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IP security over ATM CS 329 Hwajung Lee Computer and Communications Security The George Washington University.

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Presentation on theme: "IP security over ATM CS 329 Hwajung Lee Computer and Communications Security The George Washington University."— Presentation transcript:

1 IP security over ATM CS 329 Hwajung Lee Computer and Communications Security The George Washington University

2 Survey on ATM, IP, and IPsec

3 Why ATM? High capacity Scalability of link bandwidth and switch capacity Ability to support multiservice traffic. Costs 1-Gbps routers : about $187,000 5-Gbps ATM switch : about $ 41,000

4 ATM

5 AAL in ATM Connection oriented Constant bit rate, Real time : AAL 1 Variable bit rate, Real time : AAL 2 Variable bit rate : AAL 3/4*, AAL 5 Connectionless Variable bit rate : AAL 3/4*, AAL 5 * : Multiplexing, overhead

6 Threats to ATM networks Eavesdropping Equipment to tap a fiber optics cable < $2000 IPv6 ESP(Encrypted Security Payload) Spoofing IPv6 AH(Authentication Header) Denial of Service Fake connection release signal IPv6 ESP

7 Threats to ATM networks(Cont) Stealing of VCs(Virtual Channels) If A and B alter VPI/VCI in switching table back and forth (Different QoS) Traffic Analysis Encryption doesnt affect Cell header Attacker can encode signalling data User 1User 2 Switch A Switch B VCI/VPI

8 Why IP? No less capable of supporting real-time and multimedia applications than ATM IP multicast for multimedia Conferencing applications

9 IP Security Draft-ietf-ipsec-arch-sec-07.txt RFC 1825 http://www.ietf.org

10 IP Security Two modes for AH and ESP Transport mode provide protection primarily for upper layer protocol. Tunnel mode protocols are applied to tunneled IP packets.

11 IP Security Basic Components AH(Authentication Header) Data origin authentication, connectionless integrity Access control Optional anti-replay service(partial sequence integrity) to help counter denial of service. No Confidentiality Authentication for selected portions of the IP header

12 IP Security SA(Security Associations) Simplex connection that affords security service to the traffic carried by it. Security services are afforded to an SA by the use of AH, or ESP, but not both. Identified by SPI(Security parameter Index), IP destination address, and a security protocol(AH or ESP) identifier.

13 IP Security Two types of SAs Transport mode SA Security Association btw two hosts ESP : only for higher layer protocol, not IP header. AH : protection includes IP header. Tunnel mode SA SA btw Security gateways (MUST) SA btw a host and Security gateway (MUST) Solve fragmentation and reassembly problem.

14 Applicable IPv6 Functions Goal of IPv6 Fast, flexible, protocol with plenty of address space. IP over AAL 5(ATM Adaptation Layer 5)

15 Applicable IPv6 Functions Where IPsec May be implemented? Integration of IPsec into the native IP implementation. Bump-in-the-stack(BITS) Underneath IP implementations Usually in host. Bump-in-the-wire(BITW) Outboard crypto processor Either a host or a gateway(or both)

16 Applicable IPv6 Functions Header Header

17 Applicable IPv6 Functions Header Version 6:IPv6 4:IPv4 Priority 0<…<7 : capable of slowing down(congestion) 8<…<15: Real time traffic Std Suggestion : 1(News), 4(FTP), 6(Telnet)

18 Applicable IPv6 Functions Header Flow label To allow a source and destination to set up a pseudoconnection with particular properties and requirements. (Flow number, Src address, Dst Address) Payload length Exclude 40 bytes header. cf. IPv4 : Total length

19 Applicable IPv6 Functions Header Next header Which of the six extension header, if any, follows this IP header. If this header is the last IP header, the Next header field tells which transport protocol handler (e.g.,TCP, UDP) to pass the packet to. Hop limit cf. IPv4:Time to live

20 Applicable IPv6 Functions Header Source address, Destination address 16 Bytes For IPv4 : 80 zeros + IPv4 address Notation 8000:0000:0000:0000:0123:4567:89AB:CDEF 8000::123:4567:89AB:CDEF For IPv4, ::192:31:20:46

21 Applicable IPv6 Functions Extension Header Extension Header Six kinds of extension header. Must appear directly after the fixed header.

22 Applicable IPv6 Functions Extension Header Extension Header (Cont) Preferably in the order listed.

23 Applicable IPv6 Functions Extension Header Hop-by-hop header Support of Jumbograms (diagrams exceeding 64K)

24 Applicable IPv6 Functions Extension Header Routing header Lists one more routers that must be visited on the way to the destination Strict routing Loose routing

25 Applicable IPv6 Functions Extension Header Fragment header Datagram identifier, fragment number, a bit telling whether more fragment will follow. IPv6 : Only the source host can fragment a packet. Cf. IPv4

26 Applicable IPv6 Functions Extension Header Destination option header Fields that need only be interpreted at the destination host. Not used yet.

27 Applicable IPv6 Functions Extension Header Authentication Header (AH) Data origin authentication, connectionless integrity Optional anti-replay service(partial sequence integrity) to help counter denial of service. No Confidentiality

28 Applicable IPv6 Functions Extension Header Authentication Header (AH)

29 Applicable IPv6 Functions Extension Header Authentication Header - To send Constructs a packet (IP header + Payload) Pads out the packet with zeros to multiple of 16 bytes Computes cryptographic checksum (default : MD5)

30 Applicable IPv6 Functions Extension Header ESP(Encapsulating Security Payload) Confidentiality(encryption)* Data origin authentication < that of AH Not include outer IPsec header Connectionless integrity An anti-replay service

31 Applicable IPv6 Functions Extension Header ESP(Encapsulating Security Payload ESP payload padding To hide the size of the packets. Encryption Algorithm : DES (Default)

32 IP Security over ATM

33 IPv6 over ATM IPv6 packet encapsulation PVC (Permanent Virtual Circuit) environment Default : LLC encapsulation (RFC 1483)

34 IPv6 over ATM IPv6 packet encapsulation(Cont) PVC environment (Cont) Optional null encapsulation IPv6 packet is passed directly to the AAL5 layer Both ends of the PVC must be configured to use null encapsulation.

35 IPv6 over ATM IPv6 packet encapsulation(Cont) SVC (Switched Virtual Circuit) environment Default : LLC encapsulation

36 IPv6 over ATM IPv6 packet encapsulation(Cont) SVC environment (Cont) Unicast Packet Encapsulation

37 IPv6 over ATM IPv6 packet encapsulation(Cont) SVC environment (Cont) Multicast Packet Encapsulation

38 IPv6 over ATM IPv6 packet encapsulation(Cont) SVC environment (Cont) Optional null encapsulation IPv6 packet is passed directly to the AAL5 layer Both ends of the SVC must be configured to use null encapsulation.

39 IPv6 over ATM MTU(Maximun Transmission Unit) Size 9180 Octets (Default), RFC 1626 Other values may be used

40 IPv6 over ATM Neighbor Discovery Protocol Must not discard a Neighbor Solicitation message nor a Neighbor Advertisement without a link layer address option or with an unknown format.

41 Conclusions Despite the fundamental difference between ATM(Connection oriented service) and IP(Connectionless service), IPv6 can be used for ATM security without modifying basic IPv6 concepts. AAL 5 plays a crucial role in that connection.

42 Thank you.

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