ScaledObject specification Latest
Overview
This specification describes the ScaledObject
Custom Resource definition that defines the triggers and scaling behaviors used by KEDA to scale Deployment
, StatefulSet
and Custom Resource
target resources. The .spec.ScaleTargetRef
section holds the reference to the target resource, defined in scaledobject_types.go.
apiVersion: keda.sh/v1alpha1
kind: ScaledObject
metadata:
name: {scaled-object-name}
annotations:
scaledobject.keda.sh/transfer-hpa-ownership: "true" # Optional. Use to transfer an existing HPA ownership to this ScaledObject
validations.keda.sh/hpa-ownership: "true" # Optional. Use to disable HPA ownership validation on this ScaledObject
autoscaling.keda.sh/paused: "true" # Optional. Use to pause autoscaling of objects explicitly
spec:
scaleTargetRef:
apiVersion: {api-version-of-target-resource} # Optional. Default: apps/v1
kind: {kind-of-target-resource} # Optional. Default: Deployment
name: {name-of-target-resource} # Mandatory. Must be in the same namespace as the ScaledObject
envSourceContainerName: {container-name} # Optional. Default: .spec.template.spec.containers[0]
pollingInterval: 30 # Optional. Default: 30 seconds
cooldownPeriod: 300 # Optional. Default: 300 seconds
idleReplicaCount: 0 # Optional. Default: ignored, must be less than minReplicaCount
minReplicaCount: 1 # Optional. Default: 0
maxReplicaCount: 100 # Optional. Default: 100
fallback: # Optional. Section to specify fallback options
failureThreshold: 3 # Mandatory if fallback section is included
replicas: 6 # Mandatory if fallback section is included
advanced: # Optional. Section to specify advanced options
restoreToOriginalReplicaCount: true/false # Optional. Default: false
horizontalPodAutoscalerConfig: # Optional. Section to specify HPA related options
name: {name-of-hpa-resource} # Optional. Default: keda-hpa-{scaled-object-name}
behavior: # Optional. Use to modify HPA's scaling behavior
scaleDown:
stabilizationWindowSeconds: 300
policies:
- type: Percent
value: 100
periodSeconds: 15
triggers:
# {list of triggers to activate scaling of the target resource}
scaleTargetRef
scaleTargetRef:
apiVersion: {api-version-of-target-resource} # Optional. Default: apps/v1
kind: {kind-of-target-resource} # Optional. Default: Deployment
name: {name-of-target-resource} # Mandatory. Must be in the same namespace as the ScaledObject
envSourceContainerName: {container-name} # Optional. Default: .spec.template.spec.containers[0]
The reference to the resource this ScaledObject is configured for. This is the resource KEDA will scale up/down and set up an HPA for, based on the triggers defined in triggers:
.
To scale Kubernetes Deployments only name
need be specified. To scale a different resource such as StatefulSet or Custom Resource (that defines /scale
subresource), appropriate apiVersion
(following standard Kubernetes convention, ie. {api}/{version}
) and kind
need to be specified.
envSourceContainerName
is an optional property that specifies the name of container in the target resource, from which KEDA should try to get environment properties holding secrets etc. If it is not defined, KEDA will try to get environment properties from the first Container, ie. from .spec.template.spec.containers[0]
.
Assumptions: Resource referenced by name
(and apiVersion
, kind
) is in the same namespace as the ScaledObject
pollingInterval
pollingInterval: 30 # Optional. Default: 30 seconds
This is the interval to check each trigger on. By default, KEDA will check each trigger source on every ScaledObject every 30 seconds.
Example: in a queue scenario, KEDA will check the queueLength every pollingInterval
, and scale the resource up or down accordingly.
cooldownPeriod
cooldownPeriod: 300 # Optional. Default: 300 seconds
The period to wait after the last trigger reported active before scaling the resource back to 0, in seconds. By default, it’s 300 (5 minutes).
The cooldownPeriod
only applies after a trigger occurs; when you first create your Deployment
(or StatefulSet
/CustomResource
), KEDA will immediately scale it to minReplicaCount
. Additionally, the KEDA cooldownPeriod
only applies when scaling to 0; scaling from 1 to N replicas is handled by the Kubernetes Horizontal Pod Autoscaler.
Example: wait 5 minutes after the last time KEDA checked the queue and it was empty. (this is obviously dependent on pollingInterval
)
initialCooldownPeriod
InitialCooldownPeriod: 120 # Optional. Default: 0 seconds
The delay before the cooldownPeriod
starts after the initial creation of the ScaledObject
, in seconds. By default, it’s 0, meaning the cooldownPeriod
begins immediately upon creation. If set to a value such as 120 seconds, the cooldownPeriod
will only start after the ScaledObject
has been active for that duration.
This parameter is particularly useful for managing the scale-down behavior during the initial phase of a ScaledObject
. For instance, if InitialCooldownPeriod
is set to 120 seconds, KEDA will not scale the resource back to 0 until 120 seconds have passed since the ScaledObject
creation, regardless of the activity triggers. This allows for a grace period in situations where immediate scaling down after creation is not desirable.
Example: Wait 120 seconds after the ScaledObject
is created before starting the cooldownPeriod
. For instance, if the InitialCooldownPeriod
is set to 120 seconds, KEDA will not initiate the cooldown process until 120 seconds have passed since the ScaledObject
was first created, regardless of the triggers’ activity. This ensures a buffer period where the resource won’t be scaled down immediately after creation. (Note: This setting is independent of the pollingInterval
.)
idleReplicaCount
idleReplicaCount: 0 # Optional. Default: ignored, must be less than minReplicaCount
💡 NOTE: Due to limitations in HPA controller the only supported value for this property is 0, it will not work correctly otherwise. See this issue for more details.
In some cases, you always need at least
n
pod running. Thus, you can omit this property and setminReplicaCount
ton
.Example You set
minReplicaCount
to 1 andmaxReplicaCount
to 10. If there’s no activity on triggers, the target resource is scaled down tominReplicaCount
(1). Once there are activities, the target resource will scale base on the HPA rule. If there’s no activity on triggers, the resource is again scaled down tominReplicaCount
(1).
If this property is set, KEDA will scale the resource down to this number of replicas. If there’s some activity on target triggers KEDA will scale the target resource immediately to minReplicaCount
and then will be scaling handled by HPA. When there is no activity, the target resource is again scaled down to idleReplicaCount
. This setting must be less than minReplicaCount
.
Example: If there’s no activity on triggers the target resource is scaled down to idleReplicaCount
(0), once there is an activity the target resource is immediately scaled to minReplicaCount
(10) and then up to maxReplicaCount
(100) as needed. If there’s no activity on triggers the resource is again scaled down to idleReplicaCount
(0).
minReplicaCount
minReplicaCount: 1 # Optional. Default: 0
Minimum number of replicas KEDA will scale the resource down to. By default, it’s scale to zero, but you can use it with some other value as well.
maxReplicaCount
maxReplicaCount: 100 # Optional. Default: 100
This setting is passed to the HPA definition that KEDA will create for a given resource and holds the maximum number of replicas of the target resource.
fallback
fallback: # Optional. Section to specify fallback options
failureThreshold: 3 # Mandatory if fallback section is included
replicas: 6 # Mandatory if fallback section is included
The fallback
section is optional. It defines a number of replicas to fall back to if a scaler is in an error state.
KEDA will keep track of the number of consecutive times each scaler has failed to get metrics from its source. Once that value passes the failureThreshold
, instead of not propagating a metric to the HPA (the default error behaviour), the scaler will, instead, return a normalised metric using the formula:
target metric value * fallback replicas
Due to the HPA metric being of type AverageValue
(see below), this will have the effect of the HPA scaling the deployment to the defined number of fallback replicas.
Example: When my instance of prometheus is unavailable 3 consecutive times, KEDA will change the HPA metric such that the deployment will scale to 6 replicas.
There are a few limitations to using a fallback:
- It only supports scalers whose target is an
AverageValue
metric. Thus, it is not supported by the CPU & memory scalers, or by scalers whose metric target type isValue
. In these cases, it will assume that fallback is disabled. - It is only supported by
ScaledObjects
notScaledJobs
.
advanced
restoreToOriginalReplicaCount
advanced:
restoreToOriginalReplicaCount: true/false # Optional. Default: false
This property specifies whether the target resource (Deployment
, StatefulSet
,…) should be scaled back to original replicas count, after the ScaledObject
is deleted.
Default behavior is to keep the replica count at the same number as it is in the moment of ScaledObject's
deletion.
For example a Deployment
with 3 replicas
is created, then ScaledObject
is created and the Deployment
is scaled by KEDA to 10 replicas
. Then ScaledObject
is deleted:
- if
restoreToOriginalReplicaCount = false
(default behavior) thenDeployment
replicas count is10
- if
restoreToOriginalReplicaCount = true
thenDeployment
replicas count is set back to3
(the original value)
horizontalPodAutoscalerConfig
advanced:
horizontalPodAutoscalerConfig: # Optional. Section to specify HPA related options
name: {name-of-hpa-resource} # Optional. Default: keda-hpa-{scaled-object-name}
behavior: # Optional. Use to modify HPA's scaling behavior
scaleDown:
stabilizationWindowSeconds: 300
policies:
- type: Percent
value: 100
periodSeconds: 15
horizontalPodAutoscalerConfig.name
The name of the HPA resource KEDA will create. By default, it’s keda-hpa-{scaled-object-name}
horizontalPodAutoscalerConfig.behavior
Starting from Kubernetes v1.18 the autoscaling API allows scaling behavior to be configured through the HPA behavior field. This way one can directly affect scaling of 1<->N replicas, which is internally being handled by HPA. KEDA would feed values from this section directly to the HPA’s behavior
field. Please follow Kubernetes documentation for details.
Assumptions: KEDA must be running on Kubernetes cluster v1.18+, in order to be able to benefit from this setting.
advanced:
scalingModifiers: # Optional. Section to specify scaling modifiers
target: {target-value-to-scale-on} # Mandatory. New target if metrics are anyhow composed together
activationTarget: {activation-target-value-to-scale-on} # Optional. New activation target if metrics are anyhow composed together
metricType: {metric-tipe-for-the-modifier} # Optional. Metric type to be used if metrics are anyhow composed together
formula: {formula-for-fetched-metrics} # Mandatory. Formula for calculation
scalingModifiers
The scalingModifiers
is optional and experimental. If defined, both target
and formula
are mandatory. Using this structure creates composite-metric
for the HPA that will replace all requests for external metrics and handle them internally. With scalingModifiers
each trigger used in the formula
must have a name defined.
scalingModifiers.target
target
defines new target value to scale on for the composed metric.
scalingModifiers.activationTarget
activationTarget
defines a new activation target value to scale on for the composed metric. (Default: 0
, Optional)
scalingModifiers.metricType
metricType
defines metric type used for this new composite-metric
. (Values: AverageValue
, Value
, Default: AverageValue
, Optional)
scalingModifiers.formula
formula
composes metrics together and allows them to be modified/manipulated. It accepts mathematical/conditional statements using this external project. If the fallback
scaling feature is in effect, the formula
will NOT modify its metrics (therefore it modifies metrics only when all of their triggers are healthy). Complete language definition of expr
package can be found here. Formula must return a single value (not boolean).
For examples of this feature see section Scaling Modifiers.
triggers
triggers:
# {list of triggers to activate scaling of the target resource}
💡 NOTE: You can find all supported triggers here.
Trigger fields:
- type: The type of trigger to use. (Mandatory)
- metadata: The configuration parameters that the trigger requires. (Mandatory)
- name: Name for this trigger. This value can be used to easily distinguish this specific trigger and its metrics when consuming Prometheus metrics. By default, the name is generated from the trigger type. (Optional)
- useCachedMetrics: Enables caching of metric values during polling interval (as specified in
.spec.pollingInterval
). For more information, see “Caching Metrics”. (Values:false
,true
, Default:false
, Optional) - authenticationRef: A reference to the
TriggerAuthentication
orClusterTriggerAuthentication
object that is used to authenticate the scaler with the environment.- More details can be found here. (Optional)
- metricType: The type of metric that should be used. (Values:
AverageValue
,Value
,Utilization
, Default:AverageValue
, Optional)- Learn more about how the Horizontal Pod Autoscaler (HPA) calculates
replicaCount
based on metric type and value. - To show the differences between the metric types, let’s assume we want to scale a deployment with 3 running replicas based on a queue of messages:
- With
AverageValue
metric type, we can control how many messages, on average, each replica will handle. If our metric is the queue size, the threshold is 5 messages, and the current message count in the queue is 20, HPA will scale the deployment to 20 / 5 = 4 replicas, regardless of the current replica count. - The
Value
metric type, on the other hand, can be used when we don’t want to take the average of the given metric across all replicas. For example, with theValue
type, we can control the average time of messages in the queue. If our metric is average time in the queue, the threshold is 5 milliseconds, and the current average time is 20 milliseconds, HPA will scale the deployment to 3 * 20 / 5 = 12.
- With
- Learn more about how the Horizontal Pod Autoscaler (HPA) calculates
⚠️ NOTE: All scalers, except CPU and Memory, support metric types
AverageValue
andValue
while CPU and Memory scalers both supportAverageValue
andUtilization
.