+{-# LANGUAGE OverloadedStrings #-}
module FuncTorrent.Peer
- (Peer,
- PeerResp(..),
- getPeers,
- getPeerResponse,
- handShakeMsg
+ (Peer(..),
+ handlePeerMsgs
) where
-import Prelude hiding (lookup, concat, replicate, splitAt)
-import Data.ByteString.Char8 (ByteString, pack, unpack, concat, replicate, splitAt)
-import Data.ByteString.Lazy (toChunks)
-import Data.Int (Int8)
-import Data.List (intercalate)
-import Data.Map as M ((!), lookup)
-import qualified Data.Binary as Bin (encode)
-import qualified Data.ByteString.Base16 as B16 (encode)
+import Prelude hiding (lookup, concat, replicate, splitAt, take)
-import FuncTorrent.Bencode (BVal(..), InfoDict, decode)
-import FuncTorrent.Tracker (infoHash)
-import FuncTorrent.Utils (splitN)
+import System.IO (Handle, BufferMode(..), hSetBuffering)
+import Data.ByteString (ByteString, pack, unpack, concat, hGet, hPut, singleton, take, empty)
+import Data.ByteString.Lazy (fromStrict, fromChunks, toStrict)
+import qualified Data.ByteString.Char8 as BC (replicate, pack, length)
+import Network (connectTo, PortID(..))
+import Data.Binary (Binary(..), decode, encode)
+import Data.Binary.Put (putWord32be, putWord16be, putWord8)
+import Data.Binary.Get (getWord32be, getWord16be, getWord8, runGet)
+import Control.Monad (replicateM, liftM, forM)
+import Control.Applicative ((<$>), liftA3)
+import Data.Bits
+import Data.Word (Word8)
+import Data.Map (Map, fromList, toList, (!), mapWithKey, adjust)
+import qualified Crypto.Hash.SHA1 as SHA1 (hash)
+import FuncTorrent.Metainfo (Info(..), Metainfo(..))
+import FuncTorrent.Utils (splitN, splitNum)
+import FuncTorrent.Fileops (createDummyFile, writeFileAtOffset)
-type Address = String
+type ID = String
+type IP = String
type Port = Integer
-data Peer = Peer Address Port
- deriving (Show)
-
-data PeerResp = PeerResponse { interval :: Maybe Integer
- , peers :: [Peer]
- , complete :: Maybe Integer
- , incomplete :: Maybe Integer
- } deriving (Show)
-
-toInt :: String -> Integer
-toInt = read
-
-getPeers :: PeerResp -> [Peer]
-getPeers = peers
-
-getPeerResponse :: ByteString -> PeerResp
-getPeerResponse body = case decode body of
- Right (Bdict peerM) ->
- let (Just (Bint i)) = lookup (Bstr (pack "lookup")) peerM
- (Bstr peersBS) = peerM ! Bstr (pack "peers")
- pl = map (\peer -> let (ip', port') = splitAt 4 peer
- in Peer (toIPNum ip') (toPortNum port'))
- (splitN 6 peersBS)
- in PeerResponse { interval = Just i
- , peers = pl
- , complete = Nothing
- , incomplete = Nothing
- }
- where toPortNum = read . ("0x" ++) . unpack . B16.encode
- toIPNum = intercalate "." .
- map (show . toInt . ("0x" ++) . unpack) .
- splitN 2 . B16.encode
-
- _ -> PeerResponse { interval = Nothing
- , peers = []
- , complete = Nothing
- , incomplete = Nothing
- }
-
-
-handShakeMsg :: InfoDict -> String -> ByteString
-handShakeMsg m peer_id = let pstrlen = concat $ toChunks $ Bin.encode (19 :: Int8)
- pstr = pack "BitTorrent protocol"
- reserved = replicate 8 '\0'
- infoH = infoHash m
- peerID = pack peer_id
- in concat [pstrlen, pstr, reserved, infoH, peerID]
+-- PeerState is a misnomer
+data PeerState = PeerState { handle :: Handle
+ , peer :: Peer
+ , meChoking :: Bool
+ , meInterested :: Bool
+ , heChoking :: Bool
+ , heInterested :: Bool}
+
+data PieceDlState = Pending
+ | InProgress
+ | Have
+ deriving (Show, Eq)
+
+-- todo - map with index to a new data structure (peers who have that piece amd state)
+data PieceData = PieceData { peers :: [Peer] -- ^ list of peers who have this piece
+ , state :: PieceDlState -- ^ state of the piece from download perspective.
+ , hash :: ByteString -- ^ piece hash
+ , len :: Integer } -- ^ piece length
+
+-- which piece is with which peers
+type PieceMap = Map Integer PieceData
+
+-- | Peer is a PeerID, IP address, port tuple
+data Peer = Peer ID IP Port
+ deriving (Show, Eq)
+
+data PeerMsg = KeepAliveMsg
+ | ChokeMsg
+ | UnChokeMsg
+ | InterestedMsg
+ | NotInterestedMsg
+ | HaveMsg Integer
+ | BitFieldMsg ByteString
+ | RequestMsg Integer Integer Integer
+ | PieceMsg Integer Integer ByteString
+ | CancelMsg Integer Integer Integer
+ | PortMsg Port
+ deriving (Show)
+
+-- Make the initial Piece map, with the assumption that no peer has the
+-- piece and that every piece is pending download.
+mkPieceMap :: Integer -> ByteString -> [Integer] -> PieceMap
+mkPieceMap numPieces pieceHash pLengths = fromList kvs
+ where kvs = [(i, PieceData { peers = []
+ , state = Pending
+ , hash = h
+ , len = pLen })
+ | (i, h, pLen) <- zip3 [0..numPieces] hashes pLengths]
+ hashes = splitN 20 pieceHash
+
+havePiece :: PieceMap -> Integer -> Bool
+havePiece pm index =
+ state (pm ! index) == Have
+
+genHandShakeMsg :: ByteString -> String -> ByteString
+genHandShakeMsg infoHash peer_id = concat [pstrlen, pstr, reserved, infoHash, peerID]
+ where pstrlen = singleton 19
+ pstr = BC.pack "BitTorrent protocol"
+ reserved = BC.replicate 8 '\0'
+ peerID = BC.pack peer_id
+
+handShake :: Peer -> ByteString -> String -> IO Handle
+handShake peer@(Peer _ ip port) infoHash peerid = do
+ let hs = genHandShakeMsg infoHash peerid
+ h <- connectTo ip (PortNumber (fromIntegral port))
+ hSetBuffering h LineBuffering
+ hPut h hs
+ putStrLn $ "--> handhake to peer: " ++ show peer
+ _ <- hGet h (length (unpack hs))
+ putStrLn $ "<-- handshake from peer: " ++ show peer
+ return h
+
+instance Binary PeerMsg where
+ put msg = case msg of
+ KeepAliveMsg -> putWord32be 0
+ ChokeMsg -> do putWord32be 1
+ putWord8 0
+ UnChokeMsg -> do putWord32be 1
+ putWord8 1
+ InterestedMsg -> do putWord32be 1
+ putWord8 2
+ NotInterestedMsg -> do putWord32be 1
+ putWord8 3
+ HaveMsg i -> do putWord32be 5
+ putWord8 4
+ putWord32be (fromIntegral i)
+ BitFieldMsg bf -> do putWord32be $ fromIntegral (1 + bfListLen)
+ putWord8 5
+ mapM_ putWord8 bfList
+ where bfList = unpack bf
+ bfListLen = length bfList
+ RequestMsg i o l -> do putWord32be 13
+ putWord8 6
+ putWord32be (fromIntegral i)
+ putWord32be (fromIntegral o)
+ putWord32be (fromIntegral l)
+ PieceMsg i o b -> do putWord32be $ fromIntegral (9 + blocklen)
+ putWord8 7
+ putWord32be (fromIntegral i)
+ putWord32be (fromIntegral o)
+ mapM_ putWord8 blockList
+ where blockList = unpack b
+ blocklen = length blockList
+ CancelMsg i o l -> do putWord32be 13
+ putWord8 8
+ putWord32be (fromIntegral i)
+ putWord32be (fromIntegral o)
+ putWord32be (fromIntegral l)
+ PortMsg p -> do putWord32be 3
+ putWord8 9
+ putWord16be (fromIntegral p)
+ get = do
+ l <- getWord32be
+ msgid <- getWord8
+ case msgid of
+ 0 -> return ChokeMsg
+ 1 -> return UnChokeMsg
+ 2 -> return InterestedMsg
+ 3 -> return NotInterestedMsg
+ 4 -> liftM (HaveMsg . fromIntegral) getWord32be
+ 5 -> liftM (BitFieldMsg . pack) (replicateM (fromIntegral l - 1) getWord8)
+ 6 -> liftA3 RequestMsg getInteger getInteger getInteger
+ where getInteger = fromIntegral <$> getWord32be
+ 7 -> liftA3 PieceMsg getInteger getInteger (pack <$> replicateM (fromIntegral l - 9) getWord8)
+ where getInteger = fromIntegral <$> getWord32be
+ 8 -> liftA3 CancelMsg getInteger getInteger getInteger
+ where getInteger = fromIntegral <$> getWord32be
+ 9 -> liftM (PortMsg . fromIntegral) getWord16be
+ _ -> error ("unknown message ID: " ++ show msgid)
+
+getMsg :: Handle -> IO PeerMsg
+getMsg h = do
+ lBS <- hGet h 4
+ let l = bsToInt lBS
+ if l == 0
+ then return KeepAliveMsg
+ else do
+ msg <- hGet h l
+ return $ decode $ fromStrict $ concat [lBS, msg]
+
+sendMsg :: Handle -> PeerMsg -> IO ()
+sendMsg h msg =
+ let bsMsg = toStrict $ encode msg
+ in
+ hPut h bsMsg
+
+bsToInt :: ByteString -> Int
+bsToInt x = fromIntegral (runGet getWord32be (fromChunks (return x)))
+
+bitfieldToList :: [Word8] -> [Integer]
+bitfieldToList bs = go bs 0
+ where go [] _ = []
+ go (b:bs') pos =
+ let setBits = [pos*8 + toInteger i | i <- [0..8], testBit b i]
+ in
+ setBits ++ go bs' (pos + 1)
+
+-- recvMsg :: Peer -> Handle -> Msg
+msgLoop :: PeerState -> PieceMap -> IO ()
+msgLoop pState pieceStatus | not (meInterested pState) && heChoking pState = do
+ -- if me NOT Interested and she is Choking, tell her that
+ -- I am interested.
+ let h = handle pState
+ sendMsg h InterestedMsg
+ putStrLn $ "--> InterestedMsg to peer: " ++ show (peer pState)
+ msgLoop (pState { meInterested = True }) pieceStatus
+ | meInterested pState && not (heChoking pState) =
+ -- if me Interested and she not Choking, send her a request
+ -- for a piece.
+ case pickPiece pieceStatus of
+ Nothing -> putStrLn "Nothing to download"
+ Just workPiece -> do
+ let pLen = len (pieceStatus ! workPiece)
+ putStrLn $ "piece length = " ++ show pLen
+ pBS <- downloadPiece (handle pState) workPiece pLen
+ if not $ verifyHash pBS (hash (pieceStatus ! workPiece))
+ then
+ putStrLn $ "Hash mismatch: " ++ show (hash (pieceStatus ! workPiece)) ++ " vs " ++ show (take 20 (SHA1.hash pBS))
+ else do
+ let fileOffset = if workPiece == 0 then 0 else workPiece * len (pieceStatus ! (workPiece - 1))
+ putStrLn $ "Write into file at offset: " ++ show fileOffset
+ writeFileAtOffset "/tmp/download.file" fileOffset pBS
+ msgLoop pState (adjust (\pieceData -> pieceData { state = Have }) workPiece pieceStatus)
+ | otherwise = do
+ msg <- getMsg (handle pState)
+ putStrLn $ "<-- " ++ show msg ++ "from peer: " ++ show (peer pState)
+ case msg of
+ KeepAliveMsg -> do
+ sendMsg (handle pState) KeepAliveMsg
+ putStrLn $ "--> " ++ "KeepAliveMsg to peer: " ++ show (peer pState)
+ msgLoop pState pieceStatus
+ BitFieldMsg bss -> do
+ let pieceList = bitfieldToList (unpack bss)
+ pieceStatus' = updatePieceAvailability pieceStatus (peer pState) pieceList
+ putStrLn $ show (length pieceList) ++ " Pieces"
+ -- for each pieceIndex in pieceList, make an entry in the pieceStatus
+ -- map with pieceIndex as the key and modify the value to add the peer.
+ -- download each of the piece in order
+ msgLoop pState pieceStatus'
+ UnChokeMsg ->
+ msgLoop (pState { heChoking = False }) pieceStatus
+ _ ->
+ msgLoop pState pieceStatus
+
+-- simple algorithm to pick piece.
+-- pick the first piece from 0 that is not downloaded yet.
+pickPiece :: PieceMap -> Maybe Integer
+pickPiece m =
+ let pieceList = toList m
+ allPending = filter (\(_, v) -> state v == Pending) pieceList
+ in
+ case allPending of
+ [] -> Nothing
+ ((i, _):_) -> Just i
+
+updatePieceAvailability :: PieceMap -> Peer -> [Integer] -> PieceMap
+updatePieceAvailability pieceStatus p pieceList =
+ mapWithKey (\k pd -> if k `elem` pieceList
+ then (pd { peers = p : peers pd })
+ else pd) pieceStatus
+
+handlePeerMsgs :: Peer -> Metainfo -> String -> IO ()
+handlePeerMsgs p m peerId = do
+ h <- handShake p (infoHash m) peerId
+ let state = PeerState { handle = h
+ , peer = p
+ , heInterested = False
+ , heChoking = True
+ , meInterested = False
+ , meChoking = True }
+ pieceHash = pieces (info m)
+ numPieces = (toInteger . (`quot` 20) . BC.length) pieceHash
+ pLen = pieceLength (info m)
+ fileLen = lengthInBytes (info m)
+ pieceStatus = mkPieceMap numPieces pieceHash (splitNum fileLen pLen)
+ createDummyFile "/tmp/download.file" (fromIntegral fileLen)
+ msgLoop state pieceStatus
+
+downloadPiece :: Handle -> Integer -> Integer -> IO ByteString
+downloadPiece h index pieceLength = do
+ let chunks = splitNum pieceLength 16384
+ liftM concat $ forM (zip [0..] chunks) (\(i, pLen) -> do
+ sendMsg h (RequestMsg index (i*pLen) pLen)
+ putStrLn $ "--> " ++ "RequestMsg for Piece "
+ ++ show index ++ ", part: " ++ show i ++ " of length: "
+ ++ show pLen
+ msg <- getMsg h
+ case msg of
+ PieceMsg index begin block -> do
+ putStrLn $ " <-- PieceMsg for Piece: "
+ ++ show index
+ ++ ", offset: "
+ ++ show begin
+ return block
+ _ -> do
+ putStrLn "ignoring irrelevant msg"
+ return empty)
+
+verifyHash :: ByteString -> ByteString -> Bool
+verifyHash bs pieceHash =
+ take 20 (SHA1.hash bs) == pieceHash