/** * Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. * SPDX-License-Identifier: Apache-2.0. */ #pragma once #include #include #include #include #include #include #include namespace Aws { namespace Utils { namespace Json { class JsonValue; class JsonView; } // namespace Json } // namespace Utils namespace ApplicationAutoScaling { namespace Model { /** *

Represents a scaling activity.

See Also:

AWS * API Reference

*/ class AWS_APPLICATIONAUTOSCALING_API ScalingActivity { public: ScalingActivity(); ScalingActivity(Aws::Utils::Json::JsonView jsonValue); ScalingActivity& operator=(Aws::Utils::Json::JsonView jsonValue); Aws::Utils::Json::JsonValue Jsonize() const; /** *

The unique identifier of the scaling activity.

*/ inline const Aws::String& GetActivityId() const{ return m_activityId; } /** *

The unique identifier of the scaling activity.

*/ inline bool ActivityIdHasBeenSet() const { return m_activityIdHasBeenSet; } /** *

The unique identifier of the scaling activity.

*/ inline void SetActivityId(const Aws::String& value) { m_activityIdHasBeenSet = true; m_activityId = value; } /** *

The unique identifier of the scaling activity.

*/ inline void SetActivityId(Aws::String&& value) { m_activityIdHasBeenSet = true; m_activityId = std::move(value); } /** *

The unique identifier of the scaling activity.

*/ inline void SetActivityId(const char* value) { m_activityIdHasBeenSet = true; m_activityId.assign(value); } /** *

The unique identifier of the scaling activity.

*/ inline ScalingActivity& WithActivityId(const Aws::String& value) { SetActivityId(value); return *this;} /** *

The unique identifier of the scaling activity.

*/ inline ScalingActivity& WithActivityId(Aws::String&& value) { SetActivityId(std::move(value)); return *this;} /** *

The unique identifier of the scaling activity.

*/ inline ScalingActivity& WithActivityId(const char* value) { SetActivityId(value); return *this;} /** *

The namespace of the AWS service that provides the resource, or a * custom-resource.

*/ inline const ServiceNamespace& GetServiceNamespace() const{ return m_serviceNamespace; } /** *

The namespace of the AWS service that provides the resource, or a * custom-resource.

*/ inline bool ServiceNamespaceHasBeenSet() const { return m_serviceNamespaceHasBeenSet; } /** *

The namespace of the AWS service that provides the resource, or a * custom-resource.

*/ inline void SetServiceNamespace(const ServiceNamespace& value) { m_serviceNamespaceHasBeenSet = true; m_serviceNamespace = value; } /** *

The namespace of the AWS service that provides the resource, or a * custom-resource.

*/ inline void SetServiceNamespace(ServiceNamespace&& value) { m_serviceNamespaceHasBeenSet = true; m_serviceNamespace = std::move(value); } /** *

The namespace of the AWS service that provides the resource, or a * custom-resource.

*/ inline ScalingActivity& WithServiceNamespace(const ServiceNamespace& value) { SetServiceNamespace(value); return *this;} /** *

The namespace of the AWS service that provides the resource, or a * custom-resource.

*/ inline ScalingActivity& WithServiceNamespace(ServiceNamespace&& value) { SetServiceNamespace(std::move(value)); return *this;} /** *

The identifier of the resource associated with the scaling activity. This * string consists of the resource type and unique identifier.

  • ECS * service - The resource type is service and the unique identifier is * the cluster name and service name. Example: * service/default/sample-webapp.

  • Spot Fleet request * - The resource type is spot-fleet-request and the unique identifier * is the Spot Fleet request ID. Example: * spot-fleet-request/sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE.

    *

  • EMR cluster - The resource type is instancegroup and * the unique identifier is the cluster ID and instance group ID. Example: * instancegroup/j-2EEZNYKUA1NTV/ig-1791Y4E1L8YI0.

  • *

    AppStream 2.0 fleet - The resource type is fleet and the unique * identifier is the fleet name. Example: fleet/sample-fleet.

    *

  • DynamoDB table - The resource type is table and the * unique identifier is the table name. Example: table/my-table.

    *

  • DynamoDB global secondary index - The resource type is * index and the unique identifier is the index name. Example: * table/my-table/index/my-table-index.

  • Aurora DB * cluster - The resource type is cluster and the unique identifier is * the cluster name. Example: cluster:my-db-cluster.

  • *

    Amazon SageMaker endpoint variant - The resource type is variant * and the unique identifier is the resource ID. Example: * endpoint/my-end-point/variant/KMeansClustering.

  • *

    Custom resources are not supported with a resource type. This parameter must * specify the OutputValue from the CloudFormation template stack used * to access the resources. The unique identifier is defined by the service * provider. More information is available in our GitHub * repository.

  • Amazon Comprehend document classification * endpoint - The resource type and unique identifier are specified using the * endpoint ARN. Example: * arn:aws:comprehend:us-west-2:123456789012:document-classifier-endpoint/EXAMPLE.

    *

  • Lambda provisioned concurrency - The resource type is * function and the unique identifier is the function name with a * function version or alias name suffix that is not $LATEST. Example: * function:my-function:prod or * function:my-function:1.

  • Amazon Keyspaces table - * The resource type is table and the unique identifier is the table * name. Example: keyspace/mykeyspace/table/mytable.

*/ inline const Aws::String& GetResourceId() const{ return m_resourceId; } /** *

The identifier of the resource associated with the scaling activity. This * string consists of the resource type and unique identifier.

  • ECS * service - The resource type is service and the unique identifier is * the cluster name and service name. Example: * service/default/sample-webapp.

  • Spot Fleet request * - The resource type is spot-fleet-request and the unique identifier * is the Spot Fleet request ID. Example: * spot-fleet-request/sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE.

    *

  • EMR cluster - The resource type is instancegroup and * the unique identifier is the cluster ID and instance group ID. Example: * instancegroup/j-2EEZNYKUA1NTV/ig-1791Y4E1L8YI0.

  • *

    AppStream 2.0 fleet - The resource type is fleet and the unique * identifier is the fleet name. Example: fleet/sample-fleet.

    *

  • DynamoDB table - The resource type is table and the * unique identifier is the table name. Example: table/my-table.

    *

  • DynamoDB global secondary index - The resource type is * index and the unique identifier is the index name. Example: * table/my-table/index/my-table-index.

  • Aurora DB * cluster - The resource type is cluster and the unique identifier is * the cluster name. Example: cluster:my-db-cluster.

  • *

    Amazon SageMaker endpoint variant - The resource type is variant * and the unique identifier is the resource ID. Example: * endpoint/my-end-point/variant/KMeansClustering.

  • *

    Custom resources are not supported with a resource type. This parameter must * specify the OutputValue from the CloudFormation template stack used * to access the resources. The unique identifier is defined by the service * provider. More information is available in our GitHub * repository.

  • Amazon Comprehend document classification * endpoint - The resource type and unique identifier are specified using the * endpoint ARN. Example: * arn:aws:comprehend:us-west-2:123456789012:document-classifier-endpoint/EXAMPLE.

    *

  • Lambda provisioned concurrency - The resource type is * function and the unique identifier is the function name with a * function version or alias name suffix that is not $LATEST. Example: * function:my-function:prod or * function:my-function:1.

  • Amazon Keyspaces table - * The resource type is table and the unique identifier is the table * name. Example: keyspace/mykeyspace/table/mytable.

*/ inline bool ResourceIdHasBeenSet() const { return m_resourceIdHasBeenSet; } /** *

The identifier of the resource associated with the scaling activity. This * string consists of the resource type and unique identifier.

  • ECS * service - The resource type is service and the unique identifier is * the cluster name and service name. Example: * service/default/sample-webapp.

  • Spot Fleet request * - The resource type is spot-fleet-request and the unique identifier * is the Spot Fleet request ID. Example: * spot-fleet-request/sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE.

    *

  • EMR cluster - The resource type is instancegroup and * the unique identifier is the cluster ID and instance group ID. Example: * instancegroup/j-2EEZNYKUA1NTV/ig-1791Y4E1L8YI0.

  • *

    AppStream 2.0 fleet - The resource type is fleet and the unique * identifier is the fleet name. Example: fleet/sample-fleet.

    *

  • DynamoDB table - The resource type is table and the * unique identifier is the table name. Example: table/my-table.

    *

  • DynamoDB global secondary index - The resource type is * index and the unique identifier is the index name. Example: * table/my-table/index/my-table-index.

  • Aurora DB * cluster - The resource type is cluster and the unique identifier is * the cluster name. Example: cluster:my-db-cluster.

  • *

    Amazon SageMaker endpoint variant - The resource type is variant * and the unique identifier is the resource ID. Example: * endpoint/my-end-point/variant/KMeansClustering.

  • *

    Custom resources are not supported with a resource type. This parameter must * specify the OutputValue from the CloudFormation template stack used * to access the resources. The unique identifier is defined by the service * provider. More information is available in our GitHub * repository.

  • Amazon Comprehend document classification * endpoint - The resource type and unique identifier are specified using the * endpoint ARN. Example: * arn:aws:comprehend:us-west-2:123456789012:document-classifier-endpoint/EXAMPLE.

    *

  • Lambda provisioned concurrency - The resource type is * function and the unique identifier is the function name with a * function version or alias name suffix that is not $LATEST. Example: * function:my-function:prod or * function:my-function:1.

  • Amazon Keyspaces table - * The resource type is table and the unique identifier is the table * name. Example: keyspace/mykeyspace/table/mytable.

*/ inline void SetResourceId(const Aws::String& value) { m_resourceIdHasBeenSet = true; m_resourceId = value; } /** *

The identifier of the resource associated with the scaling activity. This * string consists of the resource type and unique identifier.

  • ECS * service - The resource type is service and the unique identifier is * the cluster name and service name. Example: * service/default/sample-webapp.

  • Spot Fleet request * - The resource type is spot-fleet-request and the unique identifier * is the Spot Fleet request ID. Example: * spot-fleet-request/sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE.

    *

  • EMR cluster - The resource type is instancegroup and * the unique identifier is the cluster ID and instance group ID. Example: * instancegroup/j-2EEZNYKUA1NTV/ig-1791Y4E1L8YI0.

  • *

    AppStream 2.0 fleet - The resource type is fleet and the unique * identifier is the fleet name. Example: fleet/sample-fleet.

    *

  • DynamoDB table - The resource type is table and the * unique identifier is the table name. Example: table/my-table.

    *

  • DynamoDB global secondary index - The resource type is * index and the unique identifier is the index name. Example: * table/my-table/index/my-table-index.

  • Aurora DB * cluster - The resource type is cluster and the unique identifier is * the cluster name. Example: cluster:my-db-cluster.

  • *

    Amazon SageMaker endpoint variant - The resource type is variant * and the unique identifier is the resource ID. Example: * endpoint/my-end-point/variant/KMeansClustering.

  • *

    Custom resources are not supported with a resource type. This parameter must * specify the OutputValue from the CloudFormation template stack used * to access the resources. The unique identifier is defined by the service * provider. More information is available in our GitHub * repository.

  • Amazon Comprehend document classification * endpoint - The resource type and unique identifier are specified using the * endpoint ARN. Example: * arn:aws:comprehend:us-west-2:123456789012:document-classifier-endpoint/EXAMPLE.

    *

  • Lambda provisioned concurrency - The resource type is * function and the unique identifier is the function name with a * function version or alias name suffix that is not $LATEST. Example: * function:my-function:prod or * function:my-function:1.

  • Amazon Keyspaces table - * The resource type is table and the unique identifier is the table * name. Example: keyspace/mykeyspace/table/mytable.

*/ inline void SetResourceId(Aws::String&& value) { m_resourceIdHasBeenSet = true; m_resourceId = std::move(value); } /** *

The identifier of the resource associated with the scaling activity. This * string consists of the resource type and unique identifier.

  • ECS * service - The resource type is service and the unique identifier is * the cluster name and service name. Example: * service/default/sample-webapp.

  • Spot Fleet request * - The resource type is spot-fleet-request and the unique identifier * is the Spot Fleet request ID. Example: * spot-fleet-request/sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE.

    *

  • EMR cluster - The resource type is instancegroup and * the unique identifier is the cluster ID and instance group ID. Example: * instancegroup/j-2EEZNYKUA1NTV/ig-1791Y4E1L8YI0.

  • *

    AppStream 2.0 fleet - The resource type is fleet and the unique * identifier is the fleet name. Example: fleet/sample-fleet.

    *

  • DynamoDB table - The resource type is table and the * unique identifier is the table name. Example: table/my-table.

    *

  • DynamoDB global secondary index - The resource type is * index and the unique identifier is the index name. Example: * table/my-table/index/my-table-index.

  • Aurora DB * cluster - The resource type is cluster and the unique identifier is * the cluster name. Example: cluster:my-db-cluster.

  • *

    Amazon SageMaker endpoint variant - The resource type is variant * and the unique identifier is the resource ID. Example: * endpoint/my-end-point/variant/KMeansClustering.

  • *

    Custom resources are not supported with a resource type. This parameter must * specify the OutputValue from the CloudFormation template stack used * to access the resources. The unique identifier is defined by the service * provider. More information is available in our GitHub * repository.

  • Amazon Comprehend document classification * endpoint - The resource type and unique identifier are specified using the * endpoint ARN. Example: * arn:aws:comprehend:us-west-2:123456789012:document-classifier-endpoint/EXAMPLE.

    *

  • Lambda provisioned concurrency - The resource type is * function and the unique identifier is the function name with a * function version or alias name suffix that is not $LATEST. Example: * function:my-function:prod or * function:my-function:1.

  • Amazon Keyspaces table - * The resource type is table and the unique identifier is the table * name. Example: keyspace/mykeyspace/table/mytable.

*/ inline void SetResourceId(const char* value) { m_resourceIdHasBeenSet = true; m_resourceId.assign(value); } /** *

The identifier of the resource associated with the scaling activity. This * string consists of the resource type and unique identifier.

  • ECS * service - The resource type is service and the unique identifier is * the cluster name and service name. Example: * service/default/sample-webapp.

  • Spot Fleet request * - The resource type is spot-fleet-request and the unique identifier * is the Spot Fleet request ID. Example: * spot-fleet-request/sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE.

    *

  • EMR cluster - The resource type is instancegroup and * the unique identifier is the cluster ID and instance group ID. Example: * instancegroup/j-2EEZNYKUA1NTV/ig-1791Y4E1L8YI0.

  • *

    AppStream 2.0 fleet - The resource type is fleet and the unique * identifier is the fleet name. Example: fleet/sample-fleet.

    *

  • DynamoDB table - The resource type is table and the * unique identifier is the table name. Example: table/my-table.

    *

  • DynamoDB global secondary index - The resource type is * index and the unique identifier is the index name. Example: * table/my-table/index/my-table-index.

  • Aurora DB * cluster - The resource type is cluster and the unique identifier is * the cluster name. Example: cluster:my-db-cluster.

  • *

    Amazon SageMaker endpoint variant - The resource type is variant * and the unique identifier is the resource ID. Example: * endpoint/my-end-point/variant/KMeansClustering.

  • *

    Custom resources are not supported with a resource type. This parameter must * specify the OutputValue from the CloudFormation template stack used * to access the resources. The unique identifier is defined by the service * provider. More information is available in our GitHub * repository.

  • Amazon Comprehend document classification * endpoint - The resource type and unique identifier are specified using the * endpoint ARN. Example: * arn:aws:comprehend:us-west-2:123456789012:document-classifier-endpoint/EXAMPLE.

    *

  • Lambda provisioned concurrency - The resource type is * function and the unique identifier is the function name with a * function version or alias name suffix that is not $LATEST. Example: * function:my-function:prod or * function:my-function:1.

  • Amazon Keyspaces table - * The resource type is table and the unique identifier is the table * name. Example: keyspace/mykeyspace/table/mytable.

*/ inline ScalingActivity& WithResourceId(const Aws::String& value) { SetResourceId(value); return *this;} /** *

The identifier of the resource associated with the scaling activity. This * string consists of the resource type and unique identifier.

  • ECS * service - The resource type is service and the unique identifier is * the cluster name and service name. Example: * service/default/sample-webapp.

  • Spot Fleet request * - The resource type is spot-fleet-request and the unique identifier * is the Spot Fleet request ID. Example: * spot-fleet-request/sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE.

    *

  • EMR cluster - The resource type is instancegroup and * the unique identifier is the cluster ID and instance group ID. Example: * instancegroup/j-2EEZNYKUA1NTV/ig-1791Y4E1L8YI0.

  • *

    AppStream 2.0 fleet - The resource type is fleet and the unique * identifier is the fleet name. Example: fleet/sample-fleet.

    *

  • DynamoDB table - The resource type is table and the * unique identifier is the table name. Example: table/my-table.

    *

  • DynamoDB global secondary index - The resource type is * index and the unique identifier is the index name. Example: * table/my-table/index/my-table-index.

  • Aurora DB * cluster - The resource type is cluster and the unique identifier is * the cluster name. Example: cluster:my-db-cluster.

  • *

    Amazon SageMaker endpoint variant - The resource type is variant * and the unique identifier is the resource ID. Example: * endpoint/my-end-point/variant/KMeansClustering.

  • *

    Custom resources are not supported with a resource type. This parameter must * specify the OutputValue from the CloudFormation template stack used * to access the resources. The unique identifier is defined by the service * provider. More information is available in our GitHub * repository.

  • Amazon Comprehend document classification * endpoint - The resource type and unique identifier are specified using the * endpoint ARN. Example: * arn:aws:comprehend:us-west-2:123456789012:document-classifier-endpoint/EXAMPLE.

    *

  • Lambda provisioned concurrency - The resource type is * function and the unique identifier is the function name with a * function version or alias name suffix that is not $LATEST. Example: * function:my-function:prod or * function:my-function:1.

  • Amazon Keyspaces table - * The resource type is table and the unique identifier is the table * name. Example: keyspace/mykeyspace/table/mytable.

*/ inline ScalingActivity& WithResourceId(Aws::String&& value) { SetResourceId(std::move(value)); return *this;} /** *

The identifier of the resource associated with the scaling activity. This * string consists of the resource type and unique identifier.

  • ECS * service - The resource type is service and the unique identifier is * the cluster name and service name. Example: * service/default/sample-webapp.

  • Spot Fleet request * - The resource type is spot-fleet-request and the unique identifier * is the Spot Fleet request ID. Example: * spot-fleet-request/sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE.

    *

  • EMR cluster - The resource type is instancegroup and * the unique identifier is the cluster ID and instance group ID. Example: * instancegroup/j-2EEZNYKUA1NTV/ig-1791Y4E1L8YI0.

  • *

    AppStream 2.0 fleet - The resource type is fleet and the unique * identifier is the fleet name. Example: fleet/sample-fleet.

    *

  • DynamoDB table - The resource type is table and the * unique identifier is the table name. Example: table/my-table.

    *

  • DynamoDB global secondary index - The resource type is * index and the unique identifier is the index name. Example: * table/my-table/index/my-table-index.

  • Aurora DB * cluster - The resource type is cluster and the unique identifier is * the cluster name. Example: cluster:my-db-cluster.

  • *

    Amazon SageMaker endpoint variant - The resource type is variant * and the unique identifier is the resource ID. Example: * endpoint/my-end-point/variant/KMeansClustering.

  • *

    Custom resources are not supported with a resource type. This parameter must * specify the OutputValue from the CloudFormation template stack used * to access the resources. The unique identifier is defined by the service * provider. More information is available in our GitHub * repository.

  • Amazon Comprehend document classification * endpoint - The resource type and unique identifier are specified using the * endpoint ARN. Example: * arn:aws:comprehend:us-west-2:123456789012:document-classifier-endpoint/EXAMPLE.

    *

  • Lambda provisioned concurrency - The resource type is * function and the unique identifier is the function name with a * function version or alias name suffix that is not $LATEST. Example: * function:my-function:prod or * function:my-function:1.

  • Amazon Keyspaces table - * The resource type is table and the unique identifier is the table * name. Example: keyspace/mykeyspace/table/mytable.

*/ inline ScalingActivity& WithResourceId(const char* value) { SetResourceId(value); return *this;} /** *

The scalable dimension. This string consists of the service namespace, * resource type, and scaling property.

  • * ecs:service:DesiredCount - The desired task count of an ECS * service.

  • ec2:spot-fleet-request:TargetCapacity - * The target capacity of a Spot Fleet request.

  • * elasticmapreduce:instancegroup:InstanceCount - The instance count * of an EMR Instance Group.

  • * appstream:fleet:DesiredCapacity - The desired capacity of an * AppStream 2.0 fleet.

  • * dynamodb:table:ReadCapacityUnits - The provisioned read capacity * for a DynamoDB table.

  • * dynamodb:table:WriteCapacityUnits - The provisioned write capacity * for a DynamoDB table.

  • * dynamodb:index:ReadCapacityUnits - The provisioned read capacity * for a DynamoDB global secondary index.

  • * dynamodb:index:WriteCapacityUnits - The provisioned write capacity * for a DynamoDB global secondary index.

  • * rds:cluster:ReadReplicaCount - The count of Aurora Replicas in an * Aurora DB cluster. Available for Aurora MySQL-compatible edition and Aurora * PostgreSQL-compatible edition.

  • * sagemaker:variant:DesiredInstanceCount - The number of EC2 * instances for an Amazon SageMaker model endpoint variant.

  • * custom-resource:ResourceType:Property - The scalable dimension for * a custom resource provided by your own application or service.

  • *

    comprehend:document-classifier-endpoint:DesiredInferenceUnits - * The number of inference units for an Amazon Comprehend document classification * endpoint.

  • lambda:function:ProvisionedConcurrency * - The provisioned concurrency for a Lambda function.

  • * cassandra:table:ReadCapacityUnits - The provisioned read capacity * for an Amazon Keyspaces table.

  • * cassandra:table:WriteCapacityUnits - The provisioned write capacity * for an Amazon Keyspaces table.

*/ inline const ScalableDimension& GetScalableDimension() const{ return m_scalableDimension; } /** *

The scalable dimension. This string consists of the service namespace, * resource type, and scaling property.

  • * ecs:service:DesiredCount - The desired task count of an ECS * service.

  • ec2:spot-fleet-request:TargetCapacity - * The target capacity of a Spot Fleet request.

  • * elasticmapreduce:instancegroup:InstanceCount - The instance count * of an EMR Instance Group.

  • * appstream:fleet:DesiredCapacity - The desired capacity of an * AppStream 2.0 fleet.

  • * dynamodb:table:ReadCapacityUnits - The provisioned read capacity * for a DynamoDB table.

  • * dynamodb:table:WriteCapacityUnits - The provisioned write capacity * for a DynamoDB table.

  • * dynamodb:index:ReadCapacityUnits - The provisioned read capacity * for a DynamoDB global secondary index.

  • * dynamodb:index:WriteCapacityUnits - The provisioned write capacity * for a DynamoDB global secondary index.

  • * rds:cluster:ReadReplicaCount - The count of Aurora Replicas in an * Aurora DB cluster. Available for Aurora MySQL-compatible edition and Aurora * PostgreSQL-compatible edition.

  • * sagemaker:variant:DesiredInstanceCount - The number of EC2 * instances for an Amazon SageMaker model endpoint variant.

  • * custom-resource:ResourceType:Property - The scalable dimension for * a custom resource provided by your own application or service.

  • *

    comprehend:document-classifier-endpoint:DesiredInferenceUnits - * The number of inference units for an Amazon Comprehend document classification * endpoint.

  • lambda:function:ProvisionedConcurrency * - The provisioned concurrency for a Lambda function.

  • * cassandra:table:ReadCapacityUnits - The provisioned read capacity * for an Amazon Keyspaces table.

  • * cassandra:table:WriteCapacityUnits - The provisioned write capacity * for an Amazon Keyspaces table.

*/ inline bool ScalableDimensionHasBeenSet() const { return m_scalableDimensionHasBeenSet; } /** *

The scalable dimension. This string consists of the service namespace, * resource type, and scaling property.

  • * ecs:service:DesiredCount - The desired task count of an ECS * service.

  • ec2:spot-fleet-request:TargetCapacity - * The target capacity of a Spot Fleet request.

  • * elasticmapreduce:instancegroup:InstanceCount - The instance count * of an EMR Instance Group.

  • * appstream:fleet:DesiredCapacity - The desired capacity of an * AppStream 2.0 fleet.

  • * dynamodb:table:ReadCapacityUnits - The provisioned read capacity * for a DynamoDB table.

  • * dynamodb:table:WriteCapacityUnits - The provisioned write capacity * for a DynamoDB table.

  • * dynamodb:index:ReadCapacityUnits - The provisioned read capacity * for a DynamoDB global secondary index.

  • * dynamodb:index:WriteCapacityUnits - The provisioned write capacity * for a DynamoDB global secondary index.

  • * rds:cluster:ReadReplicaCount - The count of Aurora Replicas in an * Aurora DB cluster. Available for Aurora MySQL-compatible edition and Aurora * PostgreSQL-compatible edition.

  • * sagemaker:variant:DesiredInstanceCount - The number of EC2 * instances for an Amazon SageMaker model endpoint variant.

  • * custom-resource:ResourceType:Property - The scalable dimension for * a custom resource provided by your own application or service.

  • *

    comprehend:document-classifier-endpoint:DesiredInferenceUnits - * The number of inference units for an Amazon Comprehend document classification * endpoint.

  • lambda:function:ProvisionedConcurrency * - The provisioned concurrency for a Lambda function.

  • * cassandra:table:ReadCapacityUnits - The provisioned read capacity * for an Amazon Keyspaces table.

  • * cassandra:table:WriteCapacityUnits - The provisioned write capacity * for an Amazon Keyspaces table.

*/ inline void SetScalableDimension(const ScalableDimension& value) { m_scalableDimensionHasBeenSet = true; m_scalableDimension = value; } /** *

The scalable dimension. This string consists of the service namespace, * resource type, and scaling property.

  • * ecs:service:DesiredCount - The desired task count of an ECS * service.

  • ec2:spot-fleet-request:TargetCapacity - * The target capacity of a Spot Fleet request.

  • * elasticmapreduce:instancegroup:InstanceCount - The instance count * of an EMR Instance Group.

  • * appstream:fleet:DesiredCapacity - The desired capacity of an * AppStream 2.0 fleet.

  • * dynamodb:table:ReadCapacityUnits - The provisioned read capacity * for a DynamoDB table.

  • * dynamodb:table:WriteCapacityUnits - The provisioned write capacity * for a DynamoDB table.

  • * dynamodb:index:ReadCapacityUnits - The provisioned read capacity * for a DynamoDB global secondary index.

  • * dynamodb:index:WriteCapacityUnits - The provisioned write capacity * for a DynamoDB global secondary index.

  • * rds:cluster:ReadReplicaCount - The count of Aurora Replicas in an * Aurora DB cluster. Available for Aurora MySQL-compatible edition and Aurora * PostgreSQL-compatible edition.

  • * sagemaker:variant:DesiredInstanceCount - The number of EC2 * instances for an Amazon SageMaker model endpoint variant.

  • * custom-resource:ResourceType:Property - The scalable dimension for * a custom resource provided by your own application or service.

  • *

    comprehend:document-classifier-endpoint:DesiredInferenceUnits - * The number of inference units for an Amazon Comprehend document classification * endpoint.

  • lambda:function:ProvisionedConcurrency * - The provisioned concurrency for a Lambda function.

  • * cassandra:table:ReadCapacityUnits - The provisioned read capacity * for an Amazon Keyspaces table.

  • * cassandra:table:WriteCapacityUnits - The provisioned write capacity * for an Amazon Keyspaces table.

*/ inline void SetScalableDimension(ScalableDimension&& value) { m_scalableDimensionHasBeenSet = true; m_scalableDimension = std::move(value); } /** *

The scalable dimension. This string consists of the service namespace, * resource type, and scaling property.

  • * ecs:service:DesiredCount - The desired task count of an ECS * service.

  • ec2:spot-fleet-request:TargetCapacity - * The target capacity of a Spot Fleet request.

  • * elasticmapreduce:instancegroup:InstanceCount - The instance count * of an EMR Instance Group.

  • * appstream:fleet:DesiredCapacity - The desired capacity of an * AppStream 2.0 fleet.

  • * dynamodb:table:ReadCapacityUnits - The provisioned read capacity * for a DynamoDB table.

  • * dynamodb:table:WriteCapacityUnits - The provisioned write capacity * for a DynamoDB table.

  • * dynamodb:index:ReadCapacityUnits - The provisioned read capacity * for a DynamoDB global secondary index.

  • * dynamodb:index:WriteCapacityUnits - The provisioned write capacity * for a DynamoDB global secondary index.

  • * rds:cluster:ReadReplicaCount - The count of Aurora Replicas in an * Aurora DB cluster. Available for Aurora MySQL-compatible edition and Aurora * PostgreSQL-compatible edition.

  • * sagemaker:variant:DesiredInstanceCount - The number of EC2 * instances for an Amazon SageMaker model endpoint variant.

  • * custom-resource:ResourceType:Property - The scalable dimension for * a custom resource provided by your own application or service.

  • *

    comprehend:document-classifier-endpoint:DesiredInferenceUnits - * The number of inference units for an Amazon Comprehend document classification * endpoint.

  • lambda:function:ProvisionedConcurrency * - The provisioned concurrency for a Lambda function.

  • * cassandra:table:ReadCapacityUnits - The provisioned read capacity * for an Amazon Keyspaces table.

  • * cassandra:table:WriteCapacityUnits - The provisioned write capacity * for an Amazon Keyspaces table.

*/ inline ScalingActivity& WithScalableDimension(const ScalableDimension& value) { SetScalableDimension(value); return *this;} /** *

The scalable dimension. This string consists of the service namespace, * resource type, and scaling property.

  • * ecs:service:DesiredCount - The desired task count of an ECS * service.

  • ec2:spot-fleet-request:TargetCapacity - * The target capacity of a Spot Fleet request.

  • * elasticmapreduce:instancegroup:InstanceCount - The instance count * of an EMR Instance Group.

  • * appstream:fleet:DesiredCapacity - The desired capacity of an * AppStream 2.0 fleet.

  • * dynamodb:table:ReadCapacityUnits - The provisioned read capacity * for a DynamoDB table.

  • * dynamodb:table:WriteCapacityUnits - The provisioned write capacity * for a DynamoDB table.

  • * dynamodb:index:ReadCapacityUnits - The provisioned read capacity * for a DynamoDB global secondary index.

  • * dynamodb:index:WriteCapacityUnits - The provisioned write capacity * for a DynamoDB global secondary index.

  • * rds:cluster:ReadReplicaCount - The count of Aurora Replicas in an * Aurora DB cluster. Available for Aurora MySQL-compatible edition and Aurora * PostgreSQL-compatible edition.

  • * sagemaker:variant:DesiredInstanceCount - The number of EC2 * instances for an Amazon SageMaker model endpoint variant.

  • * custom-resource:ResourceType:Property - The scalable dimension for * a custom resource provided by your own application or service.

  • *

    comprehend:document-classifier-endpoint:DesiredInferenceUnits - * The number of inference units for an Amazon Comprehend document classification * endpoint.

  • lambda:function:ProvisionedConcurrency * - The provisioned concurrency for a Lambda function.

  • * cassandra:table:ReadCapacityUnits - The provisioned read capacity * for an Amazon Keyspaces table.

  • * cassandra:table:WriteCapacityUnits - The provisioned write capacity * for an Amazon Keyspaces table.

*/ inline ScalingActivity& WithScalableDimension(ScalableDimension&& value) { SetScalableDimension(std::move(value)); return *this;} /** *

A simple description of what action the scaling activity intends to * accomplish.

*/ inline const Aws::String& GetDescription() const{ return m_description; } /** *

A simple description of what action the scaling activity intends to * accomplish.

*/ inline bool DescriptionHasBeenSet() const { return m_descriptionHasBeenSet; } /** *

A simple description of what action the scaling activity intends to * accomplish.

*/ inline void SetDescription(const Aws::String& value) { m_descriptionHasBeenSet = true; m_description = value; } /** *

A simple description of what action the scaling activity intends to * accomplish.

*/ inline void SetDescription(Aws::String&& value) { m_descriptionHasBeenSet = true; m_description = std::move(value); } /** *

A simple description of what action the scaling activity intends to * accomplish.

*/ inline void SetDescription(const char* value) { m_descriptionHasBeenSet = true; m_description.assign(value); } /** *

A simple description of what action the scaling activity intends to * accomplish.

*/ inline ScalingActivity& WithDescription(const Aws::String& value) { SetDescription(value); return *this;} /** *

A simple description of what action the scaling activity intends to * accomplish.

*/ inline ScalingActivity& WithDescription(Aws::String&& value) { SetDescription(std::move(value)); return *this;} /** *

A simple description of what action the scaling activity intends to * accomplish.

*/ inline ScalingActivity& WithDescription(const char* value) { SetDescription(value); return *this;} /** *

A simple description of what caused the scaling activity to happen.

*/ inline const Aws::String& GetCause() const{ return m_cause; } /** *

A simple description of what caused the scaling activity to happen.

*/ inline bool CauseHasBeenSet() const { return m_causeHasBeenSet; } /** *

A simple description of what caused the scaling activity to happen.

*/ inline void SetCause(const Aws::String& value) { m_causeHasBeenSet = true; m_cause = value; } /** *

A simple description of what caused the scaling activity to happen.

*/ inline void SetCause(Aws::String&& value) { m_causeHasBeenSet = true; m_cause = std::move(value); } /** *

A simple description of what caused the scaling activity to happen.

*/ inline void SetCause(const char* value) { m_causeHasBeenSet = true; m_cause.assign(value); } /** *

A simple description of what caused the scaling activity to happen.

*/ inline ScalingActivity& WithCause(const Aws::String& value) { SetCause(value); return *this;} /** *

A simple description of what caused the scaling activity to happen.

*/ inline ScalingActivity& WithCause(Aws::String&& value) { SetCause(std::move(value)); return *this;} /** *

A simple description of what caused the scaling activity to happen.

*/ inline ScalingActivity& WithCause(const char* value) { SetCause(value); return *this;} /** *

The Unix timestamp for when the scaling activity began.

*/ inline const Aws::Utils::DateTime& GetStartTime() const{ return m_startTime; } /** *

The Unix timestamp for when the scaling activity began.

*/ inline bool StartTimeHasBeenSet() const { return m_startTimeHasBeenSet; } /** *

The Unix timestamp for when the scaling activity began.

*/ inline void SetStartTime(const Aws::Utils::DateTime& value) { m_startTimeHasBeenSet = true; m_startTime = value; } /** *

The Unix timestamp for when the scaling activity began.

*/ inline void SetStartTime(Aws::Utils::DateTime&& value) { m_startTimeHasBeenSet = true; m_startTime = std::move(value); } /** *

The Unix timestamp for when the scaling activity began.

*/ inline ScalingActivity& WithStartTime(const Aws::Utils::DateTime& value) { SetStartTime(value); return *this;} /** *

The Unix timestamp for when the scaling activity began.

*/ inline ScalingActivity& WithStartTime(Aws::Utils::DateTime&& value) { SetStartTime(std::move(value)); return *this;} /** *

The Unix timestamp for when the scaling activity ended.

*/ inline const Aws::Utils::DateTime& GetEndTime() const{ return m_endTime; } /** *

The Unix timestamp for when the scaling activity ended.

*/ inline bool EndTimeHasBeenSet() const { return m_endTimeHasBeenSet; } /** *

The Unix timestamp for when the scaling activity ended.

*/ inline void SetEndTime(const Aws::Utils::DateTime& value) { m_endTimeHasBeenSet = true; m_endTime = value; } /** *

The Unix timestamp for when the scaling activity ended.

*/ inline void SetEndTime(Aws::Utils::DateTime&& value) { m_endTimeHasBeenSet = true; m_endTime = std::move(value); } /** *

The Unix timestamp for when the scaling activity ended.

*/ inline ScalingActivity& WithEndTime(const Aws::Utils::DateTime& value) { SetEndTime(value); return *this;} /** *

The Unix timestamp for when the scaling activity ended.

*/ inline ScalingActivity& WithEndTime(Aws::Utils::DateTime&& value) { SetEndTime(std::move(value)); return *this;} /** *

Indicates the status of the scaling activity.

*/ inline const ScalingActivityStatusCode& GetStatusCode() const{ return m_statusCode; } /** *

Indicates the status of the scaling activity.

*/ inline bool StatusCodeHasBeenSet() const { return m_statusCodeHasBeenSet; } /** *

Indicates the status of the scaling activity.

*/ inline void SetStatusCode(const ScalingActivityStatusCode& value) { m_statusCodeHasBeenSet = true; m_statusCode = value; } /** *

Indicates the status of the scaling activity.

*/ inline void SetStatusCode(ScalingActivityStatusCode&& value) { m_statusCodeHasBeenSet = true; m_statusCode = std::move(value); } /** *

Indicates the status of the scaling activity.

*/ inline ScalingActivity& WithStatusCode(const ScalingActivityStatusCode& value) { SetStatusCode(value); return *this;} /** *

Indicates the status of the scaling activity.

*/ inline ScalingActivity& WithStatusCode(ScalingActivityStatusCode&& value) { SetStatusCode(std::move(value)); return *this;} /** *

A simple message about the current status of the scaling activity.

*/ inline const Aws::String& GetStatusMessage() const{ return m_statusMessage; } /** *

A simple message about the current status of the scaling activity.

*/ inline bool StatusMessageHasBeenSet() const { return m_statusMessageHasBeenSet; } /** *

A simple message about the current status of the scaling activity.

*/ inline void SetStatusMessage(const Aws::String& value) { m_statusMessageHasBeenSet = true; m_statusMessage = value; } /** *

A simple message about the current status of the scaling activity.

*/ inline void SetStatusMessage(Aws::String&& value) { m_statusMessageHasBeenSet = true; m_statusMessage = std::move(value); } /** *

A simple message about the current status of the scaling activity.

*/ inline void SetStatusMessage(const char* value) { m_statusMessageHasBeenSet = true; m_statusMessage.assign(value); } /** *

A simple message about the current status of the scaling activity.

*/ inline ScalingActivity& WithStatusMessage(const Aws::String& value) { SetStatusMessage(value); return *this;} /** *

A simple message about the current status of the scaling activity.

*/ inline ScalingActivity& WithStatusMessage(Aws::String&& value) { SetStatusMessage(std::move(value)); return *this;} /** *

A simple message about the current status of the scaling activity.

*/ inline ScalingActivity& WithStatusMessage(const char* value) { SetStatusMessage(value); return *this;} /** *

The details about the scaling activity.

*/ inline const Aws::String& GetDetails() const{ return m_details; } /** *

The details about the scaling activity.

*/ inline bool DetailsHasBeenSet() const { return m_detailsHasBeenSet; } /** *

The details about the scaling activity.

*/ inline void SetDetails(const Aws::String& value) { m_detailsHasBeenSet = true; m_details = value; } /** *

The details about the scaling activity.

*/ inline void SetDetails(Aws::String&& value) { m_detailsHasBeenSet = true; m_details = std::move(value); } /** *

The details about the scaling activity.

*/ inline void SetDetails(const char* value) { m_detailsHasBeenSet = true; m_details.assign(value); } /** *

The details about the scaling activity.

*/ inline ScalingActivity& WithDetails(const Aws::String& value) { SetDetails(value); return *this;} /** *

The details about the scaling activity.

*/ inline ScalingActivity& WithDetails(Aws::String&& value) { SetDetails(std::move(value)); return *this;} /** *

The details about the scaling activity.

*/ inline ScalingActivity& WithDetails(const char* value) { SetDetails(value); return *this;} private: Aws::String m_activityId; bool m_activityIdHasBeenSet; ServiceNamespace m_serviceNamespace; bool m_serviceNamespaceHasBeenSet; Aws::String m_resourceId; bool m_resourceIdHasBeenSet; ScalableDimension m_scalableDimension; bool m_scalableDimensionHasBeenSet; Aws::String m_description; bool m_descriptionHasBeenSet; Aws::String m_cause; bool m_causeHasBeenSet; Aws::Utils::DateTime m_startTime; bool m_startTimeHasBeenSet; Aws::Utils::DateTime m_endTime; bool m_endTimeHasBeenSet; ScalingActivityStatusCode m_statusCode; bool m_statusCodeHasBeenSet; Aws::String m_statusMessage; bool m_statusMessageHasBeenSet; Aws::String m_details; bool m_detailsHasBeenSet; }; } // namespace Model } // namespace ApplicationAutoScaling } // namespace Aws