-- | -- Module : Foundation.IO.FileMap -- License : BSD-style -- Maintainer : Vincent Hanquez <vincent@snarc.org> -- Stability : experimental -- Portability : portable -- -- Note that the memory mapping is handled by the system, not at the haskell level. -- The system can modify the content of the memory as any moment under your feet. -- -- It also have the limitation of your system, no emulation or nice handling of all -- those corners cases is attempted here. -- -- for example mapping a large file (> 4G), on a 32 bits system is likely to just -- fail or returns inconsistent result. -- -- In doubt, use 'readFile' or other simple routine that brings -- the content of the file in IO. -- {-# LANGUAGE OverloadedStrings #-} module Foundation.IO.FileMap ( fileMapRead , fileMapReadWith ) where import Control.Exception import Basement.Types.OffsetSize import Basement.Imports import Foundation.VFS (FilePath) import Basement.FinalPtr import qualified Basement.UArray as V import qualified Foundation.Foreign.MemoryMap as I import qualified Prelude getSize :: I.FileMapping -> Int getSize fm | Prelude.fromIntegral (maxBound :: Int) < sz = error ("cannot map file in entirety as size overflow " <> show sz) | otherwise = Prelude.fromIntegral sz where (FileSize sz) = I.fileMappingSize fm -- | Map in memory the whole content of a file. -- -- Once the array goes out of scope, the memory get (eventually) unmap fileMapRead :: FilePath -> IO (V.UArray Word8) fileMapRead fp = do fileMapping <- I.fileMapRead fp fptr <- I.fileMappingToFinalPtr fileMapping return $ V.foreignMem fptr (CountOf $ getSize fileMapping) -- | Map in memory the whole content of a file, -- the whole map is unmapped at the end of function after the function has been called -- so any things that is still holding on to this memory will very likely trigger segfault -- or other really bad behavior. fileMapReadWith :: FilePath -> (V.UArray Word8 -> IO a) -> IO a fileMapReadWith fp f = do bracket (I.fileMapRead fp) I.fileMappingUnmap $ \fm -> do fptr <- toFinalPtr (I.fileMappingPtr fm) (\_ -> return ()) f (V.foreignMem fptr (CountOf $ getSize fm))