Avaya ERS 8800 Technical Configuration Manual

Ethernet Routing Switch

8800

Virtual Services Platform

9000

Engineering

> Migrating to a Virtual Services Fabric

using Shortest Path Bridging

Technical Configuration Guide

Avaya Data Solutions

Document Date: March 2013

Document Number: NN48500-622

Document Version: 2.0

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Notices

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Abstract

This Technical Configuration Guide provides an example of migrating a SMLT/RSMLT network to a

Virtual Services Fabric using SPBM. It is assumed you have a good general knowledge of SMLT,

RSMLT, OSPF, and SPBM. As such, only the configuration files will be shown. It is recommended to first

review the SPBM TCG (publication number NN48500-617).

Acronym Key

Throughout this guide the following acronyms will be used:

AS : Autonomous System

B-MAC : Backbone MAC

B-VID : Backbone VLAN identifier

BCB : Backbone Core Bridge

C-MAC : Customer MAC

CFM : Connectivity Fault Management

GRT : Global Route Table

I-SID : Backbone Service Instance Identifier; IEEE 802.1ah

IPVPN : IP Virtual Private Network

IS-IS : Intermediate System to Intermediate System

IST : Inter Switch Trunk (Avaya SMLT Clustering)

L2 VSN : Layer 2 Virtual Services Network

L3 VSN : Layer 3 Virtual Services Network

LLDP : Link Layer Discovery Protocol; IEEE 802.1AB

LSDB : Link State Data Base

MAC : Media Access Control

MLT : Multi Link Trunk

BCB : Backbone Core Bridge

SMLT : Split MLT (Avaya Clustering)

SPB : Shortest Path Bridging

SPBM : Shortest Path Bridging MAC

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VID : VLAN identifier

VLACP : Virtual LACP

VLAN : Virtual LAN

VPN : Virtual Private Network

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Revision Control

No Date Version Revised By Remarks

1 5/11/2011 1.0 PRMGT Modifications to Software Baseline section

2 7/13/2011 1.1 PRMGT Additional sections added related to SPB over

legacy networks, multicast over SPB, and IPv6

over SPB. Note added regarding migrating SPB

on untagged core ports.

3 11/21/2011 1.2 John Vant Erve Changed GRT Shortcuts to IP Shortcuts.

Updated CFM to reflect changed in software

release 7.1.1.0.

4 3/19/2013 2.0 John Vant Erve Added VSP 9000, adding SPB Interworking with

non-SPB Networks section, and updated the

multicast section

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Table of Contents

Figures .......................................................................................................................................................... 7

1. Initial Network ........................................................................................................................................ 9

2. SPB Network – After Migration ........................................................................................................... 10

3. Initial Configuration ............................................................................................................................. 13

4. SPBM Migration .................................................................................................................................. 42

4.1 System Name .............................................................................................................................. 42

4.2 IS-IS and SPB Configuration ....................................................................................................... 43

4.2.1 IS-IS and SPB Verification: .................................................................................................................... 56

4.3 Extending L2 VLANs to SPBM L2VSNs ..................................................................................... 70

4.3.1 Extending L2 VLAN to SPBM L2VSN configuration ............................................................................... 71

4.3.2 SPB L2VSN Verification ......................................................................................................................... 73

4.4 Enable SPB IPShortcuts ............................................................................................................. 77

4.5 IS-IS OSPF Redistribution .......................................................................................................... 80

4.5.1 IS-IS OSPF Redistribution Configuration for 8005 & 8006 ..................................................................... 84

4.5.2 Decommission OSPF ............................................................................................................................. 91

4.6 vMotion Verification ..................................................................................................................... 98

4.6.1 vMotion Migration ................................................................................................................................. 107

5. Supporting SPB over legacy switched network or Transparent LAN Services ................................ 114

5.1 SPM over legacy switch network configuration example .......................................................... 115

5.1.1 ERS 5530 Configuration ....................................................................................................................... 116

5.1.2 Verification: .......................................................................................................................................... 117

6. Migrating an Edge Switch to SPB ..................................................................................................... 118

6.1 Initial Configuration ................................................................................................................... 119

6.2 Migration Configuration ............................................................................................................. 124

6.2.1 VSP 9000 ............................................................................................................................................. 124

6.2.2 VSP 7000 ............................................................................................................................................. 126

7. SPB Interworking with non-SPB Networks ....................................................................................... 129

8. Understanding Multicast over Shortest Path Bridging ...................................................................... 136

8.1 How it works .............................................................................................................................. 137

9. Switch clustering (SMLT) at the edge of the SPB network ............................................................... 138

10. L2 Querier behavior for an SMLT switch cluster ........................................................................... 141

11. Considerations when connecting a SPB Multicast Network to a PIM Network ............................ 141

12. Configuring IP Multicast for Shortest Path Bridging ...................................................................... 142

13. Connectivity Fault Management (CFM) extensions for Multicast over SPB ................................. 144

14. Migrating from a PIM to a SPB IP Multicast network .................................................................... 145

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15. Distribution of globally routable IPv6 over SPB ............................................................................ 146

15.1 VENA Solution Brief .................................................................................................................. 146

15.2 IPv6 in General.......................................................................................................................... 146

15.3 The IPv6 over SPB Test Lab ..................................................................................................... 147

15.4 The ramifications on larger IPv6 deployments .......................................................................... 150

15.5 Summary ................................................................................................................................... 151

16. Reference Documentation ............................................................................................................ 152

Figures

Figure 1: Initial Network Setup ...................................................................................................................... 9

Figure 2: SPB Migrated Network ................................................................................................................ 10

Figure 3: SPB Details .................................................................................................................................. 11

Figure 4: vMotion ........................................................................................................................................ 98

Figure 5: SPB over legacy switch network ................................................................................................ 115

Figure 6: VSP 7000 Migration ................................................................................................................... 118

Figure 7 – Multicast over Shortest Path Bridging Overview ..................................................................... 137

Figure 8 – Multicast over SPB with SMLT at the SPB Fabric Edge.......................................................... 139

Figure 9 – Multicast tree redundancy and data path with SMLT at the SPB Fabric Edge ....................... 140

Figure 10: Required elements for a native hybrid IPv6 deployment over SPB ........................................ 147

Figure 11: Native IPv6 Dual Stack over L2 VSN Test bed ....................................................................... 148

Figure 12: Dual Stack end stations perspective on default routed paths ................................................. 149

Figure 13: Totally Independent IP topologies ........................................................................................... 150

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Conventions

This section describes the text, image, and command conventions used in this document.

Symbols



Tip – Highlights a configuration or technical tip.



Note – Highlights important information to the reader.



Warning – Highlights important information about an action that may result in equipment

damage, configuration or data loss.

Text

Bold text indicates emphasis.

Italic text in a Courier New font indicates text the user must enter or select in a menu item, button or

command:

ERS5520-48T# show running-config

Output examples from Avaya devices are displayed in a Lucida Console font:

ERS5520-48T# show sys-info

Operation Mode: Switch

MAC Address: 00-12-83-93-B0-00

PoE Module FW: 6370.4

Reset Count: 83

Last Reset Type: Management Factory Reset

Power Status: Primary Power

Autotopology: Enabled

Pluggable Port 45: None

Pluggable Port 46: None

Pluggable Port 47: None

Pluggable Port 48: None

Base Unit Selection: Non-base unit using rear-panel switch

sysDescr: Ethernet Routing Switch 5520-48T-PWR

HW:02 FW:6.0.0.10 SW:v6.2.0.009

Mfg Date:12042004 HW Dev:H/W rev.02

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1. Initial Network

Figure 1 shown below displays the initial setup. From this initial setup, this document will show how

migrate this network to SPBM.

Figure 1: Initial Network Setup

Overall, the initial setup consists of the following:

• Three SMLT clusters consisting of VSP 9000 switches 9001 & 9002 with software release

3.3.2.0, ERS 8800 switches 8003 & 8004, and 8005 & 8006 all with software level 7.2.0.2

• One edge ERS 8800 (8007) with software level 7.2.0.2

• One edge ERS 8600 (8608) with software level 5.1

• VSP 9000 switches 9001 & 9002 are configured in ACLI mode while all ERS 8000 switches are

configured in CLI mode

• RSMLT is configured in the core between all ERS 8000 and VSP 9000 switches using an IGP

protocol of OSPF via VLANs 3 & 4 which are each contained in the SMLT squares

• One Layer 2 VLAN (VLAN 1600) is also provisioned in the core on cluster switches 8003 & 8004,

9001 & 9002, and 8005 & 8006

o This will allow vMotion between Win-01 and Win-02 – Win-01 and Win-02 are virtual

machines configured on ESX servers ESX-1 and ESX-2 respectively

o Cluster switches 9001 & 9001 and 8005 & 8006 will be providing routing between the

virtual clients and ESX servers to the rest of the network using VRRP with Backup Master

enabled. 9001 is configured to be the VRRP master

 VRRP Priority: 200 on 9001, 150 on 9002, 100 on 8005, and 50 on 8006

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 VRRP Backup Master is enabled on all 4 switches

• All edge switches (ERS Stackables) with the exception of 8007 and 8608 are operating at Layer 2

o The VSP 9000 and ERS 8800 cluster switches are using either RSMLT Edge or VRRP

Backup Master for routing to the rest of the network

• 8608 is an OSPF ABR with networks 10.8.x.y in area 1

• 8007 is also configured to re-distribute a default static route for Internet access

o Static routing is used between the Internet router and 8007

o A static default route is distributed by 8007

2. SPB Network – After Migration

Figure 2 shown below displays a summary of the migrated network to SPB while figure 3 displays the

SPBM details.

Figure 2: SPB Migrated Network

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Figure 3: SPB Details

Overall, when the network has been migrated to SPB, the following items will be removed:

• Removal of OSPF core VLANs 3 and 4

o By deleting VLANs 3 and 4, this will also remove the core IP and RSMLT configuration

• Removal of core MLT/SMLT

o Removal of MLT/SMLT 2 on 8003 & 8004 and 8005 & 8006

o Removal of MLT/SMLT 3 on 8003 & 8004 and 9001 & 9001

o Removal of the IST on 8003 & 8004

• Removal of VLAN 1600 in the core

o Removal of VLAN 1600 from the IST on 8005 & 8006

o Removal of VLAN 1600 on core links on 9001 & 9002 and 8005 & 8006

o Removal of VLAN 1600 on 8003 and 8004

o L2VSN setup using I-SID 1600 on switches 9001 & 9002 and 8005 & 8006

In regard to vMotion, the initial VRRP configuration will not change. This will mean, based on the initial

VRRP priority settings, 9001 will still remain VRRP backup master followed by 9002, 8005, and then

8006. For the VMware servers, C-VLAN 1600 will be provisioned with an I-SID value of 1001600 on BEB

switches 9001 & 9001 and 8005 & 8006.

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

For core untagged links that are migrated to SPM, please note the following. When enabling

SPB, VLAN tagging will automatically be enabling. Any untagged VLAN that was previously

provisioned will be removed on the interface(s) where SPB is enabled. You will have to manually

add the previous untagged VLAN as a tagged VLAN port membership if you wish to continue to

use the VLAN after the SPB migration. If the core links are tagged, no additional configuration

steps are required.

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3. Initial Configuration

1 IST Configuration:

For this configuration step the following VLAN and IP parameters will be enabled. Also, all ERS 8000

switches are provisioned with Spanning Tree mode of MSTP – default setting on the VSP 9000.

Switch Feature Parameter Value

8003, 8004, 9001, 9001,

8005, 8006

IST MLT ID 1

VLAN 2

VLACP (IST port

members)

Timers Long (slow)

Time-out Scale 5

VLACP MAC 01:80:c2:00:00:0f

Slow periodic time 10000

QoS Diff Serv Enable

P-bit Override Enable

8003 IST VLAN IP address 10.1.2.1/30

Ports 2/1, 2/2

8004 IST VLAN IP address 10.1.2.2/30

Ports 2/1,8/34

9001 IST VLAN IP address 10.5.2.1/30

Ports 3/1-3/2

9002 IST VLAN IP address 10.5.2.2/30

Ports 3/1-3/2

8005 IST VLAN IP address 10.2.1.1/30

Ports 2/1-2/2

8006 IST VLAN IP address 10.2.1.2/30

Ports 2/1-2/2

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

On an ERS 8000, the Spanning Tree mode is provisioned by change the boot flag using the CLI

command config boot flags spanning-tree-mode <mstp|rstp|default> or the ACLI command boot

config flags spanning-tree-mode

8003 8004

config

#

# LACP CONFIGURATION

#

vlacp enable

#

# MLT CONFIGURATION

#

mlt 1 create

mlt 1 add ports 2/1-2/2

mlt 1 mcast-distribution enable

mlt 1 name "IST"

mlt 1 perform-tagging enable

mlt 1 ist create ip 10.1.2.2 vlan-id 2

mlt 1 ist enable

#

# VLAN CONFIGURATION - PHASE I

#

vlan 2 create byport-mstprstp 0 name "IST_VLAN"

vlan 2 add-mlt 1

vlan 2 ports add 2/1-2/2 member portmember

vlan 2 ip create 10.1.2.1/255.255.255.252

vlan 2 ip pim enable

#

# PORT CONFIGURATION - PHASE II

#

ethernet 2/1 802.1p-override enable

ethernet 2/1 enable-diffserv true

ethernet 2/1 untagged-frames-discard enable

ethernet 2/1 mstp cist forceportstate disable

ethernet 2/1 vlacp macaddress 01:80:c2:00:00:0f

config

#

# LACP CONFIGURATION

#

vlacp enable

#

# MLT CONFIGURATION

#

mlt 1 create

mlt 1 add ports 2/1,8/34

mlt 1 mcast-distribution enable

mlt 1 name "IST"

mlt 1 perform-tagging enable

mlt 1 ist create ip 10.1.2.1 vlan-id 2

mlt 1 ist enable

#

# VLAN CONFIGURATION - PHASE I

#

vlan 2 create byport-mstprstp 0 name "IST_VLAN"

vlan 2 add-mlt 1

vlan 2 ports add 2/1,8/34 member portmember

vlan 2 ip create 10.1.2.2/255.255.255.252

vlan 2 ip pim enable

#

# PORT CONFIGURATION - PHASE II

#

ethernet 2/1 802.1p-override enable

ethernet 2/1 enable-diffserv true

ethernet 2/1 untagged-frames-discard enable

ethernet 2/1 mstp cist forceportstate disable

ethernet 2/1 vlacp macaddress 01:80:c2:00:00:0f

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ethernet 2/1 vlacp enable

ethernet 2/1 vlacp slow-periodic-time 10000

ethernet 2/1 vlacp timeout-scale 5

ethernet 2/2 802.1p-override enable

ethernet 2/2 enable-diffserv true

ethernet 2/2 untagged-frames-discard enable

ethernet 2/2 mstp cist forceportstate disable

ethernet 2/2 vlacp macaddress 01:80:c2:00:00:0f

ethernet 2/2 vlacp enable

ethernet 2/2 vlacp slow-periodic-time 10000

ethernet 2/2 vlacp timeout-scale 5

ethernet 2/1 vlacp enable

ethernet 2/1 vlacp slow-periodic-time 10000

ethernet 2/1 vlacp timeout-scale 5

ethernet 8/34 802.1p-override enable

ethernet 8/34 enable-diffserv true

ethernet 8/34 untagged-frames-discard enable

ethernet 8/34 mstp cist forceportstate disable

ethernet 8/34 vlacp macaddress 01:80:c2:00:00:0f

ethernet 8/34 vlacp enable

ethernet 8/34 vlacp slow-periodic-time 10000

ethernet 8/34 vlacp timeout-scale 5

9001 9002

config terminal

#

# LACP CONFIGURATION

#

vlacp enable

#

# MLT CONFIGURATION

#

mlt 1 enable name "IST"

mlt 1 member 3/1-3/2

mlt 1 encapsulation dot1q

#

# VLAN CONFIGURATION

#

vlan create 2 name "IST_vlan2" type port-mstprstp 0

vlan mlt 2 1

vlan members 2 3/1-3/2 portmember

interface Vlan 2

ip address 10.5.2.1 255.255.255.252 3

exit

#

# MLT INTERFACE CONFIGURATION

#

interface mlt 1

ist peer-ip 10.5.2.2 vlan 2

ist enable

config terminal

#

# LACP CONFIGURATION

#

vlacp enable

#

# MLT CONFIGURATION

#

mlt 1 enable name "IST"

mlt 1 member 3/1-3/2

mlt 1 encapsulation dot1q

#

# VLAN CONFIGURATION

#

vlan create 2 name "IST_vlan2" type port-mstprstp 0

vlan mlt 2 1

vlan members 2 3/1-3/2 portmember

interface Vlan 2

ip address 10.5.2.2 255.255.255.252 3

exit

#

# MLT INTERFACE CONFIGURATION

#

interface mlt 1

ist peer-ip 10.5.2.1 vlan 2

ist enable

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exit

#

# PORT CONFIGURATION - PHASE II

#

interface GigabitEthernet 3/1

untagged-frames-discard

default-vlan-id 0

qos 802.1p-override enable

no shutdown

vlacp slow-periodic-time 10000 funcmac-addr

01:80:c2:00:00:0f

vlacp enable

no spanning-tree mstp force-port-state enable

interface GigabitEthernet 3/2

untagged-frames-discard

default-vlan-id 0

qos 802.1p-override enable

no shutdown

vlacp slow-periodic-time 10000 funcmac-addr

01:80:c2:00:00:0f

vlacp enable

no spanning-tree mstp force-port-state enable

exit

#

# PORT CONFIGURATION - PHASE II

#

interface GigabitEthernet 3/1

untagged-frames-discard

default-vlan-id 0

qos 802.1p-override enable

no shutdown

vlacp slow-periodic-time 10000 funcmac-addr

01:80:c2:00:00:0f

vlacp enable

no spanning-tree mstp force-port-state enable

interface GigabitEthernet 3/2

untagged-frames-discard

default-vlan-id 0

qos 802.1p-override enable

no shutdown

vlacp slow-periodic-time 10000 funcmac-addr

01:80:c2:00:00:0f

vlacp enable

no spanning-tree mstp force-port-state enable

exit

8005 8006

config

#

# LACP CONFIGURATION

#

vlacp enable

#

# MLT CONFIGURATION

#

mlt 1 create

mlt 1 add ports 2/1-2/2

mlt 1 mcast-distribution enable

mlt 1 name "IST"

mlt 1 perform-tagging enable

mlt 1 ist create ip 10.2.1.2 vlan-id 2

mlt 1 ist enable

config

#

# LACP CONFIGURATION

#

vlacp enable

#

# MLT CONFIGURATION

#

mlt 1 create

mlt 1 add ports 2/1-2/2

mlt 1 mcast-distribution enable

mlt 1 name "IST"

mlt 1 perform-tagging enable

mlt 1 ist create ip 10.2.1.1 vlan-id 2

mlt 1 ist enable

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#

# VLAN CONFIGURATION - PHASE I

#

vlan 2 create byport-mstprstp 0 name "IST_VLAN"

vlan 2 add-mlt 1

vlan 2 ports add 2/1-2/2 member portmember

vlan 2 ip create 10.2.1.1/255.255.255.252

vlan 2 ip pim enable

#

# PORT CONFIGURATION - PHASE II

#

ethernet 2/1 802.1p-override enable

ethernet 2/1 enable-diffserv true

ethernet 2/1 untagged-frames-discard enable

ethernet 2/1 default-vlan-id 2

ethernet 2/1 mstp cist forceportstate disable

ethernet 2/1 vlacp macaddress 01:80:c2:00:00:0f

ethernet 2/1 vlacp enable

ethernet 2/1 vlacp slow-periodic-time 10000

ethernet 2/1 vlacp timeout-scale 5

ethernet 2/2 802.1p-override enable

ethernet 2/2 enable-diffserv true

ethernet 2/2 untagged-frames-discard enable

ethernet 2/2 default-vlan-id 2

ethernet 2/2 mstp cist forceportstate disable

ethernet 2/2 vlacp macaddress 01:80:c2:00:00:0f

ethernet 2/2 vlacp enable

ethernet 2/2 vlacp slow-periodic-time 10000

ethernet 2/2 vlacp timeout-scale 5

#

# VLAN CONFIGURATION - PHASE I

#

vlan 2 create byport-mstprstp 0 name "IST_VLAN"

vlan 2 add-mlt 1

vlan 2 ports add 2/1-2/2 member portmember

vlan 2 ip create 10.2.1.2/255.255.255.252

vlan 2 ip pim enable

#

# PORT CONFIGURATION - PHASE II

#

ethernet 2/1 802.1p-override enable

ethernet 2/1 enable-diffserv true

ethernet 2/1 untagged-frames-discard enable

ethernet 2/1 default-vlan-id 2

ethernet 2/1 mstp cist forceportstate disable

ethernet 2/1 vlacp macaddress 01:80:c2:00:00:0f

ethernet 2/1 vlacp enable

ethernet 2/1 vlacp slow-periodic-time 10000

ethernet 2/1 vlacp timeout-scale 5

ethernet 2/2 802.1p-override enable

ethernet 2/2 enable-diffserv true

ethernet 2/2 untagged-frames-discard enable

ethernet 2/2 default-vlan-id 2

ethernet 2/2 mstp cist forceportstate disable

ethernet 2/2 vlacp macaddress 01:80:c2:00:00:0f

ethernet 2/2 vlacp enable

ethernet 2/2 vlacp slow-periodic-time 10000

ethernet 2/2 vlacp timeout-scale 5

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2 Core Configuration: RSMLT & OSPF Global

For this configuration step the following VLAN and IP parameters will be enabled:

Switch Feature Parameter Value

8003

8004

8005

8006

VLAN 3 VLAN 3

MLT ID 2

SMLT ID 2

RSMLT Enable

Fdb-aging 21601

OSPF Enable

8003

8004

9001

9002

VLAN 4 VLAN 4

MLT ID 3

SMLT ID 3

RSMLT Enable

Fdb-aging 21601

OSPF Enable

8003, 8004, 9001, 9002,

8005, 8006

VLACP – RMSLT Port

Members (VLAN 3 / VLAN

4 port members)

Timer Short

Timeout Scale 5

VLACP MAC 01:80:c2:00:00:0f

Fast periodic time 500

8003 VLAN 3 IP address 10.1.3.1/28

Ports 2/1-2/2,2/4

OSPF Priority 100

VLAN 4 IP address 10.1.4.1/28

Ports 2/1-2/2,4/30

OSPF Priority 100

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Circuitless IP 1 10.1.1.3/32

OSPF Global Admin State Enable

Router-ID 10.1.1.3

8004 VLAN 3 IP address 10.1.3.2/28

Ports 2/1-2/2,4/7

OSPF Priority 100

VLAN 4 IP address 10.1.4.2/28

Ports 2/1-2/2,4/30

OSPF Priority 100

Circuitless IP 1 10.1.1.4/32

OSPF Global Admin State Enable

Router-ID 10.1.1.4

9001 VLAN 4 IP address 10.1.4.3/28

Ports 3/1-3/2,3/3

OSPF Priority 0

Circuitless IP 1 10.1.1.1/32

OSPF Global Admin State Enable

Router-ID 10.1.1.1

9002 VLAN 4 IP address 10.1.4.4/28

Ports 3/1-3/2,3/3

OSPF Priority 0

Circuitless IP 1 10.1.1.2/32

OSPF Global Admin State Enable

Router-ID 10.1.1.2

8005 VLAN 3 IP address 10.1.3.3/28

Ports 2/1-2/2,1/8

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OSPF Priority 0

Circuitless IP 1 10.1.1.5/32

OSPF Global Admin State Enable

Router-ID 10.1.1.5

8006 VLAN 3 IP address 10.1.3.4/28

Ports 2/1-2/2,2/5

OSPF Priority 0

Circuitless IP 1 10.1.1.6/32

OSPF Global Admin State Enable

Router-ID 10.1.1.6

8003 8004

#

# MLT CONFIGURATION

#

mlt 2 create

mlt 2 add ports 2/4

mlt 2 mcast-distribution enable

mlt 2 name "rsmlt_core_1"

mlt 2 perform-tagging enable

mlt 2 smlt create smlt-id 2

mlt 3 create

mlt 3 add ports 4/30

mlt 3 mcast-distribution enable

mlt 3 name "rsmlt_core_2"

mlt 3 perform-tagging enable

mlt 3 smlt create smlt-id 3

#

# VLAN CONFIGURATION - PHASE I

#

vlan 3 create byport-mstprstp 0 name "RSMLT_Core_1"

vlan 3 add-mlt 1

vlan 3 add-mlt 2

vlan 3 ports add 2/1-2/2,2/4 member portmember

#

# MLT CONFIGURATION

#

mlt 2 create

mlt 2 add ports 4/7

mlt 2 mcast-distribution enable

mlt 2 name "rsmlt_core_1"

mlt 2 perform-tagging enable

mlt 2 smlt create smlt-id 2

mlt 3 create

mlt 3 add ports 4/30

mlt 3 mcast-distribution enable

mlt 3 name "rsmlt_core_2"

mlt 3 perform-tagging enable

mlt 3 smlt create smlt-id 3

#

# VLAN CONFIGURATION - PHASE I

#

vlan 3 create byport-mstprstp 0 name "RSMLT_Core_1"

vlan 3 add-mlt 1

vlan 3 add-mlt 2

vlan 3 ports add 2/1,4/7,8/34 member portmember

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Avaya ERS 8800 Technical Configuration Manual

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