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|
{-# LANGUAGE NamedFieldPuns #-}
{-# LANGUAGE TupleSections #-}
{-# LANGUAGE TypeOperators #-}
module Network.Tox.Crypto.Handlers where
import Network.QueryResponse
import Network.Tox.NodeId
import Network.Tox.Crypto.Transport
import Network.Tox.DHT.Transport (Cookie(..),CookieData(..), CookieRequest(..), NoSpam(..))
import Network.Tox.DHT.Handlers (Client, cookieRequest, createCookie )
import Crypto.Tox
import Control.Concurrent.STM
import Control.Concurrent.STM.TMChan
import Network.Address
import qualified Data.Map.Strict as Map
import Crypto.Hash
import Control.Applicative
import Control.Monad
import Data.Time.Clock.POSIX
import qualified Data.ByteString as B
import System.IO
import Data.ByteString (ByteString)
import Control.Lens
import Data.Function
import qualified Data.PacketQueue as PQ
;import Data.PacketQueue (PacketQueue)
import qualified Data.CyclicBuffer as CB
;import Data.CyclicBuffer (CyclicBuffer)
import Data.Serialize as S
import Data.Word
import Data.Maybe
import qualified Data.Word64Map as W64
import Data.Word64RangeMap
import qualified Data.Set as Set
import qualified Data.Array.Unboxed as A
import SensibleDir
import System.FilePath
import System.IO.Temp
import System.Environment
import System.Directory
import System.Random -- for ping fuzz
import Control.Concurrent
import GHC.Conc (labelThread)
import PingMachine
import qualified Data.IntMap.Strict as IntMap
import Control.Concurrent.Supply
import Data.InOrOut
import DPut
-- util, todo: move to another module
maybeToEither :: Maybe b -> Either String b
maybeToEither (Just x) = Right x
maybeToEither Nothing = Left "maybeToEither"
data NetCryptoSessionStatus = Unaccepted | Accepted | Confirmed
deriving (Eq,Ord,Show,Enum)
type IOHook addr x = addr -> x -> IO (Maybe (x -> x))
type NetCryptoHook = IOHook NetCryptoSession CryptoMessage
type MsgTypeArray = A.UArray Word8 Word64
-- type MsgOutMap = RangeMap STArray Word8 STRef
-- type MsgOutMap = W64.Word64Map Word8
-- type MsgOutMap = A.UArray Word64 Word8 -- if above is too slow, switch to this, but use reasonable bounds
-- msgOutMapLookup :: Word64 -> MsgOutMap -> STM (Maybe Word8)
-- msgOutMapLookup k mp = return (W64.lookup k mp)
-- | Information, that may be made visible in multiple sessions, as well
-- as displayed in some way to the user via mutiple views.
--
data SessionView = SessionView
{ svNick :: TVar ByteString
, svStatus :: TVar UserStatus
, svStatusMsg :: TVar ByteString
, svTyping :: TVar TypingStatus
, svNoSpam :: TVar (Maybe NoSpam)
, svTheirNick :: TVar ByteString
, svTheirStatus :: TVar UserStatus
, svTheirStatusMsg :: TVar ByteString
, svTheirTyping :: TVar TypingStatus
, svTheirNoSpam :: TVar (Maybe NoSpam)
, svGroups :: TVar (Map.Map GroupChatId (Set.Set SockAddr))
-- allthough these directories are not visible to others on the net
-- they are included in this type, because it facilitates organizing
-- the disk according to your public image.
, svCacheDir :: FilePath -- ^ directory path used if the session has
-- to use the disk for cache clean up only
-- if space is needed
, svTmpDir :: FilePath -- ^ Once off storage goes here, should
-- clean up quickly
, svConfigDir :: FilePath -- ^ profile related storage, etc, never clean up
, svDownloadDir :: TVar FilePath -- ^ where to put files the user downloads
}
-- | A static version of 'SessionView'
-- useful for serializing to logs
-- or storing in the ncLastNMsgs queue
data ViewSnapshot = ViewSnapshot
{ vNick :: ByteString
, vStatus :: UserStatus
, vStatusMsg :: ByteString
, vTyping :: TypingStatus
, vNoSpam :: Maybe NoSpam
, vTheirNick :: ByteString
, vTheirStatus :: UserStatus
, vTheirStatusMsg :: ByteString
, vTheirTyping :: TypingStatus
, vTheirNoSpam :: Maybe NoSpam
, vGroups :: Map.Map GroupChatId (Set.Set SockAddr)
}
-- | Take snapshot of SessionView
--
-- This is useful for storing the context of
-- remembered messages.
viewSnapshot :: SessionView -> STM ViewSnapshot
viewSnapshot v = do
nick <- readTVar (svNick v)
status <- readTVar (svStatus v)
statusMsg <- readTVar (svStatusMsg v)
typing <- readTVar (svTyping v)
noSpam <- readTVar (svNoSpam v)
theirNick <- readTVar (svTheirNick v)
theirStatus <- readTVar (svTheirStatus v)
theirStatusMsg <- readTVar (svTheirStatusMsg v)
theirTyping <- readTVar (svTheirTyping v)
theirNoSpam <- readTVar (svTheirNoSpam v)
groups <- readTVar (svGroups v)
return ViewSnapshot
{ vNick = nick
, vStatus = status
, vStatusMsg = statusMsg
, vTyping = typing
, vNoSpam = noSpam
, vTheirNick = theirNick
, vTheirStatus = theirStatus
, vTheirStatusMsg = theirStatusMsg
, vTheirTyping = theirTyping
, vTheirNoSpam = theirNoSpam
, vGroups = groups
}
type SessionID = Word64
-- | Application specific listener type (Word64)
--
-- This is some kind of information associated with a listening TChan.
-- It may be used to indicate what kind of packets it is interested in.
--
-- 0 means listen to all messages and is done automatically in 'defaultUnRecHook'
-- any other values are left open to application specific convention.
--
-- This module does not know what the different values here
-- mean, but code that sets hooks may adhere to a convention
-- defined elsewhere.
--
type ListenerType = Word64
data NetCryptoSession = NCrypto
{ ncState :: TVar NetCryptoSessionStatus
, ncMyPublicKey :: PublicKey
, ncSessionId :: SessionID
, ncTheirPublicKey :: PublicKey -- Tox id w/o nospam
, ncTheirBaseNonce :: TVar Nonce24 -- base nonce + packet number
, ncMyPacketNonce :: TVar Nonce24 -- base nonce + packet number
, ncHandShake :: TVar (Maybe (Handshake Encrypted))
, ncCookie :: TVar (Maybe Cookie) -- ^ Cookie issued by remote peer
, ncTheirDHTKey :: PublicKey
, ncTheirSessionPublic :: Maybe PublicKey
, ncSessionSecret :: SecretKey
, ncSockAddr :: SockAddr
, ncHooks :: TVar (Map.Map MessageType [NetCryptoHook])
, ncUnrecognizedHook :: TVar (MessageType -> NetCryptoHook)
, ncIncomingTypeArray :: TVar MsgTypeArray -- ^ supported messages, 0 for unsupported,
-- otherwise the messageType, some message types
-- may not be in ncHooks yet, but they should appear
-- here if ncUnrecognizedHook will add them to ncHooks
-- on an as-need basis.
, ncOutgoingIdMap :: RangeMap TArray Word8 TVar
, ncAllSessions :: NetCryptoSessions -- ^ may be needed if one net-crypto session
-- needs to possibly start another, as is
-- the case in group chats
, ncView :: TVar SessionView
, ncPacketQueue :: PacketQueue CryptoData
, ncBufferStart :: TVar Word32
, ncDequeueThread :: Maybe ThreadId
, ncPingMachine :: Maybe PingMachine
, ncOutgoingQueue :: PQ.PacketOutQueue (State,Nonce24,RangeMap TArray Word8 TVar)
CryptoMessage
(CryptoPacket Encrypted)
CryptoData
, ncLastNMsgs :: CyclicBuffer (Bool{-Handled?-},(ViewSnapshot,InOrOut CryptoMessage))
-- ^ cyclic buffer, holds the last N non-handshake crypto messages
-- even if there is no attached user interface.
, ncListeners :: TVar (IntMap.IntMap (ListenerType,TMChan CryptoMessage))
-- ^ user interfaces may "listen" by inserting themselves into this map
-- with a unique id and a new TChan, and then reading from the TChan
}
data NetCryptoSessions = NCSessions
{ netCryptoSessions :: TVar (Map.Map SockAddr NetCryptoSession)
, netCryptoSessionsByKey :: TVar (Map.Map PublicKey [NetCryptoSession])
, transportCrypto :: TransportCrypto
, defaultHooks :: Map.Map MessageType [NetCryptoHook]
, defaultUnrecognizedHook :: MessageType -> NetCryptoHook
, sessionView :: SessionView
, msgTypeArray :: MsgTypeArray
, inboundQueueCapacity :: Word32
, outboundQueueCapacity :: Word32
, nextSessionId :: TVar SessionID
, announceNewSessionHooks :: TVar [IOHook (Maybe NoSpam) NetCryptoSession]
, sessionTransport :: Transport String SockAddr NetCrypto
, listenerIDSupply :: TVar Supply
}
type NewSessionHook = IOHook (Maybe NoSpam) NetCryptoSession
addNewSessionHook :: NetCryptoSessions -> NewSessionHook -> STM ()
addNewSessionHook allsessions@(NCSessions { announceNewSessionHooks }) hook = modifyTVar announceNewSessionHooks (hook:)
forgetCrypto :: TransportCrypto -> NetCryptoSessions -> NetCryptoSession -> STM ()
forgetCrypto crypto (NCSessions {netCryptoSessions,netCryptoSessionsByKey}) session = do
let addr = ncSockAddr session
sid = ncSessionId session
sPubKey = ncTheirPublicKey session
byAddrMap <- readTVar netCryptoSessions
{- byKeyMap <- readTVar netCryptoSessionsByKey -}
case Map.lookup addr byAddrMap of
Nothing -> return () -- already gone
Just _ -> do
modifyTVar netCryptoSessions (Map.delete addr)
modifyTVar netCryptoSessionsByKey (Map.update (\xs -> case filter (\x -> ncSessionId x /= sid) xs of
[] -> Nothing
ys -> Just ys) sPubKey)
newSessionsState :: TransportCrypto
-> (MessageType -> NetCryptoHook) -- ^ default hook
-> Map.Map MessageType [NetCryptoHook] -- ^ all hooks, can be empty to start
-> IO NetCryptoSessions
newSessionsState crypto unrechook hooks = do
x <- atomically $ newTVar Map.empty
x2 <- atomically $ newTVar Map.empty
nick <- atomically $ newTVar B.empty
status <- atomically $ newTVar Online
statusmsg <- atomically $ newTVar B.empty
typing <- atomically $ newTVar NotTyping
nospam <- atomically $ newTVar Nothing
theirnick <- atomically $ newTVar B.empty
theirstatus <- atomically $ newTVar Online
theirstatusmsg <- atomically $ newTVar B.empty
theirtyping <- atomically $ newTVar NotTyping
theirnospam <- atomically $ newTVar Nothing
grps <- atomically $ newTVar Map.empty
pname <- getProgName
cachedir <- sensibleCacheDirCreateIfMissing pname
tmpdir <- (</> pname) <$> (getTemporaryDirectory >>= canonicalizePath) -- getCanonicalTemporaryDirectory
configdir <- sensibleVarLib pname
homedir <- getHomeDirectory
svDownloadDir0 <- atomically $ newTVar (homedir </> "Downloads")
nextSessionId0 <- atomically $ newTVar 0
announceNewSessionHooks0 <- atomically $ newTVar []
lsupply <- newSupply
lsupplyVar <- atomically (newTVar lsupply)
return NCSessions { netCryptoSessions = x
, netCryptoSessionsByKey = x2
, transportCrypto = crypto
, defaultHooks = hooks
, defaultUnrecognizedHook = unrechook
, sessionView = SessionView
{ svNick = nick
, svStatus = status
, svStatusMsg = statusmsg
, svTyping = typing
, svNoSpam = nospam
, svTheirNick = theirnick
, svTheirStatus = theirstatus
, svTheirStatusMsg = theirstatusmsg
, svTheirTyping = theirtyping
, svTheirNoSpam = theirnospam
, svGroups = grps
, svCacheDir = cachedir
, svTmpDir = tmpdir
, svConfigDir = configdir
, svDownloadDir = svDownloadDir0
}
, msgTypeArray = allMsgTypes id -- todo make this a parameter
, inboundQueueCapacity = 200
, outboundQueueCapacity = 400
, nextSessionId = nextSessionId0
, announceNewSessionHooks = announceNewSessionHooks0
, sessionTransport = error "Need to set sessionTransport field of NetCryptoSessions!"
, listenerIDSupply = lsupplyVar
}
data HandshakeParams
= HParam
{ hpTheirBaseNonce :: Maybe Nonce24 -- ignore and generate your own
, hpOtherCookie :: Cookie
, hpTheirSessionKeyPublic :: PublicKey
, hpMySecretKey :: SecretKey
, hpCookieRemotePubkey :: PublicKey
, hpCookieRemoteDhtkey :: PublicKey
}
newHandShakeData :: TransportCrypto -> Nonce24 -> HandshakeParams -> SockAddr -> IO (Maybe HandshakeData)
newHandShakeData crypto basenonce (HParam {hpOtherCookie,hpMySecretKey,hpCookieRemotePubkey,hpCookieRemoteDhtkey}) addr
= do
freshCookie
<- case nodeInfo (key2id hpCookieRemoteDhtkey) addr of
Right nodeinfo -> Just <$> createCookie crypto nodeinfo hpCookieRemotePubkey
Left er -> return Nothing
let hinit = hashInit
Cookie n24 encrypted = hpOtherCookie
hctx = hashUpdate hinit n24
hctx' = hashUpdate hctx encrypted
digest = hashFinalize hctx'
-- parameters addr {--> SockAddr -}
-- mbcookie <- case hpOtherCookie of
-- Nothing -> case (nodeInfo hpCookieRemoteDhtkey addr) of
-- Right nodeinfo -> cookieRequest crypto netCryptoDHTClient (toPublic hpMySecretKey) nodeinfo
-- Left er -> return Nothing
-- Just c -> return (Just c)
return $
fmap (\freshCookie' ->
HandshakeData
{ baseNonce = basenonce
, sessionKey = toPublic hpMySecretKey
, cookieHash = digest
, otherCookie = freshCookie'
}) freshCookie
type XMessage = CryptoMessage -- todo
-- THIS Would work if not for the IO shared secret cache...
-- increments packet nonce, only call when actually queuing an outgoing packet
-- getOutGoingParam crypto session = do
-- n24 <- (ncMyPacketNonce session)
-- let state = computeSharedSecret (transportSecret crypto) (ncTheirPublicKey session) n24
-- modifyTVar (ncMyPacketNonce session) (+1)
-- rangemap <- readTVar (ncOutgoingIdMap session)
-- return (state,n24,rangemap)
ncToWire :: STM (State,Nonce24,RangeMap TArray Word8 TVar)
-> Word32{- packet number we expect to recieve -}
-> Word32{- buffer_end -}
-> Word32{- packet number -}
-> XMessage
-> STM (Maybe (CryptoPacket Encrypted,Word32{-next packet no-}))
ncToWire getState seqno bufend pktno msg = do
let typ = getMessageType msg
typ64 = toWord64 typ
let lsness msg =
case typ of
Msg mid -> lossyness mid
GrpMsg KnownLossy _ -> Lossy
GrpMsg KnownLossless _ -> Lossless
(state,n24,msgOutMapVar) <- getState
-- msgOutMap <- readTVar msgOutMapVar
result1 <- lookupInRangeMap typ64 msgOutMapVar
case result1 of -- msgOutMapLookup typ64 msgOutMap of
Just outid -> do
let setMessageId (OneByte _) mid = OneByte (toEnum8 mid)
setMessageId (TwoByte _ x) mid = TwoByte (toEnum8 mid) x
setMessageId (UpToN _ x) mid = UpToN (toEnum8 mid) x
msg' = setMessageId msg outid
in case lsness msg of
UnknownLossyness -> return Nothing
Lossy -> let cd =
CryptoData
{ bufferStart = seqno
, bufferEnd = bufend
, bufferData = msg'
}
plain = encodePlain cd
encrypted = encrypt state plain
pkt = CryptoPacket { pktNonce = nonce24ToWord16 n24, pktData = encrypted }
in return (Just (pkt, pktno))
Lossless -> let cd =
CryptoData
{ bufferStart = seqno
, bufferEnd = pktno
, bufferData = msg'
}
plain = encodePlain cd
encrypted = encrypt state plain
pkt = CryptoPacket { pktNonce = nonce24ToWord16 n24, pktData = encrypted }
in return (Just (pkt, pktno+1))
-- | called when we recieve a crypto handshake with valid cookie
-- TODO set priority on contact addr to 0 if it is older than ForgetPeriod,
-- then increment it regardless. (Keep addr in MinMaxPSQ in Roster.Contact)
freshCryptoSession :: NetCryptoSessions -> SockAddr -> HandshakeParams -> IO ()
freshCryptoSession sessions
addr
hp@(HParam
{ hpTheirBaseNonce = Just theirBaseNonce
, hpOtherCookie = otherCookie
, hpTheirSessionKeyPublic = theirSessionKey
, hpMySecretKey = key
, hpCookieRemotePubkey = remotePublicKey
, hpCookieRemoteDhtkey = remoteDhtPublicKey
}) = do
let crypto = transportCrypto sessions
allsessions = netCryptoSessions sessions
allsessionsByKey = netCryptoSessionsByKey sessions
sessionId <- atomically $ do
x <- readTVar (nextSessionId sessions)
modifyTVar (nextSessionId sessions) (+1)
return x
ncState0 <- atomically $ newTVar Accepted
ncTheirBaseNonce0 <- atomically $ newTVar theirBaseNonce
n24 <- atomically $ transportNewNonce crypto
state <- lookupSharedSecret crypto key remoteDhtPublicKey n24
newBaseNonce <- atomically $ transportNewNonce crypto
mbMyhandshakeData <- newHandShakeData crypto newBaseNonce hp addr
let encodeHandshake myhandshakeData = let plain = encodePlain myhandshakeData
-- state = computeSharedSecret key remoteDhtPublicKey n24
encrypted = encrypt state plain
in Handshake { handshakeCookie = otherCookie
, handshakeNonce = n24
, handshakeData = encrypted
}
let myhandshake= encodeHandshake <$> mbMyhandshakeData
ncMyPacketNonce0 <- atomically $ newTVar newBaseNonce
ncHandShake0 <- atomically $ newTVar myhandshake
cookie0 <- atomically $ newTVar (Just otherCookie)
newsession <- generateSecretKey
ncHooks0 <- atomically $ newTVar (defaultHooks sessions)
ncUnrecognizedHook0 <- atomically $ newTVar (defaultUnrecognizedHook sessions)
ncIncomingTypeArray0 <- atomically $ newTVar (msgTypeArray sessions)
let idMap = foldl (\mp (x,y) -> W64.insert x y mp) W64.empty (zip [0..255] [0..255])
ncOutgoingIdMap0 <- atomically $ emptySTMRangeMap -- atomically $ newTVar idMap
ncView0 <- atomically $ newTVar (sessionView sessions)
pktq <- atomically $ PQ.new (inboundQueueCapacity sessions) 0
bufstart <- atomically $ newTVar 0
let toWireIO = do
f <- lookupNonceFunction crypto newsession theirSessionKey
atomically $ do
n24 <- readTVar ncMyPacketNonce0
let n24plus1 = incrementNonce24 n24
writeTVar ncMyPacketNonce0 n24plus1
return (return (f n24, n24, ncOutgoingIdMap0))
pktoq <- atomically $ PQ.newOutGoing pktq ncToWire toWireIO 0 (outboundQueueCapacity sessions) 0
lastNQ <- atomically (CB.new 10 0 :: STM (CyclicBuffer (Bool,(ViewSnapshot,InOrOut CryptoMessage))))
listeners <- atomically $ newTVar IntMap.empty
msgNum <- atomically $ newTVar 0
dropNum <- atomically $ newTVar 0
let netCryptoSession0 =
NCrypto { ncState = ncState0
, ncMyPublicKey = toPublic key
, ncSessionId = sessionId
, ncTheirPublicKey = remotePublicKey
, ncTheirBaseNonce = ncTheirBaseNonce0
, ncMyPacketNonce = ncMyPacketNonce0
, ncHandShake = ncHandShake0
, ncCookie = cookie0
, ncTheirDHTKey = remoteDhtPublicKey
, ncTheirSessionPublic = Just theirSessionKey
, ncSessionSecret = newsession
, ncSockAddr = addr
, ncHooks = ncHooks0
, ncUnrecognizedHook = ncUnrecognizedHook0
, ncAllSessions = sessions
, ncIncomingTypeArray = ncIncomingTypeArray0
, ncOutgoingIdMap = ncOutgoingIdMap0
, ncView = ncView0
, ncPacketQueue = pktq
, ncBufferStart = bufstart
, ncDequeueThread = Nothing -- error "you want the NetCrypto-Dequeue thread id, but is it started?"
, ncPingMachine = Nothing -- error "you want the NetCrypto-PingMachine, but is it started?"
, ncOutgoingQueue = pktoq
, ncLastNMsgs = lastNQ
, ncListeners = listeners
}
-- launch dequeue thread
threadid <- forkIO $ do
tid <- myThreadId
labelThread tid ("NetCryptoDequeue." ++ show (key2id remotePublicKey))
fix $ \loop -> do
cd <- atomically $ PQ.dequeue pktq
_ <- runCryptoHook (netCryptoSession0 {ncDequeueThread=Just tid}) (bufferData cd)
loop
-- launch dequeueOutgoing thread
threadidOutgoing <- forkIO $ do
tid <- myThreadId
labelThread tid ("NetCryptoDequeueOutgoing." ++ show (key2id remotePublicKey))
fix $ \loop -> do
(_,pkt) <- atomically $ PQ.dequeueOutgoing pktoq
sendMessage (sessionTransport sessions) addr (NetCrypto pkt)
loop
-- launch ping thread
fuzz <- randomRIO (0,2000)
pingMachine <- forkPingMachine ("NetCrypto." ++ show (key2id remotePublicKey)) (15000 + fuzz) 2000
-- update session with thread ids
let netCryptoSession = netCryptoSession0 {ncDequeueThread=Just threadid, ncPingMachine=Just pingMachine}
-- add this session to the lookup maps
atomically $ do
modifyTVar allsessions (Map.insert addr netCryptoSession)
byKeyResult <- readTVar allsessionsByKey >>= return . Map.lookup remotePublicKey
case byKeyResult of
Nothing -> modifyTVar allsessionsByKey (Map.insert remotePublicKey [netCryptoSession])
Just xs -> modifyTVar allsessionsByKey (Map.insert remotePublicKey (netCryptoSession:xs))
-- run announceNewSessionHooks
hooks <- atomically $ readTVar (announceNewSessionHooks sessions)
flip fix (hooks,netCryptoSession) $ \loop (hooks,session) ->
case hooks of
[] -> return ()
(h:hs) -> do
r <- h Nothing session
case r of
Just f -> loop (hs, f session)
Nothing -> return ()
-- | Called when we get a handshake, but there's already a session entry.
updateCryptoSession :: NetCryptoSessions -> SockAddr -> HandshakeParams -> NetCryptoSession -> IO ()
updateCryptoSession sessions addr hp session = do
ncState0 <- atomically $ readTVar (ncState session)
ncTheirBaseNonce0 <- atomically $ readTVar (ncTheirBaseNonce session)
if (ncState0 >= Accepted)
-- If the nonce in the handshake and the dht key are both the same as
-- the ones we have saved, assume we already handled this and this is a
-- duplicate handshake packet, otherwise disregard everything, and
-- refresh all state.
--
then when ( Just ncTheirBaseNonce0 /= hpTheirBaseNonce hp -- XXX: Do we really want to compare base nonce here?
|| ncTheirDHTKey session /= hpCookieRemoteDhtkey hp
) $ freshCryptoSession sessions addr hp
else if ( Just ncTheirBaseNonce0 /= hpTheirBaseNonce hp)
then freshCryptoSession sessions addr hp -- basenonce mismatch, trigger refresh
else atomically $ writeTVar (ncState session) Accepted
cryptoNetHandler :: NetCryptoSessions -> SockAddr -> NetCrypto -> IO (Maybe (NetCrypto -> NetCrypto))
cryptoNetHandler sessions addr (NetHandshake (Handshake (Cookie n24 ecookie) nonce24 encrypted)) = do
dput XNetCrypto ("RECIEVED HANDSHAKE from " ++ show addr)
-- Handle Handshake Message
let crypto = transportCrypto sessions
allsessions = netCryptoSessions sessions
anyRight [] f = return $ Left "missing key"
anyRight (x:xs) f = f x >>= either (const $ anyRight xs f) (return . Right)
seckeys <- map fst <$> atomically (readTVar (userKeys crypto))
symkey <- atomically $ transportSymmetric crypto
now <- getPOSIXTime
dput XNetCrypto ("Decrypt cookie with n24=" ++ show n24 ++ "\n symkey= " ++ show symkey)
lr <- fmap join . sequence $ do -- Either Monad
-- TODO: XXX: FIXME:
-- The following call to decryptSymmetric is failing every time,
-- including when uTox tries to connect
-- Possibly my cookies are backwards?
(CookieData cookieTime remotePubkey remoteDhtkey) <- (decodePlain =<< decryptSymmetric symkey n24 ecookie)
Right $ do -- IO Monad
decrypted <- anyRight seckeys $ \key -> do
secret <- lookupSharedSecret crypto key remotePubkey nonce24
return $ (key,) <$> (decodePlain =<< decrypt secret encrypted)
return $ do -- Either Monad
(key,HandshakeData { baseNonce, sessionKey, cookieHash, otherCookie }) <- decrypted
-- check cookie time < 15 seconds ago
guard (now - fromIntegral cookieTime < 15)
-- cookie hash is valid? sha512 of ecookie
let hinit = hashInit
hctx = hashUpdate hinit n24
hctx' = hashUpdate hctx ecookie
digest = hashFinalize hctx'
guard (cookieHash == digest)
-- known friend?
-- todo TODO, see Roster.hs,
-- talk to not yet existent Network-Manager to ascertain current permissions
return
HParam
{ hpTheirBaseNonce = Just baseNonce
, hpOtherCookie = otherCookie
, hpTheirSessionKeyPublic = sessionKey
, hpMySecretKey = key
, hpCookieRemotePubkey = remotePubkey
, hpCookieRemoteDhtkey = remoteDhtkey
}
case lr of
Left s -> dput XNetCrypto ("cryptoNetHandler: " ++ s)
Right hp@(HParam
{ hpTheirBaseNonce = Just theirBaseNonce
, hpOtherCookie = otherCookie
, hpTheirSessionKeyPublic = theirSessionKey
, hpMySecretKey = key
, hpCookieRemotePubkey = remotePublicKey
, hpCookieRemoteDhtkey = remoteDhtPublicKey
}) -> do
sessionsmap <- atomically $ readTVar allsessions
-- Do a lookup, so we can handle the update case differently
case Map.lookup addr sessionsmap of
Nothing -> freshCryptoSession sessions addr hp -- create new session
Just session -> updateCryptoSession sessions addr hp session -- update existing session
return Nothing
cryptoNetHandler sessions addr (NetCrypto (CryptoPacket nonce16 encrypted)) = do
let crypto = transportCrypto sessions
allsessions = netCryptoSessions sessions
sessionsmap <- atomically $ readTVar allsessions
-- Handle Encrypted Message
case Map.lookup addr sessionsmap of
Nothing -> return Nothing -- drop packet, we have no session
Just session@(NCrypto { ncIncomingTypeArray, ncState, ncPacketQueue, ncHooks,
ncSessionSecret, ncTheirSessionPublic, ncTheirBaseNonce,
ncPingMachine}) -> do
theirBaseNonce <- atomically $ readTVar ncTheirBaseNonce
-- Try to decrypt message
let diff :: Word16
diff = nonce16 - fromIntegral (last2Bytes theirBaseNonce) -- truncating to Word16
tempNonce = addtoNonce24 theirBaseNonce (fromIntegral diff) -- expanding to Word
lr <- fmap join $ sequence $ do -- Either Monad --
pubkey <- maybeToEither ncTheirSessionPublic
Right $ do -- IO Monad
secret <- lookupSharedSecret crypto ncSessionSecret pubkey tempNonce
return $ decodePlain =<< decrypt secret encrypted
case lr of
Left _ -> return Nothing -- decryption failed, ignore packet
Right cd@(CryptoData {bufferStart, bufferEnd, bufferData=cm}) -> do -- decryption succeeded,
-- TODO: Why do I need bufferStart & bufferEnd?
--
-- buffer_start = highest packet number handled + 1
-- , recvbuffers buffer_start
--
-- bufferEnd = sendbuffer buffer_end if lossy, otherwise packet number
-- update ncTheirBaseNonce if necessary
when (diff > 2 * dATA_NUM_THRESHOLD)$
atomically $ do
y <- readTVar ncTheirBaseNonce
let x = addtoNonce24 y (fromIntegral dATA_NUM_THRESHOLD)
writeTVar ncTheirBaseNonce y
-- then set session confirmed,
atomically $ writeTVar ncState Confirmed
-- bump ping machine
case ncPingMachine of
Just pingMachine -> pingBump pingMachine
Nothing -> return ()
msgTypes <- atomically $ readTVar ncIncomingTypeArray
let msgTyp = cd ^. messageType
msgTypMapped64 = msgTypes A.! fromEnum8 (msgID cm)
msgTypMapped = fromWord64 $ msgTypMapped64
isLossy (GrpMsg KnownLossy _) = True
isLossy (Msg mid) | lossyness mid == Lossy = True
isLossy _ = False
if isLossy msgTypMapped
then do atomically $ PQ.observeOutOfBand ncPacketQueue bufferEnd
runCryptoHook session (bufferData cd)
else do atomically $ PQ.enqueue ncPacketQueue bufferEnd cd
return Nothing
where
last2Bytes :: Nonce24 -> Word
last2Bytes (Nonce24 bs) = case S.decode (B.drop 22 bs) of
Right n -> n
_ -> error "unreachable-last2Bytes"
dATA_NUM_THRESHOLD = 21845 -- = 65535 / 3
runCryptoHook :: NetCryptoSession -> CryptoMessage -> IO (Maybe (x -> x))
runCryptoHook session@(NCrypto {ncState, ncHooks,ncSessionSecret,ncTheirSessionPublic,ncTheirBaseNonce,ncIncomingTypeArray})
cm {-cd@(CryptoData {bufferStart, bufferEnd, bufferData=cm})-} = do
hookmap <- atomically $ readTVar ncHooks
-- run hook
flip fix (cm,hookmap) $ \lookupAgain (cm,hookmap) -> do
msgTypes <- atomically $ readTVar ncIncomingTypeArray
let msgTyp = cm ^. messageType
msgTypMapped64 = msgTypes A.! fromEnum8 (msgID cm)
msgTypMapped = fromWord64 $ msgTypMapped64
if msgTypMapped64 == 0
then return Nothing
else
case Map.lookup msgTypMapped hookmap of
Nothing -> do -- no recognizing hook, run ncUnrecognizedHook0, loopAgain on result
unrecognize <- atomically $ readTVar (ncUnrecognizedHook session)
mbConsume <- unrecognize msgTypMapped session cm
case mbConsume of
Just f -> do
-- ncUnrecognizedHook0 may have updated the hookmap
hookmap' <- atomically $ readTVar ncHooks
lookupAgain (f cm,hookmap')
Nothing -> return Nothing
Just hooks -> flip fix (hooks,cm,msgTypMapped) $ \loop (hooks,cm,typ) -> do
let _ = cm :: CryptoMessage
case (hooks,cm) of
([],_) -> return Nothing
(hook:more,cd) -> do
r <- hook session cm :: IO (Maybe (CryptoMessage -> CryptoMessage))
case r of
Just f -> let newcd = f cd
newtyp = newcd ^. messageType
in if newtyp == typ then loop (more,newcd,newtyp)
else lookupAgain (newcd,hookmap)
Nothing -> return Nothing -- message consumed
-- | construct a 'MsgTypeArray' for specified types, using their known common positions
-- in the MessageId space if they have such a thing.
mkMsgTypes :: [MessageType] -> MsgTypeArray
mkMsgTypes msgs = let zeros = A.listArray (0,255) (replicate 256 0)
in zeros A.// map (\x -> (toIndex x,toWord64 x)) msgs
where
toIndex (Msg mid) = fromIntegral . fromEnum $ mid
toIndex (GrpMsg KnownLossless nam) = 0x63 -- fromEnum MESSAGE_GROUPCHAT
toIndex (GrpMsg KnownLossy nam) = 0xC7 -- fromEnum LOSSY_GROUPCHAT
-- | Handle all Tox messages that this code base is aware of.
-- The first parameter is a function which is applied to get the values
-- for keys of unknown nature. Could be either 'id' or 'const 0'
allMsgTypes :: (Word64 -> Word64) -> MsgTypeArray
allMsgTypes fDefault = A.listArray (minBound,maxBound) (0:knownMsgs)
where
knownMsgs :: [Word64]
knownMsgs =
concat [ map (fromIntegral . fromEnum) [ PacketRequest .. KillPacket ]
, map (const 0) [ 3 .. 15 ] -- UnspecifiedPacket
, map (const 0) [ 16 .. 23 ] -- MessengerLoseless
, map (fromIntegral . fromEnum) [ ONLINE .. OFFLINE ]
, map (const 0) [ 26 .. 47 ] -- MessengerLoseless
, map (fromIntegral . fromEnum) [ NICKNAME .. TYPING ]
, map (const 0) [ 52 .. 63 ] -- MessengerLoseless
, map (fromIntegral . fromEnum) [ MESSAGE .. ACTION ]
, map (const 0) [ 66 .. 68 ] -- MessengerLoseless
, map (fromIntegral . fromEnum) [ MSI ]
, map (const 0) [ 70 .. 79 ] -- MessengerLoseless
, map (fromIntegral . fromEnum) [ FILE_SENDREQUEST .. FILE_DATA ]
, map (const 0) [ 83 .. 95 ] -- MessengerLoseless
, map (fromIntegral . fromEnum) [ INVITE_GROUPCHAT .. MESSAGE_GROUPCHAT ]
, map (const 0) [ 100 .. 191 ] -- MessengerLoseless
, map (const 0) [ 192 .. 198 ] -- MessengerLossy
, map (fromIntegral . fromEnum) [ LOSSY_GROUPCHAT ]
, map (const 0) [ 200 .. 255 ] -- All lossy, exept the last
]
sendCrypto :: TransportCrypto -> NetCryptoSession -> (STM ()) -> CryptoMessage -> IO (Either String ())
sendCrypto crypto session updateLocal cm = do
let outq = ncOutgoingQueue session
-- XXX: potential race? if shared secret comes out of sync with cache?
getOutGoingParam <- PQ.readyOutGoing outq
atomically $ do
result <- PQ.tryAppendQueueOutgoing getOutGoingParam outq cm
case result of
PQ.OGSuccess -> updateLocal >> return (Right())
PQ.OGFull -> return (Left "Outgoing packet buffer is full")
PQ.OGEncodeFail -> return (Left "Failed to encode outgoing packet")
sendOnline :: TransportCrypto -> NetCryptoSession -> IO (Either String ())
sendOnline crypto session = sendCrypto crypto session (return ()) (OneByte ONLINE)
sendOffline :: TransportCrypto -> NetCryptoSession -> IO (Either String ())
sendOffline crypto session = sendCrypto crypto session (return ()) (OneByte OFFLINE)
sendKill :: TransportCrypto -> NetCryptoSession -> IO (Either String ())
sendKill crypto session = do
let cm=OneByte KillPacket
addMsgToLastN False (cm ^. messageType) session (Out cm)
sendCrypto crypto session (return ()) cm
setNick :: TransportCrypto -> NetCryptoSession -> ByteString -> IO (Either String ())
setNick crypto session nick = do
let Just (_,maxlen) = msgSizeParam NICKNAME
if B.length nick > maxlen
then return (Left $ "nickname must not exceed " ++ show maxlen ++ " bytes.")
else do
let updateLocal = do
let viewVar = ncView session
view <- readTVar viewVar
writeTVar (svNick view) nick
let cm = UpToN NICKNAME nick
addMsgToLastN False (cm ^. messageType) session (Out cm)
sendCrypto crypto session updateLocal cm
setTyping :: TransportCrypto -> NetCryptoSession -> TypingStatus -> IO (Either String ())
setTyping crypto session status = do
let updateLocal = do
view <- readTVar (ncView session)
writeTVar (svTyping view) status
let cm = TwoByte TYPING (fromEnum8 status)
addMsgToLastN False (cm ^. messageType) session (Out cm)
sendCrypto crypto session updateLocal cm
setNoSpam :: TransportCrypto -> NetCryptoSession -> Maybe NoSpam -> IO (Either String ())
setNoSpam crypto session mbnospam = do
let viewVar = ncView session
atomically $ do
view <- readTVar viewVar
writeTVar (svNoSpam view) mbnospam
return (Right ())
setStatus :: TransportCrypto -> NetCryptoSession -> UserStatus -> IO (Either String ())
setStatus crypto session status = do
let updateLocal = do
view <- readTVar (ncView session)
writeTVar (svStatus view) status
let cm = TwoByte USERSTATUS (fromEnum8 status)
addMsgToLastN False (cm ^. messageType) session (Out cm)
sendCrypto crypto session updateLocal cm
setStatusMsg :: TransportCrypto -> NetCryptoSession -> ByteString -> IO (Either String ())
setStatusMsg crypto session msg = do
let Just (_,maxlen) = msgSizeParam STATUSMESSAGE
if B.length msg > maxlen
then return (Left $ "status message must not exceed " ++ show maxlen ++ " bytes.")
else do
let updateLocal = do
view <- readTVar (ncView session)
writeTVar (svStatusMsg view) msg
let cm = UpToN STATUSMESSAGE msg
addMsgToLastN False (cm ^. messageType) session (Out cm)
sendCrypto crypto session updateLocal cm
sendChatMsg :: TransportCrypto -> NetCryptoSession -> ByteString -> IO (Either String ())
sendChatMsg crypto session msg = do
let Just (_,maxlen) = msgSizeParam MESSAGE
if B.length msg > maxlen
then return (Left $ "status message must not exceed " ++ show maxlen ++ " bytes.")
else do
let updateLocal = do
view <- readTVar (ncView session)
writeTVar (svStatusMsg view) msg
let cm = UpToN MESSAGE msg
addMsgToLastN False (cm ^. messageType) session (Out cm)
sendCrypto crypto session updateLocal cm
-- | handles nothings
defaultCryptoDataHooks :: Map.Map MessageType [NetCryptoHook]
defaultCryptoDataHooks
= Map.fromList
[ (Msg USERSTATUS,[defaultUserStatusHook])
, (Msg TYPING,[defaultTypingHook])
, (Msg NICKNAME, [defaultNicknameHook])
, (Msg STATUSMESSAGE, [defaultStatusMsgHook])
]
defaultUserStatusHook :: NetCryptoSession -> CryptoMessage -> IO (Maybe (CryptoMessage -> CryptoMessage))
defaultUserStatusHook session cm@(TwoByte {msgID=USERSTATUS, msgByte=statusByte}) = do
let status = toEnum8 statusByte
viewVar = ncView session
atomically $ do
view <- readTVar viewVar
writeTVar (svTheirStatus view) status
hookHelper True (Msg USERSTATUS) session cm
defaultTypingHook :: NetCryptoSession -> CryptoMessage -> IO (Maybe (CryptoMessage -> CryptoMessage))
defaultTypingHook session cm@(TwoByte {msgID=TYPING, msgByte=statusByte}) = do
let status = toEnum8 statusByte
viewVar = ncView session
atomically $ do
view <- readTVar viewVar
writeTVar (svTheirStatus view) status
hookHelper True (Msg TYPING) session cm
defaultNicknameHook :: NetCryptoSession -> CryptoMessage -> IO (Maybe (CryptoMessage -> CryptoMessage))
defaultNicknameHook session cm@(UpToN {msgID=NICKNAME, msgBytes=nick}) = do
let viewVar = ncView session
atomically $ do
view <- readTVar viewVar
writeTVar (svTheirNick view) nick
hookHelper True (Msg NICKNAME) session cm
defaultStatusMsgHook :: NetCryptoSession -> CryptoMessage -> IO (Maybe (CryptoMessage -> CryptoMessage))
defaultStatusMsgHook session cm@(UpToN {msgID=STATUSMESSAGE, msgBytes=msg}) = do
let viewVar = ncView session
atomically $ do
view <- readTVar viewVar
writeTVar (svTheirStatusMsg view) msg
hookHelper True (Msg STATUSMESSAGE) session cm
-- | updates ncLastNMsgs, and sends message to type-0 listeners
defaultUnRecHook :: MessageType -> NetCryptoHook
defaultUnRecHook = hookHelper False
hookHelper :: Bool -> MessageType -> NetCryptoHook
hookHelper _ typ session cm | any ($ typ) [isKillPacket, isOFFLINE] = atomically $ do
tmchans <- map snd . IntMap.elems <$> readTVar (ncListeners session)
forM_ tmchans $ \chan -> closeTMChan chan
return Nothing
hookHelper handledFlg typ session cm = do
addMsgToLastN handledFlg typ session (In cm)
atomically $ do
idtmchans <- IntMap.assocs <$> readTVar (ncListeners session)
mbChans
<- forM idtmchans $ \(id,(typ,chan)) -> do
bClosed <- isClosedTMChan chan
if bClosed
then do
modifyTVar' (ncListeners session) (IntMap.delete id)
return Nothing
else return (if typ==0 then Just chan else Nothing)
forM_ (catMaybes mbChans) $ \chan -> do
writeTMChan chan cm
return Nothing
addMsgToLastN :: Bool -> MessageType -> NetCryptoSession -> InOrOut CryptoMessage -> IO ()
addMsgToLastN handledFlg typ session cm = do
let lastNQ = ncLastNMsgs session
atomically $ do
view <- readTVar (ncView session)
snapshot <- viewSnapshot view
num <- CB.getNextSequenceNum lastNQ
CB.enqueue lastNQ num (handledFlg,(snapshot,cm))
-- | use to add a single hook to a specific session.
addCryptoDataHook1 :: Map.Map MessageType [NetCryptoHook] -> MessageType -> NetCryptoHook -> Map.Map MessageType [NetCryptoHook]
addCryptoDataHook1 mp typ hook = case Map.lookup typ mp of
Nothing -> Map.insert typ [hook] mp
Just hooks -> Map.insert typ (hook:hooks) mp
|