- Preface
- New and Changed Information in Release 4.3.x
- Preconfiguring Physical Interfaces on Cisco IOS XR Software
- Configuring ATM Interfaces on Cisco IOS XR Software
- Advanced Configuration and Modification of the Management Ethernet Interface on Cisco IOS XR Software
- Configuring Ethernet Interfaces on Cisco IOS XR Software
- Configuring Ethernet OAM on Cisco IOS XR Software
- Configuring Link Bundling on Cisco IOS XR Software
- Configuring Virtual Loopback and Null Interfaces on Cisco IOS XR Software
- Configuring Channelized SONET/SDH on Cisco IOS XR Software
- Configuring Circuit Emulation over Packet on Cisco IOS XR Software
- Configuring Clear Channel SONET Controllers on Cisco IOS XR Software
- Configuring Clear Channel T3/E3 and Channelized T3 and T1/E1 Controllers on Cisco IOS XR Software
- Configuring POS Interfaces on Cisco IOS XR Software
- Configuring Serial Interfaces on Cisco IOS XR Software
- Configuring Frame Relay on Cisco IOS XR Software
- Configuring PPP on Cisco IOS XR Software
- Configuring 802.1Q VLAN Interfaces on Cisco IOS XR Software
- Configuring Tunnel Interfaces on Cisco IOS XR Software
- Index
Configuring Virtual Loopback and Null Interfaces on Cisco IOS XR Software
This module describes the configuration of loopback and null interfaces on the Cisco XR 12000 Series Router.
Loopback and null interfaces are considered virtual interfaces.
A virtual interface represents a logical packet switching entity within the router. Virtual Interfaces have a global scope and do not have an associated location. Virtual interfaces have instead a globally unique numerical ID after their names. Examples are Loopback 0, Loopback1, and Loopback 99999. The ID is unique per virtual interface type to make the entire name string unique such that you can have both Loopback 0 and Null 0.
Loopback and null interfaces have their control plane presence on the active route processor (RP). The configuration and control plane are mirrored onto the standby RP and, in the event of a switchover, the virtual interfaces move to the ex-standby, which then becomes the newly active RP.
Feature History for Configuring Loopback and Null Interfaces on Cisco IOS XR Software
Contents
•
Prerequisites for Configuring Virtual Interfaces
•Information About Configuring Virtual Interfaces
•How to Configure Virtual Interfaces
•Configuration Examples for Virtual Interfaces
Prerequisites for Configuring Virtual Interfaces
You must be in a user group associated with a task group that includes the proper task IDs. The command reference guides include the task IDs required for each command. If you suspect user group assignment is preventing you from using a command, contact your AAA administrator for assistance.
Information About Configuring Virtual Interfaces
To configure virtual interfaces, you must understand the following concepts:
•Virtual Loopback Interface Overview
•Virtual Management Interface Overview
•Active and Standby RPs and Virtual Interface Configuration
Virtual Loopback Interface Overview
A virtual loopback interface is a virtual interface with a single endpoint that is always up. Any packet transmitted over a virtual loopback interface is immediately received by the selfsame interface. Loopback interfaces emulate a physical interface.
In Cisco IOS XR software,virtual loopback interfaces perform the following functions:
•loopback interfaces can act as a termination address for routing protocol sessions. This allows routing protocol sessions to stay up even if the outbound interface is down.
•you can ping the loopback interface to verify that the router IP stack is working properly.
In applications where other routers or access servers attempt to reach a virtual loopback interface, you must configure a routing protocol to distribute the subnet assigned to the loopback address.
Packets routed to the loopback interface are rerouted back to the router or access server and processed locally. IP packets routed out the loopback interface but not destined to the loopback interface are dropped. Under these two conditions, the loopback interface can behave like a null interface.
Null Interface Overview
A null interface functions similarly to the null devices available on most operating systems. This interface is always up and can never forward or receive traffic; encapsulation always fails. The null interface provides an alternative method of filtering traffic. You can avoid the overhead involved with using access lists by directing undesired network traffic to the null interface.
The only interface configuration command that you can specify for the null interface is the ipv4 unreachables command. With the ipv4 unreachables command, if the software receives a nonbroadcast packet destined for itself that uses a protocol it does not recognize, it sends an Internet Control Message Protocol (ICMP) protocol unreachable message to the source. If the software receives a datagram that it cannot deliver to its ultimate destination because it knows of no route to the destination address, it replies to the originator of that datagram with an ICMP host unreachable message.
The Null0 interface is created by default on the RP during boot and cannot be removed. The ipv4 unreachables command can be configured for this interface, but most configuration is unnecessary because this interface just discards all the packets sent to it.
The Null0 interface can be displayed with the show interfaces null0 command.
Virtual Management Interface Overview
Configuring an IPv4 virtual address enables you to access the router from a single virtual address with a management network without prior knowledge of which RP is active. An IPv4 virtual address persists across route processor (RP) switchover situations. For this to happen, the virtual IPv4 address must share a common IPv4 subnet with a management Ethernet interface on both RPs.
On a Cisco XR 12000 Series Router where each RP has multiple management Ethernet interfaces, the virtual IPv4 address maps to the management Ethernet interface on the active RP that shares the same IP subnet.
Active and Standby RPs and Virtual Interface Configuration
The standby RP is available and in a state in which it can take over the work from the active RP should that prove necessary. Conditions that necessitate the standby RP to become the active RP and assume the active RP's duties include:
•Failure detection by a watchdog
•Administrative command to take over
•Removal of the active RP from the chassis
If a second RP is not present in the chassis while the first is in operation, a second RP may be inserted and automatically becomes the standby RP. The standby RP may also be removed from the chassis with no effect on the system other than loss of RP redundancy.
After switchover, the virtual interfaces all are present on the standby (now active) RP. Their state and configuration are unchanged and there has been no loss of forwarding (in the case of tunnels) over the interfaces during the switchover. The routers use nonstop forwarding (NSF) over bundles and tunnels through the switchover of the host RP.
Note The user need not configure anything to guarantee that the standby interface configurations are maintained.
Note Protocol configuration such as tacacs source-interface, snmp-server trap-source, ntp source, logging source-interface do not use the virtual management IP address as their source by default. Use the ipv4 virtual address use-as-src-addr command to ensure that the protocol uses the virtual IPv4 address as its source address. Alternatively, you can also configure a loopback address with the designated or desired IPv4 address and set that as the source for protocols such as TACACS+ using the tacacs source-interface command.
How to Configure Virtual Interfaces
This section contains the following procedures:
•Configuring Virtual Loopback Interfaces (Required)
•Configuring Null Interfaces (Required)
•Configuring Virtual IPV4 Interfaces (Required)
Configuring Virtual Loopback Interfaces
This task explains how to configure a basic loopback interface.
Restrictions
The IP address of a loopback interface must be unique across all routers on the network. It must not be used by another interface on the router, and it must not be used by an interface on any other router on the network.
SUMMARY STEPS
1. configure
2. interface loopback interface-path-id
3. ipv4 address ip-address
4. end
or
commit
5. show interfaces type interface-path-id
DETAILED STEPS
Configuring Null Interfaces
This task explains how to configure a basic Null interface.
SUMMARY STEPS
1. configure
2. interface null 0
3. end
or
commit
4. show interfaces type interface-path-id
DETAILED STEPS
Configuring Virtual IPV4 Interfaces
This task explains how to configure an IPv4 virtual interface.
SUMMARY STEPS
1. configure
2. ipv4 address virtual address ip-address subnet mask
3. end
or
commit
DETAILED STEPS
Configuration Examples for Virtual Interfaces
This section provides the following configuration examples:
•Configuring a Loopback Interface: Example
•Configuring a Null Interface: Example
Configuring a Loopback Interface: Example
The following example indicates how to configure a loopback interface:
RP/0/0/CPU0:router# configure
RP/0/0/CPU0:router(config)# interface Loopback 3
RP/0/0/CPU0:router(config-if)# ipv4 address 172.18.189.38/32
RP/0/0/CPU0:router(config-if)# end
Uncommitted changes found, commit them? [yes]: yes
RP/0/0/CPU0:router# show interfaces Loopback 3
Loopback3 is up, line protocol is up
Hardware is Loopback interface(s)
Internet address is 172.18.189.38/32
MTU 1514 bytes, BW Unknown
reliability 0/255, txload Unknown, rxload Unknown
Encapsulation Loopback, loopback not set
Last clearing of "show interface" counters never
5 minute input rate 0 bits/sec, 0 packets/sec
5 minute output rate 0 bits/sec, 0 packets/sec
0 packets input, 0 bytes, 0 total input drops
0 drops for unrecognized upper-level protocol
Received 0 broadcast packets, 0 multicast packets
0 packets output, 0 bytes, 0 total output drops
Output 0 broadcast packets, 0 multicast packets
Configuring a Null Interface: Example
The following example indicates how to configure a null interface:
RP/0/0/CPU0:router# configure
RP/0/0/CPU0:router(config)# interface Null 0
RP/0/0/CPU0:router(config-null0)# ipv4 unreachables
RP/0/0/CPU0:router(config-null0)# end
Uncommitted changes found, commit them? [yes]: yes
RP/0/0/CPU0:router# show interfaces Null 0
Null0 is up, line protocol is up
Hardware is Null interface
Internet address is Unknown
MTU 1500 bytes, BW Unknown
reliability 0/255, txload Unknown, rxload Unknown
Encapsulation Null, loopback not set
Last clearing of "show interface" counters never
5 minute input rate 0 bits/sec, 0 packets/sec
5 minute output rate 0 bits/sec, 0 packets/sec
0 packets input, 0 bytes, 0 total input drops
0 drops for unrecognized upper-level protocol
Received 0 broadcast packets, 0 multicast packets
0 packets output, 0 bytes, 0 total output drops
Output 0 broadcast packets, 0 multicast packets
Configuring a Virtual IPv4 Interface: Example
RP/0/0/CPU0:router# configure
RP/0/0/CPU0:router(config)# ipv4 virtual address 10.3.32.154/8
RP/0/0/CPU0:router(config-null0)# commit
Additional References
These sections provide references related to loopback and null interface configuration.
Related Documents
Standards
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No new or modified standards are supported by this feature, and support for existing standards has not been modified by this feature. |
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MIBs
RFCs
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No new or modified RFCs are supported by this feature, and support for existing RFCs has not been modified by this feature. |
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