iodine/doc/proto_00000501.txt

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Detailed specification of protocol in version 00000501
======================================================
Note: work in progress!!
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======================================================
1. DNS protocol
======================================================
CMC = 2 byte Cache Miss Counter, increased every time it is used
Version:
Client sends:
First byte v or V
Rest encoded with base32:
4 bytes big endian protocol version
CMC
Server replies:
4 chars:
VACK (version ok), followed by login challenge
VNAK (version differs), followed by server protocol version
VFUL (server has no free slots), followed by max users
4 byte value: means login challenge/server protocol version/max users
1 byte userid of the new user, or any byte if not VACK
Login:
Client sends:
First byte l or L
Rest encoded with base32:
1 byte userid
16 bytes MD5 hash of: (first 32 bytes of password) xor (8 repetitions of login challenge)
CMC
Server replies:
LNAK means not accepted
x.x.x.x-y.y.y.y-mtu-netmask means accepted (server ip, client ip, mtu, netmask bits)
IP Request:
Client sends:
First byte i or I
5 bits coded as Base32 char, meaning userid
CMC
Server replies
BADIP if bad userid, or
I and then 4 bytes network order external IP address of iodined server
Case check:
Client sends:
First byte z or Z
Lots of data that should not be decoded
Server replies:
The requested domain copied raw
Switch codec:
Client sends:
First byte s or S
5 bits coded as Base32 char, meaning userid
5 bits coded as Base32 char, with value 5 or 6, representing number of raw
bits per encoded byte
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CMC
Server sends:
Name of codec if accepted. After this all upstream data packets must
be encoded with the new codec.
BADCODEC if not accepted. Client must then revert to Base32
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BADLEN if length of query is too short
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Options:
Client sends:
First byte o or O
5 bits coded as Base32 char, meaning userid
1 char, meaning option
Server sends:
Full name of option if accepted. After this, option immediately takes
effect in server.
BADCODEC if not accepted. Previous situation remains.
All options affect only the requesting client.
Option chars:
t or T: Downstream encoding Base32, for TXT/CNAME/A/MX (default)
s or S: Downstream encoding Base64, for TXT/CNAME/A/MX
r or R: Downstream encoding Raw, for TXT/NULL (default for NULL)
If codec unsupported for request type, server will use Base32; note
that server will answer any mix of request types that a client sends.
Server may disregard this option; client must always use the downstream
encoding type indicated in every downstream DNS packet.
Probe downstream fragment size:
Client sends:
First byte r or R
15 bits coded as 3 Base32 chars: UUUUF FFFFF FFFFF
meaning 4 bits userid, 11 bits fragment size
Then follows a long random query which contents does not matter
Server sends:
Requested number of bytes as a response. The first two bytes contains
the requested length. Rest of message can be any data.
BADFRAG if requested length not accepted.
Set downstream fragment size:
Client sends:
First byte n or N
Rest encoded with base32:
1 byte userid
2 bytes new downstream fragment size
CMC
Server sends:
2 bytes new downstream fragment size. After this all downstream
payloads will be max (fragsize + 2) bytes long.
BADFRAG if not accepted.
Data:
Upstream data header:
3210 432 10 43 210 4321 0
+----+---+--+--+---+----+-+
|UUUU|SSS|FF|FF|DDD|GGGG|L|
+----+---+--+--+---+----+-+
Downstream data header:
7 654 3210 765 4321 0
+-+---+----+---+----+-+
|C|SSS|FFFF|DDD|GGGG|L|
+-+---+----+---+----+-+
UUUU = Userid
L = Last fragment in packet flag
SS = Upstream packet sequence number
FFFF = Upstream fragment number
DDD = Downstream packet sequence number
GGGG = Downstream fragment number
C = Compression enabled for downstream packet
Upstream data packet starts with 1 byte ASCII hex coded user byte, then 3 bytes
Base32 encoded header, then comes the payload data, encoded with chosen codec.
Downstream data starts with 2 byte header. Then payload data, which may be
compressed.
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In NULL responses, downstream data is always raw. In all other response types,
downstream data is encoded (see Options above).
Encoding type is indicated by 1 prefix char:
TXT:
End result is always DNS-chopped (series of len-prefixed strings
<=255 bytes)
t or T: Base32 encoded before chop, decoded after un-chop
s or S: Base64 encoded before chop, decoded after un-chop
r or R: Raw no encoding, only DNS-chop
CNAME/A/MX:
h or H: Hostname encoded with Base32
i or I: Hostname encoded with Base64
Ping:
Client sends:
First byte p or P
Rest encoded with Base32:
1 byte with 4 bits userid
1 byte with:
3 bits downstream seqno
4 bits downstream fragment
CMC
The server response to Ping and Data packets is a DNS NULL type response:
If server has nothing to send, data length is 0 bytes.
If server has something to send, it will send a downstream data packet,
prefixed with 2 bytes header as shown above.
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2. Raw UDP protocol
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All Raw UDP protcol messages start with a 3 byte header: 0x10d19e
This is not the start of a valid DNS message so it is easy to identify.
The fourth byte contains the command and the user id.
7654 3210
+----+----+
|CCCC|UUUU|
+----+----+
Login message (command = 1):
The header is followed by a MD5 hash with the same password as in the DNS
login. The client starts the raw mode by sending this message, and uses
the login challenge +1, and the server responds using the login challenge -1.
After the login message has been exchanged, both the server and the client
switch to raw udp mode for the rest of the connection.
Data message (command = 2):
After the header comes the payload data, which may be compressed.
Ping message (command = 3):
Sent from client to server and back to keep session open. Has no payload.