{-# LANGUAGE Trustworthy #-} {-# LANGUAGE CApiFFI , GeneralizedNewtypeDeriving , NoImplicitPrelude , RecordWildCards , BangPatterns #-} module GHC.Event.KQueue ( new , available ) where import qualified GHC.Event.Internal as E #include "EventConfig.h" #if !defined(HAVE_KQUEUE) import GHC.Base new :: IO E.Backend new = errorWithoutStackTrace "KQueue back end not implemented for this platform" available :: Bool available = False {-# INLINE available #-} #else import Data.Bits (Bits(..), FiniteBits(..)) import Data.Word (Word16, Word32) import Foreign.C.Error (throwErrnoIfMinus1, eINTR, eINVAL, eNOTSUP, getErrno, throwErrno) import Foreign.C.Types import Foreign.Marshal.Alloc (alloca) import Foreign.Ptr (Ptr, nullPtr) import Foreign.Storable (Storable(..)) import GHC.Base import GHC.Enum (toEnum) import GHC.Num (Num(..)) import GHC.Real (ceiling, floor, fromIntegral) import GHC.Show (Show(show)) import GHC.Event.Internal (Timeout(..)) import System.Posix.Internals (c_close) import System.Posix.Types (Fd(..)) import qualified GHC.Event.Array as A #if defined(netbsd_HOST_OS) import Data.Int (Int64) #endif #include #include #include -- Handle brokenness on some BSD variants, notably OS X up to at least -- 10.6. If NOTE_EOF isn't available, we have no way to receive a -- notification from the kernel when we reach EOF on a plain file. #ifndef NOTE_EOF # define NOTE_EOF 0 #endif available :: Bool available = True {-# INLINE available #-} ------------------------------------------------------------------------ -- Exported interface data KQueue = KQueue { kqueueFd :: {-# UNPACK #-} !KQueueFd , kqueueEvents :: {-# UNPACK #-} !(A.Array Event) } new :: IO E.Backend new = do kqfd <- kqueue events <- A.new 64 let !be = E.backend poll modifyFd modifyFdOnce delete (KQueue kqfd events) return be delete :: KQueue -> IO () delete kq = do _ <- c_close . fromKQueueFd . kqueueFd $ kq return () modifyFd :: KQueue -> Fd -> E.Event -> E.Event -> IO Bool modifyFd kq fd oevt nevt | nevt == mempty = do let !ev = event fd (toFilter oevt) flagDelete noteEOF kqueueControl (kqueueFd kq) ev | otherwise = do let !ev = event fd (toFilter nevt) flagAdd noteEOF kqueueControl (kqueueFd kq) ev toFilter :: E.Event -> Filter toFilter evt | evt `E.eventIs` E.evtRead = filterRead | otherwise = filterWrite modifyFdOnce :: KQueue -> Fd -> E.Event -> IO Bool modifyFdOnce kq fd evt = do let !ev = event fd (toFilter evt) (flagAdd .|. flagOneshot) noteEOF kqueueControl (kqueueFd kq) ev poll :: KQueue -> Maybe Timeout -> (Fd -> E.Event -> IO ()) -> IO Int poll kq mtimeout f = do let events = kqueueEvents kq fd = kqueueFd kq n <- A.unsafeLoad events $ \es cap -> case mtimeout of Just timeout -> kqueueWait fd es cap $ fromTimeout timeout Nothing -> kqueueWaitNonBlock fd es cap when (n > 0) $ do A.forM_ events $ \e -> f (fromIntegral (ident e)) (toEvent (filter e)) cap <- A.capacity events when (n == cap) $ A.ensureCapacity events (2 * cap) return n ------------------------------------------------------------------------ -- FFI binding newtype KQueueFd = KQueueFd { fromKQueueFd :: CInt } deriving (Eq, Show) data Event = KEvent { ident :: {-# UNPACK #-} !CUIntPtr , filter :: {-# UNPACK #-} !Filter , flags :: {-# UNPACK #-} !Flag , fflags :: {-# UNPACK #-} !FFlag #ifdef netbsd_HOST_OS , data_ :: {-# UNPACK #-} !Int64 #else , data_ :: {-# UNPACK #-} !CIntPtr #endif , udata :: {-# UNPACK #-} !(Ptr ()) } deriving Show event :: Fd -> Filter -> Flag -> FFlag -> Event event fd filt flag fflag = KEvent (fromIntegral fd) filt flag fflag 0 nullPtr instance Storable Event where sizeOf _ = #size struct kevent alignment _ = alignment (undefined :: CInt) peek ptr = do ident' <- #{peek struct kevent, ident} ptr filter' <- #{peek struct kevent, filter} ptr flags' <- #{peek struct kevent, flags} ptr fflags' <- #{peek struct kevent, fflags} ptr data' <- #{peek struct kevent, data} ptr udata' <- #{peek struct kevent, udata} ptr let !ev = KEvent ident' (Filter filter') (Flag flags') fflags' data' udata' return ev poke ptr ev = do #{poke struct kevent, ident} ptr (ident ev) #{poke struct kevent, filter} ptr (filter ev) #{poke struct kevent, flags} ptr (flags ev) #{poke struct kevent, fflags} ptr (fflags ev) #{poke struct kevent, data} ptr (data_ ev) #{poke struct kevent, udata} ptr (udata ev) newtype FFlag = FFlag Word32 deriving (Eq, Show, Storable) #{enum FFlag, FFlag , noteEOF = NOTE_EOF } #if SIZEOF_KEV_FLAGS == 4 /* kevent.flag: uint32_t or uint16_t. */ newtype Flag = Flag Word32 #else newtype Flag = Flag Word16 #endif deriving (Bits, FiniteBits, Eq, Num, Show, Storable) #{enum Flag, Flag , flagAdd = EV_ADD , flagDelete = EV_DELETE , flagOneshot = EV_ONESHOT } #if SIZEOF_KEV_FILTER == 4 /*kevent.filter: uint32_t or uint16_t. */ newtype Filter = Filter Word32 #else newtype Filter = Filter Word16 #endif deriving (Bits, FiniteBits, Eq, Num, Show, Storable) filterRead :: Filter filterRead = Filter (#const EVFILT_READ) filterWrite :: Filter filterWrite = Filter (#const EVFILT_WRITE) data TimeSpec = TimeSpec { tv_sec :: {-# UNPACK #-} !CTime , tv_nsec :: {-# UNPACK #-} !CLong } instance Storable TimeSpec where sizeOf _ = #size struct timespec alignment _ = alignment (undefined :: CInt) peek ptr = do tv_sec' <- #{peek struct timespec, tv_sec} ptr tv_nsec' <- #{peek struct timespec, tv_nsec} ptr let !ts = TimeSpec tv_sec' tv_nsec' return ts poke ptr ts = do #{poke struct timespec, tv_sec} ptr (tv_sec ts) #{poke struct timespec, tv_nsec} ptr (tv_nsec ts) kqueue :: IO KQueueFd kqueue = KQueueFd `fmap` throwErrnoIfMinus1 "kqueue" c_kqueue kqueueControl :: KQueueFd -> Event -> IO Bool kqueueControl kfd ev = withTimeSpec (TimeSpec 0 0) $ \tp -> withEvent ev $ \evp -> do res <- kevent False kfd evp 1 nullPtr 0 tp if res == -1 then do err <- getErrno case err of _ | err == eINTR -> return True _ | err == eINVAL -> return False _ | err == eNOTSUP -> return False _ -> throwErrno "kevent" else return True kqueueWait :: KQueueFd -> Ptr Event -> Int -> TimeSpec -> IO Int kqueueWait fd es cap tm = fmap fromIntegral $ E.throwErrnoIfMinus1NoRetry "kevent" $ withTimeSpec tm $ kevent True fd nullPtr 0 es cap kqueueWaitNonBlock :: KQueueFd -> Ptr Event -> Int -> IO Int kqueueWaitNonBlock fd es cap = fmap fromIntegral $ E.throwErrnoIfMinus1NoRetry "kevent" $ withTimeSpec (TimeSpec 0 0) $ kevent False fd nullPtr 0 es cap -- TODO: We cannot retry on EINTR as the timeout would be wrong. -- Perhaps we should just return without calling any callbacks. kevent :: Bool -> KQueueFd -> Ptr Event -> Int -> Ptr Event -> Int -> Ptr TimeSpec -> IO CInt kevent safe k chs chlen evs evlen ts | safe = c_kevent k chs (fromIntegral chlen) evs (fromIntegral evlen) ts | otherwise = c_kevent_unsafe k chs (fromIntegral chlen) evs (fromIntegral evlen) ts withEvent :: Event -> (Ptr Event -> IO a) -> IO a withEvent ev f = alloca $ \ptr -> poke ptr ev >> f ptr withTimeSpec :: TimeSpec -> (Ptr TimeSpec -> IO a) -> IO a withTimeSpec ts f | tv_sec ts < 0 = f nullPtr | otherwise = alloca $ \ptr -> poke ptr ts >> f ptr fromTimeout :: Timeout -> TimeSpec fromTimeout Forever = TimeSpec (-1) (-1) fromTimeout (Timeout s) = TimeSpec (toEnum sec) (toEnum nanosec) where sec :: Int sec = floor s nanosec :: Int nanosec = ceiling $ (s - fromIntegral sec) * 1000000000 toEvent :: Filter -> E.Event toEvent (Filter f) | f == (#const EVFILT_READ) = E.evtRead | f == (#const EVFILT_WRITE) = E.evtWrite | otherwise = errorWithoutStackTrace $ "toEvent: unknown filter " ++ show f foreign import ccall unsafe "kqueue" c_kqueue :: IO CInt #if defined(HAVE_KEVENT) foreign import capi safe "sys/event.h kevent" c_kevent :: KQueueFd -> Ptr Event -> CInt -> Ptr Event -> CInt -> Ptr TimeSpec -> IO CInt foreign import ccall unsafe "kevent" c_kevent_unsafe :: KQueueFd -> Ptr Event -> CInt -> Ptr Event -> CInt -> Ptr TimeSpec -> IO CInt #else #error no kevent system call available!? #endif #endif /* defined(HAVE_KQUEUE) */