AWS SDK for C++  1.8.95
AWS SDK for C++
Public Types | Public Member Functions | List of all members
Aws::EventBridge::EventBridgeClient Class Reference

#include <EventBridgeClient.h>

+ Inheritance diagram for Aws::EventBridge::EventBridgeClient:

Public Types

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

Public Member Functions

 EventBridgeClient (const Aws::Client::ClientConfiguration &clientConfiguration=Aws::Client::ClientConfiguration())
 
 EventBridgeClient (const Aws::Auth::AWSCredentials &credentials, const Aws::Client::ClientConfiguration &clientConfiguration=Aws::Client::ClientConfiguration())
 
 EventBridgeClient (const std::shared_ptr< Aws::Auth::AWSCredentialsProvider > &credentialsProvider, const Aws::Client::ClientConfiguration &clientConfiguration=Aws::Client::ClientConfiguration())
 
virtual ~EventBridgeClient ()
 
virtual Model::ActivateEventSourceOutcome ActivateEventSource (const Model::ActivateEventSourceRequest &request) const
 
virtual Model::ActivateEventSourceOutcomeCallable ActivateEventSourceCallable (const Model::ActivateEventSourceRequest &request) const
 
virtual void ActivateEventSourceAsync (const Model::ActivateEventSourceRequest &request, const ActivateEventSourceResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CancelReplayOutcome CancelReplay (const Model::CancelReplayRequest &request) const
 
virtual Model::CancelReplayOutcomeCallable CancelReplayCallable (const Model::CancelReplayRequest &request) const
 
virtual void CancelReplayAsync (const Model::CancelReplayRequest &request, const CancelReplayResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateArchiveOutcome CreateArchive (const Model::CreateArchiveRequest &request) const
 
virtual Model::CreateArchiveOutcomeCallable CreateArchiveCallable (const Model::CreateArchiveRequest &request) const
 
virtual void CreateArchiveAsync (const Model::CreateArchiveRequest &request, const CreateArchiveResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreateEventBusOutcome CreateEventBus (const Model::CreateEventBusRequest &request) const
 
virtual Model::CreateEventBusOutcomeCallable CreateEventBusCallable (const Model::CreateEventBusRequest &request) const
 
virtual void CreateEventBusAsync (const Model::CreateEventBusRequest &request, const CreateEventBusResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::CreatePartnerEventSourceOutcome CreatePartnerEventSource (const Model::CreatePartnerEventSourceRequest &request) const
 
virtual Model::CreatePartnerEventSourceOutcomeCallable CreatePartnerEventSourceCallable (const Model::CreatePartnerEventSourceRequest &request) const
 
virtual void CreatePartnerEventSourceAsync (const Model::CreatePartnerEventSourceRequest &request, const CreatePartnerEventSourceResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeactivateEventSourceOutcome DeactivateEventSource (const Model::DeactivateEventSourceRequest &request) const
 
virtual Model::DeactivateEventSourceOutcomeCallable DeactivateEventSourceCallable (const Model::DeactivateEventSourceRequest &request) const
 
virtual void DeactivateEventSourceAsync (const Model::DeactivateEventSourceRequest &request, const DeactivateEventSourceResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteArchiveOutcome DeleteArchive (const Model::DeleteArchiveRequest &request) const
 
virtual Model::DeleteArchiveOutcomeCallable DeleteArchiveCallable (const Model::DeleteArchiveRequest &request) const
 
virtual void DeleteArchiveAsync (const Model::DeleteArchiveRequest &request, const DeleteArchiveResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteEventBusOutcome DeleteEventBus (const Model::DeleteEventBusRequest &request) const
 
virtual Model::DeleteEventBusOutcomeCallable DeleteEventBusCallable (const Model::DeleteEventBusRequest &request) const
 
virtual void DeleteEventBusAsync (const Model::DeleteEventBusRequest &request, const DeleteEventBusResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeletePartnerEventSourceOutcome DeletePartnerEventSource (const Model::DeletePartnerEventSourceRequest &request) const
 
virtual Model::DeletePartnerEventSourceOutcomeCallable DeletePartnerEventSourceCallable (const Model::DeletePartnerEventSourceRequest &request) const
 
virtual void DeletePartnerEventSourceAsync (const Model::DeletePartnerEventSourceRequest &request, const DeletePartnerEventSourceResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DeleteRuleOutcome DeleteRule (const Model::DeleteRuleRequest &request) const
 
virtual Model::DeleteRuleOutcomeCallable DeleteRuleCallable (const Model::DeleteRuleRequest &request) const
 
virtual void DeleteRuleAsync (const Model::DeleteRuleRequest &request, const DeleteRuleResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeArchiveOutcome DescribeArchive (const Model::DescribeArchiveRequest &request) const
 
virtual Model::DescribeArchiveOutcomeCallable DescribeArchiveCallable (const Model::DescribeArchiveRequest &request) const
 
virtual void DescribeArchiveAsync (const Model::DescribeArchiveRequest &request, const DescribeArchiveResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeEventBusOutcome DescribeEventBus (const Model::DescribeEventBusRequest &request) const
 
virtual Model::DescribeEventBusOutcomeCallable DescribeEventBusCallable (const Model::DescribeEventBusRequest &request) const
 
virtual void DescribeEventBusAsync (const Model::DescribeEventBusRequest &request, const DescribeEventBusResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeEventSourceOutcome DescribeEventSource (const Model::DescribeEventSourceRequest &request) const
 
virtual Model::DescribeEventSourceOutcomeCallable DescribeEventSourceCallable (const Model::DescribeEventSourceRequest &request) const
 
virtual void DescribeEventSourceAsync (const Model::DescribeEventSourceRequest &request, const DescribeEventSourceResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribePartnerEventSourceOutcome DescribePartnerEventSource (const Model::DescribePartnerEventSourceRequest &request) const
 
virtual Model::DescribePartnerEventSourceOutcomeCallable DescribePartnerEventSourceCallable (const Model::DescribePartnerEventSourceRequest &request) const
 
virtual void DescribePartnerEventSourceAsync (const Model::DescribePartnerEventSourceRequest &request, const DescribePartnerEventSourceResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeReplayOutcome DescribeReplay (const Model::DescribeReplayRequest &request) const
 
virtual Model::DescribeReplayOutcomeCallable DescribeReplayCallable (const Model::DescribeReplayRequest &request) const
 
virtual void DescribeReplayAsync (const Model::DescribeReplayRequest &request, const DescribeReplayResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DescribeRuleOutcome DescribeRule (const Model::DescribeRuleRequest &request) const
 
virtual Model::DescribeRuleOutcomeCallable DescribeRuleCallable (const Model::DescribeRuleRequest &request) const
 
virtual void DescribeRuleAsync (const Model::DescribeRuleRequest &request, const DescribeRuleResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::DisableRuleOutcome DisableRule (const Model::DisableRuleRequest &request) const
 
virtual Model::DisableRuleOutcomeCallable DisableRuleCallable (const Model::DisableRuleRequest &request) const
 
virtual void DisableRuleAsync (const Model::DisableRuleRequest &request, const DisableRuleResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::EnableRuleOutcome EnableRule (const Model::EnableRuleRequest &request) const
 
virtual Model::EnableRuleOutcomeCallable EnableRuleCallable (const Model::EnableRuleRequest &request) const
 
virtual void EnableRuleAsync (const Model::EnableRuleRequest &request, const EnableRuleResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListArchivesOutcome ListArchives (const Model::ListArchivesRequest &request) const
 
virtual Model::ListArchivesOutcomeCallable ListArchivesCallable (const Model::ListArchivesRequest &request) const
 
virtual void ListArchivesAsync (const Model::ListArchivesRequest &request, const ListArchivesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListEventBusesOutcome ListEventBuses (const Model::ListEventBusesRequest &request) const
 
virtual Model::ListEventBusesOutcomeCallable ListEventBusesCallable (const Model::ListEventBusesRequest &request) const
 
virtual void ListEventBusesAsync (const Model::ListEventBusesRequest &request, const ListEventBusesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListEventSourcesOutcome ListEventSources (const Model::ListEventSourcesRequest &request) const
 
virtual Model::ListEventSourcesOutcomeCallable ListEventSourcesCallable (const Model::ListEventSourcesRequest &request) const
 
virtual void ListEventSourcesAsync (const Model::ListEventSourcesRequest &request, const ListEventSourcesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListPartnerEventSourceAccountsOutcome ListPartnerEventSourceAccounts (const Model::ListPartnerEventSourceAccountsRequest &request) const
 
virtual Model::ListPartnerEventSourceAccountsOutcomeCallable ListPartnerEventSourceAccountsCallable (const Model::ListPartnerEventSourceAccountsRequest &request) const
 
virtual void ListPartnerEventSourceAccountsAsync (const Model::ListPartnerEventSourceAccountsRequest &request, const ListPartnerEventSourceAccountsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListPartnerEventSourcesOutcome ListPartnerEventSources (const Model::ListPartnerEventSourcesRequest &request) const
 
virtual Model::ListPartnerEventSourcesOutcomeCallable ListPartnerEventSourcesCallable (const Model::ListPartnerEventSourcesRequest &request) const
 
virtual void ListPartnerEventSourcesAsync (const Model::ListPartnerEventSourcesRequest &request, const ListPartnerEventSourcesResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListReplaysOutcome ListReplays (const Model::ListReplaysRequest &request) const
 
virtual Model::ListReplaysOutcomeCallable ListReplaysCallable (const Model::ListReplaysRequest &request) const
 
virtual void ListReplaysAsync (const Model::ListReplaysRequest &request, const ListReplaysResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListRuleNamesByTargetOutcome ListRuleNamesByTarget (const Model::ListRuleNamesByTargetRequest &request) const
 
virtual Model::ListRuleNamesByTargetOutcomeCallable ListRuleNamesByTargetCallable (const Model::ListRuleNamesByTargetRequest &request) const
 
virtual void ListRuleNamesByTargetAsync (const Model::ListRuleNamesByTargetRequest &request, const ListRuleNamesByTargetResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::ListRulesOutcome ListRules (const Model::ListRulesRequest &request) const
 
virtual Model::ListRulesOutcomeCallable ListRulesCallable (const Model::ListRulesRequest &request) const
 
virtual void ListRulesAsync (const Model::ListRulesRequest &request, const ListRulesResponseReceivedHandler &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::ListTargetsByRuleOutcome ListTargetsByRule (const Model::ListTargetsByRuleRequest &request) const
 
virtual Model::ListTargetsByRuleOutcomeCallable ListTargetsByRuleCallable (const Model::ListTargetsByRuleRequest &request) const
 
virtual void ListTargetsByRuleAsync (const Model::ListTargetsByRuleRequest &request, const ListTargetsByRuleResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::PutEventsOutcome PutEvents (const Model::PutEventsRequest &request) const
 
virtual Model::PutEventsOutcomeCallable PutEventsCallable (const Model::PutEventsRequest &request) const
 
virtual void PutEventsAsync (const Model::PutEventsRequest &request, const PutEventsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::PutPartnerEventsOutcome PutPartnerEvents (const Model::PutPartnerEventsRequest &request) const
 
virtual Model::PutPartnerEventsOutcomeCallable PutPartnerEventsCallable (const Model::PutPartnerEventsRequest &request) const
 
virtual void PutPartnerEventsAsync (const Model::PutPartnerEventsRequest &request, const PutPartnerEventsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::PutPermissionOutcome PutPermission (const Model::PutPermissionRequest &request) const
 
virtual Model::PutPermissionOutcomeCallable PutPermissionCallable (const Model::PutPermissionRequest &request) const
 
virtual void PutPermissionAsync (const Model::PutPermissionRequest &request, const PutPermissionResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::PutRuleOutcome PutRule (const Model::PutRuleRequest &request) const
 
virtual Model::PutRuleOutcomeCallable PutRuleCallable (const Model::PutRuleRequest &request) const
 
virtual void PutRuleAsync (const Model::PutRuleRequest &request, const PutRuleResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::PutTargetsOutcome PutTargets (const Model::PutTargetsRequest &request) const
 
virtual Model::PutTargetsOutcomeCallable PutTargetsCallable (const Model::PutTargetsRequest &request) const
 
virtual void PutTargetsAsync (const Model::PutTargetsRequest &request, const PutTargetsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::RemovePermissionOutcome RemovePermission (const Model::RemovePermissionRequest &request) const
 
virtual Model::RemovePermissionOutcomeCallable RemovePermissionCallable (const Model::RemovePermissionRequest &request) const
 
virtual void RemovePermissionAsync (const Model::RemovePermissionRequest &request, const RemovePermissionResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::RemoveTargetsOutcome RemoveTargets (const Model::RemoveTargetsRequest &request) const
 
virtual Model::RemoveTargetsOutcomeCallable RemoveTargetsCallable (const Model::RemoveTargetsRequest &request) const
 
virtual void RemoveTargetsAsync (const Model::RemoveTargetsRequest &request, const RemoveTargetsResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::StartReplayOutcome StartReplay (const Model::StartReplayRequest &request) const
 
virtual Model::StartReplayOutcomeCallable StartReplayCallable (const Model::StartReplayRequest &request) const
 
virtual void StartReplayAsync (const Model::StartReplayRequest &request, const StartReplayResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::TagResourceOutcome TagResource (const Model::TagResourceRequest &request) const
 
virtual Model::TagResourceOutcomeCallable TagResourceCallable (const Model::TagResourceRequest &request) const
 
virtual void TagResourceAsync (const Model::TagResourceRequest &request, const TagResourceResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::TestEventPatternOutcome TestEventPattern (const Model::TestEventPatternRequest &request) const
 
virtual Model::TestEventPatternOutcomeCallable TestEventPatternCallable (const Model::TestEventPatternRequest &request) const
 
virtual void TestEventPatternAsync (const Model::TestEventPatternRequest &request, const TestEventPatternResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::UntagResourceOutcome UntagResource (const Model::UntagResourceRequest &request) const
 
virtual Model::UntagResourceOutcomeCallable UntagResourceCallable (const Model::UntagResourceRequest &request) const
 
virtual void UntagResourceAsync (const Model::UntagResourceRequest &request, const UntagResourceResponseReceivedHandler &handler, const std::shared_ptr< const Aws::Client::AsyncCallerContext > &context=nullptr) const
 
virtual Model::UpdateArchiveOutcome UpdateArchive (const Model::UpdateArchiveRequest &request) const
 
virtual Model::UpdateArchiveOutcomeCallable UpdateArchiveCallable (const Model::UpdateArchiveRequest &request) const
 
virtual void UpdateArchiveAsync (const Model::UpdateArchiveRequest &request, const UpdateArchiveResponseReceivedHandler &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::AWSJsonClient
 AWSJsonClient (const Aws::Client::ClientConfiguration &configuration, const std::shared_ptr< Aws::Client::AWSAuthSigner > &signer, const std::shared_ptr< AWSErrorMarshaller > &errorMarshaller)
 
 AWSJsonClient (const Aws::Client::ClientConfiguration &configuration, const std::shared_ptr< Aws::Auth::AWSAuthSignerProvider > &signerProvider, const std::shared_ptr< AWSErrorMarshaller > &errorMarshaller)
 
virtual ~AWSJsonClient ()=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 (Aws::Http::URI &uri, Aws::Http::HttpMethod method, const char *region, const char *serviceName, const Aws::Http::HeaderValueCollection &customizedHeaders, long long expirationInSeconds=0)
 
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::AWSJsonClient
virtual AWSError< CoreErrorsBuildAWSError (const std::shared_ptr< Aws::Http::HttpResponse > &response) const override
 
JsonOutcome 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 char *signerServiceNameOverride=nullptr) const
 
JsonOutcome 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 char *signerServiceNameOverride=nullptr) const
 
JsonOutcome MakeEventStreamRequest (std::shared_ptr< Aws::Http::HttpRequest > &request) 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 char *signerServiceNameOverride=nullptr) const
 
HttpResponseOutcome AttemptExhaustively (const Aws::Http::URI &uri, Http::HttpMethod httpMethod, const char *signerName, const char *requestName="", const char *signerRegionOverride=nullptr, const char *signerServiceNameOverride=nullptr) const
 
HttpResponseOutcome AttemptOneRequest (const std::shared_ptr< Http::HttpRequest > &httpRequest, const Aws::AmazonWebServiceRequest &request, const char *signerName, const char *signerRegionOverride=nullptr, const char *signerServiceNameOverride=nullptr) const
 
HttpResponseOutcome AttemptOneRequest (const std::shared_ptr< Http::HttpRequest > &httpRequest, const char *signerName, const char *requestName="", const char *signerRegionOverride=nullptr, const char *signerServiceNameOverride=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 char *signerServiceNameOverride=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 char *signerServiceNameOverride=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 EventBridge helps you to respond to state changes in your AWS resources. When your resources change state, they automatically send events into an event stream. You can create rules that match selected events in the stream and route them to targets to take action. You can also use rules to take action on a predetermined schedule. For example, you can configure rules to:

For more information about the features of Amazon EventBridge, see the Amazon EventBridge User Guide.

Definition at line 268 of file EventBridgeClient.h.

Member Typedef Documentation

◆ BASECLASS

Definition at line 271 of file EventBridgeClient.h.

Constructor & Destructor Documentation

◆ EventBridgeClient() [1/3]

Aws::EventBridge::EventBridgeClient::EventBridgeClient ( 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.

◆ EventBridgeClient() [2/3]

Aws::EventBridge::EventBridgeClient::EventBridgeClient ( 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.

◆ EventBridgeClient() [3/3]

Aws::EventBridge::EventBridgeClient::EventBridgeClient ( 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

◆ ~EventBridgeClient()

virtual Aws::EventBridge::EventBridgeClient::~EventBridgeClient ( )
virtual

Member Function Documentation

◆ ActivateEventSource()

virtual Model::ActivateEventSourceOutcome Aws::EventBridge::EventBridgeClient::ActivateEventSource ( const Model::ActivateEventSourceRequest request) const
virtual

Activates a partner event source that has been deactivated. Once activated, your matching event bus will start receiving events from the event source.

See Also:

AWS API Reference

◆ ActivateEventSourceAsync()

virtual void Aws::EventBridge::EventBridgeClient::ActivateEventSourceAsync ( const Model::ActivateEventSourceRequest request,
const ActivateEventSourceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Activates a partner event source that has been deactivated. Once activated, your matching event bus will start receiving events from the event source.

See Also:

AWS API Reference

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

◆ ActivateEventSourceCallable()

virtual Model::ActivateEventSourceOutcomeCallable Aws::EventBridge::EventBridgeClient::ActivateEventSourceCallable ( const Model::ActivateEventSourceRequest request) const
virtual

Activates a partner event source that has been deactivated. Once activated, your matching event bus will start receiving events from the event source.

See Also:

AWS API Reference

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

◆ CancelReplay()

virtual Model::CancelReplayOutcome Aws::EventBridge::EventBridgeClient::CancelReplay ( const Model::CancelReplayRequest request) const
virtual

Cancels the specified replay.

See Also:

AWS API Reference

◆ CancelReplayAsync()

virtual void Aws::EventBridge::EventBridgeClient::CancelReplayAsync ( const Model::CancelReplayRequest request,
const CancelReplayResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Cancels the specified replay.

See Also:

AWS API Reference

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

◆ CancelReplayCallable()

virtual Model::CancelReplayOutcomeCallable Aws::EventBridge::EventBridgeClient::CancelReplayCallable ( const Model::CancelReplayRequest request) const
virtual

Cancels the specified replay.

See Also:

AWS API Reference

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

◆ CreateArchive()

virtual Model::CreateArchiveOutcome Aws::EventBridge::EventBridgeClient::CreateArchive ( const Model::CreateArchiveRequest request) const
virtual

Creates an archive of events with the specified settings. When you create an archive, incoming events might not immediately start being sent to the archive. Allow a short period of time for changes to take effect. If you do not specify a pattern to filter events sent to the archive, all events are sent to the archive except replayed events. Replayed events are not sent to an archive.

See Also:

AWS API Reference

◆ CreateArchiveAsync()

virtual void Aws::EventBridge::EventBridgeClient::CreateArchiveAsync ( const Model::CreateArchiveRequest request,
const CreateArchiveResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates an archive of events with the specified settings. When you create an archive, incoming events might not immediately start being sent to the archive. Allow a short period of time for changes to take effect. If you do not specify a pattern to filter events sent to the archive, all events are sent to the archive except replayed events. Replayed events are not sent to an archive.

See Also:

AWS API Reference

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

◆ CreateArchiveCallable()

virtual Model::CreateArchiveOutcomeCallable Aws::EventBridge::EventBridgeClient::CreateArchiveCallable ( const Model::CreateArchiveRequest request) const
virtual

Creates an archive of events with the specified settings. When you create an archive, incoming events might not immediately start being sent to the archive. Allow a short period of time for changes to take effect. If you do not specify a pattern to filter events sent to the archive, all events are sent to the archive except replayed events. Replayed events are not sent to an archive.

See Also:

AWS API Reference

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

◆ CreateEventBus()

virtual Model::CreateEventBusOutcome Aws::EventBridge::EventBridgeClient::CreateEventBus ( const Model::CreateEventBusRequest request) const
virtual

Creates a new event bus within your account. This can be a custom event bus which you can use to receive events from your custom applications and services, or it can be a partner event bus which can be matched to a partner event source.

See Also:

AWS API Reference

◆ CreateEventBusAsync()

virtual void Aws::EventBridge::EventBridgeClient::CreateEventBusAsync ( const Model::CreateEventBusRequest request,
const CreateEventBusResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates a new event bus within your account. This can be a custom event bus which you can use to receive events from your custom applications and services, or it can be a partner event bus which can be matched to a partner event source.

See Also:

AWS API Reference

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

◆ CreateEventBusCallable()

virtual Model::CreateEventBusOutcomeCallable Aws::EventBridge::EventBridgeClient::CreateEventBusCallable ( const Model::CreateEventBusRequest request) const
virtual

Creates a new event bus within your account. This can be a custom event bus which you can use to receive events from your custom applications and services, or it can be a partner event bus which can be matched to a partner event source.

See Also:

AWS API Reference

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

◆ CreatePartnerEventSource()

virtual Model::CreatePartnerEventSourceOutcome Aws::EventBridge::EventBridgeClient::CreatePartnerEventSource ( const Model::CreatePartnerEventSourceRequest request) const
virtual

Called by an SaaS partner to create a partner event source. This operation is not used by AWS customers.

Each partner event source can be used by one AWS account to create a matching partner event bus in that AWS account. A SaaS partner must create one partner event source for each AWS account that wants to receive those event types.

A partner event source creates events based on resources within the SaaS partner's service or application.

An AWS account that creates a partner event bus that matches the partner event source can use that event bus to receive events from the partner, and then process them using AWS Events rules and targets.

Partner event source names follow this format:

partner_name/event_namespace/event_name

partner_name is determined during partner registration and identifies the partner to AWS customers. event_namespace is determined by the partner and is a way for the partner to categorize their events. event_name is determined by the partner, and should uniquely identify an event-generating resource within the partner system. The combination of event_namespace and event_name should help AWS customers decide whether to create an event bus to receive these events.

See Also:

AWS API Reference

◆ CreatePartnerEventSourceAsync()

virtual void Aws::EventBridge::EventBridgeClient::CreatePartnerEventSourceAsync ( const Model::CreatePartnerEventSourceRequest request,
const CreatePartnerEventSourceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Called by an SaaS partner to create a partner event source. This operation is not used by AWS customers.

Each partner event source can be used by one AWS account to create a matching partner event bus in that AWS account. A SaaS partner must create one partner event source for each AWS account that wants to receive those event types.

A partner event source creates events based on resources within the SaaS partner's service or application.

An AWS account that creates a partner event bus that matches the partner event source can use that event bus to receive events from the partner, and then process them using AWS Events rules and targets.

Partner event source names follow this format:

partner_name/event_namespace/event_name

partner_name is determined during partner registration and identifies the partner to AWS customers. event_namespace is determined by the partner and is a way for the partner to categorize their events. event_name is determined by the partner, and should uniquely identify an event-generating resource within the partner system. The combination of event_namespace and event_name should help AWS customers decide whether to create an event bus to receive these events.

See Also:

AWS API Reference

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

◆ CreatePartnerEventSourceCallable()

virtual Model::CreatePartnerEventSourceOutcomeCallable Aws::EventBridge::EventBridgeClient::CreatePartnerEventSourceCallable ( const Model::CreatePartnerEventSourceRequest request) const
virtual

Called by an SaaS partner to create a partner event source. This operation is not used by AWS customers.

Each partner event source can be used by one AWS account to create a matching partner event bus in that AWS account. A SaaS partner must create one partner event source for each AWS account that wants to receive those event types.

A partner event source creates events based on resources within the SaaS partner's service or application.

An AWS account that creates a partner event bus that matches the partner event source can use that event bus to receive events from the partner, and then process them using AWS Events rules and targets.

Partner event source names follow this format:

partner_name/event_namespace/event_name

partner_name is determined during partner registration and identifies the partner to AWS customers. event_namespace is determined by the partner and is a way for the partner to categorize their events. event_name is determined by the partner, and should uniquely identify an event-generating resource within the partner system. The combination of event_namespace and event_name should help AWS customers decide whether to create an event bus to receive these events.

See Also:

AWS API Reference

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

◆ DeactivateEventSource()

virtual Model::DeactivateEventSourceOutcome Aws::EventBridge::EventBridgeClient::DeactivateEventSource ( const Model::DeactivateEventSourceRequest request) const
virtual

You can use this operation to temporarily stop receiving events from the specified partner event source. The matching event bus is not deleted.

When you deactivate a partner event source, the source goes into PENDING state. If it remains in PENDING state for more than two weeks, it is deleted.

To activate a deactivated partner event source, use ActivateEventSource.

See Also:

AWS API Reference

◆ DeactivateEventSourceAsync()

virtual void Aws::EventBridge::EventBridgeClient::DeactivateEventSourceAsync ( const Model::DeactivateEventSourceRequest request,
const DeactivateEventSourceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

You can use this operation to temporarily stop receiving events from the specified partner event source. The matching event bus is not deleted.

When you deactivate a partner event source, the source goes into PENDING state. If it remains in PENDING state for more than two weeks, it is deleted.

To activate a deactivated partner event source, use ActivateEventSource.

See Also:

AWS API Reference

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

◆ DeactivateEventSourceCallable()

virtual Model::DeactivateEventSourceOutcomeCallable Aws::EventBridge::EventBridgeClient::DeactivateEventSourceCallable ( const Model::DeactivateEventSourceRequest request) const
virtual

You can use this operation to temporarily stop receiving events from the specified partner event source. The matching event bus is not deleted.

When you deactivate a partner event source, the source goes into PENDING state. If it remains in PENDING state for more than two weeks, it is deleted.

To activate a deactivated partner event source, use ActivateEventSource.

See Also:

AWS API Reference

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

◆ DeleteArchive()

virtual Model::DeleteArchiveOutcome Aws::EventBridge::EventBridgeClient::DeleteArchive ( const Model::DeleteArchiveRequest request) const
virtual

Deletes the specified archive.

See Also:

AWS API Reference

◆ DeleteArchiveAsync()

virtual void Aws::EventBridge::EventBridgeClient::DeleteArchiveAsync ( const Model::DeleteArchiveRequest request,
const DeleteArchiveResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes the specified archive.

See Also:

AWS API Reference

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

◆ DeleteArchiveCallable()

virtual Model::DeleteArchiveOutcomeCallable Aws::EventBridge::EventBridgeClient::DeleteArchiveCallable ( const Model::DeleteArchiveRequest request) const
virtual

Deletes the specified archive.

See Also:

AWS API Reference

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

◆ DeleteEventBus()

virtual Model::DeleteEventBusOutcome Aws::EventBridge::EventBridgeClient::DeleteEventBus ( const Model::DeleteEventBusRequest request) const
virtual

Deletes the specified custom event bus or partner event bus. All rules associated with this event bus need to be deleted. You can't delete your account's default event bus.

See Also:

AWS API Reference

◆ DeleteEventBusAsync()

virtual void Aws::EventBridge::EventBridgeClient::DeleteEventBusAsync ( const Model::DeleteEventBusRequest request,
const DeleteEventBusResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes the specified custom event bus or partner event bus. All rules associated with this event bus need to be deleted. You can't delete your account's default event bus.

See Also:

AWS API Reference

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

◆ DeleteEventBusCallable()

virtual Model::DeleteEventBusOutcomeCallable Aws::EventBridge::EventBridgeClient::DeleteEventBusCallable ( const Model::DeleteEventBusRequest request) const
virtual

Deletes the specified custom event bus or partner event bus. All rules associated with this event bus need to be deleted. You can't delete your account's default event bus.

See Also:

AWS API Reference

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

◆ DeletePartnerEventSource()

virtual Model::DeletePartnerEventSourceOutcome Aws::EventBridge::EventBridgeClient::DeletePartnerEventSource ( const Model::DeletePartnerEventSourceRequest request) const
virtual

This operation is used by SaaS partners to delete a partner event source. This operation is not used by AWS customers.

When you delete an event source, the status of the corresponding partner event bus in the AWS customer account becomes DELETED.

See Also:

AWS API Reference

◆ DeletePartnerEventSourceAsync()

virtual void Aws::EventBridge::EventBridgeClient::DeletePartnerEventSourceAsync ( const Model::DeletePartnerEventSourceRequest request,
const DeletePartnerEventSourceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

This operation is used by SaaS partners to delete a partner event source. This operation is not used by AWS customers.

When you delete an event source, the status of the corresponding partner event bus in the AWS customer account becomes DELETED.

See Also:

AWS API Reference

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

◆ DeletePartnerEventSourceCallable()

virtual Model::DeletePartnerEventSourceOutcomeCallable Aws::EventBridge::EventBridgeClient::DeletePartnerEventSourceCallable ( const Model::DeletePartnerEventSourceRequest request) const
virtual

This operation is used by SaaS partners to delete a partner event source. This operation is not used by AWS customers.

When you delete an event source, the status of the corresponding partner event bus in the AWS customer account becomes DELETED.

See Also:

AWS API Reference

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

◆ DeleteRule()

virtual Model::DeleteRuleOutcome Aws::EventBridge::EventBridgeClient::DeleteRule ( const Model::DeleteRuleRequest request) const
virtual

Deletes the specified rule.

Before you can delete the rule, you must remove all targets, using RemoveTargets.

When you delete a rule, incoming events might continue to match to the deleted rule. Allow a short period of time for changes to take effect.

Managed rules are rules created and managed by another AWS service on your behalf. These rules are created by those other AWS services to support functionality in those services. You can delete these rules using the Force option, but you should do so only if you are sure the other service is not still using that rule.

See Also:

AWS API Reference

◆ DeleteRuleAsync()

virtual void Aws::EventBridge::EventBridgeClient::DeleteRuleAsync ( const Model::DeleteRuleRequest request,
const DeleteRuleResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Deletes the specified rule.

Before you can delete the rule, you must remove all targets, using RemoveTargets.

When you delete a rule, incoming events might continue to match to the deleted rule. Allow a short period of time for changes to take effect.

Managed rules are rules created and managed by another AWS service on your behalf. These rules are created by those other AWS services to support functionality in those services. You can delete these rules using the Force option, but you should do so only if you are sure the other service is not still using that rule.

See Also:

AWS API Reference

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

◆ DeleteRuleCallable()

virtual Model::DeleteRuleOutcomeCallable Aws::EventBridge::EventBridgeClient::DeleteRuleCallable ( const Model::DeleteRuleRequest request) const
virtual

Deletes the specified rule.

Before you can delete the rule, you must remove all targets, using RemoveTargets.

When you delete a rule, incoming events might continue to match to the deleted rule. Allow a short period of time for changes to take effect.

Managed rules are rules created and managed by another AWS service on your behalf. These rules are created by those other AWS services to support functionality in those services. You can delete these rules using the Force option, but you should do so only if you are sure the other service is not still using that rule.

See Also:

AWS API Reference

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

◆ DescribeArchive()

virtual Model::DescribeArchiveOutcome Aws::EventBridge::EventBridgeClient::DescribeArchive ( const Model::DescribeArchiveRequest request) const
virtual

Retrieves details about an archive.

See Also:

AWS API Reference

◆ DescribeArchiveAsync()

virtual void Aws::EventBridge::EventBridgeClient::DescribeArchiveAsync ( const Model::DescribeArchiveRequest request,
const DescribeArchiveResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Retrieves details about an archive.

See Also:

AWS API Reference

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

◆ DescribeArchiveCallable()

virtual Model::DescribeArchiveOutcomeCallable Aws::EventBridge::EventBridgeClient::DescribeArchiveCallable ( const Model::DescribeArchiveRequest request) const
virtual

Retrieves details about an archive.

See Also:

AWS API Reference

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

◆ DescribeEventBus()

virtual Model::DescribeEventBusOutcome Aws::EventBridge::EventBridgeClient::DescribeEventBus ( const Model::DescribeEventBusRequest request) const
virtual

Displays details about an event bus in your account. This can include the external AWS accounts that are permitted to write events to your default event bus, and the associated policy. For custom event buses and partner event buses, it displays the name, ARN, policy, state, and creation time.

To enable your account to receive events from other accounts on its default event bus, use PutPermission.

For more information about partner event buses, see CreateEventBus.

See Also:

AWS API Reference

◆ DescribeEventBusAsync()

virtual void Aws::EventBridge::EventBridgeClient::DescribeEventBusAsync ( const Model::DescribeEventBusRequest request,
const DescribeEventBusResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Displays details about an event bus in your account. This can include the external AWS accounts that are permitted to write events to your default event bus, and the associated policy. For custom event buses and partner event buses, it displays the name, ARN, policy, state, and creation time.

To enable your account to receive events from other accounts on its default event bus, use PutPermission.

For more information about partner event buses, see CreateEventBus.

See Also:

AWS API Reference

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

◆ DescribeEventBusCallable()

virtual Model::DescribeEventBusOutcomeCallable Aws::EventBridge::EventBridgeClient::DescribeEventBusCallable ( const Model::DescribeEventBusRequest request) const
virtual

Displays details about an event bus in your account. This can include the external AWS accounts that are permitted to write events to your default event bus, and the associated policy. For custom event buses and partner event buses, it displays the name, ARN, policy, state, and creation time.

To enable your account to receive events from other accounts on its default event bus, use PutPermission.

For more information about partner event buses, see CreateEventBus.

See Also:

AWS API Reference

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

◆ DescribeEventSource()

virtual Model::DescribeEventSourceOutcome Aws::EventBridge::EventBridgeClient::DescribeEventSource ( const Model::DescribeEventSourceRequest request) const
virtual

This operation lists details about a partner event source that is shared with your account.

See Also:

AWS API Reference

◆ DescribeEventSourceAsync()

virtual void Aws::EventBridge::EventBridgeClient::DescribeEventSourceAsync ( const Model::DescribeEventSourceRequest request,
const DescribeEventSourceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

This operation lists details about a partner event source that is shared with your account.

See Also:

AWS API Reference

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

◆ DescribeEventSourceCallable()

virtual Model::DescribeEventSourceOutcomeCallable Aws::EventBridge::EventBridgeClient::DescribeEventSourceCallable ( const Model::DescribeEventSourceRequest request) const
virtual

This operation lists details about a partner event source that is shared with your account.

See Also:

AWS API Reference

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

◆ DescribePartnerEventSource()

virtual Model::DescribePartnerEventSourceOutcome Aws::EventBridge::EventBridgeClient::DescribePartnerEventSource ( const Model::DescribePartnerEventSourceRequest request) const
virtual

An SaaS partner can use this operation to list details about a partner event source that they have created. AWS customers do not use this operation. Instead, AWS customers can use DescribeEventSource to see details about a partner event source that is shared with them.

See Also:

AWS API Reference

◆ DescribePartnerEventSourceAsync()

virtual void Aws::EventBridge::EventBridgeClient::DescribePartnerEventSourceAsync ( const Model::DescribePartnerEventSourceRequest request,
const DescribePartnerEventSourceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

An SaaS partner can use this operation to list details about a partner event source that they have created. AWS customers do not use this operation. Instead, AWS customers can use DescribeEventSource to see details about a partner event source that is shared with them.

See Also:

AWS API Reference

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

◆ DescribePartnerEventSourceCallable()

virtual Model::DescribePartnerEventSourceOutcomeCallable Aws::EventBridge::EventBridgeClient::DescribePartnerEventSourceCallable ( const Model::DescribePartnerEventSourceRequest request) const
virtual

An SaaS partner can use this operation to list details about a partner event source that they have created. AWS customers do not use this operation. Instead, AWS customers can use DescribeEventSource to see details about a partner event source that is shared with them.

See Also:

AWS API Reference

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

◆ DescribeReplay()

virtual Model::DescribeReplayOutcome Aws::EventBridge::EventBridgeClient::DescribeReplay ( const Model::DescribeReplayRequest request) const
virtual

Retrieves details about a replay. Use DescribeReplay to determine the progress of a running replay. A replay processes events to replay based on the time in the event, and replays them using 1 minute intervals. If you use StartReplay and specify an EventStartTime and an EventEndTime that covers a 20 minute time range, the events are replayed from the first minute of that 20 minute range first. Then the events from the second minute are replayed. You can use DescribeReplay to determine the progress of a replay. The value returned for EventLastReplayedTime indicates the time within the specified time range associated with the last event replayed.

See Also:

AWS API Reference

◆ DescribeReplayAsync()

virtual void Aws::EventBridge::EventBridgeClient::DescribeReplayAsync ( const Model::DescribeReplayRequest request,
const DescribeReplayResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Retrieves details about a replay. Use DescribeReplay to determine the progress of a running replay. A replay processes events to replay based on the time in the event, and replays them using 1 minute intervals. If you use StartReplay and specify an EventStartTime and an EventEndTime that covers a 20 minute time range, the events are replayed from the first minute of that 20 minute range first. Then the events from the second minute are replayed. You can use DescribeReplay to determine the progress of a replay. The value returned for EventLastReplayedTime indicates the time within the specified time range associated with the last event replayed.

See Also:

AWS API Reference

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

◆ DescribeReplayCallable()

virtual Model::DescribeReplayOutcomeCallable Aws::EventBridge::EventBridgeClient::DescribeReplayCallable ( const Model::DescribeReplayRequest request) const
virtual

Retrieves details about a replay. Use DescribeReplay to determine the progress of a running replay. A replay processes events to replay based on the time in the event, and replays them using 1 minute intervals. If you use StartReplay and specify an EventStartTime and an EventEndTime that covers a 20 minute time range, the events are replayed from the first minute of that 20 minute range first. Then the events from the second minute are replayed. You can use DescribeReplay to determine the progress of a replay. The value returned for EventLastReplayedTime indicates the time within the specified time range associated with the last event replayed.

See Also:

AWS API Reference

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

◆ DescribeRule()

virtual Model::DescribeRuleOutcome Aws::EventBridge::EventBridgeClient::DescribeRule ( const Model::DescribeRuleRequest request) const
virtual

Describes the specified rule.

DescribeRule does not list the targets of a rule. To see the targets associated with a rule, use ListTargetsByRule.

See Also:

AWS API Reference

◆ DescribeRuleAsync()

virtual void Aws::EventBridge::EventBridgeClient::DescribeRuleAsync ( const Model::DescribeRuleRequest request,
const DescribeRuleResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Describes the specified rule.

DescribeRule does not list the targets of a rule. To see the targets associated with a rule, use ListTargetsByRule.

See Also:

AWS API Reference

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

◆ DescribeRuleCallable()

virtual Model::DescribeRuleOutcomeCallable Aws::EventBridge::EventBridgeClient::DescribeRuleCallable ( const Model::DescribeRuleRequest request) const
virtual

Describes the specified rule.

DescribeRule does not list the targets of a rule. To see the targets associated with a rule, use ListTargetsByRule.

See Also:

AWS API Reference

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

◆ DisableRule()

virtual Model::DisableRuleOutcome Aws::EventBridge::EventBridgeClient::DisableRule ( const Model::DisableRuleRequest request) const
virtual

Disables the specified rule. A disabled rule won't match any events, and won't self-trigger if it has a schedule expression.

When you disable a rule, incoming events might continue to match to the disabled rule. Allow a short period of time for changes to take effect.

See Also:

AWS API Reference

◆ DisableRuleAsync()

virtual void Aws::EventBridge::EventBridgeClient::DisableRuleAsync ( const Model::DisableRuleRequest request,
const DisableRuleResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Disables the specified rule. A disabled rule won't match any events, and won't self-trigger if it has a schedule expression.

When you disable a rule, incoming events might continue to match to the disabled rule. Allow a short period of time for changes to take effect.

See Also:

AWS API Reference

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

◆ DisableRuleCallable()

virtual Model::DisableRuleOutcomeCallable Aws::EventBridge::EventBridgeClient::DisableRuleCallable ( const Model::DisableRuleRequest request) const
virtual

Disables the specified rule. A disabled rule won't match any events, and won't self-trigger if it has a schedule expression.

When you disable a rule, incoming events might continue to match to the disabled rule. Allow a short period of time for changes to take effect.

See Also:

AWS API Reference

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

◆ EnableRule()

virtual Model::EnableRuleOutcome Aws::EventBridge::EventBridgeClient::EnableRule ( const Model::EnableRuleRequest request) const
virtual

Enables the specified rule. If the rule does not exist, the operation fails.

When you enable a rule, incoming events might not immediately start matching to a newly enabled rule. Allow a short period of time for changes to take effect.

See Also:

AWS API Reference

◆ EnableRuleAsync()

virtual void Aws::EventBridge::EventBridgeClient::EnableRuleAsync ( const Model::EnableRuleRequest request,
const EnableRuleResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Enables the specified rule. If the rule does not exist, the operation fails.

When you enable a rule, incoming events might not immediately start matching to a newly enabled rule. Allow a short period of time for changes to take effect.

See Also:

AWS API Reference

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

◆ EnableRuleCallable()

virtual Model::EnableRuleOutcomeCallable Aws::EventBridge::EventBridgeClient::EnableRuleCallable ( const Model::EnableRuleRequest request) const
virtual

Enables the specified rule. If the rule does not exist, the operation fails.

When you enable a rule, incoming events might not immediately start matching to a newly enabled rule. Allow a short period of time for changes to take effect.

See Also:

AWS API Reference

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

◆ ListArchives()

virtual Model::ListArchivesOutcome Aws::EventBridge::EventBridgeClient::ListArchives ( const Model::ListArchivesRequest request) const
virtual

Lists your archives. You can either list all the archives or you can provide a prefix to match to the archive names. Filter parameters are exclusive.

See Also:

AWS API Reference

◆ ListArchivesAsync()

virtual void Aws::EventBridge::EventBridgeClient::ListArchivesAsync ( const Model::ListArchivesRequest request,
const ListArchivesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Lists your archives. You can either list all the archives or you can provide a prefix to match to the archive names. Filter parameters are exclusive.

See Also:

AWS API Reference

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

◆ ListArchivesCallable()

virtual Model::ListArchivesOutcomeCallable Aws::EventBridge::EventBridgeClient::ListArchivesCallable ( const Model::ListArchivesRequest request) const
virtual

Lists your archives. You can either list all the archives or you can provide a prefix to match to the archive names. Filter parameters are exclusive.

See Also:

AWS API Reference

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

◆ ListEventBuses()

virtual Model::ListEventBusesOutcome Aws::EventBridge::EventBridgeClient::ListEventBuses ( const Model::ListEventBusesRequest request) const
virtual

Lists all the event buses in your account, including the default event bus, custom event buses, and partner event buses.

See Also:

AWS API Reference

◆ ListEventBusesAsync()

virtual void Aws::EventBridge::EventBridgeClient::ListEventBusesAsync ( const Model::ListEventBusesRequest request,
const ListEventBusesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Lists all the event buses in your account, including the default event bus, custom event buses, and partner event buses.

See Also:

AWS API Reference

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

◆ ListEventBusesCallable()

virtual Model::ListEventBusesOutcomeCallable Aws::EventBridge::EventBridgeClient::ListEventBusesCallable ( const Model::ListEventBusesRequest request) const
virtual

Lists all the event buses in your account, including the default event bus, custom event buses, and partner event buses.

See Also:

AWS API Reference

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

◆ ListEventSources()

virtual Model::ListEventSourcesOutcome Aws::EventBridge::EventBridgeClient::ListEventSources ( const Model::ListEventSourcesRequest request) const
virtual

You can use this to see all the partner event sources that have been shared with your AWS account. For more information about partner event sources, see CreateEventBus.

See Also:

AWS API Reference

◆ ListEventSourcesAsync()

virtual void Aws::EventBridge::EventBridgeClient::ListEventSourcesAsync ( const Model::ListEventSourcesRequest request,
const ListEventSourcesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

You can use this to see all the partner event sources that have been shared with your AWS account. For more information about partner event sources, see CreateEventBus.

See Also:

AWS API Reference

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

◆ ListEventSourcesCallable()

virtual Model::ListEventSourcesOutcomeCallable Aws::EventBridge::EventBridgeClient::ListEventSourcesCallable ( const Model::ListEventSourcesRequest request) const
virtual

You can use this to see all the partner event sources that have been shared with your AWS account. For more information about partner event sources, see CreateEventBus.

See Also:

AWS API Reference

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

◆ ListPartnerEventSourceAccounts()

virtual Model::ListPartnerEventSourceAccountsOutcome Aws::EventBridge::EventBridgeClient::ListPartnerEventSourceAccounts ( const Model::ListPartnerEventSourceAccountsRequest request) const
virtual

An SaaS partner can use this operation to display the AWS account ID that a particular partner event source name is associated with. This operation is not used by AWS customers.

See Also:

AWS API Reference

◆ ListPartnerEventSourceAccountsAsync()

virtual void Aws::EventBridge::EventBridgeClient::ListPartnerEventSourceAccountsAsync ( const Model::ListPartnerEventSourceAccountsRequest request,
const ListPartnerEventSourceAccountsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

An SaaS partner can use this operation to display the AWS account ID that a particular partner event source name is associated with. This operation is not used by AWS customers.

See Also:

AWS API Reference

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

◆ ListPartnerEventSourceAccountsCallable()

virtual Model::ListPartnerEventSourceAccountsOutcomeCallable Aws::EventBridge::EventBridgeClient::ListPartnerEventSourceAccountsCallable ( const Model::ListPartnerEventSourceAccountsRequest request) const
virtual

An SaaS partner can use this operation to display the AWS account ID that a particular partner event source name is associated with. This operation is not used by AWS customers.

See Also:

AWS API Reference

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

◆ ListPartnerEventSources()

virtual Model::ListPartnerEventSourcesOutcome Aws::EventBridge::EventBridgeClient::ListPartnerEventSources ( const Model::ListPartnerEventSourcesRequest request) const
virtual

An SaaS partner can use this operation to list all the partner event source names that they have created. This operation is not used by AWS customers.

See Also:

AWS API Reference

◆ ListPartnerEventSourcesAsync()

virtual void Aws::EventBridge::EventBridgeClient::ListPartnerEventSourcesAsync ( const Model::ListPartnerEventSourcesRequest request,
const ListPartnerEventSourcesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

An SaaS partner can use this operation to list all the partner event source names that they have created. This operation is not used by AWS customers.

See Also:

AWS API Reference

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

◆ ListPartnerEventSourcesCallable()

virtual Model::ListPartnerEventSourcesOutcomeCallable Aws::EventBridge::EventBridgeClient::ListPartnerEventSourcesCallable ( const Model::ListPartnerEventSourcesRequest request) const
virtual

An SaaS partner can use this operation to list all the partner event source names that they have created. This operation is not used by AWS customers.

See Also:

AWS API Reference

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

◆ ListReplays()

virtual Model::ListReplaysOutcome Aws::EventBridge::EventBridgeClient::ListReplays ( const Model::ListReplaysRequest request) const
virtual

Lists your replays. You can either list all the replays or you can provide a prefix to match to the replay names. Filter parameters are exclusive.

See Also:

AWS API Reference

◆ ListReplaysAsync()

virtual void Aws::EventBridge::EventBridgeClient::ListReplaysAsync ( const Model::ListReplaysRequest request,
const ListReplaysResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Lists your replays. You can either list all the replays or you can provide a prefix to match to the replay names. Filter parameters are exclusive.

See Also:

AWS API Reference

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

◆ ListReplaysCallable()

virtual Model::ListReplaysOutcomeCallable Aws::EventBridge::EventBridgeClient::ListReplaysCallable ( const Model::ListReplaysRequest request) const
virtual

Lists your replays. You can either list all the replays or you can provide a prefix to match to the replay names. Filter parameters are exclusive.

See Also:

AWS API Reference

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

◆ ListRuleNamesByTarget()

virtual Model::ListRuleNamesByTargetOutcome Aws::EventBridge::EventBridgeClient::ListRuleNamesByTarget ( const Model::ListRuleNamesByTargetRequest request) const
virtual

Lists the rules for the specified target. You can see which of the rules in Amazon EventBridge can invoke a specific target in your account.

See Also:

AWS API Reference

◆ ListRuleNamesByTargetAsync()

virtual void Aws::EventBridge::EventBridgeClient::ListRuleNamesByTargetAsync ( const Model::ListRuleNamesByTargetRequest request,
const ListRuleNamesByTargetResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Lists the rules for the specified target. You can see which of the rules in Amazon EventBridge can invoke a specific target in your account.

See Also:

AWS API Reference

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

◆ ListRuleNamesByTargetCallable()

virtual Model::ListRuleNamesByTargetOutcomeCallable Aws::EventBridge::EventBridgeClient::ListRuleNamesByTargetCallable ( const Model::ListRuleNamesByTargetRequest request) const
virtual

Lists the rules for the specified target. You can see which of the rules in Amazon EventBridge can invoke a specific target in your account.

See Also:

AWS API Reference

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

◆ ListRules()

virtual Model::ListRulesOutcome Aws::EventBridge::EventBridgeClient::ListRules ( const Model::ListRulesRequest request) const
virtual

Lists your Amazon EventBridge rules. You can either list all the rules or you can provide a prefix to match to the rule names.

ListRules does not list the targets of a rule. To see the targets associated with a rule, use ListTargetsByRule.

See Also:

AWS API Reference

◆ ListRulesAsync()

virtual void Aws::EventBridge::EventBridgeClient::ListRulesAsync ( const Model::ListRulesRequest request,
const ListRulesResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Lists your Amazon EventBridge rules. You can either list all the rules or you can provide a prefix to match to the rule names.

ListRules does not list the targets of a rule. To see the targets associated with a rule, use ListTargetsByRule.

See Also:

AWS API Reference

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

◆ ListRulesCallable()

virtual Model::ListRulesOutcomeCallable Aws::EventBridge::EventBridgeClient::ListRulesCallable ( const Model::ListRulesRequest request) const
virtual

Lists your Amazon EventBridge rules. You can either list all the rules or you can provide a prefix to match to the rule names.

ListRules does not list the targets of a rule. To see the targets associated with a rule, use ListTargetsByRule.

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::EventBridge::EventBridgeClient::ListTagsForResource ( const Model::ListTagsForResourceRequest request) const
virtual

Displays the tags associated with an EventBridge resource. In EventBridge, rules and event buses can be tagged.

See Also:

AWS API Reference

◆ ListTagsForResourceAsync()

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

Displays the tags associated with an EventBridge resource. In EventBridge, rules and event buses can be tagged.

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::EventBridge::EventBridgeClient::ListTagsForResourceCallable ( const Model::ListTagsForResourceRequest request) const
virtual

Displays the tags associated with an EventBridge resource. In EventBridge, rules and event buses can be tagged.

See Also:

AWS API Reference

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

◆ ListTargetsByRule()

virtual Model::ListTargetsByRuleOutcome Aws::EventBridge::EventBridgeClient::ListTargetsByRule ( const Model::ListTargetsByRuleRequest request) const
virtual

Lists the targets assigned to the specified rule.

See Also:

AWS API Reference

◆ ListTargetsByRuleAsync()

virtual void Aws::EventBridge::EventBridgeClient::ListTargetsByRuleAsync ( const Model::ListTargetsByRuleRequest request,
const ListTargetsByRuleResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Lists the targets assigned to the specified rule.

See Also:

AWS API Reference

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

◆ ListTargetsByRuleCallable()

virtual Model::ListTargetsByRuleOutcomeCallable Aws::EventBridge::EventBridgeClient::ListTargetsByRuleCallable ( const Model::ListTargetsByRuleRequest request) const
virtual

Lists the targets assigned to the specified rule.

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::EventBridge::EventBridgeClient::OverrideEndpoint ( const Aws::String endpoint)

◆ PutEvents()

virtual Model::PutEventsOutcome Aws::EventBridge::EventBridgeClient::PutEvents ( const Model::PutEventsRequest request) const
virtual

Sends custom events to Amazon EventBridge so that they can be matched to rules.

See Also:

AWS API Reference

◆ PutEventsAsync()

virtual void Aws::EventBridge::EventBridgeClient::PutEventsAsync ( const Model::PutEventsRequest request,
const PutEventsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Sends custom events to Amazon EventBridge so that they can be matched to rules.

See Also:

AWS API Reference

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

◆ PutEventsCallable()

virtual Model::PutEventsOutcomeCallable Aws::EventBridge::EventBridgeClient::PutEventsCallable ( const Model::PutEventsRequest request) const
virtual

Sends custom events to Amazon EventBridge so that they can be matched to rules.

See Also:

AWS API Reference

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

◆ PutPartnerEvents()

virtual Model::PutPartnerEventsOutcome Aws::EventBridge::EventBridgeClient::PutPartnerEvents ( const Model::PutPartnerEventsRequest request) const
virtual

This is used by SaaS partners to write events to a customer's partner event bus. AWS customers do not use this operation.

See Also:

AWS API Reference

◆ PutPartnerEventsAsync()

virtual void Aws::EventBridge::EventBridgeClient::PutPartnerEventsAsync ( const Model::PutPartnerEventsRequest request,
const PutPartnerEventsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

This is used by SaaS partners to write events to a customer's partner event bus. AWS customers do not use this operation.

See Also:

AWS API Reference

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

◆ PutPartnerEventsCallable()

virtual Model::PutPartnerEventsOutcomeCallable Aws::EventBridge::EventBridgeClient::PutPartnerEventsCallable ( const Model::PutPartnerEventsRequest request) const
virtual

This is used by SaaS partners to write events to a customer's partner event bus. AWS customers do not use this operation.

See Also:

AWS API Reference

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

◆ PutPermission()

virtual Model::PutPermissionOutcome Aws::EventBridge::EventBridgeClient::PutPermission ( const Model::PutPermissionRequest request) const
virtual

Running PutPermission permits the specified AWS account or AWS organization to put events to the specified event bus. Amazon EventBridge (CloudWatch Events) rules in your account are triggered by these events arriving to an event bus in your account.

For another account to send events to your account, that external account must have an EventBridge rule with your account's event bus as a target.

To enable multiple AWS accounts to put events to your event bus, run PutPermission once for each of these accounts. Or, if all the accounts are members of the same AWS organization, you can run PutPermission once specifying Principal as "*" and specifying the AWS organization ID in Condition, to grant permissions to all accounts in that organization.

If you grant permissions using an organization, then accounts in that organization must specify a RoleArn with proper permissions when they use PutTarget to add your account's event bus as a target. For more information, see Sending and Receiving Events Between AWS Accounts in the Amazon EventBridge User Guide.

The permission policy on the default event bus cannot exceed 10 KB in size.

See Also:

AWS API Reference

◆ PutPermissionAsync()

virtual void Aws::EventBridge::EventBridgeClient::PutPermissionAsync ( const Model::PutPermissionRequest request,
const PutPermissionResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Running PutPermission permits the specified AWS account or AWS organization to put events to the specified event bus. Amazon EventBridge (CloudWatch Events) rules in your account are triggered by these events arriving to an event bus in your account.

For another account to send events to your account, that external account must have an EventBridge rule with your account's event bus as a target.

To enable multiple AWS accounts to put events to your event bus, run PutPermission once for each of these accounts. Or, if all the accounts are members of the same AWS organization, you can run PutPermission once specifying Principal as "*" and specifying the AWS organization ID in Condition, to grant permissions to all accounts in that organization.

If you grant permissions using an organization, then accounts in that organization must specify a RoleArn with proper permissions when they use PutTarget to add your account's event bus as a target. For more information, see Sending and Receiving Events Between AWS Accounts in the Amazon EventBridge User Guide.

The permission policy on the default event bus cannot exceed 10 KB in size.

See Also:

AWS API Reference

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

◆ PutPermissionCallable()

virtual Model::PutPermissionOutcomeCallable Aws::EventBridge::EventBridgeClient::PutPermissionCallable ( const Model::PutPermissionRequest request) const
virtual

Running PutPermission permits the specified AWS account or AWS organization to put events to the specified event bus. Amazon EventBridge (CloudWatch Events) rules in your account are triggered by these events arriving to an event bus in your account.

For another account to send events to your account, that external account must have an EventBridge rule with your account's event bus as a target.

To enable multiple AWS accounts to put events to your event bus, run PutPermission once for each of these accounts. Or, if all the accounts are members of the same AWS organization, you can run PutPermission once specifying Principal as "*" and specifying the AWS organization ID in Condition, to grant permissions to all accounts in that organization.

If you grant permissions using an organization, then accounts in that organization must specify a RoleArn with proper permissions when they use PutTarget to add your account's event bus as a target. For more information, see Sending and Receiving Events Between AWS Accounts in the Amazon EventBridge User Guide.

The permission policy on the default event bus cannot exceed 10 KB in size.

See Also:

AWS API Reference

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

◆ PutRule()

virtual Model::PutRuleOutcome Aws::EventBridge::EventBridgeClient::PutRule ( const Model::PutRuleRequest request) const
virtual

Creates or updates the specified rule. Rules are enabled by default, or based on value of the state. You can disable a rule using DisableRule.

A single rule watches for events from a single event bus. Events generated by AWS services go to your account's default event bus. Events generated by SaaS partner services or applications go to the matching partner event bus. If you have custom applications or services, you can specify whether their events go to your default event bus or a custom event bus that you have created. For more information, see CreateEventBus.

If you are updating an existing rule, the rule is replaced with what you specify in this PutRule command. If you omit arguments in PutRule, the old values for those arguments are not kept. Instead, they are replaced with null values.

When you create or update a rule, incoming events might not immediately start matching to new or updated rules. Allow a short period of time for changes to take effect.

A rule must contain at least an EventPattern or ScheduleExpression. Rules with EventPatterns are triggered when a matching event is observed. Rules with ScheduleExpressions self-trigger based on the given schedule. A rule can have both an EventPattern and a ScheduleExpression, in which case the rule triggers on matching events as well as on a schedule.

When you initially create a rule, you can optionally assign one or more tags to the rule. Tags can help you organize and categorize your resources. You can also use them to scope user permissions, by granting a user permission to access or change only rules with certain tag values. To use the PutRule operation and assign tags, you must have both the events:PutRule and events:TagResource permissions.

If you are updating an existing rule, any tags you specify in the PutRule operation are ignored. To update the tags of an existing rule, use TagResource and UntagResource.

Most services in AWS treat : or / as the same character in Amazon Resource Names (ARNs). However, EventBridge uses an exact match in event patterns and rules. Be sure to use the correct ARN characters when creating event patterns so that they match the ARN syntax in the event you want to match.

In EventBridge, it is possible to create rules that lead to infinite loops, where a rule is fired repeatedly. For example, a rule might detect that ACLs have changed on an S3 bucket, and trigger software to change them to the desired state. If the rule is not written carefully, the subsequent change to the ACLs fires the rule again, creating an infinite loop.

To prevent this, write the rules so that the triggered actions do not re-fire the same rule. For example, your rule could fire only if ACLs are found to be in a bad state, instead of after any change.

An infinite loop can quickly cause higher than expected charges. We recommend that you use budgeting, which alerts you when charges exceed your specified limit. For more information, see Managing Your Costs with Budgets.

See Also:

AWS API Reference

◆ PutRuleAsync()

virtual void Aws::EventBridge::EventBridgeClient::PutRuleAsync ( const Model::PutRuleRequest request,
const PutRuleResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Creates or updates the specified rule. Rules are enabled by default, or based on value of the state. You can disable a rule using DisableRule.

A single rule watches for events from a single event bus. Events generated by AWS services go to your account's default event bus. Events generated by SaaS partner services or applications go to the matching partner event bus. If you have custom applications or services, you can specify whether their events go to your default event bus or a custom event bus that you have created. For more information, see CreateEventBus.

If you are updating an existing rule, the rule is replaced with what you specify in this PutRule command. If you omit arguments in PutRule, the old values for those arguments are not kept. Instead, they are replaced with null values.

When you create or update a rule, incoming events might not immediately start matching to new or updated rules. Allow a short period of time for changes to take effect.

A rule must contain at least an EventPattern or ScheduleExpression. Rules with EventPatterns are triggered when a matching event is observed. Rules with ScheduleExpressions self-trigger based on the given schedule. A rule can have both an EventPattern and a ScheduleExpression, in which case the rule triggers on matching events as well as on a schedule.

When you initially create a rule, you can optionally assign one or more tags to the rule. Tags can help you organize and categorize your resources. You can also use them to scope user permissions, by granting a user permission to access or change only rules with certain tag values. To use the PutRule operation and assign tags, you must have both the events:PutRule and events:TagResource permissions.

If you are updating an existing rule, any tags you specify in the PutRule operation are ignored. To update the tags of an existing rule, use TagResource and UntagResource.

Most services in AWS treat : or / as the same character in Amazon Resource Names (ARNs). However, EventBridge uses an exact match in event patterns and rules. Be sure to use the correct ARN characters when creating event patterns so that they match the ARN syntax in the event you want to match.

In EventBridge, it is possible to create rules that lead to infinite loops, where a rule is fired repeatedly. For example, a rule might detect that ACLs have changed on an S3 bucket, and trigger software to change them to the desired state. If the rule is not written carefully, the subsequent change to the ACLs fires the rule again, creating an infinite loop.

To prevent this, write the rules so that the triggered actions do not re-fire the same rule. For example, your rule could fire only if ACLs are found to be in a bad state, instead of after any change.

An infinite loop can quickly cause higher than expected charges. We recommend that you use budgeting, which alerts you when charges exceed your specified limit. For more information, see Managing Your Costs with Budgets.

See Also:

AWS API Reference

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

◆ PutRuleCallable()

virtual Model::PutRuleOutcomeCallable Aws::EventBridge::EventBridgeClient::PutRuleCallable ( const Model::PutRuleRequest request) const
virtual

Creates or updates the specified rule. Rules are enabled by default, or based on value of the state. You can disable a rule using DisableRule.

A single rule watches for events from a single event bus. Events generated by AWS services go to your account's default event bus. Events generated by SaaS partner services or applications go to the matching partner event bus. If you have custom applications or services, you can specify whether their events go to your default event bus or a custom event bus that you have created. For more information, see CreateEventBus.

If you are updating an existing rule, the rule is replaced with what you specify in this PutRule command. If you omit arguments in PutRule, the old values for those arguments are not kept. Instead, they are replaced with null values.

When you create or update a rule, incoming events might not immediately start matching to new or updated rules. Allow a short period of time for changes to take effect.

A rule must contain at least an EventPattern or ScheduleExpression. Rules with EventPatterns are triggered when a matching event is observed. Rules with ScheduleExpressions self-trigger based on the given schedule. A rule can have both an EventPattern and a ScheduleExpression, in which case the rule triggers on matching events as well as on a schedule.

When you initially create a rule, you can optionally assign one or more tags to the rule. Tags can help you organize and categorize your resources. You can also use them to scope user permissions, by granting a user permission to access or change only rules with certain tag values. To use the PutRule operation and assign tags, you must have both the events:PutRule and events:TagResource permissions.

If you are updating an existing rule, any tags you specify in the PutRule operation are ignored. To update the tags of an existing rule, use TagResource and UntagResource.

Most services in AWS treat : or / as the same character in Amazon Resource Names (ARNs). However, EventBridge uses an exact match in event patterns and rules. Be sure to use the correct ARN characters when creating event patterns so that they match the ARN syntax in the event you want to match.

In EventBridge, it is possible to create rules that lead to infinite loops, where a rule is fired repeatedly. For example, a rule might detect that ACLs have changed on an S3 bucket, and trigger software to change them to the desired state. If the rule is not written carefully, the subsequent change to the ACLs fires the rule again, creating an infinite loop.

To prevent this, write the rules so that the triggered actions do not re-fire the same rule. For example, your rule could fire only if ACLs are found to be in a bad state, instead of after any change.

An infinite loop can quickly cause higher than expected charges. We recommend that you use budgeting, which alerts you when charges exceed your specified limit. For more information, see Managing Your Costs with Budgets.

See Also:

AWS API Reference

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

◆ PutTargets()

virtual Model::PutTargetsOutcome Aws::EventBridge::EventBridgeClient::PutTargets ( const Model::PutTargetsRequest request) const
virtual

Adds the specified targets to the specified rule, or updates the targets if they are already associated with the rule.

Targets are the resources that are invoked when a rule is triggered.

You can configure the following as targets for Events:

  • EC2 instances

  • SSM Run Command

  • SSM Automation

  • AWS Lambda functions

  • Data streams in Amazon Kinesis Data Streams

  • Data delivery streams in Amazon Kinesis Data Firehose

  • Amazon ECS tasks

  • AWS Step Functions state machines

  • AWS Batch jobs

  • AWS CodeBuild projects

  • Pipelines in AWS CodePipeline

  • Amazon Inspector assessment templates

  • Amazon SNS topics

  • Amazon SQS queues, including FIFO queues

  • The default event bus of another AWS account

  • Amazon API Gateway REST APIs

  • Redshift Clusters to invoke Data API ExecuteStatement on

Creating rules with built-in targets is supported only in the AWS Management Console. The built-in targets are EC2 CreateSnapshot API call, EC2 RebootInstances API call, EC2 StopInstances API call, and EC2 TerminateInstances API call.

For some target types, PutTargets provides target-specific parameters. If the target is a Kinesis data stream, you can optionally specify which shard the event goes to by using the KinesisParameters argument. To invoke a command on multiple EC2 instances with one rule, you can use the RunCommandParameters field.

To be able to make API calls against the resources that you own, Amazon EventBridge (CloudWatch Events) needs the appropriate permissions. For AWS Lambda and Amazon SNS resources, EventBridge relies on resource-based policies. For EC2 instances, Kinesis data streams, AWS Step Functions state machines and API Gateway REST APIs, EventBridge relies on IAM roles that you specify in the RoleARN argument in PutTargets. For more information, see Authentication and Access Control in the Amazon EventBridge User Guide.

If another AWS account is in the same region and has granted you permission (using PutPermission), you can send events to that account. Set that account's event bus as a target of the rules in your account. To send the matched events to the other account, specify that account's event bus as the Arn value when you run PutTargets. If your account sends events to another account, your account is charged for each sent event. Each event sent to another account is charged as a custom event. The account receiving the event is not charged. For more information, see Amazon EventBridge (CloudWatch Events) Pricing.

Input, InputPath, and InputTransformer are not available with PutTarget if the target is an event bus of a different AWS account.

If you are setting the event bus of another account as the target, and that account granted permission to your account through an organization instead of directly by the account ID, then you must specify a RoleArn with proper permissions in the Target structure. For more information, see Sending and Receiving Events Between AWS Accounts in the Amazon EventBridge User Guide.

For more information about enabling cross-account events, see PutPermission.

Input, InputPath, and InputTransformer are mutually exclusive and optional parameters of a target. When a rule is triggered due to a matched event:

  • If none of the following arguments are specified for a target, then the entire event is passed to the target in JSON format (unless the target is Amazon EC2 Run Command or Amazon ECS task, in which case nothing from the event is passed to the target).

  • If Input is specified in the form of valid JSON, then the matched event is overridden with this constant.

  • If InputPath is specified in the form of JSONPath (for example, $.detail), then only the part of the event specified in the path is passed to the target (for example, only the detail part of the event is passed).

  • If InputTransformer is specified, then one or more specified JSONPaths are extracted from the event and used as values in a template that you specify as the input to the target.

When you specify InputPath or InputTransformer, you must use JSON dot notation, not bracket notation.

When you add targets to a rule and the associated rule triggers soon after, new or updated targets might not be immediately invoked. Allow a short period of time for changes to take effect.

This action can partially fail if too many requests are made at the same time. If that happens, FailedEntryCount is non-zero in the response and each entry in FailedEntries provides the ID of the failed target and the error code.

See Also:

AWS API Reference

◆ PutTargetsAsync()

virtual void Aws::EventBridge::EventBridgeClient::PutTargetsAsync ( const Model::PutTargetsRequest request,
const PutTargetsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Adds the specified targets to the specified rule, or updates the targets if they are already associated with the rule.

Targets are the resources that are invoked when a rule is triggered.

You can configure the following as targets for Events:

  • EC2 instances

  • SSM Run Command

  • SSM Automation

  • AWS Lambda functions

  • Data streams in Amazon Kinesis Data Streams

  • Data delivery streams in Amazon Kinesis Data Firehose

  • Amazon ECS tasks

  • AWS Step Functions state machines

  • AWS Batch jobs

  • AWS CodeBuild projects

  • Pipelines in AWS CodePipeline

  • Amazon Inspector assessment templates

  • Amazon SNS topics

  • Amazon SQS queues, including FIFO queues

  • The default event bus of another AWS account

  • Amazon API Gateway REST APIs

  • Redshift Clusters to invoke Data API ExecuteStatement on

Creating rules with built-in targets is supported only in the AWS Management Console. The built-in targets are EC2 CreateSnapshot API call, EC2 RebootInstances API call, EC2 StopInstances API call, and EC2 TerminateInstances API call.

For some target types, PutTargets provides target-specific parameters. If the target is a Kinesis data stream, you can optionally specify which shard the event goes to by using the KinesisParameters argument. To invoke a command on multiple EC2 instances with one rule, you can use the RunCommandParameters field.

To be able to make API calls against the resources that you own, Amazon EventBridge (CloudWatch Events) needs the appropriate permissions. For AWS Lambda and Amazon SNS resources, EventBridge relies on resource-based policies. For EC2 instances, Kinesis data streams, AWS Step Functions state machines and API Gateway REST APIs, EventBridge relies on IAM roles that you specify in the RoleARN argument in PutTargets. For more information, see Authentication and Access Control in the Amazon EventBridge User Guide.

If another AWS account is in the same region and has granted you permission (using PutPermission), you can send events to that account. Set that account's event bus as a target of the rules in your account. To send the matched events to the other account, specify that account's event bus as the Arn value when you run PutTargets. If your account sends events to another account, your account is charged for each sent event. Each event sent to another account is charged as a custom event. The account receiving the event is not charged. For more information, see Amazon EventBridge (CloudWatch Events) Pricing.

Input, InputPath, and InputTransformer are not available with PutTarget if the target is an event bus of a different AWS account.

If you are setting the event bus of another account as the target, and that account granted permission to your account through an organization instead of directly by the account ID, then you must specify a RoleArn with proper permissions in the Target structure. For more information, see Sending and Receiving Events Between AWS Accounts in the Amazon EventBridge User Guide.

For more information about enabling cross-account events, see PutPermission.

Input, InputPath, and InputTransformer are mutually exclusive and optional parameters of a target. When a rule is triggered due to a matched event:

  • If none of the following arguments are specified for a target, then the entire event is passed to the target in JSON format (unless the target is Amazon EC2 Run Command or Amazon ECS task, in which case nothing from the event is passed to the target).

  • If Input is specified in the form of valid JSON, then the matched event is overridden with this constant.

  • If InputPath is specified in the form of JSONPath (for example, $.detail), then only the part of the event specified in the path is passed to the target (for example, only the detail part of the event is passed).

  • If InputTransformer is specified, then one or more specified JSONPaths are extracted from the event and used as values in a template that you specify as the input to the target.

When you specify InputPath or InputTransformer, you must use JSON dot notation, not bracket notation.

When you add targets to a rule and the associated rule triggers soon after, new or updated targets might not be immediately invoked. Allow a short period of time for changes to take effect.

This action can partially fail if too many requests are made at the same time. If that happens, FailedEntryCount is non-zero in the response and each entry in FailedEntries provides the ID of the failed target and the error code.

See Also:

AWS API Reference

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

◆ PutTargetsCallable()

virtual Model::PutTargetsOutcomeCallable Aws::EventBridge::EventBridgeClient::PutTargetsCallable ( const Model::PutTargetsRequest request) const
virtual

Adds the specified targets to the specified rule, or updates the targets if they are already associated with the rule.

Targets are the resources that are invoked when a rule is triggered.

You can configure the following as targets for Events:

  • EC2 instances

  • SSM Run Command

  • SSM Automation

  • AWS Lambda functions

  • Data streams in Amazon Kinesis Data Streams

  • Data delivery streams in Amazon Kinesis Data Firehose

  • Amazon ECS tasks

  • AWS Step Functions state machines

  • AWS Batch jobs

  • AWS CodeBuild projects

  • Pipelines in AWS CodePipeline

  • Amazon Inspector assessment templates

  • Amazon SNS topics

  • Amazon SQS queues, including FIFO queues

  • The default event bus of another AWS account

  • Amazon API Gateway REST APIs

  • Redshift Clusters to invoke Data API ExecuteStatement on

Creating rules with built-in targets is supported only in the AWS Management Console. The built-in targets are EC2 CreateSnapshot API call, EC2 RebootInstances API call, EC2 StopInstances API call, and EC2 TerminateInstances API call.

For some target types, PutTargets provides target-specific parameters. If the target is a Kinesis data stream, you can optionally specify which shard the event goes to by using the KinesisParameters argument. To invoke a command on multiple EC2 instances with one rule, you can use the RunCommandParameters field.

To be able to make API calls against the resources that you own, Amazon EventBridge (CloudWatch Events) needs the appropriate permissions. For AWS Lambda and Amazon SNS resources, EventBridge relies on resource-based policies. For EC2 instances, Kinesis data streams, AWS Step Functions state machines and API Gateway REST APIs, EventBridge relies on IAM roles that you specify in the RoleARN argument in PutTargets. For more information, see Authentication and Access Control in the Amazon EventBridge User Guide.

If another AWS account is in the same region and has granted you permission (using PutPermission), you can send events to that account. Set that account's event bus as a target of the rules in your account. To send the matched events to the other account, specify that account's event bus as the Arn value when you run PutTargets. If your account sends events to another account, your account is charged for each sent event. Each event sent to another account is charged as a custom event. The account receiving the event is not charged. For more information, see Amazon EventBridge (CloudWatch Events) Pricing.

Input, InputPath, and InputTransformer are not available with PutTarget if the target is an event bus of a different AWS account.

If you are setting the event bus of another account as the target, and that account granted permission to your account through an organization instead of directly by the account ID, then you must specify a RoleArn with proper permissions in the Target structure. For more information, see Sending and Receiving Events Between AWS Accounts in the Amazon EventBridge User Guide.

For more information about enabling cross-account events, see PutPermission.

Input, InputPath, and InputTransformer are mutually exclusive and optional parameters of a target. When a rule is triggered due to a matched event:

  • If none of the following arguments are specified for a target, then the entire event is passed to the target in JSON format (unless the target is Amazon EC2 Run Command or Amazon ECS task, in which case nothing from the event is passed to the target).

  • If Input is specified in the form of valid JSON, then the matched event is overridden with this constant.

  • If InputPath is specified in the form of JSONPath (for example, $.detail), then only the part of the event specified in the path is passed to the target (for example, only the detail part of the event is passed).

  • If InputTransformer is specified, then one or more specified JSONPaths are extracted from the event and used as values in a template that you specify as the input to the target.

When you specify InputPath or InputTransformer, you must use JSON dot notation, not bracket notation.

When you add targets to a rule and the associated rule triggers soon after, new or updated targets might not be immediately invoked. Allow a short period of time for changes to take effect.

This action can partially fail if too many requests are made at the same time. If that happens, FailedEntryCount is non-zero in the response and each entry in FailedEntries provides the ID of the failed target and the error code.

See Also:

AWS API Reference

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

◆ RemovePermission()

virtual Model::RemovePermissionOutcome Aws::EventBridge::EventBridgeClient::RemovePermission ( const Model::RemovePermissionRequest request) const
virtual

Revokes the permission of another AWS account to be able to put events to the specified event bus. Specify the account to revoke by the StatementId value that you associated with the account when you granted it permission with PutPermission. You can find the StatementId by using DescribeEventBus.

See Also:

AWS API Reference

◆ RemovePermissionAsync()

virtual void Aws::EventBridge::EventBridgeClient::RemovePermissionAsync ( const Model::RemovePermissionRequest request,
const RemovePermissionResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Revokes the permission of another AWS account to be able to put events to the specified event bus. Specify the account to revoke by the StatementId value that you associated with the account when you granted it permission with PutPermission. You can find the StatementId by using DescribeEventBus.

See Also:

AWS API Reference

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

◆ RemovePermissionCallable()

virtual Model::RemovePermissionOutcomeCallable Aws::EventBridge::EventBridgeClient::RemovePermissionCallable ( const Model::RemovePermissionRequest request) const
virtual

Revokes the permission of another AWS account to be able to put events to the specified event bus. Specify the account to revoke by the StatementId value that you associated with the account when you granted it permission with PutPermission. You can find the StatementId by using DescribeEventBus.

See Also:

AWS API Reference

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

◆ RemoveTargets()

virtual Model::RemoveTargetsOutcome Aws::EventBridge::EventBridgeClient::RemoveTargets ( const Model::RemoveTargetsRequest request) const
virtual

Removes the specified targets from the specified rule. When the rule is triggered, those targets are no longer be invoked.

When you remove a target, when the associated rule triggers, removed targets might continue to be invoked. Allow a short period of time for changes to take effect.

This action can partially fail if too many requests are made at the same time. If that happens, FailedEntryCount is non-zero in the response and each entry in FailedEntries provides the ID of the failed target and the error code.

See Also:

AWS API Reference

◆ RemoveTargetsAsync()

virtual void Aws::EventBridge::EventBridgeClient::RemoveTargetsAsync ( const Model::RemoveTargetsRequest request,
const RemoveTargetsResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Removes the specified targets from the specified rule. When the rule is triggered, those targets are no longer be invoked.

When you remove a target, when the associated rule triggers, removed targets might continue to be invoked. Allow a short period of time for changes to take effect.

This action can partially fail if too many requests are made at the same time. If that happens, FailedEntryCount is non-zero in the response and each entry in FailedEntries provides the ID of the failed target and the error code.

See Also:

AWS API Reference

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

◆ RemoveTargetsCallable()

virtual Model::RemoveTargetsOutcomeCallable Aws::EventBridge::EventBridgeClient::RemoveTargetsCallable ( const Model::RemoveTargetsRequest request) const
virtual

Removes the specified targets from the specified rule. When the rule is triggered, those targets are no longer be invoked.

When you remove a target, when the associated rule triggers, removed targets might continue to be invoked. Allow a short period of time for changes to take effect.

This action can partially fail if too many requests are made at the same time. If that happens, FailedEntryCount is non-zero in the response and each entry in FailedEntries provides the ID of the failed target and the error code.

See Also:

AWS API Reference

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

◆ StartReplay()

virtual Model::StartReplayOutcome Aws::EventBridge::EventBridgeClient::StartReplay ( const Model::StartReplayRequest request) const
virtual

Starts the specified replay. Events are not necessarily replayed in the exact same order that they were added to the archive. A replay processes events to replay based on the time in the event, and replays them using 1 minute intervals. If you specify an EventStartTime and an EventEndTime that covers a 20 minute time range, the events are replayed from the first minute of that 20 minute range first. Then the events from the second minute are replayed. You can use DescribeReplay to determine the progress of a replay. The value returned for EventLastReplayedTime indicates the time within the specified time range associated with the last event replayed.

See Also:

AWS API Reference

◆ StartReplayAsync()

virtual void Aws::EventBridge::EventBridgeClient::StartReplayAsync ( const Model::StartReplayRequest request,
const StartReplayResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Starts the specified replay. Events are not necessarily replayed in the exact same order that they were added to the archive. A replay processes events to replay based on the time in the event, and replays them using 1 minute intervals. If you specify an EventStartTime and an EventEndTime that covers a 20 minute time range, the events are replayed from the first minute of that 20 minute range first. Then the events from the second minute are replayed. You can use DescribeReplay to determine the progress of a replay. The value returned for EventLastReplayedTime indicates the time within the specified time range associated with the last event replayed.

See Also:

AWS API Reference

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

◆ StartReplayCallable()

virtual Model::StartReplayOutcomeCallable Aws::EventBridge::EventBridgeClient::StartReplayCallable ( const Model::StartReplayRequest request) const
virtual

Starts the specified replay. Events are not necessarily replayed in the exact same order that they were added to the archive. A replay processes events to replay based on the time in the event, and replays them using 1 minute intervals. If you specify an EventStartTime and an EventEndTime that covers a 20 minute time range, the events are replayed from the first minute of that 20 minute range first. Then the events from the second minute are replayed. You can use DescribeReplay to determine the progress of a replay. The value returned for EventLastReplayedTime indicates the time within the specified time range associated with the last event replayed.

See Also:

AWS API Reference

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

◆ TagResource()

virtual Model::TagResourceOutcome Aws::EventBridge::EventBridgeClient::TagResource ( const Model::TagResourceRequest request) const
virtual

Assigns one or more tags (key-value pairs) to the specified EventBridge resource. Tags can help you organize and categorize your resources. You can also use them to scope user permissions by granting a user permission to access or change only resources with certain tag values. In EventBridge, rules and event buses can be tagged.

Tags don't have any semantic meaning to AWS and are interpreted strictly as strings of characters.

You can use the TagResource action with a resource that already has tags. If you specify a new tag key, this tag is appended to the list of tags associated with the resource. If you specify a tag key that is already associated with the resource, the new tag value that you specify replaces the previous value for that tag.

You can associate as many as 50 tags with a resource.

See Also:

AWS API Reference

◆ TagResourceAsync()

virtual void Aws::EventBridge::EventBridgeClient::TagResourceAsync ( const Model::TagResourceRequest request,
const TagResourceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Assigns one or more tags (key-value pairs) to the specified EventBridge resource. Tags can help you organize and categorize your resources. You can also use them to scope user permissions by granting a user permission to access or change only resources with certain tag values. In EventBridge, rules and event buses can be tagged.

Tags don't have any semantic meaning to AWS and are interpreted strictly as strings of characters.

You can use the TagResource action with a resource that already has tags. If you specify a new tag key, this tag is appended to the list of tags associated with the resource. If you specify a tag key that is already associated with the resource, the new tag value that you specify replaces the previous value for that tag.

You can associate as many as 50 tags with a resource.

See Also:

AWS API Reference

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

◆ TagResourceCallable()

virtual Model::TagResourceOutcomeCallable Aws::EventBridge::EventBridgeClient::TagResourceCallable ( const Model::TagResourceRequest request) const
virtual

Assigns one or more tags (key-value pairs) to the specified EventBridge resource. Tags can help you organize and categorize your resources. You can also use them to scope user permissions by granting a user permission to access or change only resources with certain tag values. In EventBridge, rules and event buses can be tagged.

Tags don't have any semantic meaning to AWS and are interpreted strictly as strings of characters.

You can use the TagResource action with a resource that already has tags. If you specify a new tag key, this tag is appended to the list of tags associated with the resource. If you specify a tag key that is already associated with the resource, the new tag value that you specify replaces the previous value for that tag.

You can associate as many as 50 tags with a resource.

See Also:

AWS API Reference

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

◆ TestEventPattern()

virtual Model::TestEventPatternOutcome Aws::EventBridge::EventBridgeClient::TestEventPattern ( const Model::TestEventPatternRequest request) const
virtual

Tests whether the specified event pattern matches the provided event.

Most services in AWS treat : or / as the same character in Amazon Resource Names (ARNs). However, EventBridge uses an exact match in event patterns and rules. Be sure to use the correct ARN characters when creating event patterns so that they match the ARN syntax in the event you want to match.

See Also:

AWS API Reference

◆ TestEventPatternAsync()

virtual void Aws::EventBridge::EventBridgeClient::TestEventPatternAsync ( const Model::TestEventPatternRequest request,
const TestEventPatternResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Tests whether the specified event pattern matches the provided event.

Most services in AWS treat : or / as the same character in Amazon Resource Names (ARNs). However, EventBridge uses an exact match in event patterns and rules. Be sure to use the correct ARN characters when creating event patterns so that they match the ARN syntax in the event you want to match.

See Also:

AWS API Reference

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

◆ TestEventPatternCallable()

virtual Model::TestEventPatternOutcomeCallable Aws::EventBridge::EventBridgeClient::TestEventPatternCallable ( const Model::TestEventPatternRequest request) const
virtual

Tests whether the specified event pattern matches the provided event.

Most services in AWS treat : or / as the same character in Amazon Resource Names (ARNs). However, EventBridge uses an exact match in event patterns and rules. Be sure to use the correct ARN characters when creating event patterns so that they match the ARN syntax in the event you want to match.

See Also:

AWS API Reference

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

◆ UntagResource()

virtual Model::UntagResourceOutcome Aws::EventBridge::EventBridgeClient::UntagResource ( const Model::UntagResourceRequest request) const
virtual

Removes one or more tags from the specified EventBridge resource. In Amazon EventBridge (CloudWatch Events, rules and event buses can be tagged.

See Also:

AWS API Reference

◆ UntagResourceAsync()

virtual void Aws::EventBridge::EventBridgeClient::UntagResourceAsync ( const Model::UntagResourceRequest request,
const UntagResourceResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Removes one or more tags from the specified EventBridge resource. In Amazon EventBridge (CloudWatch Events, rules and event buses can be tagged.

See Also:

AWS API Reference

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

◆ UntagResourceCallable()

virtual Model::UntagResourceOutcomeCallable Aws::EventBridge::EventBridgeClient::UntagResourceCallable ( const Model::UntagResourceRequest request) const
virtual

Removes one or more tags from the specified EventBridge resource. In Amazon EventBridge (CloudWatch Events, rules and event buses can be tagged.

See Also:

AWS API Reference

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

◆ UpdateArchive()

virtual Model::UpdateArchiveOutcome Aws::EventBridge::EventBridgeClient::UpdateArchive ( const Model::UpdateArchiveRequest request) const
virtual

Updates the specified archive.

See Also:

AWS API Reference

◆ UpdateArchiveAsync()

virtual void Aws::EventBridge::EventBridgeClient::UpdateArchiveAsync ( const Model::UpdateArchiveRequest request,
const UpdateArchiveResponseReceivedHandler handler,
const std::shared_ptr< const Aws::Client::AsyncCallerContext > &  context = nullptr 
) const
virtual

Updates the specified archive.

See Also:

AWS API Reference

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

◆ UpdateArchiveCallable()

virtual Model::UpdateArchiveOutcomeCallable Aws::EventBridge::EventBridgeClient::UpdateArchiveCallable ( const Model::UpdateArchiveRequest request) const
virtual

Updates the specified archive.

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: