path: root/ToxToXMPP.hs

{-# LANGUAGE CPP            #-}
{-# LANGUAGE LambdaCase     #-}
{-# LANGUAGE NamedFieldPuns #-}
module ToxToXMPP
    ( forkAccountWatcher
    , JabberClients
    , PerClient
    , initPerClient
    , toxQSearch
    , toxAnnounceInterval
    , xmppToTox
    , toxToXmpp
    , interweave
    ) where

import Control.Monad.IO.Class
import Data.Conduit                 as C
import qualified Data.Conduit.List  as CL
import Data.XML.Types               as XML
import EventUtil
import Network.Tox.Crypto.Transport as Tox
import XMPPServer                   as XMPP

import Announcer
import Announcer.Tox
import Connection
import Network.QueryResponse
-- import Control.Concurrent
import Control.Concurrent.STM
import Control.Monad
import Crypto.Tox
import qualified Data.HashMap.Strict         as HashMap
import Data.Maybe
import qualified Data.Set                    as Set
import qualified Data.Text                   as T
import Data.Time.Clock.POSIX
import Network.Address
import Network.Kademlia.Search
import qualified Network.Tox                 as Tox
import Network.Tox.ContactInfo               as Tox
import qualified Network.Tox.Crypto.Handlers as Tox
-- import qualified Network.Tox.DHT.Handlers    as Tox
import Announcer
import ClientState
import Control.Concurrent.STM
import Control.Monad
import Crypto.Tox
import Data.Bits
import Data.Function
import qualified Data.Map                    as Map
import qualified Data.Set                    as Set
import qualified Data.Text                   as T
         ;import Data.Text                   (Text)
import Data.Word
import qualified Network.Kademlia.Routing    as R
import Network.Tox
import Network.Tox.ContactInfo
import Network.Tox.DHT.Handlers
import qualified Network.Tox.DHT.Transport   as Tox
         ;import Network.Tox.DHT.Transport   (FriendRequest (..))
import Network.Tox.NodeId
import qualified Network.Tox.Onion.Handlers  as Tox
import qualified Network.Tox.Onion.Transport as Tox
         ;import Network.Tox.Onion.Transport (OnionData (..))
import Presence
import Presence
import System.IO
import Text.Read
import XMPPServer                            (ConnectionKey)
#ifdef THREAD_DEBUG
import Control.Concurrent.Lifted.Instrument
#else
import Control.Concurrent.Lifted
import GHC.Conc                  (labelThread)
#endif
import DPut
import Nesting

xmppToTox :: Conduit XML.Event IO Tox.CryptoMessage
xmppToTox = doNestingXML $ fix $ \loop -> do
    e <- await
    dput DPut.XMan $ "xmppToTox: " ++ show e
    loop

toxToXmpp :: Monad m => Text -> Conduit Tox.CryptoMessage m XML.Event
toxToXmpp toxhost = do
    CL.sourceList $ XMPP.greet' "jabber:server" toxhost
    awaitForever $ \toxmsg -> do
        xmppInstantMessage "jabber:server" (Just toxhost) (T.pack $ show $ msgID toxmsg)

xmppInstantMessage :: Monad m => Text -> Maybe Text -> Text -> ConduitM i Event m ()
xmppInstantMessage namespace mfrom text = do
    let ns n = n { nameNamespace = Just namespace }
    C.yield $ EventBeginElement (ns "message")
               ((maybe id (\t->(attr "from" t:)) mfrom)
                 [attr "type" "normal" ])
    C.yield $   EventBeginElement (ns "body") []
    C.yield $     EventContent $ ContentText text
    C.yield $   EventEndElement (ns "body")
    C.yield $   EventBeginElement "{http://jabber.org/protocol/xhtml-im}html" []
    C.yield $     EventBeginElement "{http://www.w3.org/1999/xhtml}body" []
    C.yield $        EventBeginElement "{http://www.w3.org/1999/xhtml}p"
                       [ attr "style" "font-weight:bold; color:red" ]
    C.yield $          EventContent $ ContentText text
    C.yield $        EventEndElement "{http://www.w3.org/1999/xhtml}p"
    C.yield $     EventEndElement "{http://www.w3.org/1999/xhtml}body"
    C.yield $   EventEndElement "{http://jabber.org/protocol/xhtml-im}html"
    C.yield $ EventEndElement (ns "message")

key2jid :: Word32 -> PublicKey -> Text
key2jid nospam key = T.pack $ show $ NoSpamId nsp key
 where
    nsp = NoSpam nospam (Just sum)
    sum = nlo `xor` nhi `xor` xorsum key
    nlo = fromIntegral (0x0FFFF .&. nospam) :: Word16
    nhi = fromIntegral (0x0FFFF .&. (nospam `shiftR` 16)) :: Word16

type JabberClients = Map.Map ConnectionKey PerClient

data PerClient = PerClient
    { pcDeliveredFRs :: TVar (Set.Set Tox.FriendRequest)
    }

initPerClient :: STM PerClient
initPerClient = do
    frs <- newTVar Set.empty
    return PerClient
        { pcDeliveredFRs = frs
        }

data ToxToXMPP = ToxToXMPP
    { txAnnouncer :: Announcer
    , txAccount   :: Account JabberClients
    , txPresence  :: PresenceState
    , txTox       :: Tox JabberClients
    }

dispatch :: ToxToXMPP -> ContactEvent -> IO ()
dispatch tx (SessionEstablished theirKey) = stopConnecting tx theirKey
dispatch tx (SessionTerminated theirKey)  = startConnecting tx theirKey
dispatch tx (AddrChange   theirkey saddr)                    = return () -- todo
dispatch tx (PolicyChange theirkey TryingToConnect         ) = startConnecting tx theirkey
dispatch tx (PolicyChange theirkey policy                  ) = stopConnecting tx theirkey
dispatch tx (OnionRouted  theirkey (OnionDHTPublicKey pkey)) = return () -- todo
dispatch tx (OnionRouted  theirkey (OnionFriendRequest fr) ) = do
    let ToxToXMPP { txAnnouncer = acr
                  , txAccount   = acnt
                  , txPresence  = st } = tx
    k2c <- atomically $ do
        refs <- readTVar (accountExtra acnt)
        k2c <- Map.intersectionWith (,) refs <$> readTVar (keyToChan st)
        clients <- readTVar (clients st)
        return $ Map.intersectionWith (,) k2c clients
    -- TODO: Below we're using a hard coded default as their jabber user id.
    -- This isn't the right thing, but we don't know their user-id.  Perhaps
    -- there should be a way to parse it out of the friend request text.  Maybe
    -- after a zero-termination, or as visible text (nospam:...).
    let default_nospam = 0x6a7a27fc -- big-endian base64: anon/A==
        theirjid = key2jid default_nospam theirkey
    forM_ k2c $ \((PerClient{pcDeliveredFRs},conn),client) -> do
        alreadyDelivered <- atomically $ do
            frs <- readTVar pcDeliveredFRs
            writeTVar pcDeliveredFRs $ Set.insert fr frs
            return $ Set.member fr frs
        when (not alreadyDelivered) $ do
        self <- localJID (clientUser client) (clientProfile client) (clientResource client)
        ask <- presenceSolicitation theirjid self
        -- TODO Send friend-request text as an instant message or at least
        -- embed it in the stanza as a <status> element.
        sendModifiedStanzaToClient ask (connChan conn)

interweave :: [a] -> [a] -> [a]
interweave []     ys = ys
interweave (x:xs) ys = x : interweave ys xs

akeyDHTKeyShare :: Announcer -> NodeId -> PublicKey -> IO AnnounceKey
akeyDHTKeyShare announcer me them = atomically $ do
    packAnnounceKey announcer $ "dhtkey:" ++ (take 8 $ show me) ++ ":" ++ show (key2id them)

akeyConnect :: Announcer -> NodeId -> PublicKey -> IO AnnounceKey
akeyConnect announcer me them = atomically $ do
    packAnnounceKey announcer $ "connect:" ++ (take 8 $ show me) ++ ":" ++ show (key2id them)

startConnecting0 :: ToxToXMPP -> PublicKey -> Contact -> IO ()
startConnecting0 tx them contact = do
        let ToxToXMPP { txTox       = tox
                      , txAnnouncer = announcer
                      , txAccount   = acnt     } = tx
        let nearNodes nid = do
                bkts4 <- readTVar $ routing4 $ toxRouting tox
                bkts6 <- readTVar $ routing6 $ toxRouting tox
                let nss = map (R.kclosest (searchSpace (toxQSearch tox)) searchK nid)
                              [bkts4,bkts6]
                return $ foldr interweave [] nss
        wanted <- atomically $ (==Just TryingToConnect) <$> readTVar (contactPolicy contact)
        soliciting <- return False -- TODO: read subscribers file to answer this question.
        when wanted $ do
            let pub = toPublic $ userSecret acnt
                me  = key2id pub
            akey <- akeyDHTKeyShare announcer me them
                    -- We send this packet every 30 seconds if there is more
                    -- than one peer (in the 8) that says they our friend is
                    -- announced on them. This packet can also be sent through
                    -- the DHT module as a DHT request packet (see DHT) if we
                    -- know the DHT public key of the friend and are looking
                    -- for them in the DHT but have not connected to them yet.
                    -- 30 second is a reasonable timeout to not flood the
                    -- network with too many packets while making sure the
                    -- other will eventually receive the packet. Since packets
                    -- are sent through every peer that knows the friend,
                    -- resending it right away without waiting has a high
                    -- likelihood of failure as the chances of packet loss
                    -- happening to all (up to to 8) packets sent is low.
                    --
            let meth = SearchMethod (toxQSearch tox) onResult nearNodes (key2id them) 30
                 where
                  onResult theirkey rendezvous = do
                    dkey <- Tox.getContactInfo tox
                    let tr    = Tox.toxToRoute tox
                        route = Tox.AnnouncedRendezvous theirkey rendezvous
                    sendMessage tr route (pub,Tox.OnionDHTPublicKey dkey)
                    when soliciting $ do
                        let fr = FriendRequest
                                    { friendNoSpam      = _todo
                                    , friendRequestText = mempty
                                    }
                        sendMessage tr route (pub,Tox.OnionFriendRequest fr)
            scheduleSearch announcer akey meth pub

startConnecting :: ToxToXMPP -> PublicKey -> IO ()
startConnecting tx them = do
    mc <- atomically $ HashMap.lookup (key2id them)
                        <$> readTVar (contacts $ txAccount tx)
    forM_ mc $ startConnecting0 tx them


stopConnecting :: ToxToXMPP -> PublicKey -> IO ()
stopConnecting ToxToXMPP{txAnnouncer=announcer,txAccount=acnt} them = do
    dput XMan $ "STOP CONNECTING " ++ show (key2id them)
    let pub = toPublic $ userSecret acnt
        me  = key2id pub
    akey <- akeyDHTKeyShare announcer me them
    cancel announcer akey

forkAccountWatcher :: Account JabberClients -> Tox JabberClients -> PresenceState -> Announcer -> IO ThreadId
forkAccountWatcher acc tox st announcer = forkIO $ do
    myThreadId >>= flip labelThread ("tox-xmpp:"
                                      ++ show (key2id $ toPublic $ userSecret acc))
    (chan,cs) <- atomically $ do
                chan <- dupTChan $ eventChan acc -- duplicate broadcast channel for reading.
                contacts <- readTVar (contacts acc)
                return (chan,contacts)
    let tx = ToxToXMPP { txAnnouncer = announcer
                       , txAccount   = acc
                       , txPresence  = st
                       , txTox       = tox
                       }
    forM_ (HashMap.toList cs) $ \(them,c) -> do
        startConnecting0 tx (id2key them) c

    -- Loop endlessly until accountExtra is null.
    fix $ \loop -> do
    mev <- atomically $
            (Just <$> readTChan chan)
            `orElse` do
                refs <- readTVar $ accountExtra acc
                check $ Map.null refs
                return Nothing

    forM_ mev $ \ev -> dispatch tx ev >> loop

    cs <- atomically $ readTVar (contacts acc)
    forM_ (HashMap.toList cs) $ \(them,c) -> do
        stopConnecting tx (id2key them)


toxQSearch :: Tox extra -> Search Tox.NodeId (IP, PortNumber) Nonce32 Tox.NodeInfo Tox.Rendezvous
toxQSearch tox = Tox.toxidSearch (Tox.onionTimeout tox) (Tox.toxCryptoKeys tox) (Tox.toxOnion tox)

toxAnnounceInterval :: POSIXTime
toxAnnounceInterval = 15