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{-# LANGUAGE NondecreasingIndentation #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TupleSections #-}
import Control.Arrow;
import Control.Concurrent
import Control.Exception.Lifted as Lifted
import Control.Monad
import Control.Monad.Logger
import Control.Monad.Reader
import Data.Char
import Data.Default
import Data.List as L
import Data.Maybe
import Data.String
import qualified Data.ByteString as B (ByteString,writeFile,readFile)
; import Data.ByteString (ByteString)
import qualified Data.ByteString.Char8 as B8
import System.IO
import System.IO.Error
import Text.PrettyPrint.HughesPJClass
import Text.Printf
import Control.Monad.Reader.Class
import System.Posix.Process (getProcessID)
import Network.BitTorrent.Address
import Network.BitTorrent.DHT
import qualified Network.BitTorrent.DHT.Routing as R
import Network.BitTorrent.DHT.Session
import Network.SocketLike
import Network.StreamServer
mkNodeAddr :: SockAddr -> NodeAddr IPv4
mkNodeAddr addr = NodeAddr (fromJust $ fromSockAddr addr)
(fromMaybe 0 $ sockAddrPort addr) -- FIXME
btBindAddr :: String -> Bool -> IO (NodeAddr IPv4)
btBindAddr s b = mkNodeAddr <$> getBindAddress s b
printReport :: MonadIO m => [(String,String)] -> m ()
printReport kvs = liftIO $ do
putStrLn (showReport kvs)
hFlush stdout
showReport :: [(String,String)] -> String
showReport kvs = do
let colwidth = maximum $ map (length . fst) kvs
(k,v) <- kvs
concat [ printf " %-*s" (colwidth+1) k, v, "\n" ]
showEnry :: Show a => (NodeInfo a, t) -> [Char]
showEnry (n,_) = intercalate " "
[ show $ pPrint (nodeId n)
, show $ nodeAddr n
]
printTable :: DHT IPv4 ()
printTable = do
t <- showTable
liftIO $ do
putStrLn t
hFlush stdout
showTable :: DHT IPv4 String
showTable = do
nodes <- R.toList <$> getTable
return $ showReport
$ map (show *** showEnry)
$ concat $ zipWith map (map (,) [0::Int ..]) nodes
bootstrapNodes :: IO [NodeAddr IPv4]
bootstrapNodes = mapMaybe fromAddr
<$> mapM resolveHostName defaultBootstrapNodes
-- ExtendedCaps (Map.singleton
noDebugPrints :: LogSource -> LogLevel -> Bool
noDebugPrints _ = \case LevelDebug -> False
_ -> True
noLogging :: LogSource -> LogLevel -> Bool
noLogging _ _ = False
resume :: DHT IPv4 (Maybe B.ByteString)
resume = do
restore_attempt <- liftIO $ tryIOError $ B.readFile "dht-nodes.dat"
saved_nodes <-
either (const $ do liftIO $ putStrLn "Error reading dht-nodes.dat"
return Nothing)
(return . Just)
restore_attempt
return saved_nodes
godht :: forall b. (NodeAddr IPv4 -> NodeId -> DHT IPv4 b) -> IO b
godht f = do
a <- btBindAddr "8008" False
dht def { optTimeout = 5 } a noDebugPrints $ do
me0 <- asks tentativeNodeId
printReport [("tentative node-id",show $ pPrint me0)
,("listen-address", show a)
]
f a me0
marshalForClient :: String -> String
marshalForClient s = show (length s) ++ ":" ++ s
hPutClient :: Handle -> String -> IO ()
hPutClient h s = hPutStr h (marshalForClient s)
clientSession :: Node IPv4 -> MVar () -> RestrictedSocket -> Int -> Handle -> IO ()
clientSession st signalQuit sock n h = do
line <- map toLower . dropWhile isSpace <$> hGetLine h
let cmd0 action = action >> clientSession st signalQuit sock n h
cmd action = cmd0 $ join $ runDHT st action
(c,args) = second (dropWhile isSpace) $ break isSpace line
case (c,args) of
("quit", _) -> hPutClient h "" >> hClose h
("stop", _) -> do hPutClient h "Terminating DHT Daemon."
hClose h
putMVar signalQuit ()
("ls", _) -> cmd $ do
tbl <- getTable
t <- showTable
me <- myNodeIdAccordingTo (read "8.8.8.8:6881")
ip <- routableAddress
return $ do
hPutClient h $ unlines
[ t
, showReport
[ ("node-id", show $ pPrint me)
, ("internet address", show ip)
, ("buckets", show $ R.shape tbl)]
]
("external-ip", _) -> cmd $ do
ip <- routableAddress
return $ do
hPutClient h $ maybe "" (takeWhile (/=':') . show) ip
("swarms", s) -> cmd $ do
let fltr = case s of
('-':'v':cs) | all isSpace (take 1 cs)
-> const True
_ -> (\(h,c,n) -> c/=0 )
ss <- getSwarms
let r = map (\(h,c,n) -> (unwords [show h,show c], maybe "" show n))
$ filter fltr ss
return $ do
hPutClient h $ showReport r
("peers", s) -> cmd $ do
let ih = fromString s
ps <- allPeers ih
return $ do
hPutClient h $ showReport $ map (((,) "") . show . pPrint) ps
("pid", _) -> cmd $ return $ do
pid <- getProcessID
hPutClient h (show pid)
_ -> cmd0 $ hPutClient h "error."
main :: IO ()
main = do
godht $ \a me0 -> do
printTable
bs <- liftIO bootstrapNodes
`onException`
(Lifted.ioError $ userError "unable to resolve bootstrap nodes")
saved_nodes <- resume
peers'trial <- liftIO $ tryIOError $ B.readFile "bt-peers.dat"
saved_peers <-
either (const $ do liftIO $ putStrLn "Error reading bt-peers.dat"
return Nothing)
(return . Just)
peers'trial
maybe (return ()) mergeSavedPeers saved_peers
when (isJust saved_nodes) $ do
b <- isBootstrapped
tbl <- getTable
bc <- optBucketCount <$> asks options
printTable
me <- case concat $ R.toList tbl of
(n,_):_ -> myNodeIdAccordingTo (nodeAddr n)
_ -> return me0
printReport [("node-id",show $ pPrint me)
,("listen-address", show a)
,("bootstrapped", show b)
,("buckets", show $ R.shape tbl)
,("optBucketCount", show bc)
,("dht-nodes.dat", "Running bootstrap...")
]
st <- ask
waitForSignal <- liftIO $ do
signalQuit <- newEmptyMVar
srv <- streamServer (withSession $ clientSession st signalQuit) (SockAddrUnix "dht.sock")
return $ liftIO $ do
() <- takeMVar signalQuit
quitListening srv
bootstrap saved_nodes bs
b <- isBootstrapped
tbl <- getTable
bc <- optBucketCount <$> asks options
printTable
ip <- routableAddress
me <- case concat $ R.toList tbl of
(n,_):_ -> myNodeIdAccordingTo (nodeAddr n)
_ -> return me0
printReport [("node-id",show $ pPrint me)
,("internet address", show ip)
,("listen-address", show a)
,("bootstrapped", show b)
,("buckets", show $ R.shape tbl)
,("optBucketCount", show bc)
]
waitForSignal -- Await unix socket to signal termination.
snapshot >>= liftIO . B.writeFile "dht-nodes.dat"
savePeerStore >>= liftIO . B.writeFile "bt-peers.dat"
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