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|
{-# LANGUAGE CPP #-}
{-# LANGUAGE ExistentialQuantification #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE NamedFieldPuns #-}
{-# LANGUAGE NondecreasingIndentation #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE PartialTypeSignatures #-}
{-# LANGUAGE PatternSynonyms #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TupleSections #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
import Control.Arrow
import Control.Concurrent.STM
import Control.DeepSeq
import Control.Exception
import Control.Monad
import Data.Char
import Data.Hashable
import Data.List
import qualified Data.Map.Strict as Map
import Data.Maybe
import qualified Data.Set as Set
import Data.Time.Clock
import GHC.Conc (threadStatus,ThreadStatus(..))
import GHC.Stats
import Network.Socket
import System.Environment
import System.IO
import System.Mem
import System.Posix.Process
import Text.PrettyPrint.HughesPJClass
import Text.Printf
import Text.Read
#ifdef THREAD_DEBUG
import Control.Concurrent.Lifted.Instrument
#else
import Control.Concurrent.Lifted
import GHC.Conc (labelThread)
#endif
import Network.UPNP as UPNP
import Network.Address hiding (NodeId, NodeInfo(..))
import Network.Kademlia.Search
import Network.QueryResponse
import Network.StreamServer
import Network.Kademlia
import qualified Network.BitTorrent.MainlineDHT as Mainline
import qualified Network.Tox as Tox
import Network.Kademlia.Routing as R
import Data.Aeson as J (ToJSON, FromJSON)
import qualified Data.Aeson as J
import qualified Data.ByteString.Lazy as L
import Control.Concurrent.Tasks
import System.IO.Error
import qualified Data.Serialize as S
import Network.BitTorrent.DHT.ContactInfo as Peers
import qualified Data.MinMaxPSQ as MM
import Data.Wrapper.PSQ as PSQ (pattern (:->))
import qualified Data.Wrapper.PSQ as PSQ
import Data.Ord
import Data.Time.Clock.POSIX
import qualified Network.Tox.DHT.Transport as Tox
import qualified Network.Tox.DHT.Handlers as Tox
import qualified Network.Tox.Onion.Handlers as Tox
import Data.Typeable
showReport :: [(String,String)] -> String
showReport kvs = showColumns $ map (\(x,y)->[x,y]) kvs
showColumns :: [[[Char]]] -> [Char]
showColumns rows = do
let cols = transpose rows
ws = map (maximum . map (succ . length)) cols
fs <- rows
_ <- take 1 fs -- Guard against empty rows so that 'last' is safe.
" " ++ concat (zipWith (printf "%-*s") (init ws) (init fs)) ++ last fs ++ "\n"
marshalForClient :: String -> String
marshalForClient s = show (length s) ++ ":" ++ s
-- | Writes a message and signals ready for next command.
hPutClient :: Handle -> String -> IO ()
hPutClient h s = hPutStr h ('.' : marshalForClient s)
-- | Writes message, but signals there is more to come.
hPutClientChunk :: Handle -> String -> IO ()
hPutClientChunk h s = hPutStr h (' ' : marshalForClient s)
data DHTQuery nid ni = forall addr r tok.
( Ord addr
, Typeable r
)=> DHTQuery
{ qsearch :: Search nid addr tok ni r
, qhandler :: ni -> nid -> IO ([ni], [r], tok)
, qshowR :: r -> String
, qshowTok :: tok -> Maybe String
}
data DHTSearch nid ni = forall addr tok r. DHTSearch
{ searchThread :: ThreadId
, searchState :: SearchState nid addr tok ni r
, searchShowTok :: tok -> Maybe String
, searchResults :: TVar (Set.Set String)
}
data DHT = forall nid ni. ( Show ni
, Read ni
, ToJSON ni
, FromJSON ni
, Ord ni
, Hashable ni
, Show nid
, Ord nid
, Hashable nid
, Typeable ni
, S.Serialize nid
) =>
DHT
{ dhtBuckets :: TVar (BucketList ni)
, dhtPing :: ni -> IO Bool
, dhtQuery :: Map.Map String (DHTQuery nid ni)
, dhtParseId :: String -> Either String nid
, dhtSearches :: TVar (Map.Map (String,nid) (DHTSearch nid ni))
, dhtFallbackNodes :: IO [ni]
}
nodesFileName :: String -> String
nodesFileName netname = netname ++ "-nodes.json"
saveNodes :: String -> DHT -> IO ()
saveNodes netname DHT{dhtBuckets} = do
bkts <- atomically $ readTVar dhtBuckets
let ns = map fst $ concat $ R.toList bkts
bs = J.encode ns
fname = nodesFileName netname
L.writeFile fname bs
loadNodes :: FromJSON ni => String -> IO [ni]
loadNodes netname = do
let fname = nodesFileName netname
attempt <- tryIOError $ do
J.decode <$> L.readFile fname
>>= maybe (ioError $ userError "Nothing") return
either (const $ return []) return attempt
pingNodes :: String -> DHT -> IO Bool
pingNodes netname DHT{dhtPing} = do
let fname = nodesFileName netname
attempt <- tryIOError $ do
J.decode <$> L.readFile fname
>>= maybe (ioError $ userError "Nothing") return
case attempt of
Left _ -> return False
Right ns -> do fork $ do
myThreadId >>= flip labelThread ("pinging."++fname)
putStrLn $ "Forked "++show fname
withTaskGroup ("withTaskGroup."++fname) 10 $ \g -> do
mapM_ (\n -> forkTask g (show n) $ void $ dhtPing n)
(ns `asTypeOf` [])
putStrLn $ "Load finished "++show fname
return True
reportTable :: Show ni => BucketList ni -> [(String,String)]
reportTable bkts = map (show *** show . fst)
$ concat
$ zipWith map (map (,) [0::Int ..])
$ R.toList
$ bkts
reportResult ::
String
-> (r -> String)
-> (tok -> Maybe String)
-> (ni -> String)
-> Handle
-> Either String ([ni],[r],tok)
-> IO ()
reportResult meth showR showTok showN h (Left e) = hPutClient h e
reportResult meth showR showTok showN h (Right (ns,rs,tok)) = do
hPutClient h $ showReport report
where
report = intercalate [("","")] [ tok_r , node_r , result_r ]
tok_r = maybe [] (pure . ("token:",)) $ showTok tok
node_r = map ( ("n",) . showN ) ns
result_r | (meth=="node") = []
| otherwise = map ( (take 1 meth,) . showR ) rs
-- example:
-- * 10 peer 141d6c6ee2810f46d28bbe8373d4f454a4122535
-- - 1 peer 141d6c6ee2810f46d28bbe8373d4f454a4122535
-- 22 node 141d6c6ee2810f46d28bbe8373d4f454a4122535
--
-- key: '*' in progress
-- '-' stopped
-- ' ' finished
showSearches :: ( Show nid
, Ord nid
, Hashable nid
, Ord ni
, Hashable ni
) => Map.Map (String,nid) (DHTSearch nid ni) -> IO String
showSearches searches = do
tups <- forM (Map.toList searches) $ \((meth,nid),DHTSearch{..}) -> do
(is'fin, cnt) <- atomically $
(,) <$> searchIsFinished searchState
<*> (Set.size <$> readTVar searchResults)
tstat <- threadStatus searchThread
let stat = case tstat of
_ | is'fin -> ' '
ThreadFinished -> '-'
ThreadDied -> '-'
_ -> '*'
return (stat,show cnt,meth,show nid)
let cnt'width = maximum $ map (\(_,cnt,_,_)->length cnt) tups
mth'width = maximum $ map (\(_,_,mth,_)->length mth) tups
return $ do -- List monad.
(stat,cnt,meth,nid) <- tups
printf " %c %-*s %-*s %s\n" stat cnt'width cnt mth'width meth nid
forkSearch ::
( Ord nid
, Hashable nid
, Ord ni
, Hashable ni
, Show nid
) =>
String
-> nid
-> DHTQuery nid ni
-> TVar (Map.Map (String,nid) (DHTSearch nid ni))
-> TVar (BucketList ni)
-> ThreadId
-> TVar (Maybe (IO ()))
-> STM ()
forkSearch method nid DHTQuery{qsearch,qshowTok,qshowR} dhtSearches dhtBuckets tid kvar = do
ns <- R.kclosest (searchSpace qsearch) searchK nid <$> readTVar dhtBuckets
st <- newSearch qsearch nid ns
results <- newTVar Set.empty
let storeResult r = modifyTVar' results (Set.insert (qshowR r))
>> return True
new = DHTSearch
{ searchThread = tid
, searchState = st
, searchShowTok = qshowTok
, searchResults = results
}
modifyTVar' dhtSearches $ Map.insert (method,nid) new
writeTVar kvar $ Just $ searchLoop qsearch nid storeResult st
reportSearchResults :: (Show t, Ord t1, Ord t, Hashable t) =>
String -> Handle -> DHTSearch t1 t -> IO ()
reportSearchResults meth h DHTSearch{searchShowTok,searchState,searchResults} = do
(ns,rs) <- atomically $ do
mm <- readTVar $ searchInformant searchState
rset <- readTVar searchResults
let ns = map (\(MM.Binding ni tok _) -> (ni,tok))
$ MM.toList mm
rs = Set.toList rset
return (ns,rs)
let n'width = succ $ maximum $ map (length . show . fst) ns
showN (n,tok) = take n'width (show n ++ repeat ' ') ++ (fromMaybe "" $ searchShowTok tok)
ns' = map showN ns
reportResult meth id (const Nothing) id h (Right (ns',rs,()))
data Session = Session
{ netname :: String
, dhts :: Map.Map String DHT
, externalAddresses :: IO [SockAddr]
, swarms :: Mainline.SwarmsDatabase
, toxkeys :: TVar Tox.AnnouncedKeys
, signalQuit :: MVar ()
}
clientSession :: Session -> t1 -> t -> Handle -> IO ()
clientSession s@Session{..} sock cnum h = do
line <- map toLower . dropWhile isSpace <$> hGetLine h
let (c,args) = second (dropWhile isSpace) $ break isSpace line
cmd0 :: IO () -> IO ()
cmd0 action = action >> clientSession s sock cnum h
switchNetwork dest = do hPutClient h ("Network: "++dest)
clientSession s{netname=dest} sock cnum h
case (c,args) of
("stop", _) -> do hPutClient h "Terminating DHT Daemon."
hClose h
putMVar signalQuit ()
("quit", _) -> hPutClient h "" >> hClose h
("pid", _) -> cmd0 $ do
pid <- getProcessID
hPutClient h (show pid)
("external-ip", _) -> cmd0 $ do
unlines . map (either show show . either4or6) <$> externalAddresses
>>= hPutClient h
#ifdef THREAD_DEBUG
("threads", _) -> cmd0 $ do
ts <- threadsInformation
tm <- getCurrentTime
r <- forM ts $ \(tid,PerThread{..}) -> do
stat <- threadStatus tid
let showStat (ThreadBlocked reason) = show reason
showStat stat = show stat
return [show lbl,show (diffUTCTime tm startTime),showStat stat]
hPutClient h $ showColumns r
#endif
("mem", s) -> cmd0 $ 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."
("ls", _) | Just DHT{dhtBuckets} <- Map.lookup netname dhts
-> cmd0 $ do
bkts <- atomically $ readTVar dhtBuckets
let r = reportTable bkts
hPutClient h $
showReport $
r ++ [ ("buckets", show $ R.shape bkts)
, ("node-id", show $ thisNode bkts)
, ("network", netname) ]
("ping", s) | Just DHT{dhtPing} <- Map.lookup netname dhts
-> cmd0 $ do
case readEither s of
Right addr -> do result <- dhtPing addr
let rs = [" ", show result]
hPutClient h $ unlines rs
Left er -> hPutClient h er
("g", s) | Just DHT{..} <- Map.lookup netname dhts
-> cmd0 $ do
-- arguments: method
-- nid
-- (optional dest-ni)
self <- atomically $ thisNode <$> readTVar dhtBuckets
let (method,xs) = break isSpace $ dropWhile isSpace s
(nidstr,ys) = break isSpace $ dropWhile isSpace xs
destination = dropWhile isSpace ys
goQuery qry = either (hPutClient h . ("Bad search target: "++))
(goTarget qry)
$ dhtParseId nidstr
goTarget DHTQuery{..} nid =
go nid >>= reportResult method qshowR qshowTok show h
where
go | null destination = fmap Right . qhandler self
| otherwise = case readEither destination of
Right ni -> fmap (maybe (Left "Timeout.") Right)
. flip (searchQuery qsearch) ni
Left e -> const $ return $ Left ("Bad destination: "++e)
maybe (hPutClient h ("Unsupported method: "++method))
goQuery
$ Map.lookup method dhtQuery
("s", s) | Just dht@DHT{..} <- Map.lookup netname dhts
-> cmd0 $ do
let (method,xs) = break isSpace s
(nidstr,ys) = break isSpace $ dropWhile isSpace xs
presentSearches = hPutClient h
=<< showSearches
=<< atomically (readTVar dhtSearches)
goTarget qry nid = do
kvar <- atomically $ newTVar Nothing
-- Forking a thread, but it may ubruptly quit if the following
-- STM action decides not to add a new search. This is so that
-- I can store the ThreadId into new DHTSearch structure.
tid <- fork $ join $ atomically (readTVar kvar >>= maybe retry return)
join $ atomically $ do
schs <- readTVar dhtSearches
case Map.lookup (method,nid) schs of
Nothing -> do forkSearch method nid qry dhtSearches dhtBuckets tid kvar
return $ presentSearches
Just sch -> do writeTVar kvar (Just $ return ())
return $ reportSearchResults method h sch
goQuery qry = either (hPutClient h . ("Bad search target: "++))
(goTarget qry)
$ dhtParseId nidstr
if null method then presentSearches
else maybe (hPutClient h ("Unsupported method: "++method))
goQuery
$ Map.lookup method dhtQuery
("x", s) | Just DHT{..} <- Map.lookup netname dhts
-> cmd0 $ do
let (method,xs) = break isSpace s
(nidstr,ys) = break isSpace $ dropWhile isSpace xs
go nid = join $ atomically $ do
schs <- readTVar dhtSearches
case Map.lookup (method,nid) schs of
Nothing -> return $ hPutClient h "No match."
Just DHTSearch{searchThread} -> do
modifyTVar' dhtSearches (Map.delete (method,nid))
return $ do
killThread searchThread
hPutClient h "Removed search."
either (hPutClient h . ("Bad search target: "++)) go $ dhtParseId nidstr
("save", _) | Just dht <- Map.lookup netname dhts
-> cmd0 $ do
saveNodes netname dht
hPutClient h $ "Saved " ++ nodesFileName netname ++ "."
("load", _) | Just dht <- Map.lookup netname dhts
-> cmd0 $ do
b <- pingNodes netname dht
if b then hPutClient h $ "Pinging " ++ nodesFileName netname ++ "."
else hPutClient h $ "Failed: " ++ nodesFileName netname ++ "."
("swarms", s) -> cmd0 $ do
let fltr = case s of
('-':'v':cs) | all isSpace (take 1 cs)
-> const True
_ -> (\(h,c,n) -> c/=0 )
ss <- atomically $ Peers.knownSwarms <$> readTVar (Mainline.contactInfo swarms)
let r = map (\(h,c,n) -> (unwords [show h,show c], maybe "" show n))
$ filter fltr ss
hPutClient h $ showReport r
("peers", s) -> cmd0 $ case readEither s of
Right ih -> do
ps <- atomically $ Peers.lookup ih <$> readTVar (Mainline.contactInfo swarms)
hPutClient h $ showReport $ map (((,) "") . show . pPrint) ps
Left er -> hPutClient h er
("toxids", s) -> cmd0 $ do
keydb <- atomically $ readTVar toxkeys
now <- getPOSIXTime
let entries = map mkentry $ PSQ.toList (Tox.keyByAge keydb)
mkentry (k :-> Down tm) = [ show cnt, show k, show (now - tm) ]
where Just (_,(cnt,_)) = MM.lookup' k (Tox.keyAssoc keydb)
hPutClient h $ showColumns entries
(n, _) | n `elem` Map.keys dhts -> switchNetwork n
_ -> cmd0 $ hPutClient h "error."
readExternals :: (ni -> SockAddr) -> [TVar (BucketList ni)] -> IO [SockAddr]
readExternals nodeAddr vars = do
as <- atomically $ mapM (fmap (nodeAddr . selfNode) . readTVar) vars
let unspecified (SockAddrInet _ 0) = True
unspecified (SockAddrInet6 _ _ (0,0,0,0) _) = True
unspecified _ = False
-- TODO: Filter to only global addresses?
return $ filter (not . unspecified) as
data Options = Options
{ portbt :: String
, porttox :: String
, ip6bt :: Bool
, ip6tox :: Bool
}
deriving (Eq,Show)
sensibleDefaults :: Options
sensibleDefaults = Options
{ portbt = "6881"
, porttox = "33445"
, ip6bt = True
, ip6tox = True
}
-- bt=<port>,tox=<port>
-- -4
parseArgs :: [String] -> Options -> Options
parseArgs [] opts = opts
parseArgs ("-4":args) opts = parseArgs args opts
{ ip6bt = False
, ip6tox = False }
parseArgs (arg:args) opts = parseArgs args opts
{ portbt = fromMaybe (portbt opts) $ Prelude.lookup "bt" ports
, porttox = fromMaybe (porttox opts) $ Prelude.lookup "tox" ports }
where
ports = map ( (dropWhile (==',') *** dropWhile (=='='))
. break (=='=') )
$ groupBy (const (/= ',')) arg
main :: IO ()
main = do
args <- getArgs
let opts = parseArgs args sensibleDefaults
print opts
swarms <- Mainline.newSwarmsDatabase
-- Restore peer database before forking the listener thread.
peerdb <- left show <$> tryIOError (L.readFile "bt-peers.dat")
either (hPutStrLn stderr . ("bt-peers.dat: "++))
(atomically . writeTVar (Mainline.contactInfo swarms))
(peerdb >>= S.decodeLazy)
(quitBt,btdhts,btips,baddrs) <- case portbt opts of
"" -> return (return (), Map.empty,return [],[])
p -> do
addr <- getBindAddress p (ip6bt opts)
(bt,btR) <- Mainline.newClient swarms addr
quitBt <- forkListener "bt" (clientNet bt)
mainlineSearches <- atomically $ newTVar Map.empty
let mainlineDHT bkts wantip = DHT
{ dhtBuckets = bkts btR
, dhtPing = Mainline.ping bt
, dhtQuery = Map.fromList
[ ("node", DHTQuery (Mainline.nodeSearch bt)
(\ni -> fmap Mainline.unwrapNodes
. Mainline.findNodeH btR ni
. flip Mainline.FindNode (Just Want_Both))
show
(const Nothing))
, ("peer", DHTQuery (Mainline.peerSearch bt)
(\ni -> fmap Mainline.unwrapPeers
. Mainline.getPeersH btR swarms ni
. flip Mainline.GetPeers (Just Want_Both)
. (read . show)) -- TODO: InfoHash -> NodeId
(show . pPrint)
(Just . show))
]
, dhtParseId = readEither :: String -> Either String Mainline.NodeId
, dhtSearches = mainlineSearches
, dhtFallbackNodes = Mainline.bootstrapNodes wantip
}
dhts = Map.fromList $
("bt4", mainlineDHT Mainline.routing4 Want_IP4)
: if ip6bt opts
then [ ("bt6", mainlineDHT Mainline.routing6 Want_IP6) ]
else []
ips :: IO [SockAddr]
ips = readExternals Mainline.nodeAddr
[ Mainline.routing4 btR
, Mainline.routing6 btR
]
return (quitBt,dhts,ips, [addr])
keysdb <- Tox.newKeysDatabase
(quitTox,toxdhts,toxips,taddrs) <- case porttox opts of
"" -> return (return (), Map.empty, return [],[])
toxport -> do
addrTox <- getBindAddress toxport (ip6tox opts)
tox <- Tox.newTox keysdb addrTox
quitTox <- Tox.forkTox tox
toxSearches <- atomically $ newTVar Map.empty
let toxDHT bkts = DHT
{ dhtBuckets = bkts (Tox.toxRouting tox)
, dhtPing = Tox.ping (Tox.toxDHT tox)
, dhtQuery = Map.fromList
[ ("node", DHTQuery (Tox.nodeSearch $ Tox.toxDHT tox)
(\ni -> fmap Tox.unwrapNodes
. Tox.getNodesH (Tox.toxRouting tox) ni
. Tox.GetNodes)
show
(const Nothing))
]
, dhtParseId = readEither :: String -> Either String Tox.NodeId
, dhtSearches = toxSearches
, dhtFallbackNodes = return []
}
dhts = Map.fromList $
("tox4", toxDHT Tox.routing4)
: if ip6tox opts
then [ ("tox6", toxDHT Tox.routing6) ]
else []
ips :: IO [SockAddr]
ips = readExternals Tox.nodeAddr [ Tox.routing4 $ Tox.toxRouting tox
, Tox.routing6 $ Tox.toxRouting tox ]
return (quitTox, dhts, ips, [addrTox])
_ <- UPNP.requestPorts "dht-client" $ map (Datagram,) $ baddrs ++ taddrs
let dhts = Map.union btdhts toxdhts
waitForSignal <- do
signalQuit <- newEmptyMVar
let session = clientSession $ Session
{ netname = concat $ take 1 $ Map.keys dhts -- initial default DHT
, dhts = dhts -- all DHTs
, signalQuit = signalQuit
, swarms = swarms
, toxkeys = keysdb
, externalAddresses = liftM2 (++) btips toxips
}
srv <- streamServer (withSession session) (SockAddrUnix "dht.sock")
return $ do
() <- takeMVar signalQuit
quitListening srv
forM_ (Map.toList dhts)
$ \(netname, dht@DHT { dhtBuckets = bkts
, dhtQuery = qrys
, dhtPing = ping
, dhtFallbackNodes = getBootstrapNodes }) -> do
btSaved <- loadNodes netname -- :: IO [Mainline.NodeInfo]
putStrLn $ "Loaded "++show (length btSaved)++" nodes for "++netname++"."
fallbackNodes <- getBootstrapNodes
let isNodesSearch :: ni :~: r -> Search nid addr tok ni r -> Search nid addr tok ni ni
isNodesSearch Refl sch = sch
fork $ do
myThreadId >>= flip labelThread ("bootstrap."++netname)
case Map.lookup "node" qrys of
Just DHTQuery { qsearch = srch } -> do
case eqT of
Just witness -> bootstrap (isNodesSearch witness srch) bkts ping btSaved fallbackNodes
_ -> error $ "Missing node-search for "++netname++"."
saveNodes netname dht
Nothing -> return ()
return ()
{-
let bkts4 = Mainline.routing4 btR
(fallbackNodes4,fallbackNodes6) <- case portbt opts of
[] -> return ([],[])
_ -> do
btSaved4 <- loadNodes "bt4" :: IO [Mainline.NodeInfo]
putStrLn $ "Loaded "++show (length btSaved4)++" nodes for bt4."
fallbackNodes4 <- Mainline.bootstrapNodes Want_IP4
fork $ do
myThreadId >>= flip labelThread "bootstrap.Mainline4"
bootstrap (Mainline.nodeSearch bt) bkts4 (Mainline.ping bt) btSaved4 fallbackNodes4
saveNodes "bt4" (dhts Map.! "bt4")
fallbackNodes6 <- case ip6bt opts of
True -> do
btSaved6 <- loadNodes "bt6"
putStrLn $ "Loaded "++show (length btSaved6)++" nodes for bt6."
let bkts6 = Mainline.routing6 btR
fallbackNodes6 <- Mainline.bootstrapNodes Want_IP6
fork $ do
myThreadId >>= flip labelThread "bootstrap.Mainline6"
bootstrap (Mainline.nodeSearch bt) bkts6 (Mainline.ping bt) btSaved6 fallbackNodes6
saveNodes "bt6" (dhts Map.! "bt6")
return fallbackNodes6
False -> return []
return (fallbackNodes4,fallbackNodes6)
(toxSaved4, toxSaved6) <- case porttox opts of
[] -> return ([],[])
_ -> do
toxSaved4 <- loadNodes "tox4"
putStrLn $ "Loaded "++show (length toxSaved4)++" nodes for tox4"
fork $ do
myThreadId >>= flip labelThread "bootstrap.Tox4"
bootstrap (Tox.nodeSearch $ Tox.toxDHT tox) (Tox.routing4 (Tox.toxRouting tox)) (Tox.ping $ Tox.toxDHT tox) toxSaved4 []
saveNodes "tox4" (dhts Map.! "tox4")
toxSaved6 <- case ip6tox opts of
True -> do
toxSaved6 <- loadNodes "tox6"
putStrLn $ "Loaded "++show (length toxSaved6)++" nodes for tox6"
fork $ do
myThreadId >>= flip labelThread "bootstrap.Tox6"
bootstrap (Tox.nodeSearch $ Tox.toxDHT tox) (Tox.routing6 (Tox.toxRouting tox)) (Tox.ping $ Tox.toxDHT tox) toxSaved6 []
saveNodes "tox6" (dhts Map.! "tox6")
return toxSaved6
False -> return []
return (toxSaved4,toxSaved6)
hPutStr stderr $ showReport $ map (("bootstrap (IPv4)",) . show) fallbackNodes4
++ map (("bootstrap (IPv6)",) . show) fallbackNodes6
-}
waitForSignal
quitBt
quitTox
swarmsdb <- atomically $ readTVar (Mainline.contactInfo swarms)
L.writeFile "bt-peers.dat" $ S.encodeLazy swarmsdb
|