IP Routing: EIGRP Configuration Guide, Cisco IOS XE Fuji 16.9.x
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The EIGRP stub routing feature improves network stability, reduces resource utilization, and simplifies the stub device configuration.
Stub routing is commonly used in hub-and-spoke network topologies. In a hub-and-spoke network, one or more end (stub) networks
are connected to a remote device (the spoke) that is connected to one or more distribution devices (the hub). The remote device
is adjacent to one or more distribution devices. The only route for IP traffic to reach the remote device is through a distribution
device.
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Information About EIGRP Stub Routing
EIGRP Stub Routing
The EIGRP stub routing feature improves network stability, reduces resource utilization, and simplifies the stub device configuration.
Stub routing is commonly used in hub-and-spoke network topologies. In a hub-and-spoke network, one or more end (stub) networks
are connected to a remote device (the spoke) that is connected to one or more distribution devices (the hub). The remote device
is adjacent to one or more distribution devices. The only route for IP traffic to reach the remote device is through a distribution
device. This type of configuration is commonly used in WAN topologies, where the distribution device is directly connected
to a WAN. The distribution device can be connected to many remote devices, which is often the case. In a hub-and-spoke topology,
the remote device must forward all nonlocal traffic to a distribution device, so it becomes unnecessary for the remote device
to have a complete routing table. Generally, the distribution device need not send anything more than a default route to the
remote device.
When using the EIGRP stub routing feature, you need to configure the distribution and remote devices to use EIGRP and configure
only the remote device as a stub. Only specified routes are propagated from the remote (stub) device. The stub device responds
to all queries for summaries, connected routes, redistributed static routes, external routes, and internal routes with the
message “inaccessible.” A device that is configured as a stub will send a special peer information packet to all neighboring
devices to report its status as a stub device.
Any neighbor that receives a packet informing it of the stub status will not query the stub device for any routes, and a
device that has a stub peer will not query that peer. The stub device will depend on the distribution device to send proper
updates to all peers.
The figure below shows a simple hub-and-spoke network.
The stub routing feature by itself does not prevent routes from being advertised to the remote device. In the above example,
the remote device can access the corporate network and the Internet only through the distribution device. Having a complete
route table on the remote device would serve no functional purpose because the path to the corporate network and the Internet
would always be through the distribution device. The large route table would only reduce the amount of memory required by
the remote device. Bandwidth and memory can be conserved by summarizing and filtering routes in the distribution device. The
remote device need not receive routes that have been learned from other networks because the remote device must send all nonlocal
traffic, regardless of the destination, to the distribution device. If a true stub network is desired, the distribution device
should be configured to send only a default route to the remote device. The EIGRP stub routing feature does not automatically
enable summarization on distribution devices. In most cases, the network administrator will need to configure summarization
on distribution devices.
Note
When configuring the distribution device to send only a default route to the remote device, you must use the
ip classless command on the remote device. By default, the
ip classless command is enabled in all Cisco images that support the EIGRP stub routing feature.
Without the EIGRP stub routing feature, even after routes that are sent from the distribution device to the remote device
have been filtered or summarized, a problem might occur. If a route is lost somewhere in the corporate network, EIGRP could
send a query to the distribution device, which in turn would send a query to the remote device, even if routes are being summarized.
If there is a communication problem (over the WAN link) between the distribution device and the remote device, an EIGRP stuck
in active (SIA) condition could occur and cause instability elsewhere in the network. The EIGRP stub routing feature allows
a network administrator to prevent queries from being sent to the remote device.
Dual-Homed Remote
Topology
In addition to a
simple hub-and-spoke network, where a remote device is connected to a single
distribution device, the remote device can be dual-homed to two or more
distribution devices. This configuration adds redundancy and introduces unique
issues, and the stub feature helps to address some of these issues.
A dual-homed remote
device will have two or more distribution (hub) devices. However, the
principles of stub routing are the same as they are with a hub-and-spoke
topology. The figure below shows a common dual-homed remote topology with one
remote device: however, 100 or more devices could be connected on the same
interfaces on distribution Device 1 and distribution Device 2. The remote
device will use the best route to reach its destination. If distribution Device
1 experiences a failure, the remote device can still use distribution Device 2
to reach the corporate network.
The figure above
shows a simple dual-homed remote topology with one remote device and two
distribution devices. Both distribution devices maintain routes to the
corporate network and stub network 10.1.1.0/24.
Dual-homed routing
can introduce instability into an EIGRP network. In the figure below,
distribution Device 1 is directly connected to network 10.3.1.0/24. If
summarization or filtering is applied on distribution Device 1, the device will
advertise network 10.3.1.0/24 to all of its directly connected EIGRP neighbors
(distribution Device 2 and the remote device).
The figure above
shows a simple dual-homed remote topology, where distribution Device 1 is
connected to both network 10.3.1.0/24 and network 10.2.1.0/24.
If the 10.2.1.0/24
link between distribution Device 1 and distribution Device 2 fails, the lowest
cost path to network 10.3.1.0/24 from distribution Device 2 will be through the
remote device (see the figure below). This route is not desirable because the
traffic that was previously traveling across the corporate network 10.2.1.0/24
would now be sent across a much lower bandwidth connection. The overutilization
of the lower bandwidth WAN connection can cause many problems that might affect
the entire corporate network. The use of the lower bandwidth route that passes
through the remote device may cause WAN EIGRP distribution devices to be
dropped. Serial lines on distribution and remote devices may also be dropped,
and EIGRP SIA errors on the distribution and core devices can occur.
It is not desirable
for traffic from distribution Device 2 to travel through any remote device to
reach network 10.3.1.0/24. Backup routes can be used if links are sized to
manage the load. However, most networks, of the type shown in the figure above,
have remote devices located at remote offices with relatively slow links. To
ensure that traffic from distribution devices are not routed through a remote
device, you can configure route summarization on the distribution device and
the remote device.
It is typically
undesirable for traffic from a distribution device to use a remote device as a
transit path. A typical connection from a distribution device to a remote
device would have much less bandwidth than a connection at the network core.
Attempting to use a remote device with a limited bandwidth connection as a
transit path would generally produce excessive congestion at the remote device.
The EIGRP stub routing feature can prevent this problem by preventing the
remote device from advertising core routes back to the distribution devices. In
the above example, routes learned by the remote device from distribution Device
1 will not be advertised to distribution Device 2. Therefore, distribution
Device 2 will not use the remote device as a transit for traffic destined to
the network core.
The EIGRP stub
routing feature provides network stability. If the network is not stable, this
feature prevents EIGRP queries from being sent over limited bandwidth links to
nontransit devices. Instead, distribution devices to which the stub device is
connected answer queries on behalf of the stub device. This feature greatly
reduces the chance of further network instability due to congested or
problematic WAN links. The EIGRP stub routing feature also simplifies the
configuration and maintenance of hub-and-spoke networks. When stub routing is
enabled in dual-homed remote configurations, it is no longer necessary to
configure filtering on remote devices to prevent those devices from appearing
as transit paths to hub devices.
Caution
The EIGRP stub
routing feature should be used only on stub devices. A stub device is defined
as a device connected to the network core or distribution layer through which
core transit traffic should not flow. A stub device should not have any EIGRP
neighbors other than distribution devices. Ignoring this restriction will cause
undesirable behavior.
Note
Multiaccess
interfaces such as ATM, Gigabit Ethernet, Frame Relay, ISDN PRI, and X.25 are
supported by the EIGRP stub routing feature only when all devices on that
interface, except the hub, are configured as stub devices.
How to Configure EIGRP Stub Routing
Configuring the EIGRP Stub Routing Autonomous System Configuration
Device# show eigrp address-family ipv4 neighbors detail
(Optional)
Displays neighbors discovered by EIGRP.
Configuration Examples for EIGRP Stub Routing
Example: EIGRP Stub Routing—Autonomous System Configuration
A device that is configured as a stub with the
eigrp stub command shares connected and summary routing information with all neighbor devices by default. The following six keywords
can be used with the
eigrp stub command to modify this behavior:
connected
leak-map
receive-only
redistributed
static
summary
This section provides configuration examples for all forms of the
eigrp stub command for an EIGRP autonomous system configuration.
Example: eigrp stub Command
In the following example, the
eigrp stub command is used to configure the device as a stub that advertises connected and summary routes:
In the following example, the
eigrp stub command is used with the
connected and
static keywords to configure the device as a stub that advertises connected and static routes (sending summary routes will not be
permitted):
In the following example, the
eigrp stub command is issued with the
leak-map name keyword-argument pair to configure the device to reference a leak map that identifies routes that would have been suppressed:
In the following example, the
eigrp stub command is issued with the
receive-only keyword to configure the device as a receive-only neighbor (connected, summary, and static routes will not be sent):
In the following example, the
eigrp stub command is issued with the
redistributed keyword to configure the device to advertise other protocols and autonomous systems:
A device that is configured as a stub with the
eigrp stub command shares connected and summary routing information with all neighbor devices by default. The following six keywords
can be used with the
eigrp stub command to modify this behavior:
connected
leak-map
receive-only
redistributed
static
summary
This section provides configuration examples for all forms of the
eigrp stub command for an EIGRP named configuration.
Example: eigrp stub Command
In the following example, the
eigrp stub command is used to configure the device as a stub that advertises connected and summary routes:
In the following named configuration example, the
eigrp stub command is issued with the
connected and
static keywords to configure the device as a stub that advertises connected and static routes (sending summary routes will not be
permitted):
In the following named configuration example, the
eigrp stub command is issued with the
leak-map name keyword-argument pair to configure the device to reference a leak map that identifies routes that would normally have been
suppressed:
In the following named configuration example, the
eigrp stub command is issued with the
receive-only keyword to configure the device as a receive-only neighbor (connected, summary, and static routes will not be sent):
In the following named configuration example, the
eigrp stub command is issued with the
redistributed keyword to configure the device to advertise other protocols and autonomous systems:
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The following table provides release information about the feature or features described in this module. This table lists
only the software release that introduced support for a given feature in a given software release train. Unless noted otherwise,
subsequent releases of that software release train also support that feature.
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Feature Navigator, go to www.cisco.com/go/cfn. An account on Cisco.com is not required.
Table 1. Feature Information for EIGRP
Stub Routing
Feature
Name
Releases
Feature
Information
EIGRP Stub
Routing
The EIGRP
Stub Routing feature improves network stability, reduces resource utilization,
and simplifies stub router configuration. Stub routing is commonly used in a
hub-and-spoke network topology. In a hub-and-spoke network, one or more end
(stub) networks are connected to a remote router (the spoke) that is connected
to one or more distribution routers (the hub). The remote router is adjacent
only to one or more distribution routers.
The
following command was introduced or modified:
eigrp stub .