{- OSX library copier - - Copyright 2012 Joey Hess - - Licensed under the GNU AGPL version 3 or higher. -} module Build.OSXMkLibs (mklibs) where import Data.Maybe import System.FilePath import Control.Monad import Control.Monad.IfElse import Data.List import Control.Applicative import Prelude import Utility.PartialPrelude import Utility.Directory import Utility.Process import Utility.Monad import Utility.SafeCommand import Utility.Path import Utility.Exception import Utility.Env import Utility.Split import qualified Data.Map as M import qualified Data.Set as S type LibMap = M.Map FilePath String mklibs :: FilePath -> M.Map FilePath FilePath -> IO Bool mklibs appbase installedbins = do mklibs' appbase installedbins [] [] M.empty return True {- Recursively find and install libs, until nothing new to install is found. -} mklibs' :: FilePath -> M.Map FilePath FilePath -> [FilePath] -> [(FilePath, FilePath)] -> LibMap -> IO () mklibs' appbase installedbins libdirs replacement_libs libmap = do (new, replacement_libs', libmap') <- installLibs appbase installedbins replacement_libs libmap unless (null new) $ mklibs' appbase installedbins (libdirs++new) replacement_libs' libmap' {- Returns directories into which new libs were installed. -} installLibs :: FilePath -> M.Map FilePath FilePath -> [(FilePath, FilePath)] -> LibMap -> IO ([FilePath], [(FilePath, FilePath)], LibMap) installLibs appbase installedbins replacement_libs libmap = do (needlibs, replacement_libs', libmap') <- otool appbase installedbins replacement_libs libmap libs <- forM needlibs $ \lib -> do pathlib <- findLibPath lib let shortlib = fromMaybe (error "internal") (M.lookup lib libmap') let fulllib = dropWhile (== '/') lib let dest = appbase fulllib let symdest = appbase shortlib -- This is a hack; libraries need to be in the same -- directory as the program, so also link them into the -- extra and git-core directories so programs in those will -- find them. let symdestextra = [ appbase "extra" shortlib , appbase "git-core" shortlib ] ifM (doesFileExist dest) ( return Nothing , do createDirectoryIfMissing True (parentDir dest) putStrLn $ "installing " ++ pathlib ++ " as " ++ shortlib unlessM (boolSystem "cp" [File pathlib, File dest] <&&> boolSystem "chmod" [Param "644", File dest] <&&> boolSystem "ln" [Param "-s", File fulllib, File symdest]) $ error "library install failed" forM_ symdestextra $ \d -> unlessM (boolSystem "ln" [Param "-s", File (".." fulllib), File d]) $ error "library linking failed" return $ Just appbase ) return (catMaybes libs, replacement_libs', libmap') {- Returns libraries to install. - - Note that otool -L ignores DYLD_LIBRARY_PATH, so the - library files returned may need to be run through findLibPath - to find the actual libraries to install. -} otool :: FilePath -> M.Map FilePath FilePath -> [(FilePath, FilePath)] -> LibMap -> IO ([FilePath], [(FilePath, FilePath)], LibMap) otool appbase installedbins replacement_libs libmap = do files <- filterM doesFileExist =<< dirContentsRecursive appbase process [] files replacement_libs libmap where want s = not ("@executable_path" `isInfixOf` s) -- OSX framekworks such as Cocoa are too tightly tied to -- a specific OSX version, so don't bundle. && not (".framework" `isInfixOf` s) -- libSystem.B is tightly tied to frameworks. && not ("libSystem.B" `isInfixOf` s) -- ImageIO.framework uses libPng which is built against a -- specific version of libz; other versions lack the -- _inflateValidate symbol. So, avoid bundling libz unless -- this incompatability is resolved. && not ("libz." `isInfixOf` s) process c [] rls m = return (nub $ concat c, rls, m) process c (file:rest) rls m = do _ <- boolSystem "chmod" [Param "755", File file] libs <- filter want . parseOtool <$> readProcess "otool" ["-L", file] expanded_libs <- expand_rpath installedbins libs replacement_libs file let rls' = nub $ rls ++ (zip libs expanded_libs) m' <- install_name_tool file libs expanded_libs m process (expanded_libs:c) rest rls' m' findLibPath :: FilePath -> IO FilePath findLibPath l = go =<< getEnv "DYLD_LIBRARY_PATH" where go Nothing = return l go (Just p) = fromMaybe l <$> firstM doesFileExist (map ( f) (splitc ':' p)) f = takeFileName l {- Expands any @rpath in the list of libraries. - - This is done by the nasty method of running the command with a dummy - option (so it doesn't do anything.. hopefully!) and asking the dynamic - linker to print expanded rpaths. -} expand_rpath :: M.Map FilePath FilePath -> [String] -> [(FilePath, FilePath)] -> FilePath -> IO [String] expand_rpath installedbins libs replacement_libs cmd | any ("@rpath" `isInfixOf`) libs = do let origcmd = case M.lookup cmd installedbins of Nothing -> cmd Just cmd' -> cmd' s <- catchDefaultIO "" $ readProcess "sh" ["-c", probe origcmd] let m = if (null s) then M.fromList replacement_libs else M.fromList $ mapMaybe parse $ lines s return $ map (replacem m) libs | otherwise = return libs where probe c = "DYLD_PRINT_RPATHS=1 " ++ c ++ " --getting-rpath-dummy-option 2>&1 | grep RPATH" parse s = case words s of ("RPATH":"successful":"expansion":"of":old:"to:":new:[]) -> Just (old, new) _ -> Nothing replacem m l = fromMaybe l $ M.lookup l m parseOtool :: String -> [FilePath] parseOtool = catMaybes . map parse . lines where parse l | "\t" `isPrefixOf` l = headMaybe $ words l | otherwise = Nothing {- Adjusts binaries to use libraries bundled with it, rather than the - system libraries. -} install_name_tool :: FilePath -> [FilePath] -> [FilePath] -> LibMap -> IO LibMap install_name_tool _ [] _ libmap = return libmap install_name_tool binary libs expanded_libs libmap = do let (libnames, libmap') = getLibNames expanded_libs libmap let params = concatMap change $ zip libs libnames ok <- boolSystem "install_name_tool" $ params ++ [File binary] unless ok $ error $ "install_name_tool failed for " ++ binary return libmap' where change (lib, libname) = [ Param "-change" , File lib , Param $ "@executable_path/" ++ libname ] getLibNames :: [FilePath] -> LibMap -> ([FilePath], LibMap) getLibNames libs libmap = go [] libs libmap where go c [] m = (reverse c, m) go c (l:rest) m = let (f, m') = getLibName l m in go (f:c) rest m' {- Uses really short names for the library files it installs, because - binaries have arbitrarily short RPATH field limits. -} getLibName :: FilePath -> LibMap -> (FilePath, LibMap) getLibName lib libmap = case M.lookup lib libmap of Just n -> (n, libmap) Nothing -> (nextfreename, M.insert lib nextfreename libmap) where names = map pure ['A' .. 'Z'] ++ [[n, l] | n <- ['0' .. '9'], l <- ['A' .. 'Z']] used = S.fromList $ M.elems libmap nextfreename = fromMaybe (error "ran out of short library names!") $ headMaybe $ dropWhile (`S.member` used) names