/** * Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. * SPDX-License-Identifier: Apache-2.0. */ #pragma once #include #include #include #include #include #include #include namespace Aws { namespace RDS { namespace Model { /** *

See Also:

AWS * API Reference

*/ class AWS_RDS_API CreateDBClusterRequest : public RDSRequest { public: CreateDBClusterRequest(); // Service request name is the Operation name which will send this request out, // each operation should has unique request name, so that we can get operation's name from this request. // Note: this is not true for response, multiple operations may have the same response name, // so we can not get operation's name from response. inline virtual const char* GetServiceRequestName() const override { return "CreateDBCluster"; } Aws::String SerializePayload() const override; protected: void DumpBodyToUrl(Aws::Http::URI& uri ) const override; public: /** *

A list of Availability Zones (AZs) where instances in the DB cluster can be * created. For information on AWS Regions and Availability Zones, see Choosing * the Regions and Availability Zones in the Amazon Aurora User Guide. *

*/ inline const Aws::Vector& GetAvailabilityZones() const{ return m_availabilityZones; } /** *

A list of Availability Zones (AZs) where instances in the DB cluster can be * created. For information on AWS Regions and Availability Zones, see Choosing * the Regions and Availability Zones in the Amazon Aurora User Guide. *

*/ inline bool AvailabilityZonesHasBeenSet() const { return m_availabilityZonesHasBeenSet; } /** *

A list of Availability Zones (AZs) where instances in the DB cluster can be * created. For information on AWS Regions and Availability Zones, see Choosing * the Regions and Availability Zones in the Amazon Aurora User Guide. *

*/ inline void SetAvailabilityZones(const Aws::Vector& value) { m_availabilityZonesHasBeenSet = true; m_availabilityZones = value; } /** *

A list of Availability Zones (AZs) where instances in the DB cluster can be * created. For information on AWS Regions and Availability Zones, see Choosing * the Regions and Availability Zones in the Amazon Aurora User Guide. *

*/ inline void SetAvailabilityZones(Aws::Vector&& value) { m_availabilityZonesHasBeenSet = true; m_availabilityZones = std::move(value); } /** *

A list of Availability Zones (AZs) where instances in the DB cluster can be * created. For information on AWS Regions and Availability Zones, see Choosing * the Regions and Availability Zones in the Amazon Aurora User Guide. *

*/ inline CreateDBClusterRequest& WithAvailabilityZones(const Aws::Vector& value) { SetAvailabilityZones(value); return *this;} /** *

A list of Availability Zones (AZs) where instances in the DB cluster can be * created. For information on AWS Regions and Availability Zones, see Choosing * the Regions and Availability Zones in the Amazon Aurora User Guide. *

*/ inline CreateDBClusterRequest& WithAvailabilityZones(Aws::Vector&& value) { SetAvailabilityZones(std::move(value)); return *this;} /** *

A list of Availability Zones (AZs) where instances in the DB cluster can be * created. For information on AWS Regions and Availability Zones, see Choosing * the Regions and Availability Zones in the Amazon Aurora User Guide. *

*/ inline CreateDBClusterRequest& AddAvailabilityZones(const Aws::String& value) { m_availabilityZonesHasBeenSet = true; m_availabilityZones.push_back(value); return *this; } /** *

A list of Availability Zones (AZs) where instances in the DB cluster can be * created. For information on AWS Regions and Availability Zones, see Choosing * the Regions and Availability Zones in the Amazon Aurora User Guide. *

*/ inline CreateDBClusterRequest& AddAvailabilityZones(Aws::String&& value) { m_availabilityZonesHasBeenSet = true; m_availabilityZones.push_back(std::move(value)); return *this; } /** *

A list of Availability Zones (AZs) where instances in the DB cluster can be * created. For information on AWS Regions and Availability Zones, see Choosing * the Regions and Availability Zones in the Amazon Aurora User Guide. *

*/ inline CreateDBClusterRequest& AddAvailabilityZones(const char* value) { m_availabilityZonesHasBeenSet = true; m_availabilityZones.push_back(value); return *this; } /** *

The number of days for which automated backups are retained.

Default: * 1

Constraints:

  • Must be a value from 1 to 35

    • *
*/ inline int GetBackupRetentionPeriod() const{ return m_backupRetentionPeriod; } /** *

The number of days for which automated backups are retained.

Default: * 1

Constraints:

  • Must be a value from 1 to 35

    • *
*/ inline bool BackupRetentionPeriodHasBeenSet() const { return m_backupRetentionPeriodHasBeenSet; } /** *

The number of days for which automated backups are retained.

Default: * 1

Constraints:

  • Must be a value from 1 to 35

    • *
*/ inline void SetBackupRetentionPeriod(int value) { m_backupRetentionPeriodHasBeenSet = true; m_backupRetentionPeriod = value; } /** *

The number of days for which automated backups are retained.

Default: * 1

Constraints:

  • Must be a value from 1 to 35

    • *
*/ inline CreateDBClusterRequest& WithBackupRetentionPeriod(int value) { SetBackupRetentionPeriod(value); return *this;} /** *

A value that indicates that the DB cluster should be associated with the * specified CharacterSet.

*/ inline const Aws::String& GetCharacterSetName() const{ return m_characterSetName; } /** *

A value that indicates that the DB cluster should be associated with the * specified CharacterSet.

*/ inline bool CharacterSetNameHasBeenSet() const { return m_characterSetNameHasBeenSet; } /** *

A value that indicates that the DB cluster should be associated with the * specified CharacterSet.

*/ inline void SetCharacterSetName(const Aws::String& value) { m_characterSetNameHasBeenSet = true; m_characterSetName = value; } /** *

A value that indicates that the DB cluster should be associated with the * specified CharacterSet.

*/ inline void SetCharacterSetName(Aws::String&& value) { m_characterSetNameHasBeenSet = true; m_characterSetName = std::move(value); } /** *

A value that indicates that the DB cluster should be associated with the * specified CharacterSet.

*/ inline void SetCharacterSetName(const char* value) { m_characterSetNameHasBeenSet = true; m_characterSetName.assign(value); } /** *

A value that indicates that the DB cluster should be associated with the * specified CharacterSet.

*/ inline CreateDBClusterRequest& WithCharacterSetName(const Aws::String& value) { SetCharacterSetName(value); return *this;} /** *

A value that indicates that the DB cluster should be associated with the * specified CharacterSet.

*/ inline CreateDBClusterRequest& WithCharacterSetName(Aws::String&& value) { SetCharacterSetName(std::move(value)); return *this;} /** *

A value that indicates that the DB cluster should be associated with the * specified CharacterSet.

*/ inline CreateDBClusterRequest& WithCharacterSetName(const char* value) { SetCharacterSetName(value); return *this;} /** *

The name for your database of up to 64 alphanumeric characters. If you do not * provide a name, Amazon RDS doesn't create a database in the DB cluster you are * creating.

*/ inline const Aws::String& GetDatabaseName() const{ return m_databaseName; } /** *

The name for your database of up to 64 alphanumeric characters. If you do not * provide a name, Amazon RDS doesn't create a database in the DB cluster you are * creating.

*/ inline bool DatabaseNameHasBeenSet() const { return m_databaseNameHasBeenSet; } /** *

The name for your database of up to 64 alphanumeric characters. If you do not * provide a name, Amazon RDS doesn't create a database in the DB cluster you are * creating.

*/ inline void SetDatabaseName(const Aws::String& value) { m_databaseNameHasBeenSet = true; m_databaseName = value; } /** *

The name for your database of up to 64 alphanumeric characters. If you do not * provide a name, Amazon RDS doesn't create a database in the DB cluster you are * creating.

*/ inline void SetDatabaseName(Aws::String&& value) { m_databaseNameHasBeenSet = true; m_databaseName = std::move(value); } /** *

The name for your database of up to 64 alphanumeric characters. If you do not * provide a name, Amazon RDS doesn't create a database in the DB cluster you are * creating.

*/ inline void SetDatabaseName(const char* value) { m_databaseNameHasBeenSet = true; m_databaseName.assign(value); } /** *

The name for your database of up to 64 alphanumeric characters. If you do not * provide a name, Amazon RDS doesn't create a database in the DB cluster you are * creating.

*/ inline CreateDBClusterRequest& WithDatabaseName(const Aws::String& value) { SetDatabaseName(value); return *this;} /** *

The name for your database of up to 64 alphanumeric characters. If you do not * provide a name, Amazon RDS doesn't create a database in the DB cluster you are * creating.

*/ inline CreateDBClusterRequest& WithDatabaseName(Aws::String&& value) { SetDatabaseName(std::move(value)); return *this;} /** *

The name for your database of up to 64 alphanumeric characters. If you do not * provide a name, Amazon RDS doesn't create a database in the DB cluster you are * creating.

*/ inline CreateDBClusterRequest& WithDatabaseName(const char* value) { SetDatabaseName(value); return *this;} /** *

The DB cluster identifier. This parameter is stored as a lowercase * string.

Constraints:

  • Must contain from 1 to 63 letters, * numbers, or hyphens.

  • First character must be a letter.

    *

  • Can't end with a hyphen or contain two consecutive hyphens.

    *

Example: my-cluster1

*/ inline const Aws::String& GetDBClusterIdentifier() const{ return m_dBClusterIdentifier; } /** *

The DB cluster identifier. This parameter is stored as a lowercase * string.

Constraints:

  • Must contain from 1 to 63 letters, * numbers, or hyphens.

  • First character must be a letter.

    *

  • Can't end with a hyphen or contain two consecutive hyphens.

    *

Example: my-cluster1

*/ inline bool DBClusterIdentifierHasBeenSet() const { return m_dBClusterIdentifierHasBeenSet; } /** *

The DB cluster identifier. This parameter is stored as a lowercase * string.

Constraints:

  • Must contain from 1 to 63 letters, * numbers, or hyphens.

  • First character must be a letter.

    *

  • Can't end with a hyphen or contain two consecutive hyphens.

    *

Example: my-cluster1

*/ inline void SetDBClusterIdentifier(const Aws::String& value) { m_dBClusterIdentifierHasBeenSet = true; m_dBClusterIdentifier = value; } /** *

The DB cluster identifier. This parameter is stored as a lowercase * string.

Constraints:

  • Must contain from 1 to 63 letters, * numbers, or hyphens.

  • First character must be a letter.

    *

  • Can't end with a hyphen or contain two consecutive hyphens.

    *

Example: my-cluster1

*/ inline void SetDBClusterIdentifier(Aws::String&& value) { m_dBClusterIdentifierHasBeenSet = true; m_dBClusterIdentifier = std::move(value); } /** *

The DB cluster identifier. This parameter is stored as a lowercase * string.

Constraints:

  • Must contain from 1 to 63 letters, * numbers, or hyphens.

  • First character must be a letter.

    *

  • Can't end with a hyphen or contain two consecutive hyphens.

    *

Example: my-cluster1

*/ inline void SetDBClusterIdentifier(const char* value) { m_dBClusterIdentifierHasBeenSet = true; m_dBClusterIdentifier.assign(value); } /** *

The DB cluster identifier. This parameter is stored as a lowercase * string.

Constraints:

  • Must contain from 1 to 63 letters, * numbers, or hyphens.

  • First character must be a letter.

    *

  • Can't end with a hyphen or contain two consecutive hyphens.

    *

Example: my-cluster1

*/ inline CreateDBClusterRequest& WithDBClusterIdentifier(const Aws::String& value) { SetDBClusterIdentifier(value); return *this;} /** *

The DB cluster identifier. This parameter is stored as a lowercase * string.

Constraints:

  • Must contain from 1 to 63 letters, * numbers, or hyphens.

  • First character must be a letter.

    *

  • Can't end with a hyphen or contain two consecutive hyphens.

    *

Example: my-cluster1

*/ inline CreateDBClusterRequest& WithDBClusterIdentifier(Aws::String&& value) { SetDBClusterIdentifier(std::move(value)); return *this;} /** *

The DB cluster identifier. This parameter is stored as a lowercase * string.

Constraints:

  • Must contain from 1 to 63 letters, * numbers, or hyphens.

  • First character must be a letter.

    *

  • Can't end with a hyphen or contain two consecutive hyphens.

    *

Example: my-cluster1

*/ inline CreateDBClusterRequest& WithDBClusterIdentifier(const char* value) { SetDBClusterIdentifier(value); return *this;} /** *

The name of the DB cluster parameter group to associate with this DB * cluster. If you do not specify a value, then the default DB cluster parameter * group for the specified DB engine and version is used.

Constraints:

*

  • If supplied, must match the name of an existing DB cluster * parameter group.

*/ inline const Aws::String& GetDBClusterParameterGroupName() const{ return m_dBClusterParameterGroupName; } /** *

The name of the DB cluster parameter group to associate with this DB * cluster. If you do not specify a value, then the default DB cluster parameter * group for the specified DB engine and version is used.

Constraints:

*

  • If supplied, must match the name of an existing DB cluster * parameter group.

*/ inline bool DBClusterParameterGroupNameHasBeenSet() const { return m_dBClusterParameterGroupNameHasBeenSet; } /** *

The name of the DB cluster parameter group to associate with this DB * cluster. If you do not specify a value, then the default DB cluster parameter * group for the specified DB engine and version is used.

Constraints:

*

  • If supplied, must match the name of an existing DB cluster * parameter group.

*/ inline void SetDBClusterParameterGroupName(const Aws::String& value) { m_dBClusterParameterGroupNameHasBeenSet = true; m_dBClusterParameterGroupName = value; } /** *

The name of the DB cluster parameter group to associate with this DB * cluster. If you do not specify a value, then the default DB cluster parameter * group for the specified DB engine and version is used.

Constraints:

*

  • If supplied, must match the name of an existing DB cluster * parameter group.

*/ inline void SetDBClusterParameterGroupName(Aws::String&& value) { m_dBClusterParameterGroupNameHasBeenSet = true; m_dBClusterParameterGroupName = std::move(value); } /** *

The name of the DB cluster parameter group to associate with this DB * cluster. If you do not specify a value, then the default DB cluster parameter * group for the specified DB engine and version is used.

Constraints:

*

  • If supplied, must match the name of an existing DB cluster * parameter group.

*/ inline void SetDBClusterParameterGroupName(const char* value) { m_dBClusterParameterGroupNameHasBeenSet = true; m_dBClusterParameterGroupName.assign(value); } /** *

The name of the DB cluster parameter group to associate with this DB * cluster. If you do not specify a value, then the default DB cluster parameter * group for the specified DB engine and version is used.

Constraints:

*

  • If supplied, must match the name of an existing DB cluster * parameter group.

*/ inline CreateDBClusterRequest& WithDBClusterParameterGroupName(const Aws::String& value) { SetDBClusterParameterGroupName(value); return *this;} /** *

The name of the DB cluster parameter group to associate with this DB * cluster. If you do not specify a value, then the default DB cluster parameter * group for the specified DB engine and version is used.

Constraints:

*

  • If supplied, must match the name of an existing DB cluster * parameter group.

*/ inline CreateDBClusterRequest& WithDBClusterParameterGroupName(Aws::String&& value) { SetDBClusterParameterGroupName(std::move(value)); return *this;} /** *

The name of the DB cluster parameter group to associate with this DB * cluster. If you do not specify a value, then the default DB cluster parameter * group for the specified DB engine and version is used.

Constraints:

*

  • If supplied, must match the name of an existing DB cluster * parameter group.

*/ inline CreateDBClusterRequest& WithDBClusterParameterGroupName(const char* value) { SetDBClusterParameterGroupName(value); return *this;} /** *

A list of EC2 VPC security groups to associate with this DB cluster.

*/ inline const Aws::Vector& GetVpcSecurityGroupIds() const{ return m_vpcSecurityGroupIds; } /** *

A list of EC2 VPC security groups to associate with this DB cluster.

*/ inline bool VpcSecurityGroupIdsHasBeenSet() const { return m_vpcSecurityGroupIdsHasBeenSet; } /** *

A list of EC2 VPC security groups to associate with this DB cluster.

*/ inline void SetVpcSecurityGroupIds(const Aws::Vector& value) { m_vpcSecurityGroupIdsHasBeenSet = true; m_vpcSecurityGroupIds = value; } /** *

A list of EC2 VPC security groups to associate with this DB cluster.

*/ inline void SetVpcSecurityGroupIds(Aws::Vector&& value) { m_vpcSecurityGroupIdsHasBeenSet = true; m_vpcSecurityGroupIds = std::move(value); } /** *

A list of EC2 VPC security groups to associate with this DB cluster.

*/ inline CreateDBClusterRequest& WithVpcSecurityGroupIds(const Aws::Vector& value) { SetVpcSecurityGroupIds(value); return *this;} /** *

A list of EC2 VPC security groups to associate with this DB cluster.

*/ inline CreateDBClusterRequest& WithVpcSecurityGroupIds(Aws::Vector&& value) { SetVpcSecurityGroupIds(std::move(value)); return *this;} /** *

A list of EC2 VPC security groups to associate with this DB cluster.

*/ inline CreateDBClusterRequest& AddVpcSecurityGroupIds(const Aws::String& value) { m_vpcSecurityGroupIdsHasBeenSet = true; m_vpcSecurityGroupIds.push_back(value); return *this; } /** *

A list of EC2 VPC security groups to associate with this DB cluster.

*/ inline CreateDBClusterRequest& AddVpcSecurityGroupIds(Aws::String&& value) { m_vpcSecurityGroupIdsHasBeenSet = true; m_vpcSecurityGroupIds.push_back(std::move(value)); return *this; } /** *

A list of EC2 VPC security groups to associate with this DB cluster.

*/ inline CreateDBClusterRequest& AddVpcSecurityGroupIds(const char* value) { m_vpcSecurityGroupIdsHasBeenSet = true; m_vpcSecurityGroupIds.push_back(value); return *this; } /** *

A DB subnet group to associate with this DB cluster.

Constraints: Must * match the name of an existing DBSubnetGroup. Must not be default.

*

Example: mySubnetgroup

*/ inline const Aws::String& GetDBSubnetGroupName() const{ return m_dBSubnetGroupName; } /** *

A DB subnet group to associate with this DB cluster.

Constraints: Must * match the name of an existing DBSubnetGroup. Must not be default.

*

Example: mySubnetgroup

*/ inline bool DBSubnetGroupNameHasBeenSet() const { return m_dBSubnetGroupNameHasBeenSet; } /** *

A DB subnet group to associate with this DB cluster.

Constraints: Must * match the name of an existing DBSubnetGroup. Must not be default.

*

Example: mySubnetgroup

*/ inline void SetDBSubnetGroupName(const Aws::String& value) { m_dBSubnetGroupNameHasBeenSet = true; m_dBSubnetGroupName = value; } /** *

A DB subnet group to associate with this DB cluster.

Constraints: Must * match the name of an existing DBSubnetGroup. Must not be default.

*

Example: mySubnetgroup

*/ inline void SetDBSubnetGroupName(Aws::String&& value) { m_dBSubnetGroupNameHasBeenSet = true; m_dBSubnetGroupName = std::move(value); } /** *

A DB subnet group to associate with this DB cluster.

Constraints: Must * match the name of an existing DBSubnetGroup. Must not be default.

*

Example: mySubnetgroup

*/ inline void SetDBSubnetGroupName(const char* value) { m_dBSubnetGroupNameHasBeenSet = true; m_dBSubnetGroupName.assign(value); } /** *

A DB subnet group to associate with this DB cluster.

Constraints: Must * match the name of an existing DBSubnetGroup. Must not be default.

*

Example: mySubnetgroup

*/ inline CreateDBClusterRequest& WithDBSubnetGroupName(const Aws::String& value) { SetDBSubnetGroupName(value); return *this;} /** *

A DB subnet group to associate with this DB cluster.

Constraints: Must * match the name of an existing DBSubnetGroup. Must not be default.

*

Example: mySubnetgroup

*/ inline CreateDBClusterRequest& WithDBSubnetGroupName(Aws::String&& value) { SetDBSubnetGroupName(std::move(value)); return *this;} /** *

A DB subnet group to associate with this DB cluster.

Constraints: Must * match the name of an existing DBSubnetGroup. Must not be default.

*

Example: mySubnetgroup

*/ inline CreateDBClusterRequest& WithDBSubnetGroupName(const char* value) { SetDBSubnetGroupName(value); return *this;} /** *

The name of the database engine to be used for this DB cluster.

Valid * Values: aurora (for MySQL 5.6-compatible Aurora), * aurora-mysql (for MySQL 5.7-compatible Aurora), and * aurora-postgresql

*/ inline const Aws::String& GetEngine() const{ return m_engine; } /** *

The name of the database engine to be used for this DB cluster.

Valid * Values: aurora (for MySQL 5.6-compatible Aurora), * aurora-mysql (for MySQL 5.7-compatible Aurora), and * aurora-postgresql

*/ inline bool EngineHasBeenSet() const { return m_engineHasBeenSet; } /** *

The name of the database engine to be used for this DB cluster.

Valid * Values: aurora (for MySQL 5.6-compatible Aurora), * aurora-mysql (for MySQL 5.7-compatible Aurora), and * aurora-postgresql

*/ inline void SetEngine(const Aws::String& value) { m_engineHasBeenSet = true; m_engine = value; } /** *

The name of the database engine to be used for this DB cluster.

Valid * Values: aurora (for MySQL 5.6-compatible Aurora), * aurora-mysql (for MySQL 5.7-compatible Aurora), and * aurora-postgresql

*/ inline void SetEngine(Aws::String&& value) { m_engineHasBeenSet = true; m_engine = std::move(value); } /** *

The name of the database engine to be used for this DB cluster.

Valid * Values: aurora (for MySQL 5.6-compatible Aurora), * aurora-mysql (for MySQL 5.7-compatible Aurora), and * aurora-postgresql

*/ inline void SetEngine(const char* value) { m_engineHasBeenSet = true; m_engine.assign(value); } /** *

The name of the database engine to be used for this DB cluster.

Valid * Values: aurora (for MySQL 5.6-compatible Aurora), * aurora-mysql (for MySQL 5.7-compatible Aurora), and * aurora-postgresql

*/ inline CreateDBClusterRequest& WithEngine(const Aws::String& value) { SetEngine(value); return *this;} /** *

The name of the database engine to be used for this DB cluster.

Valid * Values: aurora (for MySQL 5.6-compatible Aurora), * aurora-mysql (for MySQL 5.7-compatible Aurora), and * aurora-postgresql

*/ inline CreateDBClusterRequest& WithEngine(Aws::String&& value) { SetEngine(std::move(value)); return *this;} /** *

The name of the database engine to be used for this DB cluster.

Valid * Values: aurora (for MySQL 5.6-compatible Aurora), * aurora-mysql (for MySQL 5.7-compatible Aurora), and * aurora-postgresql

*/ inline CreateDBClusterRequest& WithEngine(const char* value) { SetEngine(value); return *this;} /** *

The version number of the database engine to use.

To list all of the * available engine versions for aurora (for MySQL 5.6-compatible * Aurora), use the following command:

aws rds * describe-db-engine-versions --engine aurora --query * "DBEngineVersions[].EngineVersion"

To list all of the available * engine versions for aurora-mysql (for MySQL 5.7-compatible Aurora), * use the following command:

aws rds describe-db-engine-versions * --engine aurora-mysql --query "DBEngineVersions[].EngineVersion"

*

To list all of the available engine versions for * aurora-postgresql, use the following command:

aws rds * describe-db-engine-versions --engine aurora-postgresql --query * "DBEngineVersions[].EngineVersion"

Aurora MySQL

*

Example: 5.6.10a, 5.6.mysql_aurora.1.19.2, * 5.7.12, 5.7.mysql_aurora.2.04.5

Aurora * PostgreSQL

Example: 9.6.3, 10.7

*/ inline const Aws::String& GetEngineVersion() const{ return m_engineVersion; } /** *

The version number of the database engine to use.

To list all of the * available engine versions for aurora (for MySQL 5.6-compatible * Aurora), use the following command:

aws rds * describe-db-engine-versions --engine aurora --query * "DBEngineVersions[].EngineVersion"

To list all of the available * engine versions for aurora-mysql (for MySQL 5.7-compatible Aurora), * use the following command:

aws rds describe-db-engine-versions * --engine aurora-mysql --query "DBEngineVersions[].EngineVersion"

*

To list all of the available engine versions for * aurora-postgresql, use the following command:

aws rds * describe-db-engine-versions --engine aurora-postgresql --query * "DBEngineVersions[].EngineVersion"

Aurora MySQL

*

Example: 5.6.10a, 5.6.mysql_aurora.1.19.2, * 5.7.12, 5.7.mysql_aurora.2.04.5

Aurora * PostgreSQL

Example: 9.6.3, 10.7

*/ inline bool EngineVersionHasBeenSet() const { return m_engineVersionHasBeenSet; } /** *

The version number of the database engine to use.

To list all of the * available engine versions for aurora (for MySQL 5.6-compatible * Aurora), use the following command:

aws rds * describe-db-engine-versions --engine aurora --query * "DBEngineVersions[].EngineVersion"

To list all of the available * engine versions for aurora-mysql (for MySQL 5.7-compatible Aurora), * use the following command:

aws rds describe-db-engine-versions * --engine aurora-mysql --query "DBEngineVersions[].EngineVersion"

*

To list all of the available engine versions for * aurora-postgresql, use the following command:

aws rds * describe-db-engine-versions --engine aurora-postgresql --query * "DBEngineVersions[].EngineVersion"

Aurora MySQL

*

Example: 5.6.10a, 5.6.mysql_aurora.1.19.2, * 5.7.12, 5.7.mysql_aurora.2.04.5

Aurora * PostgreSQL

Example: 9.6.3, 10.7

*/ inline void SetEngineVersion(const Aws::String& value) { m_engineVersionHasBeenSet = true; m_engineVersion = value; } /** *

The version number of the database engine to use.

To list all of the * available engine versions for aurora (for MySQL 5.6-compatible * Aurora), use the following command:

aws rds * describe-db-engine-versions --engine aurora --query * "DBEngineVersions[].EngineVersion"

To list all of the available * engine versions for aurora-mysql (for MySQL 5.7-compatible Aurora), * use the following command:

aws rds describe-db-engine-versions * --engine aurora-mysql --query "DBEngineVersions[].EngineVersion"

*

To list all of the available engine versions for * aurora-postgresql, use the following command:

aws rds * describe-db-engine-versions --engine aurora-postgresql --query * "DBEngineVersions[].EngineVersion"

Aurora MySQL

*

Example: 5.6.10a, 5.6.mysql_aurora.1.19.2, * 5.7.12, 5.7.mysql_aurora.2.04.5

Aurora * PostgreSQL

Example: 9.6.3, 10.7

*/ inline void SetEngineVersion(Aws::String&& value) { m_engineVersionHasBeenSet = true; m_engineVersion = std::move(value); } /** *

The version number of the database engine to use.

To list all of the * available engine versions for aurora (for MySQL 5.6-compatible * Aurora), use the following command:

aws rds * describe-db-engine-versions --engine aurora --query * "DBEngineVersions[].EngineVersion"

To list all of the available * engine versions for aurora-mysql (for MySQL 5.7-compatible Aurora), * use the following command:

aws rds describe-db-engine-versions * --engine aurora-mysql --query "DBEngineVersions[].EngineVersion"

*

To list all of the available engine versions for * aurora-postgresql, use the following command:

aws rds * describe-db-engine-versions --engine aurora-postgresql --query * "DBEngineVersions[].EngineVersion"

Aurora MySQL

*

Example: 5.6.10a, 5.6.mysql_aurora.1.19.2, * 5.7.12, 5.7.mysql_aurora.2.04.5

Aurora * PostgreSQL

Example: 9.6.3, 10.7

*/ inline void SetEngineVersion(const char* value) { m_engineVersionHasBeenSet = true; m_engineVersion.assign(value); } /** *

The version number of the database engine to use.

To list all of the * available engine versions for aurora (for MySQL 5.6-compatible * Aurora), use the following command:

aws rds * describe-db-engine-versions --engine aurora --query * "DBEngineVersions[].EngineVersion"

To list all of the available * engine versions for aurora-mysql (for MySQL 5.7-compatible Aurora), * use the following command:

aws rds describe-db-engine-versions * --engine aurora-mysql --query "DBEngineVersions[].EngineVersion"

*

To list all of the available engine versions for * aurora-postgresql, use the following command:

aws rds * describe-db-engine-versions --engine aurora-postgresql --query * "DBEngineVersions[].EngineVersion"

Aurora MySQL

*

Example: 5.6.10a, 5.6.mysql_aurora.1.19.2, * 5.7.12, 5.7.mysql_aurora.2.04.5

Aurora * PostgreSQL

Example: 9.6.3, 10.7

*/ inline CreateDBClusterRequest& WithEngineVersion(const Aws::String& value) { SetEngineVersion(value); return *this;} /** *

The version number of the database engine to use.

To list all of the * available engine versions for aurora (for MySQL 5.6-compatible * Aurora), use the following command:

aws rds * describe-db-engine-versions --engine aurora --query * "DBEngineVersions[].EngineVersion"

To list all of the available * engine versions for aurora-mysql (for MySQL 5.7-compatible Aurora), * use the following command:

aws rds describe-db-engine-versions * --engine aurora-mysql --query "DBEngineVersions[].EngineVersion"

*

To list all of the available engine versions for * aurora-postgresql, use the following command:

aws rds * describe-db-engine-versions --engine aurora-postgresql --query * "DBEngineVersions[].EngineVersion"

Aurora MySQL

*

Example: 5.6.10a, 5.6.mysql_aurora.1.19.2, * 5.7.12, 5.7.mysql_aurora.2.04.5

Aurora * PostgreSQL

Example: 9.6.3, 10.7

*/ inline CreateDBClusterRequest& WithEngineVersion(Aws::String&& value) { SetEngineVersion(std::move(value)); return *this;} /** *

The version number of the database engine to use.

To list all of the * available engine versions for aurora (for MySQL 5.6-compatible * Aurora), use the following command:

aws rds * describe-db-engine-versions --engine aurora --query * "DBEngineVersions[].EngineVersion"

To list all of the available * engine versions for aurora-mysql (for MySQL 5.7-compatible Aurora), * use the following command:

aws rds describe-db-engine-versions * --engine aurora-mysql --query "DBEngineVersions[].EngineVersion"

*

To list all of the available engine versions for * aurora-postgresql, use the following command:

aws rds * describe-db-engine-versions --engine aurora-postgresql --query * "DBEngineVersions[].EngineVersion"

Aurora MySQL

*

Example: 5.6.10a, 5.6.mysql_aurora.1.19.2, * 5.7.12, 5.7.mysql_aurora.2.04.5

Aurora * PostgreSQL

Example: 9.6.3, 10.7

*/ inline CreateDBClusterRequest& WithEngineVersion(const char* value) { SetEngineVersion(value); return *this;} /** *

The port number on which the instances in the DB cluster accept * connections.

Default: 3306 if engine is set as aurora or * 5432 if set to aurora-postgresql.

*/ inline int GetPort() const{ return m_port; } /** *

The port number on which the instances in the DB cluster accept * connections.

Default: 3306 if engine is set as aurora or * 5432 if set to aurora-postgresql.

*/ inline bool PortHasBeenSet() const { return m_portHasBeenSet; } /** *

The port number on which the instances in the DB cluster accept * connections.

Default: 3306 if engine is set as aurora or * 5432 if set to aurora-postgresql.

*/ inline void SetPort(int value) { m_portHasBeenSet = true; m_port = value; } /** *

The port number on which the instances in the DB cluster accept * connections.

Default: 3306 if engine is set as aurora or * 5432 if set to aurora-postgresql.

*/ inline CreateDBClusterRequest& WithPort(int value) { SetPort(value); return *this;} /** *

The name of the master user for the DB cluster.

Constraints:

    *

  • Must be 1 to 16 letters or numbers.

  • First character * must be a letter.

  • Can't be a reserved word for the chosen * database engine.

*/ inline const Aws::String& GetMasterUsername() const{ return m_masterUsername; } /** *

The name of the master user for the DB cluster.

Constraints:

    *

  • Must be 1 to 16 letters or numbers.

  • First character * must be a letter.

  • Can't be a reserved word for the chosen * database engine.

*/ inline bool MasterUsernameHasBeenSet() const { return m_masterUsernameHasBeenSet; } /** *

The name of the master user for the DB cluster.

Constraints:

    *

  • Must be 1 to 16 letters or numbers.

  • First character * must be a letter.

  • Can't be a reserved word for the chosen * database engine.

*/ inline void SetMasterUsername(const Aws::String& value) { m_masterUsernameHasBeenSet = true; m_masterUsername = value; } /** *

The name of the master user for the DB cluster.

Constraints:

    *

  • Must be 1 to 16 letters or numbers.

  • First character * must be a letter.

  • Can't be a reserved word for the chosen * database engine.

*/ inline void SetMasterUsername(Aws::String&& value) { m_masterUsernameHasBeenSet = true; m_masterUsername = std::move(value); } /** *

The name of the master user for the DB cluster.

Constraints:

    *

  • Must be 1 to 16 letters or numbers.

  • First character * must be a letter.

  • Can't be a reserved word for the chosen * database engine.

*/ inline void SetMasterUsername(const char* value) { m_masterUsernameHasBeenSet = true; m_masterUsername.assign(value); } /** *

The name of the master user for the DB cluster.

Constraints:

    *

  • Must be 1 to 16 letters or numbers.

  • First character * must be a letter.

  • Can't be a reserved word for the chosen * database engine.

*/ inline CreateDBClusterRequest& WithMasterUsername(const Aws::String& value) { SetMasterUsername(value); return *this;} /** *

The name of the master user for the DB cluster.

Constraints:

    *

  • Must be 1 to 16 letters or numbers.

  • First character * must be a letter.

  • Can't be a reserved word for the chosen * database engine.

*/ inline CreateDBClusterRequest& WithMasterUsername(Aws::String&& value) { SetMasterUsername(std::move(value)); return *this;} /** *

The name of the master user for the DB cluster.

Constraints:

    *

  • Must be 1 to 16 letters or numbers.

  • First character * must be a letter.

  • Can't be a reserved word for the chosen * database engine.

*/ inline CreateDBClusterRequest& WithMasterUsername(const char* value) { SetMasterUsername(value); return *this;} /** *

The password for the master database user. This password can contain any * printable ASCII character except "/", """, or "@".

Constraints: Must * contain from 8 to 41 characters.

*/ inline const Aws::String& GetMasterUserPassword() const{ return m_masterUserPassword; } /** *

The password for the master database user. This password can contain any * printable ASCII character except "/", """, or "@".

Constraints: Must * contain from 8 to 41 characters.

*/ inline bool MasterUserPasswordHasBeenSet() const { return m_masterUserPasswordHasBeenSet; } /** *

The password for the master database user. This password can contain any * printable ASCII character except "/", """, or "@".

Constraints: Must * contain from 8 to 41 characters.

*/ inline void SetMasterUserPassword(const Aws::String& value) { m_masterUserPasswordHasBeenSet = true; m_masterUserPassword = value; } /** *

The password for the master database user. This password can contain any * printable ASCII character except "/", """, or "@".

Constraints: Must * contain from 8 to 41 characters.

*/ inline void SetMasterUserPassword(Aws::String&& value) { m_masterUserPasswordHasBeenSet = true; m_masterUserPassword = std::move(value); } /** *

The password for the master database user. This password can contain any * printable ASCII character except "/", """, or "@".

Constraints: Must * contain from 8 to 41 characters.

*/ inline void SetMasterUserPassword(const char* value) { m_masterUserPasswordHasBeenSet = true; m_masterUserPassword.assign(value); } /** *

The password for the master database user. This password can contain any * printable ASCII character except "/", """, or "@".

Constraints: Must * contain from 8 to 41 characters.

*/ inline CreateDBClusterRequest& WithMasterUserPassword(const Aws::String& value) { SetMasterUserPassword(value); return *this;} /** *

The password for the master database user. This password can contain any * printable ASCII character except "/", """, or "@".

Constraints: Must * contain from 8 to 41 characters.

*/ inline CreateDBClusterRequest& WithMasterUserPassword(Aws::String&& value) { SetMasterUserPassword(std::move(value)); return *this;} /** *

The password for the master database user. This password can contain any * printable ASCII character except "/", """, or "@".

Constraints: Must * contain from 8 to 41 characters.

*/ inline CreateDBClusterRequest& WithMasterUserPassword(const char* value) { SetMasterUserPassword(value); return *this;} /** *

A value that indicates that the DB cluster should be associated with the * specified option group.

Permanent options can't be removed from an option * group. The option group can't be removed from a DB cluster once it is associated * with a DB cluster.

*/ inline const Aws::String& GetOptionGroupName() const{ return m_optionGroupName; } /** *

A value that indicates that the DB cluster should be associated with the * specified option group.

Permanent options can't be removed from an option * group. The option group can't be removed from a DB cluster once it is associated * with a DB cluster.

*/ inline bool OptionGroupNameHasBeenSet() const { return m_optionGroupNameHasBeenSet; } /** *

A value that indicates that the DB cluster should be associated with the * specified option group.

Permanent options can't be removed from an option * group. The option group can't be removed from a DB cluster once it is associated * with a DB cluster.

*/ inline void SetOptionGroupName(const Aws::String& value) { m_optionGroupNameHasBeenSet = true; m_optionGroupName = value; } /** *

A value that indicates that the DB cluster should be associated with the * specified option group.

Permanent options can't be removed from an option * group. The option group can't be removed from a DB cluster once it is associated * with a DB cluster.

*/ inline void SetOptionGroupName(Aws::String&& value) { m_optionGroupNameHasBeenSet = true; m_optionGroupName = std::move(value); } /** *

A value that indicates that the DB cluster should be associated with the * specified option group.

Permanent options can't be removed from an option * group. The option group can't be removed from a DB cluster once it is associated * with a DB cluster.

*/ inline void SetOptionGroupName(const char* value) { m_optionGroupNameHasBeenSet = true; m_optionGroupName.assign(value); } /** *

A value that indicates that the DB cluster should be associated with the * specified option group.

Permanent options can't be removed from an option * group. The option group can't be removed from a DB cluster once it is associated * with a DB cluster.

*/ inline CreateDBClusterRequest& WithOptionGroupName(const Aws::String& value) { SetOptionGroupName(value); return *this;} /** *

A value that indicates that the DB cluster should be associated with the * specified option group.

Permanent options can't be removed from an option * group. The option group can't be removed from a DB cluster once it is associated * with a DB cluster.

*/ inline CreateDBClusterRequest& WithOptionGroupName(Aws::String&& value) { SetOptionGroupName(std::move(value)); return *this;} /** *

A value that indicates that the DB cluster should be associated with the * specified option group.

Permanent options can't be removed from an option * group. The option group can't be removed from a DB cluster once it is associated * with a DB cluster.

*/ inline CreateDBClusterRequest& WithOptionGroupName(const char* value) { SetOptionGroupName(value); return *this;} /** *

The daily time range during which automated backups are created if automated * backups are enabled using the BackupRetentionPeriod parameter.

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region. To see the time blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Constraints:

  • Must be in the * format hh24:mi-hh24:mi.

  • Must be in Universal * Coordinated Time (UTC).

  • Must not conflict with the preferred * maintenance window.

  • Must be at least 30 minutes.

    • *
*/ inline const Aws::String& GetPreferredBackupWindow() const{ return m_preferredBackupWindow; } /** *

The daily time range during which automated backups are created if automated * backups are enabled using the BackupRetentionPeriod parameter.

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region. To see the time blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Constraints:

  • Must be in the * format hh24:mi-hh24:mi.

  • Must be in Universal * Coordinated Time (UTC).

  • Must not conflict with the preferred * maintenance window.

  • Must be at least 30 minutes.

    • *
*/ inline bool PreferredBackupWindowHasBeenSet() const { return m_preferredBackupWindowHasBeenSet; } /** *

The daily time range during which automated backups are created if automated * backups are enabled using the BackupRetentionPeriod parameter.

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region. To see the time blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Constraints:

  • Must be in the * format hh24:mi-hh24:mi.

  • Must be in Universal * Coordinated Time (UTC).

  • Must not conflict with the preferred * maintenance window.

  • Must be at least 30 minutes.

    • *
*/ inline void SetPreferredBackupWindow(const Aws::String& value) { m_preferredBackupWindowHasBeenSet = true; m_preferredBackupWindow = value; } /** *

The daily time range during which automated backups are created if automated * backups are enabled using the BackupRetentionPeriod parameter.

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region. To see the time blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Constraints:

  • Must be in the * format hh24:mi-hh24:mi.

  • Must be in Universal * Coordinated Time (UTC).

  • Must not conflict with the preferred * maintenance window.

  • Must be at least 30 minutes.

    • *
*/ inline void SetPreferredBackupWindow(Aws::String&& value) { m_preferredBackupWindowHasBeenSet = true; m_preferredBackupWindow = std::move(value); } /** *

The daily time range during which automated backups are created if automated * backups are enabled using the BackupRetentionPeriod parameter.

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region. To see the time blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Constraints:

  • Must be in the * format hh24:mi-hh24:mi.

  • Must be in Universal * Coordinated Time (UTC).

  • Must not conflict with the preferred * maintenance window.

  • Must be at least 30 minutes.

    • *
*/ inline void SetPreferredBackupWindow(const char* value) { m_preferredBackupWindowHasBeenSet = true; m_preferredBackupWindow.assign(value); } /** *

The daily time range during which automated backups are created if automated * backups are enabled using the BackupRetentionPeriod parameter.

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region. To see the time blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Constraints:

  • Must be in the * format hh24:mi-hh24:mi.

  • Must be in Universal * Coordinated Time (UTC).

  • Must not conflict with the preferred * maintenance window.

  • Must be at least 30 minutes.

    • *
*/ inline CreateDBClusterRequest& WithPreferredBackupWindow(const Aws::String& value) { SetPreferredBackupWindow(value); return *this;} /** *

The daily time range during which automated backups are created if automated * backups are enabled using the BackupRetentionPeriod parameter.

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region. To see the time blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Constraints:

  • Must be in the * format hh24:mi-hh24:mi.

  • Must be in Universal * Coordinated Time (UTC).

  • Must not conflict with the preferred * maintenance window.

  • Must be at least 30 minutes.

    • *
*/ inline CreateDBClusterRequest& WithPreferredBackupWindow(Aws::String&& value) { SetPreferredBackupWindow(std::move(value)); return *this;} /** *

The daily time range during which automated backups are created if automated * backups are enabled using the BackupRetentionPeriod parameter.

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region. To see the time blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Constraints:

  • Must be in the * format hh24:mi-hh24:mi.

  • Must be in Universal * Coordinated Time (UTC).

  • Must not conflict with the preferred * maintenance window.

  • Must be at least 30 minutes.

    • *
*/ inline CreateDBClusterRequest& WithPreferredBackupWindow(const char* value) { SetPreferredBackupWindow(value); return *this;} /** *

The weekly time range during which system maintenance can occur, in Universal * Coordinated Time (UTC).

Format: ddd:hh24:mi-ddd:hh24:mi

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region, occurring on a random day of the week. To see the time * blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Valid Days: Mon, Tue, Wed, Thu, Fri, Sat, * Sun.

Constraints: Minimum 30-minute window.

*/ inline const Aws::String& GetPreferredMaintenanceWindow() const{ return m_preferredMaintenanceWindow; } /** *

The weekly time range during which system maintenance can occur, in Universal * Coordinated Time (UTC).

Format: ddd:hh24:mi-ddd:hh24:mi

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region, occurring on a random day of the week. To see the time * blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Valid Days: Mon, Tue, Wed, Thu, Fri, Sat, * Sun.

Constraints: Minimum 30-minute window.

*/ inline bool PreferredMaintenanceWindowHasBeenSet() const { return m_preferredMaintenanceWindowHasBeenSet; } /** *

The weekly time range during which system maintenance can occur, in Universal * Coordinated Time (UTC).

Format: ddd:hh24:mi-ddd:hh24:mi

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region, occurring on a random day of the week. To see the time * blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Valid Days: Mon, Tue, Wed, Thu, Fri, Sat, * Sun.

Constraints: Minimum 30-minute window.

*/ inline void SetPreferredMaintenanceWindow(const Aws::String& value) { m_preferredMaintenanceWindowHasBeenSet = true; m_preferredMaintenanceWindow = value; } /** *

The weekly time range during which system maintenance can occur, in Universal * Coordinated Time (UTC).

Format: ddd:hh24:mi-ddd:hh24:mi

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region, occurring on a random day of the week. To see the time * blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Valid Days: Mon, Tue, Wed, Thu, Fri, Sat, * Sun.

Constraints: Minimum 30-minute window.

*/ inline void SetPreferredMaintenanceWindow(Aws::String&& value) { m_preferredMaintenanceWindowHasBeenSet = true; m_preferredMaintenanceWindow = std::move(value); } /** *

The weekly time range during which system maintenance can occur, in Universal * Coordinated Time (UTC).

Format: ddd:hh24:mi-ddd:hh24:mi

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region, occurring on a random day of the week. To see the time * blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Valid Days: Mon, Tue, Wed, Thu, Fri, Sat, * Sun.

Constraints: Minimum 30-minute window.

*/ inline void SetPreferredMaintenanceWindow(const char* value) { m_preferredMaintenanceWindowHasBeenSet = true; m_preferredMaintenanceWindow.assign(value); } /** *

The weekly time range during which system maintenance can occur, in Universal * Coordinated Time (UTC).

Format: ddd:hh24:mi-ddd:hh24:mi

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region, occurring on a random day of the week. To see the time * blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Valid Days: Mon, Tue, Wed, Thu, Fri, Sat, * Sun.

Constraints: Minimum 30-minute window.

*/ inline CreateDBClusterRequest& WithPreferredMaintenanceWindow(const Aws::String& value) { SetPreferredMaintenanceWindow(value); return *this;} /** *

The weekly time range during which system maintenance can occur, in Universal * Coordinated Time (UTC).

Format: ddd:hh24:mi-ddd:hh24:mi

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region, occurring on a random day of the week. To see the time * blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Valid Days: Mon, Tue, Wed, Thu, Fri, Sat, * Sun.

Constraints: Minimum 30-minute window.

*/ inline CreateDBClusterRequest& WithPreferredMaintenanceWindow(Aws::String&& value) { SetPreferredMaintenanceWindow(std::move(value)); return *this;} /** *

The weekly time range during which system maintenance can occur, in Universal * Coordinated Time (UTC).

Format: ddd:hh24:mi-ddd:hh24:mi

*

The default is a 30-minute window selected at random from an 8-hour block of * time for each AWS Region, occurring on a random day of the week. To see the time * blocks available, see * Adjusting the Preferred DB Cluster Maintenance Window in the Amazon * Aurora User Guide.

Valid Days: Mon, Tue, Wed, Thu, Fri, Sat, * Sun.

Constraints: Minimum 30-minute window.

*/ inline CreateDBClusterRequest& WithPreferredMaintenanceWindow(const char* value) { SetPreferredMaintenanceWindow(value); return *this;} /** *

The Amazon Resource Name (ARN) of the source DB instance or DB cluster if * this DB cluster is created as a read replica.

*/ inline const Aws::String& GetReplicationSourceIdentifier() const{ return m_replicationSourceIdentifier; } /** *

The Amazon Resource Name (ARN) of the source DB instance or DB cluster if * this DB cluster is created as a read replica.

*/ inline bool ReplicationSourceIdentifierHasBeenSet() const { return m_replicationSourceIdentifierHasBeenSet; } /** *

The Amazon Resource Name (ARN) of the source DB instance or DB cluster if * this DB cluster is created as a read replica.

*/ inline void SetReplicationSourceIdentifier(const Aws::String& value) { m_replicationSourceIdentifierHasBeenSet = true; m_replicationSourceIdentifier = value; } /** *

The Amazon Resource Name (ARN) of the source DB instance or DB cluster if * this DB cluster is created as a read replica.

*/ inline void SetReplicationSourceIdentifier(Aws::String&& value) { m_replicationSourceIdentifierHasBeenSet = true; m_replicationSourceIdentifier = std::move(value); } /** *

The Amazon Resource Name (ARN) of the source DB instance or DB cluster if * this DB cluster is created as a read replica.

*/ inline void SetReplicationSourceIdentifier(const char* value) { m_replicationSourceIdentifierHasBeenSet = true; m_replicationSourceIdentifier.assign(value); } /** *

The Amazon Resource Name (ARN) of the source DB instance or DB cluster if * this DB cluster is created as a read replica.

*/ inline CreateDBClusterRequest& WithReplicationSourceIdentifier(const Aws::String& value) { SetReplicationSourceIdentifier(value); return *this;} /** *

The Amazon Resource Name (ARN) of the source DB instance or DB cluster if * this DB cluster is created as a read replica.

*/ inline CreateDBClusterRequest& WithReplicationSourceIdentifier(Aws::String&& value) { SetReplicationSourceIdentifier(std::move(value)); return *this;} /** *

The Amazon Resource Name (ARN) of the source DB instance or DB cluster if * this DB cluster is created as a read replica.

*/ inline CreateDBClusterRequest& WithReplicationSourceIdentifier(const char* value) { SetReplicationSourceIdentifier(value); return *this;} /** *

Tags to assign to the DB cluster.

*/ inline const Aws::Vector& GetTags() const{ return m_tags; } /** *

Tags to assign to the DB cluster.

*/ inline bool TagsHasBeenSet() const { return m_tagsHasBeenSet; } /** *

Tags to assign to the DB cluster.

*/ inline void SetTags(const Aws::Vector& value) { m_tagsHasBeenSet = true; m_tags = value; } /** *

Tags to assign to the DB cluster.

*/ inline void SetTags(Aws::Vector&& value) { m_tagsHasBeenSet = true; m_tags = std::move(value); } /** *

Tags to assign to the DB cluster.

*/ inline CreateDBClusterRequest& WithTags(const Aws::Vector& value) { SetTags(value); return *this;} /** *

Tags to assign to the DB cluster.

*/ inline CreateDBClusterRequest& WithTags(Aws::Vector&& value) { SetTags(std::move(value)); return *this;} /** *

Tags to assign to the DB cluster.

*/ inline CreateDBClusterRequest& AddTags(const Tag& value) { m_tagsHasBeenSet = true; m_tags.push_back(value); return *this; } /** *

Tags to assign to the DB cluster.

*/ inline CreateDBClusterRequest& AddTags(Tag&& value) { m_tagsHasBeenSet = true; m_tags.push_back(std::move(value)); return *this; } /** *

A value that indicates whether the DB cluster is encrypted.

*/ inline bool GetStorageEncrypted() const{ return m_storageEncrypted; } /** *

A value that indicates whether the DB cluster is encrypted.

*/ inline bool StorageEncryptedHasBeenSet() const { return m_storageEncryptedHasBeenSet; } /** *

A value that indicates whether the DB cluster is encrypted.

*/ inline void SetStorageEncrypted(bool value) { m_storageEncryptedHasBeenSet = true; m_storageEncrypted = value; } /** *

A value that indicates whether the DB cluster is encrypted.

*/ inline CreateDBClusterRequest& WithStorageEncrypted(bool value) { SetStorageEncrypted(value); return *this;} /** *

The AWS KMS key identifier for an encrypted DB cluster.

The KMS key * identifier is the Amazon Resource Name (ARN) for the KMS encryption key. If you * are creating a DB cluster with the same AWS account that owns the KMS encryption * key used to encrypt the new DB cluster, then you can use the KMS key alias * instead of the ARN for the KMS encryption key.

If an encryption key isn't * specified in KmsKeyId:

  • If * ReplicationSourceIdentifier identifies an encrypted source, then * Amazon RDS will use the encryption key used to encrypt the source. Otherwise, * Amazon RDS will use your default encryption key.

  • If the * StorageEncrypted parameter is enabled and * ReplicationSourceIdentifier isn't specified, then Amazon RDS will * use your default encryption key.

AWS KMS creates the default * encryption key for your AWS account. Your AWS account has a different default * encryption key for each AWS Region.

If you create a read replica of an * encrypted DB cluster in another AWS Region, you must set KmsKeyId * to a KMS key ID that is valid in the destination AWS Region. This key is used to * encrypt the read replica in that AWS Region.

*/ inline const Aws::String& GetKmsKeyId() const{ return m_kmsKeyId; } /** *

The AWS KMS key identifier for an encrypted DB cluster.

The KMS key * identifier is the Amazon Resource Name (ARN) for the KMS encryption key. If you * are creating a DB cluster with the same AWS account that owns the KMS encryption * key used to encrypt the new DB cluster, then you can use the KMS key alias * instead of the ARN for the KMS encryption key.

If an encryption key isn't * specified in KmsKeyId:

  • If * ReplicationSourceIdentifier identifies an encrypted source, then * Amazon RDS will use the encryption key used to encrypt the source. Otherwise, * Amazon RDS will use your default encryption key.

  • If the * StorageEncrypted parameter is enabled and * ReplicationSourceIdentifier isn't specified, then Amazon RDS will * use your default encryption key.

AWS KMS creates the default * encryption key for your AWS account. Your AWS account has a different default * encryption key for each AWS Region.

If you create a read replica of an * encrypted DB cluster in another AWS Region, you must set KmsKeyId * to a KMS key ID that is valid in the destination AWS Region. This key is used to * encrypt the read replica in that AWS Region.

*/ inline bool KmsKeyIdHasBeenSet() const { return m_kmsKeyIdHasBeenSet; } /** *

The AWS KMS key identifier for an encrypted DB cluster.

The KMS key * identifier is the Amazon Resource Name (ARN) for the KMS encryption key. If you * are creating a DB cluster with the same AWS account that owns the KMS encryption * key used to encrypt the new DB cluster, then you can use the KMS key alias * instead of the ARN for the KMS encryption key.

If an encryption key isn't * specified in KmsKeyId:

  • If * ReplicationSourceIdentifier identifies an encrypted source, then * Amazon RDS will use the encryption key used to encrypt the source. Otherwise, * Amazon RDS will use your default encryption key.

  • If the * StorageEncrypted parameter is enabled and * ReplicationSourceIdentifier isn't specified, then Amazon RDS will * use your default encryption key.

AWS KMS creates the default * encryption key for your AWS account. Your AWS account has a different default * encryption key for each AWS Region.

If you create a read replica of an * encrypted DB cluster in another AWS Region, you must set KmsKeyId * to a KMS key ID that is valid in the destination AWS Region. This key is used to * encrypt the read replica in that AWS Region.

*/ inline void SetKmsKeyId(const Aws::String& value) { m_kmsKeyIdHasBeenSet = true; m_kmsKeyId = value; } /** *

The AWS KMS key identifier for an encrypted DB cluster.

The KMS key * identifier is the Amazon Resource Name (ARN) for the KMS encryption key. If you * are creating a DB cluster with the same AWS account that owns the KMS encryption * key used to encrypt the new DB cluster, then you can use the KMS key alias * instead of the ARN for the KMS encryption key.

If an encryption key isn't * specified in KmsKeyId:

  • If * ReplicationSourceIdentifier identifies an encrypted source, then * Amazon RDS will use the encryption key used to encrypt the source. Otherwise, * Amazon RDS will use your default encryption key.

  • If the * StorageEncrypted parameter is enabled and * ReplicationSourceIdentifier isn't specified, then Amazon RDS will * use your default encryption key.

AWS KMS creates the default * encryption key for your AWS account. Your AWS account has a different default * encryption key for each AWS Region.

If you create a read replica of an * encrypted DB cluster in another AWS Region, you must set KmsKeyId * to a KMS key ID that is valid in the destination AWS Region. This key is used to * encrypt the read replica in that AWS Region.

*/ inline void SetKmsKeyId(Aws::String&& value) { m_kmsKeyIdHasBeenSet = true; m_kmsKeyId = std::move(value); } /** *

The AWS KMS key identifier for an encrypted DB cluster.

The KMS key * identifier is the Amazon Resource Name (ARN) for the KMS encryption key. If you * are creating a DB cluster with the same AWS account that owns the KMS encryption * key used to encrypt the new DB cluster, then you can use the KMS key alias * instead of the ARN for the KMS encryption key.

If an encryption key isn't * specified in KmsKeyId:

  • If * ReplicationSourceIdentifier identifies an encrypted source, then * Amazon RDS will use the encryption key used to encrypt the source. Otherwise, * Amazon RDS will use your default encryption key.

  • If the * StorageEncrypted parameter is enabled and * ReplicationSourceIdentifier isn't specified, then Amazon RDS will * use your default encryption key.

AWS KMS creates the default * encryption key for your AWS account. Your AWS account has a different default * encryption key for each AWS Region.

If you create a read replica of an * encrypted DB cluster in another AWS Region, you must set KmsKeyId * to a KMS key ID that is valid in the destination AWS Region. This key is used to * encrypt the read replica in that AWS Region.

*/ inline void SetKmsKeyId(const char* value) { m_kmsKeyIdHasBeenSet = true; m_kmsKeyId.assign(value); } /** *

The AWS KMS key identifier for an encrypted DB cluster.

The KMS key * identifier is the Amazon Resource Name (ARN) for the KMS encryption key. If you * are creating a DB cluster with the same AWS account that owns the KMS encryption * key used to encrypt the new DB cluster, then you can use the KMS key alias * instead of the ARN for the KMS encryption key.

If an encryption key isn't * specified in KmsKeyId:

  • If * ReplicationSourceIdentifier identifies an encrypted source, then * Amazon RDS will use the encryption key used to encrypt the source. Otherwise, * Amazon RDS will use your default encryption key.

  • If the * StorageEncrypted parameter is enabled and * ReplicationSourceIdentifier isn't specified, then Amazon RDS will * use your default encryption key.

AWS KMS creates the default * encryption key for your AWS account. Your AWS account has a different default * encryption key for each AWS Region.

If you create a read replica of an * encrypted DB cluster in another AWS Region, you must set KmsKeyId * to a KMS key ID that is valid in the destination AWS Region. This key is used to * encrypt the read replica in that AWS Region.

*/ inline CreateDBClusterRequest& WithKmsKeyId(const Aws::String& value) { SetKmsKeyId(value); return *this;} /** *

The AWS KMS key identifier for an encrypted DB cluster.

The KMS key * identifier is the Amazon Resource Name (ARN) for the KMS encryption key. If you * are creating a DB cluster with the same AWS account that owns the KMS encryption * key used to encrypt the new DB cluster, then you can use the KMS key alias * instead of the ARN for the KMS encryption key.

If an encryption key isn't * specified in KmsKeyId:

  • If * ReplicationSourceIdentifier identifies an encrypted source, then * Amazon RDS will use the encryption key used to encrypt the source. Otherwise, * Amazon RDS will use your default encryption key.

  • If the * StorageEncrypted parameter is enabled and * ReplicationSourceIdentifier isn't specified, then Amazon RDS will * use your default encryption key.

AWS KMS creates the default * encryption key for your AWS account. Your AWS account has a different default * encryption key for each AWS Region.

If you create a read replica of an * encrypted DB cluster in another AWS Region, you must set KmsKeyId * to a KMS key ID that is valid in the destination AWS Region. This key is used to * encrypt the read replica in that AWS Region.

*/ inline CreateDBClusterRequest& WithKmsKeyId(Aws::String&& value) { SetKmsKeyId(std::move(value)); return *this;} /** *

The AWS KMS key identifier for an encrypted DB cluster.

The KMS key * identifier is the Amazon Resource Name (ARN) for the KMS encryption key. If you * are creating a DB cluster with the same AWS account that owns the KMS encryption * key used to encrypt the new DB cluster, then you can use the KMS key alias * instead of the ARN for the KMS encryption key.

If an encryption key isn't * specified in KmsKeyId:

  • If * ReplicationSourceIdentifier identifies an encrypted source, then * Amazon RDS will use the encryption key used to encrypt the source. Otherwise, * Amazon RDS will use your default encryption key.

  • If the * StorageEncrypted parameter is enabled and * ReplicationSourceIdentifier isn't specified, then Amazon RDS will * use your default encryption key.

AWS KMS creates the default * encryption key for your AWS account. Your AWS account has a different default * encryption key for each AWS Region.

If you create a read replica of an * encrypted DB cluster in another AWS Region, you must set KmsKeyId * to a KMS key ID that is valid in the destination AWS Region. This key is used to * encrypt the read replica in that AWS Region.

*/ inline CreateDBClusterRequest& WithKmsKeyId(const char* value) { SetKmsKeyId(value); return *this;} /** *

A URL that contains a Signature Version 4 signed request for the * CreateDBCluster action to be called in the source AWS Region where * the DB cluster is replicated from. You only need to specify * PreSignedUrl when you are performing cross-region replication from * an encrypted DB cluster.

The pre-signed URL must be a valid request for * the CreateDBCluster API action that can be executed in the source * AWS Region that contains the encrypted DB cluster to be copied.

The * pre-signed URL request must contain the following parameter values:

    *

  • KmsKeyId - The AWS KMS key identifier for the key to use * to encrypt the copy of the DB cluster in the destination AWS Region. This should * refer to the same KMS key for both the CreateDBCluster action that * is called in the destination AWS Region, and the action contained in the * pre-signed URL.

  • DestinationRegion - The name of * the AWS Region that Aurora read replica will be created in.

  • * ReplicationSourceIdentifier - The DB cluster identifier for the * encrypted DB cluster to be copied. This identifier must be in the Amazon * Resource Name (ARN) format for the source AWS Region. For example, if you are * copying an encrypted DB cluster from the us-west-2 AWS Region, then your * ReplicationSourceIdentifier would look like Example: * arn:aws:rds:us-west-2:123456789012:cluster:aurora-cluster1.

    *

To learn how to generate a Signature Version 4 signed request, * see * Authenticating Requests: Using Query Parameters (AWS Signature Version 4) * and * Signature Version 4 Signing Process.

If you are using an AWS * SDK tool or the AWS CLI, you can specify SourceRegion (or * --source-region for the AWS CLI) instead of specifying * PreSignedUrl manually. Specifying SourceRegion * autogenerates a pre-signed URL that is a valid request for the operation that * can be executed in the source AWS Region.

*/ inline const Aws::String& GetPreSignedUrl() const{ return m_preSignedUrl; } /** *

A URL that contains a Signature Version 4 signed request for the * CreateDBCluster action to be called in the source AWS Region where * the DB cluster is replicated from. You only need to specify * PreSignedUrl when you are performing cross-region replication from * an encrypted DB cluster.

The pre-signed URL must be a valid request for * the CreateDBCluster API action that can be executed in the source * AWS Region that contains the encrypted DB cluster to be copied.

The * pre-signed URL request must contain the following parameter values:

    *

  • KmsKeyId - The AWS KMS key identifier for the key to use * to encrypt the copy of the DB cluster in the destination AWS Region. This should * refer to the same KMS key for both the CreateDBCluster action that * is called in the destination AWS Region, and the action contained in the * pre-signed URL.

  • DestinationRegion - The name of * the AWS Region that Aurora read replica will be created in.

  • * ReplicationSourceIdentifier - The DB cluster identifier for the * encrypted DB cluster to be copied. This identifier must be in the Amazon * Resource Name (ARN) format for the source AWS Region. For example, if you are * copying an encrypted DB cluster from the us-west-2 AWS Region, then your * ReplicationSourceIdentifier would look like Example: * arn:aws:rds:us-west-2:123456789012:cluster:aurora-cluster1.

    *

To learn how to generate a Signature Version 4 signed request, * see * Authenticating Requests: Using Query Parameters (AWS Signature Version 4) * and * Signature Version 4 Signing Process.

If you are using an AWS * SDK tool or the AWS CLI, you can specify SourceRegion (or * --source-region for the AWS CLI) instead of specifying * PreSignedUrl manually. Specifying SourceRegion * autogenerates a pre-signed URL that is a valid request for the operation that * can be executed in the source AWS Region.

*/ inline bool PreSignedUrlHasBeenSet() const { return m_preSignedUrlHasBeenSet; } /** *

A URL that contains a Signature Version 4 signed request for the * CreateDBCluster action to be called in the source AWS Region where * the DB cluster is replicated from. You only need to specify * PreSignedUrl when you are performing cross-region replication from * an encrypted DB cluster.

The pre-signed URL must be a valid request for * the CreateDBCluster API action that can be executed in the source * AWS Region that contains the encrypted DB cluster to be copied.

The * pre-signed URL request must contain the following parameter values:

    *

  • KmsKeyId - The AWS KMS key identifier for the key to use * to encrypt the copy of the DB cluster in the destination AWS Region. This should * refer to the same KMS key for both the CreateDBCluster action that * is called in the destination AWS Region, and the action contained in the * pre-signed URL.

  • DestinationRegion - The name of * the AWS Region that Aurora read replica will be created in.

  • * ReplicationSourceIdentifier - The DB cluster identifier for the * encrypted DB cluster to be copied. This identifier must be in the Amazon * Resource Name (ARN) format for the source AWS Region. For example, if you are * copying an encrypted DB cluster from the us-west-2 AWS Region, then your * ReplicationSourceIdentifier would look like Example: * arn:aws:rds:us-west-2:123456789012:cluster:aurora-cluster1.

    *

To learn how to generate a Signature Version 4 signed request, * see * Authenticating Requests: Using Query Parameters (AWS Signature Version 4) * and * Signature Version 4 Signing Process.

If you are using an AWS * SDK tool or the AWS CLI, you can specify SourceRegion (or * --source-region for the AWS CLI) instead of specifying * PreSignedUrl manually. Specifying SourceRegion * autogenerates a pre-signed URL that is a valid request for the operation that * can be executed in the source AWS Region.

*/ inline void SetPreSignedUrl(const Aws::String& value) { m_preSignedUrlHasBeenSet = true; m_preSignedUrl = value; } /** *

A URL that contains a Signature Version 4 signed request for the * CreateDBCluster action to be called in the source AWS Region where * the DB cluster is replicated from. You only need to specify * PreSignedUrl when you are performing cross-region replication from * an encrypted DB cluster.

The pre-signed URL must be a valid request for * the CreateDBCluster API action that can be executed in the source * AWS Region that contains the encrypted DB cluster to be copied.

The * pre-signed URL request must contain the following parameter values:

    *

  • KmsKeyId - The AWS KMS key identifier for the key to use * to encrypt the copy of the DB cluster in the destination AWS Region. This should * refer to the same KMS key for both the CreateDBCluster action that * is called in the destination AWS Region, and the action contained in the * pre-signed URL.

  • DestinationRegion - The name of * the AWS Region that Aurora read replica will be created in.

  • * ReplicationSourceIdentifier - The DB cluster identifier for the * encrypted DB cluster to be copied. This identifier must be in the Amazon * Resource Name (ARN) format for the source AWS Region. For example, if you are * copying an encrypted DB cluster from the us-west-2 AWS Region, then your * ReplicationSourceIdentifier would look like Example: * arn:aws:rds:us-west-2:123456789012:cluster:aurora-cluster1.

    *

To learn how to generate a Signature Version 4 signed request, * see * Authenticating Requests: Using Query Parameters (AWS Signature Version 4) * and * Signature Version 4 Signing Process.

If you are using an AWS * SDK tool or the AWS CLI, you can specify SourceRegion (or * --source-region for the AWS CLI) instead of specifying * PreSignedUrl manually. Specifying SourceRegion * autogenerates a pre-signed URL that is a valid request for the operation that * can be executed in the source AWS Region.

*/ inline void SetPreSignedUrl(Aws::String&& value) { m_preSignedUrlHasBeenSet = true; m_preSignedUrl = std::move(value); } /** *

A URL that contains a Signature Version 4 signed request for the * CreateDBCluster action to be called in the source AWS Region where * the DB cluster is replicated from. You only need to specify * PreSignedUrl when you are performing cross-region replication from * an encrypted DB cluster.

The pre-signed URL must be a valid request for * the CreateDBCluster API action that can be executed in the source * AWS Region that contains the encrypted DB cluster to be copied.

The * pre-signed URL request must contain the following parameter values:

    *

  • KmsKeyId - The AWS KMS key identifier for the key to use * to encrypt the copy of the DB cluster in the destination AWS Region. This should * refer to the same KMS key for both the CreateDBCluster action that * is called in the destination AWS Region, and the action contained in the * pre-signed URL.

  • DestinationRegion - The name of * the AWS Region that Aurora read replica will be created in.

  • * ReplicationSourceIdentifier - The DB cluster identifier for the * encrypted DB cluster to be copied. This identifier must be in the Amazon * Resource Name (ARN) format for the source AWS Region. For example, if you are * copying an encrypted DB cluster from the us-west-2 AWS Region, then your * ReplicationSourceIdentifier would look like Example: * arn:aws:rds:us-west-2:123456789012:cluster:aurora-cluster1.

    *

To learn how to generate a Signature Version 4 signed request, * see * Authenticating Requests: Using Query Parameters (AWS Signature Version 4) * and * Signature Version 4 Signing Process.

If you are using an AWS * SDK tool or the AWS CLI, you can specify SourceRegion (or * --source-region for the AWS CLI) instead of specifying * PreSignedUrl manually. Specifying SourceRegion * autogenerates a pre-signed URL that is a valid request for the operation that * can be executed in the source AWS Region.

*/ inline void SetPreSignedUrl(const char* value) { m_preSignedUrlHasBeenSet = true; m_preSignedUrl.assign(value); } /** *

A URL that contains a Signature Version 4 signed request for the * CreateDBCluster action to be called in the source AWS Region where * the DB cluster is replicated from. You only need to specify * PreSignedUrl when you are performing cross-region replication from * an encrypted DB cluster.

The pre-signed URL must be a valid request for * the CreateDBCluster API action that can be executed in the source * AWS Region that contains the encrypted DB cluster to be copied.

The * pre-signed URL request must contain the following parameter values:

    *

  • KmsKeyId - The AWS KMS key identifier for the key to use * to encrypt the copy of the DB cluster in the destination AWS Region. This should * refer to the same KMS key for both the CreateDBCluster action that * is called in the destination AWS Region, and the action contained in the * pre-signed URL.

  • DestinationRegion - The name of * the AWS Region that Aurora read replica will be created in.

  • * ReplicationSourceIdentifier - The DB cluster identifier for the * encrypted DB cluster to be copied. This identifier must be in the Amazon * Resource Name (ARN) format for the source AWS Region. For example, if you are * copying an encrypted DB cluster from the us-west-2 AWS Region, then your * ReplicationSourceIdentifier would look like Example: * arn:aws:rds:us-west-2:123456789012:cluster:aurora-cluster1.

    *

To learn how to generate a Signature Version 4 signed request, * see * Authenticating Requests: Using Query Parameters (AWS Signature Version 4) * and * Signature Version 4 Signing Process.

If you are using an AWS * SDK tool or the AWS CLI, you can specify SourceRegion (or * --source-region for the AWS CLI) instead of specifying * PreSignedUrl manually. Specifying SourceRegion * autogenerates a pre-signed URL that is a valid request for the operation that * can be executed in the source AWS Region.

*/ inline CreateDBClusterRequest& WithPreSignedUrl(const Aws::String& value) { SetPreSignedUrl(value); return *this;} /** *

A URL that contains a Signature Version 4 signed request for the * CreateDBCluster action to be called in the source AWS Region where * the DB cluster is replicated from. You only need to specify * PreSignedUrl when you are performing cross-region replication from * an encrypted DB cluster.

The pre-signed URL must be a valid request for * the CreateDBCluster API action that can be executed in the source * AWS Region that contains the encrypted DB cluster to be copied.

The * pre-signed URL request must contain the following parameter values:

    *

  • KmsKeyId - The AWS KMS key identifier for the key to use * to encrypt the copy of the DB cluster in the destination AWS Region. This should * refer to the same KMS key for both the CreateDBCluster action that * is called in the destination AWS Region, and the action contained in the * pre-signed URL.

  • DestinationRegion - The name of * the AWS Region that Aurora read replica will be created in.

  • * ReplicationSourceIdentifier - The DB cluster identifier for the * encrypted DB cluster to be copied. This identifier must be in the Amazon * Resource Name (ARN) format for the source AWS Region. For example, if you are * copying an encrypted DB cluster from the us-west-2 AWS Region, then your * ReplicationSourceIdentifier would look like Example: * arn:aws:rds:us-west-2:123456789012:cluster:aurora-cluster1.

    *

To learn how to generate a Signature Version 4 signed request, * see * Authenticating Requests: Using Query Parameters (AWS Signature Version 4) * and * Signature Version 4 Signing Process.

If you are using an AWS * SDK tool or the AWS CLI, you can specify SourceRegion (or * --source-region for the AWS CLI) instead of specifying * PreSignedUrl manually. Specifying SourceRegion * autogenerates a pre-signed URL that is a valid request for the operation that * can be executed in the source AWS Region.

*/ inline CreateDBClusterRequest& WithPreSignedUrl(Aws::String&& value) { SetPreSignedUrl(std::move(value)); return *this;} /** *

A URL that contains a Signature Version 4 signed request for the * CreateDBCluster action to be called in the source AWS Region where * the DB cluster is replicated from. You only need to specify * PreSignedUrl when you are performing cross-region replication from * an encrypted DB cluster.

The pre-signed URL must be a valid request for * the CreateDBCluster API action that can be executed in the source * AWS Region that contains the encrypted DB cluster to be copied.

The * pre-signed URL request must contain the following parameter values:

    *

  • KmsKeyId - The AWS KMS key identifier for the key to use * to encrypt the copy of the DB cluster in the destination AWS Region. This should * refer to the same KMS key for both the CreateDBCluster action that * is called in the destination AWS Region, and the action contained in the * pre-signed URL.

  • DestinationRegion - The name of * the AWS Region that Aurora read replica will be created in.

  • * ReplicationSourceIdentifier - The DB cluster identifier for the * encrypted DB cluster to be copied. This identifier must be in the Amazon * Resource Name (ARN) format for the source AWS Region. For example, if you are * copying an encrypted DB cluster from the us-west-2 AWS Region, then your * ReplicationSourceIdentifier would look like Example: * arn:aws:rds:us-west-2:123456789012:cluster:aurora-cluster1.

    *

To learn how to generate a Signature Version 4 signed request, * see * Authenticating Requests: Using Query Parameters (AWS Signature Version 4) * and * Signature Version 4 Signing Process.

If you are using an AWS * SDK tool or the AWS CLI, you can specify SourceRegion (or * --source-region for the AWS CLI) instead of specifying * PreSignedUrl manually. Specifying SourceRegion * autogenerates a pre-signed URL that is a valid request for the operation that * can be executed in the source AWS Region.

*/ inline CreateDBClusterRequest& WithPreSignedUrl(const char* value) { SetPreSignedUrl(value); return *this;} /** *

A value that indicates whether to enable mapping of AWS Identity and Access * Management (IAM) accounts to database accounts. By default, mapping is * disabled.

For more information, see * IAM Database Authentication in the Amazon Aurora User Guide.

*/ inline bool GetEnableIAMDatabaseAuthentication() const{ return m_enableIAMDatabaseAuthentication; } /** *

A value that indicates whether to enable mapping of AWS Identity and Access * Management (IAM) accounts to database accounts. By default, mapping is * disabled.

For more information, see * IAM Database Authentication in the Amazon Aurora User Guide.

*/ inline bool EnableIAMDatabaseAuthenticationHasBeenSet() const { return m_enableIAMDatabaseAuthenticationHasBeenSet; } /** *

A value that indicates whether to enable mapping of AWS Identity and Access * Management (IAM) accounts to database accounts. By default, mapping is * disabled.

For more information, see * IAM Database Authentication in the Amazon Aurora User Guide.

*/ inline void SetEnableIAMDatabaseAuthentication(bool value) { m_enableIAMDatabaseAuthenticationHasBeenSet = true; m_enableIAMDatabaseAuthentication = value; } /** *

A value that indicates whether to enable mapping of AWS Identity and Access * Management (IAM) accounts to database accounts. By default, mapping is * disabled.

For more information, see * IAM Database Authentication in the Amazon Aurora User Guide.

*/ inline CreateDBClusterRequest& WithEnableIAMDatabaseAuthentication(bool value) { SetEnableIAMDatabaseAuthentication(value); return *this;} /** *

The target backtrack window, in seconds. To disable backtracking, set this * value to 0.

Currently, Backtrack is only supported for Aurora * MySQL DB clusters.

Default: 0

Constraints:

  • *

    If specified, this value must be set to a number from 0 to 259,200 (72 * hours).

*/ inline long long GetBacktrackWindow() const{ return m_backtrackWindow; } /** *

The target backtrack window, in seconds. To disable backtracking, set this * value to 0.

Currently, Backtrack is only supported for Aurora * MySQL DB clusters.

Default: 0

Constraints:

  • *

    If specified, this value must be set to a number from 0 to 259,200 (72 * hours).

*/ inline bool BacktrackWindowHasBeenSet() const { return m_backtrackWindowHasBeenSet; } /** *

The target backtrack window, in seconds. To disable backtracking, set this * value to 0.

Currently, Backtrack is only supported for Aurora * MySQL DB clusters.

Default: 0

Constraints:

  • *

    If specified, this value must be set to a number from 0 to 259,200 (72 * hours).

*/ inline void SetBacktrackWindow(long long value) { m_backtrackWindowHasBeenSet = true; m_backtrackWindow = value; } /** *

The target backtrack window, in seconds. To disable backtracking, set this * value to 0.

Currently, Backtrack is only supported for Aurora * MySQL DB clusters.

Default: 0

Constraints:

  • *

    If specified, this value must be set to a number from 0 to 259,200 (72 * hours).

*/ inline CreateDBClusterRequest& WithBacktrackWindow(long long value) { SetBacktrackWindow(value); return *this;} /** *

The list of log types that need to be enabled for exporting to CloudWatch * Logs. The values in the list depend on the DB engine being used. For more * information, see Publishing * Database Logs to Amazon CloudWatch Logs in the Amazon Aurora User * Guide.

*/ inline const Aws::Vector& GetEnableCloudwatchLogsExports() const{ return m_enableCloudwatchLogsExports; } /** *

The list of log types that need to be enabled for exporting to CloudWatch * Logs. The values in the list depend on the DB engine being used. For more * information, see Publishing * Database Logs to Amazon CloudWatch Logs in the Amazon Aurora User * Guide.

*/ inline bool EnableCloudwatchLogsExportsHasBeenSet() const { return m_enableCloudwatchLogsExportsHasBeenSet; } /** *

The list of log types that need to be enabled for exporting to CloudWatch * Logs. The values in the list depend on the DB engine being used. For more * information, see Publishing * Database Logs to Amazon CloudWatch Logs in the Amazon Aurora User * Guide.

*/ inline void SetEnableCloudwatchLogsExports(const Aws::Vector& value) { m_enableCloudwatchLogsExportsHasBeenSet = true; m_enableCloudwatchLogsExports = value; } /** *

The list of log types that need to be enabled for exporting to CloudWatch * Logs. The values in the list depend on the DB engine being used. For more * information, see Publishing * Database Logs to Amazon CloudWatch Logs in the Amazon Aurora User * Guide.

*/ inline void SetEnableCloudwatchLogsExports(Aws::Vector&& value) { m_enableCloudwatchLogsExportsHasBeenSet = true; m_enableCloudwatchLogsExports = std::move(value); } /** *

The list of log types that need to be enabled for exporting to CloudWatch * Logs. The values in the list depend on the DB engine being used. For more * information, see Publishing * Database Logs to Amazon CloudWatch Logs in the Amazon Aurora User * Guide.

*/ inline CreateDBClusterRequest& WithEnableCloudwatchLogsExports(const Aws::Vector& value) { SetEnableCloudwatchLogsExports(value); return *this;} /** *

The list of log types that need to be enabled for exporting to CloudWatch * Logs. The values in the list depend on the DB engine being used. For more * information, see Publishing * Database Logs to Amazon CloudWatch Logs in the Amazon Aurora User * Guide.

*/ inline CreateDBClusterRequest& WithEnableCloudwatchLogsExports(Aws::Vector&& value) { SetEnableCloudwatchLogsExports(std::move(value)); return *this;} /** *

The list of log types that need to be enabled for exporting to CloudWatch * Logs. The values in the list depend on the DB engine being used. For more * information, see Publishing * Database Logs to Amazon CloudWatch Logs in the Amazon Aurora User * Guide.

*/ inline CreateDBClusterRequest& AddEnableCloudwatchLogsExports(const Aws::String& value) { m_enableCloudwatchLogsExportsHasBeenSet = true; m_enableCloudwatchLogsExports.push_back(value); return *this; } /** *

The list of log types that need to be enabled for exporting to CloudWatch * Logs. The values in the list depend on the DB engine being used. For more * information, see Publishing * Database Logs to Amazon CloudWatch Logs in the Amazon Aurora User * Guide.

*/ inline CreateDBClusterRequest& AddEnableCloudwatchLogsExports(Aws::String&& value) { m_enableCloudwatchLogsExportsHasBeenSet = true; m_enableCloudwatchLogsExports.push_back(std::move(value)); return *this; } /** *

The list of log types that need to be enabled for exporting to CloudWatch * Logs. The values in the list depend on the DB engine being used. For more * information, see Publishing * Database Logs to Amazon CloudWatch Logs in the Amazon Aurora User * Guide.

*/ inline CreateDBClusterRequest& AddEnableCloudwatchLogsExports(const char* value) { m_enableCloudwatchLogsExportsHasBeenSet = true; m_enableCloudwatchLogsExports.push_back(value); return *this; } /** *

The DB engine mode of the DB cluster, either provisioned, * serverless, parallelquery, global, or * multimaster.

global engine mode only * applies for global database clusters created with Aurora MySQL version 5.6.10a. * For higher Aurora MySQL versions, the clusters in a global database use * provisioned engine mode.

Limitations and * requirements apply to some DB engine modes. For more information, see the * following sections in the Amazon Aurora User Guide:

*/ inline const Aws::String& GetEngineMode() const{ return m_engineMode; } /** *

The DB engine mode of the DB cluster, either provisioned, * serverless, parallelquery, global, or * multimaster.

global engine mode only * applies for global database clusters created with Aurora MySQL version 5.6.10a. * For higher Aurora MySQL versions, the clusters in a global database use * provisioned engine mode.

Limitations and * requirements apply to some DB engine modes. For more information, see the * following sections in the Amazon Aurora User Guide:

*/ inline bool EngineModeHasBeenSet() const { return m_engineModeHasBeenSet; } /** *

The DB engine mode of the DB cluster, either provisioned, * serverless, parallelquery, global, or * multimaster.

global engine mode only * applies for global database clusters created with Aurora MySQL version 5.6.10a. * For higher Aurora MySQL versions, the clusters in a global database use * provisioned engine mode.

Limitations and * requirements apply to some DB engine modes. For more information, see the * following sections in the Amazon Aurora User Guide:

*/ inline void SetEngineMode(const Aws::String& value) { m_engineModeHasBeenSet = true; m_engineMode = value; } /** *

The DB engine mode of the DB cluster, either provisioned, * serverless, parallelquery, global, or * multimaster.

global engine mode only * applies for global database clusters created with Aurora MySQL version 5.6.10a. * For higher Aurora MySQL versions, the clusters in a global database use * provisioned engine mode.

Limitations and * requirements apply to some DB engine modes. For more information, see the * following sections in the Amazon Aurora User Guide:

*/ inline void SetEngineMode(Aws::String&& value) { m_engineModeHasBeenSet = true; m_engineMode = std::move(value); } /** *

The DB engine mode of the DB cluster, either provisioned, * serverless, parallelquery, global, or * multimaster.

global engine mode only * applies for global database clusters created with Aurora MySQL version 5.6.10a. * For higher Aurora MySQL versions, the clusters in a global database use * provisioned engine mode.

Limitations and * requirements apply to some DB engine modes. For more information, see the * following sections in the Amazon Aurora User Guide:

*/ inline void SetEngineMode(const char* value) { m_engineModeHasBeenSet = true; m_engineMode.assign(value); } /** *

The DB engine mode of the DB cluster, either provisioned, * serverless, parallelquery, global, or * multimaster.

global engine mode only * applies for global database clusters created with Aurora MySQL version 5.6.10a. * For higher Aurora MySQL versions, the clusters in a global database use * provisioned engine mode.

Limitations and * requirements apply to some DB engine modes. For more information, see the * following sections in the Amazon Aurora User Guide:

*/ inline CreateDBClusterRequest& WithEngineMode(const Aws::String& value) { SetEngineMode(value); return *this;} /** *

The DB engine mode of the DB cluster, either provisioned, * serverless, parallelquery, global, or * multimaster.

global engine mode only * applies for global database clusters created with Aurora MySQL version 5.6.10a. * For higher Aurora MySQL versions, the clusters in a global database use * provisioned engine mode.

Limitations and * requirements apply to some DB engine modes. For more information, see the * following sections in the Amazon Aurora User Guide:

*/ inline CreateDBClusterRequest& WithEngineMode(Aws::String&& value) { SetEngineMode(std::move(value)); return *this;} /** *

The DB engine mode of the DB cluster, either provisioned, * serverless, parallelquery, global, or * multimaster.

global engine mode only * applies for global database clusters created with Aurora MySQL version 5.6.10a. * For higher Aurora MySQL versions, the clusters in a global database use * provisioned engine mode.

Limitations and * requirements apply to some DB engine modes. For more information, see the * following sections in the Amazon Aurora User Guide:

*/ inline CreateDBClusterRequest& WithEngineMode(const char* value) { SetEngineMode(value); return *this;} /** *

For DB clusters in serverless DB engine mode, the scaling * properties of the DB cluster.

*/ inline const ScalingConfiguration& GetScalingConfiguration() const{ return m_scalingConfiguration; } /** *

For DB clusters in serverless DB engine mode, the scaling * properties of the DB cluster.

*/ inline bool ScalingConfigurationHasBeenSet() const { return m_scalingConfigurationHasBeenSet; } /** *

For DB clusters in serverless DB engine mode, the scaling * properties of the DB cluster.

*/ inline void SetScalingConfiguration(const ScalingConfiguration& value) { m_scalingConfigurationHasBeenSet = true; m_scalingConfiguration = value; } /** *

For DB clusters in serverless DB engine mode, the scaling * properties of the DB cluster.

*/ inline void SetScalingConfiguration(ScalingConfiguration&& value) { m_scalingConfigurationHasBeenSet = true; m_scalingConfiguration = std::move(value); } /** *

For DB clusters in serverless DB engine mode, the scaling * properties of the DB cluster.

*/ inline CreateDBClusterRequest& WithScalingConfiguration(const ScalingConfiguration& value) { SetScalingConfiguration(value); return *this;} /** *

For DB clusters in serverless DB engine mode, the scaling * properties of the DB cluster.

*/ inline CreateDBClusterRequest& WithScalingConfiguration(ScalingConfiguration&& value) { SetScalingConfiguration(std::move(value)); return *this;} /** *

A value that indicates whether the DB cluster has deletion protection * enabled. The database can't be deleted when deletion protection is enabled. By * default, deletion protection is disabled.

*/ inline bool GetDeletionProtection() const{ return m_deletionProtection; } /** *

A value that indicates whether the DB cluster has deletion protection * enabled. The database can't be deleted when deletion protection is enabled. By * default, deletion protection is disabled.

*/ inline bool DeletionProtectionHasBeenSet() const { return m_deletionProtectionHasBeenSet; } /** *

A value that indicates whether the DB cluster has deletion protection * enabled. The database can't be deleted when deletion protection is enabled. By * default, deletion protection is disabled.

*/ inline void SetDeletionProtection(bool value) { m_deletionProtectionHasBeenSet = true; m_deletionProtection = value; } /** *

A value that indicates whether the DB cluster has deletion protection * enabled. The database can't be deleted when deletion protection is enabled. By * default, deletion protection is disabled.

*/ inline CreateDBClusterRequest& WithDeletionProtection(bool value) { SetDeletionProtection(value); return *this;} /** *

The global cluster ID of an Aurora cluster that becomes the primary cluster * in the new global database cluster.

*/ inline const Aws::String& GetGlobalClusterIdentifier() const{ return m_globalClusterIdentifier; } /** *

The global cluster ID of an Aurora cluster that becomes the primary cluster * in the new global database cluster.

*/ inline bool GlobalClusterIdentifierHasBeenSet() const { return m_globalClusterIdentifierHasBeenSet; } /** *

The global cluster ID of an Aurora cluster that becomes the primary cluster * in the new global database cluster.

*/ inline void SetGlobalClusterIdentifier(const Aws::String& value) { m_globalClusterIdentifierHasBeenSet = true; m_globalClusterIdentifier = value; } /** *

The global cluster ID of an Aurora cluster that becomes the primary cluster * in the new global database cluster.

*/ inline void SetGlobalClusterIdentifier(Aws::String&& value) { m_globalClusterIdentifierHasBeenSet = true; m_globalClusterIdentifier = std::move(value); } /** *

The global cluster ID of an Aurora cluster that becomes the primary cluster * in the new global database cluster.

*/ inline void SetGlobalClusterIdentifier(const char* value) { m_globalClusterIdentifierHasBeenSet = true; m_globalClusterIdentifier.assign(value); } /** *

The global cluster ID of an Aurora cluster that becomes the primary cluster * in the new global database cluster.

*/ inline CreateDBClusterRequest& WithGlobalClusterIdentifier(const Aws::String& value) { SetGlobalClusterIdentifier(value); return *this;} /** *

The global cluster ID of an Aurora cluster that becomes the primary cluster * in the new global database cluster.

*/ inline CreateDBClusterRequest& WithGlobalClusterIdentifier(Aws::String&& value) { SetGlobalClusterIdentifier(std::move(value)); return *this;} /** *

The global cluster ID of an Aurora cluster that becomes the primary cluster * in the new global database cluster.

*/ inline CreateDBClusterRequest& WithGlobalClusterIdentifier(const char* value) { SetGlobalClusterIdentifier(value); return *this;} /** *

A value that indicates whether to enable the HTTP endpoint for an Aurora * Serverless DB cluster. By default, the HTTP endpoint is disabled.

When * enabled, the HTTP endpoint provides a connectionless web service API for running * SQL queries on the Aurora Serverless DB cluster. You can also query your * database from inside the RDS console with the query editor.

For more * information, see Using * the Data API for Aurora Serverless in the Amazon Aurora User * Guide.

*/ inline bool GetEnableHttpEndpoint() const{ return m_enableHttpEndpoint; } /** *

A value that indicates whether to enable the HTTP endpoint for an Aurora * Serverless DB cluster. By default, the HTTP endpoint is disabled.

When * enabled, the HTTP endpoint provides a connectionless web service API for running * SQL queries on the Aurora Serverless DB cluster. You can also query your * database from inside the RDS console with the query editor.

For more * information, see Using * the Data API for Aurora Serverless in the Amazon Aurora User * Guide.

*/ inline bool EnableHttpEndpointHasBeenSet() const { return m_enableHttpEndpointHasBeenSet; } /** *

A value that indicates whether to enable the HTTP endpoint for an Aurora * Serverless DB cluster. By default, the HTTP endpoint is disabled.

When * enabled, the HTTP endpoint provides a connectionless web service API for running * SQL queries on the Aurora Serverless DB cluster. You can also query your * database from inside the RDS console with the query editor.

For more * information, see Using * the Data API for Aurora Serverless in the Amazon Aurora User * Guide.

*/ inline void SetEnableHttpEndpoint(bool value) { m_enableHttpEndpointHasBeenSet = true; m_enableHttpEndpoint = value; } /** *

A value that indicates whether to enable the HTTP endpoint for an Aurora * Serverless DB cluster. By default, the HTTP endpoint is disabled.

When * enabled, the HTTP endpoint provides a connectionless web service API for running * SQL queries on the Aurora Serverless DB cluster. You can also query your * database from inside the RDS console with the query editor.

For more * information, see Using * the Data API for Aurora Serverless in the Amazon Aurora User * Guide.

*/ inline CreateDBClusterRequest& WithEnableHttpEndpoint(bool value) { SetEnableHttpEndpoint(value); return *this;} /** *

A value that indicates whether to copy all tags from the DB cluster to * snapshots of the DB cluster. The default is not to copy them.

*/ inline bool GetCopyTagsToSnapshot() const{ return m_copyTagsToSnapshot; } /** *

A value that indicates whether to copy all tags from the DB cluster to * snapshots of the DB cluster. The default is not to copy them.

*/ inline bool CopyTagsToSnapshotHasBeenSet() const { return m_copyTagsToSnapshotHasBeenSet; } /** *

A value that indicates whether to copy all tags from the DB cluster to * snapshots of the DB cluster. The default is not to copy them.

*/ inline void SetCopyTagsToSnapshot(bool value) { m_copyTagsToSnapshotHasBeenSet = true; m_copyTagsToSnapshot = value; } /** *

A value that indicates whether to copy all tags from the DB cluster to * snapshots of the DB cluster. The default is not to copy them.

*/ inline CreateDBClusterRequest& WithCopyTagsToSnapshot(bool value) { SetCopyTagsToSnapshot(value); return *this;} /** *

The Active Directory directory ID to create the DB cluster in.

For * Amazon Aurora DB clusters, Amazon RDS can use Kerberos Authentication to * authenticate users that connect to the DB cluster. For more information, see Kerberos * Authentication in the Amazon Aurora User Guide.

*/ inline const Aws::String& GetDomain() const{ return m_domain; } /** *

The Active Directory directory ID to create the DB cluster in.

For * Amazon Aurora DB clusters, Amazon RDS can use Kerberos Authentication to * authenticate users that connect to the DB cluster. For more information, see Kerberos * Authentication in the Amazon Aurora User Guide.

*/ inline bool DomainHasBeenSet() const { return m_domainHasBeenSet; } /** *

The Active Directory directory ID to create the DB cluster in.

For * Amazon Aurora DB clusters, Amazon RDS can use Kerberos Authentication to * authenticate users that connect to the DB cluster. For more information, see Kerberos * Authentication in the Amazon Aurora User Guide.

*/ inline void SetDomain(const Aws::String& value) { m_domainHasBeenSet = true; m_domain = value; } /** *

The Active Directory directory ID to create the DB cluster in.

For * Amazon Aurora DB clusters, Amazon RDS can use Kerberos Authentication to * authenticate users that connect to the DB cluster. For more information, see Kerberos * Authentication in the Amazon Aurora User Guide.

*/ inline void SetDomain(Aws::String&& value) { m_domainHasBeenSet = true; m_domain = std::move(value); } /** *

The Active Directory directory ID to create the DB cluster in.

For * Amazon Aurora DB clusters, Amazon RDS can use Kerberos Authentication to * authenticate users that connect to the DB cluster. For more information, see Kerberos * Authentication in the Amazon Aurora User Guide.

*/ inline void SetDomain(const char* value) { m_domainHasBeenSet = true; m_domain.assign(value); } /** *

The Active Directory directory ID to create the DB cluster in.

For * Amazon Aurora DB clusters, Amazon RDS can use Kerberos Authentication to * authenticate users that connect to the DB cluster. For more information, see Kerberos * Authentication in the Amazon Aurora User Guide.

*/ inline CreateDBClusterRequest& WithDomain(const Aws::String& value) { SetDomain(value); return *this;} /** *

The Active Directory directory ID to create the DB cluster in.

For * Amazon Aurora DB clusters, Amazon RDS can use Kerberos Authentication to * authenticate users that connect to the DB cluster. For more information, see Kerberos * Authentication in the Amazon Aurora User Guide.

*/ inline CreateDBClusterRequest& WithDomain(Aws::String&& value) { SetDomain(std::move(value)); return *this;} /** *

The Active Directory directory ID to create the DB cluster in.

For * Amazon Aurora DB clusters, Amazon RDS can use Kerberos Authentication to * authenticate users that connect to the DB cluster. For more information, see Kerberos * Authentication in the Amazon Aurora User Guide.

*/ inline CreateDBClusterRequest& WithDomain(const char* value) { SetDomain(value); return *this;} /** *

Specify the name of the IAM role to be used when making API calls to the * Directory Service.

*/ inline const Aws::String& GetDomainIAMRoleName() const{ return m_domainIAMRoleName; } /** *

Specify the name of the IAM role to be used when making API calls to the * Directory Service.

*/ inline bool DomainIAMRoleNameHasBeenSet() const { return m_domainIAMRoleNameHasBeenSet; } /** *

Specify the name of the IAM role to be used when making API calls to the * Directory Service.

*/ inline void SetDomainIAMRoleName(const Aws::String& value) { m_domainIAMRoleNameHasBeenSet = true; m_domainIAMRoleName = value; } /** *

Specify the name of the IAM role to be used when making API calls to the * Directory Service.

*/ inline void SetDomainIAMRoleName(Aws::String&& value) { m_domainIAMRoleNameHasBeenSet = true; m_domainIAMRoleName = std::move(value); } /** *

Specify the name of the IAM role to be used when making API calls to the * Directory Service.

*/ inline void SetDomainIAMRoleName(const char* value) { m_domainIAMRoleNameHasBeenSet = true; m_domainIAMRoleName.assign(value); } /** *

Specify the name of the IAM role to be used when making API calls to the * Directory Service.

*/ inline CreateDBClusterRequest& WithDomainIAMRoleName(const Aws::String& value) { SetDomainIAMRoleName(value); return *this;} /** *

Specify the name of the IAM role to be used when making API calls to the * Directory Service.

*/ inline CreateDBClusterRequest& WithDomainIAMRoleName(Aws::String&& value) { SetDomainIAMRoleName(std::move(value)); return *this;} /** *

Specify the name of the IAM role to be used when making API calls to the * Directory Service.

*/ inline CreateDBClusterRequest& WithDomainIAMRoleName(const char* value) { SetDomainIAMRoleName(value); return *this;} /** *

A value that indicates whether to enable write operations to be forwarded * from this cluster to the primary cluster in an Aurora global database. The * resulting changes are replicated back to this cluster. This parameter only * applies to DB clusters that are secondary clusters in an Aurora global database. * By default, Aurora disallows write operations for secondary clusters.

*/ inline bool GetEnableGlobalWriteForwarding() const{ return m_enableGlobalWriteForwarding; } /** *

A value that indicates whether to enable write operations to be forwarded * from this cluster to the primary cluster in an Aurora global database. The * resulting changes are replicated back to this cluster. This parameter only * applies to DB clusters that are secondary clusters in an Aurora global database. * By default, Aurora disallows write operations for secondary clusters.

*/ inline bool EnableGlobalWriteForwardingHasBeenSet() const { return m_enableGlobalWriteForwardingHasBeenSet; } /** *

A value that indicates whether to enable write operations to be forwarded * from this cluster to the primary cluster in an Aurora global database. The * resulting changes are replicated back to this cluster. This parameter only * applies to DB clusters that are secondary clusters in an Aurora global database. * By default, Aurora disallows write operations for secondary clusters.

*/ inline void SetEnableGlobalWriteForwarding(bool value) { m_enableGlobalWriteForwardingHasBeenSet = true; m_enableGlobalWriteForwarding = value; } /** *

A value that indicates whether to enable write operations to be forwarded * from this cluster to the primary cluster in an Aurora global database. The * resulting changes are replicated back to this cluster. This parameter only * applies to DB clusters that are secondary clusters in an Aurora global database. * By default, Aurora disallows write operations for secondary clusters.

*/ inline CreateDBClusterRequest& WithEnableGlobalWriteForwarding(bool value) { SetEnableGlobalWriteForwarding(value); return *this;} private: Aws::Vector m_availabilityZones; bool m_availabilityZonesHasBeenSet; int m_backupRetentionPeriod; bool m_backupRetentionPeriodHasBeenSet; Aws::String m_characterSetName; bool m_characterSetNameHasBeenSet; Aws::String m_databaseName; bool m_databaseNameHasBeenSet; Aws::String m_dBClusterIdentifier; bool m_dBClusterIdentifierHasBeenSet; Aws::String m_dBClusterParameterGroupName; bool m_dBClusterParameterGroupNameHasBeenSet; Aws::Vector m_vpcSecurityGroupIds; bool m_vpcSecurityGroupIdsHasBeenSet; Aws::String m_dBSubnetGroupName; bool m_dBSubnetGroupNameHasBeenSet; Aws::String m_engine; bool m_engineHasBeenSet; Aws::String m_engineVersion; bool m_engineVersionHasBeenSet; int m_port; bool m_portHasBeenSet; Aws::String m_masterUsername; bool m_masterUsernameHasBeenSet; Aws::String m_masterUserPassword; bool m_masterUserPasswordHasBeenSet; Aws::String m_optionGroupName; bool m_optionGroupNameHasBeenSet; Aws::String m_preferredBackupWindow; bool m_preferredBackupWindowHasBeenSet; Aws::String m_preferredMaintenanceWindow; bool m_preferredMaintenanceWindowHasBeenSet; Aws::String m_replicationSourceIdentifier; bool m_replicationSourceIdentifierHasBeenSet; Aws::Vector m_tags; bool m_tagsHasBeenSet; bool m_storageEncrypted; bool m_storageEncryptedHasBeenSet; Aws::String m_kmsKeyId; bool m_kmsKeyIdHasBeenSet; Aws::String m_preSignedUrl; bool m_preSignedUrlHasBeenSet; bool m_enableIAMDatabaseAuthentication; bool m_enableIAMDatabaseAuthenticationHasBeenSet; long long m_backtrackWindow; bool m_backtrackWindowHasBeenSet; Aws::Vector m_enableCloudwatchLogsExports; bool m_enableCloudwatchLogsExportsHasBeenSet; Aws::String m_engineMode; bool m_engineModeHasBeenSet; ScalingConfiguration m_scalingConfiguration; bool m_scalingConfigurationHasBeenSet; bool m_deletionProtection; bool m_deletionProtectionHasBeenSet; Aws::String m_globalClusterIdentifier; bool m_globalClusterIdentifierHasBeenSet; bool m_enableHttpEndpoint; bool m_enableHttpEndpointHasBeenSet; bool m_copyTagsToSnapshot; bool m_copyTagsToSnapshotHasBeenSet; Aws::String m_domain; bool m_domainHasBeenSet; Aws::String m_domainIAMRoleName; bool m_domainIAMRoleNameHasBeenSet; bool m_enableGlobalWriteForwarding; bool m_enableGlobalWriteForwardingHasBeenSet; }; } // namespace Model } // namespace RDS } // namespace Aws