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  5. RouterPeer
Google Cloud Classic v8.3.1 published on Wednesday, Sep 25, 2024 by Pulumi

gcp.compute.RouterPeer

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Google Cloud Classic v8.3.1 published on Wednesday, Sep 25, 2024 by Pulumi

    BGP information that must be configured into the routing stack to establish BGP peering. This information must specify the peer ASN and either the interface name, IP address, or peer IP address. Please refer to RFC4273.

    To get more information about RouterBgpPeer, see:

    Example Usage

    Router Peer Basic

    import * as pulumi from "@pulumi/pulumi";
    import * as gcp from "@pulumi/gcp";
    
    const peer = new gcp.compute.RouterPeer("peer", {
        name: "my-router-peer",
        router: "my-router",
        region: "us-central1",
        peerAsn: 65513,
        advertisedRoutePriority: 100,
        "interface": "interface-1",
    });
    
    import pulumi
    import pulumi_gcp as gcp
    
    peer = gcp.compute.RouterPeer("peer",
        name="my-router-peer",
        router="my-router",
        region="us-central1",
        peer_asn=65513,
        advertised_route_priority=100,
        interface="interface-1")
    
    package main
    
    import (
    	"github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/compute"
    	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
    )
    
    func main() {
    	pulumi.Run(func(ctx *pulumi.Context) error {
    		_, err := compute.NewRouterPeer(ctx, "peer", &compute.RouterPeerArgs{
    			Name:                    pulumi.String("my-router-peer"),
    			Router:                  pulumi.String("my-router"),
    			Region:                  pulumi.String("us-central1"),
    			PeerAsn:                 pulumi.Int(65513),
    			AdvertisedRoutePriority: pulumi.Int(100),
    			Interface:               pulumi.String("interface-1"),
    		})
    		if err != nil {
    			return err
    		}
    		return nil
    	})
    }
    
    using System.Collections.Generic;
    using System.Linq;
    using Pulumi;
    using Gcp = Pulumi.Gcp;
    
    return await Deployment.RunAsync(() => 
    {
        var peer = new Gcp.Compute.RouterPeer("peer", new()
        {
            Name = "my-router-peer",
            Router = "my-router",
            Region = "us-central1",
            PeerAsn = 65513,
            AdvertisedRoutePriority = 100,
            Interface = "interface-1",
        });
    
    });
    
    package generated_program;
    
    import com.pulumi.Context;
    import com.pulumi.Pulumi;
    import com.pulumi.core.Output;
    import com.pulumi.gcp.compute.RouterPeer;
    import com.pulumi.gcp.compute.RouterPeerArgs;
    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 peer = new RouterPeer("peer", RouterPeerArgs.builder()
                .name("my-router-peer")
                .router("my-router")
                .region("us-central1")
                .peerAsn(65513)
                .advertisedRoutePriority(100)
                .interface_("interface-1")
                .build());
    
        }
    }
    
    resources:
      peer:
        type: gcp:compute:RouterPeer
        properties:
          name: my-router-peer
          router: my-router
          region: us-central1
          peerAsn: 65513
          advertisedRoutePriority: 100
          interface: interface-1
    

    Router Peer Disabled

    import * as pulumi from "@pulumi/pulumi";
    import * as gcp from "@pulumi/gcp";
    
    const peer = new gcp.compute.RouterPeer("peer", {
        name: "my-router-peer",
        router: "my-router",
        region: "us-central1",
        peerIpAddress: "169.254.1.2",
        peerAsn: 65513,
        advertisedRoutePriority: 100,
        "interface": "interface-1",
        enable: false,
    });
    
    import pulumi
    import pulumi_gcp as gcp
    
    peer = gcp.compute.RouterPeer("peer",
        name="my-router-peer",
        router="my-router",
        region="us-central1",
        peer_ip_address="169.254.1.2",
        peer_asn=65513,
        advertised_route_priority=100,
        interface="interface-1",
        enable=False)
    
    package main
    
    import (
    	"github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/compute"
    	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
    )
    
    func main() {
    	pulumi.Run(func(ctx *pulumi.Context) error {
    		_, err := compute.NewRouterPeer(ctx, "peer", &compute.RouterPeerArgs{
    			Name:                    pulumi.String("my-router-peer"),
    			Router:                  pulumi.String("my-router"),
    			Region:                  pulumi.String("us-central1"),
    			PeerIpAddress:           pulumi.String("169.254.1.2"),
    			PeerAsn:                 pulumi.Int(65513),
    			AdvertisedRoutePriority: pulumi.Int(100),
    			Interface:               pulumi.String("interface-1"),
    			Enable:                  pulumi.Bool(false),
    		})
    		if err != nil {
    			return err
    		}
    		return nil
    	})
    }
    
    using System.Collections.Generic;
    using System.Linq;
    using Pulumi;
    using Gcp = Pulumi.Gcp;
    
    return await Deployment.RunAsync(() => 
    {
        var peer = new Gcp.Compute.RouterPeer("peer", new()
        {
            Name = "my-router-peer",
            Router = "my-router",
            Region = "us-central1",
            PeerIpAddress = "169.254.1.2",
            PeerAsn = 65513,
            AdvertisedRoutePriority = 100,
            Interface = "interface-1",
            Enable = false,
        });
    
    });
    
    package generated_program;
    
    import com.pulumi.Context;
    import com.pulumi.Pulumi;
    import com.pulumi.core.Output;
    import com.pulumi.gcp.compute.RouterPeer;
    import com.pulumi.gcp.compute.RouterPeerArgs;
    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 peer = new RouterPeer("peer", RouterPeerArgs.builder()
                .name("my-router-peer")
                .router("my-router")
                .region("us-central1")
                .peerIpAddress("169.254.1.2")
                .peerAsn(65513)
                .advertisedRoutePriority(100)
                .interface_("interface-1")
                .enable(false)
                .build());
    
        }
    }
    
    resources:
      peer:
        type: gcp:compute:RouterPeer
        properties:
          name: my-router-peer
          router: my-router
          region: us-central1
          peerIpAddress: 169.254.1.2
          peerAsn: 65513
          advertisedRoutePriority: 100
          interface: interface-1
          enable: false
    

    Router Peer Bfd

    import * as pulumi from "@pulumi/pulumi";
    import * as gcp from "@pulumi/gcp";
    
    const peer = new gcp.compute.RouterPeer("peer", {
        name: "my-router-peer",
        router: "my-router",
        region: "us-central1",
        peerIpAddress: "169.254.1.2",
        peerAsn: 65513,
        advertisedRoutePriority: 100,
        "interface": "interface-1",
        bfd: {
            minReceiveInterval: 1000,
            minTransmitInterval: 1000,
            multiplier: 5,
            sessionInitializationMode: "ACTIVE",
        },
    });
    
    import pulumi
    import pulumi_gcp as gcp
    
    peer = gcp.compute.RouterPeer("peer",
        name="my-router-peer",
        router="my-router",
        region="us-central1",
        peer_ip_address="169.254.1.2",
        peer_asn=65513,
        advertised_route_priority=100,
        interface="interface-1",
        bfd={
            "min_receive_interval": 1000,
            "min_transmit_interval": 1000,
            "multiplier": 5,
            "session_initialization_mode": "ACTIVE",
        })
    
    package main
    
    import (
    	"github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/compute"
    	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
    )
    
    func main() {
    	pulumi.Run(func(ctx *pulumi.Context) error {
    		_, err := compute.NewRouterPeer(ctx, "peer", &compute.RouterPeerArgs{
    			Name:                    pulumi.String("my-router-peer"),
    			Router:                  pulumi.String("my-router"),
    			Region:                  pulumi.String("us-central1"),
    			PeerIpAddress:           pulumi.String("169.254.1.2"),
    			PeerAsn:                 pulumi.Int(65513),
    			AdvertisedRoutePriority: pulumi.Int(100),
    			Interface:               pulumi.String("interface-1"),
    			Bfd: &compute.RouterPeerBfdArgs{
    				MinReceiveInterval:        pulumi.Int(1000),
    				MinTransmitInterval:       pulumi.Int(1000),
    				Multiplier:                pulumi.Int(5),
    				SessionInitializationMode: pulumi.String("ACTIVE"),
    			},
    		})
    		if err != nil {
    			return err
    		}
    		return nil
    	})
    }
    
    using System.Collections.Generic;
    using System.Linq;
    using Pulumi;
    using Gcp = Pulumi.Gcp;
    
    return await Deployment.RunAsync(() => 
    {
        var peer = new Gcp.Compute.RouterPeer("peer", new()
        {
            Name = "my-router-peer",
            Router = "my-router",
            Region = "us-central1",
            PeerIpAddress = "169.254.1.2",
            PeerAsn = 65513,
            AdvertisedRoutePriority = 100,
            Interface = "interface-1",
            Bfd = new Gcp.Compute.Inputs.RouterPeerBfdArgs
            {
                MinReceiveInterval = 1000,
                MinTransmitInterval = 1000,
                Multiplier = 5,
                SessionInitializationMode = "ACTIVE",
            },
        });
    
    });
    
    package generated_program;
    
    import com.pulumi.Context;
    import com.pulumi.Pulumi;
    import com.pulumi.core.Output;
    import com.pulumi.gcp.compute.RouterPeer;
    import com.pulumi.gcp.compute.RouterPeerArgs;
    import com.pulumi.gcp.compute.inputs.RouterPeerBfdArgs;
    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 peer = new RouterPeer("peer", RouterPeerArgs.builder()
                .name("my-router-peer")
                .router("my-router")
                .region("us-central1")
                .peerIpAddress("169.254.1.2")
                .peerAsn(65513)
                .advertisedRoutePriority(100)
                .interface_("interface-1")
                .bfd(RouterPeerBfdArgs.builder()
                    .minReceiveInterval(1000)
                    .minTransmitInterval(1000)
                    .multiplier(5)
                    .sessionInitializationMode("ACTIVE")
                    .build())
                .build());
    
        }
    }
    
    resources:
      peer:
        type: gcp:compute:RouterPeer
        properties:
          name: my-router-peer
          router: my-router
          region: us-central1
          peerIpAddress: 169.254.1.2
          peerAsn: 65513
          advertisedRoutePriority: 100
          interface: interface-1
          bfd:
            minReceiveInterval: 1000
            minTransmitInterval: 1000
            multiplier: 5
            sessionInitializationMode: ACTIVE
    

    Router Peer Router Appliance

    import * as pulumi from "@pulumi/pulumi";
    import * as gcp from "@pulumi/gcp";
    
    const network = new gcp.compute.Network("network", {
        name: "my-router-net",
        autoCreateSubnetworks: false,
    });
    const subnetwork = new gcp.compute.Subnetwork("subnetwork", {
        name: "my-router-sub",
        network: network.selfLink,
        ipCidrRange: "10.0.0.0/16",
        region: "us-central1",
    });
    const addrIntf = new gcp.compute.Address("addr_intf", {
        name: "my-router-addr-intf",
        region: subnetwork.region,
        subnetwork: subnetwork.id,
        addressType: "INTERNAL",
    });
    const addrIntfRedundant = new gcp.compute.Address("addr_intf_redundant", {
        name: "my-router-addr-intf-red",
        region: subnetwork.region,
        subnetwork: subnetwork.id,
        addressType: "INTERNAL",
    });
    const addrPeer = new gcp.compute.Address("addr_peer", {
        name: "my-router-addr-peer",
        region: subnetwork.region,
        subnetwork: subnetwork.id,
        addressType: "INTERNAL",
    });
    const instance = new gcp.compute.Instance("instance", {
        name: "router-appliance",
        zone: "us-central1-a",
        machineType: "e2-medium",
        canIpForward: true,
        bootDisk: {
            initializeParams: {
                image: "debian-cloud/debian-11",
            },
        },
        networkInterfaces: [{
            networkIp: addrPeer.address,
            subnetwork: subnetwork.selfLink,
        }],
    });
    const hub = new gcp.networkconnectivity.Hub("hub", {name: "my-router-hub"});
    const spoke = new gcp.networkconnectivity.Spoke("spoke", {
        name: "my-router-spoke",
        location: subnetwork.region,
        hub: hub.id,
        linkedRouterApplianceInstances: {
            instances: [{
                virtualMachine: instance.selfLink,
                ipAddress: addrPeer.address,
            }],
            siteToSiteDataTransfer: false,
        },
    });
    const router = new gcp.compute.Router("router", {
        name: "my-router-router",
        region: subnetwork.region,
        network: network.selfLink,
        bgp: {
            asn: 64514,
        },
    });
    const interfaceRedundant = new gcp.compute.RouterInterface("interface_redundant", {
        name: "my-router-intf-red",
        region: router.region,
        router: router.name,
        subnetwork: subnetwork.selfLink,
        privateIpAddress: addrIntfRedundant.address,
    });
    const _interface = new gcp.compute.RouterInterface("interface", {
        name: "my-router-intf",
        region: router.region,
        router: router.name,
        subnetwork: subnetwork.selfLink,
        privateIpAddress: addrIntf.address,
        redundantInterface: interfaceRedundant.name,
    });
    const peer = new gcp.compute.RouterPeer("peer", {
        name: "my-router-peer",
        router: router.name,
        region: router.region,
        "interface": _interface.name,
        routerApplianceInstance: instance.selfLink,
        peerAsn: 65513,
        peerIpAddress: addrPeer.address,
    });
    
    import pulumi
    import pulumi_gcp as gcp
    
    network = gcp.compute.Network("network",
        name="my-router-net",
        auto_create_subnetworks=False)
    subnetwork = gcp.compute.Subnetwork("subnetwork",
        name="my-router-sub",
        network=network.self_link,
        ip_cidr_range="10.0.0.0/16",
        region="us-central1")
    addr_intf = gcp.compute.Address("addr_intf",
        name="my-router-addr-intf",
        region=subnetwork.region,
        subnetwork=subnetwork.id,
        address_type="INTERNAL")
    addr_intf_redundant = gcp.compute.Address("addr_intf_redundant",
        name="my-router-addr-intf-red",
        region=subnetwork.region,
        subnetwork=subnetwork.id,
        address_type="INTERNAL")
    addr_peer = gcp.compute.Address("addr_peer",
        name="my-router-addr-peer",
        region=subnetwork.region,
        subnetwork=subnetwork.id,
        address_type="INTERNAL")
    instance = gcp.compute.Instance("instance",
        name="router-appliance",
        zone="us-central1-a",
        machine_type="e2-medium",
        can_ip_forward=True,
        boot_disk={
            "initialize_params": {
                "image": "debian-cloud/debian-11",
            },
        },
        network_interfaces=[{
            "network_ip": addr_peer.address,
            "subnetwork": subnetwork.self_link,
        }])
    hub = gcp.networkconnectivity.Hub("hub", name="my-router-hub")
    spoke = gcp.networkconnectivity.Spoke("spoke",
        name="my-router-spoke",
        location=subnetwork.region,
        hub=hub.id,
        linked_router_appliance_instances={
            "instances": [{
                "virtual_machine": instance.self_link,
                "ip_address": addr_peer.address,
            }],
            "site_to_site_data_transfer": False,
        })
    router = gcp.compute.Router("router",
        name="my-router-router",
        region=subnetwork.region,
        network=network.self_link,
        bgp={
            "asn": 64514,
        })
    interface_redundant = gcp.compute.RouterInterface("interface_redundant",
        name="my-router-intf-red",
        region=router.region,
        router=router.name,
        subnetwork=subnetwork.self_link,
        private_ip_address=addr_intf_redundant.address)
    interface = gcp.compute.RouterInterface("interface",
        name="my-router-intf",
        region=router.region,
        router=router.name,
        subnetwork=subnetwork.self_link,
        private_ip_address=addr_intf.address,
        redundant_interface=interface_redundant.name)
    peer = gcp.compute.RouterPeer("peer",
        name="my-router-peer",
        router=router.name,
        region=router.region,
        interface=interface.name,
        router_appliance_instance=instance.self_link,
        peer_asn=65513,
        peer_ip_address=addr_peer.address)
    
    package main
    
    import (
    	"github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/compute"
    	"github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/networkconnectivity"
    	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
    )
    func main() {
    pulumi.Run(func(ctx *pulumi.Context) error {
    network, err := compute.NewNetwork(ctx, "network", &compute.NetworkArgs{
    Name: pulumi.String("my-router-net"),
    AutoCreateSubnetworks: pulumi.Bool(false),
    })
    if err != nil {
    return err
    }
    subnetwork, err := compute.NewSubnetwork(ctx, "subnetwork", &compute.SubnetworkArgs{
    Name: pulumi.String("my-router-sub"),
    Network: network.SelfLink,
    IpCidrRange: pulumi.String("10.0.0.0/16"),
    Region: pulumi.String("us-central1"),
    })
    if err != nil {
    return err
    }
    addrIntf, err := compute.NewAddress(ctx, "addr_intf", &compute.AddressArgs{
    Name: pulumi.String("my-router-addr-intf"),
    Region: subnetwork.Region,
    Subnetwork: subnetwork.ID(),
    AddressType: pulumi.String("INTERNAL"),
    })
    if err != nil {
    return err
    }
    addrIntfRedundant, err := compute.NewAddress(ctx, "addr_intf_redundant", &compute.AddressArgs{
    Name: pulumi.String("my-router-addr-intf-red"),
    Region: subnetwork.Region,
    Subnetwork: subnetwork.ID(),
    AddressType: pulumi.String("INTERNAL"),
    })
    if err != nil {
    return err
    }
    addrPeer, err := compute.NewAddress(ctx, "addr_peer", &compute.AddressArgs{
    Name: pulumi.String("my-router-addr-peer"),
    Region: subnetwork.Region,
    Subnetwork: subnetwork.ID(),
    AddressType: pulumi.String("INTERNAL"),
    })
    if err != nil {
    return err
    }
    instance, err := compute.NewInstance(ctx, "instance", &compute.InstanceArgs{
    Name: pulumi.String("router-appliance"),
    Zone: pulumi.String("us-central1-a"),
    MachineType: pulumi.String("e2-medium"),
    CanIpForward: pulumi.Bool(true),
    BootDisk: &compute.InstanceBootDiskArgs{
    InitializeParams: &compute.InstanceBootDiskInitializeParamsArgs{
    Image: pulumi.String("debian-cloud/debian-11"),
    },
    },
    NetworkInterfaces: compute.InstanceNetworkInterfaceArray{
    &compute.InstanceNetworkInterfaceArgs{
    NetworkIp: addrPeer.Address,
    Subnetwork: subnetwork.SelfLink,
    },
    },
    })
    if err != nil {
    return err
    }
    hub, err := networkconnectivity.NewHub(ctx, "hub", &networkconnectivity.HubArgs{
    Name: pulumi.String("my-router-hub"),
    })
    if err != nil {
    return err
    }
    _, err = networkconnectivity.NewSpoke(ctx, "spoke", &networkconnectivity.SpokeArgs{
    Name: pulumi.String("my-router-spoke"),
    Location: subnetwork.Region,
    Hub: hub.ID(),
    LinkedRouterApplianceInstances: &networkconnectivity.SpokeLinkedRouterApplianceInstancesArgs{
    Instances: networkconnectivity.SpokeLinkedRouterApplianceInstancesInstanceArray{
    &networkconnectivity.SpokeLinkedRouterApplianceInstancesInstanceArgs{
    VirtualMachine: instance.SelfLink,
    IpAddress: addrPeer.Address,
    },
    },
    SiteToSiteDataTransfer: pulumi.Bool(false),
    },
    })
    if err != nil {
    return err
    }
    router, err := compute.NewRouter(ctx, "router", &compute.RouterArgs{
    Name: pulumi.String("my-router-router"),
    Region: subnetwork.Region,
    Network: network.SelfLink,
    Bgp: &compute.RouterBgpArgs{
    Asn: pulumi.Int(64514),
    },
    })
    if err != nil {
    return err
    }
    interfaceRedundant, err := compute.NewRouterInterface(ctx, "interface_redundant", &compute.RouterInterfaceArgs{
    Name: pulumi.String("my-router-intf-red"),
    Region: router.Region,
    Router: router.Name,
    Subnetwork: subnetwork.SelfLink,
    PrivateIpAddress: addrIntfRedundant.Address,
    })
    if err != nil {
    return err
    }
    interface, err := compute.NewRouterInterface(ctx, "interface", &compute.RouterInterfaceArgs{
    Name: pulumi.String("my-router-intf"),
    Region: router.Region,
    Router: router.Name,
    Subnetwork: subnetwork.SelfLink,
    PrivateIpAddress: addrIntf.Address,
    RedundantInterface: interfaceRedundant.Name,
    })
    if err != nil {
    return err
    }
    _, err = compute.NewRouterPeer(ctx, "peer", &compute.RouterPeerArgs{
    Name: pulumi.String("my-router-peer"),
    Router: router.Name,
    Region: router.Region,
    Interface: interface.Name,
    RouterApplianceInstance: instance.SelfLink,
    PeerAsn: pulumi.Int(65513),
    PeerIpAddress: addrPeer.Address,
    })
    if err != nil {
    return err
    }
    return nil
    })
    }
    
    using System.Collections.Generic;
    using System.Linq;
    using Pulumi;
    using Gcp = Pulumi.Gcp;
    
    return await Deployment.RunAsync(() => 
    {
        var network = new Gcp.Compute.Network("network", new()
        {
            Name = "my-router-net",
            AutoCreateSubnetworks = false,
        });
    
        var subnetwork = new Gcp.Compute.Subnetwork("subnetwork", new()
        {
            Name = "my-router-sub",
            Network = network.SelfLink,
            IpCidrRange = "10.0.0.0/16",
            Region = "us-central1",
        });
    
        var addrIntf = new Gcp.Compute.Address("addr_intf", new()
        {
            Name = "my-router-addr-intf",
            Region = subnetwork.Region,
            Subnetwork = subnetwork.Id,
            AddressType = "INTERNAL",
        });
    
        var addrIntfRedundant = new Gcp.Compute.Address("addr_intf_redundant", new()
        {
            Name = "my-router-addr-intf-red",
            Region = subnetwork.Region,
            Subnetwork = subnetwork.Id,
            AddressType = "INTERNAL",
        });
    
        var addrPeer = new Gcp.Compute.Address("addr_peer", new()
        {
            Name = "my-router-addr-peer",
            Region = subnetwork.Region,
            Subnetwork = subnetwork.Id,
            AddressType = "INTERNAL",
        });
    
        var instance = new Gcp.Compute.Instance("instance", new()
        {
            Name = "router-appliance",
            Zone = "us-central1-a",
            MachineType = "e2-medium",
            CanIpForward = true,
            BootDisk = new Gcp.Compute.Inputs.InstanceBootDiskArgs
            {
                InitializeParams = new Gcp.Compute.Inputs.InstanceBootDiskInitializeParamsArgs
                {
                    Image = "debian-cloud/debian-11",
                },
            },
            NetworkInterfaces = new[]
            {
                new Gcp.Compute.Inputs.InstanceNetworkInterfaceArgs
                {
                    NetworkIp = addrPeer.IPAddress,
                    Subnetwork = subnetwork.SelfLink,
                },
            },
        });
    
        var hub = new Gcp.NetworkConnectivity.Hub("hub", new()
        {
            Name = "my-router-hub",
        });
    
        var spoke = new Gcp.NetworkConnectivity.Spoke("spoke", new()
        {
            Name = "my-router-spoke",
            Location = subnetwork.Region,
            Hub = hub.Id,
            LinkedRouterApplianceInstances = new Gcp.NetworkConnectivity.Inputs.SpokeLinkedRouterApplianceInstancesArgs
            {
                Instances = new[]
                {
                    new Gcp.NetworkConnectivity.Inputs.SpokeLinkedRouterApplianceInstancesInstanceArgs
                    {
                        VirtualMachine = instance.SelfLink,
                        IpAddress = addrPeer.IPAddress,
                    },
                },
                SiteToSiteDataTransfer = false,
            },
        });
    
        var router = new Gcp.Compute.Router("router", new()
        {
            Name = "my-router-router",
            Region = subnetwork.Region,
            Network = network.SelfLink,
            Bgp = new Gcp.Compute.Inputs.RouterBgpArgs
            {
                Asn = 64514,
            },
        });
    
        var interfaceRedundant = new Gcp.Compute.RouterInterface("interface_redundant", new()
        {
            Name = "my-router-intf-red",
            Region = router.Region,
            Router = router.Name,
            Subnetwork = subnetwork.SelfLink,
            PrivateIpAddress = addrIntfRedundant.IPAddress,
        });
    
        var @interface = new Gcp.Compute.RouterInterface("interface", new()
        {
            Name = "my-router-intf",
            Region = router.Region,
            Router = router.Name,
            Subnetwork = subnetwork.SelfLink,
            PrivateIpAddress = addrIntf.IPAddress,
            RedundantInterface = interfaceRedundant.Name,
        });
    
        var peer = new Gcp.Compute.RouterPeer("peer", new()
        {
            Name = "my-router-peer",
            Router = router.Name,
            Region = router.Region,
            Interface = @interface.Name,
            RouterApplianceInstance = instance.SelfLink,
            PeerAsn = 65513,
            PeerIpAddress = addrPeer.IPAddress,
        });
    
    });
    
    package generated_program;
    
    import com.pulumi.Context;
    import com.pulumi.Pulumi;
    import com.pulumi.core.Output;
    import com.pulumi.gcp.compute.Network;
    import com.pulumi.gcp.compute.NetworkArgs;
    import com.pulumi.gcp.compute.Subnetwork;
    import com.pulumi.gcp.compute.SubnetworkArgs;
    import com.pulumi.gcp.compute.Address;
    import com.pulumi.gcp.compute.AddressArgs;
    import com.pulumi.gcp.compute.Instance;
    import com.pulumi.gcp.compute.InstanceArgs;
    import com.pulumi.gcp.compute.inputs.InstanceBootDiskArgs;
    import com.pulumi.gcp.compute.inputs.InstanceBootDiskInitializeParamsArgs;
    import com.pulumi.gcp.compute.inputs.InstanceNetworkInterfaceArgs;
    import com.pulumi.gcp.networkconnectivity.Hub;
    import com.pulumi.gcp.networkconnectivity.HubArgs;
    import com.pulumi.gcp.networkconnectivity.Spoke;
    import com.pulumi.gcp.networkconnectivity.SpokeArgs;
    import com.pulumi.gcp.networkconnectivity.inputs.SpokeLinkedRouterApplianceInstancesArgs;
    import com.pulumi.gcp.compute.Router;
    import com.pulumi.gcp.compute.RouterArgs;
    import com.pulumi.gcp.compute.inputs.RouterBgpArgs;
    import com.pulumi.gcp.compute.RouterInterface;
    import com.pulumi.gcp.compute.RouterInterfaceArgs;
    import com.pulumi.gcp.compute.RouterPeer;
    import com.pulumi.gcp.compute.RouterPeerArgs;
    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 network = new Network("network", NetworkArgs.builder()
                .name("my-router-net")
                .autoCreateSubnetworks(false)
                .build());
    
            var subnetwork = new Subnetwork("subnetwork", SubnetworkArgs.builder()
                .name("my-router-sub")
                .network(network.selfLink())
                .ipCidrRange("10.0.0.0/16")
                .region("us-central1")
                .build());
    
            var addrIntf = new Address("addrIntf", AddressArgs.builder()
                .name("my-router-addr-intf")
                .region(subnetwork.region())
                .subnetwork(subnetwork.id())
                .addressType("INTERNAL")
                .build());
    
            var addrIntfRedundant = new Address("addrIntfRedundant", AddressArgs.builder()
                .name("my-router-addr-intf-red")
                .region(subnetwork.region())
                .subnetwork(subnetwork.id())
                .addressType("INTERNAL")
                .build());
    
            var addrPeer = new Address("addrPeer", AddressArgs.builder()
                .name("my-router-addr-peer")
                .region(subnetwork.region())
                .subnetwork(subnetwork.id())
                .addressType("INTERNAL")
                .build());
    
            var instance = new Instance("instance", InstanceArgs.builder()
                .name("router-appliance")
                .zone("us-central1-a")
                .machineType("e2-medium")
                .canIpForward(true)
                .bootDisk(InstanceBootDiskArgs.builder()
                    .initializeParams(InstanceBootDiskInitializeParamsArgs.builder()
                        .image("debian-cloud/debian-11")
                        .build())
                    .build())
                .networkInterfaces(InstanceNetworkInterfaceArgs.builder()
                    .networkIp(addrPeer.address())
                    .subnetwork(subnetwork.selfLink())
                    .build())
                .build());
    
            var hub = new Hub("hub", HubArgs.builder()
                .name("my-router-hub")
                .build());
    
            var spoke = new Spoke("spoke", SpokeArgs.builder()
                .name("my-router-spoke")
                .location(subnetwork.region())
                .hub(hub.id())
                .linkedRouterApplianceInstances(SpokeLinkedRouterApplianceInstancesArgs.builder()
                    .instances(SpokeLinkedRouterApplianceInstancesInstanceArgs.builder()
                        .virtualMachine(instance.selfLink())
                        .ipAddress(addrPeer.address())
                        .build())
                    .siteToSiteDataTransfer(false)
                    .build())
                .build());
    
            var router = new Router("router", RouterArgs.builder()
                .name("my-router-router")
                .region(subnetwork.region())
                .network(network.selfLink())
                .bgp(RouterBgpArgs.builder()
                    .asn(64514)
                    .build())
                .build());
    
            var interfaceRedundant = new RouterInterface("interfaceRedundant", RouterInterfaceArgs.builder()
                .name("my-router-intf-red")
                .region(router.region())
                .router(router.name())
                .subnetwork(subnetwork.selfLink())
                .privateIpAddress(addrIntfRedundant.address())
                .build());
    
            var interface_ = new RouterInterface("interface", RouterInterfaceArgs.builder()
                .name("my-router-intf")
                .region(router.region())
                .router(router.name())
                .subnetwork(subnetwork.selfLink())
                .privateIpAddress(addrIntf.address())
                .redundantInterface(interfaceRedundant.name())
                .build());
    
            var peer = new RouterPeer("peer", RouterPeerArgs.builder()
                .name("my-router-peer")
                .router(router.name())
                .region(router.region())
                .interface_(interface_.name())
                .routerApplianceInstance(instance.selfLink())
                .peerAsn(65513)
                .peerIpAddress(addrPeer.address())
                .build());
    
        }
    }
    
    resources:
      network:
        type: gcp:compute:Network
        properties:
          name: my-router-net
          autoCreateSubnetworks: false
      subnetwork:
        type: gcp:compute:Subnetwork
        properties:
          name: my-router-sub
          network: ${network.selfLink}
          ipCidrRange: 10.0.0.0/16
          region: us-central1
      addrIntf:
        type: gcp:compute:Address
        name: addr_intf
        properties:
          name: my-router-addr-intf
          region: ${subnetwork.region}
          subnetwork: ${subnetwork.id}
          addressType: INTERNAL
      addrIntfRedundant:
        type: gcp:compute:Address
        name: addr_intf_redundant
        properties:
          name: my-router-addr-intf-red
          region: ${subnetwork.region}
          subnetwork: ${subnetwork.id}
          addressType: INTERNAL
      addrPeer:
        type: gcp:compute:Address
        name: addr_peer
        properties:
          name: my-router-addr-peer
          region: ${subnetwork.region}
          subnetwork: ${subnetwork.id}
          addressType: INTERNAL
      instance:
        type: gcp:compute:Instance
        properties:
          name: router-appliance
          zone: us-central1-a
          machineType: e2-medium
          canIpForward: true
          bootDisk:
            initializeParams:
              image: debian-cloud/debian-11
          networkInterfaces:
            - networkIp: ${addrPeer.address}
              subnetwork: ${subnetwork.selfLink}
      hub:
        type: gcp:networkconnectivity:Hub
        properties:
          name: my-router-hub
      spoke:
        type: gcp:networkconnectivity:Spoke
        properties:
          name: my-router-spoke
          location: ${subnetwork.region}
          hub: ${hub.id}
          linkedRouterApplianceInstances:
            instances:
              - virtualMachine: ${instance.selfLink}
                ipAddress: ${addrPeer.address}
            siteToSiteDataTransfer: false
      router:
        type: gcp:compute:Router
        properties:
          name: my-router-router
          region: ${subnetwork.region}
          network: ${network.selfLink}
          bgp:
            asn: 64514
      interfaceRedundant:
        type: gcp:compute:RouterInterface
        name: interface_redundant
        properties:
          name: my-router-intf-red
          region: ${router.region}
          router: ${router.name}
          subnetwork: ${subnetwork.selfLink}
          privateIpAddress: ${addrIntfRedundant.address}
      interface:
        type: gcp:compute:RouterInterface
        properties:
          name: my-router-intf
          region: ${router.region}
          router: ${router.name}
          subnetwork: ${subnetwork.selfLink}
          privateIpAddress: ${addrIntf.address}
          redundantInterface: ${interfaceRedundant.name}
      peer:
        type: gcp:compute:RouterPeer
        properties:
          name: my-router-peer
          router: ${router.name}
          region: ${router.region}
          interface: ${interface.name}
          routerApplianceInstance: ${instance.selfLink}
          peerAsn: 65513
          peerIpAddress: ${addrPeer.address}
    

    Router Peer Md5 Authentication Key

    import * as pulumi from "@pulumi/pulumi";
    import * as gcp from "@pulumi/gcp";
    
    const foobar = new gcp.compute.RouterPeer("foobar", {
        name: "%s-peer",
        router: foobarGoogleComputeRouter.name,
        region: foobarGoogleComputeRouter.region,
        peerAsn: 65515,
        advertisedRoutePriority: 100,
        "interface": foobarGoogleComputeRouterInterface.name,
        peerIpAddress: "169.254.3.2",
        md5AuthenticationKey: {
            name: "%s-peer-key",
            key: "%s-peer-key-value",
        },
    });
    
    import pulumi
    import pulumi_gcp as gcp
    
    foobar = gcp.compute.RouterPeer("foobar",
        name="%s-peer",
        router=foobar_google_compute_router["name"],
        region=foobar_google_compute_router["region"],
        peer_asn=65515,
        advertised_route_priority=100,
        interface=foobar_google_compute_router_interface["name"],
        peer_ip_address="169.254.3.2",
        md5_authentication_key={
            "name": "%s-peer-key",
            "key": "%s-peer-key-value",
        })
    
    package main
    
    import (
    	"github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/compute"
    	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
    )
    
    func main() {
    	pulumi.Run(func(ctx *pulumi.Context) error {
    		_, err := compute.NewRouterPeer(ctx, "foobar", &compute.RouterPeerArgs{
    			Name:                    pulumi.String("%s-peer"),
    			Router:                  pulumi.Any(foobarGoogleComputeRouter.Name),
    			Region:                  pulumi.Any(foobarGoogleComputeRouter.Region),
    			PeerAsn:                 pulumi.Int(65515),
    			AdvertisedRoutePriority: pulumi.Int(100),
    			Interface:               pulumi.Any(foobarGoogleComputeRouterInterface.Name),
    			PeerIpAddress:           pulumi.String("169.254.3.2"),
    			Md5AuthenticationKey: &compute.RouterPeerMd5AuthenticationKeyArgs{
    				Name: pulumi.String("%s-peer-key"),
    				Key:  pulumi.String("%s-peer-key-value"),
    			},
    		})
    		if err != nil {
    			return err
    		}
    		return nil
    	})
    }
    
    using System.Collections.Generic;
    using System.Linq;
    using Pulumi;
    using Gcp = Pulumi.Gcp;
    
    return await Deployment.RunAsync(() => 
    {
        var foobar = new Gcp.Compute.RouterPeer("foobar", new()
        {
            Name = "%s-peer",
            Router = foobarGoogleComputeRouter.Name,
            Region = foobarGoogleComputeRouter.Region,
            PeerAsn = 65515,
            AdvertisedRoutePriority = 100,
            Interface = foobarGoogleComputeRouterInterface.Name,
            PeerIpAddress = "169.254.3.2",
            Md5AuthenticationKey = new Gcp.Compute.Inputs.RouterPeerMd5AuthenticationKeyArgs
            {
                Name = "%s-peer-key",
                Key = "%s-peer-key-value",
            },
        });
    
    });
    
    package generated_program;
    
    import com.pulumi.Context;
    import com.pulumi.Pulumi;
    import com.pulumi.core.Output;
    import com.pulumi.gcp.compute.RouterPeer;
    import com.pulumi.gcp.compute.RouterPeerArgs;
    import com.pulumi.gcp.compute.inputs.RouterPeerMd5AuthenticationKeyArgs;
    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 foobar = new RouterPeer("foobar", RouterPeerArgs.builder()
                .name("%s-peer")
                .router(foobarGoogleComputeRouter.name())
                .region(foobarGoogleComputeRouter.region())
                .peerAsn(65515)
                .advertisedRoutePriority(100)
                .interface_(foobarGoogleComputeRouterInterface.name())
                .peerIpAddress("169.254.3.2")
                .md5AuthenticationKey(RouterPeerMd5AuthenticationKeyArgs.builder()
                    .name("%s-peer-key")
                    .key("%s-peer-key-value")
                    .build())
                .build());
    
        }
    }
    
    resources:
      foobar:
        type: gcp:compute:RouterPeer
        properties:
          name: '%s-peer'
          router: ${foobarGoogleComputeRouter.name}
          region: ${foobarGoogleComputeRouter.region}
          peerAsn: 65515
          advertisedRoutePriority: 100
          interface: ${foobarGoogleComputeRouterInterface.name}
          peerIpAddress: 169.254.3.2
          md5AuthenticationKey:
            name: '%s-peer-key'
            key: '%s-peer-key-value'
    

    Router Peer Export And Import Policies

    import * as pulumi from "@pulumi/pulumi";
    import * as gcp from "@pulumi/gcp";
    
    const network = new gcp.compute.Network("network", {
        name: "my-router-net",
        autoCreateSubnetworks: false,
    });
    const subnetwork = new gcp.compute.Subnetwork("subnetwork", {
        name: "my-router-subnet",
        network: network.selfLink,
        ipCidrRange: "10.0.0.0/16",
        region: "us-central1",
    });
    const address = new gcp.compute.Address("address", {
        name: "my-router",
        region: subnetwork.region,
    });
    const vpnGateway = new gcp.compute.HaVpnGateway("vpn_gateway", {
        name: "my-router-gateway",
        network: network.selfLink,
        region: subnetwork.region,
    });
    const externalGateway = new gcp.compute.ExternalVpnGateway("external_gateway", {
        name: "my-router-external-gateway",
        redundancyType: "SINGLE_IP_INTERNALLY_REDUNDANT",
        description: "An externally managed VPN gateway",
        interfaces: [{
            id: 0,
            ipAddress: "8.8.8.8",
        }],
    });
    const router = new gcp.compute.Router("router", {
        name: "my-router",
        region: subnetwork.region,
        network: network.selfLink,
        bgp: {
            asn: 64514,
        },
    });
    const vpnTunnel = new gcp.compute.VPNTunnel("vpn_tunnel", {
        name: "my-router",
        region: subnetwork.region,
        vpnGateway: vpnGateway.id,
        peerExternalGateway: externalGateway.id,
        peerExternalGatewayInterface: 0,
        sharedSecret: "unguessable",
        router: router.name,
        vpnGatewayInterface: 0,
    });
    const routerInterface = new gcp.compute.RouterInterface("router_interface", {
        name: "my-router",
        router: router.name,
        region: router.region,
        vpnTunnel: vpnTunnel.name,
    });
    const rp_export = new gcp.compute.RouterRoutePolicy("rp-export", {
        name: "my-router-rp-export",
        router: router.name,
        region: router.region,
        type: "ROUTE_POLICY_TYPE_EXPORT",
        terms: [{
            priority: 2,
            match: {
                expression: "destination == '10.0.0.0/12'",
                title: "export_expression",
                description: "acceptance expression for export",
            },
            actions: [{
                expression: "accept()",
            }],
        }],
    }, {
        dependsOn: [routerInterface],
    });
    const rp_import = new gcp.compute.RouterRoutePolicy("rp-import", {
        name: "my-router-rp-import",
        router: router.name,
        region: router.region,
        type: "ROUTE_POLICY_TYPE_IMPORT",
        terms: [{
            priority: 1,
            match: {
                expression: "destination == '10.0.0.0/12'",
                title: "import_expression",
                description: "acceptance expression for import",
            },
            actions: [{
                expression: "accept()",
            }],
        }],
    }, {
        dependsOn: [
            routerInterface,
            rp_export,
        ],
    });
    const routerPeer = new gcp.compute.RouterPeer("router_peer", {
        name: "my-router-peer",
        router: router.name,
        region: router.region,
        peerAsn: 65515,
        advertisedRoutePriority: 100,
        "interface": routerInterface.name,
        md5AuthenticationKey: {
            name: "my-router-peer-key",
            key: "my-router-peer-key-value",
        },
        importPolicies: [rp_import.name],
        exportPolicies: [rp_export.name],
    }, {
        dependsOn: [
            rp_export,
            rp_import,
            routerInterface,
        ],
    });
    
    import pulumi
    import pulumi_gcp as gcp
    
    network = gcp.compute.Network("network",
        name="my-router-net",
        auto_create_subnetworks=False)
    subnetwork = gcp.compute.Subnetwork("subnetwork",
        name="my-router-subnet",
        network=network.self_link,
        ip_cidr_range="10.0.0.0/16",
        region="us-central1")
    address = gcp.compute.Address("address",
        name="my-router",
        region=subnetwork.region)
    vpn_gateway = gcp.compute.HaVpnGateway("vpn_gateway",
        name="my-router-gateway",
        network=network.self_link,
        region=subnetwork.region)
    external_gateway = gcp.compute.ExternalVpnGateway("external_gateway",
        name="my-router-external-gateway",
        redundancy_type="SINGLE_IP_INTERNALLY_REDUNDANT",
        description="An externally managed VPN gateway",
        interfaces=[{
            "id": 0,
            "ip_address": "8.8.8.8",
        }])
    router = gcp.compute.Router("router",
        name="my-router",
        region=subnetwork.region,
        network=network.self_link,
        bgp={
            "asn": 64514,
        })
    vpn_tunnel = gcp.compute.VPNTunnel("vpn_tunnel",
        name="my-router",
        region=subnetwork.region,
        vpn_gateway=vpn_gateway.id,
        peer_external_gateway=external_gateway.id,
        peer_external_gateway_interface=0,
        shared_secret="unguessable",
        router=router.name,
        vpn_gateway_interface=0)
    router_interface = gcp.compute.RouterInterface("router_interface",
        name="my-router",
        router=router.name,
        region=router.region,
        vpn_tunnel=vpn_tunnel.name)
    rp_export = gcp.compute.RouterRoutePolicy("rp-export",
        name="my-router-rp-export",
        router=router.name,
        region=router.region,
        type="ROUTE_POLICY_TYPE_EXPORT",
        terms=[{
            "priority": 2,
            "match": {
                "expression": "destination == '10.0.0.0/12'",
                "title": "export_expression",
                "description": "acceptance expression for export",
            },
            "actions": [{
                "expression": "accept()",
            }],
        }],
        opts = pulumi.ResourceOptions(depends_on=[router_interface]))
    rp_import = gcp.compute.RouterRoutePolicy("rp-import",
        name="my-router-rp-import",
        router=router.name,
        region=router.region,
        type="ROUTE_POLICY_TYPE_IMPORT",
        terms=[{
            "priority": 1,
            "match": {
                "expression": "destination == '10.0.0.0/12'",
                "title": "import_expression",
                "description": "acceptance expression for import",
            },
            "actions": [{
                "expression": "accept()",
            }],
        }],
        opts = pulumi.ResourceOptions(depends_on=[
                router_interface,
                rp_export,
            ]))
    router_peer = gcp.compute.RouterPeer("router_peer",
        name="my-router-peer",
        router=router.name,
        region=router.region,
        peer_asn=65515,
        advertised_route_priority=100,
        interface=router_interface.name,
        md5_authentication_key={
            "name": "my-router-peer-key",
            "key": "my-router-peer-key-value",
        },
        import_policies=[rp_import.name],
        export_policies=[rp_export.name],
        opts = pulumi.ResourceOptions(depends_on=[
                rp_export,
                rp_import,
                router_interface,
            ]))
    
    package main
    
    import (
    	"github.com/pulumi/pulumi-gcp/sdk/v8/go/gcp/compute"
    	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
    )
    
    func main() {
    	pulumi.Run(func(ctx *pulumi.Context) error {
    		network, err := compute.NewNetwork(ctx, "network", &compute.NetworkArgs{
    			Name:                  pulumi.String("my-router-net"),
    			AutoCreateSubnetworks: pulumi.Bool(false),
    		})
    		if err != nil {
    			return err
    		}
    		subnetwork, err := compute.NewSubnetwork(ctx, "subnetwork", &compute.SubnetworkArgs{
    			Name:        pulumi.String("my-router-subnet"),
    			Network:     network.SelfLink,
    			IpCidrRange: pulumi.String("10.0.0.0/16"),
    			Region:      pulumi.String("us-central1"),
    		})
    		if err != nil {
    			return err
    		}
    		_, err = compute.NewAddress(ctx, "address", &compute.AddressArgs{
    			Name:   pulumi.String("my-router"),
    			Region: subnetwork.Region,
    		})
    		if err != nil {
    			return err
    		}
    		vpnGateway, err := compute.NewHaVpnGateway(ctx, "vpn_gateway", &compute.HaVpnGatewayArgs{
    			Name:    pulumi.String("my-router-gateway"),
    			Network: network.SelfLink,
    			Region:  subnetwork.Region,
    		})
    		if err != nil {
    			return err
    		}
    		externalGateway, err := compute.NewExternalVpnGateway(ctx, "external_gateway", &compute.ExternalVpnGatewayArgs{
    			Name:           pulumi.String("my-router-external-gateway"),
    			RedundancyType: pulumi.String("SINGLE_IP_INTERNALLY_REDUNDANT"),
    			Description:    pulumi.String("An externally managed VPN gateway"),
    			Interfaces: compute.ExternalVpnGatewayInterfaceArray{
    				&compute.ExternalVpnGatewayInterfaceArgs{
    					Id:        pulumi.Int(0),
    					IpAddress: pulumi.String("8.8.8.8"),
    				},
    			},
    		})
    		if err != nil {
    			return err
    		}
    		router, err := compute.NewRouter(ctx, "router", &compute.RouterArgs{
    			Name:    pulumi.String("my-router"),
    			Region:  subnetwork.Region,
    			Network: network.SelfLink,
    			Bgp: &compute.RouterBgpArgs{
    				Asn: pulumi.Int(64514),
    			},
    		})
    		if err != nil {
    			return err
    		}
    		vpnTunnel, err := compute.NewVPNTunnel(ctx, "vpn_tunnel", &compute.VPNTunnelArgs{
    			Name:                         pulumi.String("my-router"),
    			Region:                       subnetwork.Region,
    			VpnGateway:                   vpnGateway.ID(),
    			PeerExternalGateway:          externalGateway.ID(),
    			PeerExternalGatewayInterface: pulumi.Int(0),
    			SharedSecret:                 pulumi.String("unguessable"),
    			Router:                       router.Name,
    			VpnGatewayInterface:          pulumi.Int(0),
    		})
    		if err != nil {
    			return err
    		}
    		routerInterface, err := compute.NewRouterInterface(ctx, "router_interface", &compute.RouterInterfaceArgs{
    			Name:      pulumi.String("my-router"),
    			Router:    router.Name,
    			Region:    router.Region,
    			VpnTunnel: vpnTunnel.Name,
    		})
    		if err != nil {
    			return err
    		}
    		_, err = compute.NewRouterRoutePolicy(ctx, "rp-export", &compute.RouterRoutePolicyArgs{
    			Name:   pulumi.String("my-router-rp-export"),
    			Router: router.Name,
    			Region: router.Region,
    			Type:   pulumi.String("ROUTE_POLICY_TYPE_EXPORT"),
    			Terms: compute.RouterRoutePolicyTermArray{
    				&compute.RouterRoutePolicyTermArgs{
    					Priority: pulumi.Int(2),
    					Match: &compute.RouterRoutePolicyTermMatchArgs{
    						Expression:  pulumi.String("destination == '10.0.0.0/12'"),
    						Title:       pulumi.String("export_expression"),
    						Description: pulumi.String("acceptance expression for export"),
    					},
    					Actions: compute.RouterRoutePolicyTermActionArray{
    						&compute.RouterRoutePolicyTermActionArgs{
    							Expression: pulumi.String("accept()"),
    						},
    					},
    				},
    			},
    		}, pulumi.DependsOn([]pulumi.Resource{
    			routerInterface,
    		}))
    		if err != nil {
    			return err
    		}
    		_, err = compute.NewRouterRoutePolicy(ctx, "rp-import", &compute.RouterRoutePolicyArgs{
    			Name:   pulumi.String("my-router-rp-import"),
    			Router: router.Name,
    			Region: router.Region,
    			Type:   pulumi.String("ROUTE_POLICY_TYPE_IMPORT"),
    			Terms: compute.RouterRoutePolicyTermArray{
    				&compute.RouterRoutePolicyTermArgs{
    					Priority: pulumi.Int(1),
    					Match: &compute.RouterRoutePolicyTermMatchArgs{
    						Expression:  pulumi.String("destination == '10.0.0.0/12'"),
    						Title:       pulumi.String("import_expression"),
    						Description: pulumi.String("acceptance expression for import"),
    					},
    					Actions: compute.RouterRoutePolicyTermActionArray{
    						&compute.RouterRoutePolicyTermActionArgs{
    							Expression: pulumi.String("accept()"),
    						},
    					},
    				},
    			},
    		}, pulumi.DependsOn([]pulumi.Resource{
    			routerInterface,
    			rp_export,
    		}))
    		if err != nil {
    			return err
    		}
    		_, err = compute.NewRouterPeer(ctx, "router_peer", &compute.RouterPeerArgs{
    			Name:                    pulumi.String("my-router-peer"),
    			Router:                  router.Name,
    			Region:                  router.Region,
    			PeerAsn:                 pulumi.Int(65515),
    			AdvertisedRoutePriority: pulumi.Int(100),
    			Interface:               routerInterface.Name,
    			Md5AuthenticationKey: &compute.RouterPeerMd5AuthenticationKeyArgs{
    				Name: pulumi.String("my-router-peer-key"),
    				Key:  pulumi.String("my-router-peer-key-value"),
    			},
    			ImportPolicies: pulumi.StringArray{
    				rp_import.Name,
    			},
    			ExportPolicies: pulumi.StringArray{
    				rp_export.Name,
    			},
    		}, pulumi.DependsOn([]pulumi.Resource{
    			rp_export,
    			rp_import,
    			routerInterface,
    		}))
    		if err != nil {
    			return err
    		}
    		return nil
    	})
    }
    
    using System.Collections.Generic;
    using System.Linq;
    using Pulumi;
    using Gcp = Pulumi.Gcp;
    
    return await Deployment.RunAsync(() => 
    {
        var network = new Gcp.Compute.Network("network", new()
        {
            Name = "my-router-net",
            AutoCreateSubnetworks = false,
        });
    
        var subnetwork = new Gcp.Compute.Subnetwork("subnetwork", new()
        {
            Name = "my-router-subnet",
            Network = network.SelfLink,
            IpCidrRange = "10.0.0.0/16",
            Region = "us-central1",
        });
    
        var address = new Gcp.Compute.Address("address", new()
        {
            Name = "my-router",
            Region = subnetwork.Region,
        });
    
        var vpnGateway = new Gcp.Compute.HaVpnGateway("vpn_gateway", new()
        {
            Name = "my-router-gateway",
            Network = network.SelfLink,
            Region = subnetwork.Region,
        });
    
        var externalGateway = new Gcp.Compute.ExternalVpnGateway("external_gateway", new()
        {
            Name = "my-router-external-gateway",
            RedundancyType = "SINGLE_IP_INTERNALLY_REDUNDANT",
            Description = "An externally managed VPN gateway",
            Interfaces = new[]
            {
                new Gcp.Compute.Inputs.ExternalVpnGatewayInterfaceArgs
                {
                    Id = 0,
                    IpAddress = "8.8.8.8",
                },
            },
        });
    
        var router = new Gcp.Compute.Router("router", new()
        {
            Name = "my-router",
            Region = subnetwork.Region,
            Network = network.SelfLink,
            Bgp = new Gcp.Compute.Inputs.RouterBgpArgs
            {
                Asn = 64514,
            },
        });
    
        var vpnTunnel = new Gcp.Compute.VPNTunnel("vpn_tunnel", new()
        {
            Name = "my-router",
            Region = subnetwork.Region,
            VpnGateway = vpnGateway.Id,
            PeerExternalGateway = externalGateway.Id,
            PeerExternalGatewayInterface = 0,
            SharedSecret = "unguessable",
            Router = router.Name,
            VpnGatewayInterface = 0,
        });
    
        var routerInterface = new Gcp.Compute.RouterInterface("router_interface", new()
        {
            Name = "my-router",
            Router = router.Name,
            Region = router.Region,
            VpnTunnel = vpnTunnel.Name,
        });
    
        var rp_export = new Gcp.Compute.RouterRoutePolicy("rp-export", new()
        {
            Name = "my-router-rp-export",
            Router = router.Name,
            Region = router.Region,
            Type = "ROUTE_POLICY_TYPE_EXPORT",
            Terms = new[]
            {
                new Gcp.Compute.Inputs.RouterRoutePolicyTermArgs
                {
                    Priority = 2,
                    Match = new Gcp.Compute.Inputs.RouterRoutePolicyTermMatchArgs
                    {
                        Expression = "destination == '10.0.0.0/12'",
                        Title = "export_expression",
                        Description = "acceptance expression for export",
                    },
                    Actions = new[]
                    {
                        new Gcp.Compute.Inputs.RouterRoutePolicyTermActionArgs
                        {
                            Expression = "accept()",
                        },
                    },
                },
            },
        }, new CustomResourceOptions
        {
            DependsOn =
            {
                routerInterface,
            },
        });
    
        var rp_import = new Gcp.Compute.RouterRoutePolicy("rp-import", new()
        {
            Name = "my-router-rp-import",
            Router = router.Name,
            Region = router.Region,
            Type = "ROUTE_POLICY_TYPE_IMPORT",
            Terms = new[]
            {
                new Gcp.Compute.Inputs.RouterRoutePolicyTermArgs
                {
                    Priority = 1,
                    Match = new Gcp.Compute.Inputs.RouterRoutePolicyTermMatchArgs
                    {
                        Expression = "destination == '10.0.0.0/12'",
                        Title = "import_expression",
                        Description = "acceptance expression for import",
                    },
                    Actions = new[]
                    {
                        new Gcp.Compute.Inputs.RouterRoutePolicyTermActionArgs
                        {
                            Expression = "accept()",
                        },
                    },
                },
            },
        }, new CustomResourceOptions
        {
            DependsOn =
            {
                routerInterface,
                rp_export,
            },
        });
    
        var routerPeer = new Gcp.Compute.RouterPeer("router_peer", new()
        {
            Name = "my-router-peer",
            Router = router.Name,
            Region = router.Region,
            PeerAsn = 65515,
            AdvertisedRoutePriority = 100,
            Interface = routerInterface.Name,
            Md5AuthenticationKey = new Gcp.Compute.Inputs.RouterPeerMd5AuthenticationKeyArgs
            {
                Name = "my-router-peer-key",
                Key = "my-router-peer-key-value",
            },
            ImportPolicies = new[]
            {
                rp_import.Name,
            },
            ExportPolicies = new[]
            {
                rp_export.Name,
            },
        }, new CustomResourceOptions
        {
            DependsOn =
            {
                rp_export,
                rp_import,
                routerInterface,
            },
        });
    
    });
    
    package generated_program;
    
    import com.pulumi.Context;
    import com.pulumi.Pulumi;
    import com.pulumi.core.Output;
    import com.pulumi.gcp.compute.Network;
    import com.pulumi.gcp.compute.NetworkArgs;
    import com.pulumi.gcp.compute.Subnetwork;
    import com.pulumi.gcp.compute.SubnetworkArgs;
    import com.pulumi.gcp.compute.Address;
    import com.pulumi.gcp.compute.AddressArgs;
    import com.pulumi.gcp.compute.HaVpnGateway;
    import com.pulumi.gcp.compute.HaVpnGatewayArgs;
    import com.pulumi.gcp.compute.ExternalVpnGateway;
    import com.pulumi.gcp.compute.ExternalVpnGatewayArgs;
    import com.pulumi.gcp.compute.inputs.ExternalVpnGatewayInterfaceArgs;
    import com.pulumi.gcp.compute.Router;
    import com.pulumi.gcp.compute.RouterArgs;
    import com.pulumi.gcp.compute.inputs.RouterBgpArgs;
    import com.pulumi.gcp.compute.VPNTunnel;
    import com.pulumi.gcp.compute.VPNTunnelArgs;
    import com.pulumi.gcp.compute.RouterInterface;
    import com.pulumi.gcp.compute.RouterInterfaceArgs;
    import com.pulumi.gcp.compute.RouterRoutePolicy;
    import com.pulumi.gcp.compute.RouterRoutePolicyArgs;
    import com.pulumi.gcp.compute.inputs.RouterRoutePolicyTermArgs;
    import com.pulumi.gcp.compute.inputs.RouterRoutePolicyTermMatchArgs;
    import com.pulumi.gcp.compute.RouterPeer;
    import com.pulumi.gcp.compute.RouterPeerArgs;
    import com.pulumi.gcp.compute.inputs.RouterPeerMd5AuthenticationKeyArgs;
    import com.pulumi.resources.CustomResourceOptions;
    import java.util.List;
    import java.util.ArrayList;
    import java.util.Map;
    import java.io.File;
    import java.nio.file.Files;
    import java.nio.file.Paths;
    
    public class App {
        public static void main(String[] args) {
            Pulumi.run(App::stack);
        }
    
        public static void stack(Context ctx) {
            var network = new Network("network", NetworkArgs.builder()
                .name("my-router-net")
                .autoCreateSubnetworks(false)
                .build());
    
            var subnetwork = new Subnetwork("subnetwork", SubnetworkArgs.builder()
                .name("my-router-subnet")
                .network(network.selfLink())
                .ipCidrRange("10.0.0.0/16")
                .region("us-central1")
                .build());
    
            var address = new Address("address", AddressArgs.builder()
                .name("my-router")
                .region(subnetwork.region())
                .build());
    
            var vpnGateway = new HaVpnGateway("vpnGateway", HaVpnGatewayArgs.builder()
                .name("my-router-gateway")
                .network(network.selfLink())
                .region(subnetwork.region())
                .build());
    
            var externalGateway = new ExternalVpnGateway("externalGateway", ExternalVpnGatewayArgs.builder()
                .name("my-router-external-gateway")
                .redundancyType("SINGLE_IP_INTERNALLY_REDUNDANT")
                .description("An externally managed VPN gateway")
                .interfaces(ExternalVpnGatewayInterfaceArgs.builder()
                    .id(0)
                    .ipAddress("8.8.8.8")
                    .build())
                .build());
    
            var router = new Router("router", RouterArgs.builder()
                .name("my-router")
                .region(subnetwork.region())
                .network(network.selfLink())
                .bgp(RouterBgpArgs.builder()
                    .asn(64514)
                    .build())
                .build());
    
            var vpnTunnel = new VPNTunnel("vpnTunnel", VPNTunnelArgs.builder()
                .name("my-router")
                .region(subnetwork.region())
                .vpnGateway(vpnGateway.id())
                .peerExternalGateway(externalGateway.id())
                .peerExternalGatewayInterface(0)
                .sharedSecret("unguessable")
                .router(router.name())
                .vpnGatewayInterface(0)
                .build());
    
            var routerInterface = new RouterInterface("routerInterface", RouterInterfaceArgs.builder()
                .name("my-router")
                .router(router.name())
                .region(router.region())
                .vpnTunnel(vpnTunnel.name())
                .build());
    
            var rp_export = new RouterRoutePolicy("rp-export", RouterRoutePolicyArgs.builder()
                .name("my-router-rp-export")
                .router(router.name())
                .region(router.region())
                .type("ROUTE_POLICY_TYPE_EXPORT")
                .terms(RouterRoutePolicyTermArgs.builder()
                    .priority(2)
                    .match(RouterRoutePolicyTermMatchArgs.builder()
                        .expression("destination == '10.0.0.0/12'")
                        .title("export_expression")
                        .description("acceptance expression for export")
                        .build())
                    .actions(RouterRoutePolicyTermActionArgs.builder()
                        .expression("accept()")
                        .build())
                    .build())
                .build(), CustomResourceOptions.builder()
                    .dependsOn(routerInterface)
                    .build());
    
            var rp_import = new RouterRoutePolicy("rp-import", RouterRoutePolicyArgs.builder()
                .name("my-router-rp-import")
                .router(router.name())
                .region(router.region())
                .type("ROUTE_POLICY_TYPE_IMPORT")
                .terms(RouterRoutePolicyTermArgs.builder()
                    .priority(1)
                    .match(RouterRoutePolicyTermMatchArgs.builder()
                        .expression("destination == '10.0.0.0/12'")
                        .title("import_expression")
                        .description("acceptance expression for import")
                        .build())
                    .actions(RouterRoutePolicyTermActionArgs.builder()
                        .expression("accept()")
                        .build())
                    .build())
                .build(), CustomResourceOptions.builder()
                    .dependsOn(                
                        routerInterface,
                        rp_export)
                    .build());
    
            var routerPeer = new RouterPeer("routerPeer", RouterPeerArgs.builder()
                .name("my-router-peer")
                .router(router.name())
                .region(router.region())
                .peerAsn(65515)
                .advertisedRoutePriority(100)
                .interface_(routerInterface.name())
                .md5AuthenticationKey(RouterPeerMd5AuthenticationKeyArgs.builder()
                    .name("my-router-peer-key")
                    .key("my-router-peer-key-value")
                    .build())
                .importPolicies(rp_import.name())
                .exportPolicies(rp_export.name())
                .build(), CustomResourceOptions.builder()
                    .dependsOn(                
                        rp_export,
                        rp_import,
                        routerInterface)
                    .build());
    
        }
    }
    
    resources:
      network:
        type: gcp:compute:Network
        properties:
          name: my-router-net
          autoCreateSubnetworks: false
      subnetwork:
        type: gcp:compute:Subnetwork
        properties:
          name: my-router-subnet
          network: ${network.selfLink}
          ipCidrRange: 10.0.0.0/16
          region: us-central1
      address:
        type: gcp:compute:Address
        properties:
          name: my-router
          region: ${subnetwork.region}
      vpnGateway:
        type: gcp:compute:HaVpnGateway
        name: vpn_gateway
        properties:
          name: my-router-gateway
          network: ${network.selfLink}
          region: ${subnetwork.region}
      externalGateway:
        type: gcp:compute:ExternalVpnGateway
        name: external_gateway
        properties:
          name: my-router-external-gateway
          redundancyType: SINGLE_IP_INTERNALLY_REDUNDANT
          description: An externally managed VPN gateway
          interfaces:
            - id: 0
              ipAddress: 8.8.8.8
      router:
        type: gcp:compute:Router
        properties:
          name: my-router
          region: ${subnetwork.region}
          network: ${network.selfLink}
          bgp:
            asn: 64514
      vpnTunnel:
        type: gcp:compute:VPNTunnel
        name: vpn_tunnel
        properties:
          name: my-router
          region: ${subnetwork.region}
          vpnGateway: ${vpnGateway.id}
          peerExternalGateway: ${externalGateway.id}
          peerExternalGatewayInterface: 0
          sharedSecret: unguessable
          router: ${router.name}
          vpnGatewayInterface: 0
      routerInterface:
        type: gcp:compute:RouterInterface
        name: router_interface
        properties:
          name: my-router
          router: ${router.name}
          region: ${router.region}
          vpnTunnel: ${vpnTunnel.name}
      rp-export:
        type: gcp:compute:RouterRoutePolicy
        properties:
          name: my-router-rp-export
          router: ${router.name}
          region: ${router.region}
          type: ROUTE_POLICY_TYPE_EXPORT
          terms:
            - priority: 2
              match:
                expression: destination == '10.0.0.0/12'
                title: export_expression
                description: acceptance expression for export
              actions:
                - expression: accept()
        options:
          dependson:
            - ${routerInterface}
      rp-import:
        type: gcp:compute:RouterRoutePolicy
        properties:
          name: my-router-rp-import
          router: ${router.name}
          region: ${router.region}
          type: ROUTE_POLICY_TYPE_IMPORT
          terms:
            - priority: 1
              match:
                expression: destination == '10.0.0.0/12'
                title: import_expression
                description: acceptance expression for import
              actions:
                - expression: accept()
        options:
          dependson:
            - ${routerInterface}
            - ${["rp-export"]}
      routerPeer:
        type: gcp:compute:RouterPeer
        name: router_peer
        properties:
          name: my-router-peer
          router: ${router.name}
          region: ${router.region}
          peerAsn: 65515
          advertisedRoutePriority: 100
          interface: ${routerInterface.name}
          md5AuthenticationKey:
            name: my-router-peer-key
            key: my-router-peer-key-value
          importPolicies:
            - ${["rp-import"].name}
          exportPolicies:
            - ${["rp-export"].name}
        options:
          dependson:
            - ${["rp-export"]}
            - ${["rp-import"]}
            - ${routerInterface}
    

    Create RouterPeer Resource

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

    Constructor syntax

    new RouterPeer(name: string, args: RouterPeerArgs, opts?: CustomResourceOptions);
    @overload
    def RouterPeer(resource_name: str,
                   args: RouterPeerArgs,
                   opts: Optional[ResourceOptions] = None)
    
    @overload
    def RouterPeer(resource_name: str,
                   opts: Optional[ResourceOptions] = None,
                   peer_asn: Optional[int] = None,
                   router: Optional[str] = None,
                   interface: Optional[str] = None,
                   advertised_ip_ranges: Optional[Sequence[RouterPeerAdvertisedIpRangeArgs]] = None,
                   ip_address: Optional[str] = None,
                   advertised_groups: Optional[Sequence[str]] = None,
                   custom_learned_route_priority: Optional[int] = None,
                   enable: Optional[bool] = None,
                   enable_ipv4: Optional[bool] = None,
                   enable_ipv6: Optional[bool] = None,
                   export_policies: Optional[Sequence[str]] = None,
                   import_policies: Optional[Sequence[str]] = None,
                   ipv6_nexthop_address: Optional[str] = None,
                   custom_learned_ip_ranges: Optional[Sequence[RouterPeerCustomLearnedIpRangeArgs]] = None,
                   bfd: Optional[RouterPeerBfdArgs] = None,
                   router_appliance_instance: Optional[str] = None,
                   md5_authentication_key: Optional[RouterPeerMd5AuthenticationKeyArgs] = None,
                   name: Optional[str] = None,
                   advertise_mode: Optional[str] = None,
                   peer_ip_address: Optional[str] = None,
                   peer_ipv4_nexthop_address: Optional[str] = None,
                   peer_ipv6_nexthop_address: Optional[str] = None,
                   project: Optional[str] = None,
                   region: Optional[str] = None,
                   ipv4_nexthop_address: Optional[str] = None,
                   advertised_route_priority: Optional[int] = None)
    func NewRouterPeer(ctx *Context, name string, args RouterPeerArgs, opts ...ResourceOption) (*RouterPeer, error)
    public RouterPeer(string name, RouterPeerArgs args, CustomResourceOptions? opts = null)
    public RouterPeer(String name, RouterPeerArgs args)
    public RouterPeer(String name, RouterPeerArgs args, CustomResourceOptions options)
    
    type: gcp:compute:RouterPeer
    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 RouterPeerArgs
    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 RouterPeerArgs
    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 RouterPeerArgs
    The arguments to resource properties.
    opts ResourceOption
    Bag of options to control resource's behavior.
    name string
    The unique name of the resource.
    args RouterPeerArgs
    The arguments to resource properties.
    opts CustomResourceOptions
    Bag of options to control resource's behavior.
    name String
    The unique name of the resource.
    args RouterPeerArgs
    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 routerPeerResource = new Gcp.Compute.RouterPeer("routerPeerResource", new()
    {
        PeerAsn = 0,
        Router = "string",
        Interface = "string",
        AdvertisedIpRanges = new[]
        {
            new Gcp.Compute.Inputs.RouterPeerAdvertisedIpRangeArgs
            {
                Range = "string",
                Description = "string",
            },
        },
        IpAddress = "string",
        AdvertisedGroups = new[]
        {
            "string",
        },
        CustomLearnedRoutePriority = 0,
        Enable = false,
        EnableIpv4 = false,
        EnableIpv6 = false,
        ExportPolicies = new[]
        {
            "string",
        },
        ImportPolicies = new[]
        {
            "string",
        },
        Ipv6NexthopAddress = "string",
        CustomLearnedIpRanges = new[]
        {
            new Gcp.Compute.Inputs.RouterPeerCustomLearnedIpRangeArgs
            {
                Range = "string",
            },
        },
        Bfd = new Gcp.Compute.Inputs.RouterPeerBfdArgs
        {
            SessionInitializationMode = "string",
            MinReceiveInterval = 0,
            MinTransmitInterval = 0,
            Multiplier = 0,
        },
        RouterApplianceInstance = "string",
        Md5AuthenticationKey = new Gcp.Compute.Inputs.RouterPeerMd5AuthenticationKeyArgs
        {
            Key = "string",
            Name = "string",
        },
        Name = "string",
        AdvertiseMode = "string",
        PeerIpAddress = "string",
        PeerIpv4NexthopAddress = "string",
        PeerIpv6NexthopAddress = "string",
        Project = "string",
        Region = "string",
        Ipv4NexthopAddress = "string",
        AdvertisedRoutePriority = 0,
    });
    
    example, err := compute.NewRouterPeer(ctx, "routerPeerResource", &compute.RouterPeerArgs{
    	PeerAsn:   pulumi.Int(0),
    	Router:    pulumi.String("string"),
    	Interface: pulumi.String("string"),
    	AdvertisedIpRanges: compute.RouterPeerAdvertisedIpRangeArray{
    		&compute.RouterPeerAdvertisedIpRangeArgs{
    			Range:       pulumi.String("string"),
    			Description: pulumi.String("string"),
    		},
    	},
    	IpAddress: pulumi.String("string"),
    	AdvertisedGroups: pulumi.StringArray{
    		pulumi.String("string"),
    	},
    	CustomLearnedRoutePriority: pulumi.Int(0),
    	Enable:                     pulumi.Bool(false),
    	EnableIpv4:                 pulumi.Bool(false),
    	EnableIpv6:                 pulumi.Bool(false),
    	ExportPolicies: pulumi.StringArray{
    		pulumi.String("string"),
    	},
    	ImportPolicies: pulumi.StringArray{
    		pulumi.String("string"),
    	},
    	Ipv6NexthopAddress: pulumi.String("string"),
    	CustomLearnedIpRanges: compute.RouterPeerCustomLearnedIpRangeArray{
    		&compute.RouterPeerCustomLearnedIpRangeArgs{
    			Range: pulumi.String("string"),
    		},
    	},
    	Bfd: &compute.RouterPeerBfdArgs{
    		SessionInitializationMode: pulumi.String("string"),
    		MinReceiveInterval:        pulumi.Int(0),
    		MinTransmitInterval:       pulumi.Int(0),
    		Multiplier:                pulumi.Int(0),
    	},
    	RouterApplianceInstance: pulumi.String("string"),
    	Md5AuthenticationKey: &compute.RouterPeerMd5AuthenticationKeyArgs{
    		Key:  pulumi.String("string"),
    		Name: pulumi.String("string"),
    	},
    	Name:                    pulumi.String("string"),
    	AdvertiseMode:           pulumi.String("string"),
    	PeerIpAddress:           pulumi.String("string"),
    	PeerIpv4NexthopAddress:  pulumi.String("string"),
    	PeerIpv6NexthopAddress:  pulumi.String("string"),
    	Project:                 pulumi.String("string"),
    	Region:                  pulumi.String("string"),
    	Ipv4NexthopAddress:      pulumi.String("string"),
    	AdvertisedRoutePriority: pulumi.Int(0),
    })
    
    var routerPeerResource = new RouterPeer("routerPeerResource", RouterPeerArgs.builder()
        .peerAsn(0)
        .router("string")
        .interface_("string")
        .advertisedIpRanges(RouterPeerAdvertisedIpRangeArgs.builder()
            .range("string")
            .description("string")
            .build())
        .ipAddress("string")
        .advertisedGroups("string")
        .customLearnedRoutePriority(0)
        .enable(false)
        .enableIpv4(false)
        .enableIpv6(false)
        .exportPolicies("string")
        .importPolicies("string")
        .ipv6NexthopAddress("string")
        .customLearnedIpRanges(RouterPeerCustomLearnedIpRangeArgs.builder()
            .range("string")
            .build())
        .bfd(RouterPeerBfdArgs.builder()
            .sessionInitializationMode("string")
            .minReceiveInterval(0)
            .minTransmitInterval(0)
            .multiplier(0)
            .build())
        .routerApplianceInstance("string")
        .md5AuthenticationKey(RouterPeerMd5AuthenticationKeyArgs.builder()
            .key("string")
            .name("string")
            .build())
        .name("string")
        .advertiseMode("string")
        .peerIpAddress("string")
        .peerIpv4NexthopAddress("string")
        .peerIpv6NexthopAddress("string")
        .project("string")
        .region("string")
        .ipv4NexthopAddress("string")
        .advertisedRoutePriority(0)
        .build());
    
    router_peer_resource = gcp.compute.RouterPeer("routerPeerResource",
        peer_asn=0,
        router="string",
        interface="string",
        advertised_ip_ranges=[{
            "range": "string",
            "description": "string",
        }],
        ip_address="string",
        advertised_groups=["string"],
        custom_learned_route_priority=0,
        enable=False,
        enable_ipv4=False,
        enable_ipv6=False,
        export_policies=["string"],
        import_policies=["string"],
        ipv6_nexthop_address="string",
        custom_learned_ip_ranges=[{
            "range": "string",
        }],
        bfd={
            "sessionInitializationMode": "string",
            "minReceiveInterval": 0,
            "minTransmitInterval": 0,
            "multiplier": 0,
        },
        router_appliance_instance="string",
        md5_authentication_key={
            "key": "string",
            "name": "string",
        },
        name="string",
        advertise_mode="string",
        peer_ip_address="string",
        peer_ipv4_nexthop_address="string",
        peer_ipv6_nexthop_address="string",
        project="string",
        region="string",
        ipv4_nexthop_address="string",
        advertised_route_priority=0)
    
    const routerPeerResource = new gcp.compute.RouterPeer("routerPeerResource", {
        peerAsn: 0,
        router: "string",
        "interface": "string",
        advertisedIpRanges: [{
            range: "string",
            description: "string",
        }],
        ipAddress: "string",
        advertisedGroups: ["string"],
        customLearnedRoutePriority: 0,
        enable: false,
        enableIpv4: false,
        enableIpv6: false,
        exportPolicies: ["string"],
        importPolicies: ["string"],
        ipv6NexthopAddress: "string",
        customLearnedIpRanges: [{
            range: "string",
        }],
        bfd: {
            sessionInitializationMode: "string",
            minReceiveInterval: 0,
            minTransmitInterval: 0,
            multiplier: 0,
        },
        routerApplianceInstance: "string",
        md5AuthenticationKey: {
            key: "string",
            name: "string",
        },
        name: "string",
        advertiseMode: "string",
        peerIpAddress: "string",
        peerIpv4NexthopAddress: "string",
        peerIpv6NexthopAddress: "string",
        project: "string",
        region: "string",
        ipv4NexthopAddress: "string",
        advertisedRoutePriority: 0,
    });
    
    type: gcp:compute:RouterPeer
    properties:
        advertiseMode: string
        advertisedGroups:
            - string
        advertisedIpRanges:
            - description: string
              range: string
        advertisedRoutePriority: 0
        bfd:
            minReceiveInterval: 0
            minTransmitInterval: 0
            multiplier: 0
            sessionInitializationMode: string
        customLearnedIpRanges:
            - range: string
        customLearnedRoutePriority: 0
        enable: false
        enableIpv4: false
        enableIpv6: false
        exportPolicies:
            - string
        importPolicies:
            - string
        interface: string
        ipAddress: string
        ipv4NexthopAddress: string
        ipv6NexthopAddress: string
        md5AuthenticationKey:
            key: string
            name: string
        name: string
        peerAsn: 0
        peerIpAddress: string
        peerIpv4NexthopAddress: string
        peerIpv6NexthopAddress: string
        project: string
        region: string
        router: string
        routerApplianceInstance: string
    

    RouterPeer Resource Properties

    To learn more about resource properties and how to use them, see Inputs and Outputs in the Architecture and Concepts docs.

    Inputs

    The RouterPeer resource accepts the following input properties:

    Interface string
    Name of the interface the BGP peer is associated with.
    PeerAsn int
    Peer BGP Autonomous System Number (ASN). Each BGP interface may use a different value.
    Router string
    The name of the Cloud Router in which this BgpPeer will be configured.


    AdvertiseMode string
    User-specified flag to indicate which mode to use for advertisement. Valid values of this enum field are: DEFAULT, CUSTOM Default value is DEFAULT. Possible values are: DEFAULT, CUSTOM.
    AdvertisedGroups List<string>

    User-specified list of prefix groups to advertise in custom mode, which currently supports the following option:

    • ALL_SUBNETS: Advertises all of the router's own VPC subnets. This excludes any routes learned for subnets that use VPC Network Peering.

    Note that this field can only be populated if advertiseMode is CUSTOM and overrides the list defined for the router (in the "bgp" message). These groups are advertised in addition to any specified prefixes. Leave this field blank to advertise no custom groups.

    AdvertisedIpRanges List<RouterPeerAdvertisedIpRange>
    User-specified list of individual IP ranges to advertise in custom mode. This field can only be populated if advertiseMode is CUSTOM and is advertised to all peers of the router. These IP ranges will be advertised in addition to any specified groups. Leave this field blank to advertise no custom IP ranges. Structure is documented below.
    AdvertisedRoutePriority int
    The priority of routes advertised to this BGP peer. Where there is more than one matching route of maximum length, the routes with the lowest priority value win.
    Bfd RouterPeerBfd
    BFD configuration for the BGP peering. Structure is documented below.
    CustomLearnedIpRanges List<RouterPeerCustomLearnedIpRange>
    The custom learned route IP address range. Must be a valid CIDR-formatted prefix. If an IP address is provided without a subnet mask, it is interpreted as, for IPv4, a /32 singular IP address range, and, for IPv6, /128.
    CustomLearnedRoutePriority int
    The user-defined custom learned route priority for a BGP session. This value is applied to all custom learned route ranges for the session. You can choose a value from 0 to 65335. If you don't provide a value, Google Cloud assigns a priority of 100 to the ranges.
    Enable bool
    The status of the BGP peer connection. If set to false, any active session with the peer is terminated and all associated routing information is removed. If set to true, the peer connection can be established with routing information. The default is true.
    EnableIpv4 bool
    Enable IPv4 traffic over BGP Peer. It is enabled by default if the peerIpAddress is version 4.
    EnableIpv6 bool
    Enable IPv6 traffic over BGP Peer. If not specified, it is disabled by default.
    ExportPolicies List<string>
    routers.list of export policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_EXPORT type.
    ImportPolicies List<string>
    routers.list of import policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_IMPORT type.
    IpAddress string
    IP address of the interface inside Google Cloud Platform. Only IPv4 is supported.
    Ipv4NexthopAddress string
    IPv4 address of the interface inside Google Cloud Platform.
    Ipv6NexthopAddress string
    IPv6 address of the interface inside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    Md5AuthenticationKey RouterPeerMd5AuthenticationKey
    Configuration for MD5 authentication on the BGP session. Structure is documented below.
    Name string
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    PeerIpAddress string
    IP address of the BGP interface outside Google Cloud Platform. Only IPv4 is supported. Required if ip_address is set.
    PeerIpv4NexthopAddress string
    IPv4 address of the BGP interface outside Google Cloud Platform.
    PeerIpv6NexthopAddress string
    IPv6 address of the BGP interface outside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    Project string
    The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
    Region string
    Region where the router and BgpPeer reside. If it is not provided, the provider region is used.
    RouterApplianceInstance string
    The URI of the VM instance that is used as third-party router appliances such as Next Gen Firewalls, Virtual Routers, or Router Appliances. The VM instance must be located in zones contained in the same region as this Cloud Router. The VM instance is the peer side of the BGP session.
    Interface string
    Name of the interface the BGP peer is associated with.
    PeerAsn int
    Peer BGP Autonomous System Number (ASN). Each BGP interface may use a different value.
    Router string
    The name of the Cloud Router in which this BgpPeer will be configured.


    AdvertiseMode string
    User-specified flag to indicate which mode to use for advertisement. Valid values of this enum field are: DEFAULT, CUSTOM Default value is DEFAULT. Possible values are: DEFAULT, CUSTOM.
    AdvertisedGroups []string

    User-specified list of prefix groups to advertise in custom mode, which currently supports the following option:

    • ALL_SUBNETS: Advertises all of the router's own VPC subnets. This excludes any routes learned for subnets that use VPC Network Peering.

    Note that this field can only be populated if advertiseMode is CUSTOM and overrides the list defined for the router (in the "bgp" message). These groups are advertised in addition to any specified prefixes. Leave this field blank to advertise no custom groups.

    AdvertisedIpRanges []RouterPeerAdvertisedIpRangeArgs
    User-specified list of individual IP ranges to advertise in custom mode. This field can only be populated if advertiseMode is CUSTOM and is advertised to all peers of the router. These IP ranges will be advertised in addition to any specified groups. Leave this field blank to advertise no custom IP ranges. Structure is documented below.
    AdvertisedRoutePriority int
    The priority of routes advertised to this BGP peer. Where there is more than one matching route of maximum length, the routes with the lowest priority value win.
    Bfd RouterPeerBfdArgs
    BFD configuration for the BGP peering. Structure is documented below.
    CustomLearnedIpRanges []RouterPeerCustomLearnedIpRangeArgs
    The custom learned route IP address range. Must be a valid CIDR-formatted prefix. If an IP address is provided without a subnet mask, it is interpreted as, for IPv4, a /32 singular IP address range, and, for IPv6, /128.
    CustomLearnedRoutePriority int
    The user-defined custom learned route priority for a BGP session. This value is applied to all custom learned route ranges for the session. You can choose a value from 0 to 65335. If you don't provide a value, Google Cloud assigns a priority of 100 to the ranges.
    Enable bool
    The status of the BGP peer connection. If set to false, any active session with the peer is terminated and all associated routing information is removed. If set to true, the peer connection can be established with routing information. The default is true.
    EnableIpv4 bool
    Enable IPv4 traffic over BGP Peer. It is enabled by default if the peerIpAddress is version 4.
    EnableIpv6 bool
    Enable IPv6 traffic over BGP Peer. If not specified, it is disabled by default.
    ExportPolicies []string
    routers.list of export policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_EXPORT type.
    ImportPolicies []string
    routers.list of import policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_IMPORT type.
    IpAddress string
    IP address of the interface inside Google Cloud Platform. Only IPv4 is supported.
    Ipv4NexthopAddress string
    IPv4 address of the interface inside Google Cloud Platform.
    Ipv6NexthopAddress string
    IPv6 address of the interface inside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    Md5AuthenticationKey RouterPeerMd5AuthenticationKeyArgs
    Configuration for MD5 authentication on the BGP session. Structure is documented below.
    Name string
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    PeerIpAddress string
    IP address of the BGP interface outside Google Cloud Platform. Only IPv4 is supported. Required if ip_address is set.
    PeerIpv4NexthopAddress string
    IPv4 address of the BGP interface outside Google Cloud Platform.
    PeerIpv6NexthopAddress string
    IPv6 address of the BGP interface outside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    Project string
    The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
    Region string
    Region where the router and BgpPeer reside. If it is not provided, the provider region is used.
    RouterApplianceInstance string
    The URI of the VM instance that is used as third-party router appliances such as Next Gen Firewalls, Virtual Routers, or Router Appliances. The VM instance must be located in zones contained in the same region as this Cloud Router. The VM instance is the peer side of the BGP session.
    interface_ String
    Name of the interface the BGP peer is associated with.
    peerAsn Integer
    Peer BGP Autonomous System Number (ASN). Each BGP interface may use a different value.
    router String
    The name of the Cloud Router in which this BgpPeer will be configured.


    advertiseMode String
    User-specified flag to indicate which mode to use for advertisement. Valid values of this enum field are: DEFAULT, CUSTOM Default value is DEFAULT. Possible values are: DEFAULT, CUSTOM.
    advertisedGroups List<String>

    User-specified list of prefix groups to advertise in custom mode, which currently supports the following option:

    • ALL_SUBNETS: Advertises all of the router's own VPC subnets. This excludes any routes learned for subnets that use VPC Network Peering.

    Note that this field can only be populated if advertiseMode is CUSTOM and overrides the list defined for the router (in the "bgp" message). These groups are advertised in addition to any specified prefixes. Leave this field blank to advertise no custom groups.

    advertisedIpRanges List<RouterPeerAdvertisedIpRange>
    User-specified list of individual IP ranges to advertise in custom mode. This field can only be populated if advertiseMode is CUSTOM and is advertised to all peers of the router. These IP ranges will be advertised in addition to any specified groups. Leave this field blank to advertise no custom IP ranges. Structure is documented below.
    advertisedRoutePriority Integer
    The priority of routes advertised to this BGP peer. Where there is more than one matching route of maximum length, the routes with the lowest priority value win.
    bfd RouterPeerBfd
    BFD configuration for the BGP peering. Structure is documented below.
    customLearnedIpRanges List<RouterPeerCustomLearnedIpRange>
    The custom learned route IP address range. Must be a valid CIDR-formatted prefix. If an IP address is provided without a subnet mask, it is interpreted as, for IPv4, a /32 singular IP address range, and, for IPv6, /128.
    customLearnedRoutePriority Integer
    The user-defined custom learned route priority for a BGP session. This value is applied to all custom learned route ranges for the session. You can choose a value from 0 to 65335. If you don't provide a value, Google Cloud assigns a priority of 100 to the ranges.
    enable Boolean
    The status of the BGP peer connection. If set to false, any active session with the peer is terminated and all associated routing information is removed. If set to true, the peer connection can be established with routing information. The default is true.
    enableIpv4 Boolean
    Enable IPv4 traffic over BGP Peer. It is enabled by default if the peerIpAddress is version 4.
    enableIpv6 Boolean
    Enable IPv6 traffic over BGP Peer. If not specified, it is disabled by default.
    exportPolicies List<String>
    routers.list of export policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_EXPORT type.
    importPolicies List<String>
    routers.list of import policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_IMPORT type.
    ipAddress String
    IP address of the interface inside Google Cloud Platform. Only IPv4 is supported.
    ipv4NexthopAddress String
    IPv4 address of the interface inside Google Cloud Platform.
    ipv6NexthopAddress String
    IPv6 address of the interface inside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    md5AuthenticationKey RouterPeerMd5AuthenticationKey
    Configuration for MD5 authentication on the BGP session. Structure is documented below.
    name String
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    peerIpAddress String
    IP address of the BGP interface outside Google Cloud Platform. Only IPv4 is supported. Required if ip_address is set.
    peerIpv4NexthopAddress String
    IPv4 address of the BGP interface outside Google Cloud Platform.
    peerIpv6NexthopAddress String
    IPv6 address of the BGP interface outside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    project String
    The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
    region String
    Region where the router and BgpPeer reside. If it is not provided, the provider region is used.
    routerApplianceInstance String
    The URI of the VM instance that is used as third-party router appliances such as Next Gen Firewalls, Virtual Routers, or Router Appliances. The VM instance must be located in zones contained in the same region as this Cloud Router. The VM instance is the peer side of the BGP session.
    interface string
    Name of the interface the BGP peer is associated with.
    peerAsn number
    Peer BGP Autonomous System Number (ASN). Each BGP interface may use a different value.
    router string
    The name of the Cloud Router in which this BgpPeer will be configured.


    advertiseMode string
    User-specified flag to indicate which mode to use for advertisement. Valid values of this enum field are: DEFAULT, CUSTOM Default value is DEFAULT. Possible values are: DEFAULT, CUSTOM.
    advertisedGroups string[]

    User-specified list of prefix groups to advertise in custom mode, which currently supports the following option:

    • ALL_SUBNETS: Advertises all of the router's own VPC subnets. This excludes any routes learned for subnets that use VPC Network Peering.

    Note that this field can only be populated if advertiseMode is CUSTOM and overrides the list defined for the router (in the "bgp" message). These groups are advertised in addition to any specified prefixes. Leave this field blank to advertise no custom groups.

    advertisedIpRanges RouterPeerAdvertisedIpRange[]
    User-specified list of individual IP ranges to advertise in custom mode. This field can only be populated if advertiseMode is CUSTOM and is advertised to all peers of the router. These IP ranges will be advertised in addition to any specified groups. Leave this field blank to advertise no custom IP ranges. Structure is documented below.
    advertisedRoutePriority number
    The priority of routes advertised to this BGP peer. Where there is more than one matching route of maximum length, the routes with the lowest priority value win.
    bfd RouterPeerBfd
    BFD configuration for the BGP peering. Structure is documented below.
    customLearnedIpRanges RouterPeerCustomLearnedIpRange[]
    The custom learned route IP address range. Must be a valid CIDR-formatted prefix. If an IP address is provided without a subnet mask, it is interpreted as, for IPv4, a /32 singular IP address range, and, for IPv6, /128.
    customLearnedRoutePriority number
    The user-defined custom learned route priority for a BGP session. This value is applied to all custom learned route ranges for the session. You can choose a value from 0 to 65335. If you don't provide a value, Google Cloud assigns a priority of 100 to the ranges.
    enable boolean
    The status of the BGP peer connection. If set to false, any active session with the peer is terminated and all associated routing information is removed. If set to true, the peer connection can be established with routing information. The default is true.
    enableIpv4 boolean
    Enable IPv4 traffic over BGP Peer. It is enabled by default if the peerIpAddress is version 4.
    enableIpv6 boolean
    Enable IPv6 traffic over BGP Peer. If not specified, it is disabled by default.
    exportPolicies string[]
    routers.list of export policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_EXPORT type.
    importPolicies string[]
    routers.list of import policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_IMPORT type.
    ipAddress string
    IP address of the interface inside Google Cloud Platform. Only IPv4 is supported.
    ipv4NexthopAddress string
    IPv4 address of the interface inside Google Cloud Platform.
    ipv6NexthopAddress string
    IPv6 address of the interface inside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    md5AuthenticationKey RouterPeerMd5AuthenticationKey
    Configuration for MD5 authentication on the BGP session. Structure is documented below.
    name string
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    peerIpAddress string
    IP address of the BGP interface outside Google Cloud Platform. Only IPv4 is supported. Required if ip_address is set.
    peerIpv4NexthopAddress string
    IPv4 address of the BGP interface outside Google Cloud Platform.
    peerIpv6NexthopAddress string
    IPv6 address of the BGP interface outside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    project string
    The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
    region string
    Region where the router and BgpPeer reside. If it is not provided, the provider region is used.
    routerApplianceInstance string
    The URI of the VM instance that is used as third-party router appliances such as Next Gen Firewalls, Virtual Routers, or Router Appliances. The VM instance must be located in zones contained in the same region as this Cloud Router. The VM instance is the peer side of the BGP session.
    interface str
    Name of the interface the BGP peer is associated with.
    peer_asn int
    Peer BGP Autonomous System Number (ASN). Each BGP interface may use a different value.
    router str
    The name of the Cloud Router in which this BgpPeer will be configured.


    str
    User-specified flag to indicate which mode to use for advertisement. Valid values of this enum field are: DEFAULT, CUSTOM Default value is DEFAULT. Possible values are: DEFAULT, CUSTOM.
    advertised_groups Sequence[str]

    User-specified list of prefix groups to advertise in custom mode, which currently supports the following option:

    • ALL_SUBNETS: Advertises all of the router's own VPC subnets. This excludes any routes learned for subnets that use VPC Network Peering.

    Note that this field can only be populated if advertiseMode is CUSTOM and overrides the list defined for the router (in the "bgp" message). These groups are advertised in addition to any specified prefixes. Leave this field blank to advertise no custom groups.

    advertised_ip_ranges Sequence[RouterPeerAdvertisedIpRangeArgs]
    User-specified list of individual IP ranges to advertise in custom mode. This field can only be populated if advertiseMode is CUSTOM and is advertised to all peers of the router. These IP ranges will be advertised in addition to any specified groups. Leave this field blank to advertise no custom IP ranges. Structure is documented below.
    advertised_route_priority int
    The priority of routes advertised to this BGP peer. Where there is more than one matching route of maximum length, the routes with the lowest priority value win.
    bfd RouterPeerBfdArgs
    BFD configuration for the BGP peering. Structure is documented below.
    custom_learned_ip_ranges Sequence[RouterPeerCustomLearnedIpRangeArgs]
    The custom learned route IP address range. Must be a valid CIDR-formatted prefix. If an IP address is provided without a subnet mask, it is interpreted as, for IPv4, a /32 singular IP address range, and, for IPv6, /128.
    custom_learned_route_priority int
    The user-defined custom learned route priority for a BGP session. This value is applied to all custom learned route ranges for the session. You can choose a value from 0 to 65335. If you don't provide a value, Google Cloud assigns a priority of 100 to the ranges.
    enable bool
    The status of the BGP peer connection. If set to false, any active session with the peer is terminated and all associated routing information is removed. If set to true, the peer connection can be established with routing information. The default is true.
    enable_ipv4 bool
    Enable IPv4 traffic over BGP Peer. It is enabled by default if the peerIpAddress is version 4.
    enable_ipv6 bool
    Enable IPv6 traffic over BGP Peer. If not specified, it is disabled by default.
    export_policies Sequence[str]
    routers.list of export policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_EXPORT type.
    import_policies Sequence[str]
    routers.list of import policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_IMPORT type.
    ip_address str
    IP address of the interface inside Google Cloud Platform. Only IPv4 is supported.
    ipv4_nexthop_address str
    IPv4 address of the interface inside Google Cloud Platform.
    ipv6_nexthop_address str
    IPv6 address of the interface inside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    md5_authentication_key RouterPeerMd5AuthenticationKeyArgs
    Configuration for MD5 authentication on the BGP session. Structure is documented below.
    name str
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    peer_ip_address str
    IP address of the BGP interface outside Google Cloud Platform. Only IPv4 is supported. Required if ip_address is set.
    peer_ipv4_nexthop_address str
    IPv4 address of the BGP interface outside Google Cloud Platform.
    peer_ipv6_nexthop_address str
    IPv6 address of the BGP interface outside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    project str
    The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
    region str
    Region where the router and BgpPeer reside. If it is not provided, the provider region is used.
    router_appliance_instance str
    The URI of the VM instance that is used as third-party router appliances such as Next Gen Firewalls, Virtual Routers, or Router Appliances. The VM instance must be located in zones contained in the same region as this Cloud Router. The VM instance is the peer side of the BGP session.
    interface String
    Name of the interface the BGP peer is associated with.
    peerAsn Number
    Peer BGP Autonomous System Number (ASN). Each BGP interface may use a different value.
    router String
    The name of the Cloud Router in which this BgpPeer will be configured.


    advertiseMode String
    User-specified flag to indicate which mode to use for advertisement. Valid values of this enum field are: DEFAULT, CUSTOM Default value is DEFAULT. Possible values are: DEFAULT, CUSTOM.
    advertisedGroups List<String>

    User-specified list of prefix groups to advertise in custom mode, which currently supports the following option:

    • ALL_SUBNETS: Advertises all of the router's own VPC subnets. This excludes any routes learned for subnets that use VPC Network Peering.

    Note that this field can only be populated if advertiseMode is CUSTOM and overrides the list defined for the router (in the "bgp" message). These groups are advertised in addition to any specified prefixes. Leave this field blank to advertise no custom groups.

    advertisedIpRanges List<Property Map>
    User-specified list of individual IP ranges to advertise in custom mode. This field can only be populated if advertiseMode is CUSTOM and is advertised to all peers of the router. These IP ranges will be advertised in addition to any specified groups. Leave this field blank to advertise no custom IP ranges. Structure is documented below.
    advertisedRoutePriority Number
    The priority of routes advertised to this BGP peer. Where there is more than one matching route of maximum length, the routes with the lowest priority value win.
    bfd Property Map
    BFD configuration for the BGP peering. Structure is documented below.
    customLearnedIpRanges List<Property Map>
    The custom learned route IP address range. Must be a valid CIDR-formatted prefix. If an IP address is provided without a subnet mask, it is interpreted as, for IPv4, a /32 singular IP address range, and, for IPv6, /128.
    customLearnedRoutePriority Number
    The user-defined custom learned route priority for a BGP session. This value is applied to all custom learned route ranges for the session. You can choose a value from 0 to 65335. If you don't provide a value, Google Cloud assigns a priority of 100 to the ranges.
    enable Boolean
    The status of the BGP peer connection. If set to false, any active session with the peer is terminated and all associated routing information is removed. If set to true, the peer connection can be established with routing information. The default is true.
    enableIpv4 Boolean
    Enable IPv4 traffic over BGP Peer. It is enabled by default if the peerIpAddress is version 4.
    enableIpv6 Boolean
    Enable IPv6 traffic over BGP Peer. If not specified, it is disabled by default.
    exportPolicies List<String>
    routers.list of export policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_EXPORT type.
    importPolicies List<String>
    routers.list of import policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_IMPORT type.
    ipAddress String
    IP address of the interface inside Google Cloud Platform. Only IPv4 is supported.
    ipv4NexthopAddress String
    IPv4 address of the interface inside Google Cloud Platform.
    ipv6NexthopAddress String
    IPv6 address of the interface inside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    md5AuthenticationKey Property Map
    Configuration for MD5 authentication on the BGP session. Structure is documented below.
    name String
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    peerIpAddress String
    IP address of the BGP interface outside Google Cloud Platform. Only IPv4 is supported. Required if ip_address is set.
    peerIpv4NexthopAddress String
    IPv4 address of the BGP interface outside Google Cloud Platform.
    peerIpv6NexthopAddress String
    IPv6 address of the BGP interface outside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    project String
    The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
    region String
    Region where the router and BgpPeer reside. If it is not provided, the provider region is used.
    routerApplianceInstance String
    The URI of the VM instance that is used as third-party router appliances such as Next Gen Firewalls, Virtual Routers, or Router Appliances. The VM instance must be located in zones contained in the same region as this Cloud Router. The VM instance is the peer side of the BGP session.

    Outputs

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

    Id string
    The provider-assigned unique ID for this managed resource.
    ManagementType string
    The resource that configures and manages this BGP peer.

    • MANAGED_BY_USER is the default value and can be managed by you or other users
    • MANAGED_BY_ATTACHMENT is a BGP peer that is configured and managed by Cloud Interconnect, specifically by an InterconnectAttachment of type PARTNER. Google automatically creates, updates, and deletes this type of BGP peer when the PARTNER InterconnectAttachment is created, updated, or deleted.
    Id string
    The provider-assigned unique ID for this managed resource.
    ManagementType string
    The resource that configures and manages this BGP peer.

    • MANAGED_BY_USER is the default value and can be managed by you or other users
    • MANAGED_BY_ATTACHMENT is a BGP peer that is configured and managed by Cloud Interconnect, specifically by an InterconnectAttachment of type PARTNER. Google automatically creates, updates, and deletes this type of BGP peer when the PARTNER InterconnectAttachment is created, updated, or deleted.
    id String
    The provider-assigned unique ID for this managed resource.
    managementType String
    The resource that configures and manages this BGP peer.

    • MANAGED_BY_USER is the default value and can be managed by you or other users
    • MANAGED_BY_ATTACHMENT is a BGP peer that is configured and managed by Cloud Interconnect, specifically by an InterconnectAttachment of type PARTNER. Google automatically creates, updates, and deletes this type of BGP peer when the PARTNER InterconnectAttachment is created, updated, or deleted.
    id string
    The provider-assigned unique ID for this managed resource.
    managementType string
    The resource that configures and manages this BGP peer.

    • MANAGED_BY_USER is the default value and can be managed by you or other users
    • MANAGED_BY_ATTACHMENT is a BGP peer that is configured and managed by Cloud Interconnect, specifically by an InterconnectAttachment of type PARTNER. Google automatically creates, updates, and deletes this type of BGP peer when the PARTNER InterconnectAttachment is created, updated, or deleted.
    id str
    The provider-assigned unique ID for this managed resource.
    management_type str
    The resource that configures and manages this BGP peer.

    • MANAGED_BY_USER is the default value and can be managed by you or other users
    • MANAGED_BY_ATTACHMENT is a BGP peer that is configured and managed by Cloud Interconnect, specifically by an InterconnectAttachment of type PARTNER. Google automatically creates, updates, and deletes this type of BGP peer when the PARTNER InterconnectAttachment is created, updated, or deleted.
    id String
    The provider-assigned unique ID for this managed resource.
    managementType String
    The resource that configures and manages this BGP peer.

    • MANAGED_BY_USER is the default value and can be managed by you or other users
    • MANAGED_BY_ATTACHMENT is a BGP peer that is configured and managed by Cloud Interconnect, specifically by an InterconnectAttachment of type PARTNER. Google automatically creates, updates, and deletes this type of BGP peer when the PARTNER InterconnectAttachment is created, updated, or deleted.

    Look up Existing RouterPeer Resource

    Get an existing RouterPeer 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?: RouterPeerState, opts?: CustomResourceOptions): RouterPeer
    @staticmethod
    def get(resource_name: str,
            id: str,
            opts: Optional[ResourceOptions] = None,
            advertise_mode: Optional[str] = None,
            advertised_groups: Optional[Sequence[str]] = None,
            advertised_ip_ranges: Optional[Sequence[RouterPeerAdvertisedIpRangeArgs]] = None,
            advertised_route_priority: Optional[int] = None,
            bfd: Optional[RouterPeerBfdArgs] = None,
            custom_learned_ip_ranges: Optional[Sequence[RouterPeerCustomLearnedIpRangeArgs]] = None,
            custom_learned_route_priority: Optional[int] = None,
            enable: Optional[bool] = None,
            enable_ipv4: Optional[bool] = None,
            enable_ipv6: Optional[bool] = None,
            export_policies: Optional[Sequence[str]] = None,
            import_policies: Optional[Sequence[str]] = None,
            interface: Optional[str] = None,
            ip_address: Optional[str] = None,
            ipv4_nexthop_address: Optional[str] = None,
            ipv6_nexthop_address: Optional[str] = None,
            management_type: Optional[str] = None,
            md5_authentication_key: Optional[RouterPeerMd5AuthenticationKeyArgs] = None,
            name: Optional[str] = None,
            peer_asn: Optional[int] = None,
            peer_ip_address: Optional[str] = None,
            peer_ipv4_nexthop_address: Optional[str] = None,
            peer_ipv6_nexthop_address: Optional[str] = None,
            project: Optional[str] = None,
            region: Optional[str] = None,
            router: Optional[str] = None,
            router_appliance_instance: Optional[str] = None) -> RouterPeer
    func GetRouterPeer(ctx *Context, name string, id IDInput, state *RouterPeerState, opts ...ResourceOption) (*RouterPeer, error)
    public static RouterPeer Get(string name, Input<string> id, RouterPeerState? state, CustomResourceOptions? opts = null)
    public static RouterPeer get(String name, Output<String> id, RouterPeerState state, CustomResourceOptions options)
    Resource lookup is not supported in YAML
    name
    The unique name of the resulting resource.
    id
    The unique provider ID of the resource to lookup.
    state
    Any extra arguments used during the lookup.
    opts
    A bag of options that control this resource's behavior.
    resource_name
    The unique name of the resulting resource.
    id
    The unique provider ID of the resource to lookup.
    name
    The unique name of the resulting resource.
    id
    The unique provider ID of the resource to lookup.
    state
    Any extra arguments used during the lookup.
    opts
    A bag of options that control this resource's behavior.
    name
    The unique name of the resulting resource.
    id
    The unique provider ID of the resource to lookup.
    state
    Any extra arguments used during the lookup.
    opts
    A bag of options that control this resource's behavior.
    name
    The unique name of the resulting resource.
    id
    The unique provider ID of the resource to lookup.
    state
    Any extra arguments used during the lookup.
    opts
    A bag of options that control this resource's behavior.
    The following state arguments are supported:
    AdvertiseMode string
    User-specified flag to indicate which mode to use for advertisement. Valid values of this enum field are: DEFAULT, CUSTOM Default value is DEFAULT. Possible values are: DEFAULT, CUSTOM.
    AdvertisedGroups List<string>

    User-specified list of prefix groups to advertise in custom mode, which currently supports the following option:

    • ALL_SUBNETS: Advertises all of the router's own VPC subnets. This excludes any routes learned for subnets that use VPC Network Peering.

    Note that this field can only be populated if advertiseMode is CUSTOM and overrides the list defined for the router (in the "bgp" message). These groups are advertised in addition to any specified prefixes. Leave this field blank to advertise no custom groups.

    AdvertisedIpRanges List<RouterPeerAdvertisedIpRange>
    User-specified list of individual IP ranges to advertise in custom mode. This field can only be populated if advertiseMode is CUSTOM and is advertised to all peers of the router. These IP ranges will be advertised in addition to any specified groups. Leave this field blank to advertise no custom IP ranges. Structure is documented below.
    AdvertisedRoutePriority int
    The priority of routes advertised to this BGP peer. Where there is more than one matching route of maximum length, the routes with the lowest priority value win.
    Bfd RouterPeerBfd
    BFD configuration for the BGP peering. Structure is documented below.
    CustomLearnedIpRanges List<RouterPeerCustomLearnedIpRange>
    The custom learned route IP address range. Must be a valid CIDR-formatted prefix. If an IP address is provided without a subnet mask, it is interpreted as, for IPv4, a /32 singular IP address range, and, for IPv6, /128.
    CustomLearnedRoutePriority int
    The user-defined custom learned route priority for a BGP session. This value is applied to all custom learned route ranges for the session. You can choose a value from 0 to 65335. If you don't provide a value, Google Cloud assigns a priority of 100 to the ranges.
    Enable bool
    The status of the BGP peer connection. If set to false, any active session with the peer is terminated and all associated routing information is removed. If set to true, the peer connection can be established with routing information. The default is true.
    EnableIpv4 bool
    Enable IPv4 traffic over BGP Peer. It is enabled by default if the peerIpAddress is version 4.
    EnableIpv6 bool
    Enable IPv6 traffic over BGP Peer. If not specified, it is disabled by default.
    ExportPolicies List<string>
    routers.list of export policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_EXPORT type.
    ImportPolicies List<string>
    routers.list of import policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_IMPORT type.
    Interface string
    Name of the interface the BGP peer is associated with.
    IpAddress string
    IP address of the interface inside Google Cloud Platform. Only IPv4 is supported.
    Ipv4NexthopAddress string
    IPv4 address of the interface inside Google Cloud Platform.
    Ipv6NexthopAddress string
    IPv6 address of the interface inside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    ManagementType string
    The resource that configures and manages this BGP peer.

    • MANAGED_BY_USER is the default value and can be managed by you or other users
    • MANAGED_BY_ATTACHMENT is a BGP peer that is configured and managed by Cloud Interconnect, specifically by an InterconnectAttachment of type PARTNER. Google automatically creates, updates, and deletes this type of BGP peer when the PARTNER InterconnectAttachment is created, updated, or deleted.
    Md5AuthenticationKey RouterPeerMd5AuthenticationKey
    Configuration for MD5 authentication on the BGP session. Structure is documented below.
    Name string
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    PeerAsn int
    Peer BGP Autonomous System Number (ASN). Each BGP interface may use a different value.
    PeerIpAddress string
    IP address of the BGP interface outside Google Cloud Platform. Only IPv4 is supported. Required if ip_address is set.
    PeerIpv4NexthopAddress string
    IPv4 address of the BGP interface outside Google Cloud Platform.
    PeerIpv6NexthopAddress string
    IPv6 address of the BGP interface outside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    Project string
    The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
    Region string
    Region where the router and BgpPeer reside. If it is not provided, the provider region is used.
    Router string
    The name of the Cloud Router in which this BgpPeer will be configured.


    RouterApplianceInstance string
    The URI of the VM instance that is used as third-party router appliances such as Next Gen Firewalls, Virtual Routers, or Router Appliances. The VM instance must be located in zones contained in the same region as this Cloud Router. The VM instance is the peer side of the BGP session.
    AdvertiseMode string
    User-specified flag to indicate which mode to use for advertisement. Valid values of this enum field are: DEFAULT, CUSTOM Default value is DEFAULT. Possible values are: DEFAULT, CUSTOM.
    AdvertisedGroups []string

    User-specified list of prefix groups to advertise in custom mode, which currently supports the following option:

    • ALL_SUBNETS: Advertises all of the router's own VPC subnets. This excludes any routes learned for subnets that use VPC Network Peering.

    Note that this field can only be populated if advertiseMode is CUSTOM and overrides the list defined for the router (in the "bgp" message). These groups are advertised in addition to any specified prefixes. Leave this field blank to advertise no custom groups.

    AdvertisedIpRanges []RouterPeerAdvertisedIpRangeArgs
    User-specified list of individual IP ranges to advertise in custom mode. This field can only be populated if advertiseMode is CUSTOM and is advertised to all peers of the router. These IP ranges will be advertised in addition to any specified groups. Leave this field blank to advertise no custom IP ranges. Structure is documented below.
    AdvertisedRoutePriority int
    The priority of routes advertised to this BGP peer. Where there is more than one matching route of maximum length, the routes with the lowest priority value win.
    Bfd RouterPeerBfdArgs
    BFD configuration for the BGP peering. Structure is documented below.
    CustomLearnedIpRanges []RouterPeerCustomLearnedIpRangeArgs
    The custom learned route IP address range. Must be a valid CIDR-formatted prefix. If an IP address is provided without a subnet mask, it is interpreted as, for IPv4, a /32 singular IP address range, and, for IPv6, /128.
    CustomLearnedRoutePriority int
    The user-defined custom learned route priority for a BGP session. This value is applied to all custom learned route ranges for the session. You can choose a value from 0 to 65335. If you don't provide a value, Google Cloud assigns a priority of 100 to the ranges.
    Enable bool
    The status of the BGP peer connection. If set to false, any active session with the peer is terminated and all associated routing information is removed. If set to true, the peer connection can be established with routing information. The default is true.
    EnableIpv4 bool
    Enable IPv4 traffic over BGP Peer. It is enabled by default if the peerIpAddress is version 4.
    EnableIpv6 bool
    Enable IPv6 traffic over BGP Peer. If not specified, it is disabled by default.
    ExportPolicies []string
    routers.list of export policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_EXPORT type.
    ImportPolicies []string
    routers.list of import policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_IMPORT type.
    Interface string
    Name of the interface the BGP peer is associated with.
    IpAddress string
    IP address of the interface inside Google Cloud Platform. Only IPv4 is supported.
    Ipv4NexthopAddress string
    IPv4 address of the interface inside Google Cloud Platform.
    Ipv6NexthopAddress string
    IPv6 address of the interface inside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    ManagementType string
    The resource that configures and manages this BGP peer.

    • MANAGED_BY_USER is the default value and can be managed by you or other users
    • MANAGED_BY_ATTACHMENT is a BGP peer that is configured and managed by Cloud Interconnect, specifically by an InterconnectAttachment of type PARTNER. Google automatically creates, updates, and deletes this type of BGP peer when the PARTNER InterconnectAttachment is created, updated, or deleted.
    Md5AuthenticationKey RouterPeerMd5AuthenticationKeyArgs
    Configuration for MD5 authentication on the BGP session. Structure is documented below.
    Name string
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    PeerAsn int
    Peer BGP Autonomous System Number (ASN). Each BGP interface may use a different value.
    PeerIpAddress string
    IP address of the BGP interface outside Google Cloud Platform. Only IPv4 is supported. Required if ip_address is set.
    PeerIpv4NexthopAddress string
    IPv4 address of the BGP interface outside Google Cloud Platform.
    PeerIpv6NexthopAddress string
    IPv6 address of the BGP interface outside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    Project string
    The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
    Region string
    Region where the router and BgpPeer reside. If it is not provided, the provider region is used.
    Router string
    The name of the Cloud Router in which this BgpPeer will be configured.


    RouterApplianceInstance string
    The URI of the VM instance that is used as third-party router appliances such as Next Gen Firewalls, Virtual Routers, or Router Appliances. The VM instance must be located in zones contained in the same region as this Cloud Router. The VM instance is the peer side of the BGP session.
    advertiseMode String
    User-specified flag to indicate which mode to use for advertisement. Valid values of this enum field are: DEFAULT, CUSTOM Default value is DEFAULT. Possible values are: DEFAULT, CUSTOM.
    advertisedGroups List<String>

    User-specified list of prefix groups to advertise in custom mode, which currently supports the following option:

    • ALL_SUBNETS: Advertises all of the router's own VPC subnets. This excludes any routes learned for subnets that use VPC Network Peering.

    Note that this field can only be populated if advertiseMode is CUSTOM and overrides the list defined for the router (in the "bgp" message). These groups are advertised in addition to any specified prefixes. Leave this field blank to advertise no custom groups.

    advertisedIpRanges List<RouterPeerAdvertisedIpRange>
    User-specified list of individual IP ranges to advertise in custom mode. This field can only be populated if advertiseMode is CUSTOM and is advertised to all peers of the router. These IP ranges will be advertised in addition to any specified groups. Leave this field blank to advertise no custom IP ranges. Structure is documented below.
    advertisedRoutePriority Integer
    The priority of routes advertised to this BGP peer. Where there is more than one matching route of maximum length, the routes with the lowest priority value win.
    bfd RouterPeerBfd
    BFD configuration for the BGP peering. Structure is documented below.
    customLearnedIpRanges List<RouterPeerCustomLearnedIpRange>
    The custom learned route IP address range. Must be a valid CIDR-formatted prefix. If an IP address is provided without a subnet mask, it is interpreted as, for IPv4, a /32 singular IP address range, and, for IPv6, /128.
    customLearnedRoutePriority Integer
    The user-defined custom learned route priority for a BGP session. This value is applied to all custom learned route ranges for the session. You can choose a value from 0 to 65335. If you don't provide a value, Google Cloud assigns a priority of 100 to the ranges.
    enable Boolean
    The status of the BGP peer connection. If set to false, any active session with the peer is terminated and all associated routing information is removed. If set to true, the peer connection can be established with routing information. The default is true.
    enableIpv4 Boolean
    Enable IPv4 traffic over BGP Peer. It is enabled by default if the peerIpAddress is version 4.
    enableIpv6 Boolean
    Enable IPv6 traffic over BGP Peer. If not specified, it is disabled by default.
    exportPolicies List<String>
    routers.list of export policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_EXPORT type.
    importPolicies List<String>
    routers.list of import policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_IMPORT type.
    interface_ String
    Name of the interface the BGP peer is associated with.
    ipAddress String
    IP address of the interface inside Google Cloud Platform. Only IPv4 is supported.
    ipv4NexthopAddress String
    IPv4 address of the interface inside Google Cloud Platform.
    ipv6NexthopAddress String
    IPv6 address of the interface inside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    managementType String
    The resource that configures and manages this BGP peer.

    • MANAGED_BY_USER is the default value and can be managed by you or other users
    • MANAGED_BY_ATTACHMENT is a BGP peer that is configured and managed by Cloud Interconnect, specifically by an InterconnectAttachment of type PARTNER. Google automatically creates, updates, and deletes this type of BGP peer when the PARTNER InterconnectAttachment is created, updated, or deleted.
    md5AuthenticationKey RouterPeerMd5AuthenticationKey
    Configuration for MD5 authentication on the BGP session. Structure is documented below.
    name String
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    peerAsn Integer
    Peer BGP Autonomous System Number (ASN). Each BGP interface may use a different value.
    peerIpAddress String
    IP address of the BGP interface outside Google Cloud Platform. Only IPv4 is supported. Required if ip_address is set.
    peerIpv4NexthopAddress String
    IPv4 address of the BGP interface outside Google Cloud Platform.
    peerIpv6NexthopAddress String
    IPv6 address of the BGP interface outside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    project String
    The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
    region String
    Region where the router and BgpPeer reside. If it is not provided, the provider region is used.
    router String
    The name of the Cloud Router in which this BgpPeer will be configured.


    routerApplianceInstance String
    The URI of the VM instance that is used as third-party router appliances such as Next Gen Firewalls, Virtual Routers, or Router Appliances. The VM instance must be located in zones contained in the same region as this Cloud Router. The VM instance is the peer side of the BGP session.
    advertiseMode string
    User-specified flag to indicate which mode to use for advertisement. Valid values of this enum field are: DEFAULT, CUSTOM Default value is DEFAULT. Possible values are: DEFAULT, CUSTOM.
    advertisedGroups string[]

    User-specified list of prefix groups to advertise in custom mode, which currently supports the following option:

    • ALL_SUBNETS: Advertises all of the router's own VPC subnets. This excludes any routes learned for subnets that use VPC Network Peering.

    Note that this field can only be populated if advertiseMode is CUSTOM and overrides the list defined for the router (in the "bgp" message). These groups are advertised in addition to any specified prefixes. Leave this field blank to advertise no custom groups.

    advertisedIpRanges RouterPeerAdvertisedIpRange[]
    User-specified list of individual IP ranges to advertise in custom mode. This field can only be populated if advertiseMode is CUSTOM and is advertised to all peers of the router. These IP ranges will be advertised in addition to any specified groups. Leave this field blank to advertise no custom IP ranges. Structure is documented below.
    advertisedRoutePriority number
    The priority of routes advertised to this BGP peer. Where there is more than one matching route of maximum length, the routes with the lowest priority value win.
    bfd RouterPeerBfd
    BFD configuration for the BGP peering. Structure is documented below.
    customLearnedIpRanges RouterPeerCustomLearnedIpRange[]
    The custom learned route IP address range. Must be a valid CIDR-formatted prefix. If an IP address is provided without a subnet mask, it is interpreted as, for IPv4, a /32 singular IP address range, and, for IPv6, /128.
    customLearnedRoutePriority number
    The user-defined custom learned route priority for a BGP session. This value is applied to all custom learned route ranges for the session. You can choose a value from 0 to 65335. If you don't provide a value, Google Cloud assigns a priority of 100 to the ranges.
    enable boolean
    The status of the BGP peer connection. If set to false, any active session with the peer is terminated and all associated routing information is removed. If set to true, the peer connection can be established with routing information. The default is true.
    enableIpv4 boolean
    Enable IPv4 traffic over BGP Peer. It is enabled by default if the peerIpAddress is version 4.
    enableIpv6 boolean
    Enable IPv6 traffic over BGP Peer. If not specified, it is disabled by default.
    exportPolicies string[]
    routers.list of export policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_EXPORT type.
    importPolicies string[]
    routers.list of import policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_IMPORT type.
    interface string
    Name of the interface the BGP peer is associated with.
    ipAddress string
    IP address of the interface inside Google Cloud Platform. Only IPv4 is supported.
    ipv4NexthopAddress string
    IPv4 address of the interface inside Google Cloud Platform.
    ipv6NexthopAddress string
    IPv6 address of the interface inside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    managementType string
    The resource that configures and manages this BGP peer.

    • MANAGED_BY_USER is the default value and can be managed by you or other users
    • MANAGED_BY_ATTACHMENT is a BGP peer that is configured and managed by Cloud Interconnect, specifically by an InterconnectAttachment of type PARTNER. Google automatically creates, updates, and deletes this type of BGP peer when the PARTNER InterconnectAttachment is created, updated, or deleted.
    md5AuthenticationKey RouterPeerMd5AuthenticationKey
    Configuration for MD5 authentication on the BGP session. Structure is documented below.
    name string
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    peerAsn number
    Peer BGP Autonomous System Number (ASN). Each BGP interface may use a different value.
    peerIpAddress string
    IP address of the BGP interface outside Google Cloud Platform. Only IPv4 is supported. Required if ip_address is set.
    peerIpv4NexthopAddress string
    IPv4 address of the BGP interface outside Google Cloud Platform.
    peerIpv6NexthopAddress string
    IPv6 address of the BGP interface outside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    project string
    The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
    region string
    Region where the router and BgpPeer reside. If it is not provided, the provider region is used.
    router string
    The name of the Cloud Router in which this BgpPeer will be configured.


    routerApplianceInstance string
    The URI of the VM instance that is used as third-party router appliances such as Next Gen Firewalls, Virtual Routers, or Router Appliances. The VM instance must be located in zones contained in the same region as this Cloud Router. The VM instance is the peer side of the BGP session.
    advertise_mode str
    User-specified flag to indicate which mode to use for advertisement. Valid values of this enum field are: DEFAULT, CUSTOM Default value is DEFAULT. Possible values are: DEFAULT, CUSTOM.
    advertised_groups Sequence[str]

    User-specified list of prefix groups to advertise in custom mode, which currently supports the following option:

    • ALL_SUBNETS: Advertises all of the router's own VPC subnets. This excludes any routes learned for subnets that use VPC Network Peering.

    Note that this field can only be populated if advertiseMode is CUSTOM and overrides the list defined for the router (in the "bgp" message). These groups are advertised in addition to any specified prefixes. Leave this field blank to advertise no custom groups.

    advertised_ip_ranges Sequence[RouterPeerAdvertisedIpRangeArgs]
    User-specified list of individual IP ranges to advertise in custom mode. This field can only be populated if advertiseMode is CUSTOM and is advertised to all peers of the router. These IP ranges will be advertised in addition to any specified groups. Leave this field blank to advertise no custom IP ranges. Structure is documented below.
    advertised_route_priority int
    The priority of routes advertised to this BGP peer. Where there is more than one matching route of maximum length, the routes with the lowest priority value win.
    bfd RouterPeerBfdArgs
    BFD configuration for the BGP peering. Structure is documented below.
    custom_learned_ip_ranges Sequence[RouterPeerCustomLearnedIpRangeArgs]
    The custom learned route IP address range. Must be a valid CIDR-formatted prefix. If an IP address is provided without a subnet mask, it is interpreted as, for IPv4, a /32 singular IP address range, and, for IPv6, /128.
    custom_learned_route_priority int
    The user-defined custom learned route priority for a BGP session. This value is applied to all custom learned route ranges for the session. You can choose a value from 0 to 65335. If you don't provide a value, Google Cloud assigns a priority of 100 to the ranges.
    enable bool
    The status of the BGP peer connection. If set to false, any active session with the peer is terminated and all associated routing information is removed. If set to true, the peer connection can be established with routing information. The default is true.
    enable_ipv4 bool
    Enable IPv4 traffic over BGP Peer. It is enabled by default if the peerIpAddress is version 4.
    enable_ipv6 bool
    Enable IPv6 traffic over BGP Peer. If not specified, it is disabled by default.
    export_policies Sequence[str]
    routers.list of export policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_EXPORT type.
    import_policies Sequence[str]
    routers.list of import policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_IMPORT type.
    interface str
    Name of the interface the BGP peer is associated with.
    ip_address str
    IP address of the interface inside Google Cloud Platform. Only IPv4 is supported.
    ipv4_nexthop_address str
    IPv4 address of the interface inside Google Cloud Platform.
    ipv6_nexthop_address str
    IPv6 address of the interface inside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    management_type str
    The resource that configures and manages this BGP peer.

    • MANAGED_BY_USER is the default value and can be managed by you or other users
    • MANAGED_BY_ATTACHMENT is a BGP peer that is configured and managed by Cloud Interconnect, specifically by an InterconnectAttachment of type PARTNER. Google automatically creates, updates, and deletes this type of BGP peer when the PARTNER InterconnectAttachment is created, updated, or deleted.
    md5_authentication_key RouterPeerMd5AuthenticationKeyArgs
    Configuration for MD5 authentication on the BGP session. Structure is documented below.
    name str
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    peer_asn int
    Peer BGP Autonomous System Number (ASN). Each BGP interface may use a different value.
    peer_ip_address str
    IP address of the BGP interface outside Google Cloud Platform. Only IPv4 is supported. Required if ip_address is set.
    peer_ipv4_nexthop_address str
    IPv4 address of the BGP interface outside Google Cloud Platform.
    peer_ipv6_nexthop_address str
    IPv6 address of the BGP interface outside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    project str
    The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
    region str
    Region where the router and BgpPeer reside. If it is not provided, the provider region is used.
    router str
    The name of the Cloud Router in which this BgpPeer will be configured.


    router_appliance_instance str
    The URI of the VM instance that is used as third-party router appliances such as Next Gen Firewalls, Virtual Routers, or Router Appliances. The VM instance must be located in zones contained in the same region as this Cloud Router. The VM instance is the peer side of the BGP session.
    advertiseMode String
    User-specified flag to indicate which mode to use for advertisement. Valid values of this enum field are: DEFAULT, CUSTOM Default value is DEFAULT. Possible values are: DEFAULT, CUSTOM.
    advertisedGroups List<String>

    User-specified list of prefix groups to advertise in custom mode, which currently supports the following option:

    • ALL_SUBNETS: Advertises all of the router's own VPC subnets. This excludes any routes learned for subnets that use VPC Network Peering.

    Note that this field can only be populated if advertiseMode is CUSTOM and overrides the list defined for the router (in the "bgp" message). These groups are advertised in addition to any specified prefixes. Leave this field blank to advertise no custom groups.

    advertisedIpRanges List<Property Map>
    User-specified list of individual IP ranges to advertise in custom mode. This field can only be populated if advertiseMode is CUSTOM and is advertised to all peers of the router. These IP ranges will be advertised in addition to any specified groups. Leave this field blank to advertise no custom IP ranges. Structure is documented below.
    advertisedRoutePriority Number
    The priority of routes advertised to this BGP peer. Where there is more than one matching route of maximum length, the routes with the lowest priority value win.
    bfd Property Map
    BFD configuration for the BGP peering. Structure is documented below.
    customLearnedIpRanges List<Property Map>
    The custom learned route IP address range. Must be a valid CIDR-formatted prefix. If an IP address is provided without a subnet mask, it is interpreted as, for IPv4, a /32 singular IP address range, and, for IPv6, /128.
    customLearnedRoutePriority Number
    The user-defined custom learned route priority for a BGP session. This value is applied to all custom learned route ranges for the session. You can choose a value from 0 to 65335. If you don't provide a value, Google Cloud assigns a priority of 100 to the ranges.
    enable Boolean
    The status of the BGP peer connection. If set to false, any active session with the peer is terminated and all associated routing information is removed. If set to true, the peer connection can be established with routing information. The default is true.
    enableIpv4 Boolean
    Enable IPv4 traffic over BGP Peer. It is enabled by default if the peerIpAddress is version 4.
    enableIpv6 Boolean
    Enable IPv6 traffic over BGP Peer. If not specified, it is disabled by default.
    exportPolicies List<String>
    routers.list of export policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_EXPORT type.
    importPolicies List<String>
    routers.list of import policies applied to this peer, in the order they must be evaluated. The name must correspond to an existing policy that has ROUTE_POLICY_TYPE_IMPORT type.
    interface String
    Name of the interface the BGP peer is associated with.
    ipAddress String
    IP address of the interface inside Google Cloud Platform. Only IPv4 is supported.
    ipv4NexthopAddress String
    IPv4 address of the interface inside Google Cloud Platform.
    ipv6NexthopAddress String
    IPv6 address of the interface inside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    managementType String
    The resource that configures and manages this BGP peer.

    • MANAGED_BY_USER is the default value and can be managed by you or other users
    • MANAGED_BY_ATTACHMENT is a BGP peer that is configured and managed by Cloud Interconnect, specifically by an InterconnectAttachment of type PARTNER. Google automatically creates, updates, and deletes this type of BGP peer when the PARTNER InterconnectAttachment is created, updated, or deleted.
    md5AuthenticationKey Property Map
    Configuration for MD5 authentication on the BGP session. Structure is documented below.
    name String
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    peerAsn Number
    Peer BGP Autonomous System Number (ASN). Each BGP interface may use a different value.
    peerIpAddress String
    IP address of the BGP interface outside Google Cloud Platform. Only IPv4 is supported. Required if ip_address is set.
    peerIpv4NexthopAddress String
    IPv4 address of the BGP interface outside Google Cloud Platform.
    peerIpv6NexthopAddress String
    IPv6 address of the BGP interface outside Google Cloud Platform. The address must be in the range 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64. If you do not specify the next hop addresses, Google Cloud automatically assigns unused addresses from the 2600:2d00:0:2::/64 or 2600:2d00:0:3::/64 range for you.
    project String
    The ID of the project in which the resource belongs. If it is not provided, the provider project is used.
    region String
    Region where the router and BgpPeer reside. If it is not provided, the provider region is used.
    router String
    The name of the Cloud Router in which this BgpPeer will be configured.


    routerApplianceInstance String
    The URI of the VM instance that is used as third-party router appliances such as Next Gen Firewalls, Virtual Routers, or Router Appliances. The VM instance must be located in zones contained in the same region as this Cloud Router. The VM instance is the peer side of the BGP session.

    Supporting Types

    RouterPeerAdvertisedIpRange, RouterPeerAdvertisedIpRangeArgs

    Range string
    The IP range to advertise. The value must be a CIDR-formatted string.
    Description string
    User-specified description for the IP range.
    Range string
    The IP range to advertise. The value must be a CIDR-formatted string.
    Description string
    User-specified description for the IP range.
    range String
    The IP range to advertise. The value must be a CIDR-formatted string.
    description String
    User-specified description for the IP range.
    range string
    The IP range to advertise. The value must be a CIDR-formatted string.
    description string
    User-specified description for the IP range.
    range str
    The IP range to advertise. The value must be a CIDR-formatted string.
    description str
    User-specified description for the IP range.
    range String
    The IP range to advertise. The value must be a CIDR-formatted string.
    description String
    User-specified description for the IP range.

    RouterPeerBfd, RouterPeerBfdArgs

    SessionInitializationMode string
    The BFD session initialization mode for this BGP peer. If set to ACTIVE, the Cloud Router will initiate the BFD session for this BGP peer. If set to PASSIVE, the Cloud Router will wait for the peer router to initiate the BFD session for this BGP peer. If set to DISABLED, BFD is disabled for this BGP peer. Possible values are: ACTIVE, DISABLED, PASSIVE.
    MinReceiveInterval int
    The minimum interval, in milliseconds, between BFD control packets received from the peer router. The actual value is negotiated between the two routers and is equal to the greater of this value and the transmit interval of the other router. If set, this value must be between 1000 and 30000.
    MinTransmitInterval int
    The minimum interval, in milliseconds, between BFD control packets transmitted to the peer router. The actual value is negotiated between the two routers and is equal to the greater of this value and the corresponding receive interval of the other router. If set, this value must be between 1000 and 30000.
    Multiplier int

    The number of consecutive BFD packets that must be missed before BFD declares that a peer is unavailable. If set, the value must be a value between 5 and 16.

    The md5_authentication_key block supports:

    SessionInitializationMode string
    The BFD session initialization mode for this BGP peer. If set to ACTIVE, the Cloud Router will initiate the BFD session for this BGP peer. If set to PASSIVE, the Cloud Router will wait for the peer router to initiate the BFD session for this BGP peer. If set to DISABLED, BFD is disabled for this BGP peer. Possible values are: ACTIVE, DISABLED, PASSIVE.
    MinReceiveInterval int
    The minimum interval, in milliseconds, between BFD control packets received from the peer router. The actual value is negotiated between the two routers and is equal to the greater of this value and the transmit interval of the other router. If set, this value must be between 1000 and 30000.
    MinTransmitInterval int
    The minimum interval, in milliseconds, between BFD control packets transmitted to the peer router. The actual value is negotiated between the two routers and is equal to the greater of this value and the corresponding receive interval of the other router. If set, this value must be between 1000 and 30000.
    Multiplier int

    The number of consecutive BFD packets that must be missed before BFD declares that a peer is unavailable. If set, the value must be a value between 5 and 16.

    The md5_authentication_key block supports:

    sessionInitializationMode String
    The BFD session initialization mode for this BGP peer. If set to ACTIVE, the Cloud Router will initiate the BFD session for this BGP peer. If set to PASSIVE, the Cloud Router will wait for the peer router to initiate the BFD session for this BGP peer. If set to DISABLED, BFD is disabled for this BGP peer. Possible values are: ACTIVE, DISABLED, PASSIVE.
    minReceiveInterval Integer
    The minimum interval, in milliseconds, between BFD control packets received from the peer router. The actual value is negotiated between the two routers and is equal to the greater of this value and the transmit interval of the other router. If set, this value must be between 1000 and 30000.
    minTransmitInterval Integer
    The minimum interval, in milliseconds, between BFD control packets transmitted to the peer router. The actual value is negotiated between the two routers and is equal to the greater of this value and the corresponding receive interval of the other router. If set, this value must be between 1000 and 30000.
    multiplier Integer

    The number of consecutive BFD packets that must be missed before BFD declares that a peer is unavailable. If set, the value must be a value between 5 and 16.

    The md5_authentication_key block supports:

    sessionInitializationMode string
    The BFD session initialization mode for this BGP peer. If set to ACTIVE, the Cloud Router will initiate the BFD session for this BGP peer. If set to PASSIVE, the Cloud Router will wait for the peer router to initiate the BFD session for this BGP peer. If set to DISABLED, BFD is disabled for this BGP peer. Possible values are: ACTIVE, DISABLED, PASSIVE.
    minReceiveInterval number
    The minimum interval, in milliseconds, between BFD control packets received from the peer router. The actual value is negotiated between the two routers and is equal to the greater of this value and the transmit interval of the other router. If set, this value must be between 1000 and 30000.
    minTransmitInterval number
    The minimum interval, in milliseconds, between BFD control packets transmitted to the peer router. The actual value is negotiated between the two routers and is equal to the greater of this value and the corresponding receive interval of the other router. If set, this value must be between 1000 and 30000.
    multiplier number

    The number of consecutive BFD packets that must be missed before BFD declares that a peer is unavailable. If set, the value must be a value between 5 and 16.

    The md5_authentication_key block supports:

    session_initialization_mode str
    The BFD session initialization mode for this BGP peer. If set to ACTIVE, the Cloud Router will initiate the BFD session for this BGP peer. If set to PASSIVE, the Cloud Router will wait for the peer router to initiate the BFD session for this BGP peer. If set to DISABLED, BFD is disabled for this BGP peer. Possible values are: ACTIVE, DISABLED, PASSIVE.
    min_receive_interval int
    The minimum interval, in milliseconds, between BFD control packets received from the peer router. The actual value is negotiated between the two routers and is equal to the greater of this value and the transmit interval of the other router. If set, this value must be between 1000 and 30000.
    min_transmit_interval int
    The minimum interval, in milliseconds, between BFD control packets transmitted to the peer router. The actual value is negotiated between the two routers and is equal to the greater of this value and the corresponding receive interval of the other router. If set, this value must be between 1000 and 30000.
    multiplier int

    The number of consecutive BFD packets that must be missed before BFD declares that a peer is unavailable. If set, the value must be a value between 5 and 16.

    The md5_authentication_key block supports:

    sessionInitializationMode String
    The BFD session initialization mode for this BGP peer. If set to ACTIVE, the Cloud Router will initiate the BFD session for this BGP peer. If set to PASSIVE, the Cloud Router will wait for the peer router to initiate the BFD session for this BGP peer. If set to DISABLED, BFD is disabled for this BGP peer. Possible values are: ACTIVE, DISABLED, PASSIVE.
    minReceiveInterval Number
    The minimum interval, in milliseconds, between BFD control packets received from the peer router. The actual value is negotiated between the two routers and is equal to the greater of this value and the transmit interval of the other router. If set, this value must be between 1000 and 30000.
    minTransmitInterval Number
    The minimum interval, in milliseconds, between BFD control packets transmitted to the peer router. The actual value is negotiated between the two routers and is equal to the greater of this value and the corresponding receive interval of the other router. If set, this value must be between 1000 and 30000.
    multiplier Number

    The number of consecutive BFD packets that must be missed before BFD declares that a peer is unavailable. If set, the value must be a value between 5 and 16.

    The md5_authentication_key block supports:

    RouterPeerCustomLearnedIpRange, RouterPeerCustomLearnedIpRangeArgs

    Range string
    The IP range to advertise. The value must be a CIDR-formatted string.
    Range string
    The IP range to advertise. The value must be a CIDR-formatted string.
    range String
    The IP range to advertise. The value must be a CIDR-formatted string.
    range string
    The IP range to advertise. The value must be a CIDR-formatted string.
    range str
    The IP range to advertise. The value must be a CIDR-formatted string.
    range String
    The IP range to advertise. The value must be a CIDR-formatted string.

    RouterPeerMd5AuthenticationKey, RouterPeerMd5AuthenticationKeyArgs

    Key string
    Value of the key.
    Name string
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    Key string
    Value of the key.
    Name string
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    key String
    Value of the key.
    name String
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    key string
    Value of the key.
    name string
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    key str
    Value of the key.
    name str
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
    key String
    Value of the key.
    name String
    Name of this BGP peer. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression a-z? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.

    Import

    RouterBgpPeer can be imported using any of these accepted formats:

    • projects/{{project}}/regions/{{region}}/routers/{{router}}/{{name}}

    • {{project}}/{{region}}/{{router}}/{{name}}

    • {{region}}/{{router}}/{{name}}

    • {{router}}/{{name}}

    When using the pulumi import command, RouterBgpPeer can be imported using one of the formats above. For example:

    $ pulumi import gcp:compute/routerPeer:RouterPeer default projects/{{project}}/regions/{{region}}/routers/{{router}}/{{name}}
    
    $ pulumi import gcp:compute/routerPeer:RouterPeer default {{project}}/{{region}}/{{router}}/{{name}}
    
    $ pulumi import gcp:compute/routerPeer:RouterPeer default {{region}}/{{router}}/{{name}}
    
    $ pulumi import gcp:compute/routerPeer:RouterPeer default {{router}}/{{name}}
    

    To learn more about importing existing cloud resources, see Importing resources.

    Package Details

    Repository
    Google Cloud (GCP) Classic pulumi/pulumi-gcp
    License
    Apache-2.0
    Notes
    This Pulumi package is based on the google-beta Terraform Provider.
    gcp logo
    Google Cloud Classic v8.3.1 published on Wednesday, Sep 25, 2024 by Pulumi