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In BitTorrent, client connects to the tracker specified in .torrent file. Tracker is a kind of centralized server and it is the starting point. So BitTorrent is not pure p2p.

If we want to develop pure p2p system, we should design routing overlay network. All nodes will have routing table like routers do. But even in routing overlay network, each node should know at least one existing node(GUID, IP address) initially. So how can we determine this? Should we keep 'one existing node to connect initially' forever like fixed centralized server? If so, I think this is not fully decentralized method.

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in networking terminology, your problem lies on the subject of node discovery. –  ultrajohn May 10 '12 at 5:56

3 Answers 3

The solution you describe (defining a central peer wit well-know ip address) is not the only one.

The other solution is to post an html page (or json file) in a well-know URL on the net, and make sure this item contains an updated list of peers this peer can initialy connect. This list can be updated if a peer goes down. Eventually, you can use multiple URLs.

Pure P2P system is a theoretical concept which cannot be implemented fully in reality.

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You could use an anycast. So the first other client will answer and may send such an initial "client list". Where your client can connect to them to get more lists.

Classically I would implement a multicast to a adress and wait for an answer of other clients.

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Firstly, a true peer to peer network is not necessarily decentralized. Secondly, decentralization does not necessarily mean that the network doesn't make use of secondary services which may themselves be centralized.

The main question in both of these issues is wheather the primary resources of the network solution are distributed through correlated peers.

For example, peer-to-peer video conferencing may use a central contacts service but still be pure peer-to-peer as long as the peers resolve such issues before entering a true peer-to-peer scope. This would also be decentralized.

What it comes down to is what your trying to solve by using peer-to-peer. A video conference is a video conference - it starts with a video being recorded on one peer and ends with the video being viewed on another. As long as each byte of this data is transferred directly between the peers (even if there's hundreds of peers in the conference, and regardless of how these peers found each other) it is a true peer-to-peer video conference.

Note that the video peers will still be in your typical ring, and that the contacts lists may still use the node key for location information rather than an IP. This will still be a network overlay as it will still be built over IP, replacing it's addressing scheme on the peer level to facilitate true peer-to-peer networking.

What it realy comes down to is the concepts of a network connection. IP just pushes packets to unspecified routers until it gets to a specific address. 'connections' between each endpoint only exist within the higher software levels (including when dealing with TCP/IP). A connection is just the data used within software to understand who is who and how each point can handle data etc. Peer-to-peer network overlays effectively distributes this data, eliminating the need for each peer to create massive amounts of connections to communicate on a massive scope. Decentralization is not required for this (as long as peer to peer communication is not centralized), and a secondary service within the system wont necessarily limit a network's scope or otherwise centralize actual peer-to-peer networking.

So to answer your question, it doesn't matter where it initially connects in order to be considered peer-to-peer, and different peer-to-peer services will handle this based on their service design.

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