AWS SDK for C++  1.8.50
AWS SDK for C++
Public Types | Public Member Functions | List of all members
Aws::Route53::Route53Client Class Reference

#include <Route53Client.h>

+ Inheritance diagram for Aws::Route53::Route53Client:

Public Types

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

Public Member Functions

 Route53Client (const Aws::Client::ClientConfiguration &clientConfiguration=Aws::Client::ClientConfiguration())
 
 Route53Client (const Aws::Auth::AWSCredentials &credentials, const Aws::Client::ClientConfiguration &clientConfiguration=Aws::Client::ClientConfiguration())
 
 Route53Client (const std::shared_ptr< Aws::Auth::AWSCredentialsProvider > &credentialsProvider, const Aws::Client::ClientConfiguration &clientConfiguration=Aws::Client::ClientConfiguration())
 
virtual ~Route53Client ()
 
virtual Model::AssociateVPCWithHostedZoneOutcome AssociateVPCWithHostedZone (const Model::AssociateVPCWithHostedZoneRequest &request) const
 
virtual Model::AssociateVPCWithHostedZoneOutcomeCallable AssociateVPCWithHostedZoneCallable (const Model::AssociateVPCWithHostedZoneRequest &request) const
 
virtual void AssociateVPCWithHostedZoneAsync (const Model::AssociateVPCWithHostedZoneRequest &request, const AssociateVPCWithHostedZoneResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ChangeResourceRecordSetsOutcome ChangeResourceRecordSets (const Model::ChangeResourceRecordSetsRequest &request) const
 
virtual Model::ChangeResourceRecordSetsOutcomeCallable ChangeResourceRecordSetsCallable (const Model::ChangeResourceRecordSetsRequest &request) const
 
virtual void ChangeResourceRecordSetsAsync (const Model::ChangeResourceRecordSetsRequest &request, const ChangeResourceRecordSetsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ChangeTagsForResourceOutcome ChangeTagsForResource (const Model::ChangeTagsForResourceRequest &request) const
 
virtual Model::ChangeTagsForResourceOutcomeCallable ChangeTagsForResourceCallable (const Model::ChangeTagsForResourceRequest &request) const
 
virtual void ChangeTagsForResourceAsync (const Model::ChangeTagsForResourceRequest &request, const ChangeTagsForResourceResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateHealthCheckOutcome CreateHealthCheck (const Model::CreateHealthCheckRequest &request) const
 
virtual Model::CreateHealthCheckOutcomeCallable CreateHealthCheckCallable (const Model::CreateHealthCheckRequest &request) const
 
virtual void CreateHealthCheckAsync (const Model::CreateHealthCheckRequest &request, const CreateHealthCheckResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateHostedZoneOutcome CreateHostedZone (const Model::CreateHostedZoneRequest &request) const
 
virtual Model::CreateHostedZoneOutcomeCallable CreateHostedZoneCallable (const Model::CreateHostedZoneRequest &request) const
 
virtual void CreateHostedZoneAsync (const Model::CreateHostedZoneRequest &request, const CreateHostedZoneResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateQueryLoggingConfigOutcome CreateQueryLoggingConfig (const Model::CreateQueryLoggingConfigRequest &request) const
 
virtual Model::CreateQueryLoggingConfigOutcomeCallable CreateQueryLoggingConfigCallable (const Model::CreateQueryLoggingConfigRequest &request) const
 
virtual void CreateQueryLoggingConfigAsync (const Model::CreateQueryLoggingConfigRequest &request, const CreateQueryLoggingConfigResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateReusableDelegationSetOutcome CreateReusableDelegationSet (const Model::CreateReusableDelegationSetRequest &request) const
 
virtual Model::CreateReusableDelegationSetOutcomeCallable CreateReusableDelegationSetCallable (const Model::CreateReusableDelegationSetRequest &request) const
 
virtual void CreateReusableDelegationSetAsync (const Model::CreateReusableDelegationSetRequest &request, const CreateReusableDelegationSetResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateTrafficPolicyOutcome CreateTrafficPolicy (const Model::CreateTrafficPolicyRequest &request) const
 
virtual Model::CreateTrafficPolicyOutcomeCallable CreateTrafficPolicyCallable (const Model::CreateTrafficPolicyRequest &request) const
 
virtual void CreateTrafficPolicyAsync (const Model::CreateTrafficPolicyRequest &request, const CreateTrafficPolicyResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateTrafficPolicyInstanceOutcome CreateTrafficPolicyInstance (const Model::CreateTrafficPolicyInstanceRequest &request) const
 
virtual Model::CreateTrafficPolicyInstanceOutcomeCallable CreateTrafficPolicyInstanceCallable (const Model::CreateTrafficPolicyInstanceRequest &request) const
 
virtual void CreateTrafficPolicyInstanceAsync (const Model::CreateTrafficPolicyInstanceRequest &request, const CreateTrafficPolicyInstanceResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateTrafficPolicyVersionOutcome CreateTrafficPolicyVersion (const Model::CreateTrafficPolicyVersionRequest &request) const
 
virtual Model::CreateTrafficPolicyVersionOutcomeCallable CreateTrafficPolicyVersionCallable (const Model::CreateTrafficPolicyVersionRequest &request) const
 
virtual void CreateTrafficPolicyVersionAsync (const Model::CreateTrafficPolicyVersionRequest &request, const CreateTrafficPolicyVersionResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateVPCAssociationAuthorizationOutcome CreateVPCAssociationAuthorization (const Model::CreateVPCAssociationAuthorizationRequest &request) const
 
virtual Model::CreateVPCAssociationAuthorizationOutcomeCallable CreateVPCAssociationAuthorizationCallable (const Model::CreateVPCAssociationAuthorizationRequest &request) const
 
virtual void CreateVPCAssociationAuthorizationAsync (const Model::CreateVPCAssociationAuthorizationRequest &request, const CreateVPCAssociationAuthorizationResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteHealthCheckOutcome DeleteHealthCheck (const Model::DeleteHealthCheckRequest &request) const
 
virtual Model::DeleteHealthCheckOutcomeCallable DeleteHealthCheckCallable (const Model::DeleteHealthCheckRequest &request) const
 
virtual void DeleteHealthCheckAsync (const Model::DeleteHealthCheckRequest &request, const DeleteHealthCheckResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteHostedZoneOutcome DeleteHostedZone (const Model::DeleteHostedZoneRequest &request) const
 
virtual Model::DeleteHostedZoneOutcomeCallable DeleteHostedZoneCallable (const Model::DeleteHostedZoneRequest &request) const
 
virtual void DeleteHostedZoneAsync (const Model::DeleteHostedZoneRequest &request, const DeleteHostedZoneResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteQueryLoggingConfigOutcome DeleteQueryLoggingConfig (const Model::DeleteQueryLoggingConfigRequest &request) const
 
virtual Model::DeleteQueryLoggingConfigOutcomeCallable DeleteQueryLoggingConfigCallable (const Model::DeleteQueryLoggingConfigRequest &request) const
 
virtual void DeleteQueryLoggingConfigAsync (const Model::DeleteQueryLoggingConfigRequest &request, const DeleteQueryLoggingConfigResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteReusableDelegationSetOutcome DeleteReusableDelegationSet (const Model::DeleteReusableDelegationSetRequest &request) const
 
virtual Model::DeleteReusableDelegationSetOutcomeCallable DeleteReusableDelegationSetCallable (const Model::DeleteReusableDelegationSetRequest &request) const
 
virtual void DeleteReusableDelegationSetAsync (const Model::DeleteReusableDelegationSetRequest &request, const DeleteReusableDelegationSetResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteTrafficPolicyOutcome DeleteTrafficPolicy (const Model::DeleteTrafficPolicyRequest &request) const
 
virtual Model::DeleteTrafficPolicyOutcomeCallable DeleteTrafficPolicyCallable (const Model::DeleteTrafficPolicyRequest &request) const
 
virtual void DeleteTrafficPolicyAsync (const Model::DeleteTrafficPolicyRequest &request, const DeleteTrafficPolicyResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteTrafficPolicyInstanceOutcome DeleteTrafficPolicyInstance (const Model::DeleteTrafficPolicyInstanceRequest &request) const
 
virtual Model::DeleteTrafficPolicyInstanceOutcomeCallable DeleteTrafficPolicyInstanceCallable (const Model::DeleteTrafficPolicyInstanceRequest &request) const
 
virtual void DeleteTrafficPolicyInstanceAsync (const Model::DeleteTrafficPolicyInstanceRequest &request, const DeleteTrafficPolicyInstanceResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteVPCAssociationAuthorizationOutcome DeleteVPCAssociationAuthorization (const Model::DeleteVPCAssociationAuthorizationRequest &request) const
 
virtual Model::DeleteVPCAssociationAuthorizationOutcomeCallable DeleteVPCAssociationAuthorizationCallable (const Model::DeleteVPCAssociationAuthorizationRequest &request) const
 
virtual void DeleteVPCAssociationAuthorizationAsync (const Model::DeleteVPCAssociationAuthorizationRequest &request, const DeleteVPCAssociationAuthorizationResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DisassociateVPCFromHostedZoneOutcome DisassociateVPCFromHostedZone (const Model::DisassociateVPCFromHostedZoneRequest &request) const
 
virtual Model::DisassociateVPCFromHostedZoneOutcomeCallable DisassociateVPCFromHostedZoneCallable (const Model::DisassociateVPCFromHostedZoneRequest &request) const
 
virtual void DisassociateVPCFromHostedZoneAsync (const Model::DisassociateVPCFromHostedZoneRequest &request, const DisassociateVPCFromHostedZoneResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetAccountLimitOutcome GetAccountLimit (const Model::GetAccountLimitRequest &request) const
 
virtual Model::GetAccountLimitOutcomeCallable GetAccountLimitCallable (const Model::GetAccountLimitRequest &request) const
 
virtual void GetAccountLimitAsync (const Model::GetAccountLimitRequest &request, const GetAccountLimitResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetChangeOutcome GetChange (const Model::GetChangeRequest &request) const
 
virtual Model::GetChangeOutcomeCallable GetChangeCallable (const Model::GetChangeRequest &request) const
 
virtual void GetChangeAsync (const Model::GetChangeRequest &request, const GetChangeResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetCheckerIpRangesOutcome GetCheckerIpRanges (const Model::GetCheckerIpRangesRequest &request) const
 
virtual Model::GetCheckerIpRangesOutcomeCallable GetCheckerIpRangesCallable (const Model::GetCheckerIpRangesRequest &request) const
 
virtual void GetCheckerIpRangesAsync (const Model::GetCheckerIpRangesRequest &request, const GetCheckerIpRangesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetGeoLocationOutcome GetGeoLocation (const Model::GetGeoLocationRequest &request) const
 
virtual Model::GetGeoLocationOutcomeCallable GetGeoLocationCallable (const Model::GetGeoLocationRequest &request) const
 
virtual void GetGeoLocationAsync (const Model::GetGeoLocationRequest &request, const GetGeoLocationResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetHealthCheckOutcome GetHealthCheck (const Model::GetHealthCheckRequest &request) const
 
virtual Model::GetHealthCheckOutcomeCallable GetHealthCheckCallable (const Model::GetHealthCheckRequest &request) const
 
virtual void GetHealthCheckAsync (const Model::GetHealthCheckRequest &request, const GetHealthCheckResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetHealthCheckCountOutcome GetHealthCheckCount (const Model::GetHealthCheckCountRequest &request) const
 
virtual Model::GetHealthCheckCountOutcomeCallable GetHealthCheckCountCallable (const Model::GetHealthCheckCountRequest &request) const
 
virtual void GetHealthCheckCountAsync (const Model::GetHealthCheckCountRequest &request, const GetHealthCheckCountResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetHealthCheckLastFailureReasonOutcome GetHealthCheckLastFailureReason (const Model::GetHealthCheckLastFailureReasonRequest &request) const
 
virtual Model::GetHealthCheckLastFailureReasonOutcomeCallable GetHealthCheckLastFailureReasonCallable (const Model::GetHealthCheckLastFailureReasonRequest &request) const
 
virtual void GetHealthCheckLastFailureReasonAsync (const Model::GetHealthCheckLastFailureReasonRequest &request, const GetHealthCheckLastFailureReasonResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetHealthCheckStatusOutcome GetHealthCheckStatus (const Model::GetHealthCheckStatusRequest &request) const
 
virtual Model::GetHealthCheckStatusOutcomeCallable GetHealthCheckStatusCallable (const Model::GetHealthCheckStatusRequest &request) const
 
virtual void GetHealthCheckStatusAsync (const Model::GetHealthCheckStatusRequest &request, const GetHealthCheckStatusResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetHostedZoneOutcome GetHostedZone (const Model::GetHostedZoneRequest &request) const
 
virtual Model::GetHostedZoneOutcomeCallable GetHostedZoneCallable (const Model::GetHostedZoneRequest &request) const
 
virtual void GetHostedZoneAsync (const Model::GetHostedZoneRequest &request, const GetHostedZoneResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetHostedZoneCountOutcome GetHostedZoneCount (const Model::GetHostedZoneCountRequest &request) const
 
virtual Model::GetHostedZoneCountOutcomeCallable GetHostedZoneCountCallable (const Model::GetHostedZoneCountRequest &request) const
 
virtual void GetHostedZoneCountAsync (const Model::GetHostedZoneCountRequest &request, const GetHostedZoneCountResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetHostedZoneLimitOutcome GetHostedZoneLimit (const Model::GetHostedZoneLimitRequest &request) const
 
virtual Model::GetHostedZoneLimitOutcomeCallable GetHostedZoneLimitCallable (const Model::GetHostedZoneLimitRequest &request) const
 
virtual void GetHostedZoneLimitAsync (const Model::GetHostedZoneLimitRequest &request, const GetHostedZoneLimitResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetQueryLoggingConfigOutcome GetQueryLoggingConfig (const Model::GetQueryLoggingConfigRequest &request) const
 
virtual Model::GetQueryLoggingConfigOutcomeCallable GetQueryLoggingConfigCallable (const Model::GetQueryLoggingConfigRequest &request) const
 
virtual void GetQueryLoggingConfigAsync (const Model::GetQueryLoggingConfigRequest &request, const GetQueryLoggingConfigResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetReusableDelegationSetOutcome GetReusableDelegationSet (const Model::GetReusableDelegationSetRequest &request) const
 
virtual Model::GetReusableDelegationSetOutcomeCallable GetReusableDelegationSetCallable (const Model::GetReusableDelegationSetRequest &request) const
 
virtual void GetReusableDelegationSetAsync (const Model::GetReusableDelegationSetRequest &request, const GetReusableDelegationSetResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetReusableDelegationSetLimitOutcome GetReusableDelegationSetLimit (const Model::GetReusableDelegationSetLimitRequest &request) const
 
virtual Model::GetReusableDelegationSetLimitOutcomeCallable GetReusableDelegationSetLimitCallable (const Model::GetReusableDelegationSetLimitRequest &request) const
 
virtual void GetReusableDelegationSetLimitAsync (const Model::GetReusableDelegationSetLimitRequest &request, const GetReusableDelegationSetLimitResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetTrafficPolicyOutcome GetTrafficPolicy (const Model::GetTrafficPolicyRequest &request) const
 
virtual Model::GetTrafficPolicyOutcomeCallable GetTrafficPolicyCallable (const Model::GetTrafficPolicyRequest &request) const
 
virtual void GetTrafficPolicyAsync (const Model::GetTrafficPolicyRequest &request, const GetTrafficPolicyResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetTrafficPolicyInstanceOutcome GetTrafficPolicyInstance (const Model::GetTrafficPolicyInstanceRequest &request) const
 
virtual Model::GetTrafficPolicyInstanceOutcomeCallable GetTrafficPolicyInstanceCallable (const Model::GetTrafficPolicyInstanceRequest &request) const
 
virtual void GetTrafficPolicyInstanceAsync (const Model::GetTrafficPolicyInstanceRequest &request, const GetTrafficPolicyInstanceResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::GetTrafficPolicyInstanceCountOutcome GetTrafficPolicyInstanceCount (const Model::GetTrafficPolicyInstanceCountRequest &request) const
 
virtual Model::GetTrafficPolicyInstanceCountOutcomeCallable GetTrafficPolicyInstanceCountCallable (const Model::GetTrafficPolicyInstanceCountRequest &request) const
 
virtual void GetTrafficPolicyInstanceCountAsync (const Model::GetTrafficPolicyInstanceCountRequest &request, const GetTrafficPolicyInstanceCountResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListGeoLocationsOutcome ListGeoLocations (const Model::ListGeoLocationsRequest &request) const
 
virtual Model::ListGeoLocationsOutcomeCallable ListGeoLocationsCallable (const Model::ListGeoLocationsRequest &request) const
 
virtual void ListGeoLocationsAsync (const Model::ListGeoLocationsRequest &request, const ListGeoLocationsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListHealthChecksOutcome ListHealthChecks (const Model::ListHealthChecksRequest &request) const
 
virtual Model::ListHealthChecksOutcomeCallable ListHealthChecksCallable (const Model::ListHealthChecksRequest &request) const
 
virtual void ListHealthChecksAsync (const Model::ListHealthChecksRequest &request, const ListHealthChecksResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListHostedZonesOutcome ListHostedZones (const Model::ListHostedZonesRequest &request) const
 
virtual Model::ListHostedZonesOutcomeCallable ListHostedZonesCallable (const Model::ListHostedZonesRequest &request) const
 
virtual void ListHostedZonesAsync (const Model::ListHostedZonesRequest &request, const ListHostedZonesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListHostedZonesByNameOutcome ListHostedZonesByName (const Model::ListHostedZonesByNameRequest &request) const
 
virtual Model::ListHostedZonesByNameOutcomeCallable ListHostedZonesByNameCallable (const Model::ListHostedZonesByNameRequest &request) const
 
virtual void ListHostedZonesByNameAsync (const Model::ListHostedZonesByNameRequest &request, const ListHostedZonesByNameResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListHostedZonesByVPCOutcome ListHostedZonesByVPC (const Model::ListHostedZonesByVPCRequest &request) const
 
virtual Model::ListHostedZonesByVPCOutcomeCallable ListHostedZonesByVPCCallable (const Model::ListHostedZonesByVPCRequest &request) const
 
virtual void ListHostedZonesByVPCAsync (const Model::ListHostedZonesByVPCRequest &request, const ListHostedZonesByVPCResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListQueryLoggingConfigsOutcome ListQueryLoggingConfigs (const Model::ListQueryLoggingConfigsRequest &request) const
 
virtual Model::ListQueryLoggingConfigsOutcomeCallable ListQueryLoggingConfigsCallable (const Model::ListQueryLoggingConfigsRequest &request) const
 
virtual void ListQueryLoggingConfigsAsync (const Model::ListQueryLoggingConfigsRequest &request, const ListQueryLoggingConfigsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListResourceRecordSetsOutcome ListResourceRecordSets (const Model::ListResourceRecordSetsRequest &request) const
 
virtual Model::ListResourceRecordSetsOutcomeCallable ListResourceRecordSetsCallable (const Model::ListResourceRecordSetsRequest &request) const
 
virtual void ListResourceRecordSetsAsync (const Model::ListResourceRecordSetsRequest &request, const ListResourceRecordSetsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListReusableDelegationSetsOutcome ListReusableDelegationSets (const Model::ListReusableDelegationSetsRequest &request) const
 
virtual Model::ListReusableDelegationSetsOutcomeCallable ListReusableDelegationSetsCallable (const Model::ListReusableDelegationSetsRequest &request) const
 
virtual void ListReusableDelegationSetsAsync (const Model::ListReusableDelegationSetsRequest &request, const ListReusableDelegationSetsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListTagsForResourceOutcome ListTagsForResource (const Model::ListTagsForResourceRequest &request) const
 
virtual Model::ListTagsForResourceOutcomeCallable ListTagsForResourceCallable (const Model::ListTagsForResourceRequest &request) const
 
virtual void ListTagsForResourceAsync (const Model::ListTagsForResourceRequest &request, const ListTagsForResourceResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListTagsForResourcesOutcome ListTagsForResources (const Model::ListTagsForResourcesRequest &request) const
 
virtual Model::ListTagsForResourcesOutcomeCallable ListTagsForResourcesCallable (const Model::ListTagsForResourcesRequest &request) const
 
virtual void ListTagsForResourcesAsync (const Model::ListTagsForResourcesRequest &request, const ListTagsForResourcesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListTrafficPoliciesOutcome ListTrafficPolicies (const Model::ListTrafficPoliciesRequest &request) const
 
virtual Model::ListTrafficPoliciesOutcomeCallable ListTrafficPoliciesCallable (const Model::ListTrafficPoliciesRequest &request) const
 
virtual void ListTrafficPoliciesAsync (const Model::ListTrafficPoliciesRequest &request, const ListTrafficPoliciesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListTrafficPolicyInstancesOutcome ListTrafficPolicyInstances (const Model::ListTrafficPolicyInstancesRequest &request) const
 
virtual Model::ListTrafficPolicyInstancesOutcomeCallable ListTrafficPolicyInstancesCallable (const Model::ListTrafficPolicyInstancesRequest &request) const
 
virtual void ListTrafficPolicyInstancesAsync (const Model::ListTrafficPolicyInstancesRequest &request, const ListTrafficPolicyInstancesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListTrafficPolicyInstancesByHostedZoneOutcome ListTrafficPolicyInstancesByHostedZone (const Model::ListTrafficPolicyInstancesByHostedZoneRequest &request) const
 
virtual Model::ListTrafficPolicyInstancesByHostedZoneOutcomeCallable ListTrafficPolicyInstancesByHostedZoneCallable (const Model::ListTrafficPolicyInstancesByHostedZoneRequest &request) const
 
virtual void ListTrafficPolicyInstancesByHostedZoneAsync (const Model::ListTrafficPolicyInstancesByHostedZoneRequest &request, const ListTrafficPolicyInstancesByHostedZoneResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListTrafficPolicyInstancesByPolicyOutcome ListTrafficPolicyInstancesByPolicy (const Model::ListTrafficPolicyInstancesByPolicyRequest &request) const
 
virtual Model::ListTrafficPolicyInstancesByPolicyOutcomeCallable ListTrafficPolicyInstancesByPolicyCallable (const Model::ListTrafficPolicyInstancesByPolicyRequest &request) const
 
virtual void ListTrafficPolicyInstancesByPolicyAsync (const Model::ListTrafficPolicyInstancesByPolicyRequest &request, const ListTrafficPolicyInstancesByPolicyResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListTrafficPolicyVersionsOutcome ListTrafficPolicyVersions (const Model::ListTrafficPolicyVersionsRequest &request) const
 
virtual Model::ListTrafficPolicyVersionsOutcomeCallable ListTrafficPolicyVersionsCallable (const Model::ListTrafficPolicyVersionsRequest &request) const
 
virtual void ListTrafficPolicyVersionsAsync (const Model::ListTrafficPolicyVersionsRequest &request, const ListTrafficPolicyVersionsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListVPCAssociationAuthorizationsOutcome ListVPCAssociationAuthorizations (const Model::ListVPCAssociationAuthorizationsRequest &request) const
 
virtual Model::ListVPCAssociationAuthorizationsOutcomeCallable ListVPCAssociationAuthorizationsCallable (const Model::ListVPCAssociationAuthorizationsRequest &request) const
 
virtual void ListVPCAssociationAuthorizationsAsync (const Model::ListVPCAssociationAuthorizationsRequest &request, const ListVPCAssociationAuthorizationsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::TestDNSAnswerOutcome TestDNSAnswer (const Model::TestDNSAnswerRequest &request) const
 
virtual Model::TestDNSAnswerOutcomeCallable TestDNSAnswerCallable (const Model::TestDNSAnswerRequest &request) const
 
virtual void TestDNSAnswerAsync (const Model::TestDNSAnswerRequest &request, const TestDNSAnswerResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::UpdateHealthCheckOutcome UpdateHealthCheck (const Model::UpdateHealthCheckRequest &request) const
 
virtual Model::UpdateHealthCheckOutcomeCallable UpdateHealthCheckCallable (const Model::UpdateHealthCheckRequest &request) const
 
virtual void UpdateHealthCheckAsync (const Model::UpdateHealthCheckRequest &request, const UpdateHealthCheckResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::UpdateHostedZoneCommentOutcome UpdateHostedZoneComment (const Model::UpdateHostedZoneCommentRequest &request) const
 
virtual Model::UpdateHostedZoneCommentOutcomeCallable UpdateHostedZoneCommentCallable (const Model::UpdateHostedZoneCommentRequest &request) const
 
virtual void UpdateHostedZoneCommentAsync (const Model::UpdateHostedZoneCommentRequest &request, const UpdateHostedZoneCommentResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::UpdateTrafficPolicyCommentOutcome UpdateTrafficPolicyComment (const Model::UpdateTrafficPolicyCommentRequest &request) const
 
virtual Model::UpdateTrafficPolicyCommentOutcomeCallable UpdateTrafficPolicyCommentCallable (const Model::UpdateTrafficPolicyCommentRequest &request) const
 
virtual void UpdateTrafficPolicyCommentAsync (const Model::UpdateTrafficPolicyCommentRequest &request, const UpdateTrafficPolicyCommentResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::UpdateTrafficPolicyInstanceOutcome UpdateTrafficPolicyInstance (const Model::UpdateTrafficPolicyInstanceRequest &request) const
 
virtual Model::UpdateTrafficPolicyInstanceOutcomeCallable UpdateTrafficPolicyInstanceCallable (const Model::UpdateTrafficPolicyInstanceRequest &request) const
 
virtual void UpdateTrafficPolicyInstanceAsync (const Model::UpdateTrafficPolicyInstanceRequest &request, const UpdateTrafficPolicyInstanceResponseReceivedHandler &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

Amazon Route 53 is a highly available and scalable Domain Name System (DNS) web service.

Definition at line 356 of file Route53Client.h.

Member Typedef Documentation

◆ BASECLASS

Definition at line 359 of file Route53Client.h.

Constructor & Destructor Documentation

◆ Route53Client() [1/3]

Aws::Route53::Route53Client::Route53Client ( 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.

◆ Route53Client() [2/3]

Aws::Route53::Route53Client::Route53Client ( 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.

◆ Route53Client() [3/3]

Aws::Route53::Route53Client::Route53Client ( 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

◆ ~Route53Client()

virtual Aws::Route53::Route53Client::~Route53Client ( )
virtual

Member Function Documentation

◆ AssociateVPCWithHostedZone()

virtual Model::AssociateVPCWithHostedZoneOutcome Aws::Route53::Route53Client::AssociateVPCWithHostedZone ( const Model::AssociateVPCWithHostedZoneRequest request) const
virtual

Associates an Amazon VPC with a private hosted zone.

To perform the association, the VPC and the private hosted zone must already exist. You can't convert a public hosted zone into a private hosted zone.

If you want to associate a VPC that was created by using one AWS account with a private hosted zone that was created by using a different account, the AWS account that created the private hosted zone must first submit a CreateVPCAssociationAuthorization request. Then the account that created the VPC must submit an AssociateVPCWithHostedZone request.

See Also:

AWS API Reference

◆ AssociateVPCWithHostedZoneAsync()

virtual void Aws::Route53::Route53Client::AssociateVPCWithHostedZoneAsync ( const Model::AssociateVPCWithHostedZoneRequest request,
const AssociateVPCWithHostedZoneResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Associates an Amazon VPC with a private hosted zone.

To perform the association, the VPC and the private hosted zone must already exist. You can't convert a public hosted zone into a private hosted zone.

If you want to associate a VPC that was created by using one AWS account with a private hosted zone that was created by using a different account, the AWS account that created the private hosted zone must first submit a CreateVPCAssociationAuthorization request. Then the account that created the VPC must submit an AssociateVPCWithHostedZone request.

See Also:

AWS API Reference

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

◆ AssociateVPCWithHostedZoneCallable()

virtual Model::AssociateVPCWithHostedZoneOutcomeCallable Aws::Route53::Route53Client::AssociateVPCWithHostedZoneCallable ( const Model::AssociateVPCWithHostedZoneRequest request) const
virtual

Associates an Amazon VPC with a private hosted zone.

To perform the association, the VPC and the private hosted zone must already exist. You can't convert a public hosted zone into a private hosted zone.

If you want to associate a VPC that was created by using one AWS account with a private hosted zone that was created by using a different account, the AWS account that created the private hosted zone must first submit a CreateVPCAssociationAuthorization request. Then the account that created the VPC must submit an AssociateVPCWithHostedZone request.

See Also:

AWS API Reference

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

◆ ChangeResourceRecordSets()

virtual Model::ChangeResourceRecordSetsOutcome Aws::Route53::Route53Client::ChangeResourceRecordSets ( const Model::ChangeResourceRecordSetsRequest request) const
virtual

Creates, changes, or deletes a resource record set, which contains authoritative DNS information for a specified domain name or subdomain name. For example, you can use ChangeResourceRecordSets to create a resource record set that routes traffic for test.example.com to a web server that has an IP address of 192.0.2.44.

Deleting Resource Record Sets

To delete a resource record set, you must specify all the same values that you specified when you created it.

Change Batches and Transactional Changes

The request body must include a document with a ChangeResourceRecordSetsRequest element. The request body contains a list of change items, known as a change batch. Change batches are considered transactional changes. Route 53 validates the changes in the request and then either makes all or none of the changes in the change batch request. This ensures that DNS routing isn't adversely affected by partial changes to the resource record sets in a hosted zone.

For example, suppose a change batch request contains two changes: it deletes the CNAME resource record set for www.example.com and creates an alias resource record set for www.example.com. If validation for both records succeeds, Route 53 deletes the first resource record set and creates the second resource record set in a single operation. If validation for either the DELETE or the CREATE action fails, then the request is canceled, and the original CNAME record continues to exist.

If you try to delete the same resource record set more than once in a single change batch, Route 53 returns an InvalidChangeBatch error.

Traffic Flow

To create resource record sets for complex routing configurations, use either the traffic flow visual editor in the Route 53 console or the API actions for traffic policies and traffic policy instances. Save the configuration as a traffic policy, then associate the traffic policy with one or more domain names (such as example.com) or subdomain names (such as www.example.com), in the same hosted zone or in multiple hosted zones. You can roll back the updates if the new configuration isn't performing as expected. For more information, see Using Traffic Flow to Route DNS Traffic in the Amazon Route 53 Developer Guide.

Create, Delete, and Upsert

Use ChangeResourceRecordsSetsRequest to perform the following actions:

  • CREATE: Creates a resource record set that has the specified values.

  • DELETE: Deletes an existing resource record set that has the specified values.

  • UPSERT: If a resource record set does not already exist, AWS creates it. If a resource set does exist, Route 53 updates it with the values in the request.

Syntaxes for Creating, Updating, and Deleting Resource Record Sets

The syntax for a request depends on the type of resource record set that you want to create, delete, or update, such as weighted, alias, or failover. The XML elements in your request must appear in the order listed in the syntax.

For an example for each type of resource record set, see "Examples."

Don't refer to the syntax in the "Parameter Syntax" section, which includes all of the elements for every kind of resource record set that you can create, delete, or update by using ChangeResourceRecordSets.

Change Propagation to Route 53 DNS Servers

When you submit a ChangeResourceRecordSets request, Route 53 propagates your changes to all of the Route 53 authoritative DNS servers. While your changes are propagating, GetChange returns a status of PENDING. When propagation is complete, GetChange returns a status of INSYNC. Changes generally propagate to all Route 53 name servers within 60 seconds. For more information, see GetChange.

Limits on ChangeResourceRecordSets Requests

For information about the limits on a ChangeResourceRecordSets request, see Limits in the Amazon Route 53 Developer Guide.

See Also:

AWS API Reference

◆ ChangeResourceRecordSetsAsync()

virtual void Aws::Route53::Route53Client::ChangeResourceRecordSetsAsync ( const Model::ChangeResourceRecordSetsRequest request,
const ChangeResourceRecordSetsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates, changes, or deletes a resource record set, which contains authoritative DNS information for a specified domain name or subdomain name. For example, you can use ChangeResourceRecordSets to create a resource record set that routes traffic for test.example.com to a web server that has an IP address of 192.0.2.44.

Deleting Resource Record Sets

To delete a resource record set, you must specify all the same values that you specified when you created it.

Change Batches and Transactional Changes

The request body must include a document with a ChangeResourceRecordSetsRequest element. The request body contains a list of change items, known as a change batch. Change batches are considered transactional changes. Route 53 validates the changes in the request and then either makes all or none of the changes in the change batch request. This ensures that DNS routing isn't adversely affected by partial changes to the resource record sets in a hosted zone.

For example, suppose a change batch request contains two changes: it deletes the CNAME resource record set for www.example.com and creates an alias resource record set for www.example.com. If validation for both records succeeds, Route 53 deletes the first resource record set and creates the second resource record set in a single operation. If validation for either the DELETE or the CREATE action fails, then the request is canceled, and the original CNAME record continues to exist.

If you try to delete the same resource record set more than once in a single change batch, Route 53 returns an InvalidChangeBatch error.

Traffic Flow

To create resource record sets for complex routing configurations, use either the traffic flow visual editor in the Route 53 console or the API actions for traffic policies and traffic policy instances. Save the configuration as a traffic policy, then associate the traffic policy with one or more domain names (such as example.com) or subdomain names (such as www.example.com), in the same hosted zone or in multiple hosted zones. You can roll back the updates if the new configuration isn't performing as expected. For more information, see Using Traffic Flow to Route DNS Traffic in the Amazon Route 53 Developer Guide.

Create, Delete, and Upsert

Use ChangeResourceRecordsSetsRequest to perform the following actions:

  • CREATE: Creates a resource record set that has the specified values.

  • DELETE: Deletes an existing resource record set that has the specified values.

  • UPSERT: If a resource record set does not already exist, AWS creates it. If a resource set does exist, Route 53 updates it with the values in the request.

Syntaxes for Creating, Updating, and Deleting Resource Record Sets

The syntax for a request depends on the type of resource record set that you want to create, delete, or update, such as weighted, alias, or failover. The XML elements in your request must appear in the order listed in the syntax.

For an example for each type of resource record set, see "Examples."

Don't refer to the syntax in the "Parameter Syntax" section, which includes all of the elements for every kind of resource record set that you can create, delete, or update by using ChangeResourceRecordSets.

Change Propagation to Route 53 DNS Servers

When you submit a ChangeResourceRecordSets request, Route 53 propagates your changes to all of the Route 53 authoritative DNS servers. While your changes are propagating, GetChange returns a status of PENDING. When propagation is complete, GetChange returns a status of INSYNC. Changes generally propagate to all Route 53 name servers within 60 seconds. For more information, see GetChange.

Limits on ChangeResourceRecordSets Requests

For information about the limits on a ChangeResourceRecordSets request, see Limits in the Amazon Route 53 Developer Guide.

See Also:

AWS API Reference

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

◆ ChangeResourceRecordSetsCallable()

virtual Model::ChangeResourceRecordSetsOutcomeCallable Aws::Route53::Route53Client::ChangeResourceRecordSetsCallable ( const Model::ChangeResourceRecordSetsRequest request) const
virtual

Creates, changes, or deletes a resource record set, which contains authoritative DNS information for a specified domain name or subdomain name. For example, you can use ChangeResourceRecordSets to create a resource record set that routes traffic for test.example.com to a web server that has an IP address of 192.0.2.44.

Deleting Resource Record Sets

To delete a resource record set, you must specify all the same values that you specified when you created it.

Change Batches and Transactional Changes

The request body must include a document with a ChangeResourceRecordSetsRequest element. The request body contains a list of change items, known as a change batch. Change batches are considered transactional changes. Route 53 validates the changes in the request and then either makes all or none of the changes in the change batch request. This ensures that DNS routing isn't adversely affected by partial changes to the resource record sets in a hosted zone.

For example, suppose a change batch request contains two changes: it deletes the CNAME resource record set for www.example.com and creates an alias resource record set for www.example.com. If validation for both records succeeds, Route 53 deletes the first resource record set and creates the second resource record set in a single operation. If validation for either the DELETE or the CREATE action fails, then the request is canceled, and the original CNAME record continues to exist.

If you try to delete the same resource record set more than once in a single change batch, Route 53 returns an InvalidChangeBatch error.

Traffic Flow

To create resource record sets for complex routing configurations, use either the traffic flow visual editor in the Route 53 console or the API actions for traffic policies and traffic policy instances. Save the configuration as a traffic policy, then associate the traffic policy with one or more domain names (such as example.com) or subdomain names (such as www.example.com), in the same hosted zone or in multiple hosted zones. You can roll back the updates if the new configuration isn't performing as expected. For more information, see Using Traffic Flow to Route DNS Traffic in the Amazon Route 53 Developer Guide.

Create, Delete, and Upsert

Use ChangeResourceRecordsSetsRequest to perform the following actions:

  • CREATE: Creates a resource record set that has the specified values.

  • DELETE: Deletes an existing resource record set that has the specified values.

  • UPSERT: If a resource record set does not already exist, AWS creates it. If a resource set does exist, Route 53 updates it with the values in the request.

Syntaxes for Creating, Updating, and Deleting Resource Record Sets

The syntax for a request depends on the type of resource record set that you want to create, delete, or update, such as weighted, alias, or failover. The XML elements in your request must appear in the order listed in the syntax.

For an example for each type of resource record set, see "Examples."

Don't refer to the syntax in the "Parameter Syntax" section, which includes all of the elements for every kind of resource record set that you can create, delete, or update by using ChangeResourceRecordSets.

Change Propagation to Route 53 DNS Servers

When you submit a ChangeResourceRecordSets request, Route 53 propagates your changes to all of the Route 53 authoritative DNS servers. While your changes are propagating, GetChange returns a status of PENDING. When propagation is complete, GetChange returns a status of INSYNC. Changes generally propagate to all Route 53 name servers within 60 seconds. For more information, see GetChange.

Limits on ChangeResourceRecordSets Requests

For information about the limits on a ChangeResourceRecordSets request, see Limits in the Amazon Route 53 Developer Guide.

See Also:

AWS API Reference

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

◆ ChangeTagsForResource()

virtual Model::ChangeTagsForResourceOutcome Aws::Route53::Route53Client::ChangeTagsForResource ( const Model::ChangeTagsForResourceRequest request) const
virtual

Adds, edits, or deletes tags for a health check or a hosted zone.

For information about using tags for cost allocation, see Using Cost Allocation Tags in the AWS Billing and Cost Management User Guide.

See Also:

AWS API Reference

◆ ChangeTagsForResourceAsync()

virtual void Aws::Route53::Route53Client::ChangeTagsForResourceAsync ( const Model::ChangeTagsForResourceRequest request,
const ChangeTagsForResourceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Adds, edits, or deletes tags for a health check or a hosted zone.

For information about using tags for cost allocation, see Using Cost Allocation Tags in the AWS Billing and Cost Management User Guide.

See Also:

AWS API Reference

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

◆ ChangeTagsForResourceCallable()

virtual Model::ChangeTagsForResourceOutcomeCallable Aws::Route53::Route53Client::ChangeTagsForResourceCallable ( const Model::ChangeTagsForResourceRequest request) const
virtual

Adds, edits, or deletes tags for a health check or a hosted zone.

For information about using tags for cost allocation, see Using Cost Allocation Tags in the AWS Billing and Cost Management User Guide.

See Also:

AWS API Reference

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

◆ CreateHealthCheck()

virtual Model::CreateHealthCheckOutcome Aws::Route53::Route53Client::CreateHealthCheck ( const Model::CreateHealthCheckRequest request) const
virtual

Creates a new health check.

For information about adding health checks to resource record sets, see HealthCheckId in ChangeResourceRecordSets.

ELB Load Balancers

If you're registering EC2 instances with an Elastic Load Balancing (ELB) load balancer, do not create Amazon Route 53 health checks for the EC2 instances. When you register an EC2 instance with a load balancer, you configure settings for an ELB health check, which performs a similar function to a Route 53 health check.

Private Hosted Zones

You can associate health checks with failover resource record sets in a private hosted zone. Note the following:

  • Route 53 health checkers are outside the VPC. To check the health of an endpoint within a VPC by IP address, you must assign a public IP address to the instance in the VPC.

  • You can configure a health checker to check the health of an external resource that the instance relies on, such as a database server.

  • You can create a CloudWatch metric, associate an alarm with the metric, and then create a health check that is based on the state of the alarm. For example, you might create a CloudWatch metric that checks the status of the Amazon EC2 StatusCheckFailed metric, add an alarm to the metric, and then create a health check that is based on the state of the alarm. For information about creating CloudWatch metrics and alarms by using the CloudWatch console, see the Amazon CloudWatch User Guide.

See Also:

AWS API Reference

◆ CreateHealthCheckAsync()

virtual void Aws::Route53::Route53Client::CreateHealthCheckAsync ( const Model::CreateHealthCheckRequest request,
const CreateHealthCheckResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a new health check.

For information about adding health checks to resource record sets, see HealthCheckId in ChangeResourceRecordSets.

ELB Load Balancers

If you're registering EC2 instances with an Elastic Load Balancing (ELB) load balancer, do not create Amazon Route 53 health checks for the EC2 instances. When you register an EC2 instance with a load balancer, you configure settings for an ELB health check, which performs a similar function to a Route 53 health check.

Private Hosted Zones

You can associate health checks with failover resource record sets in a private hosted zone. Note the following:

  • Route 53 health checkers are outside the VPC. To check the health of an endpoint within a VPC by IP address, you must assign a public IP address to the instance in the VPC.

  • You can configure a health checker to check the health of an external resource that the instance relies on, such as a database server.

  • You can create a CloudWatch metric, associate an alarm with the metric, and then create a health check that is based on the state of the alarm. For example, you might create a CloudWatch metric that checks the status of the Amazon EC2 StatusCheckFailed metric, add an alarm to the metric, and then create a health check that is based on the state of the alarm. For information about creating CloudWatch metrics and alarms by using the CloudWatch console, see the Amazon CloudWatch User Guide.

See Also:

AWS API Reference

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

◆ CreateHealthCheckCallable()

virtual Model::CreateHealthCheckOutcomeCallable Aws::Route53::Route53Client::CreateHealthCheckCallable ( const Model::CreateHealthCheckRequest request) const
virtual

Creates a new health check.

For information about adding health checks to resource record sets, see HealthCheckId in ChangeResourceRecordSets.

ELB Load Balancers

If you're registering EC2 instances with an Elastic Load Balancing (ELB) load balancer, do not create Amazon Route 53 health checks for the EC2 instances. When you register an EC2 instance with a load balancer, you configure settings for an ELB health check, which performs a similar function to a Route 53 health check.

Private Hosted Zones

You can associate health checks with failover resource record sets in a private hosted zone. Note the following:

  • Route 53 health checkers are outside the VPC. To check the health of an endpoint within a VPC by IP address, you must assign a public IP address to the instance in the VPC.

  • You can configure a health checker to check the health of an external resource that the instance relies on, such as a database server.

  • You can create a CloudWatch metric, associate an alarm with the metric, and then create a health check that is based on the state of the alarm. For example, you might create a CloudWatch metric that checks the status of the Amazon EC2 StatusCheckFailed metric, add an alarm to the metric, and then create a health check that is based on the state of the alarm. For information about creating CloudWatch metrics and alarms by using the CloudWatch console, see the Amazon CloudWatch User Guide.

See Also:

AWS API Reference

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

◆ CreateHostedZone()

virtual Model::CreateHostedZoneOutcome Aws::Route53::Route53Client::CreateHostedZone ( const Model::CreateHostedZoneRequest request) const
virtual

Creates a new public or private hosted zone. You create records in a public hosted zone to define how you want to route traffic on the internet for a domain, such as example.com, and its subdomains (apex.example.com, acme.example.com). You create records in a private hosted zone to define how you want to route traffic for a domain and its subdomains within one or more Amazon Virtual Private Clouds (Amazon VPCs).

You can't convert a public hosted zone to a private hosted zone or vice versa. Instead, you must create a new hosted zone with the same name and create new resource record sets.

For more information about charges for hosted zones, see Amazon Route 53 Pricing.

Note the following:

  • You can't create a hosted zone for a top-level domain (TLD) such as .com.

  • For public hosted zones, Route 53 automatically creates a default SOA record and four NS records for the zone. For more information about SOA and NS records, see NS and SOA Records that Route 53 Creates for a Hosted Zone in the Amazon Route 53 Developer Guide.

    If you want to use the same name servers for multiple public hosted zones, you can optionally associate a reusable delegation set with the hosted zone. See the DelegationSetId element.

  • If your domain is registered with a registrar other than Route 53, you must update the name servers with your registrar to make Route 53 the DNS service for the domain. For more information, see Migrating DNS Service for an Existing Domain to Amazon Route 53 in the Amazon Route 53 Developer Guide.

When you submit a CreateHostedZone request, the initial status of the hosted zone is PENDING. For public hosted zones, this means that the NS and SOA records are not yet available on all Route 53 DNS servers. When the NS and SOA records are available, the status of the zone changes to INSYNC.

See Also:

AWS API Reference

◆ CreateHostedZoneAsync()

virtual void Aws::Route53::Route53Client::CreateHostedZoneAsync ( const Model::CreateHostedZoneRequest request,
const CreateHostedZoneResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a new public or private hosted zone. You create records in a public hosted zone to define how you want to route traffic on the internet for a domain, such as example.com, and its subdomains (apex.example.com, acme.example.com). You create records in a private hosted zone to define how you want to route traffic for a domain and its subdomains within one or more Amazon Virtual Private Clouds (Amazon VPCs).

You can't convert a public hosted zone to a private hosted zone or vice versa. Instead, you must create a new hosted zone with the same name and create new resource record sets.

For more information about charges for hosted zones, see Amazon Route 53 Pricing.

Note the following:

  • You can't create a hosted zone for a top-level domain (TLD) such as .com.

  • For public hosted zones, Route 53 automatically creates a default SOA record and four NS records for the zone. For more information about SOA and NS records, see NS and SOA Records that Route 53 Creates for a Hosted Zone in the Amazon Route 53 Developer Guide.

    If you want to use the same name servers for multiple public hosted zones, you can optionally associate a reusable delegation set with the hosted zone. See the DelegationSetId element.

  • If your domain is registered with a registrar other than Route 53, you must update the name servers with your registrar to make Route 53 the DNS service for the domain. For more information, see Migrating DNS Service for an Existing Domain to Amazon Route 53 in the Amazon Route 53 Developer Guide.

When you submit a CreateHostedZone request, the initial status of the hosted zone is PENDING. For public hosted zones, this means that the NS and SOA records are not yet available on all Route 53 DNS servers. When the NS and SOA records are available, the status of the zone changes to INSYNC.

See Also:

AWS API Reference

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

◆ CreateHostedZoneCallable()

virtual Model::CreateHostedZoneOutcomeCallable Aws::Route53::Route53Client::CreateHostedZoneCallable ( const Model::CreateHostedZoneRequest request) const
virtual

Creates a new public or private hosted zone. You create records in a public hosted zone to define how you want to route traffic on the internet for a domain, such as example.com, and its subdomains (apex.example.com, acme.example.com). You create records in a private hosted zone to define how you want to route traffic for a domain and its subdomains within one or more Amazon Virtual Private Clouds (Amazon VPCs).

You can't convert a public hosted zone to a private hosted zone or vice versa. Instead, you must create a new hosted zone with the same name and create new resource record sets.

For more information about charges for hosted zones, see Amazon Route 53 Pricing.

Note the following:

  • You can't create a hosted zone for a top-level domain (TLD) such as .com.

  • For public hosted zones, Route 53 automatically creates a default SOA record and four NS records for the zone. For more information about SOA and NS records, see NS and SOA Records that Route 53 Creates for a Hosted Zone in the Amazon Route 53 Developer Guide.

    If you want to use the same name servers for multiple public hosted zones, you can optionally associate a reusable delegation set with the hosted zone. See the DelegationSetId element.

  • If your domain is registered with a registrar other than Route 53, you must update the name servers with your registrar to make Route 53 the DNS service for the domain. For more information, see Migrating DNS Service for an Existing Domain to Amazon Route 53 in the Amazon Route 53 Developer Guide.

When you submit a CreateHostedZone request, the initial status of the hosted zone is PENDING. For public hosted zones, this means that the NS and SOA records are not yet available on all Route 53 DNS servers. When the NS and SOA records are available, the status of the zone changes to INSYNC.

See Also:

AWS API Reference

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

◆ CreateQueryLoggingConfig()

virtual Model::CreateQueryLoggingConfigOutcome Aws::Route53::Route53Client::CreateQueryLoggingConfig ( const Model::CreateQueryLoggingConfigRequest request) const
virtual

Creates a configuration for DNS query logging. After you create a query logging configuration, Amazon Route 53 begins to publish log data to an Amazon CloudWatch Logs log group.

DNS query logs contain information about the queries that Route 53 receives for a specified public hosted zone, such as the following:

  • Route 53 edge location that responded to the DNS query

  • Domain or subdomain that was requested

  • DNS record type, such as A or AAAA

  • DNS response code, such as NoError or ServFail

Log Group and Resource Policy

Before you create a query logging configuration, perform the following operations.

If you create a query logging configuration using the Route 53 console, Route 53 performs these operations automatically.

  1. Create a CloudWatch Logs log group, and make note of the ARN, which you specify when you create a query logging configuration. Note the following:

    • You must create the log group in the us-east-1 region.

    • You must use the same AWS account to create the log group and the hosted zone that you want to configure query logging for.

    • When you create log groups for query logging, we recommend that you use a consistent prefix, for example:

      /aws/route53/hosted zone name

      In the next step, you'll create a resource policy, which controls access to one or more log groups and the associated AWS resources, such as Route 53 hosted zones. There's a limit on the number of resource policies that you can create, so we recommend that you use a consistent prefix so you can use the same resource policy for all the log groups that you create for query logging.

  2. Create a CloudWatch Logs resource policy, and give it the permissions that Route 53 needs to create log streams and to send query logs to log streams. For the value of Resource, specify the ARN for the log group that you created in the previous step. To use the same resource policy for all the CloudWatch Logs log groups that you created for query logging configurations, replace the hosted zone name with *, for example:

    arn:aws:logs:us-east-1:123412341234:log-group:/aws/route53/ *

    You can't use the CloudWatch console to create or edit a resource policy. You must use the CloudWatch API, one of the AWS SDKs, or the AWS CLI.

Log Streams and Edge Locations

When Route 53 finishes creating the configuration for DNS query logging, it does the following:

  • Creates a log stream for an edge location the first time that the edge location responds to DNS queries for the specified hosted zone. That log stream is used to log all queries that Route 53 responds to for that edge location.

  • Begins to send query logs to the applicable log stream.

The name of each log stream is in the following format:

hosted zone ID/edge location code

The edge location code is a three-letter code and an arbitrarily assigned number, for example, DFW3. The three-letter code typically corresponds with the International Air Transport Association airport code for an airport near the edge location. (These abbreviations might change in the future.) For a list of edge locations, see "The Route 53 Global Network" on the Route 53 Product Details page.

Queries That Are Logged

Query logs contain only the queries that DNS resolvers forward to Route 53. If a DNS resolver has already cached the response to a query (such as the IP address for a load balancer for example.com), the resolver will continue to return the cached response. It doesn't forward another query to Route 53 until the TTL for the corresponding resource record set expires. Depending on how many DNS queries are submitted for a resource record set, and depending on the TTL for that resource record set, query logs might contain information about only one query out of every several thousand queries that are submitted to DNS. For more information about how DNS works, see Routing Internet Traffic to Your Website or Web Application in the Amazon Route 53 Developer Guide.

Log File Format

For a list of the values in each query log and the format of each value, see Logging DNS Queries in the Amazon Route 53 Developer Guide.

Pricing

For information about charges for query logs, see Amazon CloudWatch Pricing.

How to Stop Logging

If you want Route 53 to stop sending query logs to CloudWatch Logs, delete the query logging configuration. For more information, see DeleteQueryLoggingConfig.

See Also:

AWS API Reference

◆ CreateQueryLoggingConfigAsync()

virtual void Aws::Route53::Route53Client::CreateQueryLoggingConfigAsync ( const Model::CreateQueryLoggingConfigRequest request,
const CreateQueryLoggingConfigResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a configuration for DNS query logging. After you create a query logging configuration, Amazon Route 53 begins to publish log data to an Amazon CloudWatch Logs log group.

DNS query logs contain information about the queries that Route 53 receives for a specified public hosted zone, such as the following:

  • Route 53 edge location that responded to the DNS query

  • Domain or subdomain that was requested

  • DNS record type, such as A or AAAA

  • DNS response code, such as NoError or ServFail

Log Group and Resource Policy

Before you create a query logging configuration, perform the following operations.

If you create a query logging configuration using the Route 53 console, Route 53 performs these operations automatically.

  1. Create a CloudWatch Logs log group, and make note of the ARN, which you specify when you create a query logging configuration. Note the following:

    • You must create the log group in the us-east-1 region.

    • You must use the same AWS account to create the log group and the hosted zone that you want to configure query logging for.

    • When you create log groups for query logging, we recommend that you use a consistent prefix, for example:

      /aws/route53/hosted zone name

      In the next step, you'll create a resource policy, which controls access to one or more log groups and the associated AWS resources, such as Route 53 hosted zones. There's a limit on the number of resource policies that you can create, so we recommend that you use a consistent prefix so you can use the same resource policy for all the log groups that you create for query logging.

  2. Create a CloudWatch Logs resource policy, and give it the permissions that Route 53 needs to create log streams and to send query logs to log streams. For the value of Resource, specify the ARN for the log group that you created in the previous step. To use the same resource policy for all the CloudWatch Logs log groups that you created for query logging configurations, replace the hosted zone name with *, for example:

    arn:aws:logs:us-east-1:123412341234:log-group:/aws/route53/ *

    You can't use the CloudWatch console to create or edit a resource policy. You must use the CloudWatch API, one of the AWS SDKs, or the AWS CLI.

Log Streams and Edge Locations

When Route 53 finishes creating the configuration for DNS query logging, it does the following:

  • Creates a log stream for an edge location the first time that the edge location responds to DNS queries for the specified hosted zone. That log stream is used to log all queries that Route 53 responds to for that edge location.

  • Begins to send query logs to the applicable log stream.

The name of each log stream is in the following format:

hosted zone ID/edge location code

The edge location code is a three-letter code and an arbitrarily assigned number, for example, DFW3. The three-letter code typically corresponds with the International Air Transport Association airport code for an airport near the edge location. (These abbreviations might change in the future.) For a list of edge locations, see "The Route 53 Global Network" on the Route 53 Product Details page.

Queries That Are Logged

Query logs contain only the queries that DNS resolvers forward to Route 53. If a DNS resolver has already cached the response to a query (such as the IP address for a load balancer for example.com), the resolver will continue to return the cached response. It doesn't forward another query to Route 53 until the TTL for the corresponding resource record set expires. Depending on how many DNS queries are submitted for a resource record set, and depending on the TTL for that resource record set, query logs might contain information about only one query out of every several thousand queries that are submitted to DNS. For more information about how DNS works, see Routing Internet Traffic to Your Website or Web Application in the Amazon Route 53 Developer Guide.

Log File Format

For a list of the values in each query log and the format of each value, see Logging DNS Queries in the Amazon Route 53 Developer Guide.

Pricing

For information about charges for query logs, see Amazon CloudWatch Pricing.

How to Stop Logging

If you want Route 53 to stop sending query logs to CloudWatch Logs, delete the query logging configuration. For more information, see DeleteQueryLoggingConfig.

See Also:

AWS API Reference

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

◆ CreateQueryLoggingConfigCallable()

virtual Model::CreateQueryLoggingConfigOutcomeCallable Aws::Route53::Route53Client::CreateQueryLoggingConfigCallable ( const Model::CreateQueryLoggingConfigRequest request) const
virtual

Creates a configuration for DNS query logging. After you create a query logging configuration, Amazon Route 53 begins to publish log data to an Amazon CloudWatch Logs log group.

DNS query logs contain information about the queries that Route 53 receives for a specified public hosted zone, such as the following:

  • Route 53 edge location that responded to the DNS query

  • Domain or subdomain that was requested

  • DNS record type, such as A or AAAA

  • DNS response code, such as NoError or ServFail

Log Group and Resource Policy

Before you create a query logging configuration, perform the following operations.

If you create a query logging configuration using the Route 53 console, Route 53 performs these operations automatically.

  1. Create a CloudWatch Logs log group, and make note of the ARN, which you specify when you create a query logging configuration. Note the following:

    • You must create the log group in the us-east-1 region.

    • You must use the same AWS account to create the log group and the hosted zone that you want to configure query logging for.

    • When you create log groups for query logging, we recommend that you use a consistent prefix, for example:

      /aws/route53/hosted zone name

      In the next step, you'll create a resource policy, which controls access to one or more log groups and the associated AWS resources, such as Route 53 hosted zones. There's a limit on the number of resource policies that you can create, so we recommend that you use a consistent prefix so you can use the same resource policy for all the log groups that you create for query logging.

  2. Create a CloudWatch Logs resource policy, and give it the permissions that Route 53 needs to create log streams and to send query logs to log streams. For the value of Resource, specify the ARN for the log group that you created in the previous step. To use the same resource policy for all the CloudWatch Logs log groups that you created for query logging configurations, replace the hosted zone name with *, for example:

    arn:aws:logs:us-east-1:123412341234:log-group:/aws/route53/ *

    You can't use the CloudWatch console to create or edit a resource policy. You must use the CloudWatch API, one of the AWS SDKs, or the AWS CLI.

Log Streams and Edge Locations

When Route 53 finishes creating the configuration for DNS query logging, it does the following:

  • Creates a log stream for an edge location the first time that the edge location responds to DNS queries for the specified hosted zone. That log stream is used to log all queries that Route 53 responds to for that edge location.

  • Begins to send query logs to the applicable log stream.

The name of each log stream is in the following format:

hosted zone ID/edge location code

The edge location code is a three-letter code and an arbitrarily assigned number, for example, DFW3. The three-letter code typically corresponds with the International Air Transport Association airport code for an airport near the edge location. (These abbreviations might change in the future.) For a list of edge locations, see "The Route 53 Global Network" on the Route 53 Product Details page.

Queries That Are Logged

Query logs contain only the queries that DNS resolvers forward to Route 53. If a DNS resolver has already cached the response to a query (such as the IP address for a load balancer for example.com), the resolver will continue to return the cached response. It doesn't forward another query to Route 53 until the TTL for the corresponding resource record set expires. Depending on how many DNS queries are submitted for a resource record set, and depending on the TTL for that resource record set, query logs might contain information about only one query out of every several thousand queries that are submitted to DNS. For more information about how DNS works, see Routing Internet Traffic to Your Website or Web Application in the Amazon Route 53 Developer Guide.

Log File Format

For a list of the values in each query log and the format of each value, see Logging DNS Queries in the Amazon Route 53 Developer Guide.

Pricing

For information about charges for query logs, see Amazon CloudWatch Pricing.

How to Stop Logging

If you want Route 53 to stop sending query logs to CloudWatch Logs, delete the query logging configuration. For more information, see DeleteQueryLoggingConfig.

See Also:

AWS API Reference

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

◆ CreateReusableDelegationSet()

virtual Model::CreateReusableDelegationSetOutcome Aws::Route53::Route53Client::CreateReusableDelegationSet ( const Model::CreateReusableDelegationSetRequest request) const
virtual

Creates a delegation set (a group of four name servers) that can be reused by multiple hosted zones that were created by the same AWS account.

You can also create a reusable delegation set that uses the four name servers that are associated with an existing hosted zone. Specify the hosted zone ID in the CreateReusableDelegationSet request.

You can't associate a reusable delegation set with a private hosted zone.

For information about using a reusable delegation set to configure white label name servers, see Configuring White Label Name Servers.

The process for migrating existing hosted zones to use a reusable delegation set is comparable to the process for configuring white label name servers. You need to perform the following steps:

  1. Create a reusable delegation set.

  2. Recreate hosted zones, and reduce the TTL to 60 seconds or less.

  3. Recreate resource record sets in the new hosted zones.

  4. Change the registrar's name servers to use the name servers for the new hosted zones.

  5. Monitor traffic for the website or application.

  6. Change TTLs back to their original values.

If you want to migrate existing hosted zones to use a reusable delegation set, the existing hosted zones can't use any of the name servers that are assigned to the reusable delegation set. If one or more hosted zones do use one or more name servers that are assigned to the reusable delegation set, you can do one of the following:

  • For small numbers of hosted zones—up to a few hundred—it's relatively easy to create reusable delegation sets until you get one that has four name servers that don't overlap with any of the name servers in your hosted zones.

  • For larger numbers of hosted zones, the easiest solution is to use more than one reusable delegation set.

  • For larger numbers of hosted zones, you can also migrate hosted zones that have overlapping name servers to hosted zones that don't have overlapping name servers, then migrate the hosted zones again to use the reusable delegation set.

See Also:

AWS API Reference

◆ CreateReusableDelegationSetAsync()

virtual void Aws::Route53::Route53Client::CreateReusableDelegationSetAsync ( const Model::CreateReusableDelegationSetRequest request,
const CreateReusableDelegationSetResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a delegation set (a group of four name servers) that can be reused by multiple hosted zones that were created by the same AWS account.

You can also create a reusable delegation set that uses the four name servers that are associated with an existing hosted zone. Specify the hosted zone ID in the CreateReusableDelegationSet request.

You can't associate a reusable delegation set with a private hosted zone.

For information about using a reusable delegation set to configure white label name servers, see Configuring White Label Name Servers.

The process for migrating existing hosted zones to use a reusable delegation set is comparable to the process for configuring white label name servers. You need to perform the following steps:

  1. Create a reusable delegation set.

  2. Recreate hosted zones, and reduce the TTL to 60 seconds or less.

  3. Recreate resource record sets in the new hosted zones.

  4. Change the registrar's name servers to use the name servers for the new hosted zones.

  5. Monitor traffic for the website or application.

  6. Change TTLs back to their original values.

If you want to migrate existing hosted zones to use a reusable delegation set, the existing hosted zones can't use any of the name servers that are assigned to the reusable delegation set. If one or more hosted zones do use one or more name servers that are assigned to the reusable delegation set, you can do one of the following:

  • For small numbers of hosted zones—up to a few hundred—it's relatively easy to create reusable delegation sets until you get one that has four name servers that don't overlap with any of the name servers in your hosted zones.

  • For larger numbers of hosted zones, the easiest solution is to use more than one reusable delegation set.

  • For larger numbers of hosted zones, you can also migrate hosted zones that have overlapping name servers to hosted zones that don't have overlapping name servers, then migrate the hosted zones again to use the reusable delegation set.

See Also:

AWS API Reference

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

◆ CreateReusableDelegationSetCallable()

virtual Model::CreateReusableDelegationSetOutcomeCallable Aws::Route53::Route53Client::CreateReusableDelegationSetCallable ( const Model::CreateReusableDelegationSetRequest request) const
virtual

Creates a delegation set (a group of four name servers) that can be reused by multiple hosted zones that were created by the same AWS account.

You can also create a reusable delegation set that uses the four name servers that are associated with an existing hosted zone. Specify the hosted zone ID in the CreateReusableDelegationSet request.

You can't associate a reusable delegation set with a private hosted zone.

For information about using a reusable delegation set to configure white label name servers, see Configuring White Label Name Servers.

The process for migrating existing hosted zones to use a reusable delegation set is comparable to the process for configuring white label name servers. You need to perform the following steps:

  1. Create a reusable delegation set.

  2. Recreate hosted zones, and reduce the TTL to 60 seconds or less.

  3. Recreate resource record sets in the new hosted zones.

  4. Change the registrar's name servers to use the name servers for the new hosted zones.

  5. Monitor traffic for the website or application.

  6. Change TTLs back to their original values.

If you want to migrate existing hosted zones to use a reusable delegation set, the existing hosted zones can't use any of the name servers that are assigned to the reusable delegation set. If one or more hosted zones do use one or more name servers that are assigned to the reusable delegation set, you can do one of the following:

  • For small numbers of hosted zones—up to a few hundred—it's relatively easy to create reusable delegation sets until you get one that has four name servers that don't overlap with any of the name servers in your hosted zones.

  • For larger numbers of hosted zones, the easiest solution is to use more than one reusable delegation set.

  • For larger numbers of hosted zones, you can also migrate hosted zones that have overlapping name servers to hosted zones that don't have overlapping name servers, then migrate the hosted zones again to use the reusable delegation set.

See Also:

AWS API Reference

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

◆ CreateTrafficPolicy()

virtual Model::CreateTrafficPolicyOutcome Aws::Route53::Route53Client::CreateTrafficPolicy ( const Model::CreateTrafficPolicyRequest request) const
virtual

Creates a traffic policy, which you use to create multiple DNS resource record sets for one domain name (such as example.com) or one subdomain name (such as www.example.com).

See Also:

AWS API Reference

◆ CreateTrafficPolicyAsync()

virtual void Aws::Route53::Route53Client::CreateTrafficPolicyAsync ( const Model::CreateTrafficPolicyRequest request,
const CreateTrafficPolicyResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a traffic policy, which you use to create multiple DNS resource record sets for one domain name (such as example.com) or one subdomain name (such as www.example.com).

See Also:

AWS API Reference

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

◆ CreateTrafficPolicyCallable()

virtual Model::CreateTrafficPolicyOutcomeCallable Aws::Route53::Route53Client::CreateTrafficPolicyCallable ( const Model::CreateTrafficPolicyRequest request) const
virtual

Creates a traffic policy, which you use to create multiple DNS resource record sets for one domain name (such as example.com) or one subdomain name (such as www.example.com).

See Also:

AWS API Reference

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

◆ CreateTrafficPolicyInstance()

virtual Model::CreateTrafficPolicyInstanceOutcome Aws::Route53::Route53Client::CreateTrafficPolicyInstance ( const Model::CreateTrafficPolicyInstanceRequest request) const
virtual

Creates resource record sets in a specified hosted zone based on the settings in a specified traffic policy version. In addition, CreateTrafficPolicyInstance associates the resource record sets with a specified domain name (such as example.com) or subdomain name (such as www.example.com). Amazon Route 53 responds to DNS queries for the domain or subdomain name by using the resource record sets that CreateTrafficPolicyInstance created.

See Also:

AWS API Reference

◆ CreateTrafficPolicyInstanceAsync()

virtual void Aws::Route53::Route53Client::CreateTrafficPolicyInstanceAsync ( const Model::CreateTrafficPolicyInstanceRequest request,
const CreateTrafficPolicyInstanceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates resource record sets in a specified hosted zone based on the settings in a specified traffic policy version. In addition, CreateTrafficPolicyInstance associates the resource record sets with a specified domain name (such as example.com) or subdomain name (such as www.example.com). Amazon Route 53 responds to DNS queries for the domain or subdomain name by using the resource record sets that CreateTrafficPolicyInstance created.

See Also:

AWS API Reference

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

◆ CreateTrafficPolicyInstanceCallable()

virtual Model::CreateTrafficPolicyInstanceOutcomeCallable Aws::Route53::Route53Client::CreateTrafficPolicyInstanceCallable ( const Model::CreateTrafficPolicyInstanceRequest request) const
virtual

Creates resource record sets in a specified hosted zone based on the settings in a specified traffic policy version. In addition, CreateTrafficPolicyInstance associates the resource record sets with a specified domain name (such as example.com) or subdomain name (such as www.example.com). Amazon Route 53 responds to DNS queries for the domain or subdomain name by using the resource record sets that CreateTrafficPolicyInstance created.

See Also:

AWS API Reference

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

◆ CreateTrafficPolicyVersion()

virtual Model::CreateTrafficPolicyVersionOutcome Aws::Route53::Route53Client::CreateTrafficPolicyVersion ( const Model::CreateTrafficPolicyVersionRequest request) const
virtual

Creates a new version of an existing traffic policy. When you create a new version of a traffic policy, you specify the ID of the traffic policy that you want to update and a JSON-formatted document that describes the new version. You use traffic policies to create multiple DNS resource record sets for one domain name (such as example.com) or one subdomain name (such as www.example.com). You can create a maximum of 1000 versions of a traffic policy. If you reach the limit and need to create another version, you'll need to start a new traffic policy.

See Also:

AWS API Reference

◆ CreateTrafficPolicyVersionAsync()

virtual void Aws::Route53::Route53Client::CreateTrafficPolicyVersionAsync ( const Model::CreateTrafficPolicyVersionRequest request,
const CreateTrafficPolicyVersionResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a new version of an existing traffic policy. When you create a new version of a traffic policy, you specify the ID of the traffic policy that you want to update and a JSON-formatted document that describes the new version. You use traffic policies to create multiple DNS resource record sets for one domain name (such as example.com) or one subdomain name (such as www.example.com). You can create a maximum of 1000 versions of a traffic policy. If you reach the limit and need to create another version, you'll need to start a new traffic policy.

See Also:

AWS API Reference

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

◆ CreateTrafficPolicyVersionCallable()

virtual Model::CreateTrafficPolicyVersionOutcomeCallable Aws::Route53::Route53Client::CreateTrafficPolicyVersionCallable ( const Model::CreateTrafficPolicyVersionRequest request) const
virtual

Creates a new version of an existing traffic policy. When you create a new version of a traffic policy, you specify the ID of the traffic policy that you want to update and a JSON-formatted document that describes the new version. You use traffic policies to create multiple DNS resource record sets for one domain name (such as example.com) or one subdomain name (such as www.example.com). You can create a maximum of 1000 versions of a traffic policy. If you reach the limit and need to create another version, you'll need to start a new traffic policy.

See Also:

AWS API Reference

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

◆ CreateVPCAssociationAuthorization()

virtual Model::CreateVPCAssociationAuthorizationOutcome Aws::Route53::Route53Client::CreateVPCAssociationAuthorization ( const Model::CreateVPCAssociationAuthorizationRequest request) const
virtual

Authorizes the AWS account that created a specified VPC to submit an AssociateVPCWithHostedZone request to associate the VPC with a specified hosted zone that was created by a different account. To submit a CreateVPCAssociationAuthorization request, you must use the account that created the hosted zone. After you authorize the association, use the account that created the VPC to submit an AssociateVPCWithHostedZone request.

If you want to associate multiple VPCs that you created by using one account with a hosted zone that you created by using a different account, you must submit one authorization request for each VPC.

See Also:

AWS API Reference

◆ CreateVPCAssociationAuthorizationAsync()

virtual void Aws::Route53::Route53Client::CreateVPCAssociationAuthorizationAsync ( const Model::CreateVPCAssociationAuthorizationRequest request,
const CreateVPCAssociationAuthorizationResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Authorizes the AWS account that created a specified VPC to submit an AssociateVPCWithHostedZone request to associate the VPC with a specified hosted zone that was created by a different account. To submit a CreateVPCAssociationAuthorization request, you must use the account that created the hosted zone. After you authorize the association, use the account that created the VPC to submit an AssociateVPCWithHostedZone request.

If you want to associate multiple VPCs that you created by using one account with a hosted zone that you created by using a different account, you must submit one authorization request for each VPC.

See Also:

AWS API Reference

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

◆ CreateVPCAssociationAuthorizationCallable()

virtual Model::CreateVPCAssociationAuthorizationOutcomeCallable Aws::Route53::Route53Client::CreateVPCAssociationAuthorizationCallable ( const Model::CreateVPCAssociationAuthorizationRequest request) const
virtual

Authorizes the AWS account that created a specified VPC to submit an AssociateVPCWithHostedZone request to associate the VPC with a specified hosted zone that was created by a different account. To submit a CreateVPCAssociationAuthorization request, you must use the account that created the hosted zone. After you authorize the association, use the account that created the VPC to submit an AssociateVPCWithHostedZone request.

If you want to associate multiple VPCs that you created by using one account with a hosted zone that you created by using a different account, you must submit one authorization request for each VPC.

See Also:

AWS API Reference

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

◆ DeleteHealthCheck()

virtual Model::DeleteHealthCheckOutcome Aws::Route53::Route53Client::DeleteHealthCheck ( const Model::DeleteHealthCheckRequest request) const
virtual

Deletes a health check.

Amazon Route 53 does not prevent you from deleting a health check even if the health check is associated with one or more resource record sets. If you delete a health check and you don't update the associated resource record sets, the future status of the health check can't be predicted and may change. This will affect the routing of DNS queries for your DNS failover configuration. For more information, see Replacing and Deleting Health Checks in the Amazon Route 53 Developer Guide.

If you're using AWS Cloud Map and you configured Cloud Map to create a Route 53 health check when you register an instance, you can't use the Route 53 DeleteHealthCheck command to delete the health check. The health check is deleted automatically when you deregister the instance; there can be a delay of several hours before the health check is deleted from Route 53.

See Also:

AWS API Reference

◆ DeleteHealthCheckAsync()

virtual void Aws::Route53::Route53Client::DeleteHealthCheckAsync ( const Model::DeleteHealthCheckRequest request,
const DeleteHealthCheckResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes a health check.

Amazon Route 53 does not prevent you from deleting a health check even if the health check is associated with one or more resource record sets. If you delete a health check and you don't update the associated resource record sets, the future status of the health check can't be predicted and may change. This will affect the routing of DNS queries for your DNS failover configuration. For more information, see Replacing and Deleting Health Checks in the Amazon Route 53 Developer Guide.

If you're using AWS Cloud Map and you configured Cloud Map to create a Route 53 health check when you register an instance, you can't use the Route 53 DeleteHealthCheck command to delete the health check. The health check is deleted automatically when you deregister the instance; there can be a delay of several hours before the health check is deleted from Route 53.

See Also:

AWS API Reference

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

◆ DeleteHealthCheckCallable()

virtual Model::DeleteHealthCheckOutcomeCallable Aws::Route53::Route53Client::DeleteHealthCheckCallable ( const Model::DeleteHealthCheckRequest request) const
virtual

Deletes a health check.

Amazon Route 53 does not prevent you from deleting a health check even if the health check is associated with one or more resource record sets. If you delete a health check and you don't update the associated resource record sets, the future status of the health check can't be predicted and may change. This will affect the routing of DNS queries for your DNS failover configuration. For more information, see Replacing and Deleting Health Checks in the Amazon Route 53 Developer Guide.

If you're using AWS Cloud Map and you configured Cloud Map to create a Route 53 health check when you register an instance, you can't use the Route 53 DeleteHealthCheck command to delete the health check. The health check is deleted automatically when you deregister the instance; there can be a delay of several hours before the health check is deleted from Route 53.

See Also:

AWS API Reference

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

◆ DeleteHostedZone()

virtual Model::DeleteHostedZoneOutcome Aws::Route53::Route53Client::DeleteHostedZone ( const Model::DeleteHostedZoneRequest request) const
virtual

Deletes a hosted zone.

If the hosted zone was created by another service, such as AWS Cloud Map, see Deleting Public Hosted Zones That Were Created by Another Service in the Amazon Route 53 Developer Guide for information about how to delete it. (The process is the same for public and private hosted zones that were created by another service.)

If you want to keep your domain registration but you want to stop routing internet traffic to your website or web application, we recommend that you delete resource record sets in the hosted zone instead of deleting the hosted zone.

If you delete a hosted zone, you can't undelete it. You must create a new hosted zone and update the name servers for your domain registration, which can require up to 48 hours to take effect. (If you delegated responsibility for a subdomain to a hosted zone and you delete the child hosted zone, you must update the name servers in the parent hosted zone.) In addition, if you delete a hosted zone, someone could hijack the domain and route traffic to their own resources using your domain name.

If you want to avoid the monthly charge for the hosted zone, you can transfer DNS service for the domain to a free DNS service. When you transfer DNS service, you have to update the name servers for the domain registration. If the domain is registered with Route 53, see UpdateDomainNameservers for information about how to replace Route 53 name servers with name servers for the new DNS service. If the domain is registered with another registrar, use the method provided by the registrar to update name servers for the domain registration. For more information, perform an internet search on "free DNS service."

You can delete a hosted zone only if it contains only the default SOA record and NS resource record sets. If the hosted zone contains other resource record sets, you must delete them before you can delete the hosted zone. If you try to delete a hosted zone that contains other resource record sets, the request fails, and Route 53 returns a HostedZoneNotEmpty error. For information about deleting records from your hosted zone, see ChangeResourceRecordSets.

To verify that the hosted zone has been deleted, do one of the following:

  • Use the GetHostedZone action to request information about the hosted zone.

  • Use the ListHostedZones action to get a list of the hosted zones associated with the current AWS account.

See Also:

AWS API Reference

◆ DeleteHostedZoneAsync()

virtual void Aws::Route53::Route53Client::DeleteHostedZoneAsync ( const Model::DeleteHostedZoneRequest request,
const DeleteHostedZoneResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes a hosted zone.

If the hosted zone was created by another service, such as AWS Cloud Map, see Deleting Public Hosted Zones That Were Created by Another Service in the Amazon Route 53 Developer Guide for information about how to delete it. (The process is the same for public and private hosted zones that were created by another service.)

If you want to keep your domain registration but you want to stop routing internet traffic to your website or web application, we recommend that you delete resource record sets in the hosted zone instead of deleting the hosted zone.

If you delete a hosted zone, you can't undelete it. You must create a new hosted zone and update the name servers for your domain registration, which can require up to 48 hours to take effect. (If you delegated responsibility for a subdomain to a hosted zone and you delete the child hosted zone, you must update the name servers in the parent hosted zone.) In addition, if you delete a hosted zone, someone could hijack the domain and route traffic to their own resources using your domain name.

If you want to avoid the monthly charge for the hosted zone, you can transfer DNS service for the domain to a free DNS service. When you transfer DNS service, you have to update the name servers for the domain registration. If the domain is registered with Route 53, see UpdateDomainNameservers for information about how to replace Route 53 name servers with name servers for the new DNS service. If the domain is registered with another registrar, use the method provided by the registrar to update name servers for the domain registration. For more information, perform an internet search on "free DNS service."

You can delete a hosted zone only if it contains only the default SOA record and NS resource record sets. If the hosted zone contains other resource record sets, you must delete them before you can delete the hosted zone. If you try to delete a hosted zone that contains other resource record sets, the request fails, and Route 53 returns a HostedZoneNotEmpty error. For information about deleting records from your hosted zone, see ChangeResourceRecordSets.

To verify that the hosted zone has been deleted, do one of the following:

  • Use the GetHostedZone action to request information about the hosted zone.

  • Use the ListHostedZones action to get a list of the hosted zones associated with the current AWS account.

See Also:

AWS API Reference

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

◆ DeleteHostedZoneCallable()

virtual Model::DeleteHostedZoneOutcomeCallable Aws::Route53::Route53Client::DeleteHostedZoneCallable ( const Model::DeleteHostedZoneRequest request) const
virtual

Deletes a hosted zone.

If the hosted zone was created by another service, such as AWS Cloud Map, see Deleting Public Hosted Zones That Were Created by Another Service in the Amazon Route 53 Developer Guide for information about how to delete it. (The process is the same for public and private hosted zones that were created by another service.)

If you want to keep your domain registration but you want to stop routing internet traffic to your website or web application, we recommend that you delete resource record sets in the hosted zone instead of deleting the hosted zone.

If you delete a hosted zone, you can't undelete it. You must create a new hosted zone and update the name servers for your domain registration, which can require up to 48 hours to take effect. (If you delegated responsibility for a subdomain to a hosted zone and you delete the child hosted zone, you must update the name servers in the parent hosted zone.) In addition, if you delete a hosted zone, someone could hijack the domain and route traffic to their own resources using your domain name.

If you want to avoid the monthly charge for the hosted zone, you can transfer DNS service for the domain to a free DNS service. When you transfer DNS service, you have to update the name servers for the domain registration. If the domain is registered with Route 53, see UpdateDomainNameservers for information about how to replace Route 53 name servers with name servers for the new DNS service. If the domain is registered with another registrar, use the method provided by the registrar to update name servers for the domain registration. For more information, perform an internet search on "free DNS service."

You can delete a hosted zone only if it contains only the default SOA record and NS resource record sets. If the hosted zone contains other resource record sets, you must delete them before you can delete the hosted zone. If you try to delete a hosted zone that contains other resource record sets, the request fails, and Route 53 returns a HostedZoneNotEmpty error. For information about deleting records from your hosted zone, see ChangeResourceRecordSets.

To verify that the hosted zone has been deleted, do one of the following:

  • Use the GetHostedZone action to request information about the hosted zone.

  • Use the ListHostedZones action to get a list of the hosted zones associated with the current AWS account.

See Also:

AWS API Reference

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

◆ DeleteQueryLoggingConfig()

virtual Model::DeleteQueryLoggingConfigOutcome Aws::Route53::Route53Client::DeleteQueryLoggingConfig ( const Model::DeleteQueryLoggingConfigRequest request) const
virtual

Deletes a configuration for DNS query logging. If you delete a configuration, Amazon Route 53 stops sending query logs to CloudWatch Logs. Route 53 doesn't delete any logs that are already in CloudWatch Logs.

For more information about DNS query logs, see CreateQueryLoggingConfig.

See Also:

AWS API Reference

◆ DeleteQueryLoggingConfigAsync()

virtual void Aws::Route53::Route53Client::DeleteQueryLoggingConfigAsync ( const Model::DeleteQueryLoggingConfigRequest request,
const DeleteQueryLoggingConfigResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes a configuration for DNS query logging. If you delete a configuration, Amazon Route 53 stops sending query logs to CloudWatch Logs. Route 53 doesn't delete any logs that are already in CloudWatch Logs.

For more information about DNS query logs, see CreateQueryLoggingConfig.

See Also:

AWS API Reference

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

◆ DeleteQueryLoggingConfigCallable()

virtual Model::DeleteQueryLoggingConfigOutcomeCallable Aws::Route53::Route53Client::DeleteQueryLoggingConfigCallable ( const Model::DeleteQueryLoggingConfigRequest request) const
virtual

Deletes a configuration for DNS query logging. If you delete a configuration, Amazon Route 53 stops sending query logs to CloudWatch Logs. Route 53 doesn't delete any logs that are already in CloudWatch Logs.

For more information about DNS query logs, see CreateQueryLoggingConfig.

See Also:

AWS API Reference

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

◆ DeleteReusableDelegationSet()

virtual Model::DeleteReusableDelegationSetOutcome Aws::Route53::Route53Client::DeleteReusableDelegationSet ( const Model::DeleteReusableDelegationSetRequest request) const
virtual

Deletes a reusable delegation set.

You can delete a reusable delegation set only if it isn't associated with any hosted zones.

To verify that the reusable delegation set is not associated with any hosted zones, submit a GetReusableDelegationSet request and specify the ID of the reusable delegation set that you want to delete.

See Also:

AWS API Reference

◆ DeleteReusableDelegationSetAsync()

virtual void Aws::Route53::Route53Client::DeleteReusableDelegationSetAsync ( const Model::DeleteReusableDelegationSetRequest request,
const DeleteReusableDelegationSetResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes a reusable delegation set.

You can delete a reusable delegation set only if it isn't associated with any hosted zones.

To verify that the reusable delegation set is not associated with any hosted zones, submit a GetReusableDelegationSet request and specify the ID of the reusable delegation set that you want to delete.

See Also:

AWS API Reference

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

◆ DeleteReusableDelegationSetCallable()

virtual Model::DeleteReusableDelegationSetOutcomeCallable Aws::Route53::Route53Client::DeleteReusableDelegationSetCallable ( const Model::DeleteReusableDelegationSetRequest request) const
virtual

Deletes a reusable delegation set.

You can delete a reusable delegation set only if it isn't associated with any hosted zones.

To verify that the reusable delegation set is not associated with any hosted zones, submit a GetReusableDelegationSet request and specify the ID of the reusable delegation set that you want to delete.

See Also:

AWS API Reference

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

◆ DeleteTrafficPolicy()

virtual Model::DeleteTrafficPolicyOutcome Aws::Route53::Route53Client::DeleteTrafficPolicy ( const Model::DeleteTrafficPolicyRequest request) const
virtual

Deletes a traffic policy.

When you delete a traffic policy, Route 53 sets a flag on the policy to indicate that it has been deleted. However, Route 53 never fully deletes the traffic policy. Note the following:

  • Deleted traffic policies aren't listed if you run ListTrafficPolicies.

  • There's no way to get a list of deleted policies.

  • If you retain the ID of the policy, you can get information about the policy, including the traffic policy document, by running GetTrafficPolicy.

See Also:

AWS API Reference

◆ DeleteTrafficPolicyAsync()

virtual void Aws::Route53::Route53Client::DeleteTrafficPolicyAsync ( const Model::DeleteTrafficPolicyRequest request,
const DeleteTrafficPolicyResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes a traffic policy.

When you delete a traffic policy, Route 53 sets a flag on the policy to indicate that it has been deleted. However, Route 53 never fully deletes the traffic policy. Note the following:

  • Deleted traffic policies aren't listed if you run ListTrafficPolicies.

  • There's no way to get a list of deleted policies.

  • If you retain the ID of the policy, you can get information about the policy, including the traffic policy document, by running GetTrafficPolicy.

See Also:

AWS API Reference

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

◆ DeleteTrafficPolicyCallable()

virtual Model::DeleteTrafficPolicyOutcomeCallable Aws::Route53::Route53Client::DeleteTrafficPolicyCallable ( const Model::DeleteTrafficPolicyRequest request) const
virtual

Deletes a traffic policy.

When you delete a traffic policy, Route 53 sets a flag on the policy to indicate that it has been deleted. However, Route 53 never fully deletes the traffic policy. Note the following:

  • Deleted traffic policies aren't listed if you run ListTrafficPolicies.

  • There's no way to get a list of deleted policies.

  • If you retain the ID of the policy, you can get information about the policy, including the traffic policy document, by running GetTrafficPolicy.

See Also:

AWS API Reference

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

◆ DeleteTrafficPolicyInstance()

virtual Model::DeleteTrafficPolicyInstanceOutcome Aws::Route53::Route53Client::DeleteTrafficPolicyInstance ( const Model::DeleteTrafficPolicyInstanceRequest request) const
virtual

Deletes a traffic policy instance and all of the resource record sets that Amazon Route 53 created when you created the instance.

In the Route 53 console, traffic policy instances are known as policy records.

See Also:

AWS API Reference

◆ DeleteTrafficPolicyInstanceAsync()

virtual void Aws::Route53::Route53Client::DeleteTrafficPolicyInstanceAsync ( const Model::DeleteTrafficPolicyInstanceRequest request,
const DeleteTrafficPolicyInstanceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes a traffic policy instance and all of the resource record sets that Amazon Route 53 created when you created the instance.

In the Route 53 console, traffic policy instances are known as policy records.

See Also:

AWS API Reference

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

◆ DeleteTrafficPolicyInstanceCallable()

virtual Model::DeleteTrafficPolicyInstanceOutcomeCallable Aws::Route53::Route53Client::DeleteTrafficPolicyInstanceCallable ( const Model::DeleteTrafficPolicyInstanceRequest request) const
virtual

Deletes a traffic policy instance and all of the resource record sets that Amazon Route 53 created when you created the instance.

In the Route 53 console, traffic policy instances are known as policy records.

See Also:

AWS API Reference

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

◆ DeleteVPCAssociationAuthorization()

virtual Model::DeleteVPCAssociationAuthorizationOutcome Aws::Route53::Route53Client::DeleteVPCAssociationAuthorization ( const Model::DeleteVPCAssociationAuthorizationRequest request) const
virtual

Removes authorization to submit an AssociateVPCWithHostedZone request to associate a specified VPC with a hosted zone that was created by a different account. You must use the account that created the hosted zone to submit a DeleteVPCAssociationAuthorization request.

Sending this request only prevents the AWS account that created the VPC from associating the VPC with the Amazon Route 53 hosted zone in the future. If the VPC is already associated with the hosted zone, DeleteVPCAssociationAuthorization won't disassociate the VPC from the hosted zone. If you want to delete an existing association, use DisassociateVPCFromHostedZone.

See Also:

AWS API Reference

◆ DeleteVPCAssociationAuthorizationAsync()

virtual void Aws::Route53::Route53Client::DeleteVPCAssociationAuthorizationAsync ( const Model::DeleteVPCAssociationAuthorizationRequest request,
const DeleteVPCAssociationAuthorizationResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Removes authorization to submit an AssociateVPCWithHostedZone request to associate a specified VPC with a hosted zone that was created by a different account. You must use the account that created the hosted zone to submit a DeleteVPCAssociationAuthorization request.

Sending this request only prevents the AWS account that created the VPC from associating the VPC with the Amazon Route 53 hosted zone in the future. If the VPC is already associated with the hosted zone, DeleteVPCAssociationAuthorization won't disassociate the VPC from the hosted zone. If you want to delete an existing association, use DisassociateVPCFromHostedZone.

See Also:

AWS API Reference

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

◆ DeleteVPCAssociationAuthorizationCallable()

virtual Model::DeleteVPCAssociationAuthorizationOutcomeCallable Aws::Route53::Route53Client::DeleteVPCAssociationAuthorizationCallable ( const Model::DeleteVPCAssociationAuthorizationRequest request) const
virtual

Removes authorization to submit an AssociateVPCWithHostedZone request to associate a specified VPC with a hosted zone that was created by a different account. You must use the account that created the hosted zone to submit a DeleteVPCAssociationAuthorization request.

Sending this request only prevents the AWS account that created the VPC from associating the VPC with the Amazon Route 53 hosted zone in the future. If the VPC is already associated with the hosted zone, DeleteVPCAssociationAuthorization won't disassociate the VPC from the hosted zone. If you want to delete an existing association, use DisassociateVPCFromHostedZone.

See Also:

AWS API Reference

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

◆ DisassociateVPCFromHostedZone()

virtual Model::DisassociateVPCFromHostedZoneOutcome Aws::Route53::Route53Client::DisassociateVPCFromHostedZone ( const Model::DisassociateVPCFromHostedZoneRequest request) const
virtual

Disassociates an Amazon Virtual Private Cloud (Amazon VPC) from an Amazon Route 53 private hosted zone. Note the following:

  • You can't disassociate the last Amazon VPC from a private hosted zone.

  • You can't convert a private hosted zone into a public hosted zone.

  • You can submit a DisassociateVPCFromHostedZone request using either the account that created the hosted zone or the account that created the Amazon VPC.

  • Some services, such as AWS Cloud Map and Amazon Elastic File System (Amazon EFS) automatically create hosted zones and associate VPCs with the hosted zones. A service can create a hosted zone using your account or using its own account. You can disassociate a VPC from a hosted zone only if the service created the hosted zone using your account.

    When you run DisassociateVPCFromHostedZone, if the hosted zone has a value for OwningAccount, you can use DisassociateVPCFromHostedZone. If the hosted zone has a value for OwningService, you can't use DisassociateVPCFromHostedZone.

See Also:

AWS API Reference

◆ DisassociateVPCFromHostedZoneAsync()

virtual void Aws::Route53::Route53Client::DisassociateVPCFromHostedZoneAsync ( const Model::DisassociateVPCFromHostedZoneRequest request,
const DisassociateVPCFromHostedZoneResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Disassociates an Amazon Virtual Private Cloud (Amazon VPC) from an Amazon Route 53 private hosted zone. Note the following:

  • You can't disassociate the last Amazon VPC from a private hosted zone.

  • You can't convert a private hosted zone into a public hosted zone.

  • You can submit a DisassociateVPCFromHostedZone request using either the account that created the hosted zone or the account that created the Amazon VPC.

  • Some services, such as AWS Cloud Map and Amazon Elastic File System (Amazon EFS) automatically create hosted zones and associate VPCs with the hosted zones. A service can create a hosted zone using your account or using its own account. You can disassociate a VPC from a hosted zone only if the service created the hosted zone using your account.

    When you run DisassociateVPCFromHostedZone, if the hosted zone has a value for OwningAccount, you can use DisassociateVPCFromHostedZone. If the hosted zone has a value for OwningService, you can't use DisassociateVPCFromHostedZone.

See Also:

AWS API Reference

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

◆ DisassociateVPCFromHostedZoneCallable()

virtual Model::DisassociateVPCFromHostedZoneOutcomeCallable Aws::Route53::Route53Client::DisassociateVPCFromHostedZoneCallable ( const Model::DisassociateVPCFromHostedZoneRequest request) const
virtual

Disassociates an Amazon Virtual Private Cloud (Amazon VPC) from an Amazon Route 53 private hosted zone. Note the following:

  • You can't disassociate the last Amazon VPC from a private hosted zone.

  • You can't convert a private hosted zone into a public hosted zone.

  • You can submit a DisassociateVPCFromHostedZone request using either the account that created the hosted zone or the account that created the Amazon VPC.

  • Some services, such as AWS Cloud Map and Amazon Elastic File System (Amazon EFS) automatically create hosted zones and associate VPCs with the hosted zones. A service can create a hosted zone using your account or using its own account. You can disassociate a VPC from a hosted zone only if the service created the hosted zone using your account.

    When you run DisassociateVPCFromHostedZone, if the hosted zone has a value for OwningAccount, you can use DisassociateVPCFromHostedZone. If the hosted zone has a value for OwningService, you can't use DisassociateVPCFromHostedZone.

See Also:

AWS API Reference

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

◆ GetAccountLimit()

virtual Model::GetAccountLimitOutcome Aws::Route53::Route53Client::GetAccountLimit ( const Model::GetAccountLimitRequest request) const
virtual

Gets the specified limit for the current account, for example, the maximum number of health checks that you can create using the account.

For the default limit, see Limits in the Amazon Route 53 Developer Guide. To request a higher limit, open a case.

You can also view account limits in AWS Trusted Advisor. Sign in to the AWS Management Console and open the Trusted Advisor console at https://console.aws.amazon.com/trustedadvisor/. Then choose Service limits in the navigation pane.

See Also:

AWS API Reference

◆ GetAccountLimitAsync()

virtual void Aws::Route53::Route53Client::GetAccountLimitAsync ( const Model::GetAccountLimitRequest request,
const GetAccountLimitResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets the specified limit for the current account, for example, the maximum number of health checks that you can create using the account.

For the default limit, see Limits in the Amazon Route 53 Developer Guide. To request a higher limit, open a case.

You can also view account limits in AWS Trusted Advisor. Sign in to the AWS Management Console and open the Trusted Advisor console at https://console.aws.amazon.com/trustedadvisor/. Then choose Service limits in the navigation pane.

See Also:

AWS API Reference

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

◆ GetAccountLimitCallable()

virtual Model::GetAccountLimitOutcomeCallable Aws::Route53::Route53Client::GetAccountLimitCallable ( const Model::GetAccountLimitRequest request) const
virtual

Gets the specified limit for the current account, for example, the maximum number of health checks that you can create using the account.

For the default limit, see Limits in the Amazon Route 53 Developer Guide. To request a higher limit, open a case.

You can also view account limits in AWS Trusted Advisor. Sign in to the AWS Management Console and open the Trusted Advisor console at https://console.aws.amazon.com/trustedadvisor/. Then choose Service limits in the navigation pane.

See Also:

AWS API Reference

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

◆ GetChange()

virtual Model::GetChangeOutcome Aws::Route53::Route53Client::GetChange ( const Model::GetChangeRequest request) const
virtual

Returns the current status of a change batch request. The status is one of the following values:

  • PENDING indicates that the changes in this request have not propagated to all Amazon Route 53 DNS servers. This is the initial status of all change batch requests.

  • INSYNC indicates that the changes have propagated to all Route 53 DNS servers.

See Also:

AWS API Reference

◆ GetChangeAsync()

virtual void Aws::Route53::Route53Client::GetChangeAsync ( const Model::GetChangeRequest request,
const GetChangeResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Returns the current status of a change batch request. The status is one of the following values:

  • PENDING indicates that the changes in this request have not propagated to all Amazon Route 53 DNS servers. This is the initial status of all change batch requests.

  • INSYNC indicates that the changes have propagated to all Route 53 DNS servers.

See Also:

AWS API Reference

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

◆ GetChangeCallable()

virtual Model::GetChangeOutcomeCallable Aws::Route53::Route53Client::GetChangeCallable ( const Model::GetChangeRequest request) const
virtual

Returns the current status of a change batch request. The status is one of the following values:

  • PENDING indicates that the changes in this request have not propagated to all Amazon Route 53 DNS servers. This is the initial status of all change batch requests.

  • INSYNC indicates that the changes have propagated to all Route 53 DNS servers.

See Also:

AWS API Reference

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

◆ GetCheckerIpRanges()

virtual Model::GetCheckerIpRangesOutcome Aws::Route53::Route53Client::GetCheckerIpRanges ( const Model::GetCheckerIpRangesRequest request) const
virtual

GetCheckerIpRanges still works, but we recommend that you download ip-ranges.json, which includes IP address ranges for all AWS services. For more information, see IP Address Ranges of Amazon Route 53 Servers in the Amazon Route 53 Developer Guide.

See Also:

AWS API Reference

◆ GetCheckerIpRangesAsync()

virtual void Aws::Route53::Route53Client::GetCheckerIpRangesAsync ( const Model::GetCheckerIpRangesRequest request,
const GetCheckerIpRangesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

GetCheckerIpRanges still works, but we recommend that you download ip-ranges.json, which includes IP address ranges for all AWS services. For more information, see IP Address Ranges of Amazon Route 53 Servers in the Amazon Route 53 Developer Guide.

See Also:

AWS API Reference

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

◆ GetCheckerIpRangesCallable()

virtual Model::GetCheckerIpRangesOutcomeCallable Aws::Route53::Route53Client::GetCheckerIpRangesCallable ( const Model::GetCheckerIpRangesRequest request) const
virtual

GetCheckerIpRanges still works, but we recommend that you download ip-ranges.json, which includes IP address ranges for all AWS services. For more information, see IP Address Ranges of Amazon Route 53 Servers in the Amazon Route 53 Developer Guide.

See Also:

AWS API Reference

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

◆ GetGeoLocation()

virtual Model::GetGeoLocationOutcome Aws::Route53::Route53Client::GetGeoLocation ( const Model::GetGeoLocationRequest request) const
virtual

Gets information about whether a specified geographic location is supported for Amazon Route 53 geolocation resource record sets.

Use the following syntax to determine whether a continent is supported for geolocation:

GET /2013-04-01/geolocation?continentcode=two-letter abbreviation for a continent

Use the following syntax to determine whether a country is supported for geolocation:

GET /2013-04-01/geolocation?countrycode=two-character country code

Use the following syntax to determine whether a subdivision of a country is supported for geolocation:

GET /2013-04-01/geolocation?countrycode=two-character country code&subdivisioncode=subdivision code

See Also:

AWS API Reference

◆ GetGeoLocationAsync()

virtual void Aws::Route53::Route53Client::GetGeoLocationAsync ( const Model::GetGeoLocationRequest request,
const GetGeoLocationResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets information about whether a specified geographic location is supported for Amazon Route 53 geolocation resource record sets.

Use the following syntax to determine whether a continent is supported for geolocation:

GET /2013-04-01/geolocation?continentcode=two-letter abbreviation for a continent

Use the following syntax to determine whether a country is supported for geolocation:

GET /2013-04-01/geolocation?countrycode=two-character country code

Use the following syntax to determine whether a subdivision of a country is supported for geolocation:

GET /2013-04-01/geolocation?countrycode=two-character country code&subdivisioncode=subdivision code

See Also:

AWS API Reference

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

◆ GetGeoLocationCallable()

virtual Model::GetGeoLocationOutcomeCallable Aws::Route53::Route53Client::GetGeoLocationCallable ( const Model::GetGeoLocationRequest request) const
virtual

Gets information about whether a specified geographic location is supported for Amazon Route 53 geolocation resource record sets.

Use the following syntax to determine whether a continent is supported for geolocation:

GET /2013-04-01/geolocation?continentcode=two-letter abbreviation for a continent

Use the following syntax to determine whether a country is supported for geolocation:

GET /2013-04-01/geolocation?countrycode=two-character country code

Use the following syntax to determine whether a subdivision of a country is supported for geolocation:

GET /2013-04-01/geolocation?countrycode=two-character country code&subdivisioncode=subdivision code

See Also:

AWS API Reference

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

◆ GetHealthCheck()

virtual Model::GetHealthCheckOutcome Aws::Route53::Route53Client::GetHealthCheck ( const Model::GetHealthCheckRequest request) const
virtual

Gets information about a specified health check.

See Also:

AWS API Reference

◆ GetHealthCheckAsync()

virtual void Aws::Route53::Route53Client::GetHealthCheckAsync ( const Model::GetHealthCheckRequest request,
const GetHealthCheckResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets information about a specified health check.

See Also:

AWS API Reference

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

◆ GetHealthCheckCallable()

virtual Model::GetHealthCheckOutcomeCallable Aws::Route53::Route53Client::GetHealthCheckCallable ( const Model::GetHealthCheckRequest request) const
virtual

Gets information about a specified health check.

See Also:

AWS API Reference

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

◆ GetHealthCheckCount()

virtual Model::GetHealthCheckCountOutcome Aws::Route53::Route53Client::GetHealthCheckCount ( const Model::GetHealthCheckCountRequest request) const
virtual

Retrieves the number of health checks that are associated with the current AWS account.

See Also:

AWS API Reference

◆ GetHealthCheckCountAsync()

virtual void Aws::Route53::Route53Client::GetHealthCheckCountAsync ( const Model::GetHealthCheckCountRequest request,
const GetHealthCheckCountResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Retrieves the number of health checks that are associated with the current AWS account.

See Also:

AWS API Reference

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

◆ GetHealthCheckCountCallable()

virtual Model::GetHealthCheckCountOutcomeCallable Aws::Route53::Route53Client::GetHealthCheckCountCallable ( const Model::GetHealthCheckCountRequest request) const
virtual

Retrieves the number of health checks that are associated with the current AWS account.

See Also:

AWS API Reference

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

◆ GetHealthCheckLastFailureReason()

virtual Model::GetHealthCheckLastFailureReasonOutcome Aws::Route53::Route53Client::GetHealthCheckLastFailureReason ( const Model::GetHealthCheckLastFailureReasonRequest request) const
virtual

Gets the reason that a specified health check failed most recently.

See Also:

AWS API Reference

◆ GetHealthCheckLastFailureReasonAsync()

virtual void Aws::Route53::Route53Client::GetHealthCheckLastFailureReasonAsync ( const Model::GetHealthCheckLastFailureReasonRequest request,
const GetHealthCheckLastFailureReasonResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets the reason that a specified health check failed most recently.

See Also:

AWS API Reference

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

◆ GetHealthCheckLastFailureReasonCallable()

virtual Model::GetHealthCheckLastFailureReasonOutcomeCallable Aws::Route53::Route53Client::GetHealthCheckLastFailureReasonCallable ( const Model::GetHealthCheckLastFailureReasonRequest request) const
virtual

Gets the reason that a specified health check failed most recently.

See Also:

AWS API Reference

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

◆ GetHealthCheckStatus()

virtual Model::GetHealthCheckStatusOutcome Aws::Route53::Route53Client::GetHealthCheckStatus ( const Model::GetHealthCheckStatusRequest request) const
virtual

Gets status of a specified health check.

See Also:

AWS API Reference

◆ GetHealthCheckStatusAsync()

virtual void Aws::Route53::Route53Client::GetHealthCheckStatusAsync ( const Model::GetHealthCheckStatusRequest request,
const GetHealthCheckStatusResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets status of a specified health check.

See Also:

AWS API Reference

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

◆ GetHealthCheckStatusCallable()

virtual Model::GetHealthCheckStatusOutcomeCallable Aws::Route53::Route53Client::GetHealthCheckStatusCallable ( const Model::GetHealthCheckStatusRequest request) const
virtual

Gets status of a specified health check.

See Also:

AWS API Reference

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

◆ GetHostedZone()

virtual Model::GetHostedZoneOutcome Aws::Route53::Route53Client::GetHostedZone ( const Model::GetHostedZoneRequest request) const
virtual

Gets information about a specified hosted zone including the four name servers assigned to the hosted zone.

See Also:

AWS API Reference

◆ GetHostedZoneAsync()

virtual void Aws::Route53::Route53Client::GetHostedZoneAsync ( const Model::GetHostedZoneRequest request,
const GetHostedZoneResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets information about a specified hosted zone including the four name servers assigned to the hosted zone.

See Also:

AWS API Reference

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

◆ GetHostedZoneCallable()

virtual Model::GetHostedZoneOutcomeCallable Aws::Route53::Route53Client::GetHostedZoneCallable ( const Model::GetHostedZoneRequest request) const
virtual

Gets information about a specified hosted zone including the four name servers assigned to the hosted zone.

See Also:

AWS API Reference

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

◆ GetHostedZoneCount()

virtual Model::GetHostedZoneCountOutcome Aws::Route53::Route53Client::GetHostedZoneCount ( const Model::GetHostedZoneCountRequest request) const
virtual

Retrieves the number of hosted zones that are associated with the current AWS account.

See Also:

AWS API Reference

◆ GetHostedZoneCountAsync()

virtual void Aws::Route53::Route53Client::GetHostedZoneCountAsync ( const Model::GetHostedZoneCountRequest request,
const GetHostedZoneCountResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Retrieves the number of hosted zones that are associated with the current AWS account.

See Also:

AWS API Reference

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

◆ GetHostedZoneCountCallable()

virtual Model::GetHostedZoneCountOutcomeCallable Aws::Route53::Route53Client::GetHostedZoneCountCallable ( const Model::GetHostedZoneCountRequest request) const
virtual

Retrieves the number of hosted zones that are associated with the current AWS account.

See Also:

AWS API Reference

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

◆ GetHostedZoneLimit()

virtual Model::GetHostedZoneLimitOutcome Aws::Route53::Route53Client::GetHostedZoneLimit ( const Model::GetHostedZoneLimitRequest request) const
virtual

Gets the specified limit for a specified hosted zone, for example, the maximum number of records that you can create in the hosted zone.

For the default limit, see Limits in the Amazon Route 53 Developer Guide. To request a higher limit, open a case.

See Also:

AWS API Reference

◆ GetHostedZoneLimitAsync()

virtual void Aws::Route53::Route53Client::GetHostedZoneLimitAsync ( const Model::GetHostedZoneLimitRequest request,
const GetHostedZoneLimitResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets the specified limit for a specified hosted zone, for example, the maximum number of records that you can create in the hosted zone.

For the default limit, see Limits in the Amazon Route 53 Developer Guide. To request a higher limit, open a case.

See Also:

AWS API Reference

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

◆ GetHostedZoneLimitCallable()

virtual Model::GetHostedZoneLimitOutcomeCallable Aws::Route53::Route53Client::GetHostedZoneLimitCallable ( const Model::GetHostedZoneLimitRequest request) const
virtual

Gets the specified limit for a specified hosted zone, for example, the maximum number of records that you can create in the hosted zone.

For the default limit, see Limits in the Amazon Route 53 Developer Guide. To request a higher limit, open a case.

See Also:

AWS API Reference

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

◆ GetQueryLoggingConfig()

virtual Model::GetQueryLoggingConfigOutcome Aws::Route53::Route53Client::GetQueryLoggingConfig ( const Model::GetQueryLoggingConfigRequest request) const
virtual

Gets information about a specified configuration for DNS query logging.

For more information about DNS query logs, see CreateQueryLoggingConfig and Logging DNS Queries.

See Also:

AWS API Reference

◆ GetQueryLoggingConfigAsync()

virtual void Aws::Route53::Route53Client::GetQueryLoggingConfigAsync ( const Model::GetQueryLoggingConfigRequest request,
const GetQueryLoggingConfigResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets information about a specified configuration for DNS query logging.

For more information about DNS query logs, see CreateQueryLoggingConfig and Logging DNS Queries.

See Also:

AWS API Reference

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

◆ GetQueryLoggingConfigCallable()

virtual Model::GetQueryLoggingConfigOutcomeCallable Aws::Route53::Route53Client::GetQueryLoggingConfigCallable ( const Model::GetQueryLoggingConfigRequest request) const
virtual

Gets information about a specified configuration for DNS query logging.

For more information about DNS query logs, see CreateQueryLoggingConfig and Logging DNS Queries.

See Also:

AWS API Reference

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

◆ GetReusableDelegationSet()

virtual Model::GetReusableDelegationSetOutcome Aws::Route53::Route53Client::GetReusableDelegationSet ( const Model::GetReusableDelegationSetRequest request) const
virtual

Retrieves information about a specified reusable delegation set, including the four name servers that are assigned to the delegation set.

See Also:

AWS API Reference

◆ GetReusableDelegationSetAsync()

virtual void Aws::Route53::Route53Client::GetReusableDelegationSetAsync ( const Model::GetReusableDelegationSetRequest request,
const GetReusableDelegationSetResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Retrieves information about a specified reusable delegation set, including the four name servers that are assigned to the delegation set.

See Also:

AWS API Reference

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

◆ GetReusableDelegationSetCallable()

virtual Model::GetReusableDelegationSetOutcomeCallable Aws::Route53::Route53Client::GetReusableDelegationSetCallable ( const Model::GetReusableDelegationSetRequest request) const
virtual

Retrieves information about a specified reusable delegation set, including the four name servers that are assigned to the delegation set.

See Also:

AWS API Reference

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

◆ GetReusableDelegationSetLimit()

virtual Model::GetReusableDelegationSetLimitOutcome Aws::Route53::Route53Client::GetReusableDelegationSetLimit ( const Model::GetReusableDelegationSetLimitRequest request) const
virtual

Gets the maximum number of hosted zones that you can associate with the specified reusable delegation set.

For the default limit, see Limits in the Amazon Route 53 Developer Guide. To request a higher limit, open a case.

See Also:

AWS API Reference

◆ GetReusableDelegationSetLimitAsync()

virtual void Aws::Route53::Route53Client::GetReusableDelegationSetLimitAsync ( const Model::GetReusableDelegationSetLimitRequest request,
const GetReusableDelegationSetLimitResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets the maximum number of hosted zones that you can associate with the specified reusable delegation set.

For the default limit, see Limits in the Amazon Route 53 Developer Guide. To request a higher limit, open a case.

See Also:

AWS API Reference

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

◆ GetReusableDelegationSetLimitCallable()

virtual Model::GetReusableDelegationSetLimitOutcomeCallable Aws::Route53::Route53Client::GetReusableDelegationSetLimitCallable ( const Model::GetReusableDelegationSetLimitRequest request) const
virtual

Gets the maximum number of hosted zones that you can associate with the specified reusable delegation set.

For the default limit, see Limits in the Amazon Route 53 Developer Guide. To request a higher limit, open a case.

See Also:

AWS API Reference

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

◆ GetTrafficPolicy()

virtual Model::GetTrafficPolicyOutcome Aws::Route53::Route53Client::GetTrafficPolicy ( const Model::GetTrafficPolicyRequest request) const
virtual

Gets information about a specific traffic policy version.

For information about how of deleting a traffic policy affects the response from GetTrafficPolicy, see DeleteTrafficPolicy.

See Also:

AWS API Reference

◆ GetTrafficPolicyAsync()

virtual void Aws::Route53::Route53Client::GetTrafficPolicyAsync ( const Model::GetTrafficPolicyRequest request,
const GetTrafficPolicyResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets information about a specific traffic policy version.

For information about how of deleting a traffic policy affects the response from GetTrafficPolicy, see DeleteTrafficPolicy.

See Also:

AWS API Reference

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

◆ GetTrafficPolicyCallable()

virtual Model::GetTrafficPolicyOutcomeCallable Aws::Route53::Route53Client::GetTrafficPolicyCallable ( const Model::GetTrafficPolicyRequest request) const
virtual

Gets information about a specific traffic policy version.

For information about how of deleting a traffic policy affects the response from GetTrafficPolicy, see DeleteTrafficPolicy.

See Also:

AWS API Reference

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

◆ GetTrafficPolicyInstance()

virtual Model::GetTrafficPolicyInstanceOutcome Aws::Route53::Route53Client::GetTrafficPolicyInstance ( const Model::GetTrafficPolicyInstanceRequest request) const
virtual

Gets information about a specified traffic policy instance.

After you submit a CreateTrafficPolicyInstance or an UpdateTrafficPolicyInstance request, there's a brief delay while Amazon Route 53 creates the resource record sets that are specified in the traffic policy definition. For more information, see the State response element.

In the Route 53 console, traffic policy instances are known as policy records.

See Also:

AWS API Reference

◆ GetTrafficPolicyInstanceAsync()

virtual void Aws::Route53::Route53Client::GetTrafficPolicyInstanceAsync ( const Model::GetTrafficPolicyInstanceRequest request,
const GetTrafficPolicyInstanceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets information about a specified traffic policy instance.

After you submit a CreateTrafficPolicyInstance or an UpdateTrafficPolicyInstance request, there's a brief delay while Amazon Route 53 creates the resource record sets that are specified in the traffic policy definition. For more information, see the State response element.

In the Route 53 console, traffic policy instances are known as policy records.

See Also:

AWS API Reference

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

◆ GetTrafficPolicyInstanceCallable()

virtual Model::GetTrafficPolicyInstanceOutcomeCallable Aws::Route53::Route53Client::GetTrafficPolicyInstanceCallable ( const Model::GetTrafficPolicyInstanceRequest request) const
virtual

Gets information about a specified traffic policy instance.

After you submit a CreateTrafficPolicyInstance or an UpdateTrafficPolicyInstance request, there's a brief delay while Amazon Route 53 creates the resource record sets that are specified in the traffic policy definition. For more information, see the State response element.

In the Route 53 console, traffic policy instances are known as policy records.

See Also:

AWS API Reference

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

◆ GetTrafficPolicyInstanceCount()

virtual Model::GetTrafficPolicyInstanceCountOutcome Aws::Route53::Route53Client::GetTrafficPolicyInstanceCount ( const Model::GetTrafficPolicyInstanceCountRequest request) const
virtual

Gets the number of traffic policy instances that are associated with the current AWS account.

See Also:

AWS API Reference

◆ GetTrafficPolicyInstanceCountAsync()

virtual void Aws::Route53::Route53Client::GetTrafficPolicyInstanceCountAsync ( const Model::GetTrafficPolicyInstanceCountRequest request,
const GetTrafficPolicyInstanceCountResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets the number of traffic policy instances that are associated with the current AWS account.

See Also:

AWS API Reference

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

◆ GetTrafficPolicyInstanceCountCallable()

virtual Model::GetTrafficPolicyInstanceCountOutcomeCallable Aws::Route53::Route53Client::GetTrafficPolicyInstanceCountCallable ( const Model::GetTrafficPolicyInstanceCountRequest request) const
virtual

Gets the number of traffic policy instances that are associated with the current AWS account.

See Also:

AWS API Reference

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

◆ ListGeoLocations()

virtual Model::ListGeoLocationsOutcome Aws::Route53::Route53Client::ListGeoLocations ( const Model::ListGeoLocationsRequest request) const
virtual

Retrieves a list of supported geographic locations.

Countries are listed first, and continents are listed last. If Amazon Route 53 supports subdivisions for a country (for example, states or provinces), the subdivisions for that country are listed in alphabetical order immediately after the corresponding country.

For a list of supported geolocation codes, see the GeoLocation data type.

See Also:

AWS API Reference

◆ ListGeoLocationsAsync()

virtual void Aws::Route53::Route53Client::ListGeoLocationsAsync ( const Model::ListGeoLocationsRequest request,
const ListGeoLocationsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Retrieves a list of supported geographic locations.

Countries are listed first, and continents are listed last. If Amazon Route 53 supports subdivisions for a country (for example, states or provinces), the subdivisions for that country are listed in alphabetical order immediately after the corresponding country.

For a list of supported geolocation codes, see the GeoLocation data type.

See Also:

AWS API Reference

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

◆ ListGeoLocationsCallable()

virtual Model::ListGeoLocationsOutcomeCallable Aws::Route53::Route53Client::ListGeoLocationsCallable ( const Model::ListGeoLocationsRequest request) const
virtual

Retrieves a list of supported geographic locations.

Countries are listed first, and continents are listed last. If Amazon Route 53 supports subdivisions for a country (for example, states or provinces), the subdivisions for that country are listed in alphabetical order immediately after the corresponding country.

For a list of supported geolocation codes, see the GeoLocation data type.

See Also:

AWS API Reference

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

◆ ListHealthChecks()

virtual Model::ListHealthChecksOutcome Aws::Route53::Route53Client::ListHealthChecks ( const Model::ListHealthChecksRequest request) const
virtual

Retrieve a list of the health checks that are associated with the current AWS account.

See Also:

AWS API Reference

◆ ListHealthChecksAsync()

virtual void Aws::Route53::Route53Client::ListHealthChecksAsync ( const Model::ListHealthChecksRequest request,
const ListHealthChecksResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Retrieve a list of the health checks that are associated with the current AWS account.

See Also:

AWS API Reference

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

◆ ListHealthChecksCallable()

virtual Model::ListHealthChecksOutcomeCallable Aws::Route53::Route53Client::ListHealthChecksCallable ( const Model::ListHealthChecksRequest request) const
virtual

Retrieve a list of the health checks that are associated with the current AWS account.

See Also:

AWS API Reference

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

◆ ListHostedZones()

virtual Model::ListHostedZonesOutcome Aws::Route53::Route53Client::ListHostedZones ( const Model::ListHostedZonesRequest request) const
virtual

Retrieves a list of the public and private hosted zones that are associated with the current AWS account. The response includes a HostedZones child element for each hosted zone.

Amazon Route 53 returns a maximum of 100 items in each response. If you have a lot of hosted zones, you can use the maxitems parameter to list them in groups of up to 100.

See Also:

AWS API Reference

◆ ListHostedZonesAsync()

virtual void Aws::Route53::Route53Client::ListHostedZonesAsync ( const Model::ListHostedZonesRequest request,
const ListHostedZonesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Retrieves a list of the public and private hosted zones that are associated with the current AWS account. The response includes a HostedZones child element for each hosted zone.

Amazon Route 53 returns a maximum of 100 items in each response. If you have a lot of hosted zones, you can use the maxitems parameter to list them in groups of up to 100.

See Also:

AWS API Reference

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

◆ ListHostedZonesByName()

virtual Model::ListHostedZonesByNameOutcome Aws::Route53::Route53Client::ListHostedZonesByName ( const Model::ListHostedZonesByNameRequest request) const
virtual

Retrieves a list of your hosted zones in lexicographic order. The response includes a HostedZones child element for each hosted zone created by the current AWS account.

ListHostedZonesByName sorts hosted zones by name with the labels reversed. For example:

com.example.www.

Note the trailing dot, which can change the sort order in some circumstances.

If the domain name includes escape characters or Punycode, ListHostedZonesByName alphabetizes the domain name using the escaped or Punycoded value, which is the format that Amazon Route 53 saves in its database. For example, to create a hosted zone for exämple.com, you specify ex\344mple.com for the domain name. ListHostedZonesByName alphabetizes it as:

com.ex\344mple.

The labels are reversed and alphabetized using the escaped value. For more information about valid domain name formats, including internationalized domain names, see DNS Domain Name Format in the Amazon Route 53 Developer Guide.

Route 53 returns up to 100 items in each response. If you have a lot of hosted zones, use the MaxItems parameter to list them in groups of up to 100. The response includes values that help navigate from one group of MaxItems hosted zones to the next:

  • The DNSName and HostedZoneId elements in the response contain the values, if any, specified for the dnsname and hostedzoneid parameters in the request that produced the current response.

  • The MaxItems element in the response contains the value, if any, that you specified for the maxitems parameter in the request that produced the current response.

  • If the value of IsTruncated in the response is true, there are more hosted zones associated with the current AWS account.

    If IsTruncated is false, this response includes the last hosted zone that is associated with the current account. The NextDNSName element and NextHostedZoneId elements are omitted from the response.

  • The NextDNSName and NextHostedZoneId elements in the response contain the domain name and the hosted zone ID of the next hosted zone that is associated with the current AWS account. If you want to list more hosted zones, make another call to ListHostedZonesByName, and specify the value of NextDNSName and NextHostedZoneId in the dnsname and hostedzoneid parameters, respectively.

See Also:

AWS API Reference

◆ ListHostedZonesByNameAsync()

virtual void Aws::Route53::Route53Client::ListHostedZonesByNameAsync ( const Model::ListHostedZonesByNameRequest request,
const ListHostedZonesByNameResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Retrieves a list of your hosted zones in lexicographic order. The response includes a HostedZones child element for each hosted zone created by the current AWS account.

ListHostedZonesByName sorts hosted zones by name with the labels reversed. For example:

com.example.www.

Note the trailing dot, which can change the sort order in some circumstances.

If the domain name includes escape characters or Punycode, ListHostedZonesByName alphabetizes the domain name using the escaped or Punycoded value, which is the format that Amazon Route 53 saves in its database. For example, to create a hosted zone for exämple.com, you specify ex\344mple.com for the domain name. ListHostedZonesByName alphabetizes it as:

com.ex\344mple.

The labels are reversed and alphabetized using the escaped value. For more information about valid domain name formats, including internationalized domain names, see DNS Domain Name Format in the Amazon Route 53 Developer Guide.

Route 53 returns up to 100 items in each response. If you have a lot of hosted zones, use the MaxItems parameter to list them in groups of up to 100. The response includes values that help navigate from one group of MaxItems hosted zones to the next:

  • The DNSName and HostedZoneId elements in the response contain the values, if any, specified for the dnsname and hostedzoneid parameters in the request that produced the current response.

  • The MaxItems element in the response contains the value, if any, that you specified for the maxitems parameter in the request that produced the current response.

  • If the value of IsTruncated in the response is true, there are more hosted zones associated with the current AWS account.

    If IsTruncated is false, this response includes the last hosted zone that is associated with the current account. The NextDNSName element and NextHostedZoneId elements are omitted from the response.

  • The NextDNSName and NextHostedZoneId elements in the response contain the domain name and the hosted zone ID of the next hosted zone that is associated with the current AWS account. If you want to list more hosted zones, make another call to ListHostedZonesByName, and specify the value of NextDNSName and NextHostedZoneId in the dnsname and hostedzoneid parameters, respectively.

See Also:

AWS API Reference

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

◆ ListHostedZonesByNameCallable()

virtual Model::ListHostedZonesByNameOutcomeCallable Aws::Route53::Route53Client::ListHostedZonesByNameCallable ( const Model::ListHostedZonesByNameRequest request) const
virtual

Retrieves a list of your hosted zones in lexicographic order. The response includes a HostedZones child element for each hosted zone created by the current AWS account.

ListHostedZonesByName sorts hosted zones by name with the labels reversed. For example:

com.example.www.

Note the trailing dot, which can change the sort order in some circumstances.

If the domain name includes escape characters or Punycode, ListHostedZonesByName alphabetizes the domain name using the escaped or Punycoded value, which is the format that Amazon Route 53 saves in its database. For example, to create a hosted zone for exämple.com, you specify ex\344mple.com for the domain name. ListHostedZonesByName alphabetizes it as:

com.ex\344mple.

The labels are reversed and alphabetized using the escaped value. For more information about valid domain name formats, including internationalized domain names, see DNS Domain Name Format in the Amazon Route 53 Developer Guide.

Route 53 returns up to 100 items in each response. If you have a lot of hosted zones, use the MaxItems parameter to list them in groups of up to 100. The response includes values that help navigate from one group of MaxItems hosted zones to the next:

  • The DNSName and HostedZoneId elements in the response contain the values, if any, specified for the dnsname and hostedzoneid parameters in the request that produced the current response.

  • The MaxItems element in the response contains the value, if any, that you specified for the maxitems parameter in the request that produced the current response.

  • If the value of IsTruncated in the response is true, there are more hosted zones associated with the current AWS account.

    If IsTruncated is false, this response includes the last hosted zone that is associated with the current account. The NextDNSName element and NextHostedZoneId elements are omitted from the response.

  • The NextDNSName and NextHostedZoneId elements in the response contain the domain name and the hosted zone ID of the next hosted zone that is associated with the current AWS account. If you want to list more hosted zones, make another call to ListHostedZonesByName, and specify the value of NextDNSName and NextHostedZoneId in the dnsname and hostedzoneid parameters, respectively.

See Also:

AWS API Reference

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

◆ ListHostedZonesByVPC()

virtual Model::ListHostedZonesByVPCOutcome Aws::Route53::Route53Client::ListHostedZonesByVPC ( const Model::ListHostedZonesByVPCRequest request) const
virtual

Lists all the private hosted zones that a specified VPC is associated with, regardless of which AWS account or AWS service owns the hosted zones. The HostedZoneOwner structure in the response contains one of the following values:

  • An OwningAccount element, which contains the account number of either the current AWS account or another AWS account. Some services, such as AWS Cloud Map, create hosted zones using the current account.

  • An OwningService element, which identifies the AWS service that created and owns the hosted zone. For example, if a hosted zone was created by Amazon Elastic File System (Amazon EFS), the value of Owner is efs.amazonaws.com.

See Also:

AWS API Reference

◆ ListHostedZonesByVPCAsync()

virtual void Aws::Route53::Route53Client::ListHostedZonesByVPCAsync ( const Model::ListHostedZonesByVPCRequest request,
const ListHostedZonesByVPCResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Lists all the private hosted zones that a specified VPC is associated with, regardless of which AWS account or AWS service owns the hosted zones. The HostedZoneOwner structure in the response contains one of the following values:

  • An OwningAccount element, which contains the account number of either the current AWS account or another AWS account. Some services, such as AWS Cloud Map, create hosted zones using the current account.

  • An OwningService element, which identifies the AWS service that created and owns the hosted zone. For example, if a hosted zone was created by Amazon Elastic File System (Amazon EFS), the value of Owner is efs.amazonaws.com.

See Also:

AWS API Reference

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

◆ ListHostedZonesByVPCCallable()

virtual Model::ListHostedZonesByVPCOutcomeCallable Aws::Route53::Route53Client::ListHostedZonesByVPCCallable ( const Model::ListHostedZonesByVPCRequest request) const
virtual

Lists all the private hosted zones that a specified VPC is associated with, regardless of which AWS account or AWS service owns the hosted zones. The HostedZoneOwner structure in the response contains one of the following values:

  • An OwningAccount element, which contains the account number of either the current AWS account or another AWS account. Some services, such as AWS Cloud Map, create hosted zones using the current account.

  • An OwningService element, which identifies the AWS service that created and owns the hosted zone. For example, if a hosted zone was created by Amazon Elastic File System (Amazon EFS), the value of Owner is efs.amazonaws.com.

See Also:

AWS API Reference

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

◆ ListHostedZonesCallable()

virtual Model::ListHostedZonesOutcomeCallable Aws::Route53::Route53Client::ListHostedZonesCallable ( const Model::ListHostedZonesRequest request) const
virtual

Retrieves a list of the public and private hosted zones that are associated with the current AWS account. The response includes a HostedZones child element for each hosted zone.

Amazon Route 53 returns a maximum of 100 items in each response. If you have a lot of hosted zones, you can use the maxitems parameter to list them in groups of up to 100.

See Also:

AWS API Reference

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

◆ ListQueryLoggingConfigs()

virtual Model::ListQueryLoggingConfigsOutcome Aws::Route53::Route53Client::ListQueryLoggingConfigs ( const Model::ListQueryLoggingConfigsRequest request) const
virtual

Lists the configurations for DNS query logging that are associated with the current AWS account or the configuration that is associated with a specified hosted zone.

For more information about DNS query logs, see CreateQueryLoggingConfig. Additional information, including the format of DNS query logs, appears in Logging DNS Queries in the Amazon Route 53 Developer Guide.

See Also:

AWS API Reference

◆ ListQueryLoggingConfigsAsync()

virtual void Aws::Route53::Route53Client::ListQueryLoggingConfigsAsync ( const Model::ListQueryLoggingConfigsRequest request,
const ListQueryLoggingConfigsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Lists the configurations for DNS query logging that are associated with the current AWS account or the configuration that is associated with a specified hosted zone.

For more information about DNS query logs, see CreateQueryLoggingConfig. Additional information, including the format of DNS query logs, appears in Logging DNS Queries in the Amazon Route 53 Developer Guide.

See Also:

AWS API Reference

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

◆ ListQueryLoggingConfigsCallable()

virtual Model::ListQueryLoggingConfigsOutcomeCallable Aws::Route53::Route53Client::ListQueryLoggingConfigsCallable ( const Model::ListQueryLoggingConfigsRequest request) const
virtual

Lists the configurations for DNS query logging that are associated with the current AWS account or the configuration that is associated with a specified hosted zone.

For more information about DNS query logs, see CreateQueryLoggingConfig. Additional information, including the format of DNS query logs, appears in Logging DNS Queries in the Amazon Route 53 Developer Guide.

See Also:

AWS API Reference

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

◆ ListResourceRecordSets()

virtual Model::ListResourceRecordSetsOutcome Aws::Route53::Route53Client::ListResourceRecordSets ( const Model::ListResourceRecordSetsRequest request) const
virtual

Lists the resource record sets in a specified hosted zone.

ListResourceRecordSets returns up to 100 resource record sets at a time in ASCII order, beginning at a position specified by the name and type elements.

Sort order

ListResourceRecordSets sorts results first by DNS name with the labels reversed, for example:

com.example.www.

Note the trailing dot, which can change the sort order when the record name contains characters that appear before . (decimal 46) in the ASCII table. These characters include the following: ! " # $ % & ' ( ) * + , -

When multiple records have the same DNS name, ListResourceRecordSets sorts results by the record type.

Specifying where to start listing records

You can use the name and type elements to specify the resource record set that the list begins with:

If you do not specify Name or Type

The results begin with the first resource record set that the hosted zone contains.

If you specify Name but not Type

The results begin with the first resource record set in the list whose name is greater than or equal to Name.

If you specify Type but not Name

Amazon Route 53 returns the InvalidInput error.

If you specify both Name and Type

The results begin with the first resource record set in the list whose name is greater than or equal to Name, and whose type is greater than or equal to Type.

Resource record sets that are PENDING

This action returns the most current version of the records. This includes records that are PENDING, and that are not yet available on all Route 53 DNS servers.

Changing resource record sets

To ensure that you get an accurate listing of the resource record sets for a hosted zone at a point in time, do not submit a ChangeResourceRecordSets request while you're paging through the results of a ListResourceRecordSets request. If you do, some pages may display results without the latest changes while other pages display results with the latest changes.

Displaying the next page of results

If a ListResourceRecordSets command returns more than one page of results, the value of IsTruncated is true. To display the next page of results, get the values of NextRecordName, NextRecordType, and NextRecordIdentifier (if any) from the response. Then submit another ListResourceRecordSets request, and specify those values for StartRecordName, StartRecordType, and StartRecordIdentifier.

See Also:

AWS API Reference

◆ ListResourceRecordSetsAsync()

virtual void Aws::Route53::Route53Client::ListResourceRecordSetsAsync ( const Model::ListResourceRecordSetsRequest request,
const ListResourceRecordSetsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Lists the resource record sets in a specified hosted zone.

ListResourceRecordSets returns up to 100 resource record sets at a time in ASCII order, beginning at a position specified by the name and type elements.

Sort order

ListResourceRecordSets sorts results first by DNS name with the labels reversed, for example:

com.example.www.

Note the trailing dot, which can change the sort order when the record name contains characters that appear before . (decimal 46) in the ASCII table. These characters include the following: ! " # $ % & ' ( ) * + , -

When multiple records have the same DNS name, ListResourceRecordSets sorts results by the record type.

Specifying where to start listing records

You can use the name and type elements to specify the resource record set that the list begins with:

If you do not specify Name or Type

The results begin with the first resource record set that the hosted zone contains.

If you specify Name but not Type

The results begin with the first resource record set in the list whose name is greater than or equal to Name.

If you specify Type but not Name

Amazon Route 53 returns the InvalidInput error.

If you specify both Name and Type

The results begin with the first resource record set in the list whose name is greater than or equal to Name, and whose type is greater than or equal to Type.

Resource record sets that are PENDING

This action returns the most current version of the records. This includes records that are PENDING, and that are not yet available on all Route 53 DNS servers.

Changing resource record sets

To ensure that you get an accurate listing of the resource record sets for a hosted zone at a point in time, do not submit a ChangeResourceRecordSets request while you're paging through the results of a ListResourceRecordSets request. If you do, some pages may display results without the latest changes while other pages display results with the latest changes.

Displaying the next page of results

If a ListResourceRecordSets command returns more than one page of results, the value of IsTruncated is true. To display the next page of results, get the values of NextRecordName, NextRecordType, and NextRecordIdentifier (if any) from the response. Then submit another ListResourceRecordSets request, and specify those values for StartRecordName, StartRecordType, and StartRecordIdentifier.

See Also:

AWS API Reference

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

◆ ListResourceRecordSetsCallable()

virtual Model::ListResourceRecordSetsOutcomeCallable Aws::Route53::Route53Client::ListResourceRecordSetsCallable ( const Model::ListResourceRecordSetsRequest request) const
virtual

Lists the resource record sets in a specified hosted zone.

ListResourceRecordSets returns up to 100 resource record sets at a time in ASCII order, beginning at a position specified by the name and type elements.

Sort order

ListResourceRecordSets sorts results first by DNS name with the labels reversed, for example:

com.example.www.

Note the trailing dot, which can change the sort order when the record name contains characters that appear before . (decimal 46) in the ASCII table. These characters include the following: ! " # $ % & ' ( ) * + , -

When multiple records have the same DNS name, ListResourceRecordSets sorts results by the record type.

Specifying where to start listing records

You can use the name and type elements to specify the resource record set that the list begins with:

If you do not specify Name or Type

The results begin with the first resource record set that the hosted zone contains.

If you specify Name but not Type

The results begin with the first resource record set in the list whose name is greater than or equal to Name.

If you specify Type but not Name

Amazon Route 53 returns the InvalidInput error.

If you specify both Name and Type

The results begin with the first resource record set in the list whose name is greater than or equal to Name, and whose type is greater than or equal to Type.

Resource record sets that are PENDING

This action returns the most current version of the records. This includes records that are PENDING, and that are not yet available on all Route 53 DNS servers.

Changing resource record sets

To ensure that you get an accurate listing of the resource record sets for a hosted zone at a point in time, do not submit a ChangeResourceRecordSets request while you're paging through the results of a ListResourceRecordSets request. If you do, some pages may display results without the latest changes while other pages display results with the latest changes.

Displaying the next page of results

If a ListResourceRecordSets command returns more than one page of results, the value of IsTruncated is true. To display the next page of results, get the values of NextRecordName, NextRecordType, and NextRecordIdentifier (if any) from the response. Then submit another ListResourceRecordSets request, and specify those values for StartRecordName, StartRecordType, and StartRecordIdentifier.

See Also:

AWS API Reference

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

◆ ListReusableDelegationSets()

virtual Model::ListReusableDelegationSetsOutcome Aws::Route53::Route53Client::ListReusableDelegationSets ( const Model::ListReusableDelegationSetsRequest request) const
virtual

Retrieves a list of the reusable delegation sets that are associated with the current AWS account.

See Also:

AWS API Reference

◆ ListReusableDelegationSetsAsync()

virtual void Aws::Route53::Route53Client::ListReusableDelegationSetsAsync ( const Model::ListReusableDelegationSetsRequest request,
const ListReusableDelegationSetsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Retrieves a list of the reusable delegation sets that are associated with the current AWS account.

See Also:

AWS API Reference

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

◆ ListReusableDelegationSetsCallable()

virtual Model::ListReusableDelegationSetsOutcomeCallable Aws::Route53::Route53Client::ListReusableDelegationSetsCallable ( const Model::ListReusableDelegationSetsRequest request) const
virtual

Retrieves a list of the reusable delegation sets that are associated with the current AWS account.

See Also:

AWS API Reference

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

◆ ListTagsForResource()

virtual Model::ListTagsForResourceOutcome Aws::Route53::Route53Client::ListTagsForResource ( const Model::ListTagsForResourceRequest request) const
virtual

Lists tags for one health check or hosted zone.

For information about using tags for cost allocation, see Using Cost Allocation Tags in the AWS Billing and Cost Management User Guide.

See Also:

AWS API Reference

◆ ListTagsForResourceAsync()

virtual void Aws::Route53::Route53Client::ListTagsForResourceAsync ( const Model::ListTagsForResourceRequest request,
const ListTagsForResourceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Lists tags for one health check or hosted zone.

For information about using tags for cost allocation, see Using Cost Allocation Tags in the AWS Billing and Cost Management User Guide.

See Also:

AWS API Reference

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

◆ ListTagsForResourceCallable()

virtual Model::ListTagsForResourceOutcomeCallable Aws::Route53::Route53Client::ListTagsForResourceCallable ( const Model::ListTagsForResourceRequest request) const
virtual

Lists tags for one health check or hosted zone.

For information about using tags for cost allocation, see Using Cost Allocation Tags in the AWS Billing and Cost Management User Guide.

See Also:

AWS API Reference

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

◆ ListTagsForResources()

virtual Model::ListTagsForResourcesOutcome Aws::Route53::Route53Client::ListTagsForResources ( const Model::ListTagsForResourcesRequest request) const
virtual

Lists tags for up to 10 health checks or hosted zones.

For information about using tags for cost allocation, see Using Cost Allocation Tags in the AWS Billing and Cost Management User Guide.

See Also:

AWS API Reference

◆ ListTagsForResourcesAsync()

virtual void Aws::Route53::Route53Client::ListTagsForResourcesAsync ( const Model::ListTagsForResourcesRequest request,
const ListTagsForResourcesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Lists tags for up to 10 health checks or hosted zones.

For information about using tags for cost allocation, see Using Cost Allocation Tags in the AWS Billing and Cost Management User Guide.

See Also:

AWS API Reference

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

◆ ListTagsForResourcesCallable()

virtual Model::ListTagsForResourcesOutcomeCallable Aws::Route53::Route53Client::ListTagsForResourcesCallable ( const Model::ListTagsForResourcesRequest request) const
virtual

Lists tags for up to 10 health checks or hosted zones.

For information about using tags for cost allocation, see Using Cost Allocation Tags in the AWS Billing and Cost Management User Guide.

See Also:

AWS API Reference

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

◆ ListTrafficPolicies()

virtual Model::ListTrafficPoliciesOutcome Aws::Route53::Route53Client::ListTrafficPolicies ( const Model::ListTrafficPoliciesRequest request) const
virtual

Gets information about the latest version for every traffic policy that is associated with the current AWS account. Policies are listed in the order that they were created in.

For information about how of deleting a traffic policy affects the response from ListTrafficPolicies, see DeleteTrafficPolicy.

See Also:

AWS API Reference

◆ ListTrafficPoliciesAsync()

virtual void Aws::Route53::Route53Client::ListTrafficPoliciesAsync ( const Model::ListTrafficPoliciesRequest request,
const ListTrafficPoliciesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets information about the latest version for every traffic policy that is associated with the current AWS account. Policies are listed in the order that they were created in.

For information about how of deleting a traffic policy affects the response from ListTrafficPolicies, see DeleteTrafficPolicy.

See Also:

AWS API Reference

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

◆ ListTrafficPoliciesCallable()

virtual Model::ListTrafficPoliciesOutcomeCallable Aws::Route53::Route53Client::ListTrafficPoliciesCallable ( const Model::ListTrafficPoliciesRequest request) const
virtual

Gets information about the latest version for every traffic policy that is associated with the current AWS account. Policies are listed in the order that they were created in.

For information about how of deleting a traffic policy affects the response from ListTrafficPolicies, see DeleteTrafficPolicy.

See Also:

AWS API Reference

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

◆ ListTrafficPolicyInstances()

virtual Model::ListTrafficPolicyInstancesOutcome Aws::Route53::Route53Client::ListTrafficPolicyInstances ( const Model::ListTrafficPolicyInstancesRequest request) const
virtual

Gets information about the traffic policy instances that you created by using the current AWS account.

After you submit an UpdateTrafficPolicyInstance request, there's a brief delay while Amazon Route 53 creates the resource record sets that are specified in the traffic policy definition. For more information, see the State response element.

Route 53 returns a maximum of 100 items in each response. If you have a lot of traffic policy instances, you can use the MaxItems parameter to list them in groups of up to 100.

See Also:

AWS API Reference

◆ ListTrafficPolicyInstancesAsync()

virtual void Aws::Route53::Route53Client::ListTrafficPolicyInstancesAsync ( const Model::ListTrafficPolicyInstancesRequest request,
const ListTrafficPolicyInstancesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets information about the traffic policy instances that you created by using the current AWS account.

After you submit an UpdateTrafficPolicyInstance request, there's a brief delay while Amazon Route 53 creates the resource record sets that are specified in the traffic policy definition. For more information, see the State response element.

Route 53 returns a maximum of 100 items in each response. If you have a lot of traffic policy instances, you can use the MaxItems parameter to list them in groups of up to 100.

See Also:

AWS API Reference

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

◆ ListTrafficPolicyInstancesByHostedZone()

virtual Model::ListTrafficPolicyInstancesByHostedZoneOutcome Aws::Route53::Route53Client::ListTrafficPolicyInstancesByHostedZone ( const Model::ListTrafficPolicyInstancesByHostedZoneRequest request) const
virtual

Gets information about the traffic policy instances that you created in a specified hosted zone.

After you submit a CreateTrafficPolicyInstance or an UpdateTrafficPolicyInstance request, there's a brief delay while Amazon Route 53 creates the resource record sets that are specified in the traffic policy definition. For more information, see the State response element.

Route 53 returns a maximum of 100 items in each response. If you have a lot of traffic policy instances, you can use the MaxItems parameter to list them in groups of up to 100.

See Also:

AWS API Reference

◆ ListTrafficPolicyInstancesByHostedZoneAsync()

virtual void Aws::Route53::Route53Client::ListTrafficPolicyInstancesByHostedZoneAsync ( const Model::ListTrafficPolicyInstancesByHostedZoneRequest request,
const ListTrafficPolicyInstancesByHostedZoneResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets information about the traffic policy instances that you created in a specified hosted zone.

After you submit a CreateTrafficPolicyInstance or an UpdateTrafficPolicyInstance request, there's a brief delay while Amazon Route 53 creates the resource record sets that are specified in the traffic policy definition. For more information, see the State response element.

Route 53 returns a maximum of 100 items in each response. If you have a lot of traffic policy instances, you can use the MaxItems parameter to list them in groups of up to 100.

See Also:

AWS API Reference

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

◆ ListTrafficPolicyInstancesByHostedZoneCallable()

virtual Model::ListTrafficPolicyInstancesByHostedZoneOutcomeCallable Aws::Route53::Route53Client::ListTrafficPolicyInstancesByHostedZoneCallable ( const Model::ListTrafficPolicyInstancesByHostedZoneRequest request) const
virtual

Gets information about the traffic policy instances that you created in a specified hosted zone.

After you submit a CreateTrafficPolicyInstance or an UpdateTrafficPolicyInstance request, there's a brief delay while Amazon Route 53 creates the resource record sets that are specified in the traffic policy definition. For more information, see the State response element.

Route 53 returns a maximum of 100 items in each response. If you have a lot of traffic policy instances, you can use the MaxItems parameter to list them in groups of up to 100.

See Also:

AWS API Reference

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

◆ ListTrafficPolicyInstancesByPolicy()

virtual Model::ListTrafficPolicyInstancesByPolicyOutcome Aws::Route53::Route53Client::ListTrafficPolicyInstancesByPolicy ( const Model::ListTrafficPolicyInstancesByPolicyRequest request) const
virtual

Gets information about the traffic policy instances that you created by using a specify traffic policy version.

After you submit a CreateTrafficPolicyInstance or an UpdateTrafficPolicyInstance request, there's a brief delay while Amazon Route 53 creates the resource record sets that are specified in the traffic policy definition. For more information, see the State response element.

Route 53 returns a maximum of 100 items in each response. If you have a lot of traffic policy instances, you can use the MaxItems parameter to list them in groups of up to 100.

See Also:

AWS API Reference

◆ ListTrafficPolicyInstancesByPolicyAsync()

virtual void Aws::Route53::Route53Client::ListTrafficPolicyInstancesByPolicyAsync ( const Model::ListTrafficPolicyInstancesByPolicyRequest request,
const ListTrafficPolicyInstancesByPolicyResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets information about the traffic policy instances that you created by using a specify traffic policy version.

After you submit a CreateTrafficPolicyInstance or an UpdateTrafficPolicyInstance request, there's a brief delay while Amazon Route 53 creates the resource record sets that are specified in the traffic policy definition. For more information, see the State response element.

Route 53 returns a maximum of 100 items in each response. If you have a lot of traffic policy instances, you can use the MaxItems parameter to list them in groups of up to 100.

See Also:

AWS API Reference

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

◆ ListTrafficPolicyInstancesByPolicyCallable()

virtual Model::ListTrafficPolicyInstancesByPolicyOutcomeCallable Aws::Route53::Route53Client::ListTrafficPolicyInstancesByPolicyCallable ( const Model::ListTrafficPolicyInstancesByPolicyRequest request) const
virtual

Gets information about the traffic policy instances that you created by using a specify traffic policy version.

After you submit a CreateTrafficPolicyInstance or an UpdateTrafficPolicyInstance request, there's a brief delay while Amazon Route 53 creates the resource record sets that are specified in the traffic policy definition. For more information, see the State response element.

Route 53 returns a maximum of 100 items in each response. If you have a lot of traffic policy instances, you can use the MaxItems parameter to list them in groups of up to 100.

See Also:

AWS API Reference

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

◆ ListTrafficPolicyInstancesCallable()

virtual Model::ListTrafficPolicyInstancesOutcomeCallable Aws::Route53::Route53Client::ListTrafficPolicyInstancesCallable ( const Model::ListTrafficPolicyInstancesRequest request) const
virtual

Gets information about the traffic policy instances that you created by using the current AWS account.

After you submit an UpdateTrafficPolicyInstance request, there's a brief delay while Amazon Route 53 creates the resource record sets that are specified in the traffic policy definition. For more information, see the State response element.

Route 53 returns a maximum of 100 items in each response. If you have a lot of traffic policy instances, you can use the MaxItems parameter to list them in groups of up to 100.

See Also:

AWS API Reference

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

◆ ListTrafficPolicyVersions()

virtual Model::ListTrafficPolicyVersionsOutcome Aws::Route53::Route53Client::ListTrafficPolicyVersions ( const Model::ListTrafficPolicyVersionsRequest request) const
virtual

Gets information about all of the versions for a specified traffic policy.

Traffic policy versions are listed in numerical order by VersionNumber.

See Also:

AWS API Reference

◆ ListTrafficPolicyVersionsAsync()

virtual void Aws::Route53::Route53Client::ListTrafficPolicyVersionsAsync ( const Model::ListTrafficPolicyVersionsRequest request,
const ListTrafficPolicyVersionsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets information about all of the versions for a specified traffic policy.

Traffic policy versions are listed in numerical order by VersionNumber.

See Also:

AWS API Reference

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

◆ ListTrafficPolicyVersionsCallable()

virtual Model::ListTrafficPolicyVersionsOutcomeCallable Aws::Route53::Route53Client::ListTrafficPolicyVersionsCallable ( const Model::ListTrafficPolicyVersionsRequest request) const
virtual

Gets information about all of the versions for a specified traffic policy.

Traffic policy versions are listed in numerical order by VersionNumber.

See Also:

AWS API Reference

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

◆ ListVPCAssociationAuthorizations()

virtual Model::ListVPCAssociationAuthorizationsOutcome Aws::Route53::Route53Client::ListVPCAssociationAuthorizations ( const Model::ListVPCAssociationAuthorizationsRequest request) const
virtual

Gets a list of the VPCs that were created by other accounts and that can be associated with a specified hosted zone because you've submitted one or more CreateVPCAssociationAuthorization requests.

The response includes a VPCs element with a VPC child element for each VPC that can be associated with the hosted zone.

See Also:

AWS API Reference

◆ ListVPCAssociationAuthorizationsAsync()

virtual void Aws::Route53::Route53Client::ListVPCAssociationAuthorizationsAsync ( const Model::ListVPCAssociationAuthorizationsRequest request,
const ListVPCAssociationAuthorizationsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets a list of the VPCs that were created by other accounts and that can be associated with a specified hosted zone because you've submitted one or more CreateVPCAssociationAuthorization requests.

The response includes a VPCs element with a VPC child element for each VPC that can be associated with the hosted zone.

See Also:

AWS API Reference

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

◆ ListVPCAssociationAuthorizationsCallable()

virtual Model::ListVPCAssociationAuthorizationsOutcomeCallable Aws::Route53::Route53Client::ListVPCAssociationAuthorizationsCallable ( const Model::ListVPCAssociationAuthorizationsRequest request) const
virtual

Gets a list of the VPCs that were created by other accounts and that can be associated with a specified hosted zone because you've submitted one or more CreateVPCAssociationAuthorization requests.

The response includes a VPCs element with a VPC child element for each VPC that can be associated with the hosted zone.

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::Route53::Route53Client::OverrideEndpoint ( const Aws::String endpoint)

◆ TestDNSAnswer()

virtual Model::TestDNSAnswerOutcome Aws::Route53::Route53Client::TestDNSAnswer ( const Model::TestDNSAnswerRequest request) const
virtual

Gets the value that Amazon Route 53 returns in response to a DNS request for a specified record name and type. You can optionally specify the IP address of a DNS resolver, an EDNS0 client subnet IP address, and a subnet mask.

See Also:

AWS API Reference

◆ TestDNSAnswerAsync()

virtual void Aws::Route53::Route53Client::TestDNSAnswerAsync ( const Model::TestDNSAnswerRequest request,
const TestDNSAnswerResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Gets the value that Amazon Route 53 returns in response to a DNS request for a specified record name and type. You can optionally specify the IP address of a DNS resolver, an EDNS0 client subnet IP address, and a subnet mask.

See Also:

AWS API Reference

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

◆ TestDNSAnswerCallable()

virtual Model::TestDNSAnswerOutcomeCallable Aws::Route53::Route53Client::TestDNSAnswerCallable ( const Model::TestDNSAnswerRequest request) const
virtual

Gets the value that Amazon Route 53 returns in response to a DNS request for a specified record name and type. You can optionally specify the IP address of a DNS resolver, an EDNS0 client subnet IP address, and a subnet mask.

See Also:

AWS API Reference

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

◆ UpdateHealthCheck()

virtual Model::UpdateHealthCheckOutcome Aws::Route53::Route53Client::UpdateHealthCheck ( const Model::UpdateHealthCheckRequest request) const
virtual

Updates an existing health check. Note that some values can't be updated.

For more information about updating health checks, see Creating, Updating, and Deleting Health Checks in the Amazon Route 53 Developer Guide.

See Also:

AWS API Reference

◆ UpdateHealthCheckAsync()

virtual void Aws::Route53::Route53Client::UpdateHealthCheckAsync ( const Model::UpdateHealthCheckRequest request,
const UpdateHealthCheckResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Updates an existing health check. Note that some values can't be updated.

For more information about updating health checks, see Creating, Updating, and Deleting Health Checks in the Amazon Route 53 Developer Guide.

See Also:

AWS API Reference

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

◆ UpdateHealthCheckCallable()

virtual Model::UpdateHealthCheckOutcomeCallable Aws::Route53::Route53Client::UpdateHealthCheckCallable ( const Model::UpdateHealthCheckRequest request) const
virtual

Updates an existing health check. Note that some values can't be updated.

For more information about updating health checks, see Creating, Updating, and Deleting Health Checks in the Amazon Route 53 Developer Guide.

See Also:

AWS API Reference

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

◆ UpdateHostedZoneComment()

virtual Model::UpdateHostedZoneCommentOutcome Aws::Route53::Route53Client::UpdateHostedZoneComment ( const Model::UpdateHostedZoneCommentRequest request) const
virtual

Updates the comment for a specified hosted zone.

See Also:

AWS API Reference

◆ UpdateHostedZoneCommentAsync()

virtual void Aws::Route53::Route53Client::UpdateHostedZoneCommentAsync ( const Model::UpdateHostedZoneCommentRequest request,
const UpdateHostedZoneCommentResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Updates the comment for a specified hosted zone.

See Also:

AWS API Reference

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

◆ UpdateHostedZoneCommentCallable()

virtual Model::UpdateHostedZoneCommentOutcomeCallable Aws::Route53::Route53Client::UpdateHostedZoneCommentCallable ( const Model::UpdateHostedZoneCommentRequest request) const
virtual

Updates the comment for a specified hosted zone.

See Also:

AWS API Reference

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

◆ UpdateTrafficPolicyComment()

virtual Model::UpdateTrafficPolicyCommentOutcome Aws::Route53::Route53Client::UpdateTrafficPolicyComment ( const Model::UpdateTrafficPolicyCommentRequest request) const
virtual

Updates the comment for a specified traffic policy version.

See Also:

AWS API Reference

◆ UpdateTrafficPolicyCommentAsync()

virtual void Aws::Route53::Route53Client::UpdateTrafficPolicyCommentAsync ( const Model::UpdateTrafficPolicyCommentRequest request,
const UpdateTrafficPolicyCommentResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Updates the comment for a specified traffic policy version.

See Also:

AWS API Reference

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

◆ UpdateTrafficPolicyCommentCallable()

virtual Model::UpdateTrafficPolicyCommentOutcomeCallable Aws::Route53::Route53Client::UpdateTrafficPolicyCommentCallable ( const Model::UpdateTrafficPolicyCommentRequest request) const
virtual

Updates the comment for a specified traffic policy version.

See Also:

AWS API Reference

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

◆ UpdateTrafficPolicyInstance()

virtual Model::UpdateTrafficPolicyInstanceOutcome Aws::Route53::Route53Client::UpdateTrafficPolicyInstance ( const Model::UpdateTrafficPolicyInstanceRequest request) const
virtual

Updates the resource record sets in a specified hosted zone that were created based on the settings in a specified traffic policy version.

When you update a traffic policy instance, Amazon Route 53 continues to respond to DNS queries for the root resource record set name (such as example.com) while it replaces one group of resource record sets with another. Route 53 performs the following operations:

  1. Route 53 creates a new group of resource record sets based on the specified traffic policy. This is true regardless of how significant the differences are between the existing resource record sets and the new resource record sets.

  2. When all of the new resource record sets have been created, Route 53 starts to respond to DNS queries for the root resource record set name (such as example.com) by using the new resource record sets.

  3. Route 53 deletes the old group of resource record sets that are associated with the root resource record set name.

See Also:

AWS API Reference

◆ UpdateTrafficPolicyInstanceAsync()

virtual void Aws::Route53::Route53Client::UpdateTrafficPolicyInstanceAsync ( const Model::UpdateTrafficPolicyInstanceRequest request,
const UpdateTrafficPolicyInstanceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Updates the resource record sets in a specified hosted zone that were created based on the settings in a specified traffic policy version.

When you update a traffic policy instance, Amazon Route 53 continues to respond to DNS queries for the root resource record set name (such as example.com) while it replaces one group of resource record sets with another. Route 53 performs the following operations:

  1. Route 53 creates a new group of resource record sets based on the specified traffic policy. This is true regardless of how significant the differences are between the existing resource record sets and the new resource record sets.

  2. When all of the new resource record sets have been created, Route 53 starts to respond to DNS queries for the root resource record set name (such as example.com) by using the new resource record sets.

  3. Route 53 deletes the old group of resource record sets that are associated with the root resource record set name.

See Also:

AWS API Reference

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

◆ UpdateTrafficPolicyInstanceCallable()

virtual Model::UpdateTrafficPolicyInstanceOutcomeCallable Aws::Route53::Route53Client::UpdateTrafficPolicyInstanceCallable ( const Model::UpdateTrafficPolicyInstanceRequest request) const
virtual

Updates the resource record sets in a specified hosted zone that were created based on the settings in a specified traffic policy version.

When you update a traffic policy instance, Amazon Route 53 continues to respond to DNS queries for the root resource record set name (such as example.com) while it replaces one group of resource record sets with another. Route 53 performs the following operations:

  1. Route 53 creates a new group of resource record sets based on the specified traffic policy. This is true regardless of how significant the differences are between the existing resource record sets and the new resource record sets.

  2. When all of the new resource record sets have been created, Route 53 starts to respond to DNS queries for the root resource record set name (such as example.com) by using the new resource record sets.

  3. Route 53 deletes the old group of resource record sets that are associated with the root resource record set name.

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: