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{-# LANGUAGE OverloadedStrings #-}
import Control.Monad.Trans.Resource (runResourceT)
import Control.Monad.Trans (lift)
import Control.Monad.IO.Class (liftIO)
import Control.Monad.Fix (fix)
import Control.Monad
import Control.Concurrent (forkIO)
import Control.Concurrent.STM
-- import Control.Concurrent.STM.TChan
import Network.Socket
import XMPPTypes (withPort)
import Text.Printf
import System.Posix.Signals
import Data.ByteString (ByteString)
import qualified Data.ByteString.Char8 as Strict8
-- import qualified Data.ByteString.Lazy.Char8 as Lazy8
import Data.Conduit
import qualified Data.Conduit.List as CL
import qualified Data.Conduit.Binary as CB
import Data.Conduit.Blaze (builderToByteStringFlush)
import qualified Text.XML.Stream.Render as XML
import qualified Text.XML.Stream.Parse as XML
import Data.XML.Types as XML
import Data.Maybe (catMaybes,fromJust)
import Data.Monoid ( (<>) )
import Data.Text (Text)
import qualified Data.Text as Text (pack)
import qualified Control.Concurrent.STM.UpdateStream as Slotted
import ControlMaybe
import Nesting
import EventUtil
import Server
addrToText :: SockAddr -> Text
addrToText (addr@(SockAddrInet _ _)) = Text.pack $ stripColon (show addr)
where stripColon s = pre where (pre,port) = break (==':') s
addrToText (addr@(SockAddrInet6 _ _ _ _)) = Text.pack $ stripColon (show addr)
where stripColon s = if null bracket then pre else pre ++ "]"
where
(pre,bracket) = break (==']') s
wlog s = putStrLn s
where _ = s :: String
wlogb s = Strict8.putStrLn s
control sv = atomically . putTMVar (serverCommand sv)
xmlStream :: ReadCommand -> WriteCommand -> ( Source IO XML.Event
, Sink (Flush XML.Event) IO () )
xmlStream conread conwrite = (xsrc,xsnk)
where
xsrc = src $= XML.parseBytes XML.def
xsnk = -- XML.renderBytes XML.def =$ snk
XML.renderBuilderFlush XML.def
=$= builderToByteStringFlush
=$= discardFlush
=$ snk
where
discardFlush :: Monad m => ConduitM (Flush a) a m ()
discardFlush = awaitForever $ \x -> do
let unchunk (Chunk a) = a
ischunk (Chunk _) = True
ischunk _ = False
when (ischunk x) $ yield (unchunk x)
src = do
v <- lift conread
maybe (return ()) -- lift . wlog $ "conread: Nothing")
(\v -> yield v >> src)
v
snk = awaitForever $ liftIO . conwrite
type FlagCommand = STM Bool
type ReadCommand = IO (Maybe ByteString)
type WriteCommand = ByteString -> IO Bool
data Stanza
= UnrecognizedStanza { stanzaChan :: TChan (Maybe XML.Event) }
| PingStanza { stanzaId :: Maybe Text
, stanzaChan :: TChan (Maybe XML.Event) }
| PongStanza { -- stanzaId :: Maybe Text
stanzaChan :: TChan (Maybe XML.Event) }
copyToChannel f chan = awaitForever copy
where
copy x = do
liftIO . atomically $ writeTChan chan (f x)
yield x
prettyPrint prefix xs =
liftIO $
CL.sourceList xs
$= XML.renderBytes (XML.def { XML.rsPretty=True })
=$= CB.lines
$$ CL.mapM_ (wlogb . (prefix <>))
grockStanzaIQGet :: Monad m => XML.Event -> NestingXML o m (Maybe (TChan (Maybe Event) -> Stanza))
grockStanzaIQGet stanza = do
let mid = lookupAttrib "id" (tagAttrs stanza)
-- mfrom = lookupAttrib "from" (tagAttrs stanza)
mtag <- nextElement
flip (maybe $ return Nothing) mtag $ \tag -> do
case tagName tag of
"{urn:xmpp:ping}ping" -> do
return $ Just (PingStanza mid)
_ -> return Nothing
ioWriteChan c v = liftIO . atomically $ writeTChan c v
xmppInbound :: ConnectionKey -> FlagCommand
-> Source IO XML.Event
-> TChan Stanza
-> TChan Stanza
-> Sink XML.Event IO ()
xmppInbound k pingflag src stanzas output = doNestingXML $ do
withXML $ \begindoc -> do
when (begindoc==EventBeginDocument) $ do
whenJust nextElement $ \xml -> do
withJust (elementAttrs "stream" xml) $ \stream_attrs -> do
fix $ \loop -> do
-- liftIO . wlog $ "waiting for stanza."
chan <- liftIO $ atomically newTChan
whenJust nextElement $ \stanza -> do
stanza_lvl <- nesting
ioWriteChan chan (Just stanza)
copyToChannel Just chan =$= do
dispatch <-
case () of
_ | stanza `isServerIQOf` "get" -> grockStanzaIQGet stanza
_ -> return $ Just UnrecognizedStanza
flip (maybe $ return ()) dispatch $ \dispatch ->
case dispatch chan of
d@(PingStanza {}) -> do
let to = "todo"
from = "todo"
let pong = peerPong (stanzaId d) to from
pongChan <- liftIO $ atomically newTChan
ioWriteChan output (PongStanza pongChan)
mapM_ (ioWriteChan pongChan . Just) pong
ioWriteChan pongChan Nothing
disp -> ioWriteChan stanzas disp
awaitCloser stanza_lvl
ioWriteChan chan Nothing
loop
chanContents :: TChan x -> IO [x]
chanContents ch = do
x <- atomically $ do
bempty <- isEmptyTChan ch
if bempty
then return Nothing
else fmap Just $ readTChan ch
maybe (return [])
(\x -> do
xs <- chanContents ch
return (x:xs))
x
readUntilNothing :: TChan (Maybe x) -> IO [x]
readUntilNothing ch = do
x <- atomically $ readTChan ch
maybe (return [])
(\x -> do
xs <- readUntilNothing ch
return (x:xs))
x
greetPeer =
[ EventBeginDocument
, EventBeginElement (streamP "stream")
[ attr "xmlns" "jabber:server"
, attr "version" "1.0"
]
]
goodbyePeer =
[ EventEndElement (streamP "stream")
, EventEndDocument
]
data XMPPState
= PingSlot
deriving (Eq,Ord)
peerPing :: Maybe Text -> Text -> Text -> [XML.Event]
peerPing mid to from =
[ EventBeginElement "{jabber:server}iq"
$ (case mid of
Just c -> (("id",[ContentText c]):)
_ -> id )
[ ("type",[ContentText "get"])
, attr "to" to
, attr "from" from
]
, EventBeginElement "{urn:xmpp:ping}ping" []
, EventEndElement "{urn:xmpp:ping}ping"
, EventEndElement "{jabber:server}iq" ]
peerPong mid to from =
[ EventBeginElement "{jabber:server}iq"
$(case mid of
Just c -> (("id",[ContentText c]):)
_ -> id)
[ attr "type" "result"
, attr "to" to
, attr "from" from
]
, EventEndElement "{jabber:server}iq"
]
forkConnection :: ConnectionKey
-> FlagCommand
-> Source IO XML.Event
-> Sink (Flush XML.Event) IO ()
-> TChan Stanza
-> IO (TChan Stanza)
forkConnection k pingflag src snk stanzas = do
rdone <- atomically newEmptyTMVar
slots <- atomically $ Slotted.new isEventBeginElement isEventEndElement
needsFlush <- atomically $ newTVar False
let _ = slots :: Slotted.UpdateStream XMPPState XML.Event
let greet_src = do
CL.sourceList greetPeer =$= CL.map Chunk
yield Flush
slot_src = do
what <- lift . atomically $ foldr1 orElse
[Slotted.pull slots >>= \x -> do
writeTVar needsFlush True
return $ do
yield (Chunk x)
slot_src
,do Slotted.isEmpty slots >>= check
readTVar needsFlush >>= check
writeTVar needsFlush False
return $ do
yield Flush
slot_src
,readTMVar rdone >> return (return ())
]
what
forkIO $ do (greet_src >> slot_src) $$ snk
wlog $ "end post-queue fork: " ++ show k
output <- atomically newTChan
forkIO $ do
-- mapM_ (atomically . Slotted.push slots Nothing) greetPeer
fix $ \loop -> do
what <- atomically $ foldr1 orElse
[readTChan output >>= \stanza -> return $ do
let xchan = stanzaChan stanza
fix $ \inner -> do
what <- atomically $ orElse
(readTChan xchan >>= \mxml -> return $ do
case mxml of
Just xml -> do
atomically $ Slotted.push slots Nothing xml
inner
Nothing -> loop)
(readTMVar rdone >> return (return ()))
what
,do pingflag >>= check
return $ do
let to = addrToText (callBackAddress k)
from = "todo" -- Look it up from Server object
-- or pass it with Connection event.
mid = Just "ping"
mapM_ (atomically . Slotted.push slots (Just $ PingSlot))
(peerPing mid to from)
loop
,readTMVar rdone >> return (return ())
]
what
wlog $ "end pre-queue fork: " ++ show k
forkIO $ do
-- src $$ awaitForever (lift . putStrLn . takeWhile (/=' ') . show)
src $$ xmppInbound k pingflag src stanzas output
atomically $ putTMVar rdone ()
wlog $ "end reader fork: " ++ show k
return output
data ConnectionKey
= PeerKey { callBackAddress :: SockAddr }
| ClientKey { localAddress :: SockAddr }
deriving (Show, Ord, Eq)
{-
data Peer = Peer
{ peerWanted :: TVar Bool -- ^ False when this peer is on a you-call-me basis
, peerState :: TVar PeerState
}
data PeerState
= PeerPendingConnect UTCTime
| PeerPendingAccept UTCTime
| PeerConnected (TChan Stanza)
-}
peerKey (sock,addr) = do
peer <-
sIsConnected sock >>= \c ->
if c then getPeerName sock -- addr is normally socketName
else return addr -- Weird hack: addr is would-be peer name
return $ PeerKey (peer `withPort` fromIntegral peerport)
clientKey (sock,addr) = return $ ClientKey addr
monitor sv params = do
chan <- return $ serverEvent sv
stanzas <- atomically newTChan
fix $ \loop -> do
action <- atomically $ foldr1 orElse
[ readTChan chan >>= \(k,e) -> return $ do
case e of
Connection pingflag conread conwrite -> do
wlog $ tomsg k "Connection"
let (xsrc,xsnk) = xmlStream conread conwrite
forkConnection k pingflag xsrc xsnk stanzas
return ()
ConnectFailure addr -> do
wlog $ tomsg k "ConnectFailure"
EOF -> wlog $ tomsg k "EOF"
HalfConnection In -> do
wlog $ tomsg k "ReadOnly"
control sv (Connect (callBackAddress k) params)
HalfConnection Out -> wlog $ tomsg k "WriteOnly"
RequiresPing -> wlog $ tomsg k "RequiresPing"
_ -> return ()
, readTChan stanzas >>= \stanza -> return $ do
xs <- readUntilNothing (stanzaChan stanza)
wlog ""
prettyPrint "STANZA: " xs
]
action
loop
where
tomsg k str = printf "%12s %s" str (show k)
where
_ = str :: String
peerport = 5269
clientport = 5222
main = runResourceT $ do
sv <- server
lift $ do
peer_params <- return (connectionDefaults peerKey)
{ pingInterval = 10000
, timeout = 10000
, duplex = False }
client_params <- return $ connectionDefaults clientKey
let testaddr0 = "fd97:ca88:fa7c:b94b:c8b8:fad4:1021:a54d"
testaddr<- fmap (addrAddress . head) $
getAddrInfo (Just $ defaultHints { addrFlags = [ AI_CANONNAME ]})
(Just testaddr0)
(Just "5269")
putStrLn $ "Connecting to "++show testaddr
control sv (ConnectWithEndlessRetry testaddr peer_params 2000)
forkIO $ monitor sv peer_params
control sv (Listen peerport peer_params)
-- control sv (Listen clientport client_params)
-- atomically $ newEmptyTMVar >>= readTMVar -- Wait for control-c
quitVar <- newEmptyTMVarIO
installHandler sigTERM (CatchOnce (atomically $ putTMVar quitVar True)) Nothing
installHandler sigINT (CatchOnce (atomically $ putTMVar quitVar True)) Nothing
quitMessage <- atomically $ takeTMVar quitVar
wlog "goodbye."
return ()
|