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=head1 The VPE Protocol |
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=head2 Anatomy of a VPN packet |
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The exact layout and field lengths of a VPN packet is determined at |
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compiletime and doesn't change. The same structure is used for all |
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protocols, be it rawip or tcp. |
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+------+------+--------+------+ |
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| HMAC | TYPE | SRCDST | DATA | |
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+------+------+--------+------+ |
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The HMAC field is present in all packets, even if not used (e.g. in |
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authentification packets), in which case it is set to all zeroes. The |
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checksum itself is over the TYPE, SRCDST and DATA fields in all cases. |
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The TYPE field is a single byte and determines the purpose of the packet |
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(e.g. RESET, COMPRESSED/UNCOMPRESSED DATA, PING, AUTH REQUEST/RESPONSE, |
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CONNECT REQUEST/INFO etc.). |
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SRCDST is a three byte field which contains the source and destination |
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node ids (12 bits each). The protocol does not yet scale well beyond 30+ |
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hosts, since all hosts connect to each other on startup. But if restarts |
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are rare or tolerable and most connections are on demand, larger networks |
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are possible. |
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The DATA portion differs between each packet type, naturally, and is the |
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only part that can be encrypted encrypted. Data packets contain more |
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fields, as shown: |
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+------+------+--------+------+-------+------+ |
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| HMAC | TYPE | SRCDST | RAND | SEQNO | DATA | |
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+------+------+--------+------+-------+------+ |
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RAND is a sequence of fully random bytes, used to increase the entropy of the data |
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for encryption purposes. |
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SEQNO is a 32-bit sequence number. It is negotiated at every connection |
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initialization and starts at some random value. |
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=head2 The authentification protocol |
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Before hosts can exchange packets, they need to establish authenticity of |
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the other side and a key. Every host has a private RSA key and the public |
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RSA keys of all other hosts. |
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A host establishes a simplex connection by sending the other host a RSA |
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challenge containing the random digest and encryption keys (different) |
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to use when sending packets, plus more randomness plus some PKCS1_OAEP |
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padding plus a random 16 byte id. The destination host will respond by |
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replying with an (unencrypted) RIPEMD160 hash of the decrypted data, which |
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will authentify that host. The destination host will also set the outgoing |
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encryption parameters as given in the packet. |
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When the source host receives a correct auth reply (by verifying the |
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hash and the id, which will expire after 20 seconds). it will start to |
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accept data packets from the destination host. The protocol is completely |
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symmetric, so to be able to send packets the destination host must send a |
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challenge in the exact same way as already described. |
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=head2 Retrying |
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When there is no response to an auth request, the host will send auth |
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requests in bursts with an exponential backoff. After some time it will |
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resort to PING packets, which are very small (8 byte) and lightweight (no |
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RSA operations). A host that receives ping requests from an unconnected |
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peer will respond by trying to create a connection. |
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In addition to the exponential backoff, there is a global rate-limit on |
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a per-ip base. It allows long bursts but will limit total packet rate to |
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something like one control packet every ten seconds, to avoid accidental |
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floods due to protocol problems (like a rsa key file mismatch between two |
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hosts). |
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=head2 Routing and Protocol translation |
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... not yet written, please bug me ... |
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