@Generated(value="OracleSDKGenerator", comments="API Version: 20160918") public interface VirtualNetworkAsync extends AutoCloseable
Use the Core Services API to manage resources such as virtual cloud networks (VCNs), compute instances, and block storage volumes. For more information, see the console documentation for the Networking, Compute, and Block Volume services. The required permissions are documented in the Details for the Core Services article.
close
void refreshClient()
Rebuilds the client from scratch. Useful to refresh certificates.
void setEndpoint(String endpoint)
Sets the endpoint to call (ex, https://www.example.com).
endpoint
- The endpoint of the serice.String getEndpoint()
Gets the set endpoint for REST call (ex, https://www.example.com)
void setRegion(Region region)
Sets the region to call (ex, Region.US_PHOENIX_1).
Note, this will call setEndpoint
after resolving the
endpoint. If the service is not available in this region, however, an
IllegalArgumentException will be raised.
region
- The region of the service.void setRegion(String regionId)
Sets the region to call (ex, ‘us-phoenix-1’).
Note, this will first try to map the region ID to a known Region and call setRegion
.
If no known Region could be determined, it will create an endpoint based on the default
endpoint format (Region.formatDefaultRegionEndpoint(Service, String)
and then call setEndpoint
.
regionId
- The public region ID.void useRealmSpecificEndpointTemplate(boolean realmSpecificEndpointTemplateEnabled)
Determines whether realm specific endpoint should be used or not. Set realmSpecificEndpointTemplateEnabled to “true” if the user wants to enable use of realm specific endpoint template, otherwise set it to “false”
realmSpecificEndpointTemplateEnabled
- flag to enable the use of realm specific endpoint
templateFuture<AddDrgRouteDistributionStatementsResponse> addDrgRouteDistributionStatements(AddDrgRouteDistributionStatementsRequest request, AsyncHandler<AddDrgRouteDistributionStatementsRequest,AddDrgRouteDistributionStatementsResponse> handler)
Adds one or more route distribution statements to the specified route distribution.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<AddDrgRouteRulesResponse> addDrgRouteRules(AddDrgRouteRulesRequest request, AsyncHandler<AddDrgRouteRulesRequest,AddDrgRouteRulesResponse> handler)
Adds one or more static route rules to the specified DRG route table.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<AddIpv6SubnetCidrResponse> addIpv6SubnetCidr(AddIpv6SubnetCidrRequest request, AsyncHandler<AddIpv6SubnetCidrRequest,AddIpv6SubnetCidrResponse> handler)
Add an IPv6 prefix to a subnet.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<AddIpv6VcnCidrResponse> addIpv6VcnCidr(AddIpv6VcnCidrRequest request, AsyncHandler<AddIpv6VcnCidrRequest,AddIpv6VcnCidrResponse> handler)
Add an IPv6 prefix to a VCN. The VCN size is always /56 and assigned by Oracle. Once added the IPv6 prefix cannot be removed or modified.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<AddNetworkSecurityGroupSecurityRulesResponse> addNetworkSecurityGroupSecurityRules(AddNetworkSecurityGroupSecurityRulesRequest request, AsyncHandler<AddNetworkSecurityGroupSecurityRulesRequest,AddNetworkSecurityGroupSecurityRulesResponse> handler)
Adds up to 25 security rules to the specified network security group. Adding more than 25 rules requires multiple operations.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<AddPublicIpPoolCapacityResponse> addPublicIpPoolCapacity(AddPublicIpPoolCapacityRequest request, AsyncHandler<AddPublicIpPoolCapacityRequest,AddPublicIpPoolCapacityResponse> handler)
Adds some or all of a CIDR block to a public IP pool.
The CIDR block (or subrange) must not overlap with any other CIDR block already added to this or any other public IP pool.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<AddVcnCidrResponse> addVcnCidr(AddVcnCidrRequest request, AsyncHandler<AddVcnCidrRequest,AddVcnCidrResponse> handler)
Adds a CIDR block to a VCN. The CIDR block you add:
- Must be valid. - Must not overlap with another CIDR block in the VCN, a CIDR block of a peered VCN, or the on-premises network CIDR block. - Must not exceed the limit of CIDR blocks allowed per VCN.
*Note:** Adding a CIDR block places your VCN in an updating state until the changes are complete. You cannot create or update the VCN's subnets, VLANs, LPGs, or route tables during this operation. The time to completion can take a few minutes. You can use the `GetWorkRequest` operation to check the status of the update.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<AdvertiseByoipRangeResponse> advertiseByoipRange(AdvertiseByoipRangeRequest request, AsyncHandler<AdvertiseByoipRangeRequest,AdvertiseByoipRangeResponse> handler)
Begins BGP route advertisements for the BYOIP CIDR block you imported to the Oracle Cloud.
The ByoipRange
resource must be in the PROVISIONED state before the BYOIP CIDR block routes
can be advertised with BGP.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<AttachServiceIdResponse> attachServiceId(AttachServiceIdRequest request, AsyncHandler<AttachServiceIdRequest,AttachServiceIdResponse> handler)
Adds the specified Service
to the list of enabled Service
objects for the specified
gateway. You must also set up a route rule with the cidrBlock
of the Service
as the
rule’s destination and the service gateway as the rule’s target. See RouteTable
.
*Note:** The `AttachServiceId` operation is an easy way to add an individual `Service` to
the service gateway. Compare it with updateServiceGateway
,
which replaces the entire existing list of enabled `Service` objects with the list that you
provide in the `Update` call.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<BulkAddVirtualCircuitPublicPrefixesResponse> bulkAddVirtualCircuitPublicPrefixes(BulkAddVirtualCircuitPublicPrefixesRequest request, AsyncHandler<BulkAddVirtualCircuitPublicPrefixesRequest,BulkAddVirtualCircuitPublicPrefixesResponse> handler)
Adds one or more customer public IP prefixes to the specified public virtual circuit. Use
this operation (and not updateVirtualCircuit
) to add prefixes to the virtual circuit. Oracle must verify
the customer’s ownership of each prefix before traffic for that prefix will flow across the
virtual circuit.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<BulkDeleteVirtualCircuitPublicPrefixesResponse> bulkDeleteVirtualCircuitPublicPrefixes(BulkDeleteVirtualCircuitPublicPrefixesRequest request, AsyncHandler<BulkDeleteVirtualCircuitPublicPrefixesRequest,BulkDeleteVirtualCircuitPublicPrefixesResponse> handler)
Removes one or more customer public IP prefixes from the specified public virtual circuit.
Use this operation (and not updateVirtualCircuit
) to remove prefixes from the virtual circuit. When
the virtual circuit’s state switches back to PROVISIONED, Oracle stops advertising the
specified prefixes across the connection.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeByoipRangeCompartmentResponse> changeByoipRangeCompartment(ChangeByoipRangeCompartmentRequest request, AsyncHandler<ChangeByoipRangeCompartmentRequest,ChangeByoipRangeCompartmentResponse> handler)
Moves a BYOIP CIDR block to a different compartment. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeCaptureFilterCompartmentResponse> changeCaptureFilterCompartment(ChangeCaptureFilterCompartmentRequest request, AsyncHandler<ChangeCaptureFilterCompartmentRequest,ChangeCaptureFilterCompartmentResponse> handler)
Moves a capture filter to a new compartment in the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeCpeCompartmentResponse> changeCpeCompartment(ChangeCpeCompartmentRequest request, AsyncHandler<ChangeCpeCompartmentRequest,ChangeCpeCompartmentResponse> handler)
Moves a CPE object into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeCrossConnectCompartmentResponse> changeCrossConnectCompartment(ChangeCrossConnectCompartmentRequest request, AsyncHandler<ChangeCrossConnectCompartmentRequest,ChangeCrossConnectCompartmentResponse> handler)
Moves a cross-connect into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeCrossConnectGroupCompartmentResponse> changeCrossConnectGroupCompartment(ChangeCrossConnectGroupCompartmentRequest request, AsyncHandler<ChangeCrossConnectGroupCompartmentRequest,ChangeCrossConnectGroupCompartmentResponse> handler)
Moves a cross-connect group into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeDhcpOptionsCompartmentResponse> changeDhcpOptionsCompartment(ChangeDhcpOptionsCompartmentRequest request, AsyncHandler<ChangeDhcpOptionsCompartmentRequest,ChangeDhcpOptionsCompartmentResponse> handler)
Moves a set of DHCP options into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeDrgCompartmentResponse> changeDrgCompartment(ChangeDrgCompartmentRequest request, AsyncHandler<ChangeDrgCompartmentRequest,ChangeDrgCompartmentResponse> handler)
Moves a DRG into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeIPSecConnectionCompartmentResponse> changeIPSecConnectionCompartment(ChangeIPSecConnectionCompartmentRequest request, AsyncHandler<ChangeIPSecConnectionCompartmentRequest,ChangeIPSecConnectionCompartmentResponse> handler)
Moves an IPSec connection into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeInternetGatewayCompartmentResponse> changeInternetGatewayCompartment(ChangeInternetGatewayCompartmentRequest request, AsyncHandler<ChangeInternetGatewayCompartmentRequest,ChangeInternetGatewayCompartmentResponse> handler)
Moves an internet gateway into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeLocalPeeringGatewayCompartmentResponse> changeLocalPeeringGatewayCompartment(ChangeLocalPeeringGatewayCompartmentRequest request, AsyncHandler<ChangeLocalPeeringGatewayCompartmentRequest,ChangeLocalPeeringGatewayCompartmentResponse> handler)
Moves a local peering gateway into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeNatGatewayCompartmentResponse> changeNatGatewayCompartment(ChangeNatGatewayCompartmentRequest request, AsyncHandler<ChangeNatGatewayCompartmentRequest,ChangeNatGatewayCompartmentResponse> handler)
Moves a NAT gateway into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeNetworkSecurityGroupCompartmentResponse> changeNetworkSecurityGroupCompartment(ChangeNetworkSecurityGroupCompartmentRequest request, AsyncHandler<ChangeNetworkSecurityGroupCompartmentRequest,ChangeNetworkSecurityGroupCompartmentResponse> handler)
Moves a network security group into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangePublicIpCompartmentResponse> changePublicIpCompartment(ChangePublicIpCompartmentRequest request, AsyncHandler<ChangePublicIpCompartmentRequest,ChangePublicIpCompartmentResponse> handler)
Moves a public IP into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
This operation applies only to reserved public IPs. Ephemeral public IPs always belong to the same compartment as their VNIC and move accordingly.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangePublicIpPoolCompartmentResponse> changePublicIpPoolCompartment(ChangePublicIpPoolCompartmentRequest request, AsyncHandler<ChangePublicIpPoolCompartmentRequest,ChangePublicIpPoolCompartmentResponse> handler)
Moves a public IP pool to a different compartment. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeRemotePeeringConnectionCompartmentResponse> changeRemotePeeringConnectionCompartment(ChangeRemotePeeringConnectionCompartmentRequest request, AsyncHandler<ChangeRemotePeeringConnectionCompartmentRequest,ChangeRemotePeeringConnectionCompartmentResponse> handler)
Moves a remote peering connection (RPC) into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeRouteTableCompartmentResponse> changeRouteTableCompartment(ChangeRouteTableCompartmentRequest request, AsyncHandler<ChangeRouteTableCompartmentRequest,ChangeRouteTableCompartmentResponse> handler)
Moves a route table into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeSecurityListCompartmentResponse> changeSecurityListCompartment(ChangeSecurityListCompartmentRequest request, AsyncHandler<ChangeSecurityListCompartmentRequest,ChangeSecurityListCompartmentResponse> handler)
Moves a security list into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeServiceGatewayCompartmentResponse> changeServiceGatewayCompartment(ChangeServiceGatewayCompartmentRequest request, AsyncHandler<ChangeServiceGatewayCompartmentRequest,ChangeServiceGatewayCompartmentResponse> handler)
Moves a service gateway into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeSubnetCompartmentResponse> changeSubnetCompartment(ChangeSubnetCompartmentRequest request, AsyncHandler<ChangeSubnetCompartmentRequest,ChangeSubnetCompartmentResponse> handler)
Moves a subnet into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeVcnCompartmentResponse> changeVcnCompartment(ChangeVcnCompartmentRequest request, AsyncHandler<ChangeVcnCompartmentRequest,ChangeVcnCompartmentResponse> handler)
Moves a VCN into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeVirtualCircuitCompartmentResponse> changeVirtualCircuitCompartment(ChangeVirtualCircuitCompartmentRequest request, AsyncHandler<ChangeVirtualCircuitCompartmentRequest,ChangeVirtualCircuitCompartmentResponse> handler)
Moves a virtual circuit into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeVlanCompartmentResponse> changeVlanCompartment(ChangeVlanCompartmentRequest request, AsyncHandler<ChangeVlanCompartmentRequest,ChangeVlanCompartmentResponse> handler)
Moves a VLAN into a different compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ChangeVtapCompartmentResponse> changeVtapCompartment(ChangeVtapCompartmentRequest request, AsyncHandler<ChangeVtapCompartmentRequest,ChangeVtapCompartmentResponse> handler)
Moves a VTAP to a new compartment within the same tenancy. For information about moving resources between compartments, see Moving Resources to a Different Compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ConnectLocalPeeringGatewaysResponse> connectLocalPeeringGateways(ConnectLocalPeeringGatewaysRequest request, AsyncHandler<ConnectLocalPeeringGatewaysRequest,ConnectLocalPeeringGatewaysResponse> handler)
Connects this local peering gateway (LPG) to another one in the same region.
This operation must be called by the VCN administrator who is designated as the *requestor* in the peering relationship. The *acceptor* must implement an Identity and Access Management (IAM) policy that gives the requestor permission to connect to LPGs in the acceptor's compartment. Without that permission, this operation will fail. For more information, see [VCN Peering](https://docs.cloud.oracle.com/iaas/Content/Network/Tasks/VCNpeering.htm).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ConnectRemotePeeringConnectionsResponse> connectRemotePeeringConnections(ConnectRemotePeeringConnectionsRequest request, AsyncHandler<ConnectRemotePeeringConnectionsRequest,ConnectRemotePeeringConnectionsResponse> handler)
Connects this RPC to another one in a different region.
This operation must be called by the VCN administrator who is designated as the *requestor* in the peering relationship. The *acceptor* must implement an Identity and Access Management (IAM) policy that gives the requestor permission to connect to RPCs in the acceptor's compartment. Without that permission, this operation will fail. For more information, see [VCN Peering](https://docs.cloud.oracle.com/iaas/Content/Network/Tasks/VCNpeering.htm).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateByoipRangeResponse> createByoipRange(CreateByoipRangeRequest request, AsyncHandler<CreateByoipRangeRequest,CreateByoipRangeResponse> handler)
Creates a subrange of the BYOIP CIDR block.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateCaptureFilterResponse> createCaptureFilter(CreateCaptureFilterRequest request, AsyncHandler<CreateCaptureFilterRequest,CreateCaptureFilterResponse> handler)
Creates a virtual test access point (VTAP) capture filter in the specified compartment.
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment that contains the VTAP. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm). For information about OCIDs, see [Resource Identifiers](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
You may optionally specify a *display name* for the VTAP, otherwise a default is provided. It does not have to be unique, and you can change it.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateCpeResponse> createCpe(CreateCpeRequest request, AsyncHandler<CreateCpeRequest,CreateCpeResponse> handler)
Creates a new virtual customer-premises equipment (CPE) object in the specified compartment. For more information, see Site-to-Site VPN Overview.
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment where you want the CPE to reside. Notice that the CPE doesn't have to be in the same compartment as the IPSec connection or other Networking Service components. If you're not sure which compartment to use, put the CPE in the same compartment as the DRG. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm). For information about OCIDs, see [Resource Identifiers](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
You must provide the public IP address of your on-premises router. See [CPE Configuration](https://docs.cloud.oracle.com/iaas/Content/Network/Tasks/configuringCPE.htm).
You may optionally specify a *display name* for the CPE, otherwise a default is provided. It does not have to be unique, and you can change it. Avoid entering confidential information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateCrossConnectResponse> createCrossConnect(CreateCrossConnectRequest request, AsyncHandler<CreateCrossConnectRequest,CreateCrossConnectResponse> handler)
Creates a new cross-connect. Oracle recommends you create each cross-connect in a CrossConnectGroup
so you can use link aggregation with the connection.
After creating the `CrossConnect` object, you need to go the FastConnect location and request to have the physical cable installed. For more information, see [FastConnect Overview](https://docs.cloud.oracle.com/iaas/Content/Network/Concepts/fastconnect.htm).
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment where you want the cross-connect to reside. If you're not sure which compartment to use, put the cross-connect in the same compartment with your VCN. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm). For information about OCIDs, see [Resource Identifiers](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
You may optionally specify a *display name* for the cross-connect. It does not have to be unique, and you can change it. Avoid entering confidential information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateCrossConnectGroupResponse> createCrossConnectGroup(CreateCrossConnectGroupRequest request, AsyncHandler<CreateCrossConnectGroupRequest,CreateCrossConnectGroupResponse> handler)
Creates a new cross-connect group to use with Oracle Cloud Infrastructure FastConnect. For more information, see FastConnect Overview.
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment where you want the cross-connect group to reside. If you're not sure which compartment to use, put the cross-connect group in the same compartment with your VCN. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm). For information about OCIDs, see [Resource Identifiers](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
You may optionally specify a *display name* for the cross-connect group. It does not have to be unique, and you can change it. Avoid entering confidential information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateDhcpOptionsResponse> createDhcpOptions(CreateDhcpOptionsRequest request, AsyncHandler<CreateDhcpOptionsRequest,CreateDhcpOptionsResponse> handler)
Creates a new set of DHCP options for the specified VCN. For more information, see DhcpOptions
.
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment where you want the set of DHCP options to reside. Notice that the set of options doesn't have to be in the same compartment as the VCN, subnets, or other Networking Service components. If you're not sure which compartment to use, put the set of DHCP options in the same compartment as the VCN. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm). For information about OCIDs, see [Resource Identifiers](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
You may optionally specify a *display name* for the set of DHCP options, otherwise a default is provided. It does not have to be unique, and you can change it. Avoid entering confidential information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateDrgResponse> createDrg(CreateDrgRequest request, AsyncHandler<CreateDrgRequest,CreateDrgResponse> handler)
Creates a new dynamic routing gateway (DRG) in the specified compartment. For more information, see Dynamic Routing Gateways (DRGs).
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment where you want the DRG to reside. Notice that the DRG doesn't have to be in the same compartment as the VCN, the DRG attachment, or other Networking Service components. If you're not sure which compartment to use, put the DRG in the same compartment as the VCN. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm). For information about OCIDs, see [Resource Identifiers](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
You may optionally specify a *display name* for the DRG, otherwise a default is provided. It does not have to be unique, and you can change it. Avoid entering confidential information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateDrgAttachmentResponse> createDrgAttachment(CreateDrgAttachmentRequest request, AsyncHandler<CreateDrgAttachmentRequest,CreateDrgAttachmentResponse> handler)
Attaches the specified DRG to the specified network resource. A VCN can be attached to only
one DRG at a time, but a DRG can be attached to more than one VCN. The response includes a
DrgAttachment
object with its own
OCID. For more
information about DRGs, see Dynamic Routing Gateways
(DRGs).
You may optionally specify a *display name* for the attachment, otherwise a default is provided. It does not have to be unique, and you can change it. Avoid entering confidential information.
For the purposes of access control, the DRG attachment is automatically placed into the currently selected compartment. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateDrgRouteDistributionResponse> createDrgRouteDistribution(CreateDrgRouteDistributionRequest request, AsyncHandler<CreateDrgRouteDistributionRequest,CreateDrgRouteDistributionResponse> handler)
Creates a new route distribution for the specified DRG. Assign the route distribution as an
import distribution to a DRG route table using the UpdateDrgRouteTable
or
CreateDrgRouteTable
operations. Assign the route distribution as an export distribution to
a DRG attachment using the UpdateDrgAttachment
or CreateDrgAttachment
operations.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateDrgRouteTableResponse> createDrgRouteTable(CreateDrgRouteTableRequest request, AsyncHandler<CreateDrgRouteTableRequest,CreateDrgRouteTableResponse> handler)
Creates a new DRG route table for the specified DRG. Assign the DRG route table to a DRG
attachment using the UpdateDrgAttachment
or CreateDrgAttachment
operations.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateIPSecConnectionResponse> createIPSecConnection(CreateIPSecConnectionRequest request, AsyncHandler<CreateIPSecConnectionRequest,CreateIPSecConnectionResponse> handler)
Creates a new IPSec connection between the specified DRG and CPE. For more information, see Site-to-Site VPN Overview.
If you configure at least one tunnel to use static routing, then in the request you must
provide at least one valid static route (you're allowed a maximum of 10). For example:
10.0.0.0/16. If you configure both tunnels to use BGP dynamic routing, you can provide an
empty list for the static routes. For more information, see the important note in IPSecConnection
.
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment where you want the IPSec connection to reside. Notice that the IPSec connection doesn't have to be in the same compartment as the DRG, CPE, or other Networking Service components. If you're not sure which compartment to use, put the IPSec connection in the same compartment as the DRG. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm).
You may optionally specify a *display name* for the IPSec connection, otherwise a default is provided. It does not have to be unique, and you can change it. Avoid entering confidential information.
After creating the IPSec connection, you need to configure your on-premises router with tunnel-specific information. For tunnel status and the required configuration information, see:
IPSecConnectionTunnel
* IPSecConnectionTunnelSharedSecret
For each tunnel, you need the IP address of Oracle's VPN headend and the shared secret (that is, the pre-shared key). For more information, see [CPE Configuration](https://docs.cloud.oracle.com/iaas/Content/Network/Tasks/configuringCPE.htm).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateInternetGatewayResponse> createInternetGateway(CreateInternetGatewayRequest request, AsyncHandler<CreateInternetGatewayRequest,CreateInternetGatewayResponse> handler)
Creates a new internet gateway for the specified VCN. For more information, see Access to the Internet.
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment where you want the Internet Gateway to reside. Notice that the internet gateway doesn't have to be in the same compartment as the VCN or other Networking Service components. If you're not sure which compartment to use, put the Internet Gateway in the same compartment with the VCN. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm).
You may optionally specify a *display name* for the internet gateway, otherwise a default is provided. It does not have to be unique, and you can change it. Avoid entering confidential information.
For traffic to flow between a subnet and an internet gateway, you must create a route rule
accordingly in the subnet's route table (for example, 0.0.0.0/0 > internet gateway). See
updateRouteTable
.
You must specify whether the internet gateway is enabled when you create it. If it's
disabled, that means no traffic will flow to/from the internet even if there's a route rule
that enables that traffic. You can later use updateInternetGateway
to easily disable/enable the gateway without changing the route rule.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateIpv6Response> createIpv6(CreateIpv6Request request, AsyncHandler<CreateIpv6Request,CreateIpv6Response> handler)
Creates an IPv6 for the specified VNIC.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateLocalPeeringGatewayResponse> createLocalPeeringGateway(CreateLocalPeeringGatewayRequest request, AsyncHandler<CreateLocalPeeringGatewayRequest,CreateLocalPeeringGatewayResponse> handler)
Creates a new local peering gateway (LPG) for the specified VCN.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateNatGatewayResponse> createNatGateway(CreateNatGatewayRequest request, AsyncHandler<CreateNatGatewayRequest,CreateNatGatewayResponse> handler)
Creates a new NAT gateway for the specified VCN. You must also set up a route rule with the
NAT gateway as the rule’s target. See RouteTable
.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateNetworkSecurityGroupResponse> createNetworkSecurityGroup(CreateNetworkSecurityGroupRequest request, AsyncHandler<CreateNetworkSecurityGroupRequest,CreateNetworkSecurityGroupResponse> handler)
Creates a new network security group for the specified VCN.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreatePrivateIpResponse> createPrivateIp(CreatePrivateIpRequest request, AsyncHandler<CreatePrivateIpRequest,CreatePrivateIpResponse> handler)
Creates a secondary private IP for the specified VNIC. For more information about secondary private IPs, see IP Addresses.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreatePublicIpResponse> createPublicIp(CreatePublicIpRequest request, AsyncHandler<CreatePublicIpRequest,CreatePublicIpResponse> handler)
Creates a public IP. Use the lifetime
property to specify whether it’s an ephemeral or
reserved public IP. For information about limits on how many you can create, see Public IP
Addresses.
**For an ephemeral public IP assigned to a private IP:** You must also specify a
`privateIpId` with the
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the
primary private IP you want to assign the public IP to. The public IP is created in the same
availability domain as the private IP. An ephemeral public IP must always be assigned to a
private IP, and only to the *primary* private IP on a VNIC, not a secondary private IP.
Exception: If you create a NatGateway
, Oracle automatically assigns the NAT gateway a
regional ephemeral public IP that you cannot remove.
**For a reserved public IP:** You may also optionally assign the public IP to a private IP
by specifying `privateIpId`. Or you can later assign the public IP with updatePublicIp
.
*Note:** When assigning a public IP to a private IP, the private IP must not already have a public IP with `lifecycleState` = ASSIGNING or ASSIGNED. If it does, an error is returned.
Also, for reserved public IPs, the optional assignment part of this operation is asynchronous. Poll the public IP's `lifecycleState` to determine if the assignment succeeded.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreatePublicIpPoolResponse> createPublicIpPool(CreatePublicIpPoolRequest request, AsyncHandler<CreatePublicIpPoolRequest,CreatePublicIpPoolResponse> handler)
Creates a public IP pool.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateRemotePeeringConnectionResponse> createRemotePeeringConnection(CreateRemotePeeringConnectionRequest request, AsyncHandler<CreateRemotePeeringConnectionRequest,CreateRemotePeeringConnectionResponse> handler)
Creates a new remote peering connection (RPC) for the specified DRG.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateRouteTableResponse> createRouteTable(CreateRouteTableRequest request, AsyncHandler<CreateRouteTableRequest,CreateRouteTableResponse> handler)
Creates a new route table for the specified VCN. In the request you must also include at least one route rule for the new route table. For information on the number of rules you can have in a route table, see Service Limits. For general information about route tables in your VCN and the types of targets you can use in route rules, see Route Tables.
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment where you want the route table to reside. Notice that the route table doesn't have to be in the same compartment as the VCN, subnets, or other Networking Service components. If you're not sure which compartment to use, put the route table in the same compartment as the VCN. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm). For information about OCIDs, see [Resource Identifiers](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
You may optionally specify a *display name* for the route table, otherwise a default is provided. It does not have to be unique, and you can change it. Avoid entering confidential information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateSecurityListResponse> createSecurityList(CreateSecurityListRequest request, AsyncHandler<CreateSecurityListRequest,CreateSecurityListResponse> handler)
Creates a new security list for the specified VCN. For more information about security lists, see Security Lists. For information on the number of rules you can have in a security list, see Service Limits.
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment where you want the security list to reside. Notice that the security list doesn't have to be in the same compartment as the VCN, subnets, or other Networking Service components. If you're not sure which compartment to use, put the security list in the same compartment as the VCN. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm). For information about OCIDs, see [Resource Identifiers](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
You may optionally specify a *display name* for the security list, otherwise a default is provided. It does not have to be unique, and you can change it. Avoid entering confidential information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateServiceGatewayResponse> createServiceGateway(CreateServiceGatewayRequest request, AsyncHandler<CreateServiceGatewayRequest,CreateServiceGatewayResponse> handler)
Creates a new service gateway in the specified compartment.
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment where you want the service gateway to reside. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm). For information about OCIDs, see [Resource Identifiers](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
You may optionally specify a *display name* for the service gateway, otherwise a default is provided. It does not have to be unique, and you can change it. Avoid entering confidential information.
Use the listServices
operation to find service CIDR labels available in the region.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateSubnetResponse> createSubnet(CreateSubnetRequest request, AsyncHandler<CreateSubnetRequest,CreateSubnetResponse> handler)
Creates a new subnet in the specified VCN. You can’t change the size of the subnet after creation, so it’s important to think about the size of subnets you need before creating them. For more information, see VCNs and Subnets. For information on the number of subnets you can have in a VCN, see Service Limits.
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment where you want the subnet to reside. Notice that the subnet doesn't have to be in the same compartment as the VCN, route tables, or other Networking Service components. If you're not sure which compartment to use, put the subnet in the same compartment as the VCN. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm). For information about OCIDs, see [Resource Identifiers](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
You may optionally associate a route table with the subnet. If you don't, the subnet will use the VCN's default route table. For more information about route tables, see [Route Tables](https://docs.cloud.oracle.com/iaas/Content/Network/Tasks/managingroutetables.htm).
You may optionally associate a security list with the subnet. If you don't, the subnet will use the VCN's default security list. For more information about security lists, see [Security Lists](https://docs.cloud.oracle.com/iaas/Content/Network/Concepts/securitylists.htm).
You may optionally associate a set of DHCP options with the subnet. If you don't, the subnet will use the VCN's default set. For more information about DHCP options, see [DHCP Options](https://docs.cloud.oracle.com/iaas/Content/Network/Tasks/managingDHCP.htm).
You may optionally specify a *display name* for the subnet, otherwise a default is provided. It does not have to be unique, and you can change it. Avoid entering confidential information.
You can also add a DNS label for the subnet, which is required if you want the Internet and VCN Resolver to resolve hostnames for instances in the subnet. For more information, see [DNS in Your Virtual Cloud Network](https://docs.cloud.oracle.com/iaas/Content/Network/Concepts/dns.htm).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateVcnResponse> createVcn(CreateVcnRequest request, AsyncHandler<CreateVcnRequest,CreateVcnResponse> handler)
Creates a new virtual cloud network (VCN). For more information, see VCNs and Subnets.
For the VCN, you specify a list of one or more IPv4 CIDR blocks that meet the following criteria:
- The CIDR blocks must be valid. - They must not overlap with each other or with the on-premises network CIDR block. - The number of CIDR blocks does not exceed the limit of CIDR blocks allowed per VCN.
For a CIDR block, Oracle recommends that you use one of the private IP address ranges specified in [RFC 1918](https://tools.ietf.org/html/rfc1918) (10.0.0.0/8, 172.16/12, and 192.168/16). Example: 172.16.0.0/16. The CIDR blocks can range from /16 to /30.
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment where you want the VCN to reside. Consult an Oracle Cloud Infrastructure administrator in your organization if you're not sure which compartment to use. Notice that the VCN doesn't have to be in the same compartment as the subnets or other Networking Service components. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm). For information about OCIDs, see [Resource Identifiers](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
You may optionally specify a *display name* for the VCN, otherwise a default is provided. It does not have to be unique, and you can change it. Avoid entering confidential information.
You can also add a DNS label for the VCN, which is required if you want the instances to use the Interent and VCN Resolver option for DNS in the VCN. For more information, see [DNS in Your Virtual Cloud Network](https://docs.cloud.oracle.com/iaas/Content/Network/Concepts/dns.htm).
The VCN automatically comes with a default route table, default security list, and default set of DHCP options. The [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) for each is returned in the response. You can't delete these default objects, but you can change their contents (that is, change the route rules, security list rules, and so on).
The VCN and subnets you create are not accessible until you attach an internet gateway or set up a Site-to-Site VPN or FastConnect. For more information, see [Overview of the Networking Service](https://docs.cloud.oracle.com/iaas/Content/Network/Concepts/overview.htm).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateVirtualCircuitResponse> createVirtualCircuit(CreateVirtualCircuitRequest request, AsyncHandler<CreateVirtualCircuitRequest,CreateVirtualCircuitResponse> handler)
Creates a new virtual circuit to use with Oracle Cloud Infrastructure FastConnect. For more information, see FastConnect Overview.
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment where you want the virtual circuit to reside. If you're not sure which compartment to use, put the virtual circuit in the same compartment with the DRG it's using. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm). For information about OCIDs, see [Resource Identifiers](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
You may optionally specify a *display name* for the virtual circuit. It does not have to be unique, and you can change it. Avoid entering confidential information.
*Important:** When creating a virtual circuit, you specify a DRG for the traffic to flow through. Make sure you attach the DRG to your VCN and confirm the VCN's routing sends traffic to the DRG. Otherwise traffic will not flow. For more information, see [Route Tables](https://docs.cloud.oracle.com/iaas/Content/Network/Tasks/managingroutetables.htm).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateVlanResponse> createVlan(CreateVlanRequest request, AsyncHandler<CreateVlanRequest,CreateVlanResponse> handler)
Creates a VLAN in the specified VCN and the specified compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<CreateVtapResponse> createVtap(CreateVtapRequest request, AsyncHandler<CreateVtapRequest,CreateVtapResponse> handler)
Creates a virtual test access point (VTAP) in the specified compartment.
For the purposes of access control, you must provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the compartment that contains the VTAP. For more information about compartments and access control, see [Overview of the IAM Service](https://docs.cloud.oracle.com/iaas/Content/Identity/Concepts/overview.htm). For information about OCIDs, see [Resource Identifiers](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
You may optionally specify a *display name* for the VTAP, otherwise a default is provided. It does not have to be unique, and you can change it.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteByoipRangeResponse> deleteByoipRange(DeleteByoipRangeRequest request, AsyncHandler<DeleteByoipRangeRequest,DeleteByoipRangeResponse> handler)
Deletes the specified ByoipRange
resource. The resource must be in one of the following
states: CREATING, PROVISIONED, ACTIVE, or FAILED. It must not have any subranges currently
allocated to a PublicIpPool object or the deletion will fail. You must specify the
OCID. If the
ByoipRange
resource is currently in the PROVISIONED or ACTIVE state, it will be
de-provisioned and then deleted.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteCaptureFilterResponse> deleteCaptureFilter(DeleteCaptureFilterRequest request, AsyncHandler<DeleteCaptureFilterRequest,DeleteCaptureFilterResponse> handler)
Deletes the specified VTAP capture filter. This is an asynchronous operation. The VTAP
capture filter’s lifecycleState
will change to TERMINATING temporarily until the VTAP
capture filter is completely removed.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteCpeResponse> deleteCpe(DeleteCpeRequest request, AsyncHandler<DeleteCpeRequest,DeleteCpeResponse> handler)
Deletes the specified CPE object. The CPE must not be connected to a DRG. This is an
asynchronous operation. The CPE’s lifecycleState
will change to TERMINATING temporarily
until the CPE is completely removed.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteCrossConnectResponse> deleteCrossConnect(DeleteCrossConnectRequest request, AsyncHandler<DeleteCrossConnectRequest,DeleteCrossConnectResponse> handler)
Deletes the specified cross-connect. It must not be mapped to a VirtualCircuit
.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteCrossConnectGroupResponse> deleteCrossConnectGroup(DeleteCrossConnectGroupRequest request, AsyncHandler<DeleteCrossConnectGroupRequest,DeleteCrossConnectGroupResponse> handler)
Deletes the specified cross-connect group. It must not contain any cross-connects, and it
cannot be mapped to a VirtualCircuit
.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteDhcpOptionsResponse> deleteDhcpOptions(DeleteDhcpOptionsRequest request, AsyncHandler<DeleteDhcpOptionsRequest,DeleteDhcpOptionsResponse> handler)
Deletes the specified set of DHCP options, but only if it’s not associated with a subnet. You can’t delete a VCN’s default set of DHCP options.
This is an asynchronous operation. The state of the set of options will switch to TERMINATING temporarily until the set is completely removed.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteDrgResponse> deleteDrg(DeleteDrgRequest request, AsyncHandler<DeleteDrgRequest,DeleteDrgResponse> handler)
Deletes the specified DRG. The DRG must not be attached to a VCN or be connected to your
on-premise network. Also, there must not be a route table that lists the DRG as a target.
This is an asynchronous operation. The DRG’s lifecycleState
will change to TERMINATING
temporarily until the DRG is completely removed.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteDrgAttachmentResponse> deleteDrgAttachment(DeleteDrgAttachmentRequest request, AsyncHandler<DeleteDrgAttachmentRequest,DeleteDrgAttachmentResponse> handler)
Detaches a DRG from a network resource by deleting the corresponding DrgAttachment
resource. This is an asynchronous operation. The attachment’s lifecycleState
will
temporarily change to DETACHING until the attachment is completely removed.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteDrgRouteDistributionResponse> deleteDrgRouteDistribution(DeleteDrgRouteDistributionRequest request, AsyncHandler<DeleteDrgRouteDistributionRequest,DeleteDrgRouteDistributionResponse> handler)
Deletes the specified route distribution. You can’t delete a route distribution currently in use by a DRG attachment or DRG route table.
Remove the DRG route distribution from a DRG attachment or DRG route table by using the \"RemoveExportDrgRouteDistribution\" or \"RemoveImportDrgRouteDistribution' operations.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteDrgRouteTableResponse> deleteDrgRouteTable(DeleteDrgRouteTableRequest request, AsyncHandler<DeleteDrgRouteTableRequest,DeleteDrgRouteTableResponse> handler)
Deletes the specified DRG route table. There must not be any DRG attachments assigned.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteIPSecConnectionResponse> deleteIPSecConnection(DeleteIPSecConnectionRequest request, AsyncHandler<DeleteIPSecConnectionRequest,DeleteIPSecConnectionResponse> handler)
Deletes the specified IPSec connection. If your goal is to disable the Site-to-Site VPN
between your VCN and on-premises network, it’s easiest to simply detach the DRG but keep all
the Site-to-Site VPN components intact. If you were to delete all the components and then
later need to create an Site-to-Site VPN again, you would need to configure your on-premises
router again with the new information returned from createIPSecConnection
.
This is an asynchronous operation. The connection's `lifecycleState` will change to TERMINATING temporarily until the connection is completely removed.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteInternetGatewayResponse> deleteInternetGateway(DeleteInternetGatewayRequest request, AsyncHandler<DeleteInternetGatewayRequest,DeleteInternetGatewayResponse> handler)
Deletes the specified internet gateway. The internet gateway does not have to be disabled, but there must not be a route table that lists it as a target.
This is an asynchronous operation. The gateway's `lifecycleState` will change to TERMINATING temporarily until the gateway is completely removed.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteIpv6Response> deleteIpv6(DeleteIpv6Request request, AsyncHandler<DeleteIpv6Request,DeleteIpv6Response> handler)
Unassigns and deletes the specified IPv6. You must specify the object’s OCID. The IPv6 address is returned to the subnet’s pool of available addresses.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteLocalPeeringGatewayResponse> deleteLocalPeeringGateway(DeleteLocalPeeringGatewayRequest request, AsyncHandler<DeleteLocalPeeringGatewayRequest,DeleteLocalPeeringGatewayResponse> handler)
Deletes the specified local peering gateway (LPG).
This is an asynchronous operation; the local peering gateway's `lifecycleState` changes to TERMINATING temporarily until the local peering gateway is completely removed.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteNatGatewayResponse> deleteNatGateway(DeleteNatGatewayRequest request, AsyncHandler<DeleteNatGatewayRequest,DeleteNatGatewayResponse> handler)
Deletes the specified NAT gateway. The NAT gateway does not have to be disabled, but there must not be a route rule that lists the NAT gateway as a target.
This is an asynchronous operation. The NAT gateway's `lifecycleState` will change to TERMINATING temporarily until the NAT gateway is completely removed.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteNetworkSecurityGroupResponse> deleteNetworkSecurityGroup(DeleteNetworkSecurityGroupRequest request, AsyncHandler<DeleteNetworkSecurityGroupRequest,DeleteNetworkSecurityGroupResponse> handler)
Deletes the specified network security group. The group must not contain any VNICs.
To get a list of the VNICs in a network security group, use listNetworkSecurityGroupVnics
. Each returned NetworkSecurityGroupVnic
object
contains both the
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the
VNIC and the
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the
VNIC's parent resource (for example, the Compute instance that the VNIC is attached to).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeletePrivateIpResponse> deletePrivateIp(DeletePrivateIpRequest request, AsyncHandler<DeletePrivateIpRequest,DeletePrivateIpResponse> handler)
Unassigns and deletes the specified private IP. You must specify the object’s OCID. The private IP address is returned to the subnet’s pool of available addresses.
This operation cannot be used with primary private IPs, which are automatically unassigned and deleted when the VNIC is terminated.
*Important:** If a secondary private IP is the [target of a route rule](https://docs.cloud.oracle.com/iaas/Content/Network/Tasks/managingroutetables.htm#privateip), unassigning it from the VNIC causes that route rule to blackhole and the traffic will be dropped.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeletePublicIpResponse> deletePublicIp(DeletePublicIpRequest request, AsyncHandler<DeletePublicIpRequest,DeletePublicIpResponse> handler)
Unassigns and deletes the specified public IP (either ephemeral or reserved). You must specify the object’s OCID. The public IP address is returned to the Oracle Cloud Infrastructure public IP pool.
*Note:** You cannot update, unassign, or delete the public IP that Oracle automatically assigned to an entity for you (such as a load balancer or NAT gateway). The public IP is automatically deleted if the assigned entity is terminated.
For an assigned reserved public IP, the initial unassignment portion of this operation is asynchronous. Poll the public IP's `lifecycleState` to determine if the operation succeeded.
If you want to simply unassign a reserved public IP and return it to your pool of reserved
public IPs, instead use updatePublicIp
.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeletePublicIpPoolResponse> deletePublicIpPool(DeletePublicIpPoolRequest request, AsyncHandler<DeletePublicIpPoolRequest,DeletePublicIpPoolResponse> handler)
Deletes the specified public IP pool. To delete a public IP pool it must not have any active IP address allocations. You must specify the object’s OCID when deleting an IP pool.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteRemotePeeringConnectionResponse> deleteRemotePeeringConnection(DeleteRemotePeeringConnectionRequest request, AsyncHandler<DeleteRemotePeeringConnectionRequest,DeleteRemotePeeringConnectionResponse> handler)
Deletes the remote peering connection (RPC).
This is an asynchronous operation; the RPC's `lifecycleState` changes to TERMINATING temporarily until the RPC is completely removed.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteRouteTableResponse> deleteRouteTable(DeleteRouteTableRequest request, AsyncHandler<DeleteRouteTableRequest,DeleteRouteTableResponse> handler)
Deletes the specified route table, but only if it’s not associated with a subnet. You can’t delete a VCN’s default route table.
This is an asynchronous operation. The route table's `lifecycleState` will change to TERMINATING temporarily until the route table is completely removed.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteSecurityListResponse> deleteSecurityList(DeleteSecurityListRequest request, AsyncHandler<DeleteSecurityListRequest,DeleteSecurityListResponse> handler)
Deletes the specified security list, but only if it’s not associated with a subnet. You can’t delete a VCN’s default security list.
This is an asynchronous operation. The security list's `lifecycleState` will change to TERMINATING temporarily until the security list is completely removed.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteServiceGatewayResponse> deleteServiceGateway(DeleteServiceGatewayRequest request, AsyncHandler<DeleteServiceGatewayRequest,DeleteServiceGatewayResponse> handler)
Deletes the specified service gateway. There must not be a route table that lists the service gateway as a target.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteSubnetResponse> deleteSubnet(DeleteSubnetRequest request, AsyncHandler<DeleteSubnetRequest,DeleteSubnetResponse> handler)
Deletes the specified subnet, but only if there are no instances in the subnet. This is an
asynchronous operation. The subnet’s lifecycleState
will change to TERMINATING temporarily.
If there are any instances in the subnet, the state will instead change back to AVAILABLE.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteVcnResponse> deleteVcn(DeleteVcnRequest request, AsyncHandler<DeleteVcnRequest,DeleteVcnResponse> handler)
Deletes the specified VCN. The VCN must be completely empty and have no attached gateways. This is an asynchronous operation.
A deleted VCN's `lifecycleState` changes to TERMINATING and then TERMINATED temporarily until the VCN is completely removed. A completely removed VCN does not appear in the results of a `ListVcns` operation and can't be used in a `GetVcn` operation.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteVirtualCircuitResponse> deleteVirtualCircuit(DeleteVirtualCircuitRequest request, AsyncHandler<DeleteVirtualCircuitRequest,DeleteVirtualCircuitResponse> handler)
Deletes the specified virtual circuit.
*Important:** If you're using FastConnect via a provider, make sure to also terminate the connection with the provider, or else the provider may continue to bill you.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteVlanResponse> deleteVlan(DeleteVlanRequest request, AsyncHandler<DeleteVlanRequest,DeleteVlanResponse> handler)
Deletes the specified VLAN, but only if there are no VNICs in the VLAN.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DeleteVtapResponse> deleteVtap(DeleteVtapRequest request, AsyncHandler<DeleteVtapRequest,DeleteVtapResponse> handler)
Deletes the specified VTAP. This is an asynchronous operation. The VTAP’s lifecycleState
will change to TERMINATING temporarily until the VTAP is completely removed.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<DetachServiceIdResponse> detachServiceId(DetachServiceIdRequest request, AsyncHandler<DetachServiceIdRequest,DetachServiceIdResponse> handler)
Removes the specified Service
from the list of enabled Service
objects for the
specified gateway. You do not need to remove any route rules that specify this Service
object’s cidrBlock
as the destination CIDR. However, consider removing the rules if your
intent is to permanently disable use of the Service
through this service gateway.
*Note:** The `DetachServiceId` operation is an easy way to remove an individual `Service`
from the service gateway. Compare it with updateServiceGateway
,
which replaces the entire existing list of enabled `Service` objects with the list that you
provide in the `Update` call. `UpdateServiceGateway` also lets you block all traffic through
the service gateway without having to remove each of the individual `Service` objects.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetAllDrgAttachmentsResponse> getAllDrgAttachments(GetAllDrgAttachmentsRequest request, AsyncHandler<GetAllDrgAttachmentsRequest,GetAllDrgAttachmentsResponse> handler)
Returns a complete list of DRG attachments that belong to a particular DRG.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetAllowedIkeIPSecParametersResponse> getAllowedIkeIPSecParameters(GetAllowedIkeIPSecParametersRequest request, AsyncHandler<GetAllowedIkeIPSecParametersRequest,GetAllowedIkeIPSecParametersResponse> handler)
The parameters allowed for IKE IPSec tunnels.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetByoipRangeResponse> getByoipRange(GetByoipRangeRequest request, AsyncHandler<GetByoipRangeRequest,GetByoipRangeResponse> handler)
Gets the ByoipRange
resource. You must specify the
OCID.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetCaptureFilterResponse> getCaptureFilter(GetCaptureFilterRequest request, AsyncHandler<GetCaptureFilterRequest,GetCaptureFilterResponse> handler)
Gets information about the specified VTAP capture filter.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetCpeResponse> getCpe(GetCpeRequest request, AsyncHandler<GetCpeRequest,GetCpeResponse> handler)
Gets the specified CPE’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetCpeDeviceConfigContentResponse> getCpeDeviceConfigContent(GetCpeDeviceConfigContentRequest request, AsyncHandler<GetCpeDeviceConfigContentRequest,GetCpeDeviceConfigContentResponse> handler)
Renders a set of CPE configuration content that can help a network engineer configure the
actual CPE device (for example, a hardware router) represented by the specified Cpe
object.
The rendered content is specific to the type of CPE device (for example, Cisco ASA).
Therefore the Cpe
must have the CPE's device type specified by the `cpeDeviceShapeId`
attribute. The content optionally includes answers that the customer provides (see updateTunnelCpeDeviceConfig
), merged with a template of other information specific to the
CPE device type.
The operation returns configuration information for *all* of the IPSecConnection
objects that use the specified CPE. Here are similar operations:
getIpsecCpeDeviceConfigContent
returns CPE configuration content for all IPSec
tunnels in a single IPSec connection. * getTunnelCpeDeviceConfigContent
returns CPE configuration content for a specific IPSec
tunnel in an IPSec connection.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetCpeDeviceShapeResponse> getCpeDeviceShape(GetCpeDeviceShapeRequest request, AsyncHandler<GetCpeDeviceShapeRequest,GetCpeDeviceShapeResponse> handler)
Gets the detailed information about the specified CPE device type. This might include a set
of questions that are specific to the particular CPE device type. The customer must supply
answers to those questions (see updateTunnelCpeDeviceConfig
). The service merges the answers with a template of other
information for the CPE device type. The following operations return the merged content:
getCpeDeviceConfigContent
* getIpsecCpeDeviceConfigContent
* getTunnelCpeDeviceConfigContent
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetCrossConnectResponse> getCrossConnect(GetCrossConnectRequest request, AsyncHandler<GetCrossConnectRequest,GetCrossConnectResponse> handler)
Gets the specified cross-connect’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetCrossConnectGroupResponse> getCrossConnectGroup(GetCrossConnectGroupRequest request, AsyncHandler<GetCrossConnectGroupRequest,GetCrossConnectGroupResponse> handler)
Gets the specified cross-connect group’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetCrossConnectLetterOfAuthorityResponse> getCrossConnectLetterOfAuthority(GetCrossConnectLetterOfAuthorityRequest request, AsyncHandler<GetCrossConnectLetterOfAuthorityRequest,GetCrossConnectLetterOfAuthorityResponse> handler)
Gets the Letter of Authority for the specified cross-connect.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetCrossConnectStatusResponse> getCrossConnectStatus(GetCrossConnectStatusRequest request, AsyncHandler<GetCrossConnectStatusRequest,GetCrossConnectStatusResponse> handler)
Gets the status of the specified cross-connect.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetDhcpOptionsResponse> getDhcpOptions(GetDhcpOptionsRequest request, AsyncHandler<GetDhcpOptionsRequest,GetDhcpOptionsResponse> handler)
Gets the specified set of DHCP options.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetDrgResponse> getDrg(GetDrgRequest request, AsyncHandler<GetDrgRequest,GetDrgResponse> handler)
Gets the specified DRG’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetDrgAttachmentResponse> getDrgAttachment(GetDrgAttachmentRequest request, AsyncHandler<GetDrgAttachmentRequest,GetDrgAttachmentResponse> handler)
Gets the DrgAttachment
resource.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetDrgRedundancyStatusResponse> getDrgRedundancyStatus(GetDrgRedundancyStatusRequest request, AsyncHandler<GetDrgRedundancyStatusRequest,GetDrgRedundancyStatusResponse> handler)
Gets the redundancy status for the specified DRG. For more information, see Redundancy Remedies.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetDrgRouteDistributionResponse> getDrgRouteDistribution(GetDrgRouteDistributionRequest request, AsyncHandler<GetDrgRouteDistributionRequest,GetDrgRouteDistributionResponse> handler)
Gets the specified route distribution’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetDrgRouteTableResponse> getDrgRouteTable(GetDrgRouteTableRequest request, AsyncHandler<GetDrgRouteTableRequest,GetDrgRouteTableResponse> handler)
Gets the specified DRG route table’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetFastConnectProviderServiceResponse> getFastConnectProviderService(GetFastConnectProviderServiceRequest request, AsyncHandler<GetFastConnectProviderServiceRequest,GetFastConnectProviderServiceResponse> handler)
Gets the specified provider service. For more information, see FastConnect Overview.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetFastConnectProviderServiceKeyResponse> getFastConnectProviderServiceKey(GetFastConnectProviderServiceKeyRequest request, AsyncHandler<GetFastConnectProviderServiceKeyRequest,GetFastConnectProviderServiceKeyResponse> handler)
Gets the specified provider service key’s information. Use this operation to validate a provider service key. An invalid key returns a 404 error.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetIPSecConnectionResponse> getIPSecConnection(GetIPSecConnectionRequest request, AsyncHandler<GetIPSecConnectionRequest,GetIPSecConnectionResponse> handler)
Gets the specified IPSec connection’s basic information, including the static routes for the
on-premises router. If you want the status of the connection (whether it’s up or down), use
getIPSecConnectionTunnel
.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetIPSecConnectionDeviceConfigResponse> getIPSecConnectionDeviceConfig(GetIPSecConnectionDeviceConfigRequest request, AsyncHandler<GetIPSecConnectionDeviceConfigRequest,GetIPSecConnectionDeviceConfigResponse> handler)
Deprecated. To get tunnel information, instead use:
getIPSecConnectionTunnel
* getIPSecConnectionTunnelSharedSecret
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetIPSecConnectionDeviceStatusResponse> getIPSecConnectionDeviceStatus(GetIPSecConnectionDeviceStatusRequest request, AsyncHandler<GetIPSecConnectionDeviceStatusRequest,GetIPSecConnectionDeviceStatusResponse> handler)
Deprecated. To get the tunnel status, instead use getIPSecConnectionTunnel
.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetIPSecConnectionTunnelResponse> getIPSecConnectionTunnel(GetIPSecConnectionTunnelRequest request, AsyncHandler<GetIPSecConnectionTunnelRequest,GetIPSecConnectionTunnelResponse> handler)
Gets the specified tunnel’s information. The resulting object does not include the tunnel’s
shared secret (pre-shared key). To retrieve that, use getIPSecConnectionTunnelSharedSecret
.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetIPSecConnectionTunnelErrorResponse> getIPSecConnectionTunnelError(GetIPSecConnectionTunnelErrorRequest request, AsyncHandler<GetIPSecConnectionTunnelErrorRequest,GetIPSecConnectionTunnelErrorResponse> handler)
Gets the identified error for the specified IPSec tunnel ID.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetIPSecConnectionTunnelSharedSecretResponse> getIPSecConnectionTunnelSharedSecret(GetIPSecConnectionTunnelSharedSecretRequest request, AsyncHandler<GetIPSecConnectionTunnelSharedSecretRequest,GetIPSecConnectionTunnelSharedSecretResponse> handler)
Gets the specified tunnel’s shared secret (pre-shared key). To get other information about
the tunnel, use getIPSecConnectionTunnel
.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetInternetGatewayResponse> getInternetGateway(GetInternetGatewayRequest request, AsyncHandler<GetInternetGatewayRequest,GetInternetGatewayResponse> handler)
Gets the specified internet gateway’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetIpsecCpeDeviceConfigContentResponse> getIpsecCpeDeviceConfigContent(GetIpsecCpeDeviceConfigContentRequest request, AsyncHandler<GetIpsecCpeDeviceConfigContentRequest,GetIpsecCpeDeviceConfigContentResponse> handler)
Renders a set of CPE configuration content for the specified IPSec connection (for all the tunnels in the connection). The content helps a network engineer configure the actual CPE device (for example, a hardware router) that the specified IPSec connection terminates on.
The rendered content is specific to the type of CPE device (for example, Cisco ASA).
Therefore the Cpe
used by the specified IPSecConnection
must have the CPE's
device type specified by the `cpeDeviceShapeId` attribute. The content optionally includes
answers that the customer provides (see updateTunnelCpeDeviceConfig
), merged with a template of other information specific to the
CPE device type.
The operation returns configuration information for all tunnels in the single specified
IPSecConnection
object. Here are other similar operations:
getTunnelCpeDeviceConfigContent
returns CPE configuration content for a specific
tunnel within an IPSec connection. * getCpeDeviceConfigContent
returns CPE configuration content for *all* IPSec connections that
use a specific CPE.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetIpv6Response> getIpv6(GetIpv6Request request, AsyncHandler<GetIpv6Request,GetIpv6Response> handler)
Gets the specified IPv6. You must specify the object’s
OCID.
Alternatively, you can get the object by using listIpv6s
with the IPv6 address (for example,
2001:0db8:0123:1111:98fe:dcba:9876:4321) and subnet
OCID.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetLocalPeeringGatewayResponse> getLocalPeeringGateway(GetLocalPeeringGatewayRequest request, AsyncHandler<GetLocalPeeringGatewayRequest,GetLocalPeeringGatewayResponse> handler)
Gets the specified local peering gateway’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetNatGatewayResponse> getNatGateway(GetNatGatewayRequest request, AsyncHandler<GetNatGatewayRequest,GetNatGatewayResponse> handler)
Gets the specified NAT gateway’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetNetworkSecurityGroupResponse> getNetworkSecurityGroup(GetNetworkSecurityGroupRequest request, AsyncHandler<GetNetworkSecurityGroupRequest,GetNetworkSecurityGroupResponse> handler)
Gets the specified network security group’s information.
To list the VNICs in an NSG, see listNetworkSecurityGroupVnics
.
To list the security rules in an NSG, see listNetworkSecurityGroupSecurityRules
.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetNetworkingTopologyResponse> getNetworkingTopology(GetNetworkingTopologyRequest request, AsyncHandler<GetNetworkingTopologyRequest,GetNetworkingTopologyResponse> handler)
Gets a virtual networking topology for the current region.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetPrivateIpResponse> getPrivateIp(GetPrivateIpRequest request, AsyncHandler<GetPrivateIpRequest,GetPrivateIpResponse> handler)
Gets the specified private IP. You must specify the object’s
OCID.
Alternatively, you can get the object by using listPrivateIps
with the private IP address (for example, 10.0.3.3) and
subnet OCID.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetPublicIpResponse> getPublicIp(GetPublicIpRequest request, AsyncHandler<GetPublicIpRequest,GetPublicIpResponse> handler)
Gets the specified public IP. You must specify the object’s OCID.
Alternatively, you can get the object by using getPublicIpByIpAddress
with the public IP address (for example, 203.0.113.2).
Or you can use getPublicIpByPrivateIpId
with the
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the
private IP that the public IP is assigned to.
*Note:** If you're fetching a reserved public IP that is in the process of being moved to a different private IP, the service returns the public IP object with `lifecycleState` = ASSIGNING and `assignedEntityId` = [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the target private IP.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetPublicIpByIpAddressResponse> getPublicIpByIpAddress(GetPublicIpByIpAddressRequest request, AsyncHandler<GetPublicIpByIpAddressRequest,GetPublicIpByIpAddressResponse> handler)
Gets the public IP based on the public IP address (for example, 203.0.113.2).
*Note:** If you're fetching a reserved public IP that is in the process of being moved to a different private IP, the service returns the public IP object with `lifecycleState` = ASSIGNING and `assignedEntityId` = [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the target private IP.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetPublicIpByPrivateIpIdResponse> getPublicIpByPrivateIpId(GetPublicIpByPrivateIpIdRequest request, AsyncHandler<GetPublicIpByPrivateIpIdRequest,GetPublicIpByPrivateIpIdResponse> handler)
Gets the public IP assigned to the specified private IP. You must specify the OCID of the private IP. If no public IP is assigned, a 404 is returned.
*Note:** If you're fetching a reserved public IP that is in the process of being moved to
a different private IP, and you provide the
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the
original private IP, this operation returns a 404. If you instead provide the
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the
target private IP, or if you instead call getPublicIp
or getPublicIpByIpAddress
, the service returns the public IP object with
`lifecycleState` = ASSIGNING and `assignedEntityId` =
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of the
target private IP.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetPublicIpPoolResponse> getPublicIpPool(GetPublicIpPoolRequest request, AsyncHandler<GetPublicIpPoolRequest,GetPublicIpPoolResponse> handler)
Gets the specified PublicIpPool
object. You must specify the object’s
OCID.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetRemotePeeringConnectionResponse> getRemotePeeringConnection(GetRemotePeeringConnectionRequest request, AsyncHandler<GetRemotePeeringConnectionRequest,GetRemotePeeringConnectionResponse> handler)
Get the specified remote peering connection’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetResourceIpInventoryResponse> getResourceIpInventory(GetResourceIpInventoryRequest request, AsyncHandler<GetResourceIpInventoryRequest,GetResourceIpInventoryResponse> handler)
Gets the IpInventory
resource.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetRouteTableResponse> getRouteTable(GetRouteTableRequest request, AsyncHandler<GetRouteTableRequest,GetRouteTableResponse> handler)
Gets the specified route table’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetSecurityListResponse> getSecurityList(GetSecurityListRequest request, AsyncHandler<GetSecurityListRequest,GetSecurityListResponse> handler)
Gets the specified security list’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetServiceResponse> getService(GetServiceRequest request, AsyncHandler<GetServiceRequest,GetServiceResponse> handler)
Gets the specified Service
object.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetServiceGatewayResponse> getServiceGateway(GetServiceGatewayRequest request, AsyncHandler<GetServiceGatewayRequest,GetServiceGatewayResponse> handler)
Gets the specified service gateway’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetSubnetResponse> getSubnet(GetSubnetRequest request, AsyncHandler<GetSubnetRequest,GetSubnetResponse> handler)
Gets the specified subnet’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetSubnetCidrUtilizationResponse> getSubnetCidrUtilization(GetSubnetCidrUtilizationRequest request, AsyncHandler<GetSubnetCidrUtilizationRequest,GetSubnetCidrUtilizationResponse> handler)
Gets the CIDR utilization data of the specified subnet. Specify the OCID.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetSubnetIpInventoryResponse> getSubnetIpInventory(GetSubnetIpInventoryRequest request, AsyncHandler<GetSubnetIpInventoryRequest,GetSubnetIpInventoryResponse> handler)
Gets the IP Inventory data of the specified subnet. Specify the OCID.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetSubnetTopologyResponse> getSubnetTopology(GetSubnetTopologyRequest request, AsyncHandler<GetSubnetTopologyRequest,GetSubnetTopologyResponse> handler)
Gets a topology for a given subnet.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetTunnelCpeDeviceConfigResponse> getTunnelCpeDeviceConfig(GetTunnelCpeDeviceConfigRequest request, AsyncHandler<GetTunnelCpeDeviceConfigRequest,GetTunnelCpeDeviceConfigResponse> handler)
Gets the set of CPE configuration answers for the tunnel, which the customer provided in
updateTunnelCpeDeviceConfig
. To get the full set of content for the tunnel (any answers
merged with the template of other information specific to the CPE device type), use getTunnelCpeDeviceConfigContent
.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetTunnelCpeDeviceConfigContentResponse> getTunnelCpeDeviceConfigContent(GetTunnelCpeDeviceConfigContentRequest request, AsyncHandler<GetTunnelCpeDeviceConfigContentRequest,GetTunnelCpeDeviceConfigContentResponse> handler)
Renders a set of CPE configuration content for the specified IPSec tunnel. The content helps a network engineer configure the actual CPE device (for example, a hardware router) that the specified IPSec tunnel terminates on.
The rendered content is specific to the type of CPE device (for example, Cisco ASA).
Therefore the Cpe
used by the specified IPSecConnection
must have the CPE's
device type specified by the `cpeDeviceShapeId` attribute. The content optionally includes
answers that the customer provides (see updateTunnelCpeDeviceConfig
), merged with a template of other information specific to the
CPE device type.
The operation returns configuration information for only the specified IPSec tunnel. Here are other similar operations:
getIpsecCpeDeviceConfigContent
returns CPE configuration content for all tunnels
in a single IPSec connection. * getCpeDeviceConfigContent
returns CPE configuration content for *all* IPSec connections that
use a specific CPE.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetUpgradeStatusResponse> getUpgradeStatus(GetUpgradeStatusRequest request, AsyncHandler<GetUpgradeStatusRequest,GetUpgradeStatusResponse> handler)
Returns the DRG upgrade status. The status can be not updated, in progress, or updated. Also indicates how much of the upgrade is completed.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetVcnResponse> getVcn(GetVcnRequest request, AsyncHandler<GetVcnRequest,GetVcnResponse> handler)
Gets the specified VCN’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetVcnDnsResolverAssociationResponse> getVcnDnsResolverAssociation(GetVcnDnsResolverAssociationRequest request, AsyncHandler<GetVcnDnsResolverAssociationRequest,GetVcnDnsResolverAssociationResponse> handler)
Get the associated DNS resolver information with a vcn
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetVcnOverlapResponse> getVcnOverlap(GetVcnOverlapRequest request, AsyncHandler<GetVcnOverlapRequest,GetVcnOverlapResponse> handler)
Gets the CIDR overlap information of the specified VCN in selected compartments. Specify the OCID.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetVcnTopologyResponse> getVcnTopology(GetVcnTopologyRequest request, AsyncHandler<GetVcnTopologyRequest,GetVcnTopologyResponse> handler)
Gets a virtual network topology for a given VCN.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetVirtualCircuitResponse> getVirtualCircuit(GetVirtualCircuitRequest request, AsyncHandler<GetVirtualCircuitRequest,GetVirtualCircuitResponse> handler)
Gets the specified virtual circuit’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetVlanResponse> getVlan(GetVlanRequest request, AsyncHandler<GetVlanRequest,GetVlanResponse> handler)
Gets the specified VLAN’s information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetVnicResponse> getVnic(GetVnicRequest request, AsyncHandler<GetVnicRequest,GetVnicResponse> handler)
Gets the information for the specified virtual network interface card (VNIC). You can get the
VNIC OCID from
the listVnicAttachments
operation.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<GetVtapResponse> getVtap(GetVtapRequest request, AsyncHandler<GetVtapRequest,GetVtapResponse> handler)
Gets the specified Vtap
resource.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListAllowedPeerRegionsForRemotePeeringResponse> listAllowedPeerRegionsForRemotePeering(ListAllowedPeerRegionsForRemotePeeringRequest request, AsyncHandler<ListAllowedPeerRegionsForRemotePeeringRequest,ListAllowedPeerRegionsForRemotePeeringResponse> handler)
Lists the regions that support remote VCN peering (which is peering across regions). For more information, see VCN Peering.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListByoipAllocatedRangesResponse> listByoipAllocatedRanges(ListByoipAllocatedRangesRequest request, AsyncHandler<ListByoipAllocatedRangesRequest,ListByoipAllocatedRangesResponse> handler)
Lists the subranges of a BYOIP CIDR block currently allocated to an IP pool. Each
ByoipAllocatedRange
object also lists the IP pool where it is allocated.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListByoipRangesResponse> listByoipRanges(ListByoipRangesRequest request, AsyncHandler<ListByoipRangesRequest,ListByoipRangesResponse> handler)
Lists the ByoipRange
resources in the specified compartment. You can filter the list using
query parameters.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListCaptureFiltersResponse> listCaptureFilters(ListCaptureFiltersRequest request, AsyncHandler<ListCaptureFiltersRequest,ListCaptureFiltersResponse> handler)
Lists the capture filters in the specified compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListCpeDeviceShapesResponse> listCpeDeviceShapes(ListCpeDeviceShapesRequest request, AsyncHandler<ListCpeDeviceShapesRequest,ListCpeDeviceShapesResponse> handler)
Lists the CPE device types that the Networking service provides CPE configuration content for
(example: Cisco ASA). The content helps a network engineer configure the actual CPE device
represented by a Cpe
object.
If you want to generate CPE configuration content for one of the returned CPE device
types, ensure that the Cpe
object's `cpeDeviceShapeId` attribute is set to the CPE
device type's
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) (returned
by this operation).
For information about generating CPE configuration content, see these operations:
getCpeDeviceConfigContent
* getIpsecCpeDeviceConfigContent
* getTunnelCpeDeviceConfigContent
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListCpesResponse> listCpes(ListCpesRequest request, AsyncHandler<ListCpesRequest,ListCpesResponse> handler)
Lists the customer-premises equipment objects (CPEs) in the specified compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListCrossConnectGroupsResponse> listCrossConnectGroups(ListCrossConnectGroupsRequest request, AsyncHandler<ListCrossConnectGroupsRequest,ListCrossConnectGroupsResponse> handler)
Lists the cross-connect groups in the specified compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListCrossConnectLocationsResponse> listCrossConnectLocations(ListCrossConnectLocationsRequest request, AsyncHandler<ListCrossConnectLocationsRequest,ListCrossConnectLocationsResponse> handler)
Lists the available FastConnect locations for cross-connect installation. You need this information so you can specify your desired location when you create a cross-connect.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListCrossConnectMappingsResponse> listCrossConnectMappings(ListCrossConnectMappingsRequest request, AsyncHandler<ListCrossConnectMappingsRequest,ListCrossConnectMappingsResponse> handler)
Lists the Cross Connect mapping Details for the specified virtual circuit.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListCrossConnectsResponse> listCrossConnects(ListCrossConnectsRequest request, AsyncHandler<ListCrossConnectsRequest,ListCrossConnectsResponse> handler)
Lists the cross-connects in the specified compartment. You can filter the list by specifying the OCID of a cross-connect group.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListCrossconnectPortSpeedShapesResponse> listCrossconnectPortSpeedShapes(ListCrossconnectPortSpeedShapesRequest request, AsyncHandler<ListCrossconnectPortSpeedShapesRequest,ListCrossconnectPortSpeedShapesResponse> handler)
Lists the available port speeds for cross-connects. You need this information so you can specify your desired port speed (that is, shape) when you create a cross-connect.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListDhcpOptionsResponse> listDhcpOptions(ListDhcpOptionsRequest request, AsyncHandler<ListDhcpOptionsRequest,ListDhcpOptionsResponse> handler)
Lists the sets of DHCP options in the specified VCN and specified compartment. If the VCN ID is not provided, then the list includes the sets of DHCP options from all VCNs in the specified compartment. The response includes the default set of options that automatically comes with each VCN, plus any other sets you’ve created.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListDrgAttachmentsResponse> listDrgAttachments(ListDrgAttachmentsRequest request, AsyncHandler<ListDrgAttachmentsRequest,ListDrgAttachmentsResponse> handler)
Lists the DrgAttachment
resource for the specified compartment. You can filter the results
by DRG, attached network, attachment type, DRG route table or VCN route table.
The LIST API lists DRG attachments by attachment type. It will default to list VCN attachments, but you may request to list ALL attachments of ALL types.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListDrgRouteDistributionStatementsResponse> listDrgRouteDistributionStatements(ListDrgRouteDistributionStatementsRequest request, AsyncHandler<ListDrgRouteDistributionStatementsRequest,ListDrgRouteDistributionStatementsResponse> handler)
Lists the statements for the specified route distribution.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListDrgRouteDistributionsResponse> listDrgRouteDistributions(ListDrgRouteDistributionsRequest request, AsyncHandler<ListDrgRouteDistributionsRequest,ListDrgRouteDistributionsResponse> handler)
Lists the route distributions in the specified DRG.
To retrieve the statements in a distribution, use the ListDrgRouteDistributionStatements operation.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListDrgRouteRulesResponse> listDrgRouteRules(ListDrgRouteRulesRequest request, AsyncHandler<ListDrgRouteRulesRequest,ListDrgRouteRulesResponse> handler)
Lists the route rules in the specified DRG route table.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListDrgRouteTablesResponse> listDrgRouteTables(ListDrgRouteTablesRequest request, AsyncHandler<ListDrgRouteTablesRequest,ListDrgRouteTablesResponse> handler)
Lists the DRG route tables for the specified DRG.
Use the `ListDrgRouteRules` operation to retrieve the route rules in a table.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListDrgsResponse> listDrgs(ListDrgsRequest request, AsyncHandler<ListDrgsRequest,ListDrgsResponse> handler)
Lists the DRGs in the specified compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListFastConnectProviderServicesResponse> listFastConnectProviderServices(ListFastConnectProviderServicesRequest request, AsyncHandler<ListFastConnectProviderServicesRequest,ListFastConnectProviderServicesResponse> handler)
Lists the service offerings from supported providers. You need this information so you can specify your desired provider and service offering when you create a virtual circuit.
For the compartment ID, provide the [OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) of your tenancy (the root compartment).
For more information, see [FastConnect Overview](https://docs.cloud.oracle.com/iaas/Content/Network/Concepts/fastconnect.htm).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListFastConnectProviderVirtualCircuitBandwidthShapesResponse> listFastConnectProviderVirtualCircuitBandwidthShapes(ListFastConnectProviderVirtualCircuitBandwidthShapesRequest request, AsyncHandler<ListFastConnectProviderVirtualCircuitBandwidthShapesRequest,ListFastConnectProviderVirtualCircuitBandwidthShapesResponse> handler)
Gets the list of available virtual circuit bandwidth levels for a provider. You need this information so you can specify your desired bandwidth level (shape) when you create a virtual circuit.
For more information about virtual circuits, see [FastConnect Overview](https://docs.cloud.oracle.com/iaas/Content/Network/Concepts/fastconnect.htm).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListIPSecConnectionTunnelRoutesResponse> listIPSecConnectionTunnelRoutes(ListIPSecConnectionTunnelRoutesRequest request, AsyncHandler<ListIPSecConnectionTunnelRoutesRequest,ListIPSecConnectionTunnelRoutesResponse> handler)
The routes advertised to the on-premises network and the routes received from the on-premises network.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListIPSecConnectionTunnelSecurityAssociationsResponse> listIPSecConnectionTunnelSecurityAssociations(ListIPSecConnectionTunnelSecurityAssociationsRequest request, AsyncHandler<ListIPSecConnectionTunnelSecurityAssociationsRequest,ListIPSecConnectionTunnelSecurityAssociationsResponse> handler)
Lists the tunnel security associations information for the specified IPSec tunnel ID.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListIPSecConnectionTunnelsResponse> listIPSecConnectionTunnels(ListIPSecConnectionTunnelsRequest request, AsyncHandler<ListIPSecConnectionTunnelsRequest,ListIPSecConnectionTunnelsResponse> handler)
Lists the tunnel information for the specified IPSec connection.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListIPSecConnectionsResponse> listIPSecConnections(ListIPSecConnectionsRequest request, AsyncHandler<ListIPSecConnectionsRequest,ListIPSecConnectionsResponse> handler)
Lists the IPSec connections for the specified compartment. You can filter the results by DRG or CPE.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListInternetGatewaysResponse> listInternetGateways(ListInternetGatewaysRequest request, AsyncHandler<ListInternetGatewaysRequest,ListInternetGatewaysResponse> handler)
Lists the internet gateways in the specified VCN and the specified compartment. If the VCN ID is not provided, then the list includes the internet gateways from all VCNs in the specified compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListIpInventoryResponse> listIpInventory(ListIpInventoryRequest request, AsyncHandler<ListIpInventoryRequest,ListIpInventoryResponse> handler)
Lists the IP Inventory information in the selected compartments.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListIpv6sResponse> listIpv6s(ListIpv6sRequest request, AsyncHandler<ListIpv6sRequest,ListIpv6sResponse> handler)
Lists the Ipv6
objects based on one of these filters:
Subnet
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm). * VNIC
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm). * Both
IPv6 address and subnet OCID: This lets you get an `Ipv6` object based on its private IPv6
address (for example, 2001:0db8:0123:1111:abcd:ef01:2345:6789) and not its
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm). For
comparison, getIpv6
requires the
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListLocalPeeringGatewaysResponse> listLocalPeeringGateways(ListLocalPeeringGatewaysRequest request, AsyncHandler<ListLocalPeeringGatewaysRequest,ListLocalPeeringGatewaysResponse> handler)
Lists the local peering gateways (LPGs) for the specified VCN and specified compartment. If the VCN ID is not provided, then the list includes the LPGs from all VCNs in the specified compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListNatGatewaysResponse> listNatGateways(ListNatGatewaysRequest request, AsyncHandler<ListNatGatewaysRequest,ListNatGatewaysResponse> handler)
Lists the NAT gateways in the specified compartment. You may optionally specify a VCN OCID to filter the results by VCN.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListNetworkSecurityGroupSecurityRulesResponse> listNetworkSecurityGroupSecurityRules(ListNetworkSecurityGroupSecurityRulesRequest request, AsyncHandler<ListNetworkSecurityGroupSecurityRulesRequest,ListNetworkSecurityGroupSecurityRulesResponse> handler)
Lists the security rules in the specified network security group.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListNetworkSecurityGroupVnicsResponse> listNetworkSecurityGroupVnics(ListNetworkSecurityGroupVnicsRequest request, AsyncHandler<ListNetworkSecurityGroupVnicsRequest,ListNetworkSecurityGroupVnicsResponse> handler)
Lists the VNICs in the specified network security group.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListNetworkSecurityGroupsResponse> listNetworkSecurityGroups(ListNetworkSecurityGroupsRequest request, AsyncHandler<ListNetworkSecurityGroupsRequest,ListNetworkSecurityGroupsResponse> handler)
Lists either the network security groups in the specified compartment, or those associated
with the specified VLAN. You must specify either a vlanId
or a compartmentId
, but not
both. If you specify a vlanId
, all other parameters are ignored.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListPrivateIpsResponse> listPrivateIps(ListPrivateIpsRequest request, AsyncHandler<ListPrivateIpsRequest,ListPrivateIpsResponse> handler)
Lists the PrivateIp
objects based on one of these filters:
- Subnet
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm). - VNIC
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm). - Both
private IP address and subnet OCID: This lets you get a `privateIP` object based on its
private IP address (for example, 10.0.3.3) and not its
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm). For
comparison, getPrivateIp
requires the
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm).
If you're listing all the private IPs associated with a given subnet or VNIC, the response includes both primary and secondary private IPs.
If you are an Oracle Cloud VMware Solution customer and have VLANs in your VCN, you can
filter the list by VLAN
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm). See
Vlan
.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListPublicIpPoolsResponse> listPublicIpPools(ListPublicIpPoolsRequest request, AsyncHandler<ListPublicIpPoolsRequest,ListPublicIpPoolsResponse> handler)
Lists the public IP pools in the specified compartment. You can filter the list using query parameters.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListPublicIpsResponse> listPublicIps(ListPublicIpsRequest request, AsyncHandler<ListPublicIpsRequest,ListPublicIpsResponse> handler)
Lists the PublicIp
objects in the specified compartment. You can filter the list by
using query parameters.
To list your reserved public IPs: * Set `scope` = `REGION` (required) * Leave the `availabilityDomain` parameter empty * Set `lifetime` = `RESERVED`
To list the ephemeral public IPs assigned to a regional entity such as a NAT gateway: * Set `scope` = `REGION` (required) * Leave the `availabilityDomain` parameter empty * Set `lifetime` = `EPHEMERAL`
To list the ephemeral public IPs assigned to private IPs: * Set `scope` = `AVAILABILITY_DOMAIN` (required) * Set the `availabilityDomain` parameter to the desired availability domain (required) * Set `lifetime` = `EPHEMERAL`
*Note:** An ephemeral public IP assigned to a private IP is always in the same availability domain and compartment as the private IP.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListRemotePeeringConnectionsResponse> listRemotePeeringConnections(ListRemotePeeringConnectionsRequest request, AsyncHandler<ListRemotePeeringConnectionsRequest,ListRemotePeeringConnectionsResponse> handler)
Lists the remote peering connections (RPCs) for the specified DRG and compartment (the RPC’s compartment).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListRouteTablesResponse> listRouteTables(ListRouteTablesRequest request, AsyncHandler<ListRouteTablesRequest,ListRouteTablesResponse> handler)
Lists the route tables in the specified VCN and specified compartment. If the VCN ID is not provided, then the list includes the route tables from all VCNs in the specified compartment. The response includes the default route table that automatically comes with each VCN in the specified compartment, plus any route tables you’ve created.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListSecurityListsResponse> listSecurityLists(ListSecurityListsRequest request, AsyncHandler<ListSecurityListsRequest,ListSecurityListsResponse> handler)
Lists the security lists in the specified VCN and compartment. If the VCN ID is not provided, then the list includes the security lists from all VCNs in the specified compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListServiceGatewaysResponse> listServiceGateways(ListServiceGatewaysRequest request, AsyncHandler<ListServiceGatewaysRequest,ListServiceGatewaysResponse> handler)
Lists the service gateways in the specified compartment. You may optionally specify a VCN OCID to filter the results by VCN.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListServicesResponse> listServices(ListServicesRequest request, AsyncHandler<ListServicesRequest,ListServicesResponse> handler)
Lists the available Service
objects that you can enable for a service gateway in this
region.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListSubnetsResponse> listSubnets(ListSubnetsRequest request, AsyncHandler<ListSubnetsRequest,ListSubnetsResponse> handler)
Lists the subnets in the specified VCN and the specified compartment. If the VCN ID is not provided, then the list includes the subnets from all VCNs in the specified compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListVcnsResponse> listVcns(ListVcnsRequest request, AsyncHandler<ListVcnsRequest,ListVcnsResponse> handler)
Lists the virtual cloud networks (VCNs) in the specified compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListVirtualCircuitAssociatedTunnelsResponse> listVirtualCircuitAssociatedTunnels(ListVirtualCircuitAssociatedTunnelsRequest request, AsyncHandler<ListVirtualCircuitAssociatedTunnelsRequest,ListVirtualCircuitAssociatedTunnelsResponse> handler)
Gets the specified virtual circuit’s associatedTunnelsInfo.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListVirtualCircuitBandwidthShapesResponse> listVirtualCircuitBandwidthShapes(ListVirtualCircuitBandwidthShapesRequest request, AsyncHandler<ListVirtualCircuitBandwidthShapesRequest,ListVirtualCircuitBandwidthShapesResponse> handler)
The operation lists available bandwidth levels for virtual circuits. For the compartment ID, provide the OCID of your tenancy (the root compartment).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListVirtualCircuitPublicPrefixesResponse> listVirtualCircuitPublicPrefixes(ListVirtualCircuitPublicPrefixesRequest request, AsyncHandler<ListVirtualCircuitPublicPrefixesRequest,ListVirtualCircuitPublicPrefixesResponse> handler)
Lists the public IP prefixes and their details for the specified public virtual circuit.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListVirtualCircuitsResponse> listVirtualCircuits(ListVirtualCircuitsRequest request, AsyncHandler<ListVirtualCircuitsRequest,ListVirtualCircuitsResponse> handler)
Lists the virtual circuits in the specified compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListVlansResponse> listVlans(ListVlansRequest request, AsyncHandler<ListVlansRequest,ListVlansResponse> handler)
Lists the VLANs in the specified VCN and the specified compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ListVtapsResponse> listVtaps(ListVtapsRequest request, AsyncHandler<ListVtapsRequest,ListVtapsResponse> handler)
Lists the virtual test access points (VTAPs) in the specified compartment.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ModifyVcnCidrResponse> modifyVcnCidr(ModifyVcnCidrRequest request, AsyncHandler<ModifyVcnCidrRequest,ModifyVcnCidrResponse> handler)
Updates the specified CIDR block of a VCN. The new CIDR IP range must meet the following criteria:
- Must be valid. - Must not overlap with another CIDR block in the VCN, a CIDR block of a peered VCN, or the on-premises network CIDR block. - Must not exceed the limit of CIDR blocks allowed per VCN. - Must include IP addresses from the original CIDR block that are used in the VCN's existing route rules. - No IP address in an existing subnet should be outside of the new CIDR block range.
*Note:** Modifying a CIDR block places your VCN in an updating state until the changes are complete. You cannot create or update the VCN's subnets, VLANs, LPGs, or route tables during this operation. The time to completion can vary depending on the size of your network. Updating a small network could take about a minute, and updating a large network could take up to an hour. You can use the `GetWorkRequest` operation to check the status of the update.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<RemoveDrgRouteDistributionStatementsResponse> removeDrgRouteDistributionStatements(RemoveDrgRouteDistributionStatementsRequest request, AsyncHandler<RemoveDrgRouteDistributionStatementsRequest,RemoveDrgRouteDistributionStatementsResponse> handler)
Removes one or more route distribution statements from the specified route distribution’s map.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<RemoveDrgRouteRulesResponse> removeDrgRouteRules(RemoveDrgRouteRulesRequest request, AsyncHandler<RemoveDrgRouteRulesRequest,RemoveDrgRouteRulesResponse> handler)
Removes one or more route rules from the specified DRG route table.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<RemoveExportDrgRouteDistributionResponse> removeExportDrgRouteDistribution(RemoveExportDrgRouteDistributionRequest request, AsyncHandler<RemoveExportDrgRouteDistributionRequest,RemoveExportDrgRouteDistributionResponse> handler)
Removes the export route distribution from the DRG attachment so no routes are advertised to it.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<RemoveImportDrgRouteDistributionResponse> removeImportDrgRouteDistribution(RemoveImportDrgRouteDistributionRequest request, AsyncHandler<RemoveImportDrgRouteDistributionRequest,RemoveImportDrgRouteDistributionResponse> handler)
Removes the import route distribution from the DRG route table so no routes are imported into it.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<RemoveIpv6SubnetCidrResponse> removeIpv6SubnetCidr(RemoveIpv6SubnetCidrRequest request, AsyncHandler<RemoveIpv6SubnetCidrRequest,RemoveIpv6SubnetCidrResponse> handler)
Remove an IPv6 prefix from a subnet. At least one IPv6 CIDR should remain.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<RemoveIpv6VcnCidrResponse> removeIpv6VcnCidr(RemoveIpv6VcnCidrRequest request, AsyncHandler<RemoveIpv6VcnCidrRequest,RemoveIpv6VcnCidrResponse> handler)
Removing an existing IPv6 prefix from a VCN.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<RemoveNetworkSecurityGroupSecurityRulesResponse> removeNetworkSecurityGroupSecurityRules(RemoveNetworkSecurityGroupSecurityRulesRequest request, AsyncHandler<RemoveNetworkSecurityGroupSecurityRulesRequest,RemoveNetworkSecurityGroupSecurityRulesResponse> handler)
Removes one or more security rules from the specified network security group.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<RemovePublicIpPoolCapacityResponse> removePublicIpPoolCapacity(RemovePublicIpPoolCapacityRequest request, AsyncHandler<RemovePublicIpPoolCapacityRequest,RemovePublicIpPoolCapacityResponse> handler)
Removes a CIDR block from the referenced public IP pool.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<RemoveVcnCidrResponse> removeVcnCidr(RemoveVcnCidrRequest request, AsyncHandler<RemoveVcnCidrRequest,RemoveVcnCidrResponse> handler)
Removes a specified CIDR block from a VCN.
*Notes:** - You cannot remove a CIDR block if an IP address in its range is in use. - Removing a CIDR block places your VCN in an updating state until the changes are complete. You cannot create or update the VCN's subnets, VLANs, LPGs, or route tables during this operation. The time to completion can take a few minutes. You can use the `GetWorkRequest` operation to check the status of the update.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateByoipRangeResponse> updateByoipRange(UpdateByoipRangeRequest request, AsyncHandler<UpdateByoipRangeRequest,UpdateByoipRangeResponse> handler)
Updates the tags or display name associated to the specified BYOIP CIDR block.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateCaptureFilterResponse> updateCaptureFilter(UpdateCaptureFilterRequest request, AsyncHandler<UpdateCaptureFilterRequest,UpdateCaptureFilterResponse> handler)
Updates the specified VTAP capture filter’s display name or tags.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateCpeResponse> updateCpe(UpdateCpeRequest request, AsyncHandler<UpdateCpeRequest,UpdateCpeResponse> handler)
Updates the specified CPE’s display name or tags. Avoid entering confidential information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateCrossConnectResponse> updateCrossConnect(UpdateCrossConnectRequest request, AsyncHandler<UpdateCrossConnectRequest,UpdateCrossConnectResponse> handler)
Updates the specified cross-connect.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateCrossConnectGroupResponse> updateCrossConnectGroup(UpdateCrossConnectGroupRequest request, AsyncHandler<UpdateCrossConnectGroupRequest,UpdateCrossConnectGroupResponse> handler)
Updates the specified cross-connect group’s display name. Avoid entering confidential information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateDhcpOptionsResponse> updateDhcpOptions(UpdateDhcpOptionsRequest request, AsyncHandler<UpdateDhcpOptionsRequest,UpdateDhcpOptionsResponse> handler)
Updates the specified set of DHCP options. You can update the display name or the options themselves. Avoid entering confidential information.
Note that the `options` object you provide replaces the entire existing set of options.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateDrgResponse> updateDrg(UpdateDrgRequest request, AsyncHandler<UpdateDrgRequest,UpdateDrgResponse> handler)
Updates the specified DRG’s display name or tags. Avoid entering confidential information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateDrgAttachmentResponse> updateDrgAttachment(UpdateDrgAttachmentRequest request, AsyncHandler<UpdateDrgAttachmentRequest,UpdateDrgAttachmentResponse> handler)
Updates the display name and routing information for the specified DrgAttachment
. Avoid
entering confidential information.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateDrgRouteDistributionResponse> updateDrgRouteDistribution(UpdateDrgRouteDistributionRequest request, AsyncHandler<UpdateDrgRouteDistributionRequest,UpdateDrgRouteDistributionResponse> handler)
Updates the specified route distribution
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateDrgRouteDistributionStatementsResponse> updateDrgRouteDistributionStatements(UpdateDrgRouteDistributionStatementsRequest request, AsyncHandler<UpdateDrgRouteDistributionStatementsRequest,UpdateDrgRouteDistributionStatementsResponse> handler)
Updates one or more route distribution statements in the specified route distribution.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateDrgRouteRulesResponse> updateDrgRouteRules(UpdateDrgRouteRulesRequest request, AsyncHandler<UpdateDrgRouteRulesRequest,UpdateDrgRouteRulesResponse> handler)
Updates one or more route rules in the specified DRG route table.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateDrgRouteTableResponse> updateDrgRouteTable(UpdateDrgRouteTableRequest request, AsyncHandler<UpdateDrgRouteTableRequest,UpdateDrgRouteTableResponse> handler)
Updates the specified DRG route table.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateIPSecConnectionResponse> updateIPSecConnection(UpdateIPSecConnectionRequest request, AsyncHandler<UpdateIPSecConnectionRequest,UpdateIPSecConnectionResponse> handler)
Updates the specified IPSec connection.
To update an individual IPSec tunnel's attributes, use updateIPSecConnectionTunnel
.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateIPSecConnectionTunnelResponse> updateIPSecConnectionTunnel(UpdateIPSecConnectionTunnelRequest request, AsyncHandler<UpdateIPSecConnectionTunnelRequest,UpdateIPSecConnectionTunnelResponse> handler)
Updates the specified tunnel. This operation lets you change tunnel attributes such as the routing type (BGP dynamic routing or static routing). Here are some important notes:
If you change the tunnel's routing type or BGP session configuration, the tunnel will go down while it's reprovisioned.
If you want to switch the tunnel's `routing` from `STATIC` to `BGP`, make sure the
tunnel's BGP session configuration attributes have been set (bgpSessionInfo
).
If you want to switch the tunnel's `routing` from `BGP` to `STATIC`, make sure the IPSecConnection
already has at least one valid CIDR static route.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateIPSecConnectionTunnelSharedSecretResponse> updateIPSecConnectionTunnelSharedSecret(UpdateIPSecConnectionTunnelSharedSecretRequest request, AsyncHandler<UpdateIPSecConnectionTunnelSharedSecretRequest,UpdateIPSecConnectionTunnelSharedSecretResponse> handler)
Updates the shared secret (pre-shared key) for the specified tunnel.
*Important:** If you change the shared secret, the tunnel will go down while it's reprovisioned.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateInternetGatewayResponse> updateInternetGateway(UpdateInternetGatewayRequest request, AsyncHandler<UpdateInternetGatewayRequest,UpdateInternetGatewayResponse> handler)
Updates the specified internet gateway. You can disable/enable it, or change its display name or tags. Avoid entering confidential information.
If the gateway is disabled, that means no traffic will flow to/from the internet even if there's a route rule that enables that traffic.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateIpv6Response> updateIpv6(UpdateIpv6Request request, AsyncHandler<UpdateIpv6Request,UpdateIpv6Response> handler)
Updates the specified IPv6. You must specify the object’s OCID. Use this operation if you want to:
Move an IPv6 to a different VNIC in the same subnet. * Enable/disable internet access for an IPv6. * Change the display name for an IPv6. * Update resource tags for an IPv6.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateLocalPeeringGatewayResponse> updateLocalPeeringGateway(UpdateLocalPeeringGatewayRequest request, AsyncHandler<UpdateLocalPeeringGatewayRequest,UpdateLocalPeeringGatewayResponse> handler)
Updates the specified local peering gateway (LPG).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateNatGatewayResponse> updateNatGateway(UpdateNatGatewayRequest request, AsyncHandler<UpdateNatGatewayRequest,UpdateNatGatewayResponse> handler)
Updates the specified NAT gateway.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateNetworkSecurityGroupResponse> updateNetworkSecurityGroup(UpdateNetworkSecurityGroupRequest request, AsyncHandler<UpdateNetworkSecurityGroupRequest,UpdateNetworkSecurityGroupResponse> handler)
Updates the specified network security group.
To add or remove an existing VNIC from the group, use updateVnic
.
To add a VNIC to the group *when you create the VNIC*, specify the NSG's
[OCID](https://docs.cloud.oracle.com/iaas/Content/General/Concepts/identifiers.htm) during
creation. For example, see the `nsgIds` attribute in createVnicDetails
.
To add or remove security rules from the group, use addNetworkSecurityGroupSecurityRules
or removeNetworkSecurityGroupSecurityRules
.
To edit the contents of existing security rules in the group, use updateNetworkSecurityGroupSecurityRules
.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateNetworkSecurityGroupSecurityRulesResponse> updateNetworkSecurityGroupSecurityRules(UpdateNetworkSecurityGroupSecurityRulesRequest request, AsyncHandler<UpdateNetworkSecurityGroupSecurityRulesRequest,UpdateNetworkSecurityGroupSecurityRulesResponse> handler)
Updates one or more security rules in the specified network security group.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdatePrivateIpResponse> updatePrivateIp(UpdatePrivateIpRequest request, AsyncHandler<UpdatePrivateIpRequest,UpdatePrivateIpResponse> handler)
Updates the specified private IP. You must specify the object’s OCID. Use this operation if you want to:
- Move a secondary private IP to a different VNIC in the same subnet. - Change the display name for a secondary private IP. - Change the hostname for a secondary private IP.
This operation cannot be used with primary private IPs. To update the hostname for the
primary IP on a VNIC, use updateVnic
.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdatePublicIpResponse> updatePublicIp(UpdatePublicIpRequest request, AsyncHandler<UpdatePublicIpRequest,UpdatePublicIpResponse> handler)
Updates the specified public IP. You must specify the object’s OCID. Use this operation if you want to:
Assign a reserved public IP in your pool to a private IP. * Move a reserved public IP to a different private IP. * Unassign a reserved public IP from a private IP (which returns it to your pool of reserved public IPs). * Change the display name or tags for a public IP.
Assigning, moving, and unassigning a reserved public IP are asynchronous operations. Poll the public IP's `lifecycleState` to determine if the operation succeeded.
*Note:** When moving a reserved public IP, the target private IP must not already have a public IP with `lifecycleState` = ASSIGNING or ASSIGNED. If it does, an error is returned. Also, the initial unassignment from the original private IP always succeeds, but the assignment to the target private IP is asynchronous and could fail silently (for example, if the target private IP is deleted or has a different public IP assigned to it in the interim). If that occurs, the public IP remains unassigned and its `lifecycleState` switches to AVAILABLE (it is not reassigned to its original private IP). You must poll the public IP's `lifecycleState` to determine if the move succeeded.
Regarding ephemeral public IPs:
If you want to assign an ephemeral public IP to a primary private IP, use createPublicIp
. * You can't move
an ephemeral public IP to a different private IP. * If you want to unassign an ephemeral
public IP from its private IP, use deletePublicIp
, which unassigns and deletes the ephemeral public IP.
*Note:** If a public IP is assigned to a secondary private IP (see PrivateIp
), and
you move that secondary private IP to another VNIC, the public IP moves with it.
*Note:** There's a limit to the number of PublicIp
a VNIC or instance can have. If
you try to move a reserved public IP to a VNIC or instance that has already reached its
public IP limit, an error is returned. For information about the public IP limits, see
[Public IP
Addresses](https://docs.cloud.oracle.com/iaas/Content/Network/Tasks/managingpublicIPs.htm).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdatePublicIpPoolResponse> updatePublicIpPool(UpdatePublicIpPoolRequest request, AsyncHandler<UpdatePublicIpPoolRequest,UpdatePublicIpPoolResponse> handler)
Updates the specified public IP pool.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateRemotePeeringConnectionResponse> updateRemotePeeringConnection(UpdateRemotePeeringConnectionRequest request, AsyncHandler<UpdateRemotePeeringConnectionRequest,UpdateRemotePeeringConnectionResponse> handler)
Updates the specified remote peering connection (RPC).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateRouteTableResponse> updateRouteTable(UpdateRouteTableRequest request, AsyncHandler<UpdateRouteTableRequest,UpdateRouteTableResponse> handler)
Updates the specified route table’s display name or route rules. Avoid entering confidential information.
Note that the `routeRules` object you provide replaces the entire existing set of rules.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateSecurityListResponse> updateSecurityList(UpdateSecurityListRequest request, AsyncHandler<UpdateSecurityListRequest,UpdateSecurityListResponse> handler)
Updates the specified security list’s display name or rules. Avoid entering confidential information.
Note that the `egressSecurityRules` or `ingressSecurityRules` objects you provide replace the entire existing objects.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateServiceGatewayResponse> updateServiceGateway(UpdateServiceGatewayRequest request, AsyncHandler<UpdateServiceGatewayRequest,UpdateServiceGatewayResponse> handler)
Updates the specified service gateway. The information you provide overwrites the existing attributes of the gateway.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateSubnetResponse> updateSubnet(UpdateSubnetRequest request, AsyncHandler<UpdateSubnetRequest,UpdateSubnetResponse> handler)
Updates the specified subnet.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateTunnelCpeDeviceConfigResponse> updateTunnelCpeDeviceConfig(UpdateTunnelCpeDeviceConfigRequest request, AsyncHandler<UpdateTunnelCpeDeviceConfigRequest,UpdateTunnelCpeDeviceConfigResponse> handler)
Creates or updates the set of CPE configuration answers for the specified tunnel. The answers
correlate to the questions that are specific to the CPE device type (see the parameters
attribute of CpeDeviceShapeDetail
).
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateVcnResponse> updateVcn(UpdateVcnRequest request, AsyncHandler<UpdateVcnRequest,UpdateVcnResponse> handler)
Updates the specified VCN.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateVirtualCircuitResponse> updateVirtualCircuit(UpdateVirtualCircuitRequest request, AsyncHandler<UpdateVirtualCircuitRequest,UpdateVirtualCircuitResponse> handler)
Updates the specified virtual circuit. This can be called by either the customer who owns the
virtual circuit, or the provider (when provisioning or de-provisioning the virtual circuit
from their end). The documentation for updateVirtualCircuitDetails
indicates who can update each property of the virtual circuit.
*Important:** If the virtual circuit is working and in the PROVISIONED state, updating any of the network-related properties (such as the DRG being used, the BGP ASN, and so on) will cause the virtual circuit's state to switch to PROVISIONING and the related BGP session to go down. After Oracle re-provisions the virtual circuit, its state will return to PROVISIONED. Make sure you confirm that the associated BGP session is back up. For more information about the various states and how to test connectivity, see [FastConnect Overview](https://docs.cloud.oracle.com/iaas/Content/Network/Concepts/fastconnect.htm).
To change the list of public IP prefixes for a public virtual circuit, use bulkAddVirtualCircuitPublicPrefixes
and bulkDeleteVirtualCircuitPublicPrefixes
. Updating the list of prefixes
does NOT cause the BGP session to go down. However, Oracle must verify the customer's
ownership of each added prefix before traffic for that prefix will flow across the virtual
circuit.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateVlanResponse> updateVlan(UpdateVlanRequest request, AsyncHandler<UpdateVlanRequest,UpdateVlanResponse> handler)
Updates the specified VLAN. Note that this operation might require changes to all the VNICs in the VLAN, which can take a while. The VLAN will be in the UPDATING state until the changes are complete.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateVnicResponse> updateVnic(UpdateVnicRequest request, AsyncHandler<UpdateVnicRequest,UpdateVnicResponse> handler)
Updates the specified VNIC.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpdateVtapResponse> updateVtap(UpdateVtapRequest request, AsyncHandler<UpdateVtapRequest,UpdateVtapResponse> handler)
Updates the specified VTAP’s display name or tags.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<UpgradeDrgResponse> upgradeDrg(UpgradeDrgRequest request, AsyncHandler<UpgradeDrgRequest,UpgradeDrgResponse> handler)
Upgrades the DRG. After upgrade, you can control routing inside your DRG via DRG attachments, route distributions, and DRG route tables.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<ValidateByoipRangeResponse> validateByoipRange(ValidateByoipRangeRequest request, AsyncHandler<ValidateByoipRangeRequest,ValidateByoipRangeResponse> handler)
Submits the BYOIP CIDR block you are importing for validation. Do not submit to Oracle for validation if you have not already modified the information for the BYOIP CIDR block with your Regional Internet Registry. See To import a CIDR block for details.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Future<WithdrawByoipRangeResponse> withdrawByoipRange(WithdrawByoipRangeRequest request, AsyncHandler<WithdrawByoipRangeRequest,WithdrawByoipRangeResponse> handler)
Withdraws BGP route advertisement for the BYOIP CIDR block.
request
- The request object containing the details to sendhandler
- The request handler to invoke upon completion, may be null.Copyright © 2016–2024. All rights reserved.