-------------------------------------------------------------------------------- -- | Bluetooth plugin -- -- Use the bluez interface on DBus to check status -- -- org.bluez dynamically updates its DBus interfaces using the standard Object -- Manager. The adapter is located at path "/org/bluez/hci" where X is -- usually 0, and each device is "/org/bluez/hci/". -- -- This plugin will reflect if the adapter is powered and if any device is -- connected to it. The rough outline for this procedure: -- 1) get the adapter from the object manager -- 2) get all devices associated with the adapter using the object interface -- 3) determine if the adapter is powered -- 4) determine if any devices are connected -- 5) format the icon; powered vs not powered controls the color and connected -- vs not connected controls the icon (connected bluetooth symbol has two -- dots flanking it) -- -- Step 3 can be accomplished using the "org.bluez.Adapter1" interface and -- querying the "Powered" property. Step 4 can be done using the -- "org.bluez.Device1" interface and the "Connected" property for each device -- path. Since these are properties, we can asynchronously read changes to them -- via the "PropertiesChanged" signal. -- -- If any devices are added/removed, steps 2-4 will need to be redone and any -- listeners will need to be updated. (TODO not sure which signals to use in -- determining if a device is added) -- -- TODO also not sure if I need to care about multiple adapters and/or the -- adapter changing. module Xmobar.Plugins.Bluetooth ( Bluetooth(..) , btAlias , btDep ) where import Control.Concurrent.MVar import Control.Monad import Data.List import Data.List.Split import qualified Data.Map as M import Data.Maybe import DBus import DBus.Client import DBus.Internal import XMonad.Internal.DBus.Common import XMonad.Internal.Dependency import Xmobar import Xmobar.Plugins.Common btAlias :: String btAlias = "bluetooth" btDep :: DBusDependency_ btDep = Endpoint btBus btOMPath omInterface $ Method_ getManagedObjects data Bluetooth = Bluetooth Icons Colors deriving (Read, Show) instance Exec Bluetooth where alias (Bluetooth _ _) = btAlias start (Bluetooth icons colors) cb = withDBusClientConnection True cb $ startAdapter icons colors cb startAdapter :: Icons -> Colors -> Callback -> Client -> IO () startAdapter is cs cb cl = do ot <- getBtObjectTree cl state <- newMVar emptyState let display = displayIcon cb (iconFormatter is cs) state forM_ (findAdapter ot) $ \adapter -> do -- set up adapter initAdapter state adapter cl -- TODO this step could fail; at least warn the user... void $ addAdaptorListener state display adapter cl -- set up devices on the adapter (and listeners for adding/removing devices) let devices = findDevices adapter ot addDeviceAddedListener state display adapter cl addDeviceRemovedListener state display adapter cl forM_ devices $ \d -> addAndInitDevice state display d cl -- after setting things up, show the icon based on the initialized state display -------------------------------------------------------------------------------- -- | Icon Display -- -- Color corresponds to the adaptor powered state, and the icon corresponds to -- if it is paired or not. If the adaptor state is undefined, display "N/A" type IconFormatter = (Maybe Bool -> Bool -> String) type Icons = (String, String) displayIcon :: Callback -> IconFormatter -> MutableBtState -> IO () displayIcon callback formatter = callback . uncurry formatter <=< readState -- TODO maybe I want this to fail when any of the device statuses are Nothing iconFormatter :: Icons -> Colors -> IconFormatter iconFormatter (iconConn, iconDisc) cs powered connected = maybe na (\p -> colorText cs p icon) powered where icon = if connected then iconConn else iconDisc -------------------------------------------------------------------------------- -- | Connection State -- -- The signal handlers all run on separate threads, yet the icon depends on -- the state reflected by all these signals. The best (only?) way to do this is -- is to track the shared state of the bluetooth adaptor and its devices using -- an MVar. data BTDevice = BTDevice { btDevConnected :: Maybe Bool , btDevSigHandler :: SignalHandler } type ConnectedDevices = M.Map ObjectPath BTDevice data BtState = BtState { btDevices :: ConnectedDevices , btPowered :: Maybe Bool } type MutableBtState = MVar BtState emptyState :: BtState emptyState = BtState { btDevices = M.empty , btPowered = Nothing } readState :: MutableBtState -> IO (Maybe Bool, Bool) readState state = do p <- readPowered state c <- readDevices state return (p, anyDevicesConnected c) -------------------------------------------------------------------------------- -- | Object manager findAdapter :: ObjectTree -> Maybe ObjectPath findAdapter = find (("/org/bluez/hci" `isPrefixOf`) . formatObjectPath) . M.keys findDevices :: ObjectPath -> ObjectTree -> [ObjectPath] findDevices adapter = filter (adaptorHasDevice adapter) . M.keys adaptorHasDevice :: ObjectPath -> ObjectPath -> Bool adaptorHasDevice adaptor device = case splitPath device of [org, bluez, hciX, _] -> splitPath adaptor == [org, bluez, hciX] _ -> False splitPath :: ObjectPath -> [String] splitPath = splitOn "/" . dropWhile (=='/') . formatObjectPath getBtObjectTree :: Client -> IO ObjectTree getBtObjectTree client = callGetManagedObjects client btBus btOMPath btOMPath :: ObjectPath btOMPath = objectPath_ "/" addBtOMListener :: SignalCallback -> Client -> IO () addBtOMListener sc = void . addInterfaceAddedListener btBus btOMPath sc addDeviceAddedListener :: MutableBtState -> IO () -> ObjectPath -> Client -> IO () addDeviceAddedListener state display adapter client = addBtOMListener addDevice client where addDevice = pathCallback adapter display $ \d -> addAndInitDevice state display d client addDeviceRemovedListener :: MutableBtState -> IO () -> ObjectPath -> Client -> IO () addDeviceRemovedListener state display adapter client = addBtOMListener remDevice client where remDevice = pathCallback adapter display $ \d -> do old <- removeDevice state d forM_ old $ removeMatch client . btDevSigHandler pathCallback :: ObjectPath -> IO () -> (ObjectPath -> IO ()) -> SignalCallback pathCallback adapter display f [device, _] = forM_ (fromVariant device) $ \d -> when (adaptorHasDevice adapter d) $ f d >> display pathCallback _ _ _ _ = return () -------------------------------------------------------------------------------- -- | Adapter initAdapter :: MutableBtState -> ObjectPath -> Client -> IO () initAdapter state adapter client = do reply <- callGetPowered adapter client putPowered state $ fromSingletonVariant reply matchBTProperty :: Client -> ObjectPath -> IO (Maybe MatchRule) matchBTProperty client p = matchPropertyFull client btBus (Just p) addAdaptorListener :: MutableBtState -> IO () -> ObjectPath -> Client -> IO (Maybe SignalHandler) addAdaptorListener state display adaptor client = do rule <- matchBTProperty client adaptor forM rule $ \r -> addMatchCallback r (procMatch . matchPowered) client where procMatch = withSignalMatch $ \b -> putPowered state b >> display callGetPowered :: ObjectPath -> Client -> IO [Variant] callGetPowered adapter = callPropertyGet btBus adapter adapterInterface $ memberName_ adaptorPowered matchPowered :: [Variant] -> SignalMatch Bool matchPowered = matchPropertyChanged adapterInterface adaptorPowered putPowered :: MutableBtState -> Maybe Bool -> IO () putPowered m ds = modifyMVar_ m (\s -> return s { btPowered = ds }) readPowered :: MutableBtState -> IO (Maybe Bool) readPowered = fmap btPowered . readMVar adapterInterface :: InterfaceName adapterInterface = interfaceName_ "org.bluez.Adapter1" adaptorPowered :: String adaptorPowered = "Powered" -------------------------------------------------------------------------------- -- | Devices addAndInitDevice :: MutableBtState -> IO () -> ObjectPath -> Client -> IO () addAndInitDevice state display device client = do sh <- addDeviceListener state display device client -- TODO add some intelligent error messages here forM_ sh $ \s -> initDevice state s device client initDevice :: MutableBtState -> SignalHandler -> ObjectPath -> Client -> IO () initDevice state sh device client = do reply <- callGetConnected device client void $ insertDevice state device $ BTDevice { btDevConnected = fromVariant =<< listToMaybe reply , btDevSigHandler = sh } addDeviceListener :: MutableBtState -> IO () -> ObjectPath -> Client -> IO (Maybe SignalHandler) addDeviceListener state display device client = do rule <- matchBTProperty client device forM rule $ \r -> addMatchCallback r (procMatch . matchConnected) client where procMatch = withSignalMatch $ \c -> updateDevice state device c >> display matchConnected :: [Variant] -> SignalMatch Bool matchConnected = matchPropertyChanged devInterface devConnected callGetConnected :: ObjectPath -> Client -> IO [Variant] callGetConnected p = callPropertyGet btBus p devInterface $ memberName_ devConnected insertDevice :: MutableBtState -> ObjectPath -> BTDevice -> IO Bool insertDevice m device dev = modifyMVar m $ \s -> do let new = M.insert device dev $ btDevices s return (s { btDevices = new }, anyDevicesConnected new) updateDevice :: MutableBtState -> ObjectPath -> Maybe Bool -> IO Bool updateDevice m device status = modifyMVar m $ \s -> do let new = M.update (\d -> Just d { btDevConnected = status }) device $ btDevices s return (s { btDevices = new }, anyDevicesConnected new) anyDevicesConnected :: ConnectedDevices -> Bool anyDevicesConnected = or . mapMaybe btDevConnected . M.elems removeDevice :: MutableBtState -> ObjectPath -> IO (Maybe BTDevice) removeDevice m device = modifyMVar m $ \s -> do let devs = btDevices s return (s { btDevices = M.delete device devs }, M.lookup device devs) readDevices :: MutableBtState -> IO ConnectedDevices readDevices = fmap btDevices . readMVar devInterface :: InterfaceName devInterface = interfaceName_ "org.bluez.Device1" devConnected :: String devConnected = "Connected"