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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 #-}
module Main where
import Control.Arrow
import Control.Applicative
import Control.Concurrent.STM
import Control.Exception
import Control.Monad
import Control.Monad.Trans.Control
import Control.Monad.Trans.Resource (runResourceT)
import Data.Bool
import Data.Char
import Data.Conduit as C
import Data.Function
import Data.Hashable
import Data.List
import qualified Data.IntMap.Strict as IntMap
import qualified Data.Map.Strict as Map
import Data.Maybe
import qualified Data.Set as Set
import Data.Time.Clock
import qualified Data.XML.Types as XML
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 qualified Data.HashMap.Strict as HashMap
import qualified Data.Vector as V
import qualified Data.Text as T
import qualified Data.Text.Encoding as T
import System.Posix.Signals
import Announcer
import Crypto.Tox -- (zeros32,SecretKey,PublicKey, generateSecretKey, toPublic, encodeSecret, decodeSecret, userKeys)
import Network.UPNP as UPNP
import Network.Address hiding (NodeId, NodeInfo(..))
import Network.QueryResponse
import Network.StreamServer
import Network.Kademlia.Search
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 qualified Data.ByteString.Char8 as B
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.Transport as Tox
import qualified Network.Tox.Onion.Handlers as Tox
import qualified Network.Tox.Crypto.Transport as Tox (CryptoMessage)
import qualified Network.Tox.Crypto.Handlers as Tox
import Data.Typeable
import Roster
import OnionRouter
-- Presence imports.
import ConsoleWriter
import Presence
import XMPPServer
import Connection
import ToxToXMPP
import qualified Connection.Tcp (ConnectionEvent(..))
showReport :: [(String,String)] -> String
showReport kvs = showColumns $ map (\(x,y)->[x,y]) kvs
showColumns :: [[String]] -> String
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
data ClientHandle = ClientHandle Handle (MVar Int)
-- | Writes a message and signals ready for next command.
hPutClient :: ClientHandle -> String -> IO ()
hPutClient (ClientHandle h hstate) s = do
st <- takeMVar hstate
hPutStr h ('.' : marshalForClient s)
putMVar hstate 1 -- ready for input
-- | Writes message, but signals there is more to come.
hPutClientChunk :: ClientHandle -> String -> IO ()
hPutClientChunk (ClientHandle h hstate) s = do
st <- takeMVar hstate
hPutStr h (' ' : marshalForClient s)
putMVar hstate 2 -- ready for more output
data DHTQuery nid ni = forall addr r tok.
( Ord addr
, Typeable r
, Typeable tok
, Typeable ni
) => DHTQuery
{ qsearch :: Search nid addr tok ni r
, qhandler :: ni -> nid -> IO ([ni], [r], Maybe tok) -- ^ Invoked on local node, when there is no query destination.
, qshowR :: r -> String
, qshowTok :: tok -> Maybe String
}
data DHTAnnouncable nid = forall dta tok ni r.
( Show r
, Typeable dta
, Typeable tok
, Typeable r
, Typeable ni
) => DHTAnnouncable
{ announceParseData :: String -> Either String dta
, announceParseToken :: dta -> String -> Either String tok
, announceParseAddress :: String -> Either String ni
, announceSendData :: dta -> tok -> Maybe ni -> IO (Maybe r)
, announceInterval :: POSIXTime
, qresultAddr :: dta -> nid
}
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 DHTPing ni = forall r. DHTPing
{ pingQuery :: [String] -> ni -> IO (Maybe r)
, pingShowResult :: r -> 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)
, dhtSecretKey :: STM (Maybe SecretKey)
, dhtPing :: Map.Map String (DHTPing ni)
, dhtQuery :: Map.Map String (DHTQuery nid ni)
, dhtAnnouncables :: Map.Map String (DHTAnnouncable nid)
, dhtParseId :: String -> Either String nid
, dhtSearches :: TVar (Map.Map (String,nid) (DHTSearch nid ni))
, dhtFallbackNodes :: IO [ni]
, dhtBootstrap :: [ni] -> [ni] -> IO ()
}
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 $ fallbackLoad fname) return attempt
fallbackLoad :: FromJSON t => FilePath -> IO [t]
fallbackLoad fname = do
attempt <- tryIOError $ do
J.decode <$> L.readFile fname
>>= maybe (ioError $ userError "Nothing") return
let go r = do
let m = HashMap.lookup "nodes" (r :: J.Object)
ns0 = case m of Just (J.Array v) -> V.toList v
Nothing -> []
ns1 = zip (map J.fromJSON ns0) ns0
issuc (J.Error _,_) = False
issuc _ = True
(ss,fs) = partition issuc ns1
ns = map (\(J.Success n,_) -> n) ss
mapM_ print (map snd fs) >> return ns
either (const $ return []) go attempt
{-
pingNodes :: String -> DHT -> IO Bool
pingNodes netname DHT{dhtPing} | Just DHTPing{pingQuery=ping} <- Map.lookup "ping" dhtPing = do
let fname = nodesFileName netname
attempt <- tryIOError $ do
J.decode <$> L.readFile fname
>>= maybe (ioError $ userError "Nothing") return
-}
asProxyTypeOf :: a -> proxy a -> a
asProxyTypeOf = const
pingNodes :: String -> DHT -> IO (Maybe Int)
pingNodes netname dht@DHT{dhtPing} | Just DHTPing{pingQuery=ping} <- Map.lookup "ping" dhtPing = do
let fname = nodesFileName netname
ns <- loadNodes netname
case ns of
[] -> return Nothing
_ -> do
fork $ do
myThreadId >>= flip labelThread ("pinging."++fname)
putStrLn $ "Forked "++show fname
withTaskGroup ("withTaskGroup."++fname) 10 $ \g -> do
forM_ (ns `asTypeOf` [])
$ \n -> forkTask g (show n)
$ void
$ ping [] n
putStrLn $ "Load finished "++show fname
return $ Just $ length ns
pingNodes _ _ = return Nothing
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)
-> ClientHandle
-> Either String ([ni],[r],Maybe 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
-- Finally, we write the search loop action into a tvar that will be executed in a new
-- thread.
writeTVar kvar $ Just $ searchLoop qsearch nid storeResult st
reportSearchResults :: (Show t, Ord t1, Ord t, Hashable t) =>
String -> ClientHandle -> 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, Just ()))
data ConnectionManager = forall status k. ConnectionManager { typedManager :: Connection.Manager status k }
data Session = Session
{ netname :: String
, dhts :: Map.Map String DHT
, externalAddresses :: IO [SockAddr]
, swarms :: Mainline.SwarmsDatabase
, cryptosessions :: Tox.NetCryptoSessions
, toxkeys :: TVar Tox.AnnouncedKeys
, userkeys :: TVar [(SecretKey,PublicKey)]
, roster :: Roster
, connectionManager :: ConnectionManager
, onionRouter :: OnionRouter
, announcer :: Announcer
, signalQuit :: IO ()
}
exceptionsToClient :: ClientHandle -> IO () -> IO ()
exceptionsToClient (ClientHandle h hstate) action =
action `catch` \(SomeException e) -> do
st <- takeMVar hstate
when (st /= 1) $ do
hPutStr h ('.': marshalForClient (show e))
putMVar hstate 1 -- ready for input
hGetClientLine :: ClientHandle -> IO String
hGetClientLine (ClientHandle h hstate) = do
st <- takeMVar hstate
-- st should be 1
x <- hGetLine h
putMVar hstate 0 -- ready for output
return x
hCloseClient :: ClientHandle -> IO ()
hCloseClient (ClientHandle h hstate) = do
st <- takeMVar hstate
hClose h
putMVar hstate 3 -- closed file handle
clientSession0 :: Session -> t1 -> t -> Handle -> IO ()
clientSession0 s sock cnum h = do
hstate <- newMVar 1 -- ready for input
clientSession s sock cnum (ClientHandle h hstate)
`catch` \e -> if isEOFError e then return ()
else throwIO e
clientSession :: Session -> t1 -> t -> ClientHandle -> IO ()
clientSession s@Session{..} sock cnum h = do
line <- dropWhile isSpace <$> hGetClientLine h
let (c,args) = second (dropWhile isSpace) $ break isSpace line
cmd0 :: IO () -> IO ()
cmd0 action = exceptionsToClient h action >> clientSession s sock cnum h
switchNetwork dest = do hPutClient h ("Network: "++dest)
clientSession s{netname=dest} sock cnum h
strp = B.unpack . fst . until snd dropEnd . (,False) . B.dropWhile isSpace . B.pack
where
dropEnd (x,_) =
case B.unsnoc x of
Just (str,c) | isSpace c -> (str,False)
_ -> (x,True)
let mkrow :: (SecretKey, PublicKey) -> (String,String)
mkrow (a,b) | Just x <- encodeSecret a= (B.unpack x, show (Tox.key2id b))
mkrow _ = error (concat ["Assertion fail in 'mkrow' function at ", __FILE__, ":", show __LINE__])
sessionCommands :: [[String]]
sessionCommands =
[ ["stop"]
, ["quit"]
, ["pid"]
, ["external-ip"]
, ["threads"]
, ["mem"]
, ["ls"]
, ["k"]
, ["roster"]
, ["onion"]
, ["g"]
, ["p"]
, ["a"]
, ["s"]
, ["x"]
, ["save"]
, ["load"]
, ["swarms"]
, ["peers"]
, ["toxids"]
, ["c"]
, ["help"]
, ["throw"]
]
case (map toLower c,args) of
(n, _) | n `elem` Map.keys dhts -> switchNetwork n
-- "ping"
-- "cookie"
(pinglike, s) | Just DHT{dhtPing} <- Map.lookup netname dhts
, Just DHTPing{ pingQuery=ping
, pingShowResult=showr } <- Map.lookup pinglike dhtPing
, ws@(_:_) <- words s
-> cmd0 $ do
case readEither $ last ws of
Right addr -> do result <- ping (init ws) addr
let rs = [" ", maybe "Timeout." showr result]
hPutClient h $ unlines rs
Left er -> hPutClient h er
(x,_) | not (null (strp x))
, x `notElem` map head sessionCommands -> cmd0 $ do
hPutClient h $ "error."
("stop", _) -> do hPutClient h "Terminating DHT Daemon."
hCloseClient h
signalQuit
("throw", er) -> cmd0 $ do
throwIO $ userError er
hPutClient h "The impossible happened!"
("quit", _) -> hPutClient h "" >> hCloseClient 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) ]
-- TODO: online documentation.
--
-- k - manage key-pairs
--
-- k (list keys)
-- k gen (generate new key and list keys)
-- k add <secret-key> (input a specific secret key)
-- k del <secret-key>
-- k secrets (list key pairs, including secret keys)
("k", s) | "" <- strp s -> cmd0 $ do
ks <- atomically $ readTVar userkeys
hPutClient h $ unlines $ map (mappend " " . show . Tox.key2id . snd) ks
| "gen" <- strp s -> cmd0 $ do
secret <- generateSecretKey
let pubkey = toPublic secret
oldks <- atomically $ do
ks <- readTVar userkeys
modifyTVar userkeys ((secret,pubkey):)
addRoster roster secret
return ks
let asString = show . Tox.key2id
hPutClient h $ unlines $ map (mappend " " . show . Tox.key2id . snd) oldks
++ [mappend " *" . show . Tox.key2id $ pubkey]
| "secrets" <- strp s -> cmd0 $ do
ks <- atomically $ readTVar userkeys
skey <- maybe (return Nothing) (atomically . dhtSecretKey)
$ Map.lookup netname dhts
hPutClient h . showReport $ map mkrow ks ++ case skey >>= encodeSecret of
Just x -> [("",""),("dht-key:",B.unpack x)]
Nothing -> []
| ("add":secs) <- words s
, mbSecs <- map (decodeSecret . B.pack) secs
, all isJust mbSecs -> cmd0 $ do
let f (Just b) = b
f x = error (concat ["Assertion fail at ", __FILE__, ":", show __LINE__])
let toPair x = (x,toPublic x)
pairs = map (toPair . f) mbSecs
oldks <- atomically $ do
oldks <- readTVar userkeys
modifyTVar userkeys (pairs ++)
forM pairs $ \(sk,_) -> addRoster roster sk
return oldks
hPutClient h $ unlines $ map (mappend " " . show . Tox.key2id . snd) oldks
++ map (mappend " *" . show . Tox.key2id .snd) pairs
| ("del":secs) <- words s
, mbSecs <- map (decodeSecret . B.pack) secs
, all isJust mbSecs -> cmd0 $ do
let f (Just b) = b
f x = error (concat ["Assertion fail at ", __FILE__, ":", show __LINE__])
let toPair x = (x,toPublic x)
pairs = map (toPair . f) mbSecs
ks <- atomically $ do
modifyTVar userkeys (filter (`notElem` pairs) )
forM pairs $ \(_,pk) -> delRoster roster pk
readTVar userkeys
hPutClient h . showReport $ map mkrow ks
("roster", s) -> cmd0 $ join $ atomically $ do
dns <- dnsPresentation roster
fs <- HashMap.toList <$> friendRequests roster
let showFriend (remotekey,fr) =
(" " ++ show remotekey, T.unpack $ T.decodeUtf8 $ Tox.friendRequestText fr)
showAccount (me,cs) =
[(show me,"")] ++ map showFriend cs
frs = fs >>= showAccount
return $ do
hPutClientChunk h $ unlines [ dns, "", "Friend Requests" ]
hPutClient h $ showReport frs
("onion", s) -> cmd0 $ join $ atomically $ do
rm <- readTVar $ routeMap onionRouter
ts <- readTVar $ trampolineNodes onionRouter
rs <- mapM readTVar (pendingRoutes onionRouter)
let showRecord :: Int -> Bool -> [String]
showRecord n True = [show n, "pending", ""]
showRecord n False
| Just RouteRecord{responseCount,timeoutCount} <- IntMap.lookup n rm
= [show n, show responseCount, show timeoutCount]
| otherwise = [show n, "error!",""]
r = map (uncurry showRecord) $ IntMap.toAscList rs
return $ do
hPutClientChunk h $ "trampolines: " ++ show (IntMap.size ts) ++ "\n"
hPutClient h $ showColumns $ ["","responses","timeouts"]:r
("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
-- TODO: Online help.
--
-- p - put/publish a single given datum on a single given node.
--
-- When destination address (node-addr) is optional, it's absense means to
-- publish information in the local node's own database.
--
-- Bittorrent: (peer) publish yourself as peer in swarm.
-- (port) set your current bittorrent listen port.
--
-- p peer <infohash> <token> [node-addr]
--
-- p port <num>
--
-- Tox: (toxid) publish a rendezvous onion route to dht node.
-- (friend) send a friend-request over a rendezvous point.
-- (dhtkey) send your dht node-id over a rendezvous point.
--
-- p toxid <key> <token> <node-addr>
--
-- p friend <key> <nospam> <rendezvous-addr> <text>
--
-- p dhtkey <key> - <rendezvous-addr>
("p", s) | Just DHT{..} <- Map.lookup netname dhts
-> cmd0 $ do
-- arguments: method
-- data
-- token
-- (optional dest-ni)
self <- atomically $ thisNode <$> readTVar dhtBuckets
let (method,xs) = break isSpace $ dropWhile isSpace s
(dtastr,ys) = break isSpace $ dropWhile isSpace xs
(tokenstr,zs) = break isSpace $ dropWhile isSpace ys
destination = dropWhile isSpace zs
goTarget DHTAnnouncable{..} = do
let dta = announceParseData dtastr
tok = dta >>= flip announceParseToken tokenstr
case liftA2 (,) dta tok of
Left e -> hPutClient h e
Right nid -> go nid >>= either (hPutClient h) (hPutClient h . show)
where
go | null destination = fmap (maybe (Left "Timeout.") Right)
. flip (uncurry announceSendData) Nothing
| otherwise = case announceParseAddress destination of
Right ni -> fmap (maybe (Left "Timeout.") Right)
. flip (uncurry announceSendData) (Just ni)
Left e -> const $ return $ Left ("Bad destination: "++e)
maybe (hPutClient h ("Unsupported method: "++method))
goTarget
$ Map.lookup method dhtAnnouncables
-- TODO: Online documentation.
--
-- a - announce, like put/publish but automatically selects nodes to publish on
-- and periodically refreshes them.
--
-- The method name is preceded with a + to start or a - to stop a given
-- recurring publication.
--
-- BitTorrent: (peer) Every minute, announce you are participating
-- in a torrent swarm.
--
-- a +peer <infohash> a -peer <infohash>
--
-- Tox: (toxid) Every 15 seconds, announce your tox identity to the
-- DHT so friends can find you.
--
-- a +toxid <key>
-- a -toxid <key>
--
-- These probably don't work:
-- (experimental) a +friend <nospam> <text>
-- (experimental) a +dhtkey
("a", s) | Just DHT{..} <- Map.lookup netname dhts
, not (null s)
-> cmd0 $ do
let (op:method,xs) = break isSpace $ dropWhile isSpace s
(dtastr,ys) = break isSpace $ dropWhile isSpace xs
a = Map.lookup method dhtAnnouncables
q = Map.lookup method dhtQuery
doit :: Char -> Announcer -> AnnounceKey -> AnnounceMethod r -> r -> IO ()
doit '+' = schedule
doit '-' = cancel
doit _ = \_ _ _ _ -> hPutClientChunk h "Starting(+) or canceling(-)?"
matchingResult ::
( Typeable stok
, Typeable ptok
, Typeable sni
, Typeable pni )
=> Search nid addr stok sni sr
-> (pr -> ptok -> Maybe pni -> IO (Maybe pubr))
-> Maybe (stok :~: ptok, sni :~: pni)
matchingResult _ _ = liftA2 (,) eqT eqT
matchingTok ::
( Typeable stok
, Typeable ptok
, Typeable sni
, Typeable pni )
=> Search nid addr stok sni sr
-> (pr -> ptok -> Maybe pni -> IO (Maybe pubr))
-> Maybe (stok :~: ptok)
matchingTok _ _ = eqT
matchingNI ::
( Typeable stok
, Typeable ptok
, Typeable sni
, Typeable pni )
=> Search nid addr stok sni sr
-> (pr -> ptok -> Maybe pni -> IO (Maybe pubr))
-> Maybe (sni :~: pni)
matchingNI _ _ = eqT
chktok :: Maybe ()
chktok = do
DHTAnnouncable { announceSendData
, announceParseData
, announceInterval
, qresultAddr } <- a
DHTQuery { qsearch } <- q
Refl <- matchingTok qsearch announceSendData
return ()
chkni :: Maybe ()
chkni = do
DHTAnnouncable { announceSendData
, announceParseData
, announceInterval
, qresultAddr } <- a
DHTQuery { qsearch } <- q
Refl <- matchingNI qsearch announceSendData
return ()
mameth = do
DHTAnnouncable { announceSendData
, announceParseData
, announceInterval
, qresultAddr } <- a
DHTQuery { qsearch } <- q
(Refl, Refl) <- matchingResult qsearch announceSendData
-- return $ hPutClient h "Type matches."
dta <- either (const Nothing) Just $ announceParseData dtastr
return $ do
akey <- atomically $ packAnnounceKey announcer (method ++ ":" ++ dtastr)
doit op announcer
akey
(AnnounceMethod qsearch announceSendData dhtBuckets
(qresultAddr dta)
announceInterval)
dta
case op of
'+' -> hPutClient h $ "Announcing at " ++ show (qresultAddr dta) ++ "."
'-' -> hPutClient h $ "Canceling " ++ show (qresultAddr dta) ++ "."
let aerror = unlines
[ "announce error."
, "method = " ++ method
, "query = " ++ maybe "nil" (const "ok") q
, "publish = " ++ maybe "nil" (const "ok") a
, "chktok = " ++ maybe "nil" (const "ok") chktok -- chktok = nil
, "chkni = " ++ maybe "nil" (const "ok") chkni
]
fromMaybe (hPutClient h aerror) mameth
("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
case b of
Just num ->
hPutClient h $ unwords [ "Pinging"
, show num
, "nodes from"
, nodesFileName netname ++ "."
]
Nothing ->
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
("c", s) | "" <- strp s -> cmd0 $ join $ atomically $ do
ConnectionManager mgr <- return connectionManager
cmap <- connections mgr
cs <- Map.toList <$> mapM connStatus cmap
let mkrow = Connection.showKey mgr *** Connection.showStatus mgr
rs = map mkrow cs
return $ do
hPutClient h $ showReport rs
("help", s) | Just DHT{..} <- Map.lookup netname dhts
-> cmd0 $ do
let tolist :: a -> [a]
tolist = (:[])
dhtkeys, announcables, ks, allcommands :: [[String]]
dhtkeys = map tolist $ Map.keys dhts
queries = map (tolist . ("s "++)) $ Map.keys dhtQuery
xs = map (tolist . ("x "++)) $ Map.keys dhtQuery
gs = map (tolist . ("g "++)) $ Map.keys dhtQuery
announcables = map (tolist . ("p "++)) $ Map.keys dhtAnnouncables
ks = [["k gen"],["k public"],["k secret"]]
allcommands = sortBy (comparing (take 1)) $ concat [sessionCommands, dhtkeys, announcables, ks, queries, gs,xs]
hPutClient h ("Available commands:\n" ++ showColumns allcommands)
_ -> 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
, dhtkey :: Maybe SecretKey
-- | Currently only relevant to XMPP server code.
--
-- [ 0 ] Don't log XMPP stanzas.
--
-- [ 1 ] Log non-ping stanzas.
--
-- [ 2 ] Log all stanzas, even pings.
, verbosity :: Int
}
deriving (Eq,Show)
sensibleDefaults :: Options
sensibleDefaults = Options
{ portbt = "6881"
, porttox = "33445"
, ip6bt = True
, ip6tox = True
, dhtkey = Nothing
, verbosity = 1
}
-- bt=<port>,tox=<port>
-- -4
parseArgs :: [String] -> Options -> Options
parseArgs [] opts = opts
parseArgs ("--dhtkey":k:args) opts = parseArgs args opts
{ dhtkey = decodeSecret $ B.pack k }
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
noArgPing :: (x -> IO (Maybe r)) -> [String] -> x -> IO (Maybe r)
noArgPing f [] x = f x
noArgPing _ _ _ = return Nothing
announceToxConnection :: TChan ((ConnectionKey,SockAddr), Connection.Tcp.ConnectionEvent XML.Event)
-> SockAddr
-> SockAddr
-> STM Bool
-> C.Source IO Tox.CryptoMessage
-> C.Sink (Flush Tox.CryptoMessage) IO ()
-> IO ()
announceToxConnection echan laddr saddr pingflag tsrc tsnk
= atomically $ writeTChan echan
( (PeerKey saddr, laddr )
, Connection.Tcp.Connection pingflag xsrc xsnk )
where
xsrc = tsrc =$= toxToXmpp
xsnk = flushPassThrough xmppToTox =$= tsnk
main :: IO ()
main = runResourceT $ liftBaseWith $ \resT -> 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)
announcer <- forkAnnouncer
-- XMPP initialization
cw <- newConsoleWriter
serverVar <- atomically $ newEmptyTMVar
state <- newPresenceState cw serverVar
-- XMPP stanza handling
sv <- resT $ xmppServer (presenceHooks state (verbosity opts))
-- We now have a server object but it's not ready to use until
-- we put it into the 'server' field of our /state/ record.
conns <- xmppConnections sv
atomically $ do
putTMVar serverVar (sv,conns) -- Okay, now it's ready. :)
-- FIXME: This is error prone.
(quitBt,btdhts,btips,baddrs) <- case portbt opts of
"" -> return (return (), Map.empty,return [],[])
p -> do
addr <- getBindAddress p (ip6bt opts)
(bt,btR,btBootstrap4, btBootstrap6) <- Mainline.newClient swarms addr
quitBt <- forkListener "bt" (clientNet bt)
mainlineSearches <- atomically $ newTVar Map.empty
peerPort <- atomically $ newTVar 6881 -- BitTorrent client TCP port.
let mainlineDHT bkts wantip = DHT
{ dhtBuckets = bkts btR
, dhtPing = Map.singleton "ping" $ DHTPing
{ pingQuery = noArgPing $ fmap (bool Nothing (Just ())) . Mainline.ping bt
, pingShowResult = show
}
, dhtQuery = Map.fromList
[ ("node", DHTQuery
{ qsearch = (Mainline.nodeSearch bt)
, qhandler = (\ni -> fmap Mainline.unwrapNodes
. Mainline.findNodeH btR ni
. flip Mainline.FindNode (Just Want_Both))
, qshowR = show
, qshowTok = (const Nothing)
})
-- Maybe (sr :~: pr, stok :~: ptok, sni :~: pni )
-- sr = InfoHash
-- stok = Token
-- sni = NodeInfo
, ("peer", DHTQuery
{ qsearch = (Mainline.peerSearch bt)
, qhandler = (\ni -> fmap Mainline.unwrapPeers
. Mainline.getPeersH btR swarms ni
. flip Mainline.GetPeers (Just Want_Both)
. (read . show)) -- TODO: InfoHash -> NodeId
, qshowR = (show . pPrint)
, qshowTok = (Just . show)
})
]
, dhtParseId = readEither :: String -> Either String Mainline.NodeId
, dhtSearches = mainlineSearches
, dhtFallbackNodes = Mainline.bootstrapNodes wantip
, dhtAnnouncables = Map.fromList
-- Maybe (sr :~: pr, stok :~: ptok, sni :~: pni )
-- dta = Announce
-- pr = Announced
-- ptok = Token
-- pni = NodeInfo
[ ("peer", DHTAnnouncable { announceSendData = \ih tok -> \case
Just ni -> do
port <- atomically $ readTVar peerPort
let dta = Mainline.mkAnnounce port ih tok
Mainline.announce bt dta ni
Nothing -> return Nothing
, announceParseAddress = readEither
, announceParseData = readEither
, announceParseToken = const $ readEither
, announceInterval = 60 -- TODO: Is one minute good?
, qresultAddr = (read . show) -- TODO: InfoHash -> NodeId -- peer
})
, ("port", DHTAnnouncable { announceParseData = readEither
, announceParseToken = \_ _ -> return ()
, announceParseAddress = const $ Right ()
, announceSendData = \dta () -> \case
Nothing -> do atomically $ writeTVar peerPort (dta :: PortNumber)
return $ Just dta
Just _ -> return Nothing
, announceInterval = 0 -- TODO: The "port" setting should probably
-- be a command rather than an announcement.
, qresultAddr = const $ Mainline.zeroID
})]
, dhtSecretKey = return Nothing
, dhtBootstrap = case wantip of
Want_IP4 -> btBootstrap4
Want_IP6 -> btBootstrap6
}
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
crypto <- Tox.newCrypto
netCryptoSessionsState <- Tox.newSessionsState crypto Tox.defaultUnRecHook Tox.defaultCryptoDataHooks
(mbtox,quitTox,toxdhts,toxips,taddrs) <- case porttox opts of
"" -> return (Nothing,return (), Map.empty, return [],[])
toxport -> do
addrTox <- getBindAddress toxport (ip6tox opts)
hPutStrLn stderr $ "Supplied key: " ++ show (fmap (Tox.key2id . toPublic) (dhtkey opts))
tox <- Tox.newTox keysdb
addrTox
(Just netCryptoSessionsState)
(dhtkey opts)
(announceToxConnection (xmppEventChannel sv) addrTox)
(quitTox, toxStrap4, toxStrap6) <- Tox.forkTox tox
toxSearches <- atomically $ newTVar Map.empty
let toxDHT bkts wantip = DHT
{ dhtBuckets = bkts (Tox.toxRouting tox)
, dhtPing = Map.fromList
[ ("ping", DHTPing
{ pingQuery = noArgPing $ fmap (bool Nothing (Just ())) . Tox.ping (Tox.toxDHT tox)
, pingShowResult = show
})
, ("cookie", DHTPing
{ pingQuery = \case
[keystr] | Just mykey <- readMaybe keystr
-> Tox.cookieRequest (Tox.toxCryptoKeys tox)
(Tox.toxDHT tox)
(Tox.id2key mykey)
_ -> const $ return Nothing
, pingShowResult = show
})]
, dhtQuery = Map.fromList
[ ("node", DHTQuery
{ qsearch = (Tox.nodeSearch $ Tox.toxDHT tox)
, qhandler = (\ni -> fmap Tox.unwrapNodes
. Tox.getNodesH (Tox.toxRouting tox) ni
. Tox.GetNodes)
, qshowR = show -- NodeInfo
, qshowTok = (const Nothing)
})
, ("toxid", DHTQuery
{ qsearch = (Tox.toxidSearch (Tox.onionTimeout tox)
(Tox.toxCryptoKeys tox)
(Tox.toxOnion tox))
, qhandler = -- qhandler :: ni -> nid -> IO ([ni], [r], tok)
(\ni nid ->
Tox.unwrapAnnounceResponse Nothing
<$> clientAddress (Tox.toxDHT tox) Nothing
<*> Tox.announceH (Tox.toxRouting tox)
(Tox.toxTokens tox)
(Tox.toxAnnouncedKeys tox)
(Tox.OnionDestination Tox.SearchingAlias ni Nothing)
(Tox.AnnounceRequest zeros32 nid Tox.zeroID))
, qshowR = show -- Rendezvous
, qshowTok = Just . show -- Nonce32
})
]
, dhtParseId = readEither :: String -> Either String Tox.NodeId
, dhtSearches = toxSearches
, dhtFallbackNodes = return []
, dhtAnnouncables = Map.fromList
[ ("toxid", DHTAnnouncable { announceSendData = \pubkey token -> \case
Just ni ->
Tox.putRendezvous
(Tox.onionTimeout tox)
(Tox.toxCryptoKeys tox)
(Tox.toxOnion tox)
(pubkey :: PublicKey)
(token :: Nonce32)
ni
Nothing -> return Nothing
, announceParseAddress = readEither
, announceParseToken = const $ readEither
, announceParseData = fmap Tox.id2key . readEither
, qresultAddr = Tox.key2id -- toxid
-- For peers we are announcing ourselves to, if we are not
-- announced to them toxcore tries every 3 seconds to
-- announce ourselves to them until they return that we
-- have announced ourselves to, then toxcore sends an
-- announce request packet every 15 seconds to see if we
-- are still announced and re announce ourselves at the
-- same time. The timeout of 15 seconds means a `ping_id`
-- received in the last packet will not have had time to
-- expire (20 second minimum timeout) before it is resent
-- 15 seconds later. Toxcore sends every announce packet
-- with the `ping_id` previously received from that peer
-- with the same path (if possible).
, announceInterval = 15
})
, ("dhtkey", DHTAnnouncable { announceSendData = \pubkey () -> \case
Just addr -> do
dkey <- Tox.getContactInfo tox
sendMessage
(Tox.toxToRoute tox)
(addr :: Tox.AnnouncedRendezvous)
(pubkey,Tox.OnionDHTPublicKey dkey)
return $ Just ()
Nothing -> return Nothing
, announceParseAddress = readEither
, announceParseToken = \_ _ -> return ()
, announceParseData = fmap Tox.id2key . readEither
, qresultAddr = Tox.key2id
-- We send this packet every 30 seconds if there is more
-- than one peer (in the 8) that says they our friend is
-- announced on them. This packet can also be sent through
-- the DHT module as a DHT request packet (see DHT) if we
-- know the DHT public key of the friend and are looking
-- for them in the DHT but have not connected to them yet.
-- 30 second is a reasonable timeout to not flood the
-- network with too many packets while making sure the
-- other will eventually receive the packet. Since packets
-- are sent through every peer that knows the friend,
-- resending it right away without waiting has a high
-- likelihood of failure as the chances of packet loss
-- happening to all (up to to 8) packets sent is low.
--
, announceInterval = 30
})
, ("friend", DHTAnnouncable { announceSendData = \pubkey nospam -> \case
Just addr -> do
let fr = Tox.FriendRequest nospam txt
-- nospam = 0xD64A8B00
txt = "Testing Friend Request!"
sendMessage
(Tox.toxToRoute tox)
(addr :: Tox.AnnouncedRendezvous)
(pubkey,Tox.OnionFriendRequest fr)
return $ Just ()
Nothing -> return Nothing
, announceParseAddress = readEither
, announceParseData = fmap Tox.id2key . readEither
, announceParseToken = \pubkey nospamstr -> do
Tox.NoSpam nospam chksum <- readEither nospamstr
maybe (Right ())
(Tox.verifyChecksum pubkey)
chksum
return nospam
, qresultAddr = Tox.key2id
-- Friend requests are sent with exponentially increasing
-- interval of 2 seconds, 4 seconds, 8 seconds, etc... in
-- toxcore. This is so friend requests get resent but
-- eventually get resent in intervals that are so big that
-- they essentially expire. The sender has no way of
-- knowing if a peer refuses a friend requests which is why
-- friend requests need to expire in some way. Note that
-- the interval is the minimum timeout, if toxcore cannot
-- send that friend request it will try again until it
-- manages to send it. One reason for not being able to
-- send the friend request would be that the onion has not
-- found the friend in the onion and so cannot send an
-- onion data packet to them.
--
-- TODO: Support exponential backoff behavior. For now, setting
-- interval to 8 seconds.
, announceInterval = 8
})]
, dhtSecretKey = return $ Just $ transportSecret (Tox.toxCryptoKeys tox)
, dhtBootstrap = case wantip of
Want_IP4 -> toxStrap4
Want_IP6 -> toxStrap6
}
dhts = Map.fromList $
("tox4", toxDHT Tox.routing4 Want_IP4)
: if ip6tox opts
then [ ("tox6", toxDHT Tox.routing6 Want_IP6) ]
else []
ips :: IO [SockAddr]
ips = readExternals Tox.nodeAddr [ Tox.routing4 $ Tox.toxRouting tox
, Tox.routing6 $ Tox.toxRouting tox ]
return (Just tox, quitTox, dhts, ips, [addrTox])
_ <- UPNP.requestPorts "dht-client" $ map (Datagram,) $ baddrs ++ taddrs
let dhts = Map.union btdhts toxdhts
(waitForSignal, checkQuit) <- do
signalQuit <- atomically $ newTVar False
let quitCommand = atomically $ writeTVar signalQuit True
installHandler sigTERM (CatchOnce (atomically $ writeTVar signalQuit True)) Nothing
installHandler sigINT (CatchOnce (atomically $ writeTVar signalQuit True)) Nothing
let defaultToxData = do
toxids <- atomically $ newTVar []
rster <- newRoster
orouter <- newOnionRouter (hPutStrLn stderr)
return (toxids, rster, orouter)
(toxids,rstr,orouter) <- fromMaybe defaultToxData $ do
tox <- mbtox
return $ return ( userKeys (Tox.toxCryptoKeys tox), Tox.toxRoster tox, Tox.toxOnionRoutes tox )
let session = clientSession0 $ Session
{ netname = concat $ take 1 $ Map.keys dhts -- initial default DHT
, dhts = dhts -- all DHTs
, signalQuit = quitCommand
, swarms = swarms
, cryptosessions = netCryptoSessionsState
, toxkeys = keysdb
, userkeys = toxids
, roster = rstr
, connectionManager = ConnectionManager conns
, onionRouter = orouter
, externalAddresses = liftM2 (++) btips toxips
, announcer = announcer
}
srv <- streamServer (withSession session) (SockAddrUnix "dht.sock")
return ( do atomically $ readTVar signalQuit >>= check
quitListening srv
, readTVar signalQuit >>= check
)
forM_ (Map.toList dhts)
$ \(netname, dht@DHT { dhtBuckets = bkts
, dhtQuery = qrys
, dhtPing = pings
, dhtFallbackNodes = getBootstrapNodes
, dhtBootstrap = bootstrap }) -> 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
ping = maybe (const $ return False)
(\DHTPing{pingQuery} -> fmap (maybe False (const True)) . pingQuery [])
$ Map.lookup "ping" pings
fork $ do
myThreadId >>= flip labelThread ("bootstrap."++netname)
bootstrap btSaved fallbackNodes
return ()
forkIO $ do
myThreadId >>= flip labelThread "XMPP.stanzas"
let console = cwPresenceChan <$> consoleWriter state
fix $ \loop -> do
what <- atomically
$ orElse (do (client,stanza) <- maybe retry takeTMVar console
return $ do informClientPresence0 state Nothing client stanza
loop)
(checkQuit >> return (return ()))
what
hPutStrLn stderr "Started XMPP server."
-- Wait for DHT and XMPP threads to finish.
-- Use ResourceT to clean-up XMPP server.
waitForSignal
stopAnnouncer announcer
quitBt
quitTox
swarmsdb <- atomically $ readTVar (Mainline.contactInfo swarms)
L.writeFile "bt-peers.dat" $ S.encodeLazy swarmsdb
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