Connect
data class ConnectClusterArgs(val capacityConfig: Output<ConnectClusterCapacityConfigArgs>? = null, val connectClusterId: Output<String>? = null, val gcpConfig: Output<ConnectClusterGcpConfigArgs>? = null, val kafkaCluster: Output<String>? = null, val labels: Output<Map<String, String>>? = null, val location: Output<String>? = null, val project: Output<String>? = null) : ConvertibleToJava<ConnectClusterArgs>
Example Usage
Managedkafka Connect Cluster Basic
import * as pulumi from "@pulumi/pulumi";
import * as gcp from "@pulumi/gcp";
import * as time from "@pulumi/time";
const project = new gcp.organizations.Project("project", {
projectId: "tf-test_91980",
name: "tf-test_37118",
orgId: "123456789",
billingAccount: "000000-0000000-0000000-000000",
deletionPolicy: "DELETE",
});
const wait60Seconds = new time.index.Sleep("wait_60_seconds", {createDuration: "60s"}, {
dependsOn: [project],
});
const compute = new gcp.projects.Service("compute", {
project: project.projectId,
service: "compute.googleapis.com",
}, {
dependsOn: [wait60Seconds],
});
const managedkafka = new gcp.projects.Service("managedkafka", {
project: project.projectId,
service: "managedkafka.googleapis.com",
}, {
dependsOn: [compute],
});
const wait120Seconds = new time.index.Sleep("wait_120_seconds", {createDuration: "120s"}, {
dependsOn: [managedkafka],
});
const mkcSecondarySubnet = new gcp.compute.Subnetwork("mkc_secondary_subnet", {
project: project.projectId,
name: "my-secondary-subnetwork",
ipCidrRange: "10.3.0.0/16",
region: "us-central1",
network: "default",
}, {
dependsOn: [wait120Seconds],
});
const gmkCluster = new gcp.managedkafka.Cluster("gmk_cluster", {
project: project.projectId,
clusterId: "my-cluster",
location: "us-central1",
capacityConfig: {
vcpuCount: "3",
memoryBytes: "3221225472",
},
gcpConfig: {
accessConfig: {
networkConfigs: [{
subnet: pulumi.interpolate`projects/${project.projectId}/regions/us-central1/subnetworks/default`,
}],
},
},
}, {
dependsOn: [managedkafka],
});
const example = new gcp.managedkafka.ConnectCluster("example", {
project: project.projectId,
connectClusterId: "my-connect-cluster",
kafkaCluster: pulumi.interpolate`projects/${project.projectId}/locations/us-central1/clusters/${gmkCluster.clusterId}`,
location: "us-central1",
capacityConfig: {
vcpuCount: "12",
memoryBytes: "21474836480",
},
gcpConfig: {
accessConfig: {
networkConfigs: [{
primarySubnet: pulumi.interpolate`projects/${project.projectId}/regions/us-central1/subnetworks/default`,
additionalSubnets: [mkcSecondarySubnet.id],
dnsDomainNames: [pulumi.interpolate`${gmkCluster.clusterId}.us-central1.managedkafka.${project.projectId}.cloud.goog`],
}],
},
},
labels: {
key: "value",
},
}, {
dependsOn: [managedkafka],
});Content copied to clipboard
import pulumi
import pulumi_gcp as gcp
import pulumi_time as time
project = gcp.organizations.Project("project",
project_id="tf-test_91980",
name="tf-test_37118",
org_id="123456789",
billing_account="000000-0000000-0000000-000000",
deletion_policy="DELETE")
wait60_seconds = time.index.Sleep("wait_60_seconds", create_duration=60s,
opts = pulumi.ResourceOptions(depends_on=[project]))
compute = gcp.projects.Service("compute",
project=project.project_id,
service="compute.googleapis.com",
opts = pulumi.ResourceOptions(depends_on=[wait60_seconds]))
managedkafka = gcp.projects.Service("managedkafka",
project=project.project_id,
service="managedkafka.googleapis.com",
opts = pulumi.ResourceOptions(depends_on=[compute]))
wait120_seconds = time.index.Sleep("wait_120_seconds", create_duration=120s,
opts = pulumi.ResourceOptions(depends_on=[managedkafka]))
mkc_secondary_subnet = gcp.compute.Subnetwork("mkc_secondary_subnet",
project=project.project_id,
name="my-secondary-subnetwork",
ip_cidr_range="10.3.0.0/16",
region="us-central1",
network="default",
opts = pulumi.ResourceOptions(depends_on=[wait120_seconds]))
gmk_cluster = gcp.managedkafka.Cluster("gmk_cluster",
project=project.project_id,
cluster_id="my-cluster",
location="us-central1",
capacity_config={
"vcpu_count": "3",
"memory_bytes": "3221225472",
},
gcp_config={
"access_config": {
"network_configs": [{
"subnet": project.project_id.apply(lambda project_id: f"projects/{project_id}/regions/us-central1/subnetworks/default"),
}],
},
},
opts = pulumi.ResourceOptions(depends_on=[managedkafka]))
example = gcp.managedkafka.ConnectCluster("example",
project=project.project_id,
connect_cluster_id="my-connect-cluster",
kafka_cluster=pulumi.Output.all(
project_id=project.project_id,
cluster_id=gmk_cluster.cluster_id
).apply(lambda resolved_outputs: f"projects/{resolved_outputs['project_id']}/locations/us-central1/clusters/{resolved_outputs['cluster_id']}")
,
location="us-central1",
capacity_config={
"vcpu_count": "12",
"memory_bytes": "21474836480",
},
gcp_config={
"access_config": {
"network_configs": [{
"primary_subnet": project.project_id.apply(lambda project_id: f"projects/{project_id}/regions/us-central1/subnetworks/default"),
"additional_subnets": [mkc_secondary_subnet.id],
"dns_domain_names": [pulumi.Output.all(
cluster_id=gmk_cluster.cluster_id,
project_id=project.project_id
).apply(lambda resolved_outputs: f"{resolved_outputs['cluster_id']}.us-central1.managedkafka.{resolved_outputs['project_id']}.cloud.goog")
],
}],
},
},
labels={
"key": "value",
},
opts = pulumi.ResourceOptions(depends_on=[managedkafka]))Content copied to clipboard
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Gcp = Pulumi.Gcp;
using Time = Pulumi.Time;
return await Deployment.RunAsync(() =>
{
var project = new Gcp.Organizations.Project("project", new()
{
ProjectId = "tf-test_91980",
Name = "tf-test_37118",
OrgId = "123456789",
BillingAccount = "000000-0000000-0000000-000000",
DeletionPolicy = "DELETE",
});
var wait60Seconds = new Time.Index.Sleep("wait_60_seconds", new()
{
CreateDuration = "60s",
}, new CustomResourceOptions
{
DependsOn =
{
project,
},
});
var compute = new Gcp.Projects.Service("compute", new()
{
Project = project.ProjectId,
ServiceName = "compute.googleapis.com",
}, new CustomResourceOptions
{
DependsOn =
{
wait60Seconds,
},
});
var managedkafka = new Gcp.Projects.Service("managedkafka", new()
{
Project = project.ProjectId,
ServiceName = "managedkafka.googleapis.com",
}, new CustomResourceOptions
{
DependsOn =
{
compute,
},
});
var wait120Seconds = new Time.Index.Sleep("wait_120_seconds", new()
{
CreateDuration = "120s",
}, new CustomResourceOptions
{
DependsOn =
{
managedkafka,
},
});
var mkcSecondarySubnet = new Gcp.Compute.Subnetwork("mkc_secondary_subnet", new()
{
Project = project.ProjectId,
Name = "my-secondary-subnetwork",
IpCidrRange = "10.3.0.0/16",
Region = "us-central1",
Network = "default",
}, new CustomResourceOptions
{
DependsOn =
{
wait120Seconds,
},
});
var gmkCluster = new Gcp.ManagedKafka.Cluster("gmk_cluster", new()
{
Project = project.ProjectId,
ClusterId = "my-cluster",
Location = "us-central1",
CapacityConfig = new Gcp.ManagedKafka.Inputs.ClusterCapacityConfigArgs
{
VcpuCount = "3",
MemoryBytes = "3221225472",
},
GcpConfig = new Gcp.ManagedKafka.Inputs.ClusterGcpConfigArgs
{
AccessConfig = new Gcp.ManagedKafka.Inputs.ClusterGcpConfigAccessConfigArgs
{
NetworkConfigs = new[]
{
new Gcp.ManagedKafka.Inputs.ClusterGcpConfigAccessConfigNetworkConfigArgs
{
Subnet = project.ProjectId.Apply(projectId => $"projects/{projectId}/regions/us-central1/subnetworks/default"),
},
},
},
},
}, new CustomResourceOptions
{
DependsOn =
{
managedkafka,
},
});
var example = new Gcp.ManagedKafka.ConnectCluster("example", new()
{
Project = project.ProjectId,
ConnectClusterId = "my-connect-cluster",
KafkaCluster = Output.Tuple(project.ProjectId, gmkCluster.ClusterId).Apply(values =>
{
var projectId = values.Item1;
var clusterId = values.Item2;
return $"projects/{projectId}/locations/us-central1/clusters/{clusterId}";
}),
Location = "us-central1",
CapacityConfig = new Gcp.ManagedKafka.Inputs.ConnectClusterCapacityConfigArgs
{
VcpuCount = "12",
MemoryBytes = "21474836480",
},
GcpConfig = new Gcp.ManagedKafka.Inputs.ConnectClusterGcpConfigArgs
{
AccessConfig = new Gcp.ManagedKafka.Inputs.ConnectClusterGcpConfigAccessConfigArgs
{
NetworkConfigs = new[]
{
new Gcp.ManagedKafka.Inputs.ConnectClusterGcpConfigAccessConfigNetworkConfigArgs
{
PrimarySubnet = project.ProjectId.Apply(projectId => $"projects/{projectId}/regions/us-central1/subnetworks/default"),
AdditionalSubnets = new[]
{
mkcSecondarySubnet.Id,
},
DnsDomainNames = new[]
{
Output.Tuple(gmkCluster.ClusterId, project.ProjectId).Apply(values =>
{
var clusterId = values.Item1;
var projectId = values.Item2;
return $"{clusterId}.us-central1.managedkafka.{projectId}.cloud.goog";
}),
},
},
},
},
},
Labels =
{
{ "key", "value" },
},
}, new CustomResourceOptions
{
DependsOn =
{
managedkafka,
},
});
});Content copied to clipboard
package main
import (
"fmt"
"github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/compute"
"github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/managedkafka"
"github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/organizations"
"github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/projects"
"github.com/pulumi/pulumi-time/sdk/go/time"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
project, err := organizations.NewProject(ctx, "project", &organizations.ProjectArgs{
ProjectId: pulumi.String("tf-test_91980"),
Name: pulumi.String("tf-test_37118"),
OrgId: pulumi.String("123456789"),
BillingAccount: pulumi.String("000000-0000000-0000000-000000"),
DeletionPolicy: pulumi.String("DELETE"),
})
if err != nil {
return err
}
wait60Seconds, err := time.NewSleep(ctx, "wait_60_seconds", &time.SleepArgs{
CreateDuration: "60s",
}, pulumi.DependsOn([]pulumi.Resource{
project,
}))
if err != nil {
return err
}
compute, err := projects.NewService(ctx, "compute", &projects.ServiceArgs{
Project: project.ProjectId,
Service: pulumi.String("compute.googleapis.com"),
}, pulumi.DependsOn([]pulumi.Resource{
wait60Seconds,
}))
if err != nil {
return err
}
managedkafka, err := projects.NewService(ctx, "managedkafka", &projects.ServiceArgs{
Project: project.ProjectId,
Service: pulumi.String("managedkafka.googleapis.com"),
}, pulumi.DependsOn([]pulumi.Resource{
compute,
}))
if err != nil {
return err
}
wait120Seconds, err := time.NewSleep(ctx, "wait_120_seconds", &time.SleepArgs{
CreateDuration: "120s",
}, pulumi.DependsOn([]pulumi.Resource{
managedkafka,
}))
if err != nil {
return err
}
mkcSecondarySubnet, err := compute.NewSubnetwork(ctx, "mkc_secondary_subnet", &compute.SubnetworkArgs{
Project: project.ProjectId,
Name: pulumi.String("my-secondary-subnetwork"),
IpCidrRange: pulumi.String("10.3.0.0/16"),
Region: pulumi.String("us-central1"),
Network: pulumi.String("default"),
}, pulumi.DependsOn([]pulumi.Resource{
wait120Seconds,
}))
if err != nil {
return err
}
gmkCluster, err := managedkafka.NewCluster(ctx, "gmk_cluster", &managedkafka.ClusterArgs{
Project: project.ProjectId,
ClusterId: pulumi.String("my-cluster"),
Location: pulumi.String("us-central1"),
CapacityConfig: &managedkafka.ClusterCapacityConfigArgs{
VcpuCount: pulumi.String("3"),
MemoryBytes: pulumi.String("3221225472"),
},
GcpConfig: &managedkafka.ClusterGcpConfigArgs{
AccessConfig: &managedkafka.ClusterGcpConfigAccessConfigArgs{
NetworkConfigs: managedkafka.ClusterGcpConfigAccessConfigNetworkConfigArray{
&managedkafka.ClusterGcpConfigAccessConfigNetworkConfigArgs{
Subnet: project.ProjectId.ApplyT(func(projectId string) (string, error) {
return fmt.Sprintf("projects/%v/regions/us-central1/subnetworks/default", projectId), nil
}).(pulumi.StringOutput),
},
},
},
},
}, pulumi.DependsOn([]pulumi.Resource{
managedkafka,
}))
if err != nil {
return err
}
_, err = managedkafka.NewConnectCluster(ctx, "example", &managedkafka.ConnectClusterArgs{
Project: project.ProjectId,
ConnectClusterId: pulumi.String("my-connect-cluster"),
KafkaCluster: pulumi.All(project.ProjectId, gmkCluster.ClusterId).ApplyT(func(_args []interface{}) (string, error) {
projectId := _args[0].(string)
clusterId := _args[1].(string)
return fmt.Sprintf("projects/%v/locations/us-central1/clusters/%v", projectId, clusterId), nil
}).(pulumi.StringOutput),
Location: pulumi.String("us-central1"),
CapacityConfig: &managedkafka.ConnectClusterCapacityConfigArgs{
VcpuCount: pulumi.String("12"),
MemoryBytes: pulumi.String("21474836480"),
},
GcpConfig: &managedkafka.ConnectClusterGcpConfigArgs{
AccessConfig: &managedkafka.ConnectClusterGcpConfigAccessConfigArgs{
NetworkConfigs: managedkafka.ConnectClusterGcpConfigAccessConfigNetworkConfigArray{
&managedkafka.ConnectClusterGcpConfigAccessConfigNetworkConfigArgs{
PrimarySubnet: project.ProjectId.ApplyT(func(projectId string) (string, error) {
return fmt.Sprintf("projects/%v/regions/us-central1/subnetworks/default", projectId), nil
}).(pulumi.StringOutput),
AdditionalSubnets: pulumi.StringArray{
mkcSecondarySubnet.ID(),
},
DnsDomainNames: pulumi.StringArray{
pulumi.All(gmkCluster.ClusterId, project.ProjectId).ApplyT(func(_args []interface{}) (string, error) {
clusterId := _args[0].(string)
projectId := _args[1].(string)
return fmt.Sprintf("%v.us-central1.managedkafka.%v.cloud.goog", clusterId, projectId), nil
}).(pulumi.StringOutput),
},
},
},
},
},
Labels: pulumi.StringMap{
"key": pulumi.String("value"),
},
}, pulumi.DependsOn([]pulumi.Resource{
managedkafka,
}))
if err != nil {
return err
}
return nil
})
}Content copied to clipboard
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.gcp.organizations.Project;
import com.pulumi.gcp.organizations.ProjectArgs;
import com.pulumi.time.sleep;
import com.pulumi.time.sleepArgs;
import com.pulumi.gcp.projects.Service;
import com.pulumi.gcp.projects.ServiceArgs;
import com.pulumi.gcp.compute.Subnetwork;
import com.pulumi.gcp.compute.SubnetworkArgs;
import com.pulumi.gcp.managedkafka.Cluster;
import com.pulumi.gcp.managedkafka.ClusterArgs;
import com.pulumi.gcp.managedkafka.inputs.ClusterCapacityConfigArgs;
import com.pulumi.gcp.managedkafka.inputs.ClusterGcpConfigArgs;
import com.pulumi.gcp.managedkafka.inputs.ClusterGcpConfigAccessConfigArgs;
import com.pulumi.gcp.managedkafka.ConnectCluster;
import com.pulumi.gcp.managedkafka.ConnectClusterArgs;
import com.pulumi.gcp.managedkafka.inputs.ConnectClusterCapacityConfigArgs;
import com.pulumi.gcp.managedkafka.inputs.ConnectClusterGcpConfigArgs;
import com.pulumi.gcp.managedkafka.inputs.ConnectClusterGcpConfigAccessConfigArgs;
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 project = new Project("project", ProjectArgs.builder()
.projectId("tf-test_91980")
.name("tf-test_37118")
.orgId("123456789")
.billingAccount("000000-0000000-0000000-000000")
.deletionPolicy("DELETE")
.build());
var wait60Seconds = new Sleep("wait60Seconds", SleepArgs.builder()
.createDuration("60s")
.build(), CustomResourceOptions.builder()
.dependsOn(List.of(project))
.build());
var compute = new Service("compute", ServiceArgs.builder()
.project(project.projectId())
.service("compute.googleapis.com")
.build(), CustomResourceOptions.builder()
.dependsOn(wait60Seconds)
.build());
var managedkafka = new Service("managedkafka", ServiceArgs.builder()
.project(project.projectId())
.service("managedkafka.googleapis.com")
.build(), CustomResourceOptions.builder()
.dependsOn(compute)
.build());
var wait120Seconds = new Sleep("wait120Seconds", SleepArgs.builder()
.createDuration("120s")
.build(), CustomResourceOptions.builder()
.dependsOn(List.of(managedkafka))
.build());
var mkcSecondarySubnet = new Subnetwork("mkcSecondarySubnet", SubnetworkArgs.builder()
.project(project.projectId())
.name("my-secondary-subnetwork")
.ipCidrRange("10.3.0.0/16")
.region("us-central1")
.network("default")
.build(), CustomResourceOptions.builder()
.dependsOn(wait120Seconds)
.build());
var gmkCluster = new Cluster("gmkCluster", ClusterArgs.builder()
.project(project.projectId())
.clusterId("my-cluster")
.location("us-central1")
.capacityConfig(ClusterCapacityConfigArgs.builder()
.vcpuCount("3")
.memoryBytes("3221225472")
.build())
.gcpConfig(ClusterGcpConfigArgs.builder()
.accessConfig(ClusterGcpConfigAccessConfigArgs.builder()
.networkConfigs(ClusterGcpConfigAccessConfigNetworkConfigArgs.builder()
.subnet(project.projectId().applyValue(_projectId -> String.format("projects/%s/regions/us-central1/subnetworks/default", _projectId)))
.build())
.build())
.build())
.build(), CustomResourceOptions.builder()
.dependsOn(managedkafka)
.build());
var example = new ConnectCluster("example", ConnectClusterArgs.builder()
.project(project.projectId())
.connectClusterId("my-connect-cluster")
.kafkaCluster(Output.tuple(project.projectId(), gmkCluster.clusterId()).applyValue(values -> {
var projectId = values.t1;
var clusterId = values.t2;
return String.format("projects/%s/locations/us-central1/clusters/%s", projectId,clusterId);
}))
.location("us-central1")
.capacityConfig(ConnectClusterCapacityConfigArgs.builder()
.vcpuCount("12")
.memoryBytes("21474836480")
.build())
.gcpConfig(ConnectClusterGcpConfigArgs.builder()
.accessConfig(ConnectClusterGcpConfigAccessConfigArgs.builder()
.networkConfigs(ConnectClusterGcpConfigAccessConfigNetworkConfigArgs.builder()
.primarySubnet(project.projectId().applyValue(_projectId -> String.format("projects/%s/regions/us-central1/subnetworks/default", _projectId)))
.additionalSubnets(mkcSecondarySubnet.id())
.dnsDomainNames(Output.tuple(gmkCluster.clusterId(), project.projectId()).applyValue(values -> {
var clusterId = values.t1;
var projectId = values.t2;
return String.format("%s.us-central1.managedkafka.%s.cloud.goog", clusterId,projectId);
}))
.build())
.build())
.build())
.labels(Map.of("key", "value"))
.build(), CustomResourceOptions.builder()
.dependsOn(managedkafka)
.build());
}
}Content copied to clipboard
resources:
project:
type: gcp:organizations:Project
properties:
projectId: tf-test_91980
name: tf-test_37118
orgId: '123456789'
billingAccount: 000000-0000000-0000000-000000
deletionPolicy: DELETE
wait60Seconds:
type: time:sleep
name: wait_60_seconds
properties:
createDuration: 60s
options:
dependsOn:
- ${project}
compute:
type: gcp:projects:Service
properties:
project: ${project.projectId}
service: compute.googleapis.com
options:
dependsOn:
- ${wait60Seconds}
managedkafka:
type: gcp:projects:Service
properties:
project: ${project.projectId}
service: managedkafka.googleapis.com
options:
dependsOn:
- ${compute}
wait120Seconds:
type: time:sleep
name: wait_120_seconds
properties:
createDuration: 120s
options:
dependsOn:
- ${managedkafka}
mkcSecondarySubnet:
type: gcp:compute:Subnetwork
name: mkc_secondary_subnet
properties:
project: ${project.projectId}
name: my-secondary-subnetwork
ipCidrRange: 10.3.0.0/16
region: us-central1
network: default
options:
dependsOn:
- ${wait120Seconds}
gmkCluster:
type: gcp:managedkafka:Cluster
name: gmk_cluster
properties:
project: ${project.projectId}
clusterId: my-cluster
location: us-central1
capacityConfig:
vcpuCount: 3
memoryBytes: 3.221225472e+09
gcpConfig:
accessConfig:
networkConfigs:
- subnet: projects/${project.projectId}/regions/us-central1/subnetworks/default
options:
dependsOn:
- ${managedkafka}
example:
type: gcp:managedkafka:ConnectCluster
properties:
project: ${project.projectId}
connectClusterId: my-connect-cluster
kafkaCluster: projects/${project.projectId}/locations/us-central1/clusters/${gmkCluster.clusterId}
location: us-central1
capacityConfig:
vcpuCount: 12
memoryBytes: 2.147483648e+10
gcpConfig:
accessConfig:
networkConfigs:
- primarySubnet: projects/${project.projectId}/regions/us-central1/subnetworks/default
additionalSubnets:
- ${mkcSecondarySubnet.id}
dnsDomainNames:
- ${gmkCluster.clusterId}.us-central1.managedkafka.${project.projectId}.cloud.goog
labels:
key: value
options:
dependsOn:
- ${managedkafka}Content copied to clipboard
Import
ConnectCluster can be imported using any of these accepted formats:
projects/{{project}}/locations/{{location}}/connectClusters/{{connect_cluster_id}}{{project}}/{{location}}/{{connect_cluster_id}}{{location}}/{{connect_cluster_id}}When using thepulumi importcommand, ConnectCluster can be imported using one of the formats above. For example:
$ pulumi import gcp:managedkafka/connectCluster:ConnectCluster default projects/{{project}}/locations/{{location}}/connectClusters/{{connect_cluster_id}}Content copied to clipboard
$ pulumi import gcp:managedkafka/connectCluster:ConnectCluster default {{project}}/{{location}}/{{connect_cluster_id}}Content copied to clipboard
$ pulumi import gcp:managedkafka/connectCluster:ConnectCluster default {{location}}/{{connect_cluster_id}}Content copied to clipboard
Constructors
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constructor(capacityConfig: Output<ConnectClusterCapacityConfigArgs>? = null, connectClusterId: Output<String>? = null, gcpConfig: Output<ConnectClusterGcpConfigArgs>? = null, kafkaCluster: Output<String>? = null, labels: Output<Map<String, String>>? = null, location: Output<String>? = null, project: Output<String>? = null)
Properties
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A capacity configuration of a Kafka cluster. Structure is documented below.
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The ID to use for the Connect Cluster, which will become the final component of the connect cluster's name. This value is structured like: my-connect-cluster-id.
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Configuration properties for a Kafka Connect cluster deployed to Google Cloud Platform. Structure is documented below.
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The name of the Kafka cluster this Kafka Connect cluster is attached to. Structured like: projects/PROJECT_ID/locations/LOCATION/clusters/CLUSTER_ID.
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List of label KEY=VALUE pairs to add. Keys must start with a lowercase character and contain only hyphens (-), underscores ( ), lowercase characters, and numbers. Values must contain only hyphens (-), underscores ( ), lowercase characters, and numbers. Note: This field is non-authoritative, and will only manage the labels present in your configuration. Please refer to the field 'effective_labels' for all of the labels present on the resource.