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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.
@file:Suppress("NAME_SHADOWING", "DEPRECATION")
package com.pulumi.gcp.netapp.kotlin
import com.pulumi.core.Output
import com.pulumi.core.Output.of
import com.pulumi.gcp.netapp.VolumeArgs.builder
import com.pulumi.gcp.netapp.kotlin.inputs.VolumeExportPolicyArgs
import com.pulumi.gcp.netapp.kotlin.inputs.VolumeExportPolicyArgsBuilder
import com.pulumi.gcp.netapp.kotlin.inputs.VolumeRestoreParametersArgs
import com.pulumi.gcp.netapp.kotlin.inputs.VolumeRestoreParametersArgsBuilder
import com.pulumi.gcp.netapp.kotlin.inputs.VolumeSnapshotPolicyArgs
import com.pulumi.gcp.netapp.kotlin.inputs.VolumeSnapshotPolicyArgsBuilder
import com.pulumi.kotlin.ConvertibleToJava
import com.pulumi.kotlin.PulumiTagMarker
import com.pulumi.kotlin.applySuspend
import kotlin.Boolean
import kotlin.Pair
import kotlin.String
import kotlin.Suppress
import kotlin.Unit
import kotlin.collections.List
import kotlin.collections.Map
import kotlin.jvm.JvmName
/**
* A volume is a file system container in a storage pool that stores application, database, and user data.
* You can create a volume's capacity using the available capacity in the storage pool and you can define and resize the capacity without disruption to any processes.
* Storage pool settings apply to the volumes contained within them automatically.
* To get more information about Volume, see:
* * [API documentation](https://cloud.google.com/netapp/volumes/docs/reference/rest/v1/projects.locations.volumes)
* * How-to Guides
* * [Quickstart](https://cloud.google.com/netapp/volumes/docs/get-started/quickstarts/create-volume)
* * [Documentation](https://cloud.google.com/netapp/volumes/docs/configure-and-use/volumes/overview)
* ## Example Usage
* ### Netapp Volume Basic
*
* ```typescript
* import * as pulumi from "@pulumi/pulumi";
* import * as gcp from "@pulumi/gcp";
* const default = gcp.compute.getNetwork({
* name: "test-network",
* });
* const defaultStoragePool = new gcp.netapp.StoragePool("default", {
* name: "test-pool",
* location: "us-west2",
* serviceLevel: "PREMIUM",
* capacityGib: "2048",
* network: _default.then(_default => _default.id),
* });
* const testVolume = new gcp.netapp.Volume("test_volume", {
* location: "us-west2",
* name: "test-volume",
* capacityGib: "100",
* shareName: "test-volume",
* storagePool: defaultStoragePool.name,
* protocols: ["NFSV3"],
* deletionPolicy: "DEFAULT",
* });
* ```
* ```python
* import pulumi
* import pulumi_gcp as gcp
* default = gcp.compute.get_network(name="test-network")
* default_storage_pool = gcp.netapp.StoragePool("default",
* name="test-pool",
* location="us-west2",
* service_level="PREMIUM",
* capacity_gib="2048",
* network=default.id)
* test_volume = gcp.netapp.Volume("test_volume",
* location="us-west2",
* name="test-volume",
* capacity_gib="100",
* share_name="test-volume",
* storage_pool=default_storage_pool.name,
* protocols=["NFSV3"],
* deletion_policy="DEFAULT")
* ```
* ```csharp
* using System.Collections.Generic;
* using System.Linq;
* using Pulumi;
* using Gcp = Pulumi.Gcp;
* return await Deployment.RunAsync(() =>
* {
* var @default = Gcp.Compute.GetNetwork.Invoke(new()
* {
* Name = "test-network",
* });
* var defaultStoragePool = new Gcp.Netapp.StoragePool("default", new()
* {
* Name = "test-pool",
* Location = "us-west2",
* ServiceLevel = "PREMIUM",
* CapacityGib = "2048",
* Network = @default.Apply(@default => @default.Apply(getNetworkResult => getNetworkResult.Id)),
* });
* var testVolume = new Gcp.Netapp.Volume("test_volume", new()
* {
* Location = "us-west2",
* Name = "test-volume",
* CapacityGib = "100",
* ShareName = "test-volume",
* StoragePool = defaultStoragePool.Name,
* Protocols = new[]
* {
* "NFSV3",
* },
* DeletionPolicy = "DEFAULT",
* });
* });
* ```
* ```go
* package main
* import (
* "github.com/pulumi/pulumi-gcp/sdk/v7/go/gcp/compute"
* "github.com/pulumi/pulumi-gcp/sdk/v7/go/gcp/netapp"
* "github.com/pulumi/pulumi/sdk/v3/go/pulumi"
* )
* func main() {
* pulumi.Run(func(ctx *pulumi.Context) error {
* _default, err := compute.LookupNetwork(ctx, &compute.LookupNetworkArgs{
* Name: "test-network",
* }, nil)
* if err != nil {
* return err
* }
* defaultStoragePool, err := netapp.NewStoragePool(ctx, "default", &netapp.StoragePoolArgs{
* Name: pulumi.String("test-pool"),
* Location: pulumi.String("us-west2"),
* ServiceLevel: pulumi.String("PREMIUM"),
* CapacityGib: pulumi.String("2048"),
* Network: pulumi.String(_default.Id),
* })
* if err != nil {
* return err
* }
* _, err = netapp.NewVolume(ctx, "test_volume", &netapp.VolumeArgs{
* Location: pulumi.String("us-west2"),
* Name: pulumi.String("test-volume"),
* CapacityGib: pulumi.String("100"),
* ShareName: pulumi.String("test-volume"),
* StoragePool: defaultStoragePool.Name,
* Protocols: pulumi.StringArray{
* pulumi.String("NFSV3"),
* },
* DeletionPolicy: pulumi.String("DEFAULT"),
* })
* 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.compute.ComputeFunctions;
* import com.pulumi.gcp.compute.inputs.GetNetworkArgs;
* import com.pulumi.gcp.netapp.StoragePool;
* import com.pulumi.gcp.netapp.StoragePoolArgs;
* import com.pulumi.gcp.netapp.Volume;
* import com.pulumi.gcp.netapp.VolumeArgs;
* import java.util.List;
* import java.util.ArrayList;
* import java.util.Map;
* import java.io.File;
* import java.nio.file.Files;
* import java.nio.file.Paths;
* public class App {
* public static void main(String[] args) {
* Pulumi.run(App::stack);
* }
* public static void stack(Context ctx) {
* final var default = ComputeFunctions.getNetwork(GetNetworkArgs.builder()
* .name("test-network")
* .build());
* var defaultStoragePool = new StoragePool("defaultStoragePool", StoragePoolArgs.builder()
* .name("test-pool")
* .location("us-west2")
* .serviceLevel("PREMIUM")
* .capacityGib("2048")
* .network(default_.id())
* .build());
* var testVolume = new Volume("testVolume", VolumeArgs.builder()
* .location("us-west2")
* .name("test-volume")
* .capacityGib("100")
* .shareName("test-volume")
* .storagePool(defaultStoragePool.name())
* .protocols("NFSV3")
* .deletionPolicy("DEFAULT")
* .build());
* }
* }
* ```
* ```yaml
* resources:
* defaultStoragePool:
* type: gcp:netapp:StoragePool
* name: default
* properties:
* name: test-pool
* location: us-west2
* serviceLevel: PREMIUM
* capacityGib: '2048'
* network: ${default.id}
* testVolume:
* type: gcp:netapp:Volume
* name: test_volume
* properties:
* location: us-west2
* name: test-volume
* capacityGib: '100'
* shareName: test-volume
* storagePool: ${defaultStoragePool.name}
* protocols:
* - NFSV3
* deletionPolicy: DEFAULT
* variables:
* default:
* fn::invoke:
* Function: gcp:compute:getNetwork
* Arguments:
* name: test-network
* ```
*
* ## Import
* Volume can be imported using any of these accepted formats:
* * `projects/{{project}}/locations/{{location}}/volumes/{{name}}`
* * `{{project}}/{{location}}/{{name}}`
* * `{{location}}/{{name}}`
* When using the `pulumi import` command, Volume can be imported using one of the formats above. For example:
* ```sh
* $ pulumi import gcp:netapp/volume:Volume default projects/{{project}}/locations/{{location}}/volumes/{{name}}
* ```
* ```sh
* $ pulumi import gcp:netapp/volume:Volume default {{project}}/{{location}}/{{name}}
* ```
* ```sh
* $ pulumi import gcp:netapp/volume:Volume default {{location}}/{{name}}
* ```
* @property capacityGib Capacity of the volume (in GiB).
* @property deletionPolicy Policy to determine if the volume should be deleted forcefully.
* Volumes may have nested snapshot resources. Deleting such a volume will fail.
* Setting this parameter to FORCE will delete volumes including nested snapshots.
* @property description An optional description of this resource.
* @property exportPolicy Export policy of the volume for NFSV3 and/or NFSV4.1 access.
* Structure is documented below.
* @property kerberosEnabled Flag indicating if the volume is a kerberos volume or not, export policy rules control kerberos security modes (krb5, krb5i, krb5p).
* @property labels Labels as key value pairs. Example: `{ "owner": "Bob", "department": "finance", "purpose": "testing" }`.
* **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.
* @property location Name of the pool location. Usually a region name, expect for some STANDARD service level pools which require a zone name.
* @property name The name of the volume. Needs to be unique per location.
* - - -
* @property project The ID of the project in which the resource belongs.
* If it is not provided, the provider project is used.
* @property protocols The protocol of the volume. Allowed combinations are `['NFSV3']`, `['NFSV4']`, `['SMB']`, `['NFSV3', 'NFSV4']`, `['SMB', 'NFSV3']` and `['SMB', 'NFSV4']`.
* Each value may be one of: `NFSV3`, `NFSV4`, `SMB`.
* @property restoreParameters Used to create this volume from a snapshot (= cloning) or an backup.
* Structure is documented below.
* @property restrictedActions List of actions that are restricted on this volume.
* Each value may be one of: `DELETE`.
* @property securityStyle Security Style of the Volume. Use UNIX to use UNIX or NFSV4 ACLs for file permissions.
* Use NTFS to use NTFS ACLs for file permissions. Can only be set for volumes which use SMB together with NFS as protocol.
* Possible values are: `NTFS`, `UNIX`.
* @property shareName Share name (SMB) or export path (NFS) of the volume. Needs to be unique per location.
* @property smbSettings Settings for volumes with SMB access.
* Each value may be one of: `ENCRYPT_DATA`, `BROWSABLE`, `CHANGE_NOTIFY`, `NON_BROWSABLE`, `OPLOCKS`, `SHOW_SNAPSHOT`, `SHOW_PREVIOUS_VERSIONS`, `ACCESS_BASED_ENUMERATION`, `CONTINUOUSLY_AVAILABLE`.
* @property snapshotDirectory If enabled, a NFS volume will contain a read-only .snapshot directory which provides access to each of the volume's snapshots. Will enable "Previous Versions" support for SMB.
* @property snapshotPolicy Snapshot policy defines the schedule for automatic snapshot creation.
* To disable automatic snapshot creation you have to remove the whole snapshot_policy block.
* Structure is documented below.
* @property storagePool Name of the storage pool to create the volume in. Pool needs enough spare capacity to accomodate the volume.
* @property unixPermissions Unix permission the mount point will be created with. Default is 0770. Applicable for UNIX security style volumes only.
*/
public data class VolumeArgs(
public val capacityGib: Output? = null,
public val deletionPolicy: Output? = null,
public val description: Output? = null,
public val exportPolicy: Output? = null,
public val kerberosEnabled: Output? = null,
public val labels: Output