Presentation is loading. Please wait.

Presentation is loading. Please wait.

Tokyo Institute of Technology

Published byVivian Bond Modified over 5 years ago

Similar presentations

Presentation on theme: "Tokyo Institute of Technology"— Presentation transcript:

1 Tokyo Institute of Technology
Multihomed ISPs and Policy Control <draft-ohta-multihomed-isps-00> Masataka Ohta Tokyo Institute of Technology

2 All the Hosts Should have Full (Default Free) Routing Table
Best locator of a peer from multiple ones absence of a TLA in the table means routing system has detected the TLA is unreachable metric entry of the table gives preference Metric can be set according to the policy of a site Source address selection for ingress filtering no forwarding or source address based routing! use source address entry (new!) of the table selection is hard, unless routing system is involved

3 IP Version 6 Addressing Architecture (RFC237[34])
IPv6 addresses has STRONG hierarchy 13 bits of TLA (Top Level Aggregator) 24 bits of NLA (Next Level Aggregator) Hierarchy of ISPs is assumed TLIs (Top Level ISPs) get globally unique TLAs NLIs (Next Level ISPs) get NLAs unique within TLA

4 IP Version 6 Addressing Architecture
| 3| 13 | 8 | | | bits | |FP| TLA |RES| NLA | SLA | Interface ID | | | ID | | ID | ID | | <--Public Topology---> Site < > Topology <------Interface Identifier-----> IP Version 6 Addressing Architecture

5 Multihomed ISPs Why multihoming is necessary?
Robustness! May NLIs be not so robust? No! NLIs MUST be multihomed to TLIs

6 TLI NLI Subscribers Typical Scenario of IPv6 ISPs with Multihoming

7 The Question Can the number of TLAs limited? How much is the limit?
Can NLIs be happy enough that not all ISPs require TLAs Can NLIs control policy? How much is the limit? No question: how the limit is imposed to be determined by global/regional/country NICs

8 Can NLIs Control Policy?
ISPs are identified by AS#s An NLI must peer with its TLI the NLI may peer with any other ISP Full egress control by NLIs possible Ingress control? Already limited today locally possible if compatible with egress control

9 determined as egress ones (local arrangement negotiable)
ISP B ISP C ISP D ISP E ISP A ISP F ISP G ISP H ISP I policy essentially determined as egress ones (local arrangement negotiable) Propagation of Prefix of ISP A

10 Ingress Control Possible as long as NLA is propagated
An NLI can ask neighbor ISPs for the propagation The NLA will be filtered by other ISPs the NLI can still receive packets to NLA from corresponding TLA not really a limitation

11 arrangements with D, H, E and I necessary for ingress control
ISP B (TLI of A) ISP C ISP D ISP E ISP A (NLI) ISP F ISP G ISP H ISP I arrangements with D, H, E and I necessary for ingress control Propagation of Prefix of ISP A

12 arrangement with H fail
ISP B (TLI of A) ISP C ISP D ISP E ISP A (NLI) ISP F ISP G ISP H (filter NLA) ISP I arrangement with H fail Propagation of Prefix of ISP A

13 Propagation of Prefix of ISP A
ISP B (TLI of A) ISP C ISP D ISP E ISP A (NLI) ISP F ISP G ISP H (pass NLA) ISP I Propagation of Prefix of ISP A

14 Propagation of Prefix of ISP A
ISP B (TLI of A) ISP C ISP D ISP E ISP A (NLI) ISP F ISP G ISP H (filter NLA) ISP I Propagation of Prefix of ISP A

15 How Much is the Limit? A lot larger than the number of those ISPs which claims to be global (tier1) Much larger than the number of NICs Better to be compatible with RFC237[34] 1024~8192?

16 Conclusion NLIs must be multihomed to TLIs
NLIs policy can still be controlled The number of TLAs should be limited below 1024~8192

Download ppt "Tokyo Institute of Technology"

Similar presentations

IPv6 Near-Unique Site Local Addresses draft-francis-ipngwg-unique-site-local-00.txt.

IPv6 Near-Unique Site Local Addresses draft-francis-ipngwg-unique-site-local-00.txt.
Why do current IP semantics cause scaling issues? −Today, “addressing follows topology,” which limits route aggregation compactness −Overloaded IP address.

Why do current IP semantics cause scaling issues? −Today, “addressing follows topology,” which limits route aggregation compactness −Overloaded IP address.
Future Directions For IP Architectures Ipv6 Cs686 Sadik Gokhan Caglar.

Future Directions For IP Architectures Ipv6 Cs686 Sadik Gokhan Caglar.
IPv6 The New Internet Protocol Integrated Network Services Almerindo Graziano.

IPv6 The New Internet Protocol Integrated Network Services Almerindo Graziano.
1 IPv6 5A7CE IP Next Generation (IPv6) what?what? why?why? when?when?

1 IPv6 5A7CE IP Next Generation (IPv6) what?what? why?why? when?when?
1 Features of IPv6 Larger Address Extended Address Hierarchy Flexible Header Format Improved Options Provision For Protocol Extension Support for Auto-configuration.

1 Features of IPv6 Larger Address Extended Address Hierarchy Flexible Header Format Improved Options Provision For Protocol Extension Support for Auto-configuration.
IPv6 Addressing Internet2 IPv6 Workshop Research Triangle Park, NC 5-7 March 2002.

IPv6 Addressing Internet2 IPv6 Workshop Research Triangle Park, NC 5-7 March 2002.
Chapter 6-7 IPv6 Addressing. IPv6 IP version 6 (IPv6) is the proposed solution for expanding the possible number of users on the Internet. IPv6 is also.

Chapter 6-7 IPv6 Addressing. IPv6 IP version 6 (IPv6) is the proposed solution for expanding the possible number of users on the Internet. IPv6 is also.
IPv6 The Next Generation Presented by Anna La Mura Jens Waldecker.

IPv6 The Next Generation Presented by Anna La Mura Jens Waldecker.
Engineering Workshops IPv6 Addressing. Engineering Workshops Overview of Addressing Historical aspects Types of IPv6 addresses Work-in-progress Abilene.

Engineering Workshops IPv6 Addressing. Engineering Workshops Overview of Addressing Historical aspects Types of IPv6 addresses Work-in-progress Abilene.
1 Computer Communication & Networks Lecture 17 & 18 Network Layer: Logical Addressing Waleed Ejaz.

1 Computer Communication & Networks Lecture 17 & 18 Network Layer: Logical Addressing Waleed Ejaz.
IP Version 6 Next generation IP Prof. P Venkataram ECE Dept. IISc.

IP Version 6 Next generation IP Prof. P Venkataram ECE Dept. IISc.
Chapter 2 The Internet Address Architecture. Table 2-1. Example IPv4 addresses written in dotted-quad and binary notation Dotted-Quad RepresentationBinary.

Chapter 2 The Internet Address Architecture. Table 2-1. Example IPv4 addresses written in dotted-quad and binary notation Dotted-Quad RepresentationBinary.
CS4550 Computer Networks II IP : internet protocol, part 3 : routing policies, IPv6.

CS4550 Computer Networks II IP : internet protocol, part 3 : routing policies, IPv6.
IPv6: The Future of the Internet? July 27th, 1999 Auug.

IPv6: The Future of the Internet? July 27th, 1999 Auug.
IP Version 6 Addressing Architecture RFC 2373 Presented by Vickie Brown.

IP Version 6 Addressing Architecture RFC 2373 Presented by Vickie Brown.
Routing and Routing Protocols

Routing and Routing Protocols
Subnetting and CIDR Textbook Ch 3.2.5

Subnetting and CIDR Textbook Ch 3.2.5
© 2009 Cisco Systems, Inc. All rights reserved. ROUTE v1.0—6-1 Connecting an Enterprise Network to an ISP Network Considering the Advantages of Using BGP.

© 2009 Cisco Systems, Inc. All rights reserved. ROUTE v1.0—6-1 Connecting an Enterprise Network to an ISP Network Considering the Advantages of Using BGP.
IAB/IESG Recommendations on IPv6 Address Allocation Bob Hinden at RIPE Sept. 2000 Brian Carpenter at ARIN Oct. 2000 Alain Durand at APNIC Oct. 2000.

IAB/IESG Recommendations on IPv6 Address Allocation Bob Hinden at RIPE Sept Brian Carpenter at ARIN Oct Alain Durand at APNIC Oct

Similar presentations

Ads by Google