AWS SDK for C++  1.8.50
AWS SDK for C++
Public Types | Public Member Functions | List of all members
Aws::Redshift::RedshiftClient Class Reference

#include <RedshiftClient.h>

+ Inheritance diagram for Aws::Redshift::RedshiftClient:

Public Types

typedef Aws::Client::AWSXMLClient BASECLASS
 
- Public Types inherited from Aws::Client::AWSXMLClient
typedef AWSClient BASECLASS
 

Public Member Functions

 RedshiftClient (const Aws::Client::ClientConfiguration &clientConfiguration=Aws::Client::ClientConfiguration())
 
 RedshiftClient (const Aws::Auth::AWSCredentials &credentials, const Aws::Client::ClientConfiguration &clientConfiguration=Aws::Client::ClientConfiguration())
 
 RedshiftClient (const std::shared_ptr< Aws::Auth::AWSCredentialsProvider > &credentialsProvider, const Aws::Client::ClientConfiguration &clientConfiguration=Aws::Client::ClientConfiguration())
 
virtual ~RedshiftClient ()
 
Aws::String ConvertRequestToPresignedUrl (const Aws::AmazonSerializableWebServiceRequest &requestToConvert, const char *region) const
 
virtual Model::AcceptReservedNodeExchangeOutcome AcceptReservedNodeExchange (const Model::AcceptReservedNodeExchangeRequest &request) const
 
virtual Model::AcceptReservedNodeExchangeOutcomeCallable AcceptReservedNodeExchangeCallable (const Model::AcceptReservedNodeExchangeRequest &request) const
 
virtual void AcceptReservedNodeExchangeAsync (const Model::AcceptReservedNodeExchangeRequest &request, const AcceptReservedNodeExchangeResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::AuthorizeClusterSecurityGroupIngressOutcome AuthorizeClusterSecurityGroupIngress (const Model::AuthorizeClusterSecurityGroupIngressRequest &request) const
 
virtual Model::AuthorizeClusterSecurityGroupIngressOutcomeCallable AuthorizeClusterSecurityGroupIngressCallable (const Model::AuthorizeClusterSecurityGroupIngressRequest &request) const
 
virtual void AuthorizeClusterSecurityGroupIngressAsync (const Model::AuthorizeClusterSecurityGroupIngressRequest &request, const AuthorizeClusterSecurityGroupIngressResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::AuthorizeSnapshotAccessOutcome AuthorizeSnapshotAccess (const Model::AuthorizeSnapshotAccessRequest &request) const
 
virtual Model::AuthorizeSnapshotAccessOutcomeCallable AuthorizeSnapshotAccessCallable (const Model::AuthorizeSnapshotAccessRequest &request) const
 
virtual void AuthorizeSnapshotAccessAsync (const Model::AuthorizeSnapshotAccessRequest &request, const AuthorizeSnapshotAccessResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::BatchDeleteClusterSnapshotsOutcome BatchDeleteClusterSnapshots (const Model::BatchDeleteClusterSnapshotsRequest &request) const
 
virtual Model::BatchDeleteClusterSnapshotsOutcomeCallable BatchDeleteClusterSnapshotsCallable (const Model::BatchDeleteClusterSnapshotsRequest &request) const
 
virtual void BatchDeleteClusterSnapshotsAsync (const Model::BatchDeleteClusterSnapshotsRequest &request, const BatchDeleteClusterSnapshotsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::BatchModifyClusterSnapshotsOutcome BatchModifyClusterSnapshots (const Model::BatchModifyClusterSnapshotsRequest &request) const
 
virtual Model::BatchModifyClusterSnapshotsOutcomeCallable BatchModifyClusterSnapshotsCallable (const Model::BatchModifyClusterSnapshotsRequest &request) const
 
virtual void BatchModifyClusterSnapshotsAsync (const Model::BatchModifyClusterSnapshotsRequest &request, const BatchModifyClusterSnapshotsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CancelResizeOutcome CancelResize (const Model::CancelResizeRequest &request) const
 
virtual Model::CancelResizeOutcomeCallable CancelResizeCallable (const Model::CancelResizeRequest &request) const
 
virtual void CancelResizeAsync (const Model::CancelResizeRequest &request, const CancelResizeResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CopyClusterSnapshotOutcome CopyClusterSnapshot (const Model::CopyClusterSnapshotRequest &request) const
 
virtual Model::CopyClusterSnapshotOutcomeCallable CopyClusterSnapshotCallable (const Model::CopyClusterSnapshotRequest &request) const
 
virtual void CopyClusterSnapshotAsync (const Model::CopyClusterSnapshotRequest &request, const CopyClusterSnapshotResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateClusterOutcome CreateCluster (const Model::CreateClusterRequest &request) const
 
virtual Model::CreateClusterOutcomeCallable CreateClusterCallable (const Model::CreateClusterRequest &request) const
 
virtual void CreateClusterAsync (const Model::CreateClusterRequest &request, const CreateClusterResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateClusterParameterGroupOutcome CreateClusterParameterGroup (const Model::CreateClusterParameterGroupRequest &request) const
 
virtual Model::CreateClusterParameterGroupOutcomeCallable CreateClusterParameterGroupCallable (const Model::CreateClusterParameterGroupRequest &request) const
 
virtual void CreateClusterParameterGroupAsync (const Model::CreateClusterParameterGroupRequest &request, const CreateClusterParameterGroupResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateClusterSecurityGroupOutcome CreateClusterSecurityGroup (const Model::CreateClusterSecurityGroupRequest &request) const
 
virtual Model::CreateClusterSecurityGroupOutcomeCallable CreateClusterSecurityGroupCallable (const Model::CreateClusterSecurityGroupRequest &request) const
 
virtual void CreateClusterSecurityGroupAsync (const Model::CreateClusterSecurityGroupRequest &request, const CreateClusterSecurityGroupResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateClusterSnapshotOutcome CreateClusterSnapshot (const Model::CreateClusterSnapshotRequest &request) const
 
virtual Model::CreateClusterSnapshotOutcomeCallable CreateClusterSnapshotCallable (const Model::CreateClusterSnapshotRequest &request) const
 
virtual void CreateClusterSnapshotAsync (const Model::CreateClusterSnapshotRequest &request, const CreateClusterSnapshotResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateClusterSubnetGroupOutcome CreateClusterSubnetGroup (const Model::CreateClusterSubnetGroupRequest &request) const
 
virtual Model::CreateClusterSubnetGroupOutcomeCallable CreateClusterSubnetGroupCallable (const Model::CreateClusterSubnetGroupRequest &request) const
 
virtual void CreateClusterSubnetGroupAsync (const Model::CreateClusterSubnetGroupRequest &request, const CreateClusterSubnetGroupResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateEventSubscriptionOutcome CreateEventSubscription (const Model::CreateEventSubscriptionRequest &request) const
 
virtual Model::CreateEventSubscriptionOutcomeCallable CreateEventSubscriptionCallable (const Model::CreateEventSubscriptionRequest &request) const
 
virtual void CreateEventSubscriptionAsync (const Model::CreateEventSubscriptionRequest &request, const CreateEventSubscriptionResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateHsmClientCertificateOutcome CreateHsmClientCertificate (const Model::CreateHsmClientCertificateRequest &request) const
 
virtual Model::CreateHsmClientCertificateOutcomeCallable CreateHsmClientCertificateCallable (const Model::CreateHsmClientCertificateRequest &request) const
 
virtual void CreateHsmClientCertificateAsync (const Model::CreateHsmClientCertificateRequest &request, const CreateHsmClientCertificateResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateHsmConfigurationOutcome CreateHsmConfiguration (const Model::CreateHsmConfigurationRequest &request) const
 
virtual Model::CreateHsmConfigurationOutcomeCallable CreateHsmConfigurationCallable (const Model::CreateHsmConfigurationRequest &request) const
 
virtual void CreateHsmConfigurationAsync (const Model::CreateHsmConfigurationRequest &request, const CreateHsmConfigurationResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateScheduledActionOutcome CreateScheduledAction (const Model::CreateScheduledActionRequest &request) const
 
virtual Model::CreateScheduledActionOutcomeCallable CreateScheduledActionCallable (const Model::CreateScheduledActionRequest &request) const
 
virtual void CreateScheduledActionAsync (const Model::CreateScheduledActionRequest &request, const CreateScheduledActionResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateSnapshotCopyGrantOutcome CreateSnapshotCopyGrant (const Model::CreateSnapshotCopyGrantRequest &request) const
 
virtual Model::CreateSnapshotCopyGrantOutcomeCallable CreateSnapshotCopyGrantCallable (const Model::CreateSnapshotCopyGrantRequest &request) const
 
virtual void CreateSnapshotCopyGrantAsync (const Model::CreateSnapshotCopyGrantRequest &request, const CreateSnapshotCopyGrantResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateSnapshotScheduleOutcome CreateSnapshotSchedule (const Model::CreateSnapshotScheduleRequest &request) const
 
virtual Model::CreateSnapshotScheduleOutcomeCallable CreateSnapshotScheduleCallable (const Model::CreateSnapshotScheduleRequest &request) const
 
virtual void CreateSnapshotScheduleAsync (const Model::CreateSnapshotScheduleRequest &request, const CreateSnapshotScheduleResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateTagsOutcome CreateTags (const Model::CreateTagsRequest &request) const
 
virtual Model::CreateTagsOutcomeCallable CreateTagsCallable (const Model::CreateTagsRequest &request) const
 
virtual void CreateTagsAsync (const Model::CreateTagsRequest &request, const CreateTagsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateUsageLimitOutcome CreateUsageLimit (const Model::CreateUsageLimitRequest &request) const
 
virtual Model::CreateUsageLimitOutcomeCallable CreateUsageLimitCallable (const Model::CreateUsageLimitRequest &request) const
 
virtual void CreateUsageLimitAsync (const Model::CreateUsageLimitRequest &request, const CreateUsageLimitResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteClusterOutcome DeleteCluster (const Model::DeleteClusterRequest &request) const
 
virtual Model::DeleteClusterOutcomeCallable DeleteClusterCallable (const Model::DeleteClusterRequest &request) const
 
virtual void DeleteClusterAsync (const Model::DeleteClusterRequest &request, const DeleteClusterResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteClusterParameterGroupOutcome DeleteClusterParameterGroup (const Model::DeleteClusterParameterGroupRequest &request) const
 
virtual Model::DeleteClusterParameterGroupOutcomeCallable DeleteClusterParameterGroupCallable (const Model::DeleteClusterParameterGroupRequest &request) const
 
virtual void DeleteClusterParameterGroupAsync (const Model::DeleteClusterParameterGroupRequest &request, const DeleteClusterParameterGroupResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteClusterSecurityGroupOutcome DeleteClusterSecurityGroup (const Model::DeleteClusterSecurityGroupRequest &request) const
 
virtual Model::DeleteClusterSecurityGroupOutcomeCallable DeleteClusterSecurityGroupCallable (const Model::DeleteClusterSecurityGroupRequest &request) const
 
virtual void DeleteClusterSecurityGroupAsync (const Model::DeleteClusterSecurityGroupRequest &request, const DeleteClusterSecurityGroupResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteClusterSnapshotOutcome DeleteClusterSnapshot (const Model::DeleteClusterSnapshotRequest &request) const
 
virtual Model::DeleteClusterSnapshotOutcomeCallable DeleteClusterSnapshotCallable (const Model::DeleteClusterSnapshotRequest &request) const
 
virtual void DeleteClusterSnapshotAsync (const Model::DeleteClusterSnapshotRequest &request, const DeleteClusterSnapshotResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteClusterSubnetGroupOutcome DeleteClusterSubnetGroup (const Model::DeleteClusterSubnetGroupRequest &request) const
 
virtual Model::DeleteClusterSubnetGroupOutcomeCallable DeleteClusterSubnetGroupCallable (const Model::DeleteClusterSubnetGroupRequest &request) const
 
virtual void DeleteClusterSubnetGroupAsync (const Model::DeleteClusterSubnetGroupRequest &request, const DeleteClusterSubnetGroupResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteEventSubscriptionOutcome DeleteEventSubscription (const Model::DeleteEventSubscriptionRequest &request) const
 
virtual Model::DeleteEventSubscriptionOutcomeCallable DeleteEventSubscriptionCallable (const Model::DeleteEventSubscriptionRequest &request) const
 
virtual void DeleteEventSubscriptionAsync (const Model::DeleteEventSubscriptionRequest &request, const DeleteEventSubscriptionResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteHsmClientCertificateOutcome DeleteHsmClientCertificate (const Model::DeleteHsmClientCertificateRequest &request) const
 
virtual Model::DeleteHsmClientCertificateOutcomeCallable DeleteHsmClientCertificateCallable (const Model::DeleteHsmClientCertificateRequest &request) const
 
virtual void DeleteHsmClientCertificateAsync (const Model::DeleteHsmClientCertificateRequest &request, const DeleteHsmClientCertificateResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteHsmConfigurationOutcome DeleteHsmConfiguration (const Model::DeleteHsmConfigurationRequest &request) const
 
virtual Model::DeleteHsmConfigurationOutcomeCallable DeleteHsmConfigurationCallable (const Model::DeleteHsmConfigurationRequest &request) const
 
virtual void DeleteHsmConfigurationAsync (const Model::DeleteHsmConfigurationRequest &request, const DeleteHsmConfigurationResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteScheduledActionOutcome DeleteScheduledAction (const Model::DeleteScheduledActionRequest &request) const
 
virtual Model::DeleteScheduledActionOutcomeCallable DeleteScheduledActionCallable (const Model::DeleteScheduledActionRequest &request) const
 
virtual void DeleteScheduledActionAsync (const Model::DeleteScheduledActionRequest &request, const DeleteScheduledActionResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteSnapshotCopyGrantOutcome DeleteSnapshotCopyGrant (const Model::DeleteSnapshotCopyGrantRequest &request) const
 
virtual Model::DeleteSnapshotCopyGrantOutcomeCallable DeleteSnapshotCopyGrantCallable (const Model::DeleteSnapshotCopyGrantRequest &request) const
 
virtual void DeleteSnapshotCopyGrantAsync (const Model::DeleteSnapshotCopyGrantRequest &request, const DeleteSnapshotCopyGrantResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteSnapshotScheduleOutcome DeleteSnapshotSchedule (const Model::DeleteSnapshotScheduleRequest &request) const
 
virtual Model::DeleteSnapshotScheduleOutcomeCallable DeleteSnapshotScheduleCallable (const Model::DeleteSnapshotScheduleRequest &request) const
 
virtual void DeleteSnapshotScheduleAsync (const Model::DeleteSnapshotScheduleRequest &request, const DeleteSnapshotScheduleResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteTagsOutcome DeleteTags (const Model::DeleteTagsRequest &request) const
 
virtual Model::DeleteTagsOutcomeCallable DeleteTagsCallable (const Model::DeleteTagsRequest &request) const
 
virtual void DeleteTagsAsync (const Model::DeleteTagsRequest &request, const DeleteTagsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteUsageLimitOutcome DeleteUsageLimit (const Model::DeleteUsageLimitRequest &request) const
 
virtual Model::DeleteUsageLimitOutcomeCallable DeleteUsageLimitCallable (const Model::DeleteUsageLimitRequest &request) const
 
virtual void DeleteUsageLimitAsync (const Model::DeleteUsageLimitRequest &request, const DeleteUsageLimitResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeAccountAttributesOutcome DescribeAccountAttributes (const Model::DescribeAccountAttributesRequest &request) const
 
virtual Model::DescribeAccountAttributesOutcomeCallable DescribeAccountAttributesCallable (const Model::DescribeAccountAttributesRequest &request) const
 
virtual void DescribeAccountAttributesAsync (const Model::DescribeAccountAttributesRequest &request, const DescribeAccountAttributesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeClusterDbRevisionsOutcome DescribeClusterDbRevisions (const Model::DescribeClusterDbRevisionsRequest &request) const
 
virtual Model::DescribeClusterDbRevisionsOutcomeCallable DescribeClusterDbRevisionsCallable (const Model::DescribeClusterDbRevisionsRequest &request) const
 
virtual void DescribeClusterDbRevisionsAsync (const Model::DescribeClusterDbRevisionsRequest &request, const DescribeClusterDbRevisionsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeClusterParameterGroupsOutcome DescribeClusterParameterGroups (const Model::DescribeClusterParameterGroupsRequest &request) const
 
virtual Model::DescribeClusterParameterGroupsOutcomeCallable DescribeClusterParameterGroupsCallable (const Model::DescribeClusterParameterGroupsRequest &request) const
 
virtual void DescribeClusterParameterGroupsAsync (const Model::DescribeClusterParameterGroupsRequest &request, const DescribeClusterParameterGroupsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeClusterParametersOutcome DescribeClusterParameters (const Model::DescribeClusterParametersRequest &request) const
 
virtual Model::DescribeClusterParametersOutcomeCallable DescribeClusterParametersCallable (const Model::DescribeClusterParametersRequest &request) const
 
virtual void DescribeClusterParametersAsync (const Model::DescribeClusterParametersRequest &request, const DescribeClusterParametersResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeClusterSecurityGroupsOutcome DescribeClusterSecurityGroups (const Model::DescribeClusterSecurityGroupsRequest &request) const
 
virtual Model::DescribeClusterSecurityGroupsOutcomeCallable DescribeClusterSecurityGroupsCallable (const Model::DescribeClusterSecurityGroupsRequest &request) const
 
virtual void DescribeClusterSecurityGroupsAsync (const Model::DescribeClusterSecurityGroupsRequest &request, const DescribeClusterSecurityGroupsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeClusterSnapshotsOutcome DescribeClusterSnapshots (const Model::DescribeClusterSnapshotsRequest &request) const
 
virtual Model::DescribeClusterSnapshotsOutcomeCallable DescribeClusterSnapshotsCallable (const Model::DescribeClusterSnapshotsRequest &request) const
 
virtual void DescribeClusterSnapshotsAsync (const Model::DescribeClusterSnapshotsRequest &request, const DescribeClusterSnapshotsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeClusterSubnetGroupsOutcome DescribeClusterSubnetGroups (const Model::DescribeClusterSubnetGroupsRequest &request) const
 
virtual Model::DescribeClusterSubnetGroupsOutcomeCallable DescribeClusterSubnetGroupsCallable (const Model::DescribeClusterSubnetGroupsRequest &request) const
 
virtual void DescribeClusterSubnetGroupsAsync (const Model::DescribeClusterSubnetGroupsRequest &request, const DescribeClusterSubnetGroupsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeClusterTracksOutcome DescribeClusterTracks (const Model::DescribeClusterTracksRequest &request) const
 
virtual Model::DescribeClusterTracksOutcomeCallable DescribeClusterTracksCallable (const Model::DescribeClusterTracksRequest &request) const
 
virtual void DescribeClusterTracksAsync (const Model::DescribeClusterTracksRequest &request, const DescribeClusterTracksResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeClusterVersionsOutcome DescribeClusterVersions (const Model::DescribeClusterVersionsRequest &request) const
 
virtual Model::DescribeClusterVersionsOutcomeCallable DescribeClusterVersionsCallable (const Model::DescribeClusterVersionsRequest &request) const
 
virtual void DescribeClusterVersionsAsync (const Model::DescribeClusterVersionsRequest &request, const DescribeClusterVersionsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeClustersOutcome DescribeClusters (const Model::DescribeClustersRequest &request) const
 
virtual Model::DescribeClustersOutcomeCallable DescribeClustersCallable (const Model::DescribeClustersRequest &request) const
 
virtual void DescribeClustersAsync (const Model::DescribeClustersRequest &request, const DescribeClustersResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeDefaultClusterParametersOutcome DescribeDefaultClusterParameters (const Model::DescribeDefaultClusterParametersRequest &request) const
 
virtual Model::DescribeDefaultClusterParametersOutcomeCallable DescribeDefaultClusterParametersCallable (const Model::DescribeDefaultClusterParametersRequest &request) const
 
virtual void DescribeDefaultClusterParametersAsync (const Model::DescribeDefaultClusterParametersRequest &request, const DescribeDefaultClusterParametersResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeEventCategoriesOutcome DescribeEventCategories (const Model::DescribeEventCategoriesRequest &request) const
 
virtual Model::DescribeEventCategoriesOutcomeCallable DescribeEventCategoriesCallable (const Model::DescribeEventCategoriesRequest &request) const
 
virtual void DescribeEventCategoriesAsync (const Model::DescribeEventCategoriesRequest &request, const DescribeEventCategoriesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeEventSubscriptionsOutcome DescribeEventSubscriptions (const Model::DescribeEventSubscriptionsRequest &request) const
 
virtual Model::DescribeEventSubscriptionsOutcomeCallable DescribeEventSubscriptionsCallable (const Model::DescribeEventSubscriptionsRequest &request) const
 
virtual void DescribeEventSubscriptionsAsync (const Model::DescribeEventSubscriptionsRequest &request, const DescribeEventSubscriptionsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeEventsOutcome DescribeEvents (const Model::DescribeEventsRequest &request) const
 
virtual Model::DescribeEventsOutcomeCallable DescribeEventsCallable (const Model::DescribeEventsRequest &request) const
 
virtual void DescribeEventsAsync (const Model::DescribeEventsRequest &request, const DescribeEventsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeHsmClientCertificatesOutcome DescribeHsmClientCertificates (const Model::DescribeHsmClientCertificatesRequest &request) const
 
virtual Model::DescribeHsmClientCertificatesOutcomeCallable DescribeHsmClientCertificatesCallable (const Model::DescribeHsmClientCertificatesRequest &request) const
 
virtual void DescribeHsmClientCertificatesAsync (const Model::DescribeHsmClientCertificatesRequest &request, const DescribeHsmClientCertificatesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeHsmConfigurationsOutcome DescribeHsmConfigurations (const Model::DescribeHsmConfigurationsRequest &request) const
 
virtual Model::DescribeHsmConfigurationsOutcomeCallable DescribeHsmConfigurationsCallable (const Model::DescribeHsmConfigurationsRequest &request) const
 
virtual void DescribeHsmConfigurationsAsync (const Model::DescribeHsmConfigurationsRequest &request, const DescribeHsmConfigurationsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeLoggingStatusOutcome DescribeLoggingStatus (const Model::DescribeLoggingStatusRequest &request) const
 
virtual Model::DescribeLoggingStatusOutcomeCallable DescribeLoggingStatusCallable (const Model::DescribeLoggingStatusRequest &request) const
 
virtual void DescribeLoggingStatusAsync (const Model::DescribeLoggingStatusRequest &request, const DescribeLoggingStatusResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeNodeConfigurationOptionsOutcome DescribeNodeConfigurationOptions (const Model::DescribeNodeConfigurationOptionsRequest &request) const
 
virtual Model::DescribeNodeConfigurationOptionsOutcomeCallable DescribeNodeConfigurationOptionsCallable (const Model::DescribeNodeConfigurationOptionsRequest &request) const
 
virtual void DescribeNodeConfigurationOptionsAsync (const Model::DescribeNodeConfigurationOptionsRequest &request, const DescribeNodeConfigurationOptionsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeOrderableClusterOptionsOutcome DescribeOrderableClusterOptions (const Model::DescribeOrderableClusterOptionsRequest &request) const
 
virtual Model::DescribeOrderableClusterOptionsOutcomeCallable DescribeOrderableClusterOptionsCallable (const Model::DescribeOrderableClusterOptionsRequest &request) const
 
virtual void DescribeOrderableClusterOptionsAsync (const Model::DescribeOrderableClusterOptionsRequest &request, const DescribeOrderableClusterOptionsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeReservedNodeOfferingsOutcome DescribeReservedNodeOfferings (const Model::DescribeReservedNodeOfferingsRequest &request) const
 
virtual Model::DescribeReservedNodeOfferingsOutcomeCallable DescribeReservedNodeOfferingsCallable (const Model::DescribeReservedNodeOfferingsRequest &request) const
 
virtual void DescribeReservedNodeOfferingsAsync (const Model::DescribeReservedNodeOfferingsRequest &request, const DescribeReservedNodeOfferingsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeReservedNodesOutcome DescribeReservedNodes (const Model::DescribeReservedNodesRequest &request) const
 
virtual Model::DescribeReservedNodesOutcomeCallable DescribeReservedNodesCallable (const Model::DescribeReservedNodesRequest &request) const
 
virtual void DescribeReservedNodesAsync (const Model::DescribeReservedNodesRequest &request, const DescribeReservedNodesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeResizeOutcome DescribeResize (const Model::DescribeResizeRequest &request) const
 
virtual Model::DescribeResizeOutcomeCallable DescribeResizeCallable (const Model::DescribeResizeRequest &request) const
 
virtual void DescribeResizeAsync (const Model::DescribeResizeRequest &request, const DescribeResizeResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeScheduledActionsOutcome DescribeScheduledActions (const Model::DescribeScheduledActionsRequest &request) const
 
virtual Model::DescribeScheduledActionsOutcomeCallable DescribeScheduledActionsCallable (const Model::DescribeScheduledActionsRequest &request) const
 
virtual void DescribeScheduledActionsAsync (const Model::DescribeScheduledActionsRequest &request, const DescribeScheduledActionsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeSnapshotCopyGrantsOutcome DescribeSnapshotCopyGrants (const Model::DescribeSnapshotCopyGrantsRequest &request) const
 
virtual Model::DescribeSnapshotCopyGrantsOutcomeCallable DescribeSnapshotCopyGrantsCallable (const Model::DescribeSnapshotCopyGrantsRequest &request) const
 
virtual void DescribeSnapshotCopyGrantsAsync (const Model::DescribeSnapshotCopyGrantsRequest &request, const DescribeSnapshotCopyGrantsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeSnapshotSchedulesOutcome DescribeSnapshotSchedules (const Model::DescribeSnapshotSchedulesRequest &request) const
 
virtual Model::DescribeSnapshotSchedulesOutcomeCallable DescribeSnapshotSchedulesCallable (const Model::DescribeSnapshotSchedulesRequest &request) const
 
virtual void DescribeSnapshotSchedulesAsync (const Model::DescribeSnapshotSchedulesRequest &request, const DescribeSnapshotSchedulesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeStorageOutcome DescribeStorage (const Model::DescribeStorageRequest &request) const
 
virtual Model::DescribeStorageOutcomeCallable DescribeStorageCallable (const Model::DescribeStorageRequest &request) const
 
virtual void DescribeStorageAsync (const Model::DescribeStorageRequest &request, const DescribeStorageResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeTableRestoreStatusOutcome DescribeTableRestoreStatus (const Model::DescribeTableRestoreStatusRequest &request) const
 
virtual Model::DescribeTableRestoreStatusOutcomeCallable DescribeTableRestoreStatusCallable (const Model::DescribeTableRestoreStatusRequest &request) const
 
virtual void DescribeTableRestoreStatusAsync (const Model::DescribeTableRestoreStatusRequest &request, const DescribeTableRestoreStatusResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeTagsOutcome DescribeTags (const Model::DescribeTagsRequest &request) const
 
virtual Model::DescribeTagsOutcomeCallable DescribeTagsCallable (const Model::DescribeTagsRequest &request) const
 
virtual void DescribeTagsAsync (const Model::DescribeTagsRequest &request, const DescribeTagsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeUsageLimitsOutcome DescribeUsageLimits (const Model::DescribeUsageLimitsRequest &request) const
 
virtual Model::DescribeUsageLimitsOutcomeCallable DescribeUsageLimitsCallable (const Model::DescribeUsageLimitsRequest &request) const
 
virtual void DescribeUsageLimitsAsync (const Model::DescribeUsageLimitsRequest &request, const DescribeUsageLimitsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DisableLoggingOutcome DisableLogging (const Model::DisableLoggingRequest &request) const
 
virtual Model::DisableLoggingOutcomeCallable DisableLoggingCallable (const Model::DisableLoggingRequest &request) const
 
virtual void DisableLoggingAsync (const Model::DisableLoggingRequest &request, const DisableLoggingResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DisableSnapshotCopyOutcome DisableSnapshotCopy (const Model::DisableSnapshotCopyRequest &request) const
 
virtual Model::DisableSnapshotCopyOutcomeCallable DisableSnapshotCopyCallable (const Model::DisableSnapshotCopyRequest &request) const
 
virtual void DisableSnapshotCopyAsync (const Model::DisableSnapshotCopyRequest &request, const DisableSnapshotCopyResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::EnableLoggingOutcome EnableLogging (const Model::EnableLoggingRequest &request) const
 
virtual Model::EnableLoggingOutcomeCallable EnableLoggingCallable (const Model::EnableLoggingRequest &request) const
 
virtual void EnableLoggingAsync (const Model::EnableLoggingRequest &request, const EnableLoggingResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::EnableSnapshotCopyOutcome EnableSnapshotCopy (const Model::EnableSnapshotCopyRequest &request) const
 
virtual Model::EnableSnapshotCopyOutcomeCallable EnableSnapshotCopyCallable (const Model::EnableSnapshotCopyRequest &request) const
 
virtual void EnableSnapshotCopyAsync (const Model::EnableSnapshotCopyRequest &request, const EnableSnapshotCopyResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetClusterCredentialsOutcome GetClusterCredentials (const Model::GetClusterCredentialsRequest &request) const
 
virtual Model::GetClusterCredentialsOutcomeCallable GetClusterCredentialsCallable (const Model::GetClusterCredentialsRequest &request) const
 
virtual void GetClusterCredentialsAsync (const Model::GetClusterCredentialsRequest &request, const GetClusterCredentialsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetReservedNodeExchangeOfferingsOutcome GetReservedNodeExchangeOfferings (const Model::GetReservedNodeExchangeOfferingsRequest &request) const
 
virtual Model::GetReservedNodeExchangeOfferingsOutcomeCallable GetReservedNodeExchangeOfferingsCallable (const Model::GetReservedNodeExchangeOfferingsRequest &request) const
 
virtual void GetReservedNodeExchangeOfferingsAsync (const Model::GetReservedNodeExchangeOfferingsRequest &request, const GetReservedNodeExchangeOfferingsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ModifyClusterOutcome ModifyCluster (const Model::ModifyClusterRequest &request) const
 
virtual Model::ModifyClusterOutcomeCallable ModifyClusterCallable (const Model::ModifyClusterRequest &request) const
 
virtual void ModifyClusterAsync (const Model::ModifyClusterRequest &request, const ModifyClusterResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ModifyClusterDbRevisionOutcome ModifyClusterDbRevision (const Model::ModifyClusterDbRevisionRequest &request) const
 
virtual Model::ModifyClusterDbRevisionOutcomeCallable ModifyClusterDbRevisionCallable (const Model::ModifyClusterDbRevisionRequest &request) const
 
virtual void ModifyClusterDbRevisionAsync (const Model::ModifyClusterDbRevisionRequest &request, const ModifyClusterDbRevisionResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ModifyClusterIamRolesOutcome ModifyClusterIamRoles (const Model::ModifyClusterIamRolesRequest &request) const
 
virtual Model::ModifyClusterIamRolesOutcomeCallable ModifyClusterIamRolesCallable (const Model::ModifyClusterIamRolesRequest &request) const
 
virtual void ModifyClusterIamRolesAsync (const Model::ModifyClusterIamRolesRequest &request, const ModifyClusterIamRolesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ModifyClusterMaintenanceOutcome ModifyClusterMaintenance (const Model::ModifyClusterMaintenanceRequest &request) const
 
virtual Model::ModifyClusterMaintenanceOutcomeCallable ModifyClusterMaintenanceCallable (const Model::ModifyClusterMaintenanceRequest &request) const
 
virtual void ModifyClusterMaintenanceAsync (const Model::ModifyClusterMaintenanceRequest &request, const ModifyClusterMaintenanceResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ModifyClusterParameterGroupOutcome ModifyClusterParameterGroup (const Model::ModifyClusterParameterGroupRequest &request) const
 
virtual Model::ModifyClusterParameterGroupOutcomeCallable ModifyClusterParameterGroupCallable (const Model::ModifyClusterParameterGroupRequest &request) const
 
virtual void ModifyClusterParameterGroupAsync (const Model::ModifyClusterParameterGroupRequest &request, const ModifyClusterParameterGroupResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ModifyClusterSnapshotOutcome ModifyClusterSnapshot (const Model::ModifyClusterSnapshotRequest &request) const
 
virtual Model::ModifyClusterSnapshotOutcomeCallable ModifyClusterSnapshotCallable (const Model::ModifyClusterSnapshotRequest &request) const
 
virtual void ModifyClusterSnapshotAsync (const Model::ModifyClusterSnapshotRequest &request, const ModifyClusterSnapshotResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ModifyClusterSnapshotScheduleOutcome ModifyClusterSnapshotSchedule (const Model::ModifyClusterSnapshotScheduleRequest &request) const
 
virtual Model::ModifyClusterSnapshotScheduleOutcomeCallable ModifyClusterSnapshotScheduleCallable (const Model::ModifyClusterSnapshotScheduleRequest &request) const
 
virtual void ModifyClusterSnapshotScheduleAsync (const Model::ModifyClusterSnapshotScheduleRequest &request, const ModifyClusterSnapshotScheduleResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ModifyClusterSubnetGroupOutcome ModifyClusterSubnetGroup (const Model::ModifyClusterSubnetGroupRequest &request) const
 
virtual Model::ModifyClusterSubnetGroupOutcomeCallable ModifyClusterSubnetGroupCallable (const Model::ModifyClusterSubnetGroupRequest &request) const
 
virtual void ModifyClusterSubnetGroupAsync (const Model::ModifyClusterSubnetGroupRequest &request, const ModifyClusterSubnetGroupResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ModifyEventSubscriptionOutcome ModifyEventSubscription (const Model::ModifyEventSubscriptionRequest &request) const
 
virtual Model::ModifyEventSubscriptionOutcomeCallable ModifyEventSubscriptionCallable (const Model::ModifyEventSubscriptionRequest &request) const
 
virtual void ModifyEventSubscriptionAsync (const Model::ModifyEventSubscriptionRequest &request, const ModifyEventSubscriptionResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ModifyScheduledActionOutcome ModifyScheduledAction (const Model::ModifyScheduledActionRequest &request) const
 
virtual Model::ModifyScheduledActionOutcomeCallable ModifyScheduledActionCallable (const Model::ModifyScheduledActionRequest &request) const
 
virtual void ModifyScheduledActionAsync (const Model::ModifyScheduledActionRequest &request, const ModifyScheduledActionResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ModifySnapshotCopyRetentionPeriodOutcome ModifySnapshotCopyRetentionPeriod (const Model::ModifySnapshotCopyRetentionPeriodRequest &request) const
 
virtual Model::ModifySnapshotCopyRetentionPeriodOutcomeCallable ModifySnapshotCopyRetentionPeriodCallable (const Model::ModifySnapshotCopyRetentionPeriodRequest &request) const
 
virtual void ModifySnapshotCopyRetentionPeriodAsync (const Model::ModifySnapshotCopyRetentionPeriodRequest &request, const ModifySnapshotCopyRetentionPeriodResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ModifySnapshotScheduleOutcome ModifySnapshotSchedule (const Model::ModifySnapshotScheduleRequest &request) const
 
virtual Model::ModifySnapshotScheduleOutcomeCallable ModifySnapshotScheduleCallable (const Model::ModifySnapshotScheduleRequest &request) const
 
virtual void ModifySnapshotScheduleAsync (const Model::ModifySnapshotScheduleRequest &request, const ModifySnapshotScheduleResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ModifyUsageLimitOutcome ModifyUsageLimit (const Model::ModifyUsageLimitRequest &request) const
 
virtual Model::ModifyUsageLimitOutcomeCallable ModifyUsageLimitCallable (const Model::ModifyUsageLimitRequest &request) const
 
virtual void ModifyUsageLimitAsync (const Model::ModifyUsageLimitRequest &request, const ModifyUsageLimitResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::PauseClusterOutcome PauseCluster (const Model::PauseClusterRequest &request) const
 
virtual Model::PauseClusterOutcomeCallable PauseClusterCallable (const Model::PauseClusterRequest &request) const
 
virtual void PauseClusterAsync (const Model::PauseClusterRequest &request, const PauseClusterResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::PurchaseReservedNodeOfferingOutcome PurchaseReservedNodeOffering (const Model::PurchaseReservedNodeOfferingRequest &request) const
 
virtual Model::PurchaseReservedNodeOfferingOutcomeCallable PurchaseReservedNodeOfferingCallable (const Model::PurchaseReservedNodeOfferingRequest &request) const
 
virtual void PurchaseReservedNodeOfferingAsync (const Model::PurchaseReservedNodeOfferingRequest &request, const PurchaseReservedNodeOfferingResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::RebootClusterOutcome RebootCluster (const Model::RebootClusterRequest &request) const
 
virtual Model::RebootClusterOutcomeCallable RebootClusterCallable (const Model::RebootClusterRequest &request) const
 
virtual void RebootClusterAsync (const Model::RebootClusterRequest &request, const RebootClusterResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ResetClusterParameterGroupOutcome ResetClusterParameterGroup (const Model::ResetClusterParameterGroupRequest &request) const
 
virtual Model::ResetClusterParameterGroupOutcomeCallable ResetClusterParameterGroupCallable (const Model::ResetClusterParameterGroupRequest &request) const
 
virtual void ResetClusterParameterGroupAsync (const Model::ResetClusterParameterGroupRequest &request, const ResetClusterParameterGroupResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ResizeClusterOutcome ResizeCluster (const Model::ResizeClusterRequest &request) const
 
virtual Model::ResizeClusterOutcomeCallable ResizeClusterCallable (const Model::ResizeClusterRequest &request) const
 
virtual void ResizeClusterAsync (const Model::ResizeClusterRequest &request, const ResizeClusterResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::RestoreFromClusterSnapshotOutcome RestoreFromClusterSnapshot (const Model::RestoreFromClusterSnapshotRequest &request) const
 
virtual Model::RestoreFromClusterSnapshotOutcomeCallable RestoreFromClusterSnapshotCallable (const Model::RestoreFromClusterSnapshotRequest &request) const
 
virtual void RestoreFromClusterSnapshotAsync (const Model::RestoreFromClusterSnapshotRequest &request, const RestoreFromClusterSnapshotResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::RestoreTableFromClusterSnapshotOutcome RestoreTableFromClusterSnapshot (const Model::RestoreTableFromClusterSnapshotRequest &request) const
 
virtual Model::RestoreTableFromClusterSnapshotOutcomeCallable RestoreTableFromClusterSnapshotCallable (const Model::RestoreTableFromClusterSnapshotRequest &request) const
 
virtual void RestoreTableFromClusterSnapshotAsync (const Model::RestoreTableFromClusterSnapshotRequest &request, const RestoreTableFromClusterSnapshotResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ResumeClusterOutcome ResumeCluster (const Model::ResumeClusterRequest &request) const
 
virtual Model::ResumeClusterOutcomeCallable ResumeClusterCallable (const Model::ResumeClusterRequest &request) const
 
virtual void ResumeClusterAsync (const Model::ResumeClusterRequest &request, const ResumeClusterResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::RevokeClusterSecurityGroupIngressOutcome RevokeClusterSecurityGroupIngress (const Model::RevokeClusterSecurityGroupIngressRequest &request) const
 
virtual Model::RevokeClusterSecurityGroupIngressOutcomeCallable RevokeClusterSecurityGroupIngressCallable (const Model::RevokeClusterSecurityGroupIngressRequest &request) const
 
virtual void RevokeClusterSecurityGroupIngressAsync (const Model::RevokeClusterSecurityGroupIngressRequest &request, const RevokeClusterSecurityGroupIngressResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::RevokeSnapshotAccessOutcome RevokeSnapshotAccess (const Model::RevokeSnapshotAccessRequest &request) const
 
virtual Model::RevokeSnapshotAccessOutcomeCallable RevokeSnapshotAccessCallable (const Model::RevokeSnapshotAccessRequest &request) const
 
virtual void RevokeSnapshotAccessAsync (const Model::RevokeSnapshotAccessRequest &request, const RevokeSnapshotAccessResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::RotateEncryptionKeyOutcome RotateEncryptionKey (const Model::RotateEncryptionKeyRequest &request) const
 
virtual Model::RotateEncryptionKeyOutcomeCallable RotateEncryptionKeyCallable (const Model::RotateEncryptionKeyRequest &request) const
 
virtual void RotateEncryptionKeyAsync (const Model::RotateEncryptionKeyRequest &request, const RotateEncryptionKeyResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
void OverrideEndpoint (const Aws::String &endpoint)
 
- Public Member Functions inherited from Aws::Client::AWSXMLClient
 AWSXMLClient (const Aws::Client::ClientConfiguration &configuration, const std::shared_ptr< Aws::Client::AWSAuthSigner > &signer, const std::shared_ptr< AWSErrorMarshaller > &errorMarshaller)
 
 AWSXMLClient (const Aws::Client::ClientConfiguration &configuration, const std::shared_ptr< Aws::Auth::AWSAuthSignerProvider > &signerProvider, const std::shared_ptr< AWSErrorMarshaller > &errorMarshaller)
 
virtual ~AWSXMLClient ()=default
 
- Public Member Functions inherited from Aws::Client::AWSClient
 AWSClient (const Aws::Client::ClientConfiguration &configuration, const std::shared_ptr< Aws::Client::AWSAuthSigner > &signer, const std::shared_ptr< AWSErrorMarshaller > &errorMarshaller)
 
 AWSClient (const Aws::Client::ClientConfiguration &configuration, const std::shared_ptr< Aws::Auth::AWSAuthSignerProvider > &signerProvider, const std::shared_ptr< AWSErrorMarshaller > &errorMarshaller)
 
virtual ~AWSClient ()
 
Aws::String GeneratePresignedUrl (Aws::Http::URI &uri, Aws::Http::HttpMethod method, long long expirationInSeconds=0)
 
Aws::String GeneratePresignedUrl (Aws::Http::URI &uri, Aws::Http::HttpMethod method, const Aws::Http::HeaderValueCollection &customizedHeaders, long long expirationInSeconds=0)
 
Aws::String GeneratePresignedUrl (Aws::Http::URI &uri, Aws::Http::HttpMethod method, const char *region, long long expirationInSeconds=0) const
 
Aws::String GeneratePresignedUrl (Aws::Http::URI &uri, Aws::Http::HttpMethod method, const char *region, const Aws::Http::HeaderValueCollection &customizedHeaders, long long expirationInSeconds=0)
 
Aws::String GeneratePresignedUrl (Aws::Http::URI &uri, Aws::Http::HttpMethod method, const char *region, const char *serviceName, long long expirationInSeconds=0) const
 
Aws::String GeneratePresignedUrl (const Aws::AmazonWebServiceRequest &request, Aws::Http::URI &uri, Aws::Http::HttpMethod method, const Aws::Http::QueryStringParameterCollection &extraParams=Aws::Http::QueryStringParameterCollection(), long long expirationInSeconds=0) const
 
Aws::String GeneratePresignedUrl (const Aws::AmazonWebServiceRequest &request, Aws::Http::URI &uri, Aws::Http::HttpMethod method, const char *region, const char *serviceName, const Aws::Http::QueryStringParameterCollection &extraParams=Aws::Http::QueryStringParameterCollection(), long long expirationInSeconds=0) const
 
Aws::String GeneratePresignedUrl (const Aws::AmazonWebServiceRequest &request, Aws::Http::URI &uri, Aws::Http::HttpMethod method, const char *region, const Aws::Http::QueryStringParameterCollection &extraParams=Aws::Http::QueryStringParameterCollection(), long long expirationInSeconds=0) const
 
void DisableRequestProcessing ()
 
void EnableRequestProcessing ()
 
virtual const char * GetServiceClientName () const
 
virtual void SetServiceClientName (const Aws::String &name)
 

Additional Inherited Members

- Protected Member Functions inherited from Aws::Client::AWSXMLClient
virtual AWSError< CoreErrorsBuildAWSError (const std::shared_ptr< Aws::Http::HttpResponse > &response) const override
 
XmlOutcome MakeRequest (const Aws::Http::URI &uri, const Aws::AmazonWebServiceRequest &request, Http::HttpMethod method=Http::HttpMethod::HTTP_POST, const char *signerName=Aws::Auth::SIGV4_SIGNER, const char *signerRegionOverride=nullptr) const
 
XmlOutcome MakeRequest (const Aws::Http::URI &uri, Http::HttpMethod method=Http::HttpMethod::HTTP_POST, const char *signerName=Aws::Auth::SIGV4_SIGNER, const char *requestName="", const char *signerRegionOverride=nullptr) const
 
XmlOutcome MakeRequestWithEventStream (const Aws::Http::URI &uri, const Aws::AmazonWebServiceRequest &request, Http::HttpMethod method=Http::HttpMethod::HTTP_POST, const char *singerName=Aws::Auth::SIGV4_SIGNER, const char *signerRegionOverride=nullptr) const
 
XmlOutcome MakeRequestWithEventStream (const Aws::Http::URI &uri, Http::HttpMethod method=Http::HttpMethod::HTTP_POST, const char *signerName=Aws::Auth::SIGV4_SIGNER, const char *requestName="", const char *signerRegionOverride=nullptr) const
 
- Protected Member Functions inherited from Aws::Client::AWSClient
HttpResponseOutcome AttemptExhaustively (const Aws::Http::URI &uri, const Aws::AmazonWebServiceRequest &request, Http::HttpMethod httpMethod, const char *signerName, const char *signerRegionOverride=nullptr) const
 
HttpResponseOutcome AttemptExhaustively (const Aws::Http::URI &uri, Http::HttpMethod httpMethod, const char *signerName, const char *requestName="", const char *signerRegionOverride=nullptr) const
 
HttpResponseOutcome AttemptOneRequest (const std::shared_ptr< Http::HttpRequest > &httpRequest, const Aws::AmazonWebServiceRequest &request, const char *signerName, const char *signerRegionOverride=nullptr) const
 
HttpResponseOutcome AttemptOneRequest (const std::shared_ptr< Http::HttpRequest > &httpRequest, const char *signerName, const char *requestName="", const char *signerRegionOverride=nullptr) const
 
StreamOutcome MakeRequestWithUnparsedResponse (const Aws::Http::URI &uri, const Aws::AmazonWebServiceRequest &request, Http::HttpMethod method=Http::HttpMethod::HTTP_POST, const char *signerName=Aws::Auth::SIGV4_SIGNER, const char *signerRegionOverride=nullptr) const
 
StreamOutcome MakeRequestWithUnparsedResponse (const Aws::Http::URI &uri, Http::HttpMethod method=Http::HttpMethod::HTTP_POST, const char *signerName=Aws::Auth::SIGV4_SIGNER, const char *requestName="", const char *signerRegionOverride=nullptr) const
 
virtual void BuildHttpRequest (const Aws::AmazonWebServiceRequest &request, const std::shared_ptr< Aws::Http::HttpRequest > &httpRequest) const
 
const std::shared_ptr< AWSErrorMarshaller > & GetErrorMarshaller () const
 
Aws::Client::AWSAuthSignerGetSignerByName (const char *name) const
 
std::shared_ptr< Aws::Http::HttpRequestBuildAndSignHttpRequest (const Aws::Http::URI &uri, const Aws::AmazonWebServiceRequest &request, Http::HttpMethod method, const char *signerName) const
 
std::shared_ptr< Aws::Http::HttpResponseMakeHttpRequest (std::shared_ptr< Aws::Http::HttpRequest > &request) const
 
- Protected Attributes inherited from Aws::Client::AWSClient
Aws::String m_region
 

Detailed Description

<fullname>Amazon Redshift</fullname>

Overview

This is an interface reference for Amazon Redshift. It contains documentation for one of the programming or command line interfaces you can use to manage Amazon Redshift clusters. Note that Amazon Redshift is asynchronous, which means that some interfaces may require techniques, such as polling or asynchronous callback handlers, to determine when a command has been applied. In this reference, the parameter descriptions indicate whether a change is applied immediately, on the next instance reboot, or during the next maintenance window. For a summary of the Amazon Redshift cluster management interfaces, go to Using the Amazon Redshift Management Interfaces.

Amazon Redshift manages all the work of setting up, operating, and scaling a data warehouse: provisioning capacity, monitoring and backing up the cluster, and applying patches and upgrades to the Amazon Redshift engine. You can focus on using your data to acquire new insights for your business and customers.

If you are a first-time user of Amazon Redshift, we recommend that you begin by reading the Amazon Redshift Getting Started Guide.

If you are a database developer, the Amazon Redshift Database Developer Guide explains how to design, build, query, and maintain the databases that make up your data warehouse.

Definition at line 539 of file RedshiftClient.h.

Member Typedef Documentation

◆ BASECLASS

Definition at line 542 of file RedshiftClient.h.

Constructor & Destructor Documentation

◆ RedshiftClient() [1/3]

Aws::Redshift::RedshiftClient::RedshiftClient ( const Aws::Client::ClientConfiguration clientConfiguration = Aws::Client::ClientConfiguration())

Initializes client to use DefaultCredentialProviderChain, with default http client factory, and optional client config. If client config is not specified, it will be initialized to default values.

◆ RedshiftClient() [2/3]

Aws::Redshift::RedshiftClient::RedshiftClient ( const Aws::Auth::AWSCredentials credentials,
const Aws::Client::ClientConfiguration clientConfiguration = Aws::Client::ClientConfiguration() 
)

Initializes client to use SimpleAWSCredentialsProvider, with default http client factory, and optional client config. If client config is not specified, it will be initialized to default values.

◆ RedshiftClient() [3/3]

Aws::Redshift::RedshiftClient::RedshiftClient ( const std::shared_ptr< Aws::Auth::AWSCredentialsProvider > &  credentialsProvider,
const Aws::Client::ClientConfiguration clientConfiguration = Aws::Client::ClientConfiguration() 
)

Initializes client to use specified credentials provider with specified client config. If http client factory is not supplied, the default http client factory will be used

◆ ~RedshiftClient()

virtual Aws::Redshift::RedshiftClient::~RedshiftClient ( )
virtual

Member Function Documentation

◆ AcceptReservedNodeExchange()

virtual Model::AcceptReservedNodeExchangeOutcome Aws::Redshift::RedshiftClient::AcceptReservedNodeExchange ( const Model::AcceptReservedNodeExchangeRequest request) const
virtual

Exchanges a DC1 Reserved Node for a DC2 Reserved Node with no changes to the configuration (term, payment type, or number of nodes) and no additional costs.

See Also:

AWS API Reference

◆ AcceptReservedNodeExchangeAsync()

virtual void Aws::Redshift::RedshiftClient::AcceptReservedNodeExchangeAsync ( const Model::AcceptReservedNodeExchangeRequest request,
const AcceptReservedNodeExchangeResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Exchanges a DC1 Reserved Node for a DC2 Reserved Node with no changes to the configuration (term, payment type, or number of nodes) and no additional costs.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ AcceptReservedNodeExchangeCallable()

virtual Model::AcceptReservedNodeExchangeOutcomeCallable Aws::Redshift::RedshiftClient::AcceptReservedNodeExchangeCallable ( const Model::AcceptReservedNodeExchangeRequest request) const
virtual

Exchanges a DC1 Reserved Node for a DC2 Reserved Node with no changes to the configuration (term, payment type, or number of nodes) and no additional costs.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ AuthorizeClusterSecurityGroupIngress()

virtual Model::AuthorizeClusterSecurityGroupIngressOutcome Aws::Redshift::RedshiftClient::AuthorizeClusterSecurityGroupIngress ( const Model::AuthorizeClusterSecurityGroupIngressRequest request) const
virtual

Adds an inbound (ingress) rule to an Amazon Redshift security group. Depending on whether the application accessing your cluster is running on the Internet or an Amazon EC2 instance, you can authorize inbound access to either a Classless Interdomain Routing (CIDR)/Internet Protocol (IP) range or to an Amazon EC2 security group. You can add as many as 20 ingress rules to an Amazon Redshift security group.

If you authorize access to an Amazon EC2 security group, specify EC2SecurityGroupName and EC2SecurityGroupOwnerId. The Amazon EC2 security group and Amazon Redshift cluster must be in the same AWS Region.

If you authorize access to a CIDR/IP address range, specify CIDRIP. For an overview of CIDR blocks, see the Wikipedia article on Classless Inter-Domain Routing.

You must also associate the security group with a cluster so that clients running on these IP addresses or the EC2 instance are authorized to connect to the cluster. For information about managing security groups, go to Working with Security Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ AuthorizeClusterSecurityGroupIngressAsync()

virtual void Aws::Redshift::RedshiftClient::AuthorizeClusterSecurityGroupIngressAsync ( const Model::AuthorizeClusterSecurityGroupIngressRequest request,
const AuthorizeClusterSecurityGroupIngressResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Adds an inbound (ingress) rule to an Amazon Redshift security group. Depending on whether the application accessing your cluster is running on the Internet or an Amazon EC2 instance, you can authorize inbound access to either a Classless Interdomain Routing (CIDR)/Internet Protocol (IP) range or to an Amazon EC2 security group. You can add as many as 20 ingress rules to an Amazon Redshift security group.

If you authorize access to an Amazon EC2 security group, specify EC2SecurityGroupName and EC2SecurityGroupOwnerId. The Amazon EC2 security group and Amazon Redshift cluster must be in the same AWS Region.

If you authorize access to a CIDR/IP address range, specify CIDRIP. For an overview of CIDR blocks, see the Wikipedia article on Classless Inter-Domain Routing.

You must also associate the security group with a cluster so that clients running on these IP addresses or the EC2 instance are authorized to connect to the cluster. For information about managing security groups, go to Working with Security Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ AuthorizeClusterSecurityGroupIngressCallable()

virtual Model::AuthorizeClusterSecurityGroupIngressOutcomeCallable Aws::Redshift::RedshiftClient::AuthorizeClusterSecurityGroupIngressCallable ( const Model::AuthorizeClusterSecurityGroupIngressRequest request) const
virtual

Adds an inbound (ingress) rule to an Amazon Redshift security group. Depending on whether the application accessing your cluster is running on the Internet or an Amazon EC2 instance, you can authorize inbound access to either a Classless Interdomain Routing (CIDR)/Internet Protocol (IP) range or to an Amazon EC2 security group. You can add as many as 20 ingress rules to an Amazon Redshift security group.

If you authorize access to an Amazon EC2 security group, specify EC2SecurityGroupName and EC2SecurityGroupOwnerId. The Amazon EC2 security group and Amazon Redshift cluster must be in the same AWS Region.

If you authorize access to a CIDR/IP address range, specify CIDRIP. For an overview of CIDR blocks, see the Wikipedia article on Classless Inter-Domain Routing.

You must also associate the security group with a cluster so that clients running on these IP addresses or the EC2 instance are authorized to connect to the cluster. For information about managing security groups, go to Working with Security Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ AuthorizeSnapshotAccess()

virtual Model::AuthorizeSnapshotAccessOutcome Aws::Redshift::RedshiftClient::AuthorizeSnapshotAccess ( const Model::AuthorizeSnapshotAccessRequest request) const
virtual

Authorizes the specified AWS customer account to restore the specified snapshot.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ AuthorizeSnapshotAccessAsync()

virtual void Aws::Redshift::RedshiftClient::AuthorizeSnapshotAccessAsync ( const Model::AuthorizeSnapshotAccessRequest request,
const AuthorizeSnapshotAccessResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Authorizes the specified AWS customer account to restore the specified snapshot.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ AuthorizeSnapshotAccessCallable()

virtual Model::AuthorizeSnapshotAccessOutcomeCallable Aws::Redshift::RedshiftClient::AuthorizeSnapshotAccessCallable ( const Model::AuthorizeSnapshotAccessRequest request) const
virtual

Authorizes the specified AWS customer account to restore the specified snapshot.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ BatchDeleteClusterSnapshots()

virtual Model::BatchDeleteClusterSnapshotsOutcome Aws::Redshift::RedshiftClient::BatchDeleteClusterSnapshots ( const Model::BatchDeleteClusterSnapshotsRequest request) const
virtual

Deletes a set of cluster snapshots.

See Also:

AWS API Reference

◆ BatchDeleteClusterSnapshotsAsync()

virtual void Aws::Redshift::RedshiftClient::BatchDeleteClusterSnapshotsAsync ( const Model::BatchDeleteClusterSnapshotsRequest request,
const BatchDeleteClusterSnapshotsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes a set of cluster snapshots.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ BatchDeleteClusterSnapshotsCallable()

virtual Model::BatchDeleteClusterSnapshotsOutcomeCallable Aws::Redshift::RedshiftClient::BatchDeleteClusterSnapshotsCallable ( const Model::BatchDeleteClusterSnapshotsRequest request) const
virtual

Deletes a set of cluster snapshots.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ BatchModifyClusterSnapshots()

virtual Model::BatchModifyClusterSnapshotsOutcome Aws::Redshift::RedshiftClient::BatchModifyClusterSnapshots ( const Model::BatchModifyClusterSnapshotsRequest request) const
virtual

Modifies the settings for a set of cluster snapshots.

See Also:

AWS API Reference

◆ BatchModifyClusterSnapshotsAsync()

virtual void Aws::Redshift::RedshiftClient::BatchModifyClusterSnapshotsAsync ( const Model::BatchModifyClusterSnapshotsRequest request,
const BatchModifyClusterSnapshotsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Modifies the settings for a set of cluster snapshots.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ BatchModifyClusterSnapshotsCallable()

virtual Model::BatchModifyClusterSnapshotsOutcomeCallable Aws::Redshift::RedshiftClient::BatchModifyClusterSnapshotsCallable ( const Model::BatchModifyClusterSnapshotsRequest request) const
virtual

Modifies the settings for a set of cluster snapshots.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ CancelResize()

virtual Model::CancelResizeOutcome Aws::Redshift::RedshiftClient::CancelResize ( const Model::CancelResizeRequest request) const
virtual

Cancels a resize operation for a cluster.

See Also:

AWS API Reference

◆ CancelResizeAsync()

virtual void Aws::Redshift::RedshiftClient::CancelResizeAsync ( const Model::CancelResizeRequest request,
const CancelResizeResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Cancels a resize operation for a cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CancelResizeCallable()

virtual Model::CancelResizeOutcomeCallable Aws::Redshift::RedshiftClient::CancelResizeCallable ( const Model::CancelResizeRequest request) const
virtual

Cancels a resize operation for a cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ConvertRequestToPresignedUrl()

Aws::String Aws::Redshift::RedshiftClient::ConvertRequestToPresignedUrl ( const Aws::AmazonSerializableWebServiceRequest requestToConvert,
const char *  region 
) const

Converts any request object to a presigned URL with the GET method, using region for the signer and a timeout of 15 minutes.

◆ CopyClusterSnapshot()

virtual Model::CopyClusterSnapshotOutcome Aws::Redshift::RedshiftClient::CopyClusterSnapshot ( const Model::CopyClusterSnapshotRequest request) const
virtual

Copies the specified automated cluster snapshot to a new manual cluster snapshot. The source must be an automated snapshot and it must be in the available state.

When you delete a cluster, Amazon Redshift deletes any automated snapshots of the cluster. Also, when the retention period of the snapshot expires, Amazon Redshift automatically deletes it. If you want to keep an automated snapshot for a longer period, you can make a manual copy of the snapshot. Manual snapshots are retained until you delete them.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ CopyClusterSnapshotAsync()

virtual void Aws::Redshift::RedshiftClient::CopyClusterSnapshotAsync ( const Model::CopyClusterSnapshotRequest request,
const CopyClusterSnapshotResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Copies the specified automated cluster snapshot to a new manual cluster snapshot. The source must be an automated snapshot and it must be in the available state.

When you delete a cluster, Amazon Redshift deletes any automated snapshots of the cluster. Also, when the retention period of the snapshot expires, Amazon Redshift automatically deletes it. If you want to keep an automated snapshot for a longer period, you can make a manual copy of the snapshot. Manual snapshots are retained until you delete them.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CopyClusterSnapshotCallable()

virtual Model::CopyClusterSnapshotOutcomeCallable Aws::Redshift::RedshiftClient::CopyClusterSnapshotCallable ( const Model::CopyClusterSnapshotRequest request) const
virtual

Copies the specified automated cluster snapshot to a new manual cluster snapshot. The source must be an automated snapshot and it must be in the available state.

When you delete a cluster, Amazon Redshift deletes any automated snapshots of the cluster. Also, when the retention period of the snapshot expires, Amazon Redshift automatically deletes it. If you want to keep an automated snapshot for a longer period, you can make a manual copy of the snapshot. Manual snapshots are retained until you delete them.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ CreateCluster()

virtual Model::CreateClusterOutcome Aws::Redshift::RedshiftClient::CreateCluster ( const Model::CreateClusterRequest request) const
virtual

Creates a new cluster with the specified parameters.

To create a cluster in Virtual Private Cloud (VPC), you must provide a cluster subnet group name. The cluster subnet group identifies the subnets of your VPC that Amazon Redshift uses when creating the cluster. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ CreateClusterAsync()

virtual void Aws::Redshift::RedshiftClient::CreateClusterAsync ( const Model::CreateClusterRequest request,
const CreateClusterResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a new cluster with the specified parameters.

To create a cluster in Virtual Private Cloud (VPC), you must provide a cluster subnet group name. The cluster subnet group identifies the subnets of your VPC that Amazon Redshift uses when creating the cluster. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CreateClusterCallable()

virtual Model::CreateClusterOutcomeCallable Aws::Redshift::RedshiftClient::CreateClusterCallable ( const Model::CreateClusterRequest request) const
virtual

Creates a new cluster with the specified parameters.

To create a cluster in Virtual Private Cloud (VPC), you must provide a cluster subnet group name. The cluster subnet group identifies the subnets of your VPC that Amazon Redshift uses when creating the cluster. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ CreateClusterParameterGroup()

virtual Model::CreateClusterParameterGroupOutcome Aws::Redshift::RedshiftClient::CreateClusterParameterGroup ( const Model::CreateClusterParameterGroupRequest request) const
virtual

Creates an Amazon Redshift parameter group.

Creating parameter groups is independent of creating clusters. You can associate a cluster with a parameter group when you create the cluster. You can also associate an existing cluster with a parameter group after the cluster is created by using ModifyCluster.

Parameters in the parameter group define specific behavior that applies to the databases you create on the cluster. For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ CreateClusterParameterGroupAsync()

virtual void Aws::Redshift::RedshiftClient::CreateClusterParameterGroupAsync ( const Model::CreateClusterParameterGroupRequest request,
const CreateClusterParameterGroupResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates an Amazon Redshift parameter group.

Creating parameter groups is independent of creating clusters. You can associate a cluster with a parameter group when you create the cluster. You can also associate an existing cluster with a parameter group after the cluster is created by using ModifyCluster.

Parameters in the parameter group define specific behavior that applies to the databases you create on the cluster. For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CreateClusterParameterGroupCallable()

virtual Model::CreateClusterParameterGroupOutcomeCallable Aws::Redshift::RedshiftClient::CreateClusterParameterGroupCallable ( const Model::CreateClusterParameterGroupRequest request) const
virtual

Creates an Amazon Redshift parameter group.

Creating parameter groups is independent of creating clusters. You can associate a cluster with a parameter group when you create the cluster. You can also associate an existing cluster with a parameter group after the cluster is created by using ModifyCluster.

Parameters in the parameter group define specific behavior that applies to the databases you create on the cluster. For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ CreateClusterSecurityGroup()

virtual Model::CreateClusterSecurityGroupOutcome Aws::Redshift::RedshiftClient::CreateClusterSecurityGroup ( const Model::CreateClusterSecurityGroupRequest request) const
virtual

Creates a new Amazon Redshift security group. You use security groups to control access to non-VPC clusters.

For information about managing security groups, go to Amazon Redshift Cluster Security Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ CreateClusterSecurityGroupAsync()

virtual void Aws::Redshift::RedshiftClient::CreateClusterSecurityGroupAsync ( const Model::CreateClusterSecurityGroupRequest request,
const CreateClusterSecurityGroupResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a new Amazon Redshift security group. You use security groups to control access to non-VPC clusters.

For information about managing security groups, go to Amazon Redshift Cluster Security Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CreateClusterSecurityGroupCallable()

virtual Model::CreateClusterSecurityGroupOutcomeCallable Aws::Redshift::RedshiftClient::CreateClusterSecurityGroupCallable ( const Model::CreateClusterSecurityGroupRequest request) const
virtual

Creates a new Amazon Redshift security group. You use security groups to control access to non-VPC clusters.

For information about managing security groups, go to Amazon Redshift Cluster Security Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ CreateClusterSnapshot()

virtual Model::CreateClusterSnapshotOutcome Aws::Redshift::RedshiftClient::CreateClusterSnapshot ( const Model::CreateClusterSnapshotRequest request) const
virtual

Creates a manual snapshot of the specified cluster. The cluster must be in the available state.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ CreateClusterSnapshotAsync()

virtual void Aws::Redshift::RedshiftClient::CreateClusterSnapshotAsync ( const Model::CreateClusterSnapshotRequest request,
const CreateClusterSnapshotResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a manual snapshot of the specified cluster. The cluster must be in the available state.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CreateClusterSnapshotCallable()

virtual Model::CreateClusterSnapshotOutcomeCallable Aws::Redshift::RedshiftClient::CreateClusterSnapshotCallable ( const Model::CreateClusterSnapshotRequest request) const
virtual

Creates a manual snapshot of the specified cluster. The cluster must be in the available state.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ CreateClusterSubnetGroup()

virtual Model::CreateClusterSubnetGroupOutcome Aws::Redshift::RedshiftClient::CreateClusterSubnetGroup ( const Model::CreateClusterSubnetGroupRequest request) const
virtual

Creates a new Amazon Redshift subnet group. You must provide a list of one or more subnets in your existing Amazon Virtual Private Cloud (Amazon VPC) when creating Amazon Redshift subnet group.

For information about subnet groups, go to Amazon Redshift Cluster Subnet Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ CreateClusterSubnetGroupAsync()

virtual void Aws::Redshift::RedshiftClient::CreateClusterSubnetGroupAsync ( const Model::CreateClusterSubnetGroupRequest request,
const CreateClusterSubnetGroupResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a new Amazon Redshift subnet group. You must provide a list of one or more subnets in your existing Amazon Virtual Private Cloud (Amazon VPC) when creating Amazon Redshift subnet group.

For information about subnet groups, go to Amazon Redshift Cluster Subnet Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CreateClusterSubnetGroupCallable()

virtual Model::CreateClusterSubnetGroupOutcomeCallable Aws::Redshift::RedshiftClient::CreateClusterSubnetGroupCallable ( const Model::CreateClusterSubnetGroupRequest request) const
virtual

Creates a new Amazon Redshift subnet group. You must provide a list of one or more subnets in your existing Amazon Virtual Private Cloud (Amazon VPC) when creating Amazon Redshift subnet group.

For information about subnet groups, go to Amazon Redshift Cluster Subnet Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ CreateEventSubscription()

virtual Model::CreateEventSubscriptionOutcome Aws::Redshift::RedshiftClient::CreateEventSubscription ( const Model::CreateEventSubscriptionRequest request) const
virtual

Creates an Amazon Redshift event notification subscription. This action requires an ARN (Amazon Resource Name) of an Amazon SNS topic created by either the Amazon Redshift console, the Amazon SNS console, or the Amazon SNS API. To obtain an ARN with Amazon SNS, you must create a topic in Amazon SNS and subscribe to the topic. The ARN is displayed in the SNS console.

You can specify the source type, and lists of Amazon Redshift source IDs, event categories, and event severities. Notifications will be sent for all events you want that match those criteria. For example, you can specify source type = cluster, source ID = my-cluster-1 and mycluster2, event categories = Availability, Backup, and severity = ERROR. The subscription will only send notifications for those ERROR events in the Availability and Backup categories for the specified clusters.

If you specify both the source type and source IDs, such as source type = cluster and source identifier = my-cluster-1, notifications will be sent for all the cluster events for my-cluster-1. If you specify a source type but do not specify a source identifier, you will receive notice of the events for the objects of that type in your AWS account. If you do not specify either the SourceType nor the SourceIdentifier, you will be notified of events generated from all Amazon Redshift sources belonging to your AWS account. You must specify a source type if you specify a source ID.

See Also:

AWS API Reference

◆ CreateEventSubscriptionAsync()

virtual void Aws::Redshift::RedshiftClient::CreateEventSubscriptionAsync ( const Model::CreateEventSubscriptionRequest request,
const CreateEventSubscriptionResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates an Amazon Redshift event notification subscription. This action requires an ARN (Amazon Resource Name) of an Amazon SNS topic created by either the Amazon Redshift console, the Amazon SNS console, or the Amazon SNS API. To obtain an ARN with Amazon SNS, you must create a topic in Amazon SNS and subscribe to the topic. The ARN is displayed in the SNS console.

You can specify the source type, and lists of Amazon Redshift source IDs, event categories, and event severities. Notifications will be sent for all events you want that match those criteria. For example, you can specify source type = cluster, source ID = my-cluster-1 and mycluster2, event categories = Availability, Backup, and severity = ERROR. The subscription will only send notifications for those ERROR events in the Availability and Backup categories for the specified clusters.

If you specify both the source type and source IDs, such as source type = cluster and source identifier = my-cluster-1, notifications will be sent for all the cluster events for my-cluster-1. If you specify a source type but do not specify a source identifier, you will receive notice of the events for the objects of that type in your AWS account. If you do not specify either the SourceType nor the SourceIdentifier, you will be notified of events generated from all Amazon Redshift sources belonging to your AWS account. You must specify a source type if you specify a source ID.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CreateEventSubscriptionCallable()

virtual Model::CreateEventSubscriptionOutcomeCallable Aws::Redshift::RedshiftClient::CreateEventSubscriptionCallable ( const Model::CreateEventSubscriptionRequest request) const
virtual

Creates an Amazon Redshift event notification subscription. This action requires an ARN (Amazon Resource Name) of an Amazon SNS topic created by either the Amazon Redshift console, the Amazon SNS console, or the Amazon SNS API. To obtain an ARN with Amazon SNS, you must create a topic in Amazon SNS and subscribe to the topic. The ARN is displayed in the SNS console.

You can specify the source type, and lists of Amazon Redshift source IDs, event categories, and event severities. Notifications will be sent for all events you want that match those criteria. For example, you can specify source type = cluster, source ID = my-cluster-1 and mycluster2, event categories = Availability, Backup, and severity = ERROR. The subscription will only send notifications for those ERROR events in the Availability and Backup categories for the specified clusters.

If you specify both the source type and source IDs, such as source type = cluster and source identifier = my-cluster-1, notifications will be sent for all the cluster events for my-cluster-1. If you specify a source type but do not specify a source identifier, you will receive notice of the events for the objects of that type in your AWS account. If you do not specify either the SourceType nor the SourceIdentifier, you will be notified of events generated from all Amazon Redshift sources belonging to your AWS account. You must specify a source type if you specify a source ID.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ CreateHsmClientCertificate()

virtual Model::CreateHsmClientCertificateOutcome Aws::Redshift::RedshiftClient::CreateHsmClientCertificate ( const Model::CreateHsmClientCertificateRequest request) const
virtual

Creates an HSM client certificate that an Amazon Redshift cluster will use to connect to the client's HSM in order to store and retrieve the keys used to encrypt the cluster databases.

The command returns a public key, which you must store in the HSM. In addition to creating the HSM certificate, you must create an Amazon Redshift HSM configuration that provides a cluster the information needed to store and use encryption keys in the HSM. For more information, go to Hardware Security Modules in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ CreateHsmClientCertificateAsync()

virtual void Aws::Redshift::RedshiftClient::CreateHsmClientCertificateAsync ( const Model::CreateHsmClientCertificateRequest request,
const CreateHsmClientCertificateResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates an HSM client certificate that an Amazon Redshift cluster will use to connect to the client's HSM in order to store and retrieve the keys used to encrypt the cluster databases.

The command returns a public key, which you must store in the HSM. In addition to creating the HSM certificate, you must create an Amazon Redshift HSM configuration that provides a cluster the information needed to store and use encryption keys in the HSM. For more information, go to Hardware Security Modules in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CreateHsmClientCertificateCallable()

virtual Model::CreateHsmClientCertificateOutcomeCallable Aws::Redshift::RedshiftClient::CreateHsmClientCertificateCallable ( const Model::CreateHsmClientCertificateRequest request) const
virtual

Creates an HSM client certificate that an Amazon Redshift cluster will use to connect to the client's HSM in order to store and retrieve the keys used to encrypt the cluster databases.

The command returns a public key, which you must store in the HSM. In addition to creating the HSM certificate, you must create an Amazon Redshift HSM configuration that provides a cluster the information needed to store and use encryption keys in the HSM. For more information, go to Hardware Security Modules in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ CreateHsmConfiguration()

virtual Model::CreateHsmConfigurationOutcome Aws::Redshift::RedshiftClient::CreateHsmConfiguration ( const Model::CreateHsmConfigurationRequest request) const
virtual

Creates an HSM configuration that contains the information required by an Amazon Redshift cluster to store and use database encryption keys in a Hardware Security Module (HSM). After creating the HSM configuration, you can specify it as a parameter when creating a cluster. The cluster will then store its encryption keys in the HSM.

In addition to creating an HSM configuration, you must also create an HSM client certificate. For more information, go to Hardware Security Modules in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ CreateHsmConfigurationAsync()

virtual void Aws::Redshift::RedshiftClient::CreateHsmConfigurationAsync ( const Model::CreateHsmConfigurationRequest request,
const CreateHsmConfigurationResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates an HSM configuration that contains the information required by an Amazon Redshift cluster to store and use database encryption keys in a Hardware Security Module (HSM). After creating the HSM configuration, you can specify it as a parameter when creating a cluster. The cluster will then store its encryption keys in the HSM.

In addition to creating an HSM configuration, you must also create an HSM client certificate. For more information, go to Hardware Security Modules in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CreateHsmConfigurationCallable()

virtual Model::CreateHsmConfigurationOutcomeCallable Aws::Redshift::RedshiftClient::CreateHsmConfigurationCallable ( const Model::CreateHsmConfigurationRequest request) const
virtual

Creates an HSM configuration that contains the information required by an Amazon Redshift cluster to store and use database encryption keys in a Hardware Security Module (HSM). After creating the HSM configuration, you can specify it as a parameter when creating a cluster. The cluster will then store its encryption keys in the HSM.

In addition to creating an HSM configuration, you must also create an HSM client certificate. For more information, go to Hardware Security Modules in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ CreateScheduledAction()

virtual Model::CreateScheduledActionOutcome Aws::Redshift::RedshiftClient::CreateScheduledAction ( const Model::CreateScheduledActionRequest request) const
virtual

Creates a scheduled action. A scheduled action contains a schedule and an Amazon Redshift API action. For example, you can create a schedule of when to run the ResizeCluster API operation.

See Also:

AWS API Reference

◆ CreateScheduledActionAsync()

virtual void Aws::Redshift::RedshiftClient::CreateScheduledActionAsync ( const Model::CreateScheduledActionRequest request,
const CreateScheduledActionResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a scheduled action. A scheduled action contains a schedule and an Amazon Redshift API action. For example, you can create a schedule of when to run the ResizeCluster API operation.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CreateScheduledActionCallable()

virtual Model::CreateScheduledActionOutcomeCallable Aws::Redshift::RedshiftClient::CreateScheduledActionCallable ( const Model::CreateScheduledActionRequest request) const
virtual

Creates a scheduled action. A scheduled action contains a schedule and an Amazon Redshift API action. For example, you can create a schedule of when to run the ResizeCluster API operation.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ CreateSnapshotCopyGrant()

virtual Model::CreateSnapshotCopyGrantOutcome Aws::Redshift::RedshiftClient::CreateSnapshotCopyGrant ( const Model::CreateSnapshotCopyGrantRequest request) const
virtual

Creates a snapshot copy grant that permits Amazon Redshift to use a customer master key (CMK) from AWS Key Management Service (AWS KMS) to encrypt copied snapshots in a destination region.

For more information about managing snapshot copy grants, go to Amazon Redshift Database Encryption in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ CreateSnapshotCopyGrantAsync()

virtual void Aws::Redshift::RedshiftClient::CreateSnapshotCopyGrantAsync ( const Model::CreateSnapshotCopyGrantRequest request,
const CreateSnapshotCopyGrantResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a snapshot copy grant that permits Amazon Redshift to use a customer master key (CMK) from AWS Key Management Service (AWS KMS) to encrypt copied snapshots in a destination region.

For more information about managing snapshot copy grants, go to Amazon Redshift Database Encryption in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CreateSnapshotCopyGrantCallable()

virtual Model::CreateSnapshotCopyGrantOutcomeCallable Aws::Redshift::RedshiftClient::CreateSnapshotCopyGrantCallable ( const Model::CreateSnapshotCopyGrantRequest request) const
virtual

Creates a snapshot copy grant that permits Amazon Redshift to use a customer master key (CMK) from AWS Key Management Service (AWS KMS) to encrypt copied snapshots in a destination region.

For more information about managing snapshot copy grants, go to Amazon Redshift Database Encryption in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ CreateSnapshotSchedule()

virtual Model::CreateSnapshotScheduleOutcome Aws::Redshift::RedshiftClient::CreateSnapshotSchedule ( const Model::CreateSnapshotScheduleRequest request) const
virtual

Create a snapshot schedule that can be associated to a cluster and which overrides the default system backup schedule.

See Also:

AWS API Reference

◆ CreateSnapshotScheduleAsync()

virtual void Aws::Redshift::RedshiftClient::CreateSnapshotScheduleAsync ( const Model::CreateSnapshotScheduleRequest request,
const CreateSnapshotScheduleResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Create a snapshot schedule that can be associated to a cluster and which overrides the default system backup schedule.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CreateSnapshotScheduleCallable()

virtual Model::CreateSnapshotScheduleOutcomeCallable Aws::Redshift::RedshiftClient::CreateSnapshotScheduleCallable ( const Model::CreateSnapshotScheduleRequest request) const
virtual

Create a snapshot schedule that can be associated to a cluster and which overrides the default system backup schedule.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ CreateTags()

virtual Model::CreateTagsOutcome Aws::Redshift::RedshiftClient::CreateTags ( const Model::CreateTagsRequest request) const
virtual

Adds tags to a cluster.

A resource can have up to 50 tags. If you try to create more than 50 tags for a resource, you will receive an error and the attempt will fail.

If you specify a key that already exists for the resource, the value for that key will be updated with the new value.

See Also:

AWS API Reference

◆ CreateTagsAsync()

virtual void Aws::Redshift::RedshiftClient::CreateTagsAsync ( const Model::CreateTagsRequest request,
const CreateTagsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Adds tags to a cluster.

A resource can have up to 50 tags. If you try to create more than 50 tags for a resource, you will receive an error and the attempt will fail.

If you specify a key that already exists for the resource, the value for that key will be updated with the new value.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CreateTagsCallable()

virtual Model::CreateTagsOutcomeCallable Aws::Redshift::RedshiftClient::CreateTagsCallable ( const Model::CreateTagsRequest request) const
virtual

Adds tags to a cluster.

A resource can have up to 50 tags. If you try to create more than 50 tags for a resource, you will receive an error and the attempt will fail.

If you specify a key that already exists for the resource, the value for that key will be updated with the new value.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ CreateUsageLimit()

virtual Model::CreateUsageLimitOutcome Aws::Redshift::RedshiftClient::CreateUsageLimit ( const Model::CreateUsageLimitRequest request) const
virtual

Creates a usage limit for a specified Amazon Redshift feature on a cluster. The usage limit is identified by the returned usage limit identifier.

See Also:

AWS API Reference

◆ CreateUsageLimitAsync()

virtual void Aws::Redshift::RedshiftClient::CreateUsageLimitAsync ( const Model::CreateUsageLimitRequest request,
const CreateUsageLimitResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a usage limit for a specified Amazon Redshift feature on a cluster. The usage limit is identified by the returned usage limit identifier.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ CreateUsageLimitCallable()

virtual Model::CreateUsageLimitOutcomeCallable Aws::Redshift::RedshiftClient::CreateUsageLimitCallable ( const Model::CreateUsageLimitRequest request) const
virtual

Creates a usage limit for a specified Amazon Redshift feature on a cluster. The usage limit is identified by the returned usage limit identifier.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DeleteCluster()

virtual Model::DeleteClusterOutcome Aws::Redshift::RedshiftClient::DeleteCluster ( const Model::DeleteClusterRequest request) const
virtual

Deletes a previously provisioned cluster without its final snapshot being created. A successful response from the web service indicates that the request was received correctly. Use DescribeClusters to monitor the status of the deletion. The delete operation cannot be canceled or reverted once submitted. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

If you want to shut down the cluster and retain it for future use, set SkipFinalClusterSnapshot to false and specify a name for FinalClusterSnapshotIdentifier. You can later restore this snapshot to resume using the cluster. If a final cluster snapshot is requested, the status of the cluster will be "final-snapshot" while the snapshot is being taken, then it's "deleting" once Amazon Redshift begins deleting the cluster.

For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ DeleteClusterAsync()

virtual void Aws::Redshift::RedshiftClient::DeleteClusterAsync ( const Model::DeleteClusterRequest request,
const DeleteClusterResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes a previously provisioned cluster without its final snapshot being created. A successful response from the web service indicates that the request was received correctly. Use DescribeClusters to monitor the status of the deletion. The delete operation cannot be canceled or reverted once submitted. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

If you want to shut down the cluster and retain it for future use, set SkipFinalClusterSnapshot to false and specify a name for FinalClusterSnapshotIdentifier. You can later restore this snapshot to resume using the cluster. If a final cluster snapshot is requested, the status of the cluster will be "final-snapshot" while the snapshot is being taken, then it's "deleting" once Amazon Redshift begins deleting the cluster.

For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DeleteClusterCallable()

virtual Model::DeleteClusterOutcomeCallable Aws::Redshift::RedshiftClient::DeleteClusterCallable ( const Model::DeleteClusterRequest request) const
virtual

Deletes a previously provisioned cluster without its final snapshot being created. A successful response from the web service indicates that the request was received correctly. Use DescribeClusters to monitor the status of the deletion. The delete operation cannot be canceled or reverted once submitted. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

If you want to shut down the cluster and retain it for future use, set SkipFinalClusterSnapshot to false and specify a name for FinalClusterSnapshotIdentifier. You can later restore this snapshot to resume using the cluster. If a final cluster snapshot is requested, the status of the cluster will be "final-snapshot" while the snapshot is being taken, then it's "deleting" once Amazon Redshift begins deleting the cluster.

For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DeleteClusterParameterGroup()

virtual Model::DeleteClusterParameterGroupOutcome Aws::Redshift::RedshiftClient::DeleteClusterParameterGroup ( const Model::DeleteClusterParameterGroupRequest request) const
virtual

Deletes a specified Amazon Redshift parameter group.

You cannot delete a parameter group if it is associated with a cluster.

See Also:

AWS API Reference

◆ DeleteClusterParameterGroupAsync()

virtual void Aws::Redshift::RedshiftClient::DeleteClusterParameterGroupAsync ( const Model::DeleteClusterParameterGroupRequest request,
const DeleteClusterParameterGroupResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes a specified Amazon Redshift parameter group.

You cannot delete a parameter group if it is associated with a cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DeleteClusterParameterGroupCallable()

virtual Model::DeleteClusterParameterGroupOutcomeCallable Aws::Redshift::RedshiftClient::DeleteClusterParameterGroupCallable ( const Model::DeleteClusterParameterGroupRequest request) const
virtual

Deletes a specified Amazon Redshift parameter group.

You cannot delete a parameter group if it is associated with a cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DeleteClusterSecurityGroup()

virtual Model::DeleteClusterSecurityGroupOutcome Aws::Redshift::RedshiftClient::DeleteClusterSecurityGroup ( const Model::DeleteClusterSecurityGroupRequest request) const
virtual

Deletes an Amazon Redshift security group.

You cannot delete a security group that is associated with any clusters. You cannot delete the default security group.

For information about managing security groups, go to Amazon Redshift Cluster Security Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ DeleteClusterSecurityGroupAsync()

virtual void Aws::Redshift::RedshiftClient::DeleteClusterSecurityGroupAsync ( const Model::DeleteClusterSecurityGroupRequest request,
const DeleteClusterSecurityGroupResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes an Amazon Redshift security group.

You cannot delete a security group that is associated with any clusters. You cannot delete the default security group.

For information about managing security groups, go to Amazon Redshift Cluster Security Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DeleteClusterSecurityGroupCallable()

virtual Model::DeleteClusterSecurityGroupOutcomeCallable Aws::Redshift::RedshiftClient::DeleteClusterSecurityGroupCallable ( const Model::DeleteClusterSecurityGroupRequest request) const
virtual

Deletes an Amazon Redshift security group.

You cannot delete a security group that is associated with any clusters. You cannot delete the default security group.

For information about managing security groups, go to Amazon Redshift Cluster Security Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DeleteClusterSnapshot()

virtual Model::DeleteClusterSnapshotOutcome Aws::Redshift::RedshiftClient::DeleteClusterSnapshot ( const Model::DeleteClusterSnapshotRequest request) const
virtual

Deletes the specified manual snapshot. The snapshot must be in the available state, with no other users authorized to access the snapshot.

Unlike automated snapshots, manual snapshots are retained even after you delete your cluster. Amazon Redshift does not delete your manual snapshots. You must delete manual snapshot explicitly to avoid getting charged. If other accounts are authorized to access the snapshot, you must revoke all of the authorizations before you can delete the snapshot.

See Also:

AWS API Reference

◆ DeleteClusterSnapshotAsync()

virtual void Aws::Redshift::RedshiftClient::DeleteClusterSnapshotAsync ( const Model::DeleteClusterSnapshotRequest request,
const DeleteClusterSnapshotResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes the specified manual snapshot. The snapshot must be in the available state, with no other users authorized to access the snapshot.

Unlike automated snapshots, manual snapshots are retained even after you delete your cluster. Amazon Redshift does not delete your manual snapshots. You must delete manual snapshot explicitly to avoid getting charged. If other accounts are authorized to access the snapshot, you must revoke all of the authorizations before you can delete the snapshot.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DeleteClusterSnapshotCallable()

virtual Model::DeleteClusterSnapshotOutcomeCallable Aws::Redshift::RedshiftClient::DeleteClusterSnapshotCallable ( const Model::DeleteClusterSnapshotRequest request) const
virtual

Deletes the specified manual snapshot. The snapshot must be in the available state, with no other users authorized to access the snapshot.

Unlike automated snapshots, manual snapshots are retained even after you delete your cluster. Amazon Redshift does not delete your manual snapshots. You must delete manual snapshot explicitly to avoid getting charged. If other accounts are authorized to access the snapshot, you must revoke all of the authorizations before you can delete the snapshot.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DeleteClusterSubnetGroup()

virtual Model::DeleteClusterSubnetGroupOutcome Aws::Redshift::RedshiftClient::DeleteClusterSubnetGroup ( const Model::DeleteClusterSubnetGroupRequest request) const
virtual

Deletes the specified cluster subnet group.

See Also:

AWS API Reference

◆ DeleteClusterSubnetGroupAsync()

virtual void Aws::Redshift::RedshiftClient::DeleteClusterSubnetGroupAsync ( const Model::DeleteClusterSubnetGroupRequest request,
const DeleteClusterSubnetGroupResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes the specified cluster subnet group.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DeleteClusterSubnetGroupCallable()

virtual Model::DeleteClusterSubnetGroupOutcomeCallable Aws::Redshift::RedshiftClient::DeleteClusterSubnetGroupCallable ( const Model::DeleteClusterSubnetGroupRequest request) const
virtual

Deletes the specified cluster subnet group.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DeleteEventSubscription()

virtual Model::DeleteEventSubscriptionOutcome Aws::Redshift::RedshiftClient::DeleteEventSubscription ( const Model::DeleteEventSubscriptionRequest request) const
virtual

Deletes an Amazon Redshift event notification subscription.

See Also:

AWS API Reference

◆ DeleteEventSubscriptionAsync()

virtual void Aws::Redshift::RedshiftClient::DeleteEventSubscriptionAsync ( const Model::DeleteEventSubscriptionRequest request,
const DeleteEventSubscriptionResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes an Amazon Redshift event notification subscription.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DeleteEventSubscriptionCallable()

virtual Model::DeleteEventSubscriptionOutcomeCallable Aws::Redshift::RedshiftClient::DeleteEventSubscriptionCallable ( const Model::DeleteEventSubscriptionRequest request) const
virtual

Deletes an Amazon Redshift event notification subscription.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DeleteHsmClientCertificate()

virtual Model::DeleteHsmClientCertificateOutcome Aws::Redshift::RedshiftClient::DeleteHsmClientCertificate ( const Model::DeleteHsmClientCertificateRequest request) const
virtual

Deletes the specified HSM client certificate.

See Also:

AWS API Reference

◆ DeleteHsmClientCertificateAsync()

virtual void Aws::Redshift::RedshiftClient::DeleteHsmClientCertificateAsync ( const Model::DeleteHsmClientCertificateRequest request,
const DeleteHsmClientCertificateResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes the specified HSM client certificate.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DeleteHsmClientCertificateCallable()

virtual Model::DeleteHsmClientCertificateOutcomeCallable Aws::Redshift::RedshiftClient::DeleteHsmClientCertificateCallable ( const Model::DeleteHsmClientCertificateRequest request) const
virtual

Deletes the specified HSM client certificate.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DeleteHsmConfiguration()

virtual Model::DeleteHsmConfigurationOutcome Aws::Redshift::RedshiftClient::DeleteHsmConfiguration ( const Model::DeleteHsmConfigurationRequest request) const
virtual

Deletes the specified Amazon Redshift HSM configuration.

See Also:

AWS API Reference

◆ DeleteHsmConfigurationAsync()

virtual void Aws::Redshift::RedshiftClient::DeleteHsmConfigurationAsync ( const Model::DeleteHsmConfigurationRequest request,
const DeleteHsmConfigurationResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes the specified Amazon Redshift HSM configuration.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DeleteHsmConfigurationCallable()

virtual Model::DeleteHsmConfigurationOutcomeCallable Aws::Redshift::RedshiftClient::DeleteHsmConfigurationCallable ( const Model::DeleteHsmConfigurationRequest request) const
virtual

Deletes the specified Amazon Redshift HSM configuration.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DeleteScheduledAction()

virtual Model::DeleteScheduledActionOutcome Aws::Redshift::RedshiftClient::DeleteScheduledAction ( const Model::DeleteScheduledActionRequest request) const
virtual

Deletes a scheduled action.

See Also:

AWS API Reference

◆ DeleteScheduledActionAsync()

virtual void Aws::Redshift::RedshiftClient::DeleteScheduledActionAsync ( const Model::DeleteScheduledActionRequest request,
const DeleteScheduledActionResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes a scheduled action.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DeleteScheduledActionCallable()

virtual Model::DeleteScheduledActionOutcomeCallable Aws::Redshift::RedshiftClient::DeleteScheduledActionCallable ( const Model::DeleteScheduledActionRequest request) const
virtual

Deletes a scheduled action.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DeleteSnapshotCopyGrant()

virtual Model::DeleteSnapshotCopyGrantOutcome Aws::Redshift::RedshiftClient::DeleteSnapshotCopyGrant ( const Model::DeleteSnapshotCopyGrantRequest request) const
virtual

Deletes the specified snapshot copy grant.

See Also:

AWS API Reference

◆ DeleteSnapshotCopyGrantAsync()

virtual void Aws::Redshift::RedshiftClient::DeleteSnapshotCopyGrantAsync ( const Model::DeleteSnapshotCopyGrantRequest request,
const DeleteSnapshotCopyGrantResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes the specified snapshot copy grant.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DeleteSnapshotCopyGrantCallable()

virtual Model::DeleteSnapshotCopyGrantOutcomeCallable Aws::Redshift::RedshiftClient::DeleteSnapshotCopyGrantCallable ( const Model::DeleteSnapshotCopyGrantRequest request) const
virtual

Deletes the specified snapshot copy grant.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DeleteSnapshotSchedule()

virtual Model::DeleteSnapshotScheduleOutcome Aws::Redshift::RedshiftClient::DeleteSnapshotSchedule ( const Model::DeleteSnapshotScheduleRequest request) const
virtual

Deletes a snapshot schedule.

See Also:

AWS API Reference

◆ DeleteSnapshotScheduleAsync()

virtual void Aws::Redshift::RedshiftClient::DeleteSnapshotScheduleAsync ( const Model::DeleteSnapshotScheduleRequest request,
const DeleteSnapshotScheduleResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes a snapshot schedule.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DeleteSnapshotScheduleCallable()

virtual Model::DeleteSnapshotScheduleOutcomeCallable Aws::Redshift::RedshiftClient::DeleteSnapshotScheduleCallable ( const Model::DeleteSnapshotScheduleRequest request) const
virtual

Deletes a snapshot schedule.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DeleteTags()

virtual Model::DeleteTagsOutcome Aws::Redshift::RedshiftClient::DeleteTags ( const Model::DeleteTagsRequest request) const
virtual

Deletes tags from a resource. You must provide the ARN of the resource from which you want to delete the tag or tags.

See Also:

AWS API Reference

◆ DeleteTagsAsync()

virtual void Aws::Redshift::RedshiftClient::DeleteTagsAsync ( const Model::DeleteTagsRequest request,
const DeleteTagsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes tags from a resource. You must provide the ARN of the resource from which you want to delete the tag or tags.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DeleteTagsCallable()

virtual Model::DeleteTagsOutcomeCallable Aws::Redshift::RedshiftClient::DeleteTagsCallable ( const Model::DeleteTagsRequest request) const
virtual

Deletes tags from a resource. You must provide the ARN of the resource from which you want to delete the tag or tags.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DeleteUsageLimit()

virtual Model::DeleteUsageLimitOutcome Aws::Redshift::RedshiftClient::DeleteUsageLimit ( const Model::DeleteUsageLimitRequest request) const
virtual

Deletes a usage limit from a cluster.

See Also:

AWS API Reference

◆ DeleteUsageLimitAsync()

virtual void Aws::Redshift::RedshiftClient::DeleteUsageLimitAsync ( const Model::DeleteUsageLimitRequest request,
const DeleteUsageLimitResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes a usage limit from a cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DeleteUsageLimitCallable()

virtual Model::DeleteUsageLimitOutcomeCallable Aws::Redshift::RedshiftClient::DeleteUsageLimitCallable ( const Model::DeleteUsageLimitRequest request) const
virtual

Deletes a usage limit from a cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeAccountAttributes()

virtual Model::DescribeAccountAttributesOutcome Aws::Redshift::RedshiftClient::DescribeAccountAttributes ( const Model::DescribeAccountAttributesRequest request) const
virtual

Returns a list of attributes attached to an account

See Also:

AWS API Reference

◆ DescribeAccountAttributesAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeAccountAttributesAsync ( const Model::DescribeAccountAttributesRequest request,
const DescribeAccountAttributesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns a list of attributes attached to an account

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeAccountAttributesCallable()

virtual Model::DescribeAccountAttributesOutcomeCallable Aws::Redshift::RedshiftClient::DescribeAccountAttributesCallable ( const Model::DescribeAccountAttributesRequest request) const
virtual

Returns a list of attributes attached to an account

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeClusterDbRevisions()

virtual Model::DescribeClusterDbRevisionsOutcome Aws::Redshift::RedshiftClient::DescribeClusterDbRevisions ( const Model::DescribeClusterDbRevisionsRequest request) const
virtual

Returns an array of ClusterDbRevision objects.

See Also:

AWS API Reference

◆ DescribeClusterDbRevisionsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeClusterDbRevisionsAsync ( const Model::DescribeClusterDbRevisionsRequest request,
const DescribeClusterDbRevisionsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns an array of ClusterDbRevision objects.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeClusterDbRevisionsCallable()

virtual Model::DescribeClusterDbRevisionsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeClusterDbRevisionsCallable ( const Model::DescribeClusterDbRevisionsRequest request) const
virtual

Returns an array of ClusterDbRevision objects.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeClusterParameterGroups()

virtual Model::DescribeClusterParameterGroupsOutcome Aws::Redshift::RedshiftClient::DescribeClusterParameterGroups ( const Model::DescribeClusterParameterGroupsRequest request) const
virtual

Returns a list of Amazon Redshift parameter groups, including parameter groups you created and the default parameter group. For each parameter group, the response includes the parameter group name, description, and parameter group family name. You can optionally specify a name to retrieve the description of a specific parameter group.

For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all parameter groups that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all parameter groups that have any combination of those values are returned.

If both tag keys and values are omitted from the request, parameter groups are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

◆ DescribeClusterParameterGroupsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeClusterParameterGroupsAsync ( const Model::DescribeClusterParameterGroupsRequest request,
const DescribeClusterParameterGroupsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns a list of Amazon Redshift parameter groups, including parameter groups you created and the default parameter group. For each parameter group, the response includes the parameter group name, description, and parameter group family name. You can optionally specify a name to retrieve the description of a specific parameter group.

For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all parameter groups that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all parameter groups that have any combination of those values are returned.

If both tag keys and values are omitted from the request, parameter groups are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeClusterParameterGroupsCallable()

virtual Model::DescribeClusterParameterGroupsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeClusterParameterGroupsCallable ( const Model::DescribeClusterParameterGroupsRequest request) const
virtual

Returns a list of Amazon Redshift parameter groups, including parameter groups you created and the default parameter group. For each parameter group, the response includes the parameter group name, description, and parameter group family name. You can optionally specify a name to retrieve the description of a specific parameter group.

For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all parameter groups that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all parameter groups that have any combination of those values are returned.

If both tag keys and values are omitted from the request, parameter groups are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeClusterParameters()

virtual Model::DescribeClusterParametersOutcome Aws::Redshift::RedshiftClient::DescribeClusterParameters ( const Model::DescribeClusterParametersRequest request) const
virtual

Returns a detailed list of parameters contained within the specified Amazon Redshift parameter group. For each parameter the response includes information such as parameter name, description, data type, value, whether the parameter value is modifiable, and so on.

You can specify source filter to retrieve parameters of only specific type. For example, to retrieve parameters that were modified by a user action such as from ModifyClusterParameterGroup, you can specify source equal to user.

For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ DescribeClusterParametersAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeClusterParametersAsync ( const Model::DescribeClusterParametersRequest request,
const DescribeClusterParametersResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns a detailed list of parameters contained within the specified Amazon Redshift parameter group. For each parameter the response includes information such as parameter name, description, data type, value, whether the parameter value is modifiable, and so on.

You can specify source filter to retrieve parameters of only specific type. For example, to retrieve parameters that were modified by a user action such as from ModifyClusterParameterGroup, you can specify source equal to user.

For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeClusterParametersCallable()

virtual Model::DescribeClusterParametersOutcomeCallable Aws::Redshift::RedshiftClient::DescribeClusterParametersCallable ( const Model::DescribeClusterParametersRequest request) const
virtual

Returns a detailed list of parameters contained within the specified Amazon Redshift parameter group. For each parameter the response includes information such as parameter name, description, data type, value, whether the parameter value is modifiable, and so on.

You can specify source filter to retrieve parameters of only specific type. For example, to retrieve parameters that were modified by a user action such as from ModifyClusterParameterGroup, you can specify source equal to user.

For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeClusters()

virtual Model::DescribeClustersOutcome Aws::Redshift::RedshiftClient::DescribeClusters ( const Model::DescribeClustersRequest request) const
virtual

Returns properties of provisioned clusters including general cluster properties, cluster database properties, maintenance and backup properties, and security and access properties. This operation supports pagination. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all clusters that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all clusters that have any combination of those values are returned.

If both tag keys and values are omitted from the request, clusters are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

◆ DescribeClustersAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeClustersAsync ( const Model::DescribeClustersRequest request,
const DescribeClustersResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns properties of provisioned clusters including general cluster properties, cluster database properties, maintenance and backup properties, and security and access properties. This operation supports pagination. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all clusters that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all clusters that have any combination of those values are returned.

If both tag keys and values are omitted from the request, clusters are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeClustersCallable()

virtual Model::DescribeClustersOutcomeCallable Aws::Redshift::RedshiftClient::DescribeClustersCallable ( const Model::DescribeClustersRequest request) const
virtual

Returns properties of provisioned clusters including general cluster properties, cluster database properties, maintenance and backup properties, and security and access properties. This operation supports pagination. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all clusters that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all clusters that have any combination of those values are returned.

If both tag keys and values are omitted from the request, clusters are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeClusterSecurityGroups()

virtual Model::DescribeClusterSecurityGroupsOutcome Aws::Redshift::RedshiftClient::DescribeClusterSecurityGroups ( const Model::DescribeClusterSecurityGroupsRequest request) const
virtual

Returns information about Amazon Redshift security groups. If the name of a security group is specified, the response will contain only information about only that security group.

For information about managing security groups, go to Amazon Redshift Cluster Security Groups in the Amazon Redshift Cluster Management Guide.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all security groups that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all security groups that have any combination of those values are returned.

If both tag keys and values are omitted from the request, security groups are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

◆ DescribeClusterSecurityGroupsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeClusterSecurityGroupsAsync ( const Model::DescribeClusterSecurityGroupsRequest request,
const DescribeClusterSecurityGroupsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns information about Amazon Redshift security groups. If the name of a security group is specified, the response will contain only information about only that security group.

For information about managing security groups, go to Amazon Redshift Cluster Security Groups in the Amazon Redshift Cluster Management Guide.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all security groups that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all security groups that have any combination of those values are returned.

If both tag keys and values are omitted from the request, security groups are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeClusterSecurityGroupsCallable()

virtual Model::DescribeClusterSecurityGroupsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeClusterSecurityGroupsCallable ( const Model::DescribeClusterSecurityGroupsRequest request) const
virtual

Returns information about Amazon Redshift security groups. If the name of a security group is specified, the response will contain only information about only that security group.

For information about managing security groups, go to Amazon Redshift Cluster Security Groups in the Amazon Redshift Cluster Management Guide.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all security groups that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all security groups that have any combination of those values are returned.

If both tag keys and values are omitted from the request, security groups are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeClusterSnapshots()

virtual Model::DescribeClusterSnapshotsOutcome Aws::Redshift::RedshiftClient::DescribeClusterSnapshots ( const Model::DescribeClusterSnapshotsRequest request) const
virtual

Returns one or more snapshot objects, which contain metadata about your cluster snapshots. By default, this operation returns information about all snapshots of all clusters that are owned by you AWS customer account. No information is returned for snapshots owned by inactive AWS customer accounts.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all snapshots that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all snapshots that have any combination of those values are returned. Only snapshots that you own are returned in the response; shared snapshots are not returned with the tag key and tag value request parameters.

If both tag keys and values are omitted from the request, snapshots are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

◆ DescribeClusterSnapshotsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeClusterSnapshotsAsync ( const Model::DescribeClusterSnapshotsRequest request,
const DescribeClusterSnapshotsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns one or more snapshot objects, which contain metadata about your cluster snapshots. By default, this operation returns information about all snapshots of all clusters that are owned by you AWS customer account. No information is returned for snapshots owned by inactive AWS customer accounts.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all snapshots that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all snapshots that have any combination of those values are returned. Only snapshots that you own are returned in the response; shared snapshots are not returned with the tag key and tag value request parameters.

If both tag keys and values are omitted from the request, snapshots are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeClusterSnapshotsCallable()

virtual Model::DescribeClusterSnapshotsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeClusterSnapshotsCallable ( const Model::DescribeClusterSnapshotsRequest request) const
virtual

Returns one or more snapshot objects, which contain metadata about your cluster snapshots. By default, this operation returns information about all snapshots of all clusters that are owned by you AWS customer account. No information is returned for snapshots owned by inactive AWS customer accounts.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all snapshots that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all snapshots that have any combination of those values are returned. Only snapshots that you own are returned in the response; shared snapshots are not returned with the tag key and tag value request parameters.

If both tag keys and values are omitted from the request, snapshots are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeClusterSubnetGroups()

virtual Model::DescribeClusterSubnetGroupsOutcome Aws::Redshift::RedshiftClient::DescribeClusterSubnetGroups ( const Model::DescribeClusterSubnetGroupsRequest request) const
virtual

Returns one or more cluster subnet group objects, which contain metadata about your cluster subnet groups. By default, this operation returns information about all cluster subnet groups that are defined in you AWS account.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all subnet groups that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all subnet groups that have any combination of those values are returned.

If both tag keys and values are omitted from the request, subnet groups are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

◆ DescribeClusterSubnetGroupsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeClusterSubnetGroupsAsync ( const Model::DescribeClusterSubnetGroupsRequest request,
const DescribeClusterSubnetGroupsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns one or more cluster subnet group objects, which contain metadata about your cluster subnet groups. By default, this operation returns information about all cluster subnet groups that are defined in you AWS account.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all subnet groups that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all subnet groups that have any combination of those values are returned.

If both tag keys and values are omitted from the request, subnet groups are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeClusterSubnetGroupsCallable()

virtual Model::DescribeClusterSubnetGroupsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeClusterSubnetGroupsCallable ( const Model::DescribeClusterSubnetGroupsRequest request) const
virtual

Returns one or more cluster subnet group objects, which contain metadata about your cluster subnet groups. By default, this operation returns information about all cluster subnet groups that are defined in you AWS account.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all subnet groups that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all subnet groups that have any combination of those values are returned.

If both tag keys and values are omitted from the request, subnet groups are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeClusterTracks()

virtual Model::DescribeClusterTracksOutcome Aws::Redshift::RedshiftClient::DescribeClusterTracks ( const Model::DescribeClusterTracksRequest request) const
virtual

Returns a list of all the available maintenance tracks.

See Also:

AWS API Reference

◆ DescribeClusterTracksAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeClusterTracksAsync ( const Model::DescribeClusterTracksRequest request,
const DescribeClusterTracksResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns a list of all the available maintenance tracks.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeClusterTracksCallable()

virtual Model::DescribeClusterTracksOutcomeCallable Aws::Redshift::RedshiftClient::DescribeClusterTracksCallable ( const Model::DescribeClusterTracksRequest request) const
virtual

Returns a list of all the available maintenance tracks.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeClusterVersions()

virtual Model::DescribeClusterVersionsOutcome Aws::Redshift::RedshiftClient::DescribeClusterVersions ( const Model::DescribeClusterVersionsRequest request) const
virtual

Returns descriptions of the available Amazon Redshift cluster versions. You can call this operation even before creating any clusters to learn more about the Amazon Redshift versions. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ DescribeClusterVersionsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeClusterVersionsAsync ( const Model::DescribeClusterVersionsRequest request,
const DescribeClusterVersionsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns descriptions of the available Amazon Redshift cluster versions. You can call this operation even before creating any clusters to learn more about the Amazon Redshift versions. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeClusterVersionsCallable()

virtual Model::DescribeClusterVersionsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeClusterVersionsCallable ( const Model::DescribeClusterVersionsRequest request) const
virtual

Returns descriptions of the available Amazon Redshift cluster versions. You can call this operation even before creating any clusters to learn more about the Amazon Redshift versions. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeDefaultClusterParameters()

virtual Model::DescribeDefaultClusterParametersOutcome Aws::Redshift::RedshiftClient::DescribeDefaultClusterParameters ( const Model::DescribeDefaultClusterParametersRequest request) const
virtual

Returns a list of parameter settings for the specified parameter group family.

For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ DescribeDefaultClusterParametersAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeDefaultClusterParametersAsync ( const Model::DescribeDefaultClusterParametersRequest request,
const DescribeDefaultClusterParametersResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns a list of parameter settings for the specified parameter group family.

For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeDefaultClusterParametersCallable()

virtual Model::DescribeDefaultClusterParametersOutcomeCallable Aws::Redshift::RedshiftClient::DescribeDefaultClusterParametersCallable ( const Model::DescribeDefaultClusterParametersRequest request) const
virtual

Returns a list of parameter settings for the specified parameter group family.

For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeEventCategories()

virtual Model::DescribeEventCategoriesOutcome Aws::Redshift::RedshiftClient::DescribeEventCategories ( const Model::DescribeEventCategoriesRequest request) const
virtual

Displays a list of event categories for all event source types, or for a specified source type. For a list of the event categories and source types, go to Amazon Redshift Event Notifications.

See Also:

AWS API Reference

◆ DescribeEventCategoriesAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeEventCategoriesAsync ( const Model::DescribeEventCategoriesRequest request,
const DescribeEventCategoriesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Displays a list of event categories for all event source types, or for a specified source type. For a list of the event categories and source types, go to Amazon Redshift Event Notifications.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeEventCategoriesCallable()

virtual Model::DescribeEventCategoriesOutcomeCallable Aws::Redshift::RedshiftClient::DescribeEventCategoriesCallable ( const Model::DescribeEventCategoriesRequest request) const
virtual

Displays a list of event categories for all event source types, or for a specified source type. For a list of the event categories and source types, go to Amazon Redshift Event Notifications.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeEvents()

virtual Model::DescribeEventsOutcome Aws::Redshift::RedshiftClient::DescribeEvents ( const Model::DescribeEventsRequest request) const
virtual

Returns events related to clusters, security groups, snapshots, and parameter groups for the past 14 days. Events specific to a particular cluster, security group, snapshot or parameter group can be obtained by providing the name as a parameter. By default, the past hour of events are returned.

See Also:

AWS API Reference

◆ DescribeEventsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeEventsAsync ( const Model::DescribeEventsRequest request,
const DescribeEventsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns events related to clusters, security groups, snapshots, and parameter groups for the past 14 days. Events specific to a particular cluster, security group, snapshot or parameter group can be obtained by providing the name as a parameter. By default, the past hour of events are returned.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeEventsCallable()

virtual Model::DescribeEventsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeEventsCallable ( const Model::DescribeEventsRequest request) const
virtual

Returns events related to clusters, security groups, snapshots, and parameter groups for the past 14 days. Events specific to a particular cluster, security group, snapshot or parameter group can be obtained by providing the name as a parameter. By default, the past hour of events are returned.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeEventSubscriptions()

virtual Model::DescribeEventSubscriptionsOutcome Aws::Redshift::RedshiftClient::DescribeEventSubscriptions ( const Model::DescribeEventSubscriptionsRequest request) const
virtual

Lists descriptions of all the Amazon Redshift event notification subscriptions for a customer account. If you specify a subscription name, lists the description for that subscription.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all event notification subscriptions that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all subscriptions that have any combination of those values are returned.

If both tag keys and values are omitted from the request, subscriptions are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

◆ DescribeEventSubscriptionsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeEventSubscriptionsAsync ( const Model::DescribeEventSubscriptionsRequest request,
const DescribeEventSubscriptionsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Lists descriptions of all the Amazon Redshift event notification subscriptions for a customer account. If you specify a subscription name, lists the description for that subscription.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all event notification subscriptions that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all subscriptions that have any combination of those values are returned.

If both tag keys and values are omitted from the request, subscriptions are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeEventSubscriptionsCallable()

virtual Model::DescribeEventSubscriptionsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeEventSubscriptionsCallable ( const Model::DescribeEventSubscriptionsRequest request) const
virtual

Lists descriptions of all the Amazon Redshift event notification subscriptions for a customer account. If you specify a subscription name, lists the description for that subscription.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all event notification subscriptions that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all subscriptions that have any combination of those values are returned.

If both tag keys and values are omitted from the request, subscriptions are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeHsmClientCertificates()

virtual Model::DescribeHsmClientCertificatesOutcome Aws::Redshift::RedshiftClient::DescribeHsmClientCertificates ( const Model::DescribeHsmClientCertificatesRequest request) const
virtual

Returns information about the specified HSM client certificate. If no certificate ID is specified, returns information about all the HSM certificates owned by your AWS customer account.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all HSM client certificates that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all HSM client certificates that have any combination of those values are returned.

If both tag keys and values are omitted from the request, HSM client certificates are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

◆ DescribeHsmClientCertificatesAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeHsmClientCertificatesAsync ( const Model::DescribeHsmClientCertificatesRequest request,
const DescribeHsmClientCertificatesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns information about the specified HSM client certificate. If no certificate ID is specified, returns information about all the HSM certificates owned by your AWS customer account.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all HSM client certificates that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all HSM client certificates that have any combination of those values are returned.

If both tag keys and values are omitted from the request, HSM client certificates are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeHsmClientCertificatesCallable()

virtual Model::DescribeHsmClientCertificatesOutcomeCallable Aws::Redshift::RedshiftClient::DescribeHsmClientCertificatesCallable ( const Model::DescribeHsmClientCertificatesRequest request) const
virtual

Returns information about the specified HSM client certificate. If no certificate ID is specified, returns information about all the HSM certificates owned by your AWS customer account.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all HSM client certificates that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all HSM client certificates that have any combination of those values are returned.

If both tag keys and values are omitted from the request, HSM client certificates are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeHsmConfigurations()

virtual Model::DescribeHsmConfigurationsOutcome Aws::Redshift::RedshiftClient::DescribeHsmConfigurations ( const Model::DescribeHsmConfigurationsRequest request) const
virtual

Returns information about the specified Amazon Redshift HSM configuration. If no configuration ID is specified, returns information about all the HSM configurations owned by your AWS customer account.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all HSM connections that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all HSM connections that have any combination of those values are returned.

If both tag keys and values are omitted from the request, HSM connections are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

◆ DescribeHsmConfigurationsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeHsmConfigurationsAsync ( const Model::DescribeHsmConfigurationsRequest request,
const DescribeHsmConfigurationsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns information about the specified Amazon Redshift HSM configuration. If no configuration ID is specified, returns information about all the HSM configurations owned by your AWS customer account.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all HSM connections that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all HSM connections that have any combination of those values are returned.

If both tag keys and values are omitted from the request, HSM connections are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeHsmConfigurationsCallable()

virtual Model::DescribeHsmConfigurationsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeHsmConfigurationsCallable ( const Model::DescribeHsmConfigurationsRequest request) const
virtual

Returns information about the specified Amazon Redshift HSM configuration. If no configuration ID is specified, returns information about all the HSM configurations owned by your AWS customer account.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all HSM connections that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all HSM connections that have any combination of those values are returned.

If both tag keys and values are omitted from the request, HSM connections are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeLoggingStatus()

virtual Model::DescribeLoggingStatusOutcome Aws::Redshift::RedshiftClient::DescribeLoggingStatus ( const Model::DescribeLoggingStatusRequest request) const
virtual

Describes whether information, such as queries and connection attempts, is being logged for the specified Amazon Redshift cluster.

See Also:

AWS API Reference

◆ DescribeLoggingStatusAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeLoggingStatusAsync ( const Model::DescribeLoggingStatusRequest request,
const DescribeLoggingStatusResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Describes whether information, such as queries and connection attempts, is being logged for the specified Amazon Redshift cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeLoggingStatusCallable()

virtual Model::DescribeLoggingStatusOutcomeCallable Aws::Redshift::RedshiftClient::DescribeLoggingStatusCallable ( const Model::DescribeLoggingStatusRequest request) const
virtual

Describes whether information, such as queries and connection attempts, is being logged for the specified Amazon Redshift cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeNodeConfigurationOptions()

virtual Model::DescribeNodeConfigurationOptionsOutcome Aws::Redshift::RedshiftClient::DescribeNodeConfigurationOptions ( const Model::DescribeNodeConfigurationOptionsRequest request) const
virtual

Returns properties of possible node configurations such as node type, number of nodes, and disk usage for the specified action type.

See Also:

AWS API Reference

◆ DescribeNodeConfigurationOptionsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeNodeConfigurationOptionsAsync ( const Model::DescribeNodeConfigurationOptionsRequest request,
const DescribeNodeConfigurationOptionsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns properties of possible node configurations such as node type, number of nodes, and disk usage for the specified action type.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeNodeConfigurationOptionsCallable()

virtual Model::DescribeNodeConfigurationOptionsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeNodeConfigurationOptionsCallable ( const Model::DescribeNodeConfigurationOptionsRequest request) const
virtual

Returns properties of possible node configurations such as node type, number of nodes, and disk usage for the specified action type.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeOrderableClusterOptions()

virtual Model::DescribeOrderableClusterOptionsOutcome Aws::Redshift::RedshiftClient::DescribeOrderableClusterOptions ( const Model::DescribeOrderableClusterOptionsRequest request) const
virtual

Returns a list of orderable cluster options. Before you create a new cluster you can use this operation to find what options are available, such as the EC2 Availability Zones (AZ) in the specific AWS Region that you can specify, and the node types you can request. The node types differ by available storage, memory, CPU and price. With the cost involved you might want to obtain a list of cluster options in the specific region and specify values when creating a cluster. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ DescribeOrderableClusterOptionsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeOrderableClusterOptionsAsync ( const Model::DescribeOrderableClusterOptionsRequest request,
const DescribeOrderableClusterOptionsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns a list of orderable cluster options. Before you create a new cluster you can use this operation to find what options are available, such as the EC2 Availability Zones (AZ) in the specific AWS Region that you can specify, and the node types you can request. The node types differ by available storage, memory, CPU and price. With the cost involved you might want to obtain a list of cluster options in the specific region and specify values when creating a cluster. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeOrderableClusterOptionsCallable()

virtual Model::DescribeOrderableClusterOptionsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeOrderableClusterOptionsCallable ( const Model::DescribeOrderableClusterOptionsRequest request) const
virtual

Returns a list of orderable cluster options. Before you create a new cluster you can use this operation to find what options are available, such as the EC2 Availability Zones (AZ) in the specific AWS Region that you can specify, and the node types you can request. The node types differ by available storage, memory, CPU and price. With the cost involved you might want to obtain a list of cluster options in the specific region and specify values when creating a cluster. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeReservedNodeOfferings()

virtual Model::DescribeReservedNodeOfferingsOutcome Aws::Redshift::RedshiftClient::DescribeReservedNodeOfferings ( const Model::DescribeReservedNodeOfferingsRequest request) const
virtual

Returns a list of the available reserved node offerings by Amazon Redshift with their descriptions including the node type, the fixed and recurring costs of reserving the node and duration the node will be reserved for you. These descriptions help you determine which reserve node offering you want to purchase. You then use the unique offering ID in you call to PurchaseReservedNodeOffering to reserve one or more nodes for your Amazon Redshift cluster.

For more information about reserved node offerings, go to Purchasing Reserved Nodes in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ DescribeReservedNodeOfferingsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeReservedNodeOfferingsAsync ( const Model::DescribeReservedNodeOfferingsRequest request,
const DescribeReservedNodeOfferingsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns a list of the available reserved node offerings by Amazon Redshift with their descriptions including the node type, the fixed and recurring costs of reserving the node and duration the node will be reserved for you. These descriptions help you determine which reserve node offering you want to purchase. You then use the unique offering ID in you call to PurchaseReservedNodeOffering to reserve one or more nodes for your Amazon Redshift cluster.

For more information about reserved node offerings, go to Purchasing Reserved Nodes in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeReservedNodeOfferingsCallable()

virtual Model::DescribeReservedNodeOfferingsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeReservedNodeOfferingsCallable ( const Model::DescribeReservedNodeOfferingsRequest request) const
virtual

Returns a list of the available reserved node offerings by Amazon Redshift with their descriptions including the node type, the fixed and recurring costs of reserving the node and duration the node will be reserved for you. These descriptions help you determine which reserve node offering you want to purchase. You then use the unique offering ID in you call to PurchaseReservedNodeOffering to reserve one or more nodes for your Amazon Redshift cluster.

For more information about reserved node offerings, go to Purchasing Reserved Nodes in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeReservedNodes()

virtual Model::DescribeReservedNodesOutcome Aws::Redshift::RedshiftClient::DescribeReservedNodes ( const Model::DescribeReservedNodesRequest request) const
virtual

Returns the descriptions of the reserved nodes.

See Also:

AWS API Reference

◆ DescribeReservedNodesAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeReservedNodesAsync ( const Model::DescribeReservedNodesRequest request,
const DescribeReservedNodesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns the descriptions of the reserved nodes.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeReservedNodesCallable()

virtual Model::DescribeReservedNodesOutcomeCallable Aws::Redshift::RedshiftClient::DescribeReservedNodesCallable ( const Model::DescribeReservedNodesRequest request) const
virtual

Returns the descriptions of the reserved nodes.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeResize()

virtual Model::DescribeResizeOutcome Aws::Redshift::RedshiftClient::DescribeResize ( const Model::DescribeResizeRequest request) const
virtual

Returns information about the last resize operation for the specified cluster. If no resize operation has ever been initiated for the specified cluster, a HTTP 404 error is returned. If a resize operation was initiated and completed, the status of the resize remains as SUCCEEDED until the next resize.

A resize operation can be requested using ModifyCluster and specifying a different number or type of nodes for the cluster.

See Also:

AWS API Reference

◆ DescribeResizeAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeResizeAsync ( const Model::DescribeResizeRequest request,
const DescribeResizeResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns information about the last resize operation for the specified cluster. If no resize operation has ever been initiated for the specified cluster, a HTTP 404 error is returned. If a resize operation was initiated and completed, the status of the resize remains as SUCCEEDED until the next resize.

A resize operation can be requested using ModifyCluster and specifying a different number or type of nodes for the cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeResizeCallable()

virtual Model::DescribeResizeOutcomeCallable Aws::Redshift::RedshiftClient::DescribeResizeCallable ( const Model::DescribeResizeRequest request) const
virtual

Returns information about the last resize operation for the specified cluster. If no resize operation has ever been initiated for the specified cluster, a HTTP 404 error is returned. If a resize operation was initiated and completed, the status of the resize remains as SUCCEEDED until the next resize.

A resize operation can be requested using ModifyCluster and specifying a different number or type of nodes for the cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeScheduledActions()

virtual Model::DescribeScheduledActionsOutcome Aws::Redshift::RedshiftClient::DescribeScheduledActions ( const Model::DescribeScheduledActionsRequest request) const
virtual

Describes properties of scheduled actions.

See Also:

AWS API Reference

◆ DescribeScheduledActionsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeScheduledActionsAsync ( const Model::DescribeScheduledActionsRequest request,
const DescribeScheduledActionsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Describes properties of scheduled actions.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeScheduledActionsCallable()

virtual Model::DescribeScheduledActionsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeScheduledActionsCallable ( const Model::DescribeScheduledActionsRequest request) const
virtual

Describes properties of scheduled actions.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeSnapshotCopyGrants()

virtual Model::DescribeSnapshotCopyGrantsOutcome Aws::Redshift::RedshiftClient::DescribeSnapshotCopyGrants ( const Model::DescribeSnapshotCopyGrantsRequest request) const
virtual

Returns a list of snapshot copy grants owned by the AWS account in the destination region.

For more information about managing snapshot copy grants, go to Amazon Redshift Database Encryption in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ DescribeSnapshotCopyGrantsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeSnapshotCopyGrantsAsync ( const Model::DescribeSnapshotCopyGrantsRequest request,
const DescribeSnapshotCopyGrantsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns a list of snapshot copy grants owned by the AWS account in the destination region.

For more information about managing snapshot copy grants, go to Amazon Redshift Database Encryption in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeSnapshotCopyGrantsCallable()

virtual Model::DescribeSnapshotCopyGrantsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeSnapshotCopyGrantsCallable ( const Model::DescribeSnapshotCopyGrantsRequest request) const
virtual

Returns a list of snapshot copy grants owned by the AWS account in the destination region.

For more information about managing snapshot copy grants, go to Amazon Redshift Database Encryption in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeSnapshotSchedules()

virtual Model::DescribeSnapshotSchedulesOutcome Aws::Redshift::RedshiftClient::DescribeSnapshotSchedules ( const Model::DescribeSnapshotSchedulesRequest request) const
virtual

Returns a list of snapshot schedules.

See Also:

AWS API Reference

◆ DescribeSnapshotSchedulesAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeSnapshotSchedulesAsync ( const Model::DescribeSnapshotSchedulesRequest request,
const DescribeSnapshotSchedulesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns a list of snapshot schedules.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeSnapshotSchedulesCallable()

virtual Model::DescribeSnapshotSchedulesOutcomeCallable Aws::Redshift::RedshiftClient::DescribeSnapshotSchedulesCallable ( const Model::DescribeSnapshotSchedulesRequest request) const
virtual

Returns a list of snapshot schedules.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeStorage()

virtual Model::DescribeStorageOutcome Aws::Redshift::RedshiftClient::DescribeStorage ( const Model::DescribeStorageRequest request) const
virtual

Returns account level backups storage size and provisional storage.

See Also:

AWS API Reference

◆ DescribeStorageAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeStorageAsync ( const Model::DescribeStorageRequest request,
const DescribeStorageResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns account level backups storage size and provisional storage.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeStorageCallable()

virtual Model::DescribeStorageOutcomeCallable Aws::Redshift::RedshiftClient::DescribeStorageCallable ( const Model::DescribeStorageRequest request) const
virtual

Returns account level backups storage size and provisional storage.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeTableRestoreStatus()

virtual Model::DescribeTableRestoreStatusOutcome Aws::Redshift::RedshiftClient::DescribeTableRestoreStatus ( const Model::DescribeTableRestoreStatusRequest request) const
virtual

Lists the status of one or more table restore requests made using the RestoreTableFromClusterSnapshot API action. If you don't specify a value for the TableRestoreRequestId parameter, then DescribeTableRestoreStatus returns the status of all table restore requests ordered by the date and time of the request in ascending order. Otherwise DescribeTableRestoreStatus returns the status of the table specified by TableRestoreRequestId.

See Also:

AWS API Reference

◆ DescribeTableRestoreStatusAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeTableRestoreStatusAsync ( const Model::DescribeTableRestoreStatusRequest request,
const DescribeTableRestoreStatusResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Lists the status of one or more table restore requests made using the RestoreTableFromClusterSnapshot API action. If you don't specify a value for the TableRestoreRequestId parameter, then DescribeTableRestoreStatus returns the status of all table restore requests ordered by the date and time of the request in ascending order. Otherwise DescribeTableRestoreStatus returns the status of the table specified by TableRestoreRequestId.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeTableRestoreStatusCallable()

virtual Model::DescribeTableRestoreStatusOutcomeCallable Aws::Redshift::RedshiftClient::DescribeTableRestoreStatusCallable ( const Model::DescribeTableRestoreStatusRequest request) const
virtual

Lists the status of one or more table restore requests made using the RestoreTableFromClusterSnapshot API action. If you don't specify a value for the TableRestoreRequestId parameter, then DescribeTableRestoreStatus returns the status of all table restore requests ordered by the date and time of the request in ascending order. Otherwise DescribeTableRestoreStatus returns the status of the table specified by TableRestoreRequestId.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeTags()

virtual Model::DescribeTagsOutcome Aws::Redshift::RedshiftClient::DescribeTags ( const Model::DescribeTagsRequest request) const
virtual

Returns a list of tags. You can return tags from a specific resource by specifying an ARN, or you can return all tags for a given type of resource, such as clusters, snapshots, and so on.

The following are limitations for DescribeTags:

  • You cannot specify an ARN and a resource-type value together in the same request.

  • You cannot use the MaxRecords and Marker parameters together with the ARN parameter.

  • The MaxRecords parameter can be a range from 10 to 50 results to return in a request.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all resources that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all resources that have any combination of those values are returned.

If both tag keys and values are omitted from the request, resources are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

◆ DescribeTagsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeTagsAsync ( const Model::DescribeTagsRequest request,
const DescribeTagsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns a list of tags. You can return tags from a specific resource by specifying an ARN, or you can return all tags for a given type of resource, such as clusters, snapshots, and so on.

The following are limitations for DescribeTags:

  • You cannot specify an ARN and a resource-type value together in the same request.

  • You cannot use the MaxRecords and Marker parameters together with the ARN parameter.

  • The MaxRecords parameter can be a range from 10 to 50 results to return in a request.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all resources that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all resources that have any combination of those values are returned.

If both tag keys and values are omitted from the request, resources are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeTagsCallable()

virtual Model::DescribeTagsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeTagsCallable ( const Model::DescribeTagsRequest request) const
virtual

Returns a list of tags. You can return tags from a specific resource by specifying an ARN, or you can return all tags for a given type of resource, such as clusters, snapshots, and so on.

The following are limitations for DescribeTags:

  • You cannot specify an ARN and a resource-type value together in the same request.

  • You cannot use the MaxRecords and Marker parameters together with the ARN parameter.

  • The MaxRecords parameter can be a range from 10 to 50 results to return in a request.

If you specify both tag keys and tag values in the same request, Amazon Redshift returns all resources that match any combination of the specified keys and values. For example, if you have owner and environment for tag keys, and admin and test for tag values, all resources that have any combination of those values are returned.

If both tag keys and values are omitted from the request, resources are returned regardless of whether they have tag keys or values associated with them.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DescribeUsageLimits()

virtual Model::DescribeUsageLimitsOutcome Aws::Redshift::RedshiftClient::DescribeUsageLimits ( const Model::DescribeUsageLimitsRequest request) const
virtual

Shows usage limits on a cluster. Results are filtered based on the combination of input usage limit identifier, cluster identifier, and feature type parameters:

  • If usage limit identifier, cluster identifier, and feature type are not provided, then all usage limit objects for the current account in the current region are returned.

  • If usage limit identifier is provided, then the corresponding usage limit object is returned.

  • If cluster identifier is provided, then all usage limit objects for the specified cluster are returned.

  • If cluster identifier and feature type are provided, then all usage limit objects for the combination of cluster and feature are returned.

See Also:

AWS API Reference

◆ DescribeUsageLimitsAsync()

virtual void Aws::Redshift::RedshiftClient::DescribeUsageLimitsAsync ( const Model::DescribeUsageLimitsRequest request,
const DescribeUsageLimitsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Shows usage limits on a cluster. Results are filtered based on the combination of input usage limit identifier, cluster identifier, and feature type parameters:

  • If usage limit identifier, cluster identifier, and feature type are not provided, then all usage limit objects for the current account in the current region are returned.

  • If usage limit identifier is provided, then the corresponding usage limit object is returned.

  • If cluster identifier is provided, then all usage limit objects for the specified cluster are returned.

  • If cluster identifier and feature type are provided, then all usage limit objects for the combination of cluster and feature are returned.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DescribeUsageLimitsCallable()

virtual Model::DescribeUsageLimitsOutcomeCallable Aws::Redshift::RedshiftClient::DescribeUsageLimitsCallable ( const Model::DescribeUsageLimitsRequest request) const
virtual

Shows usage limits on a cluster. Results are filtered based on the combination of input usage limit identifier, cluster identifier, and feature type parameters:

  • If usage limit identifier, cluster identifier, and feature type are not provided, then all usage limit objects for the current account in the current region are returned.

  • If usage limit identifier is provided, then the corresponding usage limit object is returned.

  • If cluster identifier is provided, then all usage limit objects for the specified cluster are returned.

  • If cluster identifier and feature type are provided, then all usage limit objects for the combination of cluster and feature are returned.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DisableLogging()

virtual Model::DisableLoggingOutcome Aws::Redshift::RedshiftClient::DisableLogging ( const Model::DisableLoggingRequest request) const
virtual

Stops logging information, such as queries and connection attempts, for the specified Amazon Redshift cluster.

See Also:

AWS API Reference

◆ DisableLoggingAsync()

virtual void Aws::Redshift::RedshiftClient::DisableLoggingAsync ( const Model::DisableLoggingRequest request,
const DisableLoggingResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Stops logging information, such as queries and connection attempts, for the specified Amazon Redshift cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DisableLoggingCallable()

virtual Model::DisableLoggingOutcomeCallable Aws::Redshift::RedshiftClient::DisableLoggingCallable ( const Model::DisableLoggingRequest request) const
virtual

Stops logging information, such as queries and connection attempts, for the specified Amazon Redshift cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ DisableSnapshotCopy()

virtual Model::DisableSnapshotCopyOutcome Aws::Redshift::RedshiftClient::DisableSnapshotCopy ( const Model::DisableSnapshotCopyRequest request) const
virtual

Disables the automatic copying of snapshots from one region to another region for a specified cluster.

If your cluster and its snapshots are encrypted using a customer master key (CMK) from AWS KMS, use DeleteSnapshotCopyGrant to delete the grant that grants Amazon Redshift permission to the CMK in the destination region.

See Also:

AWS API Reference

◆ DisableSnapshotCopyAsync()

virtual void Aws::Redshift::RedshiftClient::DisableSnapshotCopyAsync ( const Model::DisableSnapshotCopyRequest request,
const DisableSnapshotCopyResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Disables the automatic copying of snapshots from one region to another region for a specified cluster.

If your cluster and its snapshots are encrypted using a customer master key (CMK) from AWS KMS, use DeleteSnapshotCopyGrant to delete the grant that grants Amazon Redshift permission to the CMK in the destination region.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ DisableSnapshotCopyCallable()

virtual Model::DisableSnapshotCopyOutcomeCallable Aws::Redshift::RedshiftClient::DisableSnapshotCopyCallable ( const Model::DisableSnapshotCopyRequest request) const
virtual

Disables the automatic copying of snapshots from one region to another region for a specified cluster.

If your cluster and its snapshots are encrypted using a customer master key (CMK) from AWS KMS, use DeleteSnapshotCopyGrant to delete the grant that grants Amazon Redshift permission to the CMK in the destination region.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ EnableLogging()

virtual Model::EnableLoggingOutcome Aws::Redshift::RedshiftClient::EnableLogging ( const Model::EnableLoggingRequest request) const
virtual

Starts logging information, such as queries and connection attempts, for the specified Amazon Redshift cluster.

See Also:

AWS API Reference

◆ EnableLoggingAsync()

virtual void Aws::Redshift::RedshiftClient::EnableLoggingAsync ( const Model::EnableLoggingRequest request,
const EnableLoggingResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Starts logging information, such as queries and connection attempts, for the specified Amazon Redshift cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ EnableLoggingCallable()

virtual Model::EnableLoggingOutcomeCallable Aws::Redshift::RedshiftClient::EnableLoggingCallable ( const Model::EnableLoggingRequest request) const
virtual

Starts logging information, such as queries and connection attempts, for the specified Amazon Redshift cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ EnableSnapshotCopy()

virtual Model::EnableSnapshotCopyOutcome Aws::Redshift::RedshiftClient::EnableSnapshotCopy ( const Model::EnableSnapshotCopyRequest request) const
virtual

Enables the automatic copy of snapshots from one region to another region for a specified cluster.

See Also:

AWS API Reference

◆ EnableSnapshotCopyAsync()

virtual void Aws::Redshift::RedshiftClient::EnableSnapshotCopyAsync ( const Model::EnableSnapshotCopyRequest request,
const EnableSnapshotCopyResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Enables the automatic copy of snapshots from one region to another region for a specified cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ EnableSnapshotCopyCallable()

virtual Model::EnableSnapshotCopyOutcomeCallable Aws::Redshift::RedshiftClient::EnableSnapshotCopyCallable ( const Model::EnableSnapshotCopyRequest request) const
virtual

Enables the automatic copy of snapshots from one region to another region for a specified cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ GetClusterCredentials()

virtual Model::GetClusterCredentialsOutcome Aws::Redshift::RedshiftClient::GetClusterCredentials ( const Model::GetClusterCredentialsRequest request) const
virtual

Returns a database user name and temporary password with temporary authorization to log on to an Amazon Redshift database. The action returns the database user name prefixed with IAM: if AutoCreate is False or IAMA: if AutoCreate is True. You can optionally specify one or more database user groups that the user will join at log on. By default, the temporary credentials expire in 900 seconds. You can optionally specify a duration between 900 seconds (15 minutes) and 3600 seconds (60 minutes). For more information, see Using IAM Authentication to Generate Database User Credentials in the Amazon Redshift Cluster Management Guide.

The AWS Identity and Access Management (IAM)user or role that executes GetClusterCredentials must have an IAM policy attached that allows access to all necessary actions and resources. For more information about permissions, see Resource Policies for GetClusterCredentials in the Amazon Redshift Cluster Management Guide.

If the DbGroups parameter is specified, the IAM policy must allow the redshift:JoinGroup action with access to the listed dbgroups.

In addition, if the AutoCreate parameter is set to True, then the policy must include the redshift:CreateClusterUser privilege.

If the DbName parameter is specified, the IAM policy must allow access to the resource dbname for the specified database name.

See Also:

AWS API Reference

◆ GetClusterCredentialsAsync()

virtual void Aws::Redshift::RedshiftClient::GetClusterCredentialsAsync ( const Model::GetClusterCredentialsRequest request,
const GetClusterCredentialsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns a database user name and temporary password with temporary authorization to log on to an Amazon Redshift database. The action returns the database user name prefixed with IAM: if AutoCreate is False or IAMA: if AutoCreate is True. You can optionally specify one or more database user groups that the user will join at log on. By default, the temporary credentials expire in 900 seconds. You can optionally specify a duration between 900 seconds (15 minutes) and 3600 seconds (60 minutes). For more information, see Using IAM Authentication to Generate Database User Credentials in the Amazon Redshift Cluster Management Guide.

The AWS Identity and Access Management (IAM)user or role that executes GetClusterCredentials must have an IAM policy attached that allows access to all necessary actions and resources. For more information about permissions, see Resource Policies for GetClusterCredentials in the Amazon Redshift Cluster Management Guide.

If the DbGroups parameter is specified, the IAM policy must allow the redshift:JoinGroup action with access to the listed dbgroups.

In addition, if the AutoCreate parameter is set to True, then the policy must include the redshift:CreateClusterUser privilege.

If the DbName parameter is specified, the IAM policy must allow access to the resource dbname for the specified database name.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ GetClusterCredentialsCallable()

virtual Model::GetClusterCredentialsOutcomeCallable Aws::Redshift::RedshiftClient::GetClusterCredentialsCallable ( const Model::GetClusterCredentialsRequest request) const
virtual

Returns a database user name and temporary password with temporary authorization to log on to an Amazon Redshift database. The action returns the database user name prefixed with IAM: if AutoCreate is False or IAMA: if AutoCreate is True. You can optionally specify one or more database user groups that the user will join at log on. By default, the temporary credentials expire in 900 seconds. You can optionally specify a duration between 900 seconds (15 minutes) and 3600 seconds (60 minutes). For more information, see Using IAM Authentication to Generate Database User Credentials in the Amazon Redshift Cluster Management Guide.

The AWS Identity and Access Management (IAM)user or role that executes GetClusterCredentials must have an IAM policy attached that allows access to all necessary actions and resources. For more information about permissions, see Resource Policies for GetClusterCredentials in the Amazon Redshift Cluster Management Guide.

If the DbGroups parameter is specified, the IAM policy must allow the redshift:JoinGroup action with access to the listed dbgroups.

In addition, if the AutoCreate parameter is set to True, then the policy must include the redshift:CreateClusterUser privilege.

If the DbName parameter is specified, the IAM policy must allow access to the resource dbname for the specified database name.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ GetReservedNodeExchangeOfferings()

virtual Model::GetReservedNodeExchangeOfferingsOutcome Aws::Redshift::RedshiftClient::GetReservedNodeExchangeOfferings ( const Model::GetReservedNodeExchangeOfferingsRequest request) const
virtual

Returns an array of DC2 ReservedNodeOfferings that matches the payment type, term, and usage price of the given DC1 reserved node.

See Also:

AWS API Reference

◆ GetReservedNodeExchangeOfferingsAsync()

virtual void Aws::Redshift::RedshiftClient::GetReservedNodeExchangeOfferingsAsync ( const Model::GetReservedNodeExchangeOfferingsRequest request,
const GetReservedNodeExchangeOfferingsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns an array of DC2 ReservedNodeOfferings that matches the payment type, term, and usage price of the given DC1 reserved node.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ GetReservedNodeExchangeOfferingsCallable()

virtual Model::GetReservedNodeExchangeOfferingsOutcomeCallable Aws::Redshift::RedshiftClient::GetReservedNodeExchangeOfferingsCallable ( const Model::GetReservedNodeExchangeOfferingsRequest request) const
virtual

Returns an array of DC2 ReservedNodeOfferings that matches the payment type, term, and usage price of the given DC1 reserved node.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ModifyCluster()

virtual Model::ModifyClusterOutcome Aws::Redshift::RedshiftClient::ModifyCluster ( const Model::ModifyClusterRequest request) const
virtual

Modifies the settings for a cluster.

You can also change node type and the number of nodes to scale up or down the cluster. When resizing a cluster, you must specify both the number of nodes and the node type even if one of the parameters does not change.

You can add another security or parameter group, or change the master user password. Resetting a cluster password or modifying the security groups associated with a cluster do not need a reboot. However, modifying a parameter group requires a reboot for parameters to take effect. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ ModifyClusterAsync()

virtual void Aws::Redshift::RedshiftClient::ModifyClusterAsync ( const Model::ModifyClusterRequest request,
const ModifyClusterResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Modifies the settings for a cluster.

You can also change node type and the number of nodes to scale up or down the cluster. When resizing a cluster, you must specify both the number of nodes and the node type even if one of the parameters does not change.

You can add another security or parameter group, or change the master user password. Resetting a cluster password or modifying the security groups associated with a cluster do not need a reboot. However, modifying a parameter group requires a reboot for parameters to take effect. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ModifyClusterCallable()

virtual Model::ModifyClusterOutcomeCallable Aws::Redshift::RedshiftClient::ModifyClusterCallable ( const Model::ModifyClusterRequest request) const
virtual

Modifies the settings for a cluster.

You can also change node type and the number of nodes to scale up or down the cluster. When resizing a cluster, you must specify both the number of nodes and the node type even if one of the parameters does not change.

You can add another security or parameter group, or change the master user password. Resetting a cluster password or modifying the security groups associated with a cluster do not need a reboot. However, modifying a parameter group requires a reboot for parameters to take effect. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ModifyClusterDbRevision()

virtual Model::ModifyClusterDbRevisionOutcome Aws::Redshift::RedshiftClient::ModifyClusterDbRevision ( const Model::ModifyClusterDbRevisionRequest request) const
virtual

Modifies the database revision of a cluster. The database revision is a unique revision of the database running in a cluster.

See Also:

AWS API Reference

◆ ModifyClusterDbRevisionAsync()

virtual void Aws::Redshift::RedshiftClient::ModifyClusterDbRevisionAsync ( const Model::ModifyClusterDbRevisionRequest request,
const ModifyClusterDbRevisionResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Modifies the database revision of a cluster. The database revision is a unique revision of the database running in a cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ModifyClusterDbRevisionCallable()

virtual Model::ModifyClusterDbRevisionOutcomeCallable Aws::Redshift::RedshiftClient::ModifyClusterDbRevisionCallable ( const Model::ModifyClusterDbRevisionRequest request) const
virtual

Modifies the database revision of a cluster. The database revision is a unique revision of the database running in a cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ModifyClusterIamRoles()

virtual Model::ModifyClusterIamRolesOutcome Aws::Redshift::RedshiftClient::ModifyClusterIamRoles ( const Model::ModifyClusterIamRolesRequest request) const
virtual

Modifies the list of AWS Identity and Access Management (IAM) roles that can be used by the cluster to access other AWS services.

A cluster can have up to 10 IAM roles associated at any time.

See Also:

AWS API Reference

◆ ModifyClusterIamRolesAsync()

virtual void Aws::Redshift::RedshiftClient::ModifyClusterIamRolesAsync ( const Model::ModifyClusterIamRolesRequest request,
const ModifyClusterIamRolesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Modifies the list of AWS Identity and Access Management (IAM) roles that can be used by the cluster to access other AWS services.

A cluster can have up to 10 IAM roles associated at any time.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ModifyClusterIamRolesCallable()

virtual Model::ModifyClusterIamRolesOutcomeCallable Aws::Redshift::RedshiftClient::ModifyClusterIamRolesCallable ( const Model::ModifyClusterIamRolesRequest request) const
virtual

Modifies the list of AWS Identity and Access Management (IAM) roles that can be used by the cluster to access other AWS services.

A cluster can have up to 10 IAM roles associated at any time.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ModifyClusterMaintenance()

virtual Model::ModifyClusterMaintenanceOutcome Aws::Redshift::RedshiftClient::ModifyClusterMaintenance ( const Model::ModifyClusterMaintenanceRequest request) const
virtual

Modifies the maintenance settings of a cluster.

See Also:

AWS API Reference

◆ ModifyClusterMaintenanceAsync()

virtual void Aws::Redshift::RedshiftClient::ModifyClusterMaintenanceAsync ( const Model::ModifyClusterMaintenanceRequest request,
const ModifyClusterMaintenanceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Modifies the maintenance settings of a cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ModifyClusterMaintenanceCallable()

virtual Model::ModifyClusterMaintenanceOutcomeCallable Aws::Redshift::RedshiftClient::ModifyClusterMaintenanceCallable ( const Model::ModifyClusterMaintenanceRequest request) const
virtual

Modifies the maintenance settings of a cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ModifyClusterParameterGroup()

virtual Model::ModifyClusterParameterGroupOutcome Aws::Redshift::RedshiftClient::ModifyClusterParameterGroup ( const Model::ModifyClusterParameterGroupRequest request) const
virtual

Modifies the parameters of a parameter group.

For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ ModifyClusterParameterGroupAsync()

virtual void Aws::Redshift::RedshiftClient::ModifyClusterParameterGroupAsync ( const Model::ModifyClusterParameterGroupRequest request,
const ModifyClusterParameterGroupResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Modifies the parameters of a parameter group.

For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ModifyClusterParameterGroupCallable()

virtual Model::ModifyClusterParameterGroupOutcomeCallable Aws::Redshift::RedshiftClient::ModifyClusterParameterGroupCallable ( const Model::ModifyClusterParameterGroupRequest request) const
virtual

Modifies the parameters of a parameter group.

For more information about parameters and parameter groups, go to Amazon Redshift Parameter Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ModifyClusterSnapshot()

virtual Model::ModifyClusterSnapshotOutcome Aws::Redshift::RedshiftClient::ModifyClusterSnapshot ( const Model::ModifyClusterSnapshotRequest request) const
virtual

Modifies the settings for a snapshot.

This exanmple modifies the manual retention period setting for a cluster snapshot.

See Also:

AWS API Reference

◆ ModifyClusterSnapshotAsync()

virtual void Aws::Redshift::RedshiftClient::ModifyClusterSnapshotAsync ( const Model::ModifyClusterSnapshotRequest request,
const ModifyClusterSnapshotResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Modifies the settings for a snapshot.

This exanmple modifies the manual retention period setting for a cluster snapshot.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ModifyClusterSnapshotCallable()

virtual Model::ModifyClusterSnapshotOutcomeCallable Aws::Redshift::RedshiftClient::ModifyClusterSnapshotCallable ( const Model::ModifyClusterSnapshotRequest request) const
virtual

Modifies the settings for a snapshot.

This exanmple modifies the manual retention period setting for a cluster snapshot.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ModifyClusterSnapshotSchedule()

virtual Model::ModifyClusterSnapshotScheduleOutcome Aws::Redshift::RedshiftClient::ModifyClusterSnapshotSchedule ( const Model::ModifyClusterSnapshotScheduleRequest request) const
virtual

Modifies a snapshot schedule for a cluster.

See Also:

AWS API Reference

◆ ModifyClusterSnapshotScheduleAsync()

virtual void Aws::Redshift::RedshiftClient::ModifyClusterSnapshotScheduleAsync ( const Model::ModifyClusterSnapshotScheduleRequest request,
const ModifyClusterSnapshotScheduleResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Modifies a snapshot schedule for a cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ModifyClusterSnapshotScheduleCallable()

virtual Model::ModifyClusterSnapshotScheduleOutcomeCallable Aws::Redshift::RedshiftClient::ModifyClusterSnapshotScheduleCallable ( const Model::ModifyClusterSnapshotScheduleRequest request) const
virtual

Modifies a snapshot schedule for a cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ModifyClusterSubnetGroup()

virtual Model::ModifyClusterSubnetGroupOutcome Aws::Redshift::RedshiftClient::ModifyClusterSubnetGroup ( const Model::ModifyClusterSubnetGroupRequest request) const
virtual

Modifies a cluster subnet group to include the specified list of VPC subnets. The operation replaces the existing list of subnets with the new list of subnets.

See Also:

AWS API Reference

◆ ModifyClusterSubnetGroupAsync()

virtual void Aws::Redshift::RedshiftClient::ModifyClusterSubnetGroupAsync ( const Model::ModifyClusterSubnetGroupRequest request,
const ModifyClusterSubnetGroupResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Modifies a cluster subnet group to include the specified list of VPC subnets. The operation replaces the existing list of subnets with the new list of subnets.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ModifyClusterSubnetGroupCallable()

virtual Model::ModifyClusterSubnetGroupOutcomeCallable Aws::Redshift::RedshiftClient::ModifyClusterSubnetGroupCallable ( const Model::ModifyClusterSubnetGroupRequest request) const
virtual

Modifies a cluster subnet group to include the specified list of VPC subnets. The operation replaces the existing list of subnets with the new list of subnets.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ModifyEventSubscription()

virtual Model::ModifyEventSubscriptionOutcome Aws::Redshift::RedshiftClient::ModifyEventSubscription ( const Model::ModifyEventSubscriptionRequest request) const
virtual

Modifies an existing Amazon Redshift event notification subscription.

See Also:

AWS API Reference

◆ ModifyEventSubscriptionAsync()

virtual void Aws::Redshift::RedshiftClient::ModifyEventSubscriptionAsync ( const Model::ModifyEventSubscriptionRequest request,
const ModifyEventSubscriptionResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Modifies an existing Amazon Redshift event notification subscription.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ModifyEventSubscriptionCallable()

virtual Model::ModifyEventSubscriptionOutcomeCallable Aws::Redshift::RedshiftClient::ModifyEventSubscriptionCallable ( const Model::ModifyEventSubscriptionRequest request) const
virtual

Modifies an existing Amazon Redshift event notification subscription.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ModifyScheduledAction()

virtual Model::ModifyScheduledActionOutcome Aws::Redshift::RedshiftClient::ModifyScheduledAction ( const Model::ModifyScheduledActionRequest request) const
virtual

Modifies a scheduled action.

See Also:

AWS API Reference

◆ ModifyScheduledActionAsync()

virtual void Aws::Redshift::RedshiftClient::ModifyScheduledActionAsync ( const Model::ModifyScheduledActionRequest request,
const ModifyScheduledActionResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Modifies a scheduled action.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ModifyScheduledActionCallable()

virtual Model::ModifyScheduledActionOutcomeCallable Aws::Redshift::RedshiftClient::ModifyScheduledActionCallable ( const Model::ModifyScheduledActionRequest request) const
virtual

Modifies a scheduled action.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ModifySnapshotCopyRetentionPeriod()

virtual Model::ModifySnapshotCopyRetentionPeriodOutcome Aws::Redshift::RedshiftClient::ModifySnapshotCopyRetentionPeriod ( const Model::ModifySnapshotCopyRetentionPeriodRequest request) const
virtual

Modifies the number of days to retain snapshots in the destination AWS Region after they are copied from the source AWS Region. By default, this operation only changes the retention period of copied automated snapshots. The retention periods for both new and existing copied automated snapshots are updated with the new retention period. You can set the manual option to change only the retention periods of copied manual snapshots. If you set this option, only newly copied manual snapshots have the new retention period.

See Also:

AWS API Reference

◆ ModifySnapshotCopyRetentionPeriodAsync()

virtual void Aws::Redshift::RedshiftClient::ModifySnapshotCopyRetentionPeriodAsync ( const Model::ModifySnapshotCopyRetentionPeriodRequest request,
const ModifySnapshotCopyRetentionPeriodResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Modifies the number of days to retain snapshots in the destination AWS Region after they are copied from the source AWS Region. By default, this operation only changes the retention period of copied automated snapshots. The retention periods for both new and existing copied automated snapshots are updated with the new retention period. You can set the manual option to change only the retention periods of copied manual snapshots. If you set this option, only newly copied manual snapshots have the new retention period.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ModifySnapshotCopyRetentionPeriodCallable()

virtual Model::ModifySnapshotCopyRetentionPeriodOutcomeCallable Aws::Redshift::RedshiftClient::ModifySnapshotCopyRetentionPeriodCallable ( const Model::ModifySnapshotCopyRetentionPeriodRequest request) const
virtual

Modifies the number of days to retain snapshots in the destination AWS Region after they are copied from the source AWS Region. By default, this operation only changes the retention period of copied automated snapshots. The retention periods for both new and existing copied automated snapshots are updated with the new retention period. You can set the manual option to change only the retention periods of copied manual snapshots. If you set this option, only newly copied manual snapshots have the new retention period.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ModifySnapshotSchedule()

virtual Model::ModifySnapshotScheduleOutcome Aws::Redshift::RedshiftClient::ModifySnapshotSchedule ( const Model::ModifySnapshotScheduleRequest request) const
virtual

Modifies a snapshot schedule. Any schedule associated with a cluster is modified asynchronously.

See Also:

AWS API Reference

◆ ModifySnapshotScheduleAsync()

virtual void Aws::Redshift::RedshiftClient::ModifySnapshotScheduleAsync ( const Model::ModifySnapshotScheduleRequest request,
const ModifySnapshotScheduleResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Modifies a snapshot schedule. Any schedule associated with a cluster is modified asynchronously.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ModifySnapshotScheduleCallable()

virtual Model::ModifySnapshotScheduleOutcomeCallable Aws::Redshift::RedshiftClient::ModifySnapshotScheduleCallable ( const Model::ModifySnapshotScheduleRequest request) const
virtual

Modifies a snapshot schedule. Any schedule associated with a cluster is modified asynchronously.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ModifyUsageLimit()

virtual Model::ModifyUsageLimitOutcome Aws::Redshift::RedshiftClient::ModifyUsageLimit ( const Model::ModifyUsageLimitRequest request) const
virtual

Modifies a usage limit in a cluster. You can't modify the feature type or period of a usage limit.

See Also:

AWS API Reference

◆ ModifyUsageLimitAsync()

virtual void Aws::Redshift::RedshiftClient::ModifyUsageLimitAsync ( const Model::ModifyUsageLimitRequest request,
const ModifyUsageLimitResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Modifies a usage limit in a cluster. You can't modify the feature type or period of a usage limit.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ModifyUsageLimitCallable()

virtual Model::ModifyUsageLimitOutcomeCallable Aws::Redshift::RedshiftClient::ModifyUsageLimitCallable ( const Model::ModifyUsageLimitRequest request) const
virtual

Modifies a usage limit in a cluster. You can't modify the feature type or period of a usage limit.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ OverrideEndpoint()

void Aws::Redshift::RedshiftClient::OverrideEndpoint ( const Aws::String endpoint)

◆ PauseCluster()

virtual Model::PauseClusterOutcome Aws::Redshift::RedshiftClient::PauseCluster ( const Model::PauseClusterRequest request) const
virtual

Pauses a cluster.

See Also:

AWS API Reference

◆ PauseClusterAsync()

virtual void Aws::Redshift::RedshiftClient::PauseClusterAsync ( const Model::PauseClusterRequest request,
const PauseClusterResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Pauses a cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ PauseClusterCallable()

virtual Model::PauseClusterOutcomeCallable Aws::Redshift::RedshiftClient::PauseClusterCallable ( const Model::PauseClusterRequest request) const
virtual

Pauses a cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ PurchaseReservedNodeOffering()

virtual Model::PurchaseReservedNodeOfferingOutcome Aws::Redshift::RedshiftClient::PurchaseReservedNodeOffering ( const Model::PurchaseReservedNodeOfferingRequest request) const
virtual

Allows you to purchase reserved nodes. Amazon Redshift offers a predefined set of reserved node offerings. You can purchase one or more of the offerings. You can call the DescribeReservedNodeOfferings API to obtain the available reserved node offerings. You can call this API by providing a specific reserved node offering and the number of nodes you want to reserve.

For more information about reserved node offerings, go to Purchasing Reserved Nodes in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ PurchaseReservedNodeOfferingAsync()

virtual void Aws::Redshift::RedshiftClient::PurchaseReservedNodeOfferingAsync ( const Model::PurchaseReservedNodeOfferingRequest request,
const PurchaseReservedNodeOfferingResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Allows you to purchase reserved nodes. Amazon Redshift offers a predefined set of reserved node offerings. You can purchase one or more of the offerings. You can call the DescribeReservedNodeOfferings API to obtain the available reserved node offerings. You can call this API by providing a specific reserved node offering and the number of nodes you want to reserve.

For more information about reserved node offerings, go to Purchasing Reserved Nodes in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ PurchaseReservedNodeOfferingCallable()

virtual Model::PurchaseReservedNodeOfferingOutcomeCallable Aws::Redshift::RedshiftClient::PurchaseReservedNodeOfferingCallable ( const Model::PurchaseReservedNodeOfferingRequest request) const
virtual

Allows you to purchase reserved nodes. Amazon Redshift offers a predefined set of reserved node offerings. You can purchase one or more of the offerings. You can call the DescribeReservedNodeOfferings API to obtain the available reserved node offerings. You can call this API by providing a specific reserved node offering and the number of nodes you want to reserve.

For more information about reserved node offerings, go to Purchasing Reserved Nodes in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ RebootCluster()

virtual Model::RebootClusterOutcome Aws::Redshift::RedshiftClient::RebootCluster ( const Model::RebootClusterRequest request) const
virtual

Reboots a cluster. This action is taken as soon as possible. It results in a momentary outage to the cluster, during which the cluster status is set to rebooting. A cluster event is created when the reboot is completed. Any pending cluster modifications (see ModifyCluster) are applied at this reboot. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ RebootClusterAsync()

virtual void Aws::Redshift::RedshiftClient::RebootClusterAsync ( const Model::RebootClusterRequest request,
const RebootClusterResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Reboots a cluster. This action is taken as soon as possible. It results in a momentary outage to the cluster, during which the cluster status is set to rebooting. A cluster event is created when the reboot is completed. Any pending cluster modifications (see ModifyCluster) are applied at this reboot. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ RebootClusterCallable()

virtual Model::RebootClusterOutcomeCallable Aws::Redshift::RedshiftClient::RebootClusterCallable ( const Model::RebootClusterRequest request) const
virtual

Reboots a cluster. This action is taken as soon as possible. It results in a momentary outage to the cluster, during which the cluster status is set to rebooting. A cluster event is created when the reboot is completed. Any pending cluster modifications (see ModifyCluster) are applied at this reboot. For more information about managing clusters, go to Amazon Redshift Clusters in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ResetClusterParameterGroup()

virtual Model::ResetClusterParameterGroupOutcome Aws::Redshift::RedshiftClient::ResetClusterParameterGroup ( const Model::ResetClusterParameterGroupRequest request) const
virtual

Sets one or more parameters of the specified parameter group to their default values and sets the source values of the parameters to "engine-default". To reset the entire parameter group specify the ResetAllParameters parameter. For parameter changes to take effect you must reboot any associated clusters.

See Also:

AWS API Reference

◆ ResetClusterParameterGroupAsync()

virtual void Aws::Redshift::RedshiftClient::ResetClusterParameterGroupAsync ( const Model::ResetClusterParameterGroupRequest request,
const ResetClusterParameterGroupResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Sets one or more parameters of the specified parameter group to their default values and sets the source values of the parameters to "engine-default". To reset the entire parameter group specify the ResetAllParameters parameter. For parameter changes to take effect you must reboot any associated clusters.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ResetClusterParameterGroupCallable()

virtual Model::ResetClusterParameterGroupOutcomeCallable Aws::Redshift::RedshiftClient::ResetClusterParameterGroupCallable ( const Model::ResetClusterParameterGroupRequest request) const
virtual

Sets one or more parameters of the specified parameter group to their default values and sets the source values of the parameters to "engine-default". To reset the entire parameter group specify the ResetAllParameters parameter. For parameter changes to take effect you must reboot any associated clusters.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ResizeCluster()

virtual Model::ResizeClusterOutcome Aws::Redshift::RedshiftClient::ResizeCluster ( const Model::ResizeClusterRequest request) const
virtual

Changes the size of the cluster. You can change the cluster's type, or change the number or type of nodes. The default behavior is to use the elastic resize method. With an elastic resize, your cluster is available for read and write operations more quickly than with the classic resize method.

Elastic resize operations have the following restrictions:

  • You can only resize clusters of the following types:

    • dc1.large (if your cluster is in a VPC)

    • dc1.8xlarge (if your cluster is in a VPC)

    • dc2.large

    • dc2.8xlarge

    • ds2.xlarge

    • ds2.8xlarge

    • ra3.4xlarge

    • ra3.16xlarge

  • The type of nodes that you add must match the node type for the cluster.

See Also:

AWS API Reference

◆ ResizeClusterAsync()

virtual void Aws::Redshift::RedshiftClient::ResizeClusterAsync ( const Model::ResizeClusterRequest request,
const ResizeClusterResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Changes the size of the cluster. You can change the cluster's type, or change the number or type of nodes. The default behavior is to use the elastic resize method. With an elastic resize, your cluster is available for read and write operations more quickly than with the classic resize method.

Elastic resize operations have the following restrictions:

  • You can only resize clusters of the following types:

    • dc1.large (if your cluster is in a VPC)

    • dc1.8xlarge (if your cluster is in a VPC)

    • dc2.large

    • dc2.8xlarge

    • ds2.xlarge

    • ds2.8xlarge

    • ra3.4xlarge

    • ra3.16xlarge

  • The type of nodes that you add must match the node type for the cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ResizeClusterCallable()

virtual Model::ResizeClusterOutcomeCallable Aws::Redshift::RedshiftClient::ResizeClusterCallable ( const Model::ResizeClusterRequest request) const
virtual

Changes the size of the cluster. You can change the cluster's type, or change the number or type of nodes. The default behavior is to use the elastic resize method. With an elastic resize, your cluster is available for read and write operations more quickly than with the classic resize method.

Elastic resize operations have the following restrictions:

  • You can only resize clusters of the following types:

    • dc1.large (if your cluster is in a VPC)

    • dc1.8xlarge (if your cluster is in a VPC)

    • dc2.large

    • dc2.8xlarge

    • ds2.xlarge

    • ds2.8xlarge

    • ra3.4xlarge

    • ra3.16xlarge

  • The type of nodes that you add must match the node type for the cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ RestoreFromClusterSnapshot()

virtual Model::RestoreFromClusterSnapshotOutcome Aws::Redshift::RedshiftClient::RestoreFromClusterSnapshot ( const Model::RestoreFromClusterSnapshotRequest request) const
virtual

Creates a new cluster from a snapshot. By default, Amazon Redshift creates the resulting cluster with the same configuration as the original cluster from which the snapshot was created, except that the new cluster is created with the default cluster security and parameter groups. After Amazon Redshift creates the cluster, you can use the ModifyCluster API to associate a different security group and different parameter group with the restored cluster. If you are using a DS node type, you can also choose to change to another DS node type of the same size during restore.

If you restore a cluster into a VPC, you must provide a cluster subnet group where you want the cluster restored.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ RestoreFromClusterSnapshotAsync()

virtual void Aws::Redshift::RedshiftClient::RestoreFromClusterSnapshotAsync ( const Model::RestoreFromClusterSnapshotRequest request,
const RestoreFromClusterSnapshotResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a new cluster from a snapshot. By default, Amazon Redshift creates the resulting cluster with the same configuration as the original cluster from which the snapshot was created, except that the new cluster is created with the default cluster security and parameter groups. After Amazon Redshift creates the cluster, you can use the ModifyCluster API to associate a different security group and different parameter group with the restored cluster. If you are using a DS node type, you can also choose to change to another DS node type of the same size during restore.

If you restore a cluster into a VPC, you must provide a cluster subnet group where you want the cluster restored.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ RestoreFromClusterSnapshotCallable()

virtual Model::RestoreFromClusterSnapshotOutcomeCallable Aws::Redshift::RedshiftClient::RestoreFromClusterSnapshotCallable ( const Model::RestoreFromClusterSnapshotRequest request) const
virtual

Creates a new cluster from a snapshot. By default, Amazon Redshift creates the resulting cluster with the same configuration as the original cluster from which the snapshot was created, except that the new cluster is created with the default cluster security and parameter groups. After Amazon Redshift creates the cluster, you can use the ModifyCluster API to associate a different security group and different parameter group with the restored cluster. If you are using a DS node type, you can also choose to change to another DS node type of the same size during restore.

If you restore a cluster into a VPC, you must provide a cluster subnet group where you want the cluster restored.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ RestoreTableFromClusterSnapshot()

virtual Model::RestoreTableFromClusterSnapshotOutcome Aws::Redshift::RedshiftClient::RestoreTableFromClusterSnapshot ( const Model::RestoreTableFromClusterSnapshotRequest request) const
virtual

Creates a new table from a table in an Amazon Redshift cluster snapshot. You must create the new table within the Amazon Redshift cluster that the snapshot was taken from.

You cannot use RestoreTableFromClusterSnapshot to restore a table with the same name as an existing table in an Amazon Redshift cluster. That is, you cannot overwrite an existing table in a cluster with a restored table. If you want to replace your original table with a new, restored table, then rename or drop your original table before you call RestoreTableFromClusterSnapshot. When you have renamed your original table, then you can pass the original name of the table as the NewTableName parameter value in the call to RestoreTableFromClusterSnapshot. This way, you can replace the original table with the table created from the snapshot.

See Also:

AWS API Reference

◆ RestoreTableFromClusterSnapshotAsync()

virtual void Aws::Redshift::RedshiftClient::RestoreTableFromClusterSnapshotAsync ( const Model::RestoreTableFromClusterSnapshotRequest request,
const RestoreTableFromClusterSnapshotResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a new table from a table in an Amazon Redshift cluster snapshot. You must create the new table within the Amazon Redshift cluster that the snapshot was taken from.

You cannot use RestoreTableFromClusterSnapshot to restore a table with the same name as an existing table in an Amazon Redshift cluster. That is, you cannot overwrite an existing table in a cluster with a restored table. If you want to replace your original table with a new, restored table, then rename or drop your original table before you call RestoreTableFromClusterSnapshot. When you have renamed your original table, then you can pass the original name of the table as the NewTableName parameter value in the call to RestoreTableFromClusterSnapshot. This way, you can replace the original table with the table created from the snapshot.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ RestoreTableFromClusterSnapshotCallable()

virtual Model::RestoreTableFromClusterSnapshotOutcomeCallable Aws::Redshift::RedshiftClient::RestoreTableFromClusterSnapshotCallable ( const Model::RestoreTableFromClusterSnapshotRequest request) const
virtual

Creates a new table from a table in an Amazon Redshift cluster snapshot. You must create the new table within the Amazon Redshift cluster that the snapshot was taken from.

You cannot use RestoreTableFromClusterSnapshot to restore a table with the same name as an existing table in an Amazon Redshift cluster. That is, you cannot overwrite an existing table in a cluster with a restored table. If you want to replace your original table with a new, restored table, then rename or drop your original table before you call RestoreTableFromClusterSnapshot. When you have renamed your original table, then you can pass the original name of the table as the NewTableName parameter value in the call to RestoreTableFromClusterSnapshot. This way, you can replace the original table with the table created from the snapshot.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ ResumeCluster()

virtual Model::ResumeClusterOutcome Aws::Redshift::RedshiftClient::ResumeCluster ( const Model::ResumeClusterRequest request) const
virtual

Resumes a paused cluster.

See Also:

AWS API Reference

◆ ResumeClusterAsync()

virtual void Aws::Redshift::RedshiftClient::ResumeClusterAsync ( const Model::ResumeClusterRequest request,
const ResumeClusterResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Resumes a paused cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ ResumeClusterCallable()

virtual Model::ResumeClusterOutcomeCallable Aws::Redshift::RedshiftClient::ResumeClusterCallable ( const Model::ResumeClusterRequest request) const
virtual

Resumes a paused cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ RevokeClusterSecurityGroupIngress()

virtual Model::RevokeClusterSecurityGroupIngressOutcome Aws::Redshift::RedshiftClient::RevokeClusterSecurityGroupIngress ( const Model::RevokeClusterSecurityGroupIngressRequest request) const
virtual

Revokes an ingress rule in an Amazon Redshift security group for a previously authorized IP range or Amazon EC2 security group. To add an ingress rule, see AuthorizeClusterSecurityGroupIngress. For information about managing security groups, go to Amazon Redshift Cluster Security Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ RevokeClusterSecurityGroupIngressAsync()

virtual void Aws::Redshift::RedshiftClient::RevokeClusterSecurityGroupIngressAsync ( const Model::RevokeClusterSecurityGroupIngressRequest request,
const RevokeClusterSecurityGroupIngressResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Revokes an ingress rule in an Amazon Redshift security group for a previously authorized IP range or Amazon EC2 security group. To add an ingress rule, see AuthorizeClusterSecurityGroupIngress. For information about managing security groups, go to Amazon Redshift Cluster Security Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ RevokeClusterSecurityGroupIngressCallable()

virtual Model::RevokeClusterSecurityGroupIngressOutcomeCallable Aws::Redshift::RedshiftClient::RevokeClusterSecurityGroupIngressCallable ( const Model::RevokeClusterSecurityGroupIngressRequest request) const
virtual

Revokes an ingress rule in an Amazon Redshift security group for a previously authorized IP range or Amazon EC2 security group. To add an ingress rule, see AuthorizeClusterSecurityGroupIngress. For information about managing security groups, go to Amazon Redshift Cluster Security Groups in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ RevokeSnapshotAccess()

virtual Model::RevokeSnapshotAccessOutcome Aws::Redshift::RedshiftClient::RevokeSnapshotAccess ( const Model::RevokeSnapshotAccessRequest request) const
virtual

Removes the ability of the specified AWS customer account to restore the specified snapshot. If the account is currently restoring the snapshot, the restore will run to completion.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

◆ RevokeSnapshotAccessAsync()

virtual void Aws::Redshift::RedshiftClient::RevokeSnapshotAccessAsync ( const Model::RevokeSnapshotAccessRequest request,
const RevokeSnapshotAccessResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Removes the ability of the specified AWS customer account to restore the specified snapshot. If the account is currently restoring the snapshot, the restore will run to completion.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ RevokeSnapshotAccessCallable()

virtual Model::RevokeSnapshotAccessOutcomeCallable Aws::Redshift::RedshiftClient::RevokeSnapshotAccessCallable ( const Model::RevokeSnapshotAccessRequest request) const
virtual

Removes the ability of the specified AWS customer account to restore the specified snapshot. If the account is currently restoring the snapshot, the restore will run to completion.

For more information about working with snapshots, go to Amazon Redshift Snapshots in the Amazon Redshift Cluster Management Guide.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.

◆ RotateEncryptionKey()

virtual Model::RotateEncryptionKeyOutcome Aws::Redshift::RedshiftClient::RotateEncryptionKey ( const Model::RotateEncryptionKeyRequest request) const
virtual

Rotates the encryption keys for a cluster.

See Also:

AWS API Reference

◆ RotateEncryptionKeyAsync()

virtual void Aws::Redshift::RedshiftClient::RotateEncryptionKeyAsync ( const Model::RotateEncryptionKeyRequest request,
const RotateEncryptionKeyResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Rotates the encryption keys for a cluster.

See Also:

AWS API Reference

Queues the request into a thread executor and triggers associated callback when operation has finished.

◆ RotateEncryptionKeyCallable()

virtual Model::RotateEncryptionKeyOutcomeCallable Aws::Redshift::RedshiftClient::RotateEncryptionKeyCallable ( const Model::RotateEncryptionKeyRequest request) const
virtual

Rotates the encryption keys for a cluster.

See Also:

AWS API Reference

returns a future to the operation so that it can be executed in parallel to other requests.


The documentation for this class was generated from the following file: