gcp.gkeonprem.VMwareCluster
Explore with Pulumi AI
A Google VMware User Cluster.
Example Usage
Gkeonprem Vmware Cluster Basic
import * as pulumi from "@pulumi/pulumi";
import * as gcp from "@pulumi/gcp";
const cluster_basic = new gcp.gkeonprem.VMwareCluster("cluster-basic", {
name: "cluster-basic",
location: "us-west1",
adminClusterMembership: "projects/870316890899/locations/global/memberships/gkeonprem-terraform-test",
description: "test cluster",
onPremVersion: "1.13.1-gke.35",
annotations: {},
networkConfig: {
serviceAddressCidrBlocks: ["10.96.0.0/12"],
podAddressCidrBlocks: ["192.168.0.0/16"],
dhcpIpConfig: {
enabled: true,
},
},
controlPlaneNode: {
cpus: 4,
memory: 8192,
replicas: 1,
},
loadBalancer: {
vipConfig: {
controlPlaneVip: "10.251.133.5",
ingressVip: "10.251.135.19",
},
metalLbConfig: {
addressPools: [
{
pool: "ingress-ip",
manualAssign: true,
addresses: ["10.251.135.19"],
avoidBuggyIps: true,
},
{
pool: "lb-test-ip",
manualAssign: true,
addresses: ["10.251.135.19"],
avoidBuggyIps: true,
},
],
},
},
});
import pulumi
import pulumi_gcp as gcp
cluster_basic = gcp.gkeonprem.VMwareCluster("cluster-basic",
name="cluster-basic",
location="us-west1",
admin_cluster_membership="projects/870316890899/locations/global/memberships/gkeonprem-terraform-test",
description="test cluster",
on_prem_version="1.13.1-gke.35",
annotations={},
network_config={
"service_address_cidr_blocks": ["10.96.0.0/12"],
"pod_address_cidr_blocks": ["192.168.0.0/16"],
"dhcp_ip_config": {
"enabled": True,
},
},
control_plane_node={
"cpus": 4,
"memory": 8192,
"replicas": 1,
},
load_balancer={
"vip_config": {
"control_plane_vip": "10.251.133.5",
"ingress_vip": "10.251.135.19",
},
"metal_lb_config": {
"address_pools": [
{
"pool": "ingress-ip",
"manual_assign": True,
"addresses": ["10.251.135.19"],
"avoid_buggy_ips": True,
},
{
"pool": "lb-test-ip",
"manual_assign": True,
"addresses": ["10.251.135.19"],
"avoid_buggy_ips": True,
},
],
},
})
package main
import (
"github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/gkeonprem"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
_, err := gkeonprem.NewVMwareCluster(ctx, "cluster-basic", &gkeonprem.VMwareClusterArgs{
Name: pulumi.String("cluster-basic"),
Location: pulumi.String("us-west1"),
AdminClusterMembership: pulumi.String("projects/870316890899/locations/global/memberships/gkeonprem-terraform-test"),
Description: pulumi.String("test cluster"),
OnPremVersion: pulumi.String("1.13.1-gke.35"),
Annotations: pulumi.StringMap{},
NetworkConfig: &gkeonprem.VMwareClusterNetworkConfigArgs{
ServiceAddressCidrBlocks: pulumi.StringArray{
pulumi.String("10.96.0.0/12"),
},
PodAddressCidrBlocks: pulumi.StringArray{
pulumi.String("192.168.0.0/16"),
},
DhcpIpConfig: &gkeonprem.VMwareClusterNetworkConfigDhcpIpConfigArgs{
Enabled: pulumi.Bool(true),
},
},
ControlPlaneNode: &gkeonprem.VMwareClusterControlPlaneNodeArgs{
Cpus: pulumi.Int(4),
Memory: pulumi.Int(8192),
Replicas: pulumi.Int(1),
},
LoadBalancer: &gkeonprem.VMwareClusterLoadBalancerArgs{
VipConfig: &gkeonprem.VMwareClusterLoadBalancerVipConfigArgs{
ControlPlaneVip: pulumi.String("10.251.133.5"),
IngressVip: pulumi.String("10.251.135.19"),
},
MetalLbConfig: &gkeonprem.VMwareClusterLoadBalancerMetalLbConfigArgs{
AddressPools: gkeonprem.VMwareClusterLoadBalancerMetalLbConfigAddressPoolArray{
&gkeonprem.VMwareClusterLoadBalancerMetalLbConfigAddressPoolArgs{
Pool: pulumi.String("ingress-ip"),
ManualAssign: pulumi.Bool(true),
Addresses: pulumi.StringArray{
pulumi.String("10.251.135.19"),
},
AvoidBuggyIps: pulumi.Bool(true),
},
&gkeonprem.VMwareClusterLoadBalancerMetalLbConfigAddressPoolArgs{
Pool: pulumi.String("lb-test-ip"),
ManualAssign: pulumi.Bool(true),
Addresses: pulumi.StringArray{
pulumi.String("10.251.135.19"),
},
AvoidBuggyIps: pulumi.Bool(true),
},
},
},
},
})
if err != nil {
return err
}
return nil
})
}
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Gcp = Pulumi.Gcp;
return await Deployment.RunAsync(() =>
{
var cluster_basic = new Gcp.GkeOnPrem.VMwareCluster("cluster-basic", new()
{
Name = "cluster-basic",
Location = "us-west1",
AdminClusterMembership = "projects/870316890899/locations/global/memberships/gkeonprem-terraform-test",
Description = "test cluster",
OnPremVersion = "1.13.1-gke.35",
Annotations = null,
NetworkConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigArgs
{
ServiceAddressCidrBlocks = new[]
{
"10.96.0.0/12",
},
PodAddressCidrBlocks = new[]
{
"192.168.0.0/16",
},
DhcpIpConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigDhcpIpConfigArgs
{
Enabled = true,
},
},
ControlPlaneNode = new Gcp.GkeOnPrem.Inputs.VMwareClusterControlPlaneNodeArgs
{
Cpus = 4,
Memory = 8192,
Replicas = 1,
},
LoadBalancer = new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerArgs
{
VipConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerVipConfigArgs
{
ControlPlaneVip = "10.251.133.5",
IngressVip = "10.251.135.19",
},
MetalLbConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerMetalLbConfigArgs
{
AddressPools = new[]
{
new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerMetalLbConfigAddressPoolArgs
{
Pool = "ingress-ip",
ManualAssign = true,
Addresses = new[]
{
"10.251.135.19",
},
AvoidBuggyIps = true,
},
new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerMetalLbConfigAddressPoolArgs
{
Pool = "lb-test-ip",
ManualAssign = true,
Addresses = new[]
{
"10.251.135.19",
},
AvoidBuggyIps = true,
},
},
},
},
});
});
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.gcp.gkeonprem.VMwareCluster;
import com.pulumi.gcp.gkeonprem.VMwareClusterArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterNetworkConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterNetworkConfigDhcpIpConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterControlPlaneNodeArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterLoadBalancerArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterLoadBalancerVipConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterLoadBalancerMetalLbConfigArgs;
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 cluster_basic = new VMwareCluster("cluster-basic", VMwareClusterArgs.builder()
.name("cluster-basic")
.location("us-west1")
.adminClusterMembership("projects/870316890899/locations/global/memberships/gkeonprem-terraform-test")
.description("test cluster")
.onPremVersion("1.13.1-gke.35")
.annotations()
.networkConfig(VMwareClusterNetworkConfigArgs.builder()
.serviceAddressCidrBlocks("10.96.0.0/12")
.podAddressCidrBlocks("192.168.0.0/16")
.dhcpIpConfig(VMwareClusterNetworkConfigDhcpIpConfigArgs.builder()
.enabled(true)
.build())
.build())
.controlPlaneNode(VMwareClusterControlPlaneNodeArgs.builder()
.cpus(4)
.memory(8192)
.replicas(1)
.build())
.loadBalancer(VMwareClusterLoadBalancerArgs.builder()
.vipConfig(VMwareClusterLoadBalancerVipConfigArgs.builder()
.controlPlaneVip("10.251.133.5")
.ingressVip("10.251.135.19")
.build())
.metalLbConfig(VMwareClusterLoadBalancerMetalLbConfigArgs.builder()
.addressPools(
VMwareClusterLoadBalancerMetalLbConfigAddressPoolArgs.builder()
.pool("ingress-ip")
.manualAssign("true")
.addresses("10.251.135.19")
.avoidBuggyIps(true)
.build(),
VMwareClusterLoadBalancerMetalLbConfigAddressPoolArgs.builder()
.pool("lb-test-ip")
.manualAssign("true")
.addresses("10.251.135.19")
.avoidBuggyIps(true)
.build())
.build())
.build())
.build());
}
}
resources:
cluster-basic:
type: gcp:gkeonprem:VMwareCluster
properties:
name: cluster-basic
location: us-west1
adminClusterMembership: projects/870316890899/locations/global/memberships/gkeonprem-terraform-test
description: test cluster
onPremVersion: 1.13.1-gke.35
annotations: {}
networkConfig:
serviceAddressCidrBlocks:
- 10.96.0.0/12
podAddressCidrBlocks:
- 192.168.0.0/16
dhcpIpConfig:
enabled: true
controlPlaneNode:
cpus: 4
memory: 8192
replicas: 1
loadBalancer:
vipConfig:
controlPlaneVip: 10.251.133.5
ingressVip: 10.251.135.19
metalLbConfig:
addressPools:
- pool: ingress-ip
manualAssign: 'true'
addresses:
- 10.251.135.19
avoidBuggyIps: true
- pool: lb-test-ip
manualAssign: 'true'
addresses:
- 10.251.135.19
avoidBuggyIps: true
Gkeonprem Vmware Cluster F5lb
import * as pulumi from "@pulumi/pulumi";
import * as gcp from "@pulumi/gcp";
const cluster_f5lb = new gcp.gkeonprem.VMwareCluster("cluster-f5lb", {
name: "cluster-f5lb",
location: "us-west1",
adminClusterMembership: "projects/870316890899/locations/global/memberships/gkeonprem-terraform-test",
description: "test cluster",
onPremVersion: "1.13.1-gke.35",
annotations: {},
networkConfig: {
serviceAddressCidrBlocks: ["10.96.0.0/12"],
podAddressCidrBlocks: ["192.168.0.0/16"],
dhcpIpConfig: {
enabled: true,
},
controlPlaneV2Config: {
controlPlaneIpBlock: {
ips: [{
hostname: "test-hostname",
ip: "10.0.0.1",
}],
netmask: "10.0.0.1/32",
gateway: "test-gateway",
},
},
vcenterNetwork: "test-vcenter-network",
},
controlPlaneNode: {
cpus: 4,
memory: 8192,
replicas: 1,
autoResizeConfig: {
enabled: true,
},
},
loadBalancer: {
vipConfig: {
controlPlaneVip: "10.251.133.5",
ingressVip: "10.251.135.19",
},
f5Config: {
address: "10.0.0.1",
partition: "test-partition",
snatPool: "test-snap-pool",
},
},
dataplaneV2: {
dataplaneV2Enabled: true,
windowsDataplaneV2Enabled: true,
advancedNetworking: true,
},
vmTrackingEnabled: true,
enableControlPlaneV2: true,
disableBundledIngress: true,
authorization: {
adminUsers: [{
username: "testuser@gmail.com",
}],
},
antiAffinityGroups: {
aagConfigDisabled: true,
},
autoRepairConfig: {
enabled: true,
},
storage: {
vsphereCsiDisabled: true,
},
});
import pulumi
import pulumi_gcp as gcp
cluster_f5lb = gcp.gkeonprem.VMwareCluster("cluster-f5lb",
name="cluster-f5lb",
location="us-west1",
admin_cluster_membership="projects/870316890899/locations/global/memberships/gkeonprem-terraform-test",
description="test cluster",
on_prem_version="1.13.1-gke.35",
annotations={},
network_config={
"service_address_cidr_blocks": ["10.96.0.0/12"],
"pod_address_cidr_blocks": ["192.168.0.0/16"],
"dhcp_ip_config": {
"enabled": True,
},
"control_plane_v2_config": {
"control_plane_ip_block": {
"ips": [{
"hostname": "test-hostname",
"ip": "10.0.0.1",
}],
"netmask": "10.0.0.1/32",
"gateway": "test-gateway",
},
},
"vcenter_network": "test-vcenter-network",
},
control_plane_node={
"cpus": 4,
"memory": 8192,
"replicas": 1,
"auto_resize_config": {
"enabled": True,
},
},
load_balancer={
"vip_config": {
"control_plane_vip": "10.251.133.5",
"ingress_vip": "10.251.135.19",
},
"f5_config": {
"address": "10.0.0.1",
"partition": "test-partition",
"snat_pool": "test-snap-pool",
},
},
dataplane_v2={
"dataplane_v2_enabled": True,
"windows_dataplane_v2_enabled": True,
"advanced_networking": True,
},
vm_tracking_enabled=True,
enable_control_plane_v2=True,
disable_bundled_ingress=True,
authorization={
"admin_users": [{
"username": "testuser@gmail.com",
}],
},
anti_affinity_groups={
"aag_config_disabled": True,
},
auto_repair_config={
"enabled": True,
},
storage={
"vsphere_csi_disabled": True,
})
package main
import (
"github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/gkeonprem"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
_, err := gkeonprem.NewVMwareCluster(ctx, "cluster-f5lb", &gkeonprem.VMwareClusterArgs{
Name: pulumi.String("cluster-f5lb"),
Location: pulumi.String("us-west1"),
AdminClusterMembership: pulumi.String("projects/870316890899/locations/global/memberships/gkeonprem-terraform-test"),
Description: pulumi.String("test cluster"),
OnPremVersion: pulumi.String("1.13.1-gke.35"),
Annotations: pulumi.StringMap{},
NetworkConfig: &gkeonprem.VMwareClusterNetworkConfigArgs{
ServiceAddressCidrBlocks: pulumi.StringArray{
pulumi.String("10.96.0.0/12"),
},
PodAddressCidrBlocks: pulumi.StringArray{
pulumi.String("192.168.0.0/16"),
},
DhcpIpConfig: &gkeonprem.VMwareClusterNetworkConfigDhcpIpConfigArgs{
Enabled: pulumi.Bool(true),
},
ControlPlaneV2Config: &gkeonprem.VMwareClusterNetworkConfigControlPlaneV2ConfigArgs{
ControlPlaneIpBlock: &gkeonprem.VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockArgs{
Ips: gkeonprem.VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockIpArray{
&gkeonprem.VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockIpArgs{
Hostname: pulumi.String("test-hostname"),
Ip: pulumi.String("10.0.0.1"),
},
},
Netmask: pulumi.String("10.0.0.1/32"),
Gateway: pulumi.String("test-gateway"),
},
},
VcenterNetwork: pulumi.String("test-vcenter-network"),
},
ControlPlaneNode: &gkeonprem.VMwareClusterControlPlaneNodeArgs{
Cpus: pulumi.Int(4),
Memory: pulumi.Int(8192),
Replicas: pulumi.Int(1),
AutoResizeConfig: &gkeonprem.VMwareClusterControlPlaneNodeAutoResizeConfigArgs{
Enabled: pulumi.Bool(true),
},
},
LoadBalancer: &gkeonprem.VMwareClusterLoadBalancerArgs{
VipConfig: &gkeonprem.VMwareClusterLoadBalancerVipConfigArgs{
ControlPlaneVip: pulumi.String("10.251.133.5"),
IngressVip: pulumi.String("10.251.135.19"),
},
F5Config: &gkeonprem.VMwareClusterLoadBalancerF5ConfigArgs{
Address: pulumi.String("10.0.0.1"),
Partition: pulumi.String("test-partition"),
SnatPool: pulumi.String("test-snap-pool"),
},
},
DataplaneV2: &gkeonprem.VMwareClusterDataplaneV2Args{
DataplaneV2Enabled: pulumi.Bool(true),
WindowsDataplaneV2Enabled: pulumi.Bool(true),
AdvancedNetworking: pulumi.Bool(true),
},
VmTrackingEnabled: pulumi.Bool(true),
EnableControlPlaneV2: pulumi.Bool(true),
DisableBundledIngress: pulumi.Bool(true),
Authorization: &gkeonprem.VMwareClusterAuthorizationArgs{
AdminUsers: gkeonprem.VMwareClusterAuthorizationAdminUserArray{
&gkeonprem.VMwareClusterAuthorizationAdminUserArgs{
Username: pulumi.String("testuser@gmail.com"),
},
},
},
AntiAffinityGroups: &gkeonprem.VMwareClusterAntiAffinityGroupsArgs{
AagConfigDisabled: pulumi.Bool(true),
},
AutoRepairConfig: &gkeonprem.VMwareClusterAutoRepairConfigArgs{
Enabled: pulumi.Bool(true),
},
Storage: &gkeonprem.VMwareClusterStorageArgs{
VsphereCsiDisabled: pulumi.Bool(true),
},
})
if err != nil {
return err
}
return nil
})
}
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Gcp = Pulumi.Gcp;
return await Deployment.RunAsync(() =>
{
var cluster_f5lb = new Gcp.GkeOnPrem.VMwareCluster("cluster-f5lb", new()
{
Name = "cluster-f5lb",
Location = "us-west1",
AdminClusterMembership = "projects/870316890899/locations/global/memberships/gkeonprem-terraform-test",
Description = "test cluster",
OnPremVersion = "1.13.1-gke.35",
Annotations = null,
NetworkConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigArgs
{
ServiceAddressCidrBlocks = new[]
{
"10.96.0.0/12",
},
PodAddressCidrBlocks = new[]
{
"192.168.0.0/16",
},
DhcpIpConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigDhcpIpConfigArgs
{
Enabled = true,
},
ControlPlaneV2Config = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigControlPlaneV2ConfigArgs
{
ControlPlaneIpBlock = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockArgs
{
Ips = new[]
{
new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockIpArgs
{
Hostname = "test-hostname",
Ip = "10.0.0.1",
},
},
Netmask = "10.0.0.1/32",
Gateway = "test-gateway",
},
},
VcenterNetwork = "test-vcenter-network",
},
ControlPlaneNode = new Gcp.GkeOnPrem.Inputs.VMwareClusterControlPlaneNodeArgs
{
Cpus = 4,
Memory = 8192,
Replicas = 1,
AutoResizeConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterControlPlaneNodeAutoResizeConfigArgs
{
Enabled = true,
},
},
LoadBalancer = new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerArgs
{
VipConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerVipConfigArgs
{
ControlPlaneVip = "10.251.133.5",
IngressVip = "10.251.135.19",
},
F5Config = new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerF5ConfigArgs
{
Address = "10.0.0.1",
Partition = "test-partition",
SnatPool = "test-snap-pool",
},
},
DataplaneV2 = new Gcp.GkeOnPrem.Inputs.VMwareClusterDataplaneV2Args
{
DataplaneV2Enabled = true,
WindowsDataplaneV2Enabled = true,
AdvancedNetworking = true,
},
VmTrackingEnabled = true,
EnableControlPlaneV2 = true,
DisableBundledIngress = true,
Authorization = new Gcp.GkeOnPrem.Inputs.VMwareClusterAuthorizationArgs
{
AdminUsers = new[]
{
new Gcp.GkeOnPrem.Inputs.VMwareClusterAuthorizationAdminUserArgs
{
Username = "testuser@gmail.com",
},
},
},
AntiAffinityGroups = new Gcp.GkeOnPrem.Inputs.VMwareClusterAntiAffinityGroupsArgs
{
AagConfigDisabled = true,
},
AutoRepairConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterAutoRepairConfigArgs
{
Enabled = true,
},
Storage = new Gcp.GkeOnPrem.Inputs.VMwareClusterStorageArgs
{
VsphereCsiDisabled = true,
},
});
});
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.gcp.gkeonprem.VMwareCluster;
import com.pulumi.gcp.gkeonprem.VMwareClusterArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterNetworkConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterNetworkConfigDhcpIpConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterNetworkConfigControlPlaneV2ConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterControlPlaneNodeArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterControlPlaneNodeAutoResizeConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterLoadBalancerArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterLoadBalancerVipConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterLoadBalancerF5ConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterDataplaneV2Args;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterAuthorizationArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterAntiAffinityGroupsArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterAutoRepairConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterStorageArgs;
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 cluster_f5lb = new VMwareCluster("cluster-f5lb", VMwareClusterArgs.builder()
.name("cluster-f5lb")
.location("us-west1")
.adminClusterMembership("projects/870316890899/locations/global/memberships/gkeonprem-terraform-test")
.description("test cluster")
.onPremVersion("1.13.1-gke.35")
.annotations()
.networkConfig(VMwareClusterNetworkConfigArgs.builder()
.serviceAddressCidrBlocks("10.96.0.0/12")
.podAddressCidrBlocks("192.168.0.0/16")
.dhcpIpConfig(VMwareClusterNetworkConfigDhcpIpConfigArgs.builder()
.enabled(true)
.build())
.controlPlaneV2Config(VMwareClusterNetworkConfigControlPlaneV2ConfigArgs.builder()
.controlPlaneIpBlock(VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockArgs.builder()
.ips(VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockIpArgs.builder()
.hostname("test-hostname")
.ip("10.0.0.1")
.build())
.netmask("10.0.0.1/32")
.gateway("test-gateway")
.build())
.build())
.vcenterNetwork("test-vcenter-network")
.build())
.controlPlaneNode(VMwareClusterControlPlaneNodeArgs.builder()
.cpus(4)
.memory(8192)
.replicas(1)
.autoResizeConfig(VMwareClusterControlPlaneNodeAutoResizeConfigArgs.builder()
.enabled(true)
.build())
.build())
.loadBalancer(VMwareClusterLoadBalancerArgs.builder()
.vipConfig(VMwareClusterLoadBalancerVipConfigArgs.builder()
.controlPlaneVip("10.251.133.5")
.ingressVip("10.251.135.19")
.build())
.f5Config(VMwareClusterLoadBalancerF5ConfigArgs.builder()
.address("10.0.0.1")
.partition("test-partition")
.snatPool("test-snap-pool")
.build())
.build())
.dataplaneV2(VMwareClusterDataplaneV2Args.builder()
.dataplaneV2Enabled(true)
.windowsDataplaneV2Enabled(true)
.advancedNetworking(true)
.build())
.vmTrackingEnabled(true)
.enableControlPlaneV2(true)
.disableBundledIngress(true)
.authorization(VMwareClusterAuthorizationArgs.builder()
.adminUsers(VMwareClusterAuthorizationAdminUserArgs.builder()
.username("testuser@gmail.com")
.build())
.build())
.antiAffinityGroups(VMwareClusterAntiAffinityGroupsArgs.builder()
.aagConfigDisabled(true)
.build())
.autoRepairConfig(VMwareClusterAutoRepairConfigArgs.builder()
.enabled(true)
.build())
.storage(VMwareClusterStorageArgs.builder()
.vsphereCsiDisabled(true)
.build())
.build());
}
}
resources:
cluster-f5lb:
type: gcp:gkeonprem:VMwareCluster
properties:
name: cluster-f5lb
location: us-west1
adminClusterMembership: projects/870316890899/locations/global/memberships/gkeonprem-terraform-test
description: test cluster
onPremVersion: 1.13.1-gke.35
annotations: {}
networkConfig:
serviceAddressCidrBlocks:
- 10.96.0.0/12
podAddressCidrBlocks:
- 192.168.0.0/16
dhcpIpConfig:
enabled: true
controlPlaneV2Config:
controlPlaneIpBlock:
ips:
- hostname: test-hostname
ip: 10.0.0.1
netmask: 10.0.0.1/32
gateway: test-gateway
vcenterNetwork: test-vcenter-network
controlPlaneNode:
cpus: 4
memory: 8192
replicas: 1
autoResizeConfig:
enabled: true
loadBalancer:
vipConfig:
controlPlaneVip: 10.251.133.5
ingressVip: 10.251.135.19
f5Config:
address: 10.0.0.1
partition: test-partition
snatPool: test-snap-pool
dataplaneV2:
dataplaneV2Enabled: true
windowsDataplaneV2Enabled: true
advancedNetworking: true
vmTrackingEnabled: true
enableControlPlaneV2: true
disableBundledIngress: true
authorization:
adminUsers:
- username: testuser@gmail.com
antiAffinityGroups:
aagConfigDisabled: true
autoRepairConfig:
enabled: true
storage:
vsphereCsiDisabled: true
Gkeonprem Vmware Cluster Manuallb
import * as pulumi from "@pulumi/pulumi";
import * as gcp from "@pulumi/gcp";
const cluster_manuallb = new gcp.gkeonprem.VMwareCluster("cluster-manuallb", {
name: "cluster-manuallb",
location: "us-west1",
adminClusterMembership: "projects/870316890899/locations/global/memberships/gkeonprem-terraform-test",
description: "test cluster",
onPremVersion: "1.13.1-gke.35",
annotations: {},
networkConfig: {
serviceAddressCidrBlocks: ["10.96.0.0/12"],
podAddressCidrBlocks: ["192.168.0.0/16"],
hostConfig: {
dnsServers: ["10.254.41.1"],
ntpServers: ["216.239.35.8"],
dnsSearchDomains: ["test-domain"],
},
staticIpConfig: {
ipBlocks: [{
netmask: "255.255.252.0",
gateway: "10.251.31.254",
ips: [
{
ip: "10.251.30.153",
hostname: "test-hostname1",
},
{
ip: "10.251.31.206",
hostname: "test-hostname2",
},
{
ip: "10.251.31.193",
hostname: "test-hostname3",
},
{
ip: "10.251.30.230",
hostname: "test-hostname4",
},
],
}],
},
},
controlPlaneNode: {
cpus: 4,
memory: 8192,
replicas: 1,
autoResizeConfig: {
enabled: true,
},
},
loadBalancer: {
vipConfig: {
controlPlaneVip: "10.251.133.5",
ingressVip: "10.251.135.19",
},
manualLbConfig: {
ingressHttpNodePort: 30005,
ingressHttpsNodePort: 30006,
controlPlaneNodePort: 30007,
konnectivityServerNodePort: 30008,
},
},
vcenter: {
resourcePool: "test-resource-pool",
datastore: "test-datastore",
datacenter: "test-datacenter",
cluster: "test-cluster",
folder: "test-folder",
caCertData: "test-ca-cert-data",
storagePolicyName: "test-storage-policy-name",
},
dataplaneV2: {
dataplaneV2Enabled: true,
windowsDataplaneV2Enabled: true,
advancedNetworking: true,
},
vmTrackingEnabled: true,
enableControlPlaneV2: true,
upgradePolicy: {
controlPlaneOnly: true,
},
authorization: {
adminUsers: [{
username: "testuser@gmail.com",
}],
},
antiAffinityGroups: {
aagConfigDisabled: true,
},
autoRepairConfig: {
enabled: true,
},
});
import pulumi
import pulumi_gcp as gcp
cluster_manuallb = gcp.gkeonprem.VMwareCluster("cluster-manuallb",
name="cluster-manuallb",
location="us-west1",
admin_cluster_membership="projects/870316890899/locations/global/memberships/gkeonprem-terraform-test",
description="test cluster",
on_prem_version="1.13.1-gke.35",
annotations={},
network_config={
"service_address_cidr_blocks": ["10.96.0.0/12"],
"pod_address_cidr_blocks": ["192.168.0.0/16"],
"host_config": {
"dns_servers": ["10.254.41.1"],
"ntp_servers": ["216.239.35.8"],
"dns_search_domains": ["test-domain"],
},
"static_ip_config": {
"ip_blocks": [{
"netmask": "255.255.252.0",
"gateway": "10.251.31.254",
"ips": [
{
"ip": "10.251.30.153",
"hostname": "test-hostname1",
},
{
"ip": "10.251.31.206",
"hostname": "test-hostname2",
},
{
"ip": "10.251.31.193",
"hostname": "test-hostname3",
},
{
"ip": "10.251.30.230",
"hostname": "test-hostname4",
},
],
}],
},
},
control_plane_node={
"cpus": 4,
"memory": 8192,
"replicas": 1,
"auto_resize_config": {
"enabled": True,
},
},
load_balancer={
"vip_config": {
"control_plane_vip": "10.251.133.5",
"ingress_vip": "10.251.135.19",
},
"manual_lb_config": {
"ingress_http_node_port": 30005,
"ingress_https_node_port": 30006,
"control_plane_node_port": 30007,
"konnectivity_server_node_port": 30008,
},
},
vcenter={
"resource_pool": "test-resource-pool",
"datastore": "test-datastore",
"datacenter": "test-datacenter",
"cluster": "test-cluster",
"folder": "test-folder",
"ca_cert_data": "test-ca-cert-data",
"storage_policy_name": "test-storage-policy-name",
},
dataplane_v2={
"dataplane_v2_enabled": True,
"windows_dataplane_v2_enabled": True,
"advanced_networking": True,
},
vm_tracking_enabled=True,
enable_control_plane_v2=True,
upgrade_policy={
"control_plane_only": True,
},
authorization={
"admin_users": [{
"username": "testuser@gmail.com",
}],
},
anti_affinity_groups={
"aag_config_disabled": True,
},
auto_repair_config={
"enabled": True,
})
package main
import (
"github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/gkeonprem"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
_, err := gkeonprem.NewVMwareCluster(ctx, "cluster-manuallb", &gkeonprem.VMwareClusterArgs{
Name: pulumi.String("cluster-manuallb"),
Location: pulumi.String("us-west1"),
AdminClusterMembership: pulumi.String("projects/870316890899/locations/global/memberships/gkeonprem-terraform-test"),
Description: pulumi.String("test cluster"),
OnPremVersion: pulumi.String("1.13.1-gke.35"),
Annotations: pulumi.StringMap{},
NetworkConfig: &gkeonprem.VMwareClusterNetworkConfigArgs{
ServiceAddressCidrBlocks: pulumi.StringArray{
pulumi.String("10.96.0.0/12"),
},
PodAddressCidrBlocks: pulumi.StringArray{
pulumi.String("192.168.0.0/16"),
},
HostConfig: &gkeonprem.VMwareClusterNetworkConfigHostConfigArgs{
DnsServers: pulumi.StringArray{
pulumi.String("10.254.41.1"),
},
NtpServers: pulumi.StringArray{
pulumi.String("216.239.35.8"),
},
DnsSearchDomains: pulumi.StringArray{
pulumi.String("test-domain"),
},
},
StaticIpConfig: &gkeonprem.VMwareClusterNetworkConfigStaticIpConfigArgs{
IpBlocks: gkeonprem.VMwareClusterNetworkConfigStaticIpConfigIpBlockArray{
&gkeonprem.VMwareClusterNetworkConfigStaticIpConfigIpBlockArgs{
Netmask: pulumi.String("255.255.252.0"),
Gateway: pulumi.String("10.251.31.254"),
Ips: gkeonprem.VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArray{
&gkeonprem.VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs{
Ip: pulumi.String("10.251.30.153"),
Hostname: pulumi.String("test-hostname1"),
},
&gkeonprem.VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs{
Ip: pulumi.String("10.251.31.206"),
Hostname: pulumi.String("test-hostname2"),
},
&gkeonprem.VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs{
Ip: pulumi.String("10.251.31.193"),
Hostname: pulumi.String("test-hostname3"),
},
&gkeonprem.VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs{
Ip: pulumi.String("10.251.30.230"),
Hostname: pulumi.String("test-hostname4"),
},
},
},
},
},
},
ControlPlaneNode: &gkeonprem.VMwareClusterControlPlaneNodeArgs{
Cpus: pulumi.Int(4),
Memory: pulumi.Int(8192),
Replicas: pulumi.Int(1),
AutoResizeConfig: &gkeonprem.VMwareClusterControlPlaneNodeAutoResizeConfigArgs{
Enabled: pulumi.Bool(true),
},
},
LoadBalancer: &gkeonprem.VMwareClusterLoadBalancerArgs{
VipConfig: &gkeonprem.VMwareClusterLoadBalancerVipConfigArgs{
ControlPlaneVip: pulumi.String("10.251.133.5"),
IngressVip: pulumi.String("10.251.135.19"),
},
ManualLbConfig: &gkeonprem.VMwareClusterLoadBalancerManualLbConfigArgs{
IngressHttpNodePort: pulumi.Int(30005),
IngressHttpsNodePort: pulumi.Int(30006),
ControlPlaneNodePort: pulumi.Int(30007),
KonnectivityServerNodePort: pulumi.Int(30008),
},
},
Vcenter: &gkeonprem.VMwareClusterVcenterArgs{
ResourcePool: pulumi.String("test-resource-pool"),
Datastore: pulumi.String("test-datastore"),
Datacenter: pulumi.String("test-datacenter"),
Cluster: pulumi.String("test-cluster"),
Folder: pulumi.String("test-folder"),
CaCertData: pulumi.String("test-ca-cert-data"),
StoragePolicyName: pulumi.String("test-storage-policy-name"),
},
DataplaneV2: &gkeonprem.VMwareClusterDataplaneV2Args{
DataplaneV2Enabled: pulumi.Bool(true),
WindowsDataplaneV2Enabled: pulumi.Bool(true),
AdvancedNetworking: pulumi.Bool(true),
},
VmTrackingEnabled: pulumi.Bool(true),
EnableControlPlaneV2: pulumi.Bool(true),
UpgradePolicy: &gkeonprem.VMwareClusterUpgradePolicyArgs{
ControlPlaneOnly: pulumi.Bool(true),
},
Authorization: &gkeonprem.VMwareClusterAuthorizationArgs{
AdminUsers: gkeonprem.VMwareClusterAuthorizationAdminUserArray{
&gkeonprem.VMwareClusterAuthorizationAdminUserArgs{
Username: pulumi.String("testuser@gmail.com"),
},
},
},
AntiAffinityGroups: &gkeonprem.VMwareClusterAntiAffinityGroupsArgs{
AagConfigDisabled: pulumi.Bool(true),
},
AutoRepairConfig: &gkeonprem.VMwareClusterAutoRepairConfigArgs{
Enabled: pulumi.Bool(true),
},
})
if err != nil {
return err
}
return nil
})
}
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Gcp = Pulumi.Gcp;
return await Deployment.RunAsync(() =>
{
var cluster_manuallb = new Gcp.GkeOnPrem.VMwareCluster("cluster-manuallb", new()
{
Name = "cluster-manuallb",
Location = "us-west1",
AdminClusterMembership = "projects/870316890899/locations/global/memberships/gkeonprem-terraform-test",
Description = "test cluster",
OnPremVersion = "1.13.1-gke.35",
Annotations = null,
NetworkConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigArgs
{
ServiceAddressCidrBlocks = new[]
{
"10.96.0.0/12",
},
PodAddressCidrBlocks = new[]
{
"192.168.0.0/16",
},
HostConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigHostConfigArgs
{
DnsServers = new[]
{
"10.254.41.1",
},
NtpServers = new[]
{
"216.239.35.8",
},
DnsSearchDomains = new[]
{
"test-domain",
},
},
StaticIpConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigStaticIpConfigArgs
{
IpBlocks = new[]
{
new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigStaticIpConfigIpBlockArgs
{
Netmask = "255.255.252.0",
Gateway = "10.251.31.254",
Ips = new[]
{
new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs
{
Ip = "10.251.30.153",
Hostname = "test-hostname1",
},
new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs
{
Ip = "10.251.31.206",
Hostname = "test-hostname2",
},
new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs
{
Ip = "10.251.31.193",
Hostname = "test-hostname3",
},
new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs
{
Ip = "10.251.30.230",
Hostname = "test-hostname4",
},
},
},
},
},
},
ControlPlaneNode = new Gcp.GkeOnPrem.Inputs.VMwareClusterControlPlaneNodeArgs
{
Cpus = 4,
Memory = 8192,
Replicas = 1,
AutoResizeConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterControlPlaneNodeAutoResizeConfigArgs
{
Enabled = true,
},
},
LoadBalancer = new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerArgs
{
VipConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerVipConfigArgs
{
ControlPlaneVip = "10.251.133.5",
IngressVip = "10.251.135.19",
},
ManualLbConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerManualLbConfigArgs
{
IngressHttpNodePort = 30005,
IngressHttpsNodePort = 30006,
ControlPlaneNodePort = 30007,
KonnectivityServerNodePort = 30008,
},
},
Vcenter = new Gcp.GkeOnPrem.Inputs.VMwareClusterVcenterArgs
{
ResourcePool = "test-resource-pool",
Datastore = "test-datastore",
Datacenter = "test-datacenter",
Cluster = "test-cluster",
Folder = "test-folder",
CaCertData = "test-ca-cert-data",
StoragePolicyName = "test-storage-policy-name",
},
DataplaneV2 = new Gcp.GkeOnPrem.Inputs.VMwareClusterDataplaneV2Args
{
DataplaneV2Enabled = true,
WindowsDataplaneV2Enabled = true,
AdvancedNetworking = true,
},
VmTrackingEnabled = true,
EnableControlPlaneV2 = true,
UpgradePolicy = new Gcp.GkeOnPrem.Inputs.VMwareClusterUpgradePolicyArgs
{
ControlPlaneOnly = true,
},
Authorization = new Gcp.GkeOnPrem.Inputs.VMwareClusterAuthorizationArgs
{
AdminUsers = new[]
{
new Gcp.GkeOnPrem.Inputs.VMwareClusterAuthorizationAdminUserArgs
{
Username = "testuser@gmail.com",
},
},
},
AntiAffinityGroups = new Gcp.GkeOnPrem.Inputs.VMwareClusterAntiAffinityGroupsArgs
{
AagConfigDisabled = true,
},
AutoRepairConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterAutoRepairConfigArgs
{
Enabled = true,
},
});
});
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.gcp.gkeonprem.VMwareCluster;
import com.pulumi.gcp.gkeonprem.VMwareClusterArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterNetworkConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterNetworkConfigHostConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterNetworkConfigStaticIpConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterControlPlaneNodeArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterControlPlaneNodeAutoResizeConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterLoadBalancerArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterLoadBalancerVipConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterLoadBalancerManualLbConfigArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterVcenterArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterDataplaneV2Args;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterUpgradePolicyArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterAuthorizationArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterAntiAffinityGroupsArgs;
import com.pulumi.gcp.gkeonprem.inputs.VMwareClusterAutoRepairConfigArgs;
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 cluster_manuallb = new VMwareCluster("cluster-manuallb", VMwareClusterArgs.builder()
.name("cluster-manuallb")
.location("us-west1")
.adminClusterMembership("projects/870316890899/locations/global/memberships/gkeonprem-terraform-test")
.description("test cluster")
.onPremVersion("1.13.1-gke.35")
.annotations()
.networkConfig(VMwareClusterNetworkConfigArgs.builder()
.serviceAddressCidrBlocks("10.96.0.0/12")
.podAddressCidrBlocks("192.168.0.0/16")
.hostConfig(VMwareClusterNetworkConfigHostConfigArgs.builder()
.dnsServers("10.254.41.1")
.ntpServers("216.239.35.8")
.dnsSearchDomains("test-domain")
.build())
.staticIpConfig(VMwareClusterNetworkConfigStaticIpConfigArgs.builder()
.ipBlocks(VMwareClusterNetworkConfigStaticIpConfigIpBlockArgs.builder()
.netmask("255.255.252.0")
.gateway("10.251.31.254")
.ips(
VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs.builder()
.ip("10.251.30.153")
.hostname("test-hostname1")
.build(),
VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs.builder()
.ip("10.251.31.206")
.hostname("test-hostname2")
.build(),
VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs.builder()
.ip("10.251.31.193")
.hostname("test-hostname3")
.build(),
VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs.builder()
.ip("10.251.30.230")
.hostname("test-hostname4")
.build())
.build())
.build())
.build())
.controlPlaneNode(VMwareClusterControlPlaneNodeArgs.builder()
.cpus(4)
.memory(8192)
.replicas(1)
.autoResizeConfig(VMwareClusterControlPlaneNodeAutoResizeConfigArgs.builder()
.enabled(true)
.build())
.build())
.loadBalancer(VMwareClusterLoadBalancerArgs.builder()
.vipConfig(VMwareClusterLoadBalancerVipConfigArgs.builder()
.controlPlaneVip("10.251.133.5")
.ingressVip("10.251.135.19")
.build())
.manualLbConfig(VMwareClusterLoadBalancerManualLbConfigArgs.builder()
.ingressHttpNodePort(30005)
.ingressHttpsNodePort(30006)
.controlPlaneNodePort(30007)
.konnectivityServerNodePort(30008)
.build())
.build())
.vcenter(VMwareClusterVcenterArgs.builder()
.resourcePool("test-resource-pool")
.datastore("test-datastore")
.datacenter("test-datacenter")
.cluster("test-cluster")
.folder("test-folder")
.caCertData("test-ca-cert-data")
.storagePolicyName("test-storage-policy-name")
.build())
.dataplaneV2(VMwareClusterDataplaneV2Args.builder()
.dataplaneV2Enabled(true)
.windowsDataplaneV2Enabled(true)
.advancedNetworking(true)
.build())
.vmTrackingEnabled(true)
.enableControlPlaneV2(true)
.upgradePolicy(VMwareClusterUpgradePolicyArgs.builder()
.controlPlaneOnly(true)
.build())
.authorization(VMwareClusterAuthorizationArgs.builder()
.adminUsers(VMwareClusterAuthorizationAdminUserArgs.builder()
.username("testuser@gmail.com")
.build())
.build())
.antiAffinityGroups(VMwareClusterAntiAffinityGroupsArgs.builder()
.aagConfigDisabled(true)
.build())
.autoRepairConfig(VMwareClusterAutoRepairConfigArgs.builder()
.enabled(true)
.build())
.build());
}
}
resources:
cluster-manuallb:
type: gcp:gkeonprem:VMwareCluster
properties:
name: cluster-manuallb
location: us-west1
adminClusterMembership: projects/870316890899/locations/global/memberships/gkeonprem-terraform-test
description: test cluster
onPremVersion: 1.13.1-gke.35
annotations: {}
networkConfig:
serviceAddressCidrBlocks:
- 10.96.0.0/12
podAddressCidrBlocks:
- 192.168.0.0/16
hostConfig:
dnsServers:
- 10.254.41.1
ntpServers:
- 216.239.35.8
dnsSearchDomains:
- test-domain
staticIpConfig:
ipBlocks:
- netmask: 255.255.252.0
gateway: 10.251.31.254
ips:
- ip: 10.251.30.153
hostname: test-hostname1
- ip: 10.251.31.206
hostname: test-hostname2
- ip: 10.251.31.193
hostname: test-hostname3
- ip: 10.251.30.230
hostname: test-hostname4
controlPlaneNode:
cpus: 4
memory: 8192
replicas: 1
autoResizeConfig:
enabled: true
loadBalancer:
vipConfig:
controlPlaneVip: 10.251.133.5
ingressVip: 10.251.135.19
manualLbConfig:
ingressHttpNodePort: 30005
ingressHttpsNodePort: 30006
controlPlaneNodePort: 30007
konnectivityServerNodePort: 30008
vcenter:
resourcePool: test-resource-pool
datastore: test-datastore
datacenter: test-datacenter
cluster: test-cluster
folder: test-folder
caCertData: test-ca-cert-data
storagePolicyName: test-storage-policy-name
dataplaneV2:
dataplaneV2Enabled: true
windowsDataplaneV2Enabled: true
advancedNetworking: true
vmTrackingEnabled: true
enableControlPlaneV2: true
upgradePolicy:
controlPlaneOnly: true
authorization:
adminUsers:
- username: testuser@gmail.com
antiAffinityGroups:
aagConfigDisabled: true
autoRepairConfig:
enabled: true
Create VMwareCluster Resource
Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.
Constructor syntax
new VMwareCluster(name: string, args: VMwareClusterArgs, opts?: CustomResourceOptions);
@overload
def VMwareCluster(resource_name: str,
args: VMwareClusterArgs,
opts: Optional[ResourceOptions] = None)
@overload
def VMwareCluster(resource_name: str,
opts: Optional[ResourceOptions] = None,
control_plane_node: Optional[VMwareClusterControlPlaneNodeArgs] = None,
on_prem_version: Optional[str] = None,
location: Optional[str] = None,
admin_cluster_membership: Optional[str] = None,
load_balancer: Optional[VMwareClusterLoadBalancerArgs] = None,
anti_affinity_groups: Optional[VMwareClusterAntiAffinityGroupsArgs] = None,
dataplane_v2: Optional[VMwareClusterDataplaneV2Args] = None,
description: Optional[str] = None,
disable_bundled_ingress: Optional[bool] = None,
enable_control_plane_v2: Optional[bool] = None,
authorization: Optional[VMwareClusterAuthorizationArgs] = None,
auto_repair_config: Optional[VMwareClusterAutoRepairConfigArgs] = None,
name: Optional[str] = None,
network_config: Optional[VMwareClusterNetworkConfigArgs] = None,
annotations: Optional[Mapping[str, str]] = None,
project: Optional[str] = None,
storage: Optional[VMwareClusterStorageArgs] = None,
upgrade_policy: Optional[VMwareClusterUpgradePolicyArgs] = None,
vcenter: Optional[VMwareClusterVcenterArgs] = None,
vm_tracking_enabled: Optional[bool] = None)
func NewVMwareCluster(ctx *Context, name string, args VMwareClusterArgs, opts ...ResourceOption) (*VMwareCluster, error)
public VMwareCluster(string name, VMwareClusterArgs args, CustomResourceOptions? opts = null)
public VMwareCluster(String name, VMwareClusterArgs args)
public VMwareCluster(String name, VMwareClusterArgs args, CustomResourceOptions options)
type: gcp:gkeonprem:VMwareCluster
properties: # The arguments to resource properties.
options: # Bag of options to control resource's behavior.
Parameters
- name string
- The unique name of the resource.
- args VMwareClusterArgs
- The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- resource_name str
- The unique name of the resource.
- args VMwareClusterArgs
- The arguments to resource properties.
- opts ResourceOptions
- Bag of options to control resource's behavior.
- ctx Context
- Context object for the current deployment.
- name string
- The unique name of the resource.
- args VMwareClusterArgs
- The arguments to resource properties.
- opts ResourceOption
- Bag of options to control resource's behavior.
- name string
- The unique name of the resource.
- args VMwareClusterArgs
- The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- name String
- The unique name of the resource.
- args VMwareClusterArgs
- The arguments to resource properties.
- options CustomResourceOptions
- Bag of options to control resource's behavior.
Constructor example
The following reference example uses placeholder values for all input properties.
var vmwareClusterResource = new Gcp.GkeOnPrem.VMwareCluster("vmwareClusterResource", new()
{
ControlPlaneNode = new Gcp.GkeOnPrem.Inputs.VMwareClusterControlPlaneNodeArgs
{
AutoResizeConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterControlPlaneNodeAutoResizeConfigArgs
{
Enabled = false,
},
Cpus = 0,
Memory = 0,
Replicas = 0,
VsphereConfigs = new[]
{
new Gcp.GkeOnPrem.Inputs.VMwareClusterControlPlaneNodeVsphereConfigArgs
{
Datastore = "string",
StoragePolicyName = "string",
},
},
},
OnPremVersion = "string",
Location = "string",
AdminClusterMembership = "string",
LoadBalancer = new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerArgs
{
F5Config = new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerF5ConfigArgs
{
Address = "string",
Partition = "string",
SnatPool = "string",
},
ManualLbConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerManualLbConfigArgs
{
ControlPlaneNodePort = 0,
IngressHttpNodePort = 0,
IngressHttpsNodePort = 0,
KonnectivityServerNodePort = 0,
},
MetalLbConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerMetalLbConfigArgs
{
AddressPools = new[]
{
new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerMetalLbConfigAddressPoolArgs
{
Addresses = new[]
{
"string",
},
Pool = "string",
AvoidBuggyIps = false,
ManualAssign = false,
},
},
},
VipConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterLoadBalancerVipConfigArgs
{
ControlPlaneVip = "string",
IngressVip = "string",
},
},
AntiAffinityGroups = new Gcp.GkeOnPrem.Inputs.VMwareClusterAntiAffinityGroupsArgs
{
AagConfigDisabled = false,
},
DataplaneV2 = new Gcp.GkeOnPrem.Inputs.VMwareClusterDataplaneV2Args
{
AdvancedNetworking = false,
DataplaneV2Enabled = false,
WindowsDataplaneV2Enabled = false,
},
Description = "string",
DisableBundledIngress = false,
EnableControlPlaneV2 = false,
Authorization = new Gcp.GkeOnPrem.Inputs.VMwareClusterAuthorizationArgs
{
AdminUsers = new[]
{
new Gcp.GkeOnPrem.Inputs.VMwareClusterAuthorizationAdminUserArgs
{
Username = "string",
},
},
},
AutoRepairConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterAutoRepairConfigArgs
{
Enabled = false,
},
Name = "string",
NetworkConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigArgs
{
PodAddressCidrBlocks = new[]
{
"string",
},
ServiceAddressCidrBlocks = new[]
{
"string",
},
ControlPlaneV2Config = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigControlPlaneV2ConfigArgs
{
ControlPlaneIpBlock = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockArgs
{
Gateway = "string",
Ips = new[]
{
new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockIpArgs
{
Hostname = "string",
Ip = "string",
},
},
Netmask = "string",
},
},
DhcpIpConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigDhcpIpConfigArgs
{
Enabled = false,
},
HostConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigHostConfigArgs
{
DnsSearchDomains = new[]
{
"string",
},
DnsServers = new[]
{
"string",
},
NtpServers = new[]
{
"string",
},
},
StaticIpConfig = new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigStaticIpConfigArgs
{
IpBlocks = new[]
{
new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigStaticIpConfigIpBlockArgs
{
Gateway = "string",
Ips = new[]
{
new Gcp.GkeOnPrem.Inputs.VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs
{
Ip = "string",
Hostname = "string",
},
},
Netmask = "string",
},
},
},
VcenterNetwork = "string",
},
Annotations =
{
{ "string", "string" },
},
Project = "string",
Storage = new Gcp.GkeOnPrem.Inputs.VMwareClusterStorageArgs
{
VsphereCsiDisabled = false,
},
UpgradePolicy = new Gcp.GkeOnPrem.Inputs.VMwareClusterUpgradePolicyArgs
{
ControlPlaneOnly = false,
},
Vcenter = new Gcp.GkeOnPrem.Inputs.VMwareClusterVcenterArgs
{
Address = "string",
CaCertData = "string",
Cluster = "string",
Datacenter = "string",
Datastore = "string",
Folder = "string",
ResourcePool = "string",
StoragePolicyName = "string",
},
VmTrackingEnabled = false,
});
example, err := gkeonprem.NewVMwareCluster(ctx, "vmwareClusterResource", &gkeonprem.VMwareClusterArgs{
ControlPlaneNode: &gkeonprem.VMwareClusterControlPlaneNodeArgs{
AutoResizeConfig: &gkeonprem.VMwareClusterControlPlaneNodeAutoResizeConfigArgs{
Enabled: pulumi.Bool(false),
},
Cpus: pulumi.Int(0),
Memory: pulumi.Int(0),
Replicas: pulumi.Int(0),
VsphereConfigs: gkeonprem.VMwareClusterControlPlaneNodeVsphereConfigArray{
&gkeonprem.VMwareClusterControlPlaneNodeVsphereConfigArgs{
Datastore: pulumi.String("string"),
StoragePolicyName: pulumi.String("string"),
},
},
},
OnPremVersion: pulumi.String("string"),
Location: pulumi.String("string"),
AdminClusterMembership: pulumi.String("string"),
LoadBalancer: &gkeonprem.VMwareClusterLoadBalancerArgs{
F5Config: &gkeonprem.VMwareClusterLoadBalancerF5ConfigArgs{
Address: pulumi.String("string"),
Partition: pulumi.String("string"),
SnatPool: pulumi.String("string"),
},
ManualLbConfig: &gkeonprem.VMwareClusterLoadBalancerManualLbConfigArgs{
ControlPlaneNodePort: pulumi.Int(0),
IngressHttpNodePort: pulumi.Int(0),
IngressHttpsNodePort: pulumi.Int(0),
KonnectivityServerNodePort: pulumi.Int(0),
},
MetalLbConfig: &gkeonprem.VMwareClusterLoadBalancerMetalLbConfigArgs{
AddressPools: gkeonprem.VMwareClusterLoadBalancerMetalLbConfigAddressPoolArray{
&gkeonprem.VMwareClusterLoadBalancerMetalLbConfigAddressPoolArgs{
Addresses: pulumi.StringArray{
pulumi.String("string"),
},
Pool: pulumi.String("string"),
AvoidBuggyIps: pulumi.Bool(false),
ManualAssign: pulumi.Bool(false),
},
},
},
VipConfig: &gkeonprem.VMwareClusterLoadBalancerVipConfigArgs{
ControlPlaneVip: pulumi.String("string"),
IngressVip: pulumi.String("string"),
},
},
AntiAffinityGroups: &gkeonprem.VMwareClusterAntiAffinityGroupsArgs{
AagConfigDisabled: pulumi.Bool(false),
},
DataplaneV2: &gkeonprem.VMwareClusterDataplaneV2Args{
AdvancedNetworking: pulumi.Bool(false),
DataplaneV2Enabled: pulumi.Bool(false),
WindowsDataplaneV2Enabled: pulumi.Bool(false),
},
Description: pulumi.String("string"),
DisableBundledIngress: pulumi.Bool(false),
EnableControlPlaneV2: pulumi.Bool(false),
Authorization: &gkeonprem.VMwareClusterAuthorizationArgs{
AdminUsers: gkeonprem.VMwareClusterAuthorizationAdminUserArray{
&gkeonprem.VMwareClusterAuthorizationAdminUserArgs{
Username: pulumi.String("string"),
},
},
},
AutoRepairConfig: &gkeonprem.VMwareClusterAutoRepairConfigArgs{
Enabled: pulumi.Bool(false),
},
Name: pulumi.String("string"),
NetworkConfig: &gkeonprem.VMwareClusterNetworkConfigArgs{
PodAddressCidrBlocks: pulumi.StringArray{
pulumi.String("string"),
},
ServiceAddressCidrBlocks: pulumi.StringArray{
pulumi.String("string"),
},
ControlPlaneV2Config: &gkeonprem.VMwareClusterNetworkConfigControlPlaneV2ConfigArgs{
ControlPlaneIpBlock: &gkeonprem.VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockArgs{
Gateway: pulumi.String("string"),
Ips: gkeonprem.VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockIpArray{
&gkeonprem.VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockIpArgs{
Hostname: pulumi.String("string"),
Ip: pulumi.String("string"),
},
},
Netmask: pulumi.String("string"),
},
},
DhcpIpConfig: &gkeonprem.VMwareClusterNetworkConfigDhcpIpConfigArgs{
Enabled: pulumi.Bool(false),
},
HostConfig: &gkeonprem.VMwareClusterNetworkConfigHostConfigArgs{
DnsSearchDomains: pulumi.StringArray{
pulumi.String("string"),
},
DnsServers: pulumi.StringArray{
pulumi.String("string"),
},
NtpServers: pulumi.StringArray{
pulumi.String("string"),
},
},
StaticIpConfig: &gkeonprem.VMwareClusterNetworkConfigStaticIpConfigArgs{
IpBlocks: gkeonprem.VMwareClusterNetworkConfigStaticIpConfigIpBlockArray{
&gkeonprem.VMwareClusterNetworkConfigStaticIpConfigIpBlockArgs{
Gateway: pulumi.String("string"),
Ips: gkeonprem.VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArray{
&gkeonprem.VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs{
Ip: pulumi.String("string"),
Hostname: pulumi.String("string"),
},
},
Netmask: pulumi.String("string"),
},
},
},
VcenterNetwork: pulumi.String("string"),
},
Annotations: pulumi.StringMap{
"string": pulumi.String("string"),
},
Project: pulumi.String("string"),
Storage: &gkeonprem.VMwareClusterStorageArgs{
VsphereCsiDisabled: pulumi.Bool(false),
},
UpgradePolicy: &gkeonprem.VMwareClusterUpgradePolicyArgs{
ControlPlaneOnly: pulumi.Bool(false),
},
Vcenter: &gkeonprem.VMwareClusterVcenterArgs{
Address: pulumi.String("string"),
CaCertData: pulumi.String("string"),
Cluster: pulumi.String("string"),
Datacenter: pulumi.String("string"),
Datastore: pulumi.String("string"),
Folder: pulumi.String("string"),
ResourcePool: pulumi.String("string"),
StoragePolicyName: pulumi.String("string"),
},
VmTrackingEnabled: pulumi.Bool(false),
})
var vmwareClusterResource = new VMwareCluster("vmwareClusterResource", VMwareClusterArgs.builder()
.controlPlaneNode(VMwareClusterControlPlaneNodeArgs.builder()
.autoResizeConfig(VMwareClusterControlPlaneNodeAutoResizeConfigArgs.builder()
.enabled(false)
.build())
.cpus(0)
.memory(0)
.replicas(0)
.vsphereConfigs(VMwareClusterControlPlaneNodeVsphereConfigArgs.builder()
.datastore("string")
.storagePolicyName("string")
.build())
.build())
.onPremVersion("string")
.location("string")
.adminClusterMembership("string")
.loadBalancer(VMwareClusterLoadBalancerArgs.builder()
.f5Config(VMwareClusterLoadBalancerF5ConfigArgs.builder()
.address("string")
.partition("string")
.snatPool("string")
.build())
.manualLbConfig(VMwareClusterLoadBalancerManualLbConfigArgs.builder()
.controlPlaneNodePort(0)
.ingressHttpNodePort(0)
.ingressHttpsNodePort(0)
.konnectivityServerNodePort(0)
.build())
.metalLbConfig(VMwareClusterLoadBalancerMetalLbConfigArgs.builder()
.addressPools(VMwareClusterLoadBalancerMetalLbConfigAddressPoolArgs.builder()
.addresses("string")
.pool("string")
.avoidBuggyIps(false)
.manualAssign(false)
.build())
.build())
.vipConfig(VMwareClusterLoadBalancerVipConfigArgs.builder()
.controlPlaneVip("string")
.ingressVip("string")
.build())
.build())
.antiAffinityGroups(VMwareClusterAntiAffinityGroupsArgs.builder()
.aagConfigDisabled(false)
.build())
.dataplaneV2(VMwareClusterDataplaneV2Args.builder()
.advancedNetworking(false)
.dataplaneV2Enabled(false)
.windowsDataplaneV2Enabled(false)
.build())
.description("string")
.disableBundledIngress(false)
.enableControlPlaneV2(false)
.authorization(VMwareClusterAuthorizationArgs.builder()
.adminUsers(VMwareClusterAuthorizationAdminUserArgs.builder()
.username("string")
.build())
.build())
.autoRepairConfig(VMwareClusterAutoRepairConfigArgs.builder()
.enabled(false)
.build())
.name("string")
.networkConfig(VMwareClusterNetworkConfigArgs.builder()
.podAddressCidrBlocks("string")
.serviceAddressCidrBlocks("string")
.controlPlaneV2Config(VMwareClusterNetworkConfigControlPlaneV2ConfigArgs.builder()
.controlPlaneIpBlock(VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockArgs.builder()
.gateway("string")
.ips(VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockIpArgs.builder()
.hostname("string")
.ip("string")
.build())
.netmask("string")
.build())
.build())
.dhcpIpConfig(VMwareClusterNetworkConfigDhcpIpConfigArgs.builder()
.enabled(false)
.build())
.hostConfig(VMwareClusterNetworkConfigHostConfigArgs.builder()
.dnsSearchDomains("string")
.dnsServers("string")
.ntpServers("string")
.build())
.staticIpConfig(VMwareClusterNetworkConfigStaticIpConfigArgs.builder()
.ipBlocks(VMwareClusterNetworkConfigStaticIpConfigIpBlockArgs.builder()
.gateway("string")
.ips(VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs.builder()
.ip("string")
.hostname("string")
.build())
.netmask("string")
.build())
.build())
.vcenterNetwork("string")
.build())
.annotations(Map.of("string", "string"))
.project("string")
.storage(VMwareClusterStorageArgs.builder()
.vsphereCsiDisabled(false)
.build())
.upgradePolicy(VMwareClusterUpgradePolicyArgs.builder()
.controlPlaneOnly(false)
.build())
.vcenter(VMwareClusterVcenterArgs.builder()
.address("string")
.caCertData("string")
.cluster("string")
.datacenter("string")
.datastore("string")
.folder("string")
.resourcePool("string")
.storagePolicyName("string")
.build())
.vmTrackingEnabled(false)
.build());
vmware_cluster_resource = gcp.gkeonprem.VMwareCluster("vmwareClusterResource",
control_plane_node={
"auto_resize_config": {
"enabled": False,
},
"cpus": 0,
"memory": 0,
"replicas": 0,
"vsphere_configs": [{
"datastore": "string",
"storage_policy_name": "string",
}],
},
on_prem_version="string",
location="string",
admin_cluster_membership="string",
load_balancer={
"f5_config": {
"address": "string",
"partition": "string",
"snat_pool": "string",
},
"manual_lb_config": {
"control_plane_node_port": 0,
"ingress_http_node_port": 0,
"ingress_https_node_port": 0,
"konnectivity_server_node_port": 0,
},
"metal_lb_config": {
"address_pools": [{
"addresses": ["string"],
"pool": "string",
"avoid_buggy_ips": False,
"manual_assign": False,
}],
},
"vip_config": {
"control_plane_vip": "string",
"ingress_vip": "string",
},
},
anti_affinity_groups={
"aag_config_disabled": False,
},
dataplane_v2={
"advanced_networking": False,
"dataplane_v2_enabled": False,
"windows_dataplane_v2_enabled": False,
},
description="string",
disable_bundled_ingress=False,
enable_control_plane_v2=False,
authorization={
"admin_users": [{
"username": "string",
}],
},
auto_repair_config={
"enabled": False,
},
name="string",
network_config={
"pod_address_cidr_blocks": ["string"],
"service_address_cidr_blocks": ["string"],
"control_plane_v2_config": {
"control_plane_ip_block": {
"gateway": "string",
"ips": [{
"hostname": "string",
"ip": "string",
}],
"netmask": "string",
},
},
"dhcp_ip_config": {
"enabled": False,
},
"host_config": {
"dns_search_domains": ["string"],
"dns_servers": ["string"],
"ntp_servers": ["string"],
},
"static_ip_config": {
"ip_blocks": [{
"gateway": "string",
"ips": [{
"ip": "string",
"hostname": "string",
}],
"netmask": "string",
}],
},
"vcenter_network": "string",
},
annotations={
"string": "string",
},
project="string",
storage={
"vsphere_csi_disabled": False,
},
upgrade_policy={
"control_plane_only": False,
},
vcenter={
"address": "string",
"ca_cert_data": "string",
"cluster": "string",
"datacenter": "string",
"datastore": "string",
"folder": "string",
"resource_pool": "string",
"storage_policy_name": "string",
},
vm_tracking_enabled=False)
const vmwareClusterResource = new gcp.gkeonprem.VMwareCluster("vmwareClusterResource", {
controlPlaneNode: {
autoResizeConfig: {
enabled: false,
},
cpus: 0,
memory: 0,
replicas: 0,
vsphereConfigs: [{
datastore: "string",
storagePolicyName: "string",
}],
},
onPremVersion: "string",
location: "string",
adminClusterMembership: "string",
loadBalancer: {
f5Config: {
address: "string",
partition: "string",
snatPool: "string",
},
manualLbConfig: {
controlPlaneNodePort: 0,
ingressHttpNodePort: 0,
ingressHttpsNodePort: 0,
konnectivityServerNodePort: 0,
},
metalLbConfig: {
addressPools: [{
addresses: ["string"],
pool: "string",
avoidBuggyIps: false,
manualAssign: false,
}],
},
vipConfig: {
controlPlaneVip: "string",
ingressVip: "string",
},
},
antiAffinityGroups: {
aagConfigDisabled: false,
},
dataplaneV2: {
advancedNetworking: false,
dataplaneV2Enabled: false,
windowsDataplaneV2Enabled: false,
},
description: "string",
disableBundledIngress: false,
enableControlPlaneV2: false,
authorization: {
adminUsers: [{
username: "string",
}],
},
autoRepairConfig: {
enabled: false,
},
name: "string",
networkConfig: {
podAddressCidrBlocks: ["string"],
serviceAddressCidrBlocks: ["string"],
controlPlaneV2Config: {
controlPlaneIpBlock: {
gateway: "string",
ips: [{
hostname: "string",
ip: "string",
}],
netmask: "string",
},
},
dhcpIpConfig: {
enabled: false,
},
hostConfig: {
dnsSearchDomains: ["string"],
dnsServers: ["string"],
ntpServers: ["string"],
},
staticIpConfig: {
ipBlocks: [{
gateway: "string",
ips: [{
ip: "string",
hostname: "string",
}],
netmask: "string",
}],
},
vcenterNetwork: "string",
},
annotations: {
string: "string",
},
project: "string",
storage: {
vsphereCsiDisabled: false,
},
upgradePolicy: {
controlPlaneOnly: false,
},
vcenter: {
address: "string",
caCertData: "string",
cluster: "string",
datacenter: "string",
datastore: "string",
folder: "string",
resourcePool: "string",
storagePolicyName: "string",
},
vmTrackingEnabled: false,
});
type: gcp:gkeonprem:VMwareCluster
properties:
adminClusterMembership: string
annotations:
string: string
antiAffinityGroups:
aagConfigDisabled: false
authorization:
adminUsers:
- username: string
autoRepairConfig:
enabled: false
controlPlaneNode:
autoResizeConfig:
enabled: false
cpus: 0
memory: 0
replicas: 0
vsphereConfigs:
- datastore: string
storagePolicyName: string
dataplaneV2:
advancedNetworking: false
dataplaneV2Enabled: false
windowsDataplaneV2Enabled: false
description: string
disableBundledIngress: false
enableControlPlaneV2: false
loadBalancer:
f5Config:
address: string
partition: string
snatPool: string
manualLbConfig:
controlPlaneNodePort: 0
ingressHttpNodePort: 0
ingressHttpsNodePort: 0
konnectivityServerNodePort: 0
metalLbConfig:
addressPools:
- addresses:
- string
avoidBuggyIps: false
manualAssign: false
pool: string
vipConfig:
controlPlaneVip: string
ingressVip: string
location: string
name: string
networkConfig:
controlPlaneV2Config:
controlPlaneIpBlock:
gateway: string
ips:
- hostname: string
ip: string
netmask: string
dhcpIpConfig:
enabled: false
hostConfig:
dnsSearchDomains:
- string
dnsServers:
- string
ntpServers:
- string
podAddressCidrBlocks:
- string
serviceAddressCidrBlocks:
- string
staticIpConfig:
ipBlocks:
- gateway: string
ips:
- hostname: string
ip: string
netmask: string
vcenterNetwork: string
onPremVersion: string
project: string
storage:
vsphereCsiDisabled: false
upgradePolicy:
controlPlaneOnly: false
vcenter:
address: string
caCertData: string
cluster: string
datacenter: string
datastore: string
folder: string
resourcePool: string
storagePolicyName: string
vmTrackingEnabled: false
VMwareCluster Resource Properties
To learn more about resource properties and how to use them, see Inputs and Outputs in the Architecture and Concepts docs.
Inputs
In Python, inputs that are objects can be passed either as argument classes or as dictionary literals.
The VMwareCluster resource accepts the following input properties:
- Admin
Cluster stringMembership - The admin cluster this VMware User Cluster belongs to. This is the full resource name of the admin cluster's hub membership. In the future, references to other resource types might be allowed if admin clusters are modeled as their own resources.
- Control
Plane VMwareNode Cluster Control Plane Node - VMware User Cluster control plane nodes must have either 1 or 3 replicas. Structure is documented below.
- Location string
- The location of the resource.
- On
Prem stringVersion - The Anthos clusters on the VMware version for your user cluster.
- Annotations Dictionary<string, string>
- Annotations on the VMware User Cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between. Note: This field is non-authoritative, and will only manage the annotations present in your configuration. Please refer to the field 'effective_annotations' for all of the annotations present on the resource.
- Anti
Affinity VMwareGroups Cluster Anti Affinity Groups - AAGConfig specifies whether to spread VMware User Cluster nodes across at least three physical hosts in the datacenter.
- VMware
Cluster Authorization - RBAC policy that will be applied and managed by GKE On-Prem.
- Auto
Repair VMwareConfig Cluster Auto Repair Config - Configuration for auto repairing.
- Dataplane
V2 VMwareCluster Dataplane V2 - VmwareDataplaneV2Config specifies configuration for Dataplane V2.
- Description string
- (Output) The description of the validation check.
- Disable
Bundled boolIngress - Disable bundled ingress.
- Enable
Control boolPlane V2 - Enable control plane V2. Default to false.
- Load
Balancer VMwareCluster Load Balancer - Load Balancer configuration.
- Name string
- The VMware cluster name.
- Network
Config VMwareCluster Network Config - The VMware User Cluster network configuration.
- Project string
- Storage
VMware
Cluster Storage - Storage configuration.
- Upgrade
Policy VMwareCluster Upgrade Policy - Specifies upgrade policy for the cluster.
- Vcenter
VMware
Cluster Vcenter - VmwareVCenterConfig specifies vCenter config for the user cluster. Inherited from the admin cluster.
- Vm
Tracking boolEnabled - Enable VM tracking.
- Admin
Cluster stringMembership - The admin cluster this VMware User Cluster belongs to. This is the full resource name of the admin cluster's hub membership. In the future, references to other resource types might be allowed if admin clusters are modeled as their own resources.
- Control
Plane VMwareNode Cluster Control Plane Node Args - VMware User Cluster control plane nodes must have either 1 or 3 replicas. Structure is documented below.
- Location string
- The location of the resource.
- On
Prem stringVersion - The Anthos clusters on the VMware version for your user cluster.
- Annotations map[string]string
- Annotations on the VMware User Cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between. Note: This field is non-authoritative, and will only manage the annotations present in your configuration. Please refer to the field 'effective_annotations' for all of the annotations present on the resource.
- Anti
Affinity VMwareGroups Cluster Anti Affinity Groups Args - AAGConfig specifies whether to spread VMware User Cluster nodes across at least three physical hosts in the datacenter.
- VMware
Cluster Authorization Args - RBAC policy that will be applied and managed by GKE On-Prem.
- Auto
Repair VMwareConfig Cluster Auto Repair Config Args - Configuration for auto repairing.
- Dataplane
V2 VMwareCluster Dataplane V2Args - VmwareDataplaneV2Config specifies configuration for Dataplane V2.
- Description string
- (Output) The description of the validation check.
- Disable
Bundled boolIngress - Disable bundled ingress.
- Enable
Control boolPlane V2 - Enable control plane V2. Default to false.
- Load
Balancer VMwareCluster Load Balancer Args - Load Balancer configuration.
- Name string
- The VMware cluster name.
- Network
Config VMwareCluster Network Config Args - The VMware User Cluster network configuration.
- Project string
- Storage
VMware
Cluster Storage Args - Storage configuration.
- Upgrade
Policy VMwareCluster Upgrade Policy Args - Specifies upgrade policy for the cluster.
- Vcenter
VMware
Cluster Vcenter Args - VmwareVCenterConfig specifies vCenter config for the user cluster. Inherited from the admin cluster.
- Vm
Tracking boolEnabled - Enable VM tracking.
- admin
Cluster StringMembership - The admin cluster this VMware User Cluster belongs to. This is the full resource name of the admin cluster's hub membership. In the future, references to other resource types might be allowed if admin clusters are modeled as their own resources.
- control
Plane VMwareNode Cluster Control Plane Node - VMware User Cluster control plane nodes must have either 1 or 3 replicas. Structure is documented below.
- location String
- The location of the resource.
- on
Prem StringVersion - The Anthos clusters on the VMware version for your user cluster.
- annotations Map<String,String>
- Annotations on the VMware User Cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between. Note: This field is non-authoritative, and will only manage the annotations present in your configuration. Please refer to the field 'effective_annotations' for all of the annotations present on the resource.
- anti
Affinity VMwareGroups Cluster Anti Affinity Groups - AAGConfig specifies whether to spread VMware User Cluster nodes across at least three physical hosts in the datacenter.
- VMware
Cluster Authorization - RBAC policy that will be applied and managed by GKE On-Prem.
- auto
Repair VMwareConfig Cluster Auto Repair Config - Configuration for auto repairing.
- dataplane
V2 VMwareCluster Dataplane V2 - VmwareDataplaneV2Config specifies configuration for Dataplane V2.
- description String
- (Output) The description of the validation check.
- disable
Bundled BooleanIngress - Disable bundled ingress.
- enable
Control BooleanPlane V2 - Enable control plane V2. Default to false.
- load
Balancer VMwareCluster Load Balancer - Load Balancer configuration.
- name String
- The VMware cluster name.
- network
Config VMwareCluster Network Config - The VMware User Cluster network configuration.
- project String
- storage
VMware
Cluster Storage - Storage configuration.
- upgrade
Policy VMwareCluster Upgrade Policy - Specifies upgrade policy for the cluster.
- vcenter
VMware
Cluster Vcenter - VmwareVCenterConfig specifies vCenter config for the user cluster. Inherited from the admin cluster.
- vm
Tracking BooleanEnabled - Enable VM tracking.
- admin
Cluster stringMembership - The admin cluster this VMware User Cluster belongs to. This is the full resource name of the admin cluster's hub membership. In the future, references to other resource types might be allowed if admin clusters are modeled as their own resources.
- control
Plane VMwareNode Cluster Control Plane Node - VMware User Cluster control plane nodes must have either 1 or 3 replicas. Structure is documented below.
- location string
- The location of the resource.
- on
Prem stringVersion - The Anthos clusters on the VMware version for your user cluster.
- annotations {[key: string]: string}
- Annotations on the VMware User Cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between. Note: This field is non-authoritative, and will only manage the annotations present in your configuration. Please refer to the field 'effective_annotations' for all of the annotations present on the resource.
- anti
Affinity VMwareGroups Cluster Anti Affinity Groups - AAGConfig specifies whether to spread VMware User Cluster nodes across at least three physical hosts in the datacenter.
- VMware
Cluster Authorization - RBAC policy that will be applied and managed by GKE On-Prem.
- auto
Repair VMwareConfig Cluster Auto Repair Config - Configuration for auto repairing.
- dataplane
V2 VMwareCluster Dataplane V2 - VmwareDataplaneV2Config specifies configuration for Dataplane V2.
- description string
- (Output) The description of the validation check.
- disable
Bundled booleanIngress - Disable bundled ingress.
- enable
Control booleanPlane V2 - Enable control plane V2. Default to false.
- load
Balancer VMwareCluster Load Balancer - Load Balancer configuration.
- name string
- The VMware cluster name.
- network
Config VMwareCluster Network Config - The VMware User Cluster network configuration.
- project string
- storage
VMware
Cluster Storage - Storage configuration.
- upgrade
Policy VMwareCluster Upgrade Policy - Specifies upgrade policy for the cluster.
- vcenter
VMware
Cluster Vcenter - VmwareVCenterConfig specifies vCenter config for the user cluster. Inherited from the admin cluster.
- vm
Tracking booleanEnabled - Enable VM tracking.
- admin_
cluster_ strmembership - The admin cluster this VMware User Cluster belongs to. This is the full resource name of the admin cluster's hub membership. In the future, references to other resource types might be allowed if admin clusters are modeled as their own resources.
- control_
plane_ VMwarenode Cluster Control Plane Node Args - VMware User Cluster control plane nodes must have either 1 or 3 replicas. Structure is documented below.
- location str
- The location of the resource.
- on_
prem_ strversion - The Anthos clusters on the VMware version for your user cluster.
- annotations Mapping[str, str]
- Annotations on the VMware User Cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between. Note: This field is non-authoritative, and will only manage the annotations present in your configuration. Please refer to the field 'effective_annotations' for all of the annotations present on the resource.
- anti_
affinity_ VMwaregroups Cluster Anti Affinity Groups Args - AAGConfig specifies whether to spread VMware User Cluster nodes across at least three physical hosts in the datacenter.
- VMware
Cluster Authorization Args - RBAC policy that will be applied and managed by GKE On-Prem.
- auto_
repair_ VMwareconfig Cluster Auto Repair Config Args - Configuration for auto repairing.
- dataplane_
v2 VMwareCluster Dataplane V2Args - VmwareDataplaneV2Config specifies configuration for Dataplane V2.
- description str
- (Output) The description of the validation check.
- disable_
bundled_ boolingress - Disable bundled ingress.
- enable_
control_ boolplane_ v2 - Enable control plane V2. Default to false.
- load_
balancer VMwareCluster Load Balancer Args - Load Balancer configuration.
- name str
- The VMware cluster name.
- network_
config VMwareCluster Network Config Args - The VMware User Cluster network configuration.
- project str
- storage
VMware
Cluster Storage Args - Storage configuration.
- upgrade_
policy VMwareCluster Upgrade Policy Args - Specifies upgrade policy for the cluster.
- vcenter
VMware
Cluster Vcenter Args - VmwareVCenterConfig specifies vCenter config for the user cluster. Inherited from the admin cluster.
- vm_
tracking_ boolenabled - Enable VM tracking.
- admin
Cluster StringMembership - The admin cluster this VMware User Cluster belongs to. This is the full resource name of the admin cluster's hub membership. In the future, references to other resource types might be allowed if admin clusters are modeled as their own resources.
- control
Plane Property MapNode - VMware User Cluster control plane nodes must have either 1 or 3 replicas. Structure is documented below.
- location String
- The location of the resource.
- on
Prem StringVersion - The Anthos clusters on the VMware version for your user cluster.
- annotations Map<String>
- Annotations on the VMware User Cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between. Note: This field is non-authoritative, and will only manage the annotations present in your configuration. Please refer to the field 'effective_annotations' for all of the annotations present on the resource.
- anti
Affinity Property MapGroups - AAGConfig specifies whether to spread VMware User Cluster nodes across at least three physical hosts in the datacenter.
- Property Map
- RBAC policy that will be applied and managed by GKE On-Prem.
- auto
Repair Property MapConfig - Configuration for auto repairing.
- dataplane
V2 Property Map - VmwareDataplaneV2Config specifies configuration for Dataplane V2.
- description String
- (Output) The description of the validation check.
- disable
Bundled BooleanIngress - Disable bundled ingress.
- enable
Control BooleanPlane V2 - Enable control plane V2. Default to false.
- load
Balancer Property Map - Load Balancer configuration.
- name String
- The VMware cluster name.
- network
Config Property Map - The VMware User Cluster network configuration.
- project String
- storage Property Map
- Storage configuration.
- upgrade
Policy Property Map - Specifies upgrade policy for the cluster.
- vcenter Property Map
- VmwareVCenterConfig specifies vCenter config for the user cluster. Inherited from the admin cluster.
- vm
Tracking BooleanEnabled - Enable VM tracking.
Outputs
All input properties are implicitly available as output properties. Additionally, the VMwareCluster resource produces the following output properties:
- Create
Time string - The time at which VMware User Cluster was created.
- Delete
Time string - The time at which VMware User Cluster was deleted.
- Effective
Annotations Dictionary<string, string> - Endpoint string
- The DNS name of VMware User Cluster's API server.
- Etag string
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- Fleets
List<VMware
Cluster Fleet> - Fleet configuration for the cluster. Structure is documented below.
- Id string
- The provider-assigned unique ID for this managed resource.
- Local
Name string - The object name of the VMware OnPremUserCluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the ID in the resource name. For new clusters, this field will match the user provided cluster ID and be visible in the last component of the resource name. It is not modifiable. All users should use this name to access their cluster using gkectl or kubectl and should expect to see the local name when viewing admin cluster controller logs.
- Reconciling bool
- If set, there are currently changes in flight to the VMware User Cluster.
- State string
- (Output) The lifecycle state of the condition.
- Statuses
List<VMware
Cluster Status> - (Output) Specifies the detailed validation check status Structure is documented below.
- Uid string
- The unique identifier of the VMware User Cluster.
- Update
Time string - The time at which VMware User Cluster was last updated.
- Validation
Checks List<VMwareCluster Validation Check> - ValidationCheck represents the result of the preflight check job. Structure is documented below.
- Create
Time string - The time at which VMware User Cluster was created.
- Delete
Time string - The time at which VMware User Cluster was deleted.
- Effective
Annotations map[string]string - Endpoint string
- The DNS name of VMware User Cluster's API server.
- Etag string
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- Fleets
[]VMware
Cluster Fleet - Fleet configuration for the cluster. Structure is documented below.
- Id string
- The provider-assigned unique ID for this managed resource.
- Local
Name string - The object name of the VMware OnPremUserCluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the ID in the resource name. For new clusters, this field will match the user provided cluster ID and be visible in the last component of the resource name. It is not modifiable. All users should use this name to access their cluster using gkectl or kubectl and should expect to see the local name when viewing admin cluster controller logs.
- Reconciling bool
- If set, there are currently changes in flight to the VMware User Cluster.
- State string
- (Output) The lifecycle state of the condition.
- Statuses
[]VMware
Cluster Status - (Output) Specifies the detailed validation check status Structure is documented below.
- Uid string
- The unique identifier of the VMware User Cluster.
- Update
Time string - The time at which VMware User Cluster was last updated.
- Validation
Checks []VMwareCluster Validation Check - ValidationCheck represents the result of the preflight check job. Structure is documented below.
- create
Time String - The time at which VMware User Cluster was created.
- delete
Time String - The time at which VMware User Cluster was deleted.
- effective
Annotations Map<String,String> - endpoint String
- The DNS name of VMware User Cluster's API server.
- etag String
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- fleets
List<VMware
Cluster Fleet> - Fleet configuration for the cluster. Structure is documented below.
- id String
- The provider-assigned unique ID for this managed resource.
- local
Name String - The object name of the VMware OnPremUserCluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the ID in the resource name. For new clusters, this field will match the user provided cluster ID and be visible in the last component of the resource name. It is not modifiable. All users should use this name to access their cluster using gkectl or kubectl and should expect to see the local name when viewing admin cluster controller logs.
- reconciling Boolean
- If set, there are currently changes in flight to the VMware User Cluster.
- state String
- (Output) The lifecycle state of the condition.
- statuses
List<VMware
Cluster Status> - (Output) Specifies the detailed validation check status Structure is documented below.
- uid String
- The unique identifier of the VMware User Cluster.
- update
Time String - The time at which VMware User Cluster was last updated.
- validation
Checks List<VMwareCluster Validation Check> - ValidationCheck represents the result of the preflight check job. Structure is documented below.
- create
Time string - The time at which VMware User Cluster was created.
- delete
Time string - The time at which VMware User Cluster was deleted.
- effective
Annotations {[key: string]: string} - endpoint string
- The DNS name of VMware User Cluster's API server.
- etag string
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- fleets
VMware
Cluster Fleet[] - Fleet configuration for the cluster. Structure is documented below.
- id string
- The provider-assigned unique ID for this managed resource.
- local
Name string - The object name of the VMware OnPremUserCluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the ID in the resource name. For new clusters, this field will match the user provided cluster ID and be visible in the last component of the resource name. It is not modifiable. All users should use this name to access their cluster using gkectl or kubectl and should expect to see the local name when viewing admin cluster controller logs.
- reconciling boolean
- If set, there are currently changes in flight to the VMware User Cluster.
- state string
- (Output) The lifecycle state of the condition.
- statuses
VMware
Cluster Status[] - (Output) Specifies the detailed validation check status Structure is documented below.
- uid string
- The unique identifier of the VMware User Cluster.
- update
Time string - The time at which VMware User Cluster was last updated.
- validation
Checks VMwareCluster Validation Check[] - ValidationCheck represents the result of the preflight check job. Structure is documented below.
- create_
time str - The time at which VMware User Cluster was created.
- delete_
time str - The time at which VMware User Cluster was deleted.
- effective_
annotations Mapping[str, str] - endpoint str
- The DNS name of VMware User Cluster's API server.
- etag str
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- fleets
Sequence[VMware
Cluster Fleet] - Fleet configuration for the cluster. Structure is documented below.
- id str
- The provider-assigned unique ID for this managed resource.
- local_
name str - The object name of the VMware OnPremUserCluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the ID in the resource name. For new clusters, this field will match the user provided cluster ID and be visible in the last component of the resource name. It is not modifiable. All users should use this name to access their cluster using gkectl or kubectl and should expect to see the local name when viewing admin cluster controller logs.
- reconciling bool
- If set, there are currently changes in flight to the VMware User Cluster.
- state str
- (Output) The lifecycle state of the condition.
- statuses
Sequence[VMware
Cluster Status] - (Output) Specifies the detailed validation check status Structure is documented below.
- uid str
- The unique identifier of the VMware User Cluster.
- update_
time str - The time at which VMware User Cluster was last updated.
- validation_
checks Sequence[VMwareCluster Validation Check] - ValidationCheck represents the result of the preflight check job. Structure is documented below.
- create
Time String - The time at which VMware User Cluster was created.
- delete
Time String - The time at which VMware User Cluster was deleted.
- effective
Annotations Map<String> - endpoint String
- The DNS name of VMware User Cluster's API server.
- etag String
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- fleets List<Property Map>
- Fleet configuration for the cluster. Structure is documented below.
- id String
- The provider-assigned unique ID for this managed resource.
- local
Name String - The object name of the VMware OnPremUserCluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the ID in the resource name. For new clusters, this field will match the user provided cluster ID and be visible in the last component of the resource name. It is not modifiable. All users should use this name to access their cluster using gkectl or kubectl and should expect to see the local name when viewing admin cluster controller logs.
- reconciling Boolean
- If set, there are currently changes in flight to the VMware User Cluster.
- state String
- (Output) The lifecycle state of the condition.
- statuses List<Property Map>
- (Output) Specifies the detailed validation check status Structure is documented below.
- uid String
- The unique identifier of the VMware User Cluster.
- update
Time String - The time at which VMware User Cluster was last updated.
- validation
Checks List<Property Map> - ValidationCheck represents the result of the preflight check job. Structure is documented below.
Look up Existing VMwareCluster Resource
Get an existing VMwareCluster resource’s state with the given name, ID, and optional extra properties used to qualify the lookup.
public static get(name: string, id: Input<ID>, state?: VMwareClusterState, opts?: CustomResourceOptions): VMwareCluster
@staticmethod
def get(resource_name: str,
id: str,
opts: Optional[ResourceOptions] = None,
admin_cluster_membership: Optional[str] = None,
annotations: Optional[Mapping[str, str]] = None,
anti_affinity_groups: Optional[VMwareClusterAntiAffinityGroupsArgs] = None,
authorization: Optional[VMwareClusterAuthorizationArgs] = None,
auto_repair_config: Optional[VMwareClusterAutoRepairConfigArgs] = None,
control_plane_node: Optional[VMwareClusterControlPlaneNodeArgs] = None,
create_time: Optional[str] = None,
dataplane_v2: Optional[VMwareClusterDataplaneV2Args] = None,
delete_time: Optional[str] = None,
description: Optional[str] = None,
disable_bundled_ingress: Optional[bool] = None,
effective_annotations: Optional[Mapping[str, str]] = None,
enable_control_plane_v2: Optional[bool] = None,
endpoint: Optional[str] = None,
etag: Optional[str] = None,
fleets: Optional[Sequence[VMwareClusterFleetArgs]] = None,
load_balancer: Optional[VMwareClusterLoadBalancerArgs] = None,
local_name: Optional[str] = None,
location: Optional[str] = None,
name: Optional[str] = None,
network_config: Optional[VMwareClusterNetworkConfigArgs] = None,
on_prem_version: Optional[str] = None,
project: Optional[str] = None,
reconciling: Optional[bool] = None,
state: Optional[str] = None,
statuses: Optional[Sequence[VMwareClusterStatusArgs]] = None,
storage: Optional[VMwareClusterStorageArgs] = None,
uid: Optional[str] = None,
update_time: Optional[str] = None,
upgrade_policy: Optional[VMwareClusterUpgradePolicyArgs] = None,
validation_checks: Optional[Sequence[VMwareClusterValidationCheckArgs]] = None,
vcenter: Optional[VMwareClusterVcenterArgs] = None,
vm_tracking_enabled: Optional[bool] = None) -> VMwareCluster
func GetVMwareCluster(ctx *Context, name string, id IDInput, state *VMwareClusterState, opts ...ResourceOption) (*VMwareCluster, error)
public static VMwareCluster Get(string name, Input<string> id, VMwareClusterState? state, CustomResourceOptions? opts = null)
public static VMwareCluster get(String name, Output<String> id, VMwareClusterState state, CustomResourceOptions options)
Resource lookup is not supported in YAML
- name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- resource_name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- Admin
Cluster stringMembership - The admin cluster this VMware User Cluster belongs to. This is the full resource name of the admin cluster's hub membership. In the future, references to other resource types might be allowed if admin clusters are modeled as their own resources.
- Annotations Dictionary<string, string>
- Annotations on the VMware User Cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between. Note: This field is non-authoritative, and will only manage the annotations present in your configuration. Please refer to the field 'effective_annotations' for all of the annotations present on the resource.
- Anti
Affinity VMwareGroups Cluster Anti Affinity Groups - AAGConfig specifies whether to spread VMware User Cluster nodes across at least three physical hosts in the datacenter.
- VMware
Cluster Authorization - RBAC policy that will be applied and managed by GKE On-Prem.
- Auto
Repair VMwareConfig Cluster Auto Repair Config - Configuration for auto repairing.
- Control
Plane VMwareNode Cluster Control Plane Node - VMware User Cluster control plane nodes must have either 1 or 3 replicas. Structure is documented below.
- Create
Time string - The time at which VMware User Cluster was created.
- Dataplane
V2 VMwareCluster Dataplane V2 - VmwareDataplaneV2Config specifies configuration for Dataplane V2.
- Delete
Time string - The time at which VMware User Cluster was deleted.
- Description string
- (Output) The description of the validation check.
- Disable
Bundled boolIngress - Disable bundled ingress.
- Effective
Annotations Dictionary<string, string> - Enable
Control boolPlane V2 - Enable control plane V2. Default to false.
- Endpoint string
- The DNS name of VMware User Cluster's API server.
- Etag string
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- Fleets
List<VMware
Cluster Fleet> - Fleet configuration for the cluster. Structure is documented below.
- Load
Balancer VMwareCluster Load Balancer - Load Balancer configuration.
- Local
Name string - The object name of the VMware OnPremUserCluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the ID in the resource name. For new clusters, this field will match the user provided cluster ID and be visible in the last component of the resource name. It is not modifiable. All users should use this name to access their cluster using gkectl or kubectl and should expect to see the local name when viewing admin cluster controller logs.
- Location string
- The location of the resource.
- Name string
- The VMware cluster name.
- Network
Config VMwareCluster Network Config - The VMware User Cluster network configuration.
- On
Prem stringVersion - The Anthos clusters on the VMware version for your user cluster.
- Project string
- Reconciling bool
- If set, there are currently changes in flight to the VMware User Cluster.
- State string
- (Output) The lifecycle state of the condition.
- Statuses
List<VMware
Cluster Status> - (Output) Specifies the detailed validation check status Structure is documented below.
- Storage
VMware
Cluster Storage - Storage configuration.
- Uid string
- The unique identifier of the VMware User Cluster.
- Update
Time string - The time at which VMware User Cluster was last updated.
- Upgrade
Policy VMwareCluster Upgrade Policy - Specifies upgrade policy for the cluster.
- Validation
Checks List<VMwareCluster Validation Check> - ValidationCheck represents the result of the preflight check job. Structure is documented below.
- Vcenter
VMware
Cluster Vcenter - VmwareVCenterConfig specifies vCenter config for the user cluster. Inherited from the admin cluster.
- Vm
Tracking boolEnabled - Enable VM tracking.
- Admin
Cluster stringMembership - The admin cluster this VMware User Cluster belongs to. This is the full resource name of the admin cluster's hub membership. In the future, references to other resource types might be allowed if admin clusters are modeled as their own resources.
- Annotations map[string]string
- Annotations on the VMware User Cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between. Note: This field is non-authoritative, and will only manage the annotations present in your configuration. Please refer to the field 'effective_annotations' for all of the annotations present on the resource.
- Anti
Affinity VMwareGroups Cluster Anti Affinity Groups Args - AAGConfig specifies whether to spread VMware User Cluster nodes across at least three physical hosts in the datacenter.
- VMware
Cluster Authorization Args - RBAC policy that will be applied and managed by GKE On-Prem.
- Auto
Repair VMwareConfig Cluster Auto Repair Config Args - Configuration for auto repairing.
- Control
Plane VMwareNode Cluster Control Plane Node Args - VMware User Cluster control plane nodes must have either 1 or 3 replicas. Structure is documented below.
- Create
Time string - The time at which VMware User Cluster was created.
- Dataplane
V2 VMwareCluster Dataplane V2Args - VmwareDataplaneV2Config specifies configuration for Dataplane V2.
- Delete
Time string - The time at which VMware User Cluster was deleted.
- Description string
- (Output) The description of the validation check.
- Disable
Bundled boolIngress - Disable bundled ingress.
- Effective
Annotations map[string]string - Enable
Control boolPlane V2 - Enable control plane V2. Default to false.
- Endpoint string
- The DNS name of VMware User Cluster's API server.
- Etag string
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- Fleets
[]VMware
Cluster Fleet Args - Fleet configuration for the cluster. Structure is documented below.
- Load
Balancer VMwareCluster Load Balancer Args - Load Balancer configuration.
- Local
Name string - The object name of the VMware OnPremUserCluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the ID in the resource name. For new clusters, this field will match the user provided cluster ID and be visible in the last component of the resource name. It is not modifiable. All users should use this name to access their cluster using gkectl or kubectl and should expect to see the local name when viewing admin cluster controller logs.
- Location string
- The location of the resource.
- Name string
- The VMware cluster name.
- Network
Config VMwareCluster Network Config Args - The VMware User Cluster network configuration.
- On
Prem stringVersion - The Anthos clusters on the VMware version for your user cluster.
- Project string
- Reconciling bool
- If set, there are currently changes in flight to the VMware User Cluster.
- State string
- (Output) The lifecycle state of the condition.
- Statuses
[]VMware
Cluster Status Args - (Output) Specifies the detailed validation check status Structure is documented below.
- Storage
VMware
Cluster Storage Args - Storage configuration.
- Uid string
- The unique identifier of the VMware User Cluster.
- Update
Time string - The time at which VMware User Cluster was last updated.
- Upgrade
Policy VMwareCluster Upgrade Policy Args - Specifies upgrade policy for the cluster.
- Validation
Checks []VMwareCluster Validation Check Args - ValidationCheck represents the result of the preflight check job. Structure is documented below.
- Vcenter
VMware
Cluster Vcenter Args - VmwareVCenterConfig specifies vCenter config for the user cluster. Inherited from the admin cluster.
- Vm
Tracking boolEnabled - Enable VM tracking.
- admin
Cluster StringMembership - The admin cluster this VMware User Cluster belongs to. This is the full resource name of the admin cluster's hub membership. In the future, references to other resource types might be allowed if admin clusters are modeled as their own resources.
- annotations Map<String,String>
- Annotations on the VMware User Cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between. Note: This field is non-authoritative, and will only manage the annotations present in your configuration. Please refer to the field 'effective_annotations' for all of the annotations present on the resource.
- anti
Affinity VMwareGroups Cluster Anti Affinity Groups - AAGConfig specifies whether to spread VMware User Cluster nodes across at least three physical hosts in the datacenter.
- VMware
Cluster Authorization - RBAC policy that will be applied and managed by GKE On-Prem.
- auto
Repair VMwareConfig Cluster Auto Repair Config - Configuration for auto repairing.
- control
Plane VMwareNode Cluster Control Plane Node - VMware User Cluster control plane nodes must have either 1 or 3 replicas. Structure is documented below.
- create
Time String - The time at which VMware User Cluster was created.
- dataplane
V2 VMwareCluster Dataplane V2 - VmwareDataplaneV2Config specifies configuration for Dataplane V2.
- delete
Time String - The time at which VMware User Cluster was deleted.
- description String
- (Output) The description of the validation check.
- disable
Bundled BooleanIngress - Disable bundled ingress.
- effective
Annotations Map<String,String> - enable
Control BooleanPlane V2 - Enable control plane V2. Default to false.
- endpoint String
- The DNS name of VMware User Cluster's API server.
- etag String
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- fleets
List<VMware
Cluster Fleet> - Fleet configuration for the cluster. Structure is documented below.
- load
Balancer VMwareCluster Load Balancer - Load Balancer configuration.
- local
Name String - The object name of the VMware OnPremUserCluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the ID in the resource name. For new clusters, this field will match the user provided cluster ID and be visible in the last component of the resource name. It is not modifiable. All users should use this name to access their cluster using gkectl or kubectl and should expect to see the local name when viewing admin cluster controller logs.
- location String
- The location of the resource.
- name String
- The VMware cluster name.
- network
Config VMwareCluster Network Config - The VMware User Cluster network configuration.
- on
Prem StringVersion - The Anthos clusters on the VMware version for your user cluster.
- project String
- reconciling Boolean
- If set, there are currently changes in flight to the VMware User Cluster.
- state String
- (Output) The lifecycle state of the condition.
- statuses
List<VMware
Cluster Status> - (Output) Specifies the detailed validation check status Structure is documented below.
- storage
VMware
Cluster Storage - Storage configuration.
- uid String
- The unique identifier of the VMware User Cluster.
- update
Time String - The time at which VMware User Cluster was last updated.
- upgrade
Policy VMwareCluster Upgrade Policy - Specifies upgrade policy for the cluster.
- validation
Checks List<VMwareCluster Validation Check> - ValidationCheck represents the result of the preflight check job. Structure is documented below.
- vcenter
VMware
Cluster Vcenter - VmwareVCenterConfig specifies vCenter config for the user cluster. Inherited from the admin cluster.
- vm
Tracking BooleanEnabled - Enable VM tracking.
- admin
Cluster stringMembership - The admin cluster this VMware User Cluster belongs to. This is the full resource name of the admin cluster's hub membership. In the future, references to other resource types might be allowed if admin clusters are modeled as their own resources.
- annotations {[key: string]: string}
- Annotations on the VMware User Cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between. Note: This field is non-authoritative, and will only manage the annotations present in your configuration. Please refer to the field 'effective_annotations' for all of the annotations present on the resource.
- anti
Affinity VMwareGroups Cluster Anti Affinity Groups - AAGConfig specifies whether to spread VMware User Cluster nodes across at least three physical hosts in the datacenter.
- VMware
Cluster Authorization - RBAC policy that will be applied and managed by GKE On-Prem.
- auto
Repair VMwareConfig Cluster Auto Repair Config - Configuration for auto repairing.
- control
Plane VMwareNode Cluster Control Plane Node - VMware User Cluster control plane nodes must have either 1 or 3 replicas. Structure is documented below.
- create
Time string - The time at which VMware User Cluster was created.
- dataplane
V2 VMwareCluster Dataplane V2 - VmwareDataplaneV2Config specifies configuration for Dataplane V2.
- delete
Time string - The time at which VMware User Cluster was deleted.
- description string
- (Output) The description of the validation check.
- disable
Bundled booleanIngress - Disable bundled ingress.
- effective
Annotations {[key: string]: string} - enable
Control booleanPlane V2 - Enable control plane V2. Default to false.
- endpoint string
- The DNS name of VMware User Cluster's API server.
- etag string
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- fleets
VMware
Cluster Fleet[] - Fleet configuration for the cluster. Structure is documented below.
- load
Balancer VMwareCluster Load Balancer - Load Balancer configuration.
- local
Name string - The object name of the VMware OnPremUserCluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the ID in the resource name. For new clusters, this field will match the user provided cluster ID and be visible in the last component of the resource name. It is not modifiable. All users should use this name to access their cluster using gkectl or kubectl and should expect to see the local name when viewing admin cluster controller logs.
- location string
- The location of the resource.
- name string
- The VMware cluster name.
- network
Config VMwareCluster Network Config - The VMware User Cluster network configuration.
- on
Prem stringVersion - The Anthos clusters on the VMware version for your user cluster.
- project string
- reconciling boolean
- If set, there are currently changes in flight to the VMware User Cluster.
- state string
- (Output) The lifecycle state of the condition.
- statuses
VMware
Cluster Status[] - (Output) Specifies the detailed validation check status Structure is documented below.
- storage
VMware
Cluster Storage - Storage configuration.
- uid string
- The unique identifier of the VMware User Cluster.
- update
Time string - The time at which VMware User Cluster was last updated.
- upgrade
Policy VMwareCluster Upgrade Policy - Specifies upgrade policy for the cluster.
- validation
Checks VMwareCluster Validation Check[] - ValidationCheck represents the result of the preflight check job. Structure is documented below.
- vcenter
VMware
Cluster Vcenter - VmwareVCenterConfig specifies vCenter config for the user cluster. Inherited from the admin cluster.
- vm
Tracking booleanEnabled - Enable VM tracking.
- admin_
cluster_ strmembership - The admin cluster this VMware User Cluster belongs to. This is the full resource name of the admin cluster's hub membership. In the future, references to other resource types might be allowed if admin clusters are modeled as their own resources.
- annotations Mapping[str, str]
- Annotations on the VMware User Cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between. Note: This field is non-authoritative, and will only manage the annotations present in your configuration. Please refer to the field 'effective_annotations' for all of the annotations present on the resource.
- anti_
affinity_ VMwaregroups Cluster Anti Affinity Groups Args - AAGConfig specifies whether to spread VMware User Cluster nodes across at least three physical hosts in the datacenter.
- VMware
Cluster Authorization Args - RBAC policy that will be applied and managed by GKE On-Prem.
- auto_
repair_ VMwareconfig Cluster Auto Repair Config Args - Configuration for auto repairing.
- control_
plane_ VMwarenode Cluster Control Plane Node Args - VMware User Cluster control plane nodes must have either 1 or 3 replicas. Structure is documented below.
- create_
time str - The time at which VMware User Cluster was created.
- dataplane_
v2 VMwareCluster Dataplane V2Args - VmwareDataplaneV2Config specifies configuration for Dataplane V2.
- delete_
time str - The time at which VMware User Cluster was deleted.
- description str
- (Output) The description of the validation check.
- disable_
bundled_ boolingress - Disable bundled ingress.
- effective_
annotations Mapping[str, str] - enable_
control_ boolplane_ v2 - Enable control plane V2. Default to false.
- endpoint str
- The DNS name of VMware User Cluster's API server.
- etag str
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- fleets
Sequence[VMware
Cluster Fleet Args] - Fleet configuration for the cluster. Structure is documented below.
- load_
balancer VMwareCluster Load Balancer Args - Load Balancer configuration.
- local_
name str - The object name of the VMware OnPremUserCluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the ID in the resource name. For new clusters, this field will match the user provided cluster ID and be visible in the last component of the resource name. It is not modifiable. All users should use this name to access their cluster using gkectl or kubectl and should expect to see the local name when viewing admin cluster controller logs.
- location str
- The location of the resource.
- name str
- The VMware cluster name.
- network_
config VMwareCluster Network Config Args - The VMware User Cluster network configuration.
- on_
prem_ strversion - The Anthos clusters on the VMware version for your user cluster.
- project str
- reconciling bool
- If set, there are currently changes in flight to the VMware User Cluster.
- state str
- (Output) The lifecycle state of the condition.
- statuses
Sequence[VMware
Cluster Status Args] - (Output) Specifies the detailed validation check status Structure is documented below.
- storage
VMware
Cluster Storage Args - Storage configuration.
- uid str
- The unique identifier of the VMware User Cluster.
- update_
time str - The time at which VMware User Cluster was last updated.
- upgrade_
policy VMwareCluster Upgrade Policy Args - Specifies upgrade policy for the cluster.
- validation_
checks Sequence[VMwareCluster Validation Check Args] - ValidationCheck represents the result of the preflight check job. Structure is documented below.
- vcenter
VMware
Cluster Vcenter Args - VmwareVCenterConfig specifies vCenter config for the user cluster. Inherited from the admin cluster.
- vm_
tracking_ boolenabled - Enable VM tracking.
- admin
Cluster StringMembership - The admin cluster this VMware User Cluster belongs to. This is the full resource name of the admin cluster's hub membership. In the future, references to other resource types might be allowed if admin clusters are modeled as their own resources.
- annotations Map<String>
- Annotations on the VMware User Cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between. Note: This field is non-authoritative, and will only manage the annotations present in your configuration. Please refer to the field 'effective_annotations' for all of the annotations present on the resource.
- anti
Affinity Property MapGroups - AAGConfig specifies whether to spread VMware User Cluster nodes across at least three physical hosts in the datacenter.
- Property Map
- RBAC policy that will be applied and managed by GKE On-Prem.
- auto
Repair Property MapConfig - Configuration for auto repairing.
- control
Plane Property MapNode - VMware User Cluster control plane nodes must have either 1 or 3 replicas. Structure is documented below.
- create
Time String - The time at which VMware User Cluster was created.
- dataplane
V2 Property Map - VmwareDataplaneV2Config specifies configuration for Dataplane V2.
- delete
Time String - The time at which VMware User Cluster was deleted.
- description String
- (Output) The description of the validation check.
- disable
Bundled BooleanIngress - Disable bundled ingress.
- effective
Annotations Map<String> - enable
Control BooleanPlane V2 - Enable control plane V2. Default to false.
- endpoint String
- The DNS name of VMware User Cluster's API server.
- etag String
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- fleets List<Property Map>
- Fleet configuration for the cluster. Structure is documented below.
- load
Balancer Property Map - Load Balancer configuration.
- local
Name String - The object name of the VMware OnPremUserCluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the ID in the resource name. For new clusters, this field will match the user provided cluster ID and be visible in the last component of the resource name. It is not modifiable. All users should use this name to access their cluster using gkectl or kubectl and should expect to see the local name when viewing admin cluster controller logs.
- location String
- The location of the resource.
- name String
- The VMware cluster name.
- network
Config Property Map - The VMware User Cluster network configuration.
- on
Prem StringVersion - The Anthos clusters on the VMware version for your user cluster.
- project String
- reconciling Boolean
- If set, there are currently changes in flight to the VMware User Cluster.
- state String
- (Output) The lifecycle state of the condition.
- statuses List<Property Map>
- (Output) Specifies the detailed validation check status Structure is documented below.
- storage Property Map
- Storage configuration.
- uid String
- The unique identifier of the VMware User Cluster.
- update
Time String - The time at which VMware User Cluster was last updated.
- upgrade
Policy Property Map - Specifies upgrade policy for the cluster.
- validation
Checks List<Property Map> - ValidationCheck represents the result of the preflight check job. Structure is documented below.
- vcenter Property Map
- VmwareVCenterConfig specifies vCenter config for the user cluster. Inherited from the admin cluster.
- vm
Tracking BooleanEnabled - Enable VM tracking.
Supporting Types
VMwareClusterAntiAffinityGroups, VMwareClusterAntiAffinityGroupsArgs
- Aag
Config boolDisabled - Spread nodes across at least three physical hosts (requires at least three hosts). Enabled by default.
- Aag
Config boolDisabled - Spread nodes across at least three physical hosts (requires at least three hosts). Enabled by default.
- aag
Config BooleanDisabled - Spread nodes across at least three physical hosts (requires at least three hosts). Enabled by default.
- aag
Config booleanDisabled - Spread nodes across at least three physical hosts (requires at least three hosts). Enabled by default.
- aag_
config_ booldisabled - Spread nodes across at least three physical hosts (requires at least three hosts). Enabled by default.
- aag
Config BooleanDisabled - Spread nodes across at least three physical hosts (requires at least three hosts). Enabled by default.
VMwareClusterAuthorization, VMwareClusterAuthorizationArgs
- Admin
Users List<VMwareCluster Authorization Admin User> - Users that will be granted the cluster-admin role on the cluster, providing full access to the cluster. Structure is documented below.
- Admin
Users []VMwareCluster Authorization Admin User - Users that will be granted the cluster-admin role on the cluster, providing full access to the cluster. Structure is documented below.
- admin
Users List<VMwareCluster Authorization Admin User> - Users that will be granted the cluster-admin role on the cluster, providing full access to the cluster. Structure is documented below.
- admin
Users VMwareCluster Authorization Admin User[] - Users that will be granted the cluster-admin role on the cluster, providing full access to the cluster. Structure is documented below.
- admin_
users Sequence[VMwareCluster Authorization Admin User] - Users that will be granted the cluster-admin role on the cluster, providing full access to the cluster. Structure is documented below.
- admin
Users List<Property Map> - Users that will be granted the cluster-admin role on the cluster, providing full access to the cluster. Structure is documented below.
VMwareClusterAuthorizationAdminUser, VMwareClusterAuthorizationAdminUserArgs
- Username string
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- Username string
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- username String
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- username string
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- username str
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- username String
- The name of the user, e.g.
my-gcp-id@gmail.com
.
VMwareClusterAutoRepairConfig, VMwareClusterAutoRepairConfigArgs
- Enabled bool
- Whether auto repair is enabled.
- Enabled bool
- Whether auto repair is enabled.
- enabled Boolean
- Whether auto repair is enabled.
- enabled boolean
- Whether auto repair is enabled.
- enabled bool
- Whether auto repair is enabled.
- enabled Boolean
- Whether auto repair is enabled.
VMwareClusterControlPlaneNode, VMwareClusterControlPlaneNodeArgs
- Auto
Resize VMwareConfig Cluster Control Plane Node Auto Resize Config - AutoResizeConfig provides auto resizing configurations. Structure is documented below.
- Cpus int
- The number of CPUs for each admin cluster node that serve as control planes for this VMware User Cluster. (default: 4 CPUs)
- Memory int
- The megabytes of memory for each admin cluster node that serves as a control plane for this VMware User Cluster (default: 8192 MB memory).
- Replicas int
- The number of control plane nodes for this VMware User Cluster. (default: 1 replica).
- Vsphere
Configs List<VMwareCluster Control Plane Node Vsphere Config> - (Output) Vsphere-specific config. Structure is documented below.
- Auto
Resize VMwareConfig Cluster Control Plane Node Auto Resize Config - AutoResizeConfig provides auto resizing configurations. Structure is documented below.
- Cpus int
- The number of CPUs for each admin cluster node that serve as control planes for this VMware User Cluster. (default: 4 CPUs)
- Memory int
- The megabytes of memory for each admin cluster node that serves as a control plane for this VMware User Cluster (default: 8192 MB memory).
- Replicas int
- The number of control plane nodes for this VMware User Cluster. (default: 1 replica).
- Vsphere
Configs []VMwareCluster Control Plane Node Vsphere Config - (Output) Vsphere-specific config. Structure is documented below.
- auto
Resize VMwareConfig Cluster Control Plane Node Auto Resize Config - AutoResizeConfig provides auto resizing configurations. Structure is documented below.
- cpus Integer
- The number of CPUs for each admin cluster node that serve as control planes for this VMware User Cluster. (default: 4 CPUs)
- memory Integer
- The megabytes of memory for each admin cluster node that serves as a control plane for this VMware User Cluster (default: 8192 MB memory).
- replicas Integer
- The number of control plane nodes for this VMware User Cluster. (default: 1 replica).
- vsphere
Configs List<VMwareCluster Control Plane Node Vsphere Config> - (Output) Vsphere-specific config. Structure is documented below.
- auto
Resize VMwareConfig Cluster Control Plane Node Auto Resize Config - AutoResizeConfig provides auto resizing configurations. Structure is documented below.
- cpus number
- The number of CPUs for each admin cluster node that serve as control planes for this VMware User Cluster. (default: 4 CPUs)
- memory number
- The megabytes of memory for each admin cluster node that serves as a control plane for this VMware User Cluster (default: 8192 MB memory).
- replicas number
- The number of control plane nodes for this VMware User Cluster. (default: 1 replica).
- vsphere
Configs VMwareCluster Control Plane Node Vsphere Config[] - (Output) Vsphere-specific config. Structure is documented below.
- auto_
resize_ VMwareconfig Cluster Control Plane Node Auto Resize Config - AutoResizeConfig provides auto resizing configurations. Structure is documented below.
- cpus int
- The number of CPUs for each admin cluster node that serve as control planes for this VMware User Cluster. (default: 4 CPUs)
- memory int
- The megabytes of memory for each admin cluster node that serves as a control plane for this VMware User Cluster (default: 8192 MB memory).
- replicas int
- The number of control plane nodes for this VMware User Cluster. (default: 1 replica).
- vsphere_
configs Sequence[VMwareCluster Control Plane Node Vsphere Config] - (Output) Vsphere-specific config. Structure is documented below.
- auto
Resize Property MapConfig - AutoResizeConfig provides auto resizing configurations. Structure is documented below.
- cpus Number
- The number of CPUs for each admin cluster node that serve as control planes for this VMware User Cluster. (default: 4 CPUs)
- memory Number
- The megabytes of memory for each admin cluster node that serves as a control plane for this VMware User Cluster (default: 8192 MB memory).
- replicas Number
- The number of control plane nodes for this VMware User Cluster. (default: 1 replica).
- vsphere
Configs List<Property Map> - (Output) Vsphere-specific config. Structure is documented below.
VMwareClusterControlPlaneNodeAutoResizeConfig, VMwareClusterControlPlaneNodeAutoResizeConfigArgs
- Enabled bool
Whether to enable control plane node auto resizing.
The
vsphere_config
block contains:
- Enabled bool
Whether to enable control plane node auto resizing.
The
vsphere_config
block contains:
- enabled Boolean
Whether to enable control plane node auto resizing.
The
vsphere_config
block contains:
- enabled boolean
Whether to enable control plane node auto resizing.
The
vsphere_config
block contains:
- enabled bool
Whether to enable control plane node auto resizing.
The
vsphere_config
block contains:
- enabled Boolean
Whether to enable control plane node auto resizing.
The
vsphere_config
block contains:
VMwareClusterControlPlaneNodeVsphereConfig, VMwareClusterControlPlaneNodeVsphereConfigArgs
- Datastore string
- The Vsphere datastore used by the Control Plane Node.
- Storage
Policy stringName - The Vsphere storage policy used by the control plane Node.
- Datastore string
- The Vsphere datastore used by the Control Plane Node.
- Storage
Policy stringName - The Vsphere storage policy used by the control plane Node.
- datastore String
- The Vsphere datastore used by the Control Plane Node.
- storage
Policy StringName - The Vsphere storage policy used by the control plane Node.
- datastore string
- The Vsphere datastore used by the Control Plane Node.
- storage
Policy stringName - The Vsphere storage policy used by the control plane Node.
- datastore str
- The Vsphere datastore used by the Control Plane Node.
- storage_
policy_ strname - The Vsphere storage policy used by the control plane Node.
- datastore String
- The Vsphere datastore used by the Control Plane Node.
- storage
Policy StringName - The Vsphere storage policy used by the control plane Node.
VMwareClusterDataplaneV2, VMwareClusterDataplaneV2Args
- Advanced
Networking bool - Enable advanced networking which requires dataplane_v2_enabled to be set true.
- Dataplane
V2Enabled bool - Enables Dataplane V2.
- Windows
Dataplane boolV2Enabled - Enable Dataplane V2 for clusters with Windows nodes.
- Advanced
Networking bool - Enable advanced networking which requires dataplane_v2_enabled to be set true.
- Dataplane
V2Enabled bool - Enables Dataplane V2.
- Windows
Dataplane boolV2Enabled - Enable Dataplane V2 for clusters with Windows nodes.
- advanced
Networking Boolean - Enable advanced networking which requires dataplane_v2_enabled to be set true.
- dataplane
V2Enabled Boolean - Enables Dataplane V2.
- windows
Dataplane BooleanV2Enabled - Enable Dataplane V2 for clusters with Windows nodes.
- advanced
Networking boolean - Enable advanced networking which requires dataplane_v2_enabled to be set true.
- dataplane
V2Enabled boolean - Enables Dataplane V2.
- windows
Dataplane booleanV2Enabled - Enable Dataplane V2 for clusters with Windows nodes.
- advanced_
networking bool - Enable advanced networking which requires dataplane_v2_enabled to be set true.
- dataplane_
v2_ boolenabled - Enables Dataplane V2.
- windows_
dataplane_ boolv2_ enabled - Enable Dataplane V2 for clusters with Windows nodes.
- advanced
Networking Boolean - Enable advanced networking which requires dataplane_v2_enabled to be set true.
- dataplane
V2Enabled Boolean - Enables Dataplane V2.
- windows
Dataplane BooleanV2Enabled - Enable Dataplane V2 for clusters with Windows nodes.
VMwareClusterFleet, VMwareClusterFleetArgs
- Membership string
- (Output)
The name of the managed Hub Membership resource associated to this cluster.
Membership names are formatted as
projects/<project-number>/locations/<location>/memberships/<cluster-id>
.
- Membership string
- (Output)
The name of the managed Hub Membership resource associated to this cluster.
Membership names are formatted as
projects/<project-number>/locations/<location>/memberships/<cluster-id>
.
- membership String
- (Output)
The name of the managed Hub Membership resource associated to this cluster.
Membership names are formatted as
projects/<project-number>/locations/<location>/memberships/<cluster-id>
.
- membership string
- (Output)
The name of the managed Hub Membership resource associated to this cluster.
Membership names are formatted as
projects/<project-number>/locations/<location>/memberships/<cluster-id>
.
- membership str
- (Output)
The name of the managed Hub Membership resource associated to this cluster.
Membership names are formatted as
projects/<project-number>/locations/<location>/memberships/<cluster-id>
.
- membership String
- (Output)
The name of the managed Hub Membership resource associated to this cluster.
Membership names are formatted as
projects/<project-number>/locations/<location>/memberships/<cluster-id>
.
VMwareClusterLoadBalancer, VMwareClusterLoadBalancerArgs
- F5Config
VMware
Cluster Load Balancer F5Config - Configuration for F5 Big IP typed load balancers. Structure is documented below.
- Manual
Lb VMwareConfig Cluster Load Balancer Manual Lb Config - Manually configured load balancers. Structure is documented below.
- Metal
Lb VMwareConfig Cluster Load Balancer Metal Lb Config - Configuration for MetalLB typed load balancers. Structure is documented below.
- Vip
Config VMwareCluster Load Balancer Vip Config - The VIPs used by the load balancer. Structure is documented below.
- F5Config
VMware
Cluster Load Balancer F5Config - Configuration for F5 Big IP typed load balancers. Structure is documented below.
- Manual
Lb VMwareConfig Cluster Load Balancer Manual Lb Config - Manually configured load balancers. Structure is documented below.
- Metal
Lb VMwareConfig Cluster Load Balancer Metal Lb Config - Configuration for MetalLB typed load balancers. Structure is documented below.
- Vip
Config VMwareCluster Load Balancer Vip Config - The VIPs used by the load balancer. Structure is documented below.
- f5Config
VMware
Cluster Load Balancer F5Config - Configuration for F5 Big IP typed load balancers. Structure is documented below.
- manual
Lb VMwareConfig Cluster Load Balancer Manual Lb Config - Manually configured load balancers. Structure is documented below.
- metal
Lb VMwareConfig Cluster Load Balancer Metal Lb Config - Configuration for MetalLB typed load balancers. Structure is documented below.
- vip
Config VMwareCluster Load Balancer Vip Config - The VIPs used by the load balancer. Structure is documented below.
- f5Config
VMware
Cluster Load Balancer F5Config - Configuration for F5 Big IP typed load balancers. Structure is documented below.
- manual
Lb VMwareConfig Cluster Load Balancer Manual Lb Config - Manually configured load balancers. Structure is documented below.
- metal
Lb VMwareConfig Cluster Load Balancer Metal Lb Config - Configuration for MetalLB typed load balancers. Structure is documented below.
- vip
Config VMwareCluster Load Balancer Vip Config - The VIPs used by the load balancer. Structure is documented below.
- f5_
config VMwareCluster Load Balancer F5Config - Configuration for F5 Big IP typed load balancers. Structure is documented below.
- manual_
lb_ VMwareconfig Cluster Load Balancer Manual Lb Config - Manually configured load balancers. Structure is documented below.
- metal_
lb_ VMwareconfig Cluster Load Balancer Metal Lb Config - Configuration for MetalLB typed load balancers. Structure is documented below.
- vip_
config VMwareCluster Load Balancer Vip Config - The VIPs used by the load balancer. Structure is documented below.
- f5Config Property Map
- Configuration for F5 Big IP typed load balancers. Structure is documented below.
- manual
Lb Property MapConfig - Manually configured load balancers. Structure is documented below.
- metal
Lb Property MapConfig - Configuration for MetalLB typed load balancers. Structure is documented below.
- vip
Config Property Map - The VIPs used by the load balancer. Structure is documented below.
VMwareClusterLoadBalancerF5Config, VMwareClusterLoadBalancerF5ConfigArgs
VMwareClusterLoadBalancerManualLbConfig, VMwareClusterLoadBalancerManualLbConfigArgs
- Control
Plane intNode Port - NodePort for control plane service. The Kubernetes API server in the admin cluster is implemented as a Service of type NodePort (ex. 30968).
- Ingress
Http intNode Port - NodePort for ingress service's http. The ingress service in the admin cluster is implemented as a Service of type NodePort (ex. 32527).
- Ingress
Https intNode Port - NodePort for ingress service's https. The ingress service in the admin cluster is implemented as a Service of type NodePort (ex. 30139).
- Konnectivity
Server intNode Port - NodePort for konnectivity server service running as a sidecar in each kube-apiserver pod (ex. 30564).
- Control
Plane intNode Port - NodePort for control plane service. The Kubernetes API server in the admin cluster is implemented as a Service of type NodePort (ex. 30968).
- Ingress
Http intNode Port - NodePort for ingress service's http. The ingress service in the admin cluster is implemented as a Service of type NodePort (ex. 32527).
- Ingress
Https intNode Port - NodePort for ingress service's https. The ingress service in the admin cluster is implemented as a Service of type NodePort (ex. 30139).
- Konnectivity
Server intNode Port - NodePort for konnectivity server service running as a sidecar in each kube-apiserver pod (ex. 30564).
- control
Plane IntegerNode Port - NodePort for control plane service. The Kubernetes API server in the admin cluster is implemented as a Service of type NodePort (ex. 30968).
- ingress
Http IntegerNode Port - NodePort for ingress service's http. The ingress service in the admin cluster is implemented as a Service of type NodePort (ex. 32527).
- ingress
Https IntegerNode Port - NodePort for ingress service's https. The ingress service in the admin cluster is implemented as a Service of type NodePort (ex. 30139).
- konnectivity
Server IntegerNode Port - NodePort for konnectivity server service running as a sidecar in each kube-apiserver pod (ex. 30564).
- control
Plane numberNode Port - NodePort for control plane service. The Kubernetes API server in the admin cluster is implemented as a Service of type NodePort (ex. 30968).
- ingress
Http numberNode Port - NodePort for ingress service's http. The ingress service in the admin cluster is implemented as a Service of type NodePort (ex. 32527).
- ingress
Https numberNode Port - NodePort for ingress service's https. The ingress service in the admin cluster is implemented as a Service of type NodePort (ex. 30139).
- konnectivity
Server numberNode Port - NodePort for konnectivity server service running as a sidecar in each kube-apiserver pod (ex. 30564).
- control_
plane_ intnode_ port - NodePort for control plane service. The Kubernetes API server in the admin cluster is implemented as a Service of type NodePort (ex. 30968).
- ingress_
http_ intnode_ port - NodePort for ingress service's http. The ingress service in the admin cluster is implemented as a Service of type NodePort (ex. 32527).
- ingress_
https_ intnode_ port - NodePort for ingress service's https. The ingress service in the admin cluster is implemented as a Service of type NodePort (ex. 30139).
- konnectivity_
server_ intnode_ port - NodePort for konnectivity server service running as a sidecar in each kube-apiserver pod (ex. 30564).
- control
Plane NumberNode Port - NodePort for control plane service. The Kubernetes API server in the admin cluster is implemented as a Service of type NodePort (ex. 30968).
- ingress
Http NumberNode Port - NodePort for ingress service's http. The ingress service in the admin cluster is implemented as a Service of type NodePort (ex. 32527).
- ingress
Https NumberNode Port - NodePort for ingress service's https. The ingress service in the admin cluster is implemented as a Service of type NodePort (ex. 30139).
- konnectivity
Server NumberNode Port - NodePort for konnectivity server service running as a sidecar in each kube-apiserver pod (ex. 30564).
VMwareClusterLoadBalancerMetalLbConfig, VMwareClusterLoadBalancerMetalLbConfigArgs
- Address
Pools List<VMwareCluster Load Balancer Metal Lb Config Address Pool> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools. Structure is documented below.
- Address
Pools []VMwareCluster Load Balancer Metal Lb Config Address Pool - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools. Structure is documented below.
- address
Pools List<VMwareCluster Load Balancer Metal Lb Config Address Pool> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools. Structure is documented below.
- address
Pools VMwareCluster Load Balancer Metal Lb Config Address Pool[] - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools. Structure is documented below.
- address_
pools Sequence[VMwareCluster Load Balancer Metal Lb Config Address Pool] - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools. Structure is documented below.
- address
Pools List<Property Map> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools. Structure is documented below.
VMwareClusterLoadBalancerMetalLbConfigAddressPool, VMwareClusterLoadBalancerMetalLbConfigAddressPoolArgs
- Addresses List<string>
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- Pool string
- The name of the address pool.
- Avoid
Buggy boolIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- Manual
Assign bool If true, prevent IP addresses from being automatically assigned.
The
dataplane_v2
block supports:
- Addresses []string
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- Pool string
- The name of the address pool.
- Avoid
Buggy boolIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- Manual
Assign bool If true, prevent IP addresses from being automatically assigned.
The
dataplane_v2
block supports:
- addresses List<String>
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- pool String
- The name of the address pool.
- avoid
Buggy BooleanIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- manual
Assign Boolean If true, prevent IP addresses from being automatically assigned.
The
dataplane_v2
block supports:
- addresses string[]
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- pool string
- The name of the address pool.
- avoid
Buggy booleanIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- manual
Assign boolean If true, prevent IP addresses from being automatically assigned.
The
dataplane_v2
block supports:
- addresses Sequence[str]
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- pool str
- The name of the address pool.
- avoid_
buggy_ boolips - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- manual_
assign bool If true, prevent IP addresses from being automatically assigned.
The
dataplane_v2
block supports:
- addresses List<String>
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- pool String
- The name of the address pool.
- avoid
Buggy BooleanIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- manual
Assign Boolean If true, prevent IP addresses from being automatically assigned.
The
dataplane_v2
block supports:
VMwareClusterLoadBalancerVipConfig, VMwareClusterLoadBalancerVipConfigArgs
- Control
Plane stringVip - The VIP which you previously set aside for the Kubernetes API of this cluster.
- Ingress
Vip string The VIP which you previously set aside for ingress traffic into this cluster.
The
f5_config
block supports:
- Control
Plane stringVip - The VIP which you previously set aside for the Kubernetes API of this cluster.
- Ingress
Vip string The VIP which you previously set aside for ingress traffic into this cluster.
The
f5_config
block supports:
- control
Plane StringVip - The VIP which you previously set aside for the Kubernetes API of this cluster.
- ingress
Vip String The VIP which you previously set aside for ingress traffic into this cluster.
The
f5_config
block supports:
- control
Plane stringVip - The VIP which you previously set aside for the Kubernetes API of this cluster.
- ingress
Vip string The VIP which you previously set aside for ingress traffic into this cluster.
The
f5_config
block supports:
- control_
plane_ strvip - The VIP which you previously set aside for the Kubernetes API of this cluster.
- ingress_
vip str The VIP which you previously set aside for ingress traffic into this cluster.
The
f5_config
block supports:
- control
Plane StringVip - The VIP which you previously set aside for the Kubernetes API of this cluster.
- ingress
Vip String The VIP which you previously set aside for ingress traffic into this cluster.
The
f5_config
block supports:
VMwareClusterNetworkConfig, VMwareClusterNetworkConfigArgs
- Pod
Address List<string>Cidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. Only a single range is supported. This field cannot be changed after creation.
- Service
Address List<string>Cidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. Only a single range is supported.. This field cannot be changed after creation.
- Control
Plane VMwareV2Config Cluster Network Config Control Plane V2Config - Configuration for control plane V2 mode. Structure is documented below.
- Dhcp
Ip VMwareConfig Cluster Network Config Dhcp Ip Config - Configuration settings for a DHCP IP configuration. Structure is documented below.
- Host
Config VMwareCluster Network Config Host Config - Represents common network settings irrespective of the host's IP address. Structure is documented below.
- Static
Ip VMwareConfig Cluster Network Config Static Ip Config - Configuration settings for a static IP configuration. Structure is documented below.
- Vcenter
Network string - vcenter_network specifies vCenter network name. Inherited from the admin cluster.
- Pod
Address []stringCidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. Only a single range is supported. This field cannot be changed after creation.
- Service
Address []stringCidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. Only a single range is supported.. This field cannot be changed after creation.
- Control
Plane VMwareV2Config Cluster Network Config Control Plane V2Config - Configuration for control plane V2 mode. Structure is documented below.
- Dhcp
Ip VMwareConfig Cluster Network Config Dhcp Ip Config - Configuration settings for a DHCP IP configuration. Structure is documented below.
- Host
Config VMwareCluster Network Config Host Config - Represents common network settings irrespective of the host's IP address. Structure is documented below.
- Static
Ip VMwareConfig Cluster Network Config Static Ip Config - Configuration settings for a static IP configuration. Structure is documented below.
- Vcenter
Network string - vcenter_network specifies vCenter network name. Inherited from the admin cluster.
- pod
Address List<String>Cidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. Only a single range is supported. This field cannot be changed after creation.
- service
Address List<String>Cidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. Only a single range is supported.. This field cannot be changed after creation.
- control
Plane VMwareV2Config Cluster Network Config Control Plane V2Config - Configuration for control plane V2 mode. Structure is documented below.
- dhcp
Ip VMwareConfig Cluster Network Config Dhcp Ip Config - Configuration settings for a DHCP IP configuration. Structure is documented below.
- host
Config VMwareCluster Network Config Host Config - Represents common network settings irrespective of the host's IP address. Structure is documented below.
- static
Ip VMwareConfig Cluster Network Config Static Ip Config - Configuration settings for a static IP configuration. Structure is documented below.
- vcenter
Network String - vcenter_network specifies vCenter network name. Inherited from the admin cluster.
- pod
Address string[]Cidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. Only a single range is supported. This field cannot be changed after creation.
- service
Address string[]Cidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. Only a single range is supported.. This field cannot be changed after creation.
- control
Plane VMwareV2Config Cluster Network Config Control Plane V2Config - Configuration for control plane V2 mode. Structure is documented below.
- dhcp
Ip VMwareConfig Cluster Network Config Dhcp Ip Config - Configuration settings for a DHCP IP configuration. Structure is documented below.
- host
Config VMwareCluster Network Config Host Config - Represents common network settings irrespective of the host's IP address. Structure is documented below.
- static
Ip VMwareConfig Cluster Network Config Static Ip Config - Configuration settings for a static IP configuration. Structure is documented below.
- vcenter
Network string - vcenter_network specifies vCenter network name. Inherited from the admin cluster.
- pod_
address_ Sequence[str]cidr_ blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. Only a single range is supported. This field cannot be changed after creation.
- service_
address_ Sequence[str]cidr_ blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. Only a single range is supported.. This field cannot be changed after creation.
- control_
plane_ VMwarev2_ config Cluster Network Config Control Plane V2Config - Configuration for control plane V2 mode. Structure is documented below.
- dhcp_
ip_ VMwareconfig Cluster Network Config Dhcp Ip Config - Configuration settings for a DHCP IP configuration. Structure is documented below.
- host_
config VMwareCluster Network Config Host Config - Represents common network settings irrespective of the host's IP address. Structure is documented below.
- static_
ip_ VMwareconfig Cluster Network Config Static Ip Config - Configuration settings for a static IP configuration. Structure is documented below.
- vcenter_
network str - vcenter_network specifies vCenter network name. Inherited from the admin cluster.
- pod
Address List<String>Cidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. Only a single range is supported. This field cannot be changed after creation.
- service
Address List<String>Cidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. Only a single range is supported.. This field cannot be changed after creation.
- control
Plane Property MapV2Config - Configuration for control plane V2 mode. Structure is documented below.
- dhcp
Ip Property MapConfig - Configuration settings for a DHCP IP configuration. Structure is documented below.
- host
Config Property Map - Represents common network settings irrespective of the host's IP address. Structure is documented below.
- static
Ip Property MapConfig - Configuration settings for a static IP configuration. Structure is documented below.
- vcenter
Network String - vcenter_network specifies vCenter network name. Inherited from the admin cluster.
VMwareClusterNetworkConfigControlPlaneV2Config, VMwareClusterNetworkConfigControlPlaneV2ConfigArgs
- Control
Plane VMwareIp Block Cluster Network Config Control Plane V2Config Control Plane Ip Block - Static IP addresses for the control plane nodes.
- Control
Plane VMwareIp Block Cluster Network Config Control Plane V2Config Control Plane Ip Block - Static IP addresses for the control plane nodes.
- control
Plane VMwareIp Block Cluster Network Config Control Plane V2Config Control Plane Ip Block - Static IP addresses for the control plane nodes.
- control
Plane VMwareIp Block Cluster Network Config Control Plane V2Config Control Plane Ip Block - Static IP addresses for the control plane nodes.
- control_
plane_ VMwareip_ block Cluster Network Config Control Plane V2Config Control Plane Ip Block - Static IP addresses for the control plane nodes.
- control
Plane Property MapIp Block - Static IP addresses for the control plane nodes.
VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlock, VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockArgs
- Gateway string
- The network gateway used by the VMware User Cluster.
- Ips
List<VMware
Cluster Network Config Control Plane V2Config Control Plane Ip Block Ip> - The node's network configurations used by the VMware User Cluster. Structure is documented below.
- Netmask string
- The netmask used by the VMware User Cluster.
- Gateway string
- The network gateway used by the VMware User Cluster.
- Ips
[]VMware
Cluster Network Config Control Plane V2Config Control Plane Ip Block Ip - The node's network configurations used by the VMware User Cluster. Structure is documented below.
- Netmask string
- The netmask used by the VMware User Cluster.
- gateway String
- The network gateway used by the VMware User Cluster.
- ips
List<VMware
Cluster Network Config Control Plane V2Config Control Plane Ip Block Ip> - The node's network configurations used by the VMware User Cluster. Structure is documented below.
- netmask String
- The netmask used by the VMware User Cluster.
- gateway string
- The network gateway used by the VMware User Cluster.
- ips
VMware
Cluster Network Config Control Plane V2Config Control Plane Ip Block Ip[] - The node's network configurations used by the VMware User Cluster. Structure is documented below.
- netmask string
- The netmask used by the VMware User Cluster.
- gateway str
- The network gateway used by the VMware User Cluster.
- ips
Sequence[VMware
Cluster Network Config Control Plane V2Config Control Plane Ip Block Ip] - The node's network configurations used by the VMware User Cluster. Structure is documented below.
- netmask str
- The netmask used by the VMware User Cluster.
- gateway String
- The network gateway used by the VMware User Cluster.
- ips List<Property Map>
- The node's network configurations used by the VMware User Cluster. Structure is documented below.
- netmask String
- The netmask used by the VMware User Cluster.
VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockIp, VMwareClusterNetworkConfigControlPlaneV2ConfigControlPlaneIpBlockIpArgs
VMwareClusterNetworkConfigDhcpIpConfig, VMwareClusterNetworkConfigDhcpIpConfigArgs
- Enabled bool
- enabled is a flag to mark if DHCP IP allocation is used for VMware user clusters.
- Enabled bool
- enabled is a flag to mark if DHCP IP allocation is used for VMware user clusters.
- enabled Boolean
- enabled is a flag to mark if DHCP IP allocation is used for VMware user clusters.
- enabled boolean
- enabled is a flag to mark if DHCP IP allocation is used for VMware user clusters.
- enabled bool
- enabled is a flag to mark if DHCP IP allocation is used for VMware user clusters.
- enabled Boolean
- enabled is a flag to mark if DHCP IP allocation is used for VMware user clusters.
VMwareClusterNetworkConfigHostConfig, VMwareClusterNetworkConfigHostConfigArgs
- Dns
Search List<string>Domains DNS search domains.
The
control_plane_v2_config
block supports:- Dns
Servers List<string> - DNS servers.
- Ntp
Servers List<string> - NTP servers.
- Dns
Search []stringDomains DNS search domains.
The
control_plane_v2_config
block supports:- Dns
Servers []string - DNS servers.
- Ntp
Servers []string - NTP servers.
- dns
Search List<String>Domains DNS search domains.
The
control_plane_v2_config
block supports:- dns
Servers List<String> - DNS servers.
- ntp
Servers List<String> - NTP servers.
- dns
Search string[]Domains DNS search domains.
The
control_plane_v2_config
block supports:- dns
Servers string[] - DNS servers.
- ntp
Servers string[] - NTP servers.
- dns_
search_ Sequence[str]domains DNS search domains.
The
control_plane_v2_config
block supports:- dns_
servers Sequence[str] - DNS servers.
- ntp_
servers Sequence[str] - NTP servers.
- dns
Search List<String>Domains DNS search domains.
The
control_plane_v2_config
block supports:- dns
Servers List<String> - DNS servers.
- ntp
Servers List<String> - NTP servers.
VMwareClusterNetworkConfigStaticIpConfig, VMwareClusterNetworkConfigStaticIpConfigArgs
- Ip
Blocks List<VMwareCluster Network Config Static Ip Config Ip Block> - Represents the configuration values for static IP allocation to nodes. Structure is documented below.
- Ip
Blocks []VMwareCluster Network Config Static Ip Config Ip Block - Represents the configuration values for static IP allocation to nodes. Structure is documented below.
- ip
Blocks List<VMwareCluster Network Config Static Ip Config Ip Block> - Represents the configuration values for static IP allocation to nodes. Structure is documented below.
- ip
Blocks VMwareCluster Network Config Static Ip Config Ip Block[] - Represents the configuration values for static IP allocation to nodes. Structure is documented below.
- ip_
blocks Sequence[VMwareCluster Network Config Static Ip Config Ip Block] - Represents the configuration values for static IP allocation to nodes. Structure is documented below.
- ip
Blocks List<Property Map> - Represents the configuration values for static IP allocation to nodes. Structure is documented below.
VMwareClusterNetworkConfigStaticIpConfigIpBlock, VMwareClusterNetworkConfigStaticIpConfigIpBlockArgs
- Gateway string
- The network gateway used by the VMware User Cluster.
- Ips
List<VMware
Cluster Network Config Static Ip Config Ip Block Ip> - The node's network configurations used by the VMware User Cluster. Structure is documented below.
- Netmask string
- The netmask used by the VMware User Cluster.
- Gateway string
- The network gateway used by the VMware User Cluster.
- Ips
[]VMware
Cluster Network Config Static Ip Config Ip Block Ip - The node's network configurations used by the VMware User Cluster. Structure is documented below.
- Netmask string
- The netmask used by the VMware User Cluster.
- gateway String
- The network gateway used by the VMware User Cluster.
- ips
List<VMware
Cluster Network Config Static Ip Config Ip Block Ip> - The node's network configurations used by the VMware User Cluster. Structure is documented below.
- netmask String
- The netmask used by the VMware User Cluster.
- gateway string
- The network gateway used by the VMware User Cluster.
- ips
VMware
Cluster Network Config Static Ip Config Ip Block Ip[] - The node's network configurations used by the VMware User Cluster. Structure is documented below.
- netmask string
- The netmask used by the VMware User Cluster.
- gateway str
- The network gateway used by the VMware User Cluster.
- ips
Sequence[VMware
Cluster Network Config Static Ip Config Ip Block Ip] - The node's network configurations used by the VMware User Cluster. Structure is documented below.
- netmask str
- The netmask used by the VMware User Cluster.
- gateway String
- The network gateway used by the VMware User Cluster.
- ips List<Property Map>
- The node's network configurations used by the VMware User Cluster. Structure is documented below.
- netmask String
- The netmask used by the VMware User Cluster.
VMwareClusterNetworkConfigStaticIpConfigIpBlockIp, VMwareClusterNetworkConfigStaticIpConfigIpBlockIpArgs
VMwareClusterStatus, VMwareClusterStatusArgs
- Conditions
List<VMware
Cluster Status Condition> - (Output) ResourceConditions provide a standard mechanism for higher-level status reporting from user cluster controller. Structure is documented below.
- Error
Message string - (Output) Human-friendly representation of the error message from the user cluster controller. The error message can be temporary as the user cluster controller creates a cluster or node pool. If the error message persists for a longer period of time, it can be used to surface error message to indicate real problems requiring user intervention.
- Conditions
[]VMware
Cluster Status Condition - (Output) ResourceConditions provide a standard mechanism for higher-level status reporting from user cluster controller. Structure is documented below.
- Error
Message string - (Output) Human-friendly representation of the error message from the user cluster controller. The error message can be temporary as the user cluster controller creates a cluster or node pool. If the error message persists for a longer period of time, it can be used to surface error message to indicate real problems requiring user intervention.
- conditions
List<VMware
Cluster Status Condition> - (Output) ResourceConditions provide a standard mechanism for higher-level status reporting from user cluster controller. Structure is documented below.
- error
Message String - (Output) Human-friendly representation of the error message from the user cluster controller. The error message can be temporary as the user cluster controller creates a cluster or node pool. If the error message persists for a longer period of time, it can be used to surface error message to indicate real problems requiring user intervention.
- conditions
VMware
Cluster Status Condition[] - (Output) ResourceConditions provide a standard mechanism for higher-level status reporting from user cluster controller. Structure is documented below.
- error
Message string - (Output) Human-friendly representation of the error message from the user cluster controller. The error message can be temporary as the user cluster controller creates a cluster or node pool. If the error message persists for a longer period of time, it can be used to surface error message to indicate real problems requiring user intervention.
- conditions
Sequence[VMware
Cluster Status Condition] - (Output) ResourceConditions provide a standard mechanism for higher-level status reporting from user cluster controller. Structure is documented below.
- error_
message str - (Output) Human-friendly representation of the error message from the user cluster controller. The error message can be temporary as the user cluster controller creates a cluster or node pool. If the error message persists for a longer period of time, it can be used to surface error message to indicate real problems requiring user intervention.
- conditions List<Property Map>
- (Output) ResourceConditions provide a standard mechanism for higher-level status reporting from user cluster controller. Structure is documented below.
- error
Message String - (Output) Human-friendly representation of the error message from the user cluster controller. The error message can be temporary as the user cluster controller creates a cluster or node pool. If the error message persists for a longer period of time, it can be used to surface error message to indicate real problems requiring user intervention.
VMwareClusterStatusCondition, VMwareClusterStatusConditionArgs
- Last
Transition stringTime - (Output) Last time the condition transit from one status to another.
- Message string
- (Output) Human-readable message indicating details about last transition.
- Reason string
- (Output) Machine-readable message indicating details about last transition.
- State string
- (Output) The lifecycle state of the condition.
- Type string
- (Output) Type of the condition. (e.g., ClusterRunning, NodePoolRunning or ServerSidePreflightReady)
- Last
Transition stringTime - (Output) Last time the condition transit from one status to another.
- Message string
- (Output) Human-readable message indicating details about last transition.
- Reason string
- (Output) Machine-readable message indicating details about last transition.
- State string
- (Output) The lifecycle state of the condition.
- Type string
- (Output) Type of the condition. (e.g., ClusterRunning, NodePoolRunning or ServerSidePreflightReady)
- last
Transition StringTime - (Output) Last time the condition transit from one status to another.
- message String
- (Output) Human-readable message indicating details about last transition.
- reason String
- (Output) Machine-readable message indicating details about last transition.
- state String
- (Output) The lifecycle state of the condition.
- type String
- (Output) Type of the condition. (e.g., ClusterRunning, NodePoolRunning or ServerSidePreflightReady)
- last
Transition stringTime - (Output) Last time the condition transit from one status to another.
- message string
- (Output) Human-readable message indicating details about last transition.
- reason string
- (Output) Machine-readable message indicating details about last transition.
- state string
- (Output) The lifecycle state of the condition.
- type string
- (Output) Type of the condition. (e.g., ClusterRunning, NodePoolRunning or ServerSidePreflightReady)
- last_
transition_ strtime - (Output) Last time the condition transit from one status to another.
- message str
- (Output) Human-readable message indicating details about last transition.
- reason str
- (Output) Machine-readable message indicating details about last transition.
- state str
- (Output) The lifecycle state of the condition.
- type str
- (Output) Type of the condition. (e.g., ClusterRunning, NodePoolRunning or ServerSidePreflightReady)
- last
Transition StringTime - (Output) Last time the condition transit from one status to another.
- message String
- (Output) Human-readable message indicating details about last transition.
- reason String
- (Output) Machine-readable message indicating details about last transition.
- state String
- (Output) The lifecycle state of the condition.
- type String
- (Output) Type of the condition. (e.g., ClusterRunning, NodePoolRunning or ServerSidePreflightReady)
VMwareClusterStorage, VMwareClusterStorageArgs
- Vsphere
Csi boolDisabled - Whether or not to deploy vSphere CSI components in the VMware User Cluster. Enabled by default.
- Vsphere
Csi boolDisabled - Whether or not to deploy vSphere CSI components in the VMware User Cluster. Enabled by default.
- vsphere
Csi BooleanDisabled - Whether or not to deploy vSphere CSI components in the VMware User Cluster. Enabled by default.
- vsphere
Csi booleanDisabled - Whether or not to deploy vSphere CSI components in the VMware User Cluster. Enabled by default.
- vsphere_
csi_ booldisabled - Whether or not to deploy vSphere CSI components in the VMware User Cluster. Enabled by default.
- vsphere
Csi BooleanDisabled - Whether or not to deploy vSphere CSI components in the VMware User Cluster. Enabled by default.
VMwareClusterUpgradePolicy, VMwareClusterUpgradePolicyArgs
- Control
Plane boolOnly - Controls whether the upgrade applies to the control plane only.
- Control
Plane boolOnly - Controls whether the upgrade applies to the control plane only.
- control
Plane BooleanOnly - Controls whether the upgrade applies to the control plane only.
- control
Plane booleanOnly - Controls whether the upgrade applies to the control plane only.
- control_
plane_ boolonly - Controls whether the upgrade applies to the control plane only.
- control
Plane BooleanOnly - Controls whether the upgrade applies to the control plane only.
VMwareClusterValidationCheck, VMwareClusterValidationCheckArgs
- Options string
- (Output) Options used for the validation check.
- Scenario string
- (Output) The scenario when the preflight checks were run..
- Statuses
List<VMware
Cluster Validation Check Status> - (Output) Specifies the detailed validation check status Structure is documented below.
- Options string
- (Output) Options used for the validation check.
- Scenario string
- (Output) The scenario when the preflight checks were run..
- Statuses
[]VMware
Cluster Validation Check Status - (Output) Specifies the detailed validation check status Structure is documented below.
- options String
- (Output) Options used for the validation check.
- scenario String
- (Output) The scenario when the preflight checks were run..
- statuses
List<VMware
Cluster Validation Check Status> - (Output) Specifies the detailed validation check status Structure is documented below.
- options string
- (Output) Options used for the validation check.
- scenario string
- (Output) The scenario when the preflight checks were run..
- statuses
VMware
Cluster Validation Check Status[] - (Output) Specifies the detailed validation check status Structure is documented below.
- options str
- (Output) Options used for the validation check.
- scenario str
- (Output) The scenario when the preflight checks were run..
- statuses
Sequence[VMware
Cluster Validation Check Status] - (Output) Specifies the detailed validation check status Structure is documented below.
- options String
- (Output) Options used for the validation check.
- scenario String
- (Output) The scenario when the preflight checks were run..
- statuses List<Property Map>
- (Output) Specifies the detailed validation check status Structure is documented below.
VMwareClusterValidationCheckStatus, VMwareClusterValidationCheckStatusArgs
- Results
List<VMware
Cluster Validation Check Status Result> - (Output) Individual checks which failed as part of the Preflight check execution. Structure is documented below.
- Results
[]VMware
Cluster Validation Check Status Result - (Output) Individual checks which failed as part of the Preflight check execution. Structure is documented below.
- results
List<VMware
Cluster Validation Check Status Result> - (Output) Individual checks which failed as part of the Preflight check execution. Structure is documented below.
- results
VMware
Cluster Validation Check Status Result[] - (Output) Individual checks which failed as part of the Preflight check execution. Structure is documented below.
- results
Sequence[VMware
Cluster Validation Check Status Result] - (Output) Individual checks which failed as part of the Preflight check execution. Structure is documented below.
- results List<Property Map>
- (Output) Individual checks which failed as part of the Preflight check execution. Structure is documented below.
VMwareClusterValidationCheckStatusResult, VMwareClusterValidationCheckStatusResultArgs
- Category string
- (Output) The category of the validation.
- Description string
- (Output) The description of the validation check.
- Details string
- (Output) Detailed failure information, which might be unformatted.
- Options string
- (Output) Options used for the validation check.
- Reason string
- (Output) Machine-readable message indicating details about last transition.
- Category string
- (Output) The category of the validation.
- Description string
- (Output) The description of the validation check.
- Details string
- (Output) Detailed failure information, which might be unformatted.
- Options string
- (Output) Options used for the validation check.
- Reason string
- (Output) Machine-readable message indicating details about last transition.
- category String
- (Output) The category of the validation.
- description String
- (Output) The description of the validation check.
- details String
- (Output) Detailed failure information, which might be unformatted.
- options String
- (Output) Options used for the validation check.
- reason String
- (Output) Machine-readable message indicating details about last transition.
- category string
- (Output) The category of the validation.
- description string
- (Output) The description of the validation check.
- details string
- (Output) Detailed failure information, which might be unformatted.
- options string
- (Output) Options used for the validation check.
- reason string
- (Output) Machine-readable message indicating details about last transition.
- category str
- (Output) The category of the validation.
- description str
- (Output) The description of the validation check.
- details str
- (Output) Detailed failure information, which might be unformatted.
- options str
- (Output) Options used for the validation check.
- reason str
- (Output) Machine-readable message indicating details about last transition.
- category String
- (Output) The category of the validation.
- description String
- (Output) The description of the validation check.
- details String
- (Output) Detailed failure information, which might be unformatted.
- options String
- (Output) Options used for the validation check.
- reason String
- (Output) Machine-readable message indicating details about last transition.
VMwareClusterVcenter, VMwareClusterVcenterArgs
- Address string
- (Output) The vCenter IP address.
- Ca
Cert stringData - Contains the vCenter CA certificate public key for SSL verification.
- Cluster string
- The name of the vCenter cluster for the user cluster.
- Datacenter string
- The name of the vCenter datacenter for the user cluster.
- Datastore string
- The name of the vCenter datastore for the user cluster.
- Folder string
- The name of the vCenter folder for the user cluster.
- Resource
Pool string - The name of the vCenter resource pool for the user cluster.
- Storage
Policy stringName - The name of the vCenter storage policy for the user cluster.
- Address string
- (Output) The vCenter IP address.
- Ca
Cert stringData - Contains the vCenter CA certificate public key for SSL verification.
- Cluster string
- The name of the vCenter cluster for the user cluster.
- Datacenter string
- The name of the vCenter datacenter for the user cluster.
- Datastore string
- The name of the vCenter datastore for the user cluster.
- Folder string
- The name of the vCenter folder for the user cluster.
- Resource
Pool string - The name of the vCenter resource pool for the user cluster.
- Storage
Policy stringName - The name of the vCenter storage policy for the user cluster.
- address String
- (Output) The vCenter IP address.
- ca
Cert StringData - Contains the vCenter CA certificate public key for SSL verification.
- cluster String
- The name of the vCenter cluster for the user cluster.
- datacenter String
- The name of the vCenter datacenter for the user cluster.
- datastore String
- The name of the vCenter datastore for the user cluster.
- folder String
- The name of the vCenter folder for the user cluster.
- resource
Pool String - The name of the vCenter resource pool for the user cluster.
- storage
Policy StringName - The name of the vCenter storage policy for the user cluster.
- address string
- (Output) The vCenter IP address.
- ca
Cert stringData - Contains the vCenter CA certificate public key for SSL verification.
- cluster string
- The name of the vCenter cluster for the user cluster.
- datacenter string
- The name of the vCenter datacenter for the user cluster.
- datastore string
- The name of the vCenter datastore for the user cluster.
- folder string
- The name of the vCenter folder for the user cluster.
- resource
Pool string - The name of the vCenter resource pool for the user cluster.
- storage
Policy stringName - The name of the vCenter storage policy for the user cluster.
- address str
- (Output) The vCenter IP address.
- ca_
cert_ strdata - Contains the vCenter CA certificate public key for SSL verification.
- cluster str
- The name of the vCenter cluster for the user cluster.
- datacenter str
- The name of the vCenter datacenter for the user cluster.
- datastore str
- The name of the vCenter datastore for the user cluster.
- folder str
- The name of the vCenter folder for the user cluster.
- resource_
pool str - The name of the vCenter resource pool for the user cluster.
- storage_
policy_ strname - The name of the vCenter storage policy for the user cluster.
- address String
- (Output) The vCenter IP address.
- ca
Cert StringData - Contains the vCenter CA certificate public key for SSL verification.
- cluster String
- The name of the vCenter cluster for the user cluster.
- datacenter String
- The name of the vCenter datacenter for the user cluster.
- datastore String
- The name of the vCenter datastore for the user cluster.
- folder String
- The name of the vCenter folder for the user cluster.
- resource
Pool String - The name of the vCenter resource pool for the user cluster.
- storage
Policy StringName - The name of the vCenter storage policy for the user cluster.
Import
VmwareCluster can be imported using any of these accepted formats:
projects/{{project}}/locations/{{location}}/vmwareClusters/{{name}}
{{project}}/{{location}}/{{name}}
{{location}}/{{name}}
When using the pulumi import
command, VmwareCluster can be imported using one of the formats above. For example:
$ pulumi import gcp:gkeonprem/vMwareCluster:VMwareCluster default projects/{{project}}/locations/{{location}}/vmwareClusters/{{name}}
$ pulumi import gcp:gkeonprem/vMwareCluster:VMwareCluster default {{project}}/{{location}}/{{name}}
$ pulumi import gcp:gkeonprem/vMwareCluster:VMwareCluster default {{location}}/{{name}}
To learn more about importing existing cloud resources, see Importing resources.
Package Details
- Repository
- Google Cloud (GCP) Classic pulumi/pulumi-gcp
- License
- Apache-2.0
- Notes
- This Pulumi package is based on the
google-beta
Terraform Provider.