aws.rds.Integration
Explore with Pulumi AI
Resource for managing an AWS RDS (Relational Database) zero-ETL integration. You can refer to the User Guide.
Example Usage
Basic Usage
import * as pulumi from "@pulumi/pulumi";
import * as aws from "@pulumi/aws";
const example = new aws.redshiftserverless.Namespace("example", {namespaceName: "redshift-example"});
const exampleWorkgroup = new aws.redshiftserverless.Workgroup("example", {
namespaceName: example.namespaceName,
workgroupName: "example-workspace",
baseCapacity: 8,
publiclyAccessible: false,
subnetIds: [
example1.id,
example2.id,
example3.id,
],
configParameters: [{
parameterKey: "enable_case_sensitive_identifier",
parameterValue: "true",
}],
});
const exampleIntegration = new aws.rds.Integration("example", {
integrationName: "example",
sourceArn: exampleAwsRdsCluster.arn,
targetArn: example.arn,
});
import pulumi
import pulumi_aws as aws
example = aws.redshiftserverless.Namespace("example", namespace_name="redshift-example")
example_workgroup = aws.redshiftserverless.Workgroup("example",
namespace_name=example.namespace_name,
workgroup_name="example-workspace",
base_capacity=8,
publicly_accessible=False,
subnet_ids=[
example1["id"],
example2["id"],
example3["id"],
],
config_parameters=[{
"parameter_key": "enable_case_sensitive_identifier",
"parameter_value": "true",
}])
example_integration = aws.rds.Integration("example",
integration_name="example",
source_arn=example_aws_rds_cluster["arn"],
target_arn=example.arn)
package main
import (
"github.com/pulumi/pulumi-aws/sdk/v6/go/aws/rds"
"github.com/pulumi/pulumi-aws/sdk/v6/go/aws/redshiftserverless"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
example, err := redshiftserverless.NewNamespace(ctx, "example", &redshiftserverless.NamespaceArgs{
NamespaceName: pulumi.String("redshift-example"),
})
if err != nil {
return err
}
_, err = redshiftserverless.NewWorkgroup(ctx, "example", &redshiftserverless.WorkgroupArgs{
NamespaceName: example.NamespaceName,
WorkgroupName: pulumi.String("example-workspace"),
BaseCapacity: pulumi.Int(8),
PubliclyAccessible: pulumi.Bool(false),
SubnetIds: pulumi.StringArray{
example1.Id,
example2.Id,
example3.Id,
},
ConfigParameters: redshiftserverless.WorkgroupConfigParameterArray{
&redshiftserverless.WorkgroupConfigParameterArgs{
ParameterKey: pulumi.String("enable_case_sensitive_identifier"),
ParameterValue: pulumi.String("true"),
},
},
})
if err != nil {
return err
}
_, err = rds.NewIntegration(ctx, "example", &rds.IntegrationArgs{
IntegrationName: pulumi.String("example"),
SourceArn: pulumi.Any(exampleAwsRdsCluster.Arn),
TargetArn: 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.RedshiftServerless.Namespace("example", new()
{
NamespaceName = "redshift-example",
});
var exampleWorkgroup = new Aws.RedshiftServerless.Workgroup("example", new()
{
NamespaceName = example.NamespaceName,
WorkgroupName = "example-workspace",
BaseCapacity = 8,
PubliclyAccessible = false,
SubnetIds = new[]
{
example1.Id,
example2.Id,
example3.Id,
},
ConfigParameters = new[]
{
new Aws.RedshiftServerless.Inputs.WorkgroupConfigParameterArgs
{
ParameterKey = "enable_case_sensitive_identifier",
ParameterValue = "true",
},
},
});
var exampleIntegration = new Aws.Rds.Integration("example", new()
{
IntegrationName = "example",
SourceArn = exampleAwsRdsCluster.Arn,
TargetArn = example.Arn,
});
});
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.aws.redshiftserverless.Namespace;
import com.pulumi.aws.redshiftserverless.NamespaceArgs;
import com.pulumi.aws.redshiftserverless.Workgroup;
import com.pulumi.aws.redshiftserverless.WorkgroupArgs;
import com.pulumi.aws.redshiftserverless.inputs.WorkgroupConfigParameterArgs;
import com.pulumi.aws.rds.Integration;
import com.pulumi.aws.rds.IntegrationArgs;
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 Namespace("example", NamespaceArgs.builder()
.namespaceName("redshift-example")
.build());
var exampleWorkgroup = new Workgroup("exampleWorkgroup", WorkgroupArgs.builder()
.namespaceName(example.namespaceName())
.workgroupName("example-workspace")
.baseCapacity(8)
.publiclyAccessible(false)
.subnetIds(
example1.id(),
example2.id(),
example3.id())
.configParameters(WorkgroupConfigParameterArgs.builder()
.parameterKey("enable_case_sensitive_identifier")
.parameterValue("true")
.build())
.build());
var exampleIntegration = new Integration("exampleIntegration", IntegrationArgs.builder()
.integrationName("example")
.sourceArn(exampleAwsRdsCluster.arn())
.targetArn(example.arn())
.build());
}
}
resources:
example:
type: aws:redshiftserverless:Namespace
properties:
namespaceName: redshift-example
exampleWorkgroup:
type: aws:redshiftserverless:Workgroup
name: example
properties:
namespaceName: ${example.namespaceName}
workgroupName: example-workspace
baseCapacity: 8
publiclyAccessible: false
subnetIds:
- ${example1.id}
- ${example2.id}
- ${example3.id}
configParameters:
- parameterKey: enable_case_sensitive_identifier
parameterValue: 'true'
exampleIntegration:
type: aws:rds:Integration
name: example
properties:
integrationName: example
sourceArn: ${exampleAwsRdsCluster.arn}
targetArn: ${example.arn}
Use own KMS key
import * as pulumi from "@pulumi/pulumi";
import * as aws from "@pulumi/aws";
const current = aws.getCallerIdentity({});
const keyPolicy = current.then(current => aws.iam.getPolicyDocument({
statements: [
{
actions: ["kms:*"],
resources: ["*"],
principals: [{
type: "AWS",
identifiers: [`arn:aws:iam::${current.accountId}:root`],
}],
},
{
actions: ["kms:CreateGrant"],
resources: ["*"],
principals: [{
type: "Service",
identifiers: ["redshift.amazonaws.com"],
}],
},
],
}));
const example = new aws.kms.Key("example", {
deletionWindowInDays: 10,
policy: keyPolicy.then(keyPolicy => keyPolicy.json),
});
const exampleIntegration = new aws.rds.Integration("example", {
integrationName: "example",
sourceArn: exampleAwsRdsCluster.arn,
targetArn: exampleAwsRedshiftserverlessNamespace.arn,
kmsKeyId: example.arn,
additionalEncryptionContext: {
example: "test",
},
});
import pulumi
import pulumi_aws as aws
current = aws.get_caller_identity()
key_policy = aws.iam.get_policy_document(statements=[
{
"actions": ["kms:*"],
"resources": ["*"],
"principals": [{
"type": "AWS",
"identifiers": [f"arn:aws:iam::{current.account_id}:root"],
}],
},
{
"actions": ["kms:CreateGrant"],
"resources": ["*"],
"principals": [{
"type": "Service",
"identifiers": ["redshift.amazonaws.com"],
}],
},
])
example = aws.kms.Key("example",
deletion_window_in_days=10,
policy=key_policy.json)
example_integration = aws.rds.Integration("example",
integration_name="example",
source_arn=example_aws_rds_cluster["arn"],
target_arn=example_aws_redshiftserverless_namespace["arn"],
kms_key_id=example.arn,
additional_encryption_context={
"example": "test",
})
package main
import (
"fmt"
"github.com/pulumi/pulumi-aws/sdk/v6/go/aws"
"github.com/pulumi/pulumi-aws/sdk/v6/go/aws/iam"
"github.com/pulumi/pulumi-aws/sdk/v6/go/aws/kms"
"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 {
current, err := aws.GetCallerIdentity(ctx, &aws.GetCallerIdentityArgs{}, nil)
if err != nil {
return err
}
keyPolicy, err := iam.GetPolicyDocument(ctx, &iam.GetPolicyDocumentArgs{
Statements: []iam.GetPolicyDocumentStatement{
{
Actions: []string{
"kms:*",
},
Resources: []string{
"*",
},
Principals: []iam.GetPolicyDocumentStatementPrincipal{
{
Type: "AWS",
Identifiers: []string{
fmt.Sprintf("arn:aws:iam::%v:root", current.AccountId),
},
},
},
},
{
Actions: []string{
"kms:CreateGrant",
},
Resources: []string{
"*",
},
Principals: []iam.GetPolicyDocumentStatementPrincipal{
{
Type: "Service",
Identifiers: []string{
"redshift.amazonaws.com",
},
},
},
},
},
}, nil)
if err != nil {
return err
}
example, err := kms.NewKey(ctx, "example", &kms.KeyArgs{
DeletionWindowInDays: pulumi.Int(10),
Policy: pulumi.String(keyPolicy.Json),
})
if err != nil {
return err
}
_, err = rds.NewIntegration(ctx, "example", &rds.IntegrationArgs{
IntegrationName: pulumi.String("example"),
SourceArn: pulumi.Any(exampleAwsRdsCluster.Arn),
TargetArn: pulumi.Any(exampleAwsRedshiftserverlessNamespace.Arn),
KmsKeyId: example.Arn,
AdditionalEncryptionContext: pulumi.StringMap{
"example": pulumi.String("test"),
},
})
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 current = Aws.GetCallerIdentity.Invoke();
var keyPolicy = Aws.Iam.GetPolicyDocument.Invoke(new()
{
Statements = new[]
{
new Aws.Iam.Inputs.GetPolicyDocumentStatementInputArgs
{
Actions = new[]
{
"kms:*",
},
Resources = new[]
{
"*",
},
Principals = new[]
{
new Aws.Iam.Inputs.GetPolicyDocumentStatementPrincipalInputArgs
{
Type = "AWS",
Identifiers = new[]
{
$"arn:aws:iam::{current.Apply(getCallerIdentityResult => getCallerIdentityResult.AccountId)}:root",
},
},
},
},
new Aws.Iam.Inputs.GetPolicyDocumentStatementInputArgs
{
Actions = new[]
{
"kms:CreateGrant",
},
Resources = new[]
{
"*",
},
Principals = new[]
{
new Aws.Iam.Inputs.GetPolicyDocumentStatementPrincipalInputArgs
{
Type = "Service",
Identifiers = new[]
{
"redshift.amazonaws.com",
},
},
},
},
},
});
var example = new Aws.Kms.Key("example", new()
{
DeletionWindowInDays = 10,
Policy = keyPolicy.Apply(getPolicyDocumentResult => getPolicyDocumentResult.Json),
});
var exampleIntegration = new Aws.Rds.Integration("example", new()
{
IntegrationName = "example",
SourceArn = exampleAwsRdsCluster.Arn,
TargetArn = exampleAwsRedshiftserverlessNamespace.Arn,
KmsKeyId = example.Arn,
AdditionalEncryptionContext =
{
{ "example", "test" },
},
});
});
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.aws.AwsFunctions;
import com.pulumi.aws.inputs.GetCallerIdentityArgs;
import com.pulumi.aws.iam.IamFunctions;
import com.pulumi.aws.iam.inputs.GetPolicyDocumentArgs;
import com.pulumi.aws.kms.Key;
import com.pulumi.aws.kms.KeyArgs;
import com.pulumi.aws.rds.Integration;
import com.pulumi.aws.rds.IntegrationArgs;
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) {
final var current = AwsFunctions.getCallerIdentity();
final var keyPolicy = IamFunctions.getPolicyDocument(GetPolicyDocumentArgs.builder()
.statements(
GetPolicyDocumentStatementArgs.builder()
.actions("kms:*")
.resources("*")
.principals(GetPolicyDocumentStatementPrincipalArgs.builder()
.type("AWS")
.identifiers(String.format("arn:aws:iam::%s:root", current.applyValue(getCallerIdentityResult -> getCallerIdentityResult.accountId())))
.build())
.build(),
GetPolicyDocumentStatementArgs.builder()
.actions("kms:CreateGrant")
.resources("*")
.principals(GetPolicyDocumentStatementPrincipalArgs.builder()
.type("Service")
.identifiers("redshift.amazonaws.com")
.build())
.build())
.build());
var example = new Key("example", KeyArgs.builder()
.deletionWindowInDays(10)
.policy(keyPolicy.applyValue(getPolicyDocumentResult -> getPolicyDocumentResult.json()))
.build());
var exampleIntegration = new Integration("exampleIntegration", IntegrationArgs.builder()
.integrationName("example")
.sourceArn(exampleAwsRdsCluster.arn())
.targetArn(exampleAwsRedshiftserverlessNamespace.arn())
.kmsKeyId(example.arn())
.additionalEncryptionContext(Map.of("example", "test"))
.build());
}
}
resources:
example:
type: aws:kms:Key
properties:
deletionWindowInDays: 10
policy: ${keyPolicy.json}
exampleIntegration:
type: aws:rds:Integration
name: example
properties:
integrationName: example
sourceArn: ${exampleAwsRdsCluster.arn}
targetArn: ${exampleAwsRedshiftserverlessNamespace.arn}
kmsKeyId: ${example.arn}
additionalEncryptionContext:
example: test
variables:
current:
fn::invoke:
Function: aws:getCallerIdentity
Arguments: {}
keyPolicy:
fn::invoke:
Function: aws:iam:getPolicyDocument
Arguments:
statements:
- actions:
- kms:*
resources:
- '*'
principals:
- type: AWS
identifiers:
- arn:aws:iam::${current.accountId}:root
- actions:
- kms:CreateGrant
resources:
- '*'
principals:
- type: Service
identifiers:
- redshift.amazonaws.com
Create Integration Resource
Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.
Constructor syntax
new Integration(name: string, args: IntegrationArgs, opts?: CustomResourceOptions);
@overload
def Integration(resource_name: str,
args: IntegrationArgs,
opts: Optional[ResourceOptions] = None)
@overload
def Integration(resource_name: str,
opts: Optional[ResourceOptions] = None,
integration_name: Optional[str] = None,
source_arn: Optional[str] = None,
target_arn: Optional[str] = None,
additional_encryption_context: Optional[Mapping[str, str]] = None,
kms_key_id: Optional[str] = None,
tags: Optional[Mapping[str, str]] = None,
timeouts: Optional[IntegrationTimeoutsArgs] = None)
func NewIntegration(ctx *Context, name string, args IntegrationArgs, opts ...ResourceOption) (*Integration, error)
public Integration(string name, IntegrationArgs args, CustomResourceOptions? opts = null)
public Integration(String name, IntegrationArgs args)
public Integration(String name, IntegrationArgs args, CustomResourceOptions options)
type: aws:rds:Integration
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 IntegrationArgs
- 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 IntegrationArgs
- 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 IntegrationArgs
- The arguments to resource properties.
- opts ResourceOption
- Bag of options to control resource's behavior.
- name string
- The unique name of the resource.
- args IntegrationArgs
- The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- name String
- The unique name of the resource.
- args IntegrationArgs
- 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 exampleintegrationResourceResourceFromRdsintegration = new Aws.Rds.Integration("exampleintegrationResourceResourceFromRdsintegration", new()
{
IntegrationName = "string",
SourceArn = "string",
TargetArn = "string",
AdditionalEncryptionContext =
{
{ "string", "string" },
},
KmsKeyId = "string",
Tags =
{
{ "string", "string" },
},
Timeouts = new Aws.Rds.Inputs.IntegrationTimeoutsArgs
{
Create = "string",
Delete = "string",
},
});
example, err := rds.NewIntegration(ctx, "exampleintegrationResourceResourceFromRdsintegration", &rds.IntegrationArgs{
IntegrationName: pulumi.String("string"),
SourceArn: pulumi.String("string"),
TargetArn: pulumi.String("string"),
AdditionalEncryptionContext: pulumi.StringMap{
"string": pulumi.String("string"),
},
KmsKeyId: pulumi.String("string"),
Tags: pulumi.StringMap{
"string": pulumi.String("string"),
},
Timeouts: &rds.IntegrationTimeoutsArgs{
Create: pulumi.String("string"),
Delete: pulumi.String("string"),
},
})
var exampleintegrationResourceResourceFromRdsintegration = new Integration("exampleintegrationResourceResourceFromRdsintegration", IntegrationArgs.builder()
.integrationName("string")
.sourceArn("string")
.targetArn("string")
.additionalEncryptionContext(Map.of("string", "string"))
.kmsKeyId("string")
.tags(Map.of("string", "string"))
.timeouts(IntegrationTimeoutsArgs.builder()
.create("string")
.delete("string")
.build())
.build());
exampleintegration_resource_resource_from_rdsintegration = aws.rds.Integration("exampleintegrationResourceResourceFromRdsintegration",
integration_name="string",
source_arn="string",
target_arn="string",
additional_encryption_context={
"string": "string",
},
kms_key_id="string",
tags={
"string": "string",
},
timeouts={
"create": "string",
"delete": "string",
})
const exampleintegrationResourceResourceFromRdsintegration = new aws.rds.Integration("exampleintegrationResourceResourceFromRdsintegration", {
integrationName: "string",
sourceArn: "string",
targetArn: "string",
additionalEncryptionContext: {
string: "string",
},
kmsKeyId: "string",
tags: {
string: "string",
},
timeouts: {
create: "string",
"delete": "string",
},
});
type: aws:rds:Integration
properties:
additionalEncryptionContext:
string: string
integrationName: string
kmsKeyId: string
sourceArn: string
tags:
string: string
targetArn: string
timeouts:
create: string
delete: string
Integration 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 Integration resource accepts the following input properties:
- Integration
Name string - Name of the integration.
- Source
Arn string - ARN of the database to use as the source for replication.
- Target
Arn string ARN of the Redshift data warehouse to use as the target for replication.
The following arguments are optional:
- Additional
Encryption Dictionary<string, string>Context - Set of non-secret key–value pairs that contains additional contextual information about the data. For more information, see the User Guide. You can only include this parameter if you specify the
kms_key_id
parameter. - Kms
Key stringId - KMS key identifier for the key to use to encrypt the integration. If you don't specify an encryption key, RDS uses a default AWS owned key. If you use the default AWS owned key, you should ignore
kms_key_id
parameter by usinglifecycle
parameter to avoid unintended change after the first creation. - Dictionary<string, string>
- Key-value map of resource tags. If configured with a provider
default_tags
configuration block present, tags with matching keys will overwrite those defined at the provider-level. - Timeouts
Integration
Timeouts
- Integration
Name string - Name of the integration.
- Source
Arn string - ARN of the database to use as the source for replication.
- Target
Arn string ARN of the Redshift data warehouse to use as the target for replication.
The following arguments are optional:
- Additional
Encryption map[string]stringContext - Set of non-secret key–value pairs that contains additional contextual information about the data. For more information, see the User Guide. You can only include this parameter if you specify the
kms_key_id
parameter. - Kms
Key stringId - KMS key identifier for the key to use to encrypt the integration. If you don't specify an encryption key, RDS uses a default AWS owned key. If you use the default AWS owned key, you should ignore
kms_key_id
parameter by usinglifecycle
parameter to avoid unintended change after the first creation. - map[string]string
- Key-value map of resource tags. If configured with a provider
default_tags
configuration block present, tags with matching keys will overwrite those defined at the provider-level. - Timeouts
Integration
Timeouts Args
- integration
Name String - Name of the integration.
- source
Arn String - ARN of the database to use as the source for replication.
- target
Arn String ARN of the Redshift data warehouse to use as the target for replication.
The following arguments are optional:
- additional
Encryption Map<String,String>Context - Set of non-secret key–value pairs that contains additional contextual information about the data. For more information, see the User Guide. You can only include this parameter if you specify the
kms_key_id
parameter. - kms
Key StringId - KMS key identifier for the key to use to encrypt the integration. If you don't specify an encryption key, RDS uses a default AWS owned key. If you use the default AWS owned key, you should ignore
kms_key_id
parameter by usinglifecycle
parameter to avoid unintended change after the first creation. - Map<String,String>
- Key-value map of resource tags. If configured with a provider
default_tags
configuration block present, tags with matching keys will overwrite those defined at the provider-level. - timeouts
Integration
Timeouts
- integration
Name string - Name of the integration.
- source
Arn string - ARN of the database to use as the source for replication.
- target
Arn string ARN of the Redshift data warehouse to use as the target for replication.
The following arguments are optional:
- additional
Encryption {[key: string]: string}Context - Set of non-secret key–value pairs that contains additional contextual information about the data. For more information, see the User Guide. You can only include this parameter if you specify the
kms_key_id
parameter. - kms
Key stringId - KMS key identifier for the key to use to encrypt the integration. If you don't specify an encryption key, RDS uses a default AWS owned key. If you use the default AWS owned key, you should ignore
kms_key_id
parameter by usinglifecycle
parameter to avoid unintended change after the first creation. - {[key: string]: string}
- Key-value map of resource tags. If configured with a provider
default_tags
configuration block present, tags with matching keys will overwrite those defined at the provider-level. - timeouts
Integration
Timeouts
- integration_
name str - Name of the integration.
- source_
arn str - ARN of the database to use as the source for replication.
- target_
arn str ARN of the Redshift data warehouse to use as the target for replication.
The following arguments are optional:
- additional_
encryption_ Mapping[str, str]context - Set of non-secret key–value pairs that contains additional contextual information about the data. For more information, see the User Guide. You can only include this parameter if you specify the
kms_key_id
parameter. - kms_
key_ strid - KMS key identifier for the key to use to encrypt the integration. If you don't specify an encryption key, RDS uses a default AWS owned key. If you use the default AWS owned key, you should ignore
kms_key_id
parameter by usinglifecycle
parameter to avoid unintended change after the first creation. - Mapping[str, str]
- Key-value map of resource tags. If configured with a provider
default_tags
configuration block present, tags with matching keys will overwrite those defined at the provider-level. - timeouts
Integration
Timeouts Args
- integration
Name String - Name of the integration.
- source
Arn String - ARN of the database to use as the source for replication.
- target
Arn String ARN of the Redshift data warehouse to use as the target for replication.
The following arguments are optional:
- additional
Encryption Map<String>Context - Set of non-secret key–value pairs that contains additional contextual information about the data. For more information, see the User Guide. You can only include this parameter if you specify the
kms_key_id
parameter. - kms
Key StringId - KMS key identifier for the key to use to encrypt the integration. If you don't specify an encryption key, RDS uses a default AWS owned key. If you use the default AWS owned key, you should ignore
kms_key_id
parameter by usinglifecycle
parameter to avoid unintended change after the first creation. - Map<String>
- Key-value map of resource tags. If configured with a provider
default_tags
configuration block present, tags with matching keys will overwrite those defined at the provider-level. - timeouts Property Map
Outputs
All input properties are implicitly available as output properties. Additionally, the Integration resource produces the following output properties:
Look up Existing Integration Resource
Get an existing Integration 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?: IntegrationState, opts?: CustomResourceOptions): Integration
@staticmethod
def get(resource_name: str,
id: str,
opts: Optional[ResourceOptions] = None,
additional_encryption_context: Optional[Mapping[str, str]] = None,
arn: Optional[str] = None,
integration_name: Optional[str] = None,
kms_key_id: Optional[str] = None,
source_arn: Optional[str] = None,
tags: Optional[Mapping[str, str]] = None,
tags_all: Optional[Mapping[str, str]] = None,
target_arn: Optional[str] = None,
timeouts: Optional[IntegrationTimeoutsArgs] = None) -> Integration
func GetIntegration(ctx *Context, name string, id IDInput, state *IntegrationState, opts ...ResourceOption) (*Integration, error)
public static Integration Get(string name, Input<string> id, IntegrationState? state, CustomResourceOptions? opts = null)
public static Integration get(String name, Output<String> id, IntegrationState state, CustomResourceOptions options)
Resource lookup is not supported in YAML
- 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.
- Additional
Encryption Dictionary<string, string>Context - Set of non-secret key–value pairs that contains additional contextual information about the data. For more information, see the User Guide. You can only include this parameter if you specify the
kms_key_id
parameter. - Arn string
- ARN of the Integration.
- Integration
Name string - Name of the integration.
- Kms
Key stringId - KMS key identifier for the key to use to encrypt the integration. If you don't specify an encryption key, RDS uses a default AWS owned key. If you use the default AWS owned key, you should ignore
kms_key_id
parameter by usinglifecycle
parameter to avoid unintended change after the first creation. - Source
Arn string - ARN of the database to use as the source for replication.
- Dictionary<string, string>
- Key-value map of resource tags. If configured with a provider
default_tags
configuration block present, tags with matching keys will overwrite those defined at the provider-level. - Dictionary<string, string>
- A map of tags assigned to the resource, including those inherited from the provider
default_tags
configuration block. - Target
Arn string ARN of the Redshift data warehouse to use as the target for replication.
The following arguments are optional:
- Timeouts
Integration
Timeouts
- Additional
Encryption map[string]stringContext - Set of non-secret key–value pairs that contains additional contextual information about the data. For more information, see the User Guide. You can only include this parameter if you specify the
kms_key_id
parameter. - Arn string
- ARN of the Integration.
- Integration
Name string - Name of the integration.
- Kms
Key stringId - KMS key identifier for the key to use to encrypt the integration. If you don't specify an encryption key, RDS uses a default AWS owned key. If you use the default AWS owned key, you should ignore
kms_key_id
parameter by usinglifecycle
parameter to avoid unintended change after the first creation. - Source
Arn string - ARN of the database to use as the source for replication.
- map[string]string
- Key-value map of resource tags. If configured with a provider
default_tags
configuration block present, tags with matching keys will overwrite those defined at the provider-level. - map[string]string
- A map of tags assigned to the resource, including those inherited from the provider
default_tags
configuration block. - Target
Arn string ARN of the Redshift data warehouse to use as the target for replication.
The following arguments are optional:
- Timeouts
Integration
Timeouts Args
- additional
Encryption Map<String,String>Context - Set of non-secret key–value pairs that contains additional contextual information about the data. For more information, see the User Guide. You can only include this parameter if you specify the
kms_key_id
parameter. - arn String
- ARN of the Integration.
- integration
Name String - Name of the integration.
- kms
Key StringId - KMS key identifier for the key to use to encrypt the integration. If you don't specify an encryption key, RDS uses a default AWS owned key. If you use the default AWS owned key, you should ignore
kms_key_id
parameter by usinglifecycle
parameter to avoid unintended change after the first creation. - source
Arn String - ARN of the database to use as the source for replication.
- Map<String,String>
- Key-value map of resource tags. If configured with a provider
default_tags
configuration block present, tags with matching keys will overwrite those defined at the provider-level. - Map<String,String>
- A map of tags assigned to the resource, including those inherited from the provider
default_tags
configuration block. - target
Arn String ARN of the Redshift data warehouse to use as the target for replication.
The following arguments are optional:
- timeouts
Integration
Timeouts
- additional
Encryption {[key: string]: string}Context - Set of non-secret key–value pairs that contains additional contextual information about the data. For more information, see the User Guide. You can only include this parameter if you specify the
kms_key_id
parameter. - arn string
- ARN of the Integration.
- integration
Name string - Name of the integration.
- kms
Key stringId - KMS key identifier for the key to use to encrypt the integration. If you don't specify an encryption key, RDS uses a default AWS owned key. If you use the default AWS owned key, you should ignore
kms_key_id
parameter by usinglifecycle
parameter to avoid unintended change after the first creation. - source
Arn string - ARN of the database to use as the source for replication.
- {[key: string]: string}
- Key-value map of resource tags. If configured with a provider
default_tags
configuration block present, tags with matching keys will overwrite those defined at the provider-level. - {[key: string]: string}
- A map of tags assigned to the resource, including those inherited from the provider
default_tags
configuration block. - target
Arn string ARN of the Redshift data warehouse to use as the target for replication.
The following arguments are optional:
- timeouts
Integration
Timeouts
- additional_
encryption_ Mapping[str, str]context - Set of non-secret key–value pairs that contains additional contextual information about the data. For more information, see the User Guide. You can only include this parameter if you specify the
kms_key_id
parameter. - arn str
- ARN of the Integration.
- integration_
name str - Name of the integration.
- kms_
key_ strid - KMS key identifier for the key to use to encrypt the integration. If you don't specify an encryption key, RDS uses a default AWS owned key. If you use the default AWS owned key, you should ignore
kms_key_id
parameter by usinglifecycle
parameter to avoid unintended change after the first creation. - source_
arn str - ARN of the database to use as the source for replication.
- Mapping[str, str]
- Key-value map of resource tags. If configured with a provider
default_tags
configuration block present, tags with matching keys will overwrite those defined at the provider-level. - Mapping[str, str]
- A map of tags assigned to the resource, including those inherited from the provider
default_tags
configuration block. - target_
arn str ARN of the Redshift data warehouse to use as the target for replication.
The following arguments are optional:
- timeouts
Integration
Timeouts Args
- additional
Encryption Map<String>Context - Set of non-secret key–value pairs that contains additional contextual information about the data. For more information, see the User Guide. You can only include this parameter if you specify the
kms_key_id
parameter. - arn String
- ARN of the Integration.
- integration
Name String - Name of the integration.
- kms
Key StringId - KMS key identifier for the key to use to encrypt the integration. If you don't specify an encryption key, RDS uses a default AWS owned key. If you use the default AWS owned key, you should ignore
kms_key_id
parameter by usinglifecycle
parameter to avoid unintended change after the first creation. - source
Arn String - ARN of the database to use as the source for replication.
- Map<String>
- Key-value map of resource tags. If configured with a provider
default_tags
configuration block present, tags with matching keys will overwrite those defined at the provider-level. - Map<String>
- A map of tags assigned to the resource, including those inherited from the provider
default_tags
configuration block. - target
Arn String ARN of the Redshift data warehouse to use as the target for replication.
The following arguments are optional:
- timeouts Property Map
Supporting Types
IntegrationTimeouts, IntegrationTimeoutsArgs
- Create string
- A string that can be parsed as a duration consisting of numbers and unit suffixes, such as "30s" or "2h45m". Valid time units are "s" (seconds), "m" (minutes), "h" (hours).
- Delete string
- A string that can be parsed as a duration consisting of numbers and unit suffixes, such as "30s" or "2h45m". Valid time units are "s" (seconds), "m" (minutes), "h" (hours). Setting a timeout for a Delete operation is only applicable if changes are saved into state before the destroy operation occurs.
- Create string
- A string that can be parsed as a duration consisting of numbers and unit suffixes, such as "30s" or "2h45m". Valid time units are "s" (seconds), "m" (minutes), "h" (hours).
- Delete string
- A string that can be parsed as a duration consisting of numbers and unit suffixes, such as "30s" or "2h45m". Valid time units are "s" (seconds), "m" (minutes), "h" (hours). Setting a timeout for a Delete operation is only applicable if changes are saved into state before the destroy operation occurs.
- create String
- A string that can be parsed as a duration consisting of numbers and unit suffixes, such as "30s" or "2h45m". Valid time units are "s" (seconds), "m" (minutes), "h" (hours).
- delete String
- A string that can be parsed as a duration consisting of numbers and unit suffixes, such as "30s" or "2h45m". Valid time units are "s" (seconds), "m" (minutes), "h" (hours). Setting a timeout for a Delete operation is only applicable if changes are saved into state before the destroy operation occurs.
- create string
- A string that can be parsed as a duration consisting of numbers and unit suffixes, such as "30s" or "2h45m". Valid time units are "s" (seconds), "m" (minutes), "h" (hours).
- delete string
- A string that can be parsed as a duration consisting of numbers and unit suffixes, such as "30s" or "2h45m". Valid time units are "s" (seconds), "m" (minutes), "h" (hours). Setting a timeout for a Delete operation is only applicable if changes are saved into state before the destroy operation occurs.
- create str
- A string that can be parsed as a duration consisting of numbers and unit suffixes, such as "30s" or "2h45m". Valid time units are "s" (seconds), "m" (minutes), "h" (hours).
- delete str
- A string that can be parsed as a duration consisting of numbers and unit suffixes, such as "30s" or "2h45m". Valid time units are "s" (seconds), "m" (minutes), "h" (hours). Setting a timeout for a Delete operation is only applicable if changes are saved into state before the destroy operation occurs.
- create String
- A string that can be parsed as a duration consisting of numbers and unit suffixes, such as "30s" or "2h45m". Valid time units are "s" (seconds), "m" (minutes), "h" (hours).
- delete String
- A string that can be parsed as a duration consisting of numbers and unit suffixes, such as "30s" or "2h45m". Valid time units are "s" (seconds), "m" (minutes), "h" (hours). Setting a timeout for a Delete operation is only applicable if changes are saved into state before the destroy operation occurs.
Import
Using pulumi import
, import RDS (Relational Database) Integration using the arn
. For example:
$ pulumi import aws:rds/integration:Integration example arn:aws:rds:us-west-2:123456789012:integration:abcdefgh-0000-1111-2222-123456789012
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.