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Build cloud applications and infrastructure by combining the safety and reliability of infrastructure as code with the power of the Kotlin programming language.

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@file:Suppress("NAME_SHADOWING", "DEPRECATION")

package com.pulumi.gcp.container.kotlin

import com.pulumi.core.Output
import com.pulumi.gcp.container.kotlin.outputs.ClusterAddonsConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterAuthenticatorGroupsConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterBinaryAuthorization
import com.pulumi.gcp.container.kotlin.outputs.ClusterClusterAutoscaling
import com.pulumi.gcp.container.kotlin.outputs.ClusterClusterTelemetry
import com.pulumi.gcp.container.kotlin.outputs.ClusterConfidentialNodes
import com.pulumi.gcp.container.kotlin.outputs.ClusterCostManagementConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterDatabaseEncryption
import com.pulumi.gcp.container.kotlin.outputs.ClusterDefaultSnatStatus
import com.pulumi.gcp.container.kotlin.outputs.ClusterDnsConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterEnableK8sBetaApis
import com.pulumi.gcp.container.kotlin.outputs.ClusterFleet
import com.pulumi.gcp.container.kotlin.outputs.ClusterGatewayApiConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterIdentityServiceConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterIpAllocationPolicy
import com.pulumi.gcp.container.kotlin.outputs.ClusterLoggingConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterMaintenancePolicy
import com.pulumi.gcp.container.kotlin.outputs.ClusterMasterAuth
import com.pulumi.gcp.container.kotlin.outputs.ClusterMasterAuthorizedNetworksConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterMeshCertificates
import com.pulumi.gcp.container.kotlin.outputs.ClusterMonitoringConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterNetworkPolicy
import com.pulumi.gcp.container.kotlin.outputs.ClusterNodeConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterNodePool
import com.pulumi.gcp.container.kotlin.outputs.ClusterNodePoolAutoConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterNodePoolDefaults
import com.pulumi.gcp.container.kotlin.outputs.ClusterNotificationConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterPodSecurityPolicyConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterPrivateClusterConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterProtectConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterReleaseChannel
import com.pulumi.gcp.container.kotlin.outputs.ClusterResourceUsageExportConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterSecurityPostureConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterServiceExternalIpsConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterTpuConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterVerticalPodAutoscaling
import com.pulumi.gcp.container.kotlin.outputs.ClusterWorkloadAltsConfig
import com.pulumi.gcp.container.kotlin.outputs.ClusterWorkloadIdentityConfig
import com.pulumi.kotlin.KotlinCustomResource
import com.pulumi.kotlin.PulumiTagMarker
import com.pulumi.kotlin.ResourceMapper
import com.pulumi.kotlin.options.CustomResourceOptions
import com.pulumi.kotlin.options.CustomResourceOptionsBuilder
import com.pulumi.resources.Resource
import kotlin.Boolean
import kotlin.Int
import kotlin.String
import kotlin.Suppress
import kotlin.Unit
import kotlin.collections.List
import kotlin.collections.Map
import com.pulumi.gcp.container.kotlin.outputs.ClusterAddonsConfig.Companion.toKotlin as clusterAddonsConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterAuthenticatorGroupsConfig.Companion.toKotlin as clusterAuthenticatorGroupsConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterBinaryAuthorization.Companion.toKotlin as clusterBinaryAuthorizationToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterClusterAutoscaling.Companion.toKotlin as clusterClusterAutoscalingToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterClusterTelemetry.Companion.toKotlin as clusterClusterTelemetryToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterConfidentialNodes.Companion.toKotlin as clusterConfidentialNodesToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterCostManagementConfig.Companion.toKotlin as clusterCostManagementConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterDatabaseEncryption.Companion.toKotlin as clusterDatabaseEncryptionToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterDefaultSnatStatus.Companion.toKotlin as clusterDefaultSnatStatusToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterDnsConfig.Companion.toKotlin as clusterDnsConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterEnableK8sBetaApis.Companion.toKotlin as clusterEnableK8sBetaApisToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterFleet.Companion.toKotlin as clusterFleetToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterGatewayApiConfig.Companion.toKotlin as clusterGatewayApiConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterIdentityServiceConfig.Companion.toKotlin as clusterIdentityServiceConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterIpAllocationPolicy.Companion.toKotlin as clusterIpAllocationPolicyToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterLoggingConfig.Companion.toKotlin as clusterLoggingConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterMaintenancePolicy.Companion.toKotlin as clusterMaintenancePolicyToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterMasterAuth.Companion.toKotlin as clusterMasterAuthToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterMasterAuthorizedNetworksConfig.Companion.toKotlin as clusterMasterAuthorizedNetworksConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterMeshCertificates.Companion.toKotlin as clusterMeshCertificatesToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterMonitoringConfig.Companion.toKotlin as clusterMonitoringConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterNetworkPolicy.Companion.toKotlin as clusterNetworkPolicyToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterNodeConfig.Companion.toKotlin as clusterNodeConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterNodePool.Companion.toKotlin as clusterNodePoolToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterNodePoolAutoConfig.Companion.toKotlin as clusterNodePoolAutoConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterNodePoolDefaults.Companion.toKotlin as clusterNodePoolDefaultsToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterNotificationConfig.Companion.toKotlin as clusterNotificationConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterPodSecurityPolicyConfig.Companion.toKotlin as clusterPodSecurityPolicyConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterPrivateClusterConfig.Companion.toKotlin as clusterPrivateClusterConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterProtectConfig.Companion.toKotlin as clusterProtectConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterReleaseChannel.Companion.toKotlin as clusterReleaseChannelToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterResourceUsageExportConfig.Companion.toKotlin as clusterResourceUsageExportConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterSecurityPostureConfig.Companion.toKotlin as clusterSecurityPostureConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterServiceExternalIpsConfig.Companion.toKotlin as clusterServiceExternalIpsConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterTpuConfig.Companion.toKotlin as clusterTpuConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterVerticalPodAutoscaling.Companion.toKotlin as clusterVerticalPodAutoscalingToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterWorkloadAltsConfig.Companion.toKotlin as clusterWorkloadAltsConfigToKotlin
import com.pulumi.gcp.container.kotlin.outputs.ClusterWorkloadIdentityConfig.Companion.toKotlin as clusterWorkloadIdentityConfigToKotlin

/**
 * Builder for [Cluster].
 */
@PulumiTagMarker
public class ClusterResourceBuilder internal constructor() {
    public var name: String? = null

    public var args: ClusterArgs = ClusterArgs()

    public var opts: CustomResourceOptions = CustomResourceOptions()

    /**
     * @param name The _unique_ name of the resulting resource.
     */
    public fun name(`value`: String) {
        this.name = value
    }

    /**
     * @param block The arguments to use to populate this resource's properties.
     */
    public suspend fun args(block: suspend ClusterArgsBuilder.() -> Unit) {
        val builder = ClusterArgsBuilder()
        block(builder)
        this.args = builder.build()
    }

    /**
     * @param block A bag of options that control this resource's behavior.
     */
    public suspend fun opts(block: suspend CustomResourceOptionsBuilder.() -> Unit) {
        this.opts = com.pulumi.kotlin.options.CustomResourceOptions.opts(block)
    }

    internal fun build(): Cluster {
        val builtJavaResource = com.pulumi.gcp.container.Cluster(
            this.name,
            this.args.toJava(),
            this.opts.toJava(),
        )
        return Cluster(builtJavaResource)
    }
}

/**
 * Manages a Google Kubernetes Engine (GKE) cluster.
 * To get more information about GKE clusters, see:
 *   * [The API reference](https://cloud.google.com/kubernetes-engine/docs/reference/rest/v1beta1/projects.locations.clusters)
 *   * How-to guides
 *     * [GKE overview](https://cloud.google.com/kubernetes-engine/docs/concepts/kubernetes-engine-overview)
 *     * [About cluster configuration choices](https://cloud.google.com/kubernetes-engine/docs/concepts/types-of-clusters)
 * > On version 5.0.0+ of the provider, you must explicitly set `deletion_protection = false`
 * and run `pulumi up` to write the field to state in order to destroy a cluster.
 * > All arguments and attributes (including certificate outputs) will be stored in the raw state as
 * plaintext. [Read more about secrets in state](https://www.pulumi.com/docs/intro/concepts/programming-model/#secrets).
 * ## Example Usage
 * ### With A Separately Managed Node Pool (Recommended)
 * 
 * ```typescript
 * import * as pulumi from "@pulumi/pulumi";
 * import * as gcp from "@pulumi/gcp";
 * const _default = new gcp.serviceaccount.Account("default", {
 *     accountId: "service-account-id",
 *     displayName: "Service Account",
 * });
 * const primary = new gcp.container.Cluster("primary", {
 *     name: "my-gke-cluster",
 *     location: "us-central1",
 *     removeDefaultNodePool: true,
 *     initialNodeCount: 1,
 * });
 * const primaryPreemptibleNodes = new gcp.container.NodePool("primary_preemptible_nodes", {
 *     name: "my-node-pool",
 *     location: "us-central1",
 *     cluster: primary.name,
 *     nodeCount: 1,
 *     nodeConfig: {
 *         preemptible: true,
 *         machineType: "e2-medium",
 *         serviceAccount: _default.email,
 *         oauthScopes: ["https://www.googleapis.com/auth/cloud-platform"],
 *     },
 * });
 * ```
 * ```python
 * import pulumi
 * import pulumi_gcp as gcp
 * default = gcp.serviceaccount.Account("default",
 *     account_id="service-account-id",
 *     display_name="Service Account")
 * primary = gcp.container.Cluster("primary",
 *     name="my-gke-cluster",
 *     location="us-central1",
 *     remove_default_node_pool=True,
 *     initial_node_count=1)
 * primary_preemptible_nodes = gcp.container.NodePool("primary_preemptible_nodes",
 *     name="my-node-pool",
 *     location="us-central1",
 *     cluster=primary.name,
 *     node_count=1,
 *     node_config=gcp.container.NodePoolNodeConfigArgs(
 *         preemptible=True,
 *         machine_type="e2-medium",
 *         service_account=default.email,
 *         oauth_scopes=["https://www.googleapis.com/auth/cloud-platform"],
 *     ))
 * ```
 * ```csharp
 * using System.Collections.Generic;
 * using System.Linq;
 * using Pulumi;
 * using Gcp = Pulumi.Gcp;
 * return await Deployment.RunAsync(() =>
 * {
 *     var @default = new Gcp.ServiceAccount.Account("default", new()
 *     {
 *         AccountId = "service-account-id",
 *         DisplayName = "Service Account",
 *     });
 *     var primary = new Gcp.Container.Cluster("primary", new()
 *     {
 *         Name = "my-gke-cluster",
 *         Location = "us-central1",
 *         RemoveDefaultNodePool = true,
 *         InitialNodeCount = 1,
 *     });
 *     var primaryPreemptibleNodes = new Gcp.Container.NodePool("primary_preemptible_nodes", new()
 *     {
 *         Name = "my-node-pool",
 *         Location = "us-central1",
 *         Cluster = primary.Name,
 *         NodeCount = 1,
 *         NodeConfig = new Gcp.Container.Inputs.NodePoolNodeConfigArgs
 *         {
 *             Preemptible = true,
 *             MachineType = "e2-medium",
 *             ServiceAccount = @default.Email,
 *             OauthScopes = new[]
 *             {
 *                 "https://www.googleapis.com/auth/cloud-platform",
 *             },
 *         },
 *     });
 * });
 * ```
 * ```go
 * package main
 * import (
 * 	"github.com/pulumi/pulumi-gcp/sdk/v7/go/gcp/container"
 * 	"github.com/pulumi/pulumi-gcp/sdk/v7/go/gcp/serviceaccount"
 * 	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
 * )
 * func main() {
 * 	pulumi.Run(func(ctx *pulumi.Context) error {
 * 		_, err := serviceaccount.NewAccount(ctx, "default", &serviceaccount.AccountArgs{
 * 			AccountId:   pulumi.String("service-account-id"),
 * 			DisplayName: pulumi.String("Service Account"),
 * 		})
 * 		if err != nil {
 * 			return err
 * 		}
 * 		primary, err := container.NewCluster(ctx, "primary", &container.ClusterArgs{
 * 			Name:                  pulumi.String("my-gke-cluster"),
 * 			Location:              pulumi.String("us-central1"),
 * 			RemoveDefaultNodePool: pulumi.Bool(true),
 * 			InitialNodeCount:      pulumi.Int(1),
 * 		})
 * 		if err != nil {
 * 			return err
 * 		}
 * 		_, err = container.NewNodePool(ctx, "primary_preemptible_nodes", &container.NodePoolArgs{
 * 			Name:      pulumi.String("my-node-pool"),
 * 			Location:  pulumi.String("us-central1"),
 * 			Cluster:   primary.Name,
 * 			NodeCount: pulumi.Int(1),
 * 			NodeConfig: &container.NodePoolNodeConfigArgs{
 * 				Preemptible:    pulumi.Bool(true),
 * 				MachineType:    pulumi.String("e2-medium"),
 * 				ServiceAccount: _default.Email,
 * 				OauthScopes: pulumi.StringArray{
 * 					pulumi.String("https://www.googleapis.com/auth/cloud-platform"),
 * 				},
 * 			},
 * 		})
 * 		if err != nil {
 * 			return err
 * 		}
 * 		return nil
 * 	})
 * }
 * ```
 * ```java
 * package generated_program;
 * import com.pulumi.Context;
 * import com.pulumi.Pulumi;
 * import com.pulumi.core.Output;
 * import com.pulumi.gcp.serviceaccount.Account;
 * import com.pulumi.gcp.serviceaccount.AccountArgs;
 * import com.pulumi.gcp.container.Cluster;
 * import com.pulumi.gcp.container.ClusterArgs;
 * import com.pulumi.gcp.container.NodePool;
 * import com.pulumi.gcp.container.NodePoolArgs;
 * import com.pulumi.gcp.container.inputs.NodePoolNodeConfigArgs;
 * 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 default_ = new Account("default", AccountArgs.builder()
 *             .accountId("service-account-id")
 *             .displayName("Service Account")
 *             .build());
 *         var primary = new Cluster("primary", ClusterArgs.builder()
 *             .name("my-gke-cluster")
 *             .location("us-central1")
 *             .removeDefaultNodePool(true)
 *             .initialNodeCount(1)
 *             .build());
 *         var primaryPreemptibleNodes = new NodePool("primaryPreemptibleNodes", NodePoolArgs.builder()
 *             .name("my-node-pool")
 *             .location("us-central1")
 *             .cluster(primary.name())
 *             .nodeCount(1)
 *             .nodeConfig(NodePoolNodeConfigArgs.builder()
 *                 .preemptible(true)
 *                 .machineType("e2-medium")
 *                 .serviceAccount(default_.email())
 *                 .oauthScopes("https://www.googleapis.com/auth/cloud-platform")
 *                 .build())
 *             .build());
 *     }
 * }
 * ```
 * ```yaml
 * resources:
 *   default:
 *     type: gcp:serviceaccount:Account
 *     properties:
 *       accountId: service-account-id
 *       displayName: Service Account
 *   primary:
 *     type: gcp:container:Cluster
 *     properties:
 *       name: my-gke-cluster
 *       location: us-central1
 *       removeDefaultNodePool: true
 *       initialNodeCount: 1
 *   primaryPreemptibleNodes:
 *     type: gcp:container:NodePool
 *     name: primary_preemptible_nodes
 *     properties:
 *       name: my-node-pool
 *       location: us-central1
 *       cluster: ${primary.name}
 *       nodeCount: 1
 *       nodeConfig:
 *         preemptible: true
 *         machineType: e2-medium
 *         serviceAccount: ${default.email}
 *         oauthScopes:
 *           - https://www.googleapis.com/auth/cloud-platform
 * ```
 * 
 * > **Note:** It is recommended that node pools be created and managed as separate resources as in the example above.
 * This allows node pools to be added and removed without recreating the cluster.  Node pools defined directly in the
 * `gcp.container.Cluster` resource cannot be removed without re-creating the cluster.
 * ### With The Default Node Pool
 * 
 * ```typescript
 * import * as pulumi from "@pulumi/pulumi";
 * import * as gcp from "@pulumi/gcp";
 * const _default = new gcp.serviceaccount.Account("default", {
 *     accountId: "service-account-id",
 *     displayName: "Service Account",
 * });
 * const primary = new gcp.container.Cluster("primary", {
 *     name: "marcellus-wallace",
 *     location: "us-central1-a",
 *     initialNodeCount: 3,
 *     nodeConfig: {
 *         serviceAccount: _default.email,
 *         oauthScopes: ["https://www.googleapis.com/auth/cloud-platform"],
 *         labels: {
 *             foo: "bar",
 *         },
 *         tags: [
 *             "foo",
 *             "bar",
 *         ],
 *     },
 * });
 * ```
 * ```python
 * import pulumi
 * import pulumi_gcp as gcp
 * default = gcp.serviceaccount.Account("default",
 *     account_id="service-account-id",
 *     display_name="Service Account")
 * primary = gcp.container.Cluster("primary",
 *     name="marcellus-wallace",
 *     location="us-central1-a",
 *     initial_node_count=3,
 *     node_config=gcp.container.ClusterNodeConfigArgs(
 *         service_account=default.email,
 *         oauth_scopes=["https://www.googleapis.com/auth/cloud-platform"],
 *         labels={
 *             "foo": "bar",
 *         },
 *         tags=[
 *             "foo",
 *             "bar",
 *         ],
 *     ))
 * ```
 * ```csharp
 * using System.Collections.Generic;
 * using System.Linq;
 * using Pulumi;
 * using Gcp = Pulumi.Gcp;
 * return await Deployment.RunAsync(() =>
 * {
 *     var @default = new Gcp.ServiceAccount.Account("default", new()
 *     {
 *         AccountId = "service-account-id",
 *         DisplayName = "Service Account",
 *     });
 *     var primary = new Gcp.Container.Cluster("primary", new()
 *     {
 *         Name = "marcellus-wallace",
 *         Location = "us-central1-a",
 *         InitialNodeCount = 3,
 *         NodeConfig = new Gcp.Container.Inputs.ClusterNodeConfigArgs
 *         {
 *             ServiceAccount = @default.Email,
 *             OauthScopes = new[]
 *             {
 *                 "https://www.googleapis.com/auth/cloud-platform",
 *             },
 *             Labels =
 *             {
 *                 { "foo", "bar" },
 *             },
 *             Tags = new[]
 *             {
 *                 "foo",
 *                 "bar",
 *             },
 *         },
 *     });
 * });
 * ```
 * ```go
 * package main
 * import (
 * 	"github.com/pulumi/pulumi-gcp/sdk/v7/go/gcp/container"
 * 	"github.com/pulumi/pulumi-gcp/sdk/v7/go/gcp/serviceaccount"
 * 	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
 * )
 * func main() {
 * 	pulumi.Run(func(ctx *pulumi.Context) error {
 * 		_, err := serviceaccount.NewAccount(ctx, "default", &serviceaccount.AccountArgs{
 * 			AccountId:   pulumi.String("service-account-id"),
 * 			DisplayName: pulumi.String("Service Account"),
 * 		})
 * 		if err != nil {
 * 			return err
 * 		}
 * 		_, err = container.NewCluster(ctx, "primary", &container.ClusterArgs{
 * 			Name:             pulumi.String("marcellus-wallace"),
 * 			Location:         pulumi.String("us-central1-a"),
 * 			InitialNodeCount: pulumi.Int(3),
 * 			NodeConfig: &container.ClusterNodeConfigArgs{
 * 				ServiceAccount: _default.Email,
 * 				OauthScopes: pulumi.StringArray{
 * 					pulumi.String("https://www.googleapis.com/auth/cloud-platform"),
 * 				},
 * 				Labels: pulumi.StringMap{
 * 					"foo": pulumi.String("bar"),
 * 				},
 * 				Tags: pulumi.StringArray{
 * 					pulumi.String("foo"),
 * 					pulumi.String("bar"),
 * 				},
 * 			},
 * 		})
 * 		if err != nil {
 * 			return err
 * 		}
 * 		return nil
 * 	})
 * }
 * ```
 * ```java
 * package generated_program;
 * import com.pulumi.Context;
 * import com.pulumi.Pulumi;
 * import com.pulumi.core.Output;
 * import com.pulumi.gcp.serviceaccount.Account;
 * import com.pulumi.gcp.serviceaccount.AccountArgs;
 * import com.pulumi.gcp.container.Cluster;
 * import com.pulumi.gcp.container.ClusterArgs;
 * import com.pulumi.gcp.container.inputs.ClusterNodeConfigArgs;
 * 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 default_ = new Account("default", AccountArgs.builder()
 *             .accountId("service-account-id")
 *             .displayName("Service Account")
 *             .build());
 *         var primary = new Cluster("primary", ClusterArgs.builder()
 *             .name("marcellus-wallace")
 *             .location("us-central1-a")
 *             .initialNodeCount(3)
 *             .nodeConfig(ClusterNodeConfigArgs.builder()
 *                 .serviceAccount(default_.email())
 *                 .oauthScopes("https://www.googleapis.com/auth/cloud-platform")
 *                 .labels(Map.of("foo", "bar"))
 *                 .tags(
 *                     "foo",
 *                     "bar")
 *                 .build())
 *             .build());
 *     }
 * }
 * ```
 * ```yaml
 * resources:
 *   default:
 *     type: gcp:serviceaccount:Account
 *     properties:
 *       accountId: service-account-id
 *       displayName: Service Account
 *   primary:
 *     type: gcp:container:Cluster
 *     properties:
 *       name: marcellus-wallace
 *       location: us-central1-a
 *       initialNodeCount: 3
 *       nodeConfig:
 *         serviceAccount: ${default.email}
 *         oauthScopes:
 *           - https://www.googleapis.com/auth/cloud-platform
 *         labels:
 *           foo: bar
 *         tags:
 *           - foo
 *           - bar
 * ```
 * 
 * ### Autopilot
 * 
 * ```typescript
 * import * as pulumi from "@pulumi/pulumi";
 * import * as gcp from "@pulumi/gcp";
 * const _default = new gcp.serviceaccount.Account("default", {
 *     accountId: "service-account-id",
 *     displayName: "Service Account",
 * });
 * const primary = new gcp.container.Cluster("primary", {
 *     name: "marcellus-wallace",
 *     location: "us-central1-a",
 *     enableAutopilot: true,
 * });
 * ```
 * ```python
 * import pulumi
 * import pulumi_gcp as gcp
 * default = gcp.serviceaccount.Account("default",
 *     account_id="service-account-id",
 *     display_name="Service Account")
 * primary = gcp.container.Cluster("primary",
 *     name="marcellus-wallace",
 *     location="us-central1-a",
 *     enable_autopilot=True)
 * ```
 * ```csharp
 * using System.Collections.Generic;
 * using System.Linq;
 * using Pulumi;
 * using Gcp = Pulumi.Gcp;
 * return await Deployment.RunAsync(() =>
 * {
 *     var @default = new Gcp.ServiceAccount.Account("default", new()
 *     {
 *         AccountId = "service-account-id",
 *         DisplayName = "Service Account",
 *     });
 *     var primary = new Gcp.Container.Cluster("primary", new()
 *     {
 *         Name = "marcellus-wallace",
 *         Location = "us-central1-a",
 *         EnableAutopilot = true,
 *     });
 * });
 * ```
 * ```go
 * package main
 * import (
 * 	"github.com/pulumi/pulumi-gcp/sdk/v7/go/gcp/container"
 * 	"github.com/pulumi/pulumi-gcp/sdk/v7/go/gcp/serviceaccount"
 * 	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
 * )
 * func main() {
 * 	pulumi.Run(func(ctx *pulumi.Context) error {
 * 		_, err := serviceaccount.NewAccount(ctx, "default", &serviceaccount.AccountArgs{
 * 			AccountId:   pulumi.String("service-account-id"),
 * 			DisplayName: pulumi.String("Service Account"),
 * 		})
 * 		if err != nil {
 * 			return err
 * 		}
 * 		_, err = container.NewCluster(ctx, "primary", &container.ClusterArgs{
 * 			Name:            pulumi.String("marcellus-wallace"),
 * 			Location:        pulumi.String("us-central1-a"),
 * 			EnableAutopilot: pulumi.Bool(true),
 * 		})
 * 		if err != nil {
 * 			return err
 * 		}
 * 		return nil
 * 	})
 * }
 * ```
 * ```java
 * package generated_program;
 * import com.pulumi.Context;
 * import com.pulumi.Pulumi;
 * import com.pulumi.core.Output;
 * import com.pulumi.gcp.serviceaccount.Account;
 * import com.pulumi.gcp.serviceaccount.AccountArgs;
 * import com.pulumi.gcp.container.Cluster;
 * import com.pulumi.gcp.container.ClusterArgs;
 * 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 default_ = new Account("default", AccountArgs.builder()
 *             .accountId("service-account-id")
 *             .displayName("Service Account")
 *             .build());
 *         var primary = new Cluster("primary", ClusterArgs.builder()
 *             .name("marcellus-wallace")
 *             .location("us-central1-a")
 *             .enableAutopilot(true)
 *             .build());
 *     }
 * }
 * ```
 * ```yaml
 * resources:
 *   default:
 *     type: gcp:serviceaccount:Account
 *     properties:
 *       accountId: service-account-id
 *       displayName: Service Account
 *   primary:
 *     type: gcp:container:Cluster
 *     properties:
 *       name: marcellus-wallace
 *       location: us-central1-a
 *       enableAutopilot: true
 * ```
 * 
 * ## Import
 * GKE clusters can be imported using the `project` , `location`, and `name`. If the project is omitted, the default
 * provider value will be used. Examples:
 * * `projects/{{project_id}}/locations/{{location}}/clusters/{{cluster_id}}`
 * * `{{project_id}}/{{location}}/{{cluster_id}}`
 * * `{{location}}/{{cluster_id}}`
 * When using the `pulumi import` command, GKE clusters can be imported using one of the formats above. For example:
 * ```sh
 * $ pulumi import gcp:container/cluster:Cluster default projects/{{project_id}}/locations/{{location}}/clusters/{{cluster_id}}
 * ```
 * ```sh
 * $ pulumi import gcp:container/cluster:Cluster default {{project_id}}/{{location}}/{{cluster_id}}
 * ```
 * ```sh
 * $ pulumi import gcp:container/cluster:Cluster default {{location}}/{{cluster_id}}
 * ```
 * For example, the following fields will show diffs if set in config:
 * - `min_master_version`
 * - `remove_default_node_pool`
 */
public class Cluster internal constructor(
    override val javaResource: com.pulumi.gcp.container.Cluster,
) : KotlinCustomResource(javaResource, ClusterMapper) {
    /**
     * The configuration for addons supported by GKE.
     * Structure is documented below.
     */
    public val addonsConfig: Output
        get() = javaResource.addonsConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterAddonsConfigToKotlin(args0)
            })
        })

    /**
     * Enable NET_ADMIN for the cluster. Defaults to
     * `false`. This field should only be enabled for Autopilot clusters (`enable_autopilot`
     * set to `true`).
     */
    public val allowNetAdmin: Output?
        get() = javaResource.allowNetAdmin().applyValue({ args0 ->
            args0.map({ args0 ->
                args0
            }).orElse(null)
        })

    /**
     * Configuration for the
     * [Google Groups for GKE](https://cloud.google.com/kubernetes-engine/docs/how-to/role-based-access-control#groups-setup-gsuite) feature.
     * Structure is documented below.
     */
    public val authenticatorGroupsConfig: Output
        get() = javaResource.authenticatorGroupsConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterAuthenticatorGroupsConfigToKotlin(args0)
            })
        })

    /**
     * Configuration options for the Binary
     * Authorization feature. Structure is documented below.
     */
    public val binaryAuthorization: Output?
        get() = javaResource.binaryAuthorization().applyValue({ args0 ->
            args0.map({ args0 ->
                args0.let({ args0 -> clusterBinaryAuthorizationToKotlin(args0) })
            }).orElse(null)
        })

    /**
     * Per-cluster configuration of Node Auto-Provisioning with Cluster Autoscaler to
     * automatically adjust the size of the cluster and create/delete node pools based
     * on the current needs of the cluster's workload. See the
     * [guide to using Node Auto-Provisioning](https://cloud.google.com/kubernetes-engine/docs/how-to/node-auto-provisioning)
     * for more details. Structure is documented below.
     */
    public val clusterAutoscaling: Output
        get() = javaResource.clusterAutoscaling().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterClusterAutoscalingToKotlin(args0)
            })
        })

    /**
     * The IP address range of the Kubernetes pods
     * in this cluster in CIDR notation (e.g. `10.96.0.0/14`). Leave blank to have one
     * automatically chosen or specify a `/14` block in `10.0.0.0/8`. This field will
     * default a new cluster to routes-based, where `ip_allocation_policy` is not defined.
     */
    public val clusterIpv4Cidr: Output
        get() = javaResource.clusterIpv4Cidr().applyValue({ args0 -> args0 })

    /**
     * Configuration for
     * [ClusterTelemetry](https://cloud.google.com/monitoring/kubernetes-engine/installing#controlling_the_collection_of_application_logs) feature,
     * Structure is documented below.
     */
    public val clusterTelemetry: Output
        get() = javaResource.clusterTelemetry().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterClusterTelemetryToKotlin(args0)
            })
        })

    /**
     * Configuration for [Confidential Nodes](https://cloud.google.com/kubernetes-engine/docs/how-to/confidential-gke-nodes) feature. Structure is documented below documented below.
     */
    public val confidentialNodes: Output
        get() = javaResource.confidentialNodes().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterConfidentialNodesToKotlin(args0)
            })
        })

    /**
     * Configuration for the
     * [Cost Allocation](https://cloud.google.com/kubernetes-engine/docs/how-to/cost-allocations) feature.
     * Structure is documented below.
     */
    public val costManagementConfig: Output
        get() = javaResource.costManagementConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterCostManagementConfigToKotlin(args0)
            })
        })

    /**
     * Structure is documented below.
     */
    public val databaseEncryption: Output
        get() = javaResource.databaseEncryption().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterDatabaseEncryptionToKotlin(args0)
            })
        })

    /**
     * The desired datapath provider for this cluster. This is set to `LEGACY_DATAPATH` by default, which uses the IPTables-based kube-proxy implementation. Set to `ADVANCED_DATAPATH` to enable Dataplane v2.
     */
    public val datapathProvider: Output
        get() = javaResource.datapathProvider().applyValue({ args0 -> args0 })

    /**
     * The default maximum number of pods
     * per node in this cluster. This doesn't work on "routes-based" clusters, clusters
     * that don't have IP Aliasing enabled. See the [official documentation](https://cloud.google.com/kubernetes-engine/docs/how-to/flexible-pod-cidr)
     * for more information.
     */
    public val defaultMaxPodsPerNode: Output
        get() = javaResource.defaultMaxPodsPerNode().applyValue({ args0 -> args0 })

    /**
     * [GKE SNAT](https://cloud.google.com/kubernetes-engine/docs/how-to/ip-masquerade-agent#how_ipmasq_works) DefaultSnatStatus contains the desired state of whether default sNAT should be disabled on the cluster, [API doc](https://cloud.google.com/kubernetes-engine/docs/reference/rest/v1beta1/projects.locations.clusters#networkconfig). Structure is documented below
     */
    public val defaultSnatStatus: Output
        get() = javaResource.defaultSnatStatus().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterDefaultSnatStatusToKotlin(args0)
            })
        })

    public val deletionProtection: Output?
        get() = javaResource.deletionProtection().applyValue({ args0 ->
            args0.map({ args0 ->
                args0
            }).orElse(null)
        })

    /**
     * Description of the cluster.
     */
    public val description: Output?
        get() = javaResource.description().applyValue({ args0 ->
            args0.map({ args0 ->
                args0
            }).orElse(null)
        })

    /**
     * Configuration for [Using Cloud DNS for GKE](https://cloud.google.com/kubernetes-engine/docs/how-to/cloud-dns). Structure is documented below.
     */
    public val dnsConfig: Output?
        get() = javaResource.dnsConfig().applyValue({ args0 ->
            args0.map({ args0 ->
                args0.let({ args0 ->
                    clusterDnsConfigToKotlin(args0)
                })
            }).orElse(null)
        })

    /**
     * Enable Autopilot for this cluster. Defaults to `false`.
     * Note that when this option is enabled, certain features of Standard GKE are not available.
     * See the [official documentation](https://cloud.google.com/kubernetes-engine/docs/concepts/autopilot-overview#comparison)
     * for available features.
     */
    public val enableAutopilot: Output?
        get() = javaResource.enableAutopilot().applyValue({ args0 ->
            args0.map({ args0 ->
                args0
            }).orElse(null)
        })

    /**
     * Whether CiliumClusterWideNetworkPolicy is enabled on this cluster. Defaults to false.
     */
    public val enableCiliumClusterwideNetworkPolicy: Output?
        get() = javaResource.enableCiliumClusterwideNetworkPolicy().applyValue({ args0 ->
            args0.map({ args0 -> args0 }).orElse(null)
        })

    /**
     * Whether FQDN Network Policy is enabled on this cluster. Users who enable this feature for existing Standard clusters must restart the GKE Dataplane V2 `anetd` DaemonSet after enabling it. See the [Enable FQDN Network Policy in an existing cluster](https://cloud.google.com/kubernetes-engine/docs/how-to/fqdn-network-policies#enable_fqdn_network_policy_in_an_existing_cluster) for more information.
     */
    public val enableFqdnNetworkPolicy: Output?
        get() = javaResource.enableFqdnNetworkPolicy().applyValue({ args0 ->
            args0.map({ args0 ->
                args0
            }).orElse(null)
        })

    /**
     * Whether Intra-node visibility is enabled for this cluster. This makes same node pod to pod traffic visible for VPC network.
     */
    public val enableIntranodeVisibility: Output
        get() = javaResource.enableIntranodeVisibility().applyValue({ args0 -> args0 })

    /**
     * Configuration for Kubernetes Beta APIs.
     * Structure is documented below.
     */
    public val enableK8sBetaApis: Output?
        get() = javaResource.enableK8sBetaApis().applyValue({ args0 ->
            args0.map({ args0 ->
                args0.let({ args0 -> clusterEnableK8sBetaApisToKotlin(args0) })
            }).orElse(null)
        })

    /**
     * Whether to enable Kubernetes Alpha features for
     * this cluster. Note that when this option is enabled, the cluster cannot be upgraded
     * and will be automatically deleted after 30 days.
     */
    public val enableKubernetesAlpha: Output?
        get() = javaResource.enableKubernetesAlpha().applyValue({ args0 ->
            args0.map({ args0 ->
                args0
            }).orElse(null)
        })

    /**
     * Whether L4ILB Subsetting is enabled for this cluster.
     */
    public val enableL4IlbSubsetting: Output?
        get() = javaResource.enableL4IlbSubsetting().applyValue({ args0 ->
            args0.map({ args0 ->
                args0
            }).orElse(null)
        })

    /**
     * Whether the ABAC authorizer is enabled for this cluster.
     * When enabled, identities in the system, including service accounts, nodes, and controllers,
     * will have statically granted permissions beyond those provided by the RBAC configuration or IAM.
     * Defaults to `false`
     */
    public val enableLegacyAbac: Output?
        get() = javaResource.enableLegacyAbac().applyValue({ args0 ->
            args0.map({ args0 ->
                args0
            }).orElse(null)
        })

    /**
     * Whether multi-networking is enabled for this cluster.
     */
    public val enableMultiNetworking: Output?
        get() = javaResource.enableMultiNetworking().applyValue({ args0 ->
            args0.map({ args0 ->
                args0
            }).orElse(null)
        })

    /**
     * Enable Shielded Nodes features on all nodes in this cluster.  Defaults to `true`.
     */
    public val enableShieldedNodes: Output?
        get() = javaResource.enableShieldedNodes().applyValue({ args0 ->
            args0.map({ args0 ->
                args0
            }).orElse(null)
        })

    /**
     * Whether to enable Cloud TPU resources in this cluster.
     * See the [official documentation](https://cloud.google.com/tpu/docs/kubernetes-engine-setup).
     */
    public val enableTpu: Output
        get() = javaResource.enableTpu().applyValue({ args0 -> args0 })

    /**
     * The IP address of this cluster's Kubernetes master.
     */
    public val endpoint: Output
        get() = javaResource.endpoint().applyValue({ args0 -> args0 })

    /**
     * Fleet configuration for the cluster. Structure is documented below.
     */
    public val fleet: Output?
        get() = javaResource.fleet().applyValue({ args0 ->
            args0.map({ args0 ->
                args0.let({ args0 ->
                    clusterFleetToKotlin(args0)
                })
            }).orElse(null)
        })

    /**
     * Configuration for [GKE Gateway API controller](https://cloud.google.com/kubernetes-engine/docs/concepts/gateway-api). Structure is documented below.
     */
    public val gatewayApiConfig: Output
        get() = javaResource.gatewayApiConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterGatewayApiConfigToKotlin(args0)
            })
        })

    /**
     * . Structure is documented below.
     */
    public val identityServiceConfig: Output
        get() = javaResource.identityServiceConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterIdentityServiceConfigToKotlin(args0)
            })
        })

    /**
     * The number of nodes to create in this
     * cluster's default node pool. In regional or multi-zonal clusters, this is the
     * number of nodes per zone. Must be set if `node_pool` is not set. If you're using
     * `gcp.container.NodePool` objects with no default node pool, you'll need to
     * set this to a value of at least `1`, alongside setting
     * `remove_default_node_pool` to `true`.
     */
    public val initialNodeCount: Output?
        get() = javaResource.initialNodeCount().applyValue({ args0 ->
            args0.map({ args0 ->
                args0
            }).orElse(null)
        })

    /**
     * Configuration of cluster IP allocation for
     * VPC-native clusters. If this block is unset during creation, it will be set by the GKE backend.
     * Structure is documented below.
     */
    public val ipAllocationPolicy: Output
        get() = javaResource.ipAllocationPolicy().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterIpAllocationPolicyToKotlin(args0)
            })
        })

    /**
     * The fingerprint of the set of labels for this cluster.
     */
    public val labelFingerprint: Output
        get() = javaResource.labelFingerprint().applyValue({ args0 -> args0 })

    /**
     * The location (region or zone) in which the cluster
     * master will be created, as well as the default node location. If you specify a
     * zone (such as `us-central1-a`), the cluster will be a zonal cluster with a
     * single cluster master. If you specify a region (such as `us-west1`), the
     * cluster will be a regional cluster with multiple masters spread across zones in
     * the region, and with default node locations in those zones as well
     */
    public val location: Output
        get() = javaResource.location().applyValue({ args0 -> args0 })

    /**
     * Logging configuration for the cluster.
     * Structure is documented below.
     */
    public val loggingConfig: Output
        get() = javaResource.loggingConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterLoggingConfigToKotlin(args0)
            })
        })

    /**
     * The logging service that the cluster should
     * write logs to. Available options include `logging.googleapis.com`(Legacy Stackdriver),
     * `logging.googleapis.com/kubernetes`(Stackdriver Kubernetes Engine Logging), and `none`. Defaults to `logging.googleapis.com/kubernetes`
     */
    public val loggingService: Output
        get() = javaResource.loggingService().applyValue({ args0 -> args0 })

    /**
     * The maintenance policy to use for the cluster. Structure is
     * documented below.
     */
    public val maintenancePolicy: Output?
        get() = javaResource.maintenancePolicy().applyValue({ args0 ->
            args0.map({ args0 ->
                args0.let({ args0 -> clusterMaintenancePolicyToKotlin(args0) })
            }).orElse(null)
        })

    /**
     * The authentication information for accessing the
     * Kubernetes master. Some values in this block are only returned by the API if
     * your service account has permission to get credentials for your GKE cluster. If
     * you see an unexpected diff unsetting your client cert, ensure you have the
     * `container.clusters.getCredentials` permission.
     * Structure is documented below.
     */
    public val masterAuth: Output
        get() = javaResource.masterAuth().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterMasterAuthToKotlin(args0)
            })
        })

    /**
     * The desired
     * configuration options for master authorized networks. Omit the
     * nested `cidr_blocks` attribute to disallow external access (except
     * the cluster node IPs, which GKE automatically whitelists).
     * Structure is documented below.
     */
    public val masterAuthorizedNetworksConfig: Output
        get() = javaResource.masterAuthorizedNetworksConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterMasterAuthorizedNetworksConfigToKotlin(args0)
            })
        })

    /**
     * The current version of the master in the cluster. This may
     * be different than the `min_master_version` set in the config if the master
     * has been updated by GKE.
     */
    public val masterVersion: Output
        get() = javaResource.masterVersion().applyValue({ args0 -> args0 })

    /**
     * Structure is documented below.
     */
    public val meshCertificates: Output
        get() = javaResource.meshCertificates().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterMeshCertificatesToKotlin(args0)
            })
        })

    /**
     * The minimum version of the master. GKE
     * will auto-update the master to new versions, so this does not guarantee the
     * current master version--use the read-only `master_version` field to obtain that.
     * If unset, the cluster's version will be set by GKE to the version of the most recent
     * official release (which is not necessarily the latest version).  Most users will find
     * the `gcp.container.getEngineVersions` data source useful - it indicates which versions
     * are available. If you intend to specify versions manually,
     * [the docs](https://cloud.google.com/kubernetes-engine/versioning-and-upgrades#specifying_cluster_version)
     * describe the various acceptable formats for this field.
     * > If you are using the `gcp.container.getEngineVersions` datasource with a regional cluster, ensure that you have provided a `location`
     * to the datasource. A region can have a different set of supported versions than its corresponding zones, and not all zones in a
     * region are guaranteed to support the same version.
     */
    public val minMasterVersion: Output?
        get() = javaResource.minMasterVersion().applyValue({ args0 ->
            args0.map({ args0 ->
                args0
            }).orElse(null)
        })

    /**
     * Monitoring configuration for the cluster.
     * Structure is documented below.
     */
    public val monitoringConfig: Output
        get() = javaResource.monitoringConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterMonitoringConfigToKotlin(args0)
            })
        })

    /**
     * The monitoring service that the cluster
     * should write metrics to.
     * Automatically send metrics from pods in the cluster to the Google Cloud Monitoring API.
     * VM metrics will be collected by Google Compute Engine regardless of this setting
     * Available options include
     * `monitoring.googleapis.com`(Legacy Stackdriver), `monitoring.googleapis.com/kubernetes`(Stackdriver Kubernetes Engine Monitoring), and `none`.
     * Defaults to `monitoring.googleapis.com/kubernetes`
     */
    public val monitoringService: Output
        get() = javaResource.monitoringService().applyValue({ args0 -> args0 })

    /**
     * The name of the cluster, unique within the project and
     * location.
     * - - -
     */
    public val name: Output
        get() = javaResource.name().applyValue({ args0 -> args0 })

    /**
     * The name or self_link of the Google Compute Engine
     * network to which the cluster is connected. For Shared VPC, set this to the self link of the
     * shared network.
     */
    public val network: Output?
        get() = javaResource.network().applyValue({ args0 -> args0.map({ args0 -> args0 }).orElse(null) })

    /**
     * Configuration options for the
     * [NetworkPolicy](https://kubernetes.io/docs/concepts/services-networking/networkpolicies/)
     * feature. Structure is documented below.
     */
    public val networkPolicy: Output?
        get() = javaResource.networkPolicy().applyValue({ args0 ->
            args0.map({ args0 ->
                args0.let({ args0 -> clusterNetworkPolicyToKotlin(args0) })
            }).orElse(null)
        })

    /**
     * Determines whether alias IPs or routes will be used for pod IPs in the cluster.
     * Options are `VPC_NATIVE` or `ROUTES`. `VPC_NATIVE` enables [IP aliasing](https://cloud.google.com/kubernetes-engine/docs/how-to/ip-aliases). Newly created clusters will default to `VPC_NATIVE`.
     */
    public val networkingMode: Output
        get() = javaResource.networkingMode().applyValue({ args0 -> args0 })

    /**
     * Parameters used in creating the default node pool.
     * Generally, this field should not be used at the same time as a
     * `gcp.container.NodePool` or a `node_pool` block; this configuration
     * manages the default node pool, which isn't recommended to be used.
     * Structure is documented below.
     */
    public val nodeConfig: Output
        get() = javaResource.nodeConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterNodeConfigToKotlin(args0)
            })
        })

    /**
     * The list of zones in which the cluster's nodes
     * are located. Nodes must be in the region of their regional cluster or in the
     * same region as their cluster's zone for zonal clusters. If this is specified for
     * a zonal cluster, omit the cluster's zone.
     * > A "multi-zonal" cluster is a zonal cluster with at least one additional zone
     * defined; in a multi-zonal cluster, the cluster master is only present in a
     * single zone while nodes are present in each of the primary zone and the node
     * locations. In contrast, in a regional cluster, cluster master nodes are present
     * in multiple zones in the region. For that reason, regional clusters should be
     * preferred.
     */
    public val nodeLocations: Output>
        get() = javaResource.nodeLocations().applyValue({ args0 -> args0.map({ args0 -> args0 }) })

    /**
     * Node pool configs that apply to auto-provisioned node pools in
     * [autopilot](https://cloud.google.com/kubernetes-engine/docs/concepts/autopilot-overview#comparison) clusters and
     * [node auto-provisioning](https://cloud.google.com/kubernetes-engine/docs/how-to/node-auto-provisioning)-enabled clusters. Structure is documented below.
     */
    public val nodePoolAutoConfig: Output
        get() = javaResource.nodePoolAutoConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterNodePoolAutoConfigToKotlin(args0)
            })
        })

    /**
     * Default NodePool settings for the entire cluster. These settings are overridden if specified on the specific NodePool object. Structure is documented below.
     */
    public val nodePoolDefaults: Output
        get() = javaResource.nodePoolDefaults().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterNodePoolDefaultsToKotlin(args0)
            })
        })

    /**
     * List of node pools associated with this cluster.
     * See gcp.container.NodePool for schema.
     * **Warning:** node pools defined inside a cluster can't be changed (or added/removed) after
     * cluster creation without deleting and recreating the entire cluster. Unless you absolutely need the ability
     * to say "these are the _only_ node pools associated with this cluster", use the
     * gcp.container.NodePool resource instead of this property.
     */
    public val nodePools: Output>
        get() = javaResource.nodePools().applyValue({ args0 ->
            args0.map({ args0 ->
                args0.let({ args0 ->
                    clusterNodePoolToKotlin(args0)
                })
            })
        })

    /**
     * The Kubernetes version on the nodes. Must either be unset
     * or set to the same value as `min_master_version` on create. Defaults to the default
     * version set by GKE which is not necessarily the latest version. This only affects
     * nodes in the default node pool. While a fuzzy version can be specified, it's
     * recommended that you specify explicit versions as the provider will see spurious diffs
     * when fuzzy versions are used. See the `gcp.container.getEngineVersions` data source's
     * `version_prefix` field to approximate fuzzy versions.
     * To update nodes in other node pools, use the `version` attribute on the node pool.
     */
    public val nodeVersion: Output
        get() = javaResource.nodeVersion().applyValue({ args0 -> args0 })

    /**
     * Configuration for the [cluster upgrade notifications](https://cloud.google.com/kubernetes-engine/docs/how-to/cluster-upgrade-notifications) feature. Structure is documented below.
     */
    public val notificationConfig: Output
        get() = javaResource.notificationConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterNotificationConfigToKotlin(args0)
            })
        })

    public val operation: Output
        get() = javaResource.operation().applyValue({ args0 -> args0 })

    /**
     * Configuration for the
     * [PodSecurityPolicy](https://cloud.google.com/kubernetes-engine/docs/how-to/pod-security-policies) feature.
     * Structure is documented below.
     */
    public val podSecurityPolicyConfig: Output?
        get() = javaResource.podSecurityPolicyConfig().applyValue({ args0 ->
            args0.map({ args0 ->
                args0.let({ args0 -> clusterPodSecurityPolicyConfigToKotlin(args0) })
            }).orElse(null)
        })

    /**
     * Configuration for [private clusters](https://cloud.google.com/kubernetes-engine/docs/how-to/private-clusters),
     * clusters with private nodes. Structure is documented below.
     */
    public val privateClusterConfig: Output
        get() = javaResource.privateClusterConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterPrivateClusterConfigToKotlin(args0)
            })
        })

    /**
     * The desired state of IPv6 connectivity to Google Services. By default, no private IPv6 access to or from Google Services (all access will be via IPv4).
     */
    public val privateIpv6GoogleAccess: Output
        get() = javaResource.privateIpv6GoogleAccess().applyValue({ args0 -> args0 })

    /**
     * The ID of the project in which the resource belongs. If it
     * is not provided, the provider project is used.
     */
    public val project: Output
        get() = javaResource.project().applyValue({ args0 -> args0 })

    /**
     * Enable/Disable Protect API features for the cluster. Structure is documented below.
     */
    public val protectConfig: Output
        get() = javaResource.protectConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterProtectConfigToKotlin(args0)
            })
        })

    /**
     * Configuration options for the [Release channel](https://cloud.google.com/kubernetes-engine/docs/concepts/release-channels)
     * feature, which provide more control over automatic upgrades of your GKE clusters.
     * When updating this field, GKE imposes specific version requirements. See
     * [Selecting a new release channel](https://cloud.google.com/kubernetes-engine/docs/concepts/release-channels#selecting_a_new_release_channel)
     * for more details; the `gcp.container.getEngineVersions` datasource can provide
     * the default version for a channel. Note that removing the `release_channel`
     * field from your config will cause the provider to stop managing your cluster's
     * release channel, but will not unenroll it. Instead, use the `"UNSPECIFIED"`
     * channel. Structure is documented below.
     */
    public val releaseChannel: Output
        get() = javaResource.releaseChannel().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterReleaseChannelToKotlin(args0)
            })
        })

    /**
     * If `true`, deletes the default node
     * pool upon cluster creation. If you're using `gcp.container.NodePool`
     * resources with no default node pool, this should be set to `true`, alongside
     * setting `initial_node_count` to at least `1`.
     */
    public val removeDefaultNodePool: Output?
        get() = javaResource.removeDefaultNodePool().applyValue({ args0 ->
            args0.map({ args0 ->
                args0
            }).orElse(null)
        })

    /**
     * The GCE resource labels (a map of key/value pairs) to be applied to the cluster.
     */
    public val resourceLabels: Output>?
        get() = javaResource.resourceLabels().applyValue({ args0 ->
            args0.map({ args0 ->
                args0.map({ args0 -> args0.key.to(args0.value) }).toMap()
            }).orElse(null)
        })

    /**
     * Configuration for the
     * [ResourceUsageExportConfig](https://cloud.google.com/kubernetes-engine/docs/how-to/cluster-usage-metering) feature.
     * Structure is documented below.
     */
    public val resourceUsageExportConfig: Output?
        get() = javaResource.resourceUsageExportConfig().applyValue({ args0 ->
            args0.map({ args0 ->
                args0.let({ args0 -> clusterResourceUsageExportConfigToKotlin(args0) })
            }).orElse(null)
        })

    /**
     * Enable/Disable Security Posture API features for the cluster. Structure is documented below.
     */
    public val securityPostureConfig: Output
        get() = javaResource.securityPostureConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterSecurityPostureConfigToKotlin(args0)
            })
        })

    /**
     * The server-defined URL for the resource.
     */
    public val selfLink: Output
        get() = javaResource.selfLink().applyValue({ args0 -> args0 })

    /**
     * Structure is documented below.
     */
    public val serviceExternalIpsConfig: Output
        get() = javaResource.serviceExternalIpsConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterServiceExternalIpsConfigToKotlin(args0)
            })
        })

    /**
     * The IP address range of the Kubernetes services in this
     * cluster, in [CIDR](http://en.wikipedia.org/wiki/Classless_Inter-Domain_Routing)
     * notation (e.g. `1.2.3.4/29`). Service addresses are typically put in the last
     * `/16` from the container CIDR.
     */
    public val servicesIpv4Cidr: Output
        get() = javaResource.servicesIpv4Cidr().applyValue({ args0 -> args0 })

    /**
     * The name or self_link of the Google Compute Engine
     * subnetwork in which the cluster's instances are launched.
     */
    public val subnetwork: Output
        get() = javaResource.subnetwork().applyValue({ args0 -> args0 })

    /**
     * TPU configuration for the cluster.
     */
    public val tpuConfig: Output
        get() = javaResource.tpuConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterTpuConfigToKotlin(args0)
            })
        })

    /**
     * The IP address range of the Cloud TPUs in this cluster, in
     * [CIDR](http://en.wikipedia.org/wiki/Classless_Inter-Domain_Routing)
     * notation (e.g. `1.2.3.4/29`).
     */
    public val tpuIpv4CidrBlock: Output
        get() = javaResource.tpuIpv4CidrBlock().applyValue({ args0 -> args0 })

    /**
     * Vertical Pod Autoscaling automatically adjusts the resources of pods controlled by it.
     * Structure is documented below.
     */
    public val verticalPodAutoscaling: Output
        get() = javaResource.verticalPodAutoscaling().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterVerticalPodAutoscalingToKotlin(args0)
            })
        })

    /**
     * Configuration for [direct-path (via ALTS) with workload identity.](https://cloud.google.com/kubernetes-engine/docs/reference/rest/v1beta1/projects.locations.clusters#workloadaltsconfig). Structure is documented below.
     * The `default_snat_status` block supports
     */
    public val workloadAltsConfig: Output
        get() = javaResource.workloadAltsConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterWorkloadAltsConfigToKotlin(args0)
            })
        })

    /**
     * Workload Identity allows Kubernetes service accounts to act as a user-managed
     * [Google IAM Service Account](https://cloud.google.com/iam/docs/service-accounts#user-managed_service_accounts).
     * Structure is documented below.
     */
    public val workloadIdentityConfig: Output
        get() = javaResource.workloadIdentityConfig().applyValue({ args0 ->
            args0.let({ args0 ->
                clusterWorkloadIdentityConfigToKotlin(args0)
            })
        })
}

public object ClusterMapper : ResourceMapper {
    override fun supportsMappingOfType(javaResource: Resource): Boolean =
        com.pulumi.gcp.container.Cluster::class == javaResource::class

    override fun map(javaResource: Resource): Cluster = Cluster(
        javaResource as
            com.pulumi.gcp.container.Cluster,
    )
}

/**
 * @see [Cluster].
 * @param name The _unique_ name of the resulting resource.
 * @param block Builder for [Cluster].
 */
public suspend fun cluster(name: String, block: suspend ClusterResourceBuilder.() -> Unit): Cluster {
    val builder = ClusterResourceBuilder()
    builder.name(name)
    block(builder)
    return builder.build()
}

/**
 * @see [Cluster].
 * @param name The _unique_ name of the resulting resource.
 */
public fun cluster(name: String): Cluster {
    val builder = ClusterResourceBuilder()
    builder.name(name)
    return builder.build()
}




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