- EIGRP
- IPv6 Routing: EIGRP Support
- EIGRP MIB
- EIGRP MPLS VPN PE-CE Site of Origin
- EIGRP Nonstop Forwarding Awareness
- EIGRP Nonstop Forwarding
- EIGRP IPv6 NSF/GR
- EIGRP Prefix Limit Support
- EIGRP Support for Route Map Filtering
- EIGRP Route Tag Enhancements
- BFD Support for EIGRP IPv6
- EIGRP Loop-Free Alternate Fast Reroute
- Add Path Support in EIGRP
- EIGRP Wide Metrics
- EIGRP/SAF HMAC-SHA-256 Authentication
- IP EIGRP Route Authentication
- EIGRP IPv6 VRF-Lite
- EIGRP Stub Routing
- EIGRP Support for 6PE/6VPE
- EIGRP Over the Top
- EIGRP OTP VRF Support
- EIGRP Classic to Named Mode Conversion
- EIGRP IWAN Simplification
EIGRP Support for Route Map Filtering
The EIGRP Support for Route Map Filtering feature enables Enhanced Interior Gateway Routing Protocol (EIGRP) to interoperate with other protocols to leverage additional routing functionality by filtering inbound and outbound traffic based on complex route map options. Several extended filtering options are introduced to provide EIGRP-specific match choices.
- Finding Feature Information
- Information About EIGRP Support for Route Map Filtering
- How to Configure EIGRP Support for Route Map Filtering
- Configuration Examples for EIGRP Support for Route Map Filtering
- Additional References
- Feature Information for EIGRP Support for Route Map Filtering
Finding Feature Information
Your software release may not support all the features documented in this module. For the latest caveats and feature information, see Bug Search Tool and the release notes for your platform and software release. To find information about the features documented in this module, and to see a list of the releases in which each feature is supported, see the feature information table.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/go/cfn. An account on Cisco.com is not required.
Information About EIGRP Support for Route Map Filtering
EIGRP Route Map Support
EIGRP support for route map filtering enables EIGRP to interoperate with other protocols by filtering inbound and outbound traffic based on route map options. Additional EIGRP-specific match choices are available to allow flexibility in fine-tuning EIGRP network operations.
EIGRP supports the route map filtering capability that exists for other routing protocols to filter routes being redistributed into their protocol. For more details about understanding and configuring route maps, see the Enabling Policy Routing section of the Configuring IP Routing Protocol-Independent Features module of the Cisco IOS XE IP Routing: Protocol-Independent Configuration Guide, Release 2.
Match options allow EIGRP to filter internal and external routes based on source protocols, to match a metric against a range, and to match on an external protocol metric.
EIGRP can be configured to filter traffic using a route map and the redistribute or distribute-list command. Using a route map with the redistribute command allows routes that are redistributed from the routing table to be filtered with a route map before being admitted into an EIGRP topology table. Routes that are dynamically received from, or advertised to, EIGRP peers can be filtered by adding a route map option to the distribute-list command.
A route map may be configured with both the redistribute and the distribute-list commands in the same routing process. When a route map is used with a distribute-list command that is configured for inbound or outbound filtering, route packets that are learned from or advertised to EIGRP peers can be processed with the route map to provide better control of route selection during the route exchange process. Redistribution serves as a mechanism to import routes into the EIGRP topology table from a routing table. A route map configured with the redistribute command adds flexibility to the redistribution capability and results in a more specific redistributed route selection.
The use of route maps to filter traffic is the same for both autonomous-system configurations and named configurations. See the Configuring EIGRP module for more information about autonomous system and named configurations.
Demands for EIGRP to interoperate with other protocols and flexibility in fine-tuning network operation necessitate the capability to filter traffic using a route map.
How to Configure EIGRP Support for Route Map Filtering
- Setting EIGRP Tags Using a Route Map for Autonomous System Configurations
- Setting EIGRP Tags Using a Route Map for Named Configurations
- Configuring EIGRP Route-map for Distribute-list in IPv6
Setting EIGRP Tags Using a Route Map for Autonomous System Configurations
Perform this task to set EIGRP tags for autonomous system configurations using a route map. The EIGRP metrics used for filtering are configured within a route map. The first match clause defines EIGRP routes that contain an external protocol metric between 400 and 600 inclusive; the second match clause defines EIGRP external routes that match a source protocol of BGP and the autonomous system 45000. When the two match clauses are true, a tag value of the destination routing protocol is set to 5. This route map can be used with the distribute-list command, see the Example Setting EIGRP Tags Using a Route Map--Autonomous System Configuration Examples for an example configuration.
1.
enable
2.
configure
terminal
3.
route-map
map-tag
[permit |
deny]
[sequence-number]
4.
match
metric
{metric-value|
external metric-value}
[+- deviation-number]
5.
match
source-protocol
source-protocol
[autonomous-system-number]
6.
set
tag
tag-value
7.
exit
8.
router
eigrp
as-number
9.
network
ip-address
10.
distribute-list
route-map
map-tag
in
DETAILED STEPS
Setting EIGRP Tags Using a Route Map for Named Configurations
Perform this task to set EIGRP tags for named configurations using a route map. The EIGRP metrics used for filtering are configured within a route map. The first match clause defines EIGRP routes that contain an external protocol metric between 400 and 600 inclusive; the second match clause defines EIGRP external routes that match a source protocol of BGP and the autonomous system 45000. When the two match clauses are true, a tag value of the destination routing protocol is set to 5. This route map can be used with the distribute-list command, see the Example Setting EIGRP Tags Using a Route Map--Named Configuration Examples for an example configuration.
1.
enable
2.
configure
terminal
3.
route-map
map-tag
[permit |
deny] [sequence-number]
4.
set
metric
bandwidth
delay
reliability
loading
mtu
5.
match
ip
route-source
{access-list-number|
access-list-name} [...access-list-number |
...access-list-name]
6.
match
metric
{metric-value|
external
metric-value}
[+-
deviation-number]
7.
match
source-protocol
source-protocol
[autonomous-system-number]
8.
set
tag
tag-value
9.
exit
10.
router
eigrp
virtual-instance-name
12.
network
ip-address
[wildcard-mask]
13.
af-interface
{default |
interface-type
interface-number}
14.
next-hop-self
15.
exit-af-interface
16.
topology
{base |
topology-name
tid
number}
17.
distribute-list
route-map
map-tag
in
DETAILED STEPS
Command or Action | Purpose | |||||
---|---|---|---|---|---|---|
Step 1 |
enable
Example: Router> enable |
Enables privileged EXEC mode. | ||||
Step 2 |
configure
terminal
Example: Router# configure terminal |
Enters global configuration mode. | ||||
Step 3 |
route-map
map-tag
[permit |
deny] [sequence-number]
Example: Router(config)# route-map metric-range |
Enters route-map configuration mode. | ||||
Step 4 |
set
metric
bandwidth
delay
reliability
loading
mtu
Example: Router(config-route-map)# set metric 10000 10 255 1 1500 |
(Optional) Sets the metric value for EIGRP in a route map. | ||||
Step 5 |
match
ip
route-source
{access-list-number|
access-list-name} [...access-list-number |
...access-list-name]
Example: Router(config-route-map)# match ip route-source 5 80 |
Redistributes routes that have been advertised by routers and access servers at the address specified by the access lists. | ||||
Step 6 |
match
metric
{metric-value|
external
metric-value}
[+-
deviation-number]
Example: Router(config-route-map)# match metric external 500 +- 100 |
Specifies a match clause that includes EIGRP routes that match an internal or external protocol metric.
| ||||
Step 7 |
match
source-protocol
source-protocol
[autonomous-system-number]
Example: Router(config-route-map)# match source-protocol bgp 45000 |
Specifies a match clause that includes EIGRP external routes that match a source protocol.
| ||||
Step 8 |
set
tag
tag-value
Example: Router(config-route-map)# set tag 5 |
Sets a tag value on the route in the destination routing protocol when all the match criteria of a route map are met. | ||||
Step 9 |
exit
Example: Router(config-route-map)# exit |
Exits route-map configuration mode and returns to global configuration mode. | ||||
Step 10 |
router
eigrp
virtual-instance-name
Example: Router(config)# router eigrp virtual-name1 |
Configures the EIGRP routing process and enters router configuration mode. | ||||
Step 11 | Do one of the
following:
Example: Router(config-router)# address-family ipv4 autonomous-system 45000 |
Enters address family configuration mode to configure an EIGRP IPv4 or IPv6 routing instance. | ||||
Step 12 |
network
ip-address
[wildcard-mask]
Example: Router(config-router-af)# network 172.16.0.0 |
Specifies a network for the EIGRP routing process. | ||||
Step 13 |
af-interface
{default |
interface-type
interface-number}
Example: Router(config-router-af)# af-interface default |
Enters address family interface configuration mode to configure interface-specific EIGRP commands. | ||||
Step 14 |
next-hop-self
Example: Router(config-router-af-interface)# next-hop-self |
Enables EIGRP to advertise routes with the local outbound interface address as the next hop. | ||||
Step 15 |
exit-af-interface
Example: Router(config-router-af-interface)# exit-af-interface |
Exits address-family interface configuration mode. | ||||
Step 16 |
topology
{base |
topology-name
tid
number}
Example: Router(config-router-af)# topology base |
Configures an EIGRP process to route IP traffic under the specified topology instance and enters address family topology configuration mode. | ||||
Step 17 |
distribute-list
route-map
map-tag
in
Example: Router(config-router-af-topology)# distribute-list route-map metric-range in |
Filters networks received in updates. |
Configuring EIGRP Route-map for Distribute-list in IPv6
1.
enable
2.
configure
terminal
3.
router
eigrp
virtual-instance-name
4.
address-family
ipv6
[unicast]
[vrf
vrf-name]
autonomous-system
autonomous-system-number
5.
topology
{base |
topology-name
tid
number}
6.
distribute-list
route-map
map-tag
in
7.
distribute-list
route-map
map-tag
out
8.
exit-af-toplogy
9.
exit-address-family
10.
route-map
map-tag
[permit |
deny]
[sequence-number]
11.
match
ipv6
address
{prefix-list
prefix-list-name |
access-list-name}
12.
set
tag
tag-value
13.
route-map
map-tag
[permit |
deny]
[sequence-number]
14.
match
interface
interface-type
interface-number
[...interface-type
interface-number]
15.
set
tag
tag-value
16.
route-map
map-tag
[permit |
deny]
[sequence-number]
17.
match
metric
bandwidth
delay
reliability
loading
mtu
18.
route-map
map-tag
[permit |
deny]
[sequence-number]
19.
match
ipv6
address
{prefix-list
prefix-list-name |
access-list-name}
20.
set
tag
tag-value
21.
route-map
map-tag
[permit |
deny]
[sequence-number]
22.
match
interface
interface-type
interface-number
[...interface-type
interface-number]
23.
set
tag
tag-value
24.
route-map
map-tag
[permit |
deny]
[sequence-number]
25.
match
metric
bandwidth
delay
reliability
loading
mtu
26.
end
DETAILED STEPS
Command or Action | Purpose | |
---|---|---|
Step 1 |
enable
Example: Router> enable |
Enables privileged EXEC mode. |
Step 2 |
configure
terminal
Example: Router# configure terminal |
Enters global configuration mode. |
Step 3 |
router
eigrp
virtual-instance-name
Example: Router(config)# router eigrp virtual1 |
Configures the EIGRP routing process and enters router configuration mode. |
Step 4 |
address-family
ipv6
[unicast]
[vrf
vrf-name]
autonomous-system
autonomous-system-number
Example: Router(config-router)# address-family ipv6 autonomous-system 1 |
Enters address family configuration mode to configure an EIGRP IPv6 routing instance. |
Step 5 |
topology
{base |
topology-name
tid
number}
Example: Router(config-router-af)# topology base |
Configures an EIGRP process to route IP traffic under the specified topology instance and enters address family topology configuration mode. |
Step 6 |
distribute-list
route-map
map-tag
in
Example: Router(config-router-af-topology)# distribute-list route-map map_in in |
Enables filtering of the networks received in EIGRP updates. |
Step 7 |
distribute-list
route-map
map-tag
out
Example: Router(config-router-af-topology)# distribute-list route-map map_out out |
Enables suppressing of networks from being advertised in the EIGRP updates. |
Step 8 |
exit-af-toplogy
Example: Router(config-router-af-topology)# exit-af-topology |
Exits address-family topology configuration mode. |
Step 9 |
exit-address-family
Example: Router(config-router-af)# exit-address-family |
Exits address-family configuration mode. |
Step 10 |
route-map
map-tag
[permit |
deny]
[sequence-number]
Example: Router(config)# route-map map1 permit 10 |
Enters route-map configuration mode. |
Step 11 |
match
ipv6
address
{prefix-list
prefix-list-name |
access-list-name}
Example: Router(config-route-map)# match ipv6 address acl1 |
Specifies an IPv6 access list to match for redistributing routes that have been advertised by routers and access servers. |
Step 12 |
set
tag
tag-value
Example: Router(config-route-map)# set tag 10 |
Sets a tag value for the route in the route map. |
Step 13 |
route-map
map-tag
[permit |
deny]
[sequence-number]
Example: Router(config)# route-map map1 permit 20 |
Specifies route map name and set action to redistribute the route if the match criteria are met. |
Step 14 |
match
interface
interface-type
interface-number
[...interface-type
interface-number]
Example: Router(config-route-map)# match interface ethernet 0/0 |
Specifies the next hop out of the interface to distribute the associated routes. |
Step 15 |
set
tag
tag-value
Example: Router(config-route-map)# set tag 20 |
Sets a tag value for the route in the route map. |
Step 16 |
route-map
map-tag
[permit |
deny]
[sequence-number]
Example: Router(config)# route-map map1 permit 30 |
Specifies route map name and set action to redistribute the route if the match criteria are met. |
Step 17 |
match
metric
bandwidth
delay
reliability
loading
mtu
Example: Router(config-route-map)# match metric 10000 100 255 100 1500 |
Specifies the metric value for EIGRP in a route map. |
Step 18 |
route-map
map-tag
[permit |
deny]
[sequence-number]
Example: Router(config)# route-map map2 permit 10 |
Enters route-map configuration mode. |
Step 19 |
match
ipv6
address
{prefix-list
prefix-list-name |
access-list-name}
Example: Router(config-route-map)# match ipv6 address acl1 |
Specifies an IPv6 access list to match for redistributing routes that have been advertised by routers and access servers. |
Step 20 |
set
tag
tag-value
Example: Router(config-route-map)# set tag 10 |
Sets a tag value for the route in the route map. |
Step 21 |
route-map
map-tag
[permit |
deny]
[sequence-number]
Example: Router(config)# route-map map2 permit 20 |
Specifies route map name and set action to redistribute the route if the match criteria are met. |
Step 22 |
match
interface
interface-type
interface-number
[...interface-type
interface-number]
Example: Router(config-route-map)# match interface ethernet 0/0 |
Specifies the next hop out of the interface to distribute the associated routes. |
Step 23 |
set
tag
tag-value
Example: Router(config-route-map)# set tag 20 |
Sets a tag value for the route in the route map. |
Step 24 |
route-map
map-tag
[permit |
deny]
[sequence-number]
Example: Router(config)# route-map map2 permit 30 |
Specifies route map name and set action to redistribute the route if the match criteria are met. |
Step 25 |
match
metric
bandwidth
delay
reliability
loading
mtu
Example: Router(config-route-map)# match metric 1000 100 255 200 1800 |
Specifies the metric value for EIGRP in a route map. |
Step 26 |
end
Example: Router(config-route-map)# end | Exits route-map configuration mode and returns to privileged EXEC mode. |
Configuration Examples for EIGRP Support for Route Map Filtering
- Example Setting EIGRP Tags Using a Route Map--Autonomous System Configuration Examples
- Example Setting EIGRP Tags Using a Route Map--Named Configuration Examples
- Example Configuring EIGRP Route-map for Distribute-list in IPv6
Example Setting EIGRP Tags Using a Route Map--Autonomous System Configuration Examples
The following example shows how to configure a route map to match an EIGRP external protocol metric route with an allowable deviation of 100, a source protocol of BGP, and an autonomous system 45000. When the two match clauses are true, the tag value of the destination routing protocol is set to 5. The route map is used to distribute incoming packets for an EIGRP process.
Router(config)# route-map metric-range Router(config-route-map)# match metric external 500 +- 100 Router(config-route-map)# match source-protocol bgp 45000 Router(config-route-map)# set tag 5 Router(config-route-map)# exit Router(config)# router eigrp 1 Router(config-router)# network 172.16.0.0 Router(config-router)# distribute-list route-map metric_range in
The following example shows how to configure a route map to match EIGRP routes with a metric of 110, 200, or an inclusive range of 700 to 800. When the match clause is true, the tag value of the destination routing protocol is set to 10. The route map is used to redistribute EIGRP packets.
Router(config)# route-map metric-eigrp Router(config-route-map)# match metric 110 200 750 +- 50 Router(config-route-map)# set tag 10 Router(config-route-map)# exit Router(config)# router eigrp 1 Router(config-router)# network 172.21.1.0/24 Router(config-router)# redistribute eigrp route-map metric-eigrp
Example Setting EIGRP Tags Using a Route Map--Named Configuration Examples
The following example shows how to configure a route map to match an EIGRP external protocol metric route with an allowable deviation of 100, a source protocol of BGP, and an autonomous system 45000. When the two match clauses are true, the tag value of the destination routing protocol is set to 5. The route map is used to distribute incoming packets for an EIGRP process.
Router(config)# route-map metric_range Router(config-route-map)# match metric external 500 +- 100 Router(config-route-map)# match source-protocol bgp 45000 Router(config-route-map)# set tag 5 Router(config-route-map)# exit Router(config)# router eigrp virtual-name Router(config-router)# address-family ipv4 autonomous-system 45000 Router(config-router-af)# network 172.21.1.0/24 Router(config-router-af)# topology base Router(config-router-af-topology)# distribute-list route-map metric_range in
The following example shows how to configure a route map to match EIGRP routes with a metric of 110, 200, or an inclusive range of 700 to 800. When the match clause is true, the tag value of the destination routing protocol is set to 10. The route map is used to redistribute EIGRP packets.
Router(config)# route-map metric_eigrp Router(config-route-map)# match metric 110 200 750 +- 50 Router(config-route-map)# set tag 10 Router(config-route-map)# exit Router(config)# router eigrp virtual-name Router(config-router)# address-family ipv4 autonomous-system 45000 Router(config-router-af)# network 172.21.1.0/24 Router(config-router-af)# topology base Router(config-router-af-topology)# distribute-list route-map metric-range in
Example Configuring EIGRP Route-map for Distribute-list in IPv6
The following example shows how to configure EIGRP route maps for distribute list in IPv6.
enable configure terminal router eigrp test address-family ipv6 unicast autonomous-system 1 topology base distribute-list route-map map_in distribute-list route-map map_out exit-af-topology exit-address-family route-map map_in permit 10 match ipv6 address acl1 set tag 15 route-map map_in permit 20 match interface Ethernet0/0 set tag 25 route-map map_in permit 30 match metric 10000 1000 255 255 1024 route-map map_out permit 20 match ipv6 address acl1 set tag 25 route-map map_out permit 40 match interface Ethernet0/0 set tag 35 route-map map_out permit 50 match metric 10000 100 255 200 1024 end
Additional References
Related Documents
Related Topic |
Document Title |
---|---|
Cisco IOS commands |
|
EIGRP overview and configuration |
Configuring EIGRP |
EIGRP commands including syntax, usage guidelines, and examples |
Cisco IOS IP Routing: EIGRP Command Reference |
Standards
Standard |
Title |
---|---|
None |
-- |
MIBs
MIB |
MIBs Link |
---|---|
None |
To locate and download MIBs for selected platforms, Cisco software releases, and feature sets, use Cisco MIB Locator found at the following URL: |
RFCs
RFC |
Title |
---|---|
None |
-- |
Technical Assistance
Description |
Link |
---|---|
The Cisco Support and Documentation website provides online resources to download documentation, software, and tools. Use these resources to install and configure the software and to troubleshoot and resolve technical issues with Cisco products and technologies. Access to most tools on the Cisco Support and Documentation website requires a Cisco.com user ID and password. |
Feature Information for EIGRP Support for Route Map Filtering
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.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/go/cfn. An account on Cisco.com is not required.
Feature Name |
Releases |
Feature Information |
---|---|---|
EIGRPv6 Route-map support for Distribute-list |
Cisco IOS XE Release 3.17S |
The EIGRPv6 Route-map support for Distribute-list feature enables EIGRP route-map in the distribute list for IPv6 networks. The following commands were introduced or modified by this feature: match metric, match tag, show interface, match ipv6 address, match route-type, match ipv6 next-hop, set tag set metric, address-family, topology. |
EIGRP Support for Route Map Filtering |
Cisco IOS XE Release 2.1 |
The EIGRP Support for Route Map Filtering feature enables EIGRP to interoperate with other protocols by filtering inbound and outbound traffic based on complex route map options. Several extended filtering options are introduced to provide EIGRP-specific match choices. In Cisco IOS XE Release 2.1, this feature was introduced on the Cisco ASR 1000 Series Aggregation Services Routers. The following commands were introduced or modified by this feature: match metric (IP), match source-protocol, ip eigrp topology. In Cisco IOS XE Release 2.5, the following command was introduced or modified for this feature: show eigrp address-family topology |