2014-02-15 01:06:24 +08:00
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It has come to our attention that to achieve decent market penetration Tox
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must work behind ALL internet connections, may they be behind enterprise NATs
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or any other bad network conditions.
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The people who have issues with the UDP direct connection approach seem to be a
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small minority though it is hard to estimate how many.
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This means that routing their packets using good nodes on the network will
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probably not take a huge toll on the network and will assure that people
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can use Tox regardless of the quality of their internet connection.
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2014-03-12 08:01:52 +08:00
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How it's going to work:
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2014-02-15 01:06:24 +08:00
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1. Alice, a Tox client on a TCP only network generates a temporary public key
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2014-02-23 06:06:07 +08:00
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and connects to a bootstrap node.
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2014-02-15 01:06:24 +08:00
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2014-03-12 08:01:52 +08:00
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2. Using the bootstrap node she finds and connects to a couple (exact number
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to be determined later) number of random nodes that have TCP relay support.
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2014-02-15 01:06:24 +08:00
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3. She uses the onion through the TCP relay connections to send friend requests
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or tell online friends which TCP nodes she is connected to and her temporary
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public key.
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4. Bob receives an onion packet from Alice telling him which nodes she is
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connected to. Bob connects to these nodes and establishes a routed connection
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with alice using that temporary public key.
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5. That connection is used by both to transmit encrypted Messenger and A/V
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packets.
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2014-03-12 08:01:52 +08:00
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6. If one of the nodes shuts down while it is currently routing traffic, Alice
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and bob just switch to one of the other nodes they are both connected to.
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2014-02-15 01:06:24 +08:00
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2014-03-12 08:01:52 +08:00
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Detailed implementation details:
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There are two distinct parts for TCP relays, the client part and the server
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part.
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The server acts as the actual relay. Servers must have fully forwarded TCP
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ports (NAT-PMP and uPNP can help here). The first port the server will try
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binding to is 443 followed by port 3389 and possibly some others. Onion packets
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can be sent/received through the TCP servers.
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Server:
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The public/private key pair the TCP server uses is the same one he uses for the
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DHT.
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all crypto for communication with the server uses the crypto_box() function of
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NaCl.
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TCP doesn't have packets so what we will refer to as packets are sent this way:
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[[uint16_t (length of data)][data]]
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So if you would inspect the TCP stream you would see:
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[[uint16_t (length of data)][data]][[uint16_t (length of
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data)][data]][[uint16_t (length of data)][data]]
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When the client connects to the server, he sends this packet:
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[public key of client (32 bytes)][nonce for the encrypted data [24
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bytes]][encrypted with the private key of the client and public key of the
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server and the nonce:[public key (32 bytes) and][base nonce we want the server
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to use to encrypt the packets sent to us (24 bytes)]]
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The server responds with:
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[nonce for the encrypted data [24 bytes]][encrypted with the public key of the
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client and private key of the server and the nonce:[public key (32 bytes)
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and][base nonce we want the client to use to encrypt the packets sent to us (24
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bytes)]]
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All packets to the server are end to end encrypted with the information
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received
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(and sent) in the handshake.
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(first packet is encrypted with the base nonce the private key for which the
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client sent the server the public key and the public key we sent to the client,
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the next with base nonce + 1...)
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2014-03-13 08:47:07 +08:00
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The connection is set to an unconfirmed state until a packet is recieved and
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decrypted correctly using the information in the handshake.
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2014-03-12 08:01:52 +08:00
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each packet sent to/from the server has an id (the first byte of the plain text
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data of the packet.)
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ids 0 to 15 are reserved for special packets, ids 16 to 255 are used to denote
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who we want the data to be routed to/who the packet is from.
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special ids and packets:
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0 - Routing request.
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[uint8_t id (0)][public key (32 bytes)]
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1 - Routing request response.
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[uint8_t id (1)][uint8_t (rpid) 0 if refused, packet id if accepted][public key
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(32 bytes)]
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2 - Connect notification:
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[uint8_t id (2)][uint8_t (packet id of connection that got connected)]
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3 - Disconnect notification:
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[uint8_t id (3)][uint8_t (packet id of connection that got disconnected)]
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8 - onion packet (same format as initial onion packet (See: Prevent
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tracking.txt) but packet id is 8 instead of 128)
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9 - onion packet response (same format as onion packet with id 142 but id is 9
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instead.)
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The rest of the special ids are reserved for possible future usage.
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If the server receives a routing request he stores server side that the client
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wants to connect to the person with that public key and sends back a Routing
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request response with the rpid along with the public key sent in the request.
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If for some reason the server must refuse the routing request (too many) he
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sends the response with a rpid of 0.
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If the person who the client wants to connect to is also online and wants to
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connect to the client a connect notification is sent to both with the
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appropriate packet id.
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If either one disconnects, a disconnect notification is sent to the other with
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appropriate packet id.
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If a client sends a disconnect notification, the entry on the server for that
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routed connection is cleared and a disconnect notification is sent to the peer
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(if he was online)
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If the server receives an onion packet he handles it the same as he would if it
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was one received normally via UDP, he must also assure himself that any
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responses must be sent to the proper client.
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Client:
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Implementation details coming soon.
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