Introduction to IPv6

Transcript

1. Presented by: Michael Dabydeen (@firelinks)

2. WHY IPV6 • The world is running out of Internet

   Address. • IPv4 has been officially exhausted. • “On 31 January 2011, the last two unreserved IANA /8 address blocks were allocated to APNIC according to RIR request procedures. This left five reserved but unallocated /8 blocks”

3. INTERNET ADDRESSES?? • Unique addressing system to identify each node

   (endpoint) on the Internet. • Called IP Addresses

4. CURRENT ADDRESSING SYSTEM (IPV4) • Designed in the 70’s &

   80’s • Represented by the Decimal system • Denoted by dot notation Example: 192.168.2.1 Represented in Binary as blocks of 8 bits 00000000.00000000.00000000.00000000 8bits x 4 blocks = 32 bits
5. None

6. CURRENT ADDRESSING SYSTEM (IPV4) • Controlled by IANA - Internet

   Assigned Numbers Authority • 32 bit Internet Addressing System • Maximum Number of Address  2 ^ 32 Address = 4, 294, 967, 296 total Address • Address are further divided by Regions  AFRINIC - African Internet Information Centre  ARIN – American Registry for Internet Numbers  APNIC – Asia-Pacific Network Information Centre  RIPE NCC - Réseaux IP Européens Network Coordination Centre  LACNIC - Latin America and Caribbean Network Information Centre  Guyana Registry

7. PROBLEM? Internet began exponential growth. In 1996, foresight indicated that

   the internet will at some point run out of internet address.

8. SOLUTION? Build a bigger Internet Space OR Find ways to

   deal with the current one  Subnetting  CIDR Notation  Netmasks  Network Address Translation (NAT)

9. BETTER SOLUTION? Build a bigger Addressing Space Internet Protocol version

   6 (IPv6)

10. ADOPTION On June 6th 2011, the world did a test

    run of IPv6. On June 6th 2012, IPv6 was officially launched, and some of the world top vendors are currently using it. Adoption is slow, but eventually we will all be migrated to IPv6 How do you think this will affect us?

11. ENTER IPV6 Larger Address System for Internet Address 128 bit

    Addressing system Built to accommodate 2^128 Addresss or  340,282,366,920,938,463,463,374,607,431,768,211,456 addresses 340 Trillion Trillion  79 trillion trillion more than IPv4  7 billion people on Earth / About 51 Trillion Trillion IP per perso on earth

12. FEATURES OF IPV6  Stateless Autoconfiguration  Anycast neighbour discovery

     Plug and Play  Multicast  One to many broadcast

13. ADDRESSING  16 bit hexadecimal representation  Blocks are seperated

    by colons ( : ) instead of dots .  Hex is not case sensitive  Zero in an address are almost meaningless and can be replaced by double colons (: : )  2001:0db8:0000:130F:0000:0000:087c:140B 2001:0db8:0:130F::087c:140B

14. ADDRESSING CONTINUED CIDR Still exists Represented in IPv4 192.168.2.1/24 Represented

    in IPv6 2001:0db8:0:130F::087c:140B /48

15. IMPORTANT THINGS Loopback Address 127.0.0.1 – IPv4 ::1 or 0:0:

    0:0:0:0:0:1 – IPv6 Wildcard Address 0.0.0.0 – IPv4 :: or 0:0:0:0:0:0:0:0 – IPv6

16. CONCLUSION  IPv6 address the exhaustion of internet address 

    By providing a larger 128 bit addressing system instead of 32bits  Or 3.4 Trillion Trillion Address  IPv6 is much improved in quality of IP Addresses  IPv6 Address are in hexadecimal  8 Blocks of 16 bits each  Zeros in an IPv6 block is almost negligible  IPv6 is currently official and occupies about 1% of the Internet.

17. QUESTIONS??? (AND HOPEFULLY ANSWERS)

18. CONTACT ME Michael Dabydeen Email : [email protected] Twitter: @firelinks Facebook:

    fb.com/mdabydeen Web: michaeldabydeen.com