{-# OPTIONS_GHC -XNoImplicitPrelude #-}
-----------------------------------------------------------------------------
-- |
-- Module      :  GHC.IO.Handle.FD
-- Copyright   :  (c) The University of Glasgow, 1994-2008
-- License     :  see libraries/base/LICENSE
-- 
-- Maintainer  :  libraries@haskell.org
-- Stability   :  internal
-- Portability :  non-portable
--
-- Handle operations implemented by file descriptors (FDs)
--
-----------------------------------------------------------------------------

module GHC.IO.Handle.FD ( 
  stdin, stdout, stderr,
  openFile, openBinaryFile,
  mkHandleFromFD, fdToHandle, fdToHandle',
  isEOF
 ) where

import GHC.Base
import GHC.Real
import GHC.Show
import Data.Maybe
-- import Control.Monad
import Foreign.C.Types
import GHC.MVar
import GHC.IO
import GHC.IO.Encoding
-- import GHC.IO.Exception
import GHC.IO.Device as IODevice
import GHC.IO.Exception
import GHC.IO.IOMode
import GHC.IO.Handle
import GHC.IO.Handle.Types
import GHC.IO.Handle.Internals
import GHC.IO.FD (FD(..))
import qualified GHC.IO.FD as FD
import qualified System.Posix.Internals as Posix

-- ---------------------------------------------------------------------------
-- Standard Handles

-- Three handles are allocated during program initialisation.  The first
-- two manage input or output from the Haskell program's standard input
-- or output channel respectively.  The third manages output to the
-- standard error channel. These handles are initially open.

-- | A handle managing input from the Haskell program's standard input channel.
stdin :: Handle
{-# NOINLINE stdin #-}
stdin = unsafePerformIO $ do
   -- ToDo: acquire lock
   setBinaryMode FD.stdin
   mkHandle FD.stdin "<stdin>" ReadHandle True (Just localeEncoding)
                nativeNewlineMode{-translate newlines-}
                (Just stdHandleFinalizer) Nothing

-- | A handle managing output to the Haskell program's standard output channel.
stdout :: Handle
{-# NOINLINE stdout #-}
stdout = unsafePerformIO $ do
   -- ToDo: acquire lock
   setBinaryMode FD.stdout
   mkHandle FD.stdout "<stdout>" WriteHandle True (Just localeEncoding)
                nativeNewlineMode{-translate newlines-}
                (Just stdHandleFinalizer) Nothing

-- | A handle managing output to the Haskell program's standard error channel.
stderr :: Handle
{-# NOINLINE stderr #-}
stderr = unsafePerformIO $ do
    -- ToDo: acquire lock
   setBinaryMode FD.stderr
   mkHandle FD.stderr "<stderr>" WriteHandle False{-stderr is unbuffered-} 
                (Just localeEncoding)
                nativeNewlineMode{-translate newlines-}
                (Just stdHandleFinalizer) Nothing

stdHandleFinalizer :: FilePath -> MVar Handle__ -> IO ()
stdHandleFinalizer fp m = do
  h_ <- takeMVar m
  flushWriteBuffer h_
  case haType h_ of 
      ClosedHandle -> return ()
      _other       -> closeTextCodecs h_
  putMVar m (ioe_finalizedHandle fp)

-- We have to put the FDs into binary mode on Windows to avoid the newline
-- translation that the CRT IO library does.
setBinaryMode :: FD -> IO ()
#ifdef mingw32_HOST_OS
setBinaryMode fd = do _ <- setmode (fdFD fd) True
                      return ()
#else
setBinaryMode _ = return ()
#endif

#ifdef mingw32_HOST_OS
foreign import ccall unsafe "__hscore_setmode"
  setmode :: CInt -> Bool -> IO CInt
#endif

-- ---------------------------------------------------------------------------
-- isEOF

-- | The computation 'isEOF' is identical to 'hIsEOF',
-- except that it works only on 'stdin'.

isEOF :: IO Bool
isEOF = hIsEOF stdin

-- ---------------------------------------------------------------------------
-- Opening and Closing Files

addFilePathToIOError :: String -> FilePath -> IOException -> IOException
addFilePathToIOError fun fp ioe
  = ioe{ ioe_location = fun, ioe_filename = Just fp }

-- | Computation 'openFile' @file mode@ allocates and returns a new, open
-- handle to manage the file @file@.  It manages input if @mode@
-- is 'ReadMode', output if @mode@ is 'WriteMode' or 'AppendMode',
-- and both input and output if mode is 'ReadWriteMode'.
--
-- If the file does not exist and it is opened for output, it should be
-- created as a new file.  If @mode@ is 'WriteMode' and the file
-- already exists, then it should be truncated to zero length.
-- Some operating systems delete empty files, so there is no guarantee
-- that the file will exist following an 'openFile' with @mode@
-- 'WriteMode' unless it is subsequently written to successfully.
-- The handle is positioned at the end of the file if @mode@ is
-- 'AppendMode', and otherwise at the beginning (in which case its
-- internal position is 0).
-- The initial buffer mode is implementation-dependent.
--
-- This operation may fail with:
--
--  * 'isAlreadyInUseError' if the file is already open and cannot be reopened;
--
--  * 'isDoesNotExistError' if the file does not exist; or
--
--  * 'isPermissionError' if the user does not have permission to open the file.
--
-- Note: if you will be working with files containing binary data, you'll want to
-- be using 'openBinaryFile'.
openFile :: FilePath -> IOMode -> IO Handle
openFile fp im = 
  catchException
    (openFile' fp im dEFAULT_OPEN_IN_BINARY_MODE)
    (\e -> ioError (addFilePathToIOError "openFile" fp e))

-- | Like 'openFile', but open the file in binary mode.
-- On Windows, reading a file in text mode (which is the default)
-- will translate CRLF to LF, and writing will translate LF to CRLF.
-- This is usually what you want with text files.  With binary files
-- this is undesirable; also, as usual under Microsoft operating systems,
-- text mode treats control-Z as EOF.  Binary mode turns off all special
-- treatment of end-of-line and end-of-file characters.
-- (See also 'hSetBinaryMode'.)

openBinaryFile :: FilePath -> IOMode -> IO Handle
openBinaryFile fp m =
  catchException
    (openFile' fp m True)
    (\e -> ioError (addFilePathToIOError "openBinaryFile" fp e))

openFile' :: String -> IOMode -> Bool -> IO Handle
openFile' filepath iomode binary = do
  -- first open the file to get an FD
  (fd, fd_type) <- FD.openFile filepath iomode

  let mb_codec = if binary then Nothing else Just localeEncoding

  -- then use it to make a Handle
  mkHandleFromFD fd fd_type filepath iomode True{-non-blocking-} mb_codec
            `onException` IODevice.close fd
        -- NB. don't forget to close the FD if mkHandleFromFD fails, otherwise
        -- this FD leaks.
        -- ASSERT: if we just created the file, then fdToHandle' won't fail
        -- (so we don't need to worry about removing the newly created file
        --  in the event of an error).


-- ---------------------------------------------------------------------------
-- Converting file descriptors to Handles

mkHandleFromFD
   :: FD
   -> IODeviceType
   -> FilePath -- a string describing this file descriptor (e.g. the filename)
   -> IOMode
   -> Bool -- non_blocking (*sets* non-blocking mode on the FD)
   -> Maybe TextEncoding
   -> IO Handle

mkHandleFromFD fd0 fd_type filepath iomode set_non_blocking mb_codec
  = do
#ifndef mingw32_HOST_OS
    -- turn on non-blocking mode
    fd <- if set_non_blocking 
             then FD.setNonBlockingMode fd0 True
             else return fd0
#else
    let _ = set_non_blocking -- warning suppression
    fd <- return fd0
#endif

    let nl | isJust mb_codec = nativeNewlineMode
           | otherwise       = noNewlineTranslation

    case fd_type of
        Directory -> 
           ioException (IOError Nothing InappropriateType "openFile"
                           "is a directory" Nothing Nothing)

        Stream
           -- only *Streams* can be DuplexHandles.  Other read/write
           -- Handles must share a buffer.
           | ReadWriteMode <- iomode -> 
                mkDuplexHandle fd filepath mb_codec nl
                   

        _other -> 
           mkFileHandle fd filepath iomode mb_codec nl

-- | Old API kept to avoid breaking clients
fdToHandle' :: CInt
            -> Maybe IODeviceType
            -> Bool -- is_socket on Win, non-blocking on Unix
            -> FilePath
            -> IOMode
            -> Bool -- binary
            -> IO Handle
fdToHandle' fdint mb_type is_socket filepath iomode binary = do
  let mb_stat = case mb_type of
                        Nothing          -> Nothing
                          -- mkFD will do the stat:
                        Just RegularFile -> Nothing
                          -- no stat required for streams etc.:
                        Just other       -> Just (other,0,0)
  (fd,fd_type) <- FD.mkFD (fromIntegral fdint) iomode mb_stat
                       is_socket
                       is_socket
  mkHandleFromFD fd fd_type filepath iomode is_socket
                       (if binary then Nothing else Just localeEncoding)


-- | Turn an existing file descriptor into a Handle.  This is used by
-- various external libraries to make Handles.
--
-- Makes a binary Handle.  This is for historical reasons; it should
-- probably be a text Handle with the default encoding and newline
-- translation instead.
fdToHandle :: Posix.FD -> IO Handle
fdToHandle fdint = do
   iomode <- Posix.fdGetMode (fromIntegral fdint)
   (fd,fd_type) <- FD.mkFD (fromIntegral fdint) iomode Nothing
            False{-is_socket-} 
              -- NB. the is_socket flag is False, meaning that:
              --  on Windows we're guessing this is not a socket (XXX)
            False{-is_nonblock-}
              -- file descriptors that we get from external sources are
              -- not put into non-blocking mode, becuase that would affect
              -- other users of the file descriptor
   let fd_str = "<file descriptor: " ++ show fd ++ ">"
   mkHandleFromFD fd fd_type fd_str iomode False{-non-block-} 
                  Nothing -- bin mode

-- ---------------------------------------------------------------------------
-- Are files opened by default in text or binary mode, if the user doesn't
-- specify?

dEFAULT_OPEN_IN_BINARY_MODE :: Bool
dEFAULT_OPEN_IN_BINARY_MODE = False