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Hands on Experience with IPv6 Routing and Switching Services

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This session was a “Hands on Experience with IPv6 Routing and Services” which provided attendees an opportunity to configure, troubleshoot, design and implement an IPv6 network using Ipv6 technologies …

This session was a “Hands on Experience with IPv6 Routing and Services” which provided attendees an opportunity to configure, troubleshoot, design and implement an IPv6 network using Ipv6 technologies and features such as: IPv6 addressing, IPv6 neighbor discovery, HSRPv6, static routing, OSPFv3, EIGRPv6 and BGPv6. For more information on Service Providers or Enterprise Networking, please visit our website: http://www.cisco.com/web/CA/index.html

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  • 1. Hands-on Experience with IPv6 Routing and Services TS-EN-07-I Faraz Shamim, Technical Leader Harold Ritter, Technical Leader
  • 2. This IPv6 basic and advanced lab will provide you an opportunity to configure, troubleshoot, design and implement IPv6 network using IPv6 technologies and features such as; IPv6 addressing, IPv6 neighbor discovery, HSRPv6, static routing, OSPFv3, EIGRPv6 and BGPv6. You will be provided with a scenario made up with an IPv4 network where you will get the opportunity to configure and implement IPv6 based on the requirements and needs on the network. For e.g where would you deploy dual stack, where it make sense to do tunneling and how to deploy an IPv6 routing protocols without impacting your existing Network infrastructure.  Students MUST have a basic understanding of IPv6 Addressing and Routing Protocols.  Familiarity with Cisco IOS. Prerequisites: Session Abstract 3
  • 3. Agenda  Lab1 : IPv6 Addressing & Stateless Address Auto Configuration (SLAAC)  Lab2 : IPv6 Neighbor Discovery  Lab3 : IPv6 Static Routing  Lab4 : HSRPv6  Lab5 : EIGRPv6  Lab6 : Manual Tunnels (IPv6oIPv4 & GRE)  Lab7 : OSPFv3  Lab8 : BGPv6 4
  • 4. Lab Synopsis  You are a network engineer at ABC Inc. You just attended a cool lab session on IPv6 at Cisco Connect in Toronto and you are extremely enthusiastic about deploying IPv6 in your network.  Since this is your first time with IPv6, you want to experiment things at your own before talking to your ISP about IPv6 connectivity. Your goal is to make your own network IPv6 ready before talking to your ISP about IPv6.  You are challenged with multiple task during this exercise. Each task will be called a Lab.  One thing you learned in the lab session on IPv6 at Cisco Connect Toronto is to go with dual stack as much as possible. In the event you can not use dual stack you will use tunneling techniques.  IPv4 piece is already up and running in the network and nothing needs to be done on IPv4 side  R1 is connected to IPv6 Internet. For this purpose we have assigned a loopback 1 with an ipv6 address of 2004:db8::1/128. So if any router can ping this address, it means it can access IPv6 internet 5
  • 5. Lab Topology 6
  • 6. Lab 1 : IPv6 Addressing & Stateless Address Auto Configuration (SLAAC)
  • 7. Lab 1 IPv6 Unique Local Address  The first thing you would like to do is to make sure your devices are capable of running IPv6. After you have verified that with your vendor, now you are ready to deploy IPv6 slowly in your Network.  ABC Site 1 is the simplest site so you want to pick that site first  Site 1 is running static routing in IPv4 and you want to continue using static routing when you move to IPv6  Your task is to enable IPv6 between R4 and H1. You want to make sure you do not run into any issues in Site 1 before you move on with site 2  Since this is your first site, you are using a private address FD01:DB8::/32 for this purpose 8
  • 8. Lab 1 IPv6 Stateless Auto-Configuration (SLAAC)  Your plan is to test the plug and play behaviour of IPv6. So you only assigned the IPv6 unique local address on R4 interface facing H1 and see if you get an IPv6 address assigned automatically on H1 from R4 (Refer to Slide 39 for IPv6 addressing example)  You want to see how EUI-64 method works so you are using that on R4 during the address assignment with /64 mask.  Assign this unique local address on R4 using subnetting as shown in the next slide  Ping R4’s link local and Unique local IPv6 address from H1 9
  • 9. Lab 1: IPv6 Addressing & SLAAC 10
  • 10. R# Configs R4 R4(config)#ipv6 unicast-routing R4(config)#interface e0/0 R4(config-if)#ipv6 address fd01:db8:1:41::/64 EUI-64 R4(config-if)#end H1 H1(config)#interface e0/0 H1(config-if)#ipv6 enable H1(config-if)#ipv6 address autoconfig H1(config-if)#end Lab 1 IPv6 Unique Local & SLAAC: Configs 11
  • 11. R4 H1 R4#sh ipv6 int e0/0 Ethernet0/0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5400 No Virtual link-local address(es): Global unicast address(es): FD01:DB8:1:41:A8B8:CCFF:FE00:5400, subnet is FD01:DB8:1:41::/64 [EUI] Joined group address(es): FF02::1 FF02::2 FF02::1:FF00:5400 MTU is 1500 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is enabled, number of DAD attempts: 1 ND reachable time is 30000 milliseconds (using 30000) ND advertised reachable time is 0 (unspecified) ND advertised retransmit interval is 0 (unspecified) ND router advertisements are sent every 200 seconds ND router advertisements live for 1800 seconds ND advertised default router preference is Medium Hosts use stateless autoconfig for addresses. H1#sh ipv6 int e0/0 Ethernet0/0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5700 No Virtual link-local address(es): Stateless address autoconfig enabled Global unicast address(es): FD01:DB8:1:41:A8BB:CCFF:FE00:5700, subnet is FD01:DB8:1:41::/64 [EUI/CAL/PRE] valid lifetime 2591861 preferred lifetime 604661 Joined group address(es): FF02::1 FF02::1:FF00:5700 MTU is 1500 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is enabled, number of DAD attempts: 1 ND reachable time is 30000 milliseconds (using 30000) Default router is FE80::A8BB:CCFF:FE00:5400 on Ethernet0/0 Lab 1 IPv6 Unique Local & SLAAC: Verification 12
  • 12. R# Verification commands H1 H1#ping FE80::A8BB:CCFF:FE00:5400 Output Interface: Ethernet0/0 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to FE80::A8BB:CCFF:FE00:5400, timeout is 2 seconds: Packet sent with a source address of FE80::A8BB:CCFF:FE00:5700%Ethernet0/0 !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 0/0/1 ms H1# Note: the last 64 bit address may be different from A8BB:CCFF:FE00:5400, verify with show ipv6 interface on R4 E0/0 H1 H1#ping FD01:DB8:1:41:A8B8:CCFF:FE00:5400 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to FD01:DB8:1:41:A8B8:CCFF:FE00:5400, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 0/3/17 ms H1# Note: the last 64 bit address may be different from A8BB:CCFF:FE00:5400, verify with show ipv6 interface on R4 E0/0 Lab 1 IPv6 Unique Local & SLAAC: Verification 13
  • 13. R4 H1 R4#deb ipv6 nd ICMP Neighbor Discovery events debugging is on ICMPv6-ND: Request to send RA for FE80::A8BB:CCFF:FE00:5400 ICMPv6-ND: Setup RA from FE80::A8BB:CCFF:FE00:5400 to FF02::1 on Ethernet0/0 ICMPv6-ND: MTU = 1500 ICMPv6-ND: prefix = FD01:DB8:1:41::/64 onlink autoconfig ICMPv6-ND: 2592000/604800 (valid/preferred) ICMPv6-ND: Request to send RA for FE80::A8BB:CCFF:FE00:5400 ICMPv6-ND: Setup RA from FE80::A8BB:CCFF:FE00:5400 to FF02::1 on Ethernet0/0 ICMPv6-ND: MTU = 1500 ICMPv6-ND: prefix = FD01:DB8:1:41::/64 onlink autoconfig ICMPv6-ND: 2592000/604800 (valid/preferred) R4# H1#deb ipv6 nd ICMP Neighbor Discovery events debugging is on ICMPv6-ND: Received RA from FE80::A8BB:CCFF:FE00:5400 on Ethernet0/0 ICMPv6-ND: Prefix : FD01:DB8:1:1::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig FD01:DB8:1:41::/64 eui-64, FD01:DB8:1:41:A8BB:CCFF:FE00:5700 FD01:DB8:1:41:A8BB:CCFF:FE00:5700/64 is existing ICMPv6-ND: Received RA from FE80::A8BB:CCFF:FE00:5400 on Ethernet0/0 ICMPv6-ND: Prefix : FD01:DB8:1:1::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig FD01:DB8:1:41::/64 eui-64, FD01:DB8:1:41:A8BB:CCFF:FE00:5700 FD01:DB8:1:41:A8BB:CCFF:FE00:5700/64 is existing H1# Lab 1 IPv6 SLAAC: Debugs 14
  • 14. Lab 1 IPv6 Global Unicast Address  After successfully pilot testing in site 1, you now want to enable IPv6 in site 2  You asked from your ISP about IPv6 and they gave you a /48 address 2001:db8:1::/48 from their block  Instead of removing the unique local address from site 1 you decided to keep it and configured the new global address in site 1 and site 2  This time you want to use manual assignment of last 64 bit so you will not use EUI-64 bit method for global addressing. You want to make sure this is the method you follow from now on  For the manual assignment you will use the router number as the last 4 bits out of 64, for e,g. R4 will have ::4 as the last 64 bits  You want to test the multiple IPv6 address assignment on a router so you will configure two additional IPv6 global addresses on R5 and R6  Assign IPv6 global unicast address on site 1 and site 2 by using subnetting as shown in the next slide 15
  • 15. Lab 1b: IPv6 Global Unicast address & SLAAC 16
  • 16. R# Configs R4 R4(config)#ipv6 unicast-routing R4(config)#interface loop0 R4(config-if)#ipv6 address 2001:db8:1:1::4/128 R4(config)#interface e0/0 R4(config-if)#ipv6 address 2001:db8:1:41::4/64 R4(config-if)#end R5 R5(config)#ipv6 unicast-routing R5(config)#interface loop0 R5(config-if)#ipv6 address 2001:db8:1:1::5/128 R5(config)#interface e0/0 R5(config-if)#ipv6 address 2001:db8:1:56::5/64 R5(config-if)#ipv6 address 2001:db8:1:57::5/64 R5(config-if)#ipv6 address 2001:db8:1:58::5/64 R5(config-if)#end Lab 1 IPv6 Global Unicast address & SLAAC: Configs 17
  • 17. R# Configs R6 R4(config)#ipv6 unicast-routing R6(config)#interface loop0 R6(config-if)#ipv6 address 2001:db8:1:1::6/128 R6(config)#interface e0/0 R6(config-if)#ipv6 address 2001:db8:1:56::6/64 R6(config-if)#ipv6 address 2001:db8:1:57::6/64 R6(config-if)#ipv6 address 2001:db8:1:58::6/64 R6(config-if)#end H2 H2(config)#interface e0/0 H2(config-if)#ipv6 enable H2(config-if)#ipv6 address autoconfig H2(config-if)#end Lab 1 IPv6 Global Unicast address & SLAAC: Configs 18
  • 18. R4 Loopback 0 R4#sh ipv6 int lo 0 Loopback0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5900 No Virtual link-local address(es): Global unicast address(es): 2001:DB8:1:1::4, subnet is 2001:DB8:1:1::4/128 Joined group address(es): FF02::1 FF02::2 FF02::1:FF00:4 FF02::1:FF00:5900 MTU is 1514 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is not supported ND reachable time is 30000 milliseconds (using 30000) ND RAs are suppressed (periodic) Hosts use stateless autoconfig for addresses. R4# Lab 1 IPv6 Global Unicast address: Verification 19
  • 19. R4 Ethernet0/0 R4#sh ipv6 int e0/0 Ethernet0/0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5400 No Virtual link-local address(es): Global unicast address(es): 2001:DB8:1:41::4, subnet is 2001:DB8:1:41::/64 FD01:DB8:1:41:A8BB:CCFF:FE00:5400, subnet is FD01:DB8:1:41::/64 [EUI] Joined group address(es): FF02::1 FF02::2 FF02::1:FF00:4 FF02::1:FF00:5400 MTU is 1500 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is enabled, number of DAD attempts: 1 ND reachable time is 30000 milliseconds (using 30000) ND advertised reachable time is 0 (unspecified) ND advertised retransmit interval is 0 (unspecified) ND router advertisements are sent every 200 seconds ND router advertisements live for 1800 seconds ND advertised default router preference is Medium Hosts use stateless autoconfig for addresses. R4# Lab 1 IPv6 Global Unicast address: Verification 20
  • 20. R5 Loopback 0 R5#sh ipv6 int lo 0 Loopback0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5A00 No Virtual link-local address(es): Global unicast address(es): 2001:DB8:1:1::5, subnet is 2001:DB8:1:1::5/128 Joined group address(es): FF02::1 FF02::2 FF02::1:FF00:5 FF02::1:FF00:5A00 MTU is 1514 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is not supported ND reachable time is 30000 milliseconds (using 30000) ND RAs are suppressed (periodic) Hosts use stateless autoconfig for addresses. R5# Lab 1 IPv6 Global Unicast address: Verification 21
  • 21. R5 Ethernet0/0 R5#sh ipv6 int e0/0 Ethernet0/0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5A00 No Virtual link-local address(es): Global unicast address(es): 2001:DB8:1:56::5, subnet is 2001:DB8:1:56::/64 2001:DB8:1:57::5, subnet is 2001:DB8:1:57::/64 2001:DB8:1:58::5, subnet is 2001:DB8:1:58::/64 Joined group address(es): FF02::1 FF02::2 FF02::1:FF00:5 FF02::1:FF00:5A00 MTU is 1500 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is enabled, number of DAD attempts: 1 ND reachable time is 30000 milliseconds (using 30000) ND advertised reachable time is 0 (unspecified) ND advertised retransmit interval is 0 (unspecified) ND router advertisements are sent every 200 seconds ND router advertisements live for 1800 seconds ND advertised default router preference is Medium Hosts use stateless autoconfig for addresses. Lab 1 IPv6 Global Unicast address: Verification 22
  • 22. R6 Loopback 0 R6#sh ipv6 int lo 0 Loopback0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5B00 No Virtual link-local address(es): Global unicast address(es): 2001:DB8:1:1::6, subnet is 2001:DB8:1:1::6/128 Joined group address(es): FF02::1 FF02::2 FF02::1:FF00:6 FF02::1:FF00:5B00 MTU is 1514 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is not supported ND reachable time is 30000 milliseconds (using 30000) ND RAs are suppressed (periodic) Hosts use stateless autoconfig for addresses. R6# Lab 1 IPv6 Global Unicast address: Verification 23
  • 23. R6 Ethernet0/0 R6#sh ipv6 int e0/0 Ethernet0/0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5B00 No Virtual link-local address(es): Global unicast address(es): 2001:DB8:1:56::6, subnet is 2001:DB8:1:56::/64 2001:DB8:1:57::6, subnet is 2001:DB8:1:57::/64 2001:DB8:1:58::6, subnet is 2001:DB8:1:58::/64 Joined group address(es): FF02::1 FF02::2 FF02::1:FF00:6 FF02::1:FF00:5B00 MTU is 1500 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is enabled, number of DAD attempts: 1 ND reachable time is 30000 milliseconds (using 30000) ND advertised reachable time is 0 (unspecified) ND advertised retransmit interval is 0 (unspecified) ND router advertisements are sent every 200 seconds ND router advertisements live for 1800 seconds ND advertised default router preference is Medium Hosts use stateless autoconfig for addresses. Lab 1 IPv6 Global Unicast address: Verification 24
  • 24. H1 Ethernet0/0 H1#sh ipv6 int e0/0 Ethernet0/0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5700 No Virtual link-local address(es): Stateless address autoconfig enabled Global unicast address(es): 2001:DB8:1:41:A8BB:CCFF:FE00:5700, subnet is 2001:DB8:1:41::/64 [EUI/CAL/PRE] valid lifetime 2591845 preferred lifetime 604645 FD01:DB8:1:41:A8BB:CCFF:FE00:5700, subnet is FD01:DB8:1:41::/64 [EUI/CAL/PRE] valid lifetime 2591845 preferred lifetime 604645 Joined group address(es): FF02::1 FF02::1:FF00:5700 MTU is 1500 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is enabled, number of DAD attempts: 1 ND reachable time is 30000 milliseconds (using 30000) Default router is FE80::A8BB:CCFF:FE00:5400 on Ethernet0/0 H1# Lab 1 IPv6 SLAAC: Verification 25
  • 25. H2 Ethernet0/0 H2#sh ipv6 int e0/0 Ethernet0/0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5D00 No Virtual link-local address(es): Stateless address autoconfig enabled Global unicast address(es): 2001:DB8:1:56:A8BB:CCFF:FE00:5D00, subnet is 2001:DB8:1:56::/64 [EUI/CAL/PRE] valid lifetime 2591989 preferred lifetime 604789 2001:DB8:1:57:A8BB:CCFF:FE00:5D00, subnet is 2001:DB8:1:57::/64 [EUI/CAL/PRE] valid lifetime 2591989 preferred lifetime 604789 2001:DB8:1:58:A8BB:CCFF:FE00:5D00, subnet is 2001:DB8:1:58::/64 [EUI/CAL/PRE] valid lifetime 2591989 preferred lifetime 604789 Joined group address(es): FF02::1 FF02::1:FF00:5D00 MTU is 1500 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is enabled, number of DAD attempts: 1 ND reachable time is 30000 milliseconds (using 30000) Default router is FE80::A8BB:CCFF:FE00:5A00 on Ethernet0/0 Lab 1 IPv6 SLAAC: Verification 26
  • 26. R# Verification commands H2 H2#ping 2001:db8:1:56::5 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 2001:DB8:1:56::5, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 0/3/14 ms H2#ping 2001:db8:1:57::5 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 2001:DB8:1:57::5, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 0/4/21 ms H2#ping 2001:db8:1:58::5 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 2001:DB8:1:58::5, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 0/4/19 ms H2#ping 2001:db8:1:56::6 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 2001:DB8:1:56::6, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 1/4/17 ms H2#ping 2001:db8:1:57::6 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 2001:DB8:1:57::6, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 0/3/17 ms H2#ping 2001:db8:1:58::6 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 2001:DB8:1:58::6, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 0/3/14 ms H2# Lab 1 IPv6 Global Unicast address: Verification 27
  • 27. R# Verification commands H1 H1#ping 2001:DB8:1:41::4 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 2001:DB8:1:41::4, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 0/3/17 ms H1# Lab 1 IPv6 SLAAC: Verification 28
  • 28. R5 R5#deb ipv6 nd ICMPv6-ND: Request to send RA for FE80::A8BB:CCFF:FE00:5A00 ICMPv6-ND: Setup RA from FE80::A8BB:CCFF:FE00:5A00 to FF02::1 on Ethernet0/0 ICMPv6-ND: MTU = 1500 ICMPv6-ND: prefix = 2001:DB8:1:56::/64 onlink autoconfig ICMPv6-ND: 2592000/604800 (valid/preferred) ICMPv6-ND: prefix = 2001:DB8:1:57::/64 onlink autoconfig ICMPv6-ND: 2592000/604800 (valid/preferred) ICMPv6-ND: prefix = 2001:DB8:1:58::/64 onlink autoconfig ICMPv6-ND: 2592000/604800 (valid/preferred) R5# ICMPv6-ND: Received RA from FE80::A8BB:CCFF:FE00:5B00 on Ethernet0/0 ICMPv6-ND: Prefix : 2001:DB8:1:56::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 ICMPv6-ND: Prefix : 2001:DB8:1:57::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 ICMPv6-ND: Prefix : 2001:DB8:1:58::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 R5# Lab 1 IPv6 SLAAC: Debugs 29
  • 29. R6 R6#deb ipv6 nd ICMPv6-ND: Request to send RA for FE80::A8BB:CCFF:FE00:5B00 ICMPv6-ND: Setup RA from FE80::A8BB:CCFF:FE00:5B00 to FF02::1 on Ethernet0/0 ICMPv6-ND: MTU = 1500 ICMPv6-ND: prefix = 2001:DB8:1:56::/64 onlink autoconfig ICMPv6-ND: 2592000/604800 (valid/preferred) ICMPv6-ND: prefix = 2001:DB8:1:57::/64 onlink autoconfig ICMPv6-ND: 2592000/604800 (valid/preferred) ICMPv6-ND: prefix = 2001:DB8:1:58::/64 onlink autoconfig ICMPv6-ND: 2592000/604800 (valid/preferred) R6# ICMPv6-ND: Received RA from FE80::A8BB:CCFF:FE00:5A00 on Ethernet0/0 ICMPv6-ND: Prefix : 2001:DB8:1:56::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 ICMPv6-ND: Prefix : 2001:DB8:1:57::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 ICMPv6-ND: Prefix : 2001:DB8:1:58::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 H2# Lab 1 IPv6 SLAAC: Debugs 30
  • 30. H1 H1#deb ipv6 nd ICMPv6-ND: Received RA from FE80::A8BB:CCFF:FE00:5900 on Ethernet0/0 ICMPv6-ND: Prefix : 2001:DB8:1:41::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig 2001:DB8:1:41::/64 eui-64, 2001:DB8:1:41:A8BB:CCFF:FE00:5C00 2001:DB8:1:41:A8BB:CCFF:FE00:5C00/64 is existing ICMPv6-ND: Prefix : FD01:DB8:1:41::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig FD01:DB8:1:41::/64 eui-64, FD01:DB8:1:41:A8BB:CCFF:FE00:5C00 FD01:DB8:1:41:A8BB:CCFF:FE00:5C00/64 is existing H1# Lab 1 IPv6 SLAAC: Debugs 31
  • 31. H2 H2#deb ipv6 nd ICMPv6-ND: Received RA from FE80::A8BB:CCFF:FE00:5B00 on Ethernet0/0 ICMPv6-ND: Prefix : 2001:DB8:1:56::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig 2001:DB8:1:56::/64 eui-64, 2001:DB8:1:56:A8BB:CCFF:FE00:5D00 2001:DB8:1:56:A8BB:CCFF:FE00:5D00/64 is existing ICMPv6-ND: Prefix : 2001:DB8:1:57::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig 2001:DB8:1:57::/64 eui-64, 2001:DB8:1:57:A8BB:CCFF:FE00:5D00 2001:DB8:1:57:A8BB:CCFF:FE00:5D00/64 is existing H2# ICMPv6-ND: Prefix : 2001:DB8:1:58::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig 2001:DB8:1:58::/64 eui-64, 2001:DB8:1:58:A8BB:CCFF:FE00:5D00 2001:DB8:1:58:A8BB:CCFF:FE00:5D00/64 is existing H2# Lab 1 IPv6 SLAAC: Debugs 32
  • 32. Lab 2 : IPv6 Neighbor Discovery
  • 33. Lab 2 Neighbor Discovery: RS & RA  You already tested plug and play behaviour of IPv6 in Site 1. Now you want to play with some of the key elements of Neighbor discovery  In site 1, you want to study RS and RA msgs.  You want to change the RA interval from 200 to 30 seconds on R4  You disable the autoconfigs on H1 E0/0 interface and turn on the ipv6 nd debugs and enable autoconfigs again to see the RA/RS.  Turn on debug ipv6 nd on R4 and H1 34
  • 34. R# Configs R4 R4(config)#interface e0/0 R4(config-if)#ipv6 nd ra interval 30 R4(config-if)#end H1 H1(config)#interface e0/0 H1(config-if)#no ipv6 address autoconfig H1(config-if)#no ipv6 enable H1(config-if)#ipv6 enable H1(config-if)#ipv6 address autoconfig H1(config-if)#end Lab 2 IPv6 Neighbor discovery: Configs 35
  • 35. R4 R4#sh ipv6 int e0/0 Ethernet0/0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5900 No Virtual link-local address(es): Global unicast address(es): 2001:DB8:1:41::4, subnet is 2001:DB8:1:41::/64 FD01:DB8:1:41:A8BB:CCFF:FE00:5900, subnet is FD01:DB8:1:41::/64 [EUI] Joined group address(es): FF02::1 FF02::2 FF02::1:FF00:4 FF02::1:FF00:5900 MTU is 1500 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is enabled, number of DAD attempts: 1 ND reachable time is 30000 milliseconds (using 30000) ND advertised reachable time is 0 (unspecified) ND advertised retransmit interval is 0 (unspecified) ND router advertisements are sent every 30 seconds ND router advertisements live for 1800 seconds ND advertised default router preference is Medium Hosts use stateless autoconfig for addresses. R4# Lab 2 IPv6 Neighbor discovery: Verification 36
  • 36. H1 H1(config-if)#ipv6 enable *Jan 30 21:25:07.269: ICMPv6-ND: ND Module startup. *Jan 30 21:25:07.270: ICMPv6-ND: Initialise OL prefix database *Jan 30 21:25:07.270: ICMPv6-ND: IPv6 Opr Enabled on Null0 *Jan 30 21:25:07.270: ICMPv6-ND: Allocate ND subblock on Null0 [1] *Jan 30 21:25:07.271: ICMPv6-ND: L2 came up on Null0 *Jan 30 21:25:07.271: IPv6-Addrmgr-ND: DAD request for FE80::1 on Null0 *Jan 30 21:25:07.271: IPv6-Addrmgr-ND: DAD: FE80::1 is unique. *Jan 30 21:25:07.271: ICMPv6-ND: L3 came up on Null0 *Jan 30 21:25:07.271: ICMPv6-ND: Linklocal FE80::1 on Null0, Up *Jan 30 21:25:07.271: ICMPv6-ND: IPv6 Opr Enabled on Ethernet0/0 *Jan 30 21:25:07.271: ICMPv6-ND: Allocate ND subblock on Ethernet0/0 [2] *Jan 30 21:25:07.271: ICMPv6-ND: L2 came up on Ethernet0/0 *Jan 30 21:25:07.271: IPv6-Addrmgr-ND: DAD request for FE80::A8BB:CCFF:FE00:5C00 on Ethernet0/0 *Jan 30 21:25:07.272: ICMPv6-ND: Sending NS for FE80::A8BB:CCFF:FE00:5C00 on Ethernet0/0 *Jan 30 21:25:08.272: IPv6-Addrmgr-ND: DAD: FE80::A8BB:CCFF:FE00:5C00 is unique. *Jan 30 21:25:08.272: ICMPv6-ND: Sending NA for FE80::A8BB:CCFF:FE00:5C00 on Ethernet0/0 *Jan 30 21:25:08.272: ICMPv6-ND: L3 came up on Ethernet0/0 *Jan 30 21:25:08.272: ICMPv6-ND: Linklocal FE80::A8BB:CCFF:FE00:5C00 on Ethernet0/0, Up H1(config-if)#ipv6 address autoconfig *Jan 30 21:25:20.231: ICMPv6-ND: Sending RS on Ethernet0/0 *Jan 30 21:25:20.251: ICMPv6-ND: Received RA from FE80::A8BB:CCFF:FE00:5900 on Ethernet0/0 Lab 2 IPv6 Neighbor discovery: Debugs 37
  • 37. Lab 2 Neighbor Discovery: DAD, NS & NA  You want to test the DAD, NS & NA mechanism of IPv6. For that you turned on IPv6 neighbor discovery debug on R5 & R6  Assign a new address 2001:db8:1:59::5/64 on both R5 and R6 Ethernet interface  The debug will show the algorithm performed for DAD procedure. This DAD is the first thing that occurs when any IPv6 address is assigned on an interface  After testing the DAD procedure, remove the IPv6 address of 2001:db8:1:59::5/64 from R5 & R6 Ethernet  Ping R6’s Ethernet address of 2001:db8:1:56::6 from R5 to see how NS and NA takes place between them 38
  • 38. R# Configs R5 R5(config)#int e0/0 R5(config-if)#ipv6 address 2001:db8:1:59::5/64 R6 R6(config)#int e0/0 R6(config-if)#ipv6 address 2001:db8:1:59::5/64 Lab 2 IPv6 Neighbor discovery: Configs 39
  • 39. R4 R6#sh ipv6 int Ethernet0/0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5B00 No Virtual link-local address(es): Global unicast address(es): 2001:DB8:1:56::6, subnet is 2001:DB8:1:56::/64 2001:DB8:1:57::6, subnet is 2001:DB8:1:57::/64 2001:DB8:1:58::6, subnet is 2001:DB8:1:58::/64 2001:DB8:1:59::5, subnet is 2001:DB8:1:59::/64 Joined group address(es): FF02::1 FF02::2 FF02::1:FF00:5 FF02::1:FF00:6 FF02::1:FF00:5B00 MTU is 1500 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled … R5#sh ipv6 int e0/0 | i DUP 2001:DB8:1:59::5, subnet is 2001:DB8:1:59::/64 [DUP] Lab 2 IPv6 Neighbor discovery: Verification 40
  • 40. R6 R6(config-if)#ipv6 address 2001:db8:1:59::5/64 *Jan 30 21:42:17.678: IPv6-Addrmgr-ND: Received prefix PI-flag change notification: prefix 2001:DB8:1:59::/64 onlink (was not-onlink) *Jan 30 21:42:17.678: IPv6-Addrmgr-ND: DAD request for 2001:DB8:1:59::5 on Ethernet0/0 *Jan 30 21:42:17.679: ICMPv6-ND: Sending NS for 2001:DB8:1:59::5 on Ethernet0/0 *Jan 30 21:42:18.684: IPv6-Addrmgr-ND: DAD: 2001:DB8:1:59::5 is unique. *Jan 30 21:42:18.684: ICMPv6-ND: Sending NA for 2001:DB8:1:59::5 on Ethernet0/0 *Jan 30 21:43:11.922: ICMPv6-ND: Received RA from FE80::A8BB:CCFF:FE00:5A00 on Ethernet0/0 R5(config-if)#ipv6 address 2001:db8:1:59::5/64 *Jan 30 21:48:57.826: ICMPv6-ND: 2592000/604800 (valid/preferred) *Jan 30 21:49:39.078: IPv6-Addrmgr-ND: Received prefix PI-flag change notification: prefix 2001:DB8:1:59::/64 onlink (was not-onlink) *Jan 30 21:49:39.078: IPv6-Addrmgr-ND: DAD request for 2001:DB8:1:59::5 on Ethernet0/0 *Jan 30 21:49:39.079: ICMPv6-ND: Sending NS for 2001:DB8:1:59::5 on Ethernet0/0 *Jan 30 21:49:39.094: ICMPv6-ND: Received NA for 2001:DB8:1:59::5 on Ethernet0/0 from 2001:DB8:1:59::5 *Jan 30 21:49:39.095: %IPV6_ND-4-DUPLICATE: Duplicate address 2001:DB8:1:59::5 on Ethernet0/0 Lab 2 IPv6 Neighbor discovery: Debugs 41
  • 41. R# Configs R5 R5(config)#int e0/0 R5(config-if)#no ipv6 address 2001:db8:1:59::5/64 R6 R6(config)#int e0/0 R6(config-if)#no ipv6 address 2001:db8:1:59::5/64 Lab 2 IPv6 Neighbor discovery: Configs 42
  • 42. R5 R5#ping 2001:db8:1:56::6 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 2001:DB8:1:56::6, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 0/1/5 ms R5# *Jan 30 22:15:24.668: ICMPv6-ND: DELETE -> INCMP: 2001:DB8:1:56::6 *Jan 30 22:15:24.668: ICMPv6-ND: Sending NS for 2001:DB8:1:56::6 on Ethernet0/0 *Jan 30 22:15:24.669: ICMPv6-ND: Resolving next hop 2001:DB8:1:56::6 on interface Ethernet0/0 *Jan 30 22:15:24.673: ICMPv6-ND: Received NA for 2001:DB8:1:56::6 on Ethernet0/0 from 2001:DB8:1:56::6 *Jan 30 22:15:24.673: ICMPv6-ND: Neighbour 2001:DB8:1:56::6 on Ethernet0/0 : LLA aabb.cc00.5b00 *Jan 30 22:15:24.673: ICMPv6-ND: INCMP -> REACH: 2001:DB8:1:56::6 R5# *Jan 30 22:15:29.722: ICMPv6-ND: Received NS for 2001:DB8:1:56::5 on Ethernet0/0 from FE80::A8BB:CCFF:FE00:5B00 *Jan 30 22:15:29.722: ICMPv6-ND: Sending NA for 2001:DB8:1:56::5 on Ethernet0/0 *Jan 30 22:15:29.723: ICMPv6-ND: STALE -> DELAY: FE80::A8BB:CCFF:FE00:5B00 Lab 2 IPv6 Neighbor discovery: Debugs 43
  • 43. Lab 2 Neighbor Discovery: Renumbering  To test the renumbering behavior of IPv6, you want to change the IPv6 address on R5 & R6 to 2001:db8:1:88::/64 from 2001:db8:1:58::/64  First you configure the new IPv6 address of 2001:db8:1:88::/64 on both R5 & R6 Ethernet interface  You also want to set the RA interval to 40 seconds  To deprecate the old address you want to configure preferred lifetime of 2001:db8:1:58::/64 to 0 and valid lifetime to 50 on both R5 & R6. (Note, may have to shut no shut E0/0 on H2 to rewrite the old valid & prefer lifetime)  You noticed that the old prefix of 2001:db8:1:58::/64 is showing as deprecated on H2. Note DEP may or may not show up during show command  To get rid of the address completely, you configure the valid lifetime of 2001:db8:1:58::/64 to 0 on both R5 & R6  You noticed on H2 that the old prefix 2001:db8:1:58::/64 disappeared from the cache  To clean up the configs, remove the old IPv6 prefix of 2001:db8:1:58::/64 as well as IPv6 nd prefix command from the Ethernet interfaces of both R5 and R6 44
  • 44. R# Configs R5 R5(config)#interface e0/0 R5(config-if)#ipv6 nd ra interval 40 R5(config-if)#ipv6 address 2001:db8:1:88::5/64 R5(config-if)#ipv6 nd prefix 2001:db8:1:58::/64 50 0 R5(config-if)#end R6 R6(config)#interface e0/0 R6(config-if)#ipv6 nd ra interval 40 R6(config-if)#ipv6 address 2001:db8:1:88::6/64 R6(config-if)#ipv6 nd prefix 2001:db8:1:58::/64 50 0 R6(config-if)#end Lab 2 IPv6 Neighbor discovery: Configs 45
  • 45. H2 H2#sh ipv6 int e0/0 Ethernet0/0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5D00 No Virtual link-local address(es): Stateless address autoconfig enabled Global unicast address(es): 2001:DB8:1:56:A8BB:CCFF:FE00:5D00, subnet is 2001:DB8:1:56::/64 [EUI/CAL/PRE] valid lifetime 2591994 preferred lifetime 604794 2001:DB8:1:57:A8BB:CCFF:FE00:5D00, subnet is 2001:DB8:1:57::/64 [EUI/CAL/PRE] valid lifetime 2591994 preferred lifetime 604794 2001:DB8:1:58:A8BB:CCFF:FE00:5D00, subnet is 2001:DB8:1:58::/64 [EUI/CAL] valid lifetime 47 preferred lifetime 0 2001:DB8:1:88:A8BB:CCFF:FE00:5D00, subnet is 2001:DB8:1:88::/64 [EUI/CAL/PRE] valid lifetime 2591994 preferred lifetime 604794 Joined group address(es): FF02::1 FF02::1:FF00:5D00 MTU is 1500 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent Lab 2 IPv6 Neighbor discovery: Verification 46
  • 46. H2 H2#deb ipv6 nd *Jan 31 04:26:01.476: ICMPv6-ND: Received RA from FE80::A8BB:CCFF:FE00:5A00 on Ethernet0/0 *Jan 31 04:26:01.476: ICMPv6-ND: Prefix : 2001:DB8:1:56::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 *Jan 31 04:26:01.476: ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig 2001:DB8:1:56::/64 eui-64, 2001:DB8:1:56:A8BB:CCFF:FE00:5D00 2001:DB8:1:56:A8BB:CCFF:FE00:5D00/64 is existing *Jan 31 04:26:01.476: ICMPv6-ND: Prefix : 2001:DB8:1:57::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 *Jan 31 04:26:01.476: ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig 2001:DB8:1:57::/64 eui-64, 2001:DB8:1:57:A8BB:CCFF:FE00:5D00 2001:DB8:1:57:A8BB:CCFF:FE00:5D00/64 is existing *Jan 31 04:26:01.476: ICMPv6-ND: Prefix : 2001:DB8:1:58::, Length: 64, Vld Lifetime: 50, Prf Lifetime: 0, PI Flags: C0 *Jan 31 04:26:01.476: ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig 2001:DB8:1:58::/64 eui-64, 2001:DB8:1:58:A8BB:CCFF:FE00:5D00 2001:DB8:1:58:A8BB:CCFF:FE00:5D00/64 is existing *Jan 31 04:26:01.476: ICMPv6-ND: Prefix : 2001:DB8:1:88::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 *Jan 31 04:26:01.476: ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig 2001:DB8:1:88::/64 eui-64, 2001:DB8:1:88:A8BB:CCFF:FE00:5D00 2001:DB8:1:88:A8BB:CCFF:FE00:5D00/64 is existing Lab 2 IPv6 Neighbor discovery: Debugs 47
  • 47. R# Configs R5 R5(config)#interface e0/0 R5(config-if)#ipv6 nd prefix 2001:db8:1:58::/64 0 0 R5(config-if)#end R6 R6(config)#interface e0/0 R6(config-if)#ipv6 nd prefix 2001:db8:1:58::/64 0 0 R6(config-if)#end Lab 2 IPv6 Neighbor discovery: Configs 48
  • 48. H2 H2#sh ipv6 int e0/0 Ethernet0/0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5D00 No Virtual link-local address(es): Stateless address autoconfig enabled Global unicast address(es): 2001:DB8:1:56:A8BB:CCFF:FE00:5D00, subnet is 2001:DB8:1:56::/64 [EUI/CAL/PRE] valid lifetime 2591986 preferred lifetime 604786 2001:DB8:1:57:A8BB:CCFF:FE00:5D00, subnet is 2001:DB8:1:57::/64 [EUI/CAL/PRE] valid lifetime 2591986 preferred lifetime 604786 2001:DB8:1:88:A8BB:CCFF:FE00:5D00, subnet is 2001:DB8:1:88::/64 [EUI/CAL/PRE] valid lifetime 2591986 preferred lifetime 604786 Joined group address(es): FF02::1 FF02::1:FF00:5D00 MTU is 1500 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is enabled, number of DAD attempts: 1 ND reachable time is 30000 milliseconds (using 30000) Default router is FE80::A8BB:CCFF:FE00:5B00 on Ethernet0/0 H2# Lab 2 IPv6 Neighbor discovery: Verification 49
  • 49. H2 H2#deb ipv6 nd H2# *Jan 31 04:47:34.486: ICMPv6-ND: Received RA from FE80::A8BB:CCFF:FE00:5A00 on Ethernet0/0 *Jan 31 04:47:34.486: ICMPv6-ND: Prefix : 2001:DB8:1:56::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 *Jan 31 04:47:34.486: ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig 2001:DB8:1:56::/64 eui-64, 2001:DB8:1:56:A8BB:CCFF:FE00:5D00 2001:DB8:1:56:A8BB:CCFF:FE00:5D00/64 is existing *Jan 31 04:47:34.486: ICMPv6-ND: Prefix : 2001:DB8:1:57::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 *Jan 31 04:47:34.486: ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig 2001:DB8:1:57::/64 eui-64, 2001:DB8:1:57:A8BB:CCFF:FE00:5D00 2001:DB8:1:57:A8BB:CCFF:FE00:5D00/64 is existing *Jan 31 04:47:34.487: ICMPv6-ND: Prefix : 2001:DB8:1:58::, Length: 64, Vld Lifetime: 0, Prf Lifetime: 0, PI Flags: C0 *Jan 31 04:47:34.487: ICMPv6-ND: Invalid prefix 2001:DB8:1:58::/64 *Jan 31 04:47:34.487: ICMPv6-ND: Prefix : 2001:DB8:1:88::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 H2# *Jan 31 04:47:34.487: ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig 2001:DB8:1:88::/64 eui-64, 2001:DB8:1:88:A8BB:CCFF:FE00:5D00 2001:DB8:1:88:A8BB:CCFF:FE00:5D00/64 is existing Lab 2 IPv6 Neighbor discovery: Debugs 50
  • 50. R# Configs R5 R5(config)#interface e0/0 R5(config-if)#no ipv6 add 2001:db8:1:58::5/64 R5(config-if)#no ipv6 nd prefix 2001:DB8:1:58::/64 R5(config-if)#end R6 R6(config)#interface e0/0 R6(config-if)#no ipv6 add 2001:db8:1:58::6/64 R6(config-if)#no ipv6 nd prefix 2001:DB8:1:58::/64 R6(config-if)#end Lab 2 IPv6 Neighbor discovery: Cleanup Configs 51
  • 51. Lab 2 Neighbor Discovery: Default Router Selection  In site 2, you want to see how the default router selection behaves in IPv6  You noticed that as soon as you enable IPv6 on H2, it starts sending RS on the wire, looking for a router.  You also noticed in the debugs that both R5 and R6 are sending RA messages towards H2. H2 looks at RA and configures the addresses on its interface facing R5 & R6  After getting the address on H2, you want to make sure that H2 prefers R5 for sending all the IPv6 traffic outbound  (Refer to slide 34-35 for default router selection example) 52
  • 52. R# Configs R5 R5(config)#interface e0/0 R5(config-if)#ipv6 nd router-preference high R5(config-if)#end Lab 2 IPv6 Neighbor discovery: Configs 53
  • 53. H2 H2#sh ipv6 router Router FE80::A8BB:CCFF:FE00:5B00 on Ethernet0/0, last update 0 min Hops 64, Lifetime 1800 sec, AddrFlag=0, OtherFlag=0, MTU=1500 HomeAgentFlag=0, Preference=Medium Reachable time 0 (unspecified), Retransmit time 0 (unspecified) Prefix 2001:DB8:1:56::/64 onlink autoconfig Valid lifetime 2592000, preferred lifetime 604800 Router FE80::A8BB:CCFF:FE00:5A00 on Ethernet0/0, last update 0 min Hops 64, Lifetime 1800 sec, AddrFlag=0, OtherFlag=0, MTU=1500 HomeAgentFlag=0, Preference=High Reachable time 0 (unspecified), Retransmit time 0 (unspecified) Prefix 2001:DB8:1:56::/64 onlink autoconfig Valid lifetime 2592000, preferred lifetime 604800 Lab 2 IPv6 Neighbor discovery: Verification 54
  • 54. H2 H2#sh ipv6 route ::/0 Routing entry for ::/0 Known via "static", distance 2, metric 0 Route count is 1/1, share count 0 Routing paths: FE80::A8BB:CCFF:FE00:5A00, Ethernet0/0 Last updated 00:04:52 ago Note, if you do not see a default route, type the following command and make sure you have the entry from R5 H2#sho ipv6 router Lab 2 IPv6 Neighbor discovery: Verification 55
  • 55. Lab 3 : HSRPv6
  • 56. Lab 3: HSRPv6 57
  • 57. Lab 3 HSRPv6  Site 2 is running HSRP for IPv4 between R5 and R6  You decided to follow the same scheme for IPv6 also and enabled HSRPv6 between R5 and R6  You noticed on H2 that the default route received from the HSRP active router is a link local address  You turned on the IPv6 neighbor discovery debug on H2 to see if you are receiving any RA msgs from R5 or R6  Your primary router for HSRP in IPv4 was R5. You want to make sure R6 is a primary router for IPv6 and when it goes down and comes back up, it should become primary again  Configure HSRPv6 in autoconfig mode so it selects a virtual link local address and advertise it as a virtual IPv6 address to hosts 58
  • 58. Lab 3 HSRPv6  Configure HSRP priority & preempt command on R6 so R6 becomes the primary router even when it goes down and comes back up (See slide 32 for details)  Turn on deb ipv6 nd on H2 to see what link local is being advertised as a default 59
  • 59. R# Configs R5 R5(config-if)#standby ver 2 R5(config-if)#standby 1 ipv6 autoconfig R5(config-if)#end R6 R6(config-if)#standby ver 2 R6(config-if)#standby 1 ipv6 autoconfig R6(config-if)#standby 1 preempt R6(config-if)#standby 1 priority 105 R6(config-if)#end Lab 3 HSRPv6: Configs 60
  • 60. R5 & R6 R5#sh standby brief P indicates configured to preempt. | Interface Grp Pri P State Active Standby Virtual IP Et0/0 0 105 P Active local 10.1.56.6 10.1.56.1 Et0/0 1 100 Standby FE80::A8BB:CCFF:FE00:5B00 local FE80::5:73FF:FEA0:1 R5# R6#sh standby brief P indicates configured to preempt. | Interface Grp Pri P State Active Standby Virtual IP Et0/0 0 100 Standby 10.1.56.5 local 10.1.56.1 Et0/0 1 105 P Active local FE80::A8BB:CCFF:FE00:5A00 FE80::5:73FF:FEA0:1 R6# Lab 3 HSRPv6: Verification 61
  • 61. R5 R5#sh standby ethernet 0/0 1 Ethernet0/0 - Group 1 (version 2) State is Standby 4 state changes, last state change 00:08:17 Virtual IP address is FE80::5:73FF:FEA0:1 Active virtual MAC address is 0005.73a0.0001 Local virtual MAC address is 0005.73a0.0001 (v2 IPv6 default) Hello time 3 sec, hold time 10 sec Next hello sent in 0.624 secs Preemption disabled Active router is FE80::A8BB:CCFF:FE00:5B00, priority 105 (expires in 11.328 sec) MAC address is aabb.cc00.5b00 Standby router is local Priority 100 (default 100) Group name is "hsrp-Et0/0-1" (default) Lab 3 HSRPv6: Verification 62
  • 62. R6 R6#sh standby ethernet 0/0 1 Ethernet0/0 - Group 1 (version 2) State is Active 2 state changes, last state change 00:07:58 Virtual IP address is FE80::5:73FF:FEA0:1 Active virtual MAC address is 0005.73a0.0001 Local virtual MAC address is 0005.73a0.0001 (v2 IPv6 default) Hello time 3 sec, hold time 10 sec Next hello sent in 2.768 secs Preemption enabled Active router is local Standby router is FE80::A8BB:CCFF:FE00:5A00, priority 100 (expires in 9.216 sec) Priority 105 (configured 105) Group name is "hsrp-Et0/0-1" (default) Lab 3 HSRPv6: Verification 63
  • 63. H2 H2#sh ipv6 route ::/0 Routing entry for ::/0 Known via "static", distance 2, metric 0 Route count is 1/1, share count 0 Routing paths: FE80::5:73FF:FEA0:1, Ethernet0/0 Last updated 00:14:23 ago H2# Lab 3 HSRPv6: Verification 64
  • 64. H2 H2#deb ipv6 nd H2# *Feb 2 10:24:20.246: ICMPv6-ND: Received RA from FE80::5:73FF:FEA0:1 on Ethernet0/0 *Feb 2 10:24:20.246: ICMPv6-ND: Prefix : 2001:DB8:1:56::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 *Feb 2 10:24:20.246: ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig 2001:DB8:1:56::/64 eui-64, 2001:DB8:1:56:A8BB:CCFF:FE00:5D00 2001:DB8:1:56:A8BB:CCFF:FE00:5D00/64 is existing *Feb 2 10:24:20.246: ICMPv6-ND: Prefix : 2001:DB8:1:57::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 H2# *Feb 2 10:24:20.247: ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig 2001:DB8:1:57::/64 eui-64, 2001:DB8:1:57:A8BB:CCFF:FE00:5D00 2001:DB8:1:57:A8BB:CCFF:FE00:5D00/64 is existing *Feb 2 10:24:20.247: ICMPv6-ND: Prefix : 2001:DB8:1:88::, Length: 64, Vld Lifetime: 2592000, Prf Lifetime: 604800, PI Flags: C0 *Feb 2 10:24:20.247: ICMPv6-ND: %Ethernet0/0: OK: IPv6 Address Autoconfig 2001:DB8:1:88::/64 eui-64, 2001:DB8:1:88:A8BB:CCFF:FE00:5D00 2001:DB8:1:88:A8BB:CCFF:FE00:5D00/64 is existing Lab 3 HSRPv6: Debugs 65
  • 65. Lab 4 : EIGRPv6
  • 66. Lab 4: EIGRPv6 67
  • 67. Lab 4 EIGRPv6  Site 2 is running EIGRP for IPv4 between R5 and R6  You decided to follow the same scheme for IPv6 also and enabled EIGRPv6 between R5 and R6  You noticed that in order to advertise the secondary address on the same interface in EIGRPv4 you had to turn off split horizon but in EIGRPv6 you do not have to do anything. This is because split horizon is turned off by default in EIGRP for IPv6  You also noticed that all the control packets of EIGRP for e.g. hellos are sourced from link local address  All other functionalities are very much the same as EIGRP for IPv4  The router ID is picked up as the highest loopback address in IPv4 68
  • 68. R# Configs R5 R5(config-if)#int loop 0 R5(config-if)#ipv6 eigrp 1 R5(config-if)#int e0/0 R5(config-if)#ipv6 eigrp 1 R5(config-if)#exit R5(config-if)#ipv6 router eigrp 1 R5(config-if)#end R6 R6(config-if)#int loop 0 R6(config-if)#ipv6 eigrp 1 R6(config-if)#int e0/0 R6(config-if)#ipv6 eigrp 1 R6(config-if)#exit R6(config-if)#ipv6 router eigrp 1 R6(config-if)#end Lab 4 EIGRPv6: Configs 69
  • 69. R5 R6 R5#sh ipv6 prot | b EIGRP EIGRP-IPv6 Protocol for AS(1) Metric weight K1=1, K2=0, K3=1, K4=0, K5=0 NSF-aware route hold timer is 240 Router-ID: 10.1.1.5 Topology : 0 (base) Active Timer: 3 min Distance: internal 90 external 170 Maximum path: 16 Maximum hopcount 100 Maximum metric variance 1 Interfaces: Loopback0 Ethernet0/0 Redistribution: None R6#sh ipv6 prot | b EIGRP EIGRP-IPv6 Protocol for AS(1) Metric weight K1=1, K2=0, K3=1, K4=0, K5=0 NSF-aware route hold timer is 240 Router-ID: 10.1.1.6 Topology : 0 (base) Active Timer: 3 min Distance: internal 90 external 170 Maximum path: 16 Maximum hopcount 100 Maximum metric variance 1 Interfaces: Loopback0 Ethernet0/0 Redistribution: None Lab 4 EIGRPv6: Verification 70
  • 70. R5 & R6 R5#sh ipv6 eigrp nei EIGRP-IPv6 Neighbors for AS(1) H Address Interface Hold Uptime SRTT RTO Q Seq (sec) (ms) Cnt Num 0 Link-local address: Et0/0 10 00:15:15 3 100 0 3 FE80::A8BB:CCFF:FE00:5600 R5# R6#sh ipv6 eigrp nei EIGRP-IPv6 Neighbors for AS(1) H Address Interface Hold Uptime SRTT RTO Q Seq (sec) (ms) Cnt Num 0 Link-local address: Et0/0 11 00:17:11 4 100 0 3 FE80::A8BB:CCFF:FE00:5500 R6# Lab 4 EIGRPv6: Verification 71
  • 71. R5 & R6 R5#sh ipv6 route eigrp IPv6 Routing Table - default - 9 entries Codes: C - Connected, L - Local, S - Static, U - Per-user Static route B - BGP, R - RIP, I1 - ISIS L1, I2 - ISIS L2 IA - ISIS interarea, IS - ISIS summary, D - EIGRP, EX - EIGRP external ND - Neighbor Discovery, l - LISP O - OSPF Intra, OI - OSPF Inter, OE1 - OSPF ext 1, OE2 - OSPF ext 2 ON1 - OSPF NSSA ext 1, ON2 - OSPF NSSA ext 2 D 2001:DB8:1:1::6/128 [90/409600] via FE80::A8BB:CCFF:FE00:5600, Ethernet0/0 R5# R6#sh ipv6 route eigrp IPv6 Routing Table - default - 9 entries Codes: C - Connected, L - Local, S - Static, U - Per-user Static route B - BGP, R - RIP, I1 - ISIS L1, I2 - ISIS L2 IA - ISIS interarea, IS - ISIS summary, D - EIGRP, EX - EIGRP external ND - Neighbor Discovery, l - LISP O - OSPF Intra, OI - OSPF Inter, OE1 - OSPF ext 1, OE2 - OSPF ext 2 ON1 - OSPF NSSA ext 1, ON2 - OSPF NSSA ext 2 D 2001:DB8:1:1::5/128 [90/409600] via FE80::A8BB:CCFF:FE00:5500, Ethernet0/0 R6# Lab 4 EIGRPv6: Verification 72
  • 72. R5 & R6 R5#debug ipv6 packet detail […] 11:16:23.010: IPV6: source FE80::A8BB:CCFF:FE00:5500 (local) 11:16:23.010: dest FF02::A (Ethernet0/0) 11:16:23.010: traffic class 224, flow 0x0, len 80+0, prot 88, hops 255, originating R6#debug ipv6 packet detail 11:19:59.830: IPV6: source FE80::A8BB:CCFF:FE00:5500 (Ethernet0/0) 11:19:59.830: dest FF02::A 11:19:59.830: traffic class 224, flow 0x0, len 80+14, prot 88, hops 255, forward to ulp Lab 4 EIGRPv6: Debugs 73
  • 73. Lab 5 : IPv6 Static Routing
  • 74. Lab 5 IPv6 Static Routing: IPv6 Static Default Route  After planning and configuring all the addressing scheme for your Site 1 and Site 2, you talked with the ISP and request for IPv6 Service.  You found out that your ISP has IPv6 internet connectivity only but they have not enabled IPv6 internally in their network so no Site to Site is possible at this moment but they can enable static routing for Site 1 and advertise Site 1 prefix over the IPv6 Internet  The ISP has also asked you to enable IPv6 static default routing on R4 pointing towards the ISP router (R1)  Configure the IPv6 interface addresses on the link between ISP and R4 as shown on the next slide (::14 is the ISP router and ::15 is R4)  Configure a static default route on R4 using a link local address as a next hop pointing towards R1 75
  • 75. Lab 5: IPv6 Static Routing 76
  • 76. R# Configs R1 R1(config)#int s0/0 R1(config-if)#ipv6 add 2001:db8:14:1::14/127 R1(config)#end R4 R4(config)#int s1/0 R1(config-if)#ipv6 add 2001:db8:14:1::15/127 R1(config-if)#ipv6 route ::/0 Serial 1/0 R1(config)#end Lab 5 IPv6 Static routing: Configs 77
  • 77. R4 R4#sh ipv6 route ::/0 Routing entry for ::/0 Known via "static", distance 1, metric 0 Route count is 1/1, share count 0 Routing paths: FE80::4AFF:FEA2:851, Serial1/0 Last updated 00:02:15 ago Lab 5 IPv6 Static routing: Verification 78
  • 78. Lab 5 IPv6 Static Routing: IPv6 Static Route  The ISP has configured an IPv6 static routing for the LAN address of 2001:db8:1:41::/64 pointing towards R4  Since ISP is connected to IPv6 Internet, Site 1 should be able to reach any IPv6 address on the internet  ISP shared their configs and you noticed that they are using global unicast address as a next hop for the static route 2001:db8:1:41::/64  Configure a static route 2001:db8:1:41::/64 on R1 with next-hop of R4’s global address on Ethernet interface  Due to the limited lab environment, we will ping 2004:db8::1 from H1 and upon success we will assume that we are connected to IPv6 Internet  Ping 2004:db8::1 from H1 and see if its successful 79
  • 79. R# Configs R1 R1(config)#ipv6 route 2001:db8:1:41::/64 2001:db8:14:1::15 R1(config)#end Lab 5 IPv6 Static routing: Configs  Note, no interface needs to be specified when the next hop is global unicast address 80
  • 80. R# Verification R1 R1#sh ipv6 route 2001:db8:1:41::/64 Routing entry for 2001:DB8:1:41::/64 Known via "static", distance 1, metric 0 Route count is 1/1, share count 0 Routing paths: 2001:DB8:14:1::15 Last updated 00:11:42 ago R1# H1 H1>ping 2004:db8::1 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 2004:DB8::1, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 38/39/44 ms H1> Lab 5 IPv6 Static routing: Verification 81
  • 81. Lab 6 : IPv6 Manual Tunnels
  • 82. Lab 6 IPv6 Manual Tunnels: IPv6oIP4  Site 2 has two connection to the ISP. You talked to the ISP about providing IPv6 connectivity to Site 2 but you came to know that due to some limitation, the ISP can not do dual stack on those two connections  ISP gave you the option of a manual tunnel called IPv6 over IPv4 on the link between ISP and R5  For the tunnel to work, both sides needs to have an IPv4 route of each other (Note, IPv4 routing is already established so no need to worry about that”  Since there is a directly connected interface between R3 and R5, the tunnel source and destinations can easily be chosen as the outgoing interface  A new IPv6 address needs to be configured on both side over the tunnel between R3 and R5 in the range 2001:db8:35:1::16/127 as shown in the next slide (::16 on R3 side and ::17 on R5 side)  Ping R5 IPv6 tunnel address from R3 and make sure it is successful to determine that the tunnel is up and running 83
  • 83. Lab 6: IPv6 Manual Tunnels 84
  • 84. R# Configs R5 R5(config-if)#int tun 0 R5(config-if)#tun source s1/0 R5(config-if)#tun destination 10.1.35.0 R5(config-if)#tun mode ipv6ip R5(config-if)#ipv6 address 2001:db8:35:1::17/127 R5(config-if)#end R3 R3(config-if)#int tun 0 R3(config-if)#tun source s1/0 R3(config-if)#tun destination 10.1.35.1 R3(config-if)#tun mode ipv6ip R3(config-if)#ipv6 address 2001:db8:35:1::16/127 R5(config-if)#end Lab 6 IPv6 Manual Tunnels: Configs 85
  • 85. R3 Tunnel 0 R5 Tunnel 0 R3#sh ipv6 int tun 0 Tunnel0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A01:2300 No Virtual link-local address(es): Global unicast address(es): 2001:DB8:35:1::16, subnet is 2001:DB8:35:1::16/127 Joined group address(es): FF02::1 FF02::2 FF02::1:FF00:16 FF02::1:FF01:2300 MTU is 1480 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is enabled, number of DAD attempts: 1 ND reachable time is 30000 milliseconds (using 30000) ND RAs are suppressed (periodic) Hosts use stateless autoconfig for addresses. R3# R5#sh ipv6 int tun 0 Tunnel0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A01:2301 No Virtual link-local address(es): Global unicast address(es): 2001:DB8:35:1::17, subnet is 2001:DB8:35:1::16/127 Joined group address(es): FF02::1 FF02::2 FF02::1:FF00:17 FF02::1:FF01:2301 MTU is 1480 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is enabled, number of DAD attempts: 1 ND reachable time is 30000 milliseconds (using 30000) ND RAs are suppressed (periodic) Hosts use stateless autoconfig for addresses. R5# Lab 6 IPv6 Manual Tunnels: Verification 86
  • 86. R3 R3#ping 2001:db8:35:1::17 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 2001:DB8:35:1::17, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 39/39/39 ms R3# Lab 6 IPv6 Manual Tunnels: Verification 87
  • 87. Lab 6 IPv6 Manual Tunnels: GRE  The link between R3 and R6 has another issue. It can not pass protocol 41 for some reason  Due to this limitation, IPv6oIPv4 tunnel can not be established between R3 and R6  ISP provided you an option of using GRE tunnel instead between R3 and R6  Since there is a directly connected interface between R3 and R6, the tunnel source and destinations can easily be chosen as the outgoing interface  A new IPv6 address needs to configured on both side over the tunnel between R3 and R6 in the range 2001:db8:36:1::16/127 as shown in the previous slide  Ping R6 IPv6 tunnel address from R3 and make sure it is successful to determine that the tunnel is up and running 88
  • 88. R# Configs R6 R6(config-if)#int tun 0 R6(config-if)#tun source s1/0 R6(config-if)#tun destination 10.1.36.0 R6(config-if)#tun mode gre ip R6(config-if)#ipv6 address 2001:db8:36:1::17/127 R6(config-if)#end R3 R3(config-if)#int tun 1 R3(config-if)#tun source s2/0 R3(config-if)#tun destination 10.1.36.1 R3(config-if)#tun mode gre ip R3(config-if)#ipv6 address 2001:db8:36:1::16/127 R3(config-if)#end Lab 6 IPv6 Manual Tunnels: Configs 89
  • 89. R3 Tunnel 1 R6 Tunnel 0 R3#sh ipv6 int tun 1 Tunnel1 is up, line protocol is up IPv6 is enabled, link-local address is FE80::4AFF:FEA2:853 No Virtual link-local address(es): Global unicast address(es): 2001:DB8:36:1::16, subnet is 2001:DB8:36:1::16/127 Joined group address(es): FF02::1 FF02::2 FF02::1:FF00:16 FF02::1:FFA2:853 MTU is 1476 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is enabled, number of DAD attempts: 1 ND reachable time is 30000 milliseconds (using 30000) ND RAs are suppressed (periodic) Hosts use stateless autoconfig for addresses. R3# R6#sh ipv6 int tun 0 Tunnel0 is up, line protocol is up IPv6 is enabled, link-local address is FE80::A8BB:CCFF:FE00:5600 No Virtual link-local address(es): Global unicast address(es): 2001:DB8:36:1::17, subnet is 2001:DB8:36:1::16/127 Joined group address(es): FF02::1 FF02::2 FF02::1:FF00:17 FF02::1:FF00:5600 MTU is 1476 bytes ICMP error messages limited to one every 100 milliseconds ICMP redirects are enabled ICMP unreachables are sent ND DAD is enabled, number of DAD attempts: 1 ND reachable time is 30000 milliseconds (using 30000) ND RAs are suppressed (periodic) Hosts use stateless autoconfig for addresses. R6# Lab 6 IPv6 Manual Tunnels: Verification 90
  • 90. R3 R3#ping 2001:db8:36:1::17 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 2001:DB8:36:1::17, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 37/38/40 ms R3# Lab 6 IPv6 Manual Tunnels: Verification 91
  • 91. Lab 7 : OSPFv3
  • 92. Lab 7 OSPFv3  ISP has received a request from ABC Inc that they want IPv6 connectivity between Site 1 and Site 2. ISP are also making an effort to make their own network dual stack and enabling IPv6 in their core network  ISP has been running OSPFv2 internally in their core. They have decided to run OSPFv3 for IPv6  Assign IPv6 address 2001:db8:172:17::2/127 between R2 & R3. ::2 on R2 side and ::3 on R3 side  Assign IPv6 address 2001:db8:172:17::/127 between R1 & R2. :: on R1 side and ::1 on R2 side  Configure OSPFv3 area 0 between R1 and R2 and area 1 between R2 and R3 as shown in the next slide  Put Loopbacks of R1 and R2 into area 0 93
  • 93. Lab 7 OSPFv3  ISP has received a request from ABC Inc that they want IPv6 connectivity Redistribute R2’s loopback into OSPFv3  Ping ipv6 Loopback 0 of R3 from the loopback 0 of R1  Compare the difference between OSPFv2 and OSPFv3 LSAs 94
  • 94. Lab 7: OSPFv3 95
  • 95. R# Area 1 Configs R3 R3(config)#ipv6 unicast-routing R3(config)#int lo 0 R3(config-if)#ipv6 add 2001:db8:172:16::3/128 R3(config)#int e0/0 R3(config-if)#ipv6 add 2001:db8:172:17::3/127 R3(config-if)#ipv6 ospf 1 area 1 R3(config)#ipv6 router ospf 1 R3(config-rtr)#redistribute connected R3(config-if)#end R2 R2(config)#ipv6 unicast-routing R2(config-if)#int e0/0 R2(config-if)#ipv6 add 2001:db8:172:17::2/127 R2(config-if)#ipv6 ospf 1 area 1 R2(config-if)#end Lab 7 OSPFv3: Configs 96
  • 96. R# Area 0 Configs R2 R2(config)#int lo 0 R2(config-if)#ipv6 add 2001:db8:172:16::2/128 R2(config-if)#ipv6 ospf 1 area 0 R2(config-if)#int s1/0 R2(config-if)#ipv6 add 2001:db8:172:17::1/127 R2(config-if)#ipv6 ospf 1 area 0 R2(config-if)#end Lab 7 OSPFv3: Configs 97
  • 97. R# Area 0 Configs R1 R1(config)#ipv6 unicast-routing R1(config)#int lo 0 R1(config-if)#ipv6 add 2001:db8:172:16::1/128 R1(config-if)#ipv6 ospf 1 area 0 R1(config)#int s1/0 R1(config-if)#ipv6 add 2001:db8:172:17::/127 R1(config-if)#ipv6 ospf 1 area 0 R1(config-if)#end Lab 7 OSPFv3: Configs 98
  • 98. R2 R2#sh ipv6 ospf nei OSPFv3 Router with ID (172.16.1.2) (Process ID 1) Neighbor ID Pri State Dead Time Interface ID Interface 172.16.1.1 0 FULL/ - 00:00:31 6 Serial1/0 172.16.1.3 1 FULL/DR 00:00:36 2 Ethernet0/0 R2# R2#sh ipv6 ospf nei detail | i area In the area 0 via interface Serial1/0 In the area 1 via interface Ethernet0/0 R2# R2#sh ipv6 ospf int brie Interface PID Area Intf ID Cost State Nbrs F/C Se1/0 1 0 6 64 P2P 1/1 Et0/0 1 1 2 10 BDR 1/1 R2# Lab 7 OSPFv3: Verification 99
  • 99. R2 R2#sh ipv6 ospf Routing Process "ospfv3 1" with ID 172.16.1.2 Supports IPv6 Address Family Event-log enabled, Maximum number of events: 1000, Mode: cyclic It is an area border and autonomous system boundary router Redistributing External Routes from, connected […] Number of external LSA 1. Checksum Sum 0x0055EC Number of areas in this router is 2. 2 normal 0 stub 0 nssa Graceful restart helper support enabled Reference bandwidth unit is 100 mbps Area BACKBONE(0) Number of interfaces in this area is 2 SPF algorithm executed 7 times Number of LSA 8. Checksum Sum 0x03F283 Number of DCbitless LSA 0 Number of indication LSA 0 Number of DoNotAge LSA 0 Flood list length 0 Area 1 Number of interfaces in this area is 1 SPF algorithm executed 3 times Number of LSA 8. Checksum Sum 0x02CAB4 Number of DCbitless LSA 0 Number of indication LSA 0 Number of DoNotAge LSA 0 Flood list length 0 Lab 7 OSPFv3: Verification 10 0
  • 100. R1 R1#sh ipv6 ospf Routing Process "ospfv3 1" with ID 172.16.1.1 Supports IPv6 Address Family Event-log enabled, Maximum number of events: 1000, Mode: cyclic Router is not originating router-LSAs with maximum metric Initial SPF schedule delay 5000 msecs Minimum hold time between two consecutive SPFs 10000 msecs Maximum wait time between two consecutive SPFs 10000 msecs Minimum LSA interval 5 secs Minimum LSA arrival 1000 msecs LSA group pacing timer 240 secs Interface flood pacing timer 33 msecs Retransmission pacing timer 66 msecs Number of external LSA 1. Checksum Sum 0x0055EC Number of areas in this router is 1. 1 normal 0 stub 0 nssa Graceful restart helper support enabled Reference bandwidth unit is 100 mbps Area BACKBONE(0) Number of interfaces in this area is 2 SPF algorithm executed 3 times Number of LSA 8. Checksum Sum 0x03F283 Number of DCbitless LSA 0 Number of indication LSA 0 Number of DoNotAge LSA 0 Flood list length 0 Lab 7 OSPFv3: Verification 10 1
  • 101. R3 R3#sh ipv6 ospf Routing Process "ospfv3 1" with ID 172.16.1.3 Supports IPv6 Address Family Event-log enabled, Maximum number of events: 1000, Mode: cyclic Router is not originating router-LSAs with maximum metric Initial SPF schedule delay 5000 msecs Minimum hold time between two consecutive SPFs 10000 msecs Maximum wait time between two consecutive SPFs 10000 msecs Minimum LSA interval 5 secs Minimum LSA arrival 1000 msecs LSA group pacing timer 240 secs Interface flood pacing timer 33 msecs Retransmission pacing timer 66 msecs Number of external LSA 1. Checksum Sum 0x0055EC Number of areas in this router is 1. 1 normal 0 stub 0 nssa Graceful restart helper support enabled Reference bandwidth unit is 100 mbps Area 1 Number of interfaces in this area is 1 SPF algorithm executed 3 times Number of LSA 8. Checksum Sum 0x02CAB4 Number of DCbitless LSA 0 Number of indication LSA 0 Number of DoNotAge LSA 0 Flood list length 0 Lab 7 OSPFv3: Verification 10 2
  • 102. Area 0 R2#sh ipv6 ospf data OSPFv3 Router with ID (172.16.1.2) (Process ID 1) Router Link States (Area 0) ADV Router Age Seq# Fragment ID Link count Bits 172.16.1.1 968 0x80000002 0 1 None 172.16.1.2 967 0x80000002 0 1 B Inter Area Prefix Link States (Area 0) ADV Router Age Seq# Prefix 172.16.1.2 963 0x80000001 2001:DB8:172:17::2/127 Inter Area Router Link States (Area 0) ADV Router Age Seq# Link ID Dest RtrID 172.16.1.2 814 0x80000001 2886729987 172.16.1.3 Link (Type-8) Link States (Area 0) ADV Router Age Seq# Link ID Interface 172.16.1.1 967 0x80000002 6 Se1/0 172.16.1.2 964 0x80000002 6 Se1/0 Intra Area Prefix Link States (Area 0) ADV Router Age Seq# Link ID Ref-lstype Ref-LSID 172.16.1.1 968 0x80000002 0 0x2001 0 172.16.1.2 967 0x80000002 0 0x2001 0 Lab 7 OSPFv3: Verification 10 3
  • 103. R2 (continued..) Router Link States (Area 1) ADV Router Age Seq# Fragment ID Link count Bits 172.16.1.2 928 0x80000002 0 1 B 172.16.1.3 820 0x80000003 0 1 E Net Link States (Area 1) ADV Router Age Seq# Link ID Rtr count 172.16.1.3 929 0x80000001 2 2 Inter Area Prefix Link States (Area 1) ADV Router Age Seq# Prefix 172.16.1.2 963 0x80000001 2001:DB8:172:16::1/128 172.16.1.2 963 0x80000001 2001:DB8:172:17::/127 172.16.1.2 963 0x80000001 2001:DB8:172:16::2/128 Link (Type-8) Link States (Area 1) ADV Router Age Seq# Link ID Interface 172.16.1.2 968 0x80000002 2 Et0/0 172.16.1.3 968 0x80000002 2 Et0/0 Intra Area Prefix Link States (Area 1) ADV Router Age Seq# Link ID Ref-lstype Ref-LSID 172.16.1.3 929 0x80000001 2048 0x2002 2 Type-5 AS External Link States ADV Router Age Seq# Prefix 172.16.1.3 819 0x80000001 2001:DB8:35:1::16/127 172.16.1.3 819 0x80000001 2001:DB8:36:1::16/127 172.16.1.3 819 0x80000001 2001:DB8:172:16::3/128 Lab 7 OSPFv3: Verification 10 4
  • 104. R5 & R6 R2#deb ipv6 ospf hello OSPFv3 hello events debugging is on 19:02:20.240: OSPFv3: Send hello to FF02::5 area 1 on Ethernet0/0 from FE80::A8BB:CCFF:FE00:5200 interface ID 2 19:02:27.100: OSPFv3: Rcv hello from 172.16.1.3 area 1 from Ethernet0/0 FE80::A8BB:CCFF:FE00:5300 interface ID 2 19:02:27.100: OSPFv3: End of hello processing 19:02:28.840: OSPFv3: Send hello to FF02::5 area 0 on Serial1/0 from FE80::A8BB:CCFF:FE00:5200 interface ID 6 19:02:28.920: OSPFv3: Rcv hello from 172.16.1.1 area 0 from Serial1/0 FE80::4AFF:FEA2:851 interface ID 6 19:02:28.920: OSPFv3: End of hello processing R2#undeb all All possible debugging has been turned off Lab 7 OSPFv3: Debugs 10 5
  • 105. Lab 8 : BGPv6
  • 106. Lab 8: BGPv6 10 7
  • 107. Lab 8 BGPv6: iBGP  ISP is already receiving IPv6 Internet prefixes on R1, Since there is a requirement of providing IPv6 Internet connectivity to Site 2 as well so ISP has to extend BGP all the way upto site 2 for IPv6 by enabling iBGP in their network and eBGP with Site 2. Note, this BGP extension is already present in IPv4 network  iBGP peering in the ISP network is following IPv4 BGP method which is to source the update from loopback and peer between loopbacks  ISP is following the similar method that they used in IPv4 BGP which is to make R2 as an RR for R1 and R3 and run iBGP between R2-R1 and R2-R3  Advertise 2004:db8::1/128 from R1 under address-family ipv6  Redistribute static route for Site 1 into BGP so site 2 can learn about this prefix 10 8
  • 108. Lab 8 BGPv6: iBGP  Set next-hop-self towards R2 or static routes won’t be installed in AS 109  Enable iBGP between R2-R1 and R2-R3 making R1 and R3 as route-reflector clients for R2. Note, disable ipv4-unicast default peering so it does not activate ipv4 peering by default when ipv6 peering is configured 10 9
  • 109. R# Area 0 Configs R1 R1(config)#router bgp 109 R1(config-router)#no bgp default ipv4-unicast R1(config-router)#address-family ipv6 R1(config-router-af)#nei 2001:db8:172:16::2 remote 109 R1(config-router-af)#nei 2001:db8:172:16::2 update loop 0 R1(config-router-af)#redistribute static R1(config-router-af)#neighbor 2001:db8:172:16::2 next-hop-self R1(config-router-af)#network 2004:db8::1/128 R1(config-router-af)#end R3 R3(config)#router bgp 109 R3(config-router)#no bgp default ipv4-unicast R3(config-router)#address-family ipv6 R3(config-router-af)#nei 2001:db8:172:16::2 remote 109 R3(config-router-af)#nei 2001:db8:172:16::2 update loop 0 R3(config-router-af)#end Lab 8 BGPv6: iBGP Configs 11 0
  • 110. R# Area 0 Configs R2 R2(config)#router bgp 109 R2(config-router)#no bgp default ipv4-unicast R2(config-router)#address-family ipv6 R2(config-router-af)#nei 2001:db8:172:16::1 remote 109 R2(config-router-af)#nei 2001:db8:172:16::1 update loop 0 R2(config-router-af)#nei 2001:db8:172:16::1 route-reflector-client R2(config-router-af)#nei 2001:db8:172:16::3 remote 109 R2(config-router-af)#nei 2001:db8:172:16::3 update loop 0 R2(config-router-af)#nei 2001:db8:172:16::3 route-reflector-client R2(config-router-af)#end Lab 8 BGPv6: iBGP Configs 11 1
  • 111. R2 R2#sh bgp ipv6 unicast sum BGP router identifier 172.16.1.2, local AS number 109 BGP table version is 4, main routing table version 4 1 network entries using 172 bytes of memory 1 path entries using 88 bytes of memory 1/1 BGP path/bestpath attribute entries using 128 bytes of memory 1 BGP AS-PATH entries using 24 bytes of memory 0 BGP route-map cache entries using 0 bytes of memory 0 BGP filter-list cache entries using 0 bytes of memory BGP using 412 total bytes of memory BGP activity 7/0 prefixes, 8/1 paths, scan interval 60 secs Neighbor V AS MsgRcvd MsgSent TblVer InQ OutQ Up/Down State/PfxRcd 2001:DB8:172:16::1 4 109 100 98 4 0 0 0 1:26:26 2 2001:DB8:172:16::3 4 109 95 98 4 0 0 0 1:24:10 0 R2# Lab 8 BGPv6: iBGP Verification 11 2
  • 112. R2 R2#sh bgp ipv6 unicast BGP table version is 4, local router ID is 172.16.1.2 Status codes: s suppressed, d damped, h history, * valid, > best, i - internal, r RIB-failure, S Stale, m multipath, b backup-path, x best-external, f RT-Filter, a additional-path Origin codes: i - IGP, e - EGP, ? - incomplete Network Next Hop Metric LocPrf Weight Path *>i 2004:DB8::1/128 2001:DB8:172:16::1 0 100 0 i *>i 2001:DB8:1:41::/64 2001:DB8:172:16::1 0 100 0 ? Lab 8 BGPv6: iBGP Verification 11 3
  • 113. R2 R2#sh bgp ipv6 unicast 2001:db8:1:41::/64 BGP routing table entry for 2001:DB8:1:41::/64, version 29 Paths: (1 available, best #1, table default) Advertised to update-groups: 2 Refresh Epoch 2 Local, (Received from a RR-client) 2001:DB8:172:16::1 (metric 64) from 2001:DB8:172:16::1 (172.16.1.1) Origin incomplete, metric 0, localpref 100, valid, internal, best Lab 8 BGPv6: iBGP Verification 11 4
  • 114. Lab 8 BGPv6: eBGP  ISP is now ready to provided end to end connectivity between site 1 and Site 2 for ABC  You want to use the similar BGP policies and advertisement that you have for iPv4.  Enable eBGP between R3 and R5 over link local address and R3 and R6 over a global address over the tunnel interfaces. Note, make sure to advertise Serial2/0 into OSPFv3 or site 2 routes will not get installed in AS 109  Advertise prefixes that are assigned on the Ethernet segment of R5 and R6 and aggregate 2001:db8:1:56::/64 and 2001:db8:1:57::/64 into one block  Make sure that H2 can reach IPv6 Internet. Note, in our case 2004:db8::1 represent IPv6 Internet  Verify that Site 2 can reach Site 1 by pinging H1 from H2. 11 5
  • 115. R# Area 0 Configs R5 R5(config)#router bgp 1 R5(config-router)#address-family ipv6 R5(config-router-af)#nei FE80::A01:2300%Tunnel0 remote 109 R5(config-router-af)#net 2001:db8:1:56::/64 R5(config-router-af)#net 2001:db8:1:57::/64 R5(config-router-af)#net 2001:db8:1:88::/64 R5(config-router-af)#aggregate-address 2001:db8:1:56::/63 summary-only R5(config-router-af)#end R3 R3(config)#router bgp 109 R3(config-router)#address-family ipv6 R3(config-router-af)#nei FE80::A01:2301%Tunnel0 remote 1 R3(config-router-af)# Lab 8 BGPv6: eBGP Configs 11 6
  • 116. R# Area 0 Configs R6 R6(config)#router bgp 1 R6(config-router)#address-family ipv6 R6(config-router-af)#nei 2001:DB8:36:1::16 remote 109 R6(config-router-af)#net 2001:db8:1:56::/64 R6(config-router-af)#net 2001:db8:1:57::/64 R6(config-router-af)#net 2001:db8:1:88::/64 R6(config-router-af)#aggregate-address 2001:db8:1:56::/63 summary-only R6(config-router-af)#end R3 R3(config)#router bgp 109 R3(config-router)#address-family ipv6 R3(config-router-af)#nei 2001:db8:36:1::17 remote 1 R3(config)#int s2/0 R3(config-if)#ip ospf 1 area 1 R3(config-if)#end Lab 8 BGPv6: eBGP Configs 11 7
  • 117. R3 R3#sh bgp ipv6 unicast sum | e 109 BGP table version is 26, main routing table version 26 3 network entries using 516 bytes of memory 5 path entries using 440 bytes of memory 4/3 BGP path/bestpath attribute entries using 512 bytes of memory 1 BGP rrinfo entries using 24 bytes of memory 1 BGP AS-PATH entries using 24 bytes of memory 0 BGP route-map cache entries using 0 bytes of memory 0 BGP filter-list cache entries using 0 bytes of memory BGP using 1516 total bytes of memory BGP activity 15/6 prefixes, 31/18 paths, scan interval 60 secs Neighbor V AS MsgRcvd MsgSent TblVer InQ OutQ Up/Down State/PfxRcd 2001:DB8:36:1::17 4 1 11 16 26 0 0 00:05:42 2 2001:DB8:172:16::2 FE80::A01:2301%Tunnel0 4 1 11 18 26 0 0 00:05:56 2 Lab 8 BGPv6: eBGP Verification 11 8
  • 118. R3 R3#sh bgp ipv6 unicast BGP table version is 27, local router ID is 172.16.1.3 Status codes: s suppressed, d damped, h history, * valid, > best, i - internal, r RIB-failure, S Stale, m multipath, b backup-path, x best-external, f RT-Filter, a additional-path Origin codes: i - IGP, e - EGP, ? - incomplete Network Next Hop Metric LocPrf Weight Path *>i 2001:DB8:1:41::/64 2001:DB8:172:16::1 0 100 0 ? * 2001:DB8:1:56::/63 2001:DB8:36:1::17 0 0 1 i *> FE80::A01:2301 0 0 1 i * 2001:DB8:1:88::/64 2001:DB8:36:1::17 0 0 1 i *> FE80::A01:2301 0 0 1 i *>i 2004:DB8::1/128 2001:DB8:172:16::1 0 100 0 i R3# Lab 8 BGPv6: eBGP Verification 11 9
  • 119. R3 R3#sh bgp ipv6 uni 2001:db8:1:56::/63 BGP routing table entry for 2001:DB8:1:56::/63, version 22 Paths: (2 available, best #2, table default) Advertised to update-groups: 1 3 Refresh Epoch 1 1, (aggregated by 1 10.1.1.6) 2001:DB8:36:1::17 (FE80::A8BB:CCFF:FE00:5600) from 2001:DB8:36:1::17 (10.1.1.6) Origin IGP, metric 0, localpref 100, valid, external, atomic-aggregate Refresh Epoch 1 1, (aggregated by 1 10.1.1.5) FE80::A01:2301 (FE80::A01:2301) from FE80::A01:2301%Tunnel0 (10.1.1.5) Origin IGP, metric 0, localpref 100, valid, external, atomic-aggregate, best R3# Lab 8 BGPv6: eBGP Verification 12 0
  • 120. R3 H2#ping [H1 IPv6 Global Unicast Address] Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 2001:DB8:1:41:A8BB:CCFF:FE00:5700, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 119/123/139 ms H2# Lab 8 BGPv6: eBGP Verification 12 1
  • 121. Lab key
  • 122. Configs R# Configs R1 ipv6 unicast-routing ipv6 cef ! interface Loopback0 ip address 172.16.1.1 255.255.255.255 ipv6 address 2001:DB8:172:16::1/128 ipv6 ospf 1 area 0 ! interface Loopback1 ip address 1.1.1.1 255.255.255.255 ipv6 address 2004:DB8::1/128 ! interface Serial0/0 ip address 10.1.37.0 255.255.255.254 ipv6 address 2001:DB8:14:1::14/127 ! interface Serial1/0 ip address 172.17.12.0 255.255.255.254 ipv6 address 2001:DB8:172:17::/127 ipv6 ospf 1 area 0 ! router ospf 1 passive-interface Serial0/0 network 10.1.37.0 0.0.0.1 area 0 network 172.16.1.1 0.0.0.0 area 0 network 172.17.12.0 0.0.0.1 area 0 router bgp 109 bgp log-neighbor-changes neighbor 2001:DB8:172:16::2 remote-as 109 neighbor 2001:DB8:172:16::2 update-source Loopback0 neighbor 172.16.1.2 remote-as 109 neighbor 172.16.1.2 update-source Loopback0 ! address-family ipv4 network 1.1.1.1 mask 255.255.255.255 network 10.1.41.0 mask 255.255.255.0 redistribute static no neighbor 2001:DB8:172:16::2 activate neighbor 172.16.1.2 activate exit-address-family ! address-family ipv6 redistribute static network 2004:DB8::1/128 neighbor 2001:DB8:172:16::2 activate neighbor 2001:DB8:172:16::2 next-hop-self exit-address-family ! ip route 10.1.41.0 255.255.255.0 10.1.37.1 ! ipv6 route 2001:DB8:1:41::/64 2001:DB8:14:1::15 ipv6 router ospf 1 12 3
  • 123. Configs R# Configs R2 ipv6 unicast-routing ipv6 cef ! interface Loopback0 ip address 172.16.1.2 255.255.255.255 ipv6 address 2001:DB8:172:16::2/128 ipv6 ospf 1 area 0 ! interface Ethernet0/0 ip address 172.17.23.0 255.255.255.254 ipv6 address 2001:DB8:172:17::2/127 ipv6 ospf 1 area 1 ! interface Serial1/0 ip address 172.17.12.1 255.255.255.254 ipv6 address 2001:DB8:172:17::1/127 ipv6 ospf 1 area 0 ! router ospf 1 network 172.16.1.2 0.0.0.0 area 0 network 172.17.12.0 0.0.0.1 area 0 network 172.17.23.0 0.0.0.1 area 1 ! router bgp 109 bgp log-neighbor-changes neighbor 2001:DB8:172:16::1 remote-as 109 neighbor 2001:DB8:172:16::1 update-source Loopback0 neighbor 2001:DB8:172:16::3 remote-as 109 neighbor 2001:DB8:172:16::3 update-source Loopback0 neighbor 172.16.1.1 remote-as 109 neighbor 172.16.1.1 update-source Loopback0 neighbor 172.16.1.3 remote-as 109 ! address-family ipv4 no neighbor 2001:DB8:172:16::1 activate no neighbor 2001:DB8:172:16::3 activate neighbor 172.16.1.1 activate neighbor 172.16.1.1 route-reflector-client neighbor 172.16.1.3 activate neighbor 172.16.1.3 route-reflector-client exit-address-family ! 12 4
  • 124. Configs R# Configs R2 ! address-family ipv6 neighbor 2001:DB8:172:16::1 activate neighbor 2001:DB8:172:16::1 route-reflector-client neighbor 2001:DB8:172:16::3 activate neighbor 2001:DB8:172:16::3 route-reflector-client exit-address-family ! ipv6 router ospf 1 12 5
  • 125. Configs R# Configs R3 interface Loopback0 ip address 172.16.1.3 255.255.255.255 ipv6 address 2001:DB8:172:16::3/128 ! interface Tunnel0 no ip address ipv6 address 2001:DB8:35:1::16/127 tunnel source Serial1/0 tunnel mode ipv6ip tunnel destination 10.1.35.1 ! interface Tunnel1 no ip address ipv6 address 2001:DB8:36:1::16/127 tunnel source Serial2/0 tunnel destination 10.1.36.1 ! interface Ethernet0/0 ip address 172.17.23.1 255.255.255.254 ipv6 address 2001:DB8:172:17::3/127 ipv6 ospf 1 area 1 ! interface Serial1/0 ip address 10.1.35.0 255.255.255.254 ! interface Serial2/0 ip address 10.1.36.0 255.255.255.254 ip ospf 1 area 1 ! router ospf 1 redistribute connected subnets network 172.17.23.0 0.0.0.1 area 1 ! router bgp 109 bgp log-neighbor-changes neighbor 10.1.35.1 remote-as 1 neighbor 10.1.36.1 remote-as 1 neighbor 2001:DB8:36:1::17 remote-as 1 neighbor 2001:DB8:172:16::2 remote-as 109 neighbor 2001:DB8:172:16::2 update-source Loopback0 neighbor 172.16.1.2 remote-as 109 neighbor 172.16.1.2 update-source Loopback0 neighbor FE80::A01:2301%Tunnel0 remote-as 1 ! 12 6
  • 126. Configs R# Configs R3 ! address-family ipv4 network 172.16.0.0 network 172.17.0.0 neighbor 10.1.35.1 activate neighbor 10.1.36.1 activate no neighbor 2001:DB8:36:1::17 activate no neighbor 2001:DB8:172:16::2 activate neighbor 172.16.1.2 activate no neighbor FE80::A01:2301%Tunnel0 activate auto-summary exit-address-family ! address-family ipv6 neighbor 2001:DB8:36:1::17 activate neighbor 2001:DB8:172:16::2 activate neighbor FE80::A01:2301%Tunnel0 activate exit-address-family ! ipv6 router ospf 1 redistribute connected 12 7
  • 127. Configs R# Configs R4 ipv6 unicast-routing ipv6 cef ! interface Loopback0 ip address 10.1.1.4 255.255.255.255 ipv6 address 2001:DB8:1:1::4/128 ! interface Ethernet0/0 ip address 10.1.41.4 255.255.255.0 ipv6 address 2001:DB8:1:41::4/64 ipv6 address FD01:DB8:1:41::/64 eui-64 ipv6 nd ra interval 30 ! interface Serial1/0 ip address 10.1.37.1 255.255.255.254 ipv6 address 2001:DB8:14:1::15/127 ip route 0.0.0.0 0.0.0.0 10.1.37.0 ! ipv6 route ::/0 Serial1/0 FE80::4AFF:FEA2:851 12 8
  • 128. Configs R# Configs R5 interface Loopback0 ip address 10.1.1.5 255.255.255.255 ipv6 address 2001:DB8:1:1::5/128 ipv6 eigrp 1 ! interface Tunnel0 no ip address ipv6 address 2001:DB8:35:1::17/127 tunnel source Serial1/0 tunnel mode ipv6ip tunnel destination 10.1.35.0 ! interface Ethernet0/0 ip address 10.1.57.5 255.255.255.0 secondary ip address 10.1.58.5 255.255.255.0 secondary ip address 10.1.56.5 255.255.255.0 no ip split-horizon eigrp 1 standby version 2 standby 1 ip 10.1.56.1 standby 1 ipv6 autoconfig ipv6 address 2001:DB8:1:56::5/64 ipv6 address 2001:DB8:1:57::5/64 ipv6 address 2001:DB8:1:88::5/64 ipv6 nd router-preference High ipv6 nd ra interval 40 ipv6 eigrp 1 ! interface Serial1/0 ip address 10.1.35.1 255.255.255.254 ! router eigrp 1 network 10.1.1.5 0.0.0.0 network 10.1.35.0 0.0.0.1 network 10.1.56.0 0.0.0.255 network 10.1.57.0 0.0.0.255 network 10.1.58.0 0.0.0.255 ! router bgp 1 bgp log-neighbor-changes neighbor 10.1.1.6 remote-as 1 neighbor 10.1.1.6 update-source Loopback0 neighbor 10.1.35.0 remote-as 109 neighbor FE80::A01:2300%Tunnel0 remote-as 109 12 9
  • 129. Configs R# Configs R5 ! address-family ipv4 network 10.1.56.0 mask 255.255.255.0 network 10.1.57.0 mask 255.255.255.0 network 10.1.58.0 mask 255.255.255.0 aggregate-address 10.1.56.0 255.255.254.0 summary-only neighbor 10.1.1.6 activate neighbor 10.1.35.0 activate no neighbor FE80::A01:2300%Tunnel0 activate exit-address-family ! address-family ipv6 network 2001:DB8:1:56::/64 network 2001:DB8:1:57::/64 network 2001:DB8:1:88::/64 aggregate-address 2001:DB8:1:56::/63 summary-only neighbor FE80::A01:2300%Tunnel0 activate exit-address-family ! ipv6 router eigrp 1 13 0
  • 130. Configs R# Configs R6 interface Loopback0 ip address 10.1.1.6 255.255.255.255 ipv6 address 2001:DB8:1:1::6/128 ipv6 eigrp 1 ! interface Tunnel0 no ip address ipv6 address 2001:DB8:36:1::17/127 tunnel source Serial1/0 tunnel destination 10.1.36.0 ! interface Ethernet0/0 ip address 10.1.57.6 255.255.255.0 secondary ip address 10.1.58.6 255.255.255.0 secondary ip address 10.1.56.6 255.255.255.0 no ip split-horizon eigrp 1 standby version 2 standby 1 ip 10.1.56.1 standby 1 ipv6 autoconfig standby 1 priority 105 standby 1 preempt ipv6 address 2001:DB8:1:56::6/64 ipv6 address 2001:DB8:1:57::6/64 ipv6 address 2001:DB8:1:88::6/64 ipv6 nd ra interval 40 ipv6 eigrp 1 ! interface Serial1/0 ip address 10.1.36.1 255.255.255.254 ! router eigrp 1 network 10.1.1.6 0.0.0.0 network 10.1.36.0 0.0.0.1 network 10.1.56.0 0.0.0.255 network 10.1.57.0 0.0.0.255 network 10.1.58.0 0.0.0.255 ! router bgp 1 bgp log-neighbor-changes neighbor 10.1.1.5 remote-as 1 neighbor 10.1.1.5 update-source Loopback0 neighbor 10.1.36.0 remote-as 109 neighbor 2001:DB8:36:1::16 remote-as 109 ! 13 1
  • 131. Configs R# Configs R6 address-family ipv4 network 10.1.56.0 mask 255.255.255.0 network 10.1.57.0 mask 255.255.255.0 network 10.1.58.0 mask 255.255.255.0 aggregate-address 10.1.56.0 255.255.254.0 summary-only neighbor 10.1.1.5 activate neighbor 10.1.36.0 activate no neighbor 2001:DB8:36:1::16 activate exit-address-family ! address-family ipv6 network 2001:DB8:1:56::/64 network 2001:DB8:1:57::/64 network 2001:DB8:1:88::/64 aggregate-address 2001:DB8:1:56::/63 summary-only neighbor 2001:DB8:36:1::16 activate exit-address-family ! ipv6 router eigrp 1 13 2
  • 132. Configs R# Configs H1 interface Ethernet0/0 ip address 10.1.41.1 255.255.255.0 ipv6 address autoconfig ipv6 enable ! ip route 0.0.0.0 0.0.0.0 10.1.41.4 H2 interface Ethernet0/0 ip address 10.1.56.2 255.255.255.0 ipv6 address autoconfig ipv6 enable ! ip route 0.0.0.0 0.0.0.0 10.1.56.1 13 3

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