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----
-title: "Recursive networks"
-author: "Dimitri Staessens"
-
-date:  2020-01-11
-weight: 2
-description: >
-   The recursive network paradigm
----
-
-The functional repetition in the network stack is discussed in
-detail in the book __*"Patterns in Network Architecture: A Return to
-Fundamentals"*__. From the observations in the book, a new architecture
-was proposed, called the "__R__ecursive __I__nter__N__etwork
-__A__rchitecture", or [__RINA__](http://www.pouzinsociety.org).
-
-__Ouroboros__ follows the recursive principles of RINA, but deviates
-quite a bit from its internal design. There are resources on the
-Internet explaining RINA, but here we will focus
-on its high level design and what is relevant for Ouroboros.
-
-Let's look at a simple scenario of an employee contacting an internet
-corporate server over a Layer 3 VPN from home. Let's assume for
-simplicity that the corporate LAN is not behind a NAT firewall. All
-three networks perform (among some other things):
-
-__Addressing__: The VPN hosts receive an IP address in the VPN, let's
-say some 10.11.12.0/24 address. The host will also have a public IP
-address, for instance in the 20.128.0.0/16 range . Finally that host
-will have an Ethernet MAC address. Now the addresses __differ in
-syntax and semantics__, but for the purpose of moving data packets,
-they have the same function: __identifying a node in a network__.
-
-__Forwarding__: Forwarding is the process of moving packets to a
-destination __with intent__: each forwarding action moves the data
-packet __closer__ to its destination node with respect to some
-__metric__ (distance function).
-
-__Network discovery__: Ethernet switches learn where the endpoints are
-through MAC learning, remembering the incoming interface when it sees
-a new soure address; IP routers learn the network by exchanging
-informational packets about adjacency in a process called *routing*;
-and a VPN proxy server relays packets as the central hub of a network
-connected as a star between the VPN clients and the local area
-network (LAN) that is provides access to.
-
-__Congestion management__: When there is a prolonged period where a
-node receives more traffic than can forward forward, for instance
-because there are incoming links with higher speeds than some outgoing
-link, or there is a lot of traffic between different endpoints towards
-the same destination, the endpoints experience congestion. Each
-network could handle this situation (but not all do: TCP does
-congestion control for IP networks, but Ethernet just drops traffic
-and lets the IP network deal with it. Congestion management for
-Ethernet never really took off).
-
-__Name resolution__: In order not having to remember addresses of the
-hosts (which are in a format that make it easier for a machine to deal
-with), each network keeps a mapping of a name to an address. For IP
-networks (which includes the VPN in our example), this is done by the
-Domain Name System (DNS) service (or, alternatively, other services
-such as *open root* or *namecoin*). For Ethernet, the Address
-Resolution Protocol maps a higher layer name to a MAC (hardware)
-address.
-
-{{<figure width="50%" src="/docs/concepts/layers.jpg">}}
-
-Recursive networks take all these functions to be part of a network
-layer, and layers are mostly defined by their __scope__. The lowest
-layers span a link or the reach of some wireless technology. Higher
-layers span a LAN or the network of a corporation e.g. a subnetwork or
-an Autonomous System (AS). An even higher layer would be a global
-network, followed by a Virtual Private Network and on top a tunnel
-that supports the application. Each layer being the same in terms of
-functionality, but different in its choice of algorithm or
-implementation. Sometimes the function is just not implemented
-(there's no need for routing in a tunnel!), but logically it could be
-there.