{-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE RecordWildCards #-} -------------------------------------------------------------------------------- -- | 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 Control.Monad import Control.Monad.Reader import Data.Either import Data.List import Data.List.Split (splitOn) import qualified Data.Map as M import qualified Data.Map.Ordered as O import Data.Maybe import Data.Text (unpack) import Rofi.Command import Text.Printf import Text.Regex.TDFA import Text.Wrap import System.Console.GetOpt import System.Directory import System.Environment import System.FilePath.Posix import System.Posix.User (getEffectiveUserName) import System.Process import UnliftIO.Exception main :: IO () main = getArgs >>= parse parse :: [String] -> IO () parse args = case getOpt Permute options args of (o, n, []) -> initMountConf n >>= \i -> runMounts $ foldl (flip id) i o (_, _, errs) -> ioError $ userError $ concat errs ++ usageInfo h options where h = "Usage: rofi-dev [OPTIONS] [-- ROFI-OPTIONS]" -- TODO add option to look up password in bitwarden vault options :: [OptDescr (MountConf -> MountConf)] options = [ Option ['s'] ["secret"] (ReqArg (\s m -> m { passwords = addSecret (passwords m) s } ) "SECRET") $ wrap "Use libsecret to retrieve password for DIR using ATTR/VAL pairs. \ \The pairs will be supplied to a 'secret-tool lookup' call. \ \ Argument is formatted like 'DIR:ATTR1=VAL1,ATTR2=VAL2...'" , Option ['d'] ["directory"] (ReqArg (\s m -> m { mountDir = s } ) "DIR") $ wrap "The DIR in which new mountpoints will be created. This is assumed \ \to be writable to the current user, and will be used for fuse \ \entries as well as user mounts in fstab. For the latter, it is \ \assumed that all user mounts contain this directory if a \ \mountpoint does not already exist for them. If not given this will \ \default to '/tmp/media/USER'." , Option ['p'] ["password"] (ReqArg (\s m -> m { passwords = addPwdPrompt (passwords m) s } ) "DIR") "Prompt for password when mounting DIR." ] where wrap = unpack . wrapText defaultWrapSettings 40 -------------------------------------------------------------------------------- -- | Static configuration -- -- This is defined by the mount options on the command line, and holds: -- - a map between mountpoints and a means to get passwords when mounting those -- mountpoints -- - a mount directory where mountpoints will be created if needed (defaults -- to '/tmp/media/USER' -- - any arguments to be passed to the rofi command type Password = IO (Maybe String) type MountpointPasswords = M.Map String Password -- TODO check if mountdir exists or puke data MountConf = MountConf { passwords :: MountpointPasswords , mountDir :: FilePath , rofiArgs :: [String] } instance RofiConf MountConf where defArgs MountConf { rofiArgs = a } = a initMountConf :: [String] -> IO MountConf initMountConf a = conf <$> getEffectiveUserName where conf u = MountConf { passwords = M.empty , mountDir = "/tmp/media" u , rofiArgs = a } -------------------------------------------------------------------------------- -- | Password-getting functions addSecret :: MountpointPasswords -> String -> MountpointPasswords addSecret pwds c = case splitPrefix c of (dir, ":", r) -> M.insert dir (runSecret $ fromCommaSepString' r) pwds _ -> pwds where splitPrefix s = s =~ (":" :: String) :: (String, String, String) runSecret :: [(String, String)] -> Password runSecret kvs = readCmdSuccess "secret-tool" ("lookup":kvs') "" where kvs' = concatMap (\(k, v) -> [k, v]) kvs addPwdPrompt :: MountpointPasswords -> String -> MountpointPasswords addPwdPrompt pwds dir = M.insert dir readPassword pwds -------------------------------------------------------------------------------- -- | 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 :: MountConf -> IO () runMounts c = runRofiIO c $ runPrompt =<< getGroups runPrompt :: RofiConf c => [RofiGroup c] -> RofiIO c () runPrompt gs = selectAction $ emptyMenu { groups = gs , prompt = Just "Select Device" } getGroups :: RofiIO MountConf [RofiGroup MountConf] getGroups = do fstab <- readFSTab sequence [ mkGroup "SSHFS Devices" $ sshfsDevices fstab , mkGroup "CIFS Devices" $ cifsDevices fstab , mkGroup "Veracrypt Devices" $ veracryptDevices fstab , mkGroup "Removable Devices" =<< getRemovableDevices , mkGroup "MTP Devices" =<< getMTPDevices ] mkGroup :: Mountable d => String -> [d] -> RofiIO MountConf (RofiGroup MountConf) mkGroup header devs = titledGroup header . alignEntries . toRofiActions <$> mapM mkAction devs alignSep :: String alignSep = " | " alignSepPre :: String alignSepPre = "@@@" alignEntries :: RofiActions c -> RofiActions c alignEntries = O.fromList . withKeys . O.assocs where withKeys as = let (ks, vs) = unzip as in zip (align ks) vs align = fmap (intercalate alignSep) . transpose . mapToLast pad . transpose . fmap (splitOn alignSepPre) pad xs = let m = getMax xs in fmap (\x -> take m (x ++ repeat ' ')) xs getMax = maximum . fmap length mapToLast _ [] = [] mapToLast _ [x] = [x] mapToLast f (x:xs) = f x : mapToLast f xs -------------------------------------------------------------------------------- -- | Removable devices -- -- A device which can be removed (which is all the devices we care about) -- This can be minimally described by a device DEVICESPEC and LABEL. data Removable = Removable { deviceSpec :: String , label :: String } deriving (Eq, Show) instance Mountable Removable where mount Removable { deviceSpec = d, label = l } m = io $ runMountNotify "udisksctl" [c, "-b", d] l m where c = if m then "unmount" else "mount" allInstalled _ = fmap isJust $ io $ findExecutable "udisksctl" isMounted Removable { deviceSpec = d } = elem d <$> io curDeviceSpecs fmtEntry Removable { deviceSpec = d, label = l } = l ++ alignSepPre ++ d -- | Return list of possible rofi actions for removable devices -- A 'removable device' is defined as a hotplugged device with a filesystem as -- reported by 'lsblk'. If the LABEL does not exist on the filesystem, the -- label shown on the prompt will be 'SIZE Volume' where size is the size of -- the device getRemovableDevices :: RofiConf c => RofiIO c [Removable] getRemovableDevices = fromLines toDev . lines <$> 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 splitBy ' ' line of ("":_) -> Nothing [_, "1", d, "", s] -> mk d $ s ++ " Volume" [_, "1", d, l, _] -> mk d l _ -> Nothing mk d l = Just $ Removable { deviceSpec = d, label = l } -------------------------------------------------------------------------------- -- | CIFS Devices -- -- This wraps the Removable device (since it is removable) and also adds its -- own mount options and passwords for authentication. data CIFS = CIFS Removable FilePath (Maybe Password) instance Mountable CIFS where mount (CIFS Removable{ label = l } m getPwd) False = bracketOnError_ (mkDirMaybe m) (rmDirMaybe m) $ io $ do res <- case getPwd of Just pwd -> do p <- maybe [] (\p -> [("PASSWD", p)]) <$> pwd readCmdEither' "mount" [m] "" p Nothing -> readCmdEither "mount" [m] "" notifyMounted (isRight res) False l mount (CIFS Removable{ label = l } m _) True = umountNotify l m allInstalled _ = io $ isJust <$> findExecutable "mount.cifs" isMounted (CIFS _ dir _) = io $ isDirMounted dir fmtEntry (CIFS r _ _) = fmtEntry r -- TODO this smells like something that should be in a typeclass fstabToCIFS :: FSTabEntry -> RofiIO MountConf CIFS fstabToCIFS FSTabEntry{ fstabSpec = s, fstabDir = d, fstabOptions = o } = do -- If the options specify "guest" don't require a password. Else try to find a -- means to get the password from the command line options provided for the -- this mountpoint. If nothing is found, prompt for a password. In any case, -- the output will be passed to env variable PASSWD when mounting this cifs -- directory and cause it to fail. Setting the env variable is necessary as -- the cifs mount call will prompt for a password and hang otherwise. pwd <- if M.member "guest" o then return Nothing else Just . M.findWithDefault readPassword d <$> asks passwords let r = Removable { deviceSpec = smartSlashPrefix s, label = takeFileName d } return $ CIFS r d pwd where smartSlashPrefix a = if "//" `isPrefixOf` a then a else "//" ++ a -------------------------------------------------------------------------------- -- | SSHFS Devices -- -- This wraps the Removable device (since it is removable) and also adds its -- own mount options. If the path does not point to an aliased entry in the ssh -- config that specifies the port, hostname, user, and identity file, these -- need to be passed as mount options. data SSHFS = SSHFS Removable FilePath instance Mountable SSHFS where mount (SSHFS Removable{ label = l } m) False = bracketOnError_ (mkDirMaybe m) (rmDirMaybe m) (io $ runMountNotify "mount" [m] l False) mount (SSHFS Removable{ label = l } m) True = umountNotify l m allInstalled _ = fmap isJust $ io $ findExecutable "sshfs" isMounted (SSHFS _ dir) = io $ isDirMounted dir fmtEntry (SSHFS r _) = fmtEntry r fstabToSSHFS :: FSTabEntry -> RofiIO MountConf SSHFS fstabToSSHFS FSTabEntry{ fstabSpec = s, fstabDir = d } = return $ SSHFS r d where r = Removable { deviceSpec = s, label = takeFileName d } -------------------------------------------------------------------------------- -- | VeraCrypt Devices -- data VeraCrypt = VeraCrypt Removable FilePath (Maybe Password) instance Mountable VeraCrypt where -- TODO this is just like the CIFS version... -- TODO replace the veracrypt binaries with actual vercrypt program -- (the setuid plan failed) mount (VeraCrypt Removable{ label = l } m getPwd) False = bracketOnError_ (mkDirMaybe m) (rmDirMaybe m) $ io $ do res <- case getPwd of Just pwd -> do rootpass <- maybe "" (++ "\n") <$> readPassword' "Sudo Password" p <- maybe [] (\p -> [("PASSWD", p)]) <$> pwd readCmdEither' "sudo" (["-S", "-E", "/usr/bin/mount"] ++ [m]) rootpass p Nothing -> readCmdEither "mount" [m] "" notifyMounted (isRight res) False l mount (VeraCrypt Removable{ label = l } m _) True = umountNotify' "umount.veracrypt" l m -- TODO also check for umount.veracrypt? allInstalled _ = io $ isJust <$> findExecutable "mount.veracrypt" isMounted (VeraCrypt _ dir _) = io $ isDirMounted dir fmtEntry (VeraCrypt r _ _) = fmtEntry r fstabToVeraCrypt :: FSTabEntry -> RofiIO MountConf VeraCrypt fstabToVeraCrypt FSTabEntry{ fstabSpec = s, fstabDir = d } = do pwd <- Just . M.findWithDefault readPassword d <$> asks passwords let r = Removable { deviceSpec = s, label = takeFileName d } return $ VeraCrypt r d pwd -------------------------------------------------------------------------------- -- | MTP devices -- -- These devices are a bit special because they are not based on Removable -- devices (eg they don't have a label and a device spec). Instead they -- are defined by a bus:device path. The program used for this is jmtpfs -- (which seems to be the fastest and most robust) data MTPFS = MTPFS { bus :: String , device :: String , mountpoint :: FilePath , description :: String } deriving (Eq, Show) instance Mountable MTPFS where mount MTPFS {..} False = do -- TODO add autodismount to options let dev = "-device=" ++ bus ++ "," ++ device bracketOnError_ (mkDirMaybe mountpoint) (rmDirMaybe mountpoint) (io $ runMountNotify "jmtpfs" [dev, mountpoint] description False) mount MTPFS { mountpoint = m, description = d } True = umountNotify d m -- | return True always since the list won't even show without jmtpfs allInstalled _ = return True isMounted MTPFS { mountpoint = dir } = io $ isDirMounted dir fmtEntry MTPFS { description = d } = d -- | Return list of all available MTP devices getMTPDevices :: RofiIO MountConf [MTPFS] getMTPDevices = do dir <- asks mountDir res <- io $ readProcess "jmtpfs" ["-l"] "" return $ fromLines (toDev dir) $ toDevList res where toDevList = reverse . takeWhile (not . isPrefixOf "Available devices") . reverse . lines toDev dir s = case splitOn ", " s of [busNum, devNum, _, _, desc, vendor] -> let d = unwords [vendor, desc] in Just $ MTPFS { bus = busNum , device = devNum , mountpoint = dir canonicalize d , description = d } _ -> Nothing canonicalize = mapMaybe repl repl c | c `elem` ("\"*/:<>?\\|" :: String) = Nothing | c == ' ' = Just '-' | otherwise = Just c -------------------------------------------------------------------------------- -- | Mountable typeclass -- -- Let this class represent anything that can be mounted. The end goal is to -- create a Rofi action which will define an entry in the rofi prompt for the -- device at hand. In order to make an action, we need functions to mount the -- device, check if the necessary mounting program(s) is installed, make the -- entry to go in the prompt, and test if the device is mounted. class Mountable a where -- | Mount the given type (or dismount if False is passed) mount :: a -> Bool -> RofiIO MountConf () -- | Check if the mounting utilities are present allInstalled :: a -> RofiIO MountConf Bool -- | Return a string to go in the Rofi menu for the given type fmtEntry :: a -> String -- | Determine if the given type is mounted or not isMounted :: a -> RofiIO MountConf Bool -- | 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 -> RofiIO MountConf (String, RofiIO MountConf ()) mkAction dev = do m <- isMounted dev i <- allInstalled dev let a = when i $ mount dev m let s = mountedPrefix m i ++ fmtEntry dev return (s, a) where mountedPrefix False True = " " mountedPrefix True True = "* " mountedPrefix _ False = "! " -- TODO add truecrypt volumes -------------------------------------------------------------------------------- -- | Fstab devices -- -- Functions to gather all user fstab mounts on the system -- | Intermediate structure to hold fstab devices data FSTab = FSTab { sshfsDevices :: [SSHFS] , cifsDevices :: [CIFS] , veracryptDevices :: [VeraCrypt] } -- | Data structure representing an fstab device (or one line in the fstab file) data FSTabEntry = FSTabEntry { fstabSpec :: String , fstabDir :: FilePath , fstabType :: String , fstabOptions :: MountOptions } -- | Key/val pairs to represent mount options. A Nothing for the value signifies -- a standalone option (eg 'rw' and 'ro') type MountOptions = M.Map String (Maybe String) -- | Return all user fstab devices from /etc/fstab readFSTab :: RofiIO MountConf FSTab readFSTab = do let i = FSTab { sshfsDevices = [], cifsDevices = [], veracryptDevices = []} fstab <- io $ readFile "/etc/fstab" foldM addFstabDevice i $ fromLines toEntry $ lines fstab where toEntry line = case words line of (('#':_):_) -> Nothing [spec, dir, fsType, opts, _, _] -> Just $ FSTabEntry { fstabSpec = spec , fstabDir = dir , fstabType = fsType , fstabOptions = parseOptions opts } _ -> Nothing parseOptions = M.fromList . fromCommaSepString -- | Add entry to the fstab devices list, but only if it is a known user mount addFstabDevice :: FSTab -> FSTabEntry -> RofiIO MountConf FSTab addFstabDevice f@FSTab{..} e@FSTabEntry{..} | M.notMember "users" fstabOptions = return f | fstabType == "cifs" = (\d -> f { cifsDevices = append d cifsDevices }) <$> fstabToCIFS e | fstabType == "fuse.sshfs" = (\d -> f { sshfsDevices = append d sshfsDevices }) <$> fstabToSSHFS e | fstabType == "veracrypt" = (\d -> f { veracryptDevices = append d veracryptDevices }) <$> fstabToVeraCrypt e | otherwise = return f where append x xs = xs ++ [x] -------------------------------------------------------------------------------- -- | Low-level mount functions -- ASSUME these will never fail because the format of /proc/mounts is fixed curMountField :: Int -> IO [String] curMountField i = fmap ((!! i) . words) . lines <$> readFile "/proc/mounts" curDeviceSpecs :: IO [String] curDeviceSpecs = curMountField 0 curMountpoints :: IO [String] curMountpoints = curMountField 1 -- 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) mkDirMaybe :: FilePath -> RofiIO MountConf () mkDirMaybe fp = whenInMountDir fp $ io $ createDirectoryIfMissing True fp rmDirMaybe :: FilePath -> RofiIO MountConf () rmDirMaybe fp = whenInMountDir fp $ unlessMountpoint fp $ asks mountDir >>= io . rmUntil fp where rmUntil cur target = unless (target == cur) $ do removePathForcibly cur rmUntil (takeDirectory cur) target whenInMountDir :: FilePath -> RofiIO MountConf () -> RofiIO MountConf () whenInMountDir fp f = do mDir <- asks mountDir when (mDir `isPrefixOf` fp) f unlessMountpoint :: FilePath -> RofiIO MountConf () -> RofiIO MountConf () unlessMountpoint fp f = do mounted <- io $ isDirMounted fp unless mounted f isDirMounted :: FilePath -> IO Bool isDirMounted fp = elem fp <$> curMountpoints runMountNotify :: String -> [String] -> String -> Bool -> IO () runMountNotify cmd args msg mounted = do res <- readCmdEither cmd args "" notifyMounted (isRight res) mounted msg umountNotify' :: String -> String -> FilePath -> RofiIO MountConf () umountNotify' cmd msg dir = finally (io $ runMountNotify cmd [dir] msg True) (rmDirMaybe dir) umountNotify :: String -> FilePath -> RofiIO MountConf () umountNotify = umountNotify' "umount" -- | Send a notification indicating the mount succeeded notifyMounted :: Bool -> Bool -> String -> IO () notifyMounted succeeded mounted label = void $ spawnProcess "notify-send" ["-i", i, msg] where (f, i) = if succeeded then ("Successfully %sed %s", "dialog-information-symbolic") else ("Failed to %s %s", "dialog-error-symbolic") m = if mounted then "unmount" else "mount" :: String msg = printf f m label -------------------------------------------------------------------------------- -- | Other functions fromLines :: (String -> Maybe a) -> [String] -> [a] fromLines f = mapMaybe (f . stripWS) -- TODO this exists somewhere... splitBy :: Char -> String -> [String] splitBy delimiter = foldr f [[]] where f _ [] = [] f c l@(x:xs) | c == delimiter = []:l | otherwise = (c:x):xs -- | Like fromCommaSepString but only return substrings with '=' fromCommaSepString' :: String -> [(String, String)] fromCommaSepString' s = [(k, v) | (k, Just v) <- fromCommaSepString s] -- | Split a string of comma-separated values into an alist -- If the substrings have an '=' in them, the left side will become the key and -- the right will become the value of the cell. If there is not '=' then the -- entire substring will become the key and the value will be Nothing fromCommaSepString :: String -> [(String, Maybe String)] fromCommaSepString = fmap (toCell . splitEq) . splitBy ',' where splitEq e = e =~ ("=" :: String) :: (String, String, String) toCell (k, "=", v) = (k, Just v) toCell (k, _, _) = (k, Nothing)