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PROPOSED ADDRESSING STRUCTURE

The address ranges to be allocated are in the

* 172.16.80.0/20 (172.16.80.0-172.16.95.255) range for routing nodes
* 10.10.0.0/16 (10.10.0.0-10.10.255.255) range for client nodes.

See freenetworks [1] for more details.

ROUTING NODES

Routing nodes are IP routers in distinct locations (e.g. separate
nodes on the node map) that

* agree to meet Melbourne Wireless group consensus on the minimum
requirements on routing nodes, such as

* you aim to have 24/7 uptime

* are prepared to forward traffic on-behalf of peer Melbourne
Wireless nodes to other peer Melbourne Wireless nodes
* run OSPF as the wide area network (between nodes) interior gateway
protocol, in a configuration prescribed by Melbourne Wireless group
technical consensus

Routing nodes will be allocated one address from 172.16.80.0/20 range
per wide-area wireless interface. Along with this will be an
allocation of one or more /28 subnets from 10.10.0.0/16. This address
space can be further subnetted to supply connectivity to (local area)
wireless and wired client networks that form stub [2] networks from
the node. Reachability to directly connected 10.10.0.0 /28 subnets
will be advertised through OSPF.

CLIENT HOSTS

If you do not meet the above requirements, for instance

* you don't want to run OSPF but are a distinct node on the nodemap
* you have just a laptop that you want to connect via wireless to a
real routing node
* you have additional routers in a home network connected to your
routing node

then you are to use addresses from the 10.10.0.0/16 space.
Essentially only nodes that run OSPF across the WAN will use
172.16.80.0/20 addresses.

If you fall into the first category above - you don't want to run
OSPF on your node - then you can only usefully use one WAN link to a
true router-node. You must negotiate with this node owner to obtain
10.10.0.0/16 address space (she might for instance request another /28
on your behalf). The router-node might statically route this space to
your node, or they might run RIPv2 with just you for instance.

PICTURE

Will draw picture to show this in action...

IPV6

The IPv4 allocations will be mimicked in the site level addressing
part of an IPv6 /48 prefix (ie. bit positions 49-64) for those nodes
that desire IPv6 address space.
For the WAN addresses, this address will be fec0:172:16:xxxx::1/128
and for the clients subnets [[2002/fec0]]:????:????:xxxx::/62. This
leaves space for future allocations 'over-the-top' when RFC1918 [3]
IPv4 address space is available to us is depleted.
For example, if a node is assigned 172.16.81.33 AND 10.10.66.240-255,
the corresponding IPv6 addresses/prefixes are also assigned:
:5121::1/128 AND :42F0::/62.

Links:
------
[1]
http://www.freenetworks.org/moin/index.cgi/NetworkAddressAllocations
[2] http://melbournewireless.org.au/?stub
[3] http://www.faqs.org/rfcs/rfc1918.html

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