{-# LANGUAGE CApiFFI #-} {-# LANGUAGE NondecreasingIndentation #-} #if __GLASGOW_HASKELL__ >= 709 {-# LANGUAGE Safe #-} #else {-# LANGUAGE Trustworthy #-} #endif ----------------------------------------------------------------------------- -- | -- Module : System.Posix.Unistd -- 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 miscellaneous stuff, mostly from unistd.h -- ----------------------------------------------------------------------------- module System.Posix.Unistd ( -- * System environment SystemID(..), getSystemID, SysVar(..), getSysVar, -- * Sleeping sleep, usleep, nanosleep, -- * File synchronisation fileSynchronise, fileSynchroniseDataOnly, {- ToDo from unistd.h: confstr, lots of sysconf variables -- use Network.BSD gethostid, gethostname -- should be in System.Posix.Files? pathconf, fpathconf, -- System.Posix.Signals ualarm, -- System.Posix.IO read, write, -- should be in System.Posix.User? getEffectiveUserName, -} ) where #include "HsUnix.h" import Foreign.C.Error import Foreign.C.String ( peekCString ) import Foreign.C.Types import Foreign import System.Posix.Types import System.Posix.Internals #if !(HAVE_FSYNC && HAVE_FDATASYNC) import System.IO.Error ( ioeSetLocation ) import GHC.IO.Exception ( unsupportedOperation ) #endif -- ----------------------------------------------------------------------------- -- System environment (uname()) data SystemID = SystemID { systemName :: String , nodeName :: String , release :: String , version :: String , machine :: String } getSystemID :: IO SystemID getSystemID = do allocaBytes (#const sizeof(struct utsname)) $ \p_sid -> do throwErrnoIfMinus1_ "getSystemID" (c_uname p_sid) sysN <- peekCString ((#ptr struct utsname, sysname) p_sid) node <- peekCString ((#ptr struct utsname, nodename) p_sid) rel <- peekCString ((#ptr struct utsname, release) p_sid) ver <- peekCString ((#ptr struct utsname, version) p_sid) mach <- peekCString ((#ptr struct utsname, machine) p_sid) return (SystemID { systemName = sysN, nodeName = node, release = rel, version = ver, machine = mach }) foreign import ccall unsafe "uname" c_uname :: Ptr CUtsname -> IO CInt -- ----------------------------------------------------------------------------- -- sleeping -- | Sleep for the specified duration (in seconds). Returns the time remaining -- (if the sleep was interrupted by a signal, for example). -- -- /GHC Note/: 'Control.Concurrent.threadDelay' is a better choice. Since GHC -- uses signals for its internal clock, a call to 'sleep' will usually be -- interrupted immediately. That makes 'sleep' unusable in a program compiled -- with GHC, unless the RTS timer is disabled (with @+RTS -V0@). Furthermore, -- without the @-threaded@ option, 'sleep' will block all other user threads. -- Even with the @-threaded@ option, 'sleep' requires a full OS thread to -- itself. 'Control.Concurrent.threadDelay' has none of these shortcomings. -- sleep :: Int -> IO Int sleep 0 = return 0 sleep secs = do r <- c_sleep (fromIntegral secs); return (fromIntegral r) {-# WARNING sleep "This function has several shortcomings (see documentation). Please consider using Control.Concurrent.threadDelay instead." #-} foreign import ccall safe "sleep" c_sleep :: CUInt -> IO CUInt -- | Sleep for the specified duration (in microseconds). -- -- /GHC Note/: 'Control.Concurrent.threadDelay' is a better choice. -- Without the @-threaded@ option, 'usleep' will block all other user -- threads. Even with the @-threaded@ option, 'usleep' requires a -- full OS thread to itself. 'Control.Concurrent.threadDelay' has -- neither of these shortcomings. -- usleep :: Int -> IO () #ifdef HAVE_NANOSLEEP usleep usecs = nanosleep (fromIntegral usecs * 1000) #else usleep 0 = return () #ifdef USLEEP_RETURNS_VOID usleep usecs = c_usleep (fromIntegral usecs) #else usleep usecs = throwErrnoIfMinus1_ "usleep" (c_usleep (fromIntegral usecs)) #endif #ifdef USLEEP_RETURNS_VOID foreign import ccall safe "usleep" c_usleep :: CUInt -> IO () #else foreign import ccall safe "usleep" c_usleep :: CUInt -> IO CInt #endif #endif /* HAVE_NANOSLEEP */ -- | Sleep for the specified duration (in nanoseconds) -- -- /GHC Note/: the comment for 'usleep' also applies here. nanosleep :: Integer -> IO () #ifndef HAVE_NANOSLEEP nanosleep = error "nanosleep: not available on this platform" #else nanosleep 0 = return () nanosleep nsecs = do allocaBytes (#const sizeof(struct timespec)) $ \pts1 -> do allocaBytes (#const sizeof(struct timespec)) $ \pts2 -> do let (tv_sec0, tv_nsec0) = nsecs `divMod` 1000000000 let loop tv_sec tv_nsec = do (#poke struct timespec, tv_sec) pts1 tv_sec (#poke struct timespec, tv_nsec) pts1 tv_nsec res <- c_nanosleep pts1 pts2 if res == 0 then return () else do errno <- getErrno if errno == eINTR then do tv_sec' <- (#peek struct timespec, tv_sec) pts2 tv_nsec' <- (#peek struct timespec, tv_nsec) pts2 loop tv_sec' tv_nsec' else throwErrno "nanosleep" loop (fromIntegral tv_sec0 :: CTime) (fromIntegral tv_nsec0 :: CTime) data {-# CTYPE "struct timespec" #-} CTimeSpec foreign import capi safe "HsUnix.h nanosleep" c_nanosleep :: Ptr CTimeSpec -> Ptr CTimeSpec -> IO CInt #endif -- ----------------------------------------------------------------------------- -- System variables data SysVar = ArgumentLimit | ChildLimit | ClockTick | GroupLimit | OpenFileLimit | PosixVersion | HasSavedIDs | HasJobControl -- ToDo: lots more getSysVar :: SysVar -> IO Integer getSysVar v = case v of ArgumentLimit -> sysconf (#const _SC_ARG_MAX) ChildLimit -> sysconf (#const _SC_CHILD_MAX) ClockTick -> sysconf (#const _SC_CLK_TCK) GroupLimit -> sysconf (#const _SC_NGROUPS_MAX) OpenFileLimit -> sysconf (#const _SC_OPEN_MAX) PosixVersion -> sysconf (#const _SC_VERSION) HasSavedIDs -> sysconf (#const _SC_SAVED_IDS) HasJobControl -> sysconf (#const _SC_JOB_CONTROL) sysconf :: CInt -> IO Integer sysconf n = do r <- throwErrnoIfMinus1 "getSysVar" (c_sysconf n) return (fromIntegral r) foreign import ccall unsafe "sysconf" c_sysconf :: CInt -> IO CLong -- ----------------------------------------------------------------------------- -- File synchronization -- | Performs @fsync(2)@ operation on file-descriptor. -- -- Throws 'IOError' (\"unsupported operation\") if platform does not -- provide @fsync(2)@ (use @#if HAVE_FSYNC@ CPP guard to -- detect availability). -- -- @since 2.7.1.0 fileSynchronise :: Fd -> IO () #if HAVE_FSYNC fileSynchronise fd = do throwErrnoIfMinus1_ "fileSynchronise" (c_fsync fd) foreign import capi safe "unistd.h fsync" c_fsync :: Fd -> IO CInt #else {-# WARNING fileSynchronise "operation will throw 'IOError' \"unsupported operation\" (CPP guard: @#if HAVE_FSYNC@)" #-} fileSynchronise _ = ioError (ioeSetLocation unsupportedOperation "fileSynchronise") #endif -- | Performs @fdatasync(2)@ operation on file-descriptor. -- -- Throws 'IOError' (\"unsupported operation\") if platform does not -- provide @fdatasync(2)@ (use @#if HAVE_FDATASYNC@ CPP guard to -- detect availability). -- -- @since 2.7.1.0 fileSynchroniseDataOnly :: Fd -> IO () #if HAVE_FDATASYNC fileSynchroniseDataOnly fd = do throwErrnoIfMinus1_ "fileSynchroniseDataOnly" (c_fdatasync fd) foreign import capi safe "unistd.h fdatasync" c_fdatasync :: Fd -> IO CInt #else {-# WARNING fileSynchroniseDataOnly "operation will throw 'IOError' \"unsupported operation\" (CPP guard: @#if HAVE_FDATASYNC@)" #-} fileSynchroniseDataOnly _ = ioError (ioeSetLocation unsupportedOperation "fileSynchroniseDataOnly") #endif