{-# Language BangPatterns, OverloadedStrings, NondecreasingIndentation #-} {-| Module : Client.EventLoop Description : Event loop for IRC client Copyright : (c) Eric Mertens, 2016 License : ISC Maintainer : emertens@gmail.com This module is responsible for dispatching user-input, network, and timer events to the correct module. It renders the user interface once per event. -} module Client.EventLoop ( eventLoop , updateTerminalSize ) where import qualified Client.Authentication.Ecdsa as Ecdsa import Client.CApi import Client.Commands import Client.Commands.Interpolation import Client.Configuration (configJumpModifier, configKeyMap, configWindowNames) import Client.Configuration.ServerSettings import Client.EventLoop.Actions import Client.EventLoop.Errors (exceptionToLines) import Client.Hook import Client.Hooks import Client.Image import Client.Image.Layout (scrollAmount) import Client.Log import Client.Message import Client.Network.Async import Client.State import qualified Client.State.EditBox as Edit import Client.State.Focus import Client.State.Network import Control.Concurrent.STM import Control.Exception import Control.Lens import Control.Monad import Data.ByteString (ByteString) import Data.Foldable import Data.List import Data.Maybe import Data.Monoid import Data.Ord import Data.Text (Text) import qualified Data.Text as Text import qualified Data.Text.Encoding as Text import qualified Data.Text.Encoding.Error as Text import Data.Time import GHC.IO.Exception (IOErrorType(..), ioe_type) import Graphics.Vty import Irc.Codes import Irc.Commands import Irc.Message import Irc.RawIrcMsg import LensUtils import Hookup -- | Sum of the three possible event types the event loop handles data ClientEvent = VtyEvent Event -- ^ Key presses and resizing | NetworkEvent NetworkEvent -- ^ Incoming network events | TimerEvent NetworkId TimedAction -- ^ Timed action and the applicable network -- | Block waiting for the next 'ClientEvent'. This function will compute -- an appropriate timeout based on the current connections. getEvent :: Vty {- ^ vty handle -} -> ClientState {- ^ client state -} -> IO ClientEvent getEvent vty st = do timer <- prepareTimer atomically $ asum [ timer , VtyEvent <$> readTChan vtyEventChannel , NetworkEvent <$> readTQueue (view clientEvents st) ] where vtyEventChannel = _eventChannel (inputIface vty) prepareTimer = case earliestEvent st of Nothing -> return retry Just (networkId,(runAt,action)) -> do now <- getCurrentTime let microsecs = truncate (1000000 * diffUTCTime runAt now) var <- registerDelay (max 0 microsecs) return $ do ready <- readTVar var unless ready retry return (TimerEvent networkId action) -- | Compute the earliest scheduled timed action for the client earliestEvent :: ClientState -> Maybe (NetworkId, (UTCTime, TimedAction)) earliestEvent = minimumByOf (clientConnections . (ifolded <. folding nextTimedAction) . withIndex) (comparing (fst . snd)) -- | Apply this function to an initial 'ClientState' to launch the client. eventLoop :: Vty -> ClientState -> IO () eventLoop vty st = do when (view clientBell st) (beep vty) processLogEntries st let (pic, st') = clientPicture (clientTick st) update vty pic event <- getEvent vty st' case event of TimerEvent networkId action -> eventLoop vty =<< doTimerEvent networkId action st' VtyEvent vtyEvent -> traverse_ (eventLoop vty) =<< doVtyEvent vty vtyEvent st' NetworkEvent networkEvent -> eventLoop vty =<< case networkEvent of NetworkLine net time line -> doNetworkLine net time line st' NetworkError net time ex -> doNetworkError net time ex st' NetworkOpen net time -> doNetworkOpen net time st' NetworkClose net time -> doNetworkClose net time st' -- | Sound the terminal bell assuming that the @BEL@ control code -- is supported. beep :: Vty -> IO () beep = ringTerminalBell . outputIface processLogEntries :: ClientState -> IO () processLogEntries = traverse_ writeLogLine . reverse . view clientLogQueue -- | Respond to a network connection successfully connecting. doNetworkOpen :: NetworkId {- ^ network id -} -> ZonedTime {- ^ event time -} -> ClientState {- ^ client state -} -> IO ClientState doNetworkOpen networkId time st = case view (clientConnections . at networkId) st of Nothing -> error "doNetworkOpen: Network missing" Just cs -> do let msg = ClientMessage { _msgTime = time , _msgNetwork = view csNetwork cs , _msgBody = NormalBody "connection opened" } return $! recordNetworkMessage msg $ overStrict (clientConnections . ix networkId . csLastReceived) (\old -> old `seq` Just $! zonedTimeToUTC time) st -- | Respond to a network connection closing normally. doNetworkClose :: NetworkId {- ^ network id -} -> ZonedTime {- ^ event time -} -> ClientState {- ^ client state -} -> IO ClientState doNetworkClose networkId time st = do let (cs,st') = removeNetwork networkId st msg = ClientMessage { _msgTime = time , _msgNetwork = view csNetwork cs , _msgBody = NormalBody "connection closed" } return (recordNetworkMessage msg st') -- | Respond to a network connection closing abnormally. doNetworkError :: NetworkId {- ^ failed network -} -> ZonedTime {- ^ current time -} -> SomeException {- ^ termination reason -} -> ClientState {- ^ client state -} -> IO ClientState doNetworkError networkId time ex st = do let (cs,st1) = removeNetwork networkId st st2 = foldl' (\acc msg -> recordError time cs (Text.pack msg) acc) st1 $ exceptionToLines ex reconnectLogic ex cs st2 reconnectLogic :: SomeException {- ^ thread failure reason -} -> NetworkState {- ^ failed network -} -> ClientState {- ^ client state -} -> IO ClientState reconnectLogic ex cs st | shouldReconnect = do (attempts, mbDisconnectTime) <- computeRetryInfo addConnection attempts mbDisconnectTime (view csNetwork cs) st | otherwise = return st where computeRetryInfo = case view csPingStatus cs of PingConnecting n tm -> pure (n+1, tm) _ | Just tm <- view csLastReceived cs -> pure (1, Just tm) | otherwise -> do now <- getCurrentTime pure (1, Just now) reconnectAttempts = view (csSettings . ssReconnectAttempts) cs shouldReconnect = case view csPingStatus cs of PingConnecting n _ | n == 0 || n > reconnectAttempts -> False _ | Just ConnectionFailure{} <- fromException ex -> True | Just HostnameResolutionFailure{} <- fromException ex -> True | Just PingTimeout <- fromException ex -> True | Just ResourceVanished <- ioe_type <$> fromException ex -> True | Just NoSuchThing <- ioe_type <$> fromException ex -> True | otherwise -> False -- | Respond to an IRC protocol line. This will parse the message, updated the -- relevant connection state and update the UI buffers. doNetworkLine :: NetworkId {- ^ Network ID of message -} -> ZonedTime {- ^ current time -} -> ByteString {- ^ Raw IRC message without newlines -} -> ClientState {- ^ client state -} -> IO ClientState doNetworkLine networkId time line st = case view (clientConnections . at networkId) st of Nothing -> error "doNetworkLine: Network missing" Just cs -> let network = view csNetwork cs in case parseRawIrcMsg (asUtf8 line) of Nothing -> do let msg = Text.pack ("Malformed message: " ++ show line) return $! recordError time cs msg st Just raw -> do (st1,passed) <- clientPark st $ \ptr -> notifyExtensions ptr network raw (view (clientExtensions . esActive) st) if not passed then return st1 else do let time' = computeEffectiveTime time (view msgTags raw) (stateHook, viewHook) = over both applyMessageHooks $ partition (view messageHookStateful) $ lookups (view csMessageHooks cs) messageHooks case stateHook (cookIrcMsg raw) of Nothing -> return st1 -- Message ignored Just irc -> do -- state with message recorded -- record messages *before* applying state changes let st2 = case viewHook irc of Nothing -> st1 -- Message hidden Just irc' -> recordIrcMessage network target msg st1 where myNick = view csNick cs target = msgTarget myNick irc msg = ClientMessage { _msgTime = time' , _msgNetwork = network , _msgBody = IrcBody irc' } let (replies, st3) = applyMessageToClientState time irc networkId cs st2 traverse_ (sendMsg cs) replies clientResponse time' irc cs st3 -- | Client-level responses to specific IRC messages. -- This is in contrast to the connection state tracking logic in -- "Client.NetworkState" clientResponse :: ZonedTime -> IrcMsg -> NetworkState -> ClientState -> IO ClientState clientResponse now irc cs st = case irc of Reply RPL_WELCOME _ -> -- run connection commands with the network focused and restore it afterward do let focus = NetworkFocus (view csNetwork cs) st' <- foldM (processConnectCmd now cs) (set clientFocus focus st) (view (csSettings . ssConnectCmds) cs) return $! set clientFocus (view clientFocus st) st' Authenticate challenge | AS_EcdsaWaitChallenge <- view csAuthenticationState cs -> processSaslEcdsa now challenge cs st _ -> return st processSaslEcdsa :: ZonedTime {- ^ message time -} -> Text {- ^ challenge -} -> NetworkState {- ^ network state -} -> ClientState {- ^ client state -} -> IO ClientState processSaslEcdsa now challenge cs st = case view ssSaslEcdsaFile ss of Nothing -> do sendMsg cs ircCapEnd return $! recordError now cs "panic: ecdsatool malformed output" st Just path -> do res <- Ecdsa.computeResponse path challenge case res of Left e -> do sendMsg cs ircCapEnd return $! recordError now cs (Text.pack e) st Right resp -> do sendMsg cs (ircAuthenticate resp) return $! set asLens AS_None st where ss = view csSettings cs asLens = clientConnections . ix (view csNetworkId cs) . csAuthenticationState processConnectCmd :: ZonedTime {- ^ now -} -> NetworkState {- ^ current network -} -> ClientState {- ^ client state -} -> [ExpansionChunk]{- ^ command -} -> IO ClientState processConnectCmd now cs st0 cmdTxt = do dc <- forM disco $ \t -> Text.pack . formatTime defaultTimeLocale "%H:%M:%S" <$> utcToLocalZonedTime t let failureCase e = recordError now cs ("Bad connect-cmd: " <> e) case resolveMacroExpansions (commandExpansion dc st0) (const Nothing) cmdTxt of Nothing -> return $! failureCase "Unable to expand connect command" st0 Just cmdTxt' -> do res <- executeUserCommand dc (Text.unpack cmdTxt') st0 return $! case res of CommandFailure st -> failureCase cmdTxt' st CommandSuccess st -> st CommandQuit st -> st -- not supported where disco = case view csPingStatus cs of PingConnecting _ tm -> tm _ -> Nothing recordError :: ZonedTime {- ^ now -} -> NetworkState {- ^ current network -} -> Text {- ^ error message -} -> ClientState {- ^ client state -} -> ClientState recordError now cs msg = recordNetworkMessage ClientMessage { _msgTime = now , _msgNetwork = view csNetwork cs , _msgBody = ErrorBody msg } -- | Find the ZNC provided server time computeEffectiveTime :: ZonedTime -> [TagEntry] -> ZonedTime computeEffectiveTime time tags = fromMaybe time zncTime where isTimeTag (TagEntry key _) = key == "time" zncTime = do TagEntry _ txt <- find isTimeTag tags tagTime <- parseZncTime (Text.unpack txt) return (utcToZonedTime (zonedTimeZone time) tagTime) -- | Parses the time format used by ZNC for buffer playback parseZncTime :: String -> Maybe UTCTime parseZncTime = parseTimeM True defaultTimeLocale $ iso8601DateFormat (Just "%T%Q%Z") -- | Returns the list of values that were stored at the given indexes, if -- a value was stored at that index. lookups :: Ixed m => [Index m] -> m -> [IxValue m] lookups ks m = mapMaybe (\k -> preview (ix k) m) ks -- | Update the height and width fields of the client state updateTerminalSize :: Vty -> ClientState -> IO ClientState updateTerminalSize vty st = do (w,h) <- displayBounds (outputIface vty) return $! set clientWidth w $ set clientHeight h st -- | Respond to a VTY event. doVtyEvent :: Vty {- ^ vty handle -} -> Event {- ^ vty event -} -> ClientState {- ^ client state -} -> IO (Maybe ClientState) {- ^ nothing when finished -} doVtyEvent vty vtyEvent st = case vtyEvent of EvKey k modifier -> let cfg = view clientConfig st keymap = view configKeyMap cfg winnames = view configWindowNames cfg winmods = view configJumpModifier cfg action = keyToAction keymap winmods winnames modifier k in doAction vty action st -- ignore event parameters due to raw TChan use EvResize{} -> Just <$> updateTerminalSize vty st EvPaste utf8 -> do let str = Text.unpack (Text.decodeUtf8With Text.lenientDecode utf8) return $! Just $! over clientTextBox (Edit.insertPaste str) st _ -> return (Just st) -- | Map keyboard inputs to actions in the client doAction :: Vty {- ^ vty handle -} -> Action {- ^ action -} -> ClientState {- ^ client state -} -> IO (Maybe ClientState) doAction vty action st = let continue !out -- detect when chains of M-a are broken | action == ActJumpToActivity = return (Just out) | otherwise = return $! Just $! set clientActivityReturn (view clientFocus out) out changeEditor f = continue (over clientTextBox f st) changeContent f = changeEditor $ over Edit.content f . set Edit.lastOperation Edit.OtherOperation mbChangeEditor f = case clientTextBox f st of Nothing -> continue $! set clientBell True st Just st' -> continue st' in case action of -- movements ActHome -> changeEditor Edit.home ActEnd -> changeEditor Edit.end ActLeft -> changeContent Edit.left ActRight -> changeContent Edit.right ActBackWord -> changeContent Edit.leftWord ActForwardWord -> changeContent Edit.rightWord -- edits ActKillHome -> changeEditor Edit.killHome ActKillEnd -> changeEditor Edit.killEnd ActKillWordBack -> changeEditor (Edit.killWordBackward True) ActKillWordForward -> changeEditor (Edit.killWordForward True) ActYank -> changeEditor Edit.yank ActToggle -> changeContent Edit.toggle ActDelete -> changeContent Edit.delete ActBackspace -> changeContent Edit.backspace -- special inserts ActBold -> changeEditor (Edit.insert '\^B') ActColor -> changeEditor (Edit.insert '\^C') ActItalic -> changeEditor (Edit.insert '\^]') ActUnderline -> changeEditor (Edit.insert '\^_') ActClearFormat -> changeEditor (Edit.insert '\^O') ActReverseVideo -> changeEditor (Edit.insert '\^V') ActDigraph -> mbChangeEditor Edit.insertDigraph ActInsertEnter -> changeEditor (Edit.insert '\^J') -- focus jumps ActJump i -> continue (jumpFocus i st) ActJumpToActivity -> continue (jumpToActivity st) ActJumpPrevious -> continue (returnFocus st) ActRetreatFocus -> continue (retreatFocus st) ActAdvanceFocus -> continue (advanceFocus st) ActAdvanceNetwork -> continue (advanceNetworkFocus st) ActReset -> continue (changeSubfocus FocusMessages st) ActOlderLine -> changeEditor $ \ed -> fromMaybe ed $ Edit.earlier ed ActNewerLine -> changeEditor $ \ed -> fromMaybe ed $ Edit.later ed ActScrollUp -> continue (scrollClient ( scrollAmount st) st) ActScrollDown -> continue (scrollClient (-scrollAmount st) st) ActTabCompleteBack -> doCommandResult False =<< tabCompletion True st ActTabComplete -> doCommandResult False =<< tabCompletion False st ActInsert c -> changeEditor (Edit.insert c) ActEnter -> doCommandResult True =<< executeInput st ActRefresh -> refresh vty >> continue st ActCommand cmd -> do resp <- executeUserCommand Nothing (Text.unpack cmd) st case resp of CommandSuccess st1 -> continue st1 CommandFailure st1 -> continue st1 CommandQuit _ -> return Nothing ActIgnored -> continue st -- | Process 'CommandResult' and update the 'ClientState' textbox -- and error state. When quitting return 'Nothing'. doCommandResult :: Bool {- ^ clear on success -} -> CommandResult {- ^ command result -} -> IO (Maybe ClientState) doCommandResult clearOnSuccess res = let continue !st = return (Just st) in case res of CommandQuit st -> Nothing <$ clientShutdown st CommandSuccess st -> continue (if clearOnSuccess then consumeInput st else st) CommandFailure st -> continue (set clientBell True st) -- | Execute the the command on the first line of the text box executeInput :: ClientState {- ^ client state -} -> IO CommandResult executeInput st = execute (clientFirstLine st) st -- | Respond to a timer event. doTimerEvent :: NetworkId {- ^ Network related to event -} -> TimedAction {- ^ Action to perform -} -> ClientState {- ^ client state -} -> IO ClientState doTimerEvent networkId action = traverseOf (clientConnections . ix networkId) (applyTimedAction action)