5.2.8. Explicit quota to consume a resource
If a resource is not managed by quota, a user has no restriction on the amount of resource that can be consumed. For example, if there is no quota on storage related to the gold storage class, the amount of gold storage a project can create is unbounded.
For high-cost compute or storage resources, administrators can require an explicit quota be granted to consume a resource. For example, if a project was not explicitly given quota for storage related to the gold storage class, users of that project would not be able to create any storage of that type.
In order to require explicit quota to consume a particular resource, the following stanza should be added to the master-config.yaml.
admissionConfig:
pluginConfig:
ResourceQuota:
configuration:
apiVersion: resourcequota.admission.k8s.io/v1alpha1
kind: Configuration
limitedResources:
- resource: persistentvolumeclaims 1
matchContains:
- gold.storageclass.storage.k8s.io/requests.storage 2
In the above example, the quota system intercepts every operation that creates or updates a PersistentVolumeClaim. It checks what resources controlled by quota would be consumed. If there is no covering quota for those resources in the project, the request is denied. In this example, if a user creates a PersistentVolumeClaim that uses storage associated with the gold storage class and there is no matching quota in the project, the request is denied.
Additional resources
For examples of how to create the file needed to set quotas, see Resources managed by quotas.
A description of how to allocate compute resources managed by quota.
For information on managing limits and quota on project resources, see Working with projects.
If a quota has been defined for your project, see Understanding deployments for considerations in cluster configurations.
5.3. Setting limit ranges
A limit range, defined by a LimitRange object, defines compute resource constraints at the pod, container, image, image stream, and persistent volume claim level. The limit range specifies the amount of resources that a pod, container, image, image stream, or persistent volume claim can consume.
All requests to create and modify resources are evaluated against each LimitRange object in the project. If the resource violates any of the enumerated constraints, the resource is rejected. If the resource does not set an explicit value, and if the constraint supports a default value, the default value is applied to the resource.
For CPU and memory limits, if you specify a maximum value but do not specify a minimum limit, the resource can consume more CPU and memory resources than the maximum value.
Core limit range object definition
apiVersion: "v1" kind: "LimitRange" metadata: name: "core-resource-limits" 1 spec: limits: - type: "Pod" max: cpu: "2" 2 memory: "1Gi" 3 min: cpu: "200m" 4 memory: "6Mi" 5 - type: "Container" max: cpu: "2" 6 memory: "1Gi" 7 min: cpu: "100m" 8 memory: "4Mi" 9 default: cpu: "300m" 10 memory: "200Mi" 11 defaultRequest: cpu: "200m" 12 memory: "100Mi" 13 maxLimitRequestRatio: cpu: "10" 14
- 1
- The name of the limit range object.
- 2
- The maximum amount of CPU that a pod can request on a node across all containers.
- 3
- The maximum amount of memory that a pod can request on a node across all containers.
- 4
- The minimum amount of CPU that a pod can request on a node across all containers. If you do not set a
minvalue or you setminto0, the result is no limit and the pod can consume more than themaxCPU value. - 5
- The minimum amount of memory that a pod can request on a node across all containers. If you do not set a
minvalue or you setminto0, the result is no limit and the pod can consume more than themaxmemory value. - 6
- The maximum amount of CPU that a single container in a pod can request.
- 7
- The maximum amount of memory that a single container in a pod can request.
- 8
- The minimum amount of CPU that a single container in a pod can request. If you do not set a
minvalue or you setminto0, the result is no limit and the pod can consume more than themaxCPU value. - 9
- The minimum amount of memory that a single container in a pod can request. If you do not set a
minvalue or you setminto0, the result is no limit and the pod can consume more than themaxmemory value. - 10
- The default CPU limit for a container if you do not specify a limit in the pod specification.
- 11
- The default memory limit for a container if you do not specify a limit in the pod specification.
- 12
- The default CPU request for a container if you do not specify a request in the pod specification.
- 13
- The default memory request for a container if you do not specify a request in the pod specification.
- 14
- The maximum limit-to-request ratio for a container.
OpenShift Container Platform Limit range object definition
apiVersion: "v1"
kind: "LimitRange"
metadata:
name: "openshift-resource-limits"
spec:
limits:
- type: openshift.io/Image
max:
storage: 1Gi 1
- type: openshift.io/ImageStream
max:
openshift.io/image-tags: 20 2
openshift.io/images: 30 3
- type: "Pod"
max:
cpu: "2" 4
memory: "1Gi" 5
ephemeral-storage: "1Gi" 6
min:
cpu: "1" 7
memory: "1Gi" 8
- 1
- The maximum size of an image that can be pushed to an internal registry.
- 2
- The maximum number of unique image tags as defined in the specification for the image stream.
- 3
- The maximum number of unique image references as defined in the specification for the image stream status.
- 4
- The maximum amount of CPU that a pod can request on a node across all containers.
- 5
- The maximum amount of memory that a pod can request on a node across all containers.
- 6
- The maximum amount of ephemeral storage that a pod can request on a node across all containers.
- 7
- The minimum amount of CPU that a pod can request on a node across all containers. See the Supported Constraints table for important information.
- 8
- The minimum amount of memory that a pod can request on a node across all containers. If you do not set a
minvalue or you setminto0, the result` is no limit and the pod can consume more than themaxmemory value.
You can specify both core and OpenShift Container Platform resources in one limit range object.
5.3.1. Container limits
Supported Resources:
- CPU
- Memory
Supported Constraints
Per container, the following must hold true if specified:
Container
| Constraint | Behavior |
|---|---|
|
|
If the configuration defines a |
|
|
If the configuration defines a |
|
|
If the limit range defines a
For example, if a container has |
Supported Defaults:
Default[<resource>]-
Defaults
container.resources.limit[<resource>]to specified value if none. Default Requests[<resource>]-
Defaults
container.resources.requests[<resource>]to specified value if none.
5.3.2. Pod limits
Supported Resources:
- CPU
- Memory
Supported Constraints:
Across all containers in a pod, the following must hold true:
| Constraint | Enforced Behavior |
|---|---|
|
|
|
|
|
|
|
|
|
5.3.3. Image limits
Supported Resources:
- Storage
Resource type name:
-
openshift.io/Image
Per image, the following must hold true if specified:
| Constraint | Behavior |
|---|---|
|
|
|
To prevent blobs that exceed the limit from being uploaded to the registry, the registry must be configured to enforce quota. The REGISTRY_MIDDLEWARE_REPOSITORY_OPENSHIFT_ENFORCEQUOTA environment variable must be set to true. By default, the environment variable is set to true for new deployments.
5.3.4. Image stream limits
Supported Resources:
-
openshift.io/image-tags -
openshift.io/images
Resource type name:
-
openshift.io/ImageStream
Per image stream, the following must hold true if specified:
| Constraint | Behavior |
|---|---|
|
|
|
|
|
|
5.3.5. Counting of image references
The openshift.io/image-tags resource represents unique stream limits. Possible references are an ImageStreamTag, an ImageStreamImage, or a DockerImage. Tags can be created by using the oc tag and oc import-image commands or by using image streams. No distinction is made between internal and external references. However, each unique reference that is tagged in an image stream specification is counted just once. It does not restrict pushes to an internal container image registry in any way, but is useful for tag restriction.
The openshift.io/images resource represents unique image names that are recorded in image stream status. It helps to restrict several images that can be pushed to the internal registry. Internal and external references are not distinguished.
5.3.6. PersistentVolumeClaim limits
Supported Resources:
- Storage
Supported Constraints:
Across all persistent volume claims in a project, the following must hold true:
| Constraint | Enforced Behavior |
|---|---|
|
| Min[<resource>] <= claim.spec.resources.requests[<resource>] (required) |
|
| claim.spec.resources.requests[<resource>] (required) <= Max[<resource>] |
Limit Range Object Definition
{
"apiVersion": "v1",
"kind": "LimitRange",
"metadata": {
"name": "pvcs" 1
},
"spec": {
"limits": [{
"type": "PersistentVolumeClaim",
"min": {
"storage": "2Gi" 2
},
"max": {
"storage": "50Gi" 3
}
}
]
}
}
Additional resources
For information on stream limits, see managing images streams.
For information on stream limits.
For more information on compute resource constraints.
For more information on how CPU and memory are measured, see Recommended control plane practices.
You can specify limits and requests for ephemeral storage. For more information on this feature, see Understanding ephemeral storage.
5.4. Limit range operations
5.4.1. Creating a limit range
Shown here is an example procedure to follow for creating a limit range.
Procedure
Create the object:
$ oc create -f <limit_range_file> -n <project>
5.4.2. View the limit
You can view any limit ranges that are defined in a project by navigating in the web console to the Quota page for the project. You can also use the CLI to view limit range details by performing the following steps:
Procedure
Get the list of limit range objects that are defined in the project. For example, a project called
demoproject:$ oc get limits -n demoproject
Example Output
NAME AGE resource-limits 6d
Describe the limit range. For example, for a limit range called
resource-limits:$ oc describe limits resource-limits -n demoproject
Example Output
Name: resource-limits Namespace: demoproject Type Resource Min Max Default Request Default Limit Max Limit/Request Ratio ---- -------- --- --- --------------- ------------- ----------------------- Pod cpu 200m 2 - - - Pod memory 6Mi 1Gi - - - Container cpu 100m 2 200m 300m 10 Container memory 4Mi 1Gi 100Mi 200Mi - openshift.io/Image storage - 1Gi - - - openshift.io/ImageStream openshift.io/image - 12 - - - openshift.io/ImageStream openshift.io/image-tags - 10 - - -
5.4.3. Deleting a limit range
To remove a limit range, run the following command:
+
$ oc delete limits <limit_name>
S
Additional resources
For information about enforcing different limits on the number of projects that your users can create, managing limits, and quota on project resources, see Resource quotas per projects.
