External – Layer3 Use Cases. Advertise BD Subnet Through OSPF Step 1: Configure Vlan Domain. apic1(config)# vlan-domain dom400 apic1(config-vlan)# vlan.

Slides:



Advertisements
Similar presentations
Route Optimisation RD-CSY3021.
Advertisements

/30 Host Name : R1 Serial 0/0/0.1.2 Host Name : R2 Router Lab 3 : 2 - Routers Connection DTE DCE.
© 2006 Cisco Systems, Inc. All rights reserved.Cisco PublicITE I Chapter 6 1 Implement Inter- VLAN Routing LAN Switching and Wireless – Chapter 6.
© 2006 Cisco Systems, Inc. All rights reserved. MPLS v2.2—5-1 Module Summary The VRF table is a virtual routing and forwarding instance separating sites.
Interfacing Interior and Exterior Gateway Protocols.
Implementing Inter-VLAN Routing
1 Copyright  1999, Cisco Systems, Inc. Module10.ppt10/7/1999 8:27 AM BGP — Border Gateway Protocol Routing Protocol used between AS’s Currently Version.
Copyright Kenneth M. Chipps Ph.D. Cisco CCNA Exploration CCNA 3 LAN Switching and Wireless Chapter 6 InterVLAN Routing Last Update.
© 2008 Cisco Systems, Inc. All rights reserved.Cisco ConfidentialPresentation_ID 1 Chapter 5: Inter-VLAN Routing Routing & Switching.
© 2007 Cisco Systems, Inc. All rights reserved.Cisco Public 1 Version 4.1 Routing Working at a Small-to-Medium Business or ISP – Chapter 6.
© 2006 Cisco Systems, Inc. All rights reserved. ICND v2.3—3-1 Determining IP Routes Introducing Routing.
1 Inter-VLAN routing Chapter 6 CCNA Exploration Semester 3 Modified by Profs. Ward and Cappellino.
Routing and Routing Protocols
© 2009 Cisco Systems, Inc. All rights reserved. ROUTE v1.0—4-1 Implement an IPv4-Based Redistribution Solution Assessing Network Routing Performance and.
VLAN ROUTING How can we route traffic between vlans ? By Default Vlans isolate them selves. To Route Traffic we can use: 1. Router: A Router connected.
Layer 2: Redundancy and High Availability Part 1: General Overview on Assignment 1.
© 2006 Cisco Systems, Inc. All rights reserved. MPLS v2.2—7-1 Integrating Internet Access with MPLS VPNs Implementing Internet Access as a Separate VPN.
© 2006 Cisco Systems, Inc. All rights reserved. MPLS v2.2—5-1 MPLS VPN Implementation Configuring Small-Scale Routing Protocols Between PE and CE Routers.
© Wiley Inc All Rights Reserved. CCNA: Cisco Certified Network Associate Study Guide CHAPTER 8: Virtual LANs (VLANs)
Border Gateway Protocol (BGP4)
© 2006 Cisco Systems, Inc. All rights reserved. MPLS v2.2—5-1 MPLS VPN Implementation Using MPLS VPN Mechanisms of Cisco IOS Platforms.
Introduction to BGP 1. Border Gateway Protocol A Routing Protocol used to exchange routing information between different networks – Exterior gateway protocol.
© 2009 Cisco Systems, Inc. All rights reserved. SWITCH v1.0—2-1 Implementing VLANs in Campus Networks Configuring PVLANs.
Sybex CCNA Chapter 9: VLAN’s Instructor & Todd Lammle.
NJEDge.Net Regional Meeting Jim Stankiewicz Network Operations October 20, 2006 Jim Stankiewicz Network Operations October 20, 2006.
© 2009 Cisco Systems, Inc. All rights reserved. ROUTE v1.0—4-1 Implement an IPv4-Based Redistribution Solution Configuring and Verifying Route Redistribution.
© 2008 Cisco Systems, Inc. All rights reserved.Cisco ConfidentialPresentation_ID 1 Chapter 5: Inter-VLAN Routing Routing And Switching.
CISCO router introduction for Labs WAN/ OSPF-RIP
© 2007 Cisco Systems, Inc. All rights reserved.ICND1 v1.0—5-1 WAN Connections Enabling Static Routing.
1 © 2000, Cisco Systems, Inc. Session # Presentation_ID Border Gateway Protocol.
InterVLAN Routing Design and Implementation. What Routers Do Intelligent, dynamic routing protocols for packet transport Packet filtering capabilities.
Advanced Computer Networks
Chapter 6 Lecture11 Inter-VLAN Routing Assistant Professor Pongpisit Wuttidittachotti, Ph.D. Faculty of Information Technology King Mongkut's University.
Manipulating Routing Updates Controlling Routing Update Traffic.
© 2009 Cisco Systems, Inc. All rights reserved. ROUTE v1.0—6-1 Connecting an Enterprise Network to an ISP Network BGP Attributes and Path Selection Process.
TCP/SYN Attack – use ACL to allow traffic from TCP connections that were established from the internal network and block packets from an external network.
/24 Host Name :R1 Model : 1841 WIC-1T Serial 0/0/0 Basic Configuration.
BGP Border Gateway Protocol By Amir and David. What Is BGP ? Exterior gateway protocols are designed to route between autonomous systems. AS’s : A set.
© 2002, Cisco Systems, Inc. All rights reserved..
Chapter 9. Implementing Scalability Features in Your Internetwork.
© Synergon Informatika Rt., 1999 Chapter 12 Connecting Enterprises to an Internet Service Provider.
R1R1 GD ERER ISP 1 R2R2 R3R3 R4R4 ISP 2 Normal Data Traffic AS100 AS600AS700 AS65535 AS200 Normal Operation: R1 peer to IPS1 with EBGP, and R2 peer to.
Chapter 6 1 Chap 6 – Implement Inter-VLAN Routing Learning Objectives Explain to the satisfaction of a qualified instructor how network traffic is routed.
Basic Routing Principles V1.2. Objectives Understand the function of router Know the basic conception in routing Know the working principle of router.
BGP Filtering (Policy Routing). BGP Filtering Can Apply our Routing Policy Controlling the sending and receiving updates Prefix Filtering AS_Path Filtering.
Load Sharing (pages ) Can be equal cost or unequal-cost Load sharing can be: per destination (fast switching), or per packet (process switch) ASIC.
آشنایی با پروتکل BGP و Redistributing
© 2006 Cisco Systems, Inc. All rights reserved.Cisco PublicITE I Chapter 6 1 VLANs LAN Switching and Wireless – Chapter 3.
Route Selection Using Attributes
Text BGP Basics. Document Name CONFIDENTIAL Border Gateway Protocol (BGP) Introduction to BGP BGP Neighbor Establishment Process BGP Message Types BGP.
L4 – L7 Services Network Stitching Only Mode. Why do we need this feature and where is it used?
BGP. BGP Configuration Create Fabric ASN Enable BGP on a given Tenant & VRF Create BGP Neighbor and associated config eBGP Vs iBGP Route Maps BGP over.
Shared Layer 3 Outside. Agenda – Shared Layer3 Outside Overview & Description Configuration Troubleshooting Other Related Documents.
© 2007 Cisco Systems, Inc. All rights reserved.Cisco Public 1 Version 4.1 Routing Working at a Small-to-Medium Business or ISP – Chapter 6.
APIC NXOS CLI – Vlan Domains
VRF, Interface Configuration. Enable VRF On A Leaf Command Syntax: Enabling VRF on leaf is a pre-requisite for most of the L3 configuration on that leaf.
Chapter 6 Thanks to the instructors at St. Clair College in Windsor, Ontario.
Instructor Materials Chapter 2: Scaling VLANs
Working at a Small-to-Medium Business or ISP – Chapter 6
Real Exam Questions Answers
How to pass Cisco Exam in first attempt?
BGP 1. BGP Overview 2. Multihoming 3. Configuring BGP.
BGP (cont) 1. BGP Peering 2. BGP Attributes
Load Sharing (pages ) Can be equal cost or unequal-cost
Chapter 5: Inter-VLAN Routing
Trellis Tutorial An Open-Source, White-Box, SDN Based Leaf-Spine Network Fabric Charles Chan Open Networking Foundation.
Chapter 2: Scaling VLANs
BGP Overview BGP concepts and operation.
Chapter 2: Scaling VLANs
Working at a Small-to-Medium Business or ISP – Chapter 6
Presentation transcript:

External – Layer3 Use Cases

Advertise BD Subnet Through OSPF Step 1: Configure Vlan Domain. apic1(config)# vlan-domain dom400 apic1(config-vlan)# vlan apic1(config-vlan)# exit Step 2: Configure Tenant VRF apic1(config)# tenant Nubecentro apic1(config-tenant)# vrf context vrf400 apic1(config-tenant-vrf)# contract enforce apic1(config-tenant-vrf)# exit Step 3: Configure Tenant BD and mark gateway IP as “public” for route export. apic1(config-tenant)# bridge-domain bd400 apic1(config-tenant-bd)# vrf member vrf400 apic1(config-tenant-bd)# exit apic1(config-tenant)# interface bridge-domain bd400 apic1(config-tenant-interface)# ip address /24 scope public apic1(config-tenant-interface)# exit

Advertise BD Subnet Through OSPF (cont.) Step 4: apic1(config-tenant)# application web apic1(config-tenant-app)# epg appepg400 apic1(config-tenant-app-epg)# bridge-domain member bd400 apic1(config-tenant-app-epg)# contract provider web_contract Step 5: Configure VRF on Leaf apic1(config)# leaf 101 apic1(config-leaf)# vrf context tenant Nubecentro vrf vrf400 Step 6: Configure Route Map apic1(config-leaf-vrf)# route-map map400 apic1(config-leaf-vrf-route-map)# match bridge-domain bd400 apic1(config-leaf-vrf-route-map)# exit apic1(config-leaf-vrf)# exit Step 7: Configure OSPF area and add route-map apic1(config-leaf)# router ospf default apic1(config-leaf-ospf)# vrf member tenant Nubecentro vrf vrf400 apic1(config-leaf-ospf-vrf)# area route-map map400 out apic1(config-leaf-ospf-vrf)# exit apic1(config-leaf-ospf)# exit

Advertise BD Subnet Through OSPF (cont.) Step 8: Assign VRF to Interface(Sub-Interface in this example) and enable OSPF Area apic1(config-leaf)# interface ethernet 1/20 apic1(config-leaf-if)# no switchport apic1(config-leaf-if)# vlan-domain member dom400 apic1(config-leaf-if)# exit apic1(config-leaf)# interface ethernet 1/ apic1(config-leaf-if)# vrf member tenant Nubecentro vrf vrf400 apic1(config-leaf-if)# ip address /24 apic1(config-leaf-if)# ip router ospf default area Step 9: Configure External-L3 EPG Policy. apic1(config)# tenant Nubecentro apic1(config-tenant)# external-l3 epg l3epg400 apic1(config-tenant-l3ext-epg)# vrf member vrf400 apic1(config-tenant-l3ext-epg)# match ip /24 apic1(config-tenant-l3ext-epg)# contract consumer web_contract apic1(config-tenant-l3ext-epg)# exit apic1(config-tenant)#exit

Advertise BD Subnet Through OSPF (cont.) Step 10: Deploy the EPG on the Leaf Switch. apic1(config)# leaf 101 apic1(config-leaf)# vrf context tenant Nubecentro vrf vrf400 apic1(config-leaf-vrf)# external-l3 epg l3epg400

Transit Between BGP And EIGRP Configure Vlan Domain. apic1(config)# vlan-domain dom400 apic1(config-vlan)# vlan apic1(config-vlan)# exit Configure Tenant VRF apic1(config)# tenant Nubecentro apic1(config-tenant)# vrf context vrf400 apic1(config-tenant-vrf)# contract enforce apic1(config-tenant-vrf)# exit Create External-l3 EPG to match subnets corresponding to Transit Site 1 apic1(config-tenant)# external-l3 epg site1_epg apic1(config-tenant-l3ext-epg)# vrf member vrf400 apic1(config-tenant-l3ext-epg)# match ip /24 apic1(config-tenant-l3ext-epg)# contract provider transit_site1_site2 apic1(config-tenant-l3ext-epg)# exit

Transit Between BGP And EIGRP Create External-l3 EPG to match subnets corresponding to Transit Site 2 apic1(config-tenant)# external-l3 epg site2_epg apic1(config-tenant-l3ext-epg)# vrf member vrf400 apic1(config-tenant-l3ext-epg)# match ip /24 apic1(config-tenant-l3ext-epg)# no match ip /24 apic1(config-tenant-l3ext-epg)# match ip /24 apic1(config-tenant-l3ext-epg)# contract consumer transit_site1_site2

Transit Between BGP And EIGRP (BGP Site1) apic1(config)# leaf 102 Deploy VRF on Leaf apic1(config-leaf)# vrf context tenant Nubecentro vrf vrf200 Deploy External-l3 EPG for site1 on Leaf. apic1(config-leaf-vrf)# external-l3 epg site1_epg apic1(config-leaf-vrf)#route-map site1 Create RouteMap to represent site2’s prefix. apic1(config-leaf-vrf-route-map)# ip prefix-list p1 permit /24 apic1(config-leaf-vrf-route-map)# match prefix-list pl1 apic1(config-leaf-vrf-route-map-match)# set community regular 100:1 replace apic1(config-leaf-vrf-route-map-match)# exit apic1(config-leaf-vrf-route-map)# exit Create Static Route for BGP connectivity. apic1(config-leaf-vrf)# ip route / apic1(config-leaf-vrf)# exit

Transit Between BGP And EIGRP (BGP Site1) (cont.) Configure Main Interface/L3 Port for BGP connectivity. apic1(config-leaf)# interface ethernet 1/12 apic1(config-leaf-if)# no switchport apic1(config-leaf-if)# vlan-domain member dom400 apic1(config-leaf-if)# vrf member tenant Nubecentro vrf vrf400 apic1(config-leaf-if)# ip address /24 apic1(config-leaf-if)# exit Configure EBGP Session to go out of Eth 1/14. apic1(config-leaf)#router bgp 100 apic1(config-bgp)# vrf member tenant Nubecentro vrf vrf400 apic1(config-leaf-bgp-vrf)# neighbor apic1(config-leaf-bgp-vrf-neighbor)# remote-as 100 apic1(config-leaf-bgp-vrf-neighbor)# update-source ethernet 1/12 apic1(config-leaf-bgp-vrf-neighbor)# route-map site1 out

Transit Between BGP And EIGRP (EIGRP Site2) apic1(config)# leaf 103 Deploy VRF on Leaf apic1(config-leaf)# vrf context tenant Nubecentro vrf vrf400 Deploy External-l3 EPG for site2 on Leaf. apic1(config-leaf-vrf)# external-l3 epg site2_epg Create RouteMap to represent site1’s prefix. apic1(config-leaf-vrf)# route-map site2 apic1(config-leaf-vrf-route-map)# ip prefix-list p1 permit /24 apic1(config-leaf-vrf-route-map)# match prefix-list pl1 apic1(config-leaf-vrf-route-map-match)# set metric 100 apic1(config-leaf-vrf-route-map-match)# exit apic1(config-leaf-vrf-route-map)# exit apic1(config-leaf-vrf)# exit

Transit Between BGP And EIGRP (EIGRP Site2) (cont.) apic1(config)# leaf 103 Configure EIGRP ASN. apic1(config-leaf)# router eigrp default apic1(config-eigrp)# vrf member tenant Nubecentro vrf vrf400 apic1(config-eigrp-vrf)# autonomous-system 100 apic1(config-eigrp-vrf)# exit apic1(config-eigrp)# exit Configure SVI and enable EIGRP on the interface with route-map. apic1(config-leaf)# interface vlan 450 apic1(config-leaf-if)# vrf member tenant Nubecentro vrf vrf400 apic1(config-leaf-if)# ip address /24 apic1(config-leaf-if)# ip router eigrp default apic1(config-leaf-if)# ip distribute-list eigrp default route-map site2 out apic1(config-leaf-if)# exit Configure L2 Port for the SVI. apic1(config-leaf)# interface ethernet 1/22 apic1(config-leaf-if)# vlan-domain member dom400 apic1(config-leaf-if)# switchport trunk allowed vlan 450 tenant Nubecentro external-svi

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.