@pulumiverse/scaleway
Version:
A Pulumi package for creating and managing Scaleway cloud resources.
652 lines • 27.3 kB
TypeScript
import * as pulumi from "@pulumi/pulumi";
import * as inputs from "./types/input";
import * as outputs from "./types/output";
/**
* The `scaleway.kubernetes.Cluster` resource allows you to create and manage Scaleway Kubernetes clusters.
*
* Refer to the Kubernetes [documentation](https://www.scaleway.com/en/docs/compute/kubernetes/) and [API documentation](https://www.scaleway.com/en/developers/api/kubernetes/) for more information.
*
* ## Example Usage
*
* ### Basic
*
* ```typescript
* import * as pulumi from "@pulumi/pulumi";
* import * as scaleway from "@pulumiverse/scaleway";
*
* const pn = new scaleway.network.PrivateNetwork("pn", {});
* const cluster = new scaleway.kubernetes.Cluster("cluster", {
* name: "tf-cluster",
* version: "1.35.3",
* cni: "cilium",
* privateNetworkId: pn.id,
* deleteAdditionalResources: false,
* });
* const pool = new scaleway.kubernetes.Pool("pool", {
* clusterId: cluster.id,
* version: cluster.version,
* name: "tf-pool",
* nodeType: "DEV1-M",
* size: 1,
* });
* ```
*
* ### Using autoscalerConfig
*
* ```typescript
* import * as pulumi from "@pulumi/pulumi";
* import * as scaleway from "@pulumiverse/scaleway";
*
* const pn = new scaleway.network.PrivateNetwork("pn", {});
* const cluster = new scaleway.kubernetes.Cluster("cluster", {
* name: "tf-cluster",
* description: "cluster made in terraform",
* version: "1.35.3",
* cni: "calico",
* tags: ["terraform"],
* privateNetworkId: pn.id,
* deleteAdditionalResources: false,
* autoscalerConfig: {
* disableScaleDown: false,
* scaleDownDelayAfterAdd: "5m",
* estimator: "binpacking",
* expander: "random",
* ignoreDaemonsetsUtilization: true,
* balanceSimilarNodeGroups: true,
* expendablePodsPriorityCutoff: -5,
* },
* });
* const pool = new scaleway.kubernetes.Pool("pool", {
* clusterId: cluster.id,
* version: cluster.version,
* name: "tf-pool",
* nodeType: "DEV1-M",
* size: 3,
* autoscaling: true,
* autohealing: true,
* minSize: 1,
* maxSize: 5,
* });
* ```
*
* ### With the Helm provider
*
* ```typescript
* import * as pulumi from "@pulumi/pulumi";
* import * as _null from "@pulumi/null";
* import * as kubernetes from "@pulumi/kubernetes";
* import * as scaleway from "@pulumiverse/scaleway";
*
* const pn = new scaleway.network.PrivateNetwork("pn", {});
* const cluster = new scaleway.kubernetes.Cluster("cluster", {
* name: "tf-cluster",
* version: "1.35.3",
* cni: "cilium",
* deleteAdditionalResources: false,
* privateNetworkId: pn.id,
* });
* const pool = new scaleway.kubernetes.Pool("pool", {
* clusterId: cluster.id,
* version: cluster.version,
* name: "tf-pool",
* nodeType: "DEV1-M",
* size: 1,
* });
* const kubeconfig = new _null.Resource("kubeconfig", {triggers: {
* host: cluster.kubeconfigs.apply(kubeconfigs => kubeconfigs[0].host),
* token: cluster.kubeconfigs.apply(kubeconfigs => kubeconfigs[0].token),
* clusterCaCertificate: cluster.kubeconfigs.apply(kubeconfigs => kubeconfigs[0].clusterCaCertificate),
* }}, {
* dependsOn: [pool],
* });
* const nginxIp = new scaleway.loadbalancers.Ip("nginx_ip", {
* zone: "fr-par-1",
* projectId: cluster.projectId,
* });
* const nginxIngress = new kubernetes.helm.sh/v3.Release("nginx_ingress", {
* name: "nginx-ingress",
* namespace: "kube-system",
* repositoryOpts: {
* repo: "https://kubernetes.github.io/ingress-nginx",
* },
* chart: "ingress-nginx",
* values: {
* "controller.service.loadBalancerIP": nginxIp.ipAddress,
* "controller.config.use-proxy-protocol": "true",
* "controller.service.annotations.service\\.beta\\.kubernetes\\.io/scw-loadbalancer-proxy-protocol-v2": "true",
* "controller.service.annotations.service\\.beta\\.kubernetes\\.io/scw-loadbalancer-zone": nginxIp.zone,
* "controller.service.externalTrafficPolicy": "Local",
* },
* });
* ```
*
* ### With the Kubernetes provider
*
* ```typescript
* import * as pulumi from "@pulumi/pulumi";
* import * as _null from "@pulumi/null";
* import * as scaleway from "@pulumiverse/scaleway";
*
* const pn = new scaleway.network.PrivateNetwork("pn", {});
* const cluster = new scaleway.kubernetes.Cluster("cluster", {
* name: "tf-cluster",
* version: "1.35.3",
* cni: "cilium",
* privateNetworkId: pn.id,
* deleteAdditionalResources: false,
* });
* const pool = new scaleway.kubernetes.Pool("pool", {
* clusterId: cluster.id,
* version: cluster.version,
* name: "tf-pool",
* nodeType: "DEV1-M",
* size: 1,
* });
* // The `null_resource` is needed because when the cluster is created, its status is `pool_required`, but the kubeconfig can already be downloaded.
* // It leads the `kubernetes` provider to start creating its objects, but the DNS entry for the Kubernetes master is not yet ready, that's why it's needed to wait for at least a pool.
* const kubeconfig = new _null.Resource("kubeconfig", {triggers: {
* host: cluster.kubeconfigs.apply(kubeconfigs => kubeconfigs[0].host),
* token: cluster.kubeconfigs.apply(kubeconfigs => kubeconfigs[0].token),
* clusterCaCertificate: cluster.kubeconfigs.apply(kubeconfigs => kubeconfigs[0].clusterCaCertificate),
* }}, {
* dependsOn: [pool],
* });
* ```
*
* ### Multicloud
*
* ```typescript
* import * as pulumi from "@pulumi/pulumi";
* import * as scaleway from "@pulumiverse/scaleway";
*
* // For a detailed example of how to add or run Elastic Metal servers instead of Instances on your cluster, please refer to [this guide](../guides/multicloud_cluster_with_baremetal_servers.md).
* const cluster = new scaleway.kubernetes.Cluster("cluster", {
* name: "tf-cluster",
* type: "multicloud",
* version: "1.35.3",
* cni: "kilo",
* deleteAdditionalResources: false,
* });
* const pool = new scaleway.kubernetes.Pool("pool", {
* clusterId: cluster.id,
* version: cluster.version,
* name: "tf-pool",
* nodeType: "external",
* size: 0,
* minSize: 0,
* });
* ```
*
* ## Deprecation of defaultPool
*
* `defaultPool` is deprecated in favour the `scaleway.kubernetes.Pool` resource. Here is a migration example.
*
* Before:
*
* ```typescript
* import * as pulumi from "@pulumi/pulumi";
* import * as scaleway from "@pulumiverse/scaleway";
*
* const cluster = new scaleway.kubernetes.Cluster("cluster", {
* name: "tf-cluster",
* version: "1.18.0",
* cni: "cilium",
* defaultPool: [{
* nodeType: "DEV1-M",
* size: 1,
* }],
* });
* ```
*
* After:
*
* ```typescript
* import * as pulumi from "@pulumi/pulumi";
* import * as scaleway from "@pulumiverse/scaleway";
*
* const cluster = new scaleway.kubernetes.Cluster("cluster", {
* name: "tf-cluster",
* version: "1.18.0",
* cni: "cilium",
* });
* const _default = new scaleway.kubernetes.Pool("default", {
* clusterId: jack.id,
* name: "default",
* nodeType: "DEV1-M",
* size: 1,
* });
* ```
*
* Once you have moved all the `defaultPool` into their own object, you will need to import them. If your pool had the ID 11111111-1111-1111-1111-111111111111 in the `fr-par` region, you can import it by typing:
*
* Then you will only need to type `pulumi up` to have a smooth migration.
*
* ## Import
*
* Kubernetes clusters can be imported using the `{region}/{id}`, e.g.
*
* ```sh
* $ pulumi import scaleway:index/kubernetesCluster:KubernetesCluster mycluster fr-par/11111111-1111-1111-1111-111111111111
* ```
*
* @deprecated scaleway.index/kubernetescluster.KubernetesCluster has been deprecated in favor of scaleway.kubernetes/cluster.Cluster
*/
export declare class KubernetesCluster extends pulumi.CustomResource {
/**
* Get an existing KubernetesCluster resource's state with the given name, ID, and optional extra
* properties used to qualify the lookup.
*
* @param name The _unique_ name of the resulting resource.
* @param id The _unique_ provider ID of the resource to lookup.
* @param state Any extra arguments used during the lookup.
* @param opts Optional settings to control the behavior of the CustomResource.
*/
static get(name: string, id: pulumi.Input<pulumi.ID>, state?: KubernetesClusterState, opts?: pulumi.CustomResourceOptions): KubernetesCluster;
/**
* Returns true if the given object is an instance of KubernetesCluster. This is designed to work even
* when multiple copies of the Pulumi SDK have been loaded into the same process.
*/
static isInstance(obj: any): obj is KubernetesCluster;
/**
* The list of [admission plugins](https://kubernetes.io/docs/reference/access-authn-authz/admission-controllers/) to enable on the cluster.
*/
readonly admissionPlugins: pulumi.Output<string[] | undefined>;
/**
* Additional Subject Alternative Names for the Kubernetes API server certificate
*/
readonly apiserverCertSans: pulumi.Output<string[] | undefined>;
/**
* The URL of the Kubernetes API server.
*/
readonly apiserverUrl: pulumi.Output<string>;
/**
* The auto upgrade configuration.
*/
readonly autoUpgrade: pulumi.Output<outputs.KubernetesClusterAutoUpgrade>;
/**
* The configuration options for the [Kubernetes cluster autoscaler](https://github.com/kubernetes/autoscaler/tree/master/cluster-autoscaler).
*/
readonly autoscalerConfig: pulumi.Output<outputs.KubernetesClusterAutoscalerConfig>;
/**
* The Container Network Interface (CNI) for the Kubernetes cluster.
* > **Important:** Updates to this field will recreate a new resource.
*/
readonly cni: pulumi.Output<string>;
/**
* The creation date of the cluster.
*/
readonly createdAt: pulumi.Output<string>;
/**
* Delete additional resources like block volumes, load-balancers and the cluster's private network (if empty) that were created in Kubernetes on cluster deletion.
* > **Important:** Setting this field to `true` means that you will lose all your cluster data and network configuration when you delete your cluster.
* If you prefer keeping it, you should instead set it as `false`.
*/
readonly deleteAdditionalResources: pulumi.Output<boolean>;
/**
* A description for the Kubernetes cluster.
*/
readonly description: pulumi.Output<string | undefined>;
/**
* The list of [feature gates](https://kubernetes.io/docs/reference/command-line-tools-reference/feature-gates/) to enable on the cluster.
*/
readonly featureGates: pulumi.Output<string[] | undefined>;
/**
* The kubeconfig configuration file of the Kubernetes cluster
*/
readonly kubeconfigs: pulumi.Output<outputs.KubernetesClusterKubeconfig[]>;
/**
* The name for the Kubernetes cluster.
*/
readonly name: pulumi.Output<string>;
/**
* The OpenID Connect configuration of the cluster
*/
readonly openIdConnectConfig: pulumi.Output<outputs.KubernetesClusterOpenIdConnectConfig>;
/**
* The organization ID the cluster is associated with.
*/
readonly organizationId: pulumi.Output<string>;
/**
* The subnet used for the Pod CIDR.
*
* > **Important:** Changes to this field will recreate a new resource. However once it has been set to a custom value,
* unsetting it to go back to the default value will not have any effect.
*/
readonly podCidr: pulumi.Output<string>;
/**
* The ID of the private network of the cluster.
*
* > **Important:** Changes to this field will recreate a new resource.
*
* > **Important:** Private Networks are now mandatory with Kapsule Clusters. If you have a legacy cluster (no `privateNetworkId` set),
* you can still set it now. In this case it will not destroy and recreate your cluster but migrate it to the Private Network.
*/
readonly privateNetworkId: pulumi.Output<string | undefined>;
/**
* `projectId`) The ID of the project the cluster is associated with.
*/
readonly projectId: pulumi.Output<string>;
/**
* `region`) The region in which the cluster should be created.
*/
readonly region: pulumi.Output<string | undefined>;
/**
* The subnet used for the Service CIDR.
*
* > **Important:** Changes to this field will recreate a new resource. However once it has been set to a custom value,
* unsetting it to go back to the default value will not have any effect.
*/
readonly serviceCidr: pulumi.Output<string>;
/**
* The IP used for the DNS Service. If unset, defaults to Service CIDR's network + 10.
*
* > **Important:** Changes to this field will recreate a new resource. However once it has been set to a custom value,
* unsetting it to go back to the default value will not have any effect.
*/
readonly serviceDnsIp: pulumi.Output<string>;
/**
* The status of the Kubernetes cluster.
*/
readonly status: pulumi.Output<string>;
/**
* The tags associated with the Kubernetes cluster.
*/
readonly tags: pulumi.Output<string[] | undefined>;
/**
* The type of Kubernetes cluster. Possible values are:
*
* - for mutualized clusters: `kapsule` or `multicloud`
*
* - for dedicated Kapsule clusters: `kapsule-dedicated-4`, `kapsule-dedicated-8` or `kapsule-dedicated-16`.
*
* - for dedicated Kosmos clusters: `multicloud-dedicated-4`, `multicloud-dedicated-8` or `multicloud-dedicated-16`.
*/
readonly type: pulumi.Output<string>;
/**
* The last update date of the cluster.
*/
readonly updatedAt: pulumi.Output<string>;
/**
* Set to `true` if a newer Kubernetes version is available.
*/
readonly upgradeAvailable: pulumi.Output<boolean>;
/**
* Whether the pools should be automatically upgraded alongside the cluster, or have to be upgraded separately.
* If `false` (cluster and pool version are independent of each other), pool upgrades can be conducted by setting the `version` field in the pool resource.
* If `true`, upgrading a cluster also performs an upgrade on the pools, but this change is made outside of Terraform, as the config of the pool resource may stay the same.
* In that case, refreshing the state will be required for the pool to be read again and the version changes to be shown in the state.
*/
readonly upgradePools: pulumi.Output<boolean | undefined>;
/**
* The version of the Kubernetes cluster.
*/
readonly version: pulumi.Output<string>;
/**
* The DNS wildcard that points to all ready nodes.
*/
readonly wildcardDns: pulumi.Output<string>;
/**
* Create a KubernetesCluster resource with the given unique name, arguments, and options.
*
* @param name The _unique_ name of the resource.
* @param args The arguments to use to populate this resource's properties.
* @param opts A bag of options that control this resource's behavior.
*/
/** @deprecated scaleway.index/kubernetescluster.KubernetesCluster has been deprecated in favor of scaleway.kubernetes/cluster.Cluster */
constructor(name: string, args: KubernetesClusterArgs, opts?: pulumi.CustomResourceOptions);
}
/**
* Input properties used for looking up and filtering KubernetesCluster resources.
*/
export interface KubernetesClusterState {
/**
* The list of [admission plugins](https://kubernetes.io/docs/reference/access-authn-authz/admission-controllers/) to enable on the cluster.
*/
admissionPlugins?: pulumi.Input<pulumi.Input<string>[] | undefined>;
/**
* Additional Subject Alternative Names for the Kubernetes API server certificate
*/
apiserverCertSans?: pulumi.Input<pulumi.Input<string>[] | undefined>;
/**
* The URL of the Kubernetes API server.
*/
apiserverUrl?: pulumi.Input<string | undefined>;
/**
* The auto upgrade configuration.
*/
autoUpgrade?: pulumi.Input<inputs.KubernetesClusterAutoUpgrade | undefined>;
/**
* The configuration options for the [Kubernetes cluster autoscaler](https://github.com/kubernetes/autoscaler/tree/master/cluster-autoscaler).
*/
autoscalerConfig?: pulumi.Input<inputs.KubernetesClusterAutoscalerConfig | undefined>;
/**
* The Container Network Interface (CNI) for the Kubernetes cluster.
* > **Important:** Updates to this field will recreate a new resource.
*/
cni?: pulumi.Input<string | undefined>;
/**
* The creation date of the cluster.
*/
createdAt?: pulumi.Input<string | undefined>;
/**
* Delete additional resources like block volumes, load-balancers and the cluster's private network (if empty) that were created in Kubernetes on cluster deletion.
* > **Important:** Setting this field to `true` means that you will lose all your cluster data and network configuration when you delete your cluster.
* If you prefer keeping it, you should instead set it as `false`.
*/
deleteAdditionalResources?: pulumi.Input<boolean | undefined>;
/**
* A description for the Kubernetes cluster.
*/
description?: pulumi.Input<string | undefined>;
/**
* The list of [feature gates](https://kubernetes.io/docs/reference/command-line-tools-reference/feature-gates/) to enable on the cluster.
*/
featureGates?: pulumi.Input<pulumi.Input<string>[] | undefined>;
/**
* The kubeconfig configuration file of the Kubernetes cluster
*/
kubeconfigs?: pulumi.Input<pulumi.Input<inputs.KubernetesClusterKubeconfig>[] | undefined>;
/**
* The name for the Kubernetes cluster.
*/
name?: pulumi.Input<string | undefined>;
/**
* The OpenID Connect configuration of the cluster
*/
openIdConnectConfig?: pulumi.Input<inputs.KubernetesClusterOpenIdConnectConfig | undefined>;
/**
* The organization ID the cluster is associated with.
*/
organizationId?: pulumi.Input<string | undefined>;
/**
* The subnet used for the Pod CIDR.
*
* > **Important:** Changes to this field will recreate a new resource. However once it has been set to a custom value,
* unsetting it to go back to the default value will not have any effect.
*/
podCidr?: pulumi.Input<string | undefined>;
/**
* The ID of the private network of the cluster.
*
* > **Important:** Changes to this field will recreate a new resource.
*
* > **Important:** Private Networks are now mandatory with Kapsule Clusters. If you have a legacy cluster (no `privateNetworkId` set),
* you can still set it now. In this case it will not destroy and recreate your cluster but migrate it to the Private Network.
*/
privateNetworkId?: pulumi.Input<string | undefined>;
/**
* `projectId`) The ID of the project the cluster is associated with.
*/
projectId?: pulumi.Input<string | undefined>;
/**
* `region`) The region in which the cluster should be created.
*/
region?: pulumi.Input<string | undefined>;
/**
* The subnet used for the Service CIDR.
*
* > **Important:** Changes to this field will recreate a new resource. However once it has been set to a custom value,
* unsetting it to go back to the default value will not have any effect.
*/
serviceCidr?: pulumi.Input<string | undefined>;
/**
* The IP used for the DNS Service. If unset, defaults to Service CIDR's network + 10.
*
* > **Important:** Changes to this field will recreate a new resource. However once it has been set to a custom value,
* unsetting it to go back to the default value will not have any effect.
*/
serviceDnsIp?: pulumi.Input<string | undefined>;
/**
* The status of the Kubernetes cluster.
*/
status?: pulumi.Input<string | undefined>;
/**
* The tags associated with the Kubernetes cluster.
*/
tags?: pulumi.Input<pulumi.Input<string>[] | undefined>;
/**
* The type of Kubernetes cluster. Possible values are:
*
* - for mutualized clusters: `kapsule` or `multicloud`
*
* - for dedicated Kapsule clusters: `kapsule-dedicated-4`, `kapsule-dedicated-8` or `kapsule-dedicated-16`.
*
* - for dedicated Kosmos clusters: `multicloud-dedicated-4`, `multicloud-dedicated-8` or `multicloud-dedicated-16`.
*/
type?: pulumi.Input<string | undefined>;
/**
* The last update date of the cluster.
*/
updatedAt?: pulumi.Input<string | undefined>;
/**
* Set to `true` if a newer Kubernetes version is available.
*/
upgradeAvailable?: pulumi.Input<boolean | undefined>;
/**
* Whether the pools should be automatically upgraded alongside the cluster, or have to be upgraded separately.
* If `false` (cluster and pool version are independent of each other), pool upgrades can be conducted by setting the `version` field in the pool resource.
* If `true`, upgrading a cluster also performs an upgrade on the pools, but this change is made outside of Terraform, as the config of the pool resource may stay the same.
* In that case, refreshing the state will be required for the pool to be read again and the version changes to be shown in the state.
*/
upgradePools?: pulumi.Input<boolean | undefined>;
/**
* The version of the Kubernetes cluster.
*/
version?: pulumi.Input<string | undefined>;
/**
* The DNS wildcard that points to all ready nodes.
*/
wildcardDns?: pulumi.Input<string | undefined>;
}
/**
* The set of arguments for constructing a KubernetesCluster resource.
*/
export interface KubernetesClusterArgs {
/**
* The list of [admission plugins](https://kubernetes.io/docs/reference/access-authn-authz/admission-controllers/) to enable on the cluster.
*/
admissionPlugins?: pulumi.Input<pulumi.Input<string>[] | undefined>;
/**
* Additional Subject Alternative Names for the Kubernetes API server certificate
*/
apiserverCertSans?: pulumi.Input<pulumi.Input<string>[] | undefined>;
/**
* The auto upgrade configuration.
*/
autoUpgrade?: pulumi.Input<inputs.KubernetesClusterAutoUpgrade | undefined>;
/**
* The configuration options for the [Kubernetes cluster autoscaler](https://github.com/kubernetes/autoscaler/tree/master/cluster-autoscaler).
*/
autoscalerConfig?: pulumi.Input<inputs.KubernetesClusterAutoscalerConfig | undefined>;
/**
* The Container Network Interface (CNI) for the Kubernetes cluster.
* > **Important:** Updates to this field will recreate a new resource.
*/
cni: pulumi.Input<string>;
/**
* Delete additional resources like block volumes, load-balancers and the cluster's private network (if empty) that were created in Kubernetes on cluster deletion.
* > **Important:** Setting this field to `true` means that you will lose all your cluster data and network configuration when you delete your cluster.
* If you prefer keeping it, you should instead set it as `false`.
*/
deleteAdditionalResources: pulumi.Input<boolean>;
/**
* A description for the Kubernetes cluster.
*/
description?: pulumi.Input<string | undefined>;
/**
* The list of [feature gates](https://kubernetes.io/docs/reference/command-line-tools-reference/feature-gates/) to enable on the cluster.
*/
featureGates?: pulumi.Input<pulumi.Input<string>[] | undefined>;
/**
* The name for the Kubernetes cluster.
*/
name?: pulumi.Input<string | undefined>;
/**
* The OpenID Connect configuration of the cluster
*/
openIdConnectConfig?: pulumi.Input<inputs.KubernetesClusterOpenIdConnectConfig | undefined>;
/**
* The subnet used for the Pod CIDR.
*
* > **Important:** Changes to this field will recreate a new resource. However once it has been set to a custom value,
* unsetting it to go back to the default value will not have any effect.
*/
podCidr?: pulumi.Input<string | undefined>;
/**
* The ID of the private network of the cluster.
*
* > **Important:** Changes to this field will recreate a new resource.
*
* > **Important:** Private Networks are now mandatory with Kapsule Clusters. If you have a legacy cluster (no `privateNetworkId` set),
* you can still set it now. In this case it will not destroy and recreate your cluster but migrate it to the Private Network.
*/
privateNetworkId?: pulumi.Input<string | undefined>;
/**
* `projectId`) The ID of the project the cluster is associated with.
*/
projectId?: pulumi.Input<string | undefined>;
/**
* `region`) The region in which the cluster should be created.
*/
region?: pulumi.Input<string | undefined>;
/**
* The subnet used for the Service CIDR.
*
* > **Important:** Changes to this field will recreate a new resource. However once it has been set to a custom value,
* unsetting it to go back to the default value will not have any effect.
*/
serviceCidr?: pulumi.Input<string | undefined>;
/**
* The IP used for the DNS Service. If unset, defaults to Service CIDR's network + 10.
*
* > **Important:** Changes to this field will recreate a new resource. However once it has been set to a custom value,
* unsetting it to go back to the default value will not have any effect.
*/
serviceDnsIp?: pulumi.Input<string | undefined>;
/**
* The tags associated with the Kubernetes cluster.
*/
tags?: pulumi.Input<pulumi.Input<string>[] | undefined>;
/**
* The type of Kubernetes cluster. Possible values are:
*
* - for mutualized clusters: `kapsule` or `multicloud`
*
* - for dedicated Kapsule clusters: `kapsule-dedicated-4`, `kapsule-dedicated-8` or `kapsule-dedicated-16`.
*
* - for dedicated Kosmos clusters: `multicloud-dedicated-4`, `multicloud-dedicated-8` or `multicloud-dedicated-16`.
*/
type?: pulumi.Input<string | undefined>;
/**
* Whether the pools should be automatically upgraded alongside the cluster, or have to be upgraded separately.
* If `false` (cluster and pool version are independent of each other), pool upgrades can be conducted by setting the `version` field in the pool resource.
* If `true`, upgrading a cluster also performs an upgrade on the pools, but this change is made outside of Terraform, as the config of the pool resource may stay the same.
* In that case, refreshing the state will be required for the pool to be read again and the version changes to be shown in the state.
*/
upgradePools?: pulumi.Input<boolean | undefined>;
/**
* The version of the Kubernetes cluster.
*/
version: pulumi.Input<string>;
}
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