-- | -- Copyright : (c) Sam T. 2013 -- License : MIT -- Maintainer : pxqr.sta@gmail.com -- Stability : experimental -- Portability : portable -- {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE RecordWildCards #-} module Network.BitTorrent.Sessions ( -- * Progress Progress(..), startProgress , ClientService(..) , startService , withRunning -- * Client , ClientSession ( ClientSession , clientPeerId, allowedExtensions ) , withClientSession , ThreadCount , defaultThreadCount , TorrentLoc(..) , registerTorrent , unregisterTorrent , getCurrentProgress , getSwarmCount , getPeerCount , getSwarm , openSwarmSession -- * Swarm , SwarmSession( SwarmSession, torrentMeta, clientSession ) , SessionCount , getSessionCount , getClientBitfield , discover ) where import Prelude hiding (mapM_, elem) import Control.Applicative import Control.Concurrent import Control.Concurrent.STM import Control.Concurrent.MSem as MSem import Control.Monad (when, forever, (>=>)) import Control.Exception import Control.Monad.Trans import Data.IORef import Data.Map as M import Data.HashMap.Strict as HM import Data.Foldable as F import Data.Set as S import Data.Serialize hiding (get) import Network hiding (accept) import Network.BSD import Network.Socket import Network.Socket.ByteString import Data.Bitfield as BF import Data.Torrent import Network.BitTorrent.Extension import Network.BitTorrent.Peer import Network.BitTorrent.Sessions.Types import Network.BitTorrent.Exchange.Protocol as BT import Network.BitTorrent.Tracker.Protocol as BT import Network.BitTorrent.Tracker as BT import Network.BitTorrent.Exchange as BT import System.Torrent.Storage {----------------------------------------------------------------------- Client Services -----------------------------------------------------------------------} startService :: MVar ClientService -> PortNumber -> (PortNumber -> IO ()) -> IO () startService s port m = do stopService s putMVar s =<< spawn where spawn = ClientService port <$> forkIO (m port) stopService :: MVar ClientService -> IO () stopService = tryTakeMVar >=> maybe (return ()) (killThread . servThread) -- | Service A might depend on service B. withRunning :: MVar ClientService -> IO () -> (ClientService -> IO ()) -> IO () withRunning dep failure action = tryTakeMVar dep >>= maybe failure action {----------------------------------------------------------------------- Torrent presence -----------------------------------------------------------------------} data TorrentPresence = Active SwarmSession | Registered TorrentLoc | Unknown torrentPresence :: ClientSession -> InfoHash -> IO TorrentPresence torrentPresence ClientSession {..} ih = do sws <- readTVarIO swarmSessions case M.lookup ih sws of Just ss -> return $ Active ss Nothing -> do tm <- readTVarIO torrentMap return $ maybe Unknown Registered $ HM.lookup ih tm {----------------------------------------------------------------------- Client sessions -----------------------------------------------------------------------} startListener :: ClientSession -> PortNumber -> IO () startListener cs @ ClientSession {..} port = startService peerListener port $ listener cs $ \conn @ (sock, PeerSession{..}) -> do print "accepted" let storage = error "storage" runP2P conn (exchange storage) -- | Create a new client session. The data passed to this function are -- usually loaded from configuration file. openClientSession :: SessionCount -> [Extension] -> PortNumber -> PortNumber -> IO ClientSession openClientSession n exts listenerPort _ = do cs <- ClientSession <$> genPeerId <*> pure exts <*> newEmptyMVar <*> MSem.new n <*> pure n <*> newTVarIO M.empty <*> newTVarIO (startProgress 0) <*> newTVarIO HM.empty startListener cs listenerPort return cs closeClientSession :: ClientSession -> IO () closeClientSession ClientSession {..} = do stopService peerListener sws <- readTVarIO swarmSessions forM_ sws closeSwarmSession withClientSession :: SessionCount -> [Extension] -> PortNumber -> PortNumber -> (ClientSession -> IO ()) -> IO () withClientSession c es l d = bracket (openClientSession c es l d) closeClientSession -- | Get current global progress of the client. This value is usually -- shown to a user. getCurrentProgress :: MonadIO m => ClientSession -> m Progress getCurrentProgress = liftIO . readTVarIO . currentProgress -- | Get number of swarms client aware of. getSwarmCount :: MonadIO m => ClientSession -> m SessionCount getSwarmCount ClientSession {..} = liftIO $ M.size <$> readTVarIO swarmSessions -- | Get number of peers the client currently connected to. getPeerCount :: MonadIO m => ClientSession -> m ThreadCount getPeerCount ClientSession {..} = liftIO $ do unused <- peekAvail activeThreads return (maxActive - unused) getListenerPort :: ClientSession -> IO PortNumber getListenerPort ClientSession {..} = servPort <$> readMVar peerListener {----------------------------------------------------------------------- Swarm session -----------------------------------------------------------------------} defSeederConns :: SessionCount defSeederConns = defaultUnchokeSlots defLeecherConns :: SessionCount defLeecherConns = defaultNumWant -- discovery should hide tracker and DHT communication under the hood -- thus we can obtain an unified interface discover :: SwarmSession -> IO () discover swarm @ SwarmSession {..} = {-# SCC discover #-} do port <- getListenerPort clientSession let conn = TConnection { tconnAnnounce = tAnnounce torrentMeta , tconnInfoHash = tInfoHash torrentMeta , tconnPeerId = clientPeerId clientSession , tconnPort = port } progress <- getCurrentProgress clientSession withTracker progress conn $ \tses -> do forever $ do addr <- getPeerAddr tses print addr forkThrottle swarm $ do print addr initiatePeerSession swarm addr $ \conn -> do print addr runP2P conn (exchange storage) registerSwarmSession :: SwarmSession -> STM () registerSwarmSession ss @ SwarmSession {..} = modifyTVar' (swarmSessions clientSession) $ M.insert (tInfoHash torrentMeta) ss unregisterSwarmSession :: SwarmSession -> STM () unregisterSwarmSession SwarmSession {..} = modifyTVar' (swarmSessions clientSession) $ M.delete $ tInfoHash torrentMeta openSwarmSession :: ClientSession -> TorrentLoc -> IO SwarmSession openSwarmSession cs @ ClientSession {..} loc @ TorrentLoc {..} = do t <- validateLocation loc let bf = haveNone $ pieceCount $ tInfo t ss <- SwarmSession t cs <$> MSem.new defLeecherConns <*> newTVarIO bf <*> openStorage t dataDirPath <*> newTVarIO S.empty <*> newBroadcastTChanIO atomically $ do modifyTVar' currentProgress $ enqueuedProgress $ contentLength $ tInfo t registerSwarmSession ss forkIO $ discover ss return ss closeSwarmSession :: SwarmSession -> IO () closeSwarmSession se @ SwarmSession {..} = do atomically $ unregisterSwarmSession se -- TODO stop discovery -- TODO killall peer sessions -- TODO the order is important! closeStorage storage getSwarm :: ClientSession -> InfoHash -> IO SwarmSession getSwarm cs @ ClientSession {..} ih = do status <- torrentPresence cs ih case status of Unknown -> throw $ UnknownTorrent ih Active sw -> return sw Registered loc -> openSwarmSession cs loc -- | Get the number of connected peers in the given swarm. getSessionCount :: SwarmSession -> IO SessionCount getSessionCount SwarmSession {..} = do S.size <$> readTVarIO connectedPeers swarmHandshake :: SwarmSession -> Handshake swarmHandshake SwarmSession {..} = Handshake { hsProtocol = defaultBTProtocol , hsReserved = encodeExts $ allowedExtensions $ clientSession , hsInfoHash = tInfoHash torrentMeta , hsPeerId = clientPeerId $ clientSession } {----------------------------------------------------------------------- Peer sessions throttling -----------------------------------------------------------------------} -- | The number of threads suitable for a typical BT client. defaultThreadCount :: ThreadCount defaultThreadCount = 1000 enterSwarm :: SwarmSession -> IO () enterSwarm SwarmSession {..} = do MSem.wait (activeThreads clientSession) MSem.wait vacantPeers leaveSwarm :: SwarmSession -> IO () leaveSwarm SwarmSession {..} = do MSem.signal vacantPeers MSem.signal (activeThreads clientSession) forkThrottle :: SwarmSession -> IO () -> IO ThreadId forkThrottle se action = do enterSwarm se (forkIO $ do action `finally` leaveSwarm se) `onException` leaveSwarm se -- TODO: check content files location; validateLocation :: TorrentLoc -> IO Torrent validateLocation = fromFile . metafilePath registerTorrent :: TVar TorrentMap -> TorrentLoc -> IO () registerTorrent = error "registerTorrent" unregisterTorrent :: TVar TorrentMap -> InfoHash -> IO () unregisterTorrent = error "unregisterTorrent" {----------------------------------------------------------------------- Peer session creation ------------------------------------------------------------------------ The peer session cycle looks like: * acquire vacant session and vacant thread slot; * (fork could be here, but not necessary) * establish peer connection; * register peer session; * ... exchange process ... * unregister peer session; * close peer connection; * release acquired session and thread slot. TODO: explain why this order TODO: thread throttling TODO: check if it connected yet peer TODO: utilize peer Id. TODO: use STM semaphore -----------------------------------------------------------------------} registerPeerSession :: PeerSession -> IO () registerPeerSession ps @ PeerSession {..} = atomically $ modifyTVar' (connectedPeers swarmSession) (S.insert ps) unregisterPeerSession :: PeerSession -> IO () unregisterPeerSession ps @ PeerSession {..} = atomically $ modifyTVar' (connectedPeers swarmSession) (S.delete ps) openSession :: SwarmSession -> PeerAddr -> Handshake -> IO PeerSession openSession ss @ SwarmSession {..} addr Handshake {..} = do let clientCaps = encodeExts $ allowedExtensions $ clientSession let enabled = decodeExts (enabledCaps clientCaps hsReserved) ps <- PeerSession addr ss enabled <$> atomically (dupTChan broadcastMessages) <*> (newIORef . initialSessionState . totalCount =<< readTVarIO clientBitfield) -- TODO we could implement more interesting throtling scheme -- using connected peer information registerPeerSession ps return ps -- TODO kill thread closeSession :: PeerSession -> IO () closeSession = unregisterPeerSession type PeerConn = (Socket, PeerSession) type Exchange = PeerConn -> IO () sendClientStatus :: PeerConn -> IO () sendClientStatus (sock, PeerSession {..}) = do cbf <- readTVarIO $ clientBitfield $ swarmSession sendAll sock $ encode $ Bitfield cbf -- | Exchange action depends on session and socket, whereas session depends -- on socket: -- -- socket------>-----exchange -- | | -- \-->--session-->--/ -- -- To handle exceptions properly we double bracket socket and session -- then joining the resources and also ignoring session local exceptions. -- runSession :: IO Socket -> (Socket -> IO PeerSession) -> Exchange -> IO () runSession connector opener action = handle isSessionException $ bracket connector close $ \sock -> bracket (opener sock) closeSession $ \ses -> action (sock, ses) -- | Used then the client want to connect to a peer. initiatePeerSession :: SwarmSession -> PeerAddr -> Exchange -> IO () initiatePeerSession ss @ SwarmSession {..} addr = runSession (putStrLn ("trying to connect" ++ show addr) *> connectToPeer addr <* putStrLn "connected") initiated where initiated sock = do phs <- handshake sock (swarmHandshake ss) putStrLn "handshaked" ps <- openSession ss addr phs sendClientStatus (sock, ps) return ps -- | Used the a peer want to connect to the client. acceptPeerSession :: ClientSession -> PeerAddr -> Socket -> Exchange -> IO () acceptPeerSession cs@ClientSession {..} addr s = runSession (pure s) accepted where accepted sock = do phs <- recvHandshake sock swarm <- getSwarm cs $ hsInfoHash phs ps <- openSession swarm addr phs sendHandshake sock $ Handshake { hsProtocol = defaultBTProtocol , hsReserved = encodeExts $ enabledExtensions ps , hsInfoHash = hsInfoHash phs , hsPeerId = clientPeerId } sendClientStatus (sock, ps) return ps listener :: ClientSession -> Exchange -> PortNumber -> IO () listener cs action serverPort = bracket openListener close loop where loop sock = forever $ handle isIOError $ do putStrLn "listen" print =<< getSocketName sock (conn, addr) <- accept sock putStrLn "accepted" case addr of SockAddrInet port host -> do forkIO $ do acceptPeerSession cs (PeerAddr Nothing host port) conn action return () _ -> return () isIOError :: IOError -> IO () isIOError _ = return () openListener = do sock <- socket AF_INET Stream =<< getProtocolNumber "tcp" bindSocket sock (SockAddrInet serverPort iNADDR_ANY) listen sock 1 return sock