{-# LANGUAGE DeriveAnyClass #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE NoGeneralizedNewtypeDeriving #-} -------------------------------------------------------------------------------- -- rofi-dev - a rofi prompt for mountable devices -- -- Like all "mount helpers" this is basically a wrapper for low-level utilities -- the mount things from the command line. It also creates/destroys mountpoint -- paths given a specific location for such mountpoints. module Main (main) where import Bitwarden.Internal import Dhall hiding (maybe, sequence, void) import Dhall.TH import RIO import RIO.Directory import qualified RIO.List as L import qualified RIO.Map as M import qualified RIO.NonEmpty as NE import qualified RIO.Text as T import Rofi.Command import Rofi.IO import System.Console.GetOpt import System.FilePath.Posix import System.Posix.User (getEffectiveUserName) import System.Process import UnliftIO.Environment -------------------------------------------------------------------------------- -- Static device configuration (dhall) makeHaskellTypesWith (defaultGenerateOptions {generateToDhallInstance = False}) [ MultipleConstructors "PasswordConfig" "(./dhall/rofi-dev.dhall).PasswordConfig" , MultipleConstructors "DataConfig" "(./dhall/rofi-dev.dhall).DataConfig" , SingleConstructor "TreeMap" "TreeMap" "(./dhall/rofi-dev.dhall).TreeMap" , SingleConstructor "SecretMap" "SecretMap" "(./dhall/rofi-dev.dhall).SecretMap" , SingleConstructor "StaticConfig" "StaticConfig" "(./dhall/rofi-dev.dhall).StaticConfig.Type" , SingleConstructor "PromptConfig" "PromptConfig" "(./dhall/rofi-dev.dhall).PromptConfig.Type" , SingleConstructor "TreeConfig" "TreeConfig" "(./dhall/rofi-dev.dhall).TreeConfig.Type" , SingleConstructor "DeviceConfig" "DeviceConfig" "(./dhall/rofi-dev.dhall).DeviceConfig" , SingleConstructor "SecretConfig" "SecretConfig" "(./dhall/rofi-dev.dhall).SecretConfig" , SingleConstructor "MountConfig" "MountConfig" "(./dhall/rofi-dev.dhall).MountConfig" , SingleConstructor "BitwardenConfig" "BitwardenConfig" "(./dhall/rofi-dev.dhall).BitwardenConfig.Type" , SingleConstructor "VeracryptData" "VeracryptData" "(./dhall/rofi-dev.dhall).VeracryptData.Type" , SingleConstructor "CIFSData" "CIFSData" "(./dhall/rofi-dev.dhall).CIFSData.Type" , SingleConstructor "CIFSOpts" "CIFSOpts" "(./dhall/rofi-dev.dhall).CIFSOpts.Type" , SingleConstructor "SSHFSData" "SSHFSData" "(./dhall/rofi-dev.dhall).SSHFSData.Type" ] main :: IO () main = runSimpleApp $ getArgs >>= parse parse :: [String] -> RIO SimpleApp () parse args = case getOpt Permute options args of (o, n, []) -> runMounts $ L.foldl (flip id) (defaultOpts (fmap T.pack n)) o (_, _, errs) -> logError $ displayBytesUtf8 $ encodeUtf8 $ T.pack $ concat errs ++ usageInfo h options where h = "Usage: rofi-dev [OPTIONS] [-- ROFI-OPTIONS]" defaultOpts r = Opts { optsConfig = Nothing , optsAlias = Nothing , optsUnmount = False , optsRofiArgs = r } options :: [OptDescr (Opts -> Opts)] options = [ Option ['c'] ["config"] (ReqArg (\s m -> m {optsConfig = Just s}) "CONF") "The path to the config file" , Option ['m'] ["mount"] (ReqArg (\s m -> m {optsAlias = Just $ T.pack s}) "ALIAS") "Mount the device specified by ALIAS directly" , Option ['u'] ["unmount"] (NoArg (\m -> m {optsUnmount = True})) "Unmount the device specified by ALIAS instead of mounting it." ] data Opts = Opts { optsConfig :: Maybe FilePath , optsAlias :: Maybe T.Text , optsUnmount :: Bool , optsRofiArgs :: [T.Text] } deriving (Show) -------------------------------------------------------------------------------- -- Main prompt -- -- This command will have one Rofi prompt and will display all available -- mounts grouped by device type (eg removable, sshfs, cifs, etc). I like -- pretty things, so ensure the entries are aligned properly as well runMounts :: Opts -> RIO SimpleApp () runMounts opts = do static <- join <$> traverse parseStaticConfig (optsConfig opts) defaultTmpPath <- ("/tmp/media" ) <$> liftIO getEffectiveUserName let tmpPath = fromMaybe defaultTmpPath $ (fmap T.unpack . scTmpPath) =<< static let staticDevs = maybe M.empty (M.fromList . fmap (\(TreeMap k v) -> (k, v)) . scDevices) static let verbose = fromMaybe False $ scVerbose =<< static let mountconf e = MountConf { mountconfVolatilePath = tmpPath , mountconfRofiArgs = optsRofiArgs opts , mountconfStaticDevs = staticDevs , mountconfVerbose = verbose , mountconfEnv = e } let byAlias = mountByAlias $ optsUnmount opts let byPrompt = runPrompt =<< getGroups mapRIO mountconf $ maybe byPrompt byAlias $ optsAlias opts parseStaticConfig :: (HasLogFunc c, MonadReader c m, MonadUnliftIO m) => FilePath -> m (Maybe StaticConfig) parseStaticConfig p = do res <- tryIO $ liftIO $ inputFile auto p case res of Left e -> do logError $ displayBytesUtf8 $ encodeUtf8 $ T.pack $ show e return Nothing Right c -> return $ Just c runPrompt :: HasRofiConf c => [RofiGroup c] -> RIO c () runPrompt gs = selectAction $ emptyMenu { groups = gs , prompt = Just "Select Device" } getGroups :: MIO [RofiGroup MountConf] getGroups = do actions <- sequence [getStaticActions, getRemovableActions, getMTPActions] return $ (++ [metaActions]) $ fmap mkGroup $ NE.groupAllWith fst $ concat actions where metaActions = titledGroup "Meta Actions" $ toRofiActions [(" Dismount All", dismountAll)] dismountAll :: MIO () dismountAll = do umount =<< asks (configToTree' . mountconfStaticDevs) umount =<< getRemovableDevices umount =<< getMTPDevices return () where umount :: Mountable a => [a] -> MIO () umount = mapM_ (`mountMaybe` True) mountByAlias :: Bool -> T.Text -> MIO () mountByAlias unmountFlag alias = do static <- asks mountconfStaticDevs mapM_ (`mountMaybe` unmountFlag) $ configToTree static <$> M.lookup alias static mkGroup :: NE.NonEmpty (Header, ProtoAction) -> RofiGroup MountConf mkGroup as = titledGroup h $ toRofiActions $ NE.toList $ alignEntries $ snd <$> as where h = T.pack $ show $ fst $ NE.head as alignSep :: T.Text alignSep = " | " alignEntries :: NE.NonEmpty ProtoAction -> NE.NonEmpty (T.Text, MIO ()) alignEntries ps = NE.zip (align es) as where (es, as) = NE.unzip $ fmap (\(ProtoAction e a) -> (e, a)) ps align = fmap (T.intercalate alignSep . NE.toList) . NE.transpose . fmap1 padAll . NE.transpose fmap1 f (x :| xs) = f x :| xs padAll xs = let m = maxNE $ fmap T.length xs in fmap (rpad m ' ') xs maxNE (x :| []) = x maxNE (x :| (y : ys)) = maxNE $ max x y :| ys rpad :: Int -> Char -> T.Text -> T.Text rpad n c s = T.append s $ T.replicate (n - T.length s) $ T.singleton c -------------------------------------------------------------------------------- -- Global config used in the reader monad stack data MountConf = MountConf { mountconfVolatilePath :: FilePath , mountconfRofiArgs :: [T.Text] , mountconfStaticDevs :: M.Map T.Text TreeConfig , mountconfVerbose :: Bool , mountconfEnv :: !SimpleApp } -- deriving (Show) instance HasRofiConf MountConf where defArgs MountConf {mountconfRofiArgs = a} = a instance HasLogFunc MountConf where logFuncL = lens mountconfEnv (\x y -> x {mountconfEnv = y}) . logFuncL -------------------------------------------------------------------------------- -- Mountable typeclass -- -- Class to provide common interface for anything that can be mounted. data MountState = Unmounted | Mounted | Partial deriving (Show, Eq) mountedState :: MountState -> Bool mountedState Mounted = True mountedState _ = False class Mountable a where -- | Mount the given type (or dismount if False is passed) mount :: a -> Bool -> MIO MountResult mountMaybe :: a -> Bool -> MIO () mountMaybe dev mountFlag = do let lab = getLabel dev mounted <- isMounted dev verbose <- asks mountconfVerbose if | mountFlag == mounted -> do r <- mount dev mountFlag io $ notifyMountResult mounted lab r | verbose -> io $ notify IconInfo (T.append lab " already mounted") Nothing | otherwise -> return () -- | Check if the mounting utilities are present allInstalled :: a -> MIO Bool -- | Return a string representing the label of the device getLabel :: a -> T.Text -- | Determine if the given type is mounted or not isMounted :: a -> MIO Bool isMounted dev = mountedState <$> mountState dev mountState :: a -> MIO MountState -------------------------------------------------------------------------------- -- Actionable typeclass -- -- Class to provide common interface for anything that can be presented in the -- Rofi menu as an action. Note that this must be separate from the Mountable -- class above because some devices are represented as trees, and displaying -- these trees in the rofi menu only requires that the tree itself be presented -- and not its subcomponents. class Mountable a => Actionable a where -- | Return a string to go in the Rofi menu for the given type fmtEntry :: a -> NE.NonEmpty T.Text fmtEntry d = getLabel d :| [] groupHeader :: a -> Header -- | Given a mountable type, return a rofi action (string to go in the -- Rofi prompt and an action to perform when it is selected) mkAction :: a -> MIO (Header, ProtoAction) mkAction dev = do m <- mountState dev i <- allInstalled dev let h = groupHeader dev let action = when i $ mountMaybe dev $ mountedState m let entry = case fmtEntry dev of (e :| es) -> T.append (mountedPrefix m i) e :| es return (h, ProtoAction entry action) where mountedPrefix _ False = "! " mountedPrefix Unmounted True = " " mountedPrefix Mounted True = "* " mountedPrefix Partial True = "- " mountableToAction :: Actionable a => MIO [a] -> MIO [(Header, ProtoAction)] mountableToAction ms = mapM mkAction =<< ms type MIO a = RIO MountConf a -- headers appear in the order listed here (per Enum) data Header = CIFSHeader | SSHFSHeader | VeracryptHeader | RemovableHeader | MTPFSHeader deriving (Ord, Enum, Eq) instance Show Header where show h = case h of CIFSHeader -> suffix "CIFS" SSHFSHeader -> suffix "SSHFS" VeracryptHeader -> suffix "Veracrypt" RemovableHeader -> suffix "Removable" MTPFSHeader -> suffix "MTPFS" where suffix = (++ " Devices") data ProtoAction = ProtoAction (NE.NonEmpty T.Text) (MIO ()) -------------------------------------------------------------------------------- -- Static devices trees -- Static devices as defined in the config file may declare dependencies on -- other static devices, and thus are best represented as a tree. Note that the -- tree is both Actionable and Mountable, where each node in the tree is only -- Mountable; this is because trees need to be displayed and chosen in the Rofi -- menu. data Tree a = Tree a [Tree a] deriving (Eq, Show) type StaticConfigTree = Tree DeviceConfig instance Mountable a => Mountable (Tree a) where mount (Tree p cs) False = mapM_ (`mountMaybe` False) cs >> mount p False mount (Tree p _) True = mount p True mountState (Tree p _) = mountState p allInstalled (Tree p cs) = do res <- and <$> mapM allInstalled cs if res then allInstalled p else return res getLabel (Tree p _) = getLabel p instance Actionable (Tree DeviceConfig) where fmtEntry (Tree p@DeviceConfig {deviceData = d} _) = getLabel p :| [target d] where target (CIFSConfig (CIFSData {cifsRemote = r})) = r target (SSHFSConfig (SSHFSData {sshfsRemote = r})) = r target (VeracryptConfig (VeracryptData {vcVolume = v})) = v groupHeader (Tree DeviceConfig {deviceData = d} _) = case d of CIFSConfig {} -> CIFSHeader SSHFSConfig {} -> SSHFSHeader VeracryptConfig {} -> VeracryptHeader configToTree' :: M.Map T.Text TreeConfig -> [StaticConfigTree] configToTree' devMap = configToTree devMap <$> M.elems devMap configToTree :: M.Map T.Text TreeConfig -> TreeConfig -> StaticConfigTree configToTree devMap TreeConfig {tcParent = p, tcChildren = c} = -- TODO wut? Tree p $ fmap go id c where go ds = configToTree devMap <$> mapMaybe (`M.lookup` devMap) ds -------------------------------------------------------------------------------- -- Static devices -- -- This is complex because there may be multiple classes of static devices -- in the config file, and each device may depend on another device that is -- a different class (eg sshfs on cifs). I deal with this by abstracting the -- differences between each class in a sum-record type; in this way the -- processing "splits" and "converges" entirely in this function, so nothing -- outside of these needs to be aware of these different classes. instance Mountable DeviceConfig where mount DeviceConfig {deviceMount = m, deviceData = devData} False = do m' <- getAbsMountpoint m withTmpMountDir m' $ case devData of SSHFSConfig (SSHFSData {sshfsRemote = r, sshfsPassword = p}) -> mountSSHFS m' p r CIFSConfig ( CIFSData { cifsRemote = r , cifsSudo = s , cifsPassword = p , cifsOpts = o } ) -> mountCIFS s r m' o p VeracryptConfig ( VeracryptData { vcPassword = p , vcVolume = v } ) -> mountVeracrypt m' p v mount DeviceConfig {deviceMount = m, deviceData = d} True = do m' <- getAbsMountpoint m runAndRemoveDir m' $ io $ case d of CIFSConfig (CIFSData {cifsSudo = s}) -> runMountSudoMaybe s "umount" [T.pack m'] VeracryptConfig _ -> runVeraCrypt ["-d", T.pack m'] "" _ -> runMount "umount" [T.pack m'] "" allInstalled DeviceConfig {deviceData = devData} = io $ isJust <$> findExecutable (exe devData) where exe SSHFSConfig {} = "sshfs" exe CIFSConfig {} = "mount.cifs" exe VeracryptConfig {} = "veracrypt" mountState DeviceConfig {deviceMount = m, deviceData = d} = do -- mountState DeviceConfig{ deviceMount = m } = do case d of VeracryptConfig {} -> veracryptMountState m _ -> do b <- (io . isDirMounted) =<< getAbsMountpoint m return $ if b then Mounted else Unmounted getLabel DeviceConfig { deviceMount = MountConfig {mpPath = p, mpLabel = l} } = fromMaybe (T.pack $ takeFileName $ T.unpack p) l mountSSHFS :: (HasLogFunc c, MonadReader c m, MonadUnliftIO m) => FilePath -> Maybe PasswordConfig -> T.Text -> m MountResult mountSSHFS mountpoint pwdConfig remote = withPasswordGetter pwdConfig (run ["-o", "password_stdin"]) $ run [] "" where run other = runMount "sshfs" (other ++ [remote, T.pack mountpoint]) mountCIFS :: (HasLogFunc c, MonadReader c m, MonadUnliftIO m) => Bool -> T.Text -> FilePath -> Maybe CIFSOpts -> Maybe PasswordConfig -> m MountResult mountCIFS useSudo remote mountpoint opts pwdConfig = withPasswordGetter pwdConfig runPwd run where run = runMountSudoMaybe useSudo "mount.cifs" args runPwd p = runMountSudoMaybe' useSudo "mount.cifs" args [("PASSWD", p)] args = [remote, T.pack mountpoint] ++ maybe [] (\o -> ["-o", fromCIFSOpts o]) opts fromCIFSOpts :: CIFSOpts -> T.Text fromCIFSOpts o = T.intercalate "," $ mapMaybe concatMaybe fs where fs = [ ("username", cifsoptsUsername) , ("workgroup", cifsoptsWorkgroup) , ("uid", fmap (T.pack . show) . cifsoptsUID) , ("gid", fmap (T.pack . show) . cifsoptsGID) , ("iocharset", cifsoptsIocharset) ] concatMaybe (k, f) = (\v -> T.concat [k, "=", v]) <$> f o mountVeracrypt :: (HasLogFunc c, MonadReader c m, MonadUnliftIO m) => FilePath -> Maybe PasswordConfig -> T.Text -> m MountResult mountVeracrypt mountpoint pwdConfig volume = withPasswordGetter pwdConfig (runVeraCrypt (args ++ ["--stdin"])) $ runVeraCrypt args "" where args = [volume, T.pack mountpoint] -- NOTE: the user is assumed to have added themselves to the sudoers file so -- that this command will work runVeraCrypt :: MonadIO m => [T.Text] -> T.Text -> m MountResult runVeraCrypt args = runMount "sudo" (defaultArgs ++ args) where defaultArgs = ["/usr/bin/veracrypt", "--text", "--non-interactive"] veracryptMountState :: MountConfig -> MIO MountState veracryptMountState mc = do mp <- getAbsMountpoint mc primary <- io $ lookupSpec mp aux <- io $ fmap join $ mapM lookupSpec $ auxPath =<< primary return $ case (primary, aux) of (Just _, Just _) -> Mounted (Nothing, Nothing) -> Unmounted _ -> Partial where -- TODO don't hardcode the tmp directory auxPath = fmap (\i -> "/tmp/.veracrypt_aux_mnt" ++ [i]) . vcIndex vcIndex spec = case T.uncons $ T.reverse spec of -- TODO what if I have more than one digit? Just (i, _) -> if i `elem` ['0' .. '9'] then Just i else Nothing _ -> Nothing getAbsMountpoint :: MountConfig -> MIO FilePath getAbsMountpoint MountConfig {mpPath = m} = asks $ flip appendRoot (T.unpack m) . mountconfVolatilePath getStaticActions :: MIO [(Header, ProtoAction)] getStaticActions = mountableToAction $ asks $ configToTree' . mountconfStaticDevs -------------------------------------------------------------------------------- -- Password-getting functions for static devices type PasswordGetter m = m (Maybe T.Text) runSecret :: MonadUnliftIO m => M.Map T.Text T.Text -> PasswordGetter m runSecret kvs = readCmdSuccess "secret-tool" ("lookup" : kvs') "" where kvs' = concatMap (\(k, v) -> [k, v]) $ M.toList kvs runBitwarden :: (HasLogFunc c, MonadReader c m, MonadUnliftIO m) => T.Text -> PasswordGetter m runBitwarden pname = ((password . login) <=< L.find (\i -> name i == pname)) <$> getItems runPromptLoop :: MonadUnliftIO m => Natural -> PasswordGetter m -> PasswordGetter m runPromptLoop n pwd = do res <- pwd if isNothing res then if n <= 0 then return Nothing else runPromptLoop (n - 1) pwd else return res -- configToPwd :: PasswordConfig -> PasswordGetter -- configToPwd PasswordConfig -- { passwordBitwarden = b -- , passwordLibSecret = s -- , passwordPrompt = p -- } = -- getBW b `runMaybe` getLS s `runMaybe` getPrompt p -- where -- getBW (Just BitwardenConfig{ bwKey = k, bwTries = n }) = -- runPromptLoop n $ runBitwarden k -- getBW _ = return Nothing -- getLS = maybe (return Nothing) (runSecret . secretAttributes) -- getPrompt = maybe (return Nothing) (flip runPromptLoop readPassword . promptTries) -- runMaybe x y = (\r -> if isNothing r then y else return r) =<< x configToPwd :: (HasLogFunc c, MonadReader c m, MonadUnliftIO m) => PasswordConfig -> PasswordGetter m configToPwd (PwdBW (BitwardenConfig {bwKey = k, bwTries = n})) = runPromptLoop n $ runBitwarden k configToPwd (PwdLS s) = runSecret $ M.fromList $ (\(SecretMap k v) -> (k, v)) <$> secretAttributes s configToPwd (PwdPr p) = flip runPromptLoop readPassword $ promptTries p withPasswordGetter :: (HasLogFunc c, MonadReader c m, MonadUnliftIO m) => Maybe PasswordConfig -> (T.Text -> m MountResult) -> m MountResult -> m MountResult withPasswordGetter (Just pwdConfig) runPwd _ = maybe (return $ MountError "Password could not be obtained") runPwd =<< configToPwd pwdConfig withPasswordGetter Nothing _ run = run -------------------------------------------------------------------------------- -- Removable devices -- -- A device which can be removed (such as a flash drive). These are distinct -- from any device in the static configuration in that they only have device -- addresses (eg in /dev) and labels. data Removable = Removable { removablePath :: T.Text , removableLabel :: T.Text } deriving (Eq, Show) instance Mountable Removable where mount Removable {removablePath = d} m = io $ runMount "udisksctl" [c, "-b", d] "" where c = if m then "unmount" else "mount" allInstalled _ = fmap isJust $ io $ findExecutable "udisksctl" mountState Removable {removablePath = d} = do s <- elem d <$> io curDeviceSpecs return $ if s then Mounted else Unmounted getLabel Removable {removableLabel = l} = l instance Actionable Removable where fmtEntry Removable {removablePath = d, removableLabel = l} = l :| [d] groupHeader _ = RemovableHeader -- | Return list of possible rofi actions for removable devices -- A 'removable device' is defined as a hotplugged device with a filesystem as -- reported by 'lsblk'. If the LABEL does not exist on the filesystem, the -- label shown on the prompt will be 'SIZE Volume' where size is the size of -- the device getRemovableDevices :: RIO c [Removable] getRemovableDevices = fromLines toDev . T.lines . T.pack <$> io (readProcess "lsblk" ["-n", "-r", "-o", columns] "") where columns = "FSTYPE,HOTPLUG,PATH,LABEL,SIZE" -- can't use 'words' here since it will drop spaces in the front toDev line = case T.split (== ' ') line of ("" : _) -> Nothing [_, "1", d, "", s] -> mk d $ T.append s " Volume" [_, "1", d, l, _] -> mk d l _ -> Nothing mk d l = Just $ Removable {removablePath = d, removableLabel = l} getRemovableActions :: MIO [(Header, ProtoAction)] getRemovableActions = mountableToAction getRemovableDevices -------------------------------------------------------------------------------- -- MTP devices mtpExe :: FilePath mtpExe = "jmtpfs" data MTPFS = MTPFS { mtpfsBus :: T.Text , mtpfsDevice :: T.Text , mtpfsMountpoint :: FilePath , mtpfsDescription :: T.Text } deriving (Eq, Show) instance Mountable MTPFS where mount MTPFS {mtpfsBus = b, mtpfsDevice = n, mtpfsMountpoint = m} False = do -- TODO add autodismount to options let dev = T.concat ["-device=", b, ",", n] withTmpMountDir m $ io $ runMount (T.pack mtpExe) [dev, T.pack m] "" mount MTPFS {mtpfsMountpoint = m} True = runAndRemoveDir m $ io $ runMount "umount" [T.pack m] "" -- \| return True always since the list won't even show without jmtpfs allInstalled _ = return True mountState MTPFS {mtpfsMountpoint = m} = do s <- io $ isDirMounted m return $ if s then Mounted else Unmounted getLabel = mtpfsDescription -- | Return list of all available MTP devices getMTPDevices :: MIO [MTPFS] getMTPDevices = do i <- io mtpExeInstalled if i then go else return [] where go = do dir <- asks mountconfVolatilePath res <- io $ readProcess mtpExe ["-l"] "" return $ fromLines (toDev dir) $ toDevList $ T.pack res toDevList = reverse . L.takeWhile (not . T.isPrefixOf "Available devices") . L.reverse . T.lines toDev dir s = case L.filter (== " ") $ T.split (== ',') s of [busNum, devNum, _, _, desc, vendor] -> let d = T.unwords [vendor, desc] in Just $ MTPFS { mtpfsBus = busNum , mtpfsDevice = devNum , mtpfsMountpoint = dir canonicalize (T.unpack d) , mtpfsDescription = d } _ -> Nothing canonicalize = mapMaybe repl repl c | c `elem` ("\"*/:<>?\\|" :: [Char]) = Nothing | c == ' ' = Just '-' | otherwise = Just c getMTPActions :: MIO [(Header, ProtoAction)] getMTPActions = mountableToAction getMTPDevices mtpExeInstalled :: MonadIO m => m Bool mtpExeInstalled = isJust <$> findExecutable mtpExe instance Actionable MTPFS where fmtEntry d = getLabel d :| [] groupHeader _ = MTPFSHeader -------------------------------------------------------------------------------- -- Notifications notifyMountResult :: MonadIO m => Bool -> T.Text -> MountResult -> m () notifyMountResult mounted label result = case result of MountError e -> notify IconError (T.unwords ["Failed", "to", verb, label]) $ Just e MountSuccess -> notify IconInfo (T.concat ["Successfully ", verb, "ed ", label]) Nothing where verb = if mounted then "unmount" else "mount" :: T.Text -------------------------------------------------------------------------------- -- Mount commands data MountResult = MountSuccess | MountError T.Text deriving (Show, Eq) runMount :: MonadIO m => T.Text -> [T.Text] -> T.Text -> m MountResult runMount cmd args stdin_ = eitherToMountResult <$> readCmdEither cmd args stdin_ runMount' :: MonadIO m => T.Text -> [T.Text] -> T.Text -> [(T.Text, T.Text)] -> m MountResult runMount' cmd args stdin_ environ = eitherToMountResult <$> readCmdEither' cmd args stdin_ environ runMountSudoMaybe :: MonadIO m => Bool -> T.Text -> [T.Text] -> m MountResult runMountSudoMaybe useSudo cmd args = runMountSudoMaybe' useSudo cmd args [] runMountSudoMaybe' :: MonadIO m => Bool -> T.Text -> [T.Text] -> [(T.Text, T.Text)] -> m MountResult runMountSudoMaybe' useSudo cmd args environ = maybe (runMount' cmd args "" environ) (\r -> runSudoMount' r cmd args environ) =<< if useSudo then readPassword' "Sudo Password" else return Nothing -- TODO untested -- runSudoMount :: T.Text -> T.Text -> [T.Text] -> T.Text -> IO MountResult -- runSudoMount rootpass cmd args stdin = runSudoMount' rootpass cmd args stdin [] runSudoMount' :: MonadIO m => T.Text -> T.Text -> [T.Text] -> [(T.Text, T.Text)] -> m MountResult runSudoMount' rootpass cmd args environ = runMount "sudo" args' rootpass where args' = ["-S"] ++ environ' ++ [cmd] ++ args environ' = fmap (\(k, v) -> T.concat [k, "=", v]) environ eitherToMountResult :: Either (Int, T.Text, T.Text) T.Text -> MountResult eitherToMountResult (Right _) = MountSuccess eitherToMountResult (Left (_, _, e)) = MountError e -------------------------------------------------------------------------------- -- Low-level mount functions mountMap :: IO (M.Map FilePath T.Text) mountMap = do parseFile <$> readFileUtf8 "/proc/mounts" where parseFile = M.fromList . mapMaybe (parseLine . T.words) . T.lines -- none of these should fail since this file format will never change parseLine [spec, mountpoint, _, _, _, _] = Just (T.unpack mountpoint, spec) parseLine _ = Nothing curDeviceSpecs :: IO [T.Text] curDeviceSpecs = M.elems <$> mountMap curMountpoints :: IO [FilePath] curMountpoints = M.keys <$> mountMap lookupSpec :: FilePath -> IO (Maybe T.Text) lookupSpec mountpoint = M.lookup mountpoint <$> mountMap -- ASSUME the base mount path will always be created because -- 'createDirectoryIfMissing' will make parents if missing, and that removing -- all the directories will leave the base mount path intact regardless of if it -- was present before doing anything (which matters here since I'm putting the -- base path in /tmp, so all this is saying is that umounting everything will -- leave /tmp/media/USER without removing all the way down to /tmp) rmDirOnMountError :: FilePath -> MIO MountResult -> MIO MountResult rmDirOnMountError d f = do res <- f unless (res == MountSuccess) $ rmDirMaybe d return res -- | Run a mount command and create the mountpoint if it does not exist, and -- remove the mountpoint if a mount error occurs withTmpMountDir :: FilePath -> MIO MountResult -> MIO MountResult withTmpMountDir m = rmDirOnMountError m . bracketOnError_ (mkDirMaybe m) (rmDirMaybe m) -- | Run an unmount command and remove the mountpoint if no errors occur runAndRemoveDir :: FilePath -> MIO MountResult -> MIO MountResult runAndRemoveDir m f = do res <- catch f (return . MountError . (T.pack . displayException :: SomeException -> T.Text)) when (res == MountSuccess) $ rmDirMaybe m return res mkDirMaybe :: FilePath -> MIO () mkDirMaybe fp = whenInMountDir fp $ io $ createDirectoryIfMissing True fp rmDirMaybe :: FilePath -> MIO () rmDirMaybe fp = whenInMountDir fp $ unlessMountpoint fp $ asks mountconfVolatilePath >>= io . rmUntil fp where rmUntil cur target = unless (target == cur) $ do removePathForcibly cur rmUntil (takeDirectory cur) target whenInMountDir :: FilePath -> MIO () -> MIO () whenInMountDir fp f = do mDir <- asks mountconfVolatilePath when (mDir `L.isPrefixOf` fp) f unlessMountpoint :: MonadIO m => FilePath -> m () -> m () unlessMountpoint fp f = do mounted <- io $ isDirMounted fp unless mounted f isDirMounted :: FilePath -> IO Bool isDirMounted fp = elem fp <$> curMountpoints -------------------------------------------------------------------------------- -- Other functions fromLines :: (T.Text -> Maybe a) -> [T.Text] -> [a] fromLines f = mapMaybe (f . T.strip) -- TODO this exists somewhere... -- splitBy :: Char -> T.Text -> [T.Text] -- splitBy delimiter = T.foldr f [[]] -- where -- f _ [] = [] -- f c l@(x : xs) -- | c == delimiter = [] : l -- | otherwise = (c : x) : xs appendRoot :: FilePath -> FilePath -> FilePath appendRoot root path = if isRelative path then root path else path