azure-native.managednetworkfabric.NetworkToNetworkInterconnect
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The NetworkToNetworkInterconnect resource definition. Azure REST API version: 2023-02-01-preview. Prior API version in Azure Native 1.x: 2023-02-01-preview.
Other available API versions: 2023-06-15.
Example Usage
NetworkToNetworkInterconnects_Create_MaximumSet_Gen
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using AzureNative = Pulumi.AzureNative;
return await Deployment.RunAsync(() =>
{
var networkToNetworkInterconnect = new AzureNative.ManagedNetworkFabric.NetworkToNetworkInterconnect("networkToNetworkInterconnect", new()
{
IsManagementType = AzureNative.ManagedNetworkFabric.BooleanEnumProperty.True,
Layer2Configuration = new AzureNative.ManagedNetworkFabric.Inputs.Layer2ConfigurationArgs
{
Mtu = 1500,
PortCount = 10,
},
Layer3Configuration = new AzureNative.ManagedNetworkFabric.Inputs.Layer3ConfigurationArgs
{
ExportRoutePolicyId = "/subscriptions/subscriptionId/resourceGroups/resourceGroupName/providers/Microsoft.ManagedNetworkFabric/routePolicies/routePolicyName2",
ImportRoutePolicyId = "/subscriptions/subscriptionId/resourceGroups/resourceGroupName/providers/Microsoft.ManagedNetworkFabric/routePolicies/routePolicyName1",
PeerASN = 50272,
PrimaryIpv4Prefix = "172.31.0.0/31",
PrimaryIpv6Prefix = "3FFE:FFFF:0:CD30::a0/126",
SecondaryIpv4Prefix = "172.31.0.20/31",
SecondaryIpv6Prefix = "3FFE:FFFF:0:CD30::a4/126",
VlanId = 2064,
},
NetworkFabricName = "FabricName",
NetworkToNetworkInterconnectName = "DefaultNNI",
NniType = AzureNative.ManagedNetworkFabric.NniType.CE,
ResourceGroupName = "resourceGroupName",
UseOptionB = AzureNative.ManagedNetworkFabric.BooleanEnumProperty.False,
});
});
package main
import (
managednetworkfabric "github.com/pulumi/pulumi-azure-native-sdk/managednetworkfabric/v2"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
_, err := managednetworkfabric.NewNetworkToNetworkInterconnect(ctx, "networkToNetworkInterconnect", &managednetworkfabric.NetworkToNetworkInterconnectArgs{
IsManagementType: pulumi.String(managednetworkfabric.BooleanEnumPropertyTrue),
Layer2Configuration: &managednetworkfabric.Layer2ConfigurationArgs{
Mtu: pulumi.Int(1500),
PortCount: pulumi.Int(10),
},
Layer3Configuration: &managednetworkfabric.Layer3ConfigurationArgs{
ExportRoutePolicyId: pulumi.String("/subscriptions/subscriptionId/resourceGroups/resourceGroupName/providers/Microsoft.ManagedNetworkFabric/routePolicies/routePolicyName2"),
ImportRoutePolicyId: pulumi.String("/subscriptions/subscriptionId/resourceGroups/resourceGroupName/providers/Microsoft.ManagedNetworkFabric/routePolicies/routePolicyName1"),
PeerASN: pulumi.Int(50272),
PrimaryIpv4Prefix: pulumi.String("172.31.0.0/31"),
PrimaryIpv6Prefix: pulumi.String("3FFE:FFFF:0:CD30::a0/126"),
SecondaryIpv4Prefix: pulumi.String("172.31.0.20/31"),
SecondaryIpv6Prefix: pulumi.String("3FFE:FFFF:0:CD30::a4/126"),
VlanId: pulumi.Int(2064),
},
NetworkFabricName: pulumi.String("FabricName"),
NetworkToNetworkInterconnectName: pulumi.String("DefaultNNI"),
NniType: pulumi.String(managednetworkfabric.NniTypeCE),
ResourceGroupName: pulumi.String("resourceGroupName"),
UseOptionB: pulumi.String(managednetworkfabric.BooleanEnumPropertyFalse),
})
if err != nil {
return err
}
return nil
})
}
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.azurenative.managednetworkfabric.NetworkToNetworkInterconnect;
import com.pulumi.azurenative.managednetworkfabric.NetworkToNetworkInterconnectArgs;
import com.pulumi.azurenative.managednetworkfabric.inputs.Layer2ConfigurationArgs;
import com.pulumi.azurenative.managednetworkfabric.inputs.Layer3ConfigurationArgs;
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 networkToNetworkInterconnect = new NetworkToNetworkInterconnect("networkToNetworkInterconnect", NetworkToNetworkInterconnectArgs.builder()
.isManagementType("True")
.layer2Configuration(Layer2ConfigurationArgs.builder()
.mtu(1500)
.portCount(10)
.build())
.layer3Configuration(Layer3ConfigurationArgs.builder()
.exportRoutePolicyId("/subscriptions/subscriptionId/resourceGroups/resourceGroupName/providers/Microsoft.ManagedNetworkFabric/routePolicies/routePolicyName2")
.importRoutePolicyId("/subscriptions/subscriptionId/resourceGroups/resourceGroupName/providers/Microsoft.ManagedNetworkFabric/routePolicies/routePolicyName1")
.peerASN(50272)
.primaryIpv4Prefix("172.31.0.0/31")
.primaryIpv6Prefix("3FFE:FFFF:0:CD30::a0/126")
.secondaryIpv4Prefix("172.31.0.20/31")
.secondaryIpv6Prefix("3FFE:FFFF:0:CD30::a4/126")
.vlanId(2064)
.build())
.networkFabricName("FabricName")
.networkToNetworkInterconnectName("DefaultNNI")
.nniType("CE")
.resourceGroupName("resourceGroupName")
.useOptionB("False")
.build());
}
}
import pulumi
import pulumi_azure_native as azure_native
network_to_network_interconnect = azure_native.managednetworkfabric.NetworkToNetworkInterconnect("networkToNetworkInterconnect",
is_management_type=azure_native.managednetworkfabric.BooleanEnumProperty.TRUE,
layer2_configuration={
"mtu": 1500,
"port_count": 10,
},
layer3_configuration={
"export_route_policy_id": "/subscriptions/subscriptionId/resourceGroups/resourceGroupName/providers/Microsoft.ManagedNetworkFabric/routePolicies/routePolicyName2",
"import_route_policy_id": "/subscriptions/subscriptionId/resourceGroups/resourceGroupName/providers/Microsoft.ManagedNetworkFabric/routePolicies/routePolicyName1",
"peer_asn": 50272,
"primary_ipv4_prefix": "172.31.0.0/31",
"primary_ipv6_prefix": "3FFE:FFFF:0:CD30::a0/126",
"secondary_ipv4_prefix": "172.31.0.20/31",
"secondary_ipv6_prefix": "3FFE:FFFF:0:CD30::a4/126",
"vlan_id": 2064,
},
network_fabric_name="FabricName",
network_to_network_interconnect_name="DefaultNNI",
nni_type=azure_native.managednetworkfabric.NniType.CE,
resource_group_name="resourceGroupName",
use_option_b=azure_native.managednetworkfabric.BooleanEnumProperty.FALSE)
import * as pulumi from "@pulumi/pulumi";
import * as azure_native from "@pulumi/azure-native";
const networkToNetworkInterconnect = new azure_native.managednetworkfabric.NetworkToNetworkInterconnect("networkToNetworkInterconnect", {
isManagementType: azure_native.managednetworkfabric.BooleanEnumProperty.True,
layer2Configuration: {
mtu: 1500,
portCount: 10,
},
layer3Configuration: {
exportRoutePolicyId: "/subscriptions/subscriptionId/resourceGroups/resourceGroupName/providers/Microsoft.ManagedNetworkFabric/routePolicies/routePolicyName2",
importRoutePolicyId: "/subscriptions/subscriptionId/resourceGroups/resourceGroupName/providers/Microsoft.ManagedNetworkFabric/routePolicies/routePolicyName1",
peerASN: 50272,
primaryIpv4Prefix: "172.31.0.0/31",
primaryIpv6Prefix: "3FFE:FFFF:0:CD30::a0/126",
secondaryIpv4Prefix: "172.31.0.20/31",
secondaryIpv6Prefix: "3FFE:FFFF:0:CD30::a4/126",
vlanId: 2064,
},
networkFabricName: "FabricName",
networkToNetworkInterconnectName: "DefaultNNI",
nniType: azure_native.managednetworkfabric.NniType.CE,
resourceGroupName: "resourceGroupName",
useOptionB: azure_native.managednetworkfabric.BooleanEnumProperty.False,
});
resources:
networkToNetworkInterconnect:
type: azure-native:managednetworkfabric:NetworkToNetworkInterconnect
properties:
isManagementType: True
layer2Configuration:
mtu: 1500
portCount: 10
layer3Configuration:
exportRoutePolicyId: /subscriptions/subscriptionId/resourceGroups/resourceGroupName/providers/Microsoft.ManagedNetworkFabric/routePolicies/routePolicyName2
importRoutePolicyId: /subscriptions/subscriptionId/resourceGroups/resourceGroupName/providers/Microsoft.ManagedNetworkFabric/routePolicies/routePolicyName1
peerASN: 50272
primaryIpv4Prefix: 172.31.0.0/31
primaryIpv6Prefix: 3FFE:FFFF:0:CD30::a0/126
secondaryIpv4Prefix: 172.31.0.20/31
secondaryIpv6Prefix: 3FFE:FFFF:0:CD30::a4/126
vlanId: 2064
networkFabricName: FabricName
networkToNetworkInterconnectName: DefaultNNI
nniType: CE
resourceGroupName: resourceGroupName
useOptionB: False
Create NetworkToNetworkInterconnect Resource
Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.
Constructor syntax
new NetworkToNetworkInterconnect(name: string, args: NetworkToNetworkInterconnectArgs, opts?: CustomResourceOptions);
@overload
def NetworkToNetworkInterconnect(resource_name: str,
args: NetworkToNetworkInterconnectArgs,
opts: Optional[ResourceOptions] = None)
@overload
def NetworkToNetworkInterconnect(resource_name: str,
opts: Optional[ResourceOptions] = None,
is_management_type: Optional[Union[str, BooleanEnumProperty]] = None,
network_fabric_name: Optional[str] = None,
resource_group_name: Optional[str] = None,
use_option_b: Optional[Union[str, BooleanEnumProperty]] = None,
layer2_configuration: Optional[Layer2ConfigurationArgs] = None,
layer3_configuration: Optional[Layer3ConfigurationArgs] = None,
network_to_network_interconnect_name: Optional[str] = None,
nni_type: Optional[Union[str, NniType]] = None)
func NewNetworkToNetworkInterconnect(ctx *Context, name string, args NetworkToNetworkInterconnectArgs, opts ...ResourceOption) (*NetworkToNetworkInterconnect, error)
public NetworkToNetworkInterconnect(string name, NetworkToNetworkInterconnectArgs args, CustomResourceOptions? opts = null)
public NetworkToNetworkInterconnect(String name, NetworkToNetworkInterconnectArgs args)
public NetworkToNetworkInterconnect(String name, NetworkToNetworkInterconnectArgs args, CustomResourceOptions options)
type: azure-native:managednetworkfabric:NetworkToNetworkInterconnect
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 NetworkToNetworkInterconnectArgs
- 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 NetworkToNetworkInterconnectArgs
- 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 NetworkToNetworkInterconnectArgs
- The arguments to resource properties.
- opts ResourceOption
- Bag of options to control resource's behavior.
- name string
- The unique name of the resource.
- args NetworkToNetworkInterconnectArgs
- The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- name String
- The unique name of the resource.
- args NetworkToNetworkInterconnectArgs
- 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 networkToNetworkInterconnectResource = new AzureNative.ManagedNetworkFabric.NetworkToNetworkInterconnect("networkToNetworkInterconnectResource", new()
{
IsManagementType = "string",
NetworkFabricName = "string",
ResourceGroupName = "string",
UseOptionB = "string",
Layer2Configuration = new AzureNative.ManagedNetworkFabric.Inputs.Layer2ConfigurationArgs
{
Mtu = 0,
PortCount = 0,
},
Layer3Configuration = new AzureNative.ManagedNetworkFabric.Inputs.Layer3ConfigurationArgs
{
ExportRoutePolicyId = "string",
ImportRoutePolicyId = "string",
PeerASN = 0,
PrimaryIpv4Prefix = "string",
PrimaryIpv6Prefix = "string",
SecondaryIpv4Prefix = "string",
SecondaryIpv6Prefix = "string",
VlanId = 0,
},
NetworkToNetworkInterconnectName = "string",
NniType = "string",
});
example, err := managednetworkfabric.NewNetworkToNetworkInterconnect(ctx, "networkToNetworkInterconnectResource", &managednetworkfabric.NetworkToNetworkInterconnectArgs{
IsManagementType: pulumi.String("string"),
NetworkFabricName: pulumi.String("string"),
ResourceGroupName: pulumi.String("string"),
UseOptionB: pulumi.String("string"),
Layer2Configuration: &managednetworkfabric.Layer2ConfigurationArgs{
Mtu: pulumi.Int(0),
PortCount: pulumi.Int(0),
},
Layer3Configuration: &managednetworkfabric.Layer3ConfigurationArgs{
ExportRoutePolicyId: pulumi.String("string"),
ImportRoutePolicyId: pulumi.String("string"),
PeerASN: pulumi.Int(0),
PrimaryIpv4Prefix: pulumi.String("string"),
PrimaryIpv6Prefix: pulumi.String("string"),
SecondaryIpv4Prefix: pulumi.String("string"),
SecondaryIpv6Prefix: pulumi.String("string"),
VlanId: pulumi.Int(0),
},
NetworkToNetworkInterconnectName: pulumi.String("string"),
NniType: pulumi.String("string"),
})
var networkToNetworkInterconnectResource = new NetworkToNetworkInterconnect("networkToNetworkInterconnectResource", NetworkToNetworkInterconnectArgs.builder()
.isManagementType("string")
.networkFabricName("string")
.resourceGroupName("string")
.useOptionB("string")
.layer2Configuration(Layer2ConfigurationArgs.builder()
.mtu(0)
.portCount(0)
.build())
.layer3Configuration(Layer3ConfigurationArgs.builder()
.exportRoutePolicyId("string")
.importRoutePolicyId("string")
.peerASN(0)
.primaryIpv4Prefix("string")
.primaryIpv6Prefix("string")
.secondaryIpv4Prefix("string")
.secondaryIpv6Prefix("string")
.vlanId(0)
.build())
.networkToNetworkInterconnectName("string")
.nniType("string")
.build());
network_to_network_interconnect_resource = azure_native.managednetworkfabric.NetworkToNetworkInterconnect("networkToNetworkInterconnectResource",
is_management_type="string",
network_fabric_name="string",
resource_group_name="string",
use_option_b="string",
layer2_configuration={
"mtu": 0,
"port_count": 0,
},
layer3_configuration={
"export_route_policy_id": "string",
"import_route_policy_id": "string",
"peer_asn": 0,
"primary_ipv4_prefix": "string",
"primary_ipv6_prefix": "string",
"secondary_ipv4_prefix": "string",
"secondary_ipv6_prefix": "string",
"vlan_id": 0,
},
network_to_network_interconnect_name="string",
nni_type="string")
const networkToNetworkInterconnectResource = new azure_native.managednetworkfabric.NetworkToNetworkInterconnect("networkToNetworkInterconnectResource", {
isManagementType: "string",
networkFabricName: "string",
resourceGroupName: "string",
useOptionB: "string",
layer2Configuration: {
mtu: 0,
portCount: 0,
},
layer3Configuration: {
exportRoutePolicyId: "string",
importRoutePolicyId: "string",
peerASN: 0,
primaryIpv4Prefix: "string",
primaryIpv6Prefix: "string",
secondaryIpv4Prefix: "string",
secondaryIpv6Prefix: "string",
vlanId: 0,
},
networkToNetworkInterconnectName: "string",
nniType: "string",
});
type: azure-native:managednetworkfabric:NetworkToNetworkInterconnect
properties:
isManagementType: string
layer2Configuration:
mtu: 0
portCount: 0
layer3Configuration:
exportRoutePolicyId: string
importRoutePolicyId: string
peerASN: 0
primaryIpv4Prefix: string
primaryIpv6Prefix: string
secondaryIpv4Prefix: string
secondaryIpv6Prefix: string
vlanId: 0
networkFabricName: string
networkToNetworkInterconnectName: string
nniType: string
resourceGroupName: string
useOptionB: string
NetworkToNetworkInterconnect 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 NetworkToNetworkInterconnect resource accepts the following input properties:
- Is
Management string | Pulumi.Type Azure Native. Managed Network Fabric. Boolean Enum Property - Configuration to use NNI for Infrastructure Management. Example: True/False.
- Network
Fabric stringName - Name of the NetworkFabric.
- Resource
Group stringName - The name of the resource group. The name is case insensitive.
- Use
Option string | Pulumi.B Azure Native. Managed Network Fabric. Boolean Enum Property - Based on this parameter the layer2/layer3 is made as mandatory. Example: True/False
- Layer2Configuration
Pulumi.
Azure Native. Managed Network Fabric. Inputs. Layer2Configuration - Common properties for Layer2Configuration.
- Layer3Configuration
Pulumi.
Azure Native. Managed Network Fabric. Inputs. Layer3Configuration - Common properties for Layer3Configuration.
- Network
To stringNetwork Interconnect Name - Name of the NetworkToNetworkInterconnectName
- Nni
Type string | Pulumi.Azure Native. Managed Network Fabric. Nni Type - Type of NNI used. Example: CE | NPB
- Is
Management string | BooleanType Enum Property - Configuration to use NNI for Infrastructure Management. Example: True/False.
- Network
Fabric stringName - Name of the NetworkFabric.
- Resource
Group stringName - The name of the resource group. The name is case insensitive.
- Use
Option string | BooleanB Enum Property - Based on this parameter the layer2/layer3 is made as mandatory. Example: True/False
- Layer2Configuration
Layer2Configuration
Args - Common properties for Layer2Configuration.
- Layer3Configuration
Layer3Configuration
Args - Common properties for Layer3Configuration.
- Network
To stringNetwork Interconnect Name - Name of the NetworkToNetworkInterconnectName
- Nni
Type string | NniType - Type of NNI used. Example: CE | NPB
- is
Management String | BooleanType Enum Property - Configuration to use NNI for Infrastructure Management. Example: True/False.
- network
Fabric StringName - Name of the NetworkFabric.
- resource
Group StringName - The name of the resource group. The name is case insensitive.
- use
Option String | BooleanB Enum Property - Based on this parameter the layer2/layer3 is made as mandatory. Example: True/False
- layer2Configuration Layer2Configuration
- Common properties for Layer2Configuration.
- layer3Configuration Layer3Configuration
- Common properties for Layer3Configuration.
- network
To StringNetwork Interconnect Name - Name of the NetworkToNetworkInterconnectName
- nni
Type String | NniType - Type of NNI used. Example: CE | NPB
- is
Management string | BooleanType Enum Property - Configuration to use NNI for Infrastructure Management. Example: True/False.
- network
Fabric stringName - Name of the NetworkFabric.
- resource
Group stringName - The name of the resource group. The name is case insensitive.
- use
Option string | BooleanB Enum Property - Based on this parameter the layer2/layer3 is made as mandatory. Example: True/False
- layer2Configuration Layer2Configuration
- Common properties for Layer2Configuration.
- layer3Configuration Layer3Configuration
- Common properties for Layer3Configuration.
- network
To stringNetwork Interconnect Name - Name of the NetworkToNetworkInterconnectName
- nni
Type string | NniType - Type of NNI used. Example: CE | NPB
- is_
management_ str | Booleantype Enum Property - Configuration to use NNI for Infrastructure Management. Example: True/False.
- network_
fabric_ strname - Name of the NetworkFabric.
- resource_
group_ strname - The name of the resource group. The name is case insensitive.
- use_
option_ str | Booleanb Enum Property - Based on this parameter the layer2/layer3 is made as mandatory. Example: True/False
- layer2_
configuration Layer2ConfigurationArgs - Common properties for Layer2Configuration.
- layer3_
configuration Layer3ConfigurationArgs - Common properties for Layer3Configuration.
- network_
to_ strnetwork_ interconnect_ name - Name of the NetworkToNetworkInterconnectName
- nni_
type str | NniType - Type of NNI used. Example: CE | NPB
- is
Management String | "True" | "False"Type - Configuration to use NNI for Infrastructure Management. Example: True/False.
- network
Fabric StringName - Name of the NetworkFabric.
- resource
Group StringName - The name of the resource group. The name is case insensitive.
- use
Option String | "True" | "False"B - Based on this parameter the layer2/layer3 is made as mandatory. Example: True/False
- layer2Configuration Property Map
- Common properties for Layer2Configuration.
- layer3Configuration Property Map
- Common properties for Layer3Configuration.
- network
To StringNetwork Interconnect Name - Name of the NetworkToNetworkInterconnectName
- nni
Type String | "CE" | "NPB" - Type of NNI used. Example: CE | NPB
Outputs
All input properties are implicitly available as output properties. Additionally, the NetworkToNetworkInterconnect resource produces the following output properties:
- Administrative
State string - Gets the administrativeState of the resource. Example -Enabled/Disabled
- Id string
- The provider-assigned unique ID for this managed resource.
- Name string
- The name of the resource
- Provisioning
State string - Gets the provisioning state of the resource.
- System
Data Pulumi.Azure Native. Managed Network Fabric. Outputs. System Data Response - Azure Resource Manager metadata containing createdBy and modifiedBy information.
- Type string
- The type of the resource. E.g. "Microsoft.Compute/virtualMachines" or "Microsoft.Storage/storageAccounts"
- Administrative
State string - Gets the administrativeState of the resource. Example -Enabled/Disabled
- Id string
- The provider-assigned unique ID for this managed resource.
- Name string
- The name of the resource
- Provisioning
State string - Gets the provisioning state of the resource.
- System
Data SystemData Response - Azure Resource Manager metadata containing createdBy and modifiedBy information.
- Type string
- The type of the resource. E.g. "Microsoft.Compute/virtualMachines" or "Microsoft.Storage/storageAccounts"
- administrative
State String - Gets the administrativeState of the resource. Example -Enabled/Disabled
- id String
- The provider-assigned unique ID for this managed resource.
- name String
- The name of the resource
- provisioning
State String - Gets the provisioning state of the resource.
- system
Data SystemData Response - Azure Resource Manager metadata containing createdBy and modifiedBy information.
- type String
- The type of the resource. E.g. "Microsoft.Compute/virtualMachines" or "Microsoft.Storage/storageAccounts"
- administrative
State string - Gets the administrativeState of the resource. Example -Enabled/Disabled
- id string
- The provider-assigned unique ID for this managed resource.
- name string
- The name of the resource
- provisioning
State string - Gets the provisioning state of the resource.
- system
Data SystemData Response - Azure Resource Manager metadata containing createdBy and modifiedBy information.
- type string
- The type of the resource. E.g. "Microsoft.Compute/virtualMachines" or "Microsoft.Storage/storageAccounts"
- administrative_
state str - Gets the administrativeState of the resource. Example -Enabled/Disabled
- id str
- The provider-assigned unique ID for this managed resource.
- name str
- The name of the resource
- provisioning_
state str - Gets the provisioning state of the resource.
- system_
data SystemData Response - Azure Resource Manager metadata containing createdBy and modifiedBy information.
- type str
- The type of the resource. E.g. "Microsoft.Compute/virtualMachines" or "Microsoft.Storage/storageAccounts"
- administrative
State String - Gets the administrativeState of the resource. Example -Enabled/Disabled
- id String
- The provider-assigned unique ID for this managed resource.
- name String
- The name of the resource
- provisioning
State String - Gets the provisioning state of the resource.
- system
Data Property Map - Azure Resource Manager metadata containing createdBy and modifiedBy information.
- type String
- The type of the resource. E.g. "Microsoft.Compute/virtualMachines" or "Microsoft.Storage/storageAccounts"
Supporting Types
BooleanEnumProperty, BooleanEnumPropertyArgs
- True
- True
- False
- False
- Boolean
Enum Property True - True
- Boolean
Enum Property False - False
- True
- True
- False
- False
- True
- True
- False
- False
- TRUE
- True
- FALSE
- False
- "True"
- True
- "False"
- False
Layer2Configuration, Layer2ConfigurationArgs
- mtu int
- MTU of the packets between PE & CE.
- port_
count int - Number of ports connected between PE/CE. Maximum value depends on FabricSKU.
Layer2ConfigurationResponse, Layer2ConfigurationResponseArgs
- Interfaces List<string>
- List of network device interfaces resource IDs.
- Mtu int
- MTU of the packets between PE & CE.
- Port
Count int - Number of ports connected between PE/CE. Maximum value depends on FabricSKU.
- Interfaces []string
- List of network device interfaces resource IDs.
- Mtu int
- MTU of the packets between PE & CE.
- Port
Count int - Number of ports connected between PE/CE. Maximum value depends on FabricSKU.
- interfaces List<String>
- List of network device interfaces resource IDs.
- mtu Integer
- MTU of the packets between PE & CE.
- port
Count Integer - Number of ports connected between PE/CE. Maximum value depends on FabricSKU.
- interfaces string[]
- List of network device interfaces resource IDs.
- mtu number
- MTU of the packets between PE & CE.
- port
Count number - Number of ports connected between PE/CE. Maximum value depends on FabricSKU.
- interfaces Sequence[str]
- List of network device interfaces resource IDs.
- mtu int
- MTU of the packets between PE & CE.
- port_
count int - Number of ports connected between PE/CE. Maximum value depends on FabricSKU.
- interfaces List<String>
- List of network device interfaces resource IDs.
- mtu Number
- MTU of the packets between PE & CE.
- port
Count Number - Number of ports connected between PE/CE. Maximum value depends on FabricSKU.
Layer3Configuration, Layer3ConfigurationArgs
- Export
Route stringPolicy Id - exportRoutePolicyId
- Import
Route stringPolicy Id - importRoutePolicyId
- Peer
ASN int - ASN of PE devices for CE/PE connectivity.Example : 28
- Primary
Ipv4Prefix string - IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.0/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Primary
Ipv6Prefix string - IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a0/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Secondary
Ipv4Prefix string - Secondary IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.20/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Secondary
Ipv6Prefix string - Secondary IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a4/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Vlan
Id int - VLAN for CE/PE Layer 3 connectivity.Example : 501
- Export
Route stringPolicy Id - exportRoutePolicyId
- Import
Route stringPolicy Id - importRoutePolicyId
- Peer
ASN int - ASN of PE devices for CE/PE connectivity.Example : 28
- Primary
Ipv4Prefix string - IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.0/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Primary
Ipv6Prefix string - IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a0/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Secondary
Ipv4Prefix string - Secondary IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.20/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Secondary
Ipv6Prefix string - Secondary IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a4/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Vlan
Id int - VLAN for CE/PE Layer 3 connectivity.Example : 501
- export
Route StringPolicy Id - exportRoutePolicyId
- import
Route StringPolicy Id - importRoutePolicyId
- peer
ASN Integer - ASN of PE devices for CE/PE connectivity.Example : 28
- primary
Ipv4Prefix String - IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.0/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- primary
Ipv6Prefix String - IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a0/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary
Ipv4Prefix String - Secondary IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.20/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary
Ipv6Prefix String - Secondary IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a4/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- vlan
Id Integer - VLAN for CE/PE Layer 3 connectivity.Example : 501
- export
Route stringPolicy Id - exportRoutePolicyId
- import
Route stringPolicy Id - importRoutePolicyId
- peer
ASN number - ASN of PE devices for CE/PE connectivity.Example : 28
- primary
Ipv4Prefix string - IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.0/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- primary
Ipv6Prefix string - IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a0/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary
Ipv4Prefix string - Secondary IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.20/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary
Ipv6Prefix string - Secondary IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a4/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- vlan
Id number - VLAN for CE/PE Layer 3 connectivity.Example : 501
- export_
route_ strpolicy_ id - exportRoutePolicyId
- import_
route_ strpolicy_ id - importRoutePolicyId
- peer_
asn int - ASN of PE devices for CE/PE connectivity.Example : 28
- primary_
ipv4_ strprefix - IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.0/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- primary_
ipv6_ strprefix - IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a0/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary_
ipv4_ strprefix - Secondary IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.20/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary_
ipv6_ strprefix - Secondary IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a4/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- vlan_
id int - VLAN for CE/PE Layer 3 connectivity.Example : 501
- export
Route StringPolicy Id - exportRoutePolicyId
- import
Route StringPolicy Id - importRoutePolicyId
- peer
ASN Number - ASN of PE devices for CE/PE connectivity.Example : 28
- primary
Ipv4Prefix String - IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.0/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- primary
Ipv6Prefix String - IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a0/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary
Ipv4Prefix String - Secondary IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.20/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary
Ipv6Prefix String - Secondary IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a4/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- vlan
Id Number - VLAN for CE/PE Layer 3 connectivity.Example : 501
Layer3ConfigurationResponse, Layer3ConfigurationResponseArgs
- Fabric
ASN int - ASN of CE devices for CE/PE connectivity.
- Export
Route stringPolicy Id - exportRoutePolicyId
- Import
Route stringPolicy Id - importRoutePolicyId
- Peer
ASN int - ASN of PE devices for CE/PE connectivity.Example : 28
- Primary
Ipv4Prefix string - IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.0/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Primary
Ipv6Prefix string - IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a0/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Secondary
Ipv4Prefix string - Secondary IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.20/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Secondary
Ipv6Prefix string - Secondary IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a4/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Vlan
Id int - VLAN for CE/PE Layer 3 connectivity.Example : 501
- Fabric
ASN int - ASN of CE devices for CE/PE connectivity.
- Export
Route stringPolicy Id - exportRoutePolicyId
- Import
Route stringPolicy Id - importRoutePolicyId
- Peer
ASN int - ASN of PE devices for CE/PE connectivity.Example : 28
- Primary
Ipv4Prefix string - IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.0/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Primary
Ipv6Prefix string - IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a0/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Secondary
Ipv4Prefix string - Secondary IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.20/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Secondary
Ipv6Prefix string - Secondary IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a4/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- Vlan
Id int - VLAN for CE/PE Layer 3 connectivity.Example : 501
- fabric
ASN Integer - ASN of CE devices for CE/PE connectivity.
- export
Route StringPolicy Id - exportRoutePolicyId
- import
Route StringPolicy Id - importRoutePolicyId
- peer
ASN Integer - ASN of PE devices for CE/PE connectivity.Example : 28
- primary
Ipv4Prefix String - IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.0/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- primary
Ipv6Prefix String - IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a0/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary
Ipv4Prefix String - Secondary IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.20/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary
Ipv6Prefix String - Secondary IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a4/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- vlan
Id Integer - VLAN for CE/PE Layer 3 connectivity.Example : 501
- fabric
ASN number - ASN of CE devices for CE/PE connectivity.
- export
Route stringPolicy Id - exportRoutePolicyId
- import
Route stringPolicy Id - importRoutePolicyId
- peer
ASN number - ASN of PE devices for CE/PE connectivity.Example : 28
- primary
Ipv4Prefix string - IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.0/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- primary
Ipv6Prefix string - IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a0/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary
Ipv4Prefix string - Secondary IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.20/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary
Ipv6Prefix string - Secondary IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a4/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- vlan
Id number - VLAN for CE/PE Layer 3 connectivity.Example : 501
- fabric_
asn int - ASN of CE devices for CE/PE connectivity.
- export_
route_ strpolicy_ id - exportRoutePolicyId
- import_
route_ strpolicy_ id - importRoutePolicyId
- peer_
asn int - ASN of PE devices for CE/PE connectivity.Example : 28
- primary_
ipv4_ strprefix - IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.0/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- primary_
ipv6_ strprefix - IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a0/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary_
ipv4_ strprefix - Secondary IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.20/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary_
ipv6_ strprefix - Secondary IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a4/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- vlan_
id int - VLAN for CE/PE Layer 3 connectivity.Example : 501
- fabric
ASN Number - ASN of CE devices for CE/PE connectivity.
- export
Route StringPolicy Id - exportRoutePolicyId
- import
Route StringPolicy Id - importRoutePolicyId
- peer
ASN Number - ASN of PE devices for CE/PE connectivity.Example : 28
- primary
Ipv4Prefix String - IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.0/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- primary
Ipv6Prefix String - IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a0/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary
Ipv4Prefix String - Secondary IPv4 Address Prefix of CE-PE interconnect links. Example: 172.31.0.20/31. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- secondary
Ipv6Prefix String - Secondary IPv6 Address Prefix of CE-PE interconnect links. Example: 3FFE:FFFF:0:CD30::a4/126. The values can be specified at the time of creation or can be updated afterwards. Any update to the values post-provisioning may disrupt traffic. The 1st and 3rd IPs are to be configured on CE1 and CE2 for Option B interfaces. The 2nd and 4th IPs are to be configured on PE1 and PE2 for Option B interfaces.
- vlan
Id Number - VLAN for CE/PE Layer 3 connectivity.Example : 501
NniType, NniTypeArgs
- CE
- CE
- NPB
- NPB
- Nni
Type CE - CE
- Nni
Type NPB - NPB
- CE
- CE
- NPB
- NPB
- CE
- CE
- NPB
- NPB
- CE
- CE
- NPB
- NPB
- "CE"
- CE
- "NPB"
- NPB
SystemDataResponse, SystemDataResponseArgs
- Created
At string - The timestamp of resource creation (UTC).
- Created
By string - The identity that created the resource.
- Created
By stringType - The type of identity that created the resource.
- Last
Modified stringAt - The timestamp of resource last modification (UTC)
- Last
Modified stringBy - The identity that last modified the resource.
- Last
Modified stringBy Type - The type of identity that last modified the resource.
- Created
At string - The timestamp of resource creation (UTC).
- Created
By string - The identity that created the resource.
- Created
By stringType - The type of identity that created the resource.
- Last
Modified stringAt - The timestamp of resource last modification (UTC)
- Last
Modified stringBy - The identity that last modified the resource.
- Last
Modified stringBy Type - The type of identity that last modified the resource.
- created
At String - The timestamp of resource creation (UTC).
- created
By String - The identity that created the resource.
- created
By StringType - The type of identity that created the resource.
- last
Modified StringAt - The timestamp of resource last modification (UTC)
- last
Modified StringBy - The identity that last modified the resource.
- last
Modified StringBy Type - The type of identity that last modified the resource.
- created
At string - The timestamp of resource creation (UTC).
- created
By string - The identity that created the resource.
- created
By stringType - The type of identity that created the resource.
- last
Modified stringAt - The timestamp of resource last modification (UTC)
- last
Modified stringBy - The identity that last modified the resource.
- last
Modified stringBy Type - The type of identity that last modified the resource.
- created_
at str - The timestamp of resource creation (UTC).
- created_
by str - The identity that created the resource.
- created_
by_ strtype - The type of identity that created the resource.
- last_
modified_ strat - The timestamp of resource last modification (UTC)
- last_
modified_ strby - The identity that last modified the resource.
- last_
modified_ strby_ type - The type of identity that last modified the resource.
- created
At String - The timestamp of resource creation (UTC).
- created
By String - The identity that created the resource.
- created
By StringType - The type of identity that created the resource.
- last
Modified StringAt - The timestamp of resource last modification (UTC)
- last
Modified StringBy - The identity that last modified the resource.
- last
Modified StringBy Type - The type of identity that last modified the resource.
Import
An existing resource can be imported using its type token, name, and identifier, e.g.
$ pulumi import azure-native:managednetworkfabric:NetworkToNetworkInterconnect DefaultNNI /subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.ManagedNetworkFabric/networkFabrics/{networkFabricName}/networkToNetworkInterconnects/{networkToNetworkInterconnectName}
To learn more about importing existing cloud resources, see Importing resources.
Package Details
- Repository
- Azure Native pulumi/pulumi-azure-native
- License
- Apache-2.0