module HPath.IO.Errors
(
HPathIOException(..)
, RecursiveFailureHint(..)
, isSameFile
, isDestinationInSource
, isRecursiveFailure
, isReadContentsFailed
, isCreateDirFailed
, isCopyFileFailed
, isRecreateSymlinkFailed
, throwFileDoesExist
, throwDirDoesExist
, throwSameFile
, sameFile
, throwDestinationInSource
, doesFileExist
, doesDirectoryExist
, isWritable
, canOpenDirectory
, catchErrno
, rethrowErrnoAs
, handleIOError
, bracketeer
, reactOnError
)
where
import Control.Applicative
(
(<$>)
)
import Control.Exception
import Control.Monad
(
forM
, when
)
import Control.Monad.IfElse
(
whenM
)
import Data.ByteString
(
ByteString
)
import Data.ByteString.UTF8
(
toString
)
import Data.Typeable
(
Typeable
)
import Foreign.C.Error
(
getErrno
, Errno
)
import GHC.IO.Exception
(
IOErrorType
)
import HPath
import HPath.IO
(
canonicalizePath
)
import System.IO.Error
(
alreadyExistsErrorType
, catchIOError
, ioeGetErrorType
, mkIOError
)
import qualified System.Posix.Directory.ByteString as PFD
import System.Posix.Files.ByteString
(
fileAccess
, getFileStatus
)
import qualified System.Posix.Files.ByteString as PF
data HPathIOException = SameFile ByteString ByteString
| DestinationInSource ByteString ByteString
| RecursiveFailure [(RecursiveFailureHint, IOException)]
deriving (Eq, Show, Typeable)
data RecursiveFailureHint = ReadContentsFailed (Path Abs) (Path Abs)
| CreateDirFailed (Path Abs) (Path Abs)
| CopyFileFailed (Path Abs) (Path Abs)
| RecreateSymlinkFailed (Path Abs) (Path Abs)
deriving (Eq, Show)
instance Exception HPathIOException
toConstr :: HPathIOException -> String
toConstr SameFile {} = "SameFile"
toConstr DestinationInSource {} = "DestinationInSource"
toConstr RecursiveFailure {} = "RecursiveFailure"
isSameFile, isDestinationInSource, isRecursiveFailure :: HPathIOException -> Bool
isSameFile ex = toConstr (ex :: HPathIOException) == toConstr SameFile{}
isDestinationInSource ex = toConstr (ex :: HPathIOException) == toConstr DestinationInSource{}
isRecursiveFailure ex = toConstr (ex :: HPathIOException) == toConstr RecursiveFailure{}
isReadContentsFailed, isCreateDirFailed, isCopyFileFailed, isRecreateSymlinkFailed ::RecursiveFailureHint -> Bool
isReadContentsFailed ReadContentsFailed{} = True
isReadContentsFailed _ = False
isCreateDirFailed CreateDirFailed{} = True
isCreateDirFailed _ = False
isCopyFileFailed CopyFileFailed{} = True
isCopyFileFailed _ = False
isRecreateSymlinkFailed RecreateSymlinkFailed{} = True
isRecreateSymlinkFailed _ = False
throwFileDoesExist :: Path Abs -> IO ()
throwFileDoesExist fp =
whenM (doesFileExist fp)
(ioError . mkIOError
alreadyExistsErrorType
"File already exists"
Nothing
$ (Just (toString $ fromAbs fp))
)
throwDirDoesExist :: Path Abs -> IO ()
throwDirDoesExist fp =
whenM (doesDirectoryExist fp)
(ioError . mkIOError
alreadyExistsErrorType
"Directory already exists"
Nothing
$ (Just (toString $ fromAbs fp))
)
throwSameFile :: Path Abs
-> Path Abs
-> IO ()
throwSameFile fp1 fp2 =
whenM (sameFile fp1 fp2)
(throwIO $ SameFile (fromAbs fp1) (fromAbs fp2))
sameFile :: Path Abs -> Path Abs -> IO Bool
sameFile fp1 fp2 =
withAbsPath fp1 $ \fp1' -> withAbsPath fp2 $ \fp2' ->
handleIOError (\_ -> return False) $ do
fs1 <- getFileStatus fp1'
fs2 <- getFileStatus fp2'
if ((PF.deviceID fs1, PF.fileID fs1) ==
(PF.deviceID fs2, PF.fileID fs2))
then return True
else return False
throwDestinationInSource :: Path Abs
-> Path Abs
-> IO ()
throwDestinationInSource source dest = do
dest' <- (\x -> maybe x (\y -> x </> y) $ basename dest)
<$> (canonicalizePath $ dirname dest)
dids <- forM (getAllParents dest') $ \p -> do
fs <- PF.getSymbolicLinkStatus (fromAbs p)
return (PF.deviceID fs, PF.fileID fs)
sid <- fmap (\x -> (PF.deviceID x, PF.fileID x))
$ PF.getFileStatus (fromAbs source)
when (elem sid dids)
(throwIO $ DestinationInSource (fromAbs dest)
(fromAbs source))
doesFileExist :: Path Abs -> IO Bool
doesFileExist fp =
handleIOError (\_ -> return False) $ do
fs <- PF.getSymbolicLinkStatus (fromAbs fp)
return $ not . PF.isDirectory $ fs
doesDirectoryExist :: Path Abs -> IO Bool
doesDirectoryExist fp =
handleIOError (\_ -> return False) $ do
fs <- PF.getSymbolicLinkStatus (fromAbs fp)
return $ PF.isDirectory fs
isWritable :: Path Abs -> IO Bool
isWritable fp =
handleIOError (\_ -> return False) $
fileAccess (fromAbs fp) False True False
canOpenDirectory :: Path Abs -> IO Bool
canOpenDirectory fp =
handleIOError (\_ -> return False) $ do
bracket (PFD.openDirStream . fromAbs $ fp)
PFD.closeDirStream
(\_ -> return ())
return True
catchErrno :: [Errno]
-> IO a
-> IO a
-> IO a
catchErrno en a1 a2 =
catchIOError a1 $ \e -> do
errno <- getErrno
if errno `elem` en
then a2
else ioError e
rethrowErrnoAs :: Exception e
=> [Errno]
-> e
-> IO a
-> IO a
rethrowErrnoAs en fmex action = catchErrno en action (throwIO fmex)
handleIOError :: (IOError -> IO a) -> IO a -> IO a
handleIOError = flip catchIOError
bracketeer :: IO a
-> (a -> IO b)
-> (a -> IO b)
-> (a -> IO c)
-> IO c
bracketeer before after afterEx thing =
mask $ \restore -> do
a <- before
r <- restore (thing a) `onException` afterEx a
_ <- after a
return r
reactOnError :: IO a
-> [(IOErrorType, IO a)]
-> [(HPathIOException, IO a)]
-> IO a
reactOnError a ios fmios =
a `catches` [iohandler, fmiohandler]
where
iohandler = Handler $
\(ex :: IOException) ->
foldr (\(t, a') y -> if ioeGetErrorType ex == t
then a'
else y)
(throwIO ex)
ios
fmiohandler = Handler $
\(ex :: HPathIOException) ->
foldr (\(t, a') y -> if toConstr ex == toConstr t
then a'
else y)
(throwIO ex)
fmios