$ oc describe PodMetrics openshift-kube-scheduler-ip-10-0-135-131.ec2.internal
To add a custom metrics autoscaler, create a ScaledObject
custom resource for a deployment, stateful set, or custom resource. Create a ScaledJob
custom resource for a job.
You can create only one scaled object for each workload that you want to scale. Also, you cannot use a scaled object and the horizontal pod autoscaler (HPA) on the same workload.
You can create a custom metrics autoscaler for a workload that is created by a deployment
, StatefulSet
, or custom resource
object.
The Custom Metrics Autoscaler Operator must be installed.
If you use a custom metrics autoscaler for scaling based on CPU or memory:
Your cluster administrator must have properly configured cluster metrics. You can use the oc describe PodMetrics <pod-name>
command to determine if metrics are configured. If metrics are configured, the output appears similar to the following, with CPU and Memory displayed under Usage.
$ oc describe PodMetrics openshift-kube-scheduler-ip-10-0-135-131.ec2.internal
Name: openshift-kube-scheduler-ip-10-0-135-131.ec2.internal
Namespace: openshift-kube-scheduler
Labels: <none>
Annotations: <none>
API Version: metrics.k8s.io/v1beta1
Containers:
Name: wait-for-host-port
Usage:
Memory: 0
Name: scheduler
Usage:
Cpu: 8m
Memory: 45440Ki
Kind: PodMetrics
Metadata:
Creation Timestamp: 2019-05-23T18:47:56Z
Self Link: /apis/metrics.k8s.io/v1beta1/namespaces/openshift-kube-scheduler/pods/openshift-kube-scheduler-ip-10-0-135-131.ec2.internal
Timestamp: 2019-05-23T18:47:56Z
Window: 1m0s
Events: <none>
The pods associated with the object you want to scale must include specified memory and CPU limits. For example:
apiVersion: v1
kind: Pod
# ...
spec:
containers:
- name: app
image: images.my-company.example/app:v4
resources:
limits:
memory: "128Mi"
cpu: "500m"
# ...
Create a YAML file similar to the following. Only the name <2>
, object name <4>
, and object kind <5>
are required:
apiVersion: keda.sh/v1alpha1
kind: ScaledObject
metadata:
annotations:
autoscaling.keda.sh/paused-replicas: "0" (1)
name: scaledobject (2)
namespace: my-namespace
spec:
scaleTargetRef:
apiVersion: apps/v1 (3)
name: example-deployment (4)
kind: deployment (5)
envSourceContainerName: .spec.template.spec.containers[0] (6)
cooldownPeriod: 200 (7)
maxReplicaCount: 100 (8)
minReplicaCount: 0 (9)
metricsServer: (10)
auditConfig:
logFormat: "json"
logOutputVolumeClaim: "persistentVolumeClaimName"
policy:
rules:
- level: Metadata
omitStages: "RequestReceived"
omitManagedFields: false
lifetime:
maxAge: "2"
maxBackup: "1"
maxSize: "50"
fallback: (11)
failureThreshold: 3
replicas: 6
pollingInterval: 30 (12)
advanced:
restoreToOriginalReplicaCount: false (13)
horizontalPodAutoscalerConfig:
name: keda-hpa-scale-down (14)
behavior: (15)
scaleDown:
stabilizationWindowSeconds: 300
policies:
- type: Percent
value: 100
periodSeconds: 15
triggers:
- type: prometheus (16)
metadata:
serverAddress: https://thanos-querier.openshift-monitoring.svc.cluster.local:9092
namespace: kedatest
metricName: http_requests_total
threshold: '5'
query: sum(rate(http_requests_total{job="test-app"}[1m]))
authModes: basic
- authenticationRef: (17)
name: prom-triggerauthentication
metadata:
name: prom-triggerauthentication
type: object
- authenticationRef: (18)
name: prom-cluster-triggerauthentication
metadata:
name: prom-cluster-triggerauthentication
type: object
1 | Optional: Specifies that the Custom Metrics Autoscaler Operator is to scale the replicas to the specified value and stop autoscaling, as described in the "Pausing the custom metrics autoscaler for a workload" section. |
2 | Specifies a name for this custom metrics autoscaler. |
3 | Optional: Specifies the API version of the target resource. The default is apps/v1 . |
4 | Specifies the name of the object that you want to scale. |
5 | Specifies the kind as deployment , StatefulSet or CustomResource . |
6 | Optional: Specifies the name of the container in the target resource, from which the custom metrics autoscaler gets environment variables holding secrets and so forth. The default is .spec.template.spec.containers[0] . |
7 | Optional. Specifies the period in seconds to wait after the last trigger is reported before scaling the deployment back to 0 if the minReplicaCount is set to 0 . The default is 300 . |
8 | Optional: Specifies the maximum number of replicas when scaling up. The default is 100 . |
9 | Optional: Specifies the minimum number of replicas when scaling down. |
10 | Optional: Specifies the parameters for audit logs. as described in the "Configuring audit logging" section. |
11 | Optional: Specifies the number of replicas to fall back to if a scaler fails to get metrics from the source for the number of times defined by the failureThreshold parameter. For more information on fallback behavior, see the KEDA documentation. |
12 | Optional: Specifies the interval in seconds to check each trigger on. The default is 30 . |
13 | Optional: Specifies whether to scale back the target resource to the original replica count after the scaled object is deleted. The default is false , which keeps the replica count as it is when the scaled object is deleted. |
14 | Optional: Specifies a name for the horizontal pod autoscaler. The default is keda-hpa-{scaled-object-name} . |
15 | Optional: Specifies a scaling policy to use to control the rate to scale pods up or down, as described in the "Scaling policies" section. |
16 | Specifies the trigger to use as the basis for scaling, as described in the "Understanding the custom metrics autoscaler triggers" section. This example uses OpenShift Container Platform monitoring. |
17 | Optional: Specifies a trigger authentication, as described in the "Creating a custom metrics autoscaler trigger authentication" section. |
18 | Optional: Specifies a cluster trigger authentication, as described in the "Creating a custom metrics autoscaler trigger authentication" section. |
It is not necessary to specify both a namespace trigger authentication and a cluster trigger authentication. |
Create the custom metrics autoscaler:
$ oc create -f <file-name>.yaml
View the command output to verify that the custom metrics autoscaler was created:
$ oc get scaledobject <scaled_object_name>
NAME SCALETARGETKIND SCALETARGETNAME MIN MAX TRIGGERS AUTHENTICATION READY ACTIVE FALLBACK AGE
scaledobject apps/v1.deployment example-deployment 0 50 prometheus prom-triggerauthentication True True True 17s
Note the following fields in the output:
TRIGGERS
: Indicates the trigger, or scaler, that is being used.
AUTHENTICATION
: Indicates the name of any trigger authentication being used.
READY
: Indicates whether the scaled object is ready to start scaling:
If True
, the scaled object is ready.
If False
, the scaled object is not ready because of a problem in one or more of the objects you created.
ACTIVE
: Indicates whether scaling is taking place:
If True
, scaling is taking place.
If False
, scaling is not taking place because there are no metrics or there is a problem in one or more of the objects you created.
FALLBACK
: Indicates whether the custom metrics autoscaler is able to get metrics from the source
If False
, the custom metrics autoscaler is getting metrics.
If True
, the custom metrics autoscaler is getting metrics because there are no metrics or there is a problem in one or more of the objects you created.
You can create a custom metrics autoscaler for any Job
object.
Scaling by using a scaled job is a Technology Preview feature only. Technology Preview features are not supported with Red Hat production service level agreements (SLAs) and might not be functionally complete. Red Hat does not recommend using them in production. These features provide early access to upcoming product features, enabling customers to test functionality and provide feedback during the development process. For more information about the support scope of Red Hat Technology Preview features, see Technology Preview Features Support Scope. |
The Custom Metrics Autoscaler Operator must be installed.
Create a YAML file similar to the following:
kind: ScaledJob
apiVersion: keda.sh/v1alpha1
metadata:
name: scaledjob
namespace: my-namespace
spec:
failedJobsHistoryLimit: 5
jobTargetRef:
activeDeadlineSeconds: 600 (1)
backoffLimit: 6 (2)
parallelism: 1 (3)
completions: 1 (4)
template: (5)
metadata:
name: pi
spec:
containers:
- name: pi
image: perl
command: ["perl", "-Mbignum=bpi", "-wle", "print bpi(2000)"]
maxReplicaCount: 100 (6)
pollingInterval: 30 (7)
successfulJobsHistoryLimit: 5 (8)
failedJobsHistoryLimit: 5 (9)
envSourceContainerName: (10)
rolloutStrategy: gradual (11)
scalingStrategy: (12)
strategy: "custom"
customScalingQueueLengthDeduction: 1
customScalingRunningJobPercentage: "0.5"
pendingPodConditions:
- "Ready"
- "PodScheduled"
- "AnyOtherCustomPodCondition"
multipleScalersCalculation : "max"
triggers:
- type: prometheus (13)
metadata:
serverAddress: https://thanos-querier.openshift-monitoring.svc.cluster.local:9092
namespace: kedatest
metricName: http_requests_total
threshold: '5'
query: sum(rate(http_requests_total{job="test-app"}[1m]))
authModes: "bearer"
- authenticationRef: (14)
name: prom-triggerauthentication
metadata:
name: prom-triggerauthentication
type: object
- authenticationRef: (15)
name: prom-cluster-triggerauthentication
metadata:
name: prom-cluster-triggerauthentication
type: object
1 | Specifies the maximum duration the job can run. | ||
2 | Specifies the number of retries for a job. The default is 6 . |
||
3 | Optional: Specifies how many pod replicas a job should run in parallel; defaults to 1 .
|
||
4 | Optional: Specifies how many successful pod completions are needed to mark a job completed.
|
||
5 | Specifies the template for the pod the controller creates. | ||
6 | Optional: Specifies the maximum number of replicas when scaling up. The default is 100 . |
||
7 | Optional: Specifies the interval in seconds to check each trigger on. The default is 30 . |
||
8 | Optional: Specifies the number of successful finished jobs should be kept. The default is 100 . |
||
9 | Optional: Specifies how many failed jobs should be kept. The default is 100 . |
||
10 | Optional: Specifies the name of the container in the target resource, from which the custom autoscaler gets environment variables holding secrets and so forth. The default is .spec.template.spec.containers[0] . |
||
11 | Optional: Specifies whether existing jobs are terminated whenever a scaled job is being updated:
|
||
12 | Optional: Specifies a scaling strategy: default , custom , or accurate . The default is default . For more information, see the link in the "Additional resources" section that follows. |
||
13 | Specifies the trigger to use as the basis for scaling, as described in the "Understanding the custom metrics autoscaler triggers" section. | ||
14 | Optional: Specifies a trigger authentication, as described in the "Creating a custom metrics autoscaler trigger authentication" section. | ||
15 | Optional: Specifies a cluster trigger authentication, as described in the "Creating a custom metrics autoscaler trigger authentication" section.
|
Create the custom metrics autoscaler:
$ oc create -f <file-name>.yaml
View the command output to verify that the custom metrics autoscaler was created:
$ oc get scaledjob <scaled_job_name>
NAME MAX TRIGGERS AUTHENTICATION READY ACTIVE AGE
scaledjob 100 prometheus prom-triggerauthentication True True 8s
Note the following fields in the output:
TRIGGERS
: Indicates the trigger, or scaler, that is being used.
AUTHENTICATION
: Indicates the name of any trigger authentication being used.
READY
: Indicates whether the scaled object is ready to start scaling:
If True
, the scaled object is ready.
If False
, the scaled object is not ready because of a problem in one or more of the objects you created.
ACTIVE
: Indicates whether scaling is taking place:
If True
, scaling is taking place.
If False
, scaling is not taking place because there are no metrics or there is a problem in one or more of the objects you created.