----------------------------------------------------------------------------- -- -- (c) The University of Glasgow 2001-2003 -- -- Access to system tools: gcc, cp, rm etc -- ----------------------------------------------------------------------------- \begin{code} module SysTools ( -- Initialisation initSysTools, -- Interface to system tools runUnlit, runCpp, runCc, -- [Option] -> IO () runPp, -- [Option] -> IO () runSplit, -- [Option] -> IO () runAs, runLink, -- [Option] -> IO () runMkDLL, runWindres, runLlvmOpt, runLlvmLlc, runClang, figureLlvmVersion, readElfSection, askCc, touch, -- String -> String -> IO () copy, copyWithHeader, -- Temporary-file management setTmpDir, newTempName, cleanTempDirs, cleanTempFiles, cleanTempFilesExcept, addFilesToClean, Option(..) ) where #include "HsVersions.h" import DriverPhases import Config import Outputable import ErrUtils import Panic import Platform import Util import DynFlags import Exception import Data.IORef import Control.Monad import System.Exit import System.Environment import System.FilePath import System.IO import System.IO.Error as IO import System.Directory import Data.Char import Data.List import qualified Data.Map as Map import Text.ParserCombinators.ReadP hiding (char) import qualified Text.ParserCombinators.ReadP as R #ifndef mingw32_HOST_OS import qualified System.Posix.Internals #else /* Must be Win32 */ import Foreign import Foreign.C.String #endif import System.Process import Control.Concurrent import FastString import SrcLoc ( SrcLoc, mkSrcLoc, noSrcSpan, mkSrcSpan ) #ifdef mingw32_HOST_OS # if defined(i386_HOST_ARCH) # define WINDOWS_CCONV stdcall # elif defined(x86_64_HOST_ARCH) # define WINDOWS_CCONV ccall # else # error Unknown mingw32 arch # endif #endif \end{code} How GHC finds its files ~~~~~~~~~~~~~~~~~~~~~~~ [Note topdir] GHC needs various support files (library packages, RTS etc), plus various auxiliary programs (cp, gcc, etc). It starts by finding topdir, the root of GHC's support files On Unix: - ghc always has a shell wrapper that passes a -B option On Windows: - ghc never has a shell wrapper. - we can find the location of the ghc binary, which is $topdir/bin/.exe where may be "ghc", "ghc-stage2", or similar - we strip off the "bin/.exe" to leave $topdir. from topdir we can find package.conf, ghc-asm, etc. SysTools.initSysProgs figures out exactly where all the auxiliary programs are, and initialises mutable variables to make it easy to call them. To to this, it makes use of definitions in Config.hs, which is a Haskell file containing variables whose value is figured out by the build system. Config.hs contains two sorts of things cGCC, The *names* of the programs cCPP e.g. cGCC = gcc cUNLIT cCPP = gcc -E etc They do *not* include paths cUNLIT_DIR The *path* to the directory containing unlit, split etc cSPLIT_DIR *relative* to the root of the build tree, for use when running *in-place* in a build tree (only) --------------------------------------------- NOTES for an ALTERNATIVE scheme (i.e *not* what is currently implemented): Another hair-brained scheme for simplifying the current tool location nightmare in GHC: Simon originally suggested using another configuration file along the lines of GCC's specs file - which is fine except that it means adding code to read yet another configuration file. What I didn't notice is that the current package.conf is general enough to do this: Package {name = "tools", import_dirs = [], source_dirs = [], library_dirs = [], hs_libraries = [], extra_libraries = [], include_dirs = [], c_includes = [], package_deps = [], extra_ghc_opts = ["-pgmc/usr/bin/gcc","-pgml${topdir}/bin/unlit", ... etc.], extra_cc_opts = [], extra_ld_opts = []} Which would have the advantage that we get to collect together in one place the path-specific package stuff with the path-specific tool stuff. End of NOTES --------------------------------------------- %************************************************************************ %* * \subsection{Initialisation} %* * %************************************************************************ \begin{code} initSysTools :: Maybe String -- Maybe TopDir path (without the '-B' prefix) -> IO Settings -- Set all the mutable variables above, holding -- (a) the system programs -- (b) the package-config file -- (c) the GHC usage message initSysTools mbMinusB = do top_dir <- findTopDir mbMinusB -- see [Note topdir] -- NB: top_dir is assumed to be in standard Unix -- format, '/' separated let settingsFile = top_dir "settings" installed :: FilePath -> FilePath installed file = top_dir file settingsStr <- readFile settingsFile mySettings <- case maybeReadFuzzy settingsStr of Just s -> return s Nothing -> pgmError ("Can't parse " ++ show settingsFile) let getSetting key = case lookup key mySettings of Just xs -> return $ case stripPrefix "$topdir" xs of Just [] -> top_dir Just xs'@(c:_) | isPathSeparator c -> top_dir ++ xs' _ -> xs Nothing -> pgmError ("No entry for " ++ show key ++ " in " ++ show settingsFile) getBooleanSetting key = case lookup key mySettings of Just "YES" -> return True Just "NO" -> return False Just xs -> pgmError ("Bad value for " ++ show key ++ ": " ++ show xs) Nothing -> pgmError ("No entry for " ++ show key ++ " in " ++ show settingsFile) readSetting key = case lookup key mySettings of Just xs -> case maybeRead xs of Just v -> return v Nothing -> pgmError ("Failed to read " ++ show key ++ " value " ++ show xs) Nothing -> pgmError ("No entry for " ++ show key ++ " in " ++ show settingsFile) targetArch <- readSetting "target arch" targetOS <- readSetting "target os" targetWordSize <- readSetting "target word size" targetHasGnuNonexecStack <- readSetting "target has GNU nonexec stack" targetHasIdentDirective <- readSetting "target has .ident directive" targetHasSubsectionsViaSymbols <- readSetting "target has subsections via symbols" myExtraGccViaCFlags <- getSetting "GCC extra via C opts" -- On Windows, mingw is distributed with GHC, -- so we look in TopDir/../mingw/bin -- It would perhaps be nice to be able to override this -- with the settings file, but it would be a little fiddly -- to make that possible, so for now you can't. gcc_prog <- getSetting "C compiler command" gcc_args_str <- getSetting "C compiler flags" let gcc_args = map Option (words gcc_args_str) ldSupportsCompactUnwind <- getBooleanSetting "ld supports compact unwind" ldSupportsBuildId <- getBooleanSetting "ld supports build-id" ldIsGnuLd <- getBooleanSetting "ld is GNU ld" perl_path <- getSetting "perl command" let pkgconfig_path = installed "package.conf.d" ghc_usage_msg_path = installed "ghc-usage.txt" ghci_usage_msg_path = installed "ghci-usage.txt" -- For all systems, unlit, split, mangle are GHC utilities -- architecture-specific stuff is done when building Config.hs unlit_path = installed cGHC_UNLIT_PGM -- split is a Perl script split_script = installed cGHC_SPLIT_PGM windres_path <- getSetting "windres command" tmpdir <- getTemporaryDirectory touch_path <- getSetting "touch command" let -- On Win32 we don't want to rely on #!/bin/perl, so we prepend -- a call to Perl to get the invocation of split. -- On Unix, scripts are invoked using the '#!' method. Binary -- installations of GHC on Unix place the correct line on the -- front of the script at installation time, so we don't want -- to wire-in our knowledge of $(PERL) on the host system here. (split_prog, split_args) | isWindowsHost = (perl_path, [Option split_script]) | otherwise = (split_script, []) mkdll_prog <- getSetting "dllwrap command" let mkdll_args = [] -- cpp is derived from gcc on all platforms -- HACK, see setPgmP below. We keep 'words' here to remember to fix -- Config.hs one day. let cpp_prog = gcc_prog cpp_args = Option "-E" : map Option (words cRAWCPP_FLAGS) ++ gcc_args -- Other things being equal, as and ld are simply gcc let as_prog = gcc_prog as_args = gcc_args ld_prog = gcc_prog ld_args = gcc_args -- We just assume on command line lc_prog <- getSetting "LLVM llc command" lo_prog <- getSetting "LLVM opt command" let platform = Platform { platformArch = targetArch, platformOS = targetOS, platformWordSize = targetWordSize, platformHasGnuNonexecStack = targetHasGnuNonexecStack, platformHasIdentDirective = targetHasIdentDirective, platformHasSubsectionsViaSymbols = targetHasSubsectionsViaSymbols } return $ Settings { sTargetPlatform = platform, sTmpDir = normalise tmpdir, sGhcUsagePath = ghc_usage_msg_path, sGhciUsagePath = ghci_usage_msg_path, sTopDir = top_dir, sRawSettings = mySettings, sExtraGccViaCFlags = words myExtraGccViaCFlags, sSystemPackageConfig = pkgconfig_path, sLdSupportsCompactUnwind = ldSupportsCompactUnwind, sLdSupportsBuildId = ldSupportsBuildId, sLdIsGnuLd = ldIsGnuLd, sPgm_L = unlit_path, sPgm_P = (cpp_prog, cpp_args), sPgm_F = "", sPgm_c = (gcc_prog, gcc_args), sPgm_s = (split_prog,split_args), sPgm_a = (as_prog, as_args), sPgm_l = (ld_prog, ld_args), sPgm_dll = (mkdll_prog,mkdll_args), sPgm_T = touch_path, sPgm_sysman = top_dir ++ "/ghc/rts/parallel/SysMan", sPgm_windres = windres_path, sPgm_lo = (lo_prog,[]), sPgm_lc = (lc_prog,[]), -- Hans: this isn't right in general, but you can -- elaborate it in the same way as the others sOpt_L = [], sOpt_P = [], sOpt_F = [], sOpt_c = [], sOpt_a = [], sOpt_l = [], sOpt_windres = [], sOpt_lo = [], sOpt_lc = [] } \end{code} \begin{code} -- returns a Unix-format path (relying on getBaseDir to do so too) findTopDir :: Maybe String -- Maybe TopDir path (without the '-B' prefix). -> IO String -- TopDir (in Unix format '/' separated) findTopDir (Just minusb) = return (normalise minusb) findTopDir Nothing = do -- Get directory of executable maybe_exec_dir <- getBaseDir case maybe_exec_dir of -- "Just" on Windows, "Nothing" on unix Nothing -> ghcError (InstallationError "missing -B option") Just dir -> return dir \end{code} %************************************************************************ %* * \subsection{Running an external program} %* * %************************************************************************ \begin{code} runUnlit :: DynFlags -> [Option] -> IO () runUnlit dflags args = do let p = pgm_L dflags runSomething dflags "Literate pre-processor" p args runCpp :: DynFlags -> [Option] -> IO () runCpp dflags args = do let (p,args0) = pgm_P dflags args1 = args0 ++ args args2 = if dopt Opt_WarnIsError dflags then Option "-Werror" : args1 else args1 mb_env <- getGccEnv args2 runSomethingFiltered dflags id "C pre-processor" p args2 mb_env runPp :: DynFlags -> [Option] -> IO () runPp dflags args = do let p = pgm_F dflags runSomething dflags "Haskell pre-processor" p args runCc :: DynFlags -> [Option] -> IO () runCc dflags args = do let (p,args0) = pgm_c dflags args1 = args0 ++ args mb_env <- getGccEnv args1 runSomethingFiltered dflags cc_filter "C Compiler" p args1 mb_env where -- discard some harmless warnings from gcc that we can't turn off cc_filter = unlines . doFilter . lines {- gcc gives warnings in chunks like so: In file included from /foo/bar/baz.h:11, from /foo/bar/baz2.h:22, from wibble.c:33: /foo/flibble:14: global register variable ... /foo/flibble:15: warning: call-clobbered r... We break it up into its chunks, remove any call-clobbered register warnings from each chunk, and then delete any chunks that we have emptied of warnings. -} doFilter = unChunkWarnings . filterWarnings . chunkWarnings [] -- We can't assume that the output will start with an "In file inc..." -- line, so we start off expecting a list of warnings rather than a -- location stack. chunkWarnings :: [String] -- The location stack to use for the next -- list of warnings -> [String] -- The remaining lines to look at -> [([String], [String])] chunkWarnings loc_stack [] = [(loc_stack, [])] chunkWarnings loc_stack xs = case break loc_stack_start xs of (warnings, lss:xs') -> case span loc_start_continuation xs' of (lsc, xs'') -> (loc_stack, warnings) : chunkWarnings (lss : lsc) xs'' _ -> [(loc_stack, xs)] filterWarnings :: [([String], [String])] -> [([String], [String])] filterWarnings [] = [] -- If the warnings are already empty then we are probably doing -- something wrong, so don't delete anything filterWarnings ((xs, []) : zs) = (xs, []) : filterWarnings zs filterWarnings ((xs, ys) : zs) = case filter wantedWarning ys of [] -> filterWarnings zs ys' -> (xs, ys') : filterWarnings zs unChunkWarnings :: [([String], [String])] -> [String] unChunkWarnings [] = [] unChunkWarnings ((xs, ys) : zs) = xs ++ ys ++ unChunkWarnings zs loc_stack_start s = "In file included from " `isPrefixOf` s loc_start_continuation s = " from " `isPrefixOf` s wantedWarning w | "warning: call-clobbered register used" `isContainedIn` w = False | otherwise = True isContainedIn :: String -> String -> Bool xs `isContainedIn` ys = any (xs `isPrefixOf`) (tails ys) askCc :: DynFlags -> [Option] -> IO String askCc dflags args = do let (p,args0) = pgm_c dflags args1 = args0 ++ args mb_env <- getGccEnv args1 runSomethingWith dflags "gcc" p args1 $ \real_args -> readCreateProcess (proc p real_args){ env = mb_env } -- Version of System.Process.readProcessWithExitCode that takes an environment readCreateProcess :: CreateProcess -> IO (ExitCode, String) -- ^ stdout readCreateProcess proc = do (_, Just outh, _, pid) <- createProcess proc{ std_out = CreatePipe } -- fork off a thread to start consuming the output output <- hGetContents outh outMVar <- newEmptyMVar _ <- forkIO $ evaluate (length output) >> putMVar outMVar () -- wait on the output takeMVar outMVar hClose outh -- wait on the process ex <- waitForProcess pid return (ex, output) -- If the -B option is set, add to PATH. This works around -- a bug in gcc on Windows Vista where it can't find its auxiliary -- binaries (see bug #1110). getGccEnv :: [Option] -> IO (Maybe [(String,String)]) getGccEnv opts = if null b_dirs then return Nothing else do env <- getEnvironment return (Just (map mangle_path env)) where (b_dirs, _) = partitionWith get_b_opt opts get_b_opt (Option ('-':'B':dir)) = Left dir get_b_opt other = Right other mangle_path (path,paths) | map toUpper path == "PATH" = (path, '\"' : head b_dirs ++ "\";" ++ paths) mangle_path other = other runSplit :: DynFlags -> [Option] -> IO () runSplit dflags args = do let (p,args0) = pgm_s dflags runSomething dflags "Splitter" p (args0++args) runAs :: DynFlags -> [Option] -> IO () runAs dflags args = do let (p,args0) = pgm_a dflags args1 = args0 ++ args mb_env <- getGccEnv args1 runSomethingFiltered dflags id "Assembler" p args1 mb_env -- | Run the LLVM Optimiser runLlvmOpt :: DynFlags -> [Option] -> IO () runLlvmOpt dflags args = do let (p,args0) = pgm_lo dflags runSomething dflags "LLVM Optimiser" p (args0++args) -- | Run the LLVM Compiler runLlvmLlc :: DynFlags -> [Option] -> IO () runLlvmLlc dflags args = do let (p,args0) = pgm_lc dflags runSomething dflags "LLVM Compiler" p (args0++args) -- | Run the clang compiler (used as an assembler for the LLVM -- backend on OS X as LLVM doesn't support the OS X system -- assembler) runClang :: DynFlags -> [Option] -> IO () runClang dflags args = do -- we simply assume its available on the PATH let clang = "clang" Exception.catch (do runSomething dflags "Clang (Assembler)" clang args ) (\(err :: SomeException) -> do errorMsg dflags $ text $ "Error running clang! you need clang installed" ++ " to use the LLVM backend" throw err ) -- | Figure out which version of LLVM we are running this session figureLlvmVersion :: DynFlags -> IO (Maybe Int) figureLlvmVersion dflags = do let (pgm,opts) = pgm_lc dflags args = filter notNull (map showOpt opts) -- we grab the args even though they should be useless just in -- case the user is using a customised 'llc' that requires some -- of the options they've specified. llc doesn't care what other -- options are specified when '-version' is used. args' = args ++ ["-version"] ver <- catchIO (do (pin, pout, perr, _) <- runInteractiveProcess pgm args' Nothing Nothing {- > llc -version Low Level Virtual Machine (http://llvm.org/): llvm version 2.8 (Ubuntu 2.8-0Ubuntu1) ... -} hSetBinaryMode pout False _ <- hGetLine pout vline <- hGetLine pout v <- case filter isDigit vline of [] -> fail "no digits!" [x] -> fail $ "only 1 digit! (" ++ show x ++ ")" (x:y:_) -> return ((read [x,y]) :: Int) hClose pin hClose pout hClose perr return $ Just v ) (\err -> do debugTraceMsg dflags 2 (text "Error (figuring out LLVM version):" <+> text (show err)) errorMsg dflags $ vcat [ text "Warning:", nest 9 $ text "Couldn't figure out LLVM version!" $$ text "Make sure you have installed LLVM"] return Nothing) return ver runLink :: DynFlags -> [Option] -> IO () runLink dflags args = do let (p,args0) = pgm_l dflags args1 = args0 ++ args mb_env <- getGccEnv args1 runSomethingFiltered dflags id "Linker" p args1 mb_env runMkDLL :: DynFlags -> [Option] -> IO () runMkDLL dflags args = do let (p,args0) = pgm_dll dflags args1 = args0 ++ args mb_env <- getGccEnv (args0++args) runSomethingFiltered dflags id "Make DLL" p args1 mb_env runWindres :: DynFlags -> [Option] -> IO () runWindres dflags args = do let (gcc, gcc_args) = pgm_c dflags windres = pgm_windres dflags quote x = "\"" ++ x ++ "\"" args' = -- If windres.exe and gcc.exe are in a directory containing -- spaces then windres fails to run gcc. We therefore need -- to tell it what command to use... Option ("--preprocessor=" ++ unwords (map quote (gcc : map showOpt gcc_args ++ ["-E", "-xc", "-DRC_INVOKED"]))) -- ...but if we do that then if windres calls popen then -- it can't understand the quoting, so we have to use -- --use-temp-file so that it interprets it correctly. -- See #1828. : Option "--use-temp-file" : args mb_env <- getGccEnv gcc_args runSomethingFiltered dflags id "Windres" windres args' mb_env touch :: DynFlags -> String -> String -> IO () touch dflags purpose arg = runSomething dflags purpose (pgm_T dflags) [FileOption "" arg] copy :: DynFlags -> String -> FilePath -> FilePath -> IO () copy dflags purpose from to = copyWithHeader dflags purpose Nothing from to copyWithHeader :: DynFlags -> String -> Maybe String -> FilePath -> FilePath -> IO () copyWithHeader dflags purpose maybe_header from to = do showPass dflags purpose hout <- openBinaryFile to WriteMode hin <- openBinaryFile from ReadMode ls <- hGetContents hin -- inefficient, but it'll do for now. ToDo: speed up maybe (return ()) (header hout) maybe_header hPutStr hout ls hClose hout hClose hin where -- write the header string in UTF-8. The header is something like -- {-# LINE "foo.hs" #-} -- and we want to make sure a Unicode filename isn't mangled. header h str = do hSetEncoding h utf8 hPutStr h str hSetBinaryMode h True -- | read the contents of the named section in an ELF object as a -- String. readElfSection :: DynFlags -> String -> FilePath -> IO (Maybe String) readElfSection _dflags section exe = do let prog = "readelf" args = [Option "-p", Option section, FileOption "" exe] -- r <- readProcessWithExitCode prog (filter notNull (map showOpt args)) "" case r of (ExitSuccess, out, _err) -> return (doFilter (lines out)) _ -> return Nothing where doFilter [] = Nothing doFilter (s:r) = case readP_to_S parse s of [(p,"")] -> Just p _r -> doFilter r where parse = do skipSpaces _ <- R.char '[' skipSpaces _ <- string "0]" skipSpaces munch (const True) \end{code} %************************************************************************ %* * \subsection{Managing temporary files %* * %************************************************************************ \begin{code} cleanTempDirs :: DynFlags -> IO () cleanTempDirs dflags = unless (dopt Opt_KeepTmpFiles dflags) $ do let ref = dirsToClean dflags ds <- readIORef ref removeTmpDirs dflags (Map.elems ds) writeIORef ref Map.empty cleanTempFiles :: DynFlags -> IO () cleanTempFiles dflags = unless (dopt Opt_KeepTmpFiles dflags) $ do let ref = filesToClean dflags fs <- readIORef ref removeTmpFiles dflags fs writeIORef ref [] cleanTempFilesExcept :: DynFlags -> [FilePath] -> IO () cleanTempFilesExcept dflags dont_delete = unless (dopt Opt_KeepTmpFiles dflags) $ do let ref = filesToClean dflags files <- readIORef ref let (to_keep, to_delete) = partition (`elem` dont_delete) files writeIORef ref to_keep removeTmpFiles dflags to_delete -- find a temporary name that doesn't already exist. newTempName :: DynFlags -> Suffix -> IO FilePath newTempName dflags extn = do d <- getTempDir dflags x <- getProcessID findTempName (d "ghc" ++ show x ++ "_") 0 where findTempName :: FilePath -> Integer -> IO FilePath findTempName prefix x = do let filename = (prefix ++ show x) <.> extn b <- doesFileExist filename if b then findTempName prefix (x+1) else do -- clean it up later consIORef (filesToClean dflags) filename return filename -- return our temporary directory within tmp_dir, creating one if we -- don't have one yet getTempDir :: DynFlags -> IO FilePath getTempDir dflags = do let ref = dirsToClean dflags tmp_dir = tmpDir dflags mapping <- readIORef ref case Map.lookup tmp_dir mapping of Nothing -> do x <- getProcessID let prefix = tmp_dir "ghc" ++ show x ++ "_" let mkTempDir :: Integer -> IO FilePath mkTempDir x = let dirname = prefix ++ show x in do createDirectory dirname let mapping' = Map.insert tmp_dir dirname mapping writeIORef ref mapping' debugTraceMsg dflags 2 (ptext (sLit "Created temporary directory:") <+> text dirname) return dirname `catchIO` \e -> if isAlreadyExistsError e then mkTempDir (x+1) else ioError e mkTempDir 0 Just d -> return d addFilesToClean :: DynFlags -> [FilePath] -> IO () -- May include wildcards [used by DriverPipeline.run_phase SplitMangle] addFilesToClean dflags files = mapM_ (consIORef (filesToClean dflags)) files removeTmpDirs :: DynFlags -> [FilePath] -> IO () removeTmpDirs dflags ds = traceCmd dflags "Deleting temp dirs" ("Deleting: " ++ unwords ds) (mapM_ (removeWith dflags removeDirectory) ds) removeTmpFiles :: DynFlags -> [FilePath] -> IO () removeTmpFiles dflags fs = warnNon $ traceCmd dflags "Deleting temp files" ("Deleting: " ++ unwords deletees) (mapM_ (removeWith dflags removeFile) deletees) where -- Flat out refuse to delete files that are likely to be source input -- files (is there a worse bug than having a compiler delete your source -- files?) -- -- Deleting source files is a sign of a bug elsewhere, so prominently flag -- the condition. warnNon act | null non_deletees = act | otherwise = do putMsg dflags (text "WARNING - NOT deleting source files:" <+> hsep (map text non_deletees)) act (non_deletees, deletees) = partition isHaskellUserSrcFilename fs removeWith :: DynFlags -> (FilePath -> IO ()) -> FilePath -> IO () removeWith dflags remover f = remover f `catchIO` (\e -> let msg = if isDoesNotExistError e then ptext (sLit "Warning: deleting non-existent") <+> text f else ptext (sLit "Warning: exception raised when deleting") <+> text f <> colon $$ text (show e) in debugTraceMsg dflags 2 msg ) ----------------------------------------------------------------------------- -- Running an external program runSomething :: DynFlags -> String -- For -v message -> String -- Command name (possibly a full path) -- assumed already dos-ified -> [Option] -- Arguments -- runSomething will dos-ify them -> IO () runSomething dflags phase_name pgm args = runSomethingFiltered dflags id phase_name pgm args Nothing runSomethingFiltered :: DynFlags -> (String->String) -> String -> String -> [Option] -> Maybe [(String,String)] -> IO () runSomethingFiltered dflags filter_fn phase_name pgm args mb_env = do runSomethingWith dflags phase_name pgm args $ \real_args -> do r <- builderMainLoop dflags filter_fn pgm real_args mb_env return (r,()) runSomethingWith :: DynFlags -> String -> String -> [Option] -> ([String] -> IO (ExitCode, a)) -> IO a runSomethingWith dflags phase_name pgm args io = do let real_args = filter notNull (map showOpt args) cmdLine = showCommandForUser pgm real_args traceCmd dflags phase_name cmdLine $ handleProc pgm phase_name $ io real_args handleProc :: String -> String -> IO (ExitCode, r) -> IO r handleProc pgm phase_name proc = do (rc, r) <- proc `catchIO` handler case rc of ExitSuccess{} -> return r ExitFailure n -- rawSystem returns (ExitFailure 127) if the exec failed for any -- reason (eg. the program doesn't exist). This is the only clue -- we have, but we need to report something to the user because in -- the case of a missing program there will otherwise be no output -- at all. | n == 127 -> does_not_exist | otherwise -> ghcError (PhaseFailed phase_name rc) where handler err = if IO.isDoesNotExistError err then does_not_exist else IO.ioError err does_not_exist = ghcError (InstallationError ("could not execute: " ++ pgm)) builderMainLoop :: DynFlags -> (String -> String) -> FilePath -> [String] -> Maybe [(String, String)] -> IO ExitCode builderMainLoop dflags filter_fn pgm real_args mb_env = do chan <- newChan (hStdIn, hStdOut, hStdErr, hProcess) <- runInteractiveProcess pgm real_args Nothing mb_env -- and run a loop piping the output from the compiler to the log_action in DynFlags hSetBuffering hStdOut LineBuffering hSetBuffering hStdErr LineBuffering _ <- forkIO (readerProc chan hStdOut filter_fn) _ <- forkIO (readerProc chan hStdErr filter_fn) -- we don't want to finish until 2 streams have been completed -- (stdout and stderr) -- nor until 1 exit code has been retrieved. rc <- loop chan hProcess (2::Integer) (1::Integer) ExitSuccess -- after that, we're done here. hClose hStdIn hClose hStdOut hClose hStdErr return rc where -- status starts at zero, and increments each time either -- a reader process gets EOF, or the build proc exits. We wait -- for all of these to happen (status==3). -- ToDo: we should really have a contingency plan in case any of -- the threads dies, such as a timeout. loop _ _ 0 0 exitcode = return exitcode loop chan hProcess t p exitcode = do mb_code <- if p > 0 then getProcessExitCode hProcess else return Nothing case mb_code of Just code -> loop chan hProcess t (p-1) code Nothing | t > 0 -> do msg <- readChan chan case msg of BuildMsg msg -> do log_action dflags dflags SevInfo noSrcSpan defaultUserStyle msg loop chan hProcess t p exitcode BuildError loc msg -> do log_action dflags dflags SevError (mkSrcSpan loc loc) defaultUserStyle msg loop chan hProcess t p exitcode EOF -> loop chan hProcess (t-1) p exitcode | otherwise -> loop chan hProcess t p exitcode readerProc :: Chan BuildMessage -> Handle -> (String -> String) -> IO () readerProc chan hdl filter_fn = (do str <- hGetContents hdl loop (linesPlatform (filter_fn str)) Nothing) `finally` writeChan chan EOF -- ToDo: check errors more carefully -- ToDo: in the future, the filter should be implemented as -- a stream transformer. where loop [] Nothing = return () loop [] (Just err) = writeChan chan err loop (l:ls) in_err = case in_err of Just err@(BuildError srcLoc msg) | leading_whitespace l -> do loop ls (Just (BuildError srcLoc (msg $$ text l))) | otherwise -> do writeChan chan err checkError l ls Nothing -> do checkError l ls _ -> panic "readerProc/loop" checkError l ls = case parseError l of Nothing -> do writeChan chan (BuildMsg (text l)) loop ls Nothing Just (file, lineNum, colNum, msg) -> do let srcLoc = mkSrcLoc (mkFastString file) lineNum colNum loop ls (Just (BuildError srcLoc (text msg))) leading_whitespace [] = False leading_whitespace (x:_) = isSpace x parseError :: String -> Maybe (String, Int, Int, String) parseError s0 = case breakColon s0 of Just (filename, s1) -> case breakIntColon s1 of Just (lineNum, s2) -> case breakIntColon s2 of Just (columnNum, s3) -> Just (filename, lineNum, columnNum, s3) Nothing -> Just (filename, lineNum, 0, s2) Nothing -> Nothing Nothing -> Nothing breakColon :: String -> Maybe (String, String) breakColon xs = case break (':' ==) xs of (ys, _:zs) -> Just (ys, zs) _ -> Nothing breakIntColon :: String -> Maybe (Int, String) breakIntColon xs = case break (':' ==) xs of (ys, _:zs) | not (null ys) && all isAscii ys && all isDigit ys -> Just (read ys, zs) _ -> Nothing data BuildMessage = BuildMsg !SDoc | BuildError !SrcLoc !SDoc | EOF traceCmd :: DynFlags -> String -> String -> IO a -> IO a -- trace the command (at two levels of verbosity) traceCmd dflags phase_name cmd_line action = do { let verb = verbosity dflags ; showPass dflags phase_name ; debugTraceMsg dflags 3 (text cmd_line) ; case flushErr dflags of FlushErr io -> io -- And run it! ; action `catchIO` handle_exn verb } where handle_exn _verb exn = do { debugTraceMsg dflags 2 (char '\n') ; debugTraceMsg dflags 2 (ptext (sLit "Failed:") <+> text cmd_line <+> text (show exn)) ; ghcError (PhaseFailed phase_name (ExitFailure 1)) } \end{code} %************************************************************************ %* * \subsection{Support code} %* * %************************************************************************ \begin{code} ----------------------------------------------------------------------------- -- Define getBaseDir :: IO (Maybe String) getBaseDir :: IO (Maybe String) #if defined(mingw32_HOST_OS) -- Assuming we are running ghc, accessed by path $(stuff)/bin/ghc.exe, -- return the path $(stuff)/lib. getBaseDir = try_size 2048 -- plenty, PATH_MAX is 512 under Win32. where try_size size = allocaArray (fromIntegral size) $ \buf -> do ret <- c_GetModuleFileName nullPtr buf size case ret of 0 -> return Nothing _ | ret < size -> fmap (Just . rootDir) $ peekCWString buf | otherwise -> try_size (size * 2) rootDir s = case splitFileName $ normalise s of (d, ghc_exe) | lower ghc_exe `elem` ["ghc.exe", "ghc-stage1.exe", "ghc-stage2.exe", "ghc-stage3.exe"] -> case splitFileName $ takeDirectory d of -- ghc is in $topdir/bin/ghc.exe (d', bin) | lower bin == "bin" -> takeDirectory d' "lib" _ -> fail _ -> fail where fail = panic ("can't decompose ghc.exe path: " ++ show s) lower = map toLower foreign import WINDOWS_CCONV unsafe "windows.h GetModuleFileNameW" c_GetModuleFileName :: Ptr () -> CWString -> Word32 -> IO Word32 #else getBaseDir = return Nothing #endif #ifdef mingw32_HOST_OS foreign import ccall unsafe "_getpid" getProcessID :: IO Int -- relies on Int == Int32 on Windows #else getProcessID :: IO Int getProcessID = System.Posix.Internals.c_getpid >>= return . fromIntegral #endif -- Divvy up text stream into lines, taking platform dependent -- line termination into account. linesPlatform :: String -> [String] #if !defined(mingw32_HOST_OS) linesPlatform ls = lines ls #else linesPlatform "" = [] linesPlatform xs = case lineBreak xs of (as,xs1) -> as : linesPlatform xs1 where lineBreak "" = ("","") lineBreak ('\r':'\n':xs) = ([],xs) lineBreak ('\n':xs) = ([],xs) lineBreak (x:xs) = let (as,bs) = lineBreak xs in (x:as,bs) #endif \end{code}