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|
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE TemplateHaskell #-}
{-# LANGUAGE DeriveDataTypeable #-}
module Network.BitTorrent.Exchange.Session
( Session
, LogFun
, newSession
, closeSession
-- * Connections
, Network.BitTorrent.Exchange.Session.insert
, Network.BitTorrent.Exchange.Session.attach
, Network.BitTorrent.Exchange.Session.delete
, Network.BitTorrent.Exchange.Session.deleteAll
-- * Events
, waitMetadata
) where
import Control.Applicative
import Control.Concurrent
import Control.Concurrent.STM
import Control.Exception hiding (Handler)
import Control.Lens
import Control.Monad.Logger
import Control.Monad.Reader
import Data.ByteString as BS
import Data.ByteString.Lazy as BL
import Data.Conduit
import Data.Conduit.List as CL (iterM)
import Data.Maybe
import Data.Map as M
import Data.Monoid
import Data.Set as S
import Data.Text as T
import Data.Typeable
import Text.PrettyPrint hiding ((<>))
import Text.PrettyPrint.Class
import System.Log.FastLogger (LogStr, ToLogStr (..))
import Data.BEncode as BE
import Data.Torrent (InfoDict (..))
import Data.Torrent.Bitfield as BF
import Data.Torrent.InfoHash
import Data.Torrent.Piece
import qualified Data.Torrent.Piece as Torrent (Piece ())
import Network.BitTorrent.Core
import Network.BitTorrent.Exchange.Block as Block
import Network.BitTorrent.Exchange.Message as Message
import Network.BitTorrent.Exchange.Session.Metadata as Metadata
import Network.BitTorrent.Exchange.Session.Status as SS
import Network.BitTorrent.Exchange.Wire
import Network.BitTorrent.Exchange.Wire.Status
import System.Torrent.Storage
{-----------------------------------------------------------------------
-- Exceptions
-----------------------------------------------------------------------}
data ExchangeError
= InvalidRequest BlockIx StorageFailure
| CorruptedPiece PieceIx
deriving (Show, Typeable)
instance Exception ExchangeError
packException :: Exception e => (e -> ExchangeError) -> IO a -> IO a
packException f m = try m >>= either (throwIO . f) return
{-----------------------------------------------------------------------
-- Session
-----------------------------------------------------------------------}
data Cached a = Cached
{ cachedValue :: !a
, cachedData :: BL.ByteString -- keep lazy
}
cache :: BEncode a => a -> Cached a
cache s = Cached s (BE.encode s)
data Session = Session
{ sessionPeerId :: !(PeerId)
, sessionTopic :: !(InfoHash)
, metadata :: !(MVar Metadata.Status)
, infodict :: !(MVar (Cached InfoDict))
, status :: !(MVar SessionStatus)
, storage :: !(Storage)
, connectionsPrefs :: !ConnectionPrefs
, connectionsPending :: !(TVar (Set (PeerAddr IP)))
, connectionsEstablished :: !(TVar (Map (PeerAddr IP) (Connection Session)))
, connectionsUnchoked :: [PeerAddr IP]
, broadcast :: !(Chan Message)
, logger :: !(LogFun)
}
instance Ord IP
-- | Logger function.
type LogFun = Loc -> LogSource -> LogLevel -> LogStr -> IO ()
newSession :: LogFun
-> PeerAddr (Maybe IP) -- ^ /external/ address of this peer;
-> FilePath -- ^ root directory for content files;
-> InfoDict -- ^ torrent info dictionary;
-> IO Session -- ^
newSession logFun addr rootPath dict = do
pid <- maybe genPeerId return (peerId addr)
pconnVar <- newTVarIO S.empty
econnVar <- newTVarIO M.empty
store <- openInfoDict ReadWriteEx rootPath dict
statusVar <- newMVar $ sessionStatus (BF.haveNone (totalPieces store))
(piPieceLength (idPieceInfo dict))
chan <- newChan
return Session
{ sessionPeerId = pid
, sessionTopic = idInfoHash dict
, metadata = undefined
, infodict = undefined
, status = statusVar
, storage = store
, connectionsPrefs = def
, connectionsPending = pconnVar
, connectionsEstablished = econnVar
, connectionsUnchoked = []
, broadcast = chan
, logger = logFun
}
closeSession :: Session -> IO ()
closeSession ses = do
deleteAll ses
undefined
waitMetadata :: Session -> IO InfoDict
waitMetadata Session {..} = cachedValue <$> readMVar infodict
{-----------------------------------------------------------------------
-- Logging
-----------------------------------------------------------------------}
instance MonadLogger (Connected Session) where
monadLoggerLog loc src lvl msg = do
conn <- ask
ses <- asks connSession
addr <- asks connRemoteAddr
let addrSrc = src <> " @ " <> T.pack (render (pretty addr))
liftIO $ logger ses loc addrSrc lvl (toLogStr msg)
logMessage :: MonadLogger m => Message -> m ()
logMessage msg = logDebugN $ T.pack (render (pretty msg))
logEvent :: MonadLogger m => Text -> m ()
logEvent = logInfoN
{-----------------------------------------------------------------------
-- Connection slots
-----------------------------------------------------------------------}
--- pending -> established -> closed
--- | /|\
--- \-------------------------|
pendingConnection :: PeerAddr IP -> Session -> IO Bool
pendingConnection addr Session {..} = atomically $ do
pSet <- readTVar connectionsPending
eSet <- readTVar connectionsEstablished
if (addr `S.member` pSet) || (addr `M.member` eSet)
then return False
else do
modifyTVar' connectionsPending (S.insert addr)
return True
establishedConnection :: Connected Session ()
establishedConnection = undefined --atomically $ do
-- pSet <- readTVar pendingConnections
-- eSet <- readTVar
undefined
finishedConnection :: Connected Session ()
finishedConnection = return ()
-- | There are no state for this connection, remove it.
closedConnection :: PeerAddr IP -> Session -> IO ()
closedConnection addr Session {..} = atomically $ do
modifyTVar connectionsPending $ S.delete addr
modifyTVar connectionsEstablished $ M.delete addr
{-----------------------------------------------------------------------
-- Connections
-----------------------------------------------------------------------}
-- TODO unmap storage on zero connections
mainWire :: Wire Session ()
mainWire = do
lift establishedConnection
Session {..} <- asks connSession
lift $ resizeBitfield (totalPieces storage)
logEvent "Connection established"
iterM logMessage =$= exchange =$= iterM logMessage
lift finishedConnection
getConnectionConfig :: Session -> IO (ConnectionConfig Session)
getConnectionConfig s @ Session {..} = do
chan <- dupChan broadcast
let sessionLink = SessionLink {
linkTopic = sessionTopic
, linkPeerId = sessionPeerId
, linkMetadataSize = Nothing
, linkOutputChan = Just chan
, linkSession = s
}
return ConnectionConfig
{ cfgPrefs = connectionsPrefs
, cfgSession = sessionLink
, cfgWire = mainWire
}
insert :: PeerAddr IP -> Session -> IO ()
insert addr ses @ Session {..} = void $ forkIO (action `finally` cleanup)
where
action = do
pendingConnection addr ses
cfg <- getConnectionConfig ses
connectWire addr cfg
cleanup = do
runStatusUpdates status (SS.resetPending addr)
-- TODO Metata.resetPending addr
closedConnection addr ses
-- TODO closePending on error
attach :: PendingConnection -> Session -> IO ()
attach = undefined
delete :: PeerAddr IP -> Session -> IO ()
delete = undefined
deleteAll :: Session -> IO ()
deleteAll = undefined
{-----------------------------------------------------------------------
-- Helpers
-----------------------------------------------------------------------}
waitMVar :: MVar a -> IO ()
waitMVar m = withMVar m (const (return ()))
-- This function appear in new GHC "out of box". (moreover it is atomic)
tryReadMVar :: MVar a -> IO (Maybe a)
tryReadMVar m = do
ma <- tryTakeMVar m
maybe (return ()) (putMVar m) ma
return ma
withStatusUpdates :: StatusUpdates a -> Wire Session a
withStatusUpdates m = do
Session {..} <- asks connSession
liftIO $ runStatusUpdates status m
withMetadataUpdates :: Updates a -> Connected Session a
withMetadataUpdates m = do
Session {..} <- asks connSession
addr <- asks connRemoteAddr
liftIO $ runUpdates metadata addr m
getThisBitfield :: Wire Session Bitfield
getThisBitfield = do
ses <- asks connSession
liftIO $ SS.getBitfield (status ses)
readBlock :: BlockIx -> Storage -> IO (Block BL.ByteString)
readBlock bix @ BlockIx {..} s = do
p <- packException (InvalidRequest bix) $ do readPiece ixPiece s
let chunk = BL.take (fromIntegral ixLength) $
BL.drop (fromIntegral ixOffset) (pieceData p)
if BL.length chunk == fromIntegral ixLength
then return $ Block ixPiece ixOffset chunk
else throwIO $ InvalidRequest bix (InvalidSize ixLength)
-- |
tryReadMetadataBlock :: PieceIx
-> Connected Session (Maybe (Torrent.Piece BS.ByteString, Int))
tryReadMetadataBlock pix = do
Session {..} <- asks connSession
mcached <- liftIO (tryReadMVar infodict)
case mcached of
Nothing -> undefined
Just (Cached {..}) -> undefined
sendBroadcast :: PeerMessage msg => msg -> Wire Session ()
sendBroadcast msg = do
Session {..} <- asks connSession
ecaps <- use connExtCaps
liftIO $ writeChan broadcast (envelop ecaps msg)
{-----------------------------------------------------------------------
-- Triggers
-----------------------------------------------------------------------}
-- | Trigger is the reaction of a handler at some event.
type Trigger = Wire Session ()
interesting :: Trigger
interesting = do
addr <- asks connRemoteAddr
sendMessage (Interested True)
sendMessage (Choking False)
tryFillRequestQueue
fillRequestQueue :: Trigger
fillRequestQueue = do
maxN <- lift getMaxQueueLength
rbf <- use connBitfield
addr <- asks connRemoteAddr
blks <- withStatusUpdates $ do
n <- getRequestQueueLength addr
scheduleBlocks addr rbf (maxN - n)
mapM_ (sendMessage . Request) blks
tryFillRequestQueue :: Trigger
tryFillRequestQueue = do
allowed <- canDownload <$> use connStatus
when allowed $ do
fillRequestQueue
{-----------------------------------------------------------------------
-- Incoming message handling
-----------------------------------------------------------------------}
type Handler msg = msg -> Wire Session ()
handleStatus :: Handler StatusUpdate
handleStatus s = do
connStatus %= over remoteStatus (updateStatus s)
case s of
Interested _ -> return ()
Choking True -> do
addr <- asks connRemoteAddr
withStatusUpdates (SS.resetPending addr)
Choking False -> tryFillRequestQueue
handleAvailable :: Handler Available
handleAvailable msg = do
connBitfield %= case msg of
Have ix -> BF.insert ix
Bitfield bf -> const bf
thisBf <- getThisBitfield
case msg of
Have ix
| ix `BF.member` thisBf -> return ()
| otherwise -> interesting
Bitfield bf
| bf `BF.isSubsetOf` thisBf -> return ()
| otherwise -> interesting
handleTransfer :: Handler Transfer
handleTransfer (Request bix) = do
Session {..} <- asks connSession
bitfield <- getThisBitfield
upload <- canUpload <$> use connStatus
when (upload && ixPiece bix `BF.member` bitfield) $ do
blk <- liftIO $ readBlock bix storage
sendMessage (Message.Piece blk)
handleTransfer (Message.Piece blk) = do
Session {..} <- asks connSession
isSuccess <- withStatusUpdates (SS.pushBlock blk storage)
case isSuccess of
Nothing -> liftIO $ throwIO $ userError "block is not requested"
Just isCompleted -> do
when isCompleted $ do
sendBroadcast (Have (blkPiece blk))
-- maybe send not interested
tryFillRequestQueue
handleTransfer (Cancel bix) = filterQueue (not . (transferResponse bix))
where
transferResponse bix (Transfer (Message.Piece blk)) = blockIx blk == bix
transferResponse _ _ = False
{-----------------------------------------------------------------------
-- Metadata exchange
-----------------------------------------------------------------------}
-- TODO introduce new metadata exchange specific exceptions
waitForMetadata :: Trigger
waitForMetadata = do
Session {..} <- asks connSession
needFetch <- liftIO (isEmptyMVar infodict)
when needFetch $ do
canFetch <- allowed ExtMetadata <$> use connExtCaps
if canFetch
then tryRequestMetadataBlock
else liftIO (waitMVar infodict)
tryRequestMetadataBlock :: Trigger
tryRequestMetadataBlock = do
mpix <- lift $ withMetadataUpdates Metadata.scheduleBlock
case mpix of
Nothing -> undefined
Just pix -> sendMessage (MetadataRequest pix)
metadataCompleted :: InfoDict -> Trigger
metadataCompleted dict = do
Session {..} <- asks connSession
liftIO $ putMVar infodict (cache dict)
handleMetadata :: Handler ExtendedMetadata
handleMetadata (MetadataRequest pix) =
lift (tryReadMetadataBlock pix) >>= sendMessage . mkResponse
where
mkResponse Nothing = MetadataReject pix
mkResponse (Just (piece, total)) = MetadataData piece total
handleMetadata (MetadataData {..}) = do
ih <- asks connTopic
mdict <- lift $ withMetadataUpdates (Metadata.pushBlock piece ih)
case mdict of
Nothing -> tryRequestMetadataBlock -- not completed, need all blocks
Just dict -> metadataCompleted dict -- complete, wake up payload fetch
handleMetadata (MetadataReject pix) = do
lift $ withMetadataUpdates (Metadata.cancelPending pix)
handleMetadata (MetadataUnknown _ ) = do
logInfoN "Unknown metadata message"
{-----------------------------------------------------------------------
-- Main entry point
-----------------------------------------------------------------------}
acceptRehandshake :: ExtendedHandshake -> Trigger
acceptRehandshake ehs = undefined
handleExtended :: Handler ExtendedMessage
handleExtended (EHandshake ehs) = acceptRehandshake ehs
handleExtended (EMetadata _ msg) = handleMetadata msg
handleExtended (EUnknown _ _ ) = logWarnN "Unknown extension message"
handleMessage :: Handler Message
handleMessage KeepAlive = return ()
handleMessage (Status s) = handleStatus s
handleMessage (Available msg) = handleAvailable msg
handleMessage (Transfer msg) = handleTransfer msg
handleMessage (Port n) = undefined
handleMessage (Fast _) = undefined
handleMessage (Extended msg) = handleExtended msg
exchange :: Wire Session ()
exchange = do
waitForMetadata
bf <- getThisBitfield
sendMessage (Bitfield bf)
awaitForever handleMessage
data Event = NewMessage (PeerAddr IP) Message
| Timeout -- for scheduling
type Exchange a = Wire Session a
awaitEvent :: Exchange Event
awaitEvent = undefined
yieldEvent :: Exchange Event
yieldEvent = undefined
|