IP-in-IP Decapsulation
IP-in-IP encapsulation involves the insertion of an outer IP header over the existing IP header. The source and destination address in the outer IP header point to the endpoints of the IP-in-IP tunnel. The stack of IP headers is used to direct the packet over a predetermined path to the destination, provided the network administrator knows the loopback addresses of the routers transporting the packet. This tunneling mechanism can be used for determining availability and latency for most network architectures. It is to be noted that the entire path from source to the destination does not have to be included in the headers, but a segment of the network can be chosen for directing the packets.
In IP-in-IP encapsulation and decapsulation has two types of packets. The original IP packets that are encapsulated are called Inner packets and the IP header stack added while encasulation are called the Outer packets.
Note |
The router only supports decapsulation and no encapsulation. Encapsulation is done by remote routers. |
The following topology describes a use case where IP-in-IP encapsulation and decapsulation are used for different segments of the network from source to destination. The IP-in-IP tunnel consists of multiple routers that are used to decapsulate and direct the packet through the data center fabric network.
The following illustration shows how the stacked IPv4 headers are decapsulated as they traverse through the decapsulating routers.
Stacked IP Header in an Encapsulated Packet
The encapsulated packet has an outer IPv4 header that is stacked over the original IPv4 header, as shown in the following illustration.
Configuration
You can use the following sample configuration in the routers to decapsulate the packet as it traverses the IP-in-IP tunnel:
Router(config)# interface loopback 0
Router(config-if)# ipv4 address 127.0.0.1/32
Router(config-if)# no shutdown
Router(config-if)# interface tunnel-ip 10
Router(config-if)# ipv4 unnumbered loopback 1
Router(config-if)# tunnel mode ipv4 decap
Router(config-if)# tunnel source loopback 0
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tunnel-ip: configures an IP-in-IP tunnel interface.
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ipv4 unnumbered loopback address: enables ipv4 packet processing without an explicit address, except for loopback address.
-
tunnel mode ipv4 decap: enables IP-in-IP decapsulation.
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tunnel source: indicates the source address for the IP-in-IP decap tunnel with respect to the router interface.
Note |
You can configure the tunnel destination only if you want to decapsulate packets from a particular destination. If no tunnel destination is configured, then all the ip-in-ip ingress packets on the configured interface are decapsulated. |
Running Configuration
Router# show running-config interface tunnel-ip 10
...
interface tunnel-ip 10
ipv4 unnumbered loopback 1
tunnel mode ipv4 decap
Extended ACL to Match the Outer Header for IP-in-IP Decapsulation
Starting with Cisco IOS XR Software Release 7.0.14, extended ACL has to match on the outer header for IP-in-IP Decapsulation. Extended ACL support reduces mirrored traffic throughput. This match is based only on the IPv4 protocol, and extended ACL is applied to the received outermost IP header, even if the outer header is locally terminated.
Sample configuration:
Router#show running-config interface bundle-Ether 50.5
Tue May 26 12:11:49.017 UTC
interface Bundle-Ether50.5
ipv4 address 101.1.5.1 255.255.255.0
encapsulation dot1q 5
ipv4 access-group ExtACL_IPinIP ingress
ipv4 access-group any_dscpegg egress
!
Router#show access-lists ipv4 ExtACL_IPinIP hardware ingress location$
Tue May 26 12:11:55.940 UTC
ipv4 access-list ExtACL_IPinIP
10 permit ipv4 192.168.0.0 0.0.255.255 any ttl gt 150
11 deny ipv4 172.16.0.0 0.0.255.255 any fragments
12 permit ipv4 any any
Decapsulation Using Tunnel Source Direct
Feature Name |
Release Information |
Feature Description |
---|---|---|
Decapsulating Using Tunnel Source Direct |
Release 7.5.3 |
Tunnel source direct allows you to decapsulate the tunnels on any L3 interface on the router. You can use the tunnel source direct configuration command to choose the specific IP Equal-Cost Multipath (ECMP) links for troubleshooting, when there are multiple IP links between two devices. |
To debug faults in various large networks, you may have to capture and analyze the network traffic at a packet level. In datacenter networks, administrators face problems with the volume of traffic and diversity of faults. To troubleshoot faults in a timely manner, DCN administrators must identify affected packets inside large volumes of traffic. They must track them across multiple network components, analyze traffic traces for fault patterns, and test or confirm potential causes.
In some networks, IP-in-IP decapsulation is currently used in network management, to verify ECMP availability and to measure the latency of each path within a datacenter.
The Network Management System (NMS) sends IP-in-IP (IPv4 or IPv6) packets with a stack (multiple) of predefined IPv4 or IPv6 headers (device IP addresses). The destination device at each hop removes the outside header, performs a lookup on the next header, and forwards the packets if a route exists.
Using the tunnel source direct command, you can choose the specific IP Equal-Cost Multipath (ECMP) links for troubleshooting, when there are multiple IP links between two devices.
Tip |
You can programmatically configure and manage the Ethernet interfaces using |
Guidelines and Limitations
The following guidelines are applicable to this feature.
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The tunnel source direct command is only compatible with 'tunnel mode decap' for IP-in-IP decapsulation.
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The source-direct tunnel is always operationally
up
unless it is administratively shut down. The directly connected interfaces are identified using the show ip route direct command. -
All Layer 3 interfaces that are configured on the device are supported.
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Platform can accept and program only certain number of IP addresses. The number of IP addresses depends on the make of the platform linecard (LC). Each LC can have different number of Network Processor (NP) slices and interfaces.
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Only one source-direct tunnel per address-family is supported for configuration.
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Regular decapsulation tunnels which have specific source address, are supported. However, the tunnel’s specific source address must not be part of any interface.
The following functionalities are not supported for the tunnel source direct option.
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GRE tunneling mode.
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VRF (only default VRF is supported).
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ACL and QoS on the tunnels.
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Tunnel encapsulation.
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Tunnel NetIO DLL: Decapsulation is not supported if the packet is punted to slow path.
Configure Decapsulation Using Tunnel Source Direct
Configuration
The tunnel source direct configures IP-in-IP tunnel decapsulation on any directly connected IP addresses. This option is now supported only when the IP-in-IP decapsulation is used to source route the packets through the network.
This example shows how to configure IP-in-IP tunnel decapsulation on directly connected IP addresses:
Router# configure terminal
Router(config)#interface Tunnel4
Router(config)#tunnel mode ipv4 decap
Router(config)#tunnel source direct
Router(config)#no shutdown
This example shows how to configure IP-in-IP tunnel decapsulation on IPv6 enabled networks:
Router# configure terminal
Router(config)#interface Tunnel6
Router(config)#tunnel mode ipv6 decap
Router(config)#tunnel source direct
Router(config)#no shutdown
Verifying the Configuration
The following example shows how to verify IP-in-IP tunnel decapsulation with tunnel source direct option:
Router#show running-config interface tunnel 1
interface Tunnel1
tunnel mode ipv6ipv6 decapsulate-any
tunnel source direct
no shutdown
Router#show interface tunnel 1
Tunnel1 is up Admin State: up
MTU 1460 bytes, BW 9 Kbit
Tunnel protocol/transport IPv6/DECAPANY/IPv6
Tunnel source - direct
Tx 0 packets output, 0 bytes Rx 0 packets input, 0 bytes
Configure Tunnel Destination with an Object Group
Feature Name |
Release Information |
Description |
---|---|---|
Configure Tunnel Destination with an Object Group |
Release 7.5.4 |
You can now assign an object group as the destination for an IP-in-IP decapsulation tunnel. With this functionality, you could configure an IPv4 or IPv6 object group consisting of multiple IPv4 or IPv6 addresses as the destination for the tunnel instead of a single IPv4 or IPv6 address. Using an object group instead of a singular IP address. This helps reduce the configuration complexity in the router by replacing the multiple tunnels with one destination with a single decapsulation tunnel that supports a diverse range of destinations The feature introduces these changes:
|
In IP-in-IP Decapsulation, the router accepts a packet on a tunneled interface only when the tunnel IP address matches the source IP address of the incoming packets. With this implementation, the user needs to configure separate interface tunnels for each IP address that the router needs to receive the traffic packets. This limitation often leads to configuration overload on the router.
You can eliminate the configuration overload on the router by assigning an object group as the tunnel destination for IPv4 and IPv6 traffic types. That is, the router matches the source IP address of the incoming packet against the object group available as the tunnel destination. The decapsulation tunnel accepts the incoming traffic packets when there’s a match between the packet source and the object group. Otherwise, the router drops the packets.
Restrictions
The following restrictions are applicable to the tunnel destination with an object group feature:
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GRE tunnels don’t support configuring object groups as the tunnel destination.
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The router supports configuring tunnel destination with an object group only when the tunnel source is tunnel source direct.
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You can configure the object group as tunnel destination only on default VRF.
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Configuring object groups as the tunnel destination isn’t applicable to tunnel encapsulation.
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Subinterfaces don’t support configuring object groups as the tunnel destination.
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Configuring object groups as the tunnel destination feature is mutually exclusive with ACL and QoS features.
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The tunnel destination feature supports only IPv4 and IPv6 object groups.
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The router does not support changing tunnel configuration after its creation. Configure the tunnel source direct and tunnel destination with an object group while creating the tunnel only.
Prerequisites
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Define an object group including the network elements for the tunnel destination.
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Enable the tunnel source direct feature. For more information, see Decapsulation Using Tunnel Source Direct.
Configuration example
This section provides an example for configuring the tunnel destination with an object group.
IPv4 configuration
Router# configure
/* Configure the IPv4 object group */
Router(config)# object-group network ipv4 Test_IPv4
Router(config-object-group-ipv4)# 192.0.2.0/24
Router(config-object-group-ipv4)# 198.51.100.0/24
Router(config-object-group-ipv4)# 203.0.113.0/24
Router(config-object-group-ipv4)# commit
Router(config-object-group-ipv4)# exit
/* Enters the tunnel configuration mode */
Router(config)# interface tunnel-ip 1
/* Configures the tunnel mode */
Router(config-if)# tunnel mode ipv4 decap
/* Configures the tunnel to accept all packets with destination address matching the IP addresses on the router */
Router(config-if)# tunnel source direct
/* Configures the destination of the tunnel as the defined object-group */
Router(config-if)# tunnel destination object-group ipv4 Test_IPv4
Router(config-if)# no shutdown
Router(config-if)# commit
Router(config-if)# exit
IPv6 configuration
Router# configure
/* Configure the IPv6 object group */
Router(config)# object-group network ipv6 Test_IPv6
Router(config-object-group-ipv6)# 2001:DB8::/32
Router(config-object-group-ipv6)# 2001:DB8::/48
Router(config-object-group-ipv6)# commit
Router(config-object-group-ipv6)# exit
/* Enters the tunnel configuration mode */
Router(config)# interface tunnel-ip 2
/* Configures the tunnel mode */
Router(config-if)# tunnel mode ipv6 decap
/* Configures the tunnel to accept all packets with destination address matching the IP addresses on the router */
Router(config-if)# tunnel source direct
/* Configures the destination of the tunnel as the defined object-group */
Router(config-if)# tunnel destination object-group ipv6 Test_IPv6
Router(config-if)# no shutdown
Router(config-if)# commit
Router(config-if)# exit
Running Configuration
Router# show running-config object-group
object-group network ipv4 Test_IPv4
192.0.2.0/24
198.51.100.0/24
203.0.113.0/24
!
object-group network ipv6 Test_IPv6
2001:DB8::/32
2001:DB8::/48
!
Router#show running-config interface tunnel-ip 1
interface tunnel-ip1
tunnel mode ipv4 decap
tunnel source direct
tunnel destination object-group ipv4 Test_IPv4
!
Router#show running-config interface tunnel-ip 2
Fri Nov 29 11:26:54.716 UTC
interface tunnel-ip2
tunnel mode ipv6 decap
tunnel source direct
tunnel destination object-group ipv6 Test_IPv6
!
Verification
Router# show tunnel ip ea database
----- node0_0_CPU0 -----
tunnel ifhandle 0x80022cc
tunnel source 161.115.1.2
tunnel destination address group Test_IPv4
tunnel transport vrf table id 0xe0000000
tunnel mode gre ipv4, encap
tunnel bandwidth 100 kbps
tunnel platform id 0x0
tunnel flags 0x40003400
IntfStateUp
BcStateUp
Ipv4Caps
Encap
tunnel mtu 1500
tunnel tos 0
tunnel ttl 255
tunnel adjacency flags 0x1
tunnel o/p interface handle 0x0
tunnel key 0x0, entropy length 0 (mask 0xffffffff)
tunnel QT next 0x0
tunnel platform data (nil)
Platform:
Handle: (nil)
Decap ID: 0
Decap RIF: 0
Decap Recycle Encap ID: 0x00000000
Encap RIF: 0
Encap Recycle Encap ID: 0x00000000
Encap IPv4 Encap ID: 0x4001381b
Encap IPv6 Encap ID: 0x00000000
Encap MPLS Encap ID: 0x00000000
DecFEC DecRcyLIF DecStatsId EncRcyLIF