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My understanding is that IPFS and Bittorrent Mainline DHT are built on top of a Distributed hash Table (Kademlia). They use the file hash as Kademlia key to find a list of peer that might have this file.

1- What I don't understand is if this is all decentralized who remove from the DHT peer that no longer host a file content?

2- What prevent someone from storing large amount of data for free inside the DHT?

3- What prevent someone from disrupting the network by adding large number of invalid peer for a popular file.

4- What prevent a bad actor from joining the DHT ring and not following the routing protocol thus preventing discovery message from reaching correct nodes.

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Not sure why this was downvoted. These are excellent questions.

1- What I don't understand is if this is all decentralized who remove from the DHT peer that no longer host a file content?

I think that DHT entries are regularly re-broadcast. So if a peer goes away, its DHT entries will no longer be broadcast and the network will forget about the data it provides unless some other node has it.

2- What prevent someone from storing large amount of data for free inside the DHT?

Unless you re-publish or somebody else is interested in the data, it will vanish. The amount of data that you can store directly in a DHT entry is limited. So you can make other nodes store some of your data by putting data directly into DHT entries, but the effort outweighs the benefits.

3- What prevent someone from disrupting the network by adding large number of invalid peer for a popular file.

I think there are some mechanisms envisioned in IPFS to protect the DHT against attacks. However, I don't think the current implementation is all that sophisticated. I don't think that current IPFS would deal well with a large scale distributed DDOS attack.

4- What prevent a bad actor from joining the DHT ring and not following the routing protocol thus preventing discovery message from reaching correct nodes.

I think a single node would be insufficient to do much damage, because a node will ask multiple peers. You would have to have multiple nodes to do significant damage.

But IPFS as it is now would not survive a sophisticated attack by state actors.

  • About #4 S/Kademlia nodes lookup values over disjoint paths, in order to ensure honest nodes can connect to each other in the presence of a large fraction of adversaries in the network. S/Kademlia achieves a success rate of 0.85 even with an adversarial fraction as large as half of the nodes. – skyde yesterday

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