\begin{code}
{-# OPTIONS_GHC -XNoImplicitPrelude #-}
{-# OPTIONS_GHC -fno-warn-unused-imports #-}
{-# OPTIONS_HADDOCK hide #-}
-----------------------------------------------------------------------------
-- |
-- Module      :  GHC.TopHandler
-- Copyright   :  (c) The University of Glasgow, 2001-2002
-- License     :  see libraries/base/LICENSE
-- 
-- Maintainer  :  cvs-ghc@haskell.org
-- Stability   :  internal
-- Portability :  non-portable (GHC Extensions)
--
-- Support for catching exceptions raised during top-level computations
-- (e.g. @Main.main@, 'Control.Concurrent.forkIO', and foreign exports)
--
-----------------------------------------------------------------------------

-- #hide
module GHC.TopHandler (
   runMainIO, runIO, runIOFastExit, runNonIO,
   topHandler, topHandlerFastExit,
   reportStackOverflow, reportError,
  ) where

#include "HsBaseConfig.h"

import Control.Exception
import Data.Maybe
import Data.Dynamic (toDyn)

import Foreign
import Foreign.C
import GHC.Base
import GHC.Conc hiding (throwTo)
import GHC.Num
import GHC.Real
import GHC.MVar
import GHC.IO
import GHC.IO.Handle.FD
import GHC.IO.Handle
import GHC.IO.Exception
import GHC.Weak
import Data.Typeable
#if defined(mingw32_HOST_OS)
import GHC.ConsoleHandler
#endif

-- | 'runMainIO' is wrapped around 'Main.main' (or whatever main is
-- called in the program).  It catches otherwise uncaught exceptions,
-- and also flushes stdout\/stderr before exiting.
runMainIO :: IO a -> IO a
runMainIO main = 
    do 
      main_thread_id <- myThreadId
      weak_tid <- mkWeakThreadId main_thread_id
      install_interrupt_handler $ do
           m <- deRefWeak weak_tid 
           case m of
               Nothing  -> return ()
               Just tid -> throwTo tid (toException UserInterrupt)
      a <- main
      cleanUp
      return a
    `catch`
      topHandler

install_interrupt_handler :: IO () -> IO ()
#ifdef mingw32_HOST_OS
install_interrupt_handler handler = do
  _ <- GHC.ConsoleHandler.installHandler $
     Catch $ \event -> 
        case event of
           ControlC -> handler
           Break    -> handler
           Close    -> handler
           _ -> return ()
  return ()
#else
#include "rts/Signals.h"
-- specialised version of System.Posix.Signals.installHandler, which
-- isn't available here.
install_interrupt_handler handler = do
   let sig = CONST_SIGINT :: CInt
   _ <- setHandler sig (Just (const handler, toDyn handler))
   _ <- stg_sig_install sig STG_SIG_RST nullPtr
     -- STG_SIG_RST: the second ^C kills us for real, just in case the
     -- RTS or program is unresponsive.
   return ()

foreign import ccall unsafe
  stg_sig_install
	:: CInt				-- sig no.
	-> CInt				-- action code (STG_SIG_HAN etc.)
	-> Ptr ()			-- (in, out) blocked
	-> IO CInt			-- (ret) old action code
#endif

-- make a weak pointer to a ThreadId: holding the weak pointer doesn't
-- keep the thread alive and prevent it from being identified as
-- deadlocked.  Vitally important for the main thread.
mkWeakThreadId :: ThreadId -> IO (Weak ThreadId)
mkWeakThreadId t@(ThreadId t#) = IO $ \s ->
   case mkWeak# t# t (unsafeCoerce# 0#) s of 
      (# s1, w #) -> (# s1, Weak w #)

-- | 'runIO' is wrapped around every @foreign export@ and @foreign
-- import \"wrapper\"@ to mop up any uncaught exceptions.  Thus, the
-- result of running 'System.Exit.exitWith' in a foreign-exported
-- function is the same as in the main thread: it terminates the
-- program.
--
runIO :: IO a -> IO a
runIO main = catch main topHandler

-- | Like 'runIO', but in the event of an exception that causes an exit,
-- we don't shut down the system cleanly, we just exit.  This is
-- useful in some cases, because the safe exit version will give other
-- threads a chance to clean up first, which might shut down the
-- system in a different way.  For example, try 
--
--   main = forkIO (runIO (exitWith (ExitFailure 1))) >> threadDelay 10000
--
-- This will sometimes exit with "interrupted" and code 0, because the
-- main thread is given a chance to shut down when the child thread calls
-- safeExit.  There is a race to shut down between the main and child threads.
--
runIOFastExit :: IO a -> IO a
runIOFastExit main = catch main topHandlerFastExit
        -- NB. this is used by the testsuite driver

-- | The same as 'runIO', but for non-IO computations.  Used for
-- wrapping @foreign export@ and @foreign import \"wrapper\"@ when these
-- are used to export Haskell functions with non-IO types.
--
runNonIO :: a -> IO a
runNonIO a = catch (a `seq` return a) topHandler

topHandler :: SomeException -> IO a
topHandler err = catch (real_handler safeExit err) topHandler

topHandlerFastExit :: SomeException -> IO a
topHandlerFastExit err = 
  catchException (real_handler fastExit err) topHandlerFastExit

-- Make sure we handle errors while reporting the error!
-- (e.g. evaluating the string passed to 'error' might generate
--  another error, etc.)
--
real_handler :: (Int -> IO a) -> SomeException -> IO a
real_handler exit se@(SomeException exn) =
  cleanUp >>
  case cast exn of
      Just StackOverflow -> do
           reportStackOverflow
           exit 2

      Just UserInterrupt  -> exitInterrupted

      _ -> case cast exn of
           -- only the main thread gets ExitException exceptions
           Just ExitSuccess     -> exit 0
           Just (ExitFailure n) -> exit n

           -- EPIPE errors received for stdout are ignored (#2699)
           _ -> case cast exn of
                Just IOError{ ioe_type = ResourceVanished,
                              ioe_errno = Just ioe,
                              ioe_handle = Just hdl }
                   | Errno ioe == ePIPE, hdl == stdout -> exit 0
                _ -> do reportError se
                        exit 1
           

-- try to flush stdout/stderr, but don't worry if we fail
-- (these handles might have errors, and we don't want to go into
-- an infinite loop).
cleanUp :: IO ()
cleanUp = do
  hFlush stdout `catchAny` \_ -> return ()
  hFlush stderr `catchAny` \_ -> return ()

-- we have to use unsafeCoerce# to get the 'IO a' result type, since the
-- compiler doesn't let us declare that as the result type of a foreign export.
safeExit :: Int -> IO a
safeExit r = unsafeCoerce# (shutdownHaskellAndExit $ fromIntegral r)

exitInterrupted :: IO a
exitInterrupted = 
#ifdef mingw32_HOST_OS
  safeExit 252
#else
  -- we must exit via the default action for SIGINT, so that the
  -- parent of this process can take appropriate action (see #2301)
  unsafeCoerce# (shutdownHaskellAndSignal CONST_SIGINT)

foreign import ccall "shutdownHaskellAndSignal"
  shutdownHaskellAndSignal :: CInt -> IO ()
#endif

-- NOTE: shutdownHaskellAndExit must be called "safe", because it *can*
-- re-enter Haskell land through finalizers.
foreign import ccall "Rts.h shutdownHaskellAndExit"
  shutdownHaskellAndExit :: CInt -> IO ()

fastExit :: Int -> IO a
fastExit r = unsafeCoerce# (stg_exit (fromIntegral r))

foreign import ccall "Rts.h stg_exit"
  stg_exit :: CInt -> IO ()
\end{code}