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Copyright © 2006 by The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill Technology Education Lecture 10 Advance Topics in Networking IPv6.

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Presentation on theme: "Copyright © 2006 by The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill Technology Education Lecture 10 Advance Topics in Networking IPv6."— Presentation transcript:

1 Copyright © 2006 by The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill Technology Education Lecture 10 Advance Topics in Networking IPv6 Introduction and Workshop Courtesy: Lancaster University and Lancaster University and University of Southampton, UK

2 Agenda IP Network Addressing Classful IP addressing Techniques to reduce address shortage in IPv4 Features of IPv6 Header Comparisons Extension Headers Conclusions

3 IP Network Addressing INTERNET  world’s largest public data network, doubling in size every nine months IPv4, defines a 32-bit address - 2 32 (4,294,967,296) IPv4 addresses available The first problem is concerned with the eventual depletion of the IP address space. Traditional model of classful addressing does not allow the address space to be used to its maximum potential.

4 Classful Addressing When IP was first standardized in Sep 1981, each system attached to the IP based Internet had to be assigned a unique 32-bit address The 32-bit IP addressing scheme involves a two level addressing hierarchy Network Number/Prefix Host Number

5 Classful Addressing… Divided into 5 classes Class A 8 bits N/W id and 24 bits host id and so on B,C. Wastage of IP addresses by assigning blocks of addresses which fall along octet boundaries

6 Techniques to reduce address shortage in IPv4 Subnetting Classless Inter Domain Routing (CIDR) Network Address Translation (NAT)

7 Subnetting Three-level hierarchy: network, subnet, and host. The extended-network-prefix is composed of the classful network-prefix and the subnet- number The extended-network-prefix has traditionally been identified by the subnet mask Network-Prefix Subnet-Number Host-Number

8 Subnetting Example Internet G H1H2 H3H4 Subnet mask 255.255.255.0 All traffic to 128.10.0.0 128.10.1.1 128.10.1.2 128.10.2.1128.10.2.2 Sub-network 128.10.1.0 Sub-network 128.10.2.0 Net mask 255.255.0.0

9 Classless Inter-Domain Routing Eliminates traditional classful IP routing. Supports the deployment of arbitrarily sized networks Routing information is advertised with a bit mask/prefix length  specifies the number of leftmost contiguous bits in the network portion of each routing table entry Example: 192.168.0.0/21

10 Network Address Translation Each organization- single IP address Within organization – each host with IP unique to the orgn., from reserved set of IP addresses 3 Reserved ranges 10.0.0.0 – 10.255.255.255 (16,777,216 hosts) 172.16.0.0 – 172.31.255.255/12 (1,048,576 hosts) 192.168.0.0 – 192.168.255.255/16 (65,536 hosts)

11 NAT Example Source Computer Source Computer's IP Address Source Computer's Port NAT Router's IP Address NAT Router's Assigned Port Number A10.0.0.140024.2.249.41 B10.0.0.25024.2.249.42 C10.0.0.3375024.2.249.43 D10.0.0.420624.2.249.44 10.0.0.4 10.0.0.1 B C A D

12 Features of IPv6 Larger Address Space Aggregation-based address hierarchy – Efficient backbone routing Efficient and Extensible IP datagram Stateless Address Autoconfiguration Security (IPsec mandatory) Mobility

13 128-bit IPv6 Address 3FFE:085B:1F1F:0000:0000:0000:00A9:1234 8 groups of 16-bit hexadecimal numbers separated by “:” 3FFE:85B:1F1F::A9:1234 :: = all zeros in one or more group of 16-bit hexadecimal numbers Leading zeros can be removed

14 40 bytes 20 bytes IPv4 IPv6 0 151631 vers hlen TOS total length identification flags flag-offset TTL protocol header checksum source address destination address options and padding vers traffic class flow-label payload length next header hop limit source address destination address Removed (6) ID, flags, flag offset TOS, hlen header checksum Changed (3) Added (2) Expanded total length => payload protocol => next header TTL => hop limit traffic class flow label address 32 to 128 bits Header comparison

15 Major Improvements of IPv6 Header No option field: Replaced by extension header. Result in a fixed length, 40-byte IP header. No header checksum: Result in fast processing. No fragmentation at intermediate nodes: Result in fast IP forwarding.

16 Extension Headers Routing – Extended routing, like IPv4 loose list of routers to visit Fragmentation – Fragmentation and Re- assembly Authentication – Integrity and authentication, security Encapsulation – Confidentiality Hop-by-Hop Option – Special options that require hop-by-hop processing Destination Options – Optional information to be examined by the destination node

17 Stateless Address Autoconfiguration 3 ways to configure network interfaces: Manually, Stateful, Stateless IPSAA  IPv6 addr. Separated into 2 parts: network and interface id. Link- local addresses: prefix FE80::0 + interface identifier (EUI-64 format) Obtain network id through Router solicitation (RS)

18 Stateless Address Autoconfiguration RFC 2373 dictates the conversion process, which can be described as having two steps. RFC 2373 – The first step is to convert the 48-bit MAC address to a 64-bit value. To do this, we break the MAC address into its two 24-bit halves: the Organizationally Unique Identifier (OUI) and the NIC specific part. The 16-bit hex value 0xFFFE is then inserted between these two halves to form a 64-bit address. Organizationally Unique Identifier (OUI)

19 Stateless Address Autoconfiguration – The second step is to invert the universal/local (U/L) flag (bit 7) in the OUI portion of the address. – Globally unique addresses assigned by the IEEE originally have this bit set to zero, indicating global uniqueness. – Likewise, locally created addresses, such as those used for virtual interfaces or a MAC address manually configured by an administrator, will have this bit set to one. – The U/L bit is inverted when using an EUI-64 address as an IPv6 interface ID.

20 Stateless Address Autoconfiguration Step 1 Step 2

21 Router Configuration Example

22 Conclusion  IPv6 is NEW … – built on the experiences learned from IPv4 – new features – large address space – new efficient header – autoconfiguration  … and OLD – still IP – built on a solid base – started in 1995, a lot of implementations and tests have been done

23 References IPng wg: http://playground.sun.com/pub/ipng/html http://playground.sun.com/pub/ipng/html NGtrans: http://www.6bone.net/ngtranshttp://www.6bone.net/ngtrans IPv6 users site: http://www.ipv6.orghttp://www.ipv6.org IPv6 Forum: http://www.ipv6forum.comhttp://www.ipv6forum.com FAQs RFC Repository: http://www.faqs.org/rfcs/ http://www.faqs.org/rfcs/

24 Copyright © 2006 by The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill Technology Education The End Questions?

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