pulumi-azure-native-kotlin/com.pulumi.azurenative.containerstorage.kotlin/PoolArgs

PoolArgs

data class PoolArgs(val assignments: Output<List<String>>? = null, val diskPoolProperties: Output<DiskPoolPropertiesArgs>? = null, val elasticSanPoolProperties: Output<ElasticSanPoolPropertiesArgs>? = null, val ephemeralPoolProperties: Output<EphemeralPoolPropertiesArgs>? = null, val location: Output<String>? = null, val poolCapacityGiB: Output<Double>? = null, val poolName: Output<String>? = null, val poolType: Output<Double>? = null, val resourceGroupName: Output<String>? = null, val tags: Output<Map<String, String>>? = null, val zones: Output<List<String>>? = null) : ConvertibleToJava<PoolArgs>

Pool resource API Version: 2023-03-01-preview.

Example Usage

Pools_CreateOrUpdate_MaximumSet_Gen

using System.Collections.Generic;
using System.Linq;
using Pulumi;
using AzureNative = Pulumi.AzureNative;
return await Deployment.RunAsync(() =>
{
    var pool = new AzureNative.ContainerStorage.Pool("pool", new()
    {
        Assignments = new[]
        {
            "qvheujgnqksryltqtkjty",
        },
        DiskPoolProperties = new AzureNative.ContainerStorage.Inputs.DiskPoolPropertiesArgs
        {
            CsiParams =
            {
                { "key3964", "og" },
            },
            Disks = new[]
            {
                "wtsj",
            },
            MaxVolumeCapacityGiB = 11,
        },
        ElasticSanPoolProperties = new AzureNative.ContainerStorage.Inputs.ElasticSanPoolPropertiesArgs
        {
            ResourceGroup = "bjdqfuspbvlgkhsyt",
            SanName = "gu",
            VolumeGroup = "csbzebtsmcnhxzqp",
        },
        EphemeralPoolProperties = new AzureNative.ContainerStorage.Inputs.EphemeralPoolPropertiesArgs
        {
            DiskFormat = true,
            DiskSelector = new[]
            {
                "nvpe",
            },
            Disks = new[]
            {
                "zokpazvsbrjvkwhsss",
            },
        },
        Location = "jdfanwoyiigytvanvct",
        PoolCapacityGiB = 23,
        PoolName = "-EXNI2WK48",
        PoolType = 26,
        ResourceGroupName = "rgcontainerstorage",
        Tags =
        {
            { "key5598", "fxughwwqpqkvojkkuur" },
        },
        Zones = new[]
        {
            "mzjpggkkungkugtucivmxfjnxmzdj",
        },
    });
});
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package main
import (
	containerstorage "github.com/pulumi/pulumi-azure-native-sdk/containerstorage"
	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		_, err := containerstorage.NewPool(ctx, "pool", &containerstorage.PoolArgs{
			Assignments: pulumi.StringArray{
				pulumi.String("qvheujgnqksryltqtkjty"),
			},
			DiskPoolProperties: &containerstorage.DiskPoolPropertiesArgs{
				CsiParams: pulumi.StringMap{
					"key3964": pulumi.String("og"),
				},
				Disks: pulumi.StringArray{
					pulumi.String("wtsj"),
				},
				MaxVolumeCapacityGiB: pulumi.Float64(11),
			},
			ElasticSanPoolProperties: &containerstorage.ElasticSanPoolPropertiesArgs{
				ResourceGroup: pulumi.String("bjdqfuspbvlgkhsyt"),
				SanName:       pulumi.String("gu"),
				VolumeGroup:   pulumi.String("csbzebtsmcnhxzqp"),
			},
			EphemeralPoolProperties: &containerstorage.EphemeralPoolPropertiesArgs{
				DiskFormat: pulumi.Bool(true),
				DiskSelector: pulumi.StringArray{
					pulumi.String("nvpe"),
				},
				Disks: pulumi.StringArray{
					pulumi.String("zokpazvsbrjvkwhsss"),
				},
			},
			Location:          pulumi.String("jdfanwoyiigytvanvct"),
			PoolCapacityGiB:   pulumi.Float64(23),
			PoolName:          pulumi.String("-EXNI2WK48"),
			PoolType:          pulumi.Float64(26),
			ResourceGroupName: pulumi.String("rgcontainerstorage"),
			Tags: pulumi.StringMap{
				"key5598": pulumi.String("fxughwwqpqkvojkkuur"),
			},
			Zones: pulumi.StringArray{
				pulumi.String("mzjpggkkungkugtucivmxfjnxmzdj"),
			},
		})
		if err != nil {
			return err
		}
		return nil
	})
}
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package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.azurenative.containerstorage.Pool;
import com.pulumi.azurenative.containerstorage.PoolArgs;
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 pool = new Pool("pool", PoolArgs.builder()
            .assignments("qvheujgnqksryltqtkjty")
            .diskPoolProperties(Map.ofEntries(
                Map.entry("csiParams", Map.of("key3964", "og")),
                Map.entry("disks", "wtsj"),
                Map.entry("maxVolumeCapacityGiB", 11)
            ))
            .elasticSanPoolProperties(Map.ofEntries(
                Map.entry("resourceGroup", "bjdqfuspbvlgkhsyt"),
                Map.entry("sanName", "gu"),
                Map.entry("volumeGroup", "csbzebtsmcnhxzqp")
            ))
            .ephemeralPoolProperties(Map.ofEntries(
                Map.entry("diskFormat", true),
                Map.entry("diskSelector", "nvpe"),
                Map.entry("disks", "zokpazvsbrjvkwhsss")
            ))
            .location("jdfanwoyiigytvanvct")
            .poolCapacityGiB(23)
            .poolName("-EXNI2WK48")
            .poolType(26)
            .resourceGroupName("rgcontainerstorage")
            .tags(Map.of("key5598", "fxughwwqpqkvojkkuur"))
            .zones("mzjpggkkungkugtucivmxfjnxmzdj")
            .build());
    }
}
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Pools_CreateOrUpdate_MinimumSet_Gen

using System.Collections.Generic;
using System.Linq;
using Pulumi;
using AzureNative = Pulumi.AzureNative;
return await Deployment.RunAsync(() =>
{
    var pool = new AzureNative.ContainerStorage.Pool("pool", new()
    {
        Location = "jdfanwoyiigytvanvct",
        PoolName = "J873cXX1w3sIX",
        ResourceGroupName = "rgcontainerstorage",
    });
});
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package main
import (
	containerstorage "github.com/pulumi/pulumi-azure-native-sdk/containerstorage"
	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		_, err := containerstorage.NewPool(ctx, "pool", &containerstorage.PoolArgs{
			Location:          pulumi.String("jdfanwoyiigytvanvct"),
			PoolName:          pulumi.String("J873cXX1w3sIX"),
			ResourceGroupName: pulumi.String("rgcontainerstorage"),
		})
		if err != nil {
			return err
		}
		return nil
	})
}
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package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.azurenative.containerstorage.Pool;
import com.pulumi.azurenative.containerstorage.PoolArgs;
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 pool = new Pool("pool", PoolArgs.builder()
            .location("jdfanwoyiigytvanvct")
            .poolName("J873cXX1w3sIX")
            .resourceGroupName("rgcontainerstorage")
            .build());
    }
}
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Import

An existing resource can be imported using its type token, name, and identifier, e.g.

$ pulumi import azure-native:containerstorage:Pool rgzqqcqrypwtqhgnvcdilsbquamov a
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Constructors

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constructor(assignments: Output<List<String>>? = null, diskPoolProperties: Output<DiskPoolPropertiesArgs>? = null, elasticSanPoolProperties: Output<ElasticSanPoolPropertiesArgs>? = null, ephemeralPoolProperties: Output<EphemeralPoolPropertiesArgs>? = null, location: Output<String>? = null, poolCapacityGiB: Output<Double>? = null, poolName: Output<String>? = null, poolType: Output<Double>? = null, resourceGroupName: Output<String>? = null, tags: Output<Map<String, String>>? = null, zones: Output<List<String>>? = null)

Properties

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val assignments: Output<List<String>>? = null

List of resources that should have access to the pool. Typically ARM references to AKS clusters or ACI Container Groups. For local and standard this must be a single reference. For portable there can be many.

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val diskPoolProperties: Output<DiskPoolPropertiesArgs>? = null

Disk Pool Properties

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val elasticSanPoolProperties: Output<ElasticSanPoolPropertiesArgs>? = null

Elastic San Pool Properties

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val ephemeralPoolProperties: Output<EphemeralPoolPropertiesArgs>? = null

Ephemeral Pool Properties

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val location: Output<String>? = null

The geo-location where the resource lives

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val poolCapacityGiB: Output<Double>? = null

Initial capacity of the pool in GiB.

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val poolName: Output<String>? = null

Pool Object

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val poolType: Output<Double>? = null

Type of the Pool: ephemeral, disk, managed, or elasticsan.

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val resourceGroupName: Output<String>? = null

The name of the resource group. The name is case insensitive.

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val tags: Output<Map<String, String>>? = null

Resource tags.

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val zones: Output<List<String>>? = null

List of availability zones that resources can be created in.

Functions

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open override fun toJava(): PoolArgs