07-03-2012 05:52 AM - edited 03-01-2019 04:49 PM
Otimized Edge Routing (OER) also known as Performance Routing (PFR) ia an alternative way of routing traffic. OER/PfR selects a path based on the performance of the path and hence optimizing the connections. For example, an OER enabled edge router connected with two ISP can perform load sharing by transmitting data to 2nd ISP when it detect conjestion over 1st ISP link. OER/PfR can measure parameters such as delay, throughput, loss and reachability, among others, pre-determined policies to select the best performing path, and route packets accordingly.
OER has two components: a Master Controller (MC) and one or more Border Routers (BR). The Master Controller is the decision maker, whereas the border routers are edge routers with exit interfaces at the network edge. Border routers are either used to access the Internet or used as WAN exit links. OER communication between the master controller and the border routers is carried separately from routing protocol traffic. This communication is protected by Message Digest 5 (MD5) authentication. Each border router has both an external interface, which is connected, for example, to an ISP by a WAN link, and an internal interface that is reachable by the master controller.
In this document Router R1, R2 and R3 forms an OSPF neighbor relationshio (Area 0) and acting as internal network.
Router R1 from OER perspective being the Master Controller (MC) and the Border Router (BR). There could be scenarios where MC and BR are two different identities. However for simplicity I have choosen R1 to act as both i.e. MC and BR. The two components taks over TCP connection authenticated via MD5. Router R1 has redundant connection to R4 through interface (FastEthernet 1/0 and Serial 0/0).
Router R4 is the provider router which is injecting default route 0.0.0.0/0 into R1 via FastEthernet 0/0, making this path primary and Serial 0/0 secondary path.
NOTE: All configurations are tested on Cisco 3745 Router operation on IOS Version 12.4(15)T14 Advance IP Services version.
R1-->MC and BR Configuration
key chain OER
key 1
key-string CISCO
!
oer master
policy-rules OER
logging
!
border 1.1.1.1 key-chain OER
interface Serial0/0 external
interface FastEthernet1/0 external
interface FastEthernet0/1 internal
interface FastEthernet0/0 internal
!
learn
periodic-interval 0
monitor-period 1
no max range receive
mode route control
!
oer border
local Loopback0
master 1.1.1.1 key-chain OER
R1--> OER Policy Configuration
ip access-list extended ICMP-TRAFFIC
permit icmp any host 4.4.4.4
ip access-list extended TELNET-TRAFFIC
permit tcp any host 44.44.44.44 eq chargen
!
oer-map OER 10
match traffic-class access-list ICMP-TRAFFIC
set next-hop 172.14.14.4
!
oer-map OER 20
match traffic-class access-list TELNET-TRAFFIC
set next-hop 172.16.14.2
!
Note: For complete configurations, see attached text files (Config-R1, Config-R2, Config-R3, Config-R4).
Note: The output is truncated, for complete output of the command "show oer master" see attached file
Setting Up OER Network Components
Optimized Edge Routing Configuration Guide, Cisco IOS Release 12.4T
awesom work! keep it up Sunil
Thank you so much. Simplified version of OER.
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