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{-# LANGUAGE NondecreasingIndentation #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TupleSections #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE PartialTypeSignatures #-}
{-# LANGUAGE CPP #-}
import Control.Arrow
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.Set as Set
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 Text.Read
import Control.Monad.Reader.Class
import System.Posix.Process (getProcessID)
import GHC.Stats
import System.Mem
import Data.Torrent (InfoHash)
import Network.BitTorrent.Address
import Network.BitTorrent.DHT
import Network.BitTorrent.DHT.Search
import Network.BitTorrent.DHT.Query
import Network.BitTorrent.DHT.Message (FindNode(..),NodeFound(..),GetPeers(..),GotPeers(..))
import Network.DatagramServer (QueryFailure(..))
import Network.DatagramServer.Mainline (ReflectedIP(..),KMessageOf)
import qualified Network.BitTorrent.DHT.Routing as R
import Network.BitTorrent.DHT.Session
import Network.SocketLike
import Network.StreamServer
import Control.Exception.Lifted as Lifted
#ifdef THREAD_DEBUG
import Control.Concurrent.Lifted.Instrument
import Data.Time ()
import Data.Time.Clock
#else
import Control.Concurrent
#endif
import Control.Concurrent.STM
import System.Environment
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 KMessageOf 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
LevelOther _ -> False
_ -> True
noLogging :: LogSource -> LogLevel -> Bool
noLogging _ _ = False
allNoise :: LogSource -> LogLevel -> Bool
allNoise _ _ = True
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 :: String -> (NodeAddr IPv4 -> NodeId _ -> DHT IPv4 b) -> IO b
godht p f = do
a <- btBindAddr p 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)
hPutClientChunk :: Handle -> String -> IO ()
hPutClientChunk 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 $ case readEither s of
Right ih -> do
ps <- allPeers ih
seq ih $ return $ do
hPutClient h $ showReport $ map (((,) "") . show . pPrint) ps
Left er -> return $ hPutClient h er
("pid", _) -> cmd $ return $ do
pid <- getProcessID
hPutClient h (show pid)
#ifdef THREAD_DEBUG
("threads", _) -> cmd $ return $ do
ts <- threadsInformation
tm <- getCurrentTime
let r = map (\PerThread{..} -> (show lbl,show (diffUTCTime tm startTime))) ts
hPutClient h $ showReport r
("mem", s) -> cmd $ return $ do
case s of
"gc" -> do hPutClient h "Performing garbage collection..."
performMajorGC
"" -> do
is_enabled <- getGCStatsEnabled
if is_enabled
then do
GCStats{..} <- getGCStats
let r = [ ("bytesAllocated", show bytesAllocated)
, ("numGcs", show numGcs)
, ("maxBytesUsed", show maxBytesUsed)
, ("numByteUsageSamples", show numByteUsageSamples)
, ("cumulativeBytesUsed", show cumulativeBytesUsed)
, ("bytesCopied", show bytesCopied)
, ("currentBytesUsed", show currentBytesUsed)
, ("currentBytesSlop", show currentBytesSlop)
, ("maxBytesSlop", show maxBytesSlop)
, ("peakMegabytesAllocated", show peakMegabytesAllocated)
, ("mutatorCpuSeconds", show mutatorCpuSeconds)
, ("mutatorWallSeconds", show mutatorWallSeconds)
, ("gcCpuSeconds", show gcCpuSeconds)
, ("gcWallSeconds", show gcWallSeconds)
, ("cpuSeconds", show cpuSeconds)
, ("wallSeconds", show wallSeconds)
, ("parTotBytesCopied", show parTotBytesCopied)
, ("parMaxBytesCopied", show parMaxBytesCopied)
]
hPutClient h $ showReport r
else hPutClient h "Run with +RTS -T to obtain live memory-usage information."
_ -> hPutClient h "error."
#endif
("closest", s) -> cmd $ do
let (ns,hs) = second (dropWhile isSpace) $ break isSpace s
parse | null hs = do
ih <- readEither ns
return (8 :: Int, ih :: InfoHash)
| otherwise = do
n <- readEither ns
ih <- readEither hs
return (n :: Int, ih :: InfoHash)
case parse of
Right (n,ih) -> do
tbl <- getTable
let nodes = R.kclosest n ih tbl
return $ do
hPutClient h $ unlines $ map (showEnry . (flip (,) 0)) nodes
Left er -> return $ hPutClient h er
("ping", s) -> cmd $ do
case readEither s of
Right addr -> do result <- try $ pingQ addr
let rs = either (pure . showQueryFail) reportPong result
return $ do
hPutClient h $ unlines rs
Left er -> return $ hPutClient h er
("find-nodes", s) -> cmd $ do
let (hs,as) = second (dropWhile isSpace) $ break isSpace s
parse = do ih <- readEither hs
a <- readEither as
-- XXX: using 'InfoHash' only because 'NodeId' currently
-- has no 'Read' instance.
return (ih :: InfoHash, a :: NodeAddr IPv4)
case parse of
Right (ih,a) -> do
result <- try $ queryNode' (a ::NodeAddr IPv4) $ FindNode (R.toNodeId ih)
let rs = either (pure . showQueryFail) reportNodes result
return $ do
hPutClient h $ unlines rs
Left er -> return $ hPutClient h er
("get-peers", s) -> cmd $ do
let (hs,as) = second (dropWhile isSpace) $ break isSpace s
parse = do ih <- readEither hs
a <- readEither as
return (ih :: InfoHash, a :: NodeAddr IPv4)
case parse of
Right (ih,a) -> do
result <- try $ queryNode' (a ::NodeAddr IPv4) $ GetPeers ih
let rs = either (pure . ( (,) "error" ) . showQueryFail) reportPeers result
return $ do
hPutClient h $ showReport rs
Left er -> return $ hPutClient h er
("search-peers", s) -> cmd $ do
case readEither s of
Right ih -> do
(tid, s) <- isearch ioGetPeers ih
flip fix Set.empty $ \again shown -> do
(chk,fin) <- liftIO . atomically $ do
r <- (Set.\\ shown) <$> readTVar (searchResults s)
if not $ Set.null r
then (,) r <$> searchIsFinished s
else searchIsFinished s >>= check >> return (Set.empty,True)
let ps = case Set.toList chk of
[] -> ""
_ -> unlines $ map (show . pPrint) $ Set.toList chk
if fin then return $ hPutClient h ps
else do
liftIO $ hPutClientChunk h ps
again (shown `Set.union` chk)
Left er -> return $ hPutClient h er
_ -> cmd0 $ hPutClient h "error."
defaultPort = error "TODO defaultPort"
showQueryFail :: QueryFailure -> String
showQueryFail e = show e
consip (ReflectedIP ip) xs = ("(external-ip " ++ show ip ++ ")") : xs
consip' (ReflectedIP ip) xs = ("to", show ip) : xs
reportPong (info,myip) = maybe id consip myip [show $ pPrint info]
reportNodes :: (NodeId _, NodeFound IPv4, Maybe ReflectedIP) -> [String]
reportNodes (nid,NodeFound ns,myip) = maybe id consip myip $ show (pPrint nid) : map (show . pPrint) ns
reportPeers :: (NodeId _, GotPeers IPv4, Maybe ReflectedIP) -> [(String,String)]
reportPeers (nid,GotPeers r tok,myip)
= maybe id consip' myip $ ("from", show (pPrint nid))
: ("token", show tok)
: case r of
Right ps -> map ( ( (,) "peer" ) . show . pPrint ) ps
Left ns -> map ( ( (,) "node" ) . show . pPrint ) ns
main :: IO ()
main = do
args <- getArgs
p <- case take 2 (dropWhile (/="-p") args) of
["-p",port] | not ("-" `isPrefixOf` port) -> return port
("-p":_) -> error "Port not specified! (-p PORT)"
_ -> defaultPort
godht p $ \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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