Motorola PMP320 Configuration Manuallines
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Motorola PMP320 Configuration Manuallines

Motorola PMP320 Configuration Manuallines

Edge router
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PMP320 – Edge Router
Configuration Guideline
Release 1.1

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Summary of Contents for Motorola PMP320

  • Page 1 PMP320 – Edge Router Configuration Guideline Release 1.1...

  • Page 2: Revision History

    1 Revision History Revision # Description Date Author Internal Release for April 12, 2010 Akbar Lokhandwala First Informal review External Release April 19, 2010 Akbar Lokhandwala...
  • Page 3 Motorola, Inc. License Agreements The software described in this document is the property of Motorola, Inc and its licensors. It is furnished by express license agreement only and may be used only in accordance with the terms of such an agreement.

  • Page 4: Table Of Contents

    Core network....................... 18 Configuration example....................19 AP IP parameters: ....................20 7.1.1 Configuration of IP parameters on Access Point PMP320 ......21 7.1.2 Configuration of IP Parameters on Cisco 6500/7200 Series Edge Router 27 7.1.2.1 Redistributing RIPv2 route into OSPF network ......29 7.1.2.2...

  • Page 5: List Of Figures

    3 List of Figures Figure 1 Sample Customer Network: Edge Router running OSPF ........9 Figure 2 Redistribute RIPv2 into OSPF network ............... 10 Figure 3 Configure static routes on edge and core routers ..........11 Figure 4 Configure static routes on edge router and redistribute into core network ..

  • Page 6: Abstract

    4 Abstract Primary purpose of this document is to cover Layer3 functionality of PMP320 and how to integrate PMP320 into an existing customer network. We start with the Introduction of RIPv2 routing protocol, then we move on to compare some popular routing protocols with RIPv2.

  • Page 7: Rip Message Format

    Currently RIPv2 timers in PMP320 Access Point are pre-defined as per RFC 1058. Customers who wish to integrate PMP320 with a Cisco Router, they will have to modify the garbage collection timer in the Cisco router to match with PMP320 system. It is important that these timers (update, expiration and garbage collection timer) employed by RIP process are same throughout the network.

  • Page 8: Difference: Ripv1 And Ripv2

    5.3 Difference: RIPv1 and RIPv2 RIPv1 RIPv2 Classful Routing protocol Classless Routing protocol Does not support VLSM Supports VLSM Uses Broadcast to send updates Uses Multicast to send updates 255.255.255.255 224.0.0.9 Does not support Authentication Supports Authentication – MD5 Subnet mask not present in route entry Subnet mask present with each route entry Does not support External route tags Supports External route tags...

  • Page 9: Sample Customer Network

    6.1 Edge Router Running OSPF Customer has an existing Core network and the edge router is running OSPF as the Routing protocol. Customer plans to integrate PMP320 as a layer 3 device (Router Functionality). Figure 1 Sample Customer Network: Edge Router running OSPF...

  • Page 10: Solution 1-Redistribute Ripv2 Into Ospf Network

    6.1.1 Solution 1-Redistribute RIPv2 into OSPF network Step 1: Configure PMP320 as a Layer 3 device. Currently this is the only mode available for PMP320 systems. By default PMP320 system uses RIPv2 as the routing protocol. Only the Fast Ethernet (wired) interface of the AP takes part in RIPv2 routing protocol.

  • Page 11: Solution 2- Static Routes On Edge And Core Routers

    6.1.2 Solution 2- Static routes on Edge and Core Routers Step 1: Configure PMP320 as a Layer 3 device. Currently this is the only mode ava ilable for PMP320 systems. By default PMP320 system uses RIPv2 as the routing protocol. Only the Fast Ethernet (wired) interface of the AP takes part in RIPv2 routing protocol.

  • Page 12: Solution 3 - Static Routes On Edge Router And Redistribute Into Core

    6.1.3 Solution 3 - Static routes on Edge Router and Redistribute into Core network Step 1: Configure PMP320 as a Layer 3 device. Currently this is the only mode available for PMP320 systems. By default PMP320 system uses RIPv2 as the routing protocol. Only the Fast Ethernet (wired) interface of the AP takes part in RIPv2 routing protocol.

  • Page 13: Edge Router Running Bgp

    6.2 Edge Router Running BGP Customer has an existing Core network and the edge router is running BGP as the Routing protocol. Customer plans to integrate PMP320 as a layer 3 device (Router Functionality). Figure 5 Sample Customer Network: Edge Router running BGP...

  • Page 14: Solution 1-Redistribute Ripv2 Into Bgp Network

    6.2.1 Solution 1-Redistribute RIPv2 into BGP network Step 1: Configure PMP320 as a Layer 3 device. Currently this is the only mode available for PMP320 systems. By default PMP320 system uses RIPv2 as the routing protocol. Only the Fast Ethernet (wired) interface of the AP takes part in RIPv2 routing protocol.

  • Page 15: Solution 2- Configure Static Routes On Edge And Core Routers

    6.2.2 Solution 2- Configure Static routes on Edge and Core Routers Same as explained in section 6.1.2 6.2.3 Solution 3 – Configure Static routes on Edge Router and Redistribute into Core network Same as explained in section 6.1.3...

  • Page 16: Edge Router Running Eigrp

    6.3 Edge Router Running EIGRP Customer has an existing Core network and the edge router is running EIGRP as the Routing protocol. Customer plans to integrate PMP320 as a layer 3 device (Router Functionality). Figure 7 Edge Router Running EIGRP Three Possible Solutions can be implemented to integrate PMP320 system to the existing Core Network.

  • Page 17: Solution 1-Redistribute Ripv2 Into Eigrp Network

    6.3.1 Solution 1-Redistribute RIPv2 into EIGRP network Step 1: Configure PMP320 as a Layer 3 device. Currently this is the only mode available for PMP320 systems. By default PMP320 system uses RIPv2 as the routing protocol. Only the Fast Ethernet (wired) interface of the AP takes part in RIPv2 routing protocol.

  • Page 18: Solution 2- Configure Static Routes On Edge And Core Routers

    6.3.2 Solution 2- Configure Static routes on Edge and Core Routers Same as explained in section 6.1.2 6.3.3 Solution 3 – Configure Static routes on Edge Router and Redistribute into Core network Same as explained in section 6.1.3...

  • Page 19: Configuration Example

    (OSPF, EIGRP or BGP) or static routes are in place. Hence from router’s perspective we only concentrate on how to redistribute RIPv2 routes learned via PMP320 into the Core Network. In this document we do not show on how to configure the Edge Router or Core Network for OSPF...

  • Page 20: Ap Ip Parameters

    7.1 AP IP parameters: Example of IP addresses Scheme: Access Default GW Subnet Mask Wireless Wireless Subnet Mask Point Network Address (Router Network address Address Interface) Address AP#1 172.16.10.0 172.16.10.254 172.16.10.1 255.255.255.0 201.201.201.0 201.201.201.1 255.255.255.0 AP#2 172.16.20.0 172.16.20.254 172.16.20.1 255.255.255.0 202.202.202.0 202.202.202.1 255.255.255.0...

  • Page 21: Configuration Of Ip Parameters On Access Point Pmp320

    7.1.1 Configuration of IP parameters on Access Point PMP320 Step 1: Log into PMP320 Access point Step 2: Once you login, you should be able to view the home page...
  • Page 22 Note: The Third Interface “DHCP srv” is for internal PMP320 usage only. Customers should not make any change on this interface. PMP320 system uses this interface as a DHCP Relay agent for Internal DHCP server. In other words, it is a virtual interface not...
  • Page 23 Step 5: Configure Default Gateway for Access Point (Wired Interface). In our case this is the Edge Router (172.16.10.1). Path to navigate to configure the Default gateway of the AP (Wired) interface. Configuration Networking...
  • Page 24 Step 6: Configure an IP Pool for Subscriber Module/CPE. This can be done in two ways. Either enable DHCP server at the PMP320 Access Point or Configure a Static pool. Step 6.1: First method is to configure a DHCP pool on PMP320 Access Point.
  • Page 25 Add/Update/Delete or Cancel Dynamic pools. It allows you to add 8 different pools. In our example since our Wireless interface is configured to be 201.201.201.1. We are starting the pool range from 201.201.201.5 to 201.201.201.254. The Subscriber Module will get an IP address from the range specified here. Step 6.2: Second method is to assign a Static IP address to the CPE based on “mac- address”.
  • Page 26 IP Next Hop field is all set to zeros (0.0.0.0) and type is “direct”. Here is a snapshot of the same AP as shown above but this was after 2 more PMP320 Access Points were configured in the network.

  • Page 27: Configuration Of Ip Parameters On Cisco 6500/7200 Series Edge Router

    7.1.2 Configuration of IP Parameters on Cisco 6500/7200 Series Edge Router NOTE: Section below covers generic configuration required on a Cisco Edge Router. From Step 7 onwards we cover configurations required for “Redistribution” specific to routing protocols. Step 1: Configure the Fast Ethernet interfaces on the Router. Edge-Router#config terminal Enter configuration commands, one per line.
  • Page 28 Step 4: Configure RIP v2 routing protocol on Edge Router. PMP320 Access point runs RIPv2 protocol by default. By doing so, the Edge Router will learn the routes related to Wireless interface of the AP. Edge-Router#config terminal Enter configuration commands, one per line. End with CNTL/Z.

  • Page 29: Redistributing Ripv2 Route Into Ospf Network

    Note: Customer will not be able to ping wireless interface of access point or subscriber module from the IP Cloud (Core Network). In order to perform this, we will have to redistribute RIPv2 routes into core network via Edge Router or configure Static routes. Note: From Step 7 onwards we show specific configuration required by Cisco Routers to redistribute RIPv2 networks into OSPF, EIGRP and BGP networks.
  • Page 30 Figure 10 Redistribution of RIPv2 routes in OSPF...

  • Page 31: Redistributing Ripv2 Routes Into Bgp Network

    7.1.2.2 edistributing RIPv2 routes into BGP network Edge-Router#config terminal Enter configuration commands, one per line. End with CNTL/Z. Edge-Router(config)#router bgp 100 Edge-Router(config-router)#redistribute rip metric 100 Note: In the example above, we have used a metric value of 100.By default if we do not specify the metric value, it will use a value of “1”.
  • Page 32 Figure 11 Redistribution of RIPv2 routes in BGP...

  • Page 33: Redistributing Ripv2 Routes Into Eigrp Network

    7.1.2.3 Redistributing RIPv2 routes into EIGRP network Edge-Router#config terminal Enter configuration commands, one per line. End with CNTL/Z. Edge-Router(config)#router eigrp 200 Edge-Router(config-router)#redistribute rip metric 20000 10 255 1 1500 The statement “redistribute rip metric 20000 10 255 1 1500” will redistribute RIPv2 routes into the Core network.
  • Page 34 201.201.201.0/24 202.202.202.0/24 .254 .254 TOWER #1 .254 .254 100.100.100.1/24 172.16.10.1/24 EIGRP AS 200 already 172.16.20.1/24 running on Edge RIP v2 Network 172.16.30.1/24 Router .254 .254 172.16.40.1/24 Enable RIPv2 .254 .254 E1/4 E1/2 E0/0 203.203.203.0/24 204.204.204.0/24 Core Router Edge Router SWITCH E1/1 E1/0 Redistribute RIPv2.

  • Page 35: Configure Static Routes Only On The Edge Router And Redistribute Into Core Network

    7.1.2.4 Configure Static Routes on the Edge Router and Core Network Edge-Router#config terminal Enter configuration commands, one per line. End with CNTL/Z. Edge-Router(config)#ip route 201.201.201.0 255.255.255.0 172.16.10.254 Edge-Router(config)#ip route 202.202.202.0 255.255.255.0 172.16.20.254 Edge-Router(config)#ip route 203.203.203.0 255.255.255.0 172.16.30.254 Edge-Router(config)#ip route 204.204.204.0 255.255.255.0 172.16.40.254 Once you add the following “STATIC”...

  • Page 36: Redistribute Static Routes Into Ospf Network

    the Core Router. For that to work, we will have to redistribute static routes in the Core Network. 7.1.2.5.1 distribute Static routes into OSPF Network Edge-Router# Edge-Router#config terminal Enter configuration commands, one per line. End with CNTL/Z. Edge-Router(config)#router ospf 1 Edge-Router(config-router)#redistribute static subnets 7.1.2.5.2 Redistribute Static routes into EIGRP Network Edge-Router#...

  • Page 37: Figure 13 Configure Static Routes In Edge Router/Core Network

    Figure 13 Configure Static routes in Edge Router/Core Network...

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