I would like to make a system whereby users can upload and download files. The system will have a centralized topography but will rely heavily on peers to transfer relevant data through the central node to other peers. Instead of peers holding entire files I would like for them to hold a compressed an encrypted portion of the whole data set.
Some client uploads file to server anonymously
I would like for the client to be able to upload using some sort of NAT (random ip), realizing that the server would not be able to send confirmation packets back to the client. Is ensuring data integrity feasible with a header relaying the total content length, and disregarding the entire upload if there is a mismatch?
Server indexes, compresses and splits the data into chunks adding identifying bytes to each chunk, encrypts it, and splits the data over the network while mapping the locations of each chunk.
The server will also update the file index for peers upon request. As more data is added to the system, I imagine that the compression can become more efficient. I would like to be able to push these new dictionary entries to peers so they can update both their chunks and the decompression system in the client software, without causing overt network strain. If encrypted, the chunks can be large without any client being aware of having part of x file.
Some client requests a file
The central node performs a lookup to determine the location of the chunks within the network and requests these chunks from peers. Once the chunks have been assembled, they are sent (still encrypted and compressed) to the client, who then translates the content into the decompressed file. It would be nice if an encrypted request could be made through a peer and relayed to a server, and onion routed through multiple paths with end-to-end encryption.
In the background, the server will be monitoring the stability and redundancy of the chunks, and if necessary will take on chunks that near extinction, and either hold them in it's own bank or redistribute them over the network if there are willing clients. In this way, the central node can shrink and grow as appropriate.
The goal is to have a network within which any client can upload or download data with no single other peer knowing who has done either, but with free and open access to all.
The system must be able to handle a massive amount of simultaneous connections while managing the peers and data library without loosing it's head.
What would be your optimal implementation?
Edit : Bounty opened.
Over the weekend, I implemented a system that does basically the above, minus part 1. For the upload, I just implemented SSL instead of forging the IP address. The system is weak in several areas. Files are split into 1MB chunks and encrypted, and sent to registered peers at random. The recipient(s) for each chunk are stored in the database. I fear that this will quickly grow too large to be manageable, but I also want to avoid having to flood the network with chunk requests. When a file is requested, the central node informs peers possessing the chunks that they need to send the chunks to x client (in p2p mode) or to the server (in direct mode), which then transfers the file down. The system is just one big hack, and written in ruby, which I imagine is not really up to the task. For the rewrite, I am considering using C++ with Boost.Asio.
I am looking for general suggestions regarding architecture and system design. I am not at all attached to my current implementation.
Server Handling client uploads,indexing, and content propagation
Server Handling client requests Client for upload files and requesting files Client Server accepting chunks and requests
I would like for the client not to have to have a persistent server running, but I can't think of a good way around it.
I would post some of the code but its embarassing. Thanks. Please ask any questions, the basic idea is to have a decent anonymous file sharing model combining the strengths of both the distributed and centralized model of content distribution. If you have a totally different idea, please feel free to post it if you want.