{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE ViewPatterns #-}
module XMPP
( module XMPPTypes
, module SocketLike
, listenForXmppClients
, listenForRemotePeers
, seekRemotePeers
, quitListening
) where
import ServerC
import XMPPTypes
import SocketLike
import ByteStringOperators
import ControlMaybe
import Data.HList
import Network.Socket
( Family
, connect
, socketToHandle
, sClose
, Socket(..)
, socket
, SocketType(..)
)
import Network.BSD
( PortNumber
, getHostName
, hostName
, hostAliases
, getProtocolNumber
)
import System.IO
( BufferMode(..)
, IOMode(..)
, hSetBuffering
)
import Control.Exception
( bracketOnError )
import Control.Concurrent.STM
import Data.Conduit
import qualified Data.Conduit.List as CL
import qualified Data.Conduit.Binary as CB
import Data.ByteString (ByteString)
import qualified Data.ByteString.Char8 as S (pack,putStr,putStrLn,append)
import qualified Data.ByteString.Lazy.Char8 as L
( putStrLn
, fromChunks
, unlines
, hPutStrLn
)
import Control.Concurrent (forkIO,killThread)
import Control.Concurrent.Async
import Control.Exception (handle,SomeException(..),finally)
import Control.Monad.IO.Class
import Control.Monad.Trans.Class
import Control.Monad.Trans.Maybe
import Todo
import Control.Monad as Monad
import Text.XML.Stream.Parse (parseBytes,content)
import Text.XML.Stream.Render
import Data.XML.Types as XML
import Data.Text.Encoding as S (decodeUtf8,encodeUtf8)
import Data.Text.Lazy.Encoding as L (decodeUtf8,encodeUtf8)
import Data.Text.Lazy (toStrict)
import GetHostByAddr
import Data.Monoid
import qualified Data.Sequence as Seq
import Data.Foldable (toList)
#ifdef RENDERFLUSH
import Data.Conduit.Blaze
#endif
import Data.List (find)
import qualified Text.Show.ByteString as L
import NestingXML
import Data.Set as Set (Set)
import qualified Data.Set as Set
import qualified Data.Map as Map
import GHC.Conc
( threadStatus
, ThreadStatus(..)
)
data Commands = Send [XML.Event] | QuitThread
deriving Prelude.Show
getNamesForPeer :: Peer -> IO [ByteString]
getNamesForPeer LocalHost = fmap ((:[]) . S.pack) getHostName
getNamesForPeer peer@(RemotePeer addr) = do
ent <- getHostByAddr addr -- AF_UNSPEC addr
let names = hostName ent : hostAliases ent
return . map S.pack $ names
xmlifyPresenceForClient :: Presence -> IO [XML.Event]
xmlifyPresenceForClient (Presence jid stat) = do
let n = name jid
rsc = resource jid
names <- getNamesForPeer (peer jid)
let tostr p = L.decodeUtf8 $ n <$++> "@" ++> L.fromChunks [p] <++?> "/" <++$> rsc
jidstrs = fmap (toStrict . tostr) names
return (concatMap presenceEvents jidstrs)
where
presenceEvents jidstr =
[ EventBeginElement "{jabber:client}presence" (("from",[ContentText jidstr]):typ stat)
, EventBeginElement "{jabber:client}show" []
, EventContent (ContentText . shw $ stat)
, EventEndElement "{jabber:client}show"
, EventEndElement "{jabber:client}presence"
]
typ Offline = [("type",[ContentText "unavailable"])]
typ _ = []
shw Available = "chat"
shw Away = "away"
shw Offline = "away" -- Is this right?
prefix ## name = Name name Nothing (Just prefix)
streamP name = Name name (Just "http://etherx.jabber.org/streams") (Just "stream")
greet host =
[ EventBeginDocument
, EventBeginElement (streamP "stream")
[("from",[ContentText host])
,("id",[ContentText "someid"])
,("xmlns",[ContentText "jabber:client"])
,("xmlns:stream",[ContentText "http://etherx.jabber.org/streams"])
,("version",[ContentText "1.0"])
]
, EventBeginElement (streamP "features") []
, EventBeginElement "{urn:ietf:params:xml:ns:xmpp-bind}bind" []
, EventEndElement "{urn:ietf:params:xml:ns:xmpp-bind}bind"
{-
-- , " "
, " "
-- , " DIGEST-MD5"
, " PLAIN"
, " "
-}
, EventEndElement (streamP "features")
]
-- type Consumer i m r = forall o. ConduitM i o m r
mawait :: Monad m => MaybeT (ConduitM i o m) i
mawait = MaybeT await
-- Note: This function ignores name space qualification
elementAttrs expected (EventBeginElement name attrs)
| nameLocalName name==expected
= return attrs
elementAttrs _ _ = mzero
eventIsBeginElement (EventBeginElement _ _) = True
eventIsBeginElement _ = False
eventIsEndElement (EventEndElement _) = True
eventIsEndElement _ = False
filterMapElement::
(Monad m, MonadPlus mp) =>
(Event -> mp a) -> Event -> mp a -> MaybeT (ConduitM Event o m) (mp a)
filterMapElement ret opentag empty = loop (empty `mplus` ret opentag) 1
where
loop ts 0 = return ts
loop ts cnt = do
tag <- mawait
let ts' = mplus ts (ret tag)
case () of
_ | eventIsEndElement tag -> loop ts' (cnt-1)
_ | eventIsBeginElement tag -> loop ts' (cnt+1)
_ -> loop ts' cnt
gatherElement ::
(Monad m, MonadPlus mp) =>
Event -> mp Event -> NestingXML o m (mp Event)
gatherElement opentag empty = loop (empty `mplus` return opentag) 1
where
loop ts 0 = return ts
loop ts cnt = do
maybeXML (return ts) $ \tag -> do
let ts' = mplus ts (return tag)
case () of
_ | eventIsEndElement tag -> loop ts' (cnt-1)
_ | eventIsBeginElement tag -> loop ts' (cnt+1)
_ -> loop ts' cnt
{-
sourceStanza :: Monad m => Event -> ConduitM Event Event m ()
sourceStanza opentag = yield opentag >> loop 1
where
loop 0 = return ()
loop cnt = do
e <- await
let go tag cnt = yield tag >> loop cnt
case e of
Just tag | eventIsEndElement tag -> go tag (cnt-1)
Just tag | eventIsBeginElement tag -> go tag (cnt+1)
Just tag -> go tag cnt
Nothing -> return ()
-}
voidMaybeT body = (>> return ()) . runMaybeT $ body
fixMaybeT f = (>> return ()) . runMaybeT . fix $ f
iq_bind_reply id jid =
[ EventBeginElement "{jabber:client}iq" [("type",[ContentText "result"]),("id",[ContentText id])]
, EventBeginElement "{urn:ietf:params:xml:ns:xmpp-bind}bind"
[("xmlns",[ContentText "urn:ietf:params:xml:ns:xmpp-bind"])]
, EventBeginElement "{urn:ietf:params:xml:ns:xmpp-bind}jid" []
, EventContent (ContentText jid)
, EventEndElement "{urn:ietf:params:xml:ns:xmpp-bind}jid"
, EventEndElement "{urn:ietf:params:xml:ns:xmpp-bind}bind"
, EventEndElement "{jabber:client}iq"
]
uncontent cs = head $ map getText cs
where
getText (ContentText x) = x
getText (ContentEntity x ) = x
tagAttrs (EventBeginElement _ xs) = xs
tagAttrs _ = []
tagName (EventBeginElement n _) = n
tagName _ = ""
handleIQSetBind session cmdChan stanza_id = do
whenJust nextElement $ \child -> do
let unhandledBind = liftIO $ putStrLn $ "unhandled-bind: "++show child
case tagName child of
"{urn:ietf:params:xml:ns:xmpp-bind}resource"
-> do
rsc <- lift content
liftIO $ do
putStrLn $ "iq-set-bind-resource " ++ show rsc
setResource session (L.fromChunks [S.encodeUtf8 rsc])
jid <- getJID session
atomically $ writeTChan cmdChan (Send $ iq_bind_reply stanza_id (toStrict $ L.decodeUtf8 $ L.show jid) )
_ -> unhandledBind
iq_session_reply host stanza_id =
[ EventBeginElement "{jabber:client}iq"
[("id",[ContentText stanza_id])
,("from",[ContentText host])
,("type",[ContentText "result"])
]
, EventEndElement "{jabber:client}iq"
]
handleIQSetSession session cmdChan stanza_id = do
host <- liftIO $ do
jid <- getJID session
names <- getNamesForPeer (peer jid)
return (S.decodeUtf8 . head $ names)
liftIO . atomically . writeTChan cmdChan . Send $ iq_session_reply host stanza_id
handleIQSet session cmdChan tag = do
withJust (lookupAttrib "id" (tagAttrs tag)) $ \stanza_id -> do
whenJust nextElement $ \child -> do
let unhandledSet = liftIO $ putStrLn ("iq-set: "++show (stanza_id,child))
case tagName child of
"{urn:ietf:params:xml:ns:xmpp-bind}bind"
-> handleIQSetBind session cmdChan stanza_id
"{urn:ietf:params:xml:ns:xmpp-session}session"
-> handleIQSetSession session cmdChan stanza_id
_ -> unhandledSet
matchAttrib name value attrs =
case find ( (==name) . fst) attrs of
Just (_,[ContentText x]) | x==value -> True
Just (_,[ContentEntity x]) | x==value -> True
_ -> False
lookupAttrib name attrs =
case find ( (==name) . fst) attrs of
Just (_,[ContentText x]) -> Just x
Just (_,[ContentEntity x]) -> Just x
_ -> Nothing
iqTypeSet = "set"
iqTypeGet = "get"
iqTypeResult = "result"
iqTypeError = "error"
isIQOf (EventBeginElement name attrs) testType
| name=="{jabber:client}iq"
&& matchAttrib "type" testType attrs
= True
isIQOf _ _ = False
iq_service_unavailable host iq_id mjid req =
[ EventBeginElement "{jabber:client}iq"
[("type",[ContentText "error"])
,("id",[ContentText iq_id])
-- , TODO: set "from" if isJust mjid
]
, EventBeginElement req []
, EventEndElement req
, EventBeginElement "{jabber:client}error" [("type",[ContentText "cancel"])]
, EventBeginElement "{urn:ietf:params:xml:ns:xmpp-stanzas}service-unavailable" []
, EventEndElement "{urn:ietf:params:xml:ns:xmpp-stanzas}service-unavailable"
, EventEndElement "{jabber:client}error"
, EventEndElement "{jabber:client}iq"
]
handleIQGet session cmdChan tag = do
withJust (lookupAttrib "id" (tagAttrs tag)) $ \stanza_id -> do
whenJust nextElement $ \child -> do
host <- liftIO $ do
jid <- getJID session
names <- getNamesForPeer (peer jid)
return (S.decodeUtf8 . head $ names)
let unhandledGet req = do
liftIO $ putStrLn ("iq-get: "++show (stanza_id,child))
liftIO . atomically . writeTChan cmdChan . Send $ iq_service_unavailable host stanza_id Nothing req
case tagName child of
-- "{http://jabber.org/protocol/disco#items}query" -> liftIO $ putStrLn "iq-get-query-items"
"{urn:xmpp:ping}ping" -> liftIO $ do
let mjid = lookupAttrib "from" (tagAttrs tag)
let pong = [ EventBeginElement "{jabber:client}iq"
$ (case mjid of
Just jid -> (("to",[ContentText jid]):)
_ -> id)
[("type",[ContentText "result"])
,("id",[ContentText stanza_id])
,("from",[ContentText host])
]
, EventEndElement "{jabber:client}iq"
]
atomically . writeTChan cmdChan . Send $ pong
req -> unhandledGet req
fromClient :: (MonadThrow m,MonadIO m, XMPPSession session) =>
session -> TChan Commands -> Sink XML.Event m ()
fromClient session cmdChan = doNestingXML $ do
let log = liftIO . L.putStrLn . ("(C) " <++>)
send = liftIO . atomically . writeTChan cmdChan . Send
withXML $ \begindoc -> do
when (begindoc==EventBeginDocument) $ do
log "begin-doc"
withXML $ \xml -> do
withJust (elementAttrs "stream" xml) $ \stream_attrs -> do
log $ "stream atributes: " <++> bshow stream_attrs
host <- liftIO $ do
jid <- getJID session
names <- getNamesForPeer (peer jid)
return (S.decodeUtf8 . head $ names)
send $ greet host
fix $ \loop -> do
log "waiting for stanza."
whenJust nextElement $ \stanza -> do
stanza_lvl <- nesting
let unhandledStanza = do
xs <- gatherElement stanza Seq.empty
prettyPrint "unhandled-C: " (toList xs)
case () of
_ | stanza `isIQOf` iqTypeSet -> handleIQSet session cmdChan stanza
_ | stanza `isIQOf` iqTypeGet -> handleIQGet session cmdChan stanza
_ | otherwise -> unhandledStanza
awaitCloser stanza_lvl
loop
log $ "end of stream"
withXML $ \xml -> do
log $ "end-of-document: " <++> bshow xml
prettyPrint prefix xs =
liftIO $ do
CL.sourceList xs $= renderBytes (def { rsPretty=True }) =$= CB.lines $$ CL.mapM_ (S.putStrLn . (prefix `S.append`))
toClient :: MonadIO m => TChan Presence -> TChan Commands -> Source m [XML.Event]
toClient pchan cmdChan = fix $ \loop -> do
let send xs = yield xs >> prettyPrint ">C: " xs
event <- liftIO . atomically $
orElse (fmap Left $ readTChan pchan)
(fmap Right $ readTChan cmdChan)
case event of
Right QuitThread -> return ()
Right (Send xs) -> send xs >> loop
Left presence -> do
xs <- liftIO $ xmlifyPresenceForClient presence
send xs
loop
handleClient
:: (SocketLike sock, HHead l (XMPPClass session),
XMPPSession session) =>
HCons sock (HCons t l) -> Source IO ByteString -> Sink ByteString IO () -> IO ()
handleClient st src snk = do
let HCons sock (HCons _ st') = st
session_factory = hHead st'
pname <- getPeerName sock
session <- newSession session_factory sock
Prelude.putStrLn $ "PEER NAME: "++Prelude.show pname
pchan <- subscribe session Nothing
cmdChan <- atomically newTChan
#ifdef RENDERFLUSH
writer <- async ( toClient pchan cmdChan
$$ flushList
=$= renderBuilderFlush def
=$= builderToByteStringFlush
=$= discardFlush
=$ snk )
#else
writer <- async ( toClient pchan cmdChan $$ renderChunks =$ snk )
#endif
finally ( src $= parseBytes def $$ fromClient session cmdChan )
$ do
atomically $ writeTChan cmdChan QuitThread
wait writer
closeSession session
listenForXmppClients ::
(HList l, HHead l (XMPPClass session), HExtend e1 l2 l1,
HExtend e l1 (HCons PortNumber l), XMPPSession session) =>
Family -> e1 -> e -> l2 -> IO ServerHandle
listenForXmppClients addr_family session_factory port st = do
doServer (addr_family .*. port .*. session_factory .*. st) handleClient
#ifdef RENDERFLUSH
flushList :: Monad m => ConduitM [a] (Flush a) m ()
flushList = fixMaybeT $ \loop -> do
xs <- mawait
lift ( CL.sourceList xs $$ CL.mapM_ (yield . Chunk) )
lift ( yield Flush )
loop
discardFlush :: Monad m => ConduitM (Flush a) a m ()
discardFlush = fixMaybeT $ \loop -> do
x <- mawait
let unchunk (Chunk a) = a
ischunk (Chunk _) = True
ischunk _ = False
lift . when (ischunk x) $ yield (unchunk x)
loop
#else
renderChunks :: (MonadUnsafeIO m, MonadIO m) => ConduitM [Event] ByteString m ()
renderChunks = fixMaybeT $ \loop -> do
xs <- mawait
lift . when (not . null $ xs) $ ( CL.sourceList xs $= renderBytes def $$ CL.mapM_ yield )
loop
#endif
listenForRemotePeers
:: (HList l, HHead l (XMPPClass session),
HExtend e l1 (HCons PortNumber l), HExtend e1 l2 l1,
XMPPSession session) =>
Family -> e1 -> e -> l2 -> IO ServerHandle
listenForRemotePeers addrfamily session_factory port st = do
doServer (addrfamily .*. port .*. session_factory .*. st) handlePeer
handlePeer
:: (SocketLike sock, HHead l (XMPPClass session),
XMPPSession session) =>
HCons sock (HCons t1 l) -> Source IO ByteString -> t -> IO ()
handlePeer st src snk = do
let HCons sock (HCons _ st') = st
session_factory = hHead st'
name <- fmap bshow $ getPeerName sock
L.putStrLn $ "(P) connected " <++> name
session <- newSession session_factory sock
finally ( src $= parseBytes def $$ fromPeer session )
$ do
L.putStrLn $ "(P) disconnected " <++> name
closeSession session
handlePeerPresence session stanza False = do
-- Offline
withJust (lookupAttrib "from" (tagAttrs stanza)) $ \jid -> do
peer_jid <- liftIO $ parseAddressJID (L.fromChunks [S.encodeUtf8 jid])
liftIO $ announcePresence session (Presence peer_jid Offline)
handlePeerPresence session stanza True = do
-- online (Available or Away)
let log = liftIO . L.putStrLn . ("(P) " <++>)
withJust (lookupAttrib "from" (tagAttrs stanza)) $ \jid -> do
pjid <- liftIO $ parseAddressJID (L.fromChunks [S.encodeUtf8 jid])
-- stat <- show element content
let parseChildren stat = do
child <- nextElement
case child of
Just tag | tagName tag=="{jabber:server}show"
-> fmap toStat (lift content)
Just tag | otherwise -> parseChildren stat
Nothing -> return stat
toStat "away" = Away
toStat "xa" = Away -- TODO: xa
toStat "dnd" = Away -- TODO: dnd
toStat "chat" = Available
stat' <- parseChildren Available
liftIO $ announcePresence session (Presence pjid stat')
log $ bshow (Presence pjid stat')
matchAttribMaybe name (Just value) attrs =
case find ( (==name) . fst) attrs of
Just (_,[ContentText x]) | x==value -> True
Just (_,[ContentEntity x]) | x==value -> True
_ -> False
matchAttribMaybe name Nothing attrs
| find ( (==name) . fst) attrs==Nothing
= True
matchAttribMaybe name Nothing attrs
| otherwise
= False
presenceTypeOffline = Just "unavailable"
presenceTypeOnline = Nothing
isPresenceOf (EventBeginElement name attrs) testType
| name=="{jabber:server}presence"
&& matchAttribMaybe "type" testType attrs
= True
isPresenceOf _ _ = False
fromPeer :: (MonadThrow m,MonadIO m, XMPPSession session) =>
session -> Sink XML.Event m ()
fromPeer session = doNestingXML $ do
let log = liftIO . L.putStrLn . ("(P) " <++>)
withXML $ \begindoc -> do
when (begindoc==EventBeginDocument) $ do
log "begin-doc"
withXML $ \xml -> do
withJust (elementAttrs "stream" xml) $ \stream_attrs -> do
log $ "stream atributes: " <++> bshow stream_attrs
fix $ \loop -> do
log "waiting for stanza."
whenJust nextElement $ \stanza -> do
stanza_lvl <- nesting
let unhandledStanza = do
xs <- gatherElement stanza Seq.empty
prettyPrint "P: " (toList xs)
case () of
_ | stanza `isPresenceOf` presenceTypeOnline
-> handlePeerPresence session stanza True
_ | stanza `isPresenceOf` presenceTypeOffline
-> handlePeerPresence session stanza False
_ -> unhandledStanza
awaitCloser stanza_lvl
loop
log $ "end of stream"
withXML $ \xml -> do
log $ "end-of-document: " <++> bshow xml
{-
seekRemotePeers :: XMPPConfig config =>
config -> TChan Presence -> IO ()
seekRemotePeers config chan = do
putStrLn "unimplemented: seekRemotePeers"
-- TODO
return ()
-}
data OutBoundMessage = OutBoundPresence Presence
deriving Prelude.Show
newServerConnections = atomically $ newTVar Map.empty
connect_to_server chan peer = (>> return ()) . runMaybeT $ do
let port = 5269 :: Int
connected <- liftIO . async $ connect' (peerAddr peer) port
-- We'll cache Presence notifications until the socket
-- is ready.
cached <- liftIO $ newIORef Map.empty
sock <- MaybeT . fix $ \loop -> do
e <- atomically $ orElse
(fmap Right $ waitSTM connected)
(fmap Left $ readTChan chan)
case e of
Left (OutBoundPresence (Presence jid Offline)) -> do
cached_map <- readIORef cached
writeIORef cached (Map.delete jid cached_map)
loop
Left (OutBoundPresence p@(Presence jid st)) -> do
cached_map <- readIORef cached
writeIORef cached (Map.insert jid st cached_map)
loop
{-
Left event -> do
L.putStrLn $ "REMOTE-OUT DISCARDED: " <++> bshow event
loop
-}
Right sock -> return sock
liftIO $ do
h <- socketToHandle sock ReadWriteMode
hSetBuffering h NoBuffering
let snk = packetSink h
cache <- fmap Map.assocs . readIORef $ cached
writeIORef cached Map.empty -- hint garbage collector: we're done with this
handleOutgoingToPeer (restrictSocket sock) cache chan snk
greetPeer =
[ EventBeginDocument
, EventBeginElement (streamP "stream")
[("xmlns",[ContentText "jabber:server"])
,("version",[ContentText "1.0"])
]
]
goodbyePeer =
[ EventEndElement (streamP "stream")
, EventEndDocument
]
toPeer sock cache chan = do
let -- log = liftIO . L.putStrLn . ("(>P) " <++>)
send xs = yield xs >> prettyPrint ">P: " xs
send greetPeer
forM_ cache $ \(jid,st) -> do
r <- lift $ xmlifyPresenceForPeer sock (Presence jid st)
send r
fix $ \loop -> do
event <- lift . atomically $ readTChan chan
case event of
OutBoundPresence p -> do
r <- lift $ xmlifyPresenceForPeer sock p
send r
loop
send goodbyePeer
handleOutgoingToPeer sock cache chan snk = do
#ifdef RENDERFLUSH
toPeer sock cache chan
$$ flushList
=$= renderBuilderFlush def
=$= builderToByteStringFlush
=$= discardFlush
=$ snk
#else
toPeer sock cache chan $$ renderChunks =$ snk
#endif
connect' :: SockAddr -> Int -> IO (Maybe Socket)
connect' addr port = do
proto <- getProtocolNumber "tcp"
{-
-- Given (host :: HostName) ...
let hints = defaultHints { addrFlags = [AI_ADDRCONFIG]
, addrProtocol = proto
, addrSocketType = Stream }
addrs <- getAddrInfo (Just hints) (Just host) (Just serv)
firstSuccessful $ map tryToConnect addrs
-}
let getport (SockAddrInet port _) = port
getport (SockAddrInet6 port _ _ _) = port
let doException (SomeException e) = do
L.putStrLn $ "\nFailed to reach "<++> showPeer (RemotePeer addr) <++> " on port "<++>bshow port<++>": " <++> bshow e
return Nothing
handle doException
$ tryToConnect proto (addr `withPort` port)
where
tryToConnect proto addr =
bracketOnError
(socket (socketFamily addr) Stream proto)
(sClose ) -- only done if there's an error
(\sock -> do
connect sock addr
return (Just sock) -- socketToHandle sock ReadWriteMode
)
sendMessage cons msg peer = do
found <- atomically $ do
consmap <- readTVar cons
return (Map.lookup peer consmap)
let newEntry = do
chan <- atomically newTChan
t <- forkIO $ connect_to_server chan peer
-- L.putStrLn $ "remote-map new: " <++> showPeer peer
return (True,(chan,t))
(is_new,entry) <- maybe newEntry
( \(chan,t) -> do
st <- threadStatus t
let running = do
-- L.putStrLn $ "remote-map, thread running: " <++> showPeer peer
return (False,(chan,t))
died = do
-- L.putStrLn $ "remote-map, thread died("<++>bshow st<++>"): " <++> showPeer peer
newEntry
case st of
ThreadRunning -> running
ThreadBlocked _ -> running
ThreadDied -> died
ThreadFinished -> died
)
found
-- L.putStrLn $ "sendMessage ->"<++>showPeer peer<++>": "<++>bshow msg
atomically $ writeTChan (fst entry) msg
when is_new . atomically $
readTVar cons >>= writeTVar cons . Map.insert peer entry
seekRemotePeers :: XMPPConfig config =>
config -> TChan Presence -> IO b0
seekRemotePeers config chan = do
server_connections <- newServerConnections
fix $ \loop -> do
event <- atomically $ readTChan chan
case event of
p@(Presence jid stat) | not (is_remote (peer jid)) -> do
-- L.putStrLn $ "seekRemotePeers: " <++> L.show jid <++> " " <++> bshow stat
runMaybeT $ do
u <- MaybeT . return $ name jid
subscribers <- liftIO $ do
subs <- getSubscribers config u
mapM parseHostNameJID subs
-- liftIO . L.putStrLn $ "subscribers: " <++> bshow subscribers
let peers = Set.map peer (Set.fromList subscribers)
forM_ (Set.toList peers) $ \peer -> do
when (is_remote peer) $
liftIO $ sendMessage server_connections (OutBoundPresence p) peer
-- TODO: send presence probes for buddies
-- TODO: cache remote presences for clients
_ -> return (Just ())
loop
xmlifyPresenceForPeer sock (Presence jid stat) = do
-- TODO: accept socket argument and determine local ip address
-- connected to this peer.
addr <- getSocketName sock
let n = name jid
rsc = resource jid
jidstr = toStrict . L.decodeUtf8
$ n <$++> "@" ++> showPeer (RemotePeer addr) <++?> "/" <++$> rsc
return
[ EventBeginElement "{jabber:server}presence"
(("from",[ContentText jidstr]):typ stat)
, EventBeginElement "{jabber:server}show" []
, EventContent (ContentText . shw $ stat)
, EventEndElement "{jabber:server}show"
, EventEndElement "{jabber:server}presence"
]
where
typ Offline = [("type",[ContentText "unavailable"])]
typ _ = []
shw Available = "chat"
shw Away = "away"
shw Offline = "away" -- Is this right?