* Note: Do not directly implement this interface, new methods are added to it regularly. Extend from * {@link com.amazonaws.services.autoscaling.AbstractAmazonAutoScalingAsync} instead. *
*
*
* Amazon EC2 Auto Scaling is designed to automatically launch and terminate EC2 instances based on user-defined scaling * policies, scheduled actions, and health checks. *
** For more information, see the Amazon EC2 Auto * Scaling User Guide and the Amazon * EC2 Auto Scaling API Reference. *
*/ @Generated("com.amazonaws:aws-java-sdk-code-generator") public interface AmazonAutoScalingAsync extends AmazonAutoScaling { /** ** Attaches one or more EC2 instances to the specified Auto Scaling group. *
** When you attach instances, Amazon EC2 Auto Scaling increases the desired capacity of the group by the number of * instances being attached. If the number of instances being attached plus the desired capacity of the group * exceeds the maximum size of the group, the operation fails. *
** If there is a Classic Load Balancer attached to your Auto Scaling group, the instances are also registered with * the load balancer. If there are target groups attached to your Auto Scaling group, the instances are also * registered with the target groups. *
** For more information, see Attach EC2 instances to * your Auto Scaling group in the Amazon EC2 Auto Scaling User Guide. *
* * @param attachInstancesRequest * @return A Java Future containing the result of the AttachInstances operation returned by the service. * @sample AmazonAutoScalingAsync.AttachInstances * @see AWS * API Documentation */ java.util.concurrent.Future* Attaches one or more EC2 instances to the specified Auto Scaling group. *
** When you attach instances, Amazon EC2 Auto Scaling increases the desired capacity of the group by the number of * instances being attached. If the number of instances being attached plus the desired capacity of the group * exceeds the maximum size of the group, the operation fails. *
** If there is a Classic Load Balancer attached to your Auto Scaling group, the instances are also registered with * the load balancer. If there are target groups attached to your Auto Scaling group, the instances are also * registered with the target groups. *
** For more information, see Attach EC2 instances to * your Auto Scaling group in the Amazon EC2 Auto Scaling User Guide. *
* * @param attachInstancesRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the AttachInstances operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.AttachInstances * @see AWS * API Documentation */ java.util.concurrent.Future
* This API operation is superseded by AttachTrafficSources, which can attach multiple traffic sources types.
* We recommend using AttachTrafficSources to simplify how you manage traffic sources. However, we
* continue to support AttachLoadBalancerTargetGroups. You can use both the original
* AttachLoadBalancerTargetGroups API operation and AttachTrafficSources on the same Auto
* Scaling group.
*
* Attaches one or more target groups to the specified Auto Scaling group. *
** This operation is used with the following load balancer types: *
** Application Load Balancer - Operates at the application layer (layer 7) and supports HTTP and HTTPS. *
** Network Load Balancer - Operates at the transport layer (layer 4) and supports TCP, TLS, and UDP. *
** Gateway Load Balancer - Operates at the network layer (layer 3). *
** To describe the target groups for an Auto Scaling group, call the DescribeLoadBalancerTargetGroups API. To * detach the target group from the Auto Scaling group, call the DetachLoadBalancerTargetGroups API. *
** This operation is additive and does not detach existing target groups or Classic Load Balancers from the Auto * Scaling group. *
** For more information, see Use Elastic Load * Balancing to distribute traffic across the instances in your Auto Scaling group in the Amazon EC2 Auto * Scaling User Guide. *
* * @param attachLoadBalancerTargetGroupsRequest * @return A Java Future containing the result of the AttachLoadBalancerTargetGroups operation returned by the * service. * @sample AmazonAutoScalingAsync.AttachLoadBalancerTargetGroups * @see AWS API Documentation */ java.util.concurrent.Future
* This API operation is superseded by AttachTrafficSources, which can attach multiple traffic sources types.
* We recommend using AttachTrafficSources to simplify how you manage traffic sources. However, we
* continue to support AttachLoadBalancerTargetGroups. You can use both the original
* AttachLoadBalancerTargetGroups API operation and AttachTrafficSources on the same Auto
* Scaling group.
*
* Attaches one or more target groups to the specified Auto Scaling group. *
** This operation is used with the following load balancer types: *
** Application Load Balancer - Operates at the application layer (layer 7) and supports HTTP and HTTPS. *
** Network Load Balancer - Operates at the transport layer (layer 4) and supports TCP, TLS, and UDP. *
** Gateway Load Balancer - Operates at the network layer (layer 3). *
** To describe the target groups for an Auto Scaling group, call the DescribeLoadBalancerTargetGroups API. To * detach the target group from the Auto Scaling group, call the DetachLoadBalancerTargetGroups API. *
** This operation is additive and does not detach existing target groups or Classic Load Balancers from the Auto * Scaling group. *
** For more information, see Use Elastic Load * Balancing to distribute traffic across the instances in your Auto Scaling group in the Amazon EC2 Auto * Scaling User Guide. *
* * @param attachLoadBalancerTargetGroupsRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the AttachLoadBalancerTargetGroups operation returned by the * service. * @sample AmazonAutoScalingAsyncHandler.AttachLoadBalancerTargetGroups * @see AWS API Documentation */ java.util.concurrent.Future
* This API operation is superseded by AttachTrafficSources, which can attach multiple traffic sources types.
* We recommend using AttachTrafficSources to simplify how you manage traffic sources. However, we
* continue to support AttachLoadBalancers. You can use both the original
* AttachLoadBalancers API operation and AttachTrafficSources on the same Auto Scaling
* group.
*
* Attaches one or more Classic Load Balancers to the specified Auto Scaling group. Amazon EC2 Auto Scaling * registers the running instances with these Classic Load Balancers. *
** To describe the load balancers for an Auto Scaling group, call the DescribeLoadBalancers API. To detach a * load balancer from the Auto Scaling group, call the DetachLoadBalancers API. *
** This operation is additive and does not detach existing Classic Load Balancers or target groups from the Auto * Scaling group. *
** For more information, see Use Elastic Load * Balancing to distribute traffic across the instances in your Auto Scaling group in the Amazon EC2 Auto * Scaling User Guide. *
* * @param attachLoadBalancersRequest * @return A Java Future containing the result of the AttachLoadBalancers operation returned by the service. * @sample AmazonAutoScalingAsync.AttachLoadBalancers * @see AWS API Documentation */ java.util.concurrent.Future
* This API operation is superseded by AttachTrafficSources, which can attach multiple traffic sources types.
* We recommend using AttachTrafficSources to simplify how you manage traffic sources. However, we
* continue to support AttachLoadBalancers. You can use both the original
* AttachLoadBalancers API operation and AttachTrafficSources on the same Auto Scaling
* group.
*
* Attaches one or more Classic Load Balancers to the specified Auto Scaling group. Amazon EC2 Auto Scaling * registers the running instances with these Classic Load Balancers. *
** To describe the load balancers for an Auto Scaling group, call the DescribeLoadBalancers API. To detach a * load balancer from the Auto Scaling group, call the DetachLoadBalancers API. *
** This operation is additive and does not detach existing Classic Load Balancers or target groups from the Auto * Scaling group. *
** For more information, see Use Elastic Load * Balancing to distribute traffic across the instances in your Auto Scaling group in the Amazon EC2 Auto * Scaling User Guide. *
* * @param attachLoadBalancersRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the AttachLoadBalancers operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.AttachLoadBalancers * @see AWS API Documentation */ java.util.concurrent.Future* Attaches one or more traffic sources to the specified Auto Scaling group. *
** You can use any of the following as traffic sources for an Auto Scaling group: *
** Application Load Balancer *
** Classic Load Balancer *
** Gateway Load Balancer *
** Network Load Balancer *
** VPC Lattice *
** This operation is additive and does not detach existing traffic sources from the Auto Scaling group. *
** After the operation completes, use the DescribeTrafficSources API to return details about the state of the * attachments between traffic sources and your Auto Scaling group. To detach a traffic source from the Auto Scaling * group, call the DetachTrafficSources API. *
* * @param attachTrafficSourcesRequest * @return A Java Future containing the result of the AttachTrafficSources operation returned by the service. * @sample AmazonAutoScalingAsync.AttachTrafficSources * @see AWS API Documentation */ java.util.concurrent.Future* Attaches one or more traffic sources to the specified Auto Scaling group. *
** You can use any of the following as traffic sources for an Auto Scaling group: *
** Application Load Balancer *
** Classic Load Balancer *
** Gateway Load Balancer *
** Network Load Balancer *
** VPC Lattice *
** This operation is additive and does not detach existing traffic sources from the Auto Scaling group. *
** After the operation completes, use the DescribeTrafficSources API to return details about the state of the * attachments between traffic sources and your Auto Scaling group. To detach a traffic source from the Auto Scaling * group, call the DetachTrafficSources API. *
* * @param attachTrafficSourcesRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the AttachTrafficSources operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.AttachTrafficSources * @see AWS API Documentation */ java.util.concurrent.Future* Deletes one or more scheduled actions for the specified Auto Scaling group. *
* * @param batchDeleteScheduledActionRequest * @return A Java Future containing the result of the BatchDeleteScheduledAction operation returned by the service. * @sample AmazonAutoScalingAsync.BatchDeleteScheduledAction * @see AWS API Documentation */ java.util.concurrent.Future* Deletes one or more scheduled actions for the specified Auto Scaling group. *
* * @param batchDeleteScheduledActionRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the BatchDeleteScheduledAction operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.BatchDeleteScheduledAction * @see AWS API Documentation */ java.util.concurrent.Future* Creates or updates one or more scheduled scaling actions for an Auto Scaling group. *
* * @param batchPutScheduledUpdateGroupActionRequest * @return A Java Future containing the result of the BatchPutScheduledUpdateGroupAction operation returned by the * service. * @sample AmazonAutoScalingAsync.BatchPutScheduledUpdateGroupAction * @see AWS API Documentation */ java.util.concurrent.Future* Creates or updates one or more scheduled scaling actions for an Auto Scaling group. *
* * @param batchPutScheduledUpdateGroupActionRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the BatchPutScheduledUpdateGroupAction operation returned by the * service. * @sample AmazonAutoScalingAsyncHandler.BatchPutScheduledUpdateGroupAction * @see AWS API Documentation */ java.util.concurrent.Future
* Cancels an instance refresh or rollback that is in progress. If an instance refresh or rollback is not in
* progress, an ActiveInstanceRefreshNotFound error occurs.
*
* This operation is part of the instance refresh * feature in Amazon EC2 Auto Scaling, which helps you update instances in your Auto Scaling group after you * make configuration changes. *
** When you cancel an instance refresh, this does not roll back any changes that it made. Use the * RollbackInstanceRefresh API to roll back instead. *
* * @param cancelInstanceRefreshRequest * @return A Java Future containing the result of the CancelInstanceRefresh operation returned by the service. * @sample AmazonAutoScalingAsync.CancelInstanceRefresh * @see AWS API Documentation */ java.util.concurrent.Future
* Cancels an instance refresh or rollback that is in progress. If an instance refresh or rollback is not in
* progress, an ActiveInstanceRefreshNotFound error occurs.
*
* This operation is part of the instance refresh * feature in Amazon EC2 Auto Scaling, which helps you update instances in your Auto Scaling group after you * make configuration changes. *
** When you cancel an instance refresh, this does not roll back any changes that it made. Use the * RollbackInstanceRefresh API to roll back instead. *
* * @param cancelInstanceRefreshRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the CancelInstanceRefresh operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.CancelInstanceRefresh * @see AWS API Documentation */ java.util.concurrent.Future* Completes the lifecycle action for the specified token or instance with the specified result. *
** This step is a part of the procedure for adding a lifecycle hook to an Auto Scaling group: *
** (Optional) Create a launch template or launch configuration with a user data script that runs while an instance * is in a wait state due to a lifecycle hook. *
** (Optional) Create a Lambda function and a rule that allows Amazon EventBridge to invoke your Lambda function when * an instance is put into a wait state due to a lifecycle hook. *
** (Optional) Create a notification target and an IAM role. The target can be either an Amazon SQS queue or an * Amazon SNS topic. The role allows Amazon EC2 Auto Scaling to publish lifecycle notifications to the target. *
** Create the lifecycle hook. Specify whether the hook is used when the instances launch or terminate. *
** If you need more time, record the lifecycle action heartbeat to keep the instance in a wait state. *
** If you finish before the timeout period ends, send a callback by using the CompleteLifecycleAction API * call. *
** For more information, see Complete a lifecycle * action in the Amazon EC2 Auto Scaling User Guide. *
* * @param completeLifecycleActionRequest * @return A Java Future containing the result of the CompleteLifecycleAction operation returned by the service. * @sample AmazonAutoScalingAsync.CompleteLifecycleAction * @see AWS API Documentation */ java.util.concurrent.Future* Completes the lifecycle action for the specified token or instance with the specified result. *
** This step is a part of the procedure for adding a lifecycle hook to an Auto Scaling group: *
** (Optional) Create a launch template or launch configuration with a user data script that runs while an instance * is in a wait state due to a lifecycle hook. *
** (Optional) Create a Lambda function and a rule that allows Amazon EventBridge to invoke your Lambda function when * an instance is put into a wait state due to a lifecycle hook. *
** (Optional) Create a notification target and an IAM role. The target can be either an Amazon SQS queue or an * Amazon SNS topic. The role allows Amazon EC2 Auto Scaling to publish lifecycle notifications to the target. *
** Create the lifecycle hook. Specify whether the hook is used when the instances launch or terminate. *
** If you need more time, record the lifecycle action heartbeat to keep the instance in a wait state. *
** If you finish before the timeout period ends, send a callback by using the CompleteLifecycleAction API * call. *
** For more information, see Complete a lifecycle * action in the Amazon EC2 Auto Scaling User Guide. *
* * @param completeLifecycleActionRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the CompleteLifecycleAction operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.CompleteLifecycleAction * @see AWS API Documentation */ java.util.concurrent.Future* We strongly recommend using a launch template when calling this operation to ensure full functionality for * Amazon EC2 Auto Scaling and Amazon EC2. *
** Creates an Auto Scaling group with the specified name and attributes. *
** If you exceed your maximum limit of Auto Scaling groups, the call fails. To query this limit, call the * DescribeAccountLimits API. For information about updating this limit, see Quotas for Amazon EC2 * Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
** For introductory exercises for creating an Auto Scaling group, see Getting started with * Amazon EC2 Auto Scaling and Tutorial: Set up a * scaled and load-balanced application in the Amazon EC2 Auto Scaling User Guide. For more information, * see Auto Scaling groups * in the Amazon EC2 Auto Scaling User Guide. *
*
* Every Auto Scaling group has three size properties (DesiredCapacity, MaxSize, and
* MinSize). Usually, you set these sizes based on a specific number of instances. However, if you
* configure a mixed instances policy that defines weights for the instance types, you must specify these sizes with
* the same units that you use for weighting instances.
*
* We strongly recommend using a launch template when calling this operation to ensure full functionality for * Amazon EC2 Auto Scaling and Amazon EC2. *
** Creates an Auto Scaling group with the specified name and attributes. *
** If you exceed your maximum limit of Auto Scaling groups, the call fails. To query this limit, call the * DescribeAccountLimits API. For information about updating this limit, see Quotas for Amazon EC2 * Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
** For introductory exercises for creating an Auto Scaling group, see Getting started with * Amazon EC2 Auto Scaling and Tutorial: Set up a * scaled and load-balanced application in the Amazon EC2 Auto Scaling User Guide. For more information, * see Auto Scaling groups * in the Amazon EC2 Auto Scaling User Guide. *
*
* Every Auto Scaling group has three size properties (DesiredCapacity, MaxSize, and
* MinSize). Usually, you set these sizes based on a specific number of instances. However, if you
* configure a mixed instances policy that defines weights for the instance types, you must specify these sizes with
* the same units that you use for weighting instances.
*
* Creates a launch configuration. *
** If you exceed your maximum limit of launch configurations, the call fails. To query this limit, call the * DescribeAccountLimits API. For information about updating this limit, see Quotas for Amazon EC2 * Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
** For more information, see Launch configurations * in the Amazon EC2 Auto Scaling User Guide. *
** Amazon EC2 Auto Scaling configures instances launched as part of an Auto Scaling group using either a launch * template or a launch configuration. We strongly recommend that you do not use launch configurations. They do not * provide full functionality for Amazon EC2 Auto Scaling or Amazon EC2. For information about using launch * templates, see Launch * templates in the Amazon EC2 Auto Scaling User Guide. *
** Creates a launch configuration. *
** If you exceed your maximum limit of launch configurations, the call fails. To query this limit, call the * DescribeAccountLimits API. For information about updating this limit, see Quotas for Amazon EC2 * Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
** For more information, see Launch configurations * in the Amazon EC2 Auto Scaling User Guide. *
** Amazon EC2 Auto Scaling configures instances launched as part of an Auto Scaling group using either a launch * template or a launch configuration. We strongly recommend that you do not use launch configurations. They do not * provide full functionality for Amazon EC2 Auto Scaling or Amazon EC2. For information about using launch * templates, see Launch * templates in the Amazon EC2 Auto Scaling User Guide. *
** Creates or updates tags for the specified Auto Scaling group. *
** When you specify a tag with a key that already exists, the operation overwrites the previous tag definition, and * you do not get an error message. *
** For more information, see Tag Auto Scaling * groups and instances in the Amazon EC2 Auto Scaling User Guide. *
* * @param createOrUpdateTagsRequest * @return A Java Future containing the result of the CreateOrUpdateTags operation returned by the service. * @sample AmazonAutoScalingAsync.CreateOrUpdateTags * @see AWS * API Documentation */ java.util.concurrent.Future* Creates or updates tags for the specified Auto Scaling group. *
** When you specify a tag with a key that already exists, the operation overwrites the previous tag definition, and * you do not get an error message. *
** For more information, see Tag Auto Scaling * groups and instances in the Amazon EC2 Auto Scaling User Guide. *
* * @param createOrUpdateTagsRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the CreateOrUpdateTags operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.CreateOrUpdateTags * @see AWS * API Documentation */ java.util.concurrent.Future* Deletes the specified Auto Scaling group. *
** If the group has instances or scaling activities in progress, you must specify the option to force the deletion * in order for it to succeed. The force delete operation will also terminate the EC2 instances. If the group has a * warm pool, the force delete option also deletes the warm pool. *
** To remove instances from the Auto Scaling group before deleting it, call the DetachInstances API with the * list of instances and the option to decrement the desired capacity. This ensures that Amazon EC2 Auto Scaling * does not launch replacement instances. *
** To terminate all instances before deleting the Auto Scaling group, call the UpdateAutoScalingGroup API and * set the minimum size and desired capacity of the Auto Scaling group to zero. *
** If the group has scaling policies, deleting the group deletes the policies, the underlying alarm actions, and any * alarm that no longer has an associated action. *
** For more information, see Delete your Auto Scaling * infrastructure in the Amazon EC2 Auto Scaling User Guide. *
* * @param deleteAutoScalingGroupRequest * @return A Java Future containing the result of the DeleteAutoScalingGroup operation returned by the service. * @sample AmazonAutoScalingAsync.DeleteAutoScalingGroup * @see AWS API Documentation */ java.util.concurrent.Future* Deletes the specified Auto Scaling group. *
** If the group has instances or scaling activities in progress, you must specify the option to force the deletion * in order for it to succeed. The force delete operation will also terminate the EC2 instances. If the group has a * warm pool, the force delete option also deletes the warm pool. *
** To remove instances from the Auto Scaling group before deleting it, call the DetachInstances API with the * list of instances and the option to decrement the desired capacity. This ensures that Amazon EC2 Auto Scaling * does not launch replacement instances. *
** To terminate all instances before deleting the Auto Scaling group, call the UpdateAutoScalingGroup API and * set the minimum size and desired capacity of the Auto Scaling group to zero. *
** If the group has scaling policies, deleting the group deletes the policies, the underlying alarm actions, and any * alarm that no longer has an associated action. *
** For more information, see Delete your Auto Scaling * infrastructure in the Amazon EC2 Auto Scaling User Guide. *
* * @param deleteAutoScalingGroupRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DeleteAutoScalingGroup operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DeleteAutoScalingGroup * @see AWS API Documentation */ java.util.concurrent.Future* Deletes the specified launch configuration. *
** The launch configuration must not be attached to an Auto Scaling group. When this call completes, the launch * configuration is no longer available for use. *
* * @param deleteLaunchConfigurationRequest * @return A Java Future containing the result of the DeleteLaunchConfiguration operation returned by the service. * @sample AmazonAutoScalingAsync.DeleteLaunchConfiguration * @see AWS API Documentation */ java.util.concurrent.Future* Deletes the specified launch configuration. *
** The launch configuration must not be attached to an Auto Scaling group. When this call completes, the launch * configuration is no longer available for use. *
* * @param deleteLaunchConfigurationRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DeleteLaunchConfiguration operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DeleteLaunchConfiguration * @see AWS API Documentation */ java.util.concurrent.Future* Deletes the specified lifecycle hook. *
*
* If there are any outstanding lifecycle actions, they are completed first (ABANDON for launching
* instances, CONTINUE for terminating instances).
*
* Deletes the specified lifecycle hook. *
*
* If there are any outstanding lifecycle actions, they are completed first (ABANDON for launching
* instances, CONTINUE for terminating instances).
*
* Deletes the specified notification. *
* * @param deleteNotificationConfigurationRequest * @return A Java Future containing the result of the DeleteNotificationConfiguration operation returned by the * service. * @sample AmazonAutoScalingAsync.DeleteNotificationConfiguration * @see AWS API Documentation */ java.util.concurrent.Future* Deletes the specified notification. *
* * @param deleteNotificationConfigurationRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DeleteNotificationConfiguration operation returned by the * service. * @sample AmazonAutoScalingAsyncHandler.DeleteNotificationConfiguration * @see AWS API Documentation */ java.util.concurrent.Future* Deletes the specified scaling policy. *
** Deleting either a step scaling policy or a simple scaling policy deletes the underlying alarm action, but does * not delete the alarm, even if it no longer has an associated action. *
** For more information, see Deleting a scaling * policy in the Amazon EC2 Auto Scaling User Guide. *
* * @param deletePolicyRequest * @return A Java Future containing the result of the DeletePolicy operation returned by the service. * @sample AmazonAutoScalingAsync.DeletePolicy * @see AWS API * Documentation */ java.util.concurrent.Future* Deletes the specified scaling policy. *
** Deleting either a step scaling policy or a simple scaling policy deletes the underlying alarm action, but does * not delete the alarm, even if it no longer has an associated action. *
** For more information, see Deleting a scaling * policy in the Amazon EC2 Auto Scaling User Guide. *
* * @param deletePolicyRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DeletePolicy operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DeletePolicy * @see AWS API * Documentation */ java.util.concurrent.Future* Deletes the specified scheduled action. *
* * @param deleteScheduledActionRequest * @return A Java Future containing the result of the DeleteScheduledAction operation returned by the service. * @sample AmazonAutoScalingAsync.DeleteScheduledAction * @see AWS API Documentation */ java.util.concurrent.Future* Deletes the specified scheduled action. *
* * @param deleteScheduledActionRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DeleteScheduledAction operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DeleteScheduledAction * @see AWS API Documentation */ java.util.concurrent.Future* Deletes the specified tags. *
* * @param deleteTagsRequest * @return A Java Future containing the result of the DeleteTags operation returned by the service. * @sample AmazonAutoScalingAsync.DeleteTags * @see AWS API * Documentation */ java.util.concurrent.Future* Deletes the specified tags. *
* * @param deleteTagsRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DeleteTags operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DeleteTags * @see AWS API * Documentation */ java.util.concurrent.Future* Deletes the warm pool for the specified Auto Scaling group. *
** For more information, see Warm pools for * Amazon EC2 Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
* * @param deleteWarmPoolRequest * @return A Java Future containing the result of the DeleteWarmPool operation returned by the service. * @sample AmazonAutoScalingAsync.DeleteWarmPool * @see AWS API * Documentation */ java.util.concurrent.Future* Deletes the warm pool for the specified Auto Scaling group. *
** For more information, see Warm pools for * Amazon EC2 Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
* * @param deleteWarmPoolRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DeleteWarmPool operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DeleteWarmPool * @see AWS API * Documentation */ java.util.concurrent.Future* Describes the current Amazon EC2 Auto Scaling resource quotas for your account. *
** When you establish an Amazon Web Services account, the account has initial quotas on the maximum number of Auto * Scaling groups and launch configurations that you can create in a given Region. For more information, see Quotas for Amazon EC2 * Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
* * @param describeAccountLimitsRequest * @return A Java Future containing the result of the DescribeAccountLimits operation returned by the service. * @sample AmazonAutoScalingAsync.DescribeAccountLimits * @see AWS API Documentation */ java.util.concurrent.Future* Describes the current Amazon EC2 Auto Scaling resource quotas for your account. *
** When you establish an Amazon Web Services account, the account has initial quotas on the maximum number of Auto * Scaling groups and launch configurations that you can create in a given Region. For more information, see Quotas for Amazon EC2 * Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
* * @param describeAccountLimitsRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeAccountLimits operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DescribeAccountLimits * @see AWS API Documentation */ java.util.concurrent.Future* Describes the available adjustment types for step scaling and simple scaling policies. *
** The following adjustment types are supported: *
*
* ChangeInCapacity
*
* ExactCapacity
*
* PercentChangeInCapacity
*
* Describes the available adjustment types for step scaling and simple scaling policies. *
** The following adjustment types are supported: *
*
* ChangeInCapacity
*
* ExactCapacity
*
* PercentChangeInCapacity
*
* Gets information about the Auto Scaling groups in the account and Region. *
** If you specify Auto Scaling group names, the output includes information for only the specified Auto Scaling * groups. If you specify filters, the output includes information for only those Auto Scaling groups that meet the * filter criteria. If you do not specify group names or filters, the output includes information for all Auto * Scaling groups. *
** This operation also returns information about instances in Auto Scaling groups. To retrieve information about the * instances in a warm pool, you must call the DescribeWarmPool API. *
* * @param describeAutoScalingGroupsRequest * @return A Java Future containing the result of the DescribeAutoScalingGroups operation returned by the service. * @sample AmazonAutoScalingAsync.DescribeAutoScalingGroups * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the Auto Scaling groups in the account and Region. *
** If you specify Auto Scaling group names, the output includes information for only the specified Auto Scaling * groups. If you specify filters, the output includes information for only those Auto Scaling groups that meet the * filter criteria. If you do not specify group names or filters, the output includes information for all Auto * Scaling groups. *
** This operation also returns information about instances in Auto Scaling groups. To retrieve information about the * instances in a warm pool, you must call the DescribeWarmPool API. *
* * @param describeAutoScalingGroupsRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeAutoScalingGroups operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DescribeAutoScalingGroups * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the Auto Scaling instances in the account and Region. *
* * @param describeAutoScalingInstancesRequest * @return A Java Future containing the result of the DescribeAutoScalingInstances operation returned by the * service. * @sample AmazonAutoScalingAsync.DescribeAutoScalingInstances * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the Auto Scaling instances in the account and Region. *
* * @param describeAutoScalingInstancesRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeAutoScalingInstances operation returned by the * service. * @sample AmazonAutoScalingAsyncHandler.DescribeAutoScalingInstances * @see AWS API Documentation */ java.util.concurrent.Future* Describes the notification types that are supported by Amazon EC2 Auto Scaling. *
* * @param describeAutoScalingNotificationTypesRequest * @return A Java Future containing the result of the DescribeAutoScalingNotificationTypes operation returned by the * service. * @sample AmazonAutoScalingAsync.DescribeAutoScalingNotificationTypes * @see AWS API Documentation */ java.util.concurrent.Future* Describes the notification types that are supported by Amazon EC2 Auto Scaling. *
* * @param describeAutoScalingNotificationTypesRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeAutoScalingNotificationTypes operation returned by the * service. * @sample AmazonAutoScalingAsyncHandler.DescribeAutoScalingNotificationTypes * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the instance refreshes for the specified Auto Scaling group. *
** This operation is part of the instance refresh * feature in Amazon EC2 Auto Scaling, which helps you update instances in your Auto Scaling group after you * make configuration changes. *
** To help you determine the status of an instance refresh, Amazon EC2 Auto Scaling returns information about the * instance refreshes you previously initiated, including their status, start time, end time, the percentage of the * instance refresh that is complete, and the number of instances remaining to update before the instance refresh is * complete. If a rollback is initiated while an instance refresh is in progress, Amazon EC2 Auto Scaling also * returns information about the rollback of the instance refresh. *
* * @param describeInstanceRefreshesRequest * @return A Java Future containing the result of the DescribeInstanceRefreshes operation returned by the service. * @sample AmazonAutoScalingAsync.DescribeInstanceRefreshes * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the instance refreshes for the specified Auto Scaling group. *
** This operation is part of the instance refresh * feature in Amazon EC2 Auto Scaling, which helps you update instances in your Auto Scaling group after you * make configuration changes. *
** To help you determine the status of an instance refresh, Amazon EC2 Auto Scaling returns information about the * instance refreshes you previously initiated, including their status, start time, end time, the percentage of the * instance refresh that is complete, and the number of instances remaining to update before the instance refresh is * complete. If a rollback is initiated while an instance refresh is in progress, Amazon EC2 Auto Scaling also * returns information about the rollback of the instance refresh. *
* * @param describeInstanceRefreshesRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeInstanceRefreshes operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DescribeInstanceRefreshes * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the launch configurations in the account and Region. *
* * @param describeLaunchConfigurationsRequest * @return A Java Future containing the result of the DescribeLaunchConfigurations operation returned by the * service. * @sample AmazonAutoScalingAsync.DescribeLaunchConfigurations * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the launch configurations in the account and Region. *
* * @param describeLaunchConfigurationsRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeLaunchConfigurations operation returned by the * service. * @sample AmazonAutoScalingAsyncHandler.DescribeLaunchConfigurations * @see AWS API Documentation */ java.util.concurrent.Future* Describes the available types of lifecycle hooks. *
** The following hook types are supported: *
*
* autoscaling:EC2_INSTANCE_LAUNCHING
*
* autoscaling:EC2_INSTANCE_TERMINATING
*
* Describes the available types of lifecycle hooks. *
** The following hook types are supported: *
*
* autoscaling:EC2_INSTANCE_LAUNCHING
*
* autoscaling:EC2_INSTANCE_TERMINATING
*
* Gets information about the lifecycle hooks for the specified Auto Scaling group. *
* * @param describeLifecycleHooksRequest * @return A Java Future containing the result of the DescribeLifecycleHooks operation returned by the service. * @sample AmazonAutoScalingAsync.DescribeLifecycleHooks * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the lifecycle hooks for the specified Auto Scaling group. *
* * @param describeLifecycleHooksRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeLifecycleHooks operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DescribeLifecycleHooks * @see AWS API Documentation */ java.util.concurrent.Future
* This API operation is superseded by DescribeTrafficSources, which can describe multiple traffic sources
* types. We recommend using DetachTrafficSources to simplify how you manage traffic sources. However,
* we continue to support DescribeLoadBalancerTargetGroups. You can use both the original
* DescribeLoadBalancerTargetGroups API operation and DescribeTrafficSources on the same
* Auto Scaling group.
*
* Gets information about the Elastic Load Balancing target groups for the specified Auto Scaling group. *
*
* To determine the attachment status of the target group, use the State element in the response. When
* you attach a target group to an Auto Scaling group, the initial State value is Adding.
* The state transitions to Added after all Auto Scaling instances are registered with the target
* group. If Elastic Load Balancing health checks are enabled for the Auto Scaling group, the state transitions to
* InService after at least one Auto Scaling instance passes the health check. When the target group is
* in the InService state, Amazon EC2 Auto Scaling can terminate and replace any instances that are
* reported as unhealthy. If no registered instances pass the health checks, the target group doesn't enter the
* InService state.
*
* Target groups also have an InService state if you attach them in the CreateAutoScalingGroup
* API call. If your target group state is InService, but it is not working properly, check the scaling
* activities by calling DescribeScalingActivities and take any corrective actions necessary.
*
* For help with failed health checks, see Troubleshooting Amazon EC2 * Auto Scaling: Health checks in the Amazon EC2 Auto Scaling User Guide. For more information, see Use Elastic Load * Balancing to distribute traffic across the instances in your Auto Scaling group in the Amazon EC2 Auto * Scaling User Guide. *
** You can use this operation to describe target groups that were attached by using * AttachLoadBalancerTargetGroups, but not for target groups that were attached by using * AttachTrafficSources. *
*
* This API operation is superseded by DescribeTrafficSources, which can describe multiple traffic sources
* types. We recommend using DetachTrafficSources to simplify how you manage traffic sources. However,
* we continue to support DescribeLoadBalancerTargetGroups. You can use both the original
* DescribeLoadBalancerTargetGroups API operation and DescribeTrafficSources on the same
* Auto Scaling group.
*
* Gets information about the Elastic Load Balancing target groups for the specified Auto Scaling group. *
*
* To determine the attachment status of the target group, use the State element in the response. When
* you attach a target group to an Auto Scaling group, the initial State value is Adding.
* The state transitions to Added after all Auto Scaling instances are registered with the target
* group. If Elastic Load Balancing health checks are enabled for the Auto Scaling group, the state transitions to
* InService after at least one Auto Scaling instance passes the health check. When the target group is
* in the InService state, Amazon EC2 Auto Scaling can terminate and replace any instances that are
* reported as unhealthy. If no registered instances pass the health checks, the target group doesn't enter the
* InService state.
*
* Target groups also have an InService state if you attach them in the CreateAutoScalingGroup
* API call. If your target group state is InService, but it is not working properly, check the scaling
* activities by calling DescribeScalingActivities and take any corrective actions necessary.
*
* For help with failed health checks, see Troubleshooting Amazon EC2 * Auto Scaling: Health checks in the Amazon EC2 Auto Scaling User Guide. For more information, see Use Elastic Load * Balancing to distribute traffic across the instances in your Auto Scaling group in the Amazon EC2 Auto * Scaling User Guide. *
** You can use this operation to describe target groups that were attached by using * AttachLoadBalancerTargetGroups, but not for target groups that were attached by using * AttachTrafficSources. *
*
* This API operation is superseded by DescribeTrafficSources, which can describe multiple traffic sources
* types. We recommend using DescribeTrafficSources to simplify how you manage traffic sources.
* However, we continue to support DescribeLoadBalancers. You can use both the original
* DescribeLoadBalancers API operation and DescribeTrafficSources on the same Auto Scaling
* group.
*
* Gets information about the load balancers for the specified Auto Scaling group. *
** This operation describes only Classic Load Balancers. If you have Application Load Balancers, Network Load * Balancers, or Gateway Load Balancers, use the DescribeLoadBalancerTargetGroups API instead. *
*
* To determine the attachment status of the load balancer, use the State element in the response. When
* you attach a load balancer to an Auto Scaling group, the initial State value is Adding.
* The state transitions to Added after all Auto Scaling instances are registered with the load
* balancer. If Elastic Load Balancing health checks are enabled for the Auto Scaling group, the state transitions
* to InService after at least one Auto Scaling instance passes the health check. When the load
* balancer is in the InService state, Amazon EC2 Auto Scaling can terminate and replace any instances
* that are reported as unhealthy. If no registered instances pass the health checks, the load balancer doesn't
* enter the InService state.
*
* Load balancers also have an InService state if you attach them in the CreateAutoScalingGroup
* API call. If your load balancer state is InService, but it is not working properly, check the
* scaling activities by calling DescribeScalingActivities and take any corrective actions necessary.
*
* For help with failed health checks, see Troubleshooting Amazon EC2 * Auto Scaling: Health checks in the Amazon EC2 Auto Scaling User Guide. For more information, see Use Elastic Load * Balancing to distribute traffic across the instances in your Auto Scaling group in the Amazon EC2 Auto * Scaling User Guide. *
* * @param describeLoadBalancersRequest * @return A Java Future containing the result of the DescribeLoadBalancers operation returned by the service. * @sample AmazonAutoScalingAsync.DescribeLoadBalancers * @see AWS API Documentation */ java.util.concurrent.Future
* This API operation is superseded by DescribeTrafficSources, which can describe multiple traffic sources
* types. We recommend using DescribeTrafficSources to simplify how you manage traffic sources.
* However, we continue to support DescribeLoadBalancers. You can use both the original
* DescribeLoadBalancers API operation and DescribeTrafficSources on the same Auto Scaling
* group.
*
* Gets information about the load balancers for the specified Auto Scaling group. *
** This operation describes only Classic Load Balancers. If you have Application Load Balancers, Network Load * Balancers, or Gateway Load Balancers, use the DescribeLoadBalancerTargetGroups API instead. *
*
* To determine the attachment status of the load balancer, use the State element in the response. When
* you attach a load balancer to an Auto Scaling group, the initial State value is Adding.
* The state transitions to Added after all Auto Scaling instances are registered with the load
* balancer. If Elastic Load Balancing health checks are enabled for the Auto Scaling group, the state transitions
* to InService after at least one Auto Scaling instance passes the health check. When the load
* balancer is in the InService state, Amazon EC2 Auto Scaling can terminate and replace any instances
* that are reported as unhealthy. If no registered instances pass the health checks, the load balancer doesn't
* enter the InService state.
*
* Load balancers also have an InService state if you attach them in the CreateAutoScalingGroup
* API call. If your load balancer state is InService, but it is not working properly, check the
* scaling activities by calling DescribeScalingActivities and take any corrective actions necessary.
*
* For help with failed health checks, see Troubleshooting Amazon EC2 * Auto Scaling: Health checks in the Amazon EC2 Auto Scaling User Guide. For more information, see Use Elastic Load * Balancing to distribute traffic across the instances in your Auto Scaling group in the Amazon EC2 Auto * Scaling User Guide. *
* * @param describeLoadBalancersRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeLoadBalancers operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DescribeLoadBalancers * @see AWS API Documentation */ java.util.concurrent.Future* Describes the available CloudWatch metrics for Amazon EC2 Auto Scaling. *
* * @param describeMetricCollectionTypesRequest * @return A Java Future containing the result of the DescribeMetricCollectionTypes operation returned by the * service. * @sample AmazonAutoScalingAsync.DescribeMetricCollectionTypes * @see AWS API Documentation */ java.util.concurrent.Future* Describes the available CloudWatch metrics for Amazon EC2 Auto Scaling. *
* * @param describeMetricCollectionTypesRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeMetricCollectionTypes operation returned by the * service. * @sample AmazonAutoScalingAsyncHandler.DescribeMetricCollectionTypes * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the Amazon SNS notifications that are configured for one or more Auto Scaling groups. *
* * @param describeNotificationConfigurationsRequest * @return A Java Future containing the result of the DescribeNotificationConfigurations operation returned by the * service. * @sample AmazonAutoScalingAsync.DescribeNotificationConfigurations * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the Amazon SNS notifications that are configured for one or more Auto Scaling groups. *
* * @param describeNotificationConfigurationsRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeNotificationConfigurations operation returned by the * service. * @sample AmazonAutoScalingAsyncHandler.DescribeNotificationConfigurations * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the scaling policies in the account and Region. *
* * @param describePoliciesRequest * @return A Java Future containing the result of the DescribePolicies operation returned by the service. * @sample AmazonAutoScalingAsync.DescribePolicies * @see AWS * API Documentation */ java.util.concurrent.Future* Gets information about the scaling policies in the account and Region. *
* * @param describePoliciesRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribePolicies operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DescribePolicies * @see AWS * API Documentation */ java.util.concurrent.Future* Gets information about the scaling activities in the account and Region. *
** When scaling events occur, you see a record of the scaling activity in the scaling activities. For more * information, see Verifying a scaling * activity for an Auto Scaling group in the Amazon EC2 Auto Scaling User Guide. *
*
* If the scaling event succeeds, the value of the StatusCode element in the response is
* Successful. If an attempt to launch instances failed, the StatusCode value is
* Failed or Cancelled and the StatusMessage element in the response
* indicates the cause of the failure. For help interpreting the StatusMessage, see Troubleshooting Amazon EC2
* Auto Scaling in the Amazon EC2 Auto Scaling User Guide.
*
* Gets information about the scaling activities in the account and Region. *
** When scaling events occur, you see a record of the scaling activity in the scaling activities. For more * information, see Verifying a scaling * activity for an Auto Scaling group in the Amazon EC2 Auto Scaling User Guide. *
*
* If the scaling event succeeds, the value of the StatusCode element in the response is
* Successful. If an attempt to launch instances failed, the StatusCode value is
* Failed or Cancelled and the StatusMessage element in the response
* indicates the cause of the failure. For help interpreting the StatusMessage, see Troubleshooting Amazon EC2
* Auto Scaling in the Amazon EC2 Auto Scaling User Guide.
*
* Describes the scaling process types for use with the ResumeProcesses and SuspendProcesses APIs. *
* * @param describeScalingProcessTypesRequest * @return A Java Future containing the result of the DescribeScalingProcessTypes operation returned by the service. * @sample AmazonAutoScalingAsync.DescribeScalingProcessTypes * @see AWS API Documentation */ java.util.concurrent.Future* Describes the scaling process types for use with the ResumeProcesses and SuspendProcesses APIs. *
* * @param describeScalingProcessTypesRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeScalingProcessTypes operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DescribeScalingProcessTypes * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the scheduled actions that haven't run or that have not reached their end time. *
** To describe the scaling activities for scheduled actions that have already run, call the * DescribeScalingActivities API. *
* * @param describeScheduledActionsRequest * @return A Java Future containing the result of the DescribeScheduledActions operation returned by the service. * @sample AmazonAutoScalingAsync.DescribeScheduledActions * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the scheduled actions that haven't run or that have not reached their end time. *
** To describe the scaling activities for scheduled actions that have already run, call the * DescribeScalingActivities API. *
* * @param describeScheduledActionsRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeScheduledActions operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DescribeScheduledActions * @see AWS API Documentation */ java.util.concurrent.Future* Describes the specified tags. *
** You can use filters to limit the results. For example, you can query for the tags for a specific Auto Scaling * group. You can specify multiple values for a filter. A tag must match at least one of the specified values for it * to be included in the results. *
** You can also specify multiple filters. The result includes information for a particular tag only if it matches * all the filters. If there's no match, no special message is returned. *
** For more information, see Tag Auto Scaling * groups and instances in the Amazon EC2 Auto Scaling User Guide. *
* * @param describeTagsRequest * @return A Java Future containing the result of the DescribeTags operation returned by the service. * @sample AmazonAutoScalingAsync.DescribeTags * @see AWS API * Documentation */ java.util.concurrent.Future* Describes the specified tags. *
** You can use filters to limit the results. For example, you can query for the tags for a specific Auto Scaling * group. You can specify multiple values for a filter. A tag must match at least one of the specified values for it * to be included in the results. *
** You can also specify multiple filters. The result includes information for a particular tag only if it matches * all the filters. If there's no match, no special message is returned. *
** For more information, see Tag Auto Scaling * groups and instances in the Amazon EC2 Auto Scaling User Guide. *
* * @param describeTagsRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeTags operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DescribeTags * @see AWS API * Documentation */ java.util.concurrent.Future* Describes the termination policies supported by Amazon EC2 Auto Scaling. *
** For more information, see Work with * Amazon EC2 Auto Scaling termination policies in the Amazon EC2 Auto Scaling User Guide. *
* * @param describeTerminationPolicyTypesRequest * @return A Java Future containing the result of the DescribeTerminationPolicyTypes operation returned by the * service. * @sample AmazonAutoScalingAsync.DescribeTerminationPolicyTypes * @see AWS API Documentation */ java.util.concurrent.Future* Describes the termination policies supported by Amazon EC2 Auto Scaling. *
** For more information, see Work with * Amazon EC2 Auto Scaling termination policies in the Amazon EC2 Auto Scaling User Guide. *
* * @param describeTerminationPolicyTypesRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeTerminationPolicyTypes operation returned by the * service. * @sample AmazonAutoScalingAsyncHandler.DescribeTerminationPolicyTypes * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the traffic sources for the specified Auto Scaling group. *
** You can optionally provide a traffic source type. If you provide a traffic source type, then the results only * include that traffic source type. *
** If you do not provide a traffic source type, then the results include all the traffic sources for the specified * Auto Scaling group. *
* * @param describeTrafficSourcesRequest * @return A Java Future containing the result of the DescribeTrafficSources operation returned by the service. * @sample AmazonAutoScalingAsync.DescribeTrafficSources * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about the traffic sources for the specified Auto Scaling group. *
** You can optionally provide a traffic source type. If you provide a traffic source type, then the results only * include that traffic source type. *
** If you do not provide a traffic source type, then the results include all the traffic sources for the specified * Auto Scaling group. *
* * @param describeTrafficSourcesRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeTrafficSources operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DescribeTrafficSources * @see AWS API Documentation */ java.util.concurrent.Future* Gets information about a warm pool and its instances. *
** For more information, see Warm pools for * Amazon EC2 Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
* * @param describeWarmPoolRequest * @return A Java Future containing the result of the DescribeWarmPool operation returned by the service. * @sample AmazonAutoScalingAsync.DescribeWarmPool * @see AWS * API Documentation */ java.util.concurrent.Future* Gets information about a warm pool and its instances. *
** For more information, see Warm pools for * Amazon EC2 Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
* * @param describeWarmPoolRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DescribeWarmPool operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DescribeWarmPool * @see AWS * API Documentation */ java.util.concurrent.Future* Removes one or more instances from the specified Auto Scaling group. *
** After the instances are detached, you can manage them independent of the Auto Scaling group. *
** If you do not specify the option to decrement the desired capacity, Amazon EC2 Auto Scaling launches instances to * replace the ones that are detached. *
** If there is a Classic Load Balancer attached to the Auto Scaling group, the instances are deregistered from the * load balancer. If there are target groups attached to the Auto Scaling group, the instances are deregistered from * the target groups. *
** For more information, see Detach EC2 instances from * your Auto Scaling group in the Amazon EC2 Auto Scaling User Guide. *
* * @param detachInstancesRequest * @return A Java Future containing the result of the DetachInstances operation returned by the service. * @sample AmazonAutoScalingAsync.DetachInstances * @see AWS * API Documentation */ java.util.concurrent.Future* Removes one or more instances from the specified Auto Scaling group. *
** After the instances are detached, you can manage them independent of the Auto Scaling group. *
** If you do not specify the option to decrement the desired capacity, Amazon EC2 Auto Scaling launches instances to * replace the ones that are detached. *
** If there is a Classic Load Balancer attached to the Auto Scaling group, the instances are deregistered from the * load balancer. If there are target groups attached to the Auto Scaling group, the instances are deregistered from * the target groups. *
** For more information, see Detach EC2 instances from * your Auto Scaling group in the Amazon EC2 Auto Scaling User Guide. *
* * @param detachInstancesRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DetachInstances operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DetachInstances * @see AWS * API Documentation */ java.util.concurrent.Future
* This API operation is superseded by DetachTrafficSources, which can detach multiple traffic sources types.
* We recommend using DetachTrafficSources to simplify how you manage traffic sources. However, we
* continue to support DetachLoadBalancerTargetGroups. You can use both the original
* DetachLoadBalancerTargetGroups API operation and DetachTrafficSources on the same Auto
* Scaling group.
*
* Detaches one or more target groups from the specified Auto Scaling group. *
*
* When you detach a target group, it enters the Removing state while deregistering the instances in
* the group. When all instances are deregistered, then you can no longer describe the target group using the
* DescribeLoadBalancerTargetGroups API call. The instances remain running.
*
* You can use this operation to detach target groups that were attached by using * AttachLoadBalancerTargetGroups, but not for target groups that were attached by using * AttachTrafficSources. *
*
* This API operation is superseded by DetachTrafficSources, which can detach multiple traffic sources types.
* We recommend using DetachTrafficSources to simplify how you manage traffic sources. However, we
* continue to support DetachLoadBalancerTargetGroups. You can use both the original
* DetachLoadBalancerTargetGroups API operation and DetachTrafficSources on the same Auto
* Scaling group.
*
* Detaches one or more target groups from the specified Auto Scaling group. *
*
* When you detach a target group, it enters the Removing state while deregistering the instances in
* the group. When all instances are deregistered, then you can no longer describe the target group using the
* DescribeLoadBalancerTargetGroups API call. The instances remain running.
*
* You can use this operation to detach target groups that were attached by using * AttachLoadBalancerTargetGroups, but not for target groups that were attached by using * AttachTrafficSources. *
*
* This API operation is superseded by DetachTrafficSources, which can detach multiple traffic sources types.
* We recommend using DetachTrafficSources to simplify how you manage traffic sources. However, we
* continue to support DetachLoadBalancers. You can use both the original
* DetachLoadBalancers API operation and DetachTrafficSources on the same Auto Scaling
* group.
*
* Detaches one or more Classic Load Balancers from the specified Auto Scaling group. *
** This operation detaches only Classic Load Balancers. If you have Application Load Balancers, Network Load * Balancers, or Gateway Load Balancers, use the DetachLoadBalancerTargetGroups API instead. *
*
* When you detach a load balancer, it enters the Removing state while deregistering the instances in
* the group. When all instances are deregistered, then you can no longer describe the load balancer using the
* DescribeLoadBalancers API call. The instances remain running.
*
* This API operation is superseded by DetachTrafficSources, which can detach multiple traffic sources types.
* We recommend using DetachTrafficSources to simplify how you manage traffic sources. However, we
* continue to support DetachLoadBalancers. You can use both the original
* DetachLoadBalancers API operation and DetachTrafficSources on the same Auto Scaling
* group.
*
* Detaches one or more Classic Load Balancers from the specified Auto Scaling group. *
** This operation detaches only Classic Load Balancers. If you have Application Load Balancers, Network Load * Balancers, or Gateway Load Balancers, use the DetachLoadBalancerTargetGroups API instead. *
*
* When you detach a load balancer, it enters the Removing state while deregistering the instances in
* the group. When all instances are deregistered, then you can no longer describe the load balancer using the
* DescribeLoadBalancers API call. The instances remain running.
*
* Detaches one or more traffic sources from the specified Auto Scaling group. *
*
* When you detach a traffic source, it enters the Removing state while deregistering the instances in
* the group. When all instances are deregistered, then you can no longer describe the traffic source using the
* DescribeTrafficSources API call. The instances continue to run.
*
* Detaches one or more traffic sources from the specified Auto Scaling group. *
*
* When you detach a traffic source, it enters the Removing state while deregistering the instances in
* the group. When all instances are deregistered, then you can no longer describe the traffic source using the
* DescribeTrafficSources API call. The instances continue to run.
*
* Disables group metrics collection for the specified Auto Scaling group. *
* * @param disableMetricsCollectionRequest * @return A Java Future containing the result of the DisableMetricsCollection operation returned by the service. * @sample AmazonAutoScalingAsync.DisableMetricsCollection * @see AWS API Documentation */ java.util.concurrent.Future* Disables group metrics collection for the specified Auto Scaling group. *
* * @param disableMetricsCollectionRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the DisableMetricsCollection operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.DisableMetricsCollection * @see AWS API Documentation */ java.util.concurrent.Future* Enables group metrics collection for the specified Auto Scaling group. *
** You can use these metrics to track changes in an Auto Scaling group and to set alarms on threshold values. You * can view group metrics using the Amazon EC2 Auto Scaling console or the CloudWatch console. For more information, * see * Monitor CloudWatch metrics for your Auto Scaling groups and instances in the Amazon EC2 Auto Scaling User * Guide. *
* * @param enableMetricsCollectionRequest * @return A Java Future containing the result of the EnableMetricsCollection operation returned by the service. * @sample AmazonAutoScalingAsync.EnableMetricsCollection * @see AWS API Documentation */ java.util.concurrent.Future* Enables group metrics collection for the specified Auto Scaling group. *
** You can use these metrics to track changes in an Auto Scaling group and to set alarms on threshold values. You * can view group metrics using the Amazon EC2 Auto Scaling console or the CloudWatch console. For more information, * see * Monitor CloudWatch metrics for your Auto Scaling groups and instances in the Amazon EC2 Auto Scaling User * Guide. *
* * @param enableMetricsCollectionRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the EnableMetricsCollection operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.EnableMetricsCollection * @see AWS API Documentation */ java.util.concurrent.Future* Moves the specified instances into the standby state. *
** If you choose to decrement the desired capacity of the Auto Scaling group, the instances can enter standby as * long as the desired capacity of the Auto Scaling group after the instances are placed into standby is equal to or * greater than the minimum capacity of the group. *
** If you choose not to decrement the desired capacity of the Auto Scaling group, the Auto Scaling group launches * new instances to replace the instances on standby. *
** For more information, see Temporarily removing * instances from your Auto Scaling group in the Amazon EC2 Auto Scaling User Guide. *
* * @param enterStandbyRequest * @return A Java Future containing the result of the EnterStandby operation returned by the service. * @sample AmazonAutoScalingAsync.EnterStandby * @see AWS API * Documentation */ java.util.concurrent.Future* Moves the specified instances into the standby state. *
** If you choose to decrement the desired capacity of the Auto Scaling group, the instances can enter standby as * long as the desired capacity of the Auto Scaling group after the instances are placed into standby is equal to or * greater than the minimum capacity of the group. *
** If you choose not to decrement the desired capacity of the Auto Scaling group, the Auto Scaling group launches * new instances to replace the instances on standby. *
** For more information, see Temporarily removing * instances from your Auto Scaling group in the Amazon EC2 Auto Scaling User Guide. *
* * @param enterStandbyRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the EnterStandby operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.EnterStandby * @see AWS API * Documentation */ java.util.concurrent.Future* Executes the specified policy. This can be useful for testing the design of your scaling policy. *
* * @param executePolicyRequest * @return A Java Future containing the result of the ExecutePolicy operation returned by the service. * @sample AmazonAutoScalingAsync.ExecutePolicy * @see AWS API * Documentation */ java.util.concurrent.Future* Executes the specified policy. This can be useful for testing the design of your scaling policy. *
* * @param executePolicyRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the ExecutePolicy operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.ExecutePolicy * @see AWS API * Documentation */ java.util.concurrent.Future* Moves the specified instances out of the standby state. *
** After you put the instances back in service, the desired capacity is incremented. *
** For more information, see Temporarily removing * instances from your Auto Scaling group in the Amazon EC2 Auto Scaling User Guide. *
* * @param exitStandbyRequest * @return A Java Future containing the result of the ExitStandby operation returned by the service. * @sample AmazonAutoScalingAsync.ExitStandby * @see AWS API * Documentation */ java.util.concurrent.Future* Moves the specified instances out of the standby state. *
** After you put the instances back in service, the desired capacity is incremented. *
** For more information, see Temporarily removing * instances from your Auto Scaling group in the Amazon EC2 Auto Scaling User Guide. *
* * @param exitStandbyRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the ExitStandby operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.ExitStandby * @see AWS API * Documentation */ java.util.concurrent.Future* Retrieves the forecast data for a predictive scaling policy. *
** Load forecasts are predictions of the hourly load values using historical load data from CloudWatch and an * analysis of historical trends. Capacity forecasts are represented as predicted values for the minimum capacity * that is needed on an hourly basis, based on the hourly load forecast. *
** A minimum of 24 hours of data is required to create the initial forecasts. However, having a full 14 days of * historical data results in more accurate forecasts. *
** For more information, see Predictive * scaling for Amazon EC2 Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
* * @param getPredictiveScalingForecastRequest * @return A Java Future containing the result of the GetPredictiveScalingForecast operation returned by the * service. * @sample AmazonAutoScalingAsync.GetPredictiveScalingForecast * @see AWS API Documentation */ java.util.concurrent.Future* Retrieves the forecast data for a predictive scaling policy. *
** Load forecasts are predictions of the hourly load values using historical load data from CloudWatch and an * analysis of historical trends. Capacity forecasts are represented as predicted values for the minimum capacity * that is needed on an hourly basis, based on the hourly load forecast. *
** A minimum of 24 hours of data is required to create the initial forecasts. However, having a full 14 days of * historical data results in more accurate forecasts. *
** For more information, see Predictive * scaling for Amazon EC2 Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
* * @param getPredictiveScalingForecastRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the GetPredictiveScalingForecast operation returned by the * service. * @sample AmazonAutoScalingAsyncHandler.GetPredictiveScalingForecast * @see AWS API Documentation */ java.util.concurrent.Future* Creates or updates a lifecycle hook for the specified Auto Scaling group. *
** Lifecycle hooks let you create solutions that are aware of events in the Auto Scaling instance lifecycle, and * then perform a custom action on instances when the corresponding lifecycle event occurs. *
** This step is a part of the procedure for adding a lifecycle hook to an Auto Scaling group: *
** (Optional) Create a launch template or launch configuration with a user data script that runs while an instance * is in a wait state due to a lifecycle hook. *
** (Optional) Create a Lambda function and a rule that allows Amazon EventBridge to invoke your Lambda function when * an instance is put into a wait state due to a lifecycle hook. *
** (Optional) Create a notification target and an IAM role. The target can be either an Amazon SQS queue or an * Amazon SNS topic. The role allows Amazon EC2 Auto Scaling to publish lifecycle notifications to the target. *
** Create the lifecycle hook. Specify whether the hook is used when the instances launch or terminate. *
** If you need more time, record the lifecycle action heartbeat to keep the instance in a wait state using the * RecordLifecycleActionHeartbeat API call. *
** If you finish before the timeout period ends, send a callback by using the CompleteLifecycleAction API * call. *
** For more information, see Amazon EC2 Auto Scaling * lifecycle hooks in the Amazon EC2 Auto Scaling User Guide. *
** If you exceed your maximum limit of lifecycle hooks, which by default is 50 per Auto Scaling group, the call * fails. *
** You can view the lifecycle hooks for an Auto Scaling group using the DescribeLifecycleHooks API call. If * you are no longer using a lifecycle hook, you can delete it by calling the DeleteLifecycleHook API. *
* * @param putLifecycleHookRequest * @return A Java Future containing the result of the PutLifecycleHook operation returned by the service. * @sample AmazonAutoScalingAsync.PutLifecycleHook * @see AWS * API Documentation */ java.util.concurrent.Future* Creates or updates a lifecycle hook for the specified Auto Scaling group. *
** Lifecycle hooks let you create solutions that are aware of events in the Auto Scaling instance lifecycle, and * then perform a custom action on instances when the corresponding lifecycle event occurs. *
** This step is a part of the procedure for adding a lifecycle hook to an Auto Scaling group: *
** (Optional) Create a launch template or launch configuration with a user data script that runs while an instance * is in a wait state due to a lifecycle hook. *
** (Optional) Create a Lambda function and a rule that allows Amazon EventBridge to invoke your Lambda function when * an instance is put into a wait state due to a lifecycle hook. *
** (Optional) Create a notification target and an IAM role. The target can be either an Amazon SQS queue or an * Amazon SNS topic. The role allows Amazon EC2 Auto Scaling to publish lifecycle notifications to the target. *
** Create the lifecycle hook. Specify whether the hook is used when the instances launch or terminate. *
** If you need more time, record the lifecycle action heartbeat to keep the instance in a wait state using the * RecordLifecycleActionHeartbeat API call. *
** If you finish before the timeout period ends, send a callback by using the CompleteLifecycleAction API * call. *
** For more information, see Amazon EC2 Auto Scaling * lifecycle hooks in the Amazon EC2 Auto Scaling User Guide. *
** If you exceed your maximum limit of lifecycle hooks, which by default is 50 per Auto Scaling group, the call * fails. *
** You can view the lifecycle hooks for an Auto Scaling group using the DescribeLifecycleHooks API call. If * you are no longer using a lifecycle hook, you can delete it by calling the DeleteLifecycleHook API. *
* * @param putLifecycleHookRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the PutLifecycleHook operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.PutLifecycleHook * @see AWS * API Documentation */ java.util.concurrent.Future* Configures an Auto Scaling group to send notifications when specified events take place. Subscribers to the * specified topic can have messages delivered to an endpoint such as a web server or an email address. *
** This configuration overwrites any existing configuration. *
** For more information, see Getting Amazon SNS * notifications when your Auto Scaling group scales in the Amazon EC2 Auto Scaling User Guide. *
** If you exceed your maximum limit of SNS topics, which is 10 per Auto Scaling group, the call fails. *
* * @param putNotificationConfigurationRequest * @return A Java Future containing the result of the PutNotificationConfiguration operation returned by the * service. * @sample AmazonAutoScalingAsync.PutNotificationConfiguration * @see AWS API Documentation */ java.util.concurrent.Future* Configures an Auto Scaling group to send notifications when specified events take place. Subscribers to the * specified topic can have messages delivered to an endpoint such as a web server or an email address. *
** This configuration overwrites any existing configuration. *
** For more information, see Getting Amazon SNS * notifications when your Auto Scaling group scales in the Amazon EC2 Auto Scaling User Guide. *
** If you exceed your maximum limit of SNS topics, which is 10 per Auto Scaling group, the call fails. *
* * @param putNotificationConfigurationRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the PutNotificationConfiguration operation returned by the * service. * @sample AmazonAutoScalingAsyncHandler.PutNotificationConfiguration * @see AWS API Documentation */ java.util.concurrent.Future* Creates or updates a scaling policy for an Auto Scaling group. Scaling policies are used to scale an Auto Scaling * group based on configurable metrics. If no policies are defined, the dynamic scaling and predictive scaling * features are not used. *
** For more information about using dynamic scaling, see Target tracking * scaling policies and Step and simple scaling * policies in the Amazon EC2 Auto Scaling User Guide. *
** For more information about using predictive scaling, see Predictive * scaling for Amazon EC2 Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
** You can view the scaling policies for an Auto Scaling group using the DescribePolicies API call. If you * are no longer using a scaling policy, you can delete it by calling the DeletePolicy API. *
* * @param putScalingPolicyRequest * @return A Java Future containing the result of the PutScalingPolicy operation returned by the service. * @sample AmazonAutoScalingAsync.PutScalingPolicy * @see AWS * API Documentation */ java.util.concurrent.Future* Creates or updates a scaling policy for an Auto Scaling group. Scaling policies are used to scale an Auto Scaling * group based on configurable metrics. If no policies are defined, the dynamic scaling and predictive scaling * features are not used. *
** For more information about using dynamic scaling, see Target tracking * scaling policies and Step and simple scaling * policies in the Amazon EC2 Auto Scaling User Guide. *
** For more information about using predictive scaling, see Predictive * scaling for Amazon EC2 Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
** You can view the scaling policies for an Auto Scaling group using the DescribePolicies API call. If you * are no longer using a scaling policy, you can delete it by calling the DeletePolicy API. *
* * @param putScalingPolicyRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the PutScalingPolicy operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.PutScalingPolicy * @see AWS * API Documentation */ java.util.concurrent.Future* Creates or updates a scheduled scaling action for an Auto Scaling group. *
** For more information, see Scheduled scaling in the * Amazon EC2 Auto Scaling User Guide. *
** You can view the scheduled actions for an Auto Scaling group using the DescribeScheduledActions API call. * If you are no longer using a scheduled action, you can delete it by calling the DeleteScheduledAction API. *
** If you try to schedule your action in the past, Amazon EC2 Auto Scaling returns an error message. *
* * @param putScheduledUpdateGroupActionRequest * @return A Java Future containing the result of the PutScheduledUpdateGroupAction operation returned by the * service. * @sample AmazonAutoScalingAsync.PutScheduledUpdateGroupAction * @see AWS API Documentation */ java.util.concurrent.Future* Creates or updates a scheduled scaling action for an Auto Scaling group. *
** For more information, see Scheduled scaling in the * Amazon EC2 Auto Scaling User Guide. *
** You can view the scheduled actions for an Auto Scaling group using the DescribeScheduledActions API call. * If you are no longer using a scheduled action, you can delete it by calling the DeleteScheduledAction API. *
** If you try to schedule your action in the past, Amazon EC2 Auto Scaling returns an error message. *
* * @param putScheduledUpdateGroupActionRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the PutScheduledUpdateGroupAction operation returned by the * service. * @sample AmazonAutoScalingAsyncHandler.PutScheduledUpdateGroupAction * @see AWS API Documentation */ java.util.concurrent.Future* Creates or updates a warm pool for the specified Auto Scaling group. A warm pool is a pool of pre-initialized EC2 * instances that sits alongside the Auto Scaling group. Whenever your application needs to scale out, the Auto * Scaling group can draw on the warm pool to meet its new desired capacity. For more information and example * configurations, see Warm pools for * Amazon EC2 Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
** This operation must be called from the Region in which the Auto Scaling group was created. This operation cannot * be called on an Auto Scaling group that has a mixed instances policy or a launch template or launch configuration * that requests Spot Instances. *
** You can view the instances in the warm pool using the DescribeWarmPool API call. If you are no longer * using a warm pool, you can delete it by calling the DeleteWarmPool API. *
* * @param putWarmPoolRequest * @return A Java Future containing the result of the PutWarmPool operation returned by the service. * @sample AmazonAutoScalingAsync.PutWarmPool * @see AWS API * Documentation */ java.util.concurrent.Future* Creates or updates a warm pool for the specified Auto Scaling group. A warm pool is a pool of pre-initialized EC2 * instances that sits alongside the Auto Scaling group. Whenever your application needs to scale out, the Auto * Scaling group can draw on the warm pool to meet its new desired capacity. For more information and example * configurations, see Warm pools for * Amazon EC2 Auto Scaling in the Amazon EC2 Auto Scaling User Guide. *
** This operation must be called from the Region in which the Auto Scaling group was created. This operation cannot * be called on an Auto Scaling group that has a mixed instances policy or a launch template or launch configuration * that requests Spot Instances. *
** You can view the instances in the warm pool using the DescribeWarmPool API call. If you are no longer * using a warm pool, you can delete it by calling the DeleteWarmPool API. *
* * @param putWarmPoolRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the PutWarmPool operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.PutWarmPool * @see AWS API * Documentation */ java.util.concurrent.Future* Records a heartbeat for the lifecycle action associated with the specified token or instance. This extends the * timeout by the length of time defined using the PutLifecycleHook API call. *
** This step is a part of the procedure for adding a lifecycle hook to an Auto Scaling group: *
** (Optional) Create a launch template or launch configuration with a user data script that runs while an instance * is in a wait state due to a lifecycle hook. *
** (Optional) Create a Lambda function and a rule that allows Amazon EventBridge to invoke your Lambda function when * an instance is put into a wait state due to a lifecycle hook. *
** (Optional) Create a notification target and an IAM role. The target can be either an Amazon SQS queue or an * Amazon SNS topic. The role allows Amazon EC2 Auto Scaling to publish lifecycle notifications to the target. *
** Create the lifecycle hook. Specify whether the hook is used when the instances launch or terminate. *
** If you need more time, record the lifecycle action heartbeat to keep the instance in a wait state. *
** If you finish before the timeout period ends, send a callback by using the CompleteLifecycleAction API * call. *
** For more information, see Amazon EC2 Auto Scaling * lifecycle hooks in the Amazon EC2 Auto Scaling User Guide. *
* * @param recordLifecycleActionHeartbeatRequest * @return A Java Future containing the result of the RecordLifecycleActionHeartbeat operation returned by the * service. * @sample AmazonAutoScalingAsync.RecordLifecycleActionHeartbeat * @see AWS API Documentation */ java.util.concurrent.Future* Records a heartbeat for the lifecycle action associated with the specified token or instance. This extends the * timeout by the length of time defined using the PutLifecycleHook API call. *
** This step is a part of the procedure for adding a lifecycle hook to an Auto Scaling group: *
** (Optional) Create a launch template or launch configuration with a user data script that runs while an instance * is in a wait state due to a lifecycle hook. *
** (Optional) Create a Lambda function and a rule that allows Amazon EventBridge to invoke your Lambda function when * an instance is put into a wait state due to a lifecycle hook. *
** (Optional) Create a notification target and an IAM role. The target can be either an Amazon SQS queue or an * Amazon SNS topic. The role allows Amazon EC2 Auto Scaling to publish lifecycle notifications to the target. *
** Create the lifecycle hook. Specify whether the hook is used when the instances launch or terminate. *
** If you need more time, record the lifecycle action heartbeat to keep the instance in a wait state. *
** If you finish before the timeout period ends, send a callback by using the CompleteLifecycleAction API * call. *
** For more information, see Amazon EC2 Auto Scaling * lifecycle hooks in the Amazon EC2 Auto Scaling User Guide. *
* * @param recordLifecycleActionHeartbeatRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the RecordLifecycleActionHeartbeat operation returned by the * service. * @sample AmazonAutoScalingAsyncHandler.RecordLifecycleActionHeartbeat * @see AWS API Documentation */ java.util.concurrent.Future* Resumes the specified suspended auto scaling processes, or all suspended process, for the specified Auto Scaling * group. *
** For more information, see Suspending and * resuming scaling processes in the Amazon EC2 Auto Scaling User Guide. *
* * @param resumeProcessesRequest * @return A Java Future containing the result of the ResumeProcesses operation returned by the service. * @sample AmazonAutoScalingAsync.ResumeProcesses * @see AWS * API Documentation */ java.util.concurrent.Future* Resumes the specified suspended auto scaling processes, or all suspended process, for the specified Auto Scaling * group. *
** For more information, see Suspending and * resuming scaling processes in the Amazon EC2 Auto Scaling User Guide. *
* * @param resumeProcessesRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the ResumeProcesses operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.ResumeProcesses * @see AWS * API Documentation */ java.util.concurrent.Future* Cancels an instance refresh that is in progress and rolls back any changes that it made. Amazon EC2 Auto Scaling * replaces any instances that were replaced during the instance refresh. This restores your Auto Scaling group to * the configuration that it was using before the start of the instance refresh. *
** This operation is part of the instance refresh * feature in Amazon EC2 Auto Scaling, which helps you update instances in your Auto Scaling group after you * make configuration changes. *
** A rollback is not supported in the following situations: *
** There is no desired configuration specified for the instance refresh. *
*
* The Auto Scaling group has a launch template that uses an Amazon Web Services Systems Manager parameter instead
* of an AMI ID for the ImageId property.
*
* The Auto Scaling group uses the launch template's $Latest or $Default version.
*
* When you receive a successful response from this operation, Amazon EC2 Auto Scaling immediately begins replacing * instances. You can check the status of this operation through the DescribeInstanceRefreshes API operation. *
* * @param rollbackInstanceRefreshRequest * @return A Java Future containing the result of the RollbackInstanceRefresh operation returned by the service. * @sample AmazonAutoScalingAsync.RollbackInstanceRefresh * @see AWS API Documentation */ java.util.concurrent.Future* Cancels an instance refresh that is in progress and rolls back any changes that it made. Amazon EC2 Auto Scaling * replaces any instances that were replaced during the instance refresh. This restores your Auto Scaling group to * the configuration that it was using before the start of the instance refresh. *
** This operation is part of the instance refresh * feature in Amazon EC2 Auto Scaling, which helps you update instances in your Auto Scaling group after you * make configuration changes. *
** A rollback is not supported in the following situations: *
** There is no desired configuration specified for the instance refresh. *
*
* The Auto Scaling group has a launch template that uses an Amazon Web Services Systems Manager parameter instead
* of an AMI ID for the ImageId property.
*
* The Auto Scaling group uses the launch template's $Latest or $Default version.
*
* When you receive a successful response from this operation, Amazon EC2 Auto Scaling immediately begins replacing * instances. You can check the status of this operation through the DescribeInstanceRefreshes API operation. *
* * @param rollbackInstanceRefreshRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the RollbackInstanceRefresh operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.RollbackInstanceRefresh * @see AWS API Documentation */ java.util.concurrent.Future* Sets the size of the specified Auto Scaling group. *
*
* If a scale-in activity occurs as a result of a new DesiredCapacity value that is lower than the
* current size of the group, the Auto Scaling group uses its termination policy to determine which instances to
* terminate.
*
* For more information, see Manual scaling in the * Amazon EC2 Auto Scaling User Guide. *
* * @param setDesiredCapacityRequest * @return A Java Future containing the result of the SetDesiredCapacity operation returned by the service. * @sample AmazonAutoScalingAsync.SetDesiredCapacity * @see AWS * API Documentation */ java.util.concurrent.Future* Sets the size of the specified Auto Scaling group. *
*
* If a scale-in activity occurs as a result of a new DesiredCapacity value that is lower than the
* current size of the group, the Auto Scaling group uses its termination policy to determine which instances to
* terminate.
*
* For more information, see Manual scaling in the * Amazon EC2 Auto Scaling User Guide. *
* * @param setDesiredCapacityRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the SetDesiredCapacity operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.SetDesiredCapacity * @see AWS * API Documentation */ java.util.concurrent.Future* Sets the health status of the specified instance. *
** For more information, see Health * checks for Auto Scaling instances in the Amazon EC2 Auto Scaling User Guide. *
* * @param setInstanceHealthRequest * @return A Java Future containing the result of the SetInstanceHealth operation returned by the service. * @sample AmazonAutoScalingAsync.SetInstanceHealth * @see AWS * API Documentation */ java.util.concurrent.Future* Sets the health status of the specified instance. *
** For more information, see Health * checks for Auto Scaling instances in the Amazon EC2 Auto Scaling User Guide. *
* * @param setInstanceHealthRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the SetInstanceHealth operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.SetInstanceHealth * @see AWS * API Documentation */ java.util.concurrent.Future* Updates the instance protection settings of the specified instances. This operation cannot be called on instances * in a warm pool. *
** For more information about preventing instances that are part of an Auto Scaling group from terminating on scale * in, see Using * instance scale-in protection in the Amazon EC2 Auto Scaling User Guide. *
** If you exceed your maximum limit of instance IDs, which is 50 per Auto Scaling group, the call fails. *
* * @param setInstanceProtectionRequest * @return A Java Future containing the result of the SetInstanceProtection operation returned by the service. * @sample AmazonAutoScalingAsync.SetInstanceProtection * @see AWS API Documentation */ java.util.concurrent.Future* Updates the instance protection settings of the specified instances. This operation cannot be called on instances * in a warm pool. *
** For more information about preventing instances that are part of an Auto Scaling group from terminating on scale * in, see Using * instance scale-in protection in the Amazon EC2 Auto Scaling User Guide. *
** If you exceed your maximum limit of instance IDs, which is 50 per Auto Scaling group, the call fails. *
* * @param setInstanceProtectionRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the SetInstanceProtection operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.SetInstanceProtection * @see AWS API Documentation */ java.util.concurrent.Future* Starts an instance refresh. During an instance refresh, Amazon EC2 Auto Scaling performs a rolling update of * instances in an Auto Scaling group. Instances are terminated first and then replaced, which temporarily reduces * the capacity available within your Auto Scaling group. *
** This operation is part of the instance refresh * feature in Amazon EC2 Auto Scaling, which helps you update instances in your Auto Scaling group. This feature * is helpful, for example, when you have a new AMI or a new user data script. You just need to create a new launch * template that specifies the new AMI or user data script. Then start an instance refresh to immediately begin the * process of updating instances in the group. *
** If successful, the request's response contains a unique ID that you can use to track the progress of the instance * refresh. To query its status, call the DescribeInstanceRefreshes API. To describe the instance refreshes * that have already run, call the DescribeInstanceRefreshes API. To cancel an instance refresh that is in * progress, use the CancelInstanceRefresh API. *
*
* An instance refresh might fail for several reasons, such as EC2 launch failures, misconfigured health checks, or
* not ignoring or allowing the termination of instances that are in Standby state or protected from
* scale in. You can monitor for failed EC2 launches using the scaling activities. To find the scaling activities,
* call the DescribeScalingActivities API.
*
* If you enable auto rollback, your Auto Scaling group will be rolled back automatically when the instance refresh
* fails. You can enable this feature before starting an instance refresh by specifying the
* AutoRollback property in the instance refresh preferences. Otherwise, to roll back an instance
* refresh before it finishes, use the RollbackInstanceRefresh API.
*
* Starts an instance refresh. During an instance refresh, Amazon EC2 Auto Scaling performs a rolling update of * instances in an Auto Scaling group. Instances are terminated first and then replaced, which temporarily reduces * the capacity available within your Auto Scaling group. *
** This operation is part of the instance refresh * feature in Amazon EC2 Auto Scaling, which helps you update instances in your Auto Scaling group. This feature * is helpful, for example, when you have a new AMI or a new user data script. You just need to create a new launch * template that specifies the new AMI or user data script. Then start an instance refresh to immediately begin the * process of updating instances in the group. *
** If successful, the request's response contains a unique ID that you can use to track the progress of the instance * refresh. To query its status, call the DescribeInstanceRefreshes API. To describe the instance refreshes * that have already run, call the DescribeInstanceRefreshes API. To cancel an instance refresh that is in * progress, use the CancelInstanceRefresh API. *
*
* An instance refresh might fail for several reasons, such as EC2 launch failures, misconfigured health checks, or
* not ignoring or allowing the termination of instances that are in Standby state or protected from
* scale in. You can monitor for failed EC2 launches using the scaling activities. To find the scaling activities,
* call the DescribeScalingActivities API.
*
* If you enable auto rollback, your Auto Scaling group will be rolled back automatically when the instance refresh
* fails. You can enable this feature before starting an instance refresh by specifying the
* AutoRollback property in the instance refresh preferences. Otherwise, to roll back an instance
* refresh before it finishes, use the RollbackInstanceRefresh API.
*
* Suspends the specified auto scaling processes, or all processes, for the specified Auto Scaling group. *
*
* If you suspend either the Launch or Terminate process types, it can prevent other
* process types from functioning properly. For more information, see Suspending and
* resuming scaling processes in the Amazon EC2 Auto Scaling User Guide.
*
* To resume processes that have been suspended, call the ResumeProcesses API. *
* * @param suspendProcessesRequest * @return A Java Future containing the result of the SuspendProcesses operation returned by the service. * @sample AmazonAutoScalingAsync.SuspendProcesses * @see AWS * API Documentation */ java.util.concurrent.Future* Suspends the specified auto scaling processes, or all processes, for the specified Auto Scaling group. *
*
* If you suspend either the Launch or Terminate process types, it can prevent other
* process types from functioning properly. For more information, see Suspending and
* resuming scaling processes in the Amazon EC2 Auto Scaling User Guide.
*
* To resume processes that have been suspended, call the ResumeProcesses API. *
* * @param suspendProcessesRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the SuspendProcesses operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.SuspendProcesses * @see AWS * API Documentation */ java.util.concurrent.Future* Terminates the specified instance and optionally adjusts the desired group size. This operation cannot be called * on instances in a warm pool. *
*
* This call simply makes a termination request. The instance is not terminated immediately. When an instance is
* terminated, the instance status changes to terminated. You can't connect to or start an instance
* after you've terminated it.
*
* If you do not specify the option to decrement the desired capacity, Amazon EC2 Auto Scaling launches instances to * replace the ones that are terminated. *
** By default, Amazon EC2 Auto Scaling balances instances across all Availability Zones. If you decrement the * desired capacity, your Auto Scaling group can become unbalanced between Availability Zones. Amazon EC2 Auto * Scaling tries to rebalance the group, and rebalancing might terminate instances in other zones. For more * information, see Rebalancing activities in the Amazon EC2 Auto Scaling User Guide. *
* * @param terminateInstanceInAutoScalingGroupRequest * @return A Java Future containing the result of the TerminateInstanceInAutoScalingGroup operation returned by the * service. * @sample AmazonAutoScalingAsync.TerminateInstanceInAutoScalingGroup * @see AWS API Documentation */ java.util.concurrent.Future* Terminates the specified instance and optionally adjusts the desired group size. This operation cannot be called * on instances in a warm pool. *
*
* This call simply makes a termination request. The instance is not terminated immediately. When an instance is
* terminated, the instance status changes to terminated. You can't connect to or start an instance
* after you've terminated it.
*
* If you do not specify the option to decrement the desired capacity, Amazon EC2 Auto Scaling launches instances to * replace the ones that are terminated. *
** By default, Amazon EC2 Auto Scaling balances instances across all Availability Zones. If you decrement the * desired capacity, your Auto Scaling group can become unbalanced between Availability Zones. Amazon EC2 Auto * Scaling tries to rebalance the group, and rebalancing might terminate instances in other zones. For more * information, see Rebalancing activities in the Amazon EC2 Auto Scaling User Guide. *
* * @param terminateInstanceInAutoScalingGroupRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the TerminateInstanceInAutoScalingGroup operation returned by the * service. * @sample AmazonAutoScalingAsyncHandler.TerminateInstanceInAutoScalingGroup * @see AWS API Documentation */ java.util.concurrent.Future* We strongly recommend that all Auto Scaling groups use launch templates to ensure full functionality for * Amazon EC2 Auto Scaling and Amazon EC2. *
** Updates the configuration for the specified Auto Scaling group. *
** To update an Auto Scaling group, specify the name of the group and the property that you want to change. Any * properties that you don't specify are not changed by this update request. The new settings take effect on any * scaling activities after this call returns. *
** If you associate a new launch configuration or template with an Auto Scaling group, all new instances will get * the updated configuration. Existing instances continue to run with the configuration that they were originally * launched with. When you update a group to specify a mixed instances policy instead of a launch configuration or * template, existing instances may be replaced to match the new purchasing options that you specified in the * policy. For example, if the group currently has 100% On-Demand capacity and the policy specifies 50% Spot * capacity, this means that half of your instances will be gradually terminated and relaunched as Spot Instances. * When replacing instances, Amazon EC2 Auto Scaling launches new instances before terminating the old ones, so that * updating your group does not compromise the performance or availability of your application. *
*
* Note the following about changing DesiredCapacity, MaxSize, or MinSize:
*
* If a scale-in activity occurs as a result of a new DesiredCapacity value that is lower than the
* current size of the group, the Auto Scaling group uses its termination policy to determine which instances to
* terminate.
*
* If you specify a new value for MinSize without specifying a value for DesiredCapacity,
* and the new MinSize is larger than the current size of the group, this sets the group's
* DesiredCapacity to the new MinSize value.
*
* If you specify a new value for MaxSize without specifying a value for DesiredCapacity,
* and the new MaxSize is smaller than the current size of the group, this sets the group's
* DesiredCapacity to the new MaxSize value.
*
* To see which properties have been set, call the DescribeAutoScalingGroups API. To view the scaling * policies for an Auto Scaling group, call the DescribePolicies API. If the group has scaling policies, you * can update them by calling the PutScalingPolicy API. *
* * @param updateAutoScalingGroupRequest * @return A Java Future containing the result of the UpdateAutoScalingGroup operation returned by the service. * @sample AmazonAutoScalingAsync.UpdateAutoScalingGroup * @see AWS API Documentation */ java.util.concurrent.Future* We strongly recommend that all Auto Scaling groups use launch templates to ensure full functionality for * Amazon EC2 Auto Scaling and Amazon EC2. *
** Updates the configuration for the specified Auto Scaling group. *
** To update an Auto Scaling group, specify the name of the group and the property that you want to change. Any * properties that you don't specify are not changed by this update request. The new settings take effect on any * scaling activities after this call returns. *
** If you associate a new launch configuration or template with an Auto Scaling group, all new instances will get * the updated configuration. Existing instances continue to run with the configuration that they were originally * launched with. When you update a group to specify a mixed instances policy instead of a launch configuration or * template, existing instances may be replaced to match the new purchasing options that you specified in the * policy. For example, if the group currently has 100% On-Demand capacity and the policy specifies 50% Spot * capacity, this means that half of your instances will be gradually terminated and relaunched as Spot Instances. * When replacing instances, Amazon EC2 Auto Scaling launches new instances before terminating the old ones, so that * updating your group does not compromise the performance or availability of your application. *
*
* Note the following about changing DesiredCapacity, MaxSize, or MinSize:
*
* If a scale-in activity occurs as a result of a new DesiredCapacity value that is lower than the
* current size of the group, the Auto Scaling group uses its termination policy to determine which instances to
* terminate.
*
* If you specify a new value for MinSize without specifying a value for DesiredCapacity,
* and the new MinSize is larger than the current size of the group, this sets the group's
* DesiredCapacity to the new MinSize value.
*
* If you specify a new value for MaxSize without specifying a value for DesiredCapacity,
* and the new MaxSize is smaller than the current size of the group, this sets the group's
* DesiredCapacity to the new MaxSize value.
*
* To see which properties have been set, call the DescribeAutoScalingGroups API. To view the scaling * policies for an Auto Scaling group, call the DescribePolicies API. If the group has scaling policies, you * can update them by calling the PutScalingPolicy API. *
* * @param updateAutoScalingGroupRequest * @param asyncHandler * Asynchronous callback handler for events in the lifecycle of the request. Users can provide an * implementation of the callback methods in this interface to receive notification of successful or * unsuccessful completion of the operation. * @return A Java Future containing the result of the UpdateAutoScalingGroup operation returned by the service. * @sample AmazonAutoScalingAsyncHandler.UpdateAutoScalingGroup * @see AWS API Documentation */ java.util.concurrent.Future