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|
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE KindSignatures #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE StandaloneDeriving #-}
{-# LANGUAGE TupleSections #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE UndecidableInstances #-}
module DHTTransport
( parseDHTAddr
, encodeDHTAddr
, forwardDHTRequests
, module ToxAddress
, DHTMessage(..)
, Ping(..)
, Pong(..)
, GetNodes(..)
, SendNodes(..)
, DHTPublicKey
, CookieRequest
, Cookie
, DHTRequest
, mapMessage
, encrypt
, decrypt
, dhtMessageType
) where
import ToxAddress
import ToxCrypto hiding (encrypt,decrypt)
import qualified ToxCrypto
import Network.QueryResponse
import Control.Arrow
import Control.Monad
import Data.Bool
import qualified Data.ByteString as B
;import Data.ByteString (ByteString)
import Data.Tuple
import Data.Serialize as S
import Data.Word
import Network.Socket
type DHTTransport = Transport String NodeInfo (DHTMessage Encrypted8)
type HandleHi a = Maybe (Either String (DHTMessage Encrypted8, NodeInfo)) -> IO a
data DHTMessage (f :: * -> *)
= DHTPing (Assym (f Ping))
| DHTPong (Assym (f Pong))
| DHTGetNodes (Assym (f GetNodes))
| DHTSendNodes (Assym (f SendNodes))
| DHTCookieRequest (Assym (f CookieRequest))
| DHTCookie Nonce24 (f Cookie)
| DHTDHTRequest PublicKey (Assym (f DHTRequest))
deriving instance ( Show (f Cookie)
, Show (Assym (f Ping))
, Show (Assym (f Pong))
, Show (Assym (f GetNodes))
, Show (Assym (f SendNodes))
, Show (Assym (f CookieRequest))
, Show (Assym (f DHTRequest))
) => Show (DHTMessage f)
mapMessage :: forall f b. (forall a. Nonce24 -> f a -> b) -> DHTMessage f -> b
mapMessage f (DHTPing a) = f (assymNonce a) (assymData a)
mapMessage f (DHTPong a) = f (assymNonce a) (assymData a)
mapMessage f (DHTGetNodes a) = f (assymNonce a) (assymData a)
mapMessage f (DHTSendNodes a) = f (assymNonce a) (assymData a)
mapMessage f (DHTCookieRequest a) = f (assymNonce a) (assymData a)
mapMessage f (DHTDHTRequest _ a) = f (assymNonce a) (assymData a)
mapMessage f (DHTCookie nonce fcookie) = f nonce fcookie
instance Sized Ping where size = ConstSize 1
instance Sized Pong where size = ConstSize 1
parseDHTAddr :: (ByteString, SockAddr) -> Either (DHTMessage Encrypted8,NodeInfo) (ByteString,SockAddr)
parseDHTAddr (msg,saddr)
| Just (typ,bs) <- B.uncons msg
, let right = Right (msg,saddr)
left = either (const right) Left
= case typ of
0x00 -> left $ direct bs saddr DHTPing
0x01 -> left $ direct bs saddr DHTPong
0x02 -> left $ direct bs saddr DHTGetNodes
0x04 -> left $ direct bs saddr DHTSendNodes
0x18 -> left $ direct bs saddr DHTCookieRequest
0x19 -> left $ fanGet bs getCookie (uncurry DHTCookie) (const $ noReplyAddr saddr)
0x20 -> left $ fanGet bs getDHTReqest (uncurry DHTDHTRequest) (asymNodeInfo saddr . snd)
_ -> right
encodeDHTAddr :: (DHTMessage Encrypted8,NodeInfo) -> (ByteString, SockAddr)
encodeDHTAddr (msg,ni) = (runPut $ putMessage msg, nodeAddr ni)
dhtMessageType :: DHTMessage Encrypted8 -> ( Word8, Put )
dhtMessageType (DHTPing a) = (0x00, putAssym a)
dhtMessageType (DHTPong a) = (0x01, putAssym a)
dhtMessageType (DHTGetNodes a) = (0x02, putAssym a)
dhtMessageType (DHTSendNodes a) = (0x04, putAssym a)
dhtMessageType (DHTCookieRequest a) = (0x18, putAssym a)
dhtMessageType (DHTCookie n x) = (0x19, put n >> put x)
dhtMessageType (DHTDHTRequest k a) = (0x20, putPublicKey k >> putAssym a)
putMessage :: DHTMessage Encrypted8 -> Put
putMessage msg = case dhtMessageType msg of (typ,p) -> put typ >> p
getCookie :: Get (Nonce24, Encrypted8 Cookie)
getCookie = get
getDHTReqest :: Get (PublicKey, Assym (Encrypted8 DHTRequest))
getDHTReqest = (,) <$> getPublicKey <*> getAssym
-- ## DHT Request packets
--
-- | Length | Contents |
-- |:-------|:--------------------------|
-- | `1` | `uint8_t` (0x20) |
-- | `32` | receiver's DHT public key |
-- ... ...
getDHT :: Sized a => Get (Assym (Encrypted8 a))
getDHT = getAssym
-- Throws an error if called with a non-internet socket.
direct :: Sized a => ByteString
-> SockAddr
-> (Assym (Encrypted8 a) -> DHTMessage Encrypted8)
-> Either String (DHTMessage Encrypted8, NodeInfo)
direct bs saddr f = fanGet bs getDHT f (asymNodeInfo saddr)
-- Throws an error if called with a non-internet socket.
asymNodeInfo :: SockAddr -> Assym a -> NodeInfo
asymNodeInfo saddr asym = either (error . mappend "asymNodeInfo: ") id $ nodeInfo (key2id $ senderKey asym) saddr
fanGet :: ByteString -> Get x -> (x -> a) -> (x -> b) -> Either String (a,b)
fanGet bs getIt f nid = fmap (f &&& nid) $ runGet getIt bs
-- Throws an error if called with a non-internet socket.
noReplyAddr :: SockAddr -> NodeInfo
noReplyAddr saddr = either (error . mappend "noReplyAddr: ") id $ nodeInfo zeroID saddr
data DHTRequest
-- #### NAT ping request
--
-- Length Contents
-- :------- :-------------------------
-- `1` `uint8_t` (0xfe)
-- `1` `uint8_t` (0x00)
-- `8` `uint64_t` random number
= NATPing Nonce8
-- #### NAT ping response
--
-- Length Contents
-- :------- :-----------------------------------------------------------------
-- `1` `uint8_t` (0xfe)
-- `1` `uint8_t` (0x01)
-- `8` `uint64_t` random number (the same that was received in request)
| NATPong Nonce8
| DHTPK LongTermKeyWrap
deriving Show
instance Sized DHTRequest where
size = VarSize $ \case
NATPing _ -> 10
NATPong _ -> 10
DHTPK wrap -> 1{-typ-} + 32{-key-} + 24{-nonce-}
+ case size of
ConstSize n -> n
VarSize f -> f (wrapData wrap)
instance Serialize DHTRequest where
get = do
tag <- get
case tag :: Word8 of
0xfe -> do
direction <- get
bool NATPong NATPing (direction==(0::Word8)) <$> get
0x9c -> DHTPK <$> get
_ -> fail ("unrecognized DHT request: "++show tag)
put (NATPing n) = put (0xfe00 :: Word16) >> put n
put (NATPong n) = put (0xfe01 :: Word16) >> put n
put (DHTPK pk) = put (0x9c :: Word8) >> put pk
-- DHT public key packet:
-- (As Onion data packet?)
--
-- | Length | Contents |
-- |:------------|:------------------------------------|
-- | `1` | `uint8_t` (0x9c) |
-- | `8` | `uint64_t` `no_replay` |
-- | `32` | Our DHT public key |
-- | `[39, 204]` | Maximum of 4 nodes in packed format |
data DHTPublicKey = DHTPublicKey
{ dhtpkNonce :: Nonce8 -- no_replay
, dhtpk :: PublicKey -- dht public key
, dhtpkNodes :: SendNodes -- other reachable nodes
}
-- When sent as a DHT request packet (this is the data sent in the DHT request
-- packet):
--
-- Length Contents
-- :--------- :-------------------------------
-- `1` `uint8_t` (0x9c)
-- `32` Long term public key of sender
-- `24` Nonce
-- variable Encrypted payload
data LongTermKeyWrap = LongTermKeyWrap
{ wrapLongTermKey :: PublicKey
, wrapNonce :: Nonce24
, wrapData :: Encrypted DHTPublicKey
}
deriving Show
instance Serialize LongTermKeyWrap where
get = LongTermKeyWrap <$> getPublicKey <*> get <*> get
put (LongTermKeyWrap key nonce dta) = putPublicKey key >> put nonce >> put dta
instance Sized DHTPublicKey where
-- NOTE: 41 bytes includes the 1-byte tag 0x9c in the size.
-- WARNING: Serialize instance does not include this byte FIXME
size = VarSize $ \(DHTPublicKey _ _ nodes) -> 41 + case size of
ConstSize nodes -> nodes
VarSize sznodes -> sznodes nodes
instance Serialize DHTPublicKey where
-- TODO: This should agree with Sized instance.
get = DHTPublicKey <$> get <*> getPublicKey <*> get
put (DHTPublicKey nonce key nodes) = do
put nonce
putPublicKey key
put nodes
newtype GetNodes = GetNodes NodeId
deriving (Eq,Ord,Show,Read,S.Serialize)
instance Sized GetNodes where
size = ConstSize 32 -- TODO This right?
newtype SendNodes = SendNodes [NodeInfo]
deriving (Eq,Ord,Show,Read)
instance Sized SendNodes where
size = VarSize $ \(SendNodes ns) -> case size of
ConstSize nodeFormatSize -> nodeFormatSize * length ns
VarSize nsize -> sum $ map nsize ns
instance S.Serialize SendNodes where
get = do
cnt <- S.get :: S.Get Word8
ns <- sequence $ replicate (fromIntegral cnt) S.get
return $ SendNodes ns
put (SendNodes ns) = do
let ns' = take 4 ns
S.put (fromIntegral (length ns') :: Word8)
mapM_ S.put ns'
data Ping = Ping deriving Show
data Pong = Pong deriving Show
instance S.Serialize Ping where
get = do w8 <- S.get
if (w8 :: Word8) /= 0
then fail "Malformed ping."
else return Ping
put Ping = S.put (0 :: Word8)
instance S.Serialize Pong where
get = do w8 <- S.get
if (w8 :: Word8) /= 1
then fail "Malformed pong."
else return Pong
put Pong = S.put (1 :: Word8)
newtype CookieRequest = CookieRequest PublicKey
deriving (Eq, Show)
newtype CookieResponse = CookieResponse Cookie
deriving (Eq, Show)
data Cookie = Cookie Nonce24 (Encrypted CookieData)
deriving (Eq, Ord, Show)
instance Sized Cookie where size = ConstSize 112 -- 24 byte nonce + 88 byte cookie data
instance Serialize Cookie where
get = Cookie <$> get <*> get
put (Cookie nonce dta) = put nonce >> put dta
data CookieData = CookieData -- 16 (mac)
{ cookieTime :: Word64 -- 8
, longTermKey :: PublicKey -- 32
, dhtKey :: PublicKey -- + 32
} -- = 88 bytes when encrypted.
instance Sized CookieData where
size = ConstSize 72
instance Sized CookieRequest where
size = ConstSize 64 -- 32 byte key + 32 byte padding
instance Serialize CookieRequest where
get = CookieRequest <$> getPublicKey <* {- padding -} getPublicKey
put (CookieRequest k) = putPublicKey k >> {- padding -} putPublicKey k
forwardDHTRequests :: TransportCrypto -> (PublicKey -> IO (Maybe NodeInfo)) -> DHTTransport -> DHTTransport
forwardDHTRequests crypto closeLookup dht = dht { awaitMessage = await' }
where
await' :: HandleHi a -> IO a
await' pass = awaitMessage dht $ \case
Just (Right (m@(DHTDHTRequest target payload),src)) | target /= transportPublic crypto
-> do mni <- closeLookup target
-- Forward the message if the target is in our close list.
forM_ mni $ \ni -> sendMessage dht ni m
await' pass
m -> pass m
encrypt :: TransportCrypto -> DHTMessage ((,) Nonce8) -> NodeInfo -> (DHTMessage Encrypted8, NodeInfo)
encrypt crypto msg ni = ( transcode (encryptMessage crypto (id2key $ nodeId ni)) msg
, ni )
encryptMessage :: Serialize a =>
TransportCrypto ->
PublicKey ->
Nonce24 -> Either (Nonce8,a) (Assym (Nonce8,a)) -> Encrypted8 a
encryptMessage crypto destKey n (Right assym) = E8 $ ToxCrypto.encrypt secret plain
where
secret = computeSharedSecret (transportSecret crypto) destKey n
plain = encodePlain $ swap $ assymData assym
encryptMessage crypto destKey n (Left plain) = _todo -- need cached public key.
decrypt :: TransportCrypto -> DHTMessage Encrypted8 -> NodeInfo -> Either String (DHTMessage ((,) Nonce8), NodeInfo)
decrypt crypto msg ni = (, ni) <$> (sequenceMessage $ transcode (decryptMessage crypto) msg)
decryptMessage :: Serialize x =>
TransportCrypto
-> Nonce24
-> Either (Encrypted8 x) (Assym (Encrypted8 x))
-> (Either String ∘ ((,) Nonce8)) x
decryptMessage crypto n (Right assymE) = plain8 $ ToxCrypto.decrypt secret e
where
secret = computeSharedSecret (transportSecret crypto) (senderKey assymE) n
E8 e = assymData assymE
plain8 = Composed . fmap swap . (>>= decodePlain)
decryptMessage crypto n (Left (E8 e)) = _todo -- need cached public key
sequenceMessage :: Applicative m => DHTMessage (m ∘ f) -> m (DHTMessage f)
sequenceMessage (DHTPing asym) = fmap DHTPing $ sequenceA $ fmap uncomposed asym
sequenceMessage (DHTPong asym) = fmap DHTPong $ sequenceA $ fmap uncomposed asym
sequenceMessage (DHTGetNodes asym) = fmap DHTGetNodes $ sequenceA $ fmap uncomposed asym
sequenceMessage (DHTSendNodes asym) = fmap DHTSendNodes $ sequenceA $ fmap uncomposed asym
sequenceMessage (DHTCookieRequest asym) = fmap DHTCookieRequest $ sequenceA $ fmap uncomposed asym
sequenceMessage (DHTCookie n dta) = fmap (DHTCookie n) $ uncomposed dta
sequenceMessage (DHTDHTRequest pubkey asym) = fmap (DHTDHTRequest pubkey) $ sequenceA $ fmap uncomposed asym
transcode :: forall f g. (forall a. Serialize a => Nonce24 -> Either (f a) (Assym (f a)) -> g a) -> DHTMessage f -> DHTMessage g
transcode f (DHTPing asym) = DHTPing $ asym { assymData = f (assymNonce asym) (Right asym) }
transcode f (DHTPong asym) = DHTPong $ asym { assymData = f (assymNonce asym) (Right asym) }
transcode f (DHTGetNodes asym) = DHTGetNodes $ asym { assymData = f (assymNonce asym) (Right asym) }
transcode f (DHTSendNodes asym) = DHTSendNodes $ asym { assymData = f (assymNonce asym) (Right asym) }
transcode f (DHTCookieRequest asym) = DHTCookieRequest $ asym { assymData = f (assymNonce asym) (Right asym) }
transcode f (DHTCookie n dta) = DHTCookie n $ f n $ Left dta
transcode f (DHTDHTRequest pubkey asym) = DHTDHTRequest pubkey $ asym { assymData = f (assymNonce asym) (Right asym) }
|