IPv4/v6 Mobility & Proxy Mobile IPv6

1. IPv4/v6 Mobility & Proxy Mobile IPv6 Youn-Hee Han yhhan@kut.ac.kr Korea University of Technology and EducationInternet Computing Laboratory http://icl.kut.ac.kr

2. Outline • IP Mobility - Why and What • Mobile IPv4 (RFC 3344) • Mobile IPv6 (RFC 3775) • PMIPv6 (Proxy Mobile IPv6) Background • PMIPv6 Overview & Features • IPv4 Support for PMIPv6 • PMIPv6 and MIPv6 (Mobile IPv6) Interworking • Summary KT 세미나

3. IP Mobility - Why and What KT 세미나

4. IP’s Routing Model • Addresses are assigned in a topologically significant manner • Routing based on address prefixes • MN(Mobile Node) must be assigned a new address when it moves Router 163.152.39.12 163.152.39.11 Internet 163.152.39.10 163.152.39.10 Router 220.68.82.12 220.68.82.11 KT 세미나

5. IP Session Continuity • TCP connections are defined by… • [Source IP, Source Port, Destination IP, Destination Port] • MN’s address must be preserved regardless of its location to preserve the on-going IP session. • Threfore, when an MN moves, • Retain the MN address → Routing fails • Change the MN address → IP Session breaks Router Internet 163.152.39.10 220.68.82.10 39.10.10.5 Router KT 세미나

6. Solutions : Two-tier IP addressing • MN keeps its static IP address, but uses a temporary a CoA(care-of address) when it moves to another subnet Router Internet 163.152.39.10 163.152.39.10 39.10.10.5 Router 220.68.82.10 HoA (Home Address) – the original static IP address – 163.152.39.10 CoA (Care-of Address) – the temporary IP address – 220.68.82.10 KT 세미나

7. Why Network-layer Mobility? • Transport Layer/ Application Layer transparency • Can even change physical media without breaking connections • Mobility management is related with addressing KT 세미나

8. Backbone Network Routing Micro Mobility Zone ACR - 1 ACR - 2 ( Anchor ) IP Cloud for L 2 Mobility L 2 p E E x x t e t a n t e d n RAS3 e h d d RAS2 L e 2 d p a RAS1 L t h 2 p a t RAS2 h PG 2 PG 1 RAS3 RAS1 Subnet - 1 PG 1 Subnet - 2 PG 2 MSS MSS MSS MSS ( 1 ) ( 2 ) ( 3 ) HO using L 2 HO over different ACRs Path Extension using L 2 Path Extension Things to be considered • IP Mobility가 이동통신망에서 필요한가? 현재 WiBro에서는..? • 단말기를 단순한 클라이언트로만 생각한다면 IP Mobility Service는 필요 없고 단순한 L2 Path Extension 기능만 있어도 될 것 같아… • 그러나, IP Session 유지 기간에 따라 IP Mobility Service에 대한 중요도가 높아질 것 같아. KT 세미나

9. The world of IPv6 Mobile telephone Data-compatible home appliances Settlement \ \ Broadcasting Data car IPv６ Map information Vending machines Image Server DRINK \ \ Music Things to be considered • IP Mobility 지원이 필요 없는 거 아니야? • 단말기도 일종의 서버가 될 수 있다고 생각한다면 IP Mobility Service가 필요 하지 않을까…? • 단말기들 사이의 Peer-to-Peer 서비스를 원할하게 제공해야 한다면 IP Mobility Service는 필요할 것 같아. • IP 세션을 사람의 개입 없이 기계들 끼리 자동으로 열고 닫고 한다면…? KT 세미나

10. Things to be considered • 도대체 WiBro 네트워크 내에 ACR의 개수가 몇 개인데? • Router 장비인 ACR(서브넷) 2~3 개 정도로 서울 시내를 모두 Cover 한다고 들었어… 그러면, L2 Path Extension 만으로도 충분하지 않을까? • 도대체 서브넷을 이동하는 횟수가 얼마나 되는데? • 대부분의 시간에 서브넷의 경계에 위치하는 사용자는? • 만약에 WiBro가 전국 서비스망으로 확장된다면 ACR의 개수는 얼마나 될까? 만약에 10개 이상… 그 보다 더 많아진다면 IP Mobility는 필요할 것 같아… • WiBro와 WLAN 간의 이동은? WiBro와 3G (HSDPA) Network간의 이동은? 당연히 IP 가 바뀌겠지… IP Mobility가 필요하겠다. KT 세미나

11. Mobile IPv4 (RFC 3344) KT 세미나

12. Mobile IPv4 • History • RFC 2002 (IP Mobility Support for IPv4), Oct. 1996 • RFC 3344 (IP Mobility Support for IPv4), Aug. 2002 • 20 Major Changes, 16 Minor Changes since RFC 2002 • draft-ietf-mip4-rfc3344bis-03.txt (IP Mobility Support for IPv4, revised), March 2007 • 20 Major Changes, 17 Minor Changes since RFC 3344 • Major Component • HA – Home Agent • FA – Foreign Agent • MN – Mobile Node KT 세미나

13. Mobile IPv4 Operation Operation Sketch of Mobile IPv4 • Basic Operation of Mobile IPv4 CN Normal routing MN in Home Network MN has only HoA KT 세미나

14. Mobile IPv4 Operation Operation Sketch of Mobile IPv4 • Basic Operation of Mobile IPv4 CN Normal routing 1) AgentSolicitation 2) Agent Advertisement MN in Foreign Network 3) MN obtains a new CoA (FA-CoA) KT 세미나

15. Mobile IPv4 Operation Operation Sketch of Mobile IPv4 • Basic Operation of Mobile IPv4 CN Binding Cache 2) RegistrationRequest HoA CoA Normal routing 3) Registration Reply 1) Registration Request 4) Registration Reply MN in Foreign Network KT 세미나

16. Mobile IPv4 Operation Operation Sketch of Mobile IPv4 • Basic Operation of Mobile IPv4 CN Binding Cache HoA CoA KT 세미나

17. Mobile IPv4 Operation Operation Sketch of Mobile IPv4 • Basic Operation of Mobile IPv4 CN Binding Cache HoA CoA 1) AgentSolicitation 2) Agent Advertisement 3) MN obtains a new CoA (FA-CoA) KT 세미나

18. Mobile IPv4 Operation Operation Sketch of Mobile IPv4 • Basic Operation of Mobile IPv4 2) RegistrationRequest CN Binding Cache HoA New CoA 3) Registration Reply 4) Registration Reply 1) RegistrationRequest KT 세미나

19. Mobile IPv4 Operation Operation Sketch of Mobile IPv4 • Basic Operation of Mobile IPv4 CN Binding Cache HoA New CoA KT 세미나

20. Characteristics of Mobile IPv4 • Agent Discovery • Agent Solicitation/Agent Advertisement (ICMP Messages) • Registration • Registration Request/Registration Reply (UDP Messages) • Notes: • Triangle Routing • CN  HA  MN, MN  HA  CN • Two CoA Modes • FA-CoA • MNs receive a CoA from FA • FAmanages ‘Visitor List’, which has the entry [HoA, Layer 2 ID] • Host Routing (Not Prefix Routing) • No duplication about new CoA • Co-located CoA • DHCP-based CoA allocation • DHCP server should guarantee the uniqueness of CoA KT 세미나

21. Mobile IPv6 (RFC 3775) KT 세미나

22. The world of IPv6 Mobile telephone Data-compatible home appliances Settlement \ \ Broadcasting Data car IPv６ Map information Vending machines Image Server DRINK \ \ Music IPv6… Why IPv6? Why IPv6 and Mobile IPv6 • Infinite Address Space • 128 bits address • Autoconfiguration Service • IP address auto-configuration without DHCP • Efficient Routing • Managed prefix allocation • The number of routing entry will be reduced at routers • Perfect peer-to-peering • Built-in Security • Efficient Mobility KT 세미나

23. Why IPv6 and Mobile IPv6 Mobile IPv6 • RFC 3775, Mobility Support in IPv6, June 2004 • D. Johnson (Rice Univ.), C. Perkins (Nokia), J. Arkko (Ericsson) • It takes almost 3 years to make it RFC. • Major Components • HA • MN • (no FA) • MIPv6 is a network-layer protocol, while MIPv4 is a application-layer protocol (with network-layer modification). KT 세미나

24. Why IPv6 and Mobile IPv6 New Message and Options of Mobile IPv6 • New Signal Message related with Binging Management • Binding Update (BU) • Binding Acknowledgement (BAck) • Binding Refresh Request (BRR) • Binding Error (BE) • New Signal Message related with Binding Authentication • Home Test Init (HoTI) • Care-of Test Init (CoTI) • Home Test (HoT) • Care-of Test (CoT) • New Destination Option • Home Address Destination Option • New Routing Header Type • Routing Header Type 2 KT 세미나

25. Why IPv6 and Mobile IPv6 Operation Sketch of Mobile IPv6 • MN in Home Network CN Home N/W Internet AR HA MN with Home Address KT 세미나

26. Why IPv6 and Mobile IPv6 Operation Sketch of Mobile IPv6 • Movement to a Foreign Network CN Internet Home N/W Foreign N/W 3) MN sends a BU AR AR HA 4) HA acknowledges by returning BAck to MN 5) Setup Proxy Neighbor Cache 1) MN detects its Movements 2) MN configures New CoA KT 세미나

27. Why IPv6 and Mobile IPv6 Operation Sketch of Mobile IPv6 • Intercept packets sent from CNs CN Internet Home N/W Foreign N/W AR AR HA MN HA intercepts packets with Home Address as its destination address KT 세미나

28. Why IPv6 and Mobile IPv6 Operation Sketch of Mobile IPv6 • Packet Tunneling CN Internet Home N/W Foreign N/W AR AR HA MN HA sends encapsulated packets to MN’s CoA Looping Back Process the packet (Decapsulation) KT 세미나

29. Why IPv6 and Mobile IPv6 Operation Sketch of Mobile IPv6 • Return Routability with CN 5) CN generates ‘binding management key’ CN 4) MN sends CoTI to CN directly Internet Home N/W Foreign N/W AR AR HA 3) MN sends HoTI to CN via HA MN 1) MN guesses that the CN has no Binding Cache for me2) MN executes Return Routability KT 세미나

30. Why IPv6 and Mobile IPv6 Operation Sketch of Mobile IPv6 • Return Routability with CN 5) MN sends BU with binding authorization data 6) CN need not return Binding Acknowledgement CN 2) CN sends CoT to MN directly Internet Home N/W Foreign N/W AR AR HA 1) CN sends HoT to MN via HA MN 3) MN generates ‘binding management key’ 4) MN computes binding authorization data (signature) for BU meesage KT 세미나

31. Why IPv6 and Mobile IPv6 Operation Sketch of Mobile IPv6 • Data Routing after BU with CN CN directly sends packets to MN’s CoA using Routing header type 2 CN Internet Home N/W Foreign N/W AR AR HA MN KT 세미나

32. Why IPv6 and Mobile IPv6 Operation Sketch of Mobile IPv6 • When the binding’s lifetime of CN is near expiration 1) CN guesses that it is actively communicating with the mobile node and has indications, such as an open TCP connection to the MN 2) CN sends a BRR to the MN CN Internet Home N/W Foreign N/W AR AR HA MN 3) MN replies by returning a BU to the CN KT 세미나

33. Why IPv6 and Mobile IPv6 Characteristics of Mobile IPv6 • How to make CoA? • Auto-configuration • Without DHCP • With DHCP • Duplication Address Detection (DAD) is required. • Route optimization supported • Triangle routing avoided • But, CN is required to be modified for the route optimization • Security • MN  HA : Strong Security (IPSec) • MN  CN : Weak Security (Return Routability) • Handover latency increased KT 세미나

34. Why IPv6 and Mobile IPv6 Handover Latency of Mobile IPv6 L2 handover BU MD DAD Standard MIPv6 (Reactive) time Up to 2.5 seconds • MD: Movement Detection • DAD: Duplicate Address Detection • BU: Binding Update • Mobile IPv6 is not a handover-related protocol, rather it is a location (and route) update protocol. KT 세미나

35. PMIPv6 Background KT 세미나

36. PMIPv6 Background KT 세미나

37. PMIPv6 Background • Host-based Mobile IPv4/v6 (RFC 3344/3775) has not been yet deployed that much. • Why host-based MIP is not deployed yet? • Too heavy specification to be implemented at a small terminal • RFC 3344 (MIPv4): 99 pages • RFC 3775 (MIPv6): 165 pages • Battery problem • Waste of air resource • No Stable MIPv4/v6 stack executed in Microsoft Windows CE OS KT 세미나

38. PMIPv6 Background • WLAN switch device starts to provide link specific and proprietary solution for IP handover. • No change in MN protocol stack required! The solution works by tunneling traffic from the access point to the WLSM through your Layer 3 core network.No changes to the client devices or the underlying infrastructure are required KT 세미나

39. PMIPv6 Background • 3GPP, 3GPP2 and WiMAX operators are now showing their STRONG interests for network-based IP mobility solution • They are even now deploying their non-standardized network-based IP mobility solution (not Mobile IPv4/v6!). • IETF NetLMM WG started to standardize a network-based mobility management protocol. • 63th IETF (2005.7) • The first NetLMM BoF • 64th IETF (2005.11) • The second NetLMM BoF • 65th IETF (2006.03) • The first NetLMM WG • 66th,67th,68thIETF (2006.07, 2006.11, 2007.03) • The one of very active WGs in IETF meetings • Almost 150~200 persons usually participates in the NetLMM WG • Proxy Mobile IPv6 adopted as WG item KT 세미나

40. IETF NetLMM WG History • NetLMM DT solution (draft-giaretta-netlmm-dt-protocol) : designed from the scratch • Cisco’s solution (draft-ietf-netlmm-proxymip6) : Proxy Mobile IPv6 (leverage MIPv6) • Motorola’s solution (draft-singh-netlmm-protocol) • WG Chair (James Kempf, NTT) resigned after 67th meeting → Vidya Narayanan (Qualcomm) • WG Chair (Phil Roberts, Motorola) resigned after 68th meeting → Jonne Soininen (Nokia) KT 세미나

41. Internet Drafts of PMIPv6 • IETF PMIPv6 Drafts History • Individual • S. Gundavelli (CISCO), K. Leung (CISCO), and V. Devarapalli (Azaire Networks), “Proxy Mobile IPv6,” draft-sgundave-mipv6-proxymipv6-00, October 16, 2006. • S. Gundavelli (CISCO), K. Leung (CISCO), and V. Devarapalli (Azaire Networks), K. Chowdhury (Starent Networks), “Proxy Mobile IPv6,” draft-sgundave-mipv6-proxymipv6-01, January 5, 2007. • S. Gundavelli (CISCO), K. Leung (CISCO), and V. Devarapalli (Azaire Networks), K. Chowdhury (Starent Networks), B. Patil (Nokia), “Proxy Mobile IPv6,” draft-sgundave-mipv6-proxymipv6-02, March 5, 2007. • Official WG Item • S. Gundavelli (CISCO), K. Leung (CISCO), and V. Devarapalli (Azaire Networks), K. Chowdhury (Starent Networks), B. Patil (Nokia), “Proxy Mobile IPv6,” draft-ietf-netlmm-proxymip6-00.txt, April 8, 2007. KT 세미나

42. PMIPv6 Overview & Features KT 세미나

43. Goal of PMIPv6 • Goal • This protocol is for providing mobility support to any IPv6 host within a restricted and topologically localized portion of the network and without requiring the host to participate in any mobility related signaling. registration (being extended) PMIPv6 Scenario KT 세미나

44. PMIPv6 Overview LMA: Localized Mobility AgentMAG: Mobile Access Gateway IP Tunnel A IPinIP tunnel LMA and MAG. LMA Home NetworkMN’s Home Network (Topological Anchor Point) MN’s Home Network Prefix (MN-HNP) CAFE:1:/64 MAG1 Host A LMA Address (LMAA) That will be the tunnel entry-point. LMM (Localized Mobility Management)Domain MAG2 MN’s Home Network Prefix (MN-HNP) CAFE:2:/64 Proxy Binding Update (PBU) Control message sent out by MAG to LMA to register its correct location Host B MN Home Address (MN-HoA) MN continues to use it as long as it roams within a same domain Proxy Care of Address (Proxy-CoA) The address of MAG. That will be the tunnel end-point. KT 세미나

45. PMIPv6 Overview • New entities • LMA (Local Mobility Anchor) • Home Agent for the mobile node in the PMIPv6 domain • Assigns MN's home prefix and manages the MN's reachability state • MAG (Mobile Access Gateway) • Manages the mobility related signaling for a mobile node • Tracking the mobile node's attachment to the link and for signaling the MN's LMA • Assumptions (or Restrictions) • Link between MN and MAG is a point-to-point link (not shared link) • Logically exclusive layer 3 link between MN and MAG • Per-MN Prefix model • unique home network prefix is assigned to MN • Support both Steteless and Stateful address configuration modes KT 세미나

46. PMIPv6 Operation Flow PBU: Proxy Binding UpdatePBA: Proxy Binding Ack. • RA*: MN의 Prefix를 Policy Store에서 수신한 경우의 Router Advertisement • RA**: MN의 Prefix를 LMA에서 수신한 경우의 Router Advertisement MN MAG AAA&Policy Store LMA CN MN Attachment AAA Query with MN-ID AAA Reply with Profile RA* PBU with MN-ID, Home Network Prefix option, Timestamp option PBA with MN-ID, Home Network Prefix option RA** Tunnel Setup Optional DHCP Server DHCP Request DHCP Request DHCP Response DHCP Response [MN-HoA:CN](data) [Proxy-CoA:LMAA][MN-HoA:CN](data) [MN-HoA:CN](data) KT 세미나

47. PMIPv6 Features • Home in Any Place • Network Entry (or Handover) Procedures • After MN attachment, MAG gets MN’s profile • MN-Identity • LMA address and other configuration parameters • Obtain MN’s home network prefix information • Static Scheme • Get it from Profile • Dynamic Scheme • Get it from LMA via PBU/PBA • Now MAG have enough information to emulate MN’s home link • Send the RA (Router Advertisement) messages advertising MN’s home network prefix and other parameters • MN will always obtain its “home network prefix”, any where in the network. • MAG runs on the access router will emulate the home link on its access link. • It will ensure that MN believes it is at its home. KT 세미나

48. PMIPv6 Features • Proxy Registration • LMA needs to understand the Proxy Registration • RFC 3775 MIPv6 BU/Back Reuse PBU (Proxy Binding Update) PBA (Proxy Binding Acknowledgement) KT 세미나

49. PMIPv6 Features • M:1 Tunnel • LMA-MAG tunnel is a shared tunnel among many MNs. • 1:1 relation  m:1 relation • One tunnel is associated to multiple MNs’ Binding Caches. • Life-time of a tunnel should not be dependent on the life time of any single BCE. • LMA’s Prefix-based Routing • LMA will add prefix routes to MN’s home network prefix over the tunnel. Routing State for a MN stored in LMA KT 세미나

50. PMIPv6 Features • MAG establishes IPv6 in IPv6 tunnel with LMA • RA (Router Advertisement) should be UNICASTed to an MN • It will contain MN’s Home Network Prefix Routing State for a MN stored in MAG KT 세미나