Weitere AWS SDK Beispiele sind im Repo AWS Doc SDK Examples
Die vorliegende Übersetzung wurde maschinell erstellt. Im Falle eines Konflikts oder eines Widerspruchs zwischen dieser übersetzten Fassung und der englischen Fassung (einschließlich infolge von Verzögerungen bei der Übersetzung) ist die englische Fassung maßgeblich.
RDSAmazon-Beispiele für die Verwendung von SDK für C++
Die folgenden Codebeispiele zeigen Ihnen, wie Sie mithilfe von AWS SDK for C++ mit Amazon Aktionen ausführen und allgemeine Szenarien implementierenRDS.
Basics sind Codebeispiele, die Ihnen zeigen, wie Sie die wichtigsten Operationen innerhalb eines Services ausführen.
Aktionen sind Codeauszüge aus größeren Programmen und müssen im Kontext ausgeführt werden. Aktionen zeigen Ihnen zwar, wie Sie einzelne Servicefunktionen aufrufen, aber Sie können Aktionen im Kontext der zugehörigen Szenarien sehen.
Szenarien sind Codebeispiele, die Ihnen zeigen, wie Sie bestimmte Aufgaben ausführen, indem Sie mehrere Funktionen innerhalb eines Dienstes oder in Kombination mit anderen aufrufen AWS-Services.
Jedes Beispiel enthält einen Link zum vollständigen Quellcode, in dem Sie Anweisungen zum Einrichten und Ausführen des Codes im Kontext finden.
Erste Schritte
Die folgenden Codebeispiele zeigen, wie Sie mit Amazon beginnen könnenRDS.
- SDKfür C++
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Code für die CMakeLists CMake .txt-Datei.
# Set the minimum required version of CMake for this project. cmake_minimum_required(VERSION 3.13) # Set the AWS service components used by this project. set(SERVICE_COMPONENTS rds) # Set this project's name. project("hello_rds") # Set the C++ standard to use to build this target. # At least C++ 11 is required for the AWS SDK for C++. set(CMAKE_CXX_STANDARD 11) # Use the MSVC variable to determine if this is a Windows build. set(WINDOWS_BUILD ${MSVC}) if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK. string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all") list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH}) endif () # Find the AWS SDK for C++ package. find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS}) if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS) # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging. # set(BIN_SUB_DIR "/Debug") # If you are building from the command line, you may need to uncomment this # and set the proper subdirectory to the executables' location. AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR}) endif () add_executable(${PROJECT_NAME} hello_rds.cpp) target_link_libraries(${PROJECT_NAME} ${AWSSDK_LINK_LIBRARIES})
Code für die Quelldatei „hello_rds.cpp“.
#include <aws/core/Aws.h> #include <aws/rds/RDSClient.h> #include <aws/rds/model/DescribeDBInstancesRequest.h> #include <iostream> /* * A "Hello Rds" starter application which initializes an Amazon Relational Database Service (Amazon RDS) client and * describes the Amazon RDS instances. * * main function * * Usage: 'hello_rds' * */ int main(int argc, char **argv) { Aws::SDKOptions options; // Optionally change the log level for debugging. // options.loggingOptions.logLevel = Utils::Logging::LogLevel::Debug; Aws::InitAPI(options); // Should only be called once. int result = 0; { Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; Aws::RDS::RDSClient rdsClient(clientConfig); Aws::String marker; std::vector<Aws::String> instanceDBIDs; do { Aws::RDS::Model::DescribeDBInstancesRequest request; if (!marker.empty()) { request.SetMarker(marker); } Aws::RDS::Model::DescribeDBInstancesOutcome outcome = rdsClient.DescribeDBInstances(request); if (outcome.IsSuccess()) { for (auto &instance: outcome.GetResult().GetDBInstances()) { instanceDBIDs.push_back(instance.GetDBInstanceIdentifier()); } marker = outcome.GetResult().GetMarker(); } else { result = 1; std::cerr << "Error with RDS::DescribeDBInstances. " << outcome.GetError().GetMessage() << std::endl; break; } } while (!marker.empty()); std::cout << instanceDBIDs.size() << " RDS instances found." << std::endl; for (auto &instanceDBID: instanceDBIDs) { std::cout << " Instance: " << instanceDBID << std::endl; } } Aws::ShutdownAPI(options); // Should only be called once. return result; }
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APIEinzelheiten finden Sie unter D escribeDBInstances in AWS SDK for C++ APIReferenz.
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Grundlagen
Wie das aussehen kann, sehen Sie am nachfolgenden Beispielcode:
Erstellen Sie eine benutzerdefinierte DB-Parametergruppe und legen Sie Parameterwerte fest.
Erstellen Sie eine DB-Instance, die zur Verwendung der Parametergruppe konfiguriert ist. Die DB-Instance enthält auch eine Datenbank.
Erstellen Sie einen Snapshot der Instance.
Löschen Sie die Instance und die Parametergruppe.
- SDKfür C++
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; //! Routine which creates an Amazon RDS instance and demonstrates several operations //! on that instance. /*! \sa gettingStartedWithDBInstances() \param clientConfiguration: AWS client configuration. \return bool: Successful completion. */ bool AwsDoc::RDS::gettingStartedWithDBInstances( const Aws::Client::ClientConfiguration &clientConfig) { Aws::RDS::RDSClient client(clientConfig); printAsterisksLine(); std::cout << "Welcome to the Amazon Relational Database Service (Amazon RDS)" << std::endl; std::cout << "get started with DB instances demo." << std::endl; printAsterisksLine(); std::cout << "Checking for an existing DB parameter group named '" << PARAMETER_GROUP_NAME << "'." << std::endl; Aws::String dbParameterGroupFamily("Undefined"); bool parameterGroupFound = true; { // 1. Check if the DB parameter group already exists. Aws::RDS::Model::DescribeDBParameterGroupsRequest request; request.SetDBParameterGroupName(PARAMETER_GROUP_NAME); Aws::RDS::Model::DescribeDBParameterGroupsOutcome outcome = client.DescribeDBParameterGroups(request); if (outcome.IsSuccess()) { std::cout << "DB parameter group named '" << PARAMETER_GROUP_NAME << "' already exists." << std::endl; dbParameterGroupFamily = outcome.GetResult().GetDBParameterGroups()[0].GetDBParameterGroupFamily(); } else if (outcome.GetError().GetErrorType() == Aws::RDS::RDSErrors::D_B_PARAMETER_GROUP_NOT_FOUND_FAULT) { std::cout << "DB parameter group named '" << PARAMETER_GROUP_NAME << "' does not exist." << std::endl; parameterGroupFound = false; } else { std::cerr << "Error with RDS::DescribeDBParameterGroups. " << outcome.GetError().GetMessage() << std::endl; return false; } } if (!parameterGroupFound) { Aws::Vector<Aws::RDS::Model::DBEngineVersion> engineVersions; // 2. Get available engine versions for the specified engine. if (!getDBEngineVersions(DB_ENGINE, NO_PARAMETER_GROUP_FAMILY, engineVersions, client)) { return false; } std::cout << "Getting available database engine versions for " << DB_ENGINE << "." << std::endl; std::vector<Aws::String> families; for (const Aws::RDS::Model::DBEngineVersion &version: engineVersions) { Aws::String family = version.GetDBParameterGroupFamily(); if (std::find(families.begin(), families.end(), family) == families.end()) { families.push_back(family); std::cout << " " << families.size() << ": " << family << std::endl; } } int choice = askQuestionForIntRange("Which family do you want to use? ", 1, static_cast<int>(families.size())); dbParameterGroupFamily = families[choice - 1]; } if (!parameterGroupFound) { // 3. Create a DB parameter group. Aws::RDS::Model::CreateDBParameterGroupRequest request; request.SetDBParameterGroupName(PARAMETER_GROUP_NAME); request.SetDBParameterGroupFamily(dbParameterGroupFamily); request.SetDescription("Example parameter group."); Aws::RDS::Model::CreateDBParameterGroupOutcome outcome = client.CreateDBParameterGroup(request); if (outcome.IsSuccess()) { std::cout << "The DB parameter group was successfully created." << std::endl; } else { std::cerr << "Error with RDS::CreateDBParameterGroup. " << outcome.GetError().GetMessage() << std::endl; return false; } } printAsterisksLine(); std::cout << "Let's set some parameter values in your parameter group." << std::endl; Aws::String marker; Aws::Vector<Aws::RDS::Model::Parameter> autoIncrementParameters; // 4. Get the parameters in the DB parameter group. if (!getDBParameters(PARAMETER_GROUP_NAME, AUTO_INCREMENT_PREFIX, NO_SOURCE, autoIncrementParameters, client)) { cleanUpResources(PARAMETER_GROUP_NAME, "", client); return false; } Aws::Vector<Aws::RDS::Model::Parameter> updateParameters; for (Aws::RDS::Model::Parameter &autoIncParameter: autoIncrementParameters) { if (autoIncParameter.GetIsModifiable() && (autoIncParameter.GetDataType() == "integer")) { std::cout << "The " << autoIncParameter.GetParameterName() << " is described as: " << autoIncParameter.GetDescription() << "." << std::endl; if (autoIncParameter.ParameterValueHasBeenSet()) { std::cout << "The current value is " << autoIncParameter.GetParameterValue() << "." << std::endl; } std::vector<int> splitValues = splitToInts( autoIncParameter.GetAllowedValues(), '-'); if (splitValues.size() == 2) { int newValue = askQuestionForIntRange( Aws::String("Enter a new value in the range ") + autoIncParameter.GetAllowedValues() + ": ", splitValues[0], splitValues[1]); autoIncParameter.SetParameterValue(std::to_string(newValue)); updateParameters.push_back(autoIncParameter); } else { std::cerr << "Error parsing " << autoIncParameter.GetAllowedValues() << std::endl; } } } { // 5. Modify the auto increment parameters in the group. Aws::RDS::Model::ModifyDBParameterGroupRequest request; request.SetDBParameterGroupName(PARAMETER_GROUP_NAME); request.SetParameters(updateParameters); Aws::RDS::Model::ModifyDBParameterGroupOutcome outcome = client.ModifyDBParameterGroup(request); if (outcome.IsSuccess()) { std::cout << "The DB parameter group was successfully modified." << std::endl; } else { std::cerr << "Error with RDS::ModifyDBParameterGroup. " << outcome.GetError().GetMessage() << std::endl; } } std::cout << "You can get a list of parameters you've set by specifying a source of 'user'." << std::endl; Aws::Vector<Aws::RDS::Model::Parameter> userParameters; // 6. Display the modified parameters in the group. if (!getDBParameters(PARAMETER_GROUP_NAME, NO_NAME_PREFIX, "user", userParameters, client)) { cleanUpResources(PARAMETER_GROUP_NAME, "", client); return false; } for (const auto &userParameter: userParameters) { std::cout << " " << userParameter.GetParameterName() << ", " << userParameter.GetDescription() << ", parameter value - " << userParameter.GetParameterValue() << std::endl; } printAsterisksLine(); std::cout << "Checking for an existing DB instance." << std::endl; Aws::RDS::Model::DBInstance dbInstance; // 7. Check if the DB instance already exists. if (!describeDBInstance(DB_INSTANCE_IDENTIFIER, dbInstance, client)) { cleanUpResources(PARAMETER_GROUP_NAME, "", client); return false; } if (dbInstance.DbInstancePortHasBeenSet()) { std::cout << "The DB instance already exists." << std::endl; } else { std::cout << "Let's create a DB instance." << std::endl; const Aws::String administratorName = askQuestion( "Enter an administrator username for the database: "); const Aws::String administratorPassword = askQuestion( "Enter a password for the administrator (at least 8 characters): "); Aws::Vector<Aws::RDS::Model::DBEngineVersion> engineVersions; // 8. Get a list of available engine versions. if (!getDBEngineVersions(DB_ENGINE, dbParameterGroupFamily, engineVersions, client)) { cleanUpResources(PARAMETER_GROUP_NAME, "", client); return false; } std::cout << "The available engines for your parameter group are:" << std::endl; int index = 1; for (const Aws::RDS::Model::DBEngineVersion &engineVersion: engineVersions) { std::cout << " " << index << ": " << engineVersion.GetEngineVersion() << std::endl; ++index; } int choice = askQuestionForIntRange("Which engine do you want to use? ", 1, static_cast<int>(engineVersions.size())); const Aws::RDS::Model::DBEngineVersion engineVersion = engineVersions[choice - 1]; Aws::String dbInstanceClass; // 9. Get a list of micro instance classes. if (!chooseMicroDBInstanceClass(engineVersion.GetEngine(), engineVersion.GetEngineVersion(), dbInstanceClass, client)) { cleanUpResources(PARAMETER_GROUP_NAME, "", client); return false; } std::cout << "Creating a DB instance named '" << DB_INSTANCE_IDENTIFIER << "' and database '" << DB_NAME << "'.\n" << "The DB instance is configured to use your custom parameter group '" << PARAMETER_GROUP_NAME << "',\n" << "selected engine version " << engineVersion.GetEngineVersion() << ",\n" << "selected DB instance class '" << dbInstanceClass << "'," << " and " << DB_ALLOCATED_STORAGE << " GiB of " << DB_STORAGE_TYPE << " storage.\nThis typically takes several minutes." << std::endl; Aws::RDS::Model::CreateDBInstanceRequest request; request.SetDBName(DB_NAME); request.SetDBInstanceIdentifier(DB_INSTANCE_IDENTIFIER); request.SetDBParameterGroupName(PARAMETER_GROUP_NAME); request.SetEngine(engineVersion.GetEngine()); request.SetEngineVersion(engineVersion.GetEngineVersion()); request.SetDBInstanceClass(dbInstanceClass); request.SetStorageType(DB_STORAGE_TYPE); request.SetAllocatedStorage(DB_ALLOCATED_STORAGE); request.SetMasterUsername(administratorName); request.SetMasterUserPassword(administratorPassword); Aws::RDS::Model::CreateDBInstanceOutcome outcome = client.CreateDBInstance(request); if (outcome.IsSuccess()) { std::cout << "The DB instance creation has started." << std::endl; } else { std::cerr << "Error with RDS::CreateDBInstance. " << outcome.GetError().GetMessage() << std::endl; cleanUpResources(PARAMETER_GROUP_NAME, "", client); return false; } } std::cout << "Waiting for the DB instance to become available." << std::endl; int counter = 0; // 11. Wait for the DB instance to become available. do { std::this_thread::sleep_for(std::chrono::seconds(1)); ++counter; if (counter > 900) { std::cerr << "Wait for instance to become available timed out ofter " << counter << " seconds." << std::endl; cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client); return false; } dbInstance = Aws::RDS::Model::DBInstance(); if (!describeDBInstance(DB_INSTANCE_IDENTIFIER, dbInstance, client)) { cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client); return false; } if ((counter % 20) == 0) { std::cout << "Current DB instance status is '" << dbInstance.GetDBInstanceStatus() << "' after " << counter << " seconds." << std::endl; } } while (dbInstance.GetDBInstanceStatus() != "available"); if (dbInstance.GetDBInstanceStatus() == "available") { std::cout << "The DB instance has been created." << std::endl; } printAsterisksLine(); // 12. Display the connection string that can be used to connect a 'mysql' shell to the database. displayConnection(dbInstance); printAsterisksLine(); if (askYesNoQuestion( "Do you want to create a snapshot of your DB instance (y/n)? ")) { Aws::String snapshotID(DB_INSTANCE_IDENTIFIER + "-" + Aws::String(Aws::Utils::UUID::RandomUUID())); { std::cout << "Creating a snapshot named " << snapshotID << "." << std::endl; std::cout << "This typically takes a few minutes." << std::endl; // 13. Create a snapshot of the DB instance. Aws::RDS::Model::CreateDBSnapshotRequest request; request.SetDBInstanceIdentifier(DB_INSTANCE_IDENTIFIER); request.SetDBSnapshotIdentifier(snapshotID); Aws::RDS::Model::CreateDBSnapshotOutcome outcome = client.CreateDBSnapshot(request); if (outcome.IsSuccess()) { std::cout << "Snapshot creation has started." << std::endl; } else { std::cerr << "Error with RDS::CreateDBSnapshot. " << outcome.GetError().GetMessage() << std::endl; cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client); return false; } } std::cout << "Waiting for snapshot to become available." << std::endl; Aws::RDS::Model::DBSnapshot snapshot; counter = 0; do { std::this_thread::sleep_for(std::chrono::seconds(1)); ++counter; if (counter > 600) { std::cerr << "Wait for snapshot to be available timed out ofter " << counter << " seconds." << std::endl; cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client); return false; } // 14. Wait for the snapshot to become available. Aws::RDS::Model::DescribeDBSnapshotsRequest request; request.SetDBSnapshotIdentifier(snapshotID); Aws::RDS::Model::DescribeDBSnapshotsOutcome outcome = client.DescribeDBSnapshots(request); if (outcome.IsSuccess()) { snapshot = outcome.GetResult().GetDBSnapshots()[0]; } else { std::cerr << "Error with RDS::DescribeDBSnapshots. " << outcome.GetError().GetMessage() << std::endl; cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client); return false; } if ((counter % 20) == 0) { std::cout << "Current snapshot status is '" << snapshot.GetStatus() << "' after " << counter << " seconds." << std::endl; } } while (snapshot.GetStatus() != "available"); if (snapshot.GetStatus() != "available") { std::cout << "A snapshot has been created." << std::endl; } } printAsterisksLine(); bool result = true; if (askYesNoQuestion( "Do you want to delete the DB instance and parameter group (y/n)? ")) { result = cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client); } return result; } //! Routine which gets DB parameters using the 'DescribeDBParameters' api. /*! \sa getDBParameters() \param parameterGroupName: The name of the parameter group. \param namePrefix: Prefix string to filter results by parameter name. \param source: A source such as 'user', ignored if empty. \param parametersResult: Vector of 'Parameter' objects returned by the routine. \param client: 'RDSClient' instance. \return bool: Successful completion. */ bool AwsDoc::RDS::getDBParameters(const Aws::String ¶meterGroupName, const Aws::String &namePrefix, const Aws::String &source, Aws::Vector<Aws::RDS::Model::Parameter> ¶metersResult, const Aws::RDS::RDSClient &client) { Aws::String marker; do { Aws::RDS::Model::DescribeDBParametersRequest request; request.SetDBParameterGroupName(PARAMETER_GROUP_NAME); if (!marker.empty()) { request.SetMarker(marker); } if (!source.empty()) { request.SetSource(source); } Aws::RDS::Model::DescribeDBParametersOutcome outcome = client.DescribeDBParameters(request); if (outcome.IsSuccess()) { const Aws::Vector<Aws::RDS::Model::Parameter> ¶meters = outcome.GetResult().GetParameters(); for (const Aws::RDS::Model::Parameter ¶meter: parameters) { if (!namePrefix.empty()) { if (parameter.GetParameterName().find(namePrefix) == 0) { parametersResult.push_back(parameter); } } else { parametersResult.push_back(parameter); } } marker = outcome.GetResult().GetMarker(); } else { std::cerr << "Error with RDS::DescribeDBParameters. " << outcome.GetError().GetMessage() << std::endl; return false; } } while (!marker.empty()); return true; } //! Routine which gets available DB engine versions for an engine name and //! an optional parameter group family. /*! \sa getDBEngineVersions() \param engineName: A DB engine name. \param parameterGroupFamily: A parameter group family name, ignored if empty. \param engineVersionsResult: Vector of 'DBEngineVersion' objects returned by the routine. \param client: 'RDSClient' instance. \return bool: Successful completion. */ bool AwsDoc::RDS::getDBEngineVersions(const Aws::String &engineName, const Aws::String ¶meterGroupFamily, Aws::Vector<Aws::RDS::Model::DBEngineVersion> &engineVersionsResult, const Aws::RDS::RDSClient &client) { Aws::RDS::Model::DescribeDBEngineVersionsRequest request; request.SetEngine(engineName); if (!parameterGroupFamily.empty()) { request.SetDBParameterGroupFamily(parameterGroupFamily); } engineVersionsResult.clear(); Aws::String marker; // Used for pagination. do { if (!marker.empty()) { request.SetMarker(marker); } Aws::RDS::Model::DescribeDBEngineVersionsOutcome outcome = client.DescribeDBEngineVersions(request); if (outcome.IsSuccess()) { auto &engineVersions = outcome.GetResult().GetDBEngineVersions(); engineVersionsResult.insert(engineVersionsResult.end(), engineVersions.begin(), engineVersions.end()); marker = outcome.GetResult().GetMarker(); } else { std::cerr << "Error with RDS::DescribeDBEngineVersionsRequest. " << outcome.GetError().GetMessage() << std::endl; return false; } } while (!marker.empty()); return true; } //! Routine which gets a DB instance description. /*! \sa describeDBInstance() \param dbInstanceIdentifier: A DB instance identifier. \param instanceResult: The 'DBInstance' object containing the description. \param client: 'RDSClient' instance. \return bool: Successful completion. */ bool AwsDoc::RDS::describeDBInstance(const Aws::String &dbInstanceIdentifier, Aws::RDS::Model::DBInstance &instanceResult, const Aws::RDS::RDSClient &client) { Aws::RDS::Model::DescribeDBInstancesRequest request; request.SetDBInstanceIdentifier(dbInstanceIdentifier); Aws::RDS::Model::DescribeDBInstancesOutcome outcome = client.DescribeDBInstances(request); bool result = true; if (outcome.IsSuccess()) { instanceResult = outcome.GetResult().GetDBInstances()[0]; } else if (outcome.GetError().GetErrorType() != Aws::RDS::RDSErrors::D_B_INSTANCE_NOT_FOUND_FAULT) { result = false; std::cerr << "Error with RDS::DescribeDBInstances. " << outcome.GetError().GetMessage() << std::endl; } // This example does not log an error if the DB instance does not exist. // Instead, instanceResult is set to empty. else { instanceResult = Aws::RDS::Model::DBInstance(); } return result; } //! Routine which gets available 'micro' DB instance classes, displays the list //! to the user, and returns the user selection. /*! \sa chooseMicroDBInstanceClass() \param engineName: The DB engine name. \param engineVersion: The DB engine version. \param dbInstanceClass: String for DB instance class chosen by the user. \param client: 'RDSClient' instance. \return bool: Successful completion. */ bool AwsDoc::RDS::chooseMicroDBInstanceClass(const Aws::String &engine, const Aws::String &engineVersion, Aws::String &dbInstanceClass, const Aws::RDS::RDSClient &client) { std::vector<Aws::String> instanceClasses; Aws::String marker; do { Aws::RDS::Model::DescribeOrderableDBInstanceOptionsRequest request; request.SetEngine(engine); request.SetEngineVersion(engineVersion); if (!marker.empty()) { request.SetMarker(marker); } Aws::RDS::Model::DescribeOrderableDBInstanceOptionsOutcome outcome = client.DescribeOrderableDBInstanceOptions(request); if (outcome.IsSuccess()) { const Aws::Vector<Aws::RDS::Model::OrderableDBInstanceOption> &options = outcome.GetResult().GetOrderableDBInstanceOptions(); for (const Aws::RDS::Model::OrderableDBInstanceOption &option: options) { const Aws::String &instanceClass = option.GetDBInstanceClass(); if (instanceClass.find("micro") != std::string::npos) { if (std::find(instanceClasses.begin(), instanceClasses.end(), instanceClass) == instanceClasses.end()) { instanceClasses.push_back(instanceClass); } } } marker = outcome.GetResult().GetMarker(); } else { std::cerr << "Error with RDS::DescribeOrderableDBInstanceOptions. " << outcome.GetError().GetMessage() << std::endl; return false; } } while (!marker.empty()); std::cout << "The available micro DB instance classes for your database engine are:" << std::endl; for (int i = 0; i < instanceClasses.size(); ++i) { std::cout << " " << i + 1 << ": " << instanceClasses[i] << std::endl; } int choice = askQuestionForIntRange( "Which micro DB instance class do you want to use? ", 1, static_cast<int>(instanceClasses.size())); dbInstanceClass = instanceClasses[choice - 1]; return true; } //! Routine which deletes resources created by the scenario. /*! \sa cleanUpResources() \param parameterGroupName: A parameter group name, this may be empty. \param dbInstanceIdentifier: A DB instance identifier, this may be empty. \param client: 'RDSClient' instance. \return bool: Successful completion. */ bool AwsDoc::RDS::cleanUpResources(const Aws::String ¶meterGroupName, const Aws::String &dbInstanceIdentifier, const Aws::RDS::RDSClient &client) { bool result = true; if (!dbInstanceIdentifier.empty()) { { // 15. Delete the DB instance. Aws::RDS::Model::DeleteDBInstanceRequest request; request.SetDBInstanceIdentifier(dbInstanceIdentifier); request.SetSkipFinalSnapshot(true); request.SetDeleteAutomatedBackups(true); Aws::RDS::Model::DeleteDBInstanceOutcome outcome = client.DeleteDBInstance(request); if (outcome.IsSuccess()) { std::cout << "DB instance deletion has started." << std::endl; } else { std::cerr << "Error with RDS::DeleteDBInstance. " << outcome.GetError().GetMessage() << std::endl; result = false; } } std::cout << "Waiting for DB instance to delete before deleting the parameter group." << std::endl; std::cout << "This may take a while." << std::endl; int counter = 0; Aws::RDS::Model::DBInstance dbInstance; do { std::this_thread::sleep_for(std::chrono::seconds(1)); ++counter; if (counter > 800) { std::cerr << "Wait for instance to delete timed out ofter " << counter << " seconds." << std::endl; return false; } dbInstance = Aws::RDS::Model::DBInstance(); // 16. Wait for the DB instance to be deleted. if (!describeDBInstance(dbInstanceIdentifier, dbInstance, client)) { return false; } if (dbInstance.DBInstanceIdentifierHasBeenSet() && (counter % 20) == 0) { std::cout << "Current DB instance status is '" << dbInstance.GetDBInstanceStatus() << "' after " << counter << " seconds." << std::endl; } } while (dbInstance.DBInstanceIdentifierHasBeenSet()); } if (!parameterGroupName.empty()) { // 17. Delete the parameter group. Aws::RDS::Model::DeleteDBParameterGroupRequest request; request.SetDBParameterGroupName(parameterGroupName); Aws::RDS::Model::DeleteDBParameterGroupOutcome outcome = client.DeleteDBParameterGroup(request); if (outcome.IsSuccess()) { std::cout << "The DB parameter group was successfully deleted." << std::endl; } else { std::cerr << "Error with RDS::DeleteDBParameterGroup. " << outcome.GetError().GetMessage() << std::endl; result = false; } } return result; }
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APIEinzelheiten finden Sie unter den folgenden Themen in der AWS SDK for C++ APIReferenz.
-
Aktionen
Das folgende Codebeispiel zeigt die VerwendungCreateDBInstance
.
- SDKfür C++
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; Aws::RDS::RDSClient client(clientConfig); Aws::RDS::Model::CreateDBInstanceRequest request; request.SetDBName(DB_NAME); request.SetDBInstanceIdentifier(DB_INSTANCE_IDENTIFIER); request.SetDBParameterGroupName(PARAMETER_GROUP_NAME); request.SetEngine(engineVersion.GetEngine()); request.SetEngineVersion(engineVersion.GetEngineVersion()); request.SetDBInstanceClass(dbInstanceClass); request.SetStorageType(DB_STORAGE_TYPE); request.SetAllocatedStorage(DB_ALLOCATED_STORAGE); request.SetMasterUsername(administratorName); request.SetMasterUserPassword(administratorPassword); Aws::RDS::Model::CreateDBInstanceOutcome outcome = client.CreateDBInstance(request); if (outcome.IsSuccess()) { std::cout << "The DB instance creation has started." << std::endl; } else { std::cerr << "Error with RDS::CreateDBInstance. " << outcome.GetError().GetMessage() << std::endl; cleanUpResources(PARAMETER_GROUP_NAME, "", client); return false; }
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APIEinzelheiten finden Sie unter C reateDBInstance in AWS SDK for C++ APIReferenz.
-
Das folgende Codebeispiel zeigt die VerwendungCreateDBParameterGroup
.
- SDKfür C++
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; Aws::RDS::RDSClient client(clientConfig); Aws::RDS::Model::CreateDBParameterGroupRequest request; request.SetDBParameterGroupName(PARAMETER_GROUP_NAME); request.SetDBParameterGroupFamily(dbParameterGroupFamily); request.SetDescription("Example parameter group."); Aws::RDS::Model::CreateDBParameterGroupOutcome outcome = client.CreateDBParameterGroup(request); if (outcome.IsSuccess()) { std::cout << "The DB parameter group was successfully created." << std::endl; } else { std::cerr << "Error with RDS::CreateDBParameterGroup. " << outcome.GetError().GetMessage() << std::endl; return false; }
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APIEinzelheiten finden Sie unter C reateDBParameter Group in AWS SDK for C++ APIReference.
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Das folgende Codebeispiel zeigt die VerwendungCreateDBSnapshot
.
- SDKfür C++
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; Aws::RDS::RDSClient client(clientConfig); Aws::RDS::Model::CreateDBSnapshotRequest request; request.SetDBInstanceIdentifier(DB_INSTANCE_IDENTIFIER); request.SetDBSnapshotIdentifier(snapshotID); Aws::RDS::Model::CreateDBSnapshotOutcome outcome = client.CreateDBSnapshot(request); if (outcome.IsSuccess()) { std::cout << "Snapshot creation has started." << std::endl; } else { std::cerr << "Error with RDS::CreateDBSnapshot. " << outcome.GetError().GetMessage() << std::endl; cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client); return false; }
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APIEinzelheiten finden Sie unter C reateDBSnapshot in AWS SDK for C++ APIReferenz.
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Das folgende Codebeispiel zeigt die VerwendungDeleteDBInstance
.
- SDKfür C++
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; Aws::RDS::RDSClient client(clientConfig); Aws::RDS::Model::DeleteDBInstanceRequest request; request.SetDBInstanceIdentifier(dbInstanceIdentifier); request.SetSkipFinalSnapshot(true); request.SetDeleteAutomatedBackups(true); Aws::RDS::Model::DeleteDBInstanceOutcome outcome = client.DeleteDBInstance(request); if (outcome.IsSuccess()) { std::cout << "DB instance deletion has started." << std::endl; } else { std::cerr << "Error with RDS::DeleteDBInstance. " << outcome.GetError().GetMessage() << std::endl; result = false; }
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APIEinzelheiten finden Sie unter D eleteDBInstance in AWS SDK for C++ APIReferenz.
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Das folgende Codebeispiel zeigt die VerwendungDeleteDBParameterGroup
.
- SDKfür C++
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; Aws::RDS::RDSClient client(clientConfig); Aws::RDS::Model::DeleteDBParameterGroupRequest request; request.SetDBParameterGroupName(parameterGroupName); Aws::RDS::Model::DeleteDBParameterGroupOutcome outcome = client.DeleteDBParameterGroup(request); if (outcome.IsSuccess()) { std::cout << "The DB parameter group was successfully deleted." << std::endl; } else { std::cerr << "Error with RDS::DeleteDBParameterGroup. " << outcome.GetError().GetMessage() << std::endl; result = false; }
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APIEinzelheiten finden Sie unter D eleteDBParameter Group in AWS SDK for C++ APIReference.
-
Das folgende Codebeispiel zeigt die VerwendungDescribeDBEngineVersions
.
- SDKfür C++
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; Aws::RDS::RDSClient client(clientConfig); //! Routine which gets available DB engine versions for an engine name and //! an optional parameter group family. /*! \sa getDBEngineVersions() \param engineName: A DB engine name. \param parameterGroupFamily: A parameter group family name, ignored if empty. \param engineVersionsResult: Vector of 'DBEngineVersion' objects returned by the routine. \param client: 'RDSClient' instance. \return bool: Successful completion. */ bool AwsDoc::RDS::getDBEngineVersions(const Aws::String &engineName, const Aws::String ¶meterGroupFamily, Aws::Vector<Aws::RDS::Model::DBEngineVersion> &engineVersionsResult, const Aws::RDS::RDSClient &client) { Aws::RDS::Model::DescribeDBEngineVersionsRequest request; request.SetEngine(engineName); if (!parameterGroupFamily.empty()) { request.SetDBParameterGroupFamily(parameterGroupFamily); } engineVersionsResult.clear(); Aws::String marker; // Used for pagination. do { if (!marker.empty()) { request.SetMarker(marker); } Aws::RDS::Model::DescribeDBEngineVersionsOutcome outcome = client.DescribeDBEngineVersions(request); if (outcome.IsSuccess()) { auto &engineVersions = outcome.GetResult().GetDBEngineVersions(); engineVersionsResult.insert(engineVersionsResult.end(), engineVersions.begin(), engineVersions.end()); marker = outcome.GetResult().GetMarker(); } else { std::cerr << "Error with RDS::DescribeDBEngineVersionsRequest. " << outcome.GetError().GetMessage() << std::endl; return false; } } while (!marker.empty()); return true; }
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APIEinzelheiten finden Sie unter escribeDBEngineD-Versionen in der AWS SDK for C++ APIReferenz.
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Das folgende Codebeispiel zeigt die VerwendungDescribeDBInstances
.
- SDKfür C++
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; Aws::RDS::RDSClient client(clientConfig); //! Routine which gets a DB instance description. /*! \sa describeDBInstance() \param dbInstanceIdentifier: A DB instance identifier. \param instanceResult: The 'DBInstance' object containing the description. \param client: 'RDSClient' instance. \return bool: Successful completion. */ bool AwsDoc::RDS::describeDBInstance(const Aws::String &dbInstanceIdentifier, Aws::RDS::Model::DBInstance &instanceResult, const Aws::RDS::RDSClient &client) { Aws::RDS::Model::DescribeDBInstancesRequest request; request.SetDBInstanceIdentifier(dbInstanceIdentifier); Aws::RDS::Model::DescribeDBInstancesOutcome outcome = client.DescribeDBInstances(request); bool result = true; if (outcome.IsSuccess()) { instanceResult = outcome.GetResult().GetDBInstances()[0]; } else if (outcome.GetError().GetErrorType() != Aws::RDS::RDSErrors::D_B_INSTANCE_NOT_FOUND_FAULT) { result = false; std::cerr << "Error with RDS::DescribeDBInstances. " << outcome.GetError().GetMessage() << std::endl; } // This example does not log an error if the DB instance does not exist. // Instead, instanceResult is set to empty. else { instanceResult = Aws::RDS::Model::DBInstance(); } return result; }
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APIEinzelheiten finden Sie unter D escribeDBInstances in AWS SDK for C++ APIReferenz.
-
Das folgende Codebeispiel zeigt die VerwendungDescribeDBParameterGroups
.
- SDKfür C++
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; Aws::RDS::RDSClient client(clientConfig); Aws::RDS::Model::DescribeDBParameterGroupsRequest request; request.SetDBParameterGroupName(PARAMETER_GROUP_NAME); Aws::RDS::Model::DescribeDBParameterGroupsOutcome outcome = client.DescribeDBParameterGroups(request); if (outcome.IsSuccess()) { std::cout << "DB parameter group named '" << PARAMETER_GROUP_NAME << "' already exists." << std::endl; dbParameterGroupFamily = outcome.GetResult().GetDBParameterGroups()[0].GetDBParameterGroupFamily(); } else { std::cerr << "Error with RDS::DescribeDBParameterGroups. " << outcome.GetError().GetMessage() << std::endl; return false; }
-
APIEinzelheiten finden Sie unter D escribeDBParameter Groups in AWS SDK for C++ APIReference.
-
Das folgende Codebeispiel zeigt die VerwendungDescribeDBParameters
.
- SDKfür C++
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; Aws::RDS::RDSClient client(clientConfig); //! Routine which gets DB parameters using the 'DescribeDBParameters' api. /*! \sa getDBParameters() \param parameterGroupName: The name of the parameter group. \param namePrefix: Prefix string to filter results by parameter name. \param source: A source such as 'user', ignored if empty. \param parametersResult: Vector of 'Parameter' objects returned by the routine. \param client: 'RDSClient' instance. \return bool: Successful completion. */ bool AwsDoc::RDS::getDBParameters(const Aws::String ¶meterGroupName, const Aws::String &namePrefix, const Aws::String &source, Aws::Vector<Aws::RDS::Model::Parameter> ¶metersResult, const Aws::RDS::RDSClient &client) { Aws::String marker; do { Aws::RDS::Model::DescribeDBParametersRequest request; request.SetDBParameterGroupName(PARAMETER_GROUP_NAME); if (!marker.empty()) { request.SetMarker(marker); } if (!source.empty()) { request.SetSource(source); } Aws::RDS::Model::DescribeDBParametersOutcome outcome = client.DescribeDBParameters(request); if (outcome.IsSuccess()) { const Aws::Vector<Aws::RDS::Model::Parameter> ¶meters = outcome.GetResult().GetParameters(); for (const Aws::RDS::Model::Parameter ¶meter: parameters) { if (!namePrefix.empty()) { if (parameter.GetParameterName().find(namePrefix) == 0) { parametersResult.push_back(parameter); } } else { parametersResult.push_back(parameter); } } marker = outcome.GetResult().GetMarker(); } else { std::cerr << "Error with RDS::DescribeDBParameters. " << outcome.GetError().GetMessage() << std::endl; return false; } } while (!marker.empty()); return true; }
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APIEinzelheiten finden Sie unter D escribeDBParameters in AWS SDK for C++ APIReferenz.
-
Das folgende Codebeispiel zeigt die VerwendungDescribeDBSnapshots
.
- SDKfür C++
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; Aws::RDS::RDSClient client(clientConfig); Aws::RDS::Model::DescribeDBSnapshotsRequest request; request.SetDBSnapshotIdentifier(snapshotID); Aws::RDS::Model::DescribeDBSnapshotsOutcome outcome = client.DescribeDBSnapshots(request); if (outcome.IsSuccess()) { snapshot = outcome.GetResult().GetDBSnapshots()[0]; } else { std::cerr << "Error with RDS::DescribeDBSnapshots. " << outcome.GetError().GetMessage() << std::endl; cleanUpResources(PARAMETER_GROUP_NAME, DB_INSTANCE_IDENTIFIER, client); return false; }
-
APIEinzelheiten finden Sie unter D escribeDBSnapshots in AWS SDK for C++ APIReferenz.
-
Das folgende Codebeispiel zeigt die VerwendungDescribeOrderableDBInstanceOptions
.
- SDKfür C++
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; Aws::RDS::RDSClient client(clientConfig); //! Routine which gets available 'micro' DB instance classes, displays the list //! to the user, and returns the user selection. /*! \sa chooseMicroDBInstanceClass() \param engineName: The DB engine name. \param engineVersion: The DB engine version. \param dbInstanceClass: String for DB instance class chosen by the user. \param client: 'RDSClient' instance. \return bool: Successful completion. */ bool AwsDoc::RDS::chooseMicroDBInstanceClass(const Aws::String &engine, const Aws::String &engineVersion, Aws::String &dbInstanceClass, const Aws::RDS::RDSClient &client) { std::vector<Aws::String> instanceClasses; Aws::String marker; do { Aws::RDS::Model::DescribeOrderableDBInstanceOptionsRequest request; request.SetEngine(engine); request.SetEngineVersion(engineVersion); if (!marker.empty()) { request.SetMarker(marker); } Aws::RDS::Model::DescribeOrderableDBInstanceOptionsOutcome outcome = client.DescribeOrderableDBInstanceOptions(request); if (outcome.IsSuccess()) { const Aws::Vector<Aws::RDS::Model::OrderableDBInstanceOption> &options = outcome.GetResult().GetOrderableDBInstanceOptions(); for (const Aws::RDS::Model::OrderableDBInstanceOption &option: options) { const Aws::String &instanceClass = option.GetDBInstanceClass(); if (instanceClass.find("micro") != std::string::npos) { if (std::find(instanceClasses.begin(), instanceClasses.end(), instanceClass) == instanceClasses.end()) { instanceClasses.push_back(instanceClass); } } } marker = outcome.GetResult().GetMarker(); } else { std::cerr << "Error with RDS::DescribeOrderableDBInstanceOptions. " << outcome.GetError().GetMessage() << std::endl; return false; } } while (!marker.empty()); std::cout << "The available micro DB instance classes for your database engine are:" << std::endl; for (int i = 0; i < instanceClasses.size(); ++i) { std::cout << " " << i + 1 << ": " << instanceClasses[i] << std::endl; } int choice = askQuestionForIntRange( "Which micro DB instance class do you want to use? ", 1, static_cast<int>(instanceClasses.size())); dbInstanceClass = instanceClasses[choice - 1]; return true; }
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APIEinzelheiten finden Sie DescribeOrderableDBInstanceOptionsunter AWS SDK for C++ APIReferenz.
-
Das folgende Codebeispiel zeigt die VerwendungModifyDBParameterGroup
.
- SDKfür C++
-
Anmerkung
Es gibt noch mehr dazu GitHub. Sie sehen das vollständige Beispiel und erfahren, wie Sie das AWS -Code-Beispiel-Repository
einrichten und ausführen. Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; Aws::RDS::RDSClient client(clientConfig); Aws::RDS::Model::ModifyDBParameterGroupRequest request; request.SetDBParameterGroupName(PARAMETER_GROUP_NAME); request.SetParameters(updateParameters); Aws::RDS::Model::ModifyDBParameterGroupOutcome outcome = client.ModifyDBParameterGroup(request); if (outcome.IsSuccess()) { std::cout << "The DB parameter group was successfully modified." << std::endl; } else { std::cerr << "Error with RDS::ModifyDBParameterGroup. " << outcome.GetError().GetMessage() << std::endl; }
-
APIEinzelheiten finden Sie unter M odifyDBParameter Group in AWS SDK for C++ APIReference.
-
Szenarien
Das folgende Codebeispiel zeigt, wie Sie eine Webanwendung erstellen, die Arbeitsaufgaben in einer serverlosen Amazon Aurora Aurora-Datenbank verfolgt und Amazon Simple Email Service (AmazonSES) zum Senden von Berichten verwendet.
- SDKfür C++
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Zeigt, wie eine Webanwendung erstellt wird, die in einer Amazon-Aurora-Serverless-Datenbank gespeicherte Arbeitselemente verfolgt und darüber berichtet.
Den vollständigen Quellcode und Anweisungen zum Einrichten von C++, REST API das Amazon Aurora Serverless-Daten abfragt und von einer React-Anwendung verwendet werden kann, finden Sie im vollständigen Beispiel unter GitHub
. In diesem Beispiel verwendete Dienste
Aurora
Amazon RDS
RDSAmazon-Datenservice
Amazon SES