We recommend using Azure Native.
azure.hpc.CacheNfsTarget
Explore with Pulumi AI
Manages a NFS Target within a HPC Cache.
NOTE:: By request of the service team the provider no longer automatically registering the
Microsoft.StorageCache
Resource Provider for this resource. To register it you can runaz provider register --namespace 'Microsoft.StorageCache'
.
Example Usage
import * as pulumi from "@pulumi/pulumi";
import * as azure from "@pulumi/azure";
import * as std from "@pulumi/std";
const example = new azure.core.ResourceGroup("example", {
name: "example-resources",
location: "West Europe",
});
const exampleVirtualNetwork = new azure.network.VirtualNetwork("example", {
name: "examplevn",
addressSpaces: ["10.0.0.0/16"],
location: example.location,
resourceGroupName: example.name,
});
const exampleHpc = new azure.network.Subnet("example_hpc", {
name: "examplesubnethpc",
resourceGroupName: example.name,
virtualNetworkName: exampleVirtualNetwork.name,
addressPrefixes: ["10.0.1.0/24"],
});
const exampleCache = new azure.hpc.Cache("example", {
name: "examplehpccache",
resourceGroupName: example.name,
location: example.location,
cacheSizeInGb: 3072,
subnetId: exampleHpc.id,
skuName: "Standard_2G",
});
const exampleVm = new azure.network.Subnet("example_vm", {
name: "examplesubnetvm",
resourceGroupName: example.name,
virtualNetworkName: exampleVirtualNetwork.name,
addressPrefixes: ["10.0.2.0/24"],
});
const exampleNetworkInterface = new azure.network.NetworkInterface("example", {
name: "examplenic",
location: example.location,
resourceGroupName: example.name,
ipConfigurations: [{
name: "internal",
subnetId: exampleVm.id,
privateIpAddressAllocation: "Dynamic",
}],
});
const customData = `#!/bin/bash
sudo -i
apt-get install -y nfs-kernel-server
mkdir -p /export/a/1
mkdir -p /export/a/2
mkdir -p /export/b
cat << EOF > /etc/exports
/export/a *(rw,fsid=0,insecure,no_subtree_check,async)
/export/b *(rw,fsid=0,insecure,no_subtree_check,async)
EOF
systemctl start nfs-server
exportfs -arv
`;
const exampleLinuxVirtualMachine = new azure.compute.LinuxVirtualMachine("example", {
name: "examplevm",
resourceGroupName: example.name,
location: example.location,
size: "Standard_F2",
adminUsername: "adminuser",
networkInterfaceIds: [exampleNetworkInterface.id],
adminSshKeys: [{
username: "adminuser",
publicKey: std.file({
input: "~/.ssh/id_rsa.pub",
}).then(invoke => invoke.result),
}],
osDisk: {
caching: "ReadWrite",
storageAccountType: "Standard_LRS",
},
sourceImageReference: {
publisher: "Canonical",
offer: "0001-com-ubuntu-server-jammy",
sku: "22_04-lts",
version: "latest",
},
customData: std.base64encode({
input: customData,
}).then(invoke => invoke.result),
});
const exampleCacheNfsTarget = new azure.hpc.CacheNfsTarget("example", {
name: "examplehpcnfstarget",
resourceGroupName: example.name,
cacheName: exampleCache.name,
targetHostName: exampleLinuxVirtualMachine.privateIpAddress,
usageModel: "READ_HEAVY_INFREQ",
namespaceJunctions: [
{
namespacePath: "/nfs/a1",
nfsExport: "/export/a",
targetPath: "1",
},
{
namespacePath: "/nfs/b",
nfsExport: "/export/b",
},
],
});
import pulumi
import pulumi_azure as azure
import pulumi_std as std
example = azure.core.ResourceGroup("example",
name="example-resources",
location="West Europe")
example_virtual_network = azure.network.VirtualNetwork("example",
name="examplevn",
address_spaces=["10.0.0.0/16"],
location=example.location,
resource_group_name=example.name)
example_hpc = azure.network.Subnet("example_hpc",
name="examplesubnethpc",
resource_group_name=example.name,
virtual_network_name=example_virtual_network.name,
address_prefixes=["10.0.1.0/24"])
example_cache = azure.hpc.Cache("example",
name="examplehpccache",
resource_group_name=example.name,
location=example.location,
cache_size_in_gb=3072,
subnet_id=example_hpc.id,
sku_name="Standard_2G")
example_vm = azure.network.Subnet("example_vm",
name="examplesubnetvm",
resource_group_name=example.name,
virtual_network_name=example_virtual_network.name,
address_prefixes=["10.0.2.0/24"])
example_network_interface = azure.network.NetworkInterface("example",
name="examplenic",
location=example.location,
resource_group_name=example.name,
ip_configurations=[{
"name": "internal",
"subnet_id": example_vm.id,
"private_ip_address_allocation": "Dynamic",
}])
custom_data = """#!/bin/bash
sudo -i
apt-get install -y nfs-kernel-server
mkdir -p /export/a/1
mkdir -p /export/a/2
mkdir -p /export/b
cat << EOF > /etc/exports
/export/a *(rw,fsid=0,insecure,no_subtree_check,async)
/export/b *(rw,fsid=0,insecure,no_subtree_check,async)
EOF
systemctl start nfs-server
exportfs -arv
"""
example_linux_virtual_machine = azure.compute.LinuxVirtualMachine("example",
name="examplevm",
resource_group_name=example.name,
location=example.location,
size="Standard_F2",
admin_username="adminuser",
network_interface_ids=[example_network_interface.id],
admin_ssh_keys=[{
"username": "adminuser",
"public_key": std.file(input="~/.ssh/id_rsa.pub").result,
}],
os_disk={
"caching": "ReadWrite",
"storage_account_type": "Standard_LRS",
},
source_image_reference={
"publisher": "Canonical",
"offer": "0001-com-ubuntu-server-jammy",
"sku": "22_04-lts",
"version": "latest",
},
custom_data=std.base64encode(input=custom_data).result)
example_cache_nfs_target = azure.hpc.CacheNfsTarget("example",
name="examplehpcnfstarget",
resource_group_name=example.name,
cache_name=example_cache.name,
target_host_name=example_linux_virtual_machine.private_ip_address,
usage_model="READ_HEAVY_INFREQ",
namespace_junctions=[
{
"namespace_path": "/nfs/a1",
"nfs_export": "/export/a",
"target_path": "1",
},
{
"namespace_path": "/nfs/b",
"nfs_export": "/export/b",
},
])
package main
import (
"github.com/pulumi/pulumi-azure/sdk/v6/go/azure/compute"
"github.com/pulumi/pulumi-azure/sdk/v6/go/azure/core"
"github.com/pulumi/pulumi-azure/sdk/v6/go/azure/hpc"
"github.com/pulumi/pulumi-azure/sdk/v6/go/azure/network"
"github.com/pulumi/pulumi-std/sdk/go/std"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
example, err := core.NewResourceGroup(ctx, "example", &core.ResourceGroupArgs{
Name: pulumi.String("example-resources"),
Location: pulumi.String("West Europe"),
})
if err != nil {
return err
}
exampleVirtualNetwork, err := network.NewVirtualNetwork(ctx, "example", &network.VirtualNetworkArgs{
Name: pulumi.String("examplevn"),
AddressSpaces: pulumi.StringArray{
pulumi.String("10.0.0.0/16"),
},
Location: example.Location,
ResourceGroupName: example.Name,
})
if err != nil {
return err
}
exampleHpc, err := network.NewSubnet(ctx, "example_hpc", &network.SubnetArgs{
Name: pulumi.String("examplesubnethpc"),
ResourceGroupName: example.Name,
VirtualNetworkName: exampleVirtualNetwork.Name,
AddressPrefixes: pulumi.StringArray{
pulumi.String("10.0.1.0/24"),
},
})
if err != nil {
return err
}
exampleCache, err := hpc.NewCache(ctx, "example", &hpc.CacheArgs{
Name: pulumi.String("examplehpccache"),
ResourceGroupName: example.Name,
Location: example.Location,
CacheSizeInGb: pulumi.Int(3072),
SubnetId: exampleHpc.ID(),
SkuName: pulumi.String("Standard_2G"),
})
if err != nil {
return err
}
exampleVm, err := network.NewSubnet(ctx, "example_vm", &network.SubnetArgs{
Name: pulumi.String("examplesubnetvm"),
ResourceGroupName: example.Name,
VirtualNetworkName: exampleVirtualNetwork.Name,
AddressPrefixes: pulumi.StringArray{
pulumi.String("10.0.2.0/24"),
},
})
if err != nil {
return err
}
exampleNetworkInterface, err := network.NewNetworkInterface(ctx, "example", &network.NetworkInterfaceArgs{
Name: pulumi.String("examplenic"),
Location: example.Location,
ResourceGroupName: example.Name,
IpConfigurations: network.NetworkInterfaceIpConfigurationArray{
&network.NetworkInterfaceIpConfigurationArgs{
Name: pulumi.String("internal"),
SubnetId: exampleVm.ID(),
PrivateIpAddressAllocation: pulumi.String("Dynamic"),
},
},
})
if err != nil {
return err
}
customData := `#!/bin/bash
sudo -i
apt-get install -y nfs-kernel-server
mkdir -p /export/a/1
mkdir -p /export/a/2
mkdir -p /export/b
cat << EOF > /etc/exports
/export/a *(rw,fsid=0,insecure,no_subtree_check,async)
/export/b *(rw,fsid=0,insecure,no_subtree_check,async)
EOF
systemctl start nfs-server
exportfs -arv
`
invokeFile, err := std.File(ctx, &std.FileArgs{
Input: "~/.ssh/id_rsa.pub",
}, nil)
if err != nil {
return err
}
invokeBase64encode1, err := std.Base64encode(ctx, &std.Base64encodeArgs{
Input: customData,
}, nil)
if err != nil {
return err
}
exampleLinuxVirtualMachine, err := compute.NewLinuxVirtualMachine(ctx, "example", &compute.LinuxVirtualMachineArgs{
Name: pulumi.String("examplevm"),
ResourceGroupName: example.Name,
Location: example.Location,
Size: pulumi.String("Standard_F2"),
AdminUsername: pulumi.String("adminuser"),
NetworkInterfaceIds: pulumi.StringArray{
exampleNetworkInterface.ID(),
},
AdminSshKeys: compute.LinuxVirtualMachineAdminSshKeyArray{
&compute.LinuxVirtualMachineAdminSshKeyArgs{
Username: pulumi.String("adminuser"),
PublicKey: pulumi.String(invokeFile.Result),
},
},
OsDisk: &compute.LinuxVirtualMachineOsDiskArgs{
Caching: pulumi.String("ReadWrite"),
StorageAccountType: pulumi.String("Standard_LRS"),
},
SourceImageReference: &compute.LinuxVirtualMachineSourceImageReferenceArgs{
Publisher: pulumi.String("Canonical"),
Offer: pulumi.String("0001-com-ubuntu-server-jammy"),
Sku: pulumi.String("22_04-lts"),
Version: pulumi.String("latest"),
},
CustomData: pulumi.String(invokeBase64encode1.Result),
})
if err != nil {
return err
}
_, err = hpc.NewCacheNfsTarget(ctx, "example", &hpc.CacheNfsTargetArgs{
Name: pulumi.String("examplehpcnfstarget"),
ResourceGroupName: example.Name,
CacheName: exampleCache.Name,
TargetHostName: exampleLinuxVirtualMachine.PrivateIpAddress,
UsageModel: pulumi.String("READ_HEAVY_INFREQ"),
NamespaceJunctions: hpc.CacheNfsTargetNamespaceJunctionArray{
&hpc.CacheNfsTargetNamespaceJunctionArgs{
NamespacePath: pulumi.String("/nfs/a1"),
NfsExport: pulumi.String("/export/a"),
TargetPath: pulumi.String("1"),
},
&hpc.CacheNfsTargetNamespaceJunctionArgs{
NamespacePath: pulumi.String("/nfs/b"),
NfsExport: pulumi.String("/export/b"),
},
},
})
if err != nil {
return err
}
return nil
})
}
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Azure = Pulumi.Azure;
using Std = Pulumi.Std;
return await Deployment.RunAsync(() =>
{
var example = new Azure.Core.ResourceGroup("example", new()
{
Name = "example-resources",
Location = "West Europe",
});
var exampleVirtualNetwork = new Azure.Network.VirtualNetwork("example", new()
{
Name = "examplevn",
AddressSpaces = new[]
{
"10.0.0.0/16",
},
Location = example.Location,
ResourceGroupName = example.Name,
});
var exampleHpc = new Azure.Network.Subnet("example_hpc", new()
{
Name = "examplesubnethpc",
ResourceGroupName = example.Name,
VirtualNetworkName = exampleVirtualNetwork.Name,
AddressPrefixes = new[]
{
"10.0.1.0/24",
},
});
var exampleCache = new Azure.Hpc.Cache("example", new()
{
Name = "examplehpccache",
ResourceGroupName = example.Name,
Location = example.Location,
CacheSizeInGb = 3072,
SubnetId = exampleHpc.Id,
SkuName = "Standard_2G",
});
var exampleVm = new Azure.Network.Subnet("example_vm", new()
{
Name = "examplesubnetvm",
ResourceGroupName = example.Name,
VirtualNetworkName = exampleVirtualNetwork.Name,
AddressPrefixes = new[]
{
"10.0.2.0/24",
},
});
var exampleNetworkInterface = new Azure.Network.NetworkInterface("example", new()
{
Name = "examplenic",
Location = example.Location,
ResourceGroupName = example.Name,
IpConfigurations = new[]
{
new Azure.Network.Inputs.NetworkInterfaceIpConfigurationArgs
{
Name = "internal",
SubnetId = exampleVm.Id,
PrivateIpAddressAllocation = "Dynamic",
},
},
});
var customData = @"#!/bin/bash
sudo -i
apt-get install -y nfs-kernel-server
mkdir -p /export/a/1
mkdir -p /export/a/2
mkdir -p /export/b
cat << EOF > /etc/exports
/export/a *(rw,fsid=0,insecure,no_subtree_check,async)
/export/b *(rw,fsid=0,insecure,no_subtree_check,async)
EOF
systemctl start nfs-server
exportfs -arv
";
var exampleLinuxVirtualMachine = new Azure.Compute.LinuxVirtualMachine("example", new()
{
Name = "examplevm",
ResourceGroupName = example.Name,
Location = example.Location,
Size = "Standard_F2",
AdminUsername = "adminuser",
NetworkInterfaceIds = new[]
{
exampleNetworkInterface.Id,
},
AdminSshKeys = new[]
{
new Azure.Compute.Inputs.LinuxVirtualMachineAdminSshKeyArgs
{
Username = "adminuser",
PublicKey = Std.File.Invoke(new()
{
Input = "~/.ssh/id_rsa.pub",
}).Apply(invoke => invoke.Result),
},
},
OsDisk = new Azure.Compute.Inputs.LinuxVirtualMachineOsDiskArgs
{
Caching = "ReadWrite",
StorageAccountType = "Standard_LRS",
},
SourceImageReference = new Azure.Compute.Inputs.LinuxVirtualMachineSourceImageReferenceArgs
{
Publisher = "Canonical",
Offer = "0001-com-ubuntu-server-jammy",
Sku = "22_04-lts",
Version = "latest",
},
CustomData = Std.Base64encode.Invoke(new()
{
Input = customData,
}).Apply(invoke => invoke.Result),
});
var exampleCacheNfsTarget = new Azure.Hpc.CacheNfsTarget("example", new()
{
Name = "examplehpcnfstarget",
ResourceGroupName = example.Name,
CacheName = exampleCache.Name,
TargetHostName = exampleLinuxVirtualMachine.PrivateIpAddress,
UsageModel = "READ_HEAVY_INFREQ",
NamespaceJunctions = new[]
{
new Azure.Hpc.Inputs.CacheNfsTargetNamespaceJunctionArgs
{
NamespacePath = "/nfs/a1",
NfsExport = "/export/a",
TargetPath = "1",
},
new Azure.Hpc.Inputs.CacheNfsTargetNamespaceJunctionArgs
{
NamespacePath = "/nfs/b",
NfsExport = "/export/b",
},
},
});
});
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.azure.core.ResourceGroup;
import com.pulumi.azure.core.ResourceGroupArgs;
import com.pulumi.azure.network.VirtualNetwork;
import com.pulumi.azure.network.VirtualNetworkArgs;
import com.pulumi.azure.network.Subnet;
import com.pulumi.azure.network.SubnetArgs;
import com.pulumi.azure.hpc.Cache;
import com.pulumi.azure.hpc.CacheArgs;
import com.pulumi.azure.network.NetworkInterface;
import com.pulumi.azure.network.NetworkInterfaceArgs;
import com.pulumi.azure.network.inputs.NetworkInterfaceIpConfigurationArgs;
import com.pulumi.azure.compute.LinuxVirtualMachine;
import com.pulumi.azure.compute.LinuxVirtualMachineArgs;
import com.pulumi.azure.compute.inputs.LinuxVirtualMachineAdminSshKeyArgs;
import com.pulumi.azure.compute.inputs.LinuxVirtualMachineOsDiskArgs;
import com.pulumi.azure.compute.inputs.LinuxVirtualMachineSourceImageReferenceArgs;
import com.pulumi.azure.hpc.CacheNfsTarget;
import com.pulumi.azure.hpc.CacheNfsTargetArgs;
import com.pulumi.azure.hpc.inputs.CacheNfsTargetNamespaceJunctionArgs;
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 example = new ResourceGroup("example", ResourceGroupArgs.builder()
.name("example-resources")
.location("West Europe")
.build());
var exampleVirtualNetwork = new VirtualNetwork("exampleVirtualNetwork", VirtualNetworkArgs.builder()
.name("examplevn")
.addressSpaces("10.0.0.0/16")
.location(example.location())
.resourceGroupName(example.name())
.build());
var exampleHpc = new Subnet("exampleHpc", SubnetArgs.builder()
.name("examplesubnethpc")
.resourceGroupName(example.name())
.virtualNetworkName(exampleVirtualNetwork.name())
.addressPrefixes("10.0.1.0/24")
.build());
var exampleCache = new Cache("exampleCache", CacheArgs.builder()
.name("examplehpccache")
.resourceGroupName(example.name())
.location(example.location())
.cacheSizeInGb(3072)
.subnetId(exampleHpc.id())
.skuName("Standard_2G")
.build());
var exampleVm = new Subnet("exampleVm", SubnetArgs.builder()
.name("examplesubnetvm")
.resourceGroupName(example.name())
.virtualNetworkName(exampleVirtualNetwork.name())
.addressPrefixes("10.0.2.0/24")
.build());
var exampleNetworkInterface = new NetworkInterface("exampleNetworkInterface", NetworkInterfaceArgs.builder()
.name("examplenic")
.location(example.location())
.resourceGroupName(example.name())
.ipConfigurations(NetworkInterfaceIpConfigurationArgs.builder()
.name("internal")
.subnetId(exampleVm.id())
.privateIpAddressAllocation("Dynamic")
.build())
.build());
final var customData = """
#!/bin/bash
sudo -i
apt-get install -y nfs-kernel-server
mkdir -p /export/a/1
mkdir -p /export/a/2
mkdir -p /export/b
cat << EOF > /etc/exports
/export/a *(rw,fsid=0,insecure,no_subtree_check,async)
/export/b *(rw,fsid=0,insecure,no_subtree_check,async)
EOF
systemctl start nfs-server
exportfs -arv
""";
var exampleLinuxVirtualMachine = new LinuxVirtualMachine("exampleLinuxVirtualMachine", LinuxVirtualMachineArgs.builder()
.name("examplevm")
.resourceGroupName(example.name())
.location(example.location())
.size("Standard_F2")
.adminUsername("adminuser")
.networkInterfaceIds(exampleNetworkInterface.id())
.adminSshKeys(LinuxVirtualMachineAdminSshKeyArgs.builder()
.username("adminuser")
.publicKey(StdFunctions.file(FileArgs.builder()
.input("~/.ssh/id_rsa.pub")
.build()).result())
.build())
.osDisk(LinuxVirtualMachineOsDiskArgs.builder()
.caching("ReadWrite")
.storageAccountType("Standard_LRS")
.build())
.sourceImageReference(LinuxVirtualMachineSourceImageReferenceArgs.builder()
.publisher("Canonical")
.offer("0001-com-ubuntu-server-jammy")
.sku("22_04-lts")
.version("latest")
.build())
.customData(StdFunctions.base64encode(Base64encodeArgs.builder()
.input(customData)
.build()).result())
.build());
var exampleCacheNfsTarget = new CacheNfsTarget("exampleCacheNfsTarget", CacheNfsTargetArgs.builder()
.name("examplehpcnfstarget")
.resourceGroupName(example.name())
.cacheName(exampleCache.name())
.targetHostName(exampleLinuxVirtualMachine.privateIpAddress())
.usageModel("READ_HEAVY_INFREQ")
.namespaceJunctions(
CacheNfsTargetNamespaceJunctionArgs.builder()
.namespacePath("/nfs/a1")
.nfsExport("/export/a")
.targetPath("1")
.build(),
CacheNfsTargetNamespaceJunctionArgs.builder()
.namespacePath("/nfs/b")
.nfsExport("/export/b")
.build())
.build());
}
}
resources:
example:
type: azure:core:ResourceGroup
properties:
name: example-resources
location: West Europe
exampleVirtualNetwork:
type: azure:network:VirtualNetwork
name: example
properties:
name: examplevn
addressSpaces:
- 10.0.0.0/16
location: ${example.location}
resourceGroupName: ${example.name}
exampleHpc:
type: azure:network:Subnet
name: example_hpc
properties:
name: examplesubnethpc
resourceGroupName: ${example.name}
virtualNetworkName: ${exampleVirtualNetwork.name}
addressPrefixes:
- 10.0.1.0/24
exampleCache:
type: azure:hpc:Cache
name: example
properties:
name: examplehpccache
resourceGroupName: ${example.name}
location: ${example.location}
cacheSizeInGb: 3072
subnetId: ${exampleHpc.id}
skuName: Standard_2G
exampleVm:
type: azure:network:Subnet
name: example_vm
properties:
name: examplesubnetvm
resourceGroupName: ${example.name}
virtualNetworkName: ${exampleVirtualNetwork.name}
addressPrefixes:
- 10.0.2.0/24
exampleNetworkInterface:
type: azure:network:NetworkInterface
name: example
properties:
name: examplenic
location: ${example.location}
resourceGroupName: ${example.name}
ipConfigurations:
- name: internal
subnetId: ${exampleVm.id}
privateIpAddressAllocation: Dynamic
exampleLinuxVirtualMachine:
type: azure:compute:LinuxVirtualMachine
name: example
properties:
name: examplevm
resourceGroupName: ${example.name}
location: ${example.location}
size: Standard_F2
adminUsername: adminuser
networkInterfaceIds:
- ${exampleNetworkInterface.id}
adminSshKeys:
- username: adminuser
publicKey:
fn::invoke:
Function: std:file
Arguments:
input: ~/.ssh/id_rsa.pub
Return: result
osDisk:
caching: ReadWrite
storageAccountType: Standard_LRS
sourceImageReference:
publisher: Canonical
offer: 0001-com-ubuntu-server-jammy
sku: 22_04-lts
version: latest
customData:
fn::invoke:
Function: std:base64encode
Arguments:
input: ${customData}
Return: result
exampleCacheNfsTarget:
type: azure:hpc:CacheNfsTarget
name: example
properties:
name: examplehpcnfstarget
resourceGroupName: ${example.name}
cacheName: ${exampleCache.name}
targetHostName: ${exampleLinuxVirtualMachine.privateIpAddress}
usageModel: READ_HEAVY_INFREQ
namespaceJunctions:
- namespacePath: /nfs/a1
nfsExport: /export/a
targetPath: '1'
- namespacePath: /nfs/b
nfsExport: /export/b
variables:
customData: "#!/bin/bash\nsudo -i \napt-get install -y nfs-kernel-server\nmkdir -p /export/a/1\nmkdir -p /export/a/2\nmkdir -p /export/b\ncat << EOF > /etc/exports\n/export/a *(rw,fsid=0,insecure,no_subtree_check,async)\n/export/b *(rw,fsid=0,insecure,no_subtree_check,async)\nEOF\nsystemctl start nfs-server\nexportfs -arv\n"
Create CacheNfsTarget Resource
Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.
Constructor syntax
new CacheNfsTarget(name: string, args: CacheNfsTargetArgs, opts?: CustomResourceOptions);
@overload
def CacheNfsTarget(resource_name: str,
args: CacheNfsTargetArgs,
opts: Optional[ResourceOptions] = None)
@overload
def CacheNfsTarget(resource_name: str,
opts: Optional[ResourceOptions] = None,
cache_name: Optional[str] = None,
namespace_junctions: Optional[Sequence[CacheNfsTargetNamespaceJunctionArgs]] = None,
resource_group_name: Optional[str] = None,
target_host_name: Optional[str] = None,
usage_model: Optional[str] = None,
name: Optional[str] = None,
verification_timer_in_seconds: Optional[int] = None,
write_back_timer_in_seconds: Optional[int] = None)
func NewCacheNfsTarget(ctx *Context, name string, args CacheNfsTargetArgs, opts ...ResourceOption) (*CacheNfsTarget, error)
public CacheNfsTarget(string name, CacheNfsTargetArgs args, CustomResourceOptions? opts = null)
public CacheNfsTarget(String name, CacheNfsTargetArgs args)
public CacheNfsTarget(String name, CacheNfsTargetArgs args, CustomResourceOptions options)
type: azure:hpc:CacheNfsTarget
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 CacheNfsTargetArgs
- 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 CacheNfsTargetArgs
- 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 CacheNfsTargetArgs
- The arguments to resource properties.
- opts ResourceOption
- Bag of options to control resource's behavior.
- name string
- The unique name of the resource.
- args CacheNfsTargetArgs
- The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- name String
- The unique name of the resource.
- args CacheNfsTargetArgs
- 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 cacheNfsTargetResource = new Azure.Hpc.CacheNfsTarget("cacheNfsTargetResource", new()
{
CacheName = "string",
NamespaceJunctions = new[]
{
new Azure.Hpc.Inputs.CacheNfsTargetNamespaceJunctionArgs
{
NamespacePath = "string",
NfsExport = "string",
AccessPolicyName = "string",
TargetPath = "string",
},
},
ResourceGroupName = "string",
TargetHostName = "string",
UsageModel = "string",
Name = "string",
VerificationTimerInSeconds = 0,
WriteBackTimerInSeconds = 0,
});
example, err := hpc.NewCacheNfsTarget(ctx, "cacheNfsTargetResource", &hpc.CacheNfsTargetArgs{
CacheName: pulumi.String("string"),
NamespaceJunctions: hpc.CacheNfsTargetNamespaceJunctionArray{
&hpc.CacheNfsTargetNamespaceJunctionArgs{
NamespacePath: pulumi.String("string"),
NfsExport: pulumi.String("string"),
AccessPolicyName: pulumi.String("string"),
TargetPath: pulumi.String("string"),
},
},
ResourceGroupName: pulumi.String("string"),
TargetHostName: pulumi.String("string"),
UsageModel: pulumi.String("string"),
Name: pulumi.String("string"),
VerificationTimerInSeconds: pulumi.Int(0),
WriteBackTimerInSeconds: pulumi.Int(0),
})
var cacheNfsTargetResource = new CacheNfsTarget("cacheNfsTargetResource", CacheNfsTargetArgs.builder()
.cacheName("string")
.namespaceJunctions(CacheNfsTargetNamespaceJunctionArgs.builder()
.namespacePath("string")
.nfsExport("string")
.accessPolicyName("string")
.targetPath("string")
.build())
.resourceGroupName("string")
.targetHostName("string")
.usageModel("string")
.name("string")
.verificationTimerInSeconds(0)
.writeBackTimerInSeconds(0)
.build());
cache_nfs_target_resource = azure.hpc.CacheNfsTarget("cacheNfsTargetResource",
cache_name="string",
namespace_junctions=[{
"namespace_path": "string",
"nfs_export": "string",
"access_policy_name": "string",
"target_path": "string",
}],
resource_group_name="string",
target_host_name="string",
usage_model="string",
name="string",
verification_timer_in_seconds=0,
write_back_timer_in_seconds=0)
const cacheNfsTargetResource = new azure.hpc.CacheNfsTarget("cacheNfsTargetResource", {
cacheName: "string",
namespaceJunctions: [{
namespacePath: "string",
nfsExport: "string",
accessPolicyName: "string",
targetPath: "string",
}],
resourceGroupName: "string",
targetHostName: "string",
usageModel: "string",
name: "string",
verificationTimerInSeconds: 0,
writeBackTimerInSeconds: 0,
});
type: azure:hpc:CacheNfsTarget
properties:
cacheName: string
name: string
namespaceJunctions:
- accessPolicyName: string
namespacePath: string
nfsExport: string
targetPath: string
resourceGroupName: string
targetHostName: string
usageModel: string
verificationTimerInSeconds: 0
writeBackTimerInSeconds: 0
CacheNfsTarget 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 CacheNfsTarget resource accepts the following input properties:
- Cache
Name string - The name HPC Cache, which the HPC Cache NFS Target will be added to. Changing this forces a new resource to be created.
- Namespace
Junctions List<CacheNfs Target Namespace Junction> - Can be specified multiple times to define multiple
namespace_junction
. Eachnamespace_junction
block supports fields documented below. - Resource
Group stringName - The name of the Resource Group in which to create the HPC Cache NFS Target. Changing this forces a new resource to be created.
- Target
Host stringName - The IP address or fully qualified domain name (FQDN) of the HPC Cache NFS target. Changing this forces a new resource to be created.
- Usage
Model string - The type of usage of the HPC Cache NFS Target. Possible values are:
READ_HEAVY_INFREQ
,READ_HEAVY_CHECK_180
,READ_ONLY
,READ_WRITE
,WRITE_WORKLOAD_15
,WRITE_AROUND
,WRITE_WORKLOAD_CHECK_30
,WRITE_WORKLOAD_CHECK_60
andWRITE_WORKLOAD_CLOUDWS
. - Name string
- The name of the HPC Cache NFS Target. Changing this forces a new resource to be created.
- Verification
Timer intIn Seconds - The amount of time the cache waits before it checks the back-end storage for file updates. Possible values are between
1
and31536000
. - Write
Back intTimer In Seconds - The amount of time the cache waits after the last file change before it copies the changed file to back-end storage. Possible values are between
1
and31536000
.
- Cache
Name string - The name HPC Cache, which the HPC Cache NFS Target will be added to. Changing this forces a new resource to be created.
- Namespace
Junctions []CacheNfs Target Namespace Junction Args - Can be specified multiple times to define multiple
namespace_junction
. Eachnamespace_junction
block supports fields documented below. - Resource
Group stringName - The name of the Resource Group in which to create the HPC Cache NFS Target. Changing this forces a new resource to be created.
- Target
Host stringName - The IP address or fully qualified domain name (FQDN) of the HPC Cache NFS target. Changing this forces a new resource to be created.
- Usage
Model string - The type of usage of the HPC Cache NFS Target. Possible values are:
READ_HEAVY_INFREQ
,READ_HEAVY_CHECK_180
,READ_ONLY
,READ_WRITE
,WRITE_WORKLOAD_15
,WRITE_AROUND
,WRITE_WORKLOAD_CHECK_30
,WRITE_WORKLOAD_CHECK_60
andWRITE_WORKLOAD_CLOUDWS
. - Name string
- The name of the HPC Cache NFS Target. Changing this forces a new resource to be created.
- Verification
Timer intIn Seconds - The amount of time the cache waits before it checks the back-end storage for file updates. Possible values are between
1
and31536000
. - Write
Back intTimer In Seconds - The amount of time the cache waits after the last file change before it copies the changed file to back-end storage. Possible values are between
1
and31536000
.
- cache
Name String - The name HPC Cache, which the HPC Cache NFS Target will be added to. Changing this forces a new resource to be created.
- namespace
Junctions List<CacheNfs Target Namespace Junction> - Can be specified multiple times to define multiple
namespace_junction
. Eachnamespace_junction
block supports fields documented below. - resource
Group StringName - The name of the Resource Group in which to create the HPC Cache NFS Target. Changing this forces a new resource to be created.
- target
Host StringName - The IP address or fully qualified domain name (FQDN) of the HPC Cache NFS target. Changing this forces a new resource to be created.
- usage
Model String - The type of usage of the HPC Cache NFS Target. Possible values are:
READ_HEAVY_INFREQ
,READ_HEAVY_CHECK_180
,READ_ONLY
,READ_WRITE
,WRITE_WORKLOAD_15
,WRITE_AROUND
,WRITE_WORKLOAD_CHECK_30
,WRITE_WORKLOAD_CHECK_60
andWRITE_WORKLOAD_CLOUDWS
. - name String
- The name of the HPC Cache NFS Target. Changing this forces a new resource to be created.
- verification
Timer IntegerIn Seconds - The amount of time the cache waits before it checks the back-end storage for file updates. Possible values are between
1
and31536000
. - write
Back IntegerTimer In Seconds - The amount of time the cache waits after the last file change before it copies the changed file to back-end storage. Possible values are between
1
and31536000
.
- cache
Name string - The name HPC Cache, which the HPC Cache NFS Target will be added to. Changing this forces a new resource to be created.
- namespace
Junctions CacheNfs Target Namespace Junction[] - Can be specified multiple times to define multiple
namespace_junction
. Eachnamespace_junction
block supports fields documented below. - resource
Group stringName - The name of the Resource Group in which to create the HPC Cache NFS Target. Changing this forces a new resource to be created.
- target
Host stringName - The IP address or fully qualified domain name (FQDN) of the HPC Cache NFS target. Changing this forces a new resource to be created.
- usage
Model string - The type of usage of the HPC Cache NFS Target. Possible values are:
READ_HEAVY_INFREQ
,READ_HEAVY_CHECK_180
,READ_ONLY
,READ_WRITE
,WRITE_WORKLOAD_15
,WRITE_AROUND
,WRITE_WORKLOAD_CHECK_30
,WRITE_WORKLOAD_CHECK_60
andWRITE_WORKLOAD_CLOUDWS
. - name string
- The name of the HPC Cache NFS Target. Changing this forces a new resource to be created.
- verification
Timer numberIn Seconds - The amount of time the cache waits before it checks the back-end storage for file updates. Possible values are between
1
and31536000
. - write
Back numberTimer In Seconds - The amount of time the cache waits after the last file change before it copies the changed file to back-end storage. Possible values are between
1
and31536000
.
- cache_
name str - The name HPC Cache, which the HPC Cache NFS Target will be added to. Changing this forces a new resource to be created.
- namespace_
junctions Sequence[CacheNfs Target Namespace Junction Args] - Can be specified multiple times to define multiple
namespace_junction
. Eachnamespace_junction
block supports fields documented below. - resource_
group_ strname - The name of the Resource Group in which to create the HPC Cache NFS Target. Changing this forces a new resource to be created.
- target_
host_ strname - The IP address or fully qualified domain name (FQDN) of the HPC Cache NFS target. Changing this forces a new resource to be created.
- usage_
model str - The type of usage of the HPC Cache NFS Target. Possible values are:
READ_HEAVY_INFREQ
,READ_HEAVY_CHECK_180
,READ_ONLY
,READ_WRITE
,WRITE_WORKLOAD_15
,WRITE_AROUND
,WRITE_WORKLOAD_CHECK_30
,WRITE_WORKLOAD_CHECK_60
andWRITE_WORKLOAD_CLOUDWS
. - name str
- The name of the HPC Cache NFS Target. Changing this forces a new resource to be created.
- verification_
timer_ intin_ seconds - The amount of time the cache waits before it checks the back-end storage for file updates. Possible values are between
1
and31536000
. - write_
back_ inttimer_ in_ seconds - The amount of time the cache waits after the last file change before it copies the changed file to back-end storage. Possible values are between
1
and31536000
.
- cache
Name String - The name HPC Cache, which the HPC Cache NFS Target will be added to. Changing this forces a new resource to be created.
- namespace
Junctions List<Property Map> - Can be specified multiple times to define multiple
namespace_junction
. Eachnamespace_junction
block supports fields documented below. - resource
Group StringName - The name of the Resource Group in which to create the HPC Cache NFS Target. Changing this forces a new resource to be created.
- target
Host StringName - The IP address or fully qualified domain name (FQDN) of the HPC Cache NFS target. Changing this forces a new resource to be created.
- usage
Model String - The type of usage of the HPC Cache NFS Target. Possible values are:
READ_HEAVY_INFREQ
,READ_HEAVY_CHECK_180
,READ_ONLY
,READ_WRITE
,WRITE_WORKLOAD_15
,WRITE_AROUND
,WRITE_WORKLOAD_CHECK_30
,WRITE_WORKLOAD_CHECK_60
andWRITE_WORKLOAD_CLOUDWS
. - name String
- The name of the HPC Cache NFS Target. Changing this forces a new resource to be created.
- verification
Timer NumberIn Seconds - The amount of time the cache waits before it checks the back-end storage for file updates. Possible values are between
1
and31536000
. - write
Back NumberTimer In Seconds - The amount of time the cache waits after the last file change before it copies the changed file to back-end storage. Possible values are between
1
and31536000
.
Outputs
All input properties are implicitly available as output properties. Additionally, the CacheNfsTarget 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 CacheNfsTarget Resource
Get an existing CacheNfsTarget 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?: CacheNfsTargetState, opts?: CustomResourceOptions): CacheNfsTarget
@staticmethod
def get(resource_name: str,
id: str,
opts: Optional[ResourceOptions] = None,
cache_name: Optional[str] = None,
name: Optional[str] = None,
namespace_junctions: Optional[Sequence[CacheNfsTargetNamespaceJunctionArgs]] = None,
resource_group_name: Optional[str] = None,
target_host_name: Optional[str] = None,
usage_model: Optional[str] = None,
verification_timer_in_seconds: Optional[int] = None,
write_back_timer_in_seconds: Optional[int] = None) -> CacheNfsTarget
func GetCacheNfsTarget(ctx *Context, name string, id IDInput, state *CacheNfsTargetState, opts ...ResourceOption) (*CacheNfsTarget, error)
public static CacheNfsTarget Get(string name, Input<string> id, CacheNfsTargetState? state, CustomResourceOptions? opts = null)
public static CacheNfsTarget get(String name, Output<String> id, CacheNfsTargetState 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.
- Cache
Name string - The name HPC Cache, which the HPC Cache NFS Target will be added to. Changing this forces a new resource to be created.
- Name string
- The name of the HPC Cache NFS Target. Changing this forces a new resource to be created.
- Namespace
Junctions List<CacheNfs Target Namespace Junction> - Can be specified multiple times to define multiple
namespace_junction
. Eachnamespace_junction
block supports fields documented below. - Resource
Group stringName - The name of the Resource Group in which to create the HPC Cache NFS Target. Changing this forces a new resource to be created.
- Target
Host stringName - The IP address or fully qualified domain name (FQDN) of the HPC Cache NFS target. Changing this forces a new resource to be created.
- Usage
Model string - The type of usage of the HPC Cache NFS Target. Possible values are:
READ_HEAVY_INFREQ
,READ_HEAVY_CHECK_180
,READ_ONLY
,READ_WRITE
,WRITE_WORKLOAD_15
,WRITE_AROUND
,WRITE_WORKLOAD_CHECK_30
,WRITE_WORKLOAD_CHECK_60
andWRITE_WORKLOAD_CLOUDWS
. - Verification
Timer intIn Seconds - The amount of time the cache waits before it checks the back-end storage for file updates. Possible values are between
1
and31536000
. - Write
Back intTimer In Seconds - The amount of time the cache waits after the last file change before it copies the changed file to back-end storage. Possible values are between
1
and31536000
.
- Cache
Name string - The name HPC Cache, which the HPC Cache NFS Target will be added to. Changing this forces a new resource to be created.
- Name string
- The name of the HPC Cache NFS Target. Changing this forces a new resource to be created.
- Namespace
Junctions []CacheNfs Target Namespace Junction Args - Can be specified multiple times to define multiple
namespace_junction
. Eachnamespace_junction
block supports fields documented below. - Resource
Group stringName - The name of the Resource Group in which to create the HPC Cache NFS Target. Changing this forces a new resource to be created.
- Target
Host stringName - The IP address or fully qualified domain name (FQDN) of the HPC Cache NFS target. Changing this forces a new resource to be created.
- Usage
Model string - The type of usage of the HPC Cache NFS Target. Possible values are:
READ_HEAVY_INFREQ
,READ_HEAVY_CHECK_180
,READ_ONLY
,READ_WRITE
,WRITE_WORKLOAD_15
,WRITE_AROUND
,WRITE_WORKLOAD_CHECK_30
,WRITE_WORKLOAD_CHECK_60
andWRITE_WORKLOAD_CLOUDWS
. - Verification
Timer intIn Seconds - The amount of time the cache waits before it checks the back-end storage for file updates. Possible values are between
1
and31536000
. - Write
Back intTimer In Seconds - The amount of time the cache waits after the last file change before it copies the changed file to back-end storage. Possible values are between
1
and31536000
.
- cache
Name String - The name HPC Cache, which the HPC Cache NFS Target will be added to. Changing this forces a new resource to be created.
- name String
- The name of the HPC Cache NFS Target. Changing this forces a new resource to be created.
- namespace
Junctions List<CacheNfs Target Namespace Junction> - Can be specified multiple times to define multiple
namespace_junction
. Eachnamespace_junction
block supports fields documented below. - resource
Group StringName - The name of the Resource Group in which to create the HPC Cache NFS Target. Changing this forces a new resource to be created.
- target
Host StringName - The IP address or fully qualified domain name (FQDN) of the HPC Cache NFS target. Changing this forces a new resource to be created.
- usage
Model String - The type of usage of the HPC Cache NFS Target. Possible values are:
READ_HEAVY_INFREQ
,READ_HEAVY_CHECK_180
,READ_ONLY
,READ_WRITE
,WRITE_WORKLOAD_15
,WRITE_AROUND
,WRITE_WORKLOAD_CHECK_30
,WRITE_WORKLOAD_CHECK_60
andWRITE_WORKLOAD_CLOUDWS
. - verification
Timer IntegerIn Seconds - The amount of time the cache waits before it checks the back-end storage for file updates. Possible values are between
1
and31536000
. - write
Back IntegerTimer In Seconds - The amount of time the cache waits after the last file change before it copies the changed file to back-end storage. Possible values are between
1
and31536000
.
- cache
Name string - The name HPC Cache, which the HPC Cache NFS Target will be added to. Changing this forces a new resource to be created.
- name string
- The name of the HPC Cache NFS Target. Changing this forces a new resource to be created.
- namespace
Junctions CacheNfs Target Namespace Junction[] - Can be specified multiple times to define multiple
namespace_junction
. Eachnamespace_junction
block supports fields documented below. - resource
Group stringName - The name of the Resource Group in which to create the HPC Cache NFS Target. Changing this forces a new resource to be created.
- target
Host stringName - The IP address or fully qualified domain name (FQDN) of the HPC Cache NFS target. Changing this forces a new resource to be created.
- usage
Model string - The type of usage of the HPC Cache NFS Target. Possible values are:
READ_HEAVY_INFREQ
,READ_HEAVY_CHECK_180
,READ_ONLY
,READ_WRITE
,WRITE_WORKLOAD_15
,WRITE_AROUND
,WRITE_WORKLOAD_CHECK_30
,WRITE_WORKLOAD_CHECK_60
andWRITE_WORKLOAD_CLOUDWS
. - verification
Timer numberIn Seconds - The amount of time the cache waits before it checks the back-end storage for file updates. Possible values are between
1
and31536000
. - write
Back numberTimer In Seconds - The amount of time the cache waits after the last file change before it copies the changed file to back-end storage. Possible values are between
1
and31536000
.
- cache_
name str - The name HPC Cache, which the HPC Cache NFS Target will be added to. Changing this forces a new resource to be created.
- name str
- The name of the HPC Cache NFS Target. Changing this forces a new resource to be created.
- namespace_
junctions Sequence[CacheNfs Target Namespace Junction Args] - Can be specified multiple times to define multiple
namespace_junction
. Eachnamespace_junction
block supports fields documented below. - resource_
group_ strname - The name of the Resource Group in which to create the HPC Cache NFS Target. Changing this forces a new resource to be created.
- target_
host_ strname - The IP address or fully qualified domain name (FQDN) of the HPC Cache NFS target. Changing this forces a new resource to be created.
- usage_
model str - The type of usage of the HPC Cache NFS Target. Possible values are:
READ_HEAVY_INFREQ
,READ_HEAVY_CHECK_180
,READ_ONLY
,READ_WRITE
,WRITE_WORKLOAD_15
,WRITE_AROUND
,WRITE_WORKLOAD_CHECK_30
,WRITE_WORKLOAD_CHECK_60
andWRITE_WORKLOAD_CLOUDWS
. - verification_
timer_ intin_ seconds - The amount of time the cache waits before it checks the back-end storage for file updates. Possible values are between
1
and31536000
. - write_
back_ inttimer_ in_ seconds - The amount of time the cache waits after the last file change before it copies the changed file to back-end storage. Possible values are between
1
and31536000
.
- cache
Name String - The name HPC Cache, which the HPC Cache NFS Target will be added to. Changing this forces a new resource to be created.
- name String
- The name of the HPC Cache NFS Target. Changing this forces a new resource to be created.
- namespace
Junctions List<Property Map> - Can be specified multiple times to define multiple
namespace_junction
. Eachnamespace_junction
block supports fields documented below. - resource
Group StringName - The name of the Resource Group in which to create the HPC Cache NFS Target. Changing this forces a new resource to be created.
- target
Host StringName - The IP address or fully qualified domain name (FQDN) of the HPC Cache NFS target. Changing this forces a new resource to be created.
- usage
Model String - The type of usage of the HPC Cache NFS Target. Possible values are:
READ_HEAVY_INFREQ
,READ_HEAVY_CHECK_180
,READ_ONLY
,READ_WRITE
,WRITE_WORKLOAD_15
,WRITE_AROUND
,WRITE_WORKLOAD_CHECK_30
,WRITE_WORKLOAD_CHECK_60
andWRITE_WORKLOAD_CLOUDWS
. - verification
Timer NumberIn Seconds - The amount of time the cache waits before it checks the back-end storage for file updates. Possible values are between
1
and31536000
. - write
Back NumberTimer In Seconds - The amount of time the cache waits after the last file change before it copies the changed file to back-end storage. Possible values are between
1
and31536000
.
Supporting Types
CacheNfsTargetNamespaceJunction, CacheNfsTargetNamespaceJunctionArgs
- Namespace
Path string - The client-facing file path of this NFS target within the HPC Cache NFS Target.
- Nfs
Export string - The NFS export of this NFS target within the HPC Cache NFS Target.
- Access
Policy stringName - The name of the access policy applied to this target. Defaults to
default
. - Target
Path string - The relative subdirectory path from the
nfs_export
to map to thenamespace_path
. Defaults to""
, in which case the wholenfs_export
is exported.
- Namespace
Path string - The client-facing file path of this NFS target within the HPC Cache NFS Target.
- Nfs
Export string - The NFS export of this NFS target within the HPC Cache NFS Target.
- Access
Policy stringName - The name of the access policy applied to this target. Defaults to
default
. - Target
Path string - The relative subdirectory path from the
nfs_export
to map to thenamespace_path
. Defaults to""
, in which case the wholenfs_export
is exported.
- namespace
Path String - The client-facing file path of this NFS target within the HPC Cache NFS Target.
- nfs
Export String - The NFS export of this NFS target within the HPC Cache NFS Target.
- access
Policy StringName - The name of the access policy applied to this target. Defaults to
default
. - target
Path String - The relative subdirectory path from the
nfs_export
to map to thenamespace_path
. Defaults to""
, in which case the wholenfs_export
is exported.
- namespace
Path string - The client-facing file path of this NFS target within the HPC Cache NFS Target.
- nfs
Export string - The NFS export of this NFS target within the HPC Cache NFS Target.
- access
Policy stringName - The name of the access policy applied to this target. Defaults to
default
. - target
Path string - The relative subdirectory path from the
nfs_export
to map to thenamespace_path
. Defaults to""
, in which case the wholenfs_export
is exported.
- namespace_
path str - The client-facing file path of this NFS target within the HPC Cache NFS Target.
- nfs_
export str - The NFS export of this NFS target within the HPC Cache NFS Target.
- access_
policy_ strname - The name of the access policy applied to this target. Defaults to
default
. - target_
path str - The relative subdirectory path from the
nfs_export
to map to thenamespace_path
. Defaults to""
, in which case the wholenfs_export
is exported.
- namespace
Path String - The client-facing file path of this NFS target within the HPC Cache NFS Target.
- nfs
Export String - The NFS export of this NFS target within the HPC Cache NFS Target.
- access
Policy StringName - The name of the access policy applied to this target. Defaults to
default
. - target
Path String - The relative subdirectory path from the
nfs_export
to map to thenamespace_path
. Defaults to""
, in which case the wholenfs_export
is exported.
Import
NFS Target within a HPC Cache can be imported using the resource id
, e.g.
$ pulumi import azure:hpc/cacheNfsTarget:CacheNfsTarget example /subscriptions/00000000-0000-0000-0000-000000000000/resourceGroups/group1/providers/Microsoft.StorageCache/caches/cache1/storageTargets/target1
To learn more about importing existing cloud resources, see Importing resources.
Package Details
- Repository
- Azure Classic pulumi/pulumi-azure
- License
- Apache-2.0
- Notes
- This Pulumi package is based on the
azurerm
Terraform Provider.