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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.redis.kotlin
import com.pulumi.core.Output
import com.pulumi.gcp.redis.kotlin.outputs.ClusterCrossClusterReplicationConfig
import com.pulumi.gcp.redis.kotlin.outputs.ClusterDiscoveryEndpoint
import com.pulumi.gcp.redis.kotlin.outputs.ClusterMaintenancePolicy
import com.pulumi.gcp.redis.kotlin.outputs.ClusterMaintenanceSchedule
import com.pulumi.gcp.redis.kotlin.outputs.ClusterPersistenceConfig
import com.pulumi.gcp.redis.kotlin.outputs.ClusterPscConfig
import com.pulumi.gcp.redis.kotlin.outputs.ClusterPscConnection
import com.pulumi.gcp.redis.kotlin.outputs.ClusterStateInfo
import com.pulumi.gcp.redis.kotlin.outputs.ClusterZoneDistributionConfig
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.Double
import kotlin.Int
import kotlin.String
import kotlin.Suppress
import kotlin.Unit
import kotlin.collections.List
import kotlin.collections.Map
import com.pulumi.gcp.redis.kotlin.outputs.ClusterCrossClusterReplicationConfig.Companion.toKotlin as clusterCrossClusterReplicationConfigToKotlin
import com.pulumi.gcp.redis.kotlin.outputs.ClusterDiscoveryEndpoint.Companion.toKotlin as clusterDiscoveryEndpointToKotlin
import com.pulumi.gcp.redis.kotlin.outputs.ClusterMaintenancePolicy.Companion.toKotlin as clusterMaintenancePolicyToKotlin
import com.pulumi.gcp.redis.kotlin.outputs.ClusterMaintenanceSchedule.Companion.toKotlin as clusterMaintenanceScheduleToKotlin
import com.pulumi.gcp.redis.kotlin.outputs.ClusterPersistenceConfig.Companion.toKotlin as clusterPersistenceConfigToKotlin
import com.pulumi.gcp.redis.kotlin.outputs.ClusterPscConfig.Companion.toKotlin as clusterPscConfigToKotlin
import com.pulumi.gcp.redis.kotlin.outputs.ClusterPscConnection.Companion.toKotlin as clusterPscConnectionToKotlin
import com.pulumi.gcp.redis.kotlin.outputs.ClusterStateInfo.Companion.toKotlin as clusterStateInfoToKotlin
import com.pulumi.gcp.redis.kotlin.outputs.ClusterZoneDistributionConfig.Companion.toKotlin as clusterZoneDistributionConfigToKotlin
/**
* 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.redis.Cluster(
this.name,
this.args.toJava(),
this.opts.toJava(),
)
return Cluster(builtJavaResource)
}
}
/**
* ## Example Usage
* ### Redis Cluster Ha
*
* ```typescript
* import * as pulumi from "@pulumi/pulumi";
* import * as gcp from "@pulumi/gcp";
* const producerNet = new gcp.compute.Network("producer_net", {
* name: "mynetwork",
* autoCreateSubnetworks: false,
* });
* const producerSubnet = new gcp.compute.Subnetwork("producer_subnet", {
* name: "mysubnet",
* ipCidrRange: "10.0.0.248/29",
* region: "us-central1",
* network: producerNet.id,
* });
* const _default = new gcp.networkconnectivity.ServiceConnectionPolicy("default", {
* name: "mypolicy",
* location: "us-central1",
* serviceClass: "gcp-memorystore-redis",
* description: "my basic service connection policy",
* network: producerNet.id,
* pscConfig: {
* subnetworks: [producerSubnet.id],
* },
* });
* const cluster_ha = new gcp.redis.Cluster("cluster-ha", {
* name: "ha-cluster",
* shardCount: 3,
* pscConfigs: [{
* network: producerNet.id,
* }],
* region: "us-central1",
* replicaCount: 1,
* nodeType: "REDIS_SHARED_CORE_NANO",
* transitEncryptionMode: "TRANSIT_ENCRYPTION_MODE_DISABLED",
* authorizationMode: "AUTH_MODE_DISABLED",
* redisConfigs: {
* "maxmemory-policy": "volatile-ttl",
* },
* deletionProtectionEnabled: true,
* zoneDistributionConfig: {
* mode: "MULTI_ZONE",
* },
* maintenancePolicy: {
* weeklyMaintenanceWindows: [{
* day: "MONDAY",
* startTime: {
* hours: 1,
* minutes: 0,
* seconds: 0,
* nanos: 0,
* },
* }],
* },
* }, {
* dependsOn: [_default],
* });
* ```
* ```python
* import pulumi
* import pulumi_gcp as gcp
* producer_net = gcp.compute.Network("producer_net",
* name="mynetwork",
* auto_create_subnetworks=False)
* producer_subnet = gcp.compute.Subnetwork("producer_subnet",
* name="mysubnet",
* ip_cidr_range="10.0.0.248/29",
* region="us-central1",
* network=producer_net.id)
* default = gcp.networkconnectivity.ServiceConnectionPolicy("default",
* name="mypolicy",
* location="us-central1",
* service_class="gcp-memorystore-redis",
* description="my basic service connection policy",
* network=producer_net.id,
* psc_config={
* "subnetworks": [producer_subnet.id],
* })
* cluster_ha = gcp.redis.Cluster("cluster-ha",
* name="ha-cluster",
* shard_count=3,
* psc_configs=[{
* "network": producer_net.id,
* }],
* region="us-central1",
* replica_count=1,
* node_type="REDIS_SHARED_CORE_NANO",
* transit_encryption_mode="TRANSIT_ENCRYPTION_MODE_DISABLED",
* authorization_mode="AUTH_MODE_DISABLED",
* redis_configs={
* "maxmemory-policy": "volatile-ttl",
* },
* deletion_protection_enabled=True,
* zone_distribution_config={
* "mode": "MULTI_ZONE",
* },
* maintenance_policy={
* "weekly_maintenance_windows": [{
* "day": "MONDAY",
* "start_time": {
* "hours": 1,
* "minutes": 0,
* "seconds": 0,
* "nanos": 0,
* },
* }],
* },
* opts = pulumi.ResourceOptions(depends_on=[default]))
* ```
* ```csharp
* using System.Collections.Generic;
* using System.Linq;
* using Pulumi;
* using Gcp = Pulumi.Gcp;
* return await Deployment.RunAsync(() =>
* {
* var producerNet = new Gcp.Compute.Network("producer_net", new()
* {
* Name = "mynetwork",
* AutoCreateSubnetworks = false,
* });
* var producerSubnet = new Gcp.Compute.Subnetwork("producer_subnet", new()
* {
* Name = "mysubnet",
* IpCidrRange = "10.0.0.248/29",
* Region = "us-central1",
* Network = producerNet.Id,
* });
* var @default = new Gcp.NetworkConnectivity.ServiceConnectionPolicy("default", new()
* {
* Name = "mypolicy",
* Location = "us-central1",
* ServiceClass = "gcp-memorystore-redis",
* Description = "my basic service connection policy",
* Network = producerNet.Id,
* PscConfig = new Gcp.NetworkConnectivity.Inputs.ServiceConnectionPolicyPscConfigArgs
* {
* Subnetworks = new[]
* {
* producerSubnet.Id,
* },
* },
* });
* var cluster_ha = new Gcp.Redis.Cluster("cluster-ha", new()
* {
* Name = "ha-cluster",
* ShardCount = 3,
* PscConfigs = new[]
* {
* new Gcp.Redis.Inputs.ClusterPscConfigArgs
* {
* Network = producerNet.Id,
* },
* },
* Region = "us-central1",
* ReplicaCount = 1,
* NodeType = "REDIS_SHARED_CORE_NANO",
* TransitEncryptionMode = "TRANSIT_ENCRYPTION_MODE_DISABLED",
* AuthorizationMode = "AUTH_MODE_DISABLED",
* RedisConfigs =
* {
* { "maxmemory-policy", "volatile-ttl" },
* },
* DeletionProtectionEnabled = true,
* ZoneDistributionConfig = new Gcp.Redis.Inputs.ClusterZoneDistributionConfigArgs
* {
* Mode = "MULTI_ZONE",
* },
* MaintenancePolicy = new Gcp.Redis.Inputs.ClusterMaintenancePolicyArgs
* {
* WeeklyMaintenanceWindows = new[]
* {
* new Gcp.Redis.Inputs.ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs
* {
* Day = "MONDAY",
* StartTime = new Gcp.Redis.Inputs.ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs
* {
* Hours = 1,
* Minutes = 0,
* Seconds = 0,
* Nanos = 0,
* },
* },
* },
* },
* }, new CustomResourceOptions
* {
* DependsOn =
* {
* @default,
* },
* });
* });
* ```
* ```go
* package main
* import (
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/compute"
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/networkconnectivity"
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/redis"
* "github.com/pulumi/pulumi/sdk/v3/go/pulumi"
* )
* func main() {
* pulumi.Run(func(ctx *pulumi.Context) error {
* producerNet, err := compute.NewNetwork(ctx, "producer_net", &compute.NetworkArgs{
* Name: pulumi.String("mynetwork"),
* AutoCreateSubnetworks: pulumi.Bool(false),
* })
* if err != nil {
* return err
* }
* producerSubnet, err := compute.NewSubnetwork(ctx, "producer_subnet", &compute.SubnetworkArgs{
* Name: pulumi.String("mysubnet"),
* IpCidrRange: pulumi.String("10.0.0.248/29"),
* Region: pulumi.String("us-central1"),
* Network: producerNet.ID(),
* })
* if err != nil {
* return err
* }
* _, err = networkconnectivity.NewServiceConnectionPolicy(ctx, "default", &networkconnectivity.ServiceConnectionPolicyArgs{
* Name: pulumi.String("mypolicy"),
* Location: pulumi.String("us-central1"),
* ServiceClass: pulumi.String("gcp-memorystore-redis"),
* Description: pulumi.String("my basic service connection policy"),
* Network: producerNet.ID(),
* PscConfig: &networkconnectivity.ServiceConnectionPolicyPscConfigArgs{
* Subnetworks: pulumi.StringArray{
* producerSubnet.ID(),
* },
* },
* })
* if err != nil {
* return err
* }
* _, err = redis.NewCluster(ctx, "cluster-ha", &redis.ClusterArgs{
* Name: pulumi.String("ha-cluster"),
* ShardCount: pulumi.Int(3),
* PscConfigs: redis.ClusterPscConfigArray{
* &redis.ClusterPscConfigArgs{
* Network: producerNet.ID(),
* },
* },
* Region: pulumi.String("us-central1"),
* ReplicaCount: pulumi.Int(1),
* NodeType: pulumi.String("REDIS_SHARED_CORE_NANO"),
* TransitEncryptionMode: pulumi.String("TRANSIT_ENCRYPTION_MODE_DISABLED"),
* AuthorizationMode: pulumi.String("AUTH_MODE_DISABLED"),
* RedisConfigs: pulumi.StringMap{
* "maxmemory-policy": pulumi.String("volatile-ttl"),
* },
* DeletionProtectionEnabled: pulumi.Bool(true),
* ZoneDistributionConfig: &redis.ClusterZoneDistributionConfigArgs{
* Mode: pulumi.String("MULTI_ZONE"),
* },
* MaintenancePolicy: &redis.ClusterMaintenancePolicyArgs{
* WeeklyMaintenanceWindows: redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowArray{
* &redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs{
* Day: pulumi.String("MONDAY"),
* StartTime: &redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs{
* Hours: pulumi.Int(1),
* Minutes: pulumi.Int(0),
* Seconds: pulumi.Int(0),
* Nanos: pulumi.Int(0),
* },
* },
* },
* },
* }, pulumi.DependsOn([]pulumi.Resource{
* _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.Network;
* import com.pulumi.gcp.compute.NetworkArgs;
* import com.pulumi.gcp.compute.Subnetwork;
* import com.pulumi.gcp.compute.SubnetworkArgs;
* import com.pulumi.gcp.networkconnectivity.ServiceConnectionPolicy;
* import com.pulumi.gcp.networkconnectivity.ServiceConnectionPolicyArgs;
* import com.pulumi.gcp.networkconnectivity.inputs.ServiceConnectionPolicyPscConfigArgs;
* import com.pulumi.gcp.redis.Cluster;
* import com.pulumi.gcp.redis.ClusterArgs;
* import com.pulumi.gcp.redis.inputs.ClusterPscConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterZoneDistributionConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterMaintenancePolicyArgs;
* import com.pulumi.resources.CustomResourceOptions;
* 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 producerNet = new Network("producerNet", NetworkArgs.builder()
* .name("mynetwork")
* .autoCreateSubnetworks(false)
* .build());
* var producerSubnet = new Subnetwork("producerSubnet", SubnetworkArgs.builder()
* .name("mysubnet")
* .ipCidrRange("10.0.0.248/29")
* .region("us-central1")
* .network(producerNet.id())
* .build());
* var default_ = new ServiceConnectionPolicy("default", ServiceConnectionPolicyArgs.builder()
* .name("mypolicy")
* .location("us-central1")
* .serviceClass("gcp-memorystore-redis")
* .description("my basic service connection policy")
* .network(producerNet.id())
* .pscConfig(ServiceConnectionPolicyPscConfigArgs.builder()
* .subnetworks(producerSubnet.id())
* .build())
* .build());
* var cluster_ha = new Cluster("cluster-ha", ClusterArgs.builder()
* .name("ha-cluster")
* .shardCount(3)
* .pscConfigs(ClusterPscConfigArgs.builder()
* .network(producerNet.id())
* .build())
* .region("us-central1")
* .replicaCount(1)
* .nodeType("REDIS_SHARED_CORE_NANO")
* .transitEncryptionMode("TRANSIT_ENCRYPTION_MODE_DISABLED")
* .authorizationMode("AUTH_MODE_DISABLED")
* .redisConfigs(Map.of("maxmemory-policy", "volatile-ttl"))
* .deletionProtectionEnabled(true)
* .zoneDistributionConfig(ClusterZoneDistributionConfigArgs.builder()
* .mode("MULTI_ZONE")
* .build())
* .maintenancePolicy(ClusterMaintenancePolicyArgs.builder()
* .weeklyMaintenanceWindows(ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs.builder()
* .day("MONDAY")
* .startTime(ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs.builder()
* .hours(1)
* .minutes(0)
* .seconds(0)
* .nanos(0)
* .build())
* .build())
* .build())
* .build(), CustomResourceOptions.builder()
* .dependsOn(default_)
* .build());
* }
* }
* ```
* ```yaml
* resources:
* cluster-ha:
* type: gcp:redis:Cluster
* properties:
* name: ha-cluster
* shardCount: 3
* pscConfigs:
* - network: ${producerNet.id}
* region: us-central1
* replicaCount: 1
* nodeType: REDIS_SHARED_CORE_NANO
* transitEncryptionMode: TRANSIT_ENCRYPTION_MODE_DISABLED
* authorizationMode: AUTH_MODE_DISABLED
* redisConfigs:
* maxmemory-policy: volatile-ttl
* deletionProtectionEnabled: true
* zoneDistributionConfig:
* mode: MULTI_ZONE
* maintenancePolicy:
* weeklyMaintenanceWindows:
* - day: MONDAY
* startTime:
* hours: 1
* minutes: 0
* seconds: 0
* nanos: 0
* options:
* dependsOn:
* - ${default}
* default:
* type: gcp:networkconnectivity:ServiceConnectionPolicy
* properties:
* name: mypolicy
* location: us-central1
* serviceClass: gcp-memorystore-redis
* description: my basic service connection policy
* network: ${producerNet.id}
* pscConfig:
* subnetworks:
* - ${producerSubnet.id}
* producerSubnet:
* type: gcp:compute:Subnetwork
* name: producer_subnet
* properties:
* name: mysubnet
* ipCidrRange: 10.0.0.248/29
* region: us-central1
* network: ${producerNet.id}
* producerNet:
* type: gcp:compute:Network
* name: producer_net
* properties:
* name: mynetwork
* autoCreateSubnetworks: false
* ```
*
* ### Redis Cluster Ha Single Zone
*
* ```typescript
* import * as pulumi from "@pulumi/pulumi";
* import * as gcp from "@pulumi/gcp";
* const producerNet = new gcp.compute.Network("producer_net", {
* name: "mynetwork",
* autoCreateSubnetworks: false,
* });
* const producerSubnet = new gcp.compute.Subnetwork("producer_subnet", {
* name: "mysubnet",
* ipCidrRange: "10.0.0.248/29",
* region: "us-central1",
* network: producerNet.id,
* });
* const _default = new gcp.networkconnectivity.ServiceConnectionPolicy("default", {
* name: "mypolicy",
* location: "us-central1",
* serviceClass: "gcp-memorystore-redis",
* description: "my basic service connection policy",
* network: producerNet.id,
* pscConfig: {
* subnetworks: [producerSubnet.id],
* },
* });
* const cluster_ha_single_zone = new gcp.redis.Cluster("cluster-ha-single-zone", {
* name: "ha-cluster-single-zone",
* shardCount: 3,
* pscConfigs: [{
* network: producerNet.id,
* }],
* region: "us-central1",
* zoneDistributionConfig: {
* mode: "SINGLE_ZONE",
* zone: "us-central1-f",
* },
* maintenancePolicy: {
* weeklyMaintenanceWindows: [{
* day: "MONDAY",
* startTime: {
* hours: 1,
* minutes: 0,
* seconds: 0,
* nanos: 0,
* },
* }],
* },
* deletionProtectionEnabled: true,
* }, {
* dependsOn: [_default],
* });
* ```
* ```python
* import pulumi
* import pulumi_gcp as gcp
* producer_net = gcp.compute.Network("producer_net",
* name="mynetwork",
* auto_create_subnetworks=False)
* producer_subnet = gcp.compute.Subnetwork("producer_subnet",
* name="mysubnet",
* ip_cidr_range="10.0.0.248/29",
* region="us-central1",
* network=producer_net.id)
* default = gcp.networkconnectivity.ServiceConnectionPolicy("default",
* name="mypolicy",
* location="us-central1",
* service_class="gcp-memorystore-redis",
* description="my basic service connection policy",
* network=producer_net.id,
* psc_config={
* "subnetworks": [producer_subnet.id],
* })
* cluster_ha_single_zone = gcp.redis.Cluster("cluster-ha-single-zone",
* name="ha-cluster-single-zone",
* shard_count=3,
* psc_configs=[{
* "network": producer_net.id,
* }],
* region="us-central1",
* zone_distribution_config={
* "mode": "SINGLE_ZONE",
* "zone": "us-central1-f",
* },
* maintenance_policy={
* "weekly_maintenance_windows": [{
* "day": "MONDAY",
* "start_time": {
* "hours": 1,
* "minutes": 0,
* "seconds": 0,
* "nanos": 0,
* },
* }],
* },
* deletion_protection_enabled=True,
* opts = pulumi.ResourceOptions(depends_on=[default]))
* ```
* ```csharp
* using System.Collections.Generic;
* using System.Linq;
* using Pulumi;
* using Gcp = Pulumi.Gcp;
* return await Deployment.RunAsync(() =>
* {
* var producerNet = new Gcp.Compute.Network("producer_net", new()
* {
* Name = "mynetwork",
* AutoCreateSubnetworks = false,
* });
* var producerSubnet = new Gcp.Compute.Subnetwork("producer_subnet", new()
* {
* Name = "mysubnet",
* IpCidrRange = "10.0.0.248/29",
* Region = "us-central1",
* Network = producerNet.Id,
* });
* var @default = new Gcp.NetworkConnectivity.ServiceConnectionPolicy("default", new()
* {
* Name = "mypolicy",
* Location = "us-central1",
* ServiceClass = "gcp-memorystore-redis",
* Description = "my basic service connection policy",
* Network = producerNet.Id,
* PscConfig = new Gcp.NetworkConnectivity.Inputs.ServiceConnectionPolicyPscConfigArgs
* {
* Subnetworks = new[]
* {
* producerSubnet.Id,
* },
* },
* });
* var cluster_ha_single_zone = new Gcp.Redis.Cluster("cluster-ha-single-zone", new()
* {
* Name = "ha-cluster-single-zone",
* ShardCount = 3,
* PscConfigs = new[]
* {
* new Gcp.Redis.Inputs.ClusterPscConfigArgs
* {
* Network = producerNet.Id,
* },
* },
* Region = "us-central1",
* ZoneDistributionConfig = new Gcp.Redis.Inputs.ClusterZoneDistributionConfigArgs
* {
* Mode = "SINGLE_ZONE",
* Zone = "us-central1-f",
* },
* MaintenancePolicy = new Gcp.Redis.Inputs.ClusterMaintenancePolicyArgs
* {
* WeeklyMaintenanceWindows = new[]
* {
* new Gcp.Redis.Inputs.ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs
* {
* Day = "MONDAY",
* StartTime = new Gcp.Redis.Inputs.ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs
* {
* Hours = 1,
* Minutes = 0,
* Seconds = 0,
* Nanos = 0,
* },
* },
* },
* },
* DeletionProtectionEnabled = true,
* }, new CustomResourceOptions
* {
* DependsOn =
* {
* @default,
* },
* });
* });
* ```
* ```go
* package main
* import (
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/compute"
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/networkconnectivity"
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/redis"
* "github.com/pulumi/pulumi/sdk/v3/go/pulumi"
* )
* func main() {
* pulumi.Run(func(ctx *pulumi.Context) error {
* producerNet, err := compute.NewNetwork(ctx, "producer_net", &compute.NetworkArgs{
* Name: pulumi.String("mynetwork"),
* AutoCreateSubnetworks: pulumi.Bool(false),
* })
* if err != nil {
* return err
* }
* producerSubnet, err := compute.NewSubnetwork(ctx, "producer_subnet", &compute.SubnetworkArgs{
* Name: pulumi.String("mysubnet"),
* IpCidrRange: pulumi.String("10.0.0.248/29"),
* Region: pulumi.String("us-central1"),
* Network: producerNet.ID(),
* })
* if err != nil {
* return err
* }
* _, err = networkconnectivity.NewServiceConnectionPolicy(ctx, "default", &networkconnectivity.ServiceConnectionPolicyArgs{
* Name: pulumi.String("mypolicy"),
* Location: pulumi.String("us-central1"),
* ServiceClass: pulumi.String("gcp-memorystore-redis"),
* Description: pulumi.String("my basic service connection policy"),
* Network: producerNet.ID(),
* PscConfig: &networkconnectivity.ServiceConnectionPolicyPscConfigArgs{
* Subnetworks: pulumi.StringArray{
* producerSubnet.ID(),
* },
* },
* })
* if err != nil {
* return err
* }
* _, err = redis.NewCluster(ctx, "cluster-ha-single-zone", &redis.ClusterArgs{
* Name: pulumi.String("ha-cluster-single-zone"),
* ShardCount: pulumi.Int(3),
* PscConfigs: redis.ClusterPscConfigArray{
* &redis.ClusterPscConfigArgs{
* Network: producerNet.ID(),
* },
* },
* Region: pulumi.String("us-central1"),
* ZoneDistributionConfig: &redis.ClusterZoneDistributionConfigArgs{
* Mode: pulumi.String("SINGLE_ZONE"),
* Zone: pulumi.String("us-central1-f"),
* },
* MaintenancePolicy: &redis.ClusterMaintenancePolicyArgs{
* WeeklyMaintenanceWindows: redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowArray{
* &redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs{
* Day: pulumi.String("MONDAY"),
* StartTime: &redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs{
* Hours: pulumi.Int(1),
* Minutes: pulumi.Int(0),
* Seconds: pulumi.Int(0),
* Nanos: pulumi.Int(0),
* },
* },
* },
* },
* DeletionProtectionEnabled: pulumi.Bool(true),
* }, pulumi.DependsOn([]pulumi.Resource{
* _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.Network;
* import com.pulumi.gcp.compute.NetworkArgs;
* import com.pulumi.gcp.compute.Subnetwork;
* import com.pulumi.gcp.compute.SubnetworkArgs;
* import com.pulumi.gcp.networkconnectivity.ServiceConnectionPolicy;
* import com.pulumi.gcp.networkconnectivity.ServiceConnectionPolicyArgs;
* import com.pulumi.gcp.networkconnectivity.inputs.ServiceConnectionPolicyPscConfigArgs;
* import com.pulumi.gcp.redis.Cluster;
* import com.pulumi.gcp.redis.ClusterArgs;
* import com.pulumi.gcp.redis.inputs.ClusterPscConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterZoneDistributionConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterMaintenancePolicyArgs;
* import com.pulumi.resources.CustomResourceOptions;
* 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 producerNet = new Network("producerNet", NetworkArgs.builder()
* .name("mynetwork")
* .autoCreateSubnetworks(false)
* .build());
* var producerSubnet = new Subnetwork("producerSubnet", SubnetworkArgs.builder()
* .name("mysubnet")
* .ipCidrRange("10.0.0.248/29")
* .region("us-central1")
* .network(producerNet.id())
* .build());
* var default_ = new ServiceConnectionPolicy("default", ServiceConnectionPolicyArgs.builder()
* .name("mypolicy")
* .location("us-central1")
* .serviceClass("gcp-memorystore-redis")
* .description("my basic service connection policy")
* .network(producerNet.id())
* .pscConfig(ServiceConnectionPolicyPscConfigArgs.builder()
* .subnetworks(producerSubnet.id())
* .build())
* .build());
* var cluster_ha_single_zone = new Cluster("cluster-ha-single-zone", ClusterArgs.builder()
* .name("ha-cluster-single-zone")
* .shardCount(3)
* .pscConfigs(ClusterPscConfigArgs.builder()
* .network(producerNet.id())
* .build())
* .region("us-central1")
* .zoneDistributionConfig(ClusterZoneDistributionConfigArgs.builder()
* .mode("SINGLE_ZONE")
* .zone("us-central1-f")
* .build())
* .maintenancePolicy(ClusterMaintenancePolicyArgs.builder()
* .weeklyMaintenanceWindows(ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs.builder()
* .day("MONDAY")
* .startTime(ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs.builder()
* .hours(1)
* .minutes(0)
* .seconds(0)
* .nanos(0)
* .build())
* .build())
* .build())
* .deletionProtectionEnabled(true)
* .build(), CustomResourceOptions.builder()
* .dependsOn(default_)
* .build());
* }
* }
* ```
* ```yaml
* resources:
* cluster-ha-single-zone:
* type: gcp:redis:Cluster
* properties:
* name: ha-cluster-single-zone
* shardCount: 3
* pscConfigs:
* - network: ${producerNet.id}
* region: us-central1
* zoneDistributionConfig:
* mode: SINGLE_ZONE
* zone: us-central1-f
* maintenancePolicy:
* weeklyMaintenanceWindows:
* - day: MONDAY
* startTime:
* hours: 1
* minutes: 0
* seconds: 0
* nanos: 0
* deletionProtectionEnabled: true
* options:
* dependsOn:
* - ${default}
* default:
* type: gcp:networkconnectivity:ServiceConnectionPolicy
* properties:
* name: mypolicy
* location: us-central1
* serviceClass: gcp-memorystore-redis
* description: my basic service connection policy
* network: ${producerNet.id}
* pscConfig:
* subnetworks:
* - ${producerSubnet.id}
* producerSubnet:
* type: gcp:compute:Subnetwork
* name: producer_subnet
* properties:
* name: mysubnet
* ipCidrRange: 10.0.0.248/29
* region: us-central1
* network: ${producerNet.id}
* producerNet:
* type: gcp:compute:Network
* name: producer_net
* properties:
* name: mynetwork
* autoCreateSubnetworks: false
* ```
*
* ### Redis Cluster Secondary
*
* ```typescript
* import * as pulumi from "@pulumi/pulumi";
* import * as gcp from "@pulumi/gcp";
* const producerNet = new gcp.compute.Network("producer_net", {
* name: "mynetwork",
* autoCreateSubnetworks: false,
* });
* const primaryClusterProducerSubnet = new gcp.compute.Subnetwork("primary_cluster_producer_subnet", {
* name: "mysubnet-primary-cluster",
* ipCidrRange: "10.0.1.0/29",
* region: "us-east1",
* network: producerNet.id,
* });
* const primaryClusterRegionScp = new gcp.networkconnectivity.ServiceConnectionPolicy("primary_cluster_region_scp", {
* name: "mypolicy-primary-cluster",
* location: "us-east1",
* serviceClass: "gcp-memorystore-redis",
* description: "Primary cluster service connection policy",
* network: producerNet.id,
* pscConfig: {
* subnetworks: [primaryClusterProducerSubnet.id],
* },
* });
* // Primary cluster
* const primaryCluster = new gcp.redis.Cluster("primary_cluster", {
* name: "my-primary-cluster",
* region: "us-east1",
* pscConfigs: [{
* network: producerNet.id,
* }],
* authorizationMode: "AUTH_MODE_DISABLED",
* transitEncryptionMode: "TRANSIT_ENCRYPTION_MODE_DISABLED",
* shardCount: 3,
* redisConfigs: {
* "maxmemory-policy": "volatile-ttl",
* },
* nodeType: "REDIS_HIGHMEM_MEDIUM",
* persistenceConfig: {
* mode: "RDB",
* rdbConfig: {
* rdbSnapshotPeriod: "ONE_HOUR",
* rdbSnapshotStartTime: "2024-10-02T15:01:23Z",
* },
* },
* zoneDistributionConfig: {
* mode: "MULTI_ZONE",
* },
* replicaCount: 1,
* maintenancePolicy: {
* weeklyMaintenanceWindows: [{
* day: "MONDAY",
* startTime: {
* hours: 1,
* minutes: 0,
* seconds: 0,
* nanos: 0,
* },
* }],
* },
* deletionProtectionEnabled: true,
* }, {
* dependsOn: [primaryClusterRegionScp],
* });
* const secondaryClusterProducerSubnet = new gcp.compute.Subnetwork("secondary_cluster_producer_subnet", {
* name: "mysubnet-secondary-cluster",
* ipCidrRange: "10.0.2.0/29",
* region: "europe-west1",
* network: producerNet.id,
* });
* const secondaryClusterRegionScp = new gcp.networkconnectivity.ServiceConnectionPolicy("secondary_cluster_region_scp", {
* name: "mypolicy-secondary-cluster",
* location: "europe-west1",
* serviceClass: "gcp-memorystore-redis",
* description: "Secondary cluster service connection policy",
* network: producerNet.id,
* pscConfig: {
* subnetworks: [secondaryClusterProducerSubnet.id],
* },
* });
* // Secondary cluster
* const secondaryCluster = new gcp.redis.Cluster("secondary_cluster", {
* name: "my-secondary-cluster",
* region: "europe-west1",
* pscConfigs: [{
* network: producerNet.id,
* }],
* authorizationMode: "AUTH_MODE_DISABLED",
* transitEncryptionMode: "TRANSIT_ENCRYPTION_MODE_DISABLED",
* shardCount: 3,
* redisConfigs: {
* "maxmemory-policy": "volatile-ttl",
* },
* nodeType: "REDIS_HIGHMEM_MEDIUM",
* persistenceConfig: {
* mode: "RDB",
* rdbConfig: {
* rdbSnapshotPeriod: "ONE_HOUR",
* rdbSnapshotStartTime: "2024-10-02T15:01:23Z",
* },
* },
* zoneDistributionConfig: {
* mode: "MULTI_ZONE",
* },
* replicaCount: 2,
* maintenancePolicy: {
* weeklyMaintenanceWindows: [{
* day: "WEDNESDAY",
* startTime: {
* hours: 1,
* minutes: 0,
* seconds: 0,
* nanos: 0,
* },
* }],
* },
* deletionProtectionEnabled: true,
* crossClusterReplicationConfig: {
* clusterRole: "SECONDARY",
* primaryCluster: {
* cluster: primaryCluster.id,
* },
* },
* }, {
* dependsOn: [secondaryClusterRegionScp],
* });
* ```
* ```python
* import pulumi
* import pulumi_gcp as gcp
* producer_net = gcp.compute.Network("producer_net",
* name="mynetwork",
* auto_create_subnetworks=False)
* primary_cluster_producer_subnet = gcp.compute.Subnetwork("primary_cluster_producer_subnet",
* name="mysubnet-primary-cluster",
* ip_cidr_range="10.0.1.0/29",
* region="us-east1",
* network=producer_net.id)
* primary_cluster_region_scp = gcp.networkconnectivity.ServiceConnectionPolicy("primary_cluster_region_scp",
* name="mypolicy-primary-cluster",
* location="us-east1",
* service_class="gcp-memorystore-redis",
* description="Primary cluster service connection policy",
* network=producer_net.id,
* psc_config={
* "subnetworks": [primary_cluster_producer_subnet.id],
* })
* # Primary cluster
* primary_cluster = gcp.redis.Cluster("primary_cluster",
* name="my-primary-cluster",
* region="us-east1",
* psc_configs=[{
* "network": producer_net.id,
* }],
* authorization_mode="AUTH_MODE_DISABLED",
* transit_encryption_mode="TRANSIT_ENCRYPTION_MODE_DISABLED",
* shard_count=3,
* redis_configs={
* "maxmemory-policy": "volatile-ttl",
* },
* node_type="REDIS_HIGHMEM_MEDIUM",
* persistence_config={
* "mode": "RDB",
* "rdb_config": {
* "rdb_snapshot_period": "ONE_HOUR",
* "rdb_snapshot_start_time": "2024-10-02T15:01:23Z",
* },
* },
* zone_distribution_config={
* "mode": "MULTI_ZONE",
* },
* replica_count=1,
* maintenance_policy={
* "weekly_maintenance_windows": [{
* "day": "MONDAY",
* "start_time": {
* "hours": 1,
* "minutes": 0,
* "seconds": 0,
* "nanos": 0,
* },
* }],
* },
* deletion_protection_enabled=True,
* opts = pulumi.ResourceOptions(depends_on=[primary_cluster_region_scp]))
* secondary_cluster_producer_subnet = gcp.compute.Subnetwork("secondary_cluster_producer_subnet",
* name="mysubnet-secondary-cluster",
* ip_cidr_range="10.0.2.0/29",
* region="europe-west1",
* network=producer_net.id)
* secondary_cluster_region_scp = gcp.networkconnectivity.ServiceConnectionPolicy("secondary_cluster_region_scp",
* name="mypolicy-secondary-cluster",
* location="europe-west1",
* service_class="gcp-memorystore-redis",
* description="Secondary cluster service connection policy",
* network=producer_net.id,
* psc_config={
* "subnetworks": [secondary_cluster_producer_subnet.id],
* })
* # Secondary cluster
* secondary_cluster = gcp.redis.Cluster("secondary_cluster",
* name="my-secondary-cluster",
* region="europe-west1",
* psc_configs=[{
* "network": producer_net.id,
* }],
* authorization_mode="AUTH_MODE_DISABLED",
* transit_encryption_mode="TRANSIT_ENCRYPTION_MODE_DISABLED",
* shard_count=3,
* redis_configs={
* "maxmemory-policy": "volatile-ttl",
* },
* node_type="REDIS_HIGHMEM_MEDIUM",
* persistence_config={
* "mode": "RDB",
* "rdb_config": {
* "rdb_snapshot_period": "ONE_HOUR",
* "rdb_snapshot_start_time": "2024-10-02T15:01:23Z",
* },
* },
* zone_distribution_config={
* "mode": "MULTI_ZONE",
* },
* replica_count=2,
* maintenance_policy={
* "weekly_maintenance_windows": [{
* "day": "WEDNESDAY",
* "start_time": {
* "hours": 1,
* "minutes": 0,
* "seconds": 0,
* "nanos": 0,
* },
* }],
* },
* deletion_protection_enabled=True,
* cross_cluster_replication_config={
* "cluster_role": "SECONDARY",
* "primary_cluster": {
* "cluster": primary_cluster.id,
* },
* },
* opts = pulumi.ResourceOptions(depends_on=[secondary_cluster_region_scp]))
* ```
* ```csharp
* using System.Collections.Generic;
* using System.Linq;
* using Pulumi;
* using Gcp = Pulumi.Gcp;
* return await Deployment.RunAsync(() =>
* {
* var producerNet = new Gcp.Compute.Network("producer_net", new()
* {
* Name = "mynetwork",
* AutoCreateSubnetworks = false,
* });
* var primaryClusterProducerSubnet = new Gcp.Compute.Subnetwork("primary_cluster_producer_subnet", new()
* {
* Name = "mysubnet-primary-cluster",
* IpCidrRange = "10.0.1.0/29",
* Region = "us-east1",
* Network = producerNet.Id,
* });
* var primaryClusterRegionScp = new Gcp.NetworkConnectivity.ServiceConnectionPolicy("primary_cluster_region_scp", new()
* {
* Name = "mypolicy-primary-cluster",
* Location = "us-east1",
* ServiceClass = "gcp-memorystore-redis",
* Description = "Primary cluster service connection policy",
* Network = producerNet.Id,
* PscConfig = new Gcp.NetworkConnectivity.Inputs.ServiceConnectionPolicyPscConfigArgs
* {
* Subnetworks = new[]
* {
* primaryClusterProducerSubnet.Id,
* },
* },
* });
* // Primary cluster
* var primaryCluster = new Gcp.Redis.Cluster("primary_cluster", new()
* {
* Name = "my-primary-cluster",
* Region = "us-east1",
* PscConfigs = new[]
* {
* new Gcp.Redis.Inputs.ClusterPscConfigArgs
* {
* Network = producerNet.Id,
* },
* },
* AuthorizationMode = "AUTH_MODE_DISABLED",
* TransitEncryptionMode = "TRANSIT_ENCRYPTION_MODE_DISABLED",
* ShardCount = 3,
* RedisConfigs =
* {
* { "maxmemory-policy", "volatile-ttl" },
* },
* NodeType = "REDIS_HIGHMEM_MEDIUM",
* PersistenceConfig = new Gcp.Redis.Inputs.ClusterPersistenceConfigArgs
* {
* Mode = "RDB",
* RdbConfig = new Gcp.Redis.Inputs.ClusterPersistenceConfigRdbConfigArgs
* {
* RdbSnapshotPeriod = "ONE_HOUR",
* RdbSnapshotStartTime = "2024-10-02T15:01:23Z",
* },
* },
* ZoneDistributionConfig = new Gcp.Redis.Inputs.ClusterZoneDistributionConfigArgs
* {
* Mode = "MULTI_ZONE",
* },
* ReplicaCount = 1,
* MaintenancePolicy = new Gcp.Redis.Inputs.ClusterMaintenancePolicyArgs
* {
* WeeklyMaintenanceWindows = new[]
* {
* new Gcp.Redis.Inputs.ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs
* {
* Day = "MONDAY",
* StartTime = new Gcp.Redis.Inputs.ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs
* {
* Hours = 1,
* Minutes = 0,
* Seconds = 0,
* Nanos = 0,
* },
* },
* },
* },
* DeletionProtectionEnabled = true,
* }, new CustomResourceOptions
* {
* DependsOn =
* {
* primaryClusterRegionScp,
* },
* });
* var secondaryClusterProducerSubnet = new Gcp.Compute.Subnetwork("secondary_cluster_producer_subnet", new()
* {
* Name = "mysubnet-secondary-cluster",
* IpCidrRange = "10.0.2.0/29",
* Region = "europe-west1",
* Network = producerNet.Id,
* });
* var secondaryClusterRegionScp = new Gcp.NetworkConnectivity.ServiceConnectionPolicy("secondary_cluster_region_scp", new()
* {
* Name = "mypolicy-secondary-cluster",
* Location = "europe-west1",
* ServiceClass = "gcp-memorystore-redis",
* Description = "Secondary cluster service connection policy",
* Network = producerNet.Id,
* PscConfig = new Gcp.NetworkConnectivity.Inputs.ServiceConnectionPolicyPscConfigArgs
* {
* Subnetworks = new[]
* {
* secondaryClusterProducerSubnet.Id,
* },
* },
* });
* // Secondary cluster
* var secondaryCluster = new Gcp.Redis.Cluster("secondary_cluster", new()
* {
* Name = "my-secondary-cluster",
* Region = "europe-west1",
* PscConfigs = new[]
* {
* new Gcp.Redis.Inputs.ClusterPscConfigArgs
* {
* Network = producerNet.Id,
* },
* },
* AuthorizationMode = "AUTH_MODE_DISABLED",
* TransitEncryptionMode = "TRANSIT_ENCRYPTION_MODE_DISABLED",
* ShardCount = 3,
* RedisConfigs =
* {
* { "maxmemory-policy", "volatile-ttl" },
* },
* NodeType = "REDIS_HIGHMEM_MEDIUM",
* PersistenceConfig = new Gcp.Redis.Inputs.ClusterPersistenceConfigArgs
* {
* Mode = "RDB",
* RdbConfig = new Gcp.Redis.Inputs.ClusterPersistenceConfigRdbConfigArgs
* {
* RdbSnapshotPeriod = "ONE_HOUR",
* RdbSnapshotStartTime = "2024-10-02T15:01:23Z",
* },
* },
* ZoneDistributionConfig = new Gcp.Redis.Inputs.ClusterZoneDistributionConfigArgs
* {
* Mode = "MULTI_ZONE",
* },
* ReplicaCount = 2,
* MaintenancePolicy = new Gcp.Redis.Inputs.ClusterMaintenancePolicyArgs
* {
* WeeklyMaintenanceWindows = new[]
* {
* new Gcp.Redis.Inputs.ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs
* {
* Day = "WEDNESDAY",
* StartTime = new Gcp.Redis.Inputs.ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs
* {
* Hours = 1,
* Minutes = 0,
* Seconds = 0,
* Nanos = 0,
* },
* },
* },
* },
* DeletionProtectionEnabled = true,
* CrossClusterReplicationConfig = new Gcp.Redis.Inputs.ClusterCrossClusterReplicationConfigArgs
* {
* ClusterRole = "SECONDARY",
* PrimaryCluster = new Gcp.Redis.Inputs.ClusterCrossClusterReplicationConfigPrimaryClusterArgs
* {
* Cluster = primaryCluster.Id,
* },
* },
* }, new CustomResourceOptions
* {
* DependsOn =
* {
* secondaryClusterRegionScp,
* },
* });
* });
* ```
* ```go
* package main
* import (
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/compute"
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/networkconnectivity"
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/redis"
* "github.com/pulumi/pulumi/sdk/v3/go/pulumi"
* )
* func main() {
* pulumi.Run(func(ctx *pulumi.Context) error {
* producerNet, err := compute.NewNetwork(ctx, "producer_net", &compute.NetworkArgs{
* Name: pulumi.String("mynetwork"),
* AutoCreateSubnetworks: pulumi.Bool(false),
* })
* if err != nil {
* return err
* }
* primaryClusterProducerSubnet, err := compute.NewSubnetwork(ctx, "primary_cluster_producer_subnet", &compute.SubnetworkArgs{
* Name: pulumi.String("mysubnet-primary-cluster"),
* IpCidrRange: pulumi.String("10.0.1.0/29"),
* Region: pulumi.String("us-east1"),
* Network: producerNet.ID(),
* })
* if err != nil {
* return err
* }
* primaryClusterRegionScp, err := networkconnectivity.NewServiceConnectionPolicy(ctx, "primary_cluster_region_scp", &networkconnectivity.ServiceConnectionPolicyArgs{
* Name: pulumi.String("mypolicy-primary-cluster"),
* Location: pulumi.String("us-east1"),
* ServiceClass: pulumi.String("gcp-memorystore-redis"),
* Description: pulumi.String("Primary cluster service connection policy"),
* Network: producerNet.ID(),
* PscConfig: &networkconnectivity.ServiceConnectionPolicyPscConfigArgs{
* Subnetworks: pulumi.StringArray{
* primaryClusterProducerSubnet.ID(),
* },
* },
* })
* if err != nil {
* return err
* }
* // Primary cluster
* primaryCluster, err := redis.NewCluster(ctx, "primary_cluster", &redis.ClusterArgs{
* Name: pulumi.String("my-primary-cluster"),
* Region: pulumi.String("us-east1"),
* PscConfigs: redis.ClusterPscConfigArray{
* &redis.ClusterPscConfigArgs{
* Network: producerNet.ID(),
* },
* },
* AuthorizationMode: pulumi.String("AUTH_MODE_DISABLED"),
* TransitEncryptionMode: pulumi.String("TRANSIT_ENCRYPTION_MODE_DISABLED"),
* ShardCount: pulumi.Int(3),
* RedisConfigs: pulumi.StringMap{
* "maxmemory-policy": pulumi.String("volatile-ttl"),
* },
* NodeType: pulumi.String("REDIS_HIGHMEM_MEDIUM"),
* PersistenceConfig: &redis.ClusterPersistenceConfigArgs{
* Mode: pulumi.String("RDB"),
* RdbConfig: &redis.ClusterPersistenceConfigRdbConfigArgs{
* RdbSnapshotPeriod: pulumi.String("ONE_HOUR"),
* RdbSnapshotStartTime: pulumi.String("2024-10-02T15:01:23Z"),
* },
* },
* ZoneDistributionConfig: &redis.ClusterZoneDistributionConfigArgs{
* Mode: pulumi.String("MULTI_ZONE"),
* },
* ReplicaCount: pulumi.Int(1),
* MaintenancePolicy: &redis.ClusterMaintenancePolicyArgs{
* WeeklyMaintenanceWindows: redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowArray{
* &redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs{
* Day: pulumi.String("MONDAY"),
* StartTime: &redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs{
* Hours: pulumi.Int(1),
* Minutes: pulumi.Int(0),
* Seconds: pulumi.Int(0),
* Nanos: pulumi.Int(0),
* },
* },
* },
* },
* DeletionProtectionEnabled: pulumi.Bool(true),
* }, pulumi.DependsOn([]pulumi.Resource{
* primaryClusterRegionScp,
* }))
* if err != nil {
* return err
* }
* secondaryClusterProducerSubnet, err := compute.NewSubnetwork(ctx, "secondary_cluster_producer_subnet", &compute.SubnetworkArgs{
* Name: pulumi.String("mysubnet-secondary-cluster"),
* IpCidrRange: pulumi.String("10.0.2.0/29"),
* Region: pulumi.String("europe-west1"),
* Network: producerNet.ID(),
* })
* if err != nil {
* return err
* }
* secondaryClusterRegionScp, err := networkconnectivity.NewServiceConnectionPolicy(ctx, "secondary_cluster_region_scp", &networkconnectivity.ServiceConnectionPolicyArgs{
* Name: pulumi.String("mypolicy-secondary-cluster"),
* Location: pulumi.String("europe-west1"),
* ServiceClass: pulumi.String("gcp-memorystore-redis"),
* Description: pulumi.String("Secondary cluster service connection policy"),
* Network: producerNet.ID(),
* PscConfig: &networkconnectivity.ServiceConnectionPolicyPscConfigArgs{
* Subnetworks: pulumi.StringArray{
* secondaryClusterProducerSubnet.ID(),
* },
* },
* })
* if err != nil {
* return err
* }
* // Secondary cluster
* _, err = redis.NewCluster(ctx, "secondary_cluster", &redis.ClusterArgs{
* Name: pulumi.String("my-secondary-cluster"),
* Region: pulumi.String("europe-west1"),
* PscConfigs: redis.ClusterPscConfigArray{
* &redis.ClusterPscConfigArgs{
* Network: producerNet.ID(),
* },
* },
* AuthorizationMode: pulumi.String("AUTH_MODE_DISABLED"),
* TransitEncryptionMode: pulumi.String("TRANSIT_ENCRYPTION_MODE_DISABLED"),
* ShardCount: pulumi.Int(3),
* RedisConfigs: pulumi.StringMap{
* "maxmemory-policy": pulumi.String("volatile-ttl"),
* },
* NodeType: pulumi.String("REDIS_HIGHMEM_MEDIUM"),
* PersistenceConfig: &redis.ClusterPersistenceConfigArgs{
* Mode: pulumi.String("RDB"),
* RdbConfig: &redis.ClusterPersistenceConfigRdbConfigArgs{
* RdbSnapshotPeriod: pulumi.String("ONE_HOUR"),
* RdbSnapshotStartTime: pulumi.String("2024-10-02T15:01:23Z"),
* },
* },
* ZoneDistributionConfig: &redis.ClusterZoneDistributionConfigArgs{
* Mode: pulumi.String("MULTI_ZONE"),
* },
* ReplicaCount: pulumi.Int(2),
* MaintenancePolicy: &redis.ClusterMaintenancePolicyArgs{
* WeeklyMaintenanceWindows: redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowArray{
* &redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs{
* Day: pulumi.String("WEDNESDAY"),
* StartTime: &redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs{
* Hours: pulumi.Int(1),
* Minutes: pulumi.Int(0),
* Seconds: pulumi.Int(0),
* Nanos: pulumi.Int(0),
* },
* },
* },
* },
* DeletionProtectionEnabled: pulumi.Bool(true),
* CrossClusterReplicationConfig: &redis.ClusterCrossClusterReplicationConfigArgs{
* ClusterRole: pulumi.String("SECONDARY"),
* PrimaryCluster: &redis.ClusterCrossClusterReplicationConfigPrimaryClusterArgs{
* Cluster: primaryCluster.ID(),
* },
* },
* }, pulumi.DependsOn([]pulumi.Resource{
* secondaryClusterRegionScp,
* }))
* 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.Network;
* import com.pulumi.gcp.compute.NetworkArgs;
* import com.pulumi.gcp.compute.Subnetwork;
* import com.pulumi.gcp.compute.SubnetworkArgs;
* import com.pulumi.gcp.networkconnectivity.ServiceConnectionPolicy;
* import com.pulumi.gcp.networkconnectivity.ServiceConnectionPolicyArgs;
* import com.pulumi.gcp.networkconnectivity.inputs.ServiceConnectionPolicyPscConfigArgs;
* import com.pulumi.gcp.redis.Cluster;
* import com.pulumi.gcp.redis.ClusterArgs;
* import com.pulumi.gcp.redis.inputs.ClusterPscConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterPersistenceConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterPersistenceConfigRdbConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterZoneDistributionConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterMaintenancePolicyArgs;
* import com.pulumi.gcp.redis.inputs.ClusterCrossClusterReplicationConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterCrossClusterReplicationConfigPrimaryClusterArgs;
* import com.pulumi.resources.CustomResourceOptions;
* 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 producerNet = new Network("producerNet", NetworkArgs.builder()
* .name("mynetwork")
* .autoCreateSubnetworks(false)
* .build());
* var primaryClusterProducerSubnet = new Subnetwork("primaryClusterProducerSubnet", SubnetworkArgs.builder()
* .name("mysubnet-primary-cluster")
* .ipCidrRange("10.0.1.0/29")
* .region("us-east1")
* .network(producerNet.id())
* .build());
* var primaryClusterRegionScp = new ServiceConnectionPolicy("primaryClusterRegionScp", ServiceConnectionPolicyArgs.builder()
* .name("mypolicy-primary-cluster")
* .location("us-east1")
* .serviceClass("gcp-memorystore-redis")
* .description("Primary cluster service connection policy")
* .network(producerNet.id())
* .pscConfig(ServiceConnectionPolicyPscConfigArgs.builder()
* .subnetworks(primaryClusterProducerSubnet.id())
* .build())
* .build());
* // Primary cluster
* var primaryCluster = new Cluster("primaryCluster", ClusterArgs.builder()
* .name("my-primary-cluster")
* .region("us-east1")
* .pscConfigs(ClusterPscConfigArgs.builder()
* .network(producerNet.id())
* .build())
* .authorizationMode("AUTH_MODE_DISABLED")
* .transitEncryptionMode("TRANSIT_ENCRYPTION_MODE_DISABLED")
* .shardCount(3)
* .redisConfigs(Map.of("maxmemory-policy", "volatile-ttl"))
* .nodeType("REDIS_HIGHMEM_MEDIUM")
* .persistenceConfig(ClusterPersistenceConfigArgs.builder()
* .mode("RDB")
* .rdbConfig(ClusterPersistenceConfigRdbConfigArgs.builder()
* .rdbSnapshotPeriod("ONE_HOUR")
* .rdbSnapshotStartTime("2024-10-02T15:01:23Z")
* .build())
* .build())
* .zoneDistributionConfig(ClusterZoneDistributionConfigArgs.builder()
* .mode("MULTI_ZONE")
* .build())
* .replicaCount(1)
* .maintenancePolicy(ClusterMaintenancePolicyArgs.builder()
* .weeklyMaintenanceWindows(ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs.builder()
* .day("MONDAY")
* .startTime(ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs.builder()
* .hours(1)
* .minutes(0)
* .seconds(0)
* .nanos(0)
* .build())
* .build())
* .build())
* .deletionProtectionEnabled(true)
* .build(), CustomResourceOptions.builder()
* .dependsOn(primaryClusterRegionScp)
* .build());
* var secondaryClusterProducerSubnet = new Subnetwork("secondaryClusterProducerSubnet", SubnetworkArgs.builder()
* .name("mysubnet-secondary-cluster")
* .ipCidrRange("10.0.2.0/29")
* .region("europe-west1")
* .network(producerNet.id())
* .build());
* var secondaryClusterRegionScp = new ServiceConnectionPolicy("secondaryClusterRegionScp", ServiceConnectionPolicyArgs.builder()
* .name("mypolicy-secondary-cluster")
* .location("europe-west1")
* .serviceClass("gcp-memorystore-redis")
* .description("Secondary cluster service connection policy")
* .network(producerNet.id())
* .pscConfig(ServiceConnectionPolicyPscConfigArgs.builder()
* .subnetworks(secondaryClusterProducerSubnet.id())
* .build())
* .build());
* // Secondary cluster
* var secondaryCluster = new Cluster("secondaryCluster", ClusterArgs.builder()
* .name("my-secondary-cluster")
* .region("europe-west1")
* .pscConfigs(ClusterPscConfigArgs.builder()
* .network(producerNet.id())
* .build())
* .authorizationMode("AUTH_MODE_DISABLED")
* .transitEncryptionMode("TRANSIT_ENCRYPTION_MODE_DISABLED")
* .shardCount(3)
* .redisConfigs(Map.of("maxmemory-policy", "volatile-ttl"))
* .nodeType("REDIS_HIGHMEM_MEDIUM")
* .persistenceConfig(ClusterPersistenceConfigArgs.builder()
* .mode("RDB")
* .rdbConfig(ClusterPersistenceConfigRdbConfigArgs.builder()
* .rdbSnapshotPeriod("ONE_HOUR")
* .rdbSnapshotStartTime("2024-10-02T15:01:23Z")
* .build())
* .build())
* .zoneDistributionConfig(ClusterZoneDistributionConfigArgs.builder()
* .mode("MULTI_ZONE")
* .build())
* .replicaCount(2)
* .maintenancePolicy(ClusterMaintenancePolicyArgs.builder()
* .weeklyMaintenanceWindows(ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs.builder()
* .day("WEDNESDAY")
* .startTime(ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs.builder()
* .hours(1)
* .minutes(0)
* .seconds(0)
* .nanos(0)
* .build())
* .build())
* .build())
* .deletionProtectionEnabled(true)
* .crossClusterReplicationConfig(ClusterCrossClusterReplicationConfigArgs.builder()
* .clusterRole("SECONDARY")
* .primaryCluster(ClusterCrossClusterReplicationConfigPrimaryClusterArgs.builder()
* .cluster(primaryCluster.id())
* .build())
* .build())
* .build(), CustomResourceOptions.builder()
* .dependsOn(secondaryClusterRegionScp)
* .build());
* }
* }
* ```
* ```yaml
* resources:
* # Primary cluster
* primaryCluster:
* type: gcp:redis:Cluster
* name: primary_cluster
* properties:
* name: my-primary-cluster
* region: us-east1
* pscConfigs:
* - network: ${producerNet.id}
* authorizationMode: AUTH_MODE_DISABLED
* transitEncryptionMode: TRANSIT_ENCRYPTION_MODE_DISABLED
* shardCount: 3
* redisConfigs:
* maxmemory-policy: volatile-ttl
* nodeType: REDIS_HIGHMEM_MEDIUM
* persistenceConfig:
* mode: RDB
* rdbConfig:
* rdbSnapshotPeriod: ONE_HOUR
* rdbSnapshotStartTime: 2024-10-02T15:01:23Z
* zoneDistributionConfig:
* mode: MULTI_ZONE
* replicaCount: 1
* maintenancePolicy:
* weeklyMaintenanceWindows:
* - day: MONDAY
* startTime:
* hours: 1
* minutes: 0
* seconds: 0
* nanos: 0
* deletionProtectionEnabled: true
* options:
* dependsOn:
* - ${primaryClusterRegionScp}
* # Secondary cluster
* secondaryCluster:
* type: gcp:redis:Cluster
* name: secondary_cluster
* properties:
* name: my-secondary-cluster
* region: europe-west1
* pscConfigs:
* - network: ${producerNet.id}
* authorizationMode: AUTH_MODE_DISABLED
* transitEncryptionMode: TRANSIT_ENCRYPTION_MODE_DISABLED
* shardCount: 3
* redisConfigs:
* maxmemory-policy: volatile-ttl
* nodeType: REDIS_HIGHMEM_MEDIUM
* persistenceConfig:
* mode: RDB
* rdbConfig:
* rdbSnapshotPeriod: ONE_HOUR
* rdbSnapshotStartTime: 2024-10-02T15:01:23Z
* zoneDistributionConfig:
* mode: MULTI_ZONE
* replicaCount: 2
* maintenancePolicy:
* weeklyMaintenanceWindows:
* - day: WEDNESDAY
* startTime:
* hours: 1
* minutes: 0
* seconds: 0
* nanos: 0
* deletionProtectionEnabled: true # Cross cluster replication config
* crossClusterReplicationConfig:
* clusterRole: SECONDARY
* primaryCluster:
* cluster: ${primaryCluster.id}
* options:
* dependsOn:
* - ${secondaryClusterRegionScp}
* primaryClusterRegionScp:
* type: gcp:networkconnectivity:ServiceConnectionPolicy
* name: primary_cluster_region_scp
* properties:
* name: mypolicy-primary-cluster
* location: us-east1
* serviceClass: gcp-memorystore-redis
* description: Primary cluster service connection policy
* network: ${producerNet.id}
* pscConfig:
* subnetworks:
* - ${primaryClusterProducerSubnet.id}
* primaryClusterProducerSubnet:
* type: gcp:compute:Subnetwork
* name: primary_cluster_producer_subnet
* properties:
* name: mysubnet-primary-cluster
* ipCidrRange: 10.0.1.0/29
* region: us-east1
* network: ${producerNet.id}
* secondaryClusterRegionScp:
* type: gcp:networkconnectivity:ServiceConnectionPolicy
* name: secondary_cluster_region_scp
* properties:
* name: mypolicy-secondary-cluster
* location: europe-west1
* serviceClass: gcp-memorystore-redis
* description: Secondary cluster service connection policy
* network: ${producerNet.id}
* pscConfig:
* subnetworks:
* - ${secondaryClusterProducerSubnet.id}
* secondaryClusterProducerSubnet:
* type: gcp:compute:Subnetwork
* name: secondary_cluster_producer_subnet
* properties:
* name: mysubnet-secondary-cluster
* ipCidrRange: 10.0.2.0/29
* region: europe-west1
* network: ${producerNet.id}
* producerNet:
* type: gcp:compute:Network
* name: producer_net
* properties:
* name: mynetwork
* autoCreateSubnetworks: false
* ```
*
* ### Redis Cluster Rdb
*
* ```typescript
* import * as pulumi from "@pulumi/pulumi";
* import * as gcp from "@pulumi/gcp";
* const producerNet = new gcp.compute.Network("producer_net", {
* name: "mynetwork",
* autoCreateSubnetworks: false,
* });
* const producerSubnet = new gcp.compute.Subnetwork("producer_subnet", {
* name: "mysubnet",
* ipCidrRange: "10.0.0.248/29",
* region: "us-central1",
* network: producerNet.id,
* });
* const _default = new gcp.networkconnectivity.ServiceConnectionPolicy("default", {
* name: "mypolicy",
* location: "us-central1",
* serviceClass: "gcp-memorystore-redis",
* description: "my basic service connection policy",
* network: producerNet.id,
* pscConfig: {
* subnetworks: [producerSubnet.id],
* },
* });
* const cluster_rdb = new gcp.redis.Cluster("cluster-rdb", {
* name: "rdb-cluster",
* shardCount: 3,
* pscConfigs: [{
* network: producerNet.id,
* }],
* region: "us-central1",
* replicaCount: 0,
* nodeType: "REDIS_SHARED_CORE_NANO",
* transitEncryptionMode: "TRANSIT_ENCRYPTION_MODE_DISABLED",
* authorizationMode: "AUTH_MODE_DISABLED",
* redisConfigs: {
* "maxmemory-policy": "volatile-ttl",
* },
* deletionProtectionEnabled: true,
* zoneDistributionConfig: {
* mode: "MULTI_ZONE",
* },
* maintenancePolicy: {
* weeklyMaintenanceWindows: [{
* day: "MONDAY",
* startTime: {
* hours: 1,
* minutes: 0,
* seconds: 0,
* nanos: 0,
* },
* }],
* },
* persistenceConfig: {
* mode: "RDB",
* rdbConfig: {
* rdbSnapshotPeriod: "ONE_HOUR",
* rdbSnapshotStartTime: "2024-10-02T15:01:23Z",
* },
* },
* }, {
* dependsOn: [_default],
* });
* ```
* ```python
* import pulumi
* import pulumi_gcp as gcp
* producer_net = gcp.compute.Network("producer_net",
* name="mynetwork",
* auto_create_subnetworks=False)
* producer_subnet = gcp.compute.Subnetwork("producer_subnet",
* name="mysubnet",
* ip_cidr_range="10.0.0.248/29",
* region="us-central1",
* network=producer_net.id)
* default = gcp.networkconnectivity.ServiceConnectionPolicy("default",
* name="mypolicy",
* location="us-central1",
* service_class="gcp-memorystore-redis",
* description="my basic service connection policy",
* network=producer_net.id,
* psc_config={
* "subnetworks": [producer_subnet.id],
* })
* cluster_rdb = gcp.redis.Cluster("cluster-rdb",
* name="rdb-cluster",
* shard_count=3,
* psc_configs=[{
* "network": producer_net.id,
* }],
* region="us-central1",
* replica_count=0,
* node_type="REDIS_SHARED_CORE_NANO",
* transit_encryption_mode="TRANSIT_ENCRYPTION_MODE_DISABLED",
* authorization_mode="AUTH_MODE_DISABLED",
* redis_configs={
* "maxmemory-policy": "volatile-ttl",
* },
* deletion_protection_enabled=True,
* zone_distribution_config={
* "mode": "MULTI_ZONE",
* },
* maintenance_policy={
* "weekly_maintenance_windows": [{
* "day": "MONDAY",
* "start_time": {
* "hours": 1,
* "minutes": 0,
* "seconds": 0,
* "nanos": 0,
* },
* }],
* },
* persistence_config={
* "mode": "RDB",
* "rdb_config": {
* "rdb_snapshot_period": "ONE_HOUR",
* "rdb_snapshot_start_time": "2024-10-02T15:01:23Z",
* },
* },
* opts = pulumi.ResourceOptions(depends_on=[default]))
* ```
* ```csharp
* using System.Collections.Generic;
* using System.Linq;
* using Pulumi;
* using Gcp = Pulumi.Gcp;
* return await Deployment.RunAsync(() =>
* {
* var producerNet = new Gcp.Compute.Network("producer_net", new()
* {
* Name = "mynetwork",
* AutoCreateSubnetworks = false,
* });
* var producerSubnet = new Gcp.Compute.Subnetwork("producer_subnet", new()
* {
* Name = "mysubnet",
* IpCidrRange = "10.0.0.248/29",
* Region = "us-central1",
* Network = producerNet.Id,
* });
* var @default = new Gcp.NetworkConnectivity.ServiceConnectionPolicy("default", new()
* {
* Name = "mypolicy",
* Location = "us-central1",
* ServiceClass = "gcp-memorystore-redis",
* Description = "my basic service connection policy",
* Network = producerNet.Id,
* PscConfig = new Gcp.NetworkConnectivity.Inputs.ServiceConnectionPolicyPscConfigArgs
* {
* Subnetworks = new[]
* {
* producerSubnet.Id,
* },
* },
* });
* var cluster_rdb = new Gcp.Redis.Cluster("cluster-rdb", new()
* {
* Name = "rdb-cluster",
* ShardCount = 3,
* PscConfigs = new[]
* {
* new Gcp.Redis.Inputs.ClusterPscConfigArgs
* {
* Network = producerNet.Id,
* },
* },
* Region = "us-central1",
* ReplicaCount = 0,
* NodeType = "REDIS_SHARED_CORE_NANO",
* TransitEncryptionMode = "TRANSIT_ENCRYPTION_MODE_DISABLED",
* AuthorizationMode = "AUTH_MODE_DISABLED",
* RedisConfigs =
* {
* { "maxmemory-policy", "volatile-ttl" },
* },
* DeletionProtectionEnabled = true,
* ZoneDistributionConfig = new Gcp.Redis.Inputs.ClusterZoneDistributionConfigArgs
* {
* Mode = "MULTI_ZONE",
* },
* MaintenancePolicy = new Gcp.Redis.Inputs.ClusterMaintenancePolicyArgs
* {
* WeeklyMaintenanceWindows = new[]
* {
* new Gcp.Redis.Inputs.ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs
* {
* Day = "MONDAY",
* StartTime = new Gcp.Redis.Inputs.ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs
* {
* Hours = 1,
* Minutes = 0,
* Seconds = 0,
* Nanos = 0,
* },
* },
* },
* },
* PersistenceConfig = new Gcp.Redis.Inputs.ClusterPersistenceConfigArgs
* {
* Mode = "RDB",
* RdbConfig = new Gcp.Redis.Inputs.ClusterPersistenceConfigRdbConfigArgs
* {
* RdbSnapshotPeriod = "ONE_HOUR",
* RdbSnapshotStartTime = "2024-10-02T15:01:23Z",
* },
* },
* }, new CustomResourceOptions
* {
* DependsOn =
* {
* @default,
* },
* });
* });
* ```
* ```go
* package main
* import (
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/compute"
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/networkconnectivity"
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/redis"
* "github.com/pulumi/pulumi/sdk/v3/go/pulumi"
* )
* func main() {
* pulumi.Run(func(ctx *pulumi.Context) error {
* producerNet, err := compute.NewNetwork(ctx, "producer_net", &compute.NetworkArgs{
* Name: pulumi.String("mynetwork"),
* AutoCreateSubnetworks: pulumi.Bool(false),
* })
* if err != nil {
* return err
* }
* producerSubnet, err := compute.NewSubnetwork(ctx, "producer_subnet", &compute.SubnetworkArgs{
* Name: pulumi.String("mysubnet"),
* IpCidrRange: pulumi.String("10.0.0.248/29"),
* Region: pulumi.String("us-central1"),
* Network: producerNet.ID(),
* })
* if err != nil {
* return err
* }
* _, err = networkconnectivity.NewServiceConnectionPolicy(ctx, "default", &networkconnectivity.ServiceConnectionPolicyArgs{
* Name: pulumi.String("mypolicy"),
* Location: pulumi.String("us-central1"),
* ServiceClass: pulumi.String("gcp-memorystore-redis"),
* Description: pulumi.String("my basic service connection policy"),
* Network: producerNet.ID(),
* PscConfig: &networkconnectivity.ServiceConnectionPolicyPscConfigArgs{
* Subnetworks: pulumi.StringArray{
* producerSubnet.ID(),
* },
* },
* })
* if err != nil {
* return err
* }
* _, err = redis.NewCluster(ctx, "cluster-rdb", &redis.ClusterArgs{
* Name: pulumi.String("rdb-cluster"),
* ShardCount: pulumi.Int(3),
* PscConfigs: redis.ClusterPscConfigArray{
* &redis.ClusterPscConfigArgs{
* Network: producerNet.ID(),
* },
* },
* Region: pulumi.String("us-central1"),
* ReplicaCount: pulumi.Int(0),
* NodeType: pulumi.String("REDIS_SHARED_CORE_NANO"),
* TransitEncryptionMode: pulumi.String("TRANSIT_ENCRYPTION_MODE_DISABLED"),
* AuthorizationMode: pulumi.String("AUTH_MODE_DISABLED"),
* RedisConfigs: pulumi.StringMap{
* "maxmemory-policy": pulumi.String("volatile-ttl"),
* },
* DeletionProtectionEnabled: pulumi.Bool(true),
* ZoneDistributionConfig: &redis.ClusterZoneDistributionConfigArgs{
* Mode: pulumi.String("MULTI_ZONE"),
* },
* MaintenancePolicy: &redis.ClusterMaintenancePolicyArgs{
* WeeklyMaintenanceWindows: redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowArray{
* &redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs{
* Day: pulumi.String("MONDAY"),
* StartTime: &redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs{
* Hours: pulumi.Int(1),
* Minutes: pulumi.Int(0),
* Seconds: pulumi.Int(0),
* Nanos: pulumi.Int(0),
* },
* },
* },
* },
* PersistenceConfig: &redis.ClusterPersistenceConfigArgs{
* Mode: pulumi.String("RDB"),
* RdbConfig: &redis.ClusterPersistenceConfigRdbConfigArgs{
* RdbSnapshotPeriod: pulumi.String("ONE_HOUR"),
* RdbSnapshotStartTime: pulumi.String("2024-10-02T15:01:23Z"),
* },
* },
* }, pulumi.DependsOn([]pulumi.Resource{
* _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.Network;
* import com.pulumi.gcp.compute.NetworkArgs;
* import com.pulumi.gcp.compute.Subnetwork;
* import com.pulumi.gcp.compute.SubnetworkArgs;
* import com.pulumi.gcp.networkconnectivity.ServiceConnectionPolicy;
* import com.pulumi.gcp.networkconnectivity.ServiceConnectionPolicyArgs;
* import com.pulumi.gcp.networkconnectivity.inputs.ServiceConnectionPolicyPscConfigArgs;
* import com.pulumi.gcp.redis.Cluster;
* import com.pulumi.gcp.redis.ClusterArgs;
* import com.pulumi.gcp.redis.inputs.ClusterPscConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterZoneDistributionConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterMaintenancePolicyArgs;
* import com.pulumi.gcp.redis.inputs.ClusterPersistenceConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterPersistenceConfigRdbConfigArgs;
* import com.pulumi.resources.CustomResourceOptions;
* 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 producerNet = new Network("producerNet", NetworkArgs.builder()
* .name("mynetwork")
* .autoCreateSubnetworks(false)
* .build());
* var producerSubnet = new Subnetwork("producerSubnet", SubnetworkArgs.builder()
* .name("mysubnet")
* .ipCidrRange("10.0.0.248/29")
* .region("us-central1")
* .network(producerNet.id())
* .build());
* var default_ = new ServiceConnectionPolicy("default", ServiceConnectionPolicyArgs.builder()
* .name("mypolicy")
* .location("us-central1")
* .serviceClass("gcp-memorystore-redis")
* .description("my basic service connection policy")
* .network(producerNet.id())
* .pscConfig(ServiceConnectionPolicyPscConfigArgs.builder()
* .subnetworks(producerSubnet.id())
* .build())
* .build());
* var cluster_rdb = new Cluster("cluster-rdb", ClusterArgs.builder()
* .name("rdb-cluster")
* .shardCount(3)
* .pscConfigs(ClusterPscConfigArgs.builder()
* .network(producerNet.id())
* .build())
* .region("us-central1")
* .replicaCount(0)
* .nodeType("REDIS_SHARED_CORE_NANO")
* .transitEncryptionMode("TRANSIT_ENCRYPTION_MODE_DISABLED")
* .authorizationMode("AUTH_MODE_DISABLED")
* .redisConfigs(Map.of("maxmemory-policy", "volatile-ttl"))
* .deletionProtectionEnabled(true)
* .zoneDistributionConfig(ClusterZoneDistributionConfigArgs.builder()
* .mode("MULTI_ZONE")
* .build())
* .maintenancePolicy(ClusterMaintenancePolicyArgs.builder()
* .weeklyMaintenanceWindows(ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs.builder()
* .day("MONDAY")
* .startTime(ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs.builder()
* .hours(1)
* .minutes(0)
* .seconds(0)
* .nanos(0)
* .build())
* .build())
* .build())
* .persistenceConfig(ClusterPersistenceConfigArgs.builder()
* .mode("RDB")
* .rdbConfig(ClusterPersistenceConfigRdbConfigArgs.builder()
* .rdbSnapshotPeriod("ONE_HOUR")
* .rdbSnapshotStartTime("2024-10-02T15:01:23Z")
* .build())
* .build())
* .build(), CustomResourceOptions.builder()
* .dependsOn(default_)
* .build());
* }
* }
* ```
* ```yaml
* resources:
* cluster-rdb:
* type: gcp:redis:Cluster
* properties:
* name: rdb-cluster
* shardCount: 3
* pscConfigs:
* - network: ${producerNet.id}
* region: us-central1
* replicaCount: 0
* nodeType: REDIS_SHARED_CORE_NANO
* transitEncryptionMode: TRANSIT_ENCRYPTION_MODE_DISABLED
* authorizationMode: AUTH_MODE_DISABLED
* redisConfigs:
* maxmemory-policy: volatile-ttl
* deletionProtectionEnabled: true
* zoneDistributionConfig:
* mode: MULTI_ZONE
* maintenancePolicy:
* weeklyMaintenanceWindows:
* - day: MONDAY
* startTime:
* hours: 1
* minutes: 0
* seconds: 0
* nanos: 0
* persistenceConfig:
* mode: RDB
* rdbConfig:
* rdbSnapshotPeriod: ONE_HOUR
* rdbSnapshotStartTime: 2024-10-02T15:01:23Z
* options:
* dependsOn:
* - ${default}
* default:
* type: gcp:networkconnectivity:ServiceConnectionPolicy
* properties:
* name: mypolicy
* location: us-central1
* serviceClass: gcp-memorystore-redis
* description: my basic service connection policy
* network: ${producerNet.id}
* pscConfig:
* subnetworks:
* - ${producerSubnet.id}
* producerSubnet:
* type: gcp:compute:Subnetwork
* name: producer_subnet
* properties:
* name: mysubnet
* ipCidrRange: 10.0.0.248/29
* region: us-central1
* network: ${producerNet.id}
* producerNet:
* type: gcp:compute:Network
* name: producer_net
* properties:
* name: mynetwork
* autoCreateSubnetworks: false
* ```
*
* ### Redis Cluster Aof
*
* ```typescript
* import * as pulumi from "@pulumi/pulumi";
* import * as gcp from "@pulumi/gcp";
* const producerNet = new gcp.compute.Network("producer_net", {
* name: "mynetwork",
* autoCreateSubnetworks: false,
* });
* const producerSubnet = new gcp.compute.Subnetwork("producer_subnet", {
* name: "mysubnet",
* ipCidrRange: "10.0.0.248/29",
* region: "us-central1",
* network: producerNet.id,
* });
* const _default = new gcp.networkconnectivity.ServiceConnectionPolicy("default", {
* name: "mypolicy",
* location: "us-central1",
* serviceClass: "gcp-memorystore-redis",
* description: "my basic service connection policy",
* network: producerNet.id,
* pscConfig: {
* subnetworks: [producerSubnet.id],
* },
* });
* const cluster_aof = new gcp.redis.Cluster("cluster-aof", {
* name: "aof-cluster",
* shardCount: 3,
* pscConfigs: [{
* network: producerNet.id,
* }],
* region: "us-central1",
* replicaCount: 0,
* nodeType: "REDIS_SHARED_CORE_NANO",
* transitEncryptionMode: "TRANSIT_ENCRYPTION_MODE_DISABLED",
* authorizationMode: "AUTH_MODE_DISABLED",
* redisConfigs: {
* "maxmemory-policy": "volatile-ttl",
* },
* deletionProtectionEnabled: true,
* zoneDistributionConfig: {
* mode: "MULTI_ZONE",
* },
* maintenancePolicy: {
* weeklyMaintenanceWindows: [{
* day: "MONDAY",
* startTime: {
* hours: 1,
* minutes: 0,
* seconds: 0,
* nanos: 0,
* },
* }],
* },
* persistenceConfig: {
* mode: "AOF",
* aofConfig: {
* appendFsync: "EVERYSEC",
* },
* },
* }, {
* dependsOn: [_default],
* });
* ```
* ```python
* import pulumi
* import pulumi_gcp as gcp
* producer_net = gcp.compute.Network("producer_net",
* name="mynetwork",
* auto_create_subnetworks=False)
* producer_subnet = gcp.compute.Subnetwork("producer_subnet",
* name="mysubnet",
* ip_cidr_range="10.0.0.248/29",
* region="us-central1",
* network=producer_net.id)
* default = gcp.networkconnectivity.ServiceConnectionPolicy("default",
* name="mypolicy",
* location="us-central1",
* service_class="gcp-memorystore-redis",
* description="my basic service connection policy",
* network=producer_net.id,
* psc_config={
* "subnetworks": [producer_subnet.id],
* })
* cluster_aof = gcp.redis.Cluster("cluster-aof",
* name="aof-cluster",
* shard_count=3,
* psc_configs=[{
* "network": producer_net.id,
* }],
* region="us-central1",
* replica_count=0,
* node_type="REDIS_SHARED_CORE_NANO",
* transit_encryption_mode="TRANSIT_ENCRYPTION_MODE_DISABLED",
* authorization_mode="AUTH_MODE_DISABLED",
* redis_configs={
* "maxmemory-policy": "volatile-ttl",
* },
* deletion_protection_enabled=True,
* zone_distribution_config={
* "mode": "MULTI_ZONE",
* },
* maintenance_policy={
* "weekly_maintenance_windows": [{
* "day": "MONDAY",
* "start_time": {
* "hours": 1,
* "minutes": 0,
* "seconds": 0,
* "nanos": 0,
* },
* }],
* },
* persistence_config={
* "mode": "AOF",
* "aof_config": {
* "append_fsync": "EVERYSEC",
* },
* },
* opts = pulumi.ResourceOptions(depends_on=[default]))
* ```
* ```csharp
* using System.Collections.Generic;
* using System.Linq;
* using Pulumi;
* using Gcp = Pulumi.Gcp;
* return await Deployment.RunAsync(() =>
* {
* var producerNet = new Gcp.Compute.Network("producer_net", new()
* {
* Name = "mynetwork",
* AutoCreateSubnetworks = false,
* });
* var producerSubnet = new Gcp.Compute.Subnetwork("producer_subnet", new()
* {
* Name = "mysubnet",
* IpCidrRange = "10.0.0.248/29",
* Region = "us-central1",
* Network = producerNet.Id,
* });
* var @default = new Gcp.NetworkConnectivity.ServiceConnectionPolicy("default", new()
* {
* Name = "mypolicy",
* Location = "us-central1",
* ServiceClass = "gcp-memorystore-redis",
* Description = "my basic service connection policy",
* Network = producerNet.Id,
* PscConfig = new Gcp.NetworkConnectivity.Inputs.ServiceConnectionPolicyPscConfigArgs
* {
* Subnetworks = new[]
* {
* producerSubnet.Id,
* },
* },
* });
* var cluster_aof = new Gcp.Redis.Cluster("cluster-aof", new()
* {
* Name = "aof-cluster",
* ShardCount = 3,
* PscConfigs = new[]
* {
* new Gcp.Redis.Inputs.ClusterPscConfigArgs
* {
* Network = producerNet.Id,
* },
* },
* Region = "us-central1",
* ReplicaCount = 0,
* NodeType = "REDIS_SHARED_CORE_NANO",
* TransitEncryptionMode = "TRANSIT_ENCRYPTION_MODE_DISABLED",
* AuthorizationMode = "AUTH_MODE_DISABLED",
* RedisConfigs =
* {
* { "maxmemory-policy", "volatile-ttl" },
* },
* DeletionProtectionEnabled = true,
* ZoneDistributionConfig = new Gcp.Redis.Inputs.ClusterZoneDistributionConfigArgs
* {
* Mode = "MULTI_ZONE",
* },
* MaintenancePolicy = new Gcp.Redis.Inputs.ClusterMaintenancePolicyArgs
* {
* WeeklyMaintenanceWindows = new[]
* {
* new Gcp.Redis.Inputs.ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs
* {
* Day = "MONDAY",
* StartTime = new Gcp.Redis.Inputs.ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs
* {
* Hours = 1,
* Minutes = 0,
* Seconds = 0,
* Nanos = 0,
* },
* },
* },
* },
* PersistenceConfig = new Gcp.Redis.Inputs.ClusterPersistenceConfigArgs
* {
* Mode = "AOF",
* AofConfig = new Gcp.Redis.Inputs.ClusterPersistenceConfigAofConfigArgs
* {
* AppendFsync = "EVERYSEC",
* },
* },
* }, new CustomResourceOptions
* {
* DependsOn =
* {
* @default,
* },
* });
* });
* ```
* ```go
* package main
* import (
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/compute"
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/networkconnectivity"
* "github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/redis"
* "github.com/pulumi/pulumi/sdk/v3/go/pulumi"
* )
* func main() {
* pulumi.Run(func(ctx *pulumi.Context) error {
* producerNet, err := compute.NewNetwork(ctx, "producer_net", &compute.NetworkArgs{
* Name: pulumi.String("mynetwork"),
* AutoCreateSubnetworks: pulumi.Bool(false),
* })
* if err != nil {
* return err
* }
* producerSubnet, err := compute.NewSubnetwork(ctx, "producer_subnet", &compute.SubnetworkArgs{
* Name: pulumi.String("mysubnet"),
* IpCidrRange: pulumi.String("10.0.0.248/29"),
* Region: pulumi.String("us-central1"),
* Network: producerNet.ID(),
* })
* if err != nil {
* return err
* }
* _, err = networkconnectivity.NewServiceConnectionPolicy(ctx, "default", &networkconnectivity.ServiceConnectionPolicyArgs{
* Name: pulumi.String("mypolicy"),
* Location: pulumi.String("us-central1"),
* ServiceClass: pulumi.String("gcp-memorystore-redis"),
* Description: pulumi.String("my basic service connection policy"),
* Network: producerNet.ID(),
* PscConfig: &networkconnectivity.ServiceConnectionPolicyPscConfigArgs{
* Subnetworks: pulumi.StringArray{
* producerSubnet.ID(),
* },
* },
* })
* if err != nil {
* return err
* }
* _, err = redis.NewCluster(ctx, "cluster-aof", &redis.ClusterArgs{
* Name: pulumi.String("aof-cluster"),
* ShardCount: pulumi.Int(3),
* PscConfigs: redis.ClusterPscConfigArray{
* &redis.ClusterPscConfigArgs{
* Network: producerNet.ID(),
* },
* },
* Region: pulumi.String("us-central1"),
* ReplicaCount: pulumi.Int(0),
* NodeType: pulumi.String("REDIS_SHARED_CORE_NANO"),
* TransitEncryptionMode: pulumi.String("TRANSIT_ENCRYPTION_MODE_DISABLED"),
* AuthorizationMode: pulumi.String("AUTH_MODE_DISABLED"),
* RedisConfigs: pulumi.StringMap{
* "maxmemory-policy": pulumi.String("volatile-ttl"),
* },
* DeletionProtectionEnabled: pulumi.Bool(true),
* ZoneDistributionConfig: &redis.ClusterZoneDistributionConfigArgs{
* Mode: pulumi.String("MULTI_ZONE"),
* },
* MaintenancePolicy: &redis.ClusterMaintenancePolicyArgs{
* WeeklyMaintenanceWindows: redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowArray{
* &redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs{
* Day: pulumi.String("MONDAY"),
* StartTime: &redis.ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs{
* Hours: pulumi.Int(1),
* Minutes: pulumi.Int(0),
* Seconds: pulumi.Int(0),
* Nanos: pulumi.Int(0),
* },
* },
* },
* },
* PersistenceConfig: &redis.ClusterPersistenceConfigArgs{
* Mode: pulumi.String("AOF"),
* AofConfig: &redis.ClusterPersistenceConfigAofConfigArgs{
* AppendFsync: pulumi.String("EVERYSEC"),
* },
* },
* }, pulumi.DependsOn([]pulumi.Resource{
* _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.Network;
* import com.pulumi.gcp.compute.NetworkArgs;
* import com.pulumi.gcp.compute.Subnetwork;
* import com.pulumi.gcp.compute.SubnetworkArgs;
* import com.pulumi.gcp.networkconnectivity.ServiceConnectionPolicy;
* import com.pulumi.gcp.networkconnectivity.ServiceConnectionPolicyArgs;
* import com.pulumi.gcp.networkconnectivity.inputs.ServiceConnectionPolicyPscConfigArgs;
* import com.pulumi.gcp.redis.Cluster;
* import com.pulumi.gcp.redis.ClusterArgs;
* import com.pulumi.gcp.redis.inputs.ClusterPscConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterZoneDistributionConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterMaintenancePolicyArgs;
* import com.pulumi.gcp.redis.inputs.ClusterPersistenceConfigArgs;
* import com.pulumi.gcp.redis.inputs.ClusterPersistenceConfigAofConfigArgs;
* import com.pulumi.resources.CustomResourceOptions;
* 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 producerNet = new Network("producerNet", NetworkArgs.builder()
* .name("mynetwork")
* .autoCreateSubnetworks(false)
* .build());
* var producerSubnet = new Subnetwork("producerSubnet", SubnetworkArgs.builder()
* .name("mysubnet")
* .ipCidrRange("10.0.0.248/29")
* .region("us-central1")
* .network(producerNet.id())
* .build());
* var default_ = new ServiceConnectionPolicy("default", ServiceConnectionPolicyArgs.builder()
* .name("mypolicy")
* .location("us-central1")
* .serviceClass("gcp-memorystore-redis")
* .description("my basic service connection policy")
* .network(producerNet.id())
* .pscConfig(ServiceConnectionPolicyPscConfigArgs.builder()
* .subnetworks(producerSubnet.id())
* .build())
* .build());
* var cluster_aof = new Cluster("cluster-aof", ClusterArgs.builder()
* .name("aof-cluster")
* .shardCount(3)
* .pscConfigs(ClusterPscConfigArgs.builder()
* .network(producerNet.id())
* .build())
* .region("us-central1")
* .replicaCount(0)
* .nodeType("REDIS_SHARED_CORE_NANO")
* .transitEncryptionMode("TRANSIT_ENCRYPTION_MODE_DISABLED")
* .authorizationMode("AUTH_MODE_DISABLED")
* .redisConfigs(Map.of("maxmemory-policy", "volatile-ttl"))
* .deletionProtectionEnabled(true)
* .zoneDistributionConfig(ClusterZoneDistributionConfigArgs.builder()
* .mode("MULTI_ZONE")
* .build())
* .maintenancePolicy(ClusterMaintenancePolicyArgs.builder()
* .weeklyMaintenanceWindows(ClusterMaintenancePolicyWeeklyMaintenanceWindowArgs.builder()
* .day("MONDAY")
* .startTime(ClusterMaintenancePolicyWeeklyMaintenanceWindowStartTimeArgs.builder()
* .hours(1)
* .minutes(0)
* .seconds(0)
* .nanos(0)
* .build())
* .build())
* .build())
* .persistenceConfig(ClusterPersistenceConfigArgs.builder()
* .mode("AOF")
* .aofConfig(ClusterPersistenceConfigAofConfigArgs.builder()
* .appendFsync("EVERYSEC")
* .build())
* .build())
* .build(), CustomResourceOptions.builder()
* .dependsOn(default_)
* .build());
* }
* }
* ```
* ```yaml
* resources:
* cluster-aof:
* type: gcp:redis:Cluster
* properties:
* name: aof-cluster
* shardCount: 3
* pscConfigs:
* - network: ${producerNet.id}
* region: us-central1
* replicaCount: 0
* nodeType: REDIS_SHARED_CORE_NANO
* transitEncryptionMode: TRANSIT_ENCRYPTION_MODE_DISABLED
* authorizationMode: AUTH_MODE_DISABLED
* redisConfigs:
* maxmemory-policy: volatile-ttl
* deletionProtectionEnabled: true
* zoneDistributionConfig:
* mode: MULTI_ZONE
* maintenancePolicy:
* weeklyMaintenanceWindows:
* - day: MONDAY
* startTime:
* hours: 1
* minutes: 0
* seconds: 0
* nanos: 0
* persistenceConfig:
* mode: AOF
* aofConfig:
* appendFsync: EVERYSEC
* options:
* dependsOn:
* - ${default}
* default:
* type: gcp:networkconnectivity:ServiceConnectionPolicy
* properties:
* name: mypolicy
* location: us-central1
* serviceClass: gcp-memorystore-redis
* description: my basic service connection policy
* network: ${producerNet.id}
* pscConfig:
* subnetworks:
* - ${producerSubnet.id}
* producerSubnet:
* type: gcp:compute:Subnetwork
* name: producer_subnet
* properties:
* name: mysubnet
* ipCidrRange: 10.0.0.248/29
* region: us-central1
* network: ${producerNet.id}
* producerNet:
* type: gcp:compute:Network
* name: producer_net
* properties:
* name: mynetwork
* autoCreateSubnetworks: false
* ```
*
* ## Import
* Cluster can be imported using any of these accepted formats:
* * `projects/{{project}}/locations/{{region}}/clusters/{{name}}`
* * `{{project}}/{{region}}/{{name}}`
* * `{{region}}/{{name}}`
* * `{{name}}`
* When using the `pulumi import` command, Cluster can be imported using one of the formats above. For example:
* ```sh
* $ pulumi import gcp:redis/cluster:Cluster default projects/{{project}}/locations/{{region}}/clusters/{{name}}
* ```
* ```sh
* $ pulumi import gcp:redis/cluster:Cluster default {{project}}/{{region}}/{{name}}
* ```
* ```sh
* $ pulumi import gcp:redis/cluster:Cluster default {{region}}/{{name}}
* ```
* ```sh
* $ pulumi import gcp:redis/cluster:Cluster default {{name}}
* ```
*/
public class Cluster internal constructor(
override val javaResource: com.pulumi.gcp.redis.Cluster,
) : KotlinCustomResource(javaResource, ClusterMapper) {
/**
* Optional. The authorization mode of the Redis cluster. If not provided, auth feature is disabled for the cluster.
* Default value: "AUTH_MODE_DISABLED" Possible values: ["AUTH_MODE_UNSPECIFIED", "AUTH_MODE_IAM_AUTH",
* "AUTH_MODE_DISABLED"]
*/
public val authorizationMode: Output?
get() = javaResource.authorizationMode().applyValue({ args0 ->
args0.map({ args0 ->
args0
}).orElse(null)
})
/**
* The timestamp associated with the cluster creation request. A timestamp in
* RFC3339 UTC "Zulu" format, with nanosecond resolution and up to nine fractional
* digits. Examples: "2014-10-02T15:01:23Z" and "2014-10-02T15:01:23.045123456Z".
*/
public val createTime: Output
get() = javaResource.createTime().applyValue({ args0 -> args0 })
/**
* Cross cluster replication config
*/
public val crossClusterReplicationConfig: Output
get() = javaResource.crossClusterReplicationConfig().applyValue({ args0 ->
args0.let({ args0 ->
clusterCrossClusterReplicationConfigToKotlin(args0)
})
})
/**
* Optional. Indicates if the cluster is deletion protected or not. If the value if set to true, any delete cluster
* operation will fail. Default value is true.
*/
public val deletionProtectionEnabled: Output?
get() = javaResource.deletionProtectionEnabled().applyValue({ args0 ->
args0.map({ args0 ->
args0
}).orElse(null)
})
/**
* Output only. Endpoints created on each given network,
* for Redis clients to connect to the cluster.
* Currently only one endpoint is supported.
* Structure is documented below.
*/
public val discoveryEndpoints: Output>
get() = javaResource.discoveryEndpoints().applyValue({ args0 ->
args0.map({ args0 ->
args0.let({ args0 -> clusterDiscoveryEndpointToKotlin(args0) })
})
})
/**
* Maintenance policy for a cluster
*/
public val maintenancePolicy: Output?
get() = javaResource.maintenancePolicy().applyValue({ args0 ->
args0.map({ args0 ->
args0.let({ args0 -> clusterMaintenancePolicyToKotlin(args0) })
}).orElse(null)
})
/**
* Upcoming maintenance schedule.
* Structure is documented below.
*/
public val maintenanceSchedules: Output>
get() = javaResource.maintenanceSchedules().applyValue({ args0 ->
args0.map({ args0 ->
args0.let({ args0 -> clusterMaintenanceScheduleToKotlin(args0) })
})
})
/**
* Unique name of the resource in this scope including project and location using the form:
* projects/{projectId}/locations/{locationId}/clusters/{clusterId}
*/
public val name: Output
get() = javaResource.name().applyValue({ args0 -> args0 })
/**
* The nodeType for the Redis cluster. If not provided, REDIS_HIGHMEM_MEDIUM will be used as default Possible values:
* ["REDIS_SHARED_CORE_NANO", "REDIS_HIGHMEM_MEDIUM", "REDIS_HIGHMEM_XLARGE", "REDIS_STANDARD_SMALL"]
*/
public val nodeType: Output
get() = javaResource.nodeType().applyValue({ args0 -> args0 })
/**
* Persistence config (RDB, AOF) for the cluster.
*/
public val persistenceConfig: Output
get() = javaResource.persistenceConfig().applyValue({ args0 ->
args0.let({ args0 ->
clusterPersistenceConfigToKotlin(args0)
})
})
/**
* Output only. Redis memory precise size in GB for the entire cluster.
*/
public val preciseSizeGb: Output
get() = javaResource.preciseSizeGb().applyValue({ args0 -> args0 })
public val project: Output
get() = javaResource.project().applyValue({ args0 -> args0 })
/**
* Required. Each PscConfig configures the consumer network where two
* network addresses will be designated to the cluster for client access.
* Currently, only one PscConfig is supported.
* Structure is documented below.
*/
public val pscConfigs: Output>
get() = javaResource.pscConfigs().applyValue({ args0 ->
args0.map({ args0 ->
args0.let({ args0 ->
clusterPscConfigToKotlin(args0)
})
})
})
/**
* Output only. PSC connections for discovery of the cluster topology and accessing the cluster.
* Structure is documented below.
*/
public val pscConnections: Output>
get() = javaResource.pscConnections().applyValue({ args0 ->
args0.map({ args0 ->
args0.let({ args0 -> clusterPscConnectionToKotlin(args0) })
})
})
/**
* Configure Redis Cluster behavior using a subset of native Redis configuration parameters. Please check Memorystore
* documentation for the list of supported parameters:
* https://cloud.google.com/memorystore/docs/cluster/supported-instance-configurations
*/
public val redisConfigs: Output>?
get() = javaResource.redisConfigs().applyValue({ args0 ->
args0.map({ args0 ->
args0.map({ args0 ->
args0.key.to(args0.value)
}).toMap()
}).orElse(null)
})
/**
* The name of the region of the Redis cluster.
*/
public val region: Output
get() = javaResource.region().applyValue({ args0 -> args0 })
/**
* Optional. The number of replica nodes per shard.
*/
public val replicaCount: Output?
get() = javaResource.replicaCount().applyValue({ args0 ->
args0.map({ args0 ->
args0
}).orElse(null)
})
/**
* Required. Number of shards for the Redis cluster.
*/
public val shardCount: Output
get() = javaResource.shardCount().applyValue({ args0 -> args0 })
/**
* Output only. Redis memory size in GB for the entire cluster.
*/
public val sizeGb: Output
get() = javaResource.sizeGb().applyValue({ args0 -> args0 })
/**
* The current state of this cluster. Can be CREATING, READY, UPDATING, DELETING and SUSPENDED
*/
public val state: Output
get() = javaResource.state().applyValue({ args0 -> args0 })
/**
* Output only. Additional information about the current state of the cluster.
* Structure is documented below.
*/
public val stateInfos: Output>
get() = javaResource.stateInfos().applyValue({ args0 ->
args0.map({ args0 ->
args0.let({ args0 ->
clusterStateInfoToKotlin(args0)
})
})
})
/**
* Optional. The in-transit encryption for the Redis cluster. If not provided, encryption is disabled for the cluster.
* Default value: "TRANSIT_ENCRYPTION_MODE_DISABLED" Possible values: ["TRANSIT_ENCRYPTION_MODE_UNSPECIFIED",
* "TRANSIT_ENCRYPTION_MODE_DISABLED", "TRANSIT_ENCRYPTION_MODE_SERVER_AUTHENTICATION"]
*/
public val transitEncryptionMode: Output?
get() = javaResource.transitEncryptionMode().applyValue({ args0 ->
args0.map({ args0 ->
args0
}).orElse(null)
})
/**
* System assigned, unique identifier for the cluster.
*/
public val uid: Output
get() = javaResource.uid().applyValue({ args0 -> args0 })
/**
* Immutable. Zone distribution config for Memorystore Redis cluster.
*/
public val zoneDistributionConfig: Output?
get() = javaResource.zoneDistributionConfig().applyValue({ args0 ->
args0.map({ args0 ->
args0.let({ args0 -> clusterZoneDistributionConfigToKotlin(args0) })
}).orElse(null)
})
}
public object ClusterMapper : ResourceMapper {
override fun supportsMappingOfType(javaResource: Resource): Boolean =
com.pulumi.gcp.redis.Cluster::class == javaResource::class
override fun map(javaResource: Resource): Cluster = Cluster(
javaResource as
com.pulumi.gcp.redis.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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