AWS v6.71.0, Mar 7 25

AWS v6.71.0 published on Friday, Mar 7, 2025 by Pulumi

aws.rds.GlobalCluster

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AWS v6.71.0 published on Friday, Mar 7, 2025 by Pulumi

Manages an RDS Global Cluster, which is an Aurora global database spread across multiple regions. The global database contains a single primary cluster with read-write capability, and a read-only secondary cluster that receives data from the primary cluster through high-speed replication performed by the Aurora storage subsystem.

More information about Aurora global databases can be found in the Aurora User Guide.

Example Usage

New MySQL Global Cluster

import * as pulumi from "@pulumi/pulumi";
import * as aws from "@pulumi/aws";

const example = new aws.rds.GlobalCluster("example", {
    globalClusterIdentifier: "global-test",
    engine: "aurora",
    engineVersion: "5.6.mysql_aurora.1.22.2",
    databaseName: "example_db",
});
const primary = new aws.rds.Cluster("primary", {
    engine: example.engine,
    engineVersion: example.engineVersion,
    clusterIdentifier: "test-primary-cluster",
    masterUsername: "username",
    masterPassword: "somepass123",
    databaseName: "example_db",
    globalClusterIdentifier: example.id,
    dbSubnetGroupName: "default",
});
const primaryClusterInstance = new aws.rds.ClusterInstance("primary", {
    engine: example.engine,
    engineVersion: example.engineVersion,
    identifier: "test-primary-cluster-instance",
    clusterIdentifier: primary.id,
    instanceClass: aws.rds.InstanceType.R4_Large,
    dbSubnetGroupName: "default",
});
const secondary = new aws.rds.Cluster("secondary", {
    engine: example.engine,
    engineVersion: example.engineVersion,
    clusterIdentifier: "test-secondary-cluster",
    globalClusterIdentifier: example.id,
    dbSubnetGroupName: "default",
}, {
    dependsOn: [primaryClusterInstance],
});
const secondaryClusterInstance = new aws.rds.ClusterInstance("secondary", {
    engine: example.engine,
    engineVersion: example.engineVersion,
    identifier: "test-secondary-cluster-instance",
    clusterIdentifier: secondary.id,
    instanceClass: aws.rds.InstanceType.R4_Large,
    dbSubnetGroupName: "default",
});

import pulumi
import pulumi_aws as aws

example = aws.rds.GlobalCluster("example",
    global_cluster_identifier="global-test",
    engine="aurora",
    engine_version="5.6.mysql_aurora.1.22.2",
    database_name="example_db")
primary = aws.rds.Cluster("primary",
    engine=example.engine,
    engine_version=example.engine_version,
    cluster_identifier="test-primary-cluster",
    master_username="username",
    master_password="somepass123",
    database_name="example_db",
    global_cluster_identifier=example.id,
    db_subnet_group_name="default")
primary_cluster_instance = aws.rds.ClusterInstance("primary",
    engine=example.engine,
    engine_version=example.engine_version,
    identifier="test-primary-cluster-instance",
    cluster_identifier=primary.id,
    instance_class=aws.rds.InstanceType.R4_LARGE,
    db_subnet_group_name="default")
secondary = aws.rds.Cluster("secondary",
    engine=example.engine,
    engine_version=example.engine_version,
    cluster_identifier="test-secondary-cluster",
    global_cluster_identifier=example.id,
    db_subnet_group_name="default",
    opts = pulumi.ResourceOptions(depends_on=[primary_cluster_instance]))
secondary_cluster_instance = aws.rds.ClusterInstance("secondary",
    engine=example.engine,
    engine_version=example.engine_version,
    identifier="test-secondary-cluster-instance",
    cluster_identifier=secondary.id,
    instance_class=aws.rds.InstanceType.R4_LARGE,
    db_subnet_group_name="default")

package main

import (
	"github.com/pulumi/pulumi-aws/sdk/v6/go/aws/rds"
	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		example, err := rds.NewGlobalCluster(ctx, "example", &rds.GlobalClusterArgs{
			GlobalClusterIdentifier: pulumi.String("global-test"),
			Engine:                  pulumi.String("aurora"),
			EngineVersion:           pulumi.String("5.6.mysql_aurora.1.22.2"),
			DatabaseName:            pulumi.String("example_db"),
		})
		if err != nil {
			return err
		}
		primary, err := rds.NewCluster(ctx, "primary", &rds.ClusterArgs{
			Engine:                  example.Engine,
			EngineVersion:           example.EngineVersion,
			ClusterIdentifier:       pulumi.String("test-primary-cluster"),
			MasterUsername:          pulumi.String("username"),
			MasterPassword:          pulumi.String("somepass123"),
			DatabaseName:            pulumi.String("example_db"),
			GlobalClusterIdentifier: example.ID(),
			DbSubnetGroupName:       pulumi.String("default"),
		})
		if err != nil {
			return err
		}
		primaryClusterInstance, err := rds.NewClusterInstance(ctx, "primary", &rds.ClusterInstanceArgs{
			Engine:            example.Engine,
			EngineVersion:     example.EngineVersion,
			Identifier:        pulumi.String("test-primary-cluster-instance"),
			ClusterIdentifier: primary.ID(),
			InstanceClass:     pulumi.String(rds.InstanceType_R4_Large),
			DbSubnetGroupName: pulumi.String("default"),
		})
		if err != nil {
			return err
		}
		secondary, err := rds.NewCluster(ctx, "secondary", &rds.ClusterArgs{
			Engine:                  example.Engine,
			EngineVersion:           example.EngineVersion,
			ClusterIdentifier:       pulumi.String("test-secondary-cluster"),
			GlobalClusterIdentifier: example.ID(),
			DbSubnetGroupName:       pulumi.String("default"),
		}, pulumi.DependsOn([]pulumi.Resource{
			primaryClusterInstance,
		}))
		if err != nil {
			return err
		}
		_, err = rds.NewClusterInstance(ctx, "secondary", &rds.ClusterInstanceArgs{
			Engine:            example.Engine,
			EngineVersion:     example.EngineVersion,
			Identifier:        pulumi.String("test-secondary-cluster-instance"),
			ClusterIdentifier: secondary.ID(),
			InstanceClass:     pulumi.String(rds.InstanceType_R4_Large),
			DbSubnetGroupName: pulumi.String("default"),
		})
		if err != nil {
			return err
		}
		return nil
	})
}

using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Aws = Pulumi.Aws;

return await Deployment.RunAsync(() => 
{
    var example = new Aws.Rds.GlobalCluster("example", new()
    {
        GlobalClusterIdentifier = "global-test",
        Engine = "aurora",
        EngineVersion = "5.6.mysql_aurora.1.22.2",
        DatabaseName = "example_db",
    });

    var primary = new Aws.Rds.Cluster("primary", new()
    {
        Engine = example.Engine,
        EngineVersion = example.EngineVersion,
        ClusterIdentifier = "test-primary-cluster",
        MasterUsername = "username",
        MasterPassword = "somepass123",
        DatabaseName = "example_db",
        GlobalClusterIdentifier = example.Id,
        DbSubnetGroupName = "default",
    });

    var primaryClusterInstance = new Aws.Rds.ClusterInstance("primary", new()
    {
        Engine = example.Engine,
        EngineVersion = example.EngineVersion,
        Identifier = "test-primary-cluster-instance",
        ClusterIdentifier = primary.Id,
        InstanceClass = Aws.Rds.InstanceType.R4_Large,
        DbSubnetGroupName = "default",
    });

    var secondary = new Aws.Rds.Cluster("secondary", new()
    {
        Engine = example.Engine,
        EngineVersion = example.EngineVersion,
        ClusterIdentifier = "test-secondary-cluster",
        GlobalClusterIdentifier = example.Id,
        DbSubnetGroupName = "default",
    }, new CustomResourceOptions
    {
        DependsOn =
        {
            primaryClusterInstance,
        },
    });

    var secondaryClusterInstance = new Aws.Rds.ClusterInstance("secondary", new()
    {
        Engine = example.Engine,
        EngineVersion = example.EngineVersion,
        Identifier = "test-secondary-cluster-instance",
        ClusterIdentifier = secondary.Id,
        InstanceClass = Aws.Rds.InstanceType.R4_Large,
        DbSubnetGroupName = "default",
    });

});

package generated_program;

import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.aws.rds.GlobalCluster;
import com.pulumi.aws.rds.GlobalClusterArgs;
import com.pulumi.aws.rds.Cluster;
import com.pulumi.aws.rds.ClusterArgs;
import com.pulumi.aws.rds.ClusterInstance;
import com.pulumi.aws.rds.ClusterInstanceArgs;
import com.pulumi.resources.CustomResourceOptions;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;

public class App {
    public static void main(String[] args) {
        Pulumi.run(App::stack);
    }

    public static void stack(Context ctx) {
        var example = new GlobalCluster("example", GlobalClusterArgs.builder()
            .globalClusterIdentifier("global-test")
            .engine("aurora")
            .engineVersion("5.6.mysql_aurora.1.22.2")
            .databaseName("example_db")
            .build());

        var primary = new Cluster("primary", ClusterArgs.builder()
            .engine(example.engine())
            .engineVersion(example.engineVersion())
            .clusterIdentifier("test-primary-cluster")
            .masterUsername("username")
            .masterPassword("somepass123")
            .databaseName("example_db")
            .globalClusterIdentifier(example.id())
            .dbSubnetGroupName("default")
            .build());

        var primaryClusterInstance = new ClusterInstance("primaryClusterInstance", ClusterInstanceArgs.builder()
            .engine(example.engine())
            .engineVersion(example.engineVersion())
            .identifier("test-primary-cluster-instance")
            .clusterIdentifier(primary.id())
            .instanceClass("db.r4.large")
            .dbSubnetGroupName("default")
            .build());

        var secondary = new Cluster("secondary", ClusterArgs.builder()
            .engine(example.engine())
            .engineVersion(example.engineVersion())
            .clusterIdentifier("test-secondary-cluster")
            .globalClusterIdentifier(example.id())
            .dbSubnetGroupName("default")
            .build(), CustomResourceOptions.builder()
                .dependsOn(primaryClusterInstance)
                .build());

        var secondaryClusterInstance = new ClusterInstance("secondaryClusterInstance", ClusterInstanceArgs.builder()
            .engine(example.engine())
            .engineVersion(example.engineVersion())
            .identifier("test-secondary-cluster-instance")
            .clusterIdentifier(secondary.id())
            .instanceClass("db.r4.large")
            .dbSubnetGroupName("default")
            .build());

    }
}

resources:
  example:
    type: aws:rds:GlobalCluster
    properties:
      globalClusterIdentifier: global-test
      engine: aurora
      engineVersion: 5.6.mysql_aurora.1.22.2
      databaseName: example_db
  primary:
    type: aws:rds:Cluster
    properties:
      engine: ${example.engine}
      engineVersion: ${example.engineVersion}
      clusterIdentifier: test-primary-cluster
      masterUsername: username
      masterPassword: somepass123
      databaseName: example_db
      globalClusterIdentifier: ${example.id}
      dbSubnetGroupName: default
  primaryClusterInstance:
    type: aws:rds:ClusterInstance
    name: primary
    properties:
      engine: ${example.engine}
      engineVersion: ${example.engineVersion}
      identifier: test-primary-cluster-instance
      clusterIdentifier: ${primary.id}
      instanceClass: db.r4.large
      dbSubnetGroupName: default
  secondary:
    type: aws:rds:Cluster
    properties:
      engine: ${example.engine}
      engineVersion: ${example.engineVersion}
      clusterIdentifier: test-secondary-cluster
      globalClusterIdentifier: ${example.id}
      dbSubnetGroupName: default
    options:
      dependsOn:
        - ${primaryClusterInstance}
  secondaryClusterInstance:
    type: aws:rds:ClusterInstance
    name: secondary
    properties:
      engine: ${example.engine}
      engineVersion: ${example.engineVersion}
      identifier: test-secondary-cluster-instance
      clusterIdentifier: ${secondary.id}
      instanceClass: db.r4.large
      dbSubnetGroupName: default

New PostgreSQL Global Cluster

import * as pulumi from "@pulumi/pulumi";
import * as aws from "@pulumi/aws";

const example = new aws.rds.GlobalCluster("example", {
    globalClusterIdentifier: "global-test",
    engine: "aurora-postgresql",
    engineVersion: "11.9",
    databaseName: "example_db",
});
const primary = new aws.rds.Cluster("primary", {
    engine: example.engine,
    engineVersion: example.engineVersion,
    clusterIdentifier: "test-primary-cluster",
    masterUsername: "username",
    masterPassword: "somepass123",
    databaseName: "example_db",
    globalClusterIdentifier: example.id,
    dbSubnetGroupName: "default",
});
const primaryClusterInstance = new aws.rds.ClusterInstance("primary", {
    engine: example.engine,
    engineVersion: example.engineVersion,
    identifier: "test-primary-cluster-instance",
    clusterIdentifier: primary.id,
    instanceClass: aws.rds.InstanceType.R4_Large,
    dbSubnetGroupName: "default",
});
const secondary = new aws.rds.Cluster("secondary", {
    engine: example.engine,
    engineVersion: example.engineVersion,
    clusterIdentifier: "test-secondary-cluster",
    globalClusterIdentifier: example.id,
    skipFinalSnapshot: true,
    dbSubnetGroupName: "default",
}, {
    dependsOn: [primaryClusterInstance],
});
const secondaryClusterInstance = new aws.rds.ClusterInstance("secondary", {
    engine: example.engine,
    engineVersion: example.engineVersion,
    identifier: "test-secondary-cluster-instance",
    clusterIdentifier: secondary.id,
    instanceClass: aws.rds.InstanceType.R4_Large,
    dbSubnetGroupName: "default",
});

import pulumi
import pulumi_aws as aws

example = aws.rds.GlobalCluster("example",
    global_cluster_identifier="global-test",
    engine="aurora-postgresql",
    engine_version="11.9",
    database_name="example_db")
primary = aws.rds.Cluster("primary",
    engine=example.engine,
    engine_version=example.engine_version,
    cluster_identifier="test-primary-cluster",
    master_username="username",
    master_password="somepass123",
    database_name="example_db",
    global_cluster_identifier=example.id,
    db_subnet_group_name="default")
primary_cluster_instance = aws.rds.ClusterInstance("primary",
    engine=example.engine,
    engine_version=example.engine_version,
    identifier="test-primary-cluster-instance",
    cluster_identifier=primary.id,
    instance_class=aws.rds.InstanceType.R4_LARGE,
    db_subnet_group_name="default")
secondary = aws.rds.Cluster("secondary",
    engine=example.engine,
    engine_version=example.engine_version,
    cluster_identifier="test-secondary-cluster",
    global_cluster_identifier=example.id,
    skip_final_snapshot=True,
    db_subnet_group_name="default",
    opts = pulumi.ResourceOptions(depends_on=[primary_cluster_instance]))
secondary_cluster_instance = aws.rds.ClusterInstance("secondary",
    engine=example.engine,
    engine_version=example.engine_version,
    identifier="test-secondary-cluster-instance",
    cluster_identifier=secondary.id,
    instance_class=aws.rds.InstanceType.R4_LARGE,
    db_subnet_group_name="default")

package main

import (
	"github.com/pulumi/pulumi-aws/sdk/v6/go/aws/rds"
	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		example, err := rds.NewGlobalCluster(ctx, "example", &rds.GlobalClusterArgs{
			GlobalClusterIdentifier: pulumi.String("global-test"),
			Engine:                  pulumi.String("aurora-postgresql"),
			EngineVersion:           pulumi.String("11.9"),
			DatabaseName:            pulumi.String("example_db"),
		})
		if err != nil {
			return err
		}
		primary, err := rds.NewCluster(ctx, "primary", &rds.ClusterArgs{
			Engine:                  example.Engine,
			EngineVersion:           example.EngineVersion,
			ClusterIdentifier:       pulumi.String("test-primary-cluster"),
			MasterUsername:          pulumi.String("username"),
			MasterPassword:          pulumi.String("somepass123"),
			DatabaseName:            pulumi.String("example_db"),
			GlobalClusterIdentifier: example.ID(),
			DbSubnetGroupName:       pulumi.String("default"),
		})
		if err != nil {
			return err
		}
		primaryClusterInstance, err := rds.NewClusterInstance(ctx, "primary", &rds.ClusterInstanceArgs{
			Engine:            example.Engine,
			EngineVersion:     example.EngineVersion,
			Identifier:        pulumi.String("test-primary-cluster-instance"),
			ClusterIdentifier: primary.ID(),
			InstanceClass:     pulumi.String(rds.InstanceType_R4_Large),
			DbSubnetGroupName: pulumi.String("default"),
		})
		if err != nil {
			return err
		}
		secondary, err := rds.NewCluster(ctx, "secondary", &rds.ClusterArgs{
			Engine:                  example.Engine,
			EngineVersion:           example.EngineVersion,
			ClusterIdentifier:       pulumi.String("test-secondary-cluster"),
			GlobalClusterIdentifier: example.ID(),
			SkipFinalSnapshot:       pulumi.Bool(true),
			DbSubnetGroupName:       pulumi.String("default"),
		}, pulumi.DependsOn([]pulumi.Resource{
			primaryClusterInstance,
		}))
		if err != nil {
			return err
		}
		_, err = rds.NewClusterInstance(ctx, "secondary", &rds.ClusterInstanceArgs{
			Engine:            example.Engine,
			EngineVersion:     example.EngineVersion,
			Identifier:        pulumi.String("test-secondary-cluster-instance"),
			ClusterIdentifier: secondary.ID(),
			InstanceClass:     pulumi.String(rds.InstanceType_R4_Large),
			DbSubnetGroupName: pulumi.String("default"),
		})
		if err != nil {
			return err
		}
		return nil
	})
}

using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Aws = Pulumi.Aws;

return await Deployment.RunAsync(() => 
{
    var example = new Aws.Rds.GlobalCluster("example", new()
    {
        GlobalClusterIdentifier = "global-test",
        Engine = "aurora-postgresql",
        EngineVersion = "11.9",
        DatabaseName = "example_db",
    });

    var primary = new Aws.Rds.Cluster("primary", new()
    {
        Engine = example.Engine,
        EngineVersion = example.EngineVersion,
        ClusterIdentifier = "test-primary-cluster",
        MasterUsername = "username",
        MasterPassword = "somepass123",
        DatabaseName = "example_db",
        GlobalClusterIdentifier = example.Id,
        DbSubnetGroupName = "default",
    });

    var primaryClusterInstance = new Aws.Rds.ClusterInstance("primary", new()
    {
        Engine = example.Engine,
        EngineVersion = example.EngineVersion,
        Identifier = "test-primary-cluster-instance",
        ClusterIdentifier = primary.Id,
        InstanceClass = Aws.Rds.InstanceType.R4_Large,
        DbSubnetGroupName = "default",
    });

    var secondary = new Aws.Rds.Cluster("secondary", new()
    {
        Engine = example.Engine,
        EngineVersion = example.EngineVersion,
        ClusterIdentifier = "test-secondary-cluster",
        GlobalClusterIdentifier = example.Id,
        SkipFinalSnapshot = true,
        DbSubnetGroupName = "default",
    }, new CustomResourceOptions
    {
        DependsOn =
        {
            primaryClusterInstance,
        },
    });

    var secondaryClusterInstance = new Aws.Rds.ClusterInstance("secondary", new()
    {
        Engine = example.Engine,
        EngineVersion = example.EngineVersion,
        Identifier = "test-secondary-cluster-instance",
        ClusterIdentifier = secondary.Id,
        InstanceClass = Aws.Rds.InstanceType.R4_Large,
        DbSubnetGroupName = "default",
    });

});

package generated_program;

import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.aws.rds.GlobalCluster;
import com.pulumi.aws.rds.GlobalClusterArgs;
import com.pulumi.aws.rds.Cluster;
import com.pulumi.aws.rds.ClusterArgs;
import com.pulumi.aws.rds.ClusterInstance;
import com.pulumi.aws.rds.ClusterInstanceArgs;
import com.pulumi.resources.CustomResourceOptions;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;

public class App {
    public static void main(String[] args) {
        Pulumi.run(App::stack);
    }

    public static void stack(Context ctx) {
        var example = new GlobalCluster("example", GlobalClusterArgs.builder()
            .globalClusterIdentifier("global-test")
            .engine("aurora-postgresql")
            .engineVersion("11.9")
            .databaseName("example_db")
            .build());

        var primary = new Cluster("primary", ClusterArgs.builder()
            .engine(example.engine())
            .engineVersion(example.engineVersion())
            .clusterIdentifier("test-primary-cluster")
            .masterUsername("username")
            .masterPassword("somepass123")
            .databaseName("example_db")
            .globalClusterIdentifier(example.id())
            .dbSubnetGroupName("default")
            .build());

        var primaryClusterInstance = new ClusterInstance("primaryClusterInstance", ClusterInstanceArgs.builder()
            .engine(example.engine())
            .engineVersion(example.engineVersion())
            .identifier("test-primary-cluster-instance")
            .clusterIdentifier(primary.id())
            .instanceClass("db.r4.large")
            .dbSubnetGroupName("default")
            .build());

        var secondary = new Cluster("secondary", ClusterArgs.builder()
            .engine(example.engine())
            .engineVersion(example.engineVersion())
            .clusterIdentifier("test-secondary-cluster")
            .globalClusterIdentifier(example.id())
            .skipFinalSnapshot(true)
            .dbSubnetGroupName("default")
            .build(), CustomResourceOptions.builder()
                .dependsOn(primaryClusterInstance)
                .build());

        var secondaryClusterInstance = new ClusterInstance("secondaryClusterInstance", ClusterInstanceArgs.builder()
            .engine(example.engine())
            .engineVersion(example.engineVersion())
            .identifier("test-secondary-cluster-instance")
            .clusterIdentifier(secondary.id())
            .instanceClass("db.r4.large")
            .dbSubnetGroupName("default")
            .build());

    }
}

resources:
  example:
    type: aws:rds:GlobalCluster
    properties:
      globalClusterIdentifier: global-test
      engine: aurora-postgresql
      engineVersion: '11.9'
      databaseName: example_db
  primary:
    type: aws:rds:Cluster
    properties:
      engine: ${example.engine}
      engineVersion: ${example.engineVersion}
      clusterIdentifier: test-primary-cluster
      masterUsername: username
      masterPassword: somepass123
      databaseName: example_db
      globalClusterIdentifier: ${example.id}
      dbSubnetGroupName: default
  primaryClusterInstance:
    type: aws:rds:ClusterInstance
    name: primary
    properties:
      engine: ${example.engine}
      engineVersion: ${example.engineVersion}
      identifier: test-primary-cluster-instance
      clusterIdentifier: ${primary.id}
      instanceClass: db.r4.large
      dbSubnetGroupName: default
  secondary:
    type: aws:rds:Cluster
    properties:
      engine: ${example.engine}
      engineVersion: ${example.engineVersion}
      clusterIdentifier: test-secondary-cluster
      globalClusterIdentifier: ${example.id}
      skipFinalSnapshot: true
      dbSubnetGroupName: default
    options:
      dependsOn:
        - ${primaryClusterInstance}
  secondaryClusterInstance:
    type: aws:rds:ClusterInstance
    name: secondary
    properties:
      engine: ${example.engine}
      engineVersion: ${example.engineVersion}
      identifier: test-secondary-cluster-instance
      clusterIdentifier: ${secondary.id}
      instanceClass: db.r4.large
      dbSubnetGroupName: default

New Global Cluster From Existing DB Cluster

import * as pulumi from "@pulumi/pulumi";
import * as aws from "@pulumi/aws";

const example = new aws.rds.Cluster("example", {});
const exampleGlobalCluster = new aws.rds.GlobalCluster("example", {
    forceDestroy: true,
    globalClusterIdentifier: "example",
    sourceDbClusterIdentifier: example.arn,
});

import pulumi
import pulumi_aws as aws

example = aws.rds.Cluster("example")
example_global_cluster = aws.rds.GlobalCluster("example",
    force_destroy=True,
    global_cluster_identifier="example",
    source_db_cluster_identifier=example.arn)

package main

import (
	"github.com/pulumi/pulumi-aws/sdk/v6/go/aws/rds"
	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		example, err := rds.NewCluster(ctx, "example", nil)
		if err != nil {
			return err
		}
		_, err = rds.NewGlobalCluster(ctx, "example", &rds.GlobalClusterArgs{
			ForceDestroy:              pulumi.Bool(true),
			GlobalClusterIdentifier:   pulumi.String("example"),
			SourceDbClusterIdentifier: example.Arn,
		})
		if err != nil {
			return err
		}
		return nil
	})
}

using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Aws = Pulumi.Aws;

return await Deployment.RunAsync(() => 
{
    var example = new Aws.Rds.Cluster("example");

    var exampleGlobalCluster = new Aws.Rds.GlobalCluster("example", new()
    {
        ForceDestroy = true,
        GlobalClusterIdentifier = "example",
        SourceDbClusterIdentifier = example.Arn,
    });

});

package generated_program;

import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.aws.rds.Cluster;
import com.pulumi.aws.rds.GlobalCluster;
import com.pulumi.aws.rds.GlobalClusterArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;

public class App {
    public static void main(String[] args) {
        Pulumi.run(App::stack);
    }

    public static void stack(Context ctx) {
        var example = new Cluster("example");

        var exampleGlobalCluster = new GlobalCluster("exampleGlobalCluster", GlobalClusterArgs.builder()
            .forceDestroy(true)
            .globalClusterIdentifier("example")
            .sourceDbClusterIdentifier(example.arn())
            .build());

    }
}

resources:
  example:
    type: aws:rds:Cluster
  exampleGlobalCluster:
    type: aws:rds:GlobalCluster
    name: example
    properties:
      forceDestroy: true
      globalClusterIdentifier: example
      sourceDbClusterIdentifier: ${example.arn}

Upgrading Engine Versions

When you upgrade the version of an aws.rds.GlobalCluster, the provider will attempt to in-place upgrade the engine versions of all associated clusters. Since the aws.rds.Cluster resource is being updated through the aws.rds.GlobalCluster, you are likely to get an error (Provider produced inconsistent final plan). To avoid this, use the lifecycle ignore_changes meta argument as shown below on the aws.rds.Cluster.

import * as pulumi from "@pulumi/pulumi";
import * as aws from "@pulumi/aws";

const example = new aws.rds.GlobalCluster("example", {
    globalClusterIdentifier: "kyivkharkiv",
    engine: "aurora-mysql",
    engineVersion: "5.7.mysql_aurora.2.07.5",
});
const primary = new aws.rds.Cluster("primary", {
    allowMajorVersionUpgrade: true,
    applyImmediately: true,
    clusterIdentifier: "odessadnipro",
    databaseName: "totoro",
    engine: example.engine,
    engineVersion: example.engineVersion,
    globalClusterIdentifier: example.id,
    masterPassword: "satsukimae",
    masterUsername: "maesatsuki",
    skipFinalSnapshot: true,
});
const primaryClusterInstance = new aws.rds.ClusterInstance("primary", {
    applyImmediately: true,
    clusterIdentifier: primary.id,
    engine: primary.engine,
    engineVersion: primary.engineVersion,
    identifier: "donetsklviv",
    instanceClass: aws.rds.InstanceType.R4_Large,
});

import pulumi
import pulumi_aws as aws

example = aws.rds.GlobalCluster("example",
    global_cluster_identifier="kyivkharkiv",
    engine="aurora-mysql",
    engine_version="5.7.mysql_aurora.2.07.5")
primary = aws.rds.Cluster("primary",
    allow_major_version_upgrade=True,
    apply_immediately=True,
    cluster_identifier="odessadnipro",
    database_name="totoro",
    engine=example.engine,
    engine_version=example.engine_version,
    global_cluster_identifier=example.id,
    master_password="satsukimae",
    master_username="maesatsuki",
    skip_final_snapshot=True)
primary_cluster_instance = aws.rds.ClusterInstance("primary",
    apply_immediately=True,
    cluster_identifier=primary.id,
    engine=primary.engine,
    engine_version=primary.engine_version,
    identifier="donetsklviv",
    instance_class=aws.rds.InstanceType.R4_LARGE)

package main

import (
	"github.com/pulumi/pulumi-aws/sdk/v6/go/aws/rds"
	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		example, err := rds.NewGlobalCluster(ctx, "example", &rds.GlobalClusterArgs{
			GlobalClusterIdentifier: pulumi.String("kyivkharkiv"),
			Engine:                  pulumi.String("aurora-mysql"),
			EngineVersion:           pulumi.String("5.7.mysql_aurora.2.07.5"),
		})
		if err != nil {
			return err
		}
		primary, err := rds.NewCluster(ctx, "primary", &rds.ClusterArgs{
			AllowMajorVersionUpgrade: pulumi.Bool(true),
			ApplyImmediately:         pulumi.Bool(true),
			ClusterIdentifier:        pulumi.String("odessadnipro"),
			DatabaseName:             pulumi.String("totoro"),
			Engine:                   example.Engine,
			EngineVersion:            example.EngineVersion,
			GlobalClusterIdentifier:  example.ID(),
			MasterPassword:           pulumi.String("satsukimae"),
			MasterUsername:           pulumi.String("maesatsuki"),
			SkipFinalSnapshot:        pulumi.Bool(true),
		})
		if err != nil {
			return err
		}
		_, err = rds.NewClusterInstance(ctx, "primary", &rds.ClusterInstanceArgs{
			ApplyImmediately:  pulumi.Bool(true),
			ClusterIdentifier: primary.ID(),
			Engine:            primary.Engine,
			EngineVersion:     primary.EngineVersion,
			Identifier:        pulumi.String("donetsklviv"),
			InstanceClass:     pulumi.String(rds.InstanceType_R4_Large),
		})
		if err != nil {
			return err
		}
		return nil
	})
}

using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Aws = Pulumi.Aws;

return await Deployment.RunAsync(() => 
{
    var example = new Aws.Rds.GlobalCluster("example", new()
    {
        GlobalClusterIdentifier = "kyivkharkiv",
        Engine = "aurora-mysql",
        EngineVersion = "5.7.mysql_aurora.2.07.5",
    });

    var primary = new Aws.Rds.Cluster("primary", new()
    {
        AllowMajorVersionUpgrade = true,
        ApplyImmediately = true,
        ClusterIdentifier = "odessadnipro",
        DatabaseName = "totoro",
        Engine = example.Engine,
        EngineVersion = example.EngineVersion,
        GlobalClusterIdentifier = example.Id,
        MasterPassword = "satsukimae",
        MasterUsername = "maesatsuki",
        SkipFinalSnapshot = true,
    });

    var primaryClusterInstance = new Aws.Rds.ClusterInstance("primary", new()
    {
        ApplyImmediately = true,
        ClusterIdentifier = primary.Id,
        Engine = primary.Engine,
        EngineVersion = primary.EngineVersion,
        Identifier = "donetsklviv",
        InstanceClass = Aws.Rds.InstanceType.R4_Large,
    });

});

package generated_program;

import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.aws.rds.GlobalCluster;
import com.pulumi.aws.rds.GlobalClusterArgs;
import com.pulumi.aws.rds.Cluster;
import com.pulumi.aws.rds.ClusterArgs;
import com.pulumi.aws.rds.ClusterInstance;
import com.pulumi.aws.rds.ClusterInstanceArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;

public class App {
    public static void main(String[] args) {
        Pulumi.run(App::stack);
    }

    public static void stack(Context ctx) {
        var example = new GlobalCluster("example", GlobalClusterArgs.builder()
            .globalClusterIdentifier("kyivkharkiv")
            .engine("aurora-mysql")
            .engineVersion("5.7.mysql_aurora.2.07.5")
            .build());

        var primary = new Cluster("primary", ClusterArgs.builder()
            .allowMajorVersionUpgrade(true)
            .applyImmediately(true)
            .clusterIdentifier("odessadnipro")
            .databaseName("totoro")
            .engine(example.engine())
            .engineVersion(example.engineVersion())
            .globalClusterIdentifier(example.id())
            .masterPassword("satsukimae")
            .masterUsername("maesatsuki")
            .skipFinalSnapshot(true)
            .build());

        var primaryClusterInstance = new ClusterInstance("primaryClusterInstance", ClusterInstanceArgs.builder()
            .applyImmediately(true)
            .clusterIdentifier(primary.id())
            .engine(primary.engine())
            .engineVersion(primary.engineVersion())
            .identifier("donetsklviv")
            .instanceClass("db.r4.large")
            .build());

    }
}

resources:
  example:
    type: aws:rds:GlobalCluster
    properties:
      globalClusterIdentifier: kyivkharkiv
      engine: aurora-mysql
      engineVersion: 5.7.mysql_aurora.2.07.5
  primary:
    type: aws:rds:Cluster
    properties:
      allowMajorVersionUpgrade: true
      applyImmediately: true
      clusterIdentifier: odessadnipro
      databaseName: totoro
      engine: ${example.engine}
      engineVersion: ${example.engineVersion}
      globalClusterIdentifier: ${example.id}
      masterPassword: satsukimae
      masterUsername: maesatsuki
      skipFinalSnapshot: true
  primaryClusterInstance:
    type: aws:rds:ClusterInstance
    name: primary
    properties:
      applyImmediately: true
      clusterIdentifier: ${primary.id}
      engine: ${primary.engine}
      engineVersion: ${primary.engineVersion}
      identifier: donetsklviv
      instanceClass: db.r4.large

Create GlobalCluster Resource

Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.

Constructor syntax

new GlobalCluster(name: string, args: GlobalClusterArgs, opts?: CustomResourceOptions);

@overload
def GlobalCluster(resource_name: str,
                  args: GlobalClusterArgs,
                  opts: Optional[ResourceOptions] = None)

@overload
def GlobalCluster(resource_name: str,
                  opts: Optional[ResourceOptions] = None,
                  global_cluster_identifier: Optional[str] = None,
                  database_name: Optional[str] = None,
                  deletion_protection: Optional[bool] = None,
                  engine: Optional[str] = None,
                  engine_lifecycle_support: Optional[str] = None,
                  engine_version: Optional[str] = None,
                  force_destroy: Optional[bool] = None,
                  source_db_cluster_identifier: Optional[str] = None,
                  storage_encrypted: Optional[bool] = None,
                  tags: Optional[Mapping[str, str]] = None)

func NewGlobalCluster(ctx *Context, name string, args GlobalClusterArgs, opts ...ResourceOption) (*GlobalCluster, error)

public GlobalCluster(string name, GlobalClusterArgs args, CustomResourceOptions? opts = null)

public GlobalCluster(String name, GlobalClusterArgs args)
public GlobalCluster(String name, GlobalClusterArgs args, CustomResourceOptions options)

type: aws:rds:GlobalCluster
properties: # The arguments to resource properties.
options: # Bag of options to control resource's behavior.

Parameters

name string: The unique name of the resource.
args GlobalClusterArgs: The arguments to resource properties.
opts CustomResourceOptions: Bag of options to control resource's behavior.

resource_name str: The unique name of the resource.
args GlobalClusterArgs: The arguments to resource properties.
opts ResourceOptions: Bag of options to control resource's behavior.

ctx Context: Context object for the current deployment.
name string: The unique name of the resource.
args GlobalClusterArgs: The arguments to resource properties.
opts ResourceOption: Bag of options to control resource's behavior.

name string: The unique name of the resource.
args GlobalClusterArgs: The arguments to resource properties.
opts CustomResourceOptions: Bag of options to control resource's behavior.

name String: The unique name of the resource.
args GlobalClusterArgs: The arguments to resource properties.
options CustomResourceOptions: Bag of options to control resource's behavior.

Constructor example

The following reference example uses placeholder values for all input properties.

var exampleglobalClusterResourceResourceFromRdsglobalCluster = new Aws.Rds.GlobalCluster("exampleglobalClusterResourceResourceFromRdsglobalCluster", new()
{
    GlobalClusterIdentifier = "string",
    DatabaseName = "string",
    DeletionProtection = false,
    Engine = "string",
    EngineLifecycleSupport = "string",
    EngineVersion = "string",
    ForceDestroy = false,
    SourceDbClusterIdentifier = "string",
    StorageEncrypted = false,
    Tags = 
    {
        { "string", "string" },
    },
});

example, err := rds.NewGlobalCluster(ctx, "exampleglobalClusterResourceResourceFromRdsglobalCluster", &rds.GlobalClusterArgs{
	GlobalClusterIdentifier:   pulumi.String("string"),
	DatabaseName:              pulumi.String("string"),
	DeletionProtection:        pulumi.Bool(false),
	Engine:                    pulumi.String("string"),
	EngineLifecycleSupport:    pulumi.String("string"),
	EngineVersion:             pulumi.String("string"),
	ForceDestroy:              pulumi.Bool(false),
	SourceDbClusterIdentifier: pulumi.String("string"),
	StorageEncrypted:          pulumi.Bool(false),
	Tags: pulumi.StringMap{
		"string": pulumi.String("string"),
	},
})

var exampleglobalClusterResourceResourceFromRdsglobalCluster = new GlobalCluster("exampleglobalClusterResourceResourceFromRdsglobalCluster", GlobalClusterArgs.builder()
    .globalClusterIdentifier("string")
    .databaseName("string")
    .deletionProtection(false)
    .engine("string")
    .engineLifecycleSupport("string")
    .engineVersion("string")
    .forceDestroy(false)
    .sourceDbClusterIdentifier("string")
    .storageEncrypted(false)
    .tags(Map.of("string", "string"))
    .build());

exampleglobal_cluster_resource_resource_from_rdsglobal_cluster = aws.rds.GlobalCluster("exampleglobalClusterResourceResourceFromRdsglobalCluster",
    global_cluster_identifier="string",
    database_name="string",
    deletion_protection=False,
    engine="string",
    engine_lifecycle_support="string",
    engine_version="string",
    force_destroy=False,
    source_db_cluster_identifier="string",
    storage_encrypted=False,
    tags={
        "string": "string",
    })

const exampleglobalClusterResourceResourceFromRdsglobalCluster = new aws.rds.GlobalCluster("exampleglobalClusterResourceResourceFromRdsglobalCluster", {
    globalClusterIdentifier: "string",
    databaseName: "string",
    deletionProtection: false,
    engine: "string",
    engineLifecycleSupport: "string",
    engineVersion: "string",
    forceDestroy: false,
    sourceDbClusterIdentifier: "string",
    storageEncrypted: false,
    tags: {
        string: "string",
    },
});

type: aws:rds:GlobalCluster
properties:
    databaseName: string
    deletionProtection: false
    engine: string
    engineLifecycleSupport: string
    engineVersion: string
    forceDestroy: false
    globalClusterIdentifier: string
    sourceDbClusterIdentifier: string
    storageEncrypted: false
    tags:
        string: string

GlobalCluster Resource Properties

To learn more about resource properties and how to use them, see Inputs and Outputs in the Architecture and Concepts docs.

Inputs

In Python, inputs that are objects can be passed either as argument classes or as dictionary literals.

The GlobalCluster resource accepts the following input properties:

GlobalClusterIdentifier string: Global cluster identifier.
DatabaseName string: Name for an automatically created database on cluster creation. Pulumi will only perform drift detection if a configuration value is provided.
DeletionProtection bool: If the Global Cluster should have deletion protection enabled. The database can't be deleted when this value is set to true. The default is false.
Engine string: Name of the database engine to be used for this DB cluster. The provider will only perform drift detection if a configuration value is provided. Valid values: aurora, aurora-mysql, aurora-postgresql. Defaults to aurora. Conflicts with source_db_cluster_identifier.
EngineLifecycleSupport string: The life cycle type for this DB instance. This setting applies only to Aurora PostgreSQL-based global databases. Valid values are open-source-rds-extended-support, open-source-rds-extended-support-disabled. Default value is open-source-rds-extended-support. [Using Amazon RDS Extended Support]: https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/extended-support.html
EngineVersion string: Engine version of the Aurora global database. The engine, engine_version, and instance_class (on the aws.rds.ClusterInstance) must together support global databases. See Using Amazon Aurora global databases for more information. By upgrading the engine version, the provider will upgrade cluster members. NOTE: To avoid an inconsistent final plan error while upgrading, use the lifecycle ignore_changes for engine_version meta argument on the associated aws.rds.Cluster resource as shown above in Upgrading Engine Versions example.
ForceDestroy bool: Enable to remove DB Cluster members from Global Cluster on destroy. Required with source_db_cluster_identifier.
SourceDbClusterIdentifier string: Amazon Resource Name (ARN) to use as the primary DB Cluster of the Global Cluster on creation. The provider cannot perform drift detection of this value. NOTE: After initial creation, this argument can be removed and replaced with engine and engine_version. This allows upgrading the engine version of the Global Cluster.
StorageEncrypted bool: Specifies whether the DB cluster is encrypted. The default is false unless source_db_cluster_identifier is specified and encrypted. The provider will only perform drift detection if a configuration value is provided.
Tags Dictionary<string, string>: A map of tags to assign to the DB cluster. If configured with a provider default_tags configuration block present, tags with matching keys will overwrite those defined at the provider-level.

GlobalClusterIdentifier string: Global cluster identifier.
DatabaseName string: Name for an automatically created database on cluster creation. Pulumi will only perform drift detection if a configuration value is provided.
DeletionProtection bool: If the Global Cluster should have deletion protection enabled. The database can't be deleted when this value is set to true. The default is false.
Engine string: Name of the database engine to be used for this DB cluster. The provider will only perform drift detection if a configuration value is provided. Valid values: aurora, aurora-mysql, aurora-postgresql. Defaults to aurora. Conflicts with source_db_cluster_identifier.
EngineLifecycleSupport string: The life cycle type for this DB instance. This setting applies only to Aurora PostgreSQL-based global databases. Valid values are open-source-rds-extended-support, open-source-rds-extended-support-disabled. Default value is open-source-rds-extended-support. [Using Amazon RDS Extended Support]: https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/extended-support.html
EngineVersion string: Engine version of the Aurora global database. The engine, engine_version, and instance_class (on the aws.rds.ClusterInstance) must together support global databases. See Using Amazon Aurora global databases for more information. By upgrading the engine version, the provider will upgrade cluster members. NOTE: To avoid an inconsistent final plan error while upgrading, use the lifecycle ignore_changes for engine_version meta argument on the associated aws.rds.Cluster resource as shown above in Upgrading Engine Versions example.
ForceDestroy bool: Enable to remove DB Cluster members from Global Cluster on destroy. Required with source_db_cluster_identifier.
SourceDbClusterIdentifier string: Amazon Resource Name (ARN) to use as the primary DB Cluster of the Global Cluster on creation. The provider cannot perform drift detection of this value. NOTE: After initial creation, this argument can be removed and replaced with engine and engine_version. This allows upgrading the engine version of the Global Cluster.
StorageEncrypted bool: Specifies whether the DB cluster is encrypted. The default is false unless source_db_cluster_identifier is specified and encrypted. The provider will only perform drift detection if a configuration value is provided.
Tags map[string]string: A map of tags to assign to the DB cluster. If configured with a provider default_tags configuration block present, tags with matching keys will overwrite those defined at the provider-level.

globalClusterIdentifier String: Global cluster identifier.
databaseName String: Name for an automatically created database on cluster creation. Pulumi will only perform drift detection if a configuration value is provided.
deletionProtection Boolean: If the Global Cluster should have deletion protection enabled. The database can't be deleted when this value is set to true. The default is false.
engine String: Name of the database engine to be used for this DB cluster. The provider will only perform drift detection if a configuration value is provided. Valid values: aurora, aurora-mysql, aurora-postgresql. Defaults to aurora. Conflicts with source_db_cluster_identifier.
engineLifecycleSupport String: The life cycle type for this DB instance. This setting applies only to Aurora PostgreSQL-based global databases. Valid values are open-source-rds-extended-support, open-source-rds-extended-support-disabled. Default value is open-source-rds-extended-support. [Using Amazon RDS Extended Support]: https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/extended-support.html
engineVersion String: Engine version of the Aurora global database. The engine, engine_version, and instance_class (on the aws.rds.ClusterInstance) must together support global databases. See Using Amazon Aurora global databases for more information. By upgrading the engine version, the provider will upgrade cluster members. NOTE: To avoid an inconsistent final plan error while upgrading, use the lifecycle ignore_changes for engine_version meta argument on the associated aws.rds.Cluster resource as shown above in Upgrading Engine Versions example.
forceDestroy Boolean: Enable to remove DB Cluster members from Global Cluster on destroy. Required with source_db_cluster_identifier.
sourceDbClusterIdentifier String: Amazon Resource Name (ARN) to use as the primary DB Cluster of the Global Cluster on creation. The provider cannot perform drift detection of this value. NOTE: After initial creation, this argument can be removed and replaced with engine and engine_version. This allows upgrading the engine version of the Global Cluster.
storageEncrypted Boolean: Specifies whether the DB cluster is encrypted. The default is false unless source_db_cluster_identifier is specified and encrypted. The provider will only perform drift detection if a configuration value is provided.
tags Map<String,String>: A map of tags to assign to the DB cluster. If configured with a provider default_tags configuration block present, tags with matching keys will overwrite those defined at the provider-level.

globalClusterIdentifier string: Global cluster identifier.
databaseName string: Name for an automatically created database on cluster creation. Pulumi will only perform drift detection if a configuration value is provided.
deletionProtection boolean: If the Global Cluster should have deletion protection enabled. The database can't be deleted when this value is set to true. The default is false.
engine string: Name of the database engine to be used for this DB cluster. The provider will only perform drift detection if a configuration value is provided. Valid values: aurora, aurora-mysql, aurora-postgresql. Defaults to aurora. Conflicts with source_db_cluster_identifier.
engineLifecycleSupport string: The life cycle type for this DB instance. This setting applies only to Aurora PostgreSQL-based global databases. Valid values are open-source-rds-extended-support, open-source-rds-extended-support-disabled. Default value is open-source-rds-extended-support. [Using Amazon RDS Extended Support]: https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/extended-support.html
engineVersion string: Engine version of the Aurora global database. The engine, engine_version, and instance_class (on the aws.rds.ClusterInstance) must together support global databases. See Using Amazon Aurora global databases for more information. By upgrading the engine version, the provider will upgrade cluster members. NOTE: To avoid an inconsistent final plan error while upgrading, use the lifecycle ignore_changes for engine_version meta argument on the associated aws.rds.Cluster resource as shown above in Upgrading Engine Versions example.
forceDestroy boolean: Enable to remove DB Cluster members from Global Cluster on destroy. Required with source_db_cluster_identifier.
sourceDbClusterIdentifier string: Amazon Resource Name (ARN) to use as the primary DB Cluster of the Global Cluster on creation. The provider cannot perform drift detection of this value. NOTE: After initial creation, this argument can be removed and replaced with engine and engine_version. This allows upgrading the engine version of the Global Cluster.
storageEncrypted boolean: Specifies whether the DB cluster is encrypted. The default is false unless source_db_cluster_identifier is specified and encrypted. The provider will only perform drift detection if a configuration value is provided.
tags {[key: string]: string}: A map of tags to assign to the DB cluster. If configured with a provider default_tags configuration block present, tags with matching keys will overwrite those defined at the provider-level.

global_cluster_identifier str: Global cluster identifier.
database_name str: Name for an automatically created database on cluster creation. Pulumi will only perform drift detection if a configuration value is provided.
deletion_protection bool: If the Global Cluster should have deletion protection enabled. The database can't be deleted when this value is set to true. The default is false.
engine str: Name of the database engine to be used for this DB cluster. The provider will only perform drift detection if a configuration value is provided. Valid values: aurora, aurora-mysql, aurora-postgresql. Defaults to aurora. Conflicts with source_db_cluster_identifier.
engine_lifecycle_support str: The life cycle type for this DB instance. This setting applies only to Aurora PostgreSQL-based global databases. Valid values are open-source-rds-extended-support, open-source-rds-extended-support-disabled. Default value is open-source-rds-extended-support. [Using Amazon RDS Extended Support]: https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/extended-support.html
engine_version str: Engine version of the Aurora global database. The engine, engine_version, and instance_class (on the aws.rds.ClusterInstance) must together support global databases. See Using Amazon Aurora global databases for more information. By upgrading the engine version, the provider will upgrade cluster members. NOTE: To avoid an inconsistent final plan error while upgrading, use the lifecycle ignore_changes for engine_version meta argument on the associated aws.rds.Cluster resource as shown above in Upgrading Engine Versions example.
force_destroy bool: Enable to remove DB Cluster members from Global Cluster on destroy. Required with source_db_cluster_identifier.
source_db_cluster_identifier str: Amazon Resource Name (ARN) to use as the primary DB Cluster of the Global Cluster on creation. The provider cannot perform drift detection of this value. NOTE: After initial creation, this argument can be removed and replaced with engine and engine_version. This allows upgrading the engine version of the Global Cluster.
storage_encrypted bool: Specifies whether the DB cluster is encrypted. The default is false unless source_db_cluster_identifier is specified and encrypted. The provider will only perform drift detection if a configuration value is provided.
tags Mapping[str, str]: A map of tags to assign to the DB cluster. If configured with a provider default_tags configuration block present, tags with matching keys will overwrite those defined at the provider-level.

globalClusterIdentifier String: Global cluster identifier.
databaseName String: Name for an automatically created database on cluster creation. Pulumi will only perform drift detection if a configuration value is provided.
deletionProtection Boolean: If the Global Cluster should have deletion protection enabled. The database can't be deleted when this value is set to true. The default is false.
engine String: Name of the database engine to be used for this DB cluster. The provider will only perform drift detection if a configuration value is provided. Valid values: aurora, aurora-mysql, aurora-postgresql. Defaults to aurora. Conflicts with source_db_cluster_identifier.
engineLifecycleSupport String: The life cycle type for this DB instance. This setting applies only to Aurora PostgreSQL-based global databases. Valid values are open-source-rds-extended-support, open-source-rds-extended-support-disabled. Default value is open-source-rds-extended-support. [Using Amazon RDS Extended Support]: https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/extended-support.html
engineVersion String: Engine version of the Aurora global database. The engine, engine_version, and instance_class (on the aws.rds.ClusterInstance) must together support global databases. See Using Amazon Aurora global databases for more information. By upgrading the engine version, the provider will upgrade cluster members. NOTE: To avoid an inconsistent final plan error while upgrading, use the lifecycle ignore_changes for engine_version meta argument on the associated aws.rds.Cluster resource as shown above in Upgrading Engine Versions example.
forceDestroy Boolean: Enable to remove DB Cluster members from Global Cluster on destroy. Required with source_db_cluster_identifier.
sourceDbClusterIdentifier String: Amazon Resource Name (ARN) to use as the primary DB Cluster of the Global Cluster on creation. The provider cannot perform drift detection of this value. NOTE: After initial creation, this argument can be removed and replaced with engine and engine_version. This allows upgrading the engine version of the Global Cluster.
storageEncrypted Boolean: Specifies whether the DB cluster is encrypted. The default is false unless source_db_cluster_identifier is specified and encrypted. The provider will only perform drift detection if a configuration value is provided.
tags Map<String>: A map of tags to assign to the DB cluster. If configured with a provider default_tags configuration block present, tags with matching keys will overwrite those defined at the provider-level.

Outputs

All input properties are implicitly available as output properties. Additionally, the GlobalCluster resource produces the following output properties:

Arn string: RDS Global Cluster Amazon Resource Name (ARN).
Endpoint string: Writer endpoint for the new global database cluster. This endpoint always points to the writer DB instance in the current primary cluster.
EngineVersionActual string
GlobalClusterMembers List<GlobalClusterGlobalClusterMember>: Set of objects containing Global Cluster members.
GlobalClusterResourceId string: AWS Region-unique, immutable identifier for the global database cluster. This identifier is found in AWS CloudTrail log entries whenever the AWS KMS key for the DB cluster is accessed.
Id string: The provider-assigned unique ID for this managed resource.
TagsAll Dictionary<string, string>: Map of tags assigned to the resource, including those inherited from the provider default_tags configuration block.
Deprecated: Please use tags instead.

Arn string: RDS Global Cluster Amazon Resource Name (ARN).
Endpoint string: Writer endpoint for the new global database cluster. This endpoint always points to the writer DB instance in the current primary cluster.
EngineVersionActual string
GlobalClusterMembers []GlobalClusterGlobalClusterMember: Set of objects containing Global Cluster members.
GlobalClusterResourceId string: AWS Region-unique, immutable identifier for the global database cluster. This identifier is found in AWS CloudTrail log entries whenever the AWS KMS key for the DB cluster is accessed.
Id string: The provider-assigned unique ID for this managed resource.
TagsAll map[string]string: Map of tags assigned to the resource, including those inherited from the provider default_tags configuration block.
Deprecated: Please use tags instead.

arn String: RDS Global Cluster Amazon Resource Name (ARN).
endpoint String: Writer endpoint for the new global database cluster. This endpoint always points to the writer DB instance in the current primary cluster.
engineVersionActual String
globalClusterMembers List<GlobalClusterGlobalClusterMember>: Set of objects containing Global Cluster members.
globalClusterResourceId String: AWS Region-unique, immutable identifier for the global database cluster. This identifier is found in AWS CloudTrail log entries whenever the AWS KMS key for the DB cluster is accessed.
id String: The provider-assigned unique ID for this managed resource.
tagsAll Map<String,String>: Map of tags assigned to the resource, including those inherited from the provider default_tags configuration block.
Deprecated: Please use tags instead.

arn string: RDS Global Cluster Amazon Resource Name (ARN).
endpoint string: Writer endpoint for the new global database cluster. This endpoint always points to the writer DB instance in the current primary cluster.
engineVersionActual string
globalClusterMembers GlobalClusterGlobalClusterMember[]: Set of objects containing Global Cluster members.
globalClusterResourceId string: AWS Region-unique, immutable identifier for the global database cluster. This identifier is found in AWS CloudTrail log entries whenever the AWS KMS key for the DB cluster is accessed.
id string: The provider-assigned unique ID for this managed resource.
tagsAll {[key: string]: string}: Map of tags assigned to the resource, including those inherited from the provider default_tags configuration block.
Deprecated: Please use tags instead.

arn str: RDS Global Cluster Amazon Resource Name (ARN).
endpoint str: Writer endpoint for the new global database cluster. This endpoint always points to the writer DB instance in the current primary cluster.
engine_version_actual str
global_cluster_members Sequence[GlobalClusterGlobalClusterMember]: Set of objects containing Global Cluster members.
global_cluster_resource_id str: AWS Region-unique, immutable identifier for the global database cluster. This identifier is found in AWS CloudTrail log entries whenever the AWS KMS key for the DB cluster is accessed.
id str: The provider-assigned unique ID for this managed resource.
tags_all Mapping[str, str]: Map of tags assigned to the resource, including those inherited from the provider default_tags configuration block.
Deprecated: Please use tags instead.

arn String: RDS Global Cluster Amazon Resource Name (ARN).
endpoint String: Writer endpoint for the new global database cluster. This endpoint always points to the writer DB instance in the current primary cluster.
engineVersionActual String
globalClusterMembers List<Property Map>: Set of objects containing Global Cluster members.
globalClusterResourceId String: AWS Region-unique, immutable identifier for the global database cluster. This identifier is found in AWS CloudTrail log entries whenever the AWS KMS key for the DB cluster is accessed.
id String: The provider-assigned unique ID for this managed resource.
tagsAll Map<String>: Map of tags assigned to the resource, including those inherited from the provider default_tags configuration block.
Deprecated: Please use tags instead.

Look up Existing GlobalCluster Resource

Get an existing GlobalCluster resource’s state with the given name, ID, and optional extra properties used to qualify the lookup.

public static get(name: string, id: Input<ID>, state?: GlobalClusterState, opts?: CustomResourceOptions): GlobalCluster

@staticmethod
def get(resource_name: str,
        id: str,
        opts: Optional[ResourceOptions] = None,
        arn: Optional[str] = None,
        database_name: Optional[str] = None,
        deletion_protection: Optional[bool] = None,
        endpoint: Optional[str] = None,
        engine: Optional[str] = None,
        engine_lifecycle_support: Optional[str] = None,
        engine_version: Optional[str] = None,
        engine_version_actual: Optional[str] = None,
        force_destroy: Optional[bool] = None,
        global_cluster_identifier: Optional[str] = None,
        global_cluster_members: Optional[Sequence[GlobalClusterGlobalClusterMemberArgs]] = None,
        global_cluster_resource_id: Optional[str] = None,
        source_db_cluster_identifier: Optional[str] = None,
        storage_encrypted: Optional[bool] = None,
        tags: Optional[Mapping[str, str]] = None,
        tags_all: Optional[Mapping[str, str]] = None) -> GlobalCluster

func GetGlobalCluster(ctx *Context, name string, id IDInput, state *GlobalClusterState, opts ...ResourceOption) (*GlobalCluster, error)

public static GlobalCluster Get(string name, Input<string> id, GlobalClusterState? state, CustomResourceOptions? opts = null)

public static GlobalCluster get(String name, Output<String> id, GlobalClusterState state, CustomResourceOptions options)

resources:  _:    type: aws:rds:GlobalCluster    get:      id: ${id}

name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.
state: Any extra arguments used during the lookup.
opts: A bag of options that control this resource's behavior.

resource_name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.

name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.
state: Any extra arguments used during the lookup.
opts: A bag of options that control this resource's behavior.

name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.
state: Any extra arguments used during the lookup.
opts: A bag of options that control this resource's behavior.

name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.
state: Any extra arguments used during the lookup.
opts: A bag of options that control this resource's behavior.

The following state arguments are supported:

Arn string: RDS Global Cluster Amazon Resource Name (ARN).
DatabaseName string: Name for an automatically created database on cluster creation. Pulumi will only perform drift detection if a configuration value is provided.
DeletionProtection bool: If the Global Cluster should have deletion protection enabled. The database can't be deleted when this value is set to true. The default is false.
Endpoint string: Writer endpoint for the new global database cluster. This endpoint always points to the writer DB instance in the current primary cluster.
Engine string: Name of the database engine to be used for this DB cluster. The provider will only perform drift detection if a configuration value is provided. Valid values: aurora, aurora-mysql, aurora-postgresql. Defaults to aurora. Conflicts with source_db_cluster_identifier.
EngineLifecycleSupport string: The life cycle type for this DB instance. This setting applies only to Aurora PostgreSQL-based global databases. Valid values are open-source-rds-extended-support, open-source-rds-extended-support-disabled. Default value is open-source-rds-extended-support. [Using Amazon RDS Extended Support]: https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/extended-support.html
EngineVersion string: Engine version of the Aurora global database. The engine, engine_version, and instance_class (on the aws.rds.ClusterInstance) must together support global databases. See Using Amazon Aurora global databases for more information. By upgrading the engine version, the provider will upgrade cluster members. NOTE: To avoid an inconsistent final plan error while upgrading, use the lifecycle ignore_changes for engine_version meta argument on the associated aws.rds.Cluster resource as shown above in Upgrading Engine Versions example.
EngineVersionActual string
ForceDestroy bool: Enable to remove DB Cluster members from Global Cluster on destroy. Required with source_db_cluster_identifier.
GlobalClusterIdentifier string: Global cluster identifier.
GlobalClusterMembers List<GlobalClusterGlobalClusterMember>: Set of objects containing Global Cluster members.
GlobalClusterResourceId string: AWS Region-unique, immutable identifier for the global database cluster. This identifier is found in AWS CloudTrail log entries whenever the AWS KMS key for the DB cluster is accessed.
SourceDbClusterIdentifier string: Amazon Resource Name (ARN) to use as the primary DB Cluster of the Global Cluster on creation. The provider cannot perform drift detection of this value. NOTE: After initial creation, this argument can be removed and replaced with engine and engine_version. This allows upgrading the engine version of the Global Cluster.
StorageEncrypted bool: Specifies whether the DB cluster is encrypted. The default is false unless source_db_cluster_identifier is specified and encrypted. The provider will only perform drift detection if a configuration value is provided.
Tags Dictionary<string, string>: A map of tags to assign to the DB cluster. If configured with a provider default_tags configuration block present, tags with matching keys will overwrite those defined at the provider-level.
TagsAll Dictionary<string, string>: Map of tags assigned to the resource, including those inherited from the provider default_tags configuration block.
Deprecated: Please use tags instead.

Arn string: RDS Global Cluster Amazon Resource Name (ARN).
DatabaseName string: Name for an automatically created database on cluster creation. Pulumi will only perform drift detection if a configuration value is provided.
DeletionProtection bool: If the Global Cluster should have deletion protection enabled. The database can't be deleted when this value is set to true. The default is false.
Endpoint string: Writer endpoint for the new global database cluster. This endpoint always points to the writer DB instance in the current primary cluster.
Engine string: Name of the database engine to be used for this DB cluster. The provider will only perform drift detection if a configuration value is provided. Valid values: aurora, aurora-mysql, aurora-postgresql. Defaults to aurora. Conflicts with source_db_cluster_identifier.
EngineLifecycleSupport string: The life cycle type for this DB instance. This setting applies only to Aurora PostgreSQL-based global databases. Valid values are open-source-rds-extended-support, open-source-rds-extended-support-disabled. Default value is open-source-rds-extended-support. [Using Amazon RDS Extended Support]: https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/extended-support.html
EngineVersion string: Engine version of the Aurora global database. The engine, engine_version, and instance_class (on the aws.rds.ClusterInstance) must together support global databases. See Using Amazon Aurora global databases for more information. By upgrading the engine version, the provider will upgrade cluster members. NOTE: To avoid an inconsistent final plan error while upgrading, use the lifecycle ignore_changes for engine_version meta argument on the associated aws.rds.Cluster resource as shown above in Upgrading Engine Versions example.
EngineVersionActual string
ForceDestroy bool: Enable to remove DB Cluster members from Global Cluster on destroy. Required with source_db_cluster_identifier.
GlobalClusterIdentifier string: Global cluster identifier.
GlobalClusterMembers []GlobalClusterGlobalClusterMemberArgs: Set of objects containing Global Cluster members.
GlobalClusterResourceId string: AWS Region-unique, immutable identifier for the global database cluster. This identifier is found in AWS CloudTrail log entries whenever the AWS KMS key for the DB cluster is accessed.
SourceDbClusterIdentifier string: Amazon Resource Name (ARN) to use as the primary DB Cluster of the Global Cluster on creation. The provider cannot perform drift detection of this value. NOTE: After initial creation, this argument can be removed and replaced with engine and engine_version. This allows upgrading the engine version of the Global Cluster.
StorageEncrypted bool: Specifies whether the DB cluster is encrypted. The default is false unless source_db_cluster_identifier is specified and encrypted. The provider will only perform drift detection if a configuration value is provided.
Tags map[string]string: A map of tags to assign to the DB cluster. If configured with a provider default_tags configuration block present, tags with matching keys will overwrite those defined at the provider-level.
TagsAll map[string]string: Map of tags assigned to the resource, including those inherited from the provider default_tags configuration block.
Deprecated: Please use tags instead.

arn String: RDS Global Cluster Amazon Resource Name (ARN).
databaseName String: Name for an automatically created database on cluster creation. Pulumi will only perform drift detection if a configuration value is provided.
deletionProtection Boolean: If the Global Cluster should have deletion protection enabled. The database can't be deleted when this value is set to true. The default is false.
endpoint String: Writer endpoint for the new global database cluster. This endpoint always points to the writer DB instance in the current primary cluster.
engine String: Name of the database engine to be used for this DB cluster. The provider will only perform drift detection if a configuration value is provided. Valid values: aurora, aurora-mysql, aurora-postgresql. Defaults to aurora. Conflicts with source_db_cluster_identifier.
engineLifecycleSupport String: The life cycle type for this DB instance. This setting applies only to Aurora PostgreSQL-based global databases. Valid values are open-source-rds-extended-support, open-source-rds-extended-support-disabled. Default value is open-source-rds-extended-support. [Using Amazon RDS Extended Support]: https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/extended-support.html
engineVersion String: Engine version of the Aurora global database. The engine, engine_version, and instance_class (on the aws.rds.ClusterInstance) must together support global databases. See Using Amazon Aurora global databases for more information. By upgrading the engine version, the provider will upgrade cluster members. NOTE: To avoid an inconsistent final plan error while upgrading, use the lifecycle ignore_changes for engine_version meta argument on the associated aws.rds.Cluster resource as shown above in Upgrading Engine Versions example.
engineVersionActual String
forceDestroy Boolean: Enable to remove DB Cluster members from Global Cluster on destroy. Required with source_db_cluster_identifier.
globalClusterIdentifier String: Global cluster identifier.
globalClusterMembers List<GlobalClusterGlobalClusterMember>: Set of objects containing Global Cluster members.
globalClusterResourceId String: AWS Region-unique, immutable identifier for the global database cluster. This identifier is found in AWS CloudTrail log entries whenever the AWS KMS key for the DB cluster is accessed.
sourceDbClusterIdentifier String: Amazon Resource Name (ARN) to use as the primary DB Cluster of the Global Cluster on creation. The provider cannot perform drift detection of this value. NOTE: After initial creation, this argument can be removed and replaced with engine and engine_version. This allows upgrading the engine version of the Global Cluster.
storageEncrypted Boolean: Specifies whether the DB cluster is encrypted. The default is false unless source_db_cluster_identifier is specified and encrypted. The provider will only perform drift detection if a configuration value is provided.
tags Map<String,String>: A map of tags to assign to the DB cluster. If configured with a provider default_tags configuration block present, tags with matching keys will overwrite those defined at the provider-level.
tagsAll Map<String,String>: Map of tags assigned to the resource, including those inherited from the provider default_tags configuration block.
Deprecated: Please use tags instead.

arn string: RDS Global Cluster Amazon Resource Name (ARN).
databaseName string: Name for an automatically created database on cluster creation. Pulumi will only perform drift detection if a configuration value is provided.
deletionProtection boolean: If the Global Cluster should have deletion protection enabled. The database can't be deleted when this value is set to true. The default is false.
endpoint string: Writer endpoint for the new global database cluster. This endpoint always points to the writer DB instance in the current primary cluster.
engine string: Name of the database engine to be used for this DB cluster. The provider will only perform drift detection if a configuration value is provided. Valid values: aurora, aurora-mysql, aurora-postgresql. Defaults to aurora. Conflicts with source_db_cluster_identifier.
engineLifecycleSupport string: The life cycle type for this DB instance. This setting applies only to Aurora PostgreSQL-based global databases. Valid values are open-source-rds-extended-support, open-source-rds-extended-support-disabled. Default value is open-source-rds-extended-support. [Using Amazon RDS Extended Support]: https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/extended-support.html
engineVersion string: Engine version of the Aurora global database. The engine, engine_version, and instance_class (on the aws.rds.ClusterInstance) must together support global databases. See Using Amazon Aurora global databases for more information. By upgrading the engine version, the provider will upgrade cluster members. NOTE: To avoid an inconsistent final plan error while upgrading, use the lifecycle ignore_changes for engine_version meta argument on the associated aws.rds.Cluster resource as shown above in Upgrading Engine Versions example.
engineVersionActual string
forceDestroy boolean: Enable to remove DB Cluster members from Global Cluster on destroy. Required with source_db_cluster_identifier.
globalClusterIdentifier string: Global cluster identifier.
globalClusterMembers GlobalClusterGlobalClusterMember[]: Set of objects containing Global Cluster members.
globalClusterResourceId string: AWS Region-unique, immutable identifier for the global database cluster. This identifier is found in AWS CloudTrail log entries whenever the AWS KMS key for the DB cluster is accessed.
sourceDbClusterIdentifier string: Amazon Resource Name (ARN) to use as the primary DB Cluster of the Global Cluster on creation. The provider cannot perform drift detection of this value. NOTE: After initial creation, this argument can be removed and replaced with engine and engine_version. This allows upgrading the engine version of the Global Cluster.
storageEncrypted boolean: Specifies whether the DB cluster is encrypted. The default is false unless source_db_cluster_identifier is specified and encrypted. The provider will only perform drift detection if a configuration value is provided.
tags {[key: string]: string}: A map of tags to assign to the DB cluster. If configured with a provider default_tags configuration block present, tags with matching keys will overwrite those defined at the provider-level.
tagsAll {[key: string]: string}: Map of tags assigned to the resource, including those inherited from the provider default_tags configuration block.
Deprecated: Please use tags instead.

arn str: RDS Global Cluster Amazon Resource Name (ARN).
database_name str: Name for an automatically created database on cluster creation. Pulumi will only perform drift detection if a configuration value is provided.
deletion_protection bool: If the Global Cluster should have deletion protection enabled. The database can't be deleted when this value is set to true. The default is false.
endpoint str: Writer endpoint for the new global database cluster. This endpoint always points to the writer DB instance in the current primary cluster.
engine str: Name of the database engine to be used for this DB cluster. The provider will only perform drift detection if a configuration value is provided. Valid values: aurora, aurora-mysql, aurora-postgresql. Defaults to aurora. Conflicts with source_db_cluster_identifier.
engine_lifecycle_support str: The life cycle type for this DB instance. This setting applies only to Aurora PostgreSQL-based global databases. Valid values are open-source-rds-extended-support, open-source-rds-extended-support-disabled. Default value is open-source-rds-extended-support. [Using Amazon RDS Extended Support]: https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/extended-support.html
engine_version str: Engine version of the Aurora global database. The engine, engine_version, and instance_class (on the aws.rds.ClusterInstance) must together support global databases. See Using Amazon Aurora global databases for more information. By upgrading the engine version, the provider will upgrade cluster members. NOTE: To avoid an inconsistent final plan error while upgrading, use the lifecycle ignore_changes for engine_version meta argument on the associated aws.rds.Cluster resource as shown above in Upgrading Engine Versions example.
engine_version_actual str
force_destroy bool: Enable to remove DB Cluster members from Global Cluster on destroy. Required with source_db_cluster_identifier.
global_cluster_identifier str: Global cluster identifier.
global_cluster_members Sequence[GlobalClusterGlobalClusterMemberArgs]: Set of objects containing Global Cluster members.
global_cluster_resource_id str: AWS Region-unique, immutable identifier for the global database cluster. This identifier is found in AWS CloudTrail log entries whenever the AWS KMS key for the DB cluster is accessed.
source_db_cluster_identifier str: Amazon Resource Name (ARN) to use as the primary DB Cluster of the Global Cluster on creation. The provider cannot perform drift detection of this value. NOTE: After initial creation, this argument can be removed and replaced with engine and engine_version. This allows upgrading the engine version of the Global Cluster.
storage_encrypted bool: Specifies whether the DB cluster is encrypted. The default is false unless source_db_cluster_identifier is specified and encrypted. The provider will only perform drift detection if a configuration value is provided.
tags Mapping[str, str]: A map of tags to assign to the DB cluster. If configured with a provider default_tags configuration block present, tags with matching keys will overwrite those defined at the provider-level.
tags_all Mapping[str, str]: Map of tags assigned to the resource, including those inherited from the provider default_tags configuration block.
Deprecated: Please use tags instead.

arn String: RDS Global Cluster Amazon Resource Name (ARN).
databaseName String: Name for an automatically created database on cluster creation. Pulumi will only perform drift detection if a configuration value is provided.
deletionProtection Boolean: If the Global Cluster should have deletion protection enabled. The database can't be deleted when this value is set to true. The default is false.
endpoint String: Writer endpoint for the new global database cluster. This endpoint always points to the writer DB instance in the current primary cluster.
engine String: Name of the database engine to be used for this DB cluster. The provider will only perform drift detection if a configuration value is provided. Valid values: aurora, aurora-mysql, aurora-postgresql. Defaults to aurora. Conflicts with source_db_cluster_identifier.
engineLifecycleSupport String: The life cycle type for this DB instance. This setting applies only to Aurora PostgreSQL-based global databases. Valid values are open-source-rds-extended-support, open-source-rds-extended-support-disabled. Default value is open-source-rds-extended-support. [Using Amazon RDS Extended Support]: https://docs.aws.amazon.com/AmazonRDS/latest/UserGuide/extended-support.html
engineVersion String: Engine version of the Aurora global database. The engine, engine_version, and instance_class (on the aws.rds.ClusterInstance) must together support global databases. See Using Amazon Aurora global databases for more information. By upgrading the engine version, the provider will upgrade cluster members. NOTE: To avoid an inconsistent final plan error while upgrading, use the lifecycle ignore_changes for engine_version meta argument on the associated aws.rds.Cluster resource as shown above in Upgrading Engine Versions example.
engineVersionActual String
forceDestroy Boolean: Enable to remove DB Cluster members from Global Cluster on destroy. Required with source_db_cluster_identifier.
globalClusterIdentifier String: Global cluster identifier.
globalClusterMembers List<Property Map>: Set of objects containing Global Cluster members.
globalClusterResourceId String: AWS Region-unique, immutable identifier for the global database cluster. This identifier is found in AWS CloudTrail log entries whenever the AWS KMS key for the DB cluster is accessed.
sourceDbClusterIdentifier String: Amazon Resource Name (ARN) to use as the primary DB Cluster of the Global Cluster on creation. The provider cannot perform drift detection of this value. NOTE: After initial creation, this argument can be removed and replaced with engine and engine_version. This allows upgrading the engine version of the Global Cluster.
storageEncrypted Boolean: Specifies whether the DB cluster is encrypted. The default is false unless source_db_cluster_identifier is specified and encrypted. The provider will only perform drift detection if a configuration value is provided.
tags Map<String>: A map of tags to assign to the DB cluster. If configured with a provider default_tags configuration block present, tags with matching keys will overwrite those defined at the provider-level.
tagsAll Map<String>: Map of tags assigned to the resource, including those inherited from the provider default_tags configuration block.
Deprecated: Please use tags instead.

Supporting Types

GlobalClusterGlobalClusterMember, GlobalClusterGlobalClusterMemberArgs

DbClusterArn string: Amazon Resource Name (ARN) of member DB Cluster.
IsWriter bool: Whether the member is the primary DB Cluster.

DbClusterArn string: Amazon Resource Name (ARN) of member DB Cluster.
IsWriter bool: Whether the member is the primary DB Cluster.

dbClusterArn String: Amazon Resource Name (ARN) of member DB Cluster.
isWriter Boolean: Whether the member is the primary DB Cluster.

dbClusterArn string: Amazon Resource Name (ARN) of member DB Cluster.
isWriter boolean: Whether the member is the primary DB Cluster.

db_cluster_arn str: Amazon Resource Name (ARN) of member DB Cluster.
is_writer bool: Whether the member is the primary DB Cluster.

dbClusterArn String: Amazon Resource Name (ARN) of member DB Cluster.
isWriter Boolean: Whether the member is the primary DB Cluster.

Import

Using pulumi import, import aws_rds_global_cluster using the RDS Global Cluster identifier. For example:

$ pulumi import aws:rds/globalCluster:GlobalCluster example example

Certain resource arguments, like force_destroy, only exist within this provider. If the argument is set in the the provider configuration on an imported resource, This provider will show a difference on the first plan after import to update the state value. This change is safe to apply immediately so the state matches the desired configuration.

Certain resource arguments, like source_db_cluster_identifier, do not have an API method for reading the information after creation. If the argument is set in the Pulumi program on an imported resource, Pulumi will always show a difference. To workaround this behavior, either omit the argument from the Pulumi program or use ignore_changes to hide the difference. For example:

To learn more about importing existing cloud resources, see Importing resources.

Package Details

Repository: AWS Classic pulumi/pulumi-aws
License: Apache-2.0
Notes: This Pulumi package is based on the aws Terraform Provider.

AWS v6.71.0 published on Friday, Mar 7, 2025 by Pulumi

pulumi/pulumi-aws

aws.rds.GlobalCluster

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Example Usage

New MySQL Global Cluster

New PostgreSQL Global Cluster

New Global Cluster From Existing DB Cluster

Upgrading Engine Versions

Create GlobalCluster Resource

Constructor syntax

Parameters

Constructor example

GlobalCluster Resource Properties

Inputs

Outputs

Look up Existing GlobalCluster Resource

Supporting Types

GlobalClusterGlobalClusterMember, GlobalClusterGlobalClusterMemberArgs

Import

Package Details

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