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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.compute.kotlin
import com.pulumi.core.Output
import com.pulumi.gcp.compute.kotlin.outputs.DiskAsyncReplicationSecondaryDisk
import com.pulumi.gcp.compute.kotlin.outputs.DiskAsyncReplicationSecondaryDisk.Companion.toKotlin
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.String
import kotlin.Suppress
import kotlin.Unit
/**
* Builder for [DiskAsyncReplication].
*/
@PulumiTagMarker
public class DiskAsyncReplicationResourceBuilder internal constructor() {
public var name: String? = null
public var args: DiskAsyncReplicationArgs = DiskAsyncReplicationArgs()
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 DiskAsyncReplicationArgsBuilder.() -> Unit) {
val builder = DiskAsyncReplicationArgsBuilder()
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(): DiskAsyncReplication {
val builtJavaResource = com.pulumi.gcp.compute.DiskAsyncReplication(
this.name,
this.args.toJava(),
this.opts.toJava(),
)
return DiskAsyncReplication(builtJavaResource)
}
}
/**
* Starts and stops asynchronous persistent disk replication. For more information
* see [the official documentation](https://cloud.google.com/compute/docs/disks/async-pd/about)
* and the [API](https://cloud.google.com/compute/docs/reference/rest/v1/disks).
* ## Example Usage
*
* ```typescript
* import * as pulumi from "@pulumi/pulumi";
* import * as gcp from "@pulumi/gcp";
* const primary_disk = new gcp.compute.Disk("primary-disk", {
* name: "primary-disk",
* type: "pd-ssd",
* zone: "europe-west4-a",
* physicalBlockSizeBytes: 4096,
* });
* const secondary_disk = new gcp.compute.Disk("secondary-disk", {
* name: "secondary-disk",
* type: "pd-ssd",
* zone: "europe-west3-a",
* asyncPrimaryDisk: {
* disk: primary_disk.id,
* },
* physicalBlockSizeBytes: 4096,
* });
* const replication = new gcp.compute.DiskAsyncReplication("replication", {
* primaryDisk: primary_disk.id,
* secondaryDisk: {
* disk: secondary_disk.id,
* },
* });
* ```
* ```python
* import pulumi
* import pulumi_gcp as gcp
* primary_disk = gcp.compute.Disk("primary-disk",
* name="primary-disk",
* type="pd-ssd",
* zone="europe-west4-a",
* physical_block_size_bytes=4096)
* secondary_disk = gcp.compute.Disk("secondary-disk",
* name="secondary-disk",
* type="pd-ssd",
* zone="europe-west3-a",
* async_primary_disk={
* "disk": primary_disk.id,
* },
* physical_block_size_bytes=4096)
* replication = gcp.compute.DiskAsyncReplication("replication",
* primary_disk=primary_disk.id,
* secondary_disk={
* "disk": secondary_disk.id,
* })
* ```
* ```csharp
* using System.Collections.Generic;
* using System.Linq;
* using Pulumi;
* using Gcp = Pulumi.Gcp;
* return await Deployment.RunAsync(() =>
* {
* var primary_disk = new Gcp.Compute.Disk("primary-disk", new()
* {
* Name = "primary-disk",
* Type = "pd-ssd",
* Zone = "europe-west4-a",
* PhysicalBlockSizeBytes = 4096,
* });
* var secondary_disk = new Gcp.Compute.Disk("secondary-disk", new()
* {
* Name = "secondary-disk",
* Type = "pd-ssd",
* Zone = "europe-west3-a",
* AsyncPrimaryDisk = new Gcp.Compute.Inputs.DiskAsyncPrimaryDiskArgs
* {
* Disk = primary_disk.Id,
* },
* PhysicalBlockSizeBytes = 4096,
* });
* var replication = new Gcp.Compute.DiskAsyncReplication("replication", new()
* {
* PrimaryDisk = primary_disk.Id,
* SecondaryDisk = new Gcp.Compute.Inputs.DiskAsyncReplicationSecondaryDiskArgs
* {
* Disk = secondary_disk.Id,
* },
* });
* });
* ```
* ```go
* package main
* import (
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/compute"
* "github.com/pulumi/pulumi/sdk/v3/go/pulumi"
* )
* func main() {
* pulumi.Run(func(ctx *pulumi.Context) error {
* _, err := compute.NewDisk(ctx, "primary-disk", &compute.DiskArgs{
* Name: pulumi.String("primary-disk"),
* Type: pulumi.String("pd-ssd"),
* Zone: pulumi.String("europe-west4-a"),
* PhysicalBlockSizeBytes: pulumi.Int(4096),
* })
* if err != nil {
* return err
* }
* _, err = compute.NewDisk(ctx, "secondary-disk", &compute.DiskArgs{
* Name: pulumi.String("secondary-disk"),
* Type: pulumi.String("pd-ssd"),
* Zone: pulumi.String("europe-west3-a"),
* AsyncPrimaryDisk: &compute.DiskAsyncPrimaryDiskArgs{
* Disk: primary_disk.ID(),
* },
* PhysicalBlockSizeBytes: pulumi.Int(4096),
* })
* if err != nil {
* return err
* }
* _, err = compute.NewDiskAsyncReplication(ctx, "replication", &compute.DiskAsyncReplicationArgs{
* PrimaryDisk: primary_disk.ID(),
* SecondaryDisk: &compute.DiskAsyncReplicationSecondaryDiskArgs{
* Disk: secondary_disk.ID(),
* },
* })
* 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.Disk;
* import com.pulumi.gcp.compute.DiskArgs;
* import com.pulumi.gcp.compute.inputs.DiskAsyncPrimaryDiskArgs;
* import com.pulumi.gcp.compute.DiskAsyncReplication;
* import com.pulumi.gcp.compute.DiskAsyncReplicationArgs;
* import com.pulumi.gcp.compute.inputs.DiskAsyncReplicationSecondaryDiskArgs;
* 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 primary_disk = new Disk("primary-disk", DiskArgs.builder()
* .name("primary-disk")
* .type("pd-ssd")
* .zone("europe-west4-a")
* .physicalBlockSizeBytes(4096)
* .build());
* var secondary_disk = new Disk("secondary-disk", DiskArgs.builder()
* .name("secondary-disk")
* .type("pd-ssd")
* .zone("europe-west3-a")
* .asyncPrimaryDisk(DiskAsyncPrimaryDiskArgs.builder()
* .disk(primary_disk.id())
* .build())
* .physicalBlockSizeBytes(4096)
* .build());
* var replication = new DiskAsyncReplication("replication", DiskAsyncReplicationArgs.builder()
* .primaryDisk(primary_disk.id())
* .secondaryDisk(DiskAsyncReplicationSecondaryDiskArgs.builder()
* .disk(secondary_disk.id())
* .build())
* .build());
* }
* }
* ```
* ```yaml
* resources:
* primary-disk:
* type: gcp:compute:Disk
* properties:
* name: primary-disk
* type: pd-ssd
* zone: europe-west4-a
* physicalBlockSizeBytes: 4096
* secondary-disk:
* type: gcp:compute:Disk
* properties:
* name: secondary-disk
* type: pd-ssd
* zone: europe-west3-a
* asyncPrimaryDisk:
* disk: ${["primary-disk"].id}
* physicalBlockSizeBytes: 4096
* replication:
* type: gcp:compute:DiskAsyncReplication
* properties:
* primaryDisk: ${["primary-disk"].id}
* secondaryDisk:
* disk: ${["secondary-disk"].id}
* ```
*
*/
public class DiskAsyncReplication internal constructor(
override val javaResource: com.pulumi.gcp.compute.DiskAsyncReplication,
) : KotlinCustomResource(javaResource, DiskAsyncReplicationMapper) {
/**
* The primary disk (source of replication).
*/
public val primaryDisk: Output
get() = javaResource.primaryDisk().applyValue({ args0 -> args0 })
/**
* The secondary disk (target of replication). You can specify only one value. Structure is documented below.
* The `secondary_disk` block includes:
*/
public val secondaryDisk: Output
get() = javaResource.secondaryDisk().applyValue({ args0 ->
args0.let({ args0 ->
toKotlin(args0)
})
})
}
public object DiskAsyncReplicationMapper : ResourceMapper {
override fun supportsMappingOfType(javaResource: Resource): Boolean =
com.pulumi.gcp.compute.DiskAsyncReplication::class == javaResource::class
override fun map(javaResource: Resource): DiskAsyncReplication = DiskAsyncReplication(
javaResource
as com.pulumi.gcp.compute.DiskAsyncReplication,
)
}
/**
* @see [DiskAsyncReplication].
* @param name The _unique_ name of the resulting resource.
* @param block Builder for [DiskAsyncReplication].
*/
public suspend fun diskAsyncReplication(
name: String,
block: suspend DiskAsyncReplicationResourceBuilder.() -> Unit,
): DiskAsyncReplication {
val builder = DiskAsyncReplicationResourceBuilder()
builder.name(name)
block(builder)
return builder.build()
}
/**
* @see [DiskAsyncReplication].
* @param name The _unique_ name of the resulting resource.
*/
public fun diskAsyncReplication(name: String): DiskAsyncReplication {
val builder = DiskAsyncReplicationResourceBuilder()
builder.name(name)
return builder.build()
}
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