IP multicast implementations can achieve some level of scoping by using the time-to-live (TTL) field in the IP header. However, TTL scoping has proven difficult to implement reliably, and the resulting schemes often are complex and difficult to understand.
Administratively scoped IP multicast provides clearer and simpler semantics for multicast scoping. The key properties of administratively scoped IP multicast are that packets addressed to administratively scoped multicast addresses do not cross configured administrative boundaries, and administratively scoped multicast addresses are locally assigned, and hence are not required to be unique across administrative boundaries.
The administratively scoped IPv4 multicast address space is the range 239.0.0.0 through 239.255.255.255.
The structure of the IPv4 administratively scoped multicast space is based loosely on the IPv6 addressing architecture as described in RFC 1884.
There are two well-known scopes:
239.255.0.0/16. The local scope is the minimal enclosing scope, and hence is not further divisible. Although the exact extent of a local scope is site dependent, locally scoped regions must not span any other scope boundary and must be contained completely within or equal to any larger scope. If scope regions overlap in area, the area of overlap must be within the local scope.
239.192.0.0/14. It is the space from which an organization should allocate subranges when defining scopes for private use.
The ranges 239.0.0.0/10, 239.64.0.0/10, and 239.128.0.0/10 are unassigned and available for expansion of this space.
Two other scope classes already exist in IPv4 multicast space, the statically assigned link-local scope, which is 224.0.0.0/24, and the static global scope allocations, which contains various addresses.