{-# LANGUAGE TemplateHaskell, ForeignFunctionInterface #-} {-# LANGUAGE ViewPatterns, PatternSynonyms #-} ----------------------------------------------------------------------------- -- | -- Module : NgxExport -- Copyright : (c) Alexey Radkov 2016-2017 -- License : BSD-style -- -- Maintainer : alexey.radkov@gmail.com -- Stability : experimental -- Portability : non-portable (requires POSIX) -- -- Export regular haskell functions for using in directives of -- . -- ----------------------------------------------------------------------------- module NgxExport ( -- * Exporters ngxExportSS ,ngxExportSSS ,ngxExportSLS ,ngxExportBS ,ngxExportBSS ,ngxExportBLS ,ngxExportYY ,ngxExportBY ,ngxExportIOYY ,ngxExportAsyncIOYY ,ngxExportAsyncOnReqBody ,ngxExportServiceIOYY ,ngxExportHandler ,ngxExportDefHandler ,ngxExportUnsafeHandler -- * Re-exported data constructors from /"Foreign.C"/ -- (for marshalling in foreign calls) ,Foreign.C.CUInt (..)) where import Language.Haskell.TH import Foreign.C import Foreign.Ptr import Foreign.Storable import Foreign.Marshal.Alloc import Foreign.Marshal.Utils import System.IO.Error import System.Posix.IO import Control.Monad import Control.Exception hiding (Handler) import GHC.IO.Exception (ioe_errno) import Control.Concurrent.Async import Data.Maybe import qualified Data.ByteString as B import qualified Data.ByteString.Unsafe as B import qualified Data.ByteString.Lazy as L import qualified Data.ByteString.Lazy.Char8 as C8L import Data.Binary.Put import Paths_ngx_export (version) import Data.Version pattern I i <- (fromIntegral -> i) pattern PtrLen s l <- (s, I l) pattern PtrLenFromMaybe s l <- (fromMaybe (nullPtr, -1) -> PtrLen s l) pattern ToBool i <- (toBool -> i) pattern EmptyLBS <- (L.null -> True) data NgxExport = SS (String -> String) | SSS (String -> String -> String) | SLS ([String] -> String) | BS (String -> Bool) | BSS (String -> String -> Bool) | BLS ([String] -> Bool) | YY (B.ByteString -> L.ByteString) | BY (B.ByteString -> Bool) | IOYY (B.ByteString -> Bool -> IO L.ByteString) | IOYYY (L.ByteString -> B.ByteString -> IO L.ByteString) | Handler (B.ByteString -> (L.ByteString, String, Int)) | UnsafeHandler (B.ByteString -> (B.ByteString, B.ByteString, Int)) let name = mkName "exportType" in do TyConI (DataD _ _ _ _ cs _) <- reify ''NgxExport let cons = map (\(NormalC con _) -> con) cs sequence [sigD name [t|NgxExport -> IO CInt|], funD name $ map (\(c, i) -> clause [conP c [wildP]] (normalB [|return i|]) []) (zip cons [1 ..] :: [(Name, Int)]) ] ngxExport' :: (Name -> Q Exp) -> Name -> Name -> Q Type -> Name -> Q [Dec] ngxExport' m e h t f = sequence [sigD nameFt typeFt, funD nameFt $ body [|exportType $efVar|], ForeignD . ExportF CCall ftName nameFt <$> typeFt, sigD nameF t, funD nameF $ body [|$hVar $efVar|], ForeignD . ExportF CCall fName nameF <$> t ] where hVar = varE h efVar = conE e `appE` m f fName = "ngx_hs_" ++ nameBase f nameF = mkName fName ftName = "type_" ++ fName nameFt = mkName ftName typeFt = [t|IO CInt|] body b = [clause [] (normalB b) []] ngxExport :: Name -> Name -> Q Type -> Name -> Q [Dec] ngxExport = ngxExport' varE ngxExportC :: Name -> Name -> Q Type -> Name -> Q [Dec] ngxExportC = ngxExport' $ infixE (Just $ varE 'const) (varE '(.)) . Just . varE -- | Exports a function of type -- /'String' -> 'String'/ -- for using in directive /haskell_run/. ngxExportSS = ngxExport 'SS 'sS [t|CString -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt|] -- | Exports a function of type -- /'String' -> 'String' -> 'String'/ -- for using in directive /haskell_run/. ngxExportSSS = ngxExport 'SSS 'sSS [t|CString -> CInt -> CString -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt|] -- | Exports a function of type -- /['String'] -> 'String'/ -- for using in directive /haskell_run/. ngxExportSLS = ngxExport 'SLS 'sLS [t|Ptr NgxStrType -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt|] -- | Exports a function of type -- /'String' -> 'Bool'/ -- for using in directive /haskell_run/. ngxExportBS = ngxExport 'BS 'bS [t|CString -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt|] -- | Exports a function of type -- /'String' -> 'String' -> 'Bool'/ -- for using in directive /haskell_run/. ngxExportBSS = ngxExport 'BSS 'bSS [t|CString -> CInt -> CString -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt|] -- | Exports a function of type -- /['String'] -> 'Bool'/ -- for using in directive /haskell_run/. ngxExportBLS = ngxExport 'BLS 'bLS [t|Ptr NgxStrType -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt|] -- | Exports a function of type -- /'B.ByteString' -> 'L.ByteString'/ -- for using in directive /haskell_run/. ngxExportYY = ngxExport 'YY 'yY [t|CString -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt|] -- | Exports a function of type -- /'B.ByteString' -> 'Bool'/ -- for using in directive /haskell_run/. ngxExportBY = ngxExport 'BY 'bY [t|CString -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt|] -- | Exports a function of type -- /'B.ByteString' -> 'IO' 'L.ByteString'/ -- for using in directive /haskell_run/. ngxExportIOYY = ngxExportC 'IOYY 'ioyY [t|CString -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt|] -- | Exports a function of type -- /'B.ByteString' -> 'IO' 'L.ByteString'/ -- for using in directive /haskell_run_async/. ngxExportAsyncIOYY = ngxExportC 'IOYY 'asyncIOYY [t|CString -> CInt -> CInt -> CUInt -> CUInt -> Ptr CString -> Ptr CSize -> Ptr CUInt -> IO ()|] -- | Exports a function of type -- /'L.ByteString' -> 'B.ByteString' -> 'IO' 'L.ByteString'/ -- for using in directive /haskell_run_async_on_request_body/. -- -- The first argument of the exported function contains buffers of the client -- request body. ngxExportAsyncOnReqBody = ngxExport 'IOYYY 'asyncIOYYY [t|Ptr NgxStrType -> CInt -> CString -> CInt -> CInt -> CUInt -> Ptr CString -> Ptr CSize -> Ptr CUInt -> IO ()|] -- | Exports a function of type -- /'B.ByteString' -> 'Bool' -> 'IO' 'L.ByteString'/ -- for using in directive /haskell_run_service/. -- -- The boolean argument of the exported function marks that the service is -- being run for the first time. ngxExportServiceIOYY = ngxExport 'IOYY 'asyncIOYY [t|CString -> CInt -> CInt -> CUInt -> CUInt -> Ptr CString -> Ptr CSize -> Ptr CUInt -> IO ()|] -- | Exports a function of type -- /'B.ByteString' -> ('L.ByteString', 'String', 'Int')/ -- for using in directives /haskell_content/ and /haskell_static_content/. -- -- The first element in the returned /3-tuple/ of the exported function is -- the /content/, the second is the /content type/, and the third is the -- /HTTP status/. ngxExportHandler = ngxExport 'Handler 'handler [t|CString -> CInt -> Ptr (Ptr NgxStrType) -> Ptr CInt -> Ptr CString -> Ptr CSize -> Ptr CInt -> IO CUInt|] -- | Exports a function of type -- /'B.ByteString' -> 'L.ByteString'/ -- for using in directives /haskell_content/ and /haskell_static_content/. ngxExportDefHandler = ngxExport 'YY 'defHandler [t|CString -> CInt -> Ptr (Ptr NgxStrType) -> Ptr CInt -> Ptr CString -> IO CUInt|] -- | Exports a function of type -- /'B.ByteString' -> ('B.ByteString', 'B.ByteString', 'Int')/ -- for using in directive /haskell_unsafe_content/. -- -- The first element in the returned /3-tuple/ of the exported function is -- the /content/, the second is the /content type/, and the third is the -- /HTTP status/. Both the content and the content type are supposed to be -- referring to low-level string literals which do not need to be freed upon -- the request termination and must not be garbage-collected in the Haskell RTS. ngxExportUnsafeHandler = ngxExport 'UnsafeHandler 'unsafeHandler [t|CString -> CInt -> Ptr CString -> Ptr CSize -> Ptr CString -> Ptr CSize -> Ptr CInt -> IO CUInt|] data NgxStrType = NgxStrType CSize CString instance Storable NgxStrType where alignment _ = max (alignment (undefined :: CSize)) (alignment (undefined :: CString)) sizeOf = (2 *) . alignment -- must always be correct for -- aligned struct ngx_str_t peek p = do n <- peekByteOff p 0 s <- peekByteOff p $ alignment (undefined :: NgxStrType) return $ NgxStrType n s poke p x@(NgxStrType n s) = do poke (castPtr p) n poke (plusPtr p $ alignment x) s safeMallocBytes :: Int -> IO (Ptr a) safeMallocBytes = flip catchIOError (const $ return nullPtr) . mallocBytes safeNewCStringLen :: String -> IO CStringLen safeNewCStringLen = flip catchIOError (const $ return (nullPtr, -1)) . newCStringLen safeHandler :: Ptr CString -> Ptr CInt -> IO CUInt -> IO CUInt safeHandler p pl = handle $ \e -> do PtrLen x l <- safeNewCStringLen $ show (e :: SomeException) pokeCStringLen x l p pl return 1 peekNgxStringArrayLen :: Ptr NgxStrType -> Int -> IO [String] peekNgxStringArrayLen x n = sequence $ foldr (\k -> ((peekElemOff x k >>= (\(NgxStrType (I m) y) -> peekCStringLen (y, m))) :)) [] [0 .. n - 1] peekNgxStringArrayLenY :: Ptr NgxStrType -> Int -> IO L.ByteString peekNgxStringArrayLenY x n = L.fromChunks <$> sequence (foldr (\k -> ((peekElemOff x k >>= (\(NgxStrType (I m) y) -> B.unsafePackCStringLen (y, m))) :)) [] [0 .. n - 1]) pokeCStringLen :: (Storable a, Num a) => CString -> a -> Ptr CString -> Ptr a -> IO () pokeCStringLen x n p s = poke p x >> poke s n pokeLazyByteString :: L.ByteString -> Ptr CString -> IO CInt pokeLazyByteString s p = do PtrLenFromMaybe t l <- toSingleBuffer s poke p t return l toSingleBuffer :: L.ByteString -> IO (Maybe CStringLen) toSingleBuffer EmptyLBS = return $ Just (nullPtr, 0) toSingleBuffer s = do let I l = L.length s t <- safeMallocBytes l if t /= nullPtr then do void $ L.foldlChunks (\a s -> do off <- a let l = B.length s B.unsafeUseAsCString s $ flip (copyBytes $ plusPtr t off) l return $ off + l ) (return 0) s return $ Just (t, l) else return Nothing toBuffers :: L.ByteString -> IO (Maybe (Ptr NgxStrType, Int)) toBuffers EmptyLBS = return $ Just (nullPtr, 0) toBuffers s = do t <- safeMallocBytes $ L.foldlChunks (const . succ) 0 s * sizeOf (undefined :: NgxStrType) l <- L.foldlChunks (\a s -> do off <- a maybe (return Nothing) (\off -> do let l = B.length s -- l cannot be zero at this point because intermediate -- chunks of a lazy ByteString cannot be empty which is -- the consequence of Monoid laws applied when it grows dst <- safeMallocBytes l if dst /= nullPtr then do B.unsafeUseAsCString s $ flip (copyBytes dst) l pokeElemOff t off $ NgxStrType (fromIntegral l) dst return $ Just $ off + 1 else do mapM_ (peekElemOff t >=> \(NgxStrType _ x) -> free x) [0 .. off - 1] -- [0 .. -1] makes [], so wise! free t return Nothing ) off ) (return $ if t /= nullPtr then Just 0 else Nothing) s return $ l >>= Just . (,) t sS :: NgxExport -> CString -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt sS (SS f) x (I n) p pl = safeHandler p pl $ do PtrLen s l <- f <$> peekCStringLen (x, n) >>= newCStringLen pokeCStringLen s l p pl return 0 sSS :: NgxExport -> CString -> CInt -> CString -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt sSS (SSS f) x (I n) y (I m) p pl = safeHandler p pl $ do PtrLen s l <- f <$> peekCStringLen (x, n) <*> peekCStringLen (y, m) >>= newCStringLen pokeCStringLen s l p pl return 0 sLS :: NgxExport -> Ptr NgxStrType -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt sLS (SLS f) x (I n) p pl = safeHandler p pl $ do PtrLen s l <- f <$> peekNgxStringArrayLen x n >>= newCStringLen pokeCStringLen s l p pl return 0 yY :: NgxExport -> CString -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt yY (YY f) x (I n) p pl = safeHandler p pl $ do s <- f <$> B.unsafePackCStringLen (x, n) pokeLazyByteString s p >>= poke pl return 0 ioyY :: NgxExport -> CString -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt ioyY (IOYY f) x (I n) p pl = do (s, r) <- (do s <- B.unsafePackCStringLen (x, n) >>= flip f False fmap (flip (,) 0) $ return $! s ) `catch` \e -> return (C8L.pack $ show (e :: SomeException), 1) pokeLazyByteString s p >>= poke pl return r asyncIOFlag1b :: B.ByteString asyncIOFlag1b = L.toStrict $ runPut $ putInt8 1 asyncIOFlag8b :: B.ByteString asyncIOFlag8b = L.toStrict $ runPut $ putInt64host 1 asyncIOCommon :: IO C8L.ByteString -> CInt -> Bool -> Ptr CString -> Ptr CSize -> Ptr CUInt -> IO () asyncIOCommon a (I fd) efd p pl r = void . async $ do (do {s <- a; fmap Right $ return $! s}) `catch` (\e -> return $ Left $ show (e :: SomeException)) >>= either (\s -> do PtrLen x l <- safeNewCStringLen s pokeCStringLen x l p pl poke r 1 ) (\s -> do PtrLenFromMaybe t l <- toSingleBuffer s pokeCStringLen t l p pl poke r 0 ) let writeBufN n s w | w < n = (w +) <$> fdWriteBuf fd (plusPtr s $ fromIntegral w) (n - w) `catchIOError` (\e -> return $ if ioe_errno e == Just ((\(Errno e) -> e) eINTR) then 0 else n ) >>= writeBufN n s | otherwise = return w writeFlag1b = void $ B.unsafeUseAsCString asyncIOFlag1b $ flip (writeBufN 1) 0 writeFlag8b = void $ B.unsafeUseAsCString asyncIOFlag8b $ flip (writeBufN 8) 0 if efd then writeFlag8b else writeFlag1b >> closeFd fd `catchIOError` const (return ()) asyncIOYY :: NgxExport -> CString -> CInt -> CInt -> CUInt -> CUInt -> Ptr CString -> Ptr CSize -> Ptr CUInt -> IO () asyncIOYY (IOYY f) x (I n) fd (ToBool efd) (ToBool fstRun) = asyncIOCommon (B.unsafePackCStringLen (x, n) >>= flip f fstRun) fd efd asyncIOYYY :: NgxExport -> Ptr NgxStrType -> CInt -> CString -> CInt -> CInt -> CUInt -> Ptr CString -> Ptr CSize -> Ptr CUInt -> IO () asyncIOYYY (IOYYY f) b (I m) x (I n) fd (ToBool efd) = asyncIOCommon (do b' <- peekNgxStringArrayLenY b m x' <- B.unsafePackCStringLen (x, n) f b' x' ) fd efd bS :: NgxExport -> CString -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt bS (BS f) x (I n) p pl = safeHandler p pl $ do r <- fromBool . f <$> peekCStringLen (x, n) pokeCStringLen nullPtr 0 p pl return r bSS :: NgxExport -> CString -> CInt -> CString -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt bSS (BSS f) x (I n) y (I m) p pl = safeHandler p pl $ do r <- (fromBool .) . f <$> peekCStringLen (x, n) <*> peekCStringLen (y, m) pokeCStringLen nullPtr 0 p pl return r bLS :: NgxExport -> Ptr NgxStrType -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt bLS (BLS f) x (I n) p pl = safeHandler p pl $ do r <- fromBool . f <$> peekNgxStringArrayLen x n pokeCStringLen nullPtr 0 p pl return r bY :: NgxExport -> CString -> CInt -> Ptr CString -> Ptr CInt -> IO CUInt bY (BY f) x (I n) p pl = safeHandler p pl $ do r <- fromBool . f <$> B.unsafePackCStringLen (x, n) pokeCStringLen nullPtr 0 p pl return r handler :: NgxExport -> CString -> CInt -> Ptr (Ptr NgxStrType) -> Ptr CInt -> Ptr CString -> Ptr CSize -> Ptr CInt -> IO CUInt handler (Handler f) x (I n) p pl pct plct pst = safeHandler pct pst $ do (s, ct, I st) <- f <$> B.unsafePackCStringLen (x, n) PtrLenFromMaybe t l <- toBuffers s poke p t >> poke pl l PtrLen sct lct <- newCStringLen ct pokeCStringLen sct lct pct plct >> poke pst st return 0 defHandler :: NgxExport -> CString -> CInt -> Ptr (Ptr NgxStrType) -> Ptr CInt -> Ptr CString -> IO CUInt defHandler (YY f) x (I n) p pl pe = safeHandler pe pl $ do s <- f <$> B.unsafePackCStringLen (x, n) PtrLenFromMaybe t l <- toBuffers s poke p t >> poke pl l return 0 unsafeHandler :: NgxExport -> CString -> CInt -> Ptr CString -> Ptr CSize -> Ptr CString -> Ptr CSize -> Ptr CInt -> IO CUInt unsafeHandler (UnsafeHandler f) x (I n) p pl pct plct pst = safeHandler pct pst $ do (s, ct, I st) <- f <$> B.unsafePackCStringLen (x, n) PtrLen t l <- B.unsafeUseAsCStringLen s return pokeCStringLen t l p pl PtrLen sct lct <- B.unsafeUseAsCStringLen ct return pokeCStringLen sct lct pct plct >> poke pst st return 0 foreign export ccall ngxExportVersion :: Ptr CInt -> CInt -> IO CInt ngxExportVersion :: Ptr CInt -> CInt -> IO CInt ngxExportVersion x (I n) = fromIntegral <$> foldM (\k (I v) -> pokeElemOff x k v >> return (k + 1)) 0 (take n $ versionBranch version)