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vSphere v4.12.1 published on Tuesday, Oct 22, 2024 by Pulumi

vsphere.Supervisor

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vSphere v4.12.1 published on Tuesday, Oct 22, 2024 by Pulumi

    Provides a resource for configuring Workload Management.

    Example Usage

    S

    Enable Workload Management on a compute cluster

    import * as pulumi from "@pulumi/pulumi";
    import * as vsphere from "@pulumi/vsphere";
    
    const vmClass = new vsphere.VirtualMachineClass("vm_class", {
        name: "custom-class",
        cpus: 4,
        memory: 4096,
    });
    const supervisor = new vsphere.Supervisor("supervisor", {
        cluster: "<compute_cluster_id>",
        storagePolicy: "<storage_policy_name>",
        contentLibrary: "<content_library_id>",
        mainDns: "10.0.0.250",
        workerDns: "10.0.0.250",
        edgeCluster: "<edge_cluster_id>",
        dvsUuid: "<distributed_switch_uuid>",
        sizingHint: "MEDIUM",
        managementNetwork: {
            network: "<portgroup_id>",
            subnetMask: "255.255.255.0",
            startingAddress: "10.0.0.150",
            gateway: "10.0.0.250",
            addressCount: 5,
        },
        ingressCidrs: [{
            address: "10.10.10.0",
            prefix: 24,
        }],
        egressCidrs: [{
            address: "10.10.11.0",
            prefix: 24,
        }],
        podCidrs: [{
            address: "10.244.10.0",
            prefix: 23,
        }],
        serviceCidr: {
            address: "10.10.12.0",
            prefix: 24,
        },
        searchDomains: "vsphere.local",
        namespaces: [{
            name: "custom-namespace",
            contentLibraries: [],
            vmClasses: [vmClass.id],
        }],
    });
    
    import pulumi
    import pulumi_vsphere as vsphere
    
    vm_class = vsphere.VirtualMachineClass("vm_class",
        name="custom-class",
        cpus=4,
        memory=4096)
    supervisor = vsphere.Supervisor("supervisor",
        cluster="<compute_cluster_id>",
        storage_policy="<storage_policy_name>",
        content_library="<content_library_id>",
        main_dns="10.0.0.250",
        worker_dns="10.0.0.250",
        edge_cluster="<edge_cluster_id>",
        dvs_uuid="<distributed_switch_uuid>",
        sizing_hint="MEDIUM",
        management_network={
            "network": "<portgroup_id>",
            "subnet_mask": "255.255.255.0",
            "starting_address": "10.0.0.150",
            "gateway": "10.0.0.250",
            "address_count": 5,
        },
        ingress_cidrs=[{
            "address": "10.10.10.0",
            "prefix": 24,
        }],
        egress_cidrs=[{
            "address": "10.10.11.0",
            "prefix": 24,
        }],
        pod_cidrs=[{
            "address": "10.244.10.0",
            "prefix": 23,
        }],
        service_cidr={
            "address": "10.10.12.0",
            "prefix": 24,
        },
        search_domains="vsphere.local",
        namespaces=[{
            "name": "custom-namespace",
            "content_libraries": [],
            "vm_classes": [vm_class.id],
        }])
    
    package main
    
    import (
    	"github.com/pulumi/pulumi-vsphere/sdk/v4/go/vsphere"
    	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
    )
    
    func main() {
    	pulumi.Run(func(ctx *pulumi.Context) error {
    		vmClass, err := vsphere.NewVirtualMachineClass(ctx, "vm_class", &vsphere.VirtualMachineClassArgs{
    			Name:   pulumi.String("custom-class"),
    			Cpus:   pulumi.Int(4),
    			Memory: pulumi.Int(4096),
    		})
    		if err != nil {
    			return err
    		}
    		_, err = vsphere.NewSupervisor(ctx, "supervisor", &vsphere.SupervisorArgs{
    			Cluster:        pulumi.String("<compute_cluster_id>"),
    			StoragePolicy:  pulumi.String("<storage_policy_name>"),
    			ContentLibrary: pulumi.String("<content_library_id>"),
    			MainDns:        pulumi.StringArray("10.0.0.250"),
    			WorkerDns:      pulumi.StringArray("10.0.0.250"),
    			EdgeCluster:    pulumi.String("<edge_cluster_id>"),
    			DvsUuid:        pulumi.String("<distributed_switch_uuid>"),
    			SizingHint:     pulumi.String("MEDIUM"),
    			ManagementNetwork: &vsphere.SupervisorManagementNetworkArgs{
    				Network:         pulumi.String("<portgroup_id>"),
    				SubnetMask:      pulumi.String("255.255.255.0"),
    				StartingAddress: pulumi.String("10.0.0.150"),
    				Gateway:         pulumi.String("10.0.0.250"),
    				AddressCount:    pulumi.Int(5),
    			},
    			IngressCidrs: vsphere.SupervisorIngressCidrArray{
    				&vsphere.SupervisorIngressCidrArgs{
    					Address: pulumi.String("10.10.10.0"),
    					Prefix:  pulumi.Int(24),
    				},
    			},
    			EgressCidrs: vsphere.SupervisorEgressCidrArray{
    				&vsphere.SupervisorEgressCidrArgs{
    					Address: pulumi.String("10.10.11.0"),
    					Prefix:  pulumi.Int(24),
    				},
    			},
    			PodCidrs: vsphere.SupervisorPodCidrArray{
    				&vsphere.SupervisorPodCidrArgs{
    					Address: pulumi.String("10.244.10.0"),
    					Prefix:  pulumi.Int(23),
    				},
    			},
    			ServiceCidr: &vsphere.SupervisorServiceCidrArgs{
    				Address: pulumi.String("10.10.12.0"),
    				Prefix:  pulumi.Int(24),
    			},
    			SearchDomains: pulumi.String("vsphere.local"),
    			Namespaces: vsphere.SupervisorNamespaceArray{
    				&vsphere.SupervisorNamespaceArgs{
    					Name:             pulumi.String("custom-namespace"),
    					ContentLibraries: pulumi.StringArray{},
    					VmClasses: pulumi.StringArray{
    						vmClass.ID(),
    					},
    				},
    			},
    		})
    		if err != nil {
    			return err
    		}
    		return nil
    	})
    }
    
    using System.Collections.Generic;
    using System.Linq;
    using Pulumi;
    using VSphere = Pulumi.VSphere;
    
    return await Deployment.RunAsync(() => 
    {
        var vmClass = new VSphere.VirtualMachineClass("vm_class", new()
        {
            Name = "custom-class",
            Cpus = 4,
            Memory = 4096,
        });
    
        var supervisor = new VSphere.Supervisor("supervisor", new()
        {
            Cluster = "<compute_cluster_id>",
            StoragePolicy = "<storage_policy_name>",
            ContentLibrary = "<content_library_id>",
            MainDns = "10.0.0.250",
            WorkerDns = "10.0.0.250",
            EdgeCluster = "<edge_cluster_id>",
            DvsUuid = "<distributed_switch_uuid>",
            SizingHint = "MEDIUM",
            ManagementNetwork = new VSphere.Inputs.SupervisorManagementNetworkArgs
            {
                Network = "<portgroup_id>",
                SubnetMask = "255.255.255.0",
                StartingAddress = "10.0.0.150",
                Gateway = "10.0.0.250",
                AddressCount = 5,
            },
            IngressCidrs = new[]
            {
                new VSphere.Inputs.SupervisorIngressCidrArgs
                {
                    Address = "10.10.10.0",
                    Prefix = 24,
                },
            },
            EgressCidrs = new[]
            {
                new VSphere.Inputs.SupervisorEgressCidrArgs
                {
                    Address = "10.10.11.0",
                    Prefix = 24,
                },
            },
            PodCidrs = new[]
            {
                new VSphere.Inputs.SupervisorPodCidrArgs
                {
                    Address = "10.244.10.0",
                    Prefix = 23,
                },
            },
            ServiceCidr = new VSphere.Inputs.SupervisorServiceCidrArgs
            {
                Address = "10.10.12.0",
                Prefix = 24,
            },
            SearchDomains = "vsphere.local",
            Namespaces = new[]
            {
                new VSphere.Inputs.SupervisorNamespaceArgs
                {
                    Name = "custom-namespace",
                    ContentLibraries = new() { },
                    VmClasses = new[]
                    {
                        vmClass.Id,
                    },
                },
            },
        });
    
    });
    
    package generated_program;
    
    import com.pulumi.Context;
    import com.pulumi.Pulumi;
    import com.pulumi.core.Output;
    import com.pulumi.vsphere.VirtualMachineClass;
    import com.pulumi.vsphere.VirtualMachineClassArgs;
    import com.pulumi.vsphere.Supervisor;
    import com.pulumi.vsphere.SupervisorArgs;
    import com.pulumi.vsphere.inputs.SupervisorManagementNetworkArgs;
    import com.pulumi.vsphere.inputs.SupervisorIngressCidrArgs;
    import com.pulumi.vsphere.inputs.SupervisorEgressCidrArgs;
    import com.pulumi.vsphere.inputs.SupervisorPodCidrArgs;
    import com.pulumi.vsphere.inputs.SupervisorServiceCidrArgs;
    import com.pulumi.vsphere.inputs.SupervisorNamespaceArgs;
    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 vmClass = new VirtualMachineClass("vmClass", VirtualMachineClassArgs.builder()
                .name("custom-class")
                .cpus(4)
                .memory(4096)
                .build());
    
            var supervisor = new Supervisor("supervisor", SupervisorArgs.builder()
                .cluster("<compute_cluster_id>")
                .storagePolicy("<storage_policy_name>")
                .contentLibrary("<content_library_id>")
                .mainDns("10.0.0.250")
                .workerDns("10.0.0.250")
                .edgeCluster("<edge_cluster_id>")
                .dvsUuid("<distributed_switch_uuid>")
                .sizingHint("MEDIUM")
                .managementNetwork(SupervisorManagementNetworkArgs.builder()
                    .network("<portgroup_id>")
                    .subnetMask("255.255.255.0")
                    .startingAddress("10.0.0.150")
                    .gateway("10.0.0.250")
                    .addressCount(5)
                    .build())
                .ingressCidrs(SupervisorIngressCidrArgs.builder()
                    .address("10.10.10.0")
                    .prefix(24)
                    .build())
                .egressCidrs(SupervisorEgressCidrArgs.builder()
                    .address("10.10.11.0")
                    .prefix(24)
                    .build())
                .podCidrs(SupervisorPodCidrArgs.builder()
                    .address("10.244.10.0")
                    .prefix(23)
                    .build())
                .serviceCidr(SupervisorServiceCidrArgs.builder()
                    .address("10.10.12.0")
                    .prefix(24)
                    .build())
                .searchDomains("vsphere.local")
                .namespaces(SupervisorNamespaceArgs.builder()
                    .name("custom-namespace")
                    .contentLibraries()
                    .vmClasses(vmClass.id())
                    .build())
                .build());
    
        }
    }
    
    resources:
      vmClass:
        type: vsphere:VirtualMachineClass
        name: vm_class
        properties:
          name: custom-class
          cpus: 4
          memory: 4096
      supervisor:
        type: vsphere:Supervisor
        properties:
          cluster: <compute_cluster_id>
          storagePolicy: <storage_policy_name>
          contentLibrary: <content_library_id>
          mainDns: 10.0.0.250
          workerDns: 10.0.0.250
          edgeCluster: <edge_cluster_id>
          dvsUuid: <distributed_switch_uuid>
          sizingHint: MEDIUM
          managementNetwork:
            network: <portgroup_id>
            subnetMask: 255.255.255.0
            startingAddress: 10.0.0.150
            gateway: 10.0.0.250
            addressCount: 5
          ingressCidrs:
            - address: 10.10.10.0
              prefix: 24
          egressCidrs:
            - address: 10.10.11.0
              prefix: 24
          podCidrs:
            - address: 10.244.10.0
              prefix: 23
          serviceCidr:
            address: 10.10.12.0
            prefix: 24
          searchDomains: vsphere.local
          namespaces:
            - name: custom-namespace
              contentLibraries: []
              vmClasses:
                - ${vmClass.id}
    

    Create Supervisor Resource

    Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.

    Constructor syntax

    new Supervisor(name: string, args: SupervisorArgs, opts?: CustomResourceOptions);
    @overload
    def Supervisor(resource_name: str,
                   args: SupervisorArgs,
                   opts: Optional[ResourceOptions] = None)
    
    @overload
    def Supervisor(resource_name: str,
                   opts: Optional[ResourceOptions] = None,
                   main_dns: Optional[Sequence[str]] = None,
                   search_domains: Optional[str] = None,
                   dvs_uuid: Optional[str] = None,
                   edge_cluster: Optional[str] = None,
                   egress_cidrs: Optional[Sequence[SupervisorEgressCidrArgs]] = None,
                   ingress_cidrs: Optional[Sequence[SupervisorIngressCidrArgs]] = None,
                   content_library: Optional[str] = None,
                   worker_dns: Optional[Sequence[str]] = None,
                   cluster: Optional[str] = None,
                   pod_cidrs: Optional[Sequence[SupervisorPodCidrArgs]] = None,
                   management_network: Optional[SupervisorManagementNetworkArgs] = None,
                   service_cidr: Optional[SupervisorServiceCidrArgs] = None,
                   sizing_hint: Optional[str] = None,
                   storage_policy: Optional[str] = None,
                   namespaces: Optional[Sequence[SupervisorNamespaceArgs]] = None)
    func NewSupervisor(ctx *Context, name string, args SupervisorArgs, opts ...ResourceOption) (*Supervisor, error)
    public Supervisor(string name, SupervisorArgs args, CustomResourceOptions? opts = null)
    public Supervisor(String name, SupervisorArgs args)
    public Supervisor(String name, SupervisorArgs args, CustomResourceOptions options)
    
    type: vsphere:Supervisor
    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 SupervisorArgs
    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 SupervisorArgs
    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 SupervisorArgs
    The arguments to resource properties.
    opts ResourceOption
    Bag of options to control resource's behavior.
    name string
    The unique name of the resource.
    args SupervisorArgs
    The arguments to resource properties.
    opts CustomResourceOptions
    Bag of options to control resource's behavior.
    name String
    The unique name of the resource.
    args SupervisorArgs
    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 supervisorResource = new VSphere.Supervisor("supervisorResource", new()
    {
        MainDns = new[]
        {
            "string",
        },
        SearchDomains = "string",
        DvsUuid = "string",
        EdgeCluster = "string",
        EgressCidrs = new[]
        {
            new VSphere.Inputs.SupervisorEgressCidrArgs
            {
                Address = "string",
                Prefix = 0,
            },
        },
        IngressCidrs = new[]
        {
            new VSphere.Inputs.SupervisorIngressCidrArgs
            {
                Address = "string",
                Prefix = 0,
            },
        },
        ContentLibrary = "string",
        WorkerDns = new[]
        {
            "string",
        },
        Cluster = "string",
        PodCidrs = new[]
        {
            new VSphere.Inputs.SupervisorPodCidrArgs
            {
                Address = "string",
                Prefix = 0,
            },
        },
        ManagementNetwork = new VSphere.Inputs.SupervisorManagementNetworkArgs
        {
            AddressCount = 0,
            Gateway = "string",
            Network = "string",
            StartingAddress = "string",
            SubnetMask = "string",
        },
        ServiceCidr = new VSphere.Inputs.SupervisorServiceCidrArgs
        {
            Address = "string",
            Prefix = 0,
        },
        SizingHint = "string",
        StoragePolicy = "string",
        Namespaces = new[]
        {
            new VSphere.Inputs.SupervisorNamespaceArgs
            {
                Name = "string",
                ContentLibraries = new[]
                {
                    "string",
                },
                VmClasses = new[]
                {
                    "string",
                },
            },
        },
    });
    
    example, err := vsphere.NewSupervisor(ctx, "supervisorResource", &vsphere.SupervisorArgs{
    	MainDns: pulumi.StringArray{
    		pulumi.String("string"),
    	},
    	SearchDomains: pulumi.String("string"),
    	DvsUuid:       pulumi.String("string"),
    	EdgeCluster:   pulumi.String("string"),
    	EgressCidrs: vsphere.SupervisorEgressCidrArray{
    		&vsphere.SupervisorEgressCidrArgs{
    			Address: pulumi.String("string"),
    			Prefix:  pulumi.Int(0),
    		},
    	},
    	IngressCidrs: vsphere.SupervisorIngressCidrArray{
    		&vsphere.SupervisorIngressCidrArgs{
    			Address: pulumi.String("string"),
    			Prefix:  pulumi.Int(0),
    		},
    	},
    	ContentLibrary: pulumi.String("string"),
    	WorkerDns: pulumi.StringArray{
    		pulumi.String("string"),
    	},
    	Cluster: pulumi.String("string"),
    	PodCidrs: vsphere.SupervisorPodCidrArray{
    		&vsphere.SupervisorPodCidrArgs{
    			Address: pulumi.String("string"),
    			Prefix:  pulumi.Int(0),
    		},
    	},
    	ManagementNetwork: &vsphere.SupervisorManagementNetworkArgs{
    		AddressCount:    pulumi.Int(0),
    		Gateway:         pulumi.String("string"),
    		Network:         pulumi.String("string"),
    		StartingAddress: pulumi.String("string"),
    		SubnetMask:      pulumi.String("string"),
    	},
    	ServiceCidr: &vsphere.SupervisorServiceCidrArgs{
    		Address: pulumi.String("string"),
    		Prefix:  pulumi.Int(0),
    	},
    	SizingHint:    pulumi.String("string"),
    	StoragePolicy: pulumi.String("string"),
    	Namespaces: vsphere.SupervisorNamespaceArray{
    		&vsphere.SupervisorNamespaceArgs{
    			Name: pulumi.String("string"),
    			ContentLibraries: pulumi.StringArray{
    				pulumi.String("string"),
    			},
    			VmClasses: pulumi.StringArray{
    				pulumi.String("string"),
    			},
    		},
    	},
    })
    
    var supervisorResource = new Supervisor("supervisorResource", SupervisorArgs.builder()
        .mainDns("string")
        .searchDomains("string")
        .dvsUuid("string")
        .edgeCluster("string")
        .egressCidrs(SupervisorEgressCidrArgs.builder()
            .address("string")
            .prefix(0)
            .build())
        .ingressCidrs(SupervisorIngressCidrArgs.builder()
            .address("string")
            .prefix(0)
            .build())
        .contentLibrary("string")
        .workerDns("string")
        .cluster("string")
        .podCidrs(SupervisorPodCidrArgs.builder()
            .address("string")
            .prefix(0)
            .build())
        .managementNetwork(SupervisorManagementNetworkArgs.builder()
            .addressCount(0)
            .gateway("string")
            .network("string")
            .startingAddress("string")
            .subnetMask("string")
            .build())
        .serviceCidr(SupervisorServiceCidrArgs.builder()
            .address("string")
            .prefix(0)
            .build())
        .sizingHint("string")
        .storagePolicy("string")
        .namespaces(SupervisorNamespaceArgs.builder()
            .name("string")
            .contentLibraries("string")
            .vmClasses("string")
            .build())
        .build());
    
    supervisor_resource = vsphere.Supervisor("supervisorResource",
        main_dns=["string"],
        search_domains="string",
        dvs_uuid="string",
        edge_cluster="string",
        egress_cidrs=[{
            "address": "string",
            "prefix": 0,
        }],
        ingress_cidrs=[{
            "address": "string",
            "prefix": 0,
        }],
        content_library="string",
        worker_dns=["string"],
        cluster="string",
        pod_cidrs=[{
            "address": "string",
            "prefix": 0,
        }],
        management_network={
            "address_count": 0,
            "gateway": "string",
            "network": "string",
            "starting_address": "string",
            "subnet_mask": "string",
        },
        service_cidr={
            "address": "string",
            "prefix": 0,
        },
        sizing_hint="string",
        storage_policy="string",
        namespaces=[{
            "name": "string",
            "content_libraries": ["string"],
            "vm_classes": ["string"],
        }])
    
    const supervisorResource = new vsphere.Supervisor("supervisorResource", {
        mainDns: ["string"],
        searchDomains: "string",
        dvsUuid: "string",
        edgeCluster: "string",
        egressCidrs: [{
            address: "string",
            prefix: 0,
        }],
        ingressCidrs: [{
            address: "string",
            prefix: 0,
        }],
        contentLibrary: "string",
        workerDns: ["string"],
        cluster: "string",
        podCidrs: [{
            address: "string",
            prefix: 0,
        }],
        managementNetwork: {
            addressCount: 0,
            gateway: "string",
            network: "string",
            startingAddress: "string",
            subnetMask: "string",
        },
        serviceCidr: {
            address: "string",
            prefix: 0,
        },
        sizingHint: "string",
        storagePolicy: "string",
        namespaces: [{
            name: "string",
            contentLibraries: ["string"],
            vmClasses: ["string"],
        }],
    });
    
    type: vsphere:Supervisor
    properties:
        cluster: string
        contentLibrary: string
        dvsUuid: string
        edgeCluster: string
        egressCidrs:
            - address: string
              prefix: 0
        ingressCidrs:
            - address: string
              prefix: 0
        mainDns:
            - string
        managementNetwork:
            addressCount: 0
            gateway: string
            network: string
            startingAddress: string
            subnetMask: string
        namespaces:
            - contentLibraries:
                - string
              name: string
              vmClasses:
                - string
        podCidrs:
            - address: string
              prefix: 0
        searchDomains: string
        serviceCidr:
            address: string
            prefix: 0
        sizingHint: string
        storagePolicy: string
        workerDns:
            - string
    

    Supervisor 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 Supervisor resource accepts the following input properties:

    Cluster string
    The identifier of the compute cluster.
    ContentLibrary string
    The identifier of the subscribed content library.
    DvsUuid string
    The UUID of the distributed switch.
    EdgeCluster string
    The identifier of the NSX Edge Cluster.
    EgressCidrs List<Pulumi.VSphere.Inputs.SupervisorEgressCidr>
    CIDR blocks from which NSX assigns IP addresses used for performing SNAT from container IPs to external IPs.
    IngressCidrs List<Pulumi.VSphere.Inputs.SupervisorIngressCidr>
    CIDR blocks from which NSX assigns IP addresses for Kubernetes Ingresses and Kubernetes Services of type LoadBalancer.
    MainDns List<string>
    The list of addresses of the primary DNS servers.
    ManagementNetwork Pulumi.VSphere.Inputs.SupervisorManagementNetwork
    The configuration for the management network which the control plane VMs will be connected to.

      • network - ID of the network. (e.g. a distributed port group).
      • starting_address - Starting address of the management network range.
      • subnet_mask - Subnet mask.
      • gateway - Gateway IP address.
      • address_count - Number of addresses to allocate. Starts from starting_address
    PodCidrs List<Pulumi.VSphere.Inputs.SupervisorPodCidr>
    CIDR blocks from which Kubernetes allocates pod IP addresses. Minimum subnet size is 23.
    SearchDomains string
    List of DNS search domains.
    ServiceCidr Pulumi.VSphere.Inputs.SupervisorServiceCidr
    CIDR block from which Kubernetes allocates service cluster IP addresses.
    SizingHint string
    The size of the Kubernetes API server.
    StoragePolicy string
    The name of the storage policy.
    WorkerDns List<string>
    The list of addresses of the DNS servers to use for the worker nodes.
    Namespaces List<Pulumi.VSphere.Inputs.SupervisorNamespace>
    The list of namespaces to create in the Supervisor cluster
    Cluster string
    The identifier of the compute cluster.
    ContentLibrary string
    The identifier of the subscribed content library.
    DvsUuid string
    The UUID of the distributed switch.
    EdgeCluster string
    The identifier of the NSX Edge Cluster.
    EgressCidrs []SupervisorEgressCidrArgs
    CIDR blocks from which NSX assigns IP addresses used for performing SNAT from container IPs to external IPs.
    IngressCidrs []SupervisorIngressCidrArgs
    CIDR blocks from which NSX assigns IP addresses for Kubernetes Ingresses and Kubernetes Services of type LoadBalancer.
    MainDns []string
    The list of addresses of the primary DNS servers.
    ManagementNetwork SupervisorManagementNetworkArgs
    The configuration for the management network which the control plane VMs will be connected to.

      • network - ID of the network. (e.g. a distributed port group).
      • starting_address - Starting address of the management network range.
      • subnet_mask - Subnet mask.
      • gateway - Gateway IP address.
      • address_count - Number of addresses to allocate. Starts from starting_address
    PodCidrs []SupervisorPodCidrArgs
    CIDR blocks from which Kubernetes allocates pod IP addresses. Minimum subnet size is 23.
    SearchDomains string
    List of DNS search domains.
    ServiceCidr SupervisorServiceCidrArgs
    CIDR block from which Kubernetes allocates service cluster IP addresses.
    SizingHint string
    The size of the Kubernetes API server.
    StoragePolicy string
    The name of the storage policy.
    WorkerDns []string
    The list of addresses of the DNS servers to use for the worker nodes.
    Namespaces []SupervisorNamespaceArgs
    The list of namespaces to create in the Supervisor cluster
    cluster String
    The identifier of the compute cluster.
    contentLibrary String
    The identifier of the subscribed content library.
    dvsUuid String
    The UUID of the distributed switch.
    edgeCluster String
    The identifier of the NSX Edge Cluster.
    egressCidrs List<SupervisorEgressCidr>
    CIDR blocks from which NSX assigns IP addresses used for performing SNAT from container IPs to external IPs.
    ingressCidrs List<SupervisorIngressCidr>
    CIDR blocks from which NSX assigns IP addresses for Kubernetes Ingresses and Kubernetes Services of type LoadBalancer.
    mainDns List<String>
    The list of addresses of the primary DNS servers.
    managementNetwork SupervisorManagementNetwork
    The configuration for the management network which the control plane VMs will be connected to.

      • network - ID of the network. (e.g. a distributed port group).
      • starting_address - Starting address of the management network range.
      • subnet_mask - Subnet mask.
      • gateway - Gateway IP address.
      • address_count - Number of addresses to allocate. Starts from starting_address
    podCidrs List<SupervisorPodCidr>
    CIDR blocks from which Kubernetes allocates pod IP addresses. Minimum subnet size is 23.
    searchDomains String
    List of DNS search domains.
    serviceCidr SupervisorServiceCidr
    CIDR block from which Kubernetes allocates service cluster IP addresses.
    sizingHint String
    The size of the Kubernetes API server.
    storagePolicy String
    The name of the storage policy.
    workerDns List<String>
    The list of addresses of the DNS servers to use for the worker nodes.
    namespaces List<SupervisorNamespace>
    The list of namespaces to create in the Supervisor cluster
    cluster string
    The identifier of the compute cluster.
    contentLibrary string
    The identifier of the subscribed content library.
    dvsUuid string
    The UUID of the distributed switch.
    edgeCluster string
    The identifier of the NSX Edge Cluster.
    egressCidrs SupervisorEgressCidr[]
    CIDR blocks from which NSX assigns IP addresses used for performing SNAT from container IPs to external IPs.
    ingressCidrs SupervisorIngressCidr[]
    CIDR blocks from which NSX assigns IP addresses for Kubernetes Ingresses and Kubernetes Services of type LoadBalancer.
    mainDns string[]
    The list of addresses of the primary DNS servers.
    managementNetwork SupervisorManagementNetwork
    The configuration for the management network which the control plane VMs will be connected to.

      • network - ID of the network. (e.g. a distributed port group).
      • starting_address - Starting address of the management network range.
      • subnet_mask - Subnet mask.
      • gateway - Gateway IP address.
      • address_count - Number of addresses to allocate. Starts from starting_address
    podCidrs SupervisorPodCidr[]
    CIDR blocks from which Kubernetes allocates pod IP addresses. Minimum subnet size is 23.
    searchDomains string
    List of DNS search domains.
    serviceCidr SupervisorServiceCidr
    CIDR block from which Kubernetes allocates service cluster IP addresses.
    sizingHint string
    The size of the Kubernetes API server.
    storagePolicy string
    The name of the storage policy.
    workerDns string[]
    The list of addresses of the DNS servers to use for the worker nodes.
    namespaces SupervisorNamespace[]
    The list of namespaces to create in the Supervisor cluster
    cluster str
    The identifier of the compute cluster.
    content_library str
    The identifier of the subscribed content library.
    dvs_uuid str
    The UUID of the distributed switch.
    edge_cluster str
    The identifier of the NSX Edge Cluster.
    egress_cidrs Sequence[SupervisorEgressCidrArgs]
    CIDR blocks from which NSX assigns IP addresses used for performing SNAT from container IPs to external IPs.
    ingress_cidrs Sequence[SupervisorIngressCidrArgs]
    CIDR blocks from which NSX assigns IP addresses for Kubernetes Ingresses and Kubernetes Services of type LoadBalancer.
    main_dns Sequence[str]
    The list of addresses of the primary DNS servers.
    management_network SupervisorManagementNetworkArgs
    The configuration for the management network which the control plane VMs will be connected to.

      • network - ID of the network. (e.g. a distributed port group).
      • starting_address - Starting address of the management network range.
      • subnet_mask - Subnet mask.
      • gateway - Gateway IP address.
      • address_count - Number of addresses to allocate. Starts from starting_address
    pod_cidrs Sequence[SupervisorPodCidrArgs]
    CIDR blocks from which Kubernetes allocates pod IP addresses. Minimum subnet size is 23.
    search_domains str
    List of DNS search domains.
    service_cidr SupervisorServiceCidrArgs
    CIDR block from which Kubernetes allocates service cluster IP addresses.
    sizing_hint str
    The size of the Kubernetes API server.
    storage_policy str
    The name of the storage policy.
    worker_dns Sequence[str]
    The list of addresses of the DNS servers to use for the worker nodes.
    namespaces Sequence[SupervisorNamespaceArgs]
    The list of namespaces to create in the Supervisor cluster
    cluster String
    The identifier of the compute cluster.
    contentLibrary String
    The identifier of the subscribed content library.
    dvsUuid String
    The UUID of the distributed switch.
    edgeCluster String
    The identifier of the NSX Edge Cluster.
    egressCidrs List<Property Map>
    CIDR blocks from which NSX assigns IP addresses used for performing SNAT from container IPs to external IPs.
    ingressCidrs List<Property Map>
    CIDR blocks from which NSX assigns IP addresses for Kubernetes Ingresses and Kubernetes Services of type LoadBalancer.
    mainDns List<String>
    The list of addresses of the primary DNS servers.
    managementNetwork Property Map
    The configuration for the management network which the control plane VMs will be connected to.

      • network - ID of the network. (e.g. a distributed port group).
      • starting_address - Starting address of the management network range.
      • subnet_mask - Subnet mask.
      • gateway - Gateway IP address.
      • address_count - Number of addresses to allocate. Starts from starting_address
    podCidrs List<Property Map>
    CIDR blocks from which Kubernetes allocates pod IP addresses. Minimum subnet size is 23.
    searchDomains String
    List of DNS search domains.
    serviceCidr Property Map
    CIDR block from which Kubernetes allocates service cluster IP addresses.
    sizingHint String
    The size of the Kubernetes API server.
    storagePolicy String
    The name of the storage policy.
    workerDns List<String>
    The list of addresses of the DNS servers to use for the worker nodes.
    namespaces List<Property Map>
    The list of namespaces to create in the Supervisor cluster

    Outputs

    All input properties are implicitly available as output properties. Additionally, the Supervisor resource produces the following output properties:

    Id string
    The provider-assigned unique ID for this managed resource.
    Id string
    The provider-assigned unique ID for this managed resource.
    id String
    The provider-assigned unique ID for this managed resource.
    id string
    The provider-assigned unique ID for this managed resource.
    id str
    The provider-assigned unique ID for this managed resource.
    id String
    The provider-assigned unique ID for this managed resource.

    Look up Existing Supervisor Resource

    Get an existing Supervisor 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?: SupervisorState, opts?: CustomResourceOptions): Supervisor
    @staticmethod
    def get(resource_name: str,
            id: str,
            opts: Optional[ResourceOptions] = None,
            cluster: Optional[str] = None,
            content_library: Optional[str] = None,
            dvs_uuid: Optional[str] = None,
            edge_cluster: Optional[str] = None,
            egress_cidrs: Optional[Sequence[SupervisorEgressCidrArgs]] = None,
            ingress_cidrs: Optional[Sequence[SupervisorIngressCidrArgs]] = None,
            main_dns: Optional[Sequence[str]] = None,
            management_network: Optional[SupervisorManagementNetworkArgs] = None,
            namespaces: Optional[Sequence[SupervisorNamespaceArgs]] = None,
            pod_cidrs: Optional[Sequence[SupervisorPodCidrArgs]] = None,
            search_domains: Optional[str] = None,
            service_cidr: Optional[SupervisorServiceCidrArgs] = None,
            sizing_hint: Optional[str] = None,
            storage_policy: Optional[str] = None,
            worker_dns: Optional[Sequence[str]] = None) -> Supervisor
    func GetSupervisor(ctx *Context, name string, id IDInput, state *SupervisorState, opts ...ResourceOption) (*Supervisor, error)
    public static Supervisor Get(string name, Input<string> id, SupervisorState? state, CustomResourceOptions? opts = null)
    public static Supervisor get(String name, Output<String> id, SupervisorState 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.
    The following state arguments are supported:
    Cluster string
    The identifier of the compute cluster.
    ContentLibrary string
    The identifier of the subscribed content library.
    DvsUuid string
    The UUID of the distributed switch.
    EdgeCluster string
    The identifier of the NSX Edge Cluster.
    EgressCidrs List<Pulumi.VSphere.Inputs.SupervisorEgressCidr>
    CIDR blocks from which NSX assigns IP addresses used for performing SNAT from container IPs to external IPs.
    IngressCidrs List<Pulumi.VSphere.Inputs.SupervisorIngressCidr>
    CIDR blocks from which NSX assigns IP addresses for Kubernetes Ingresses and Kubernetes Services of type LoadBalancer.
    MainDns List<string>
    The list of addresses of the primary DNS servers.
    ManagementNetwork Pulumi.VSphere.Inputs.SupervisorManagementNetwork
    The configuration for the management network which the control plane VMs will be connected to.

      • network - ID of the network. (e.g. a distributed port group).
      • starting_address - Starting address of the management network range.
      • subnet_mask - Subnet mask.
      • gateway - Gateway IP address.
      • address_count - Number of addresses to allocate. Starts from starting_address
    Namespaces List<Pulumi.VSphere.Inputs.SupervisorNamespace>
    The list of namespaces to create in the Supervisor cluster
    PodCidrs List<Pulumi.VSphere.Inputs.SupervisorPodCidr>
    CIDR blocks from which Kubernetes allocates pod IP addresses. Minimum subnet size is 23.
    SearchDomains string
    List of DNS search domains.
    ServiceCidr Pulumi.VSphere.Inputs.SupervisorServiceCidr
    CIDR block from which Kubernetes allocates service cluster IP addresses.
    SizingHint string
    The size of the Kubernetes API server.
    StoragePolicy string
    The name of the storage policy.
    WorkerDns List<string>
    The list of addresses of the DNS servers to use for the worker nodes.
    Cluster string
    The identifier of the compute cluster.
    ContentLibrary string
    The identifier of the subscribed content library.
    DvsUuid string
    The UUID of the distributed switch.
    EdgeCluster string
    The identifier of the NSX Edge Cluster.
    EgressCidrs []SupervisorEgressCidrArgs
    CIDR blocks from which NSX assigns IP addresses used for performing SNAT from container IPs to external IPs.
    IngressCidrs []SupervisorIngressCidrArgs
    CIDR blocks from which NSX assigns IP addresses for Kubernetes Ingresses and Kubernetes Services of type LoadBalancer.
    MainDns []string
    The list of addresses of the primary DNS servers.
    ManagementNetwork SupervisorManagementNetworkArgs
    The configuration for the management network which the control plane VMs will be connected to.

      • network - ID of the network. (e.g. a distributed port group).
      • starting_address - Starting address of the management network range.
      • subnet_mask - Subnet mask.
      • gateway - Gateway IP address.
      • address_count - Number of addresses to allocate. Starts from starting_address
    Namespaces []SupervisorNamespaceArgs
    The list of namespaces to create in the Supervisor cluster
    PodCidrs []SupervisorPodCidrArgs
    CIDR blocks from which Kubernetes allocates pod IP addresses. Minimum subnet size is 23.
    SearchDomains string
    List of DNS search domains.
    ServiceCidr SupervisorServiceCidrArgs
    CIDR block from which Kubernetes allocates service cluster IP addresses.
    SizingHint string
    The size of the Kubernetes API server.
    StoragePolicy string
    The name of the storage policy.
    WorkerDns []string
    The list of addresses of the DNS servers to use for the worker nodes.
    cluster String
    The identifier of the compute cluster.
    contentLibrary String
    The identifier of the subscribed content library.
    dvsUuid String
    The UUID of the distributed switch.
    edgeCluster String
    The identifier of the NSX Edge Cluster.
    egressCidrs List<SupervisorEgressCidr>
    CIDR blocks from which NSX assigns IP addresses used for performing SNAT from container IPs to external IPs.
    ingressCidrs List<SupervisorIngressCidr>
    CIDR blocks from which NSX assigns IP addresses for Kubernetes Ingresses and Kubernetes Services of type LoadBalancer.
    mainDns List<String>
    The list of addresses of the primary DNS servers.
    managementNetwork SupervisorManagementNetwork
    The configuration for the management network which the control plane VMs will be connected to.

      • network - ID of the network. (e.g. a distributed port group).
      • starting_address - Starting address of the management network range.
      • subnet_mask - Subnet mask.
      • gateway - Gateway IP address.
      • address_count - Number of addresses to allocate. Starts from starting_address
    namespaces List<SupervisorNamespace>
    The list of namespaces to create in the Supervisor cluster
    podCidrs List<SupervisorPodCidr>
    CIDR blocks from which Kubernetes allocates pod IP addresses. Minimum subnet size is 23.
    searchDomains String
    List of DNS search domains.
    serviceCidr SupervisorServiceCidr
    CIDR block from which Kubernetes allocates service cluster IP addresses.
    sizingHint String
    The size of the Kubernetes API server.
    storagePolicy String
    The name of the storage policy.
    workerDns List<String>
    The list of addresses of the DNS servers to use for the worker nodes.
    cluster string
    The identifier of the compute cluster.
    contentLibrary string
    The identifier of the subscribed content library.
    dvsUuid string
    The UUID of the distributed switch.
    edgeCluster string
    The identifier of the NSX Edge Cluster.
    egressCidrs SupervisorEgressCidr[]
    CIDR blocks from which NSX assigns IP addresses used for performing SNAT from container IPs to external IPs.
    ingressCidrs SupervisorIngressCidr[]
    CIDR blocks from which NSX assigns IP addresses for Kubernetes Ingresses and Kubernetes Services of type LoadBalancer.
    mainDns string[]
    The list of addresses of the primary DNS servers.
    managementNetwork SupervisorManagementNetwork
    The configuration for the management network which the control plane VMs will be connected to.

      • network - ID of the network. (e.g. a distributed port group).
      • starting_address - Starting address of the management network range.
      • subnet_mask - Subnet mask.
      • gateway - Gateway IP address.
      • address_count - Number of addresses to allocate. Starts from starting_address
    namespaces SupervisorNamespace[]
    The list of namespaces to create in the Supervisor cluster
    podCidrs SupervisorPodCidr[]
    CIDR blocks from which Kubernetes allocates pod IP addresses. Minimum subnet size is 23.
    searchDomains string
    List of DNS search domains.
    serviceCidr SupervisorServiceCidr
    CIDR block from which Kubernetes allocates service cluster IP addresses.
    sizingHint string
    The size of the Kubernetes API server.
    storagePolicy string
    The name of the storage policy.
    workerDns string[]
    The list of addresses of the DNS servers to use for the worker nodes.
    cluster str
    The identifier of the compute cluster.
    content_library str
    The identifier of the subscribed content library.
    dvs_uuid str
    The UUID of the distributed switch.
    edge_cluster str
    The identifier of the NSX Edge Cluster.
    egress_cidrs Sequence[SupervisorEgressCidrArgs]
    CIDR blocks from which NSX assigns IP addresses used for performing SNAT from container IPs to external IPs.
    ingress_cidrs Sequence[SupervisorIngressCidrArgs]
    CIDR blocks from which NSX assigns IP addresses for Kubernetes Ingresses and Kubernetes Services of type LoadBalancer.
    main_dns Sequence[str]
    The list of addresses of the primary DNS servers.
    management_network SupervisorManagementNetworkArgs
    The configuration for the management network which the control plane VMs will be connected to.

      • network - ID of the network. (e.g. a distributed port group).
      • starting_address - Starting address of the management network range.
      • subnet_mask - Subnet mask.
      • gateway - Gateway IP address.
      • address_count - Number of addresses to allocate. Starts from starting_address
    namespaces Sequence[SupervisorNamespaceArgs]
    The list of namespaces to create in the Supervisor cluster
    pod_cidrs Sequence[SupervisorPodCidrArgs]
    CIDR blocks from which Kubernetes allocates pod IP addresses. Minimum subnet size is 23.
    search_domains str
    List of DNS search domains.
    service_cidr SupervisorServiceCidrArgs
    CIDR block from which Kubernetes allocates service cluster IP addresses.
    sizing_hint str
    The size of the Kubernetes API server.
    storage_policy str
    The name of the storage policy.
    worker_dns Sequence[str]
    The list of addresses of the DNS servers to use for the worker nodes.
    cluster String
    The identifier of the compute cluster.
    contentLibrary String
    The identifier of the subscribed content library.
    dvsUuid String
    The UUID of the distributed switch.
    edgeCluster String
    The identifier of the NSX Edge Cluster.
    egressCidrs List<Property Map>
    CIDR blocks from which NSX assigns IP addresses used for performing SNAT from container IPs to external IPs.
    ingressCidrs List<Property Map>
    CIDR blocks from which NSX assigns IP addresses for Kubernetes Ingresses and Kubernetes Services of type LoadBalancer.
    mainDns List<String>
    The list of addresses of the primary DNS servers.
    managementNetwork Property Map
    The configuration for the management network which the control plane VMs will be connected to.

      • network - ID of the network. (e.g. a distributed port group).
      • starting_address - Starting address of the management network range.
      • subnet_mask - Subnet mask.
      • gateway - Gateway IP address.
      • address_count - Number of addresses to allocate. Starts from starting_address
    namespaces List<Property Map>
    The list of namespaces to create in the Supervisor cluster
    podCidrs List<Property Map>
    CIDR blocks from which Kubernetes allocates pod IP addresses. Minimum subnet size is 23.
    searchDomains String
    List of DNS search domains.
    serviceCidr Property Map
    CIDR block from which Kubernetes allocates service cluster IP addresses.
    sizingHint String
    The size of the Kubernetes API server.
    storagePolicy String
    The name of the storage policy.
    workerDns List<String>
    The list of addresses of the DNS servers to use for the worker nodes.

    Supporting Types

    SupervisorEgressCidr, SupervisorEgressCidrArgs

    Address string
    Network address.
    Prefix int
    Subnet prefix.
    Address string
    Network address.
    Prefix int
    Subnet prefix.
    address String
    Network address.
    prefix Integer
    Subnet prefix.
    address string
    Network address.
    prefix number
    Subnet prefix.
    address str
    Network address.
    prefix int
    Subnet prefix.
    address String
    Network address.
    prefix Number
    Subnet prefix.

    SupervisorIngressCidr, SupervisorIngressCidrArgs

    Address string
    Network address.
    Prefix int
    Subnet prefix.
    Address string
    Network address.
    Prefix int
    Subnet prefix.
    address String
    Network address.
    prefix Integer
    Subnet prefix.
    address string
    Network address.
    prefix number
    Subnet prefix.
    address str
    Network address.
    prefix int
    Subnet prefix.
    address String
    Network address.
    prefix Number
    Subnet prefix.

    SupervisorManagementNetwork, SupervisorManagementNetworkArgs

    AddressCount int
    Number of addresses to allocate. Starts from 'starting_address'
    Gateway string
    Gateway IP address.
    Network string
    ID of the network. (e.g. a distributed port group).
    StartingAddress string
    Starting address of the management network range.
    SubnetMask string
    Subnet mask.
    AddressCount int
    Number of addresses to allocate. Starts from 'starting_address'
    Gateway string
    Gateway IP address.
    Network string
    ID of the network. (e.g. a distributed port group).
    StartingAddress string
    Starting address of the management network range.
    SubnetMask string
    Subnet mask.
    addressCount Integer
    Number of addresses to allocate. Starts from 'starting_address'
    gateway String
    Gateway IP address.
    network String
    ID of the network. (e.g. a distributed port group).
    startingAddress String
    Starting address of the management network range.
    subnetMask String
    Subnet mask.
    addressCount number
    Number of addresses to allocate. Starts from 'starting_address'
    gateway string
    Gateway IP address.
    network string
    ID of the network. (e.g. a distributed port group).
    startingAddress string
    Starting address of the management network range.
    subnetMask string
    Subnet mask.
    address_count int
    Number of addresses to allocate. Starts from 'starting_address'
    gateway str
    Gateway IP address.
    network str
    ID of the network. (e.g. a distributed port group).
    starting_address str
    Starting address of the management network range.
    subnet_mask str
    Subnet mask.
    addressCount Number
    Number of addresses to allocate. Starts from 'starting_address'
    gateway String
    Gateway IP address.
    network String
    ID of the network. (e.g. a distributed port group).
    startingAddress String
    Starting address of the management network range.
    subnetMask String
    Subnet mask.

    SupervisorNamespace, SupervisorNamespaceArgs

    Name string
    The name of the namespace.
    ContentLibraries List<string>
    A list of content libraries.
    VmClasses List<string>
    A list of virtual machine classes.
    Name string
    The name of the namespace.
    ContentLibraries []string
    A list of content libraries.
    VmClasses []string
    A list of virtual machine classes.
    name String
    The name of the namespace.
    contentLibraries List<String>
    A list of content libraries.
    vmClasses List<String>
    A list of virtual machine classes.
    name string
    The name of the namespace.
    contentLibraries string[]
    A list of content libraries.
    vmClasses string[]
    A list of virtual machine classes.
    name str
    The name of the namespace.
    content_libraries Sequence[str]
    A list of content libraries.
    vm_classes Sequence[str]
    A list of virtual machine classes.
    name String
    The name of the namespace.
    contentLibraries List<String>
    A list of content libraries.
    vmClasses List<String>
    A list of virtual machine classes.

    SupervisorPodCidr, SupervisorPodCidrArgs

    Address string
    Network address.
    Prefix int
    Subnet prefix.
    Address string
    Network address.
    Prefix int
    Subnet prefix.
    address String
    Network address.
    prefix Integer
    Subnet prefix.
    address string
    Network address.
    prefix number
    Subnet prefix.
    address str
    Network address.
    prefix int
    Subnet prefix.
    address String
    Network address.
    prefix Number
    Subnet prefix.

    SupervisorServiceCidr, SupervisorServiceCidrArgs

    Address string
    Network address.
    Prefix int
    Subnet prefix.
    Address string
    Network address.
    Prefix int
    Subnet prefix.
    address String
    Network address.
    prefix Integer
    Subnet prefix.
    address string
    Network address.
    prefix number
    Subnet prefix.
    address str
    Network address.
    prefix int
    Subnet prefix.
    address String
    Network address.
    prefix Number
    Subnet prefix.

    Package Details

    Repository
    vSphere pulumi/pulumi-vsphere
    License
    Apache-2.0
    Notes
    This Pulumi package is based on the vsphere Terraform Provider.
    vsphere logo
    vSphere v4.12.1 published on Tuesday, Oct 22, 2024 by Pulumi