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Because the address to the left of / expands to
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node address: 12AB:0:0:CD30:123:4567:89AB:CDEF prefix: 12AB:0:0:CD30::/60
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As we already saw in Section 22, interfaces are addressable in IPv6 More precisely, we can say that a 128-bit IPv6 address is associated with an interface or to a set of interfaces In particular, RFC 1884 3 identifies three types of IPv6 addresses: Unicast: This type is the address of a single interface A packet forwarded to a unicast address is delivered only to the interface identified by that address
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Anycast: This type is the address of a set of interfaces typically belonging to different nodes A packet forwarded to an anycast address is delivered to only one interface of the set (the nearest to the source node, according to the routing metric) Multicast: This type is the address of a set of interfaces that typically belong to different nodes A packet forwarded to a multicast address is delivered to all interfaces belonging to the set The main differences between IPv4 and IPv6 addresses are the appearance of anycast addresses in IPv6 and the disappearance of IPv4 broadcast addresses, replaced by IPv6 multicast addresses
The Addressing Model
We have already learned that addresses belong to interfaces, not to nodes A node can be identified by any unicast address associated with its interfaces An IPv6 unicast address refers to a single interface A single interface can be assigned more addresses of the same type or of different types (unicast, anycast, or multicast) The following are two exceptions to this model: 1 A single IPv6 address can be assigned to a group of interfaces belonging to a node if IPv6 implementation treats that group as a single interface when presenting packets to the IP layer This capability is useful in fault tolerant systems, in which the presence of only one interface can represent a single point of failure, or to implement a mechanism for load sharing over multiple physical interfaces 2 Routers can have unnumbered interfaces that is, without any addresses This can be the case for interfaces on point-to-point links where the presence of addresses is not essential This setup can simplify a router s configuration, but its use is discouraged from the management point of view because explicitly referring to an interface is not possible if the interface is not associated with a unicast address IPv6 assumes that a subnet (or subnetwork, see Section 24) is associated with a link (or communication channel, see Section 22) More subnets can be associated with the same link, but a subnet cannot be associated with more than one link
Four
Assignment of IPv6 Addresses
We have already seen that IPv6 addresses will be unique at a worldwide level, and this uniqueness implies the existence of one or more organizations to assign these addresses RFC 1881 6 specifies that the IPv6 addressing space must be managed in the Internet community s interest through a small central authority availing itself of the cooperation of peripheral authorities The Internet community decided that the appropriate entity to perform the role of central authority would be the Internet Assigned Numbers Authority (IANA) The IANA will base the IPv6 addressing space management on suggestions coming from the Internet Architecture Board (IAB) and from the Internet Engineering Steering Group (IESG) The IANA will delegate to regional and other local registries the task of making specific address allocations to network service providers and other subregional registries Individuals and organizations can obtain address allocations directly from the appropriate regional (or other) registry or from their service providers The IANA will try to prevent monopolies and instances of abuse The IANA will develop a plan for the initial IPv6 address allocation, including a provision for the automatic allocation of IPv6 addresses to holders of IPv4 addresses IANA will also develop mediation and appeals procedures concerning delegation and revocation The IANA has already identified three local authorities to collaborate with for IPv6 address allocation: RIPE-NCC (R seaux IP Europ ens Network Coordination Centre) for Europe INTERNIC (Internet Network Information Center) for Northern America APNIC (Asian and Pacific Network Information Center) for Asian and Pacific countries
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