git-annex/Assistant/Threads/XMPPClient.hs
Joey Hess 7b50b3c057 fix some mixed space+tab indentation
This fixes all instances of " \t" in the code base. Most common case
seems to be after a "where" line; probably vim copied the two space layout
of that line.

Done as a background task while listening to episode 2 of the Type Theory
podcast.
2014-10-09 15:09:11 -04:00

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{- git-annex XMPP client
-
- Copyright 2012, 2013 Joey Hess <joey@kitenet.net>
-
- Licensed under the GNU GPL version 3 or higher.
-}
module Assistant.Threads.XMPPClient where
import Assistant.Common
import Assistant.XMPP
import Assistant.XMPP.Client
import Assistant.NetMessager
import Assistant.Types.NetMessager
import Assistant.Types.Buddies
import Assistant.XMPP.Buddies
import Assistant.Sync
import Assistant.DaemonStatus
import qualified Remote
import Utility.ThreadScheduler
import Assistant.WebApp (UrlRenderer)
import Assistant.WebApp.Types hiding (liftAssistant)
import Assistant.Alert
import Assistant.Pairing
import Assistant.XMPP.Git
import Annex.UUID
import Logs.UUID
import Network.Protocol.XMPP
import Control.Concurrent
import Control.Concurrent.STM.TMVar
import Control.Concurrent.STM (atomically)
import qualified Data.Text as T
import qualified Data.Set as S
import qualified Data.Map as M
import qualified Git.Branch
import Data.Time.Clock
import Control.Concurrent.Async
xmppClientThread :: UrlRenderer -> NamedThread
xmppClientThread urlrenderer = namedThread "XMPPClient" $
restartableClient . xmppClient urlrenderer =<< getAssistant id
{- Runs the client, handing restart events. -}
restartableClient :: (XMPPCreds -> UUID -> IO ()) -> Assistant ()
restartableClient a = forever $ go =<< liftAnnex getXMPPCreds
where
go Nothing = waitNetMessagerRestart
go (Just creds) = do
xmppuuid <- maybe NoUUID Remote.uuid . headMaybe
. filter Remote.isXMPPRemote . syncRemotes
<$> getDaemonStatus
tid <- liftIO $ forkIO $ a creds xmppuuid
waitNetMessagerRestart
liftIO $ killThread tid
xmppClient :: UrlRenderer -> AssistantData -> XMPPCreds -> UUID -> IO ()
xmppClient urlrenderer d creds xmppuuid =
retry (runclient creds) =<< getCurrentTime
where
liftAssistant = runAssistant d
inAssistant = liftIO . liftAssistant
{- When the client exits, it's restarted;
- if it keeps failing, back off to wait 5 minutes before
- trying it again. -}
retry client starttime = do
{- The buddy list starts empty each time
- the client connects, so that stale info
- is not retained. -}
liftAssistant $
updateBuddyList (const noBuddies) <<~ buddyList
void client
liftAssistant $ do
modifyDaemonStatus_ $ \s -> s
{ xmppClientID = Nothing }
changeCurrentlyConnected $ S.delete xmppuuid
now <- getCurrentTime
if diffUTCTime now starttime > 300
then do
liftAssistant $ debug ["connection lost; reconnecting"]
retry client now
else do
liftAssistant $ debug ["connection failed; will retry"]
threadDelaySeconds (Seconds 300)
retry client =<< getCurrentTime
runclient c = liftIO $ connectXMPP c $ \jid -> do
selfjid <- bindJID jid
putStanza gitAnnexSignature
inAssistant $ do
modifyDaemonStatus_ $ \s -> s
{ xmppClientID = Just $ xmppJID creds }
changeCurrentlyConnected $ S.insert xmppuuid
debug ["connected", logJid selfjid]
lasttraffic <- liftIO $ atomically . newTMVar =<< getCurrentTime
sender <- xmppSession $ sendnotifications selfjid
receiver <- xmppSession $ receivenotifications selfjid lasttraffic
pinger <- xmppSession $ sendpings selfjid lasttraffic
{- Run all 3 threads concurrently, until
- any of them throw an exception.
- Then kill all 3 threads, and rethrow the
- exception.
-
- If this thread gets an exception, the 3 threads
- will also be killed. -}
liftIO $ pinger `concurrently` sender `concurrently` receiver
sendnotifications selfjid = forever $
join $ inAssistant $ relayNetMessage selfjid
receivenotifications selfjid lasttraffic = forever $ do
l <- decodeStanza selfjid <$> getStanza
void $ liftIO $ atomically . swapTMVar lasttraffic =<< getCurrentTime
inAssistant $ debug
["received:", show $ map logXMPPEvent l]
mapM_ (handlemsg selfjid) l
sendpings selfjid lasttraffic = forever $ do
putStanza pingstanza
startping <- liftIO getCurrentTime
liftIO $ threadDelaySeconds (Seconds 120)
t <- liftIO $ atomically $ readTMVar lasttraffic
when (t < startping) $ do
inAssistant $ debug ["ping timeout"]
error "ping timeout"
where
{- XEP-0199 says that the server will respond with either
- a ping response or an error message. Either will
- cause traffic, so good enough. -}
pingstanza = xmppPing selfjid
handlemsg selfjid (PresenceMessage p) = do
void $ inAssistant $
updateBuddyList (updateBuddies p) <<~ buddyList
resendImportantMessages selfjid p
handlemsg _ (GotNetMessage QueryPresence) = putStanza gitAnnexSignature
handlemsg _ (GotNetMessage (NotifyPush us)) = void $ inAssistant $ pull us
handlemsg selfjid (GotNetMessage (PairingNotification stage c u)) =
maybe noop (inAssistant . pairMsgReceived urlrenderer stage u selfjid) (parseJID c)
handlemsg _ (GotNetMessage m@(Pushing _ pushstage))
| isPushNotice pushstage = inAssistant $ handlePushNotice m
| isPushInitiation pushstage = inAssistant $ queuePushInitiation m
| otherwise = inAssistant $ storeInbox m
handlemsg _ (Ignorable _) = noop
handlemsg _ (Unknown _) = noop
handlemsg _ (ProtocolError _) = noop
resendImportantMessages selfjid (Presence { presenceFrom = Just jid }) = do
let c = formatJID jid
(stored, sent) <- inAssistant $
checkImportantNetMessages (formatJID (baseJID jid), c)
forM_ (S.toList $ S.difference stored sent) $ \msg -> do
let msg' = readdressNetMessage msg c
inAssistant $ debug
[ "sending to new client:"
, logJid jid
, show $ logNetMessage msg'
]
join $ inAssistant $ convertNetMsg msg' selfjid
inAssistant $ sentImportantNetMessage msg c
resendImportantMessages _ _ = noop
data XMPPEvent
= GotNetMessage NetMessage
| PresenceMessage Presence
| Ignorable ReceivedStanza
| Unknown ReceivedStanza
| ProtocolError ReceivedStanza
deriving Show
logXMPPEvent :: XMPPEvent -> String
logXMPPEvent (GotNetMessage m) = logNetMessage m
logXMPPEvent (PresenceMessage p) = logPresence p
logXMPPEvent (Ignorable (ReceivedPresence p)) = "Ignorable " ++ logPresence p
logXMPPEvent (Ignorable _) = "Ignorable message"
logXMPPEvent (Unknown _) = "Unknown message"
logXMPPEvent (ProtocolError _) = "Protocol error message"
logPresence :: Presence -> String
logPresence (p@Presence { presenceFrom = Just jid }) = unwords
[ "Presence from"
, logJid jid
, show $ extractGitAnnexTag p
]
logPresence _ = "Presence from unknown"
logJid :: JID -> String
logJid jid =
let name = T.unpack (buddyName jid)
resource = maybe "" (T.unpack . strResource) (jidResource jid)
in take 1 name ++ show (length name) ++ "/" ++ resource
logClient :: Client -> String
logClient (Client jid) = logJid jid
{- Decodes an XMPP stanza into one or more events. -}
decodeStanza :: JID -> ReceivedStanza -> [XMPPEvent]
decodeStanza selfjid s@(ReceivedPresence p)
| presenceType p == PresenceError = [ProtocolError s]
| isNothing (presenceFrom p) = [Ignorable s]
| presenceFrom p == Just selfjid = [Ignorable s]
| otherwise = maybe [PresenceMessage p] decode (gitAnnexTagInfo p)
where
decode i
| tagAttr i == pushAttr = impliedp $ GotNetMessage $ NotifyPush $
decodePushNotification (tagValue i)
| tagAttr i == queryAttr = impliedp $ GotNetMessage QueryPresence
| otherwise = [Unknown s]
{- Things sent via presence imply a presence message,
- along with their real meaning. -}
impliedp v = [PresenceMessage p, v]
decodeStanza selfjid s@(ReceivedMessage m)
| isNothing (messageFrom m) = [Ignorable s]
| messageFrom m == Just selfjid = [Ignorable s]
| messageType m == MessageError = [ProtocolError s]
| otherwise = [fromMaybe (Unknown s) (GotNetMessage <$> decodeMessage m)]
decodeStanza _ s = [Unknown s]
{- Waits for a NetMessager message to be sent, and relays it to XMPP.
-
- Chat messages must be directed to specific clients, not a base
- account JID, due to git-annex clients using a negative presence priority.
- PairingNotification messages are always directed at specific
- clients, but Pushing messages are sometimes not, and need to be exploded
- out to specific clients.
-
- Important messages, not directed at any specific client,
- are cached to be sent later when additional clients connect.
-}
relayNetMessage :: JID -> Assistant (XMPP ())
relayNetMessage selfjid = do
msg <- waitNetMessage
debug ["sending:", logNetMessage msg]
a1 <- handleImportant msg
a2 <- convert msg
return (a1 >> a2)
where
handleImportant msg = case parseJID =<< isImportantNetMessage msg of
Just tojid
| tojid == baseJID tojid -> do
storeImportantNetMessage msg (formatJID tojid) $
\c -> (baseJID <$> parseJID c) == Just tojid
return $ putStanza presenceQuery
_ -> return noop
convert (Pushing c pushstage) = withOtherClient selfjid c $ \tojid ->
if tojid == baseJID tojid
then do
clients <- maybe [] (S.toList . buddyAssistants)
<$> getBuddy (genBuddyKey tojid) <<~ buddyList
debug ["exploded undirected message to clients", unwords $ map logClient clients]
return $ forM_ clients $ \(Client jid) ->
putStanza $ pushMessage pushstage jid selfjid
else do
debug ["to client:", logJid tojid]
return $ putStanza $ pushMessage pushstage tojid selfjid
convert msg = convertNetMsg msg selfjid
{- Converts a NetMessage to an XMPP action. -}
convertNetMsg :: NetMessage -> JID -> Assistant (XMPP ())
convertNetMsg msg selfjid = convert msg
where
convert (NotifyPush us) = return $ putStanza $ pushNotification us
convert QueryPresence = return $ putStanza presenceQuery
convert (PairingNotification stage c u) = withOtherClient selfjid c $ \tojid -> do
changeBuddyPairing tojid True
return $ putStanza $ pairingNotification stage u tojid selfjid
convert (Pushing c pushstage) = withOtherClient selfjid c $ \tojid ->
return $ putStanza $ pushMessage pushstage tojid selfjid
withOtherClient :: JID -> ClientID -> (JID -> Assistant (XMPP ())) -> Assistant (XMPP ())
withOtherClient selfjid c a = case parseJID c of
Nothing -> return noop
Just tojid
| tojid == selfjid -> return noop
| otherwise -> a tojid
withClient :: ClientID -> (JID -> XMPP ()) -> XMPP ()
withClient c a = maybe noop a $ parseJID c
{- Returns an IO action that runs a XMPP action in a separate thread,
- using a session to allow it to access the same XMPP client. -}
xmppSession :: XMPP () -> XMPP (IO ())
xmppSession a = do
s <- getSession
return $ void $ runXMPP s a
{- We only pull from one remote out of the set listed in the push
- notification, as an optimisation.
-
- Note that it might be possible (though very unlikely) for the push
- notification to take a while to be sent, and multiple pushes happen
- before it is sent, so it includes multiple remotes that were pushed
- to at different times.
-
- It could then be the case that the remote we choose had the earlier
- push sent to it, but then failed to get the later push, and so is not
- fully up-to-date. If that happens, the pushRetryThread will come along
- and retry the push, and we'll get another notification once it succeeds,
- and pull again. -}
pull :: [UUID] -> Assistant ()
pull [] = noop
pull us = do
rs <- filter matching . syncGitRemotes <$> getDaemonStatus
debug $ "push notification for" : map (fromUUID . Remote.uuid ) rs
pullone rs =<< liftAnnex (inRepo Git.Branch.current)
where
matching r = Remote.uuid r `S.member` s
s = S.fromList us
pullone [] _ = noop
pullone (r:rs) branch =
unlessM (null . fst <$> manualPull branch [r]) $
pullone rs branch
{- PairReq from another client using our JID is automatically
- accepted. This is so pairing devices all using the same XMPP
- account works without confirmations.
-
- Also, autoaccept PairReq from the same JID of any repo we've
- already paired with, as long as the UUID in the PairReq is
- one we know about.
-}
pairMsgReceived :: UrlRenderer -> PairStage -> UUID -> JID -> JID -> Assistant ()
pairMsgReceived urlrenderer PairReq theiruuid selfjid theirjid
| baseJID selfjid == baseJID theirjid = autoaccept
| otherwise = do
knownjids <- mapMaybe (parseJID . getXMPPClientID)
. filter Remote.isXMPPRemote . syncRemotes <$> getDaemonStatus
um <- liftAnnex uuidMap
if elem (baseJID theirjid) knownjids && M.member theiruuid um
then autoaccept
else showalert
where
autoaccept = do
selfuuid <- liftAnnex getUUID
sendNetMessage $
PairingNotification PairAck (formatJID theirjid) selfuuid
finishXMPPPairing theirjid theiruuid
-- Show an alert to let the user decide if they want to pair.
showalert = do
button <- mkAlertButton True (T.pack "Respond") urlrenderer $
ConfirmXMPPPairFriendR $
PairKey theiruuid $ formatJID theirjid
void $ addAlert $ pairRequestReceivedAlert
(T.unpack $ buddyName theirjid)
button
{- PairAck must come from one of the buddies we are pairing with;
- don't pair with just anyone. -}
pairMsgReceived _ PairAck theiruuid _selfjid theirjid =
whenM (isBuddyPairing theirjid) $ do
changeBuddyPairing theirjid False
selfuuid <- liftAnnex getUUID
sendNetMessage $
PairingNotification PairDone (formatJID theirjid) selfuuid
finishXMPPPairing theirjid theiruuid
pairMsgReceived _ PairDone _theiruuid _selfjid theirjid =
changeBuddyPairing theirjid False
isBuddyPairing :: JID -> Assistant Bool
isBuddyPairing jid = maybe False buddyPairing <$>
getBuddy (genBuddyKey jid) <<~ buddyList
changeBuddyPairing :: JID -> Bool -> Assistant ()
changeBuddyPairing jid ispairing =
updateBuddyList (M.adjust set key) <<~ buddyList
where
key = genBuddyKey jid
set b = b { buddyPairing = ispairing }