IPv6 Addressing

Article
11/18/2015

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4/8/2010

IPv6 not only provides more IP addresses than its predecessor, IPv4, but also has much larger addresses. The following table shows the different address spaces provided by IPv6 and IPv4.

IP version	Size of address space
IPv6	128 bits, which allows for 2128 or 340,282,366,920,938,463,463,374,607,431,768,211,456 (3.4 × 1038) possible addresses.
IPv4	32 bits, which allows for 232 or 4,294,967,296 possible addresses.

The relatively large size of the IPv6 address is designed to be subdivided into hierarchical routing domains that reflect the topology of the modern-day Internet. The use of 128 bits provides multiple levels of hierarchy and flexibility in designing hierarchical addressing and routing. The Ipv4-based Internet currently lacks this flexibility.

The architecture of IPv6 addressing is described in RFC 2373.

Reachability Scopes

Every IPv6 address has a reachability scope. IPv6 interfaces can have multiple addresses that have different reachability scopes. For example, a node may have a link-local address and a global address.

The following table shows the address and associated reachability scopes.

Address scope	Reachability scope	Description
Node-local	Same node	Node-local addresses are used to send packets to the same node. The following list shows the types of node-local addresses: Loopback address Node-local multicast address The loopback address is equivalent to the IPv4 loopback address. Packets addressed to the loopback address are never sent on a link or forwarded by an IPv6 router.
Link-local	Local link	Link-local addresses are used to communicate between hosts on the link. Link-local addresses are always configured automatically. The following list shows the types of link-local addresses: Unspecified address Link-local Unicast address Link-local Multicast address The unspecified address, indicates the absence of an address, and is typically used as a source address for packets that are attempting to verify the uniqueness of a tentative address. It is equivalent to the IPv4 unspecified address. The unspecified address is never assigned to an interface or used as a destination address.
Global	The IPv6 Internet	Global addresses, also known as aggregatable global unicast addresses, are globally routable and reachable on the IPv6 portion of the Internet. They are equivalent to public IPv4 addresses. Global addresses are configured by router advertisement. The following list shows the types of global addresses: Global Unicast address Other scope Multicast address Global addresses are designed to be aggregated or summarized to produce an efficient, hierarchical addressing and routing structure.

Node-local

Same node

Node-local addresses are used to send packets to the same node.

The following list shows the types of node-local addresses:

Loopback address
Node-local multicast address

The loopback address is equivalent to the IPv4 loopback address. Packets addressed to the loopback address are never sent on a link or forwarded by an IPv6 router.

Link-local

Local link

Link-local addresses are used to communicate between hosts on the link. Link-local addresses are always configured automatically.

The following list shows the types of link-local addresses:

Unspecified address
Link-local Unicast address
Link-local Multicast address

The unspecified address, indicates the absence of an address, and is typically used as a source address for packets that are attempting to verify the uniqueness of a tentative address. It is equivalent to the IPv4 unspecified address. The unspecified address is never assigned to an interface or used as a destination address.

Global

The IPv6 Internet

Global addresses, also known as aggregatable global unicast addresses, are globally routable and reachable on the IPv6 portion of the Internet. They are equivalent to public IPv4 addresses. Global addresses are configured by router advertisement.

The following list shows the types of global addresses:

Global Unicast address
Other scope Multicast address

Global addresses are designed to be aggregated or summarized to produce an efficient, hierarchical addressing and routing structure.

When you specify a link-local address, you should also specify a scope ID, which further defines the reachability scope for non-global addresses. For information about scope ID, see IPv6 Addresses.

Address Space Allocation

Like the IPv4 address space, the IPv6 address space is divided according to the value of high order bits in the address. The high order bits and their fixed values are known as a Format Prefix.

The following table shows the IPv6 address space allocation by Format Prefixes.

Allocation	Format Prefix	Fraction of the address space
Reserved	0000 0000	1/256
Reserved for NSAP allocation	0000 001	1/128
Aggregatable global unicast addresses	001	1/8
Link-local unicast addresses	1111 1110 10	1/1024
Multicast addresses	1111 1111	1/256

The remainder of the IPv6 address space is unassigned.

The current set of unicast addresses that can be used with IPv6 nodes consists of aggregatable global unicast addresses and link-local unicast addresses. These represent only 15 percent of the entire IPv6 address space. For more information, see Unicast IPv6 Addresses.

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IPv6 Addressing

Reachability Scopes

Address Space Allocation

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