@kubernetes-models/gke/dataproc.cnrm.cloud.google.com/v1beta1/DataprocAutoscalingPolicy.d.ts

Kubernetes GKE models

import { IObjectMeta } from "@kubernetes-models/apimachinery/apis/meta/v1/ObjectMeta";
import { Model, ModelData } from "@kubernetes-models/base";
export interface IDataprocAutoscalingPolicy {
    /**
     * apiVersion defines the versioned schema of this representation of an object. Servers should convert recognized schemas to the latest internal value, and may reject unrecognized values. More info: https://git.k8s.io/community/contributors/devel/api-conventions.md#resources
     */
    "apiVersion": "dataproc.cnrm.cloud.google.com/v1beta1";
    /**
     * kind is a string value representing the REST resource this object represents. Servers may infer this from the endpoint the client submits requests to. Cannot be updated. In CamelCase. More info: https://git.k8s.io/community/contributors/devel/api-conventions.md#types-kinds
     */
    "kind": "DataprocAutoscalingPolicy";
    "metadata"?: IObjectMeta;
    "spec": {
        "basicAlgorithm": {
            /**
             * Optional. Duration between scaling events. A scaling period starts after the update operation from the previous event has completed. Bounds: . Default: 2m.
             */
            "cooldownPeriod"?: string;
            /**
             * Required. YARN autoscaling configuration.
             */
            "yarnConfig": {
                /**
                 * Required. Timeout for YARN graceful decommissioning of Node Managers. Specifies the duration to wait for jobs to complete before forcefully removing workers (and potentially interrupting jobs). Only applicable to downscaling operations.
                 */
                "gracefulDecommissionTimeout": string;
                /**
                 * Required. Fraction of average YARN pending memory in the last cooldown period for which to remove workers. A scale-down factor of 1 will result in scaling down so that there is no available memory remaining after the update (more aggressive scaling). A scale-down factor of 0 disables removing workers, which can be beneficial for autoscaling a single job. See .
                 */
                "scaleDownFactor": number;
                /**
                 * Optional. Minimum scale-down threshold as a fraction of total cluster size before scaling occurs. For example, in a 20-worker cluster, a threshold of 0.1 means the autoscaler must recommend at least a 2 worker scale-down for the cluster to scale. A threshold of 0 means the autoscaler will scale down on any recommended change. Bounds: . Default: 0.0.
                 */
                "scaleDownMinWorkerFraction"?: number;
                /**
                 * Required. Fraction of average YARN pending memory in the last cooldown period for which to add workers. A scale-up factor of 1.0 will result in scaling up so that there is no pending memory remaining after the update (more aggressive scaling). A scale-up factor closer to 0 will result in a smaller magnitude of scaling up (less aggressive scaling). See .
                 */
                "scaleUpFactor": number;
                /**
                 * Optional. Minimum scale-up threshold as a fraction of total cluster size before scaling occurs. For example, in a 20-worker cluster, a threshold of 0.1 means the autoscaler must recommend at least a 2-worker scale-up for the cluster to scale. A threshold of 0 means the autoscaler will scale up on any recommended change. Bounds: . Default: 0.0.
                 */
                "scaleUpMinWorkerFraction"?: number;
            };
        };
        /**
         * Immutable. The location for the resource
         */
        "location": string;
        /**
         * Immutable. The Project that this resource belongs to.
         */
        "projectRef"?: {
            /**
             * The project for the resource
             *
             * Allowed value: The Google Cloud resource name of a `Project` resource (format: `projects/{{name}}`).
             */
            "external"?: string;
            /**
             * Name of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
             */
            "name"?: string;
            /**
             * Namespace of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/namespaces/
             */
            "namespace"?: string;
        } & (Exclude<{
            /**
             * The project for the resource
             *
             * Allowed value: The Google Cloud resource name of a `Project` resource (format: `projects/{{name}}`).
             */
            "external"?: string;
            /**
             * Name of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
             */
            "name": string;
            /**
             * Namespace of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/namespaces/
             */
            "namespace"?: string;
        }, {
            /**
             * The project for the resource
             *
             * Allowed value: The Google Cloud resource name of a `Project` resource (format: `projects/{{name}}`).
             */
            "external": string;
            /**
             * Name of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
             */
            "name"?: string;
            /**
             * Namespace of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/namespaces/
             */
            "namespace"?: string;
        }> | Exclude<{
            /**
             * The project for the resource
             *
             * Allowed value: The Google Cloud resource name of a `Project` resource (format: `projects/{{name}}`).
             */
            "external": string;
            /**
             * Name of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
             */
            "name"?: string;
            /**
             * Namespace of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/namespaces/
             */
            "namespace"?: string;
        }, {
            /**
             * The project for the resource
             *
             * Allowed value: The Google Cloud resource name of a `Project` resource (format: `projects/{{name}}`).
             */
            "external": string;
            /**
             * Name of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
             */
            "name"?: string;
            /**
             * Namespace of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/namespaces/
             */
            "namespace"?: string;
        } & ({
            /**
             * The project for the resource
             *
             * Allowed value: The Google Cloud resource name of a `Project` resource (format: `projects/{{name}}`).
             */
            "external"?: string;
            /**
             * Name of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
             */
            "name": string;
            /**
             * Namespace of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/namespaces/
             */
            "namespace"?: string;
        } | {
            /**
             * The project for the resource
             *
             * Allowed value: The Google Cloud resource name of a `Project` resource (format: `projects/{{name}}`).
             */
            "external"?: string;
            /**
             * Name of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
             */
            "name"?: string;
            /**
             * Namespace of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/namespaces/
             */
            "namespace": string;
        })>);
        /**
         * Immutable. Optional. The name of the resource. Used for creation and acquisition. When unset, the value of `metadata.name` is used as the default.
         */
        "resourceID"?: string;
        /**
         * Optional. Describes how the autoscaler will operate for secondary workers.
         */
        "secondaryWorkerConfig"?: {
            /**
             * Optional. Maximum number of instances for this group. Note that by default, clusters will not use secondary workers. Required for secondary workers if the minimum secondary instances is set. Primary workers - Bounds: [min_instances, ). Secondary workers - Bounds: [min_instances, ). Default: 0.
             */
            "maxInstances"?: number;
            /**
             * Optional. Minimum number of instances for this group. Primary workers - Bounds: . Default: 0.
             */
            "minInstances"?: number;
            /**
             * Optional. Weight for the instance group, which is used to determine the fraction of total workers in the cluster from this instance group. For example, if primary workers have weight 2, and secondary workers have weight 1, the cluster will have approximately 2 primary workers for each secondary worker. The cluster may not reach the specified balance if constrained by min/max bounds or other autoscaling settings. For example, if `max_instances` for secondary workers is 0, then only primary workers will be added. The cluster can also be out of balance when created. If weight is not set on any instance group, the cluster will default to equal weight for all groups: the cluster will attempt to maintain an equal number of workers in each group within the configured size bounds for each group. If weight is set for one group only, the cluster will default to zero weight on the unset group. For example if weight is set only on primary workers, the cluster will use primary workers only and no secondary workers.
             */
            "weight"?: number;
        };
        /**
         * Required. Describes how the autoscaler will operate for primary workers.
         */
        "workerConfig": {
            /**
             * Required. Maximum number of instances for this group. Required for primary workers. Note that by default, clusters will not use secondary workers. Required for secondary workers if the minimum secondary instances is set. Primary workers - Bounds: [min_instances, ). Secondary workers - Bounds: [min_instances, ). Default: 0.
             */
            "maxInstances": number;
            /**
             * Optional. Minimum number of instances for this group. Primary workers - Bounds: . Default: 0.
             */
            "minInstances"?: number;
            /**
             * Optional. Weight for the instance group, which is used to determine the fraction of total workers in the cluster from this instance group. For example, if primary workers have weight 2, and secondary workers have weight 1, the cluster will have approximately 2 primary workers for each secondary worker. The cluster may not reach the specified balance if constrained by min/max bounds or other autoscaling settings. For example, if `max_instances` for secondary workers is 0, then only primary workers will be added. The cluster can also be out of balance when created. If weight is not set on any instance group, the cluster will default to equal weight for all groups: the cluster will attempt to maintain an equal number of workers in each group within the configured size bounds for each group. If weight is set for one group only, the cluster will default to zero weight on the unset group. For example if weight is set only on primary workers, the cluster will use primary workers only and no secondary workers.
             */
            "weight"?: number;
        };
    };
    "status"?: {
        /**
         * Conditions represent the latest available observation of the resource's current state.
         */
        "conditions"?: Array<{
            /**
             * Last time the condition transitioned from one status to another.
             */
            "lastTransitionTime"?: string;
            /**
             * Human-readable message indicating details about last transition.
             */
            "message"?: string;
            /**
             * Unique, one-word, CamelCase reason for the condition's last transition.
             */
            "reason"?: string;
            /**
             * Status is the status of the condition. Can be True, False, Unknown.
             */
            "status"?: string;
            /**
             * Type is the type of the condition.
             */
            "type"?: string;
        }>;
        /**
         * ObservedGeneration is the generation of the resource that was most recently observed by the Config Connector controller. If this is equal to metadata.generation, then that means that the current reported status reflects the most recent desired state of the resource.
         */
        "observedGeneration"?: number;
    };
}
export declare class DataprocAutoscalingPolicy extends Model<IDataprocAutoscalingPolicy> implements IDataprocAutoscalingPolicy {
    "apiVersion": IDataprocAutoscalingPolicy["apiVersion"];
    "kind": IDataprocAutoscalingPolicy["kind"];
    "metadata"?: IDataprocAutoscalingPolicy["metadata"];
    "spec": IDataprocAutoscalingPolicy["spec"];
    "status"?: IDataprocAutoscalingPolicy["status"];
    static apiVersion: IDataprocAutoscalingPolicy["apiVersion"];
    static kind: IDataprocAutoscalingPolicy["kind"];
    static is: import("@kubernetes-models/base").TypeMetaGuard<IDataprocAutoscalingPolicy>;
    constructor(data?: ModelData<IDataprocAutoscalingPolicy>);
}