+{-
+ - Copyright (C) 2015-2016 Ramakrishnan Muthukrishnan <ram@rkrishnan.org>
+ -
+ - This file is part of FuncTorrent.
+ -
+ - FuncTorrent is free software; you can redistribute it and/or modify
+ - it under the terms of the GNU General Public License as published by
+ - the Free Software Foundation; either version 3 of the License, or
+ - (at your option) any later version.
+ -
+ - FuncTorrent is distributed in the hope that it will be useful,
+ - but WITHOUT ANY WARRANTY; without even the implied warranty of
+ - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ - GNU General Public License for more details.
+ -
+ - You should have received a copy of the GNU General Public License
+ - along with FuncTorrent; if not, see <http://www.gnu.org/licenses/>
+ -}
+
{-# LANGUAGE OverloadedStrings #-}
+
module FuncTorrent.Peer
- (Peer(..),
- handlePeerMsgs
+ (handlePeerMsgs
) where
-import Prelude hiding (lookup, concat, replicate, splitAt, take)
+import Prelude hiding (lookup, concat, replicate, splitAt, take, drop)
-import System.IO (Handle, BufferMode(..), hSetBuffering)
-import Data.ByteString (ByteString, unpack, concat, hGet, hPut, take, empty)
-import qualified Data.ByteString.Char8 as BC (length)
-import Network (connectTo, PortID(..))
-import Control.Monad (liftM, forM)
+import Control.Monad.State
+import Data.ByteString (ByteString, unpack, concat, hGet, hPut, take, drop, empty)
import Data.Bits
import Data.Word (Word8)
-import Data.Map (Map, fromList, toList, (!), mapWithKey, adjust)
-import qualified Crypto.Hash.SHA1 as SHA1 (hash)
+import Data.Map ((!), adjust)
+import Network (connectTo, PortID(..))
+import System.IO (Handle, BufferMode(..), hSetBuffering, hClose)
-import FuncTorrent.Metainfo (Info(..), Metainfo(..))
-import FuncTorrent.Utils (splitN, splitNum)
-import FuncTorrent.Fileops (createDummyFile, writeFileAtOffset)
+import FuncTorrent.Metainfo (Metainfo(..))
import FuncTorrent.PeerMsgs (Peer(..), PeerMsg(..), sendMsg, getMsg, genHandshakeMsg)
+import FuncTorrent.Utils (splitNum, verifyHash)
+import FuncTorrent.PieceManager (PieceDlState(..), PieceData(..), PieceMap, pickPiece, updatePieceAvailability)
+import qualified FuncTorrent.FileSystem as FS (MsgChannel, writePieceToDisk)
--- 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
-
-
--- 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
+data PState = PState { handle :: Handle
+ , peer :: Peer
+ , meChoking :: Bool
+ , meInterested :: Bool
+ , heChoking :: Bool
+ , heInterested :: Bool}
havePiece :: PieceMap -> Integer -> Bool
havePiece pm index =
- state (pm ! index) == Have
+ dlstate (pm ! index) == Have
connectToPeer :: Peer -> IO Handle
-connectToPeer (Peer _ ip port) = do
+connectToPeer (Peer ip port) = do
h <- connectTo ip (PortNumber (fromIntegral port))
hSetBuffering h LineBuffering
return h
-doHandshake :: Handle -> Peer -> ByteString -> String -> IO ()
-doHandshake h peer infoHash peerid = do
- let hs = genHandshakeMsg infoHash peerid
+doHandshake :: Bool -> Handle -> Peer -> ByteString -> String -> IO ()
+doHandshake True h p infohash peerid = do
+ let hs = genHandshakeMsg infohash peerid
hPut h hs
- putStrLn $ "--> handhake to peer: " ++ show peer
+ putStrLn $ "--> handhake to peer: " ++ show p
_ <- hGet h (length (unpack hs))
- putStrLn $ "<-- handshake from peer: " ++ show peer
+ putStrLn $ "<-- handshake from peer: " ++ show p
return ()
+doHandshake False h p infohash peerid = do
+ let hs = genHandshakeMsg infohash peerid
+ putStrLn "waiting for a handshake"
+ hsMsg <- hGet h (length (unpack hs))
+ putStrLn $ "<-- handshake from peer: " ++ show p
+ let rxInfoHash = take 20 $ drop 28 hsMsg
+ if rxInfoHash /= infohash
+ then do
+ putStrLn "infoHashes does not match"
+ hClose h
+ return ()
+ else do
+ _ <- hPut h hs
+ putStrLn $ "--> handhake to peer: " ++ show p
+ return ()
bitfieldToList :: [Word8] -> [Integer]
bitfieldToList bs = go bs 0
in
setBits ++ go bs' (pos + 1)
--- recvMsg :: Peer -> Handle -> Msg
-msgLoop :: PeerState -> PieceMap -> FilePath -> IO ()
-msgLoop pState@(PeerState { meInterested = False, heChoking = True }) pieceStatus file =
- 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 file
-msgLoop pState@(PeerState { meInterested = True, heChoking = False }) pieceStatus file =
- -- 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 file fileOffset pBS
- msgLoop pState (adjust (\pieceData -> pieceData { state = Have }) workPiece pieceStatus) file
-msgLoop pState pieceStatus file = 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 file
- 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' file
- UnChokeMsg ->
- msgLoop (pState { heChoking = False }) pieceStatus file
- _ ->
- msgLoop pState pieceStatus file
-
--- 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
+-- helper functions to manipulate PeerState
+toPeerState :: Handle
+ -> Peer
+ -> Bool -- ^ meChoking
+ -> Bool -- ^ meInterested
+ -> Bool -- ^ heChoking
+ -> Bool -- ^ heInterested
+ -> PState
+toPeerState h p meCh meIn heCh heIn =
+ PState { handle = h
+ , peer = p
+ , heChoking = heCh
+ , heInterested = heIn
+ , meChoking = meCh
+ , meInterested = meIn }
+
+handlePeerMsgs :: Peer -> String -> Metainfo -> PieceMap -> Bool -> FS.MsgChannel -> IO ()
+handlePeerMsgs p peerId m pieceMap isClient c = do
h <- connectToPeer p
- doHandshake h 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)
- fileName = name (info m)
- pieceStatus = mkPieceMap numPieces pieceHash (splitNum fileLen pLen)
- createDummyFile fileName (fromIntegral fileLen)
- msgLoop state pieceStatus fileName
-
+ doHandshake isClient h p (infoHash m) peerId
+ let pstate = toPeerState h p False False True True
+ _ <- runStateT (msgLoop pieceMap c) pstate
+ return ()
+
+msgLoop :: PieceMap -> FS.MsgChannel -> StateT PState IO ()
+msgLoop pieceStatus msgchannel = do
+ h <- gets handle
+ st <- get
+ case st of
+ PState { meInterested = False, heChoking = True } -> do
+ liftIO $ sendMsg h InterestedMsg
+ gets peer >>= (\p -> liftIO $ putStrLn $ "--> InterestedMsg to peer: " ++ show p)
+ modify (\st' -> st' { meInterested = True })
+ msgLoop pieceStatus msgchannel
+ PState { meInterested = True, heChoking = False } ->
+ case pickPiece pieceStatus of
+ Nothing -> liftIO $ putStrLn "Nothing to download"
+ Just workPiece -> do
+ let pLen = len (pieceStatus ! workPiece)
+ liftIO $ putStrLn $ "piece length = " ++ show pLen
+ pBS <- liftIO $ downloadPiece h workPiece pLen
+ if not $ verifyHash pBS (hash (pieceStatus ! workPiece))
+ then
+ liftIO $ putStrLn "Hash mismatch"
+ else do
+ liftIO $ putStrLn $ "Write piece: " ++ show workPiece
+ liftIO $ FS.writePieceToDisk msgchannel workPiece pBS
+ msgLoop (adjust (\pieceData -> pieceData { dlstate = Have }) workPiece pieceStatus) msgchannel
+ _ -> do
+ msg <- liftIO $ getMsg h
+ gets peer >>= (\p -> liftIO $ putStrLn $ "<-- " ++ show msg ++ " from peer: " ++ show p)
+ case msg of
+ KeepAliveMsg -> do
+ liftIO $ sendMsg h KeepAliveMsg
+ gets peer >>= (\p -> liftIO $ putStrLn $ "--> " ++ "KeepAliveMsg to peer: " ++ show p)
+ msgLoop pieceStatus msgchannel
+ BitFieldMsg bss -> do
+ p <- gets peer
+ let pieceList = bitfieldToList (unpack bss)
+ pieceStatus' = updatePieceAvailability pieceStatus p pieceList
+ liftIO $ 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 pieceStatus' msgchannel
+ UnChokeMsg -> do
+ modify (\st' -> st' {heChoking = False })
+ msgLoop pieceStatus msgchannel
+ ChokeMsg -> do
+ modify (\st' -> st' {heChoking = True })
+ msgLoop pieceStatus msgchannel
+ InterestedMsg -> do
+ modify (\st' -> st' {heInterested = True})
+ msgLoop pieceStatus msgchannel
+ NotInterestedMsg -> do
+ modify (\st' -> st' {heInterested = False})
+ msgLoop pieceStatus msgchannel
+ CancelMsg {} -> -- check if valid index, begin, length
+ msgLoop pieceStatus msgchannel
+ PortMsg _ ->
+ msgLoop pieceStatus msgchannel
+ HaveMsg idx -> do
+ p <- gets peer
+ let pieceStatus' = updatePieceAvailability pieceStatus p [idx]
+ msgLoop pieceStatus' msgchannel
+ _ -> do
+ liftIO $ putStrLn ".. not doing anything with the msg"
+ msgLoop pieceStatus msgchannel
+ -- No need to handle PieceMsg and RequestMsg here.
+
+
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
+ concat `liftM` 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: " ++ show msg
+ return empty)
+