{-# LANGUAGE TypeFamilies #-} module Rules.Libffi ( LibffiDynLibs(..), needLibffi, askLibffilDynLibs, libffiRules, libffiLibrary, libffiHeaderFiles, libffiHeaderDir, libffiSystemHeaderDir, libffiName ) where import Hadrian.Utilities import Packages import Settings.Builders.Common import Target import Utilities {- Note [Libffi indicating inputs] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ First see https://gitlab.haskell.org/ghc/ghc/wikis/Developing-Hadrian for an explanation of "indicating input". Part of the definition is copied here for your convenience: change in the vital output -> change in the indicating inputs In the case of building libffi `vital output = built libffi library files` and we can consider the libffi archive file (i.e. the "libffi-tarballs/libffi*.tar.gz" file) to be the only indicating input besides the build tools (e.g. make). Note building libffi is split into a few rules, but we also expect that: no change in the archive file -> no change in the intermediate build artifacts and so the archive file is still a valid choice of indicating input for all libffi rules. Hence we can get away with `need`ing only the archive file and don't have to `need` intermediate build artifacts (besides those to trigger dependant libffi rules i.e. to generate vital inputs as is noted on the wiki). It is then safe to `trackAllow` the libffi build directory as is done in `needLibfffiArchive`. A disadvantage to this approach is that changing the archive file forces a clean build of libffi i.e. we cannot incrementally build libffi. This seems like a performance issue, but is justified as building libffi is fast and the archive file is rarely changed. -} -- | Oracle question type. The oracle returns the list of dynamic -- libffi library file paths (all but one of which should be symlinks). newtype LibffiDynLibs = LibffiDynLibs Stage deriving (Eq, Show, Hashable, Binary, NFData) type instance RuleResult LibffiDynLibs = [FilePath] askLibffilDynLibs :: Stage -> Action [FilePath] askLibffilDynLibs stage = askOracle (LibffiDynLibs stage) -- | The path to the dynamic library manifest file. The file contains all file -- paths to libffi dynamic library file paths. -- The path is calculated but not `need`ed. dynLibManifest' :: Monad m => m FilePath -> Stage -> m FilePath dynLibManifest' getRoot stage = do root <- getRoot return $ root -/- stageString stage -/- pkgName libffi -/- ".dynamiclibs" dynLibManifestRules :: Stage -> Rules FilePath dynLibManifestRules = dynLibManifest' buildRootRules dynLibManifest :: Stage -> Action FilePath dynLibManifest = dynLibManifest' buildRoot -- | Need the (locally built) libffi library. needLibffi :: Stage -> Action () needLibffi stage = do manifest <- dynLibManifest stage need [manifest] -- | Context for @libffi@. libffiContext :: Stage -> Action Context libffiContext stage = do ways <- interpretInContext (Context stage libffi (error "libffiContext: way not set")) getLibraryWays return . Context stage libffi $ if any (wayUnit Dynamic) ways then dynamic else vanilla -- | The name of the library libffiName :: Expr String libffiName = do useSystemFfi <- expr (flag UseSystemFfi) if useSystemFfi then pure "ffi" else libffiLocalName Nothing -- | The name of the (locally built) library libffiLocalName :: Maybe Bool -> Expr String libffiLocalName force_dynamic = do way <- getWay winTarget <- expr isWinTarget let dynamic = fromMaybe (Dynamic `wayUnit` way) force_dynamic pure $ mconcat [ if dynamic then "" else "C" , if winTarget then "ffi-6" else "ffi" ] libffiLibrary :: FilePath libffiLibrary = "inst/lib/libffi.a" -- | These are the headers that we must package with GHC since foreign export -- adjustor code produced by GHC depends upon them. -- See Note [Packaging libffi headers] in GHC.Driver.CodeOutput. libffiHeaderFiles :: [FilePath] libffiHeaderFiles = ["ffi.h", "ffitarget.h"] libffiHeaderDir :: Stage -> Action FilePath libffiHeaderDir stage = do path <- libffiBuildPath stage return $ path -/- "inst/include" libffiSystemHeaderDir :: Action FilePath libffiSystemHeaderDir = setting FfiIncludeDir fixLibffiMakefile :: FilePath -> String -> String fixLibffiMakefile top = replace "-MD" "-MMD" . replace "@toolexeclibdir@" "$(libdir)" . replace "@INSTALL@" ("$(subst ../install-sh," ++ top ++ "/install-sh,@INSTALL@)") -- TODO: check code duplication w.r.t. ConfCcArgs configureEnvironment :: Stage -> Action [CmdOption] configureEnvironment stage = do context <- libffiContext stage cFlags <- interpretInContext context $ mconcat [ cArgs , getStagedSettingList ConfCcArgs ] ldFlags <- interpretInContext context ldArgs sequence [ builderEnvironment "CC" $ Cc CompileC stage , builderEnvironment "CXX" $ Cc CompileC stage , builderEnvironment "LD" (Ld stage) , builderEnvironment "AR" (Ar Unpack stage) , builderEnvironment "NM" Nm , builderEnvironment "RANLIB" Ranlib , return . AddEnv "CFLAGS" $ unwords cFlags ++ " -w" , return . AddEnv "LDFLAGS" $ unwords ldFlags ++ " -w" ] -- Need the libffi archive and `trackAllow` all files in the build directory. -- See [Libffi indicating inputs]. needLibfffiArchive :: FilePath -> Action FilePath needLibfffiArchive buildPath = do top <- topDirectory tarball <- unifyPath . fromSingleton "Exactly one LibFFI tarball is expected" <$> getDirectoryFiles top ["libffi-tarballs/libffi*.tar.gz"] need [top -/- tarball] trackAllow [buildPath -/- "**"] return tarball libffiRules :: Rules () libffiRules = do _ <- addOracleCache $ \ (LibffiDynLibs stage) -> readFileLines =<< dynLibManifest stage forM_ [Stage1 ..] $ \stage -> do root <- buildRootRules let path = root -/- stageString stage libffiPath = path -/- pkgName libffi -/- "build" -- We set a higher priority because this rule overlaps with the build rule -- for static libraries 'Rules.Library.libraryRules'. dynLibMan <- dynLibManifestRules stage let topLevelTargets = [ libffiPath -/- libffiLibrary , dynLibMan ] priority 2 $ topLevelTargets &%> \_ -> do _ <- needLibfffiArchive libffiPath context <- libffiContext stage -- Note this build needs the Makefile, triggering the rules bellow. build $ target context (Make libffiPath) [] [] libffiName' <- interpretInContext context (libffiLocalName (Just True)) -- Produces all install files. produces =<< (\\ topLevelTargets) <$> liftIO (getDirectoryFilesIO "." [libffiPath -/- "inst//*"]) -- Find dynamic libraries. osxTarget <- isOsxTarget winTarget <- isWinTarget dynLibFiles <- do let libfilesDir = libffiPath -/- (if winTarget then "inst" -/- "bin" else "inst" -/- "lib") dynlibext | winTarget = "dll" | osxTarget = "dylib" | otherwise = "so" filepat = "lib" ++ libffiName' ++ "." ++ dynlibext ++ "*" liftIO $ getDirectoryFilesIO "." [libfilesDir -/- filepat] writeFileLines dynLibMan dynLibFiles putSuccess "| Successfully build libffi." fmap (libffiPath -/-) ["Makefile.in", "configure" ] &%> \[mkIn, _] -> do -- Extract libffi tar file context <- libffiContext stage removeDirectory libffiPath tarball <- needLibfffiArchive libffiPath -- Go from 'libffi-3.99999+git20171002+77e130c.tar.gz' to 'libffi-3.99999' let libname = takeWhile (/= '+') $ fromJust $ stripExtension "tar.gz" $ takeFileName tarball -- Move extracted directory to libffiPath. root <- buildRoot removeDirectory (root -/- libname) actionFinally (do build $ target context (Tar Extract) [tarball] [path] moveDirectory (path -/- libname) libffiPath) $ -- And finally: removeFiles (path) [libname -/- "**"] top <- topDirectory fixFile mkIn (fixLibffiMakefile top) files <- liftIO $ getDirectoryFilesIO "." [libffiPath -/- "**"] produces files fmap (libffiPath -/-) ["Makefile", "config.guess", "config.sub"] &%> \[mk, _, _] -> do _ <- needLibfffiArchive libffiPath context <- libffiContext stage -- This need rule extracts the libffi tar file to libffiPath. need [mk <.> "in"] -- Configure. forM_ ["config.guess", "config.sub"] $ \file -> do copyFile file (libffiPath -/- file) env <- configureEnvironment stage buildWithCmdOptions env $ target context (Configure libffiPath) [mk <.> "in"] [mk] dir <- setting BuildPlatform files <- liftIO $ getDirectoryFilesIO "." [libffiPath -/- dir -/- "**"] produces files