IPv6: Difference between revisions

Address Space

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Allocation and Assignments

Minimum direct allocation is currently /32.

ISP assignments are as follows:

• /64 when it is known that one and only one subnet is needed.
• /56 for small sites, those expected to need only a few subnets over the next 5 years.
• /48 for larger sites

Addresses Space Size

• 340,282,366,920,938,463,463,374,607,431,768,211,456 unique IPs
• 42,535,295,865,117,307,932,921,825,928,971,026,432 IPs in 2000::/3 (1/8^th of total address space)
• 1,208,925,819,614,629,174,706,176 IPs in a /48
• 536,870,912 /32 prefixes within 2000::/3
• 65,536 /48 prefixes with a /32
• 65,536 /64 subnets within a /48
• 35,184,372,088,832 /48 prefixes within 2000::/3
• 8,192 IPv6 /48 prefixes for every IPv4 address in 2000::/3 alone.
• 18,446,744,073,709,551,616 IPs within a /64 subnet

Special Prefixes

• ::/8
  • ::/128 - Unspecified
  • ::1/128 - loopback (IPv4 127/8 equivalent)
  • ::ffff:0:0/96 - IPv4 mapped addresses
• 2000::/3 - IANA Global Unicast
  • 2001::/32 - Teredo (RFC-4380)
  • 2001:10::/28 - Orchid (RFC-4843)
  • 2002::/16 - 6to4
• FC00::/7 - unique local addresses
  • FC00::/8 is to be managed by a so-called "ULA-Central" for assigned /48s. As of 9-2007, this body has yet to be formed.
  • FD00::/8 is allocated by appending a randomly-generated 40-bit string, to derive a valid /48. RFC4193 offers a suggestion on how to do the random generation, to try to guarantee a minimum-quality result if the user does not have access to a good source of random numbers.
• FE80::/10 - link-local addresses (169.254/16 equivalent)
• FECO::/10 - site-local (deprecated)
• FF00::/8 - multicast

The remaining prefixes are all reserved for future Unicast allocations.

Multicast Addresses

Multicast addresses exist within the 'FF00::/8 prefix.

• FF02::1 - all v6 hosts on local subnet (IPv4 equivalent 224.0.0.1)
• FF02::2 - all v6 routers on local subnet (IPv4 equivalent 224.0.0.2)

Protocol Translation Mechanisms

• faithd can be used to translate on a per service basis.
• ptrtd is a similar and better solution, but only appears to run on Linux at this time.
• NAT-PT is also an option but it has been deprecated.
• Using one of the above, totd is still required to translate DNS.

MAC to EUI64

A MAC address is 48 bit wide, but we need a 64bit host ID in EUI64 format. The transformation is actually quite easy:

1. take the MAC of the network device (eg. 00:e0:81:2e:b6:d1)
2. flip bit 2 of the first byte (02:e0:81:2e:b6:d1)
3. insert FFFE in the middle (02:e0:81:FF:FE:2e:b6:d1)
4. combine with the network prefix into an IPv6 address (fe80::2e0:81FF:FE2e:b6d1)

Useful or Interesting Links

• IPv6 6to4 Reverse DNS Delegation - The Number Resource Organization
• Global IPv6 Deployment Progress Report
• SixXS IPv6 to IPv4 and IPv4 to IPv6 Website Gateway
• IPv6: An Interview with Itojun
• Generate Unique Local Address
• IPv4 Address Report
• IPv6 configuration guide for FreeBSD users

History