From: Ramakrishnan Muthukrishnan Date: Sat, 5 Aug 2017 00:38:52 +0000 (+0530) Subject: Notes on extension messages for adding magneturi X-Git-Url: https://git.rkrishnan.org/webform_css?a=commitdiff_plain;h=5180138e2fb80cf8b236784e0be981671506001d;p=functorrent.git Notes on extension messages for adding magneturi --- diff --git a/src/FuncTorrent/Peer.hs b/src/FuncTorrent/Peer.hs index bf1153b..87e7d23 100644 --- a/src/FuncTorrent/Peer.hs +++ b/src/FuncTorrent/Peer.hs @@ -199,3 +199,76 @@ downloadPiece h index pieceLength = do putStrLn $ "ignoring irrelevant msg: " ++ show msg return empty) + +{- + -- Extension messages support (BEP-0010) -- + + + In the regular peer handshake, adventise support for extension protocol. Protocol + extensions are done via the reserved bytes (8 of them) in the handshake message + as detailed in BEP-0003. For this particular "Extension Protocol" extension, we use + 20th bit (counted from the right, from 0) is set to 1. + + Once support for the extension protocol is established by the peer, the Peer is supposed + to support one message with the ID 20. This is sent like a regular message with 4-byte + length prefix and the msg id (20) in this case. + + First byte of the payload of this message is either 0, which means it is a handshake + msg. + + The rest of the payload is a dictionary with various keys. All of them are optional. The + one of interest at the moment for me is the one with key 'm' whose value is another + dictionary of all supported extensions. + + Here is where it gets interesting for us (to support magneturi. When the torrent client + has only got a magneturi to look at, it has only got the list of trackers with it (we + are not looking at the DHT case for the time being). So, it somehow needs to get the info + dictionary. It gets this by talking to another peer in the network. To do that, the client + needs to talk tracker protocol, get the list of peers and talk to peers using the above + extension protocol to get the infodict as payload. Let us see how we can do that now. + + If a peer already has the full infodict, then, the handshake message sent by that peer + is something like this: + + {'m': {'ut_metadata', 3}, 'metadata_size': 31235} + + Note that the 'metadata_size' is not part of the value of the key 'm'. + If we are a new client and are requesting the handshake to a peer, then we don't have + the infodict yet, in which case, we only send the first part: + + {'m': {'ut_metadata', 3}} + + This is bencoded and sent across the wire. The value "3" (integer) against the key + 'ut_metadata" is an ordered integer within a client that identifies the extention. + No two extension supported by the same client shares the same value. If the value is + '0', then the extension is unsupported. + + Here we use the BEP-0009, the metadata extension protocol. The metadata in this case + is the infodict. The infodict itself is divided into 16KB sized pieces. + + Here is a possible interaction between two peers: + + 1. Peer Pn comes up, gets the ip/ports of other peers, P0, P1.... Pn does not have the + size of the infodict. Pn has advertised itself as supporting the extension protocol. + It sends the handshake msg to other peers with this bit on in the reserved bytes. + 2. Let us say, P1 replied with a handshake. We check if it also supports the extension + mechanism. + 3. Now we get into the extension message passing so that we have the info dict. + To do that, we send the extension handshake (ut_metadata) m dict without the + metadata_size. We get back the extension handshake with metadata_size. We take + note of the size. + 4. We calculate the number of 16384 chunks in the total size of the metadata. That + gives us the number of pieces the metadata has. + 5. We send a "request" extension msg: + {'msg_type': 0, 'piece': 0} + 6. We recieve the "data" message. + {'msg_type': 1, 'piece': 0, 'total_size': 3425} in bencoded format, followed by + total_size bytes. total_size is 16KiB except perhaps for the last piece. + 7. If the peer does not have the requested piece, it sends the "reject" message. + {'msg_type': 2, 'piece': 0} + 8. Repeat 5, 6/7 for every piece. + + At this point, we have the infodict. + +-) +