{-# LANGUAGE DeriveDataTypeable,PatternGuards #-} {-# OPTIONS_GHC -fno-cse #-} -- global variables ----------------------------------------------------------------------------- -- | -- Module : System.Posix.Signals -- Copyright : (c) The University of Glasgow 2002 -- License : BSD-style (see the file libraries/base/LICENSE) -- -- Maintainer : libraries@haskell.org -- Stability : provisional -- Portability : non-portable (requires POSIX) -- -- POSIX signal support -- ----------------------------------------------------------------------------- #include "HsUnixConfig.h" ##include "HsUnixConfig.h" #ifdef HAVE_SIGNAL_H #include #endif module System.Posix.Signals ( -- * The Signal type Signal, -- * Specific signals nullSignal, internalAbort, sigABRT, realTimeAlarm, sigALRM, busError, sigBUS, processStatusChanged, sigCHLD, continueProcess, sigCONT, floatingPointException, sigFPE, lostConnection, sigHUP, illegalInstruction, sigILL, keyboardSignal, sigINT, killProcess, sigKILL, openEndedPipe, sigPIPE, keyboardTermination, sigQUIT, segmentationViolation, sigSEGV, softwareStop, sigSTOP, softwareTermination, sigTERM, keyboardStop, sigTSTP, backgroundRead, sigTTIN, backgroundWrite, sigTTOU, userDefinedSignal1, sigUSR1, userDefinedSignal2, sigUSR2, #if CONST_SIGPOLL != -1 pollableEvent, sigPOLL, #endif profilingTimerExpired, sigPROF, badSystemCall, sigSYS, breakpointTrap, sigTRAP, urgentDataAvailable, sigURG, virtualTimerExpired, sigVTALRM, cpuTimeLimitExceeded, sigXCPU, fileSizeLimitExceeded, sigXFSZ, -- * Sending signals raiseSignal, signalProcess, signalProcessGroup, #ifdef __GLASGOW_HASKELL__ -- * Handling signals Handler(Default,Ignore,Catch,CatchOnce), installHandler, #endif -- * Signal sets SignalSet, emptySignalSet, fullSignalSet, reservedSignals, addSignal, deleteSignal, inSignalSet, -- * The process signal mask getSignalMask, setSignalMask, blockSignals, unblockSignals, -- * The alarm timer scheduleAlarm, -- * Waiting for signals getPendingSignals, #ifndef cygwin32_HOST_OS awaitSignal, #endif #ifdef __GLASGOW_HASKELL__ -- * The @NOCLDSTOP@ flag setStoppedChildFlag, queryStoppedChildFlag, #endif -- MISSING FUNCTIONALITY: -- sigaction(), (inc. the sigaction structure + flags etc.) -- the siginfo structure -- sigaltstack() -- sighold, sigignore, sigpause, sigrelse, sigset -- siginterrupt ) where import Foreign hiding (unsafePerformIO) import Foreign.C import System.IO.Unsafe (unsafePerformIO) import System.Posix.Types import System.Posix.Internals import System.Posix.Process import System.Posix.Process.Internals import Data.Dynamic #ifdef __GLASGOW_HASKELL__ #if __GLASGOW_HASKELL__ >= 611 ##include "rts/Signals.h" #else ##include "Signals.h" #endif import GHC.Conc hiding (Signal) #endif -- ----------------------------------------------------------------------------- -- Specific signals nullSignal :: Signal nullSignal = 0 sigABRT :: CInt sigABRT = CONST_SIGABRT sigALRM :: CInt sigALRM = CONST_SIGALRM sigBUS :: CInt sigBUS = CONST_SIGBUS sigCHLD :: CInt sigCHLD = CONST_SIGCHLD sigCONT :: CInt sigCONT = CONST_SIGCONT sigFPE :: CInt sigFPE = CONST_SIGFPE sigHUP :: CInt sigHUP = CONST_SIGHUP sigILL :: CInt sigILL = CONST_SIGILL sigINT :: CInt sigINT = CONST_SIGINT sigKILL :: CInt sigKILL = CONST_SIGKILL sigPIPE :: CInt sigPIPE = CONST_SIGPIPE sigQUIT :: CInt sigQUIT = CONST_SIGQUIT sigSEGV :: CInt sigSEGV = CONST_SIGSEGV sigSTOP :: CInt sigSTOP = CONST_SIGSTOP sigTERM :: CInt sigTERM = CONST_SIGTERM sigTSTP :: CInt sigTSTP = CONST_SIGTSTP sigTTIN :: CInt sigTTIN = CONST_SIGTTIN sigTTOU :: CInt sigTTOU = CONST_SIGTTOU sigUSR1 :: CInt sigUSR1 = CONST_SIGUSR1 sigUSR2 :: CInt sigUSR2 = CONST_SIGUSR2 #if CONST_SIGPOLL != -1 sigPOLL :: CInt sigPOLL = CONST_SIGPOLL #endif sigPROF :: CInt sigPROF = CONST_SIGPROF sigSYS :: CInt sigSYS = CONST_SIGSYS sigTRAP :: CInt sigTRAP = CONST_SIGTRAP sigURG :: CInt sigURG = CONST_SIGURG sigVTALRM :: CInt sigVTALRM = CONST_SIGVTALRM sigXCPU :: CInt sigXCPU = CONST_SIGXCPU sigXFSZ :: CInt sigXFSZ = CONST_SIGXFSZ internalAbort ::Signal internalAbort = sigABRT realTimeAlarm :: Signal realTimeAlarm = sigALRM busError :: Signal busError = sigBUS processStatusChanged :: Signal processStatusChanged = sigCHLD continueProcess :: Signal continueProcess = sigCONT floatingPointException :: Signal floatingPointException = sigFPE lostConnection :: Signal lostConnection = sigHUP illegalInstruction :: Signal illegalInstruction = sigILL keyboardSignal :: Signal keyboardSignal = sigINT killProcess :: Signal killProcess = sigKILL openEndedPipe :: Signal openEndedPipe = sigPIPE keyboardTermination :: Signal keyboardTermination = sigQUIT segmentationViolation :: Signal segmentationViolation = sigSEGV softwareStop :: Signal softwareStop = sigSTOP softwareTermination :: Signal softwareTermination = sigTERM keyboardStop :: Signal keyboardStop = sigTSTP backgroundRead :: Signal backgroundRead = sigTTIN backgroundWrite :: Signal backgroundWrite = sigTTOU userDefinedSignal1 :: Signal userDefinedSignal1 = sigUSR1 userDefinedSignal2 :: Signal userDefinedSignal2 = sigUSR2 #if CONST_SIGPOLL != -1 pollableEvent :: Signal pollableEvent = sigPOLL #endif profilingTimerExpired :: Signal profilingTimerExpired = sigPROF badSystemCall :: Signal badSystemCall = sigSYS breakpointTrap :: Signal breakpointTrap = sigTRAP urgentDataAvailable :: Signal urgentDataAvailable = sigURG virtualTimerExpired :: Signal virtualTimerExpired = sigVTALRM cpuTimeLimitExceeded :: Signal cpuTimeLimitExceeded = sigXCPU fileSizeLimitExceeded :: Signal fileSizeLimitExceeded = sigXFSZ -- ----------------------------------------------------------------------------- -- Signal-related functions -- | @signalProcess int pid@ calls @kill@ to signal process @pid@ -- with interrupt signal @int@. signalProcess :: Signal -> ProcessID -> IO () signalProcess sig pid = throwErrnoIfMinus1_ "signalProcess" (c_kill pid sig) foreign import ccall unsafe "kill" c_kill :: CPid -> CInt -> IO CInt -- | @signalProcessGroup int pgid@ calls @kill@ to signal -- all processes in group @pgid@ with interrupt signal @int@. signalProcessGroup :: Signal -> ProcessGroupID -> IO () signalProcessGroup sig pgid = throwErrnoIfMinus1_ "signalProcessGroup" (c_killpg pgid sig) foreign import ccall unsafe "killpg" c_killpg :: CPid -> CInt -> IO CInt -- | @raiseSignal int@ calls @kill@ to signal the current process -- with interrupt signal @int@. raiseSignal :: Signal -> IO () raiseSignal sig = throwErrnoIfMinus1_ "raiseSignal" (c_raise sig) #if defined(__GLASGOW_HASKELL__) && (defined(openbsd_HOST_OS) || defined(freebsd_HOST_OS) || defined(dragonfly_HOST_OS)) foreign import ccall unsafe "genericRaise" c_raise :: CInt -> IO CInt #else foreign import ccall unsafe "raise" c_raise :: CInt -> IO CInt #endif #ifdef __GLASGOW_HASKELL__ type Signal = CInt -- | The actions to perform when a signal is received. data Handler = Default | Ignore -- not yet: | Hold | Catch (IO ()) | CatchOnce (IO ()) | CatchInfo (SignalInfo -> IO ()) | CatchInfoOnce (SignalInfo -> IO ()) deriving (Typeable) -- | Information about a received signal (derived from @siginfo_t@). data SignalInfo = SignalInfo { siginfoSignal :: Signal, siginfoError :: Errno, siginfoSpecific :: SignalSpecificInfo } -- | Information specific to a particular type of signal -- (derived from @siginfo_t@). data SignalSpecificInfo = NoSignalSpecificInfo | SigChldInfo { siginfoPid :: ProcessID, siginfoUid :: UserID, siginfoStatus :: ProcessStatus } -- | @installHandler int handler iset@ calls @sigaction@ to install an -- interrupt handler for signal @int@. If @handler@ is @Default@, -- @SIG_DFL@ is installed; if @handler@ is @Ignore@, @SIG_IGN@ is -- installed; if @handler@ is @Catch action@, a handler is installed -- which will invoke @action@ in a new thread when (or shortly after) the -- signal is received. -- If @iset@ is @Just s@, then the @sa_mask@ of the @sigaction@ structure -- is set to @s@; otherwise it is cleared. The previously installed -- signal handler for @int@ is returned installHandler :: Signal -> Handler -> Maybe SignalSet -- ^ other signals to block -> IO Handler -- ^ old handler #ifdef __PARALLEL_HASKELL__ installHandler = error "installHandler: not available for Parallel Haskell" #else installHandler sig handler _maybe_mask = do ensureIOManagerIsRunning -- for the threaded RTS -- if we're setting the action to DFL or IGN, we should do that *first* -- if we're setting a handler, -- if the previous action was handle, then setHandler is ok -- if the previous action was IGN/DFL, then setHandler followed by sig_install (old_action, old_handler) <- case handler of Ignore -> do old_action <- stg_sig_install sig STG_SIG_IGN nullPtr old_handler <- setHandler sig Nothing return (old_action, old_handler) Default -> do old_action <- stg_sig_install sig STG_SIG_DFL nullPtr old_handler <- setHandler sig Nothing return (old_action, old_handler) _some_kind_of_catch -> do -- I don't think it's possible to get CatchOnce right. If -- there's a signal in flight, then we might run the handler -- more than once. let dyn = toDyn handler old_handler <- case handler of Catch action -> setHandler sig (Just (const action,dyn)) CatchOnce action -> setHandler sig (Just (const action,dyn)) CatchInfo action -> setHandler sig (Just (getinfo action,dyn)) CatchInfoOnce action -> setHandler sig (Just (getinfo action,dyn)) _ -> error "installHandler" let action = case handler of Catch _ -> STG_SIG_HAN CatchOnce _ -> STG_SIG_RST CatchInfo _ -> STG_SIG_HAN CatchInfoOnce _ -> STG_SIG_RST _ -> error "installHandler" old_action <- stg_sig_install sig action nullPtr -- mask is pointless, so leave it NULL return (old_action, old_handler) case (old_handler,old_action) of (_, STG_SIG_DFL) -> return $ Default (_, STG_SIG_IGN) -> return $ Ignore (Nothing, _) -> return $ Ignore (Just (_,dyn), _) | Just h <- fromDynamic dyn -> return h | Just io <- fromDynamic dyn -> return (Catch io) -- handlers put there by the base package have type IO () | otherwise -> return Default foreign import ccall unsafe stg_sig_install :: CInt -- sig no. -> CInt -- action code (STG_SIG_HAN etc.) -> Ptr CSigset -- (in, out) blocked -> IO CInt -- (ret) old action code getinfo :: (SignalInfo -> IO ()) -> ForeignPtr Word8 -> IO () getinfo handler fp_info = do si <- unmarshalSigInfo fp_info handler si unmarshalSigInfo :: ForeignPtr Word8 -> IO SignalInfo unmarshalSigInfo fp = do withForeignPtr fp $ \p -> do sig <- (#peek siginfo_t, si_signo) p errno <- (#peek siginfo_t, si_errno) p extra <- case sig of _ | sig == sigCHLD -> do pid <- (#peek siginfo_t, si_pid) p uid <- (#peek siginfo_t, si_uid) p wstat <- (#peek siginfo_t, si_status) p pstat <- decipherWaitStatus wstat return SigChldInfo { siginfoPid = pid, siginfoUid = uid, siginfoStatus = pstat } _ | otherwise -> return NoSignalSpecificInfo return SignalInfo { siginfoSignal = sig, siginfoError = Errno errno, siginfoSpecific = extra } #endif /* !__PARALLEL_HASKELL__ */ #endif /* __GLASGOW_HASKELL__ */ -- ----------------------------------------------------------------------------- -- Alarms -- | @scheduleAlarm i@ calls @alarm@ to schedule a real time -- alarm at least @i@ seconds in the future. scheduleAlarm :: Int -> IO Int scheduleAlarm secs = do r <- c_alarm (fromIntegral secs) return (fromIntegral r) foreign import ccall unsafe "alarm" c_alarm :: CUInt -> IO CUInt #ifdef __GLASGOW_HASKELL__ -- ----------------------------------------------------------------------------- -- The NOCLDSTOP flag foreign import ccall "&nocldstop" nocldstop :: Ptr Int -- | Tells the system whether or not to set the @SA_NOCLDSTOP@ flag when -- installing new signal handlers. setStoppedChildFlag :: Bool -> IO Bool setStoppedChildFlag b = do rc <- peek nocldstop poke nocldstop $ fromEnum (not b) return (rc == (0::Int)) -- | Queries the current state of the stopped child flag. queryStoppedChildFlag :: IO Bool queryStoppedChildFlag = do rc <- peek nocldstop return (rc == (0::Int)) #endif /* __GLASGOW_HASKELL__ */ -- ----------------------------------------------------------------------------- -- Manipulating signal sets newtype SignalSet = SignalSet (ForeignPtr CSigset) emptySignalSet :: SignalSet emptySignalSet = unsafePerformIO $ do fp <- mallocForeignPtrBytes sizeof_sigset_t throwErrnoIfMinus1_ "emptySignalSet" (withForeignPtr fp $ c_sigemptyset) return (SignalSet fp) fullSignalSet :: SignalSet fullSignalSet = unsafePerformIO $ do fp <- mallocForeignPtrBytes sizeof_sigset_t throwErrnoIfMinus1_ "fullSignalSet" (withForeignPtr fp $ c_sigfillset) return (SignalSet fp) -- | A set of signals reserved for use by the implementation. In GHC, this will normally -- include either `sigVTALRM` or `sigALRM`. reservedSignals :: SignalSet reservedSignals = addSignal rtsTimerSignal emptySignalSet foreign import ccall rtsTimerSignal :: CInt infixr `addSignal`, `deleteSignal` addSignal :: Signal -> SignalSet -> SignalSet addSignal sig (SignalSet fp1) = unsafePerformIO $ do fp2 <- mallocForeignPtrBytes sizeof_sigset_t withForeignPtr fp1 $ \p1 -> withForeignPtr fp2 $ \p2 -> do copyBytes p2 p1 sizeof_sigset_t throwErrnoIfMinus1_ "addSignal" (c_sigaddset p2 sig) return (SignalSet fp2) deleteSignal :: Signal -> SignalSet -> SignalSet deleteSignal sig (SignalSet fp1) = unsafePerformIO $ do fp2 <- mallocForeignPtrBytes sizeof_sigset_t withForeignPtr fp1 $ \p1 -> withForeignPtr fp2 $ \p2 -> do copyBytes p2 p1 sizeof_sigset_t throwErrnoIfMinus1_ "deleteSignal" (c_sigdelset p2 sig) return (SignalSet fp2) inSignalSet :: Signal -> SignalSet -> Bool inSignalSet sig (SignalSet fp) = unsafePerformIO $ withForeignPtr fp $ \p -> do r <- throwErrnoIfMinus1 "inSignalSet" (c_sigismember p sig) return (r /= 0) -- | @getSignalMask@ calls @sigprocmask@ to determine the -- set of interrupts which are currently being blocked. getSignalMask :: IO SignalSet getSignalMask = do fp <- mallocForeignPtrBytes sizeof_sigset_t withForeignPtr fp $ \p -> throwErrnoIfMinus1_ "getSignalMask" (c_sigprocmask 0 nullPtr p) return (SignalSet fp) sigProcMask :: String -> CInt -> SignalSet -> IO () sigProcMask fn how (SignalSet set) = withForeignPtr set $ \p_set -> throwErrnoIfMinus1_ fn (c_sigprocmask how p_set nullPtr) -- | @setSignalMask mask@ calls @sigprocmask@ with -- @SIG_SETMASK@ to block all interrupts in @mask@. setSignalMask :: SignalSet -> IO () setSignalMask set = sigProcMask "setSignalMask" (CONST_SIG_SETMASK :: CInt) set -- | @blockSignals mask@ calls @sigprocmask@ with -- @SIG_BLOCK@ to add all interrupts in @mask@ to the -- set of blocked interrupts. blockSignals :: SignalSet -> IO () blockSignals set = sigProcMask "blockSignals" (CONST_SIG_BLOCK :: CInt) set -- | @unblockSignals mask@ calls @sigprocmask@ with -- @SIG_UNBLOCK@ to remove all interrupts in @mask@ from the -- set of blocked interrupts. unblockSignals :: SignalSet -> IO () unblockSignals set = sigProcMask "unblockSignals" (CONST_SIG_UNBLOCK :: CInt) set -- | @getPendingSignals@ calls @sigpending@ to obtain -- the set of interrupts which have been received but are currently blocked. getPendingSignals :: IO SignalSet getPendingSignals = do fp <- mallocForeignPtrBytes sizeof_sigset_t withForeignPtr fp $ \p -> throwErrnoIfMinus1_ "getPendingSignals" (c_sigpending p) return (SignalSet fp) #ifndef cygwin32_HOST_OS -- | @awaitSignal iset@ suspends execution until an interrupt is received. -- If @iset@ is @Just s@, @awaitSignal@ calls @sigsuspend@, installing -- @s@ as the new signal mask before suspending execution; otherwise, it -- calls @sigsuspend@ with current signal mask. Note that RTS -- scheduler signal (either 'virtualTimerExpired' or 'realTimeAlarm') -- could cause premature termination of this call. It might be necessary to block that -- signal before invocation of @awaitSignal@ with 'blockSignals' 'reservedSignals'. -- -- @awaitSignal@ returns when signal was received and processed by a -- signal handler, or if the signal could not be caught. If you have -- installed any signal handlers with @installHandler@, it may be wise -- to call @yield@ directly after @awaitSignal@ to ensure that the -- signal handler runs as promptly as possible. awaitSignal :: Maybe SignalSet -> IO () awaitSignal maybe_sigset = do fp <- case maybe_sigset of Nothing -> do SignalSet fp <- getSignalMask; return fp Just (SignalSet fp) -> return fp withForeignPtr fp $ \p -> do _ <- c_sigsuspend p return () -- ignore the return value; according to the docs it can only ever be -- (-1) with errno set to EINTR. -- XXX My manpage says it can also return EFAULT. And why is ignoring -- EINTR the right thing to do? foreign import ccall unsafe "sigsuspend" c_sigsuspend :: Ptr CSigset -> IO CInt #endif #ifdef __HUGS__ foreign import ccall unsafe "sigdelset" c_sigdelset :: Ptr CSigset -> CInt -> IO CInt foreign import ccall unsafe "sigfillset" c_sigfillset :: Ptr CSigset -> IO CInt foreign import ccall unsafe "sigismember" c_sigismember :: Ptr CSigset -> CInt -> IO CInt #else foreign import ccall unsafe "__hscore_sigdelset" c_sigdelset :: Ptr CSigset -> CInt -> IO CInt foreign import ccall unsafe "__hscore_sigfillset" c_sigfillset :: Ptr CSigset -> IO CInt foreign import ccall unsafe "__hscore_sigismember" c_sigismember :: Ptr CSigset -> CInt -> IO CInt #endif /* __HUGS__ */ foreign import ccall unsafe "sigpending" c_sigpending :: Ptr CSigset -> IO CInt